text stringlengths 12 786k |
|---|
let dummy_table = { methods = [ | dummy_item ] ; | methods_by_name = Meths . empty ; methods_by_label = Labs . empty ; previous_states = [ ] ; hidden_meths = [ ] ; vars = Vars . empty ; initializers = [ ] ; size = 0 } |
let table_count = ref 0 |
let dummy_met : item = of_repr ( new_block 0 0 ) |
let rec fit_size n = if n <= 2 then n else fit_size ( ( n + 1 ) / 2 ) * 2 |
let new_table pub_labels = incr table_count ; let len = Array . length pub_labels in let methods = Array . make ( len * 2 + 2 ) dummy_met in methods . ( 0 ) <- magic len ; methods . ( 1 ) <- magic ( fit_size len * Sys . word_size / 8 - 1 ) ; for i = 0 to len - 1 do methods . ( i * 2 + 3 ) <- magic pub_labels . ( i ) done ; { methods = methods ; methods_by_name = Meths . empty ; methods_by_label = Labs . empty ; previous_states = [ ] ; hidden_meths = [ ] ; vars = Vars . empty ; initializers = [ ] ; size = initial_object_size } |
let resize array new_size = let old_size = Array . length array . methods in if new_size > old_size then begin let new_buck = Array . make new_size dummy_met in Array . blit array . methods 0 new_buck 0 old_size ; array . methods <- new_buck end |
let put array label element = resize array ( label + 1 ) ; array . methods . ( label ) <- element |
let method_count = ref 0 |
let inst_var_count = ref 0 |
let new_method table = let index = Array . length table . methods in resize table ( index + 1 ) ; index |
let get_method_label table name = try Meths . find name table . methods_by_name with Not_found -> let label = new_method table in table . methods_by_name <- Meths . add name label table . methods_by_name ; table . methods_by_label <- Labs . add label true table . methods_by_label ; label |
let get_method_labels table names = Array . map ( get_method_label table ) names |
let set_method table label element = incr method_count ; if Labs . find label table . methods_by_label then put table label element else table . hidden_meths <- ( label , element ) :: table . hidden_meths |
let get_method table label = try List . assoc label table . hidden_meths with Not_found -> table . methods . ( label ) |
let to_list arr = if arr == magic 0 then [ ] else Array . to_list arr |
let narrow table vars virt_meths concr_meths = let vars = to_list vars and virt_meths = to_list virt_meths and concr_meths = to_list concr_meths in let virt_meth_labs = List . map ( get_method_label table ) virt_meths in let concr_meth_labs = List . map ( get_method_label table ) concr_meths in table . previous_states <- ( table . methods_by_name , table . methods_by_label , table . hidden_meths , table . vars , virt_meth_labs , vars ) :: table . previous_states ; table . vars <- Vars . fold ( fun lab info tvars -> if List . mem lab vars then Vars . add lab info tvars else tvars ) table . vars Vars . empty ; let by_name = ref Meths . empty in let by_label = ref Labs . empty in List . iter2 ( fun met label -> by_name := Meths . add met label ! by_name ; by_label := Labs . add label ( try Labs . find label table . methods_by_label with Not_found -> true ) ! by_label ) concr_meths concr_meth_labs ; List . iter2 ( fun met label -> by_name := Meths . add met label ! by_name ; by_label := Labs . add label false ! by_label ) virt_meths virt_meth_labs ; table . methods_by_name <- ! by_name ; table . methods_by_label <- ! by_label ; table . hidden_meths <- List . fold_right ( fun ( ( lab , _ ) as met ) hm -> if List . mem lab virt_meth_labs then hm else met :: hm ) table . hidden_meths [ ] |
let widen table = let ( by_name , by_label , saved_hidden_meths , saved_vars , virt_meths , vars ) = List . hd table . previous_states in table . previous_states <- List . tl table . previous_states ; table . vars <- List . fold_left ( fun s v -> Vars . add v ( Vars . find v table . vars ) s ) saved_vars vars ; table . methods_by_name <- by_name ; table . methods_by_label <- by_label ; table . hidden_meths <- List . fold_right ( fun ( ( lab , _ ) as met ) hm -> if List . mem lab virt_meths then hm else met :: hm ) table . hidden_meths saved_hidden_meths |
let new_slot table = let index = table . size in table . size <- index + 1 ; index |
let new_variable table name = try Vars . find name table . vars with Not_found -> let index = new_slot table in if name <> " " then table . vars <- Vars . add name index table . vars ; index |
let to_array arr = if arr = magic 0 then [ ] || else arr |
let new_methods_variables table meths vals = let meths = to_array meths in let nmeths = Array . length meths and nvals = Array . length vals in let res = Array . make ( nmeths + nvals ) 0 in for i = 0 to nmeths - 1 do res . ( i ) <- get_method_label table meths . ( i ) done ; for i = 0 to nvals - 1 do res . ( i + nmeths ) <- new_variable table vals . ( i ) done ; res |
let get_variable table name = try Vars . find name table . vars with Not_found -> assert false |
let get_variables table names = Array . map ( get_variable table ) names |
let add_initializer table f = table . initializers <- f :: table . initializers |
let create_table public_methods = if public_methods == magic 0 then new_table [ ] || else let tags = Array . map public_method_label public_methods in let table = new_table tags in Array . iteri ( fun i met -> let lab = i * 2 + 2 in table . methods_by_name <- Meths . add met lab table . methods_by_name ; table . methods_by_label <- Labs . add lab true table . methods_by_label ) public_methods ; table |
let init_class table = inst_var_count := ! inst_var_count + table . size - 1 ; table . initializers <- List . rev table . initializers ; resize table ( 3 + magic table . methods . ( 1 ) * 16 / Sys . word_size ) |
let inherits cla vals virt_meths concr_meths ( _ , super , _ , env ) top = narrow cla vals virt_meths concr_meths ; let init = if top then super cla env else repr ( super cla ) in widen cla ; Array . concat [ [ | repr init ] ; | magic ( Array . map ( get_variable cla ) ( to_array vals ) : int array ) ; Array . map ( fun nm -> repr ( get_method cla ( get_method_label cla nm ) : closure ) ) ( to_array concr_meths ) ] |
let make_class pub_meths class_init = let table = create_table pub_meths in let env_init = class_init table in init_class table ; ( env_init ( repr 0 ) , class_init , env_init , repr 0 ) |
type init_table = { mutable env_init : t ; mutable class_init : table -> t } |
let make_class_store pub_meths class_init init_table = let table = create_table pub_meths in let env_init = class_init table in init_class table ; init_table . class_init <- class_init ; init_table . env_init <- env_init |
let dummy_class loc = let undef = fun _ -> raise ( Undefined_recursive_module loc ) in ( magic undef , undef , undef , repr 0 ) |
let create_object table = let obj = new_block Obj . object_tag table . size in set_field obj 0 ( repr table . methods ) ; of_repr ( set_id obj ) |
let create_object_opt obj_0 table = if ( magic obj_0 : bool ) then obj_0 else begin let obj = new_block Obj . object_tag table . size in set_field obj 0 ( repr table . methods ) ; of_repr ( set_id obj ) end |
let rec iter_f obj = function [ ] -> ( ) | f :: l -> f obj ; iter_f obj l |
let run_initializers obj table = let inits = table . initializers in if inits <> [ ] then iter_f obj inits |
let run_initializers_opt obj_0 obj table = if ( magic obj_0 : bool ) then obj else begin let inits = table . initializers in if inits <> [ ] then iter_f obj inits ; obj end |
let create_object_and_run_initializers obj_0 table = if ( magic obj_0 : bool ) then obj_0 else begin let obj = create_object table in run_initializers obj table ; obj end = " caml_get_public_method " [ @@ noalloc ] |
type tables = | Empty | Cons of { key : closure ; mutable data : tables ; mutable next : tables } |
let set_data tables v = match tables with | Empty -> assert false | Cons tables -> tables . data <- v |
let set_next tables v = match tables with | Empty -> assert false | Cons tables -> tables . next <- v |
let get_key = function | Empty -> assert false | Cons tables -> tables . key |
let get_data = function | Empty -> assert false | Cons tables -> tables . data |
let get_next = function | Empty -> assert false | Cons tables -> tables . next |
let build_path n keys tables = let obj_zero = magic 0 in let res = Cons { key = obj_zero ; data = Empty ; next = Empty } in let r = ref res in for i = 0 to n do r := Cons { key = keys . ( i ) ; data = ! r ; next = Empty } done ; set_data tables ! r ; res |
let rec lookup_keys i keys tables = if i < 0 then tables else let key = keys . ( i ) in let rec lookup_key ( tables : tables ) = if get_key tables == key then match get_data tables with | Empty -> assert false | Cons _ as tables_data -> lookup_keys ( i - 1 ) keys tables_data else match get_next tables with | Cons _ as next -> lookup_key next | Empty -> let next : tables = Cons { key ; data = Empty ; next = Empty } in set_next tables next ; build_path ( i - 1 ) keys next in lookup_key tables |
let lookup_tables root keys = match get_data root with | Cons _ as root_data -> lookup_keys ( Array . length keys - 1 ) keys root_data | Empty -> build_path ( Array . length keys - 1 ) keys root |
let get_const x = ret ( fun _obj -> x ) |
let get_var n = ret ( fun obj -> get_object_field obj n ) |
let get_env e n = ret ( fun obj -> get_object_field ( magic ( get_object_field obj e ) : obj ) n ) |
let get_meth n = ret ( fun obj -> sendself obj n ) |
let set_var n = ret ( fun obj x -> set_object_field obj n x ) |
let app_const f x = ret ( fun _obj -> f x ) |
let app_var f n = ret ( fun obj -> f ( get_object_field obj n ) ) |
let app_env f e n = ret ( fun obj -> f ( get_object_field ( magic ( get_object_field obj e ) : obj ) n ) ) |
let app_meth f n = ret ( fun obj -> f ( sendself obj n ) ) |
let app_const_const f x y = ret ( fun _obj -> f x y ) |
let app_const_var f x n = ret ( fun obj -> f x ( get_object_field obj n ) ) |
let app_const_meth f x n = ret ( fun obj -> f x ( sendself obj n ) ) |
let app_var_const f n x = ret ( fun obj -> f ( get_object_field obj n ) x ) |
let app_meth_const f n x = ret ( fun obj -> f ( sendself obj n ) x ) |
let app_const_env f x e n = ret ( fun obj -> f x ( get_object_field ( magic ( get_object_field obj e ) : obj ) n ) ) |
let app_env_const f e n x = ret ( fun obj -> f ( get_object_field ( magic ( get_object_field obj e ) : obj ) n ) x ) |
let meth_app_const n x = ret ( fun obj -> ( sendself obj n : _ -> _ ) x ) |
let meth_app_var n m = ret ( fun obj -> ( sendself obj n : _ -> _ ) ( get_object_field obj m ) ) |
let meth_app_env n e m = ret ( fun obj -> ( sendself obj n : _ -> _ ) ( get_object_field ( magic ( get_object_field obj e ) : obj ) m ) ) |
let meth_app_meth n m = ret ( fun obj -> ( sendself obj n : _ -> _ ) ( sendself obj m ) ) |
let send_const m x c = ret ( fun obj -> sendcache x m ( get_object_field obj 0 ) c ) |
let send_var m n c = ret ( fun obj -> sendcache ( magic ( get_object_field obj n ) : obj ) m ( get_object_field obj 0 ) c ) |
let send_env m e n c = ret ( fun obj -> sendcache ( magic ( get_object_field ( magic ( get_object_field obj e ) : obj ) n ) : obj ) m ( get_object_field obj 0 ) c ) |
let send_meth m n c = ret ( fun obj -> sendcache ( sendself obj n ) m ( get_object_field obj 0 ) c ) |
let new_cache table = let n = new_method table in let n = if n mod 2 = 0 || n > 2 + magic table . methods . ( 1 ) * 16 / Sys . word_size then n else new_method table in table . methods . ( n ) <- magic 0 ; n |
type impl = GetConst | GetVar | GetEnv | GetMeth | SetVar | AppConst | AppVar | AppEnv | AppMeth | AppConstConst | AppConstVar | AppConstEnv | AppConstMeth | AppVarConst | AppEnvConst | AppMethConst | MethAppConst | MethAppVar | MethAppEnv | MethAppMeth | SendConst | SendVar | SendEnv | SendMeth | Closure of closure |
let method_impl table i arr = let next ( ) = incr i ; magic arr . ( ! i ) in match next ( ) with GetConst -> let x : t = next ( ) in get_const x | GetVar -> let n = next ( ) in get_var n | GetEnv -> let e = next ( ) in let n = next ( ) in get_env e n | GetMeth -> let n = next ( ) in get_meth n | SetVar -> let n = next ( ) in set_var n | AppConst -> let f = next ( ) in let x = next ( ) in app_const f x | AppVar -> let f = next ( ) in let n = next ( ) in app_var f n | AppEnv -> let f = next ( ) in let e = next ( ) in let n = next ( ) in app_env f e n | AppMeth -> let f = next ( ) in let n = next ( ) in app_meth f n | AppConstConst -> let f = next ( ) in let x = next ( ) in let y = next ( ) in app_const_const f x y | AppConstVar -> let f = next ( ) in let x = next ( ) in let n = next ( ) in app_const_var f x n | AppConstEnv -> let f = next ( ) in let x = next ( ) in let e = next ( ) in let n = next ( ) in app_const_env f x e n | AppConstMeth -> let f = next ( ) in let x = next ( ) in let n = next ( ) in app_const_meth f x n | AppVarConst -> let f = next ( ) in let n = next ( ) in let x = next ( ) in app_var_const f n x | AppEnvConst -> let f = next ( ) in let e = next ( ) in let n = next ( ) in let x = next ( ) in app_env_const f e n x | AppMethConst -> let f = next ( ) in let n = next ( ) in let x = next ( ) in app_meth_const f n x | MethAppConst -> let n = next ( ) in let x = next ( ) in meth_app_const n x | MethAppVar -> let n = next ( ) in let m = next ( ) in meth_app_var n m | MethAppEnv -> let n = next ( ) in let e = next ( ) in let m = next ( ) in meth_app_env n e m | MethAppMeth -> let n = next ( ) in let m = next ( ) in meth_app_meth n m | SendConst -> let m = next ( ) in let x = next ( ) in send_const m x ( new_cache table ) | SendVar -> let m = next ( ) in let n = next ( ) in send_var m n ( new_cache table ) | SendEnv -> let m = next ( ) in let e = next ( ) in let n = next ( ) in send_env m e n ( new_cache table ) | SendMeth -> let m = next ( ) in let n = next ( ) in send_meth m n ( new_cache table ) | Closure _ as clo -> magic clo |
let set_methods table methods = let len = Array . length methods in let i = ref 0 in while ! i < len do let label = methods . ( ! i ) in let clo = method_impl table i methods in set_method table label clo ; incr i done |
type stats = { classes : int ; methods : int ; inst_vars : int ; } |
let stats ( ) = { classes = ! table_count ; methods = ! method_count ; inst_vars = ! inst_var_count ; } |
module Debug : sig type section = string val mode : section -> bool val printf : section -> ( ' a , Format . formatter , unit ) format -> ' a end = struct open Format module Debug = struct let mode _ = false end type section = string let out_channel = try let f = Sys . getenv " CAMLP4_DEBUG_FILE " in open_out_gen [ Open_wronly ; Open_creat ; Open_append ; Open_text ] 0o666 f with | Not_found -> Pervasives . stderr module StringSet = Set . Make ( String ) let mode = try let str = Sys . getenv " CAMLP4_DEBUG " in let rec loop acc i = try let pos = String . index_from str i ' ' : in loop ( StringSet . add ( String . sub str i ( pos - i ) ) acc ) ( pos + 1 ) with | Not_found -> StringSet . add ( String . sub str i ( ( String . length str ) - i ) ) acc in let sections = loop StringSet . empty 0 in if StringSet . mem " " * sections then ( fun _ -> true ) else ( fun x -> StringSet . mem x sections ) with | Not_found -> ( fun _ -> false ) let formatter = let header = " camlp4 - debug : " in let normal s = let rec self from accu = try let i = String . index_from s from ' \ n ' in self ( i + 1 ) ( ( String . sub s from ( ( i - from ) + 1 ) ) :: accu ) with | Not_found -> ( String . sub s from ( ( String . length s ) - from ) ) :: accu in String . concat header ( List . rev ( self 0 [ ] ) ) in let after_new_line str = header ^ ( normal str ) in let f = ref after_new_line in let output str chr = ( output_string out_channel ( ! f str ) ; output_char out_channel chr ; f := if chr = ' \ n ' then after_new_line else normal ) in make_formatter ( fun buf pos len -> let p = pred len in output ( String . sub buf pos p ) buf . [ pos + p ] ) ( fun ( ) -> flush out_channel ) let printf section fmt = fprintf formatter ( " % s : " ^^ fmt ) section end |
module Options : sig type spec_list = ( string * Arg . spec * string ) list val init : spec_list -> unit val add : string -> Arg . spec -> string -> unit val print_usage_list : spec_list -> unit val ext_spec_list : unit -> spec_list val parse : ( string -> unit ) -> string array -> string list end = struct type spec_list = ( string * Arg . spec * string ) list open Format let rec action_arg s sl = function | Arg . Unit f -> if s = " " then ( f ( ) ; Some sl ) else None | Arg . Bool f -> if s = " " then ( match sl with | s :: sl -> ( try ( f ( bool_of_string s ) ; Some sl ) with | Invalid_argument " bool_of_string " -> None ) | [ ] -> None ) else ( try ( f ( bool_of_string s ) ; Some sl ) with | Invalid_argument " bool_of_string " -> None ) | Arg . Set r -> if s = " " then ( r := true ; Some sl ) else None | Arg . Clear r -> if s = " " then ( r := false ; Some sl ) else None | Arg . Rest f -> ( List . iter f ( s :: sl ) ; Some [ ] ) | Arg . String f -> if s = " " then ( match sl with | s :: sl -> ( f s ; Some sl ) | [ ] -> None ) else ( f s ; Some sl ) | Arg . Set_string r -> if s = " " then ( match sl with | s :: sl -> ( r := s ; Some sl ) | [ ] -> None ) else ( r := s ; Some sl ) | Arg . Int f -> if s = " " then ( match sl with | s :: sl -> ( try ( f ( int_of_string s ) ; Some sl ) with | Failure " int_of_string " -> None ) | [ ] -> None ) else ( try ( f ( int_of_string s ) ; Some sl ) with | Failure " int_of_string " -> None ) | Arg . Set_int r -> if s = " " then ( match sl with | s :: sl -> ( try ( r := int_of_string s ; Some sl ) with | Failure " int_of_string " -> None ) | [ ] -> None ) else ( try ( r := int_of_string s ; Some sl ) with | Failure " int_of_string " -> None ) | Arg . Float f -> if s = " " then ( match sl with | s :: sl -> ( f ( float_of_string s ) ; Some sl ) | [ ] -> None ) else ( f ( float_of_string s ) ; Some sl ) | Arg . Set_float r -> if s = " " then ( match sl with | s :: sl -> ( r := float_of_string s ; Some sl ) | [ ] -> None ) else ( r := float_of_string s ; Some sl ) | Arg . Tuple specs -> let rec action_args s sl = ( function | [ ] -> Some sl | spec :: spec_list -> ( match action_arg s sl spec with | None -> action_args " " [ ] spec_list | Some ( s :: sl ) -> action_args s sl spec_list | Some sl -> action_args " " sl spec_list ) ) in action_args s sl specs | Arg . Symbol ( syms , f ) -> ( match if s = " " then sl else s :: sl with | s :: sl when List . mem s syms -> ( f s ; Some sl ) | _ -> None ) let common_start s1 s2 = let rec loop i = if ( i == ( String . length s1 ) ) || ( i == ( String . length s2 ) ) then i else if s1 . [ i ] == s2 . [ i ] then loop ( i + 1 ) else i in loop 0 let parse_arg fold s sl = fold ( fun ( name , action , _ ) acu -> let i = common_start s name in if i == ( String . length name ) then ( try action_arg ( String . sub s i ( ( String . length s ) - i ) ) sl action with | Arg . Bad _ -> acu ) else acu ) None let rec parse_aux fold anon_fun = function | [ ] -> [ ] | s :: sl -> if ( ( String . length s ) > 1 ) && ( s . [ 0 ] = ' ' ) - then ( match parse_arg fold s sl with | Some sl -> parse_aux fold anon_fun sl | None -> s :: ( parse_aux fold anon_fun sl ) ) else ( ( anon_fun s : unit ) ; parse_aux fold anon_fun sl ) let align_doc key s = let s = let rec loop i = if i = ( String . length s ) then " " else if s . [ i ] = ' ' then loop ( i + 1 ) else String . sub s i ( ( String . length s ) - i ) in loop 0 in let ( p , s ) = if ( String . length s ) > 0 then if s . [ 0 ] = ' ' < then ( let rec loop i = if i = ( String . length s ) then ( " " , s ) else if s . [ i ] <> ' ' > then loop ( i + 1 ) else ( let p = String . sub s 0 ( i + 1 ) in let rec loop i = if i >= ( String . length s ) then ( p , " " ) else if s . [ i ] = ' ' then loop ( i + 1 ) else ( p , ( String . sub s i ( ( String . length s ) - i ) ) ) in loop ( i + 1 ) ) in loop 0 ) else ( " " , s ) else ( " " , " " ) in let tab = String . make ( max 1 ( ( 16 - ( String . length key ) ) - ( String . length p ) ) ) ' ' in p ^ ( tab ^ s ) let make_symlist l = match l with | [ ] -> " < none " > | h :: t -> ( List . fold_left ( fun x y -> x ^ ( " " | ^ y ) ) ( " { " ^ h ) t ) ^ " } " let print_usage_list l = List . iter ( fun ( key , spec , doc ) -> match spec with | Arg . Symbol ( symbs , _ ) -> let s = make_symlist symbs in let synt = key ^ ( " " ^ s ) in eprintf " % s % s \ n " synt ( align_doc synt doc ) | _ -> eprintf " % s % s \ n " key ( align_doc key doc ) ) l let remaining_args argv = let rec loop l i = if i == ( Array . length argv ) then l else loop ( argv . ( i ) :: l ) ( i + 1 ) in List . rev ( loop [ ] ( ! Arg . current + 1 ) ) let init_spec_list = ref [ ] let ext_spec_list = ref [ ] let init spec_list = init_spec_list := spec_list let add name spec descr = ext_spec_list := ( name , spec , descr ) :: ! ext_spec_list let fold f init = let spec_list = ! init_spec_list @ ! ext_spec_list in let specs = Sort . list ( fun ( k1 , _ , _ ) ( k2 , _ , _ ) -> k1 >= k2 ) spec_list in List . fold_right f specs init let parse anon_fun argv = let remaining_args = remaining_args argv in parse_aux fold anon_fun remaining_args let ext_spec_list ( ) = ! ext_spec_list end |
module Sig = struct module type Type = sig type t end module type Error = sig type t exception E of t val to_string : t -> string val print : Format . formatter -> t -> unit end module type Id = sig val name : string val version : string end module Warning ( Loc : Type ) = struct module type S = sig type warning = Loc . t -> string -> unit val default_warning : warning val current_warning : warning ref val print_warning : warning end end module type Loc = sig type t val mk : string -> t val ghost : t val of_lexing_position : Lexing . position -> t val to_ocaml_location : t -> Camlp4_import . Location . t val of_ocaml_location : Camlp4_import . Location . t -> t val of_lexbuf : Lexing . lexbuf -> t val of_tuple : ( string * int * int * int * int * int * int * bool ) -> t val to_tuple : t -> ( string * int * int * int * int * int * int * bool ) val merge : t -> t -> t val join : t -> t val move : [ | ` start | ` stop | ` both ] -> int -> t -> t val shift : int -> t -> t val move_line : int -> t -> t val file_name : t -> string val start_line : t -> int val stop_line : t -> int val start_bol : t -> int val stop_bol : t -> int val start_off : t -> int val stop_off : t -> int val start_pos : t -> Lexing . position val stop_pos : t -> Lexing . position val is_ghost : t -> bool val ghostify : t -> t val set_file_name : string -> t -> t val strictly_before : t -> t -> bool val make_absolute : t -> t val print : Format . formatter -> t -> unit val dump : Format . formatter -> t -> unit val to_string : t -> string exception Exc_located of t * exn val raise : t -> exn -> ' a val name : string ref end module type Ast = sig type loc type meta_bool type ' a meta_option type ' a meta_list type ctyp type patt type expr type module_type type sig_item type with_constr type module_expr type str_item type class_type type class_sig_item type class_expr type class_str_item type match_case type ident type binding type rec_binding type module_binding type rec_flag type direction_flag type mutable_flag type private_flag type virtual_flag type row_var_flag type override_flag val loc_of_ctyp : ctyp -> loc val loc_of_patt : patt -> loc val loc_of_expr : expr -> loc val loc_of_module_type : module_type -> loc val loc_of_module_expr : module_expr -> loc val loc_of_sig_item : sig_item -> loc val loc_of_str_item : str_item -> loc val loc_of_class_type : class_type -> loc val loc_of_class_sig_item : class_sig_item -> loc val loc_of_class_expr : class_expr -> loc val loc_of_class_str_item : class_str_item -> loc val loc_of_with_constr : with_constr -> loc val loc_of_binding : binding -> loc val loc_of_rec_binding : rec_binding -> loc val loc_of_module_binding : module_binding -> loc val loc_of_match_case : match_case -> loc val loc_of_ident : ident -> loc class map : object ( ' self_type ) method string : string -> string method list : ' a ' b . ( ' self_type -> ' a -> ' b ) -> ' a list -> ' b list method meta_bool : meta_bool -> meta_bool method meta_option : ' a ' b . ( ' self_type -> ' a -> ' b ) -> ' a meta_option -> ' b meta_option method meta_list : ' a ' b . ( ' self_type -> ' a -> ' b ) -> ' a meta_list -> ' b meta_list method loc : loc -> loc method expr : expr -> expr method patt : patt -> patt method ctyp : ctyp -> ctyp method str_item : str_item -> str_item method sig_item : sig_item -> sig_item method module_expr : module_expr -> module_expr method module_type : module_type -> module_type method class_expr : class_expr -> class_expr method class_type : class_type -> class_type method class_sig_item : class_sig_item -> class_sig_item method class_str_item : class_str_item -> class_str_item method with_constr : with_constr -> with_constr method binding : binding -> binding method rec_binding : rec_binding -> rec_binding method module_binding : module_binding -> module_binding method match_case : match_case -> match_case method ident : ident -> ident method override_flag : override_flag -> override_flag method mutable_flag : mutable_flag -> mutable_flag method private_flag : private_flag -> private_flag method virtual_flag : virtual_flag -> virtual_flag method direction_flag : direction_flag -> direction_flag method rec_flag : rec_flag -> rec_flag method row_var_flag : row_var_flag -> row_var_flag method unknown : ' a . ' a -> ' a end class fold : object ( ' self_type ) method string : string -> ' self_type method list : ' a . ( ' self_type -> ' a -> ' self_type ) -> ' a list -> ' self_type method meta_bool : meta_bool -> ' self_type method meta_option : ' a . ( ' self_type -> ' a -> ' self_type ) -> ' a meta_option -> ' self_type method meta_list : ' a . ( ' self_type -> ' a -> ' self_type ) -> ' a meta_list -> ' self_type method loc : loc -> ' self_type method expr : expr -> ' self_type method patt : patt -> ' self_type method ctyp : ctyp -> ' self_type method str_item : str_item -> ' self_type method sig_item : sig_item -> ' self_type method module_expr : module_expr -> ' self_type method module_type : module_type -> ' self_type method class_expr : class_expr -> ' self_type method class_type : class_type -> ' self_type method class_sig_item : class_sig_item -> ' self_type method class_str_item : class_str_item -> ' self_type method with_constr : with_constr -> ' self_type method binding : binding -> ' self_type method rec_binding : rec_binding -> ' self_type method module_binding : module_binding -> ' self_type method match_case : match_case -> ' self_type method ident : ident -> ' self_type method rec_flag : rec_flag -> ' self_type method direction_flag : direction_flag -> ' self_type method mutable_flag : mutable_flag -> ' self_type method private_flag : private_flag -> ' self_type method virtual_flag : virtual_flag -> ' self_type method row_var_flag : row_var_flag -> ' self_type method override_flag : override_flag -> ' self_type method unknown : ' a . ' a -> ' self_type end end module type Camlp4Ast = sig module Loc : Loc type loc = Loc . t and meta_bool = | BTrue | BFalse | BAnt of string and rec_flag = | ReRecursive | ReNil | ReAnt of string and direction_flag = | DiTo | DiDownto | DiAnt of string and mutable_flag = | MuMutable | MuNil | MuAnt of string and private_flag = | PrPrivate | PrNil | PrAnt of string and virtual_flag = | ViVirtual | ViNil | ViAnt of string and override_flag = | OvOverride | OvNil | OvAnt of string and row_var_flag = | RvRowVar | RvNil | RvAnt of string and ' a meta_option = | ONone | OSome of ' a | OAnt of string and ' a meta_list = | LNil | LCons of ' a * ' a meta_list | LAnt of string and ident = | IdAcc of loc * ident * ident | IdApp of loc * ident * ident | IdLid of loc * string | IdUid of loc * string | IdAnt of loc * string and ctyp = | TyNil of loc | TyAli of loc * ctyp * ctyp | TyAny of loc | TyApp of loc * ctyp * ctyp | TyArr of loc * ctyp * ctyp | TyCls of loc * ident | TyLab of loc * string * ctyp | TyId of loc * ident | TyMan of loc * ctyp * ctyp | TyDcl of loc * string * ctyp list * ctyp * ( ctyp * ctyp ) list | TyObj of loc * ctyp * row_var_flag | TyOlb of loc * string * ctyp | TyPol of loc * ctyp * ctyp | TyQuo of loc * string | TyQuP of loc * string | TyQuM of loc * string | TyVrn of loc * string | TyRec of loc * ctyp | TyCol of loc * ctyp * ctyp | TySem of loc * ctyp * ctyp | TyCom of loc * ctyp * ctyp | TySum of loc * ctyp | TyOf of loc * ctyp * ctyp | TyAnd of loc * ctyp * ctyp | TyOr of loc * ctyp * ctyp | TyPrv of loc * ctyp | TyMut of loc * ctyp | TyTup of loc * ctyp | TySta of loc * ctyp * ctyp | TyVrnEq of loc * ctyp | TyVrnSup of loc * ctyp | TyVrnInf of loc * ctyp | TyVrnInfSup of loc * ctyp * ctyp | TyAmp of loc * ctyp * ctyp | TyOfAmp of loc * ctyp * ctyp | TyPkg of loc * module_type | TyAnt of loc * string and patt = | PaNil of loc | PaId of loc * ident | PaAli of loc * patt * patt | PaAnt of loc * string | PaAny of loc | PaApp of loc * patt * patt | PaArr of loc * patt | PaCom of loc * patt * patt | PaSem of loc * patt * patt | PaChr of loc * string | PaInt of loc * string | PaInt32 of loc * string | PaInt64 of loc * string | PaNativeInt of loc * string | PaFlo of loc * string | PaLab of loc * string * patt | PaOlb of loc * string * patt | PaOlbi of loc * string * patt * expr | PaOrp of loc * patt * patt | PaRng of loc * patt * patt | PaRec of loc * patt | PaEq of loc * ident * patt | PaStr of loc * string | PaTup of loc * patt | PaTyc of loc * patt * ctyp | PaTyp of loc * ident | PaVrn of loc * string | PaLaz of loc * patt and expr = | ExNil of loc | ExId of loc * ident | ExAcc of loc * expr * expr | ExAnt of loc * string | ExApp of loc * expr * expr | ExAre of loc * expr * expr | ExArr of loc * expr | ExSem of loc * expr * expr | ExAsf of loc | ExAsr of loc * expr | ExAss of loc * expr * expr | ExChr of loc * string | ExCoe of loc * expr * ctyp * ctyp | ExFlo of loc * string | ExFor of loc * string * expr * expr * direction_flag * expr | ExFun of loc * match_case | ExIfe of loc * expr * expr * expr | ExInt of loc * string | ExInt32 of loc * string | ExInt64 of loc * string | ExNativeInt of loc * string | ExLab of loc * string * expr | ExLaz of loc * expr | ExLet of loc * rec_flag * binding * expr | ExLmd of loc * string * module_expr * expr | ExMat of loc * expr * match_case | ExNew of loc * ident | ExObj of loc * patt * class_str_item | ExOlb of loc * string * expr | ExOvr of loc * rec_binding | ExRec of loc * rec_binding * expr | ExSeq of loc * expr | ExSnd of loc * expr * string | ExSte of loc * expr * expr | ExStr of loc * string | ExTry of loc * expr * match_case | ExTup of loc * expr | ExCom of loc * expr * expr | ExTyc of loc * expr * ctyp | ExVrn of loc * string | ExWhi of loc * expr * expr | ExOpI of loc * ident * expr | ExFUN of loc * string * expr | ExPkg of loc * module_expr and module_type = | MtNil of loc | MtId of loc * ident | MtFun of loc * string * module_type * module_type | MtQuo of loc * string | MtSig of loc * sig_item | MtWit of loc * module_type * with_constr | MtOf of loc * module_expr | MtAnt of loc * string and sig_item = | SgNil of loc | SgCls of loc * class_type | SgClt of loc * class_type | SgSem of loc * sig_item * sig_item | SgDir of loc * string * expr | SgExc of loc * ctyp | SgExt of loc * string * ctyp * string meta_list | SgInc of loc * module_type | SgMod of loc * string * module_type | SgRecMod of loc * module_binding | SgMty of loc * string * module_type | SgOpn of loc * ident | SgTyp of loc * ctyp | SgVal of loc * string * ctyp | SgAnt of loc * string and with_constr = | WcNil of loc | WcTyp of loc * ctyp * ctyp | WcMod of loc * ident * ident | WcTyS of loc * ctyp * ctyp | WcMoS of loc * ident * ident | WcAnd of loc * with_constr * with_constr | WcAnt of loc * string and binding = | BiNil of loc | BiAnd of loc * binding * binding | BiEq of loc * patt * expr | BiAnt of loc * string and rec_binding = | RbNil of loc | RbSem of loc * rec_binding * rec_binding | RbEq of loc * ident * expr | RbAnt of loc * string and module_binding = | MbNil of loc | MbAnd of loc * module_binding * module_binding | MbColEq of loc * string * module_type * module_expr | MbCol of loc * string * module_type | MbAnt of loc * string and match_case = | McNil of loc | McOr of loc * match_case * match_case | McArr of loc * patt * expr * expr | McAnt of loc * string and module_expr = | MeNil of loc | MeId of loc * ident | MeApp of loc * module_expr * module_expr | MeFun of loc * string * module_type * module_expr | MeStr of loc * str_item | MeTyc of loc * module_expr * module_type | MePkg of loc * expr | MeAnt of loc * string and str_item = | StNil of loc | StCls of loc * class_expr | StClt of loc * class_type | StSem of loc * str_item * str_item | StDir of loc * string * expr | StExc of loc * ctyp * ident meta_option | StExp of loc * expr | StExt of loc * string * ctyp * string meta_list | StInc of loc * module_expr | StMod of loc * string * module_expr | StRecMod of loc * module_binding | StMty of loc * string * module_type | StOpn of loc * ident | StTyp of loc * ctyp | StVal of loc * rec_flag * binding | StAnt of loc * string and class_type = | CtNil of loc | CtCon of loc * virtual_flag * ident * ctyp | CtFun of loc * ctyp * class_type | CtSig of loc * ctyp * class_sig_item | CtAnd of loc * class_type * class_type | CtCol of loc * class_type * class_type | CtEq of loc * class_type * class_type | CtAnt of loc * string and class_sig_item = | CgNil of loc | CgCtr of loc * ctyp * ctyp | CgSem of loc * class_sig_item * class_sig_item | CgInh of loc * class_type | CgMth of loc * string * private_flag * ctyp | CgVal of loc * string * mutable_flag * virtual_flag * ctyp | CgVir of loc * string * private_flag * ctyp | CgAnt of loc * string and class_expr = | CeNil of loc | CeApp of loc * class_expr * expr | CeCon of loc * virtual_flag * ident * ctyp | CeFun of loc * patt * class_expr | CeLet of loc * rec_flag * binding * class_expr | CeStr of loc * patt * class_str_item | CeTyc of loc * class_expr * class_type | CeAnd of loc * class_expr * class_expr | CeEq of loc * class_expr * class_expr | CeAnt of loc * string and class_str_item = | CrNil of loc | CrSem of loc * class_str_item * class_str_item | CrCtr of loc * ctyp * ctyp | CrInh of loc * override_flag * class_expr * string | CrIni of loc * expr | CrMth of loc * string * override_flag * private_flag * expr * ctyp | CrVal of loc * string * override_flag * mutable_flag * expr | CrVir of loc * string * private_flag * ctyp | CrVvr of loc * string * mutable_flag * ctyp | CrAnt of loc * string val loc_of_ctyp : ctyp -> loc val loc_of_patt : patt -> loc val loc_of_expr : expr -> loc val loc_of_module_type : module_type -> loc val loc_of_module_expr : module_expr -> loc val loc_of_sig_item : sig_item -> loc val loc_of_str_item : str_item -> loc val loc_of_class_type : class_type -> loc val loc_of_class_sig_item : class_sig_item -> loc val loc_of_class_expr : class_expr -> loc val loc_of_class_str_item : class_str_item -> loc val loc_of_with_constr : with_constr -> loc val loc_of_binding : binding -> loc val loc_of_rec_binding : rec_binding -> loc val loc_of_module_binding : module_binding -> loc val loc_of_match_case : match_case -> loc val loc_of_ident : ident -> loc module Meta : sig module type META_LOC = sig val meta_loc_patt : loc -> loc -> patt val meta_loc_expr : loc -> loc -> expr end module MetaLoc : sig val meta_loc_patt : loc -> loc -> patt val meta_loc_expr : loc -> loc -> expr end module MetaGhostLoc : sig val meta_loc_patt : loc -> ' a -> patt val meta_loc_expr : loc -> ' a -> expr end module MetaLocVar : sig val meta_loc_patt : loc -> ' a -> patt val meta_loc_expr : loc -> ' a -> expr end module Make ( MetaLoc : META_LOC ) : sig module Expr : sig val meta_string : loc -> string -> expr val meta_int : loc -> string -> expr val meta_float : loc -> string -> expr val meta_char : loc -> string -> expr val meta_bool : loc -> bool -> expr val meta_list : ( loc -> ' a -> expr ) -> loc -> ' a list -> expr val meta_binding : loc -> binding -> expr val meta_rec_binding : loc -> rec_binding -> expr val meta_class_expr : loc -> class_expr -> expr val meta_class_sig_item : loc -> class_sig_item -> expr val meta_class_str_item : loc -> class_str_item -> expr val meta_class_type : loc -> class_type -> expr val meta_ctyp : loc -> ctyp -> expr val meta_expr : loc -> expr -> expr val meta_ident : loc -> ident -> expr val meta_match_case : loc -> match_case -> expr val meta_module_binding : loc -> module_binding -> expr val meta_module_expr : loc -> module_expr -> expr val meta_module_type : loc -> module_type -> expr val meta_patt : loc -> patt -> expr val meta_sig_item : loc -> sig_item -> expr val meta_str_item : loc -> str_item -> expr val meta_with_constr : loc -> with_constr -> expr val meta_rec_flag : loc -> rec_flag -> expr val meta_mutable_flag : loc -> mutable_flag -> expr val meta_virtual_flag : loc -> virtual_flag -> expr val meta_private_flag : loc -> private_flag -> expr val meta_row_var_flag : loc -> row_var_flag -> expr val meta_override_flag : loc -> override_flag -> expr val meta_direction_flag : loc -> direction_flag -> expr end module Patt : sig val meta_string : loc -> string -> patt val meta_int : loc -> string -> patt val meta_float : loc -> string -> patt val meta_char : loc -> string -> patt val meta_bool : loc -> bool -> patt val meta_list : ( loc -> ' a -> patt ) -> loc -> ' a list -> patt val meta_binding : loc -> binding -> patt val meta_rec_binding : loc -> rec_binding -> patt val meta_class_expr : loc -> class_expr -> patt val meta_class_sig_item : loc -> class_sig_item -> patt val meta_class_str_item : loc -> class_str_item -> patt val meta_class_type : loc -> class_type -> patt val meta_ctyp : loc -> ctyp -> patt val meta_expr : loc -> expr -> patt val meta_ident : loc -> ident -> patt val meta_match_case : loc -> match_case -> patt val meta_module_binding : loc -> module_binding -> patt val meta_module_expr : loc -> module_expr -> patt val meta_module_type : loc -> module_type -> patt val meta_patt : loc -> patt -> patt val meta_sig_item : loc -> sig_item -> patt val meta_str_item : loc -> str_item -> patt val meta_with_constr : loc -> with_constr -> patt val meta_rec_flag : loc -> rec_flag -> patt val meta_mutable_flag : loc -> mutable_flag -> patt val meta_virtual_flag : loc -> virtual_flag -> patt val meta_private_flag : loc -> private_flag -> patt val meta_row_var_flag : loc -> row_var_flag -> patt val meta_override_flag : loc -> override_flag -> patt val meta_direction_flag : loc -> direction_flag -> patt end end end class map : object ( ' self_type ) method string : string -> string method list : ' a ' b . ( ' self_type -> ' a -> ' b ) -> ' a list -> ' b list method meta_bool : meta_bool -> meta_bool method meta_option : ' a ' b . ( ' self_type -> ' a -> ' b ) -> ' a meta_option -> ' b meta_option method meta_list : ' a ' b . ( ' self_type -> ' a -> ' b ) -> ' a meta_list -> ' b meta_list method loc : loc -> loc method expr : expr -> expr method patt : patt -> patt method ctyp : ctyp -> ctyp method str_item : str_item -> str_item method sig_item : sig_item -> sig_item method module_expr : module_expr -> module_expr method module_type : module_type -> module_type method class_expr : class_expr -> class_expr method class_type : class_type -> class_type method class_sig_item : class_sig_item -> class_sig_item method class_str_item : class_str_item -> class_str_item method with_constr : with_constr -> with_constr method binding : binding -> binding method rec_binding : rec_binding -> rec_binding method module_binding : module_binding -> module_binding method match_case : match_case -> match_case method ident : ident -> ident method mutable_flag : mutable_flag -> mutable_flag method private_flag : private_flag -> private_flag method virtual_flag : virtual_flag -> virtual_flag method direction_flag : direction_flag -> direction_flag method rec_flag : rec_flag -> rec_flag method row_var_flag : row_var_flag -> row_var_flag method override_flag : override_flag -> override_flag method unknown : ' a . ' a -> ' a end class fold : object ( ' self_type ) method string : string -> ' self_type method list : ' a . ( ' self_type -> ' a -> ' self_type ) -> ' a list -> ' self_type method meta_bool : meta_bool -> ' self_type method meta_option : ' a . ( ' self_type -> ' a -> ' self_type ) -> ' a meta_option -> ' self_type method meta_list : ' a . ( ' self_type -> ' a -> ' self_type ) -> ' a meta_list -> ' self_type method loc : loc -> ' self_type method expr : expr -> ' self_type method patt : patt -> ' self_type method ctyp : ctyp -> ' self_type method str_item : str_item -> ' self_type method sig_item : sig_item -> ' self_type method module_expr : module_expr -> ' self_type method module_type : module_type -> ' self_type method class_expr : class_expr -> ' self_type method class_type : class_type -> ' self_type method class_sig_item : class_sig_item -> ' self_type method class_str_item : class_str_item -> ' self_type method with_constr : with_constr -> ' self_type method binding : binding -> ' self_type method rec_binding : rec_binding -> ' self_type method module_binding : module_binding -> ' self_type method match_case : match_case -> ' self_type method ident : ident -> ' self_type method rec_flag : rec_flag -> ' self_type method direction_flag : direction_flag -> ' self_type method mutable_flag : mutable_flag -> ' self_type method private_flag : private_flag -> ' self_type method virtual_flag : virtual_flag -> ' self_type method row_var_flag : row_var_flag -> ' self_type method override_flag : override_flag -> ' self_type method unknown : ' a . ' a -> ' self_type end val map_expr : ( expr -> expr ) -> map val map_patt : ( patt -> patt ) -> map val map_ctyp : ( ctyp -> ctyp ) -> map val map_str_item : ( str_item -> str_item ) -> map val map_sig_item : ( sig_item -> sig_item ) -> map val map_loc : ( loc -> loc ) -> map val ident_of_expr : expr -> ident val ident_of_patt : patt -> ident val ident_of_ctyp : ctyp -> ident val biAnd_of_list : binding list -> binding val rbSem_of_list : rec_binding list -> rec_binding val paSem_of_list : patt list -> patt val paCom_of_list : patt list -> patt val tyOr_of_list : ctyp list -> ctyp val tyAnd_of_list : ctyp list -> ctyp val tyAmp_of_list : ctyp list -> ctyp val tySem_of_list : ctyp list -> ctyp val tyCom_of_list : ctyp list -> ctyp val tySta_of_list : ctyp list -> ctyp val stSem_of_list : str_item list -> str_item val sgSem_of_list : sig_item list -> sig_item val crSem_of_list : class_str_item list -> class_str_item val cgSem_of_list : class_sig_item list -> class_sig_item val ctAnd_of_list : class_type list -> class_type val ceAnd_of_list : class_expr list -> class_expr val wcAnd_of_list : with_constr list -> with_constr val meApp_of_list : module_expr list -> module_expr val mbAnd_of_list : module_binding list -> module_binding val mcOr_of_list : match_case list -> match_case val idAcc_of_list : ident list -> ident val idApp_of_list : ident list -> ident val exSem_of_list : expr list -> expr val exCom_of_list : expr list -> expr val list_of_ctyp : ctyp -> ctyp list -> ctyp list val list_of_binding : binding -> binding list -> binding list val list_of_rec_binding : rec_binding -> rec_binding list -> rec_binding list val list_of_with_constr : with_constr -> with_constr list -> with_constr list val list_of_patt : patt -> patt list -> patt list val list_of_expr : expr -> expr list -> expr list val list_of_str_item : str_item -> str_item list -> str_item list val list_of_sig_item : sig_item -> sig_item list -> sig_item list val list_of_class_sig_item : class_sig_item -> class_sig_item list -> class_sig_item list val list_of_class_str_item : class_str_item -> class_str_item list -> class_str_item list val list_of_class_type : class_type -> class_type list -> class_type list val list_of_class_expr : class_expr -> class_expr list -> class_expr list val list_of_module_expr : module_expr -> module_expr list -> module_expr list val list_of_module_binding : module_binding -> module_binding list -> module_binding list val list_of_match_case : match_case -> match_case list -> match_case list val list_of_ident : ident -> ident list -> ident list val safe_string_escaped : string -> string val is_irrefut_patt : patt -> bool val is_constructor : ident -> bool val is_patt_constructor : patt -> bool val is_expr_constructor : expr -> bool val ty_of_stl : ( Loc . t * string * ( ctyp list ) ) -> ctyp val ty_of_sbt : ( Loc . t * string * bool * ctyp ) -> ctyp val bi_of_pe : ( patt * expr ) -> binding val pel_of_binding : binding -> ( patt * expr ) list val binding_of_pel : ( patt * expr ) list -> binding val sum_type_of_list : ( Loc . t * string * ( ctyp list ) ) list -> ctyp val record_type_of_list : ( Loc . t * string * bool * ctyp ) list -> ctyp end module Camlp4AstToAst ( M : Camlp4Ast ) : Ast with type loc = M . loc and type meta_bool = M . meta_bool and type ' a meta_option = ' a M . meta_option and type ' a meta_list = ' a M . meta_list and type ctyp = M . ctyp and type patt = M . patt and type expr = M . expr and type module_type = M . module_type and type sig_item = M . sig_item and type with_constr = M . with_constr and type module_expr = M . module_expr and type str_item = M . str_item and type class_type = M . class_type and type class_sig_item = M . class_sig_item and type class_expr = M . class_expr and type class_str_item = M . class_str_item and type binding = M . binding and type rec_binding = M . rec_binding and type module_binding = M . module_binding and type match_case = M . match_case and type ident = M . ident and type rec_flag = M . rec_flag and type direction_flag = M . direction_flag and type mutable_flag = M . mutable_flag and type private_flag = M . private_flag and type virtual_flag = M . virtual_flag and type row_var_flag = M . row_var_flag and type override_flag = M . override_flag = M module MakeCamlp4Ast ( Loc : Type ) = struct type loc = Loc . t and meta_bool = | BTrue | BFalse | BAnt of string and rec_flag = | ReRecursive | ReNil | ReAnt of string and direction_flag = | DiTo | DiDownto | DiAnt of string and mutable_flag = | MuMutable | MuNil | MuAnt of string and private_flag = | PrPrivate | PrNil | PrAnt of string and virtual_flag = | ViVirtual | ViNil | ViAnt of string and override_flag = | OvOverride | OvNil | OvAnt of string and row_var_flag = | RvRowVar | RvNil | RvAnt of string and ' a meta_option = | ONone | OSome of ' a | OAnt of string and ' a meta_list = | LNil | LCons of ' a * ' a meta_list | LAnt of string and ident = | IdAcc of loc * ident * ident | IdApp of loc * ident * ident | IdLid of loc * string | IdUid of loc * string | IdAnt of loc * string and ctyp = | TyNil of loc | TyAli of loc * ctyp * ctyp | TyAny of loc | TyApp of loc * ctyp * ctyp | TyArr of loc * ctyp * ctyp | TyCls of loc * ident | TyLab of loc * string * ctyp | TyId of loc * ident | TyMan of loc * ctyp * ctyp | TyDcl of loc * string * ctyp list * ctyp * ( ctyp * ctyp ) list | TyObj of loc * ctyp * row_var_flag | TyOlb of loc * string * ctyp | TyPol of loc * ctyp * ctyp | TyQuo of loc * string | TyQuP of loc * string | TyQuM of loc * string | TyVrn of loc * string | TyRec of loc * ctyp | TyCol of loc * ctyp * ctyp | TySem of loc * ctyp * ctyp | TyCom of loc * ctyp * ctyp | TySum of loc * ctyp | TyOf of loc * ctyp * ctyp | TyAnd of loc * ctyp * ctyp | TyOr of loc * ctyp * ctyp | TyPrv of loc * ctyp | TyMut of loc * ctyp | TyTup of loc * ctyp | TySta of loc * ctyp * ctyp | TyVrnEq of loc * ctyp | TyVrnSup of loc * ctyp | TyVrnInf of loc * ctyp | TyVrnInfSup of loc * ctyp * ctyp | TyAmp of loc * ctyp * ctyp | TyOfAmp of loc * ctyp * ctyp | TyPkg of loc * module_type | TyAnt of loc * string and patt = | PaNil of loc | PaId of loc * ident | PaAli of loc * patt * patt | PaAnt of loc * string | PaAny of loc | PaApp of loc * patt * patt | PaArr of loc * patt | PaCom of loc * patt * patt | PaSem of loc * patt * patt | PaChr of loc * string | PaInt of loc * string | PaInt32 of loc * string | PaInt64 of loc * string | PaNativeInt of loc * string | PaFlo of loc * string | PaLab of loc * string * patt | PaOlb of loc * string * patt | PaOlbi of loc * string * patt * expr | PaOrp of loc * patt * patt | PaRng of loc * patt * patt | PaRec of loc * patt | PaEq of loc * ident * patt | PaStr of loc * string | PaTup of loc * patt | PaTyc of loc * patt * ctyp | PaTyp of loc * ident | PaVrn of loc * string | PaLaz of loc * patt and expr = | ExNil of loc | ExId of loc * ident | ExAcc of loc * expr * expr | ExAnt of loc * string | ExApp of loc * expr * expr | ExAre of loc * expr * expr | ExArr of loc * expr | ExSem of loc * expr * expr | ExAsf of loc | ExAsr of loc * expr | ExAss of loc * expr * expr | ExChr of loc * string | ExCoe of loc * expr * ctyp * ctyp | ExFlo of loc * string | ExFor of loc * string * expr * expr * direction_flag * expr | ExFun of loc * match_case | ExIfe of loc * expr * expr * expr | ExInt of loc * string | ExInt32 of loc * string | ExInt64 of loc * string | ExNativeInt of loc * string | ExLab of loc * string * expr | ExLaz of loc * expr | ExLet of loc * rec_flag * binding * expr | ExLmd of loc * string * module_expr * expr | ExMat of loc * expr * match_case | ExNew of loc * ident | ExObj of loc * patt * class_str_item | ExOlb of loc * string * expr | ExOvr of loc * rec_binding | ExRec of loc * rec_binding * expr | ExSeq of loc * expr | ExSnd of loc * expr * string | ExSte of loc * expr * expr | ExStr of loc * string | ExTry of loc * expr * match_case | ExTup of loc * expr | ExCom of loc * expr * expr | ExTyc of loc * expr * ctyp | ExVrn of loc * string | ExWhi of loc * expr * expr | ExOpI of loc * ident * expr | ExFUN of loc * string * expr | ExPkg of loc * module_expr and module_type = | MtNil of loc | MtId of loc * ident | MtFun of loc * string * module_type * module_type | MtQuo of loc * string | MtSig of loc * sig_item | MtWit of loc * module_type * with_constr | MtOf of loc * module_expr | MtAnt of loc * string and sig_item = | SgNil of loc | SgCls of loc * class_type | SgClt of loc * class_type | SgSem of loc * sig_item * sig_item | SgDir of loc * string * expr | SgExc of loc * ctyp | SgExt of loc * string * ctyp * string meta_list | SgInc of loc * module_type | SgMod of loc * string * module_type | SgRecMod of loc * module_binding | SgMty of loc * string * module_type | SgOpn of loc * ident | SgTyp of loc * ctyp | SgVal of loc * string * ctyp | SgAnt of loc * string and with_constr = | WcNil of loc | WcTyp of loc * ctyp * ctyp | WcMod of loc * ident * ident | WcTyS of loc * ctyp * ctyp | WcMoS of loc * ident * ident | WcAnd of loc * with_constr * with_constr | WcAnt of loc * string and binding = | BiNil of loc | BiAnd of loc * binding * binding | BiEq of loc * patt * expr | BiAnt of loc * string and rec_binding = | RbNil of loc | RbSem of loc * rec_binding * rec_binding | RbEq of loc * ident * expr | RbAnt of loc * string and module_binding = | MbNil of loc | MbAnd of loc * module_binding * module_binding | MbColEq of loc * string * module_type * module_expr | MbCol of loc * string * module_type | MbAnt of loc * string and match_case = | McNil of loc | McOr of loc * match_case * match_case | McArr of loc * patt * expr * expr | McAnt of loc * string and module_expr = | MeNil of loc | MeId of loc * ident | MeApp of loc * module_expr * module_expr | MeFun of loc * string * module_type * module_expr | MeStr of loc * str_item | MeTyc of loc * module_expr * module_type | MePkg of loc * expr | MeAnt of loc * string and str_item = | StNil of loc | StCls of loc * class_expr | StClt of loc * class_type | StSem of loc * str_item * str_item | StDir of loc * string * expr | StExc of loc * ctyp * ident meta_option | StExp of loc * expr | StExt of loc * string * ctyp * string meta_list | StInc of loc * module_expr | StMod of loc * string * module_expr | StRecMod of loc * module_binding | StMty of loc * string * module_type | StOpn of loc * ident | StTyp of loc * ctyp | StVal of loc * rec_flag * binding | StAnt of loc * string and class_type = | CtNil of loc | CtCon of loc * virtual_flag * ident * ctyp | CtFun of loc * ctyp * class_type | CtSig of loc * ctyp * class_sig_item | CtAnd of loc * class_type * class_type | CtCol of loc * class_type * class_type | CtEq of loc * class_type * class_type | CtAnt of loc * string and class_sig_item = | CgNil of loc | CgCtr of loc * ctyp * ctyp | CgSem of loc * class_sig_item * class_sig_item | CgInh of loc * class_type | CgMth of loc * string * private_flag * ctyp | CgVal of loc * string * mutable_flag * virtual_flag * ctyp | CgVir of loc * string * private_flag * ctyp | CgAnt of loc * string and class_expr = | CeNil of loc | CeApp of loc * class_expr * expr | CeCon of loc * virtual_flag * ident * ctyp | CeFun of loc * patt * class_expr | CeLet of loc * rec_flag * binding * class_expr | CeStr of loc * patt * class_str_item | CeTyc of loc * class_expr * class_type | CeAnd of loc * class_expr * class_expr | CeEq of loc * class_expr * class_expr | CeAnt of loc * string and class_str_item = | CrNil of loc | CrSem of loc * class_str_item * class_str_item | CrCtr of loc * ctyp * ctyp | CrInh of loc * override_flag * class_expr * string | CrIni of loc * expr | CrMth of loc * string * override_flag * private_flag * expr * ctyp | CrVal of loc * string * override_flag * mutable_flag * expr | CrVir of loc * string * private_flag * ctyp | CrVvr of loc * string * mutable_flag * ctyp | CrAnt of loc * string end type ( ' a , ' loc ) stream_filter = ( ' a * ' loc ) Stream . t -> ( ' a * ' loc ) Stream . t module type AstFilters = sig module Ast : Camlp4Ast type ' a filter = ' a -> ' a val register_sig_item_filter : Ast . sig_item filter -> unit val register_str_item_filter : Ast . str_item filter -> unit val register_topphrase_filter : Ast . str_item filter -> unit val fold_interf_filters : ( ' a -> Ast . sig_item filter -> ' a ) -> ' a -> ' a val fold_implem_filters : ( ' a -> Ast . str_item filter -> ' a ) -> ' a -> ' a val fold_topphrase_filters : ( ' a -> Ast . str_item filter -> ' a ) -> ' a -> ' a end module type DynAst = sig module Ast : Ast type ' a tag val ctyp_tag : Ast . ctyp tag val patt_tag : Ast . patt tag val expr_tag : Ast . expr tag val module_type_tag : Ast . module_type tag val sig_item_tag : Ast . sig_item tag val with_constr_tag : Ast . with_constr tag val module_expr_tag : Ast . module_expr tag val str_item_tag : Ast . str_item tag val class_type_tag : Ast . class_type tag val class_sig_item_tag : Ast . class_sig_item tag val class_expr_tag : Ast . class_expr tag val class_str_item_tag : Ast . class_str_item tag val match_case_tag : Ast . match_case tag val ident_tag : Ast . ident tag val binding_tag : Ast . binding tag val rec_binding_tag : Ast . rec_binding tag val module_binding_tag : Ast . module_binding tag val string_of_tag : ' a tag -> string module Pack ( X : sig type ' a t end ) : sig type pack val pack : ' a tag -> ' a X . t -> pack val unpack : ' a tag -> pack -> ' a X . t val print_tag : Format . formatter -> pack -> unit end end type quotation = { q_name : string ; q_loc : string ; q_shift : int ; q_contents : string } module type Quotation = sig module Ast : Ast module DynAst : DynAst with module Ast = Ast open Ast type ' a expand_fun = loc -> string option -> string -> ' a val add : string -> ' a DynAst . tag -> ' a expand_fun -> unit val find : string -> ' a DynAst . tag -> ' a expand_fun val default : string ref val parse_quotation_result : ( loc -> string -> ' a ) -> loc -> quotation -> string -> string -> ' a val translate : ( string -> string ) ref val expand : loc -> quotation -> ' a DynAst . tag -> ' a val dump_file : ( string option ) ref module Error : Error end module type Token = sig module Loc : Loc type t val to_string : t -> string val print : Format . formatter -> t -> unit val match_keyword : string -> t -> bool val extract_string : t -> string module Filter : sig type token_filter = ( t , Loc . t ) stream_filter type t val mk : ( string -> bool ) -> t val define_filter : t -> ( token_filter -> token_filter ) -> unit val filter : t -> token_filter val keyword_added : t -> string -> bool -> unit val keyword_removed : t -> string -> unit end module Error : Error end type camlp4_token = | KEYWORD of string | SYMBOL of string | LIDENT of string | UIDENT of string | ESCAPED_IDENT of string | INT of int * string | INT32 of int32 * string | INT64 of int64 * string | NATIVEINT of nativeint * string | FLOAT of float * string | CHAR of char * string | STRING of string * string | LABEL of string | OPTLABEL of string | QUOTATION of quotation | ANTIQUOT of string * string | COMMENT of string | BLANKS of string | NEWLINE | LINE_DIRECTIVE of int * string option | EOI module type Camlp4Token = Token with type t = camlp4_token module type DynLoader = sig type t exception Error of string * string val mk : ? ocaml_stdlib : bool -> ? camlp4_stdlib : bool -> unit -> t val fold_load_path : t -> ( string -> ' a -> ' a ) -> ' a -> ' a val load : t -> string -> unit val include_dir : t -> string -> unit val find_in_path : t -> string -> string val is_native : bool end module Grammar = struct module type Action = sig type t val mk : ' a -> t val get : t -> ' a val getf : t -> ' a -> ' b val getf2 : t -> ' a -> ' b -> ' c end type assoc = | NonA | RightA | LeftA type position = | First | Last | Before of string | After of string | Level of string module type Structure = sig module Loc : Loc module Action : Action module Token : Token with module Loc = Loc type gram type internal_entry type tree type token_pattern = ( ( Token . t -> bool ) * string ) type token_info type token_stream = ( Token . t * token_info ) Stream . t val token_location : token_info -> Loc . t type symbol = | Smeta of string * symbol list * Action . t | Snterm of internal_entry | Snterml of internal_entry * string | Slist0 of symbol | Slist0sep of symbol * symbol | Slist1 of symbol | Slist1sep of symbol * symbol | Sopt of symbol | Stry of symbol | Sself | Snext | Stoken of token_pattern | Skeyword of string | Stree of tree type production_rule = ( ( symbol list ) * Action . t ) type single_extend_statment = ( ( string option ) * ( assoc option ) * ( production_rule list ) ) type extend_statment = ( ( position option ) * ( single_extend_statment list ) ) type delete_statment = symbol list type ( ' a , ' b , ' c ) fold = internal_entry -> symbol list -> ( ' a Stream . t -> ' b ) -> ' a Stream . t -> ' c type ( ' a , ' b , ' c ) foldsep = internal_entry -> symbol list -> ( ' a Stream . t -> ' b ) -> ( ' a Stream . t -> unit ) -> ' a Stream . t -> ' c end module type Dynamic = sig include Structure val mk : unit -> gram module Entry : sig type ' a t val mk : gram -> string -> ' a t val of_parser : gram -> string -> ( token_stream -> ' a ) -> ' a t val setup_parser : ' a t -> ( token_stream -> ' a ) -> unit val name : ' a t -> string val print : Format . formatter -> ' a t -> unit val dump : Format . formatter -> ' a t -> unit val obj : ' a t -> internal_entry val clear : ' a t -> unit end val get_filter : gram -> Token . Filter . t type ' a not_filtered val extend : ' a Entry . t -> extend_statment -> unit val delete_rule : ' a Entry . t -> delete_statment -> unit val srules : ' a Entry . t -> ( ( symbol list ) * Action . t ) list -> symbol val sfold0 : ( ' a -> ' b -> ' b ) -> ' b -> ( _ , ' a , ' b ) fold val sfold1 : ( ' a -> ' b -> ' b ) -> ' b -> ( _ , ' a , ' b ) fold val sfold0sep : ( ' a -> ' b -> ' b ) -> ' b -> ( _ , ' a , ' b ) foldsep val lex : gram -> Loc . t -> char Stream . t -> ( ( Token . t * Loc . t ) Stream . t ) not_filtered val lex_string : gram -> Loc . t -> string -> ( ( Token . t * Loc . t ) Stream . t ) not_filtered val filter : gram -> ( ( Token . t * Loc . t ) Stream . t ) not_filtered -> token_stream val parse : ' a Entry . t -> Loc . t -> char Stream . t -> ' a val parse_string : ' a Entry . t -> Loc . t -> string -> ' a val parse_tokens_before_filter : ' a Entry . t -> ( ( Token . t * Loc . t ) Stream . t ) not_filtered -> ' a val parse_tokens_after_filter : ' a Entry . t -> token_stream -> ' a end module type Static = sig include Structure module Entry : sig type ' a t val mk : string -> ' a t val of_parser : string -> ( token_stream -> ' a ) -> ' a t val setup_parser : ' a t -> ( token_stream -> ' a ) -> unit val name : ' a t -> string val print : Format . formatter -> ' a t -> unit val dump : Format . formatter -> ' a t -> unit val obj : ' a t -> internal_entry val clear : ' a t -> unit end val get_filter : unit -> Token . Filter . t type ' a not_filtered val extend : ' a Entry . t -> extend_statment -> unit val delete_rule : ' a Entry . t -> delete_statment -> unit val srules : ' a Entry . t -> ( ( symbol list ) * Action . t ) list -> symbol val sfold0 : ( ' a -> ' b -> ' b ) -> ' b -> ( _ , ' a , ' b ) fold val sfold1 : ( ' a -> ' b -> ' b ) -> ' b -> ( _ , ' a , ' b ) fold val sfold0sep : ( ' a -> ' b -> ' b ) -> ' b -> ( _ , ' a , ' b ) foldsep val lex : Loc . t -> char Stream . t -> ( ( Token . t * Loc . t ) Stream . t ) not_filtered val lex_string : Loc . t -> string -> ( ( Token . t * Loc . t ) Stream . t ) not_filtered val filter : ( ( Token . t * Loc . t ) Stream . t ) not_filtered -> token_stream val parse : ' a Entry . t -> Loc . t -> char Stream . t -> ' a val parse_string : ' a Entry . t -> Loc . t -> string -> ' a val parse_tokens_before_filter : ' a Entry . t -> ( ( Token . t * Loc . t ) Stream . t ) not_filtered -> ' a val parse_tokens_after_filter : ' a Entry . t -> token_stream -> ' a end end module type Lexer = sig module Loc : Loc module Token : Token with module Loc = Loc module Error : Error val mk : unit -> Loc . t -> char Stream . t -> ( Token . t * Loc . t ) Stream . t end module Parser ( Ast : Ast ) = struct module type SIMPLE = sig val parse_expr : Ast . loc -> string -> Ast . expr val parse_patt : Ast . loc -> string -> Ast . patt end module type S = sig val parse_implem : ? directive_handler : ( Ast . str_item -> Ast . str_item option ) -> Ast . loc -> char Stream . t -> Ast . str_item val parse_interf : ? directive_handler : ( Ast . sig_item -> Ast . sig_item option ) -> Ast . loc -> char Stream . t -> Ast . sig_item end end module Printer ( Ast : Ast ) = struct module type S = sig val print_interf : ? input_file : string -> ? output_file : string -> Ast . sig_item -> unit val print_implem : ? input_file : string -> ? output_file : string -> Ast . str_item -> unit end end module type Syntax = sig module Loc : Loc module Ast : Ast with type loc = Loc . t module Token : Token with module Loc = Loc module Gram : Grammar . Static with module Loc = Loc and module Token = Token module Quotation : Quotation with module Ast = Ast module AntiquotSyntax : Parser ( Ast ) . SIMPLE include Warning ( Loc ) . S include Parser ( Ast ) . S include Printer ( Ast ) . S end module type Camlp4Syntax = sig module Loc : Loc module Ast : Camlp4Ast with module Loc = Loc module Token : Camlp4Token with module Loc = Loc module Gram : Grammar . Static with module Loc = Loc and module Token = Token module Quotation : Quotation with module Ast = Camlp4AstToAst ( Ast ) module AntiquotSyntax : Parser ( Ast ) . SIMPLE include Warning ( Loc ) . S include Parser ( Ast ) . S include Printer ( Ast ) . S val interf : ( ( Ast . sig_item list ) * ( Loc . t option ) ) Gram . Entry . t val implem : ( ( Ast . str_item list ) * ( Loc . t option ) ) Gram . Entry . t val top_phrase : ( Ast . str_item option ) Gram . Entry . t val use_file : ( ( Ast . str_item list ) * ( Loc . t option ) ) Gram . Entry . t val a_CHAR : string Gram . Entry . t val a_FLOAT : string Gram . Entry . t val a_INT : string Gram . Entry . t val a_INT32 : string Gram . Entry . t val a_INT64 : string Gram . Entry . t val a_LABEL : string Gram . Entry . t val a_LIDENT : string Gram . Entry . t val a_NATIVEINT : string Gram . Entry . t val a_OPTLABEL : string Gram . Entry . t val a_STRING : string Gram . Entry . t val a_UIDENT : string Gram . Entry . t val a_ident : string Gram . Entry . t val amp_ctyp : Ast . ctyp Gram . Entry . t val and_ctyp : Ast . ctyp Gram . Entry . t val match_case : Ast . match_case Gram . Entry . t val match_case0 : Ast . match_case Gram . Entry . t val match_case_quot : Ast . match_case Gram . Entry . t val binding : Ast . binding Gram . Entry . t val binding_quot : Ast . binding Gram . Entry . t val rec_binding_quot : Ast . rec_binding Gram . Entry . t val class_declaration : Ast . class_expr Gram . Entry . t val class_description : Ast . class_type Gram . Entry . t val class_expr : Ast . class_expr Gram . Entry . t val class_expr_quot : Ast . class_expr Gram . Entry . t val class_fun_binding : Ast . class_expr Gram . Entry . t val class_fun_def : Ast . class_expr Gram . Entry . t val class_info_for_class_expr : Ast . class_expr Gram . Entry . t val class_info_for_class_type : Ast . class_type Gram . Entry . t val class_longident : Ast . ident Gram . Entry . t val class_longident_and_param : Ast . class_expr Gram . Entry . t val class_name_and_param : ( string * Ast . ctyp ) Gram . Entry . t val class_sig_item : Ast . class_sig_item Gram . Entry . t val class_sig_item_quot : Ast . class_sig_item Gram . Entry . t val class_signature : Ast . class_sig_item Gram . Entry . t val class_str_item : Ast . class_str_item Gram . Entry . t val class_str_item_quot : Ast . class_str_item Gram . Entry . t val class_structure : Ast . class_str_item Gram . Entry . t val class_type : Ast . class_type Gram . Entry . t val class_type_declaration : Ast . class_type Gram . Entry . t val class_type_longident : Ast . ident Gram . Entry . t val class_type_longident_and_param : Ast . class_type Gram . Entry . t val class_type_plus : Ast . class_type Gram . Entry . t val class_type_quot : Ast . class_type Gram . Entry . t val comma_ctyp : Ast . ctyp Gram . Entry . t val comma_expr : Ast . expr Gram . Entry . t val comma_ipatt : Ast . patt Gram . Entry . t val comma_patt : Ast . patt Gram . Entry . t val comma_type_parameter : Ast . ctyp Gram . Entry . t val constrain : ( Ast . ctyp * Ast . ctyp ) Gram . Entry . t val constructor_arg_list : Ast . ctyp Gram . Entry . t val constructor_declaration : Ast . ctyp Gram . Entry . t val constructor_declarations : Ast . ctyp Gram . Entry . t val ctyp : Ast . ctyp Gram . Entry . t val ctyp_quot : Ast . ctyp Gram . Entry . t val cvalue_binding : Ast . expr Gram . Entry . t val direction_flag : Ast . direction_flag Gram . Entry . t val direction_flag_quot : Ast . direction_flag Gram . Entry . t val dummy : unit Gram . Entry . t val eq_expr : ( string -> Ast . patt -> Ast . patt ) Gram . Entry . t val expr : Ast . expr Gram . Entry . t val expr_eoi : Ast . expr Gram . Entry . t val expr_quot : Ast . expr Gram . Entry . t val field_expr : Ast . rec_binding Gram . Entry . t val field_expr_list : Ast . rec_binding Gram . Entry . t val fun_binding : Ast . expr Gram . Entry . t val fun_def : Ast . expr Gram . Entry . t val ident : Ast . ident Gram . Entry . t val ident_quot : Ast . ident Gram . Entry . t val ipatt : Ast . patt Gram . Entry . t val ipatt_tcon : Ast . patt Gram . Entry . t val label : string Gram . Entry . t val label_declaration : Ast . ctyp Gram . Entry . t val label_declaration_list : Ast . ctyp Gram . Entry . t val label_expr : Ast . rec_binding Gram . Entry . t val label_expr_list : Ast . rec_binding Gram . Entry . t val label_ipatt : Ast . patt Gram . Entry . t val label_ipatt_list : Ast . patt Gram . Entry . t val label_longident : Ast . ident Gram . Entry . t val label_patt : Ast . patt Gram . Entry . t val label_patt_list : Ast . patt Gram . Entry . t val labeled_ipatt : Ast . patt Gram . Entry . t val let_binding : Ast . binding Gram . Entry . t val meth_list : ( Ast . ctyp * Ast . row_var_flag ) Gram . Entry . t val meth_decl : Ast . ctyp Gram . Entry . t val module_binding : Ast . module_binding Gram . Entry . t val module_binding0 : Ast . module_expr Gram . Entry . t val module_binding_quot : Ast . module_binding Gram . Entry . t val module_declaration : Ast . module_type Gram . Entry . t val module_expr : Ast . module_expr Gram . Entry . t val module_expr_quot : Ast . module_expr Gram . Entry . t val module_longident : Ast . ident Gram . Entry . t val module_longident_with_app : Ast . ident Gram . Entry . t val module_rec_declaration : Ast . module_binding Gram . Entry . t val module_type : Ast . module_type Gram . Entry . t val package_type : Ast . module_type Gram . Entry . t val module_type_quot : Ast . module_type Gram . Entry . t val more_ctyp : Ast . ctyp Gram . Entry . t val name_tags : Ast . ctyp Gram . Entry . t val opt_as_lident : string Gram . Entry . t val opt_class_self_patt : Ast . patt Gram . Entry . t val opt_class_self_type : Ast . ctyp Gram . Entry . t val opt_comma_ctyp : Ast . ctyp Gram . Entry . t val opt_dot_dot : Ast . row_var_flag Gram . Entry . t val row_var_flag_quot : Ast . row_var_flag Gram . Entry . t val opt_eq_ctyp : Ast . ctyp Gram . Entry . t val opt_expr : Ast . expr Gram . Entry . t val opt_meth_list : Ast . ctyp Gram . Entry . t val opt_mutable : Ast . mutable_flag Gram . Entry . t val mutable_flag_quot : Ast . mutable_flag Gram . Entry . t val opt_override : Ast . override_flag Gram . Entry . t val override_flag_quot : Ast . override_flag Gram . Entry . t val opt_polyt : Ast . ctyp Gram . Entry . t val opt_private : Ast . private_flag Gram . Entry . t val private_flag_quot : Ast . private_flag Gram . Entry . t val opt_rec : Ast . rec_flag Gram . Entry . t val rec_flag_quot : Ast . rec_flag Gram . Entry . t val opt_virtual : Ast . virtual_flag Gram . Entry . t val virtual_flag_quot : Ast . virtual_flag Gram . Entry . t val opt_when_expr : Ast . expr Gram . Entry . t val patt : Ast . patt Gram . Entry . t val patt_as_patt_opt : Ast . patt Gram . Entry . t val patt_eoi : Ast . patt Gram . Entry . t val patt_quot : Ast . patt Gram . Entry . t val patt_tcon : Ast . patt Gram . Entry . t val phrase : Ast . str_item Gram . Entry . t val poly_type : Ast . ctyp Gram . Entry . t val row_field : Ast . ctyp Gram . Entry . t val sem_expr : Ast . expr Gram . Entry . t val sem_expr_for_list : ( Ast . expr -> Ast . expr ) Gram . Entry . t val sem_patt : Ast . patt Gram . Entry . t val sem_patt_for_list : ( Ast . patt -> Ast . patt ) Gram . Entry . t val semi : unit Gram . Entry . t val sequence : Ast . expr Gram . Entry . t val do_sequence : Ast . expr Gram . Entry . t val sig_item : Ast . sig_item Gram . Entry . t val sig_item_quot : Ast . sig_item Gram . Entry . t val sig_items : Ast . sig_item Gram . Entry . t val star_ctyp : Ast . ctyp Gram . Entry . t val str_item : Ast . str_item Gram . Entry . t val str_item_quot : Ast . str_item Gram . Entry . t val str_items : Ast . str_item Gram . Entry . t val type_constraint : unit Gram . Entry . t val type_declaration : Ast . ctyp Gram . Entry . t val type_ident_and_parameters : ( string * ( Ast . ctyp list ) ) Gram . Entry . t val type_kind : Ast . ctyp Gram . Entry . t val type_longident : Ast . ident Gram . Entry . t val type_longident_and_parameters : Ast . ctyp Gram . Entry . t val type_parameter : Ast . ctyp Gram . Entry . t val type_parameters : ( Ast . ctyp -> Ast . ctyp ) Gram . Entry . t val typevars : Ast . ctyp Gram . Entry . t val val_longident : Ast . ident Gram . Entry . t val value_let : unit Gram . Entry . t val value_val : unit Gram . Entry . t val with_constr : Ast . with_constr Gram . Entry . t val with_constr_quot : Ast . with_constr Gram . Entry . t val prefixop : Ast . expr Gram . Entry . t val infixop0 : Ast . expr Gram . Entry . t val infixop1 : Ast . expr Gram . Entry . t val infixop2 : Ast . expr Gram . Entry . t val infixop3 : Ast . expr Gram . Entry . t val infixop4 : Ast . expr Gram . Entry . t end module type SyntaxExtension = functor ( Syn : Syntax ) -> Syntax with module Loc = Syn . Loc and module Ast = Syn . Ast and module Token = Syn . Token and module Gram = Syn . Gram and module Quotation = Syn . Quotation end |
module ErrorHandler : sig val print : Format . formatter -> exn -> unit val try_print : Format . formatter -> exn -> unit val to_string : exn -> string val try_to_string : exn -> string val register : ( Format . formatter -> exn -> unit ) -> unit module Register ( Error : Sig . Error ) : sig end module ObjTools : sig val print : Format . formatter -> Obj . t -> unit val print_desc : Format . formatter -> Obj . t -> unit val to_string : Obj . t -> string val desc : Obj . t -> string end end = struct open Format module ObjTools = struct let desc obj = if Obj . is_block obj then " tag = " ^ ( string_of_int ( Obj . tag obj ) ) else " int_val = " ^ ( string_of_int ( Obj . obj obj ) ) let rec to_string r = if Obj . is_int r then ( let i : int = Obj . magic r in ( string_of_int i ) ^ ( " | CstTag " ^ ( string_of_int ( i + 1 ) ) ) ) else ( let rec get_fields acc = function | 0 -> acc | n -> let n = n - 1 in get_fields ( ( Obj . field r n ) :: acc ) n in let rec is_list r = if Obj . is_int r then r = ( Obj . repr 0 ) else ( let s = Obj . size r and t = Obj . tag r in ( t = 0 ) && ( ( s = 2 ) && ( is_list ( Obj . field r 1 ) ) ) ) in let rec get_list r = if Obj . is_int r then [ ] else ( let h = Obj . field r 0 and t = get_list ( Obj . field r 1 ) in h :: t ) in let opaque name = " " < ^ ( name ^ " " ) > in let s = Obj . size r and t = Obj . tag r in match t with | _ when is_list r -> let fields = get_list r in " [ " ^ ( ( String . concat " ; " ( List . map to_string fields ) ) ^ " ] " ) | 0 -> let fields = get_fields [ ] s in " ( " ^ ( ( String . concat " , " ( List . map to_string fields ) ) ^ " ) " ) | x when x = Obj . lazy_tag -> opaque " lazy " | x when x = Obj . closure_tag -> opaque " closure " | x when x = Obj . object_tag -> let fields = get_fields [ ] s in let ( _class , id , slots ) = ( match fields with | h :: h ' :: t -> ( h , h ' , t ) | _ -> assert false ) in " Object " # ^ ( ( to_string id ) ^ ( " ( " ^ ( ( String . concat " , " ( List . map to_string slots ) ) ^ " ) " ) ) ) | x when x = Obj . infix_tag -> opaque " infix " | x when x = Obj . forward_tag -> opaque " forward " | x when x < Obj . no_scan_tag -> let fields = get_fields [ ] s in " Tag " ^ ( ( string_of_int t ) ^ ( " ( " ^ ( ( String . concat " , " ( List . map to_string fields ) ) ^ " ) " ) ) ) | x when x = Obj . string_tag -> " " " \ ^ ( ( String . escaped ( Obj . magic r : string ) ) ^ " " " ) \ | x when x = Obj . double_tag -> Camlp4_import . Oprint . float_repres ( Obj . magic r : float ) | x when x = Obj . abstract_tag -> opaque " abstract " | x when x = Obj . custom_tag -> opaque " custom " | x when x = Obj . final_tag -> opaque " final " | _ -> failwith ( " ObjTools . to_string : unknown tag ( " ^ ( ( string_of_int t ) ^ " ) " ) ) ) let print ppf x = fprintf ppf " % s " ( to_string x ) let print_desc ppf x = fprintf ppf " % s " ( desc x ) end let default_handler ppf x = let x = Obj . repr x in ( fprintf ppf " Camlp4 : Uncaught exception : % s " ( Obj . obj ( Obj . field ( Obj . field x 0 ) 0 ) : string ) ; if ( Obj . size x ) > 1 then ( pp_print_string ppf " ( " ; for i = 1 to ( Obj . size x ) - 1 do if i > 1 then pp_print_string ppf " , " else ( ) ; ObjTools . print ppf ( Obj . field x i ) done ; pp_print_char ppf ' ) ' ) else ( ) ; fprintf ppf " . " ) @ let handler = ref ( fun ppf default_handler exn -> default_handler ppf exn ) let register f = let current_handler = ! handler in handler := fun ppf default_handler exn -> try f ppf exn with | exn -> current_handler ppf default_handler exn module Register ( Error : Sig . Error ) = struct let _ = let current_handler = ! handler in handler := fun ppf default_handler -> function | Error . E x -> Error . print ppf x | x -> current_handler ppf default_handler x end let gen_print ppf default_handler = function | Out_of_memory -> fprintf ppf " Out of memory " | Assert_failure ( ( file , line , char ) ) -> fprintf ppf " Assertion failed , file % S , line % d , char % d " file line char | Match_failure ( ( file , line , char ) ) -> fprintf ppf " Pattern matching failed , file % S , line % d , char % d " file line char | Failure str -> fprintf ppf " Failure : % S " str | Invalid_argument str -> fprintf ppf " Invalid argument : % S " str | Sys_error str -> fprintf ppf " I / O error : % S " str | Stream . Failure -> fprintf ppf " Parse failure " | Stream . Error str -> fprintf ppf " Parse error : % s " str | x -> ! handler ppf default_handler x let print ppf = gen_print ppf default_handler let try_print ppf = gen_print ppf ( fun _ -> raise ) let to_string exn = let buf = Buffer . create 128 in let ( ) = bprintf buf " % a " print exn in Buffer . contents buf let try_to_string exn = let buf = Buffer . create 128 in let ( ) = bprintf buf " % a " try_print exn in Buffer . contents buf end |
module Struct = struct module Loc : sig include Sig . Loc end = struct open Format type pos = { line : int ; bol : int ; off : int } type t = { file_name : string ; start : pos ; stop : pos ; ghost : bool } let dump_sel f x = let s = match x with | ` start -> " ` start " | ` stop -> " ` stop " | ` both -> " ` both " | _ -> " < not - printable " > in pp_print_string f s let dump_pos f x = fprintf f " [ @< hov 2 { > line = % d ; @ bol = % d ; @ off = % d } : pos ] " @ x . line x . bol x . off let dump_long f x = fprintf f " [ @< hov 2 { > file_name = % s ; @ start = % a ( % d -% d ) ; @ stop = % a ( % d ) ; @ ghost = % b @ } : Loc . t ] " @ x . file_name dump_pos x . start ( x . start . off - x . start . bol ) ( x . stop . off - x . start . bol ) dump_pos x . stop ( x . stop . off - x . stop . bol ) x . ghost let dump f x = fprintf f " [ % S : % d :% d -% d % d :% d % t ] " x . file_name x . start . line ( x . start . off - x . start . bol ) ( x . stop . off - x . start . bol ) x . stop . line ( x . stop . off - x . stop . bol ) ( fun o -> if x . ghost then fprintf o " ( ghost ) " else ( ) ) let start_pos = { line = 1 ; bol = 0 ; off = 0 ; } let ghost = { file_name = " ghost - location " ; start = start_pos ; stop = start_pos ; ghost = true ; } let mk file_name = { file_name = file_name ; start = start_pos ; stop = start_pos ; ghost = false ; } let of_tuple ( file_name , start_line , start_bol , start_off , stop_line , stop_bol , stop_off , ghost ) = { file_name = file_name ; start = { line = start_line ; bol = start_bol ; off = start_off ; } ; stop = { line = stop_line ; bol = stop_bol ; off = stop_off ; } ; ghost = ghost ; } let to_tuple { file_name = file_name ; start = { line = start_line ; bol = start_bol ; off = start_off } ; stop = { line = stop_line ; bol = stop_bol ; off = stop_off } ; ghost = ghost } = ( file_name , start_line , start_bol , start_off , stop_line , stop_bol , stop_off , ghost ) let pos_of_lexing_position p = let pos = { line = p . Lexing . pos_lnum ; bol = p . Lexing . pos_bol ; off = p . Lexing . pos_cnum ; } in pos let pos_to_lexing_position p file_name = { Lexing . pos_fname = file_name ; pos_lnum = p . line ; pos_bol = p . bol ; pos_cnum = p . off ; } let better_file_name a b = match ( a , b ) with | ( " " , " " ) -> a | ( " " , x ) -> x | ( x , " " ) -> x | ( " " , - x ) -> x | ( x , " " ) - -> x | ( x , _ ) -> x let of_lexbuf lb = let start = Lexing . lexeme_start_p lb and stop = Lexing . lexeme_end_p lb in let loc = { file_name = better_file_name start . Lexing . pos_fname stop . Lexing . pos_fname ; start = pos_of_lexing_position start ; stop = pos_of_lexing_position stop ; ghost = false ; } in loc let of_lexing_position pos = let loc = { file_name = pos . Lexing . pos_fname ; start = pos_of_lexing_position pos ; stop = pos_of_lexing_position pos ; ghost = false ; } in loc let to_ocaml_location x = { Camlp4_import . Location . loc_start = pos_to_lexing_position x . start x . file_name ; loc_end = pos_to_lexing_position x . stop x . file_name ; loc_ghost = x . ghost ; } let of_ocaml_location { Camlp4_import . Location . loc_start = a ; loc_end = b ; loc_ghost = g } = let res = { file_name = better_file_name a . Lexing . pos_fname b . Lexing . pos_fname ; start = pos_of_lexing_position a ; stop = pos_of_lexing_position b ; ghost = g ; } in res let start_pos x = pos_to_lexing_position x . start x . file_name let stop_pos x = pos_to_lexing_position x . stop x . file_name let merge a b = if a == b then a else ( let r = match ( ( a . ghost ) , ( b . ghost ) ) with | ( false , false ) -> { ( a ) with stop = b . stop ; } | ( true , true ) -> { ( a ) with stop = b . stop ; } | ( true , _ ) -> { ( a ) with stop = b . stop ; } | ( _ , true ) -> { ( b ) with start = a . start ; } in r ) let join x = { ( x ) with stop = x . start ; } let map f start_stop_both x = match start_stop_both with | ` start -> { ( x ) with start = f x . start ; } | ` stop -> { ( x ) with stop = f x . stop ; } | ` both -> { ( x ) with start = f x . start ; stop = f x . stop ; } let move_pos chars x = { ( x ) with off = x . off + chars ; } let move s chars x = map ( move_pos chars ) s x let move_line lines x = let move_line_pos x = { ( x ) with line = x . line + lines ; bol = x . off ; } in map move_line_pos ` both x let shift width x = { ( x ) with start = x . stop ; stop = move_pos width x . stop ; } let file_name x = x . file_name let start_line x = x . start . line let stop_line x = x . stop . line let start_bol x = x . start . bol let stop_bol x = x . stop . bol let start_off x = x . start . off let stop_off x = x . stop . off let is_ghost x = x . ghost let set_file_name s x = { ( x ) with file_name = s ; } let ghostify x = { ( x ) with ghost = true ; } let make_absolute x = let pwd = Sys . getcwd ( ) in if Filename . is_relative x . file_name then { ( x ) with file_name = Filename . concat pwd x . file_name ; } else x let strictly_before x y = let b = ( x . stop . off < y . start . off ) && ( x . file_name = y . file_name ) in b let to_string x = let ( a , b ) = ( ( x . start ) , ( x . stop ) ) in let res = sprintf " File " \% s " , \ line % d , characters % d -% d " x . file_name a . line ( a . off - a . bol ) ( b . off - a . bol ) in if x . start . line <> x . stop . line then sprintf " % s ( end at line % d , character % d ) " res x . stop . line ( b . off - b . bol ) else res let print out x = pp_print_string out ( to_string x ) let check x msg = if ( ( start_line x ) > ( stop_line x ) ) || ( ( ( start_bol x ) > ( stop_bol x ) ) || ( ( ( start_off x ) > ( stop_off x ) ) || ( ( ( start_line x ) < 0 ) || ( ( ( stop_line x ) < 0 ) || ( ( ( start_bol x ) < 0 ) || ( ( ( stop_bol x ) < 0 ) || ( ( ( start_off x ) < 0 ) || ( ( stop_off x ) < 0 ) ) ) ) ) ) ) ) then ( eprintf " *** Warning : ( % s ) strange positions ***\ n % a @\ n " msg print x ; false ) else true exception Exc_located of t * exn let _ = ErrorHandler . register ( fun ppf -> function | Exc_located ( loc , exn ) -> fprintf ppf " % a :@\ n % a " print loc ErrorHandler . print exn | exn -> raise exn ) let name = ref " _loc " let raise loc exc = match exc with | Exc_located ( _ , _ ) -> raise exc | _ -> raise ( Exc_located ( loc , exc ) ) end module Token : sig module Make ( Loc : Sig . Loc ) : Sig . Camlp4Token with module Loc = Loc module Eval : sig val char : string -> char val string : ? strict : unit -> string -> string end end = struct open Format module Make ( Loc : Sig . Loc ) : Sig . Camlp4Token with module Loc = Loc = struct module Loc = Loc open Sig type t = camlp4_token type token = t let to_string = function | KEYWORD s -> sprintf " KEYWORD % S " s | SYMBOL s -> sprintf " SYMBOL % S " s | LIDENT s -> sprintf " LIDENT % S " s | UIDENT s -> sprintf " UIDENT % S " s | INT ( _ , s ) -> sprintf " INT % s " s | INT32 ( _ , s ) -> sprintf " INT32 % sd " s | INT64 ( _ , s ) -> sprintf " INT64 % sd " s | NATIVEINT ( _ , s ) -> sprintf " NATIVEINT % sd " s | FLOAT ( _ , s ) -> sprintf " FLOAT % s " s | CHAR ( _ , s ) -> sprintf " CHAR ' % s ' " s | STRING ( _ , s ) -> sprintf " STRING " \% s " " \ s | LABEL s -> sprintf " LABEL % S " s | OPTLABEL s -> sprintf " OPTLABEL % S " s | ANTIQUOT ( n , s ) -> sprintf " ANTIQUOT % s : % S " n s | QUOTATION x -> sprintf " QUOTATION { q_name =% S ; q_loc =% S ; q_shift =% d ; q_contents =% S } " x . q_name x . q_loc x . q_shift x . q_contents | COMMENT s -> sprintf " COMMENT % S " s | BLANKS s -> sprintf " BLANKS % S " s | NEWLINE -> sprintf " NEWLINE " | EOI -> sprintf " EOI " | ESCAPED_IDENT s -> sprintf " ESCAPED_IDENT % S " s | LINE_DIRECTIVE ( i , None ) -> sprintf " LINE_DIRECTIVE % d " i | LINE_DIRECTIVE ( i , ( Some s ) ) -> sprintf " LINE_DIRECTIVE % d % S " i s let print ppf x = pp_print_string ppf ( to_string x ) let match_keyword kwd = function | KEYWORD kwd ' when kwd = kwd ' -> true | _ -> false let extract_string = function | KEYWORD s | SYMBOL s | LIDENT s | UIDENT s | INT ( _ , s ) | INT32 ( _ , s ) | INT64 ( _ , s ) | NATIVEINT ( _ , s ) | FLOAT ( _ , s ) | CHAR ( _ , s ) | STRING ( _ , s ) | LABEL s | OPTLABEL s | COMMENT s | BLANKS s | ESCAPED_IDENT s -> s | tok -> invalid_arg ( " Cannot extract a string from this token : " ^ ( to_string tok ) ) module Error = struct type t = | Illegal_token of string | Keyword_as_label of string | Illegal_token_pattern of string * string | Illegal_constructor of string exception E of t let print ppf = function | Illegal_token s -> fprintf ppf " Illegal token ( % s ) " s | Keyword_as_label kwd -> fprintf ppf " ` % s ' is a keyword , it cannot be used as label name " kwd | Illegal_token_pattern ( p_con , p_prm ) -> fprintf ppf " Illegal token pattern : % s % S " p_con p_prm | Illegal_constructor con -> fprintf ppf " Illegal constructor % S " con let to_string x = let b = Buffer . create 50 in let ( ) = bprintf b " % a " print x in Buffer . contents b end let _ = let module M = ErrorHandler . Register ( Error ) in ( ) module Filter = struct type token_filter = ( t , Loc . t ) stream_filter type t = { is_kwd : string -> bool ; mutable filter : token_filter } let err error loc = raise ( Loc . Exc_located ( loc , ( Error . E error ) ) ) let keyword_conversion tok is_kwd = match tok with | SYMBOL s | LIDENT s | UIDENT s when is_kwd s -> KEYWORD s | ESCAPED_IDENT s -> LIDENT s | _ -> tok let check_keyword_as_label tok loc is_kwd = let s = match tok with | LABEL s -> s | OPTLABEL s -> s | _ -> " " in if ( s <> " " ) && ( is_kwd s ) then err ( Error . Keyword_as_label s ) loc else ( ) let check_unknown_keywords tok loc = match tok with | SYMBOL s -> err ( Error . Illegal_token s ) loc | _ -> ( ) let error_no_respect_rules p_con p_prm = raise ( Error . E ( Error . Illegal_token_pattern ( p_con , p_prm ) ) ) let check_keyword _ = true let error_on_unknown_keywords = ref false let rec ignore_layout ( __strm : _ Stream . t ) = match Stream . peek __strm with | Some ( ( ( COMMENT _ | BLANKS _ | NEWLINE | LINE_DIRECTIVE ( _ , _ ) ) , _ ) ) -> ( Stream . junk __strm ; ignore_layout __strm ) | Some x -> ( Stream . junk __strm ; let s = __strm in Stream . icons x ( Stream . slazy ( fun _ -> ignore_layout s ) ) ) | _ -> Stream . sempty let mk is_kwd = { is_kwd = is_kwd ; filter = ignore_layout ; } let filter x = let f tok loc = let tok = keyword_conversion tok x . is_kwd in ( check_keyword_as_label tok loc x . is_kwd ; if ! error_on_unknown_keywords then check_unknown_keywords tok loc else ( ) ; ( tok , loc ) ) in let rec filter ( __strm : _ Stream . t ) = match Stream . peek __strm with | Some ( ( tok , loc ) ) -> ( Stream . junk __strm ; let s = __strm in Stream . lcons ( fun _ -> f tok loc ) ( Stream . slazy ( fun _ -> filter s ) ) ) | _ -> Stream . sempty in let rec tracer ( __strm : _ Stream . t ) = match Stream . peek __strm with | Some ( ( ( _tok , _loc ) as x ) ) -> ( Stream . junk __strm ; let xs = __strm in Stream . icons x ( Stream . slazy ( fun _ -> tracer xs ) ) ) | _ -> Stream . sempty in fun strm -> tracer ( x . filter ( filter strm ) ) let define_filter x f = x . filter <- f x . filter let keyword_added _ _ _ = ( ) let keyword_removed _ _ = ( ) end end module Eval = struct let valch x = ( Char . code x ) - ( Char . code ' 0 ' ) let valch_hex x = let d = Char . code x in if d >= 97 then d - 87 else if d >= 65 then d - 55 else d - 48 let rec skip_indent ( __strm : _ Stream . t ) = match Stream . peek __strm with | Some ( ' ' | ' \ t ' ) -> ( Stream . junk __strm ; skip_indent __strm ) | _ -> ( ) let skip_opt_linefeed ( __strm : _ Stream . t ) = match Stream . peek __strm with | Some ' \ 010 ' -> ( Stream . junk __strm ; ( ) ) | _ -> ( ) let chr c = if ( c < 0 ) || ( c > 255 ) then failwith " invalid char token " else Char . chr c let rec backslash ( __strm : _ Stream . t ) = match Stream . peek __strm with | Some ' \ 010 ' -> ( Stream . junk __strm ; ' \ 010 ' ) | Some ' \ 013 ' -> ( Stream . junk __strm ; ' \ 013 ' ) | Some ' n ' -> ( Stream . junk __strm ; ' \ n ' ) | Some ' r ' -> ( Stream . junk __strm ; ' \ r ' ) | Some ' t ' -> ( Stream . junk __strm ; ' \ t ' ) | Some ' b ' -> ( Stream . junk __strm ; ' \ b ' ) | Some ' ' \\ -> ( Stream . junk __strm ; ' ' ) \\ | Some ' " ' -> ( Stream . junk __strm ; ' " ' ) | Some ' ' ' \ -> ( Stream . junk __strm ; ' ' ' ) \ | Some ' ' -> ( Stream . junk __strm ; ' ' ) | Some ( ( ' 0 ' . . ' 9 ' as c1 ) ) -> ( Stream . junk __strm ; ( match Stream . peek __strm with | Some ( ( ' 0 ' . . ' 9 ' as c2 ) ) -> ( Stream . junk __strm ; ( match Stream . peek __strm with | Some ( ( ' 0 ' . . ' 9 ' as c3 ) ) -> ( Stream . junk __strm ; chr ( ( ( 100 * ( valch c1 ) ) + ( 10 * ( valch c2 ) ) ) + ( valch c3 ) ) ) | _ -> raise ( Stream . Error " " ) ) ) | _ -> raise ( Stream . Error " " ) ) ) | Some ' x ' -> ( Stream . junk __strm ; ( match Stream . peek __strm with | Some ( ( ' 0 ' . . ' 9 ' | ' a ' . . ' f ' | ' A ' . . ' F ' as c1 ) ) -> ( Stream . junk __strm ; ( match Stream . peek __strm with | Some ( ( ' 0 ' . . ' 9 ' | ' a ' . . ' f ' | ' A ' . . ' F ' as c2 ) ) -> ( Stream . junk __strm ; chr ( ( 16 * ( valch_hex c1 ) ) + ( valch_hex c2 ) ) ) | _ -> raise ( Stream . Error " " ) ) ) | _ -> raise ( Stream . Error " " ) ) ) | _ -> raise Stream . Failure let rec backslash_in_string strict store ( __strm : _ Stream . t ) = match Stream . peek __strm with | Some ' \ 010 ' -> ( Stream . junk __strm ; skip_indent __strm ) | Some ' \ 013 ' -> ( Stream . junk __strm ; let s = __strm in ( skip_opt_linefeed s ; skip_indent s ) ) | _ -> ( match try Some ( backslash __strm ) with | Stream . Failure -> None with | Some x -> store x | _ -> ( match Stream . peek __strm with | Some c when not strict -> ( Stream . junk __strm ; store ' ' ; \\ store c ) | _ -> failwith " invalid string token " ) ) let char s = if ( String . length s ) = 1 then s . [ 0 ] else if ( String . length s ) = 0 then failwith " invalid char token " else ( let ( __strm : _ Stream . t ) = Stream . of_string s in match Stream . peek __strm with | Some ' ' \\ -> ( Stream . junk __strm ; ( try backslash __strm with | Stream . Failure -> raise ( Stream . Error " " ) ) ) | _ -> failwith " invalid char token " ) let string ? strict s = let buf = Buffer . create 23 in let store = Buffer . add_char buf in let rec parse ( __strm : _ Stream . t ) = match Stream . peek __strm with | Some ' ' \\ -> ( Stream . junk __strm ; let _ = ( try backslash_in_string ( strict <> None ) store __strm with | Stream . Failure -> raise ( Stream . Error " " ) ) in parse __strm ) | Some c -> ( Stream . junk __strm ; let s = __strm in ( store c ; parse s ) ) | _ -> Buffer . contents buf in parse ( Stream . of_string s ) end end module Lexer = struct module TokenEval = Token . Eval module Make ( Token : Sig . Camlp4Token ) = struct module Loc = Token . Loc module Token = Token open Lexing open Sig module Error = struct type t = | Illegal_character of char | Illegal_escape of string | Unterminated_comment | Unterminated_string | Unterminated_quotation | Unterminated_antiquot | Unterminated_string_in_comment | Comment_start | Comment_not_end | Literal_overflow of string exception E of t open Format let print ppf = function | Illegal_character c -> fprintf ppf " Illegal character ( % s ) " ( Char . escaped c ) | Illegal_escape s -> fprintf ppf " Illegal backslash escape in string or character ( % s ) " s | Unterminated_comment -> fprintf ppf " Comment not terminated " | Unterminated_string -> fprintf ppf " String literal not terminated " | Unterminated_string_in_comment -> fprintf ppf " This comment contains an unterminated string literal " | Unterminated_quotation -> fprintf ppf " Quotation not terminated " | Unterminated_antiquot -> fprintf ppf " Antiquotation not terminated " | Literal_overflow ty -> fprintf ppf " Integer literal exceeds the range of representable integers of type % s " ty | Comment_start -> fprintf ppf " this is the start of a comment " | Comment_not_end -> fprintf ppf " this is not the end of a comment " let to_string x = let b = Buffer . create 50 in let ( ) = bprintf b " % a " print x in Buffer . contents b end let _ = let module M = ErrorHandler . Register ( Error ) in ( ) open Error type context = { loc : Loc . t ; in_comment : bool ; quotations : bool ; antiquots : bool ; lexbuf : lexbuf ; buffer : Buffer . t } let default_context lb = { loc = Loc . ghost ; in_comment = false ; quotations = true ; antiquots = false ; lexbuf = lb ; buffer = Buffer . create 256 ; } let store c = Buffer . add_string c . buffer ( Lexing . lexeme c . lexbuf ) let istore_char c i = Buffer . add_char c . buffer ( Lexing . lexeme_char c . lexbuf i ) let buff_contents c = let contents = Buffer . contents c . buffer in ( Buffer . reset c . buffer ; contents ) let loc c = Loc . merge c . loc ( Loc . of_lexbuf c . lexbuf ) let quotations c = c . quotations let antiquots c = c . antiquots let is_in_comment c = c . in_comment let in_comment c = { ( c ) with in_comment = true ; } let set_start_p c = c . lexbuf . lex_start_p <- Loc . start_pos c . loc let move_start_p shift c = let p = c . lexbuf . lex_start_p in c . lexbuf . lex_start_p <- { ( p ) with pos_cnum = p . pos_cnum + shift ; } let update_loc c = { ( c ) with loc = Loc . of_lexbuf c . lexbuf ; } let with_curr_loc f c = f ( update_loc c ) c . lexbuf let parse_nested f c = ( with_curr_loc f c ; set_start_p c ; buff_contents c ) let shift n c = { ( c ) with loc = Loc . move ` both n c . loc ; } let store_parse f c = ( store c ; f c c . lexbuf ) let parse f c = f c c . lexbuf let mk_quotation quotation c name loc shift = let s = parse_nested quotation ( update_loc c ) in let contents = String . sub s 0 ( ( String . length s ) - 2 ) in QUOTATION { q_name = name ; q_loc = loc ; q_shift = shift ; q_contents = contents ; } let update_loc c file line absolute chars = let lexbuf = c . lexbuf in let pos = lexbuf . lex_curr_p in let new_file = match file with | None -> pos . pos_fname | Some s -> s in lexbuf . lex_curr_p <- { ( pos ) with pos_fname = new_file ; pos_lnum = if absolute then line else pos . pos_lnum + line ; pos_bol = pos . pos_cnum - chars ; } let err error loc = raise ( Loc . Exc_located ( loc , ( Error . E error ) ) ) let warn error loc = Format . eprintf " Warning : % a : % a . " @ Loc . print loc Error . print error let __ocaml_lex_tables = { Lexing . lex_base = " \ 000 \ 000 \ 223 \ 255 \ 224 \ 255 \ 224 \ 000 \ 226 \ 255 \ 253 \ 000 \ 035 \ 001 \ 072 \ 001 \ \ 109 \ 001 \ 146 \ 001 \ 091 \ 000 \ 183 \ 001 \ 068 \ 000 \ 190 \ 001 \ 218 \ 001 \ 227 \ 255 \ \ 122 \ 000 \ 002 \ 002 \ 071 \ 002 \ 110 \ 002 \ 176 \ 000 \ 244 \ 255 \ 129 \ 002 \ 162 \ 002 \ \ 235 \ 002 \ 187 \ 003 \ 154 \ 004 \ 246 \ 004 \ 124 \ 000 \ 001 \ 000 \ 255 \ 255 \ 198 \ 005 \ \ 253 \ 255 \ 150 \ 006 \ 252 \ 255 \ 245 \ 255 \ 246 \ 255 \ 247 \ 255 \ 253 \ 000 \ 224 \ 000 \ \ 086 \ 000 \ 091 \ 000 \ 054 \ 003 \ 006 \ 004 \ 029 \ 002 \ 237 \ 001 \ 182 \ 004 \ 109 \ 000 \ \ 118 \ 007 \ 091 \ 000 \ 253 \ 000 \ 093 \ 000 \ 243 \ 255 \ 242 \ 255 \ 241 \ 255 \ 106 \ 005 \ \ 077 \ 003 \ 108 \ 000 \ 087 \ 003 \ 017 \ 006 \ 151 \ 007 \ 218 \ 007 \ 001 \ 008 \ 068 \ 008 \ \ 107 \ 008 \ 107 \ 000 \ 239 \ 255 \ 126 \ 008 \ 075 \ 001 \ 210 \ 008 \ 249 \ 008 \ 060 \ 009 \ \ 232 \ 255 \ 231 \ 255 \ 230 \ 255 \ 099 \ 009 \ 166 \ 009 \ 205 \ 009 \ 016 \ 010 \ 055 \ 010 \ \ 249 \ 001 \ 228 \ 255 \ 229 \ 255 \ 238 \ 255 \ 090 \ 010 \ 127 \ 010 \ 164 \ 010 \ 201 \ 010 \ \ 238 \ 010 \ 019 \ 011 \ 056 \ 011 \ 091 \ 011 \ 128 \ 011 \ 165 \ 011 \ 202 \ 011 \ 239 \ 011 \ \ 020 \ 012 \ 057 \ 012 \ 094 \ 012 \ 011 \ 007 \ 136 \ 005 \ 004 \ 000 \ 233 \ 255 \ 008 \ 000 \ \ 054 \ 001 \ 245 \ 002 \ 009 \ 000 \ 005 \ 000 \ 233 \ 255 \ 131 \ 012 \ 138 \ 012 \ 175 \ 012 \ \ 212 \ 012 \ 249 \ 012 \ 000 \ 013 \ 037 \ 013 \ 068 \ 013 \ 096 \ 013 \ 133 \ 013 \ 138 \ 013 \ \ 205 \ 013 \ 242 \ 013 \ 023 \ 014 \ 085 \ 014 \ 241 \ 255 \ 006 \ 000 \ 242 \ 255 \ 243 \ 255 \ \ 148 \ 002 \ 251 \ 255 \ 047 \ 015 \ 123 \ 000 \ 109 \ 000 \ 125 \ 000 \ 255 \ 255 \ 254 \ 255 \ \ 253 \ 255 \ 111 \ 015 \ 046 \ 016 \ 254 \ 016 \ 206 \ 017 \ 174 \ 018 \ 129 \ 000 \ 017 \ 001 \ \ 130 \ 000 \ 141 \ 000 \ 249 \ 255 \ 248 \ 255 \ 247 \ 255 \ 237 \ 006 \ 109 \ 003 \ 143 \ 000 \ \ 246 \ 255 \ 035 \ 004 \ 145 \ 000 \ 245 \ 255 \ 160 \ 014 \ 149 \ 000 \ 244 \ 255 \ 086 \ 004 \ \ 247 \ 255 \ 248 \ 255 \ 007 \ 000 \ 249 \ 255 \ 201 \ 018 \ 255 \ 255 \ 250 \ 255 \ 121 \ 016 \ \ 154 \ 004 \ 253 \ 255 \ 091 \ 001 \ 057 \ 001 \ 171 \ 004 \ 252 \ 255 \ 073 \ 017 \ 251 \ 255 \ \ 240 \ 018 \ 051 \ 019 \ 018 \ 020 \ 048 \ 020 \ 255 \ 255 \ 015 \ 021 \ 238 \ 021 \ 015 \ 022 \ \ 079 \ 022 \ 255 \ 255 \ 031 \ 023 \ 254 \ 255 \ 164 \ 001 \ 251 \ 255 \ 010 \ 000 \ 252 \ 255 \ \ 253 \ 255 \ 128 \ 000 \ 079 \ 001 \ 255 \ 255 \ 095 \ 023 \ 030 \ 024 \ 238 \ 024 \ 190 \ 025 \ \ 254 \ 255 \ 190 \ 026 \ 253 \ 255 \ 254 \ 255 \ 153 \ 001 \ 143 \ 027 \ 110 \ 028 \ 255 \ 255 \ \ 167 \ 001 \ 062 \ 029 \ 206 \ 001 \ 251 \ 255 \ 080 \ 001 \ 013 \ 000 \ 253 \ 255 \ 254 \ 255 \ \ 255 \ 255 \ 252 \ 255 \ 126 \ 029 \ 061 \ 030 \ 013 \ 031 \ 221 \ 031 " ; Lexing . lex_backtrk = " \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 030 \ 000 \ 255 \ 255 \ 028 \ 000 \ 030 \ 000 \ 030 \ 000 \ \ 030 \ 000 \ 030 \ 000 \ 028 \ 000 \ 028 \ 000 \ 028 \ 000 \ 028 \ 000 \ 028 \ 000 \ 255 \ 255 \ \ 028 \ 000 \ 030 \ 000 \ 030 \ 000 \ 028 \ 000 \ 028 \ 000 \ 255 \ 255 \ 006 \ 000 \ 006 \ 000 \ \ 005 \ 000 \ 004 \ 000 \ 030 \ 000 \ 030 \ 000 \ 001 \ 000 \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 007 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 006 \ 000 \ 006 \ 000 \ 006 \ 000 \ 007 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 014 \ 000 \ \ 014 \ 000 \ 014 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 028 \ 000 \ \ 028 \ 000 \ 015 \ 000 \ 255 \ 255 \ 028 \ 000 \ 255 \ 255 \ 255 \ 255 \ 028 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 028 \ 000 \ 028 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 030 \ 000 \ 021 \ 000 \ 020 \ 000 \ \ 018 \ 000 \ 030 \ 000 \ 018 \ 000 \ 018 \ 000 \ 018 \ 000 \ 018 \ 000 \ 028 \ 000 \ 018 \ 000 \ \ 255 \ 255 \ 019 \ 000 \ 030 \ 000 \ 255 \ 255 \ 255 \ 255 \ 022 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 022 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 028 \ 000 \ 255 \ 255 \ 028 \ 000 \ 255 \ 255 \ 028 \ 000 \ 028 \ 000 \ 028 \ 000 \ 028 \ 000 \ \ 030 \ 000 \ 030 \ 000 \ 030 \ 000 \ 255 \ 255 \ 255 \ 255 \ 013 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 014 \ 000 \ 255 \ 255 \ 003 \ 000 \ 014 \ 000 \ 014 \ 000 \ 014 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 005 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 006 \ 000 \ 255 \ 255 \ 008 \ 000 \ 255 \ 255 \ 255 \ 255 \ 005 \ 000 \ \ 005 \ 000 \ 255 \ 255 \ 001 \ 000 \ 001 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 000 \ 000 \ 001 \ 000 \ 001 \ 000 \ 255 \ 255 \ 255 \ 255 \ 002 \ 000 \ 002 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 003 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 004 \ 000 \ 004 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 002 \ 000 \ 002 \ 000 \ 002 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 004 \ 000 \ 002 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 " ; Lexing . lex_default = " \ 001 \ 000 \ 000 \ 000 \ 000 \ 000 \ 255 \ 255 \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 000 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 049 \ 000 \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 000 \ 000 \ 255 \ 255 \ \ 000 \ 000 \ 255 \ 255 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 054 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 103 \ 000 \ 255 \ 255 \ 255 \ 255 \ 000 \ 000 \ 103 \ 000 \ \ 104 \ 000 \ 103 \ 000 \ 106 \ 000 \ 255 \ 255 \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 124 \ 000 \ 000 \ 000 \ 255 \ 255 \ 000 \ 000 \ 000 \ 000 \ \ 142 \ 000 \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ 000 \ 000 \ 160 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 255 \ 255 \ 000 \ 000 \ 166 \ 000 \ 000 \ 000 \ 000 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 000 \ 000 \ 255 \ 255 \ 000 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 000 \ 000 \ 255 \ 255 \ 000 \ 000 \ 189 \ 000 \ 000 \ 000 \ 255 \ 255 \ 000 \ 000 \ \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 000 \ 000 \ 205 \ 000 \ 000 \ 000 \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 000 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 211 \ 000 \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 " ; Lexing . lex_trans = " \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 028 \ 000 \ 030 \ 000 \ 030 \ 000 \ 028 \ 000 \ 029 \ 000 \ 102 \ 000 \ 108 \ 000 \ \ 126 \ 000 \ 163 \ 000 \ 102 \ 000 \ 108 \ 000 \ 191 \ 000 \ 101 \ 000 \ 107 \ 000 \ 214 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 028 \ 000 \ 003 \ 000 \ 021 \ 000 \ 016 \ 000 \ 004 \ 000 \ 009 \ 000 \ 009 \ 000 \ 020 \ 000 \ \ 019 \ 000 \ 005 \ 000 \ 018 \ 000 \ 003 \ 000 \ 015 \ 000 \ 003 \ 000 \ 014 \ 000 \ 009 \ 000 \ \ 023 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ \ 022 \ 000 \ 022 \ 000 \ 013 \ 000 \ 012 \ 000 \ 017 \ 000 \ 006 \ 000 \ 007 \ 000 \ 026 \ 000 \ \ 009 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 011 \ 000 \ 003 \ 000 \ 005 \ 000 \ 009 \ 000 \ 025 \ 000 \ \ 015 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 010 \ 000 \ 008 \ 000 \ 005 \ 000 \ 027 \ 000 \ 015 \ 000 \ \ 117 \ 000 \ 117 \ 000 \ 053 \ 000 \ 100 \ 000 \ 052 \ 000 \ 028 \ 000 \ 045 \ 000 \ 045 \ 000 \ \ 028 \ 000 \ 115 \ 000 \ 117 \ 000 \ 044 \ 000 \ 044 \ 000 \ 044 \ 000 \ 044 \ 000 \ 044 \ 000 \ \ 044 \ 000 \ 044 \ 000 \ 044 \ 000 \ 053 \ 000 \ 066 \ 000 \ 118 \ 000 \ 135 \ 000 \ 116 \ 000 \ \ 115 \ 000 \ 115 \ 000 \ 100 \ 000 \ 117 \ 000 \ 028 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 134 \ 000 \ \ 148 \ 000 \ 147 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 146 \ 000 \ 138 \ 000 \ 152 \ 000 \ 136 \ 000 \ \ 155 \ 000 \ 117 \ 000 \ 051 \ 000 \ 137 \ 000 \ 158 \ 000 \ 050 \ 000 \ 200 \ 000 \ 000 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 118 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 000 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 002 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ 051 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 003 \ 000 \ 003 \ 000 \ 048 \ 000 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ \ 039 \ 000 \ 039 \ 000 \ 039 \ 000 \ 039 \ 000 \ 039 \ 000 \ 039 \ 000 \ 039 \ 000 \ 039 \ 000 \ \ 039 \ 000 \ 039 \ 000 \ 003 \ 000 \ 144 \ 000 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ \ 003 \ 000 \ 000 \ 000 \ 096 \ 000 \ 096 \ 000 \ 052 \ 000 \ 038 \ 000 \ 084 \ 000 \ 000 \ 000 \ \ 047 \ 000 \ 000 \ 000 \ 047 \ 000 \ 084 \ 000 \ 096 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 084 \ 000 \ \ 147 \ 000 \ 084 \ 000 \ 084 \ 000 \ 084 \ 000 \ 003 \ 000 \ 096 \ 000 \ 003 \ 000 \ 039 \ 000 \ \ 102 \ 000 \ 000 \ 000 \ 171 \ 000 \ 101 \ 000 \ 003 \ 000 \ 038 \ 000 \ 000 \ 000 \ 003 \ 000 \ \ 009 \ 000 \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ 084 \ 000 \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ \ 003 \ 000 \ 006 \ 000 \ 009 \ 000 \ 000 \ 000 \ 068 \ 000 \ 000 \ 000 \ 000 \ 000 \ 068 \ 000 \ \ 106 \ 000 \ 171 \ 000 \ 084 \ 000 \ 096 \ 000 \ 003 \ 000 \ 085 \ 000 \ 003 \ 000 \ 006 \ 000 \ \ 006 \ 000 \ 006 \ 000 \ 003 \ 000 \ 009 \ 000 \ 171 \ 000 \ 171 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 003 \ 000 \ 000 \ 000 \ 068 \ 000 \ 003 \ 000 \ 121 \ 000 \ 121 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 084 \ 000 \ 003 \ 000 \ 003 \ 000 \ 074 \ 000 \ 003 \ 000 \ 007 \ 000 \ 121 \ 000 \ \ 000 \ 000 \ 084 \ 000 \ 084 \ 000 \ 171 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ \ 084 \ 000 \ 009 \ 000 \ 120 \ 000 \ 000 \ 000 \ 007 \ 000 \ 007 \ 000 \ 007 \ 000 \ 003 \ 000 \ \ 121 \ 000 \ 197 \ 000 \ 219 \ 000 \ 195 \ 000 \ 217 \ 000 \ 000 \ 000 \ 003 \ 000 \ 196 \ 000 \ \ 218 \ 000 \ 003 \ 000 \ 009 \ 000 \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ 005 \ 000 \ 003 \ 000 \ \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ 006 \ 000 \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ 085 \ 000 \ \ 084 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 005 \ 000 \ 121 \ 000 \ 085 \ 000 \ \ 000 \ 000 \ 006 \ 000 \ 006 \ 000 \ 006 \ 000 \ 003 \ 000 \ 009 \ 000 \ 191 \ 000 \ 000 \ 000 \ \ 255 \ 255 \ 190 \ 000 \ 000 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 009 \ 000 \ \ 009 \ 000 \ 000 \ 000 \ 208 \ 000 \ 094 \ 000 \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ \ 009 \ 000 \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ 120 \ 000 \ 005 \ 000 \ 003 \ 000 \ 208 \ 000 \ \ 208 \ 000 \ 003 \ 000 \ 005 \ 000 \ 009 \ 000 \ 098 \ 000 \ 000 \ 000 \ 009 \ 000 \ 009 \ 000 \ \ 009 \ 000 \ 003 \ 000 \ 009 \ 000 \ 203 \ 000 \ 000 \ 000 \ 208 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 214 \ 000 \ 000 \ 000 \ 000 \ 000 \ 213 \ 000 \ 117 \ 000 \ 117 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 194 \ 000 \ 203 \ 000 \ 193 \ 000 \ 111 \ 000 \ 111 \ 000 \ 115 \ 000 \ 117 \ 000 \ 005 \ 000 \ \ 000 \ 000 \ 085 \ 000 \ 005 \ 000 \ 003 \ 000 \ 109 \ 000 \ 111 \ 000 \ 003 \ 000 \ 094 \ 000 \ \ 009 \ 000 \ 116 \ 000 \ 216 \ 000 \ 116 \ 000 \ 115 \ 000 \ 115 \ 000 \ 000 \ 000 \ 117 \ 000 \ \ 114 \ 000 \ 000 \ 000 \ 109 \ 000 \ 112 \ 000 \ 112 \ 000 \ 000 \ 000 \ 111 \ 000 \ 111 \ 000 \ \ 111 \ 000 \ 000 \ 000 \ 080 \ 000 \ 084 \ 000 \ 000 \ 000 \ 080 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 112 \ 000 \ 111 \ 000 \ 212 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 098 \ 000 \ 094 \ 000 \ \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 110 \ 000 \ 117 \ 000 \ 109 \ 000 \ 109 \ 000 \ \ 109 \ 000 \ 080 \ 000 \ 111 \ 000 \ 005 \ 000 \ 111 \ 000 \ 045 \ 000 \ 045 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 081 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 009 \ 000 \ \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ 084 \ 000 \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ \ 006 \ 000 \ 009 \ 000 \ 000 \ 000 \ 116 \ 000 \ 000 \ 000 \ 000 \ 000 \ 255 \ 255 \ 084 \ 000 \ \ 111 \ 000 \ 036 \ 000 \ 110 \ 000 \ 005 \ 000 \ 086 \ 000 \ 000 \ 000 \ 088 \ 000 \ 006 \ 000 \ \ 006 \ 000 \ 003 \ 000 \ 087 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 045 \ 000 \ 044 \ 000 \ 044 \ 000 \ 044 \ 000 \ \ 044 \ 000 \ 044 \ 000 \ 044 \ 000 \ 044 \ 000 \ 044 \ 000 \ 000 \ 000 \ 110 \ 000 \ 084 \ 000 \ \ 000 \ 000 \ 037 \ 000 \ 000 \ 000 \ 035 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 084 \ 000 \ \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 003 \ 000 \ 036 \ 000 \ 000 \ 000 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 083 \ 000 \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ 060 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 060 \ 000 \ 000 \ 000 \ 044 \ 000 \ 000 \ 000 \ 085 \ 000 \ 084 \ 000 \ \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ \ 000 \ 000 \ 037 \ 000 \ 000 \ 000 \ 035 \ 000 \ 000 \ 000 \ 000 \ 000 \ 060 \ 000 \ 061 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 061 \ 000 \ 064 \ 000 \ 064 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 065 \ 000 \ 061 \ 000 \ 000 \ 000 \ 061 \ 000 \ 062 \ 000 \ 064 \ 000 \ 144 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 143 \ 000 \ 000 \ 000 \ 003 \ 000 \ 192 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 063 \ 000 \ 000 \ 000 \ 062 \ 000 \ 062 \ 000 \ 062 \ 000 \ 061 \ 000 \ 064 \ 000 \ 039 \ 000 \ \ 000 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 145 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ 038 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 061 \ 000 \ 000 \ 000 \ 064 \ 000 \ 036 \ 000 \ 215 \ 000 \ 000 \ 000 \ \ 039 \ 000 \ 000 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 022 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 040 \ 000 \ 000 \ 000 \ 038 \ 000 \ 038 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 063 \ 000 \ 000 \ 000 \ 061 \ 000 \ 037 \ 000 \ 036 \ 000 \ 035 \ 000 \ \ 141 \ 000 \ 041 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 042 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 105 \ 000 \ 102 \ 000 \ \ 000 \ 000 \ 022 \ 000 \ 101 \ 000 \ 000 \ 000 \ 040 \ 000 \ 000 \ 000 \ 000 \ 000 \ 038 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 037 \ 000 \ 000 \ 000 \ \ 035 \ 000 \ 041 \ 000 \ 024 \ 000 \ 000 \ 000 \ 000 \ 000 \ 105 \ 000 \ 000 \ 000 \ 104 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 042 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 024 \ 000 \ 000 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 043 \ 000 \ 043 \ 000 \ \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 043 \ 000 \ \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 049 \ 000 \ \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ \ 049 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 255 \ 255 \ 000 \ 000 \ 000 \ 000 \ 043 \ 000 \ \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 153 \ 000 \ 153 \ 000 \ 153 \ 000 \ \ 153 \ 000 \ 153 \ 000 \ 153 \ 000 \ 153 \ 000 \ 153 \ 000 \ 153 \ 000 \ 153 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 000 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 025 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 255 \ 255 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 025 \ 000 \ 000 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 043 \ 000 \ 043 \ 000 \ \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 043 \ 000 \ \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 036 \ 000 \ 154 \ 000 \ 154 \ 000 \ 154 \ 000 \ 154 \ 000 \ 154 \ 000 \ \ 154 \ 000 \ 154 \ 000 \ 154 \ 000 \ 154 \ 000 \ 154 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 163 \ 000 \ 000 \ 000 \ 000 \ 000 \ 162 \ 000 \ 000 \ 000 \ 043 \ 000 \ 000 \ 000 \ 043 \ 000 \ \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 037 \ 000 \ 000 \ 000 \ 035 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 165 \ 000 \ 000 \ 000 \ 000 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 000 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 164 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 003 \ 000 \ \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ \ 003 \ 000 \ 003 \ 000 \ 172 \ 000 \ 172 \ 000 \ 172 \ 000 \ 172 \ 000 \ 172 \ 000 \ 172 \ 000 \ \ 172 \ 000 \ 172 \ 000 \ 172 \ 000 \ 172 \ 000 \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ 003 \ 000 \ \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ 173 \ 000 \ 173 \ 000 \ 173 \ 000 \ 173 \ 000 \ 173 \ 000 \ \ 173 \ 000 \ 173 \ 000 \ 173 \ 000 \ 173 \ 000 \ 173 \ 000 \ 000 \ 000 \ 046 \ 000 \ 046 \ 000 \ \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 000 \ 000 \ \ 003 \ 000 \ 033 \ 000 \ 000 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 046 \ 000 \ 003 \ 000 \ 003 \ 000 \ \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ 031 \ 000 \ 161 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 000 \ 000 \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 100 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 100 \ 000 \ 000 \ 000 \ 000 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ \ 059 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ \ 099 \ 000 \ 099 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ \ 059 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 032 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 031 \ 000 \ 000 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ 049 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 000 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 033 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 034 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 033 \ 000 \ 000 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 105 \ 000 \ 102 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 101 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 105 \ 000 \ 000 \ 000 \ 104 \ 000 \ 156 \ 000 \ 156 \ 000 \ \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 156 \ 000 \ 156 \ 000 \ \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 000 \ 000 \ 000 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 000 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 000 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 057 \ 000 \ 000 \ 000 \ \ 057 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 057 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 060 \ 000 \ 000 \ 000 \ 000 \ 000 \ 060 \ 000 \ 000 \ 000 \ 000 \ 000 \ 056 \ 000 \ 056 \ 000 \ \ 056 \ 000 \ 056 \ 000 \ 056 \ 000 \ 056 \ 000 \ 056 \ 000 \ 056 \ 000 \ 056 \ 000 \ 056 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 060 \ 000 \ \ 078 \ 000 \ 000 \ 000 \ 000 \ 000 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 079 \ 000 \ 078 \ 000 \ 000 \ 000 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 078 \ 000 \ 057 \ 000 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ \ 057 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 068 \ 000 \ 057 \ 000 \ 000 \ 000 \ 068 \ 000 \ 000 \ 000 \ \ 057 \ 000 \ 000 \ 000 \ 057 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 055 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 078 \ 000 \ 000 \ 000 \ 078 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 068 \ 000 \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 069 \ 000 \ 069 \ 000 \ \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 072 \ 000 \ 071 \ 000 \ 069 \ 000 \ 000 \ 000 \ 069 \ 000 \ \ 069 \ 000 \ 069 \ 000 \ 068 \ 000 \ 255 \ 255 \ 000 \ 000 \ 068 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 078 \ 000 \ 069 \ 000 \ 078 \ 000 \ 069 \ 000 \ 069 \ 000 \ \ 069 \ 000 \ 069 \ 000 \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 068 \ 000 \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 069 \ 000 \ 070 \ 000 \ 070 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 072 \ 000 \ 071 \ 000 \ 069 \ 000 \ 000 \ 000 \ 069 \ 000 \ 077 \ 000 \ \ 070 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 069 \ 000 \ 000 \ 000 \ \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 077 \ 000 \ 000 \ 000 \ 077 \ 000 \ 077 \ 000 \ 077 \ 000 \ \ 069 \ 000 \ 070 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 068 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 068 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 069 \ 000 \ 000 \ 000 \ \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 069 \ 000 \ 000 \ 000 \ 070 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 068 \ 000 \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 069 \ 000 \ 076 \ 000 \ 076 \ 000 \ 000 \ 000 \ 000 \ 000 \ 072 \ 000 \ 071 \ 000 \ 069 \ 000 \ \ 000 \ 000 \ 069 \ 000 \ 075 \ 000 \ 076 \ 000 \ 068 \ 000 \ 000 \ 000 \ 255 \ 255 \ 068 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 077 \ 000 \ 075 \ 000 \ 069 \ 000 \ \ 075 \ 000 \ 075 \ 000 \ 075 \ 000 \ 069 \ 000 \ 076 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 068 \ 000 \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 069 \ 000 \ \ 070 \ 000 \ 070 \ 000 \ 000 \ 000 \ 067 \ 000 \ 072 \ 000 \ 071 \ 000 \ 069 \ 000 \ 000 \ 000 \ \ 069 \ 000 \ 070 \ 000 \ 070 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 069 \ 000 \ 000 \ 000 \ 076 \ 000 \ 067 \ 000 \ 067 \ 000 \ 070 \ 000 \ 067 \ 000 \ 070 \ 000 \ \ 070 \ 000 \ 070 \ 000 \ 069 \ 000 \ 070 \ 000 \ 067 \ 000 \ 067 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 067 \ 000 \ 000 \ 000 \ 067 \ 000 \ 067 \ 000 \ 067 \ 000 \ 000 \ 000 \ 067 \ 000 \ 000 \ 000 \ \ 075 \ 000 \ 000 \ 000 \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 067 \ 000 \ 069 \ 000 \ \ 000 \ 000 \ 070 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 067 \ 000 \ 000 \ 000 \ 068 \ 000 \ 067 \ 000 \ 000 \ 000 \ 068 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 067 \ 000 \ 070 \ 000 \ \ 000 \ 000 \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 068 \ 000 \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 069 \ 000 \ 069 \ 000 \ \ 069 \ 000 \ 067 \ 000 \ 067 \ 000 \ 073 \ 000 \ 071 \ 000 \ 069 \ 000 \ 000 \ 000 \ 069 \ 000 \ \ 069 \ 000 \ 069 \ 000 \ 068 \ 000 \ 000 \ 000 \ 000 \ 000 \ 068 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 069 \ 000 \ 000 \ 000 \ 069 \ 000 \ 069 \ 000 \ \ 069 \ 000 \ 069 \ 000 \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 068 \ 000 \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 069 \ 000 \ 070 \ 000 \ 070 \ 000 \ \ 000 \ 000 \ 067 \ 000 \ 073 \ 000 \ 071 \ 000 \ 069 \ 000 \ 000 \ 000 \ 069 \ 000 \ 070 \ 000 \ \ 070 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 069 \ 000 \ 000 \ 000 \ \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 070 \ 000 \ 000 \ 000 \ 070 \ 000 \ 070 \ 000 \ 070 \ 000 \ \ 069 \ 000 \ 070 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 068 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 068 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 069 \ 000 \ 000 \ 000 \ \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 067 \ 000 \ 069 \ 000 \ 000 \ 000 \ 070 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 068 \ 000 \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 069 \ 000 \ 069 \ 000 \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 071 \ 000 \ 069 \ 000 \ \ 000 \ 000 \ 069 \ 000 \ 069 \ 000 \ 069 \ 000 \ 068 \ 000 \ 000 \ 000 \ 000 \ 000 \ 068 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 067 \ 000 \ 070 \ 000 \ 069 \ 000 \ 069 \ 000 \ \ 069 \ 000 \ 069 \ 000 \ 069 \ 000 \ 069 \ 000 \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 068 \ 000 \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 069 \ 000 \ \ 076 \ 000 \ 076 \ 000 \ 000 \ 000 \ 000 \ 000 \ 073 \ 000 \ 071 \ 000 \ 069 \ 000 \ 000 \ 000 \ \ 069 \ 000 \ 075 \ 000 \ 076 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 069 \ 000 \ 000 \ 000 \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 075 \ 000 \ 000 \ 000 \ 075 \ 000 \ \ 075 \ 000 \ 075 \ 000 \ 069 \ 000 \ 076 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 068 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 068 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 069 \ 000 \ 000 \ 000 \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 069 \ 000 \ \ 000 \ 000 \ 076 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 068 \ 000 \ 069 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 069 \ 000 \ 076 \ 000 \ 076 \ 000 \ 000 \ 000 \ 067 \ 000 \ 073 \ 000 \ \ 071 \ 000 \ 069 \ 000 \ 000 \ 000 \ 069 \ 000 \ 076 \ 000 \ 076 \ 000 \ 068 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 068 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 075 \ 000 \ \ 076 \ 000 \ 069 \ 000 \ 076 \ 000 \ 076 \ 000 \ 076 \ 000 \ 069 \ 000 \ 076 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 068 \ 000 \ 069 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 069 \ 000 \ 070 \ 000 \ 070 \ 000 \ 000 \ 000 \ 000 \ 000 \ 073 \ 000 \ 071 \ 000 \ \ 069 \ 000 \ 000 \ 000 \ 069 \ 000 \ 077 \ 000 \ 070 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 067 \ 000 \ 069 \ 000 \ 000 \ 000 \ 076 \ 000 \ 000 \ 000 \ 000 \ 000 \ 077 \ 000 \ \ 000 \ 000 \ 077 \ 000 \ 077 \ 000 \ 077 \ 000 \ 069 \ 000 \ 070 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 080 \ 000 \ 000 \ 000 \ 000 \ 000 \ 080 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 067 \ 000 \ 076 \ 000 \ 000 \ 000 \ 069 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 069 \ 000 \ 000 \ 000 \ 070 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 080 \ 000 \ 078 \ 000 \ 000 \ 000 \ 000 \ 000 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 082 \ 000 \ 079 \ 000 \ 078 \ 000 \ 000 \ 000 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ \ 080 \ 000 \ 000 \ 000 \ 000 \ 000 \ 080 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 077 \ 000 \ 078 \ 000 \ 069 \ 000 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ \ 078 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 080 \ 000 \ \ 078 \ 000 \ 000 \ 000 \ 000 \ 000 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 079 \ 000 \ 078 \ 000 \ 000 \ 000 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 078 \ 000 \ 000 \ 000 \ 078 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 078 \ 000 \ 000 \ 000 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 096 \ 000 \ \ 096 \ 000 \ 000 \ 000 \ 000 \ 000 \ 084 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 084 \ 000 \ 096 \ 000 \ 000 \ 000 \ 000 \ 000 \ 078 \ 000 \ 000 \ 000 \ 078 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 078 \ 000 \ 084 \ 000 \ 078 \ 000 \ 084 \ 000 \ 084 \ 000 \ \ 084 \ 000 \ 000 \ 000 \ 096 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 009 \ 000 \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 005 \ 000 \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ 006 \ 000 \ 009 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 078 \ 000 \ 000 \ 000 \ 078 \ 000 \ 000 \ 000 \ 084 \ 000 \ \ 096 \ 000 \ 085 \ 000 \ 000 \ 000 \ 006 \ 000 \ 006 \ 000 \ 006 \ 000 \ 003 \ 000 \ 009 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 003 \ 000 \ 009 \ 000 \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ 005 \ 000 \ 003 \ 000 \ 003 \ 000 \ \ 000 \ 000 \ 003 \ 000 \ 006 \ 000 \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ 084 \ 000 \ 084 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 084 \ 000 \ 009 \ 000 \ 085 \ 000 \ 000 \ 000 \ \ 006 \ 000 \ 006 \ 000 \ 006 \ 000 \ 003 \ 000 \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 009 \ 000 \ 009 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 094 \ 000 \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ 009 \ 000 \ \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ 085 \ 000 \ 005 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 003 \ 000 \ 084 \ 000 \ 009 \ 000 \ 098 \ 000 \ 000 \ 000 \ 009 \ 000 \ 009 \ 000 \ 009 \ 000 \ \ 003 \ 000 \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 090 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 093 \ 000 \ 093 \ 000 \ 000 \ 000 \ 000 \ 000 \ 084 \ 000 \ \ 090 \ 000 \ 090 \ 000 \ 000 \ 000 \ 090 \ 000 \ 091 \ 000 \ 093 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 085 \ 000 \ 005 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 094 \ 000 \ 009 \ 000 \ \ 092 \ 000 \ 000 \ 000 \ 006 \ 000 \ 091 \ 000 \ 089 \ 000 \ 090 \ 000 \ 093 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ \ 009 \ 000 \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ 084 \ 000 \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ \ 003 \ 000 \ 006 \ 000 \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ 098 \ 000 \ 094 \ 000 \ 003 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 090 \ 000 \ 084 \ 000 \ 093 \ 000 \ 085 \ 000 \ 000 \ 000 \ 006 \ 000 \ \ 006 \ 000 \ 097 \ 000 \ 003 \ 000 \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 090 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 090 \ 000 \ 090 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 090 \ 000 \ 090 \ 000 \ 000 \ 000 \ 090 \ 000 \ 090 \ 000 \ 090 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 092 \ 000 \ 084 \ 000 \ 090 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ \ 084 \ 000 \ 009 \ 000 \ 090 \ 000 \ 000 \ 000 \ 003 \ 000 \ 090 \ 000 \ 003 \ 000 \ 090 \ 000 \ \ 090 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 090 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ \ 093 \ 000 \ 093 \ 000 \ 000 \ 000 \ 000 \ 000 \ 084 \ 000 \ 090 \ 000 \ 090 \ 000 \ 000 \ 000 \ \ 090 \ 000 \ 091 \ 000 \ 093 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 085 \ 000 \ \ 084 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 090 \ 000 \ 092 \ 000 \ 090 \ 000 \ 006 \ 000 \ \ 091 \ 000 \ 006 \ 000 \ 090 \ 000 \ 093 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 090 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 093 \ 000 \ 093 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 005 \ 000 \ 090 \ 000 \ 090 \ 000 \ 000 \ 000 \ 090 \ 000 \ 091 \ 000 \ 093 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 090 \ 000 \ 000 \ 000 \ 090 \ 000 \ 090 \ 000 \ \ 084 \ 000 \ 093 \ 000 \ 092 \ 000 \ 000 \ 000 \ 006 \ 000 \ 091 \ 000 \ 006 \ 000 \ 090 \ 000 \ \ 093 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 090 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 003 \ 000 \ 093 \ 000 \ 093 \ 000 \ 000 \ 000 \ 000 \ 000 \ 094 \ 000 \ 090 \ 000 \ \ 090 \ 000 \ 000 \ 000 \ 090 \ 000 \ 093 \ 000 \ 093 \ 000 \ 000 \ 000 \ 000 \ 000 \ 092 \ 000 \ \ 084 \ 000 \ 090 \ 000 \ 000 \ 000 \ 000 \ 000 \ 090 \ 000 \ 084 \ 000 \ 093 \ 000 \ 095 \ 000 \ \ 000 \ 000 \ 009 \ 000 \ 093 \ 000 \ 009 \ 000 \ 090 \ 000 \ 093 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 096 \ 000 \ \ 096 \ 000 \ 000 \ 000 \ 000 \ 000 \ 094 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 096 \ 000 \ 096 \ 000 \ 000 \ 000 \ 000 \ 000 \ 092 \ 000 \ 005 \ 000 \ 090 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 090 \ 000 \ 094 \ 000 \ 093 \ 000 \ 096 \ 000 \ 000 \ 000 \ 096 \ 000 \ 096 \ 000 \ \ 096 \ 000 \ 000 \ 000 \ 096 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 090 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 093 \ 000 \ 093 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 094 \ 000 \ 090 \ 000 \ 090 \ 000 \ 000 \ 000 \ 090 \ 000 \ 093 \ 000 \ 093 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 095 \ 000 \ 094 \ 000 \ 090 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 094 \ 000 \ \ 096 \ 000 \ 095 \ 000 \ 000 \ 000 \ 009 \ 000 \ 093 \ 000 \ 009 \ 000 \ 090 \ 000 \ 093 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 096 \ 000 \ 096 \ 000 \ 000 \ 000 \ 000 \ 000 \ 094 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 096 \ 000 \ 096 \ 000 \ 000 \ 000 \ 000 \ 000 \ 096 \ 000 \ 094 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 090 \ 000 \ 094 \ 000 \ 093 \ 000 \ 096 \ 000 \ 000 \ 000 \ \ 096 \ 000 \ 096 \ 000 \ 096 \ 000 \ 000 \ 000 \ 096 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 009 \ 000 \ 009 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 084 \ 000 \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ 006 \ 000 \ \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ 095 \ 000 \ 094 \ 000 \ 090 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 094 \ 000 \ 096 \ 000 \ 085 \ 000 \ 000 \ 000 \ 006 \ 000 \ 006 \ 000 \ 006 \ 000 \ \ 003 \ 000 \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 009 \ 000 \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ 094 \ 000 \ \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ 009 \ 000 \ 009 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 096 \ 000 \ 094 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 084 \ 000 \ 009 \ 000 \ \ 098 \ 000 \ 000 \ 000 \ 009 \ 000 \ 009 \ 000 \ 009 \ 000 \ 003 \ 000 \ 009 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 111 \ 000 \ 111 \ 000 \ 000 \ 000 \ 000 \ 000 \ 084 \ 000 \ 000 \ 000 \ 000 \ 000 \ 111 \ 000 \ \ 111 \ 000 \ 109 \ 000 \ 111 \ 000 \ 005 \ 000 \ 000 \ 000 \ 085 \ 000 \ 084 \ 000 \ 003 \ 000 \ \ 109 \ 000 \ 111 \ 000 \ 003 \ 000 \ 094 \ 000 \ 009 \ 000 \ 110 \ 000 \ 000 \ 000 \ 109 \ 000 \ \ 109 \ 000 \ 109 \ 000 \ 000 \ 000 \ 111 \ 000 \ 110 \ 000 \ 000 \ 000 \ 109 \ 000 \ 109 \ 000 \ \ 109 \ 000 \ 000 \ 000 \ 111 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 111 \ 000 \ 111 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 094 \ 000 \ 000 \ 000 \ 098 \ 000 \ 094 \ 000 \ 003 \ 000 \ 111 \ 000 \ 111 \ 000 \ 000 \ 000 \ \ 084 \ 000 \ 111 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 084 \ 000 \ \ 111 \ 000 \ 113 \ 000 \ 000 \ 000 \ 111 \ 000 \ 111 \ 000 \ 111 \ 000 \ 000 \ 000 \ 111 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 111 \ 000 \ 111 \ 000 \ 000 \ 000 \ 000 \ 000 \ 084 \ 000 \ 000 \ 000 \ 110 \ 000 \ \ 084 \ 000 \ 000 \ 000 \ 109 \ 000 \ 111 \ 000 \ 000 \ 000 \ 000 \ 000 \ 110 \ 000 \ 005 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 094 \ 000 \ 111 \ 000 \ 110 \ 000 \ 000 \ 000 \ \ 109 \ 000 \ 109 \ 000 \ 109 \ 000 \ 000 \ 000 \ 111 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 111 \ 000 \ 111 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 094 \ 000 \ 000 \ 000 \ 000 \ 000 \ 111 \ 000 \ 111 \ 000 \ 111 \ 000 \ \ 111 \ 000 \ 005 \ 000 \ 000 \ 000 \ 113 \ 000 \ 094 \ 000 \ 000 \ 000 \ 109 \ 000 \ 111 \ 000 \ \ 000 \ 000 \ 084 \ 000 \ 111 \ 000 \ 113 \ 000 \ 000 \ 000 \ 111 \ 000 \ 111 \ 000 \ 111 \ 000 \ \ 000 \ 000 \ 111 \ 000 \ 110 \ 000 \ 000 \ 000 \ 109 \ 000 \ 109 \ 000 \ 109 \ 000 \ 000 \ 000 \ \ 111 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 117 \ 000 \ 117 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 110 \ 000 \ 084 \ 000 \ 000 \ 000 \ 115 \ 000 \ 117 \ 000 \ 000 \ 000 \ 094 \ 000 \ 111 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 084 \ 000 \ 111 \ 000 \ 115 \ 000 \ \ 000 \ 000 \ 116 \ 000 \ 115 \ 000 \ 115 \ 000 \ 000 \ 000 \ 117 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 117 \ 000 \ 117 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 115 \ 000 \ 117 \ 000 \ 000 \ 000 \ 113 \ 000 \ 094 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 110 \ 000 \ 005 \ 000 \ 115 \ 000 \ 000 \ 000 \ \ 116 \ 000 \ 115 \ 000 \ 115 \ 000 \ 117 \ 000 \ 117 \ 000 \ 117 \ 000 \ 117 \ 000 \ 000 \ 000 \ \ 067 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 117 \ 000 \ 117 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 117 \ 000 \ 000 \ 000 \ 117 \ 000 \ 117 \ 000 \ 117 \ 000 \ 000 \ 000 \ \ 117 \ 000 \ 115 \ 000 \ 117 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 119 \ 000 \ 119 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 119 \ 000 \ \ 119 \ 000 \ 000 \ 000 \ 067 \ 000 \ 118 \ 000 \ 119 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 119 \ 000 \ 119 \ 000 \ 000 \ 000 \ 067 \ 000 \ 000 \ 000 \ 000 \ 000 \ 117 \ 000 \ 118 \ 000 \ \ 115 \ 000 \ 118 \ 000 \ 118 \ 000 \ 118 \ 000 \ 119 \ 000 \ 119 \ 000 \ 119 \ 000 \ 119 \ 000 \ \ 119 \ 000 \ 000 \ 000 \ 119 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 067 \ 000 \ 117 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 119 \ 000 \ 000 \ 000 \ 067 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 119 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 003 \ 000 \ 121 \ 000 \ 121 \ 000 \ 000 \ 000 \ 000 \ 000 \ 005 \ 000 \ 003 \ 000 \ \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ 007 \ 000 \ 121 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 118 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 067 \ 000 \ 119 \ 000 \ 120 \ 000 \ \ 000 \ 000 \ 007 \ 000 \ 007 \ 000 \ 007 \ 000 \ 003 \ 000 \ 121 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 121 \ 000 \ \ 121 \ 000 \ 000 \ 000 \ 000 \ 000 \ 094 \ 000 \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ \ 121 \ 000 \ 121 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 003 \ 000 \ 005 \ 000 \ 121 \ 000 \ 122 \ 000 \ 000 \ 000 \ 121 \ 000 \ 121 \ 000 \ \ 121 \ 000 \ 003 \ 000 \ 121 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 121 \ 000 \ 121 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 094 \ 000 \ 003 \ 000 \ 003 \ 000 \ 000 \ 000 \ 003 \ 000 \ 121 \ 000 \ 121 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 120 \ 000 \ 005 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 094 \ 000 \ \ 121 \ 000 \ 122 \ 000 \ 000 \ 000 \ 121 \ 000 \ 121 \ 000 \ 121 \ 000 \ 003 \ 000 \ 121 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 126 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 125 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 122 \ 000 \ 094 \ 000 \ \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 003 \ 000 \ 094 \ 000 \ 121 \ 000 \ 000 \ 000 \ 129 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 128 \ 000 \ 133 \ 000 \ 000 \ 000 \ 132 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 131 \ 000 \ 000 \ 000 \ 122 \ 000 \ 094 \ 000 \ 003 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 130 \ 000 \ 000 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 157 \ 000 \ 157 \ 000 \ 157 \ 000 \ 157 \ 000 \ 157 \ 000 \ 157 \ 000 \ 157 \ 000 \ 157 \ 000 \ \ 157 \ 000 \ 157 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 157 \ 000 \ 157 \ 000 \ 157 \ 000 \ 157 \ 000 \ 157 \ 000 \ 157 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 157 \ 000 \ 157 \ 000 \ 157 \ 000 \ 157 \ 000 \ 157 \ 000 \ 157 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 000 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 000 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 127 \ 000 \ 130 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 130 \ 000 \ 000 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 140 \ 000 \ 000 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 000 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 000 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 000 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 000 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 139 \ 000 \ 000 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 000 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 136 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 137 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 139 \ 000 \ 000 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 175 \ 000 \ 175 \ 000 \ 175 \ 000 \ 175 \ 000 \ 175 \ 000 \ 175 \ 000 \ 175 \ 000 \ \ 175 \ 000 \ 175 \ 000 \ 175 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 175 \ 000 \ 175 \ 000 \ 175 \ 000 \ 175 \ 000 \ 175 \ 000 \ 175 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 175 \ 000 \ 175 \ 000 \ 175 \ 000 \ 175 \ 000 \ 175 \ 000 \ 175 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 000 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 140 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 136 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 140 \ 000 \ 000 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 000 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 000 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 151 \ 000 \ 000 \ 000 \ \ 151 \ 000 \ 000 \ 000 \ 000 \ 000 \ 171 \ 000 \ 000 \ 000 \ 151 \ 000 \ 170 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 150 \ 000 \ 150 \ 000 \ \ 150 \ 000 \ 150 \ 000 \ 150 \ 000 \ 150 \ 000 \ 150 \ 000 \ 150 \ 000 \ 150 \ 000 \ 150 \ 000 \ \ 000 \ 000 \ 169 \ 000 \ 000 \ 000 \ 169 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 169 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 168 \ 000 \ 168 \ 000 \ 168 \ 000 \ 168 \ 000 \ 168 \ 000 \ 168 \ 000 \ 168 \ 000 \ \ 168 \ 000 \ 168 \ 000 \ 168 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 151 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 151 \ 000 \ 176 \ 000 \ 000 \ 000 \ 000 \ 000 \ 176 \ 000 \ 176 \ 000 \ 176 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 176 \ 000 \ 176 \ 000 \ 151 \ 000 \ 176 \ 000 \ 176 \ 000 \ 176 \ 000 \ \ 151 \ 000 \ 000 \ 000 \ 151 \ 000 \ 000 \ 000 \ 000 \ 000 \ 169 \ 000 \ 149 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 176 \ 000 \ 169 \ 000 \ 176 \ 000 \ 176 \ 000 \ 176 \ 000 \ 176 \ 000 \ \ 176 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 169 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 169 \ 000 \ 000 \ 000 \ 169 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 167 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 176 \ 000 \ 000 \ 000 \ 176 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 178 \ 000 \ 000 \ 000 \ 000 \ 000 \ 178 \ 000 \ \ 178 \ 000 \ 178 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 178 \ 000 \ 178 \ 000 \ 000 \ 000 \ \ 178 \ 000 \ 178 \ 000 \ 178 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 176 \ 000 \ 178 \ 000 \ 176 \ 000 \ 178 \ 000 \ \ 178 \ 000 \ 178 \ 000 \ 178 \ 000 \ 178 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 000 \ 000 \ 178 \ 000 \ \ 000 \ 000 \ 178 \ 000 \ 179 \ 000 \ 000 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 000 \ 000 \ 178 \ 000 \ \ 000 \ 000 \ 178 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 255 \ 255 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 000 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 000 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 178 \ 000 \ 000 \ 000 \ 000 \ 000 \ 178 \ 000 \ 178 \ 000 \ \ 178 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 178 \ 000 \ 178 \ 000 \ 000 \ 000 \ 178 \ 000 \ \ 178 \ 000 \ 178 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 178 \ 000 \ 000 \ 000 \ 178 \ 000 \ 178 \ 000 \ \ 178 \ 000 \ 178 \ 000 \ 178 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 179 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 000 \ 000 \ 000 \ 000 \ 180 \ 000 \ 000 \ 000 \ 178 \ 000 \ 000 \ 000 \ \ 178 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 178 \ 000 \ 179 \ 000 \ \ 178 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 000 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 000 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 182 \ 000 \ 000 \ 000 \ 000 \ 000 \ 182 \ 000 \ 182 \ 000 \ 182 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 182 \ 000 \ 182 \ 000 \ 000 \ 000 \ 182 \ 000 \ 182 \ 000 \ 182 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 182 \ 000 \ 000 \ 000 \ 182 \ 000 \ 182 \ 000 \ 182 \ 000 \ 182 \ 000 \ 182 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 000 \ 000 \ 182 \ 000 \ 000 \ 000 \ 182 \ 000 \ 183 \ 000 \ 000 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 000 \ 000 \ 182 \ 000 \ 000 \ 000 \ 182 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 000 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 000 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 182 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 182 \ 000 \ 182 \ 000 \ 182 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 182 \ 000 \ 182 \ 000 \ 000 \ 000 \ 182 \ 000 \ 182 \ 000 \ 182 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 182 \ 000 \ 000 \ 000 \ 182 \ 000 \ 182 \ 000 \ 182 \ 000 \ 182 \ 000 \ 182 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 183 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 000 \ 000 \ 182 \ 000 \ 185 \ 000 \ 182 \ 000 \ 000 \ 000 \ 000 \ 000 \ 184 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 182 \ 000 \ 000 \ 000 \ 182 \ 000 \ 000 \ 000 \ 183 \ 000 \ 000 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 186 \ 000 \ 000 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 000 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 000 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 000 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 000 \ 000 \ 000 \ 000 \ 187 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 186 \ 000 \ 000 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 199 \ 000 \ 000 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 000 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 000 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 000 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 000 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 198 \ 000 \ 000 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 000 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 195 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 196 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 198 \ 000 \ 000 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 000 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 199 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 195 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 199 \ 000 \ 000 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 000 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 000 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 202 \ 000 \ 202 \ 000 \ \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 204 \ 000 \ \ 202 \ 000 \ 202 \ 000 \ 207 \ 000 \ 202 \ 000 \ 202 \ 000 \ 000 \ 000 \ 202 \ 000 \ 202 \ 000 \ \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 204 \ 000 \ 202 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 203 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 000 \ 000 \ 206 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 202 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 202 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 202 \ 000 \ 209 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 255 \ 255 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 203 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 209 \ 000 \ 000 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 000 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 000 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 208 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 209 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 208 \ 000 \ 000 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 203 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 209 \ 000 \ 000 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 000 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 203 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 209 \ 000 \ 000 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 221 \ 000 \ 000 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 000 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 000 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 000 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 000 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 220 \ 000 \ 000 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 000 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 217 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 218 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 220 \ 000 \ 000 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 000 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 221 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 217 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 221 \ 000 \ 000 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 000 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 000 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 000 \ 000 " ; Lexing . lex_check = " \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 000 \ 000 \ 000 \ 000 \ 029 \ 000 \ 000 \ 000 \ 000 \ 000 \ 101 \ 000 \ 107 \ 000 \ \ 125 \ 000 \ 162 \ 000 \ 103 \ 000 \ 106 \ 000 \ 190 \ 000 \ 103 \ 000 \ 106 \ 000 \ 213 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ \ 010 \ 000 \ 010 \ 000 \ 049 \ 000 \ 016 \ 000 \ 051 \ 000 \ 028 \ 000 \ 040 \ 000 \ 040 \ 000 \ \ 028 \ 000 \ 010 \ 000 \ 010 \ 000 \ 041 \ 000 \ 041 \ 000 \ 041 \ 000 \ 041 \ 000 \ 041 \ 000 \ \ 041 \ 000 \ 041 \ 000 \ 041 \ 000 \ 057 \ 000 \ 065 \ 000 \ 010 \ 000 \ 132 \ 000 \ 010 \ 000 \ \ 010 \ 000 \ 010 \ 000 \ 016 \ 000 \ 010 \ 000 \ 028 \ 000 \ 047 \ 000 \ 047 \ 000 \ 047 \ 000 \ \ 047 \ 000 \ 047 \ 000 \ 047 \ 000 \ 047 \ 000 \ 047 \ 000 \ 047 \ 000 \ 047 \ 000 \ 133 \ 000 \ \ 142 \ 000 \ 144 \ 000 \ 016 \ 000 \ 016 \ 000 \ 016 \ 000 \ 016 \ 000 \ 016 \ 000 \ 016 \ 000 \ \ 016 \ 000 \ 016 \ 000 \ 016 \ 000 \ 016 \ 000 \ 145 \ 000 \ 131 \ 000 \ 151 \ 000 \ 131 \ 000 \ \ 154 \ 000 \ 010 \ 000 \ 020 \ 000 \ 131 \ 000 \ 157 \ 000 \ 020 \ 000 \ 193 \ 000 \ 255 \ 255 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 010 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 255 \ 255 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 003 \ 000 \ 255 \ 255 \ 255 \ 255 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ 050 \ 000 \ \ 103 \ 000 \ 106 \ 000 \ 003 \ 000 \ 003 \ 000 \ 020 \ 000 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ \ 039 \ 000 \ 039 \ 000 \ 039 \ 000 \ 039 \ 000 \ 039 \ 000 \ 039 \ 000 \ 039 \ 000 \ 039 \ 000 \ \ 039 \ 000 \ 039 \ 000 \ 003 \ 000 \ 143 \ 000 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ 003 \ 000 \ \ 003 \ 000 \ 255 \ 255 \ 005 \ 000 \ 005 \ 000 \ 050 \ 000 \ 039 \ 000 \ 005 \ 000 \ 255 \ 255 \ \ 038 \ 000 \ 255 \ 255 \ 038 \ 000 \ 005 \ 000 \ 005 \ 000 \ 038 \ 000 \ 038 \ 000 \ 038 \ 000 \ \ 038 \ 000 \ 038 \ 000 \ 038 \ 000 \ 038 \ 000 \ 038 \ 000 \ 038 \ 000 \ 038 \ 000 \ 005 \ 000 \ \ 143 \ 000 \ 005 \ 000 \ 005 \ 000 \ 005 \ 000 \ 003 \ 000 \ 005 \ 000 \ 003 \ 000 \ 039 \ 000 \ \ 104 \ 000 \ 255 \ 255 \ 171 \ 000 \ 104 \ 000 \ 006 \ 000 \ 039 \ 000 \ 255 \ 255 \ 006 \ 000 \ \ 006 \ 000 \ 006 \ 000 \ 255 \ 255 \ 255 \ 255 \ 006 \ 000 \ 006 \ 000 \ 006 \ 000 \ 255 \ 255 \ \ 006 \ 000 \ 006 \ 000 \ 006 \ 000 \ 255 \ 255 \ 068 \ 000 \ 255 \ 255 \ 255 \ 255 \ 068 \ 000 \ \ 104 \ 000 \ 171 \ 000 \ 005 \ 000 \ 005 \ 000 \ 003 \ 000 \ 006 \ 000 \ 003 \ 000 \ 006 \ 000 \ \ 006 \ 000 \ 006 \ 000 \ 006 \ 000 \ 006 \ 000 \ 170 \ 000 \ 170 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 007 \ 000 \ 255 \ 255 \ 068 \ 000 \ 007 \ 000 \ 007 \ 000 \ 007 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 007 \ 000 \ 007 \ 000 \ 007 \ 000 \ 068 \ 000 \ 007 \ 000 \ 007 \ 000 \ 007 \ 000 \ \ 255 \ 255 \ 005 \ 000 \ 005 \ 000 \ 170 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 006 \ 000 \ \ 006 \ 000 \ 006 \ 000 \ 007 \ 000 \ 255 \ 255 \ 007 \ 000 \ 007 \ 000 \ 007 \ 000 \ 007 \ 000 \ \ 007 \ 000 \ 194 \ 000 \ 212 \ 000 \ 194 \ 000 \ 212 \ 000 \ 255 \ 255 \ 008 \ 000 \ 194 \ 000 \ \ 212 \ 000 \ 008 \ 000 \ 008 \ 000 \ 008 \ 000 \ 255 \ 255 \ 255 \ 255 \ 008 \ 000 \ 008 \ 000 \ \ 008 \ 000 \ 255 \ 255 \ 008 \ 000 \ 008 \ 000 \ 008 \ 000 \ 255 \ 255 \ 255 \ 255 \ 006 \ 000 \ \ 006 \ 000 \ 006 \ 000 \ 255 \ 255 \ 255 \ 255 \ 007 \ 000 \ 007 \ 000 \ 007 \ 000 \ 008 \ 000 \ \ 255 \ 255 \ 008 \ 000 \ 008 \ 000 \ 008 \ 000 \ 008 \ 000 \ 008 \ 000 \ 188 \ 000 \ 255 \ 255 \ \ 020 \ 000 \ 188 \ 000 \ 255 \ 255 \ 009 \ 000 \ 255 \ 255 \ 255 \ 255 \ 009 \ 000 \ 009 \ 000 \ \ 009 \ 000 \ 255 \ 255 \ 204 \ 000 \ 009 \ 000 \ 009 \ 000 \ 009 \ 000 \ 255 \ 255 \ 009 \ 000 \ \ 009 \ 000 \ 009 \ 000 \ 255 \ 255 \ 255 \ 255 \ 007 \ 000 \ 007 \ 000 \ 007 \ 000 \ 204 \ 000 \ \ 208 \ 000 \ 008 \ 000 \ 008 \ 000 \ 008 \ 000 \ 009 \ 000 \ 255 \ 255 \ 009 \ 000 \ 009 \ 000 \ \ 009 \ 000 \ 009 \ 000 \ 009 \ 000 \ 204 \ 000 \ 255 \ 255 \ 208 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 210 \ 000 \ 255 \ 255 \ 255 \ 255 \ 210 \ 000 \ 011 \ 000 \ 011 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 188 \ 000 \ 208 \ 000 \ 188 \ 000 \ 013 \ 000 \ 013 \ 000 \ 011 \ 000 \ 011 \ 000 \ 013 \ 000 \ \ 255 \ 255 \ 008 \ 000 \ 008 \ 000 \ 008 \ 000 \ 013 \ 000 \ 013 \ 000 \ 009 \ 000 \ 009 \ 000 \ \ 009 \ 000 \ 011 \ 000 \ 210 \ 000 \ 011 \ 000 \ 011 \ 000 \ 011 \ 000 \ 255 \ 255 \ 011 \ 000 \ \ 013 \ 000 \ 255 \ 255 \ 013 \ 000 \ 013 \ 000 \ 013 \ 000 \ 255 \ 255 \ 013 \ 000 \ 014 \ 000 \ \ 014 \ 000 \ 255 \ 255 \ 080 \ 000 \ 014 \ 000 \ 255 \ 255 \ 080 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 014 \ 000 \ 014 \ 000 \ 210 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 009 \ 000 \ 009 \ 000 \ \ 009 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 014 \ 000 \ 011 \ 000 \ 014 \ 000 \ 014 \ 000 \ \ 014 \ 000 \ 080 \ 000 \ 014 \ 000 \ 013 \ 000 \ 013 \ 000 \ 045 \ 000 \ 045 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 080 \ 000 \ 017 \ 000 \ 255 \ 255 \ 255 \ 255 \ 017 \ 000 \ 017 \ 000 \ \ 017 \ 000 \ 255 \ 255 \ 255 \ 255 \ 017 \ 000 \ 017 \ 000 \ 017 \ 000 \ 255 \ 255 \ 017 \ 000 \ \ 017 \ 000 \ 017 \ 000 \ 255 \ 255 \ 011 \ 000 \ 255 \ 255 \ 255 \ 255 \ 104 \ 000 \ 014 \ 000 \ \ 014 \ 000 \ 045 \ 000 \ 013 \ 000 \ 013 \ 000 \ 017 \ 000 \ 255 \ 255 \ 017 \ 000 \ 017 \ 000 \ \ 017 \ 000 \ 017 \ 000 \ 017 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 045 \ 000 \ 044 \ 000 \ 044 \ 000 \ 044 \ 000 \ \ 044 \ 000 \ 044 \ 000 \ 044 \ 000 \ 044 \ 000 \ 044 \ 000 \ 255 \ 255 \ 014 \ 000 \ 014 \ 000 \ \ 255 \ 255 \ 045 \ 000 \ 255 \ 255 \ 045 \ 000 \ 255 \ 255 \ 255 \ 255 \ 017 \ 000 \ 017 \ 000 \ \ 017 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 018 \ 000 \ 044 \ 000 \ 255 \ 255 \ 018 \ 000 \ 018 \ 000 \ 018 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 018 \ 000 \ 018 \ 000 \ 018 \ 000 \ 255 \ 255 \ 018 \ 000 \ 018 \ 000 \ 018 \ 000 \ 019 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 019 \ 000 \ 255 \ 255 \ 044 \ 000 \ 255 \ 255 \ 017 \ 000 \ 017 \ 000 \ \ 017 \ 000 \ 018 \ 000 \ 255 \ 255 \ 018 \ 000 \ 018 \ 000 \ 018 \ 000 \ 018 \ 000 \ 018 \ 000 \ \ 255 \ 255 \ 044 \ 000 \ 255 \ 255 \ 044 \ 000 \ 255 \ 255 \ 255 \ 255 \ 019 \ 000 \ 019 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 019 \ 000 \ 019 \ 000 \ 019 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 019 \ 000 \ 019 \ 000 \ 255 \ 255 \ 019 \ 000 \ 019 \ 000 \ 019 \ 000 \ 128 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 128 \ 000 \ 255 \ 255 \ 018 \ 000 \ 188 \ 000 \ 018 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 019 \ 000 \ 255 \ 255 \ 019 \ 000 \ 019 \ 000 \ 019 \ 000 \ 019 \ 000 \ 019 \ 000 \ 022 \ 000 \ \ 255 \ 255 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ \ 022 \ 000 \ 022 \ 000 \ 022 \ 000 \ 128 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 018 \ 000 \ 255 \ 255 \ 018 \ 000 \ 022 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 019 \ 000 \ 255 \ 255 \ 019 \ 000 \ 022 \ 000 \ 210 \ 000 \ 255 \ 255 \ \ 023 \ 000 \ 255 \ 255 \ 023 \ 000 \ 023 \ 000 \ 023 \ 000 \ 023 \ 000 \ 023 \ 000 \ 023 \ 000 \ \ 023 \ 000 \ 023 \ 000 \ 023 \ 000 \ 023 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 022 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 023 \ 000 \ 255 \ 255 \ 022 \ 000 \ 023 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 019 \ 000 \ 255 \ 255 \ 019 \ 000 \ 022 \ 000 \ 023 \ 000 \ 022 \ 000 \ \ 128 \ 000 \ 023 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 023 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 105 \ 000 \ 105 \ 000 \ \ 255 \ 255 \ 023 \ 000 \ 105 \ 000 \ 255 \ 255 \ 023 \ 000 \ 255 \ 255 \ 255 \ 255 \ 023 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 023 \ 000 \ 255 \ 255 \ \ 023 \ 000 \ 023 \ 000 \ 024 \ 000 \ 255 \ 255 \ 255 \ 255 \ 105 \ 000 \ 255 \ 255 \ 105 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 023 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 024 \ 000 \ 255 \ 255 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 042 \ 000 \ 042 \ 000 \ \ 042 \ 000 \ 042 \ 000 \ 042 \ 000 \ 042 \ 000 \ 042 \ 000 \ 042 \ 000 \ 042 \ 000 \ 042 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 042 \ 000 \ \ 042 \ 000 \ 042 \ 000 \ 042 \ 000 \ 042 \ 000 \ 042 \ 000 \ 056 \ 000 \ 056 \ 000 \ 056 \ 000 \ \ 056 \ 000 \ 056 \ 000 \ 056 \ 000 \ 056 \ 000 \ 056 \ 000 \ 056 \ 000 \ 056 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 128 \ 000 \ 255 \ 255 \ 255 \ 255 \ 042 \ 000 \ \ 042 \ 000 \ 042 \ 000 \ 042 \ 000 \ 042 \ 000 \ 042 \ 000 \ 150 \ 000 \ 150 \ 000 \ 150 \ 000 \ \ 150 \ 000 \ 150 \ 000 \ 150 \ 000 \ 150 \ 000 \ 150 \ 000 \ 150 \ 000 \ 150 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 255 \ 255 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 025 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ \ 024 \ 000 \ 024 \ 000 \ 024 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 105 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 025 \ 000 \ 255 \ 255 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 043 \ 000 \ 043 \ 000 \ \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 043 \ 000 \ \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 043 \ 000 \ 153 \ 000 \ 153 \ 000 \ 153 \ 000 \ 153 \ 000 \ 153 \ 000 \ \ 153 \ 000 \ 153 \ 000 \ 153 \ 000 \ 153 \ 000 \ 153 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 159 \ 000 \ 255 \ 255 \ 255 \ 255 \ 159 \ 000 \ 255 \ 255 \ 043 \ 000 \ 255 \ 255 \ 043 \ 000 \ \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 043 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 043 \ 000 \ 255 \ 255 \ 043 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 159 \ 000 \ 255 \ 255 \ 255 \ 255 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 255 \ 255 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 159 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ \ 025 \ 000 \ 025 \ 000 \ 025 \ 000 \ 026 \ 000 \ 255 \ 255 \ 255 \ 255 \ 026 \ 000 \ 026 \ 000 \ \ 026 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 026 \ 000 \ 026 \ 000 \ 255 \ 255 \ 026 \ 000 \ \ 026 \ 000 \ 026 \ 000 \ 168 \ 000 \ 168 \ 000 \ 168 \ 000 \ 168 \ 000 \ 168 \ 000 \ 168 \ 000 \ \ 168 \ 000 \ 168 \ 000 \ 168 \ 000 \ 168 \ 000 \ 026 \ 000 \ 255 \ 255 \ 026 \ 000 \ 026 \ 000 \ \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 172 \ 000 \ 172 \ 000 \ 172 \ 000 \ 172 \ 000 \ 172 \ 000 \ \ 172 \ 000 \ 172 \ 000 \ 172 \ 000 \ 172 \ 000 \ 172 \ 000 \ 255 \ 255 \ 046 \ 000 \ 046 \ 000 \ \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ 046 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 026 \ 000 \ 255 \ 255 \ \ 026 \ 000 \ 026 \ 000 \ 255 \ 255 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 046 \ 000 \ 026 \ 000 \ 027 \ 000 \ \ 026 \ 000 \ 255 \ 255 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 027 \ 000 \ 027 \ 000 \ 255 \ 255 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 027 \ 000 \ 255 \ 255 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 027 \ 000 \ 255 \ 255 \ 027 \ 000 \ 027 \ 000 \ 159 \ 000 \ 027 \ 000 \ \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ \ 027 \ 000 \ 255 \ 255 \ 027 \ 000 \ 255 \ 255 \ 027 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ \ 026 \ 000 \ 100 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ 026 \ 000 \ \ 026 \ 000 \ 026 \ 000 \ 055 \ 000 \ 055 \ 000 \ 055 \ 000 \ 055 \ 000 \ 055 \ 000 \ 055 \ 000 \ \ 055 \ 000 \ 055 \ 000 \ 055 \ 000 \ 055 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 100 \ 000 \ 255 \ 255 \ 255 \ 255 \ 055 \ 000 \ 055 \ 000 \ 055 \ 000 \ 055 \ 000 \ 055 \ 000 \ \ 055 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 100 \ 000 \ 100 \ 000 \ 100 \ 000 \ 100 \ 000 \ 100 \ 000 \ 100 \ 000 \ 100 \ 000 \ 100 \ 000 \ \ 100 \ 000 \ 100 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 055 \ 000 \ 055 \ 000 \ 055 \ 000 \ 055 \ 000 \ 055 \ 000 \ \ 055 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 031 \ 000 \ 027 \ 000 \ 027 \ 000 \ \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 027 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 031 \ 000 \ 255 \ 255 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ 059 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 255 \ 255 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 033 \ 000 \ 031 \ 000 \ 031 \ 000 \ \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 031 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 033 \ 000 \ 255 \ 255 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 099 \ 000 \ 099 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 099 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 149 \ 000 \ 149 \ 000 \ 149 \ 000 \ \ 149 \ 000 \ 149 \ 000 \ 149 \ 000 \ 149 \ 000 \ 149 \ 000 \ 149 \ 000 \ 149 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 099 \ 000 \ 255 \ 255 \ 099 \ 000 \ 149 \ 000 \ 149 \ 000 \ \ 149 \ 000 \ 149 \ 000 \ 149 \ 000 \ 149 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 149 \ 000 \ 149 \ 000 \ \ 149 \ 000 \ 149 \ 000 \ 149 \ 000 \ 149 \ 000 \ 255 \ 255 \ 255 \ 255 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 255 \ 255 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 255 \ 255 \ 033 \ 000 \ 033 \ 000 \ \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 033 \ 000 \ 048 \ 000 \ 255 \ 255 \ \ 048 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 048 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 060 \ 000 \ 255 \ 255 \ 255 \ 255 \ 060 \ 000 \ 255 \ 255 \ 255 \ 255 \ 048 \ 000 \ 048 \ 000 \ \ 048 \ 000 \ 048 \ 000 \ 048 \ 000 \ 048 \ 000 \ 048 \ 000 \ 048 \ 000 \ 048 \ 000 \ 048 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 060 \ 000 \ \ 060 \ 000 \ 255 \ 255 \ 255 \ 255 \ 060 \ 000 \ 060 \ 000 \ 060 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 060 \ 000 \ 060 \ 000 \ 255 \ 255 \ 060 \ 000 \ 060 \ 000 \ 060 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 060 \ 000 \ 048 \ 000 \ 060 \ 000 \ 060 \ 000 \ 060 \ 000 \ 060 \ 000 \ 060 \ 000 \ \ 048 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 061 \ 000 \ 048 \ 000 \ 255 \ 255 \ 061 \ 000 \ 255 \ 255 \ \ 048 \ 000 \ 255 \ 255 \ 048 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 048 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 060 \ 000 \ 255 \ 255 \ 060 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 061 \ 000 \ 061 \ 000 \ 255 \ 255 \ 255 \ 255 \ 061 \ 000 \ 061 \ 000 \ \ 061 \ 000 \ 255 \ 255 \ 255 \ 255 \ 061 \ 000 \ 061 \ 000 \ 061 \ 000 \ 255 \ 255 \ 061 \ 000 \ \ 061 \ 000 \ 061 \ 000 \ 062 \ 000 \ 099 \ 000 \ 255 \ 255 \ 062 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 060 \ 000 \ 061 \ 000 \ 060 \ 000 \ 061 \ 000 \ 061 \ 000 \ \ 061 \ 000 \ 061 \ 000 \ 061 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 062 \ 000 \ 062 \ 000 \ 255 \ 255 \ 255 \ 255 \ 062 \ 000 \ 062 \ 000 \ 062 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 062 \ 000 \ 062 \ 000 \ 062 \ 000 \ 255 \ 255 \ 062 \ 000 \ 062 \ 000 \ \ 062 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 061 \ 000 \ 255 \ 255 \ \ 061 \ 000 \ 255 \ 255 \ 255 \ 255 \ 062 \ 000 \ 255 \ 255 \ 062 \ 000 \ 062 \ 000 \ 062 \ 000 \ \ 062 \ 000 \ 062 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 063 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 063 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 061 \ 000 \ 255 \ 255 \ \ 061 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 062 \ 000 \ 255 \ 255 \ 062 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 063 \ 000 \ 063 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 063 \ 000 \ 063 \ 000 \ 063 \ 000 \ 255 \ 255 \ 255 \ 255 \ 063 \ 000 \ 063 \ 000 \ 063 \ 000 \ \ 255 \ 255 \ 063 \ 000 \ 063 \ 000 \ 063 \ 000 \ 064 \ 000 \ 255 \ 255 \ 048 \ 000 \ 064 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 062 \ 000 \ 063 \ 000 \ 062 \ 000 \ \ 063 \ 000 \ 063 \ 000 \ 063 \ 000 \ 063 \ 000 \ 063 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 064 \ 000 \ 064 \ 000 \ 255 \ 255 \ 255 \ 255 \ 064 \ 000 \ \ 064 \ 000 \ 064 \ 000 \ 255 \ 255 \ 064 \ 000 \ 064 \ 000 \ 064 \ 000 \ 064 \ 000 \ 255 \ 255 \ \ 064 \ 000 \ 064 \ 000 \ 064 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 063 \ 000 \ 255 \ 255 \ 063 \ 000 \ 067 \ 000 \ 067 \ 000 \ 064 \ 000 \ 067 \ 000 \ 064 \ 000 \ \ 064 \ 000 \ 064 \ 000 \ 064 \ 000 \ 064 \ 000 \ 067 \ 000 \ 067 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 067 \ 000 \ 255 \ 255 \ 067 \ 000 \ 067 \ 000 \ 067 \ 000 \ 255 \ 255 \ 067 \ 000 \ 255 \ 255 \ \ 063 \ 000 \ 255 \ 255 \ 063 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 064 \ 000 \ 064 \ 000 \ \ 255 \ 255 \ 064 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 067 \ 000 \ 255 \ 255 \ 069 \ 000 \ 067 \ 000 \ 255 \ 255 \ 069 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 064 \ 000 \ 064 \ 000 \ \ 255 \ 255 \ 064 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 069 \ 000 \ 069 \ 000 \ 255 \ 255 \ 255 \ 255 \ 069 \ 000 \ 069 \ 000 \ \ 069 \ 000 \ 067 \ 000 \ 067 \ 000 \ 069 \ 000 \ 069 \ 000 \ 069 \ 000 \ 255 \ 255 \ 069 \ 000 \ \ 069 \ 000 \ 069 \ 000 \ 070 \ 000 \ 255 \ 255 \ 255 \ 255 \ 070 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 069 \ 000 \ 255 \ 255 \ 069 \ 000 \ 069 \ 000 \ \ 069 \ 000 \ 069 \ 000 \ 069 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 070 \ 000 \ 070 \ 000 \ 255 \ 255 \ 255 \ 255 \ 070 \ 000 \ 070 \ 000 \ 070 \ 000 \ \ 255 \ 255 \ 070 \ 000 \ 070 \ 000 \ 070 \ 000 \ 070 \ 000 \ 255 \ 255 \ 070 \ 000 \ 070 \ 000 \ \ 070 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 069 \ 000 \ 255 \ 255 \ \ 069 \ 000 \ 255 \ 255 \ 255 \ 255 \ 070 \ 000 \ 255 \ 255 \ 070 \ 000 \ 070 \ 000 \ 070 \ 000 \ \ 070 \ 000 \ 070 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 071 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 071 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 069 \ 000 \ 255 \ 255 \ \ 069 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 070 \ 000 \ 070 \ 000 \ 255 \ 255 \ 070 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 071 \ 000 \ 071 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 071 \ 000 \ 071 \ 000 \ 071 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 071 \ 000 \ 071 \ 000 \ \ 255 \ 255 \ 071 \ 000 \ 071 \ 000 \ 071 \ 000 \ 075 \ 000 \ 255 \ 255 \ 255 \ 255 \ 075 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 070 \ 000 \ 070 \ 000 \ 071 \ 000 \ 070 \ 000 \ \ 071 \ 000 \ 071 \ 000 \ 071 \ 000 \ 071 \ 000 \ 071 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 075 \ 000 \ 075 \ 000 \ 255 \ 255 \ 255 \ 255 \ 075 \ 000 \ \ 075 \ 000 \ 075 \ 000 \ 255 \ 255 \ 255 \ 255 \ 075 \ 000 \ 075 \ 000 \ 075 \ 000 \ 255 \ 255 \ \ 075 \ 000 \ 075 \ 000 \ 075 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 071 \ 000 \ 255 \ 255 \ 071 \ 000 \ 255 \ 255 \ 255 \ 255 \ 075 \ 000 \ 255 \ 255 \ 075 \ 000 \ \ 075 \ 000 \ 075 \ 000 \ 075 \ 000 \ 075 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 076 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 076 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 071 \ 000 \ 255 \ 255 \ 071 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 075 \ 000 \ \ 255 \ 255 \ 075 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 076 \ 000 \ 076 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 076 \ 000 \ 076 \ 000 \ 076 \ 000 \ 255 \ 255 \ 076 \ 000 \ 076 \ 000 \ \ 076 \ 000 \ 076 \ 000 \ 255 \ 255 \ 076 \ 000 \ 076 \ 000 \ 076 \ 000 \ 077 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 077 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 075 \ 000 \ \ 076 \ 000 \ 075 \ 000 \ 076 \ 000 \ 076 \ 000 \ 076 \ 000 \ 076 \ 000 \ 076 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 077 \ 000 \ 077 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 077 \ 000 \ 077 \ 000 \ 077 \ 000 \ 255 \ 255 \ 255 \ 255 \ 077 \ 000 \ 077 \ 000 \ \ 077 \ 000 \ 255 \ 255 \ 077 \ 000 \ 077 \ 000 \ 077 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 076 \ 000 \ 076 \ 000 \ 255 \ 255 \ 076 \ 000 \ 255 \ 255 \ 255 \ 255 \ 077 \ 000 \ \ 255 \ 255 \ 077 \ 000 \ 077 \ 000 \ 077 \ 000 \ 077 \ 000 \ 077 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 078 \ 000 \ 255 \ 255 \ 255 \ 255 \ 078 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 076 \ 000 \ 076 \ 000 \ 255 \ 255 \ 076 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 077 \ 000 \ 255 \ 255 \ 077 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 078 \ 000 \ 078 \ 000 \ 255 \ 255 \ 255 \ 255 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ 255 \ 255 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ \ 079 \ 000 \ 255 \ 255 \ 255 \ 255 \ 079 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 077 \ 000 \ 078 \ 000 \ 077 \ 000 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ \ 078 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 079 \ 000 \ \ 079 \ 000 \ 255 \ 255 \ 255 \ 255 \ 079 \ 000 \ 079 \ 000 \ 079 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 079 \ 000 \ 079 \ 000 \ 255 \ 255 \ 079 \ 000 \ 079 \ 000 \ 079 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 078 \ 000 \ 255 \ 255 \ 078 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 079 \ 000 \ 255 \ 255 \ 079 \ 000 \ 079 \ 000 \ 079 \ 000 \ 079 \ 000 \ 079 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 084 \ 000 \ \ 084 \ 000 \ 255 \ 255 \ 255 \ 255 \ 084 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 084 \ 000 \ 084 \ 000 \ 255 \ 255 \ 255 \ 255 \ 078 \ 000 \ 255 \ 255 \ 078 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 079 \ 000 \ 084 \ 000 \ 079 \ 000 \ 084 \ 000 \ 084 \ 000 \ \ 084 \ 000 \ 255 \ 255 \ 084 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 085 \ 000 \ 255 \ 255 \ 255 \ 255 \ 085 \ 000 \ 085 \ 000 \ 085 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 085 \ 000 \ 085 \ 000 \ 085 \ 000 \ 255 \ 255 \ 085 \ 000 \ 085 \ 000 \ 085 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 079 \ 000 \ 255 \ 255 \ 079 \ 000 \ 255 \ 255 \ 084 \ 000 \ \ 084 \ 000 \ 085 \ 000 \ 255 \ 255 \ 085 \ 000 \ 085 \ 000 \ 085 \ 000 \ 085 \ 000 \ 085 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 086 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 086 \ 000 \ 086 \ 000 \ 086 \ 000 \ 255 \ 255 \ 255 \ 255 \ 086 \ 000 \ 086 \ 000 \ 086 \ 000 \ \ 255 \ 255 \ 086 \ 000 \ 086 \ 000 \ 086 \ 000 \ 255 \ 255 \ 255 \ 255 \ 084 \ 000 \ 084 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 085 \ 000 \ 085 \ 000 \ 085 \ 000 \ 086 \ 000 \ 255 \ 255 \ \ 086 \ 000 \ 086 \ 000 \ 086 \ 000 \ 086 \ 000 \ 086 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 087 \ 000 \ 255 \ 255 \ 255 \ 255 \ 087 \ 000 \ 087 \ 000 \ 087 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 087 \ 000 \ 087 \ 000 \ 087 \ 000 \ 255 \ 255 \ 087 \ 000 \ 087 \ 000 \ \ 087 \ 000 \ 255 \ 255 \ 255 \ 255 \ 085 \ 000 \ 085 \ 000 \ 085 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 086 \ 000 \ 086 \ 000 \ 086 \ 000 \ 087 \ 000 \ 255 \ 255 \ 087 \ 000 \ 087 \ 000 \ 087 \ 000 \ \ 087 \ 000 \ 087 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 088 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 088 \ 000 \ 088 \ 000 \ 088 \ 000 \ 255 \ 255 \ 255 \ 255 \ 088 \ 000 \ \ 088 \ 000 \ 088 \ 000 \ 255 \ 255 \ 088 \ 000 \ 088 \ 000 \ 088 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 086 \ 000 \ 086 \ 000 \ 086 \ 000 \ 255 \ 255 \ 255 \ 255 \ 087 \ 000 \ 087 \ 000 \ 087 \ 000 \ \ 088 \ 000 \ 255 \ 255 \ 088 \ 000 \ 088 \ 000 \ 088 \ 000 \ 088 \ 000 \ 088 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 089 \ 000 \ 255 \ 255 \ 255 \ 255 \ 089 \ 000 \ \ 089 \ 000 \ 089 \ 000 \ 255 \ 255 \ 255 \ 255 \ 089 \ 000 \ 089 \ 000 \ 089 \ 000 \ 255 \ 255 \ \ 089 \ 000 \ 089 \ 000 \ 089 \ 000 \ 255 \ 255 \ 255 \ 255 \ 087 \ 000 \ 087 \ 000 \ 087 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 088 \ 000 \ 088 \ 000 \ 088 \ 000 \ 089 \ 000 \ 255 \ 255 \ 089 \ 000 \ \ 089 \ 000 \ 089 \ 000 \ 089 \ 000 \ 089 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 090 \ 000 \ 255 \ 255 \ 255 \ 255 \ 090 \ 000 \ 090 \ 000 \ 090 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 090 \ 000 \ 090 \ 000 \ 255 \ 255 \ 090 \ 000 \ 090 \ 000 \ 090 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 088 \ 000 \ 088 \ 000 \ 088 \ 000 \ 255 \ 255 \ 255 \ 255 \ 089 \ 000 \ \ 089 \ 000 \ 089 \ 000 \ 090 \ 000 \ 255 \ 255 \ 090 \ 000 \ 090 \ 000 \ 090 \ 000 \ 090 \ 000 \ \ 090 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 091 \ 000 \ 255 \ 255 \ 255 \ 255 \ 091 \ 000 \ \ 091 \ 000 \ 091 \ 000 \ 255 \ 255 \ 255 \ 255 \ 091 \ 000 \ 091 \ 000 \ 091 \ 000 \ 255 \ 255 \ \ 091 \ 000 \ 091 \ 000 \ 091 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 089 \ 000 \ \ 089 \ 000 \ 089 \ 000 \ 255 \ 255 \ 255 \ 255 \ 090 \ 000 \ 091 \ 000 \ 090 \ 000 \ 091 \ 000 \ \ 091 \ 000 \ 091 \ 000 \ 091 \ 000 \ 091 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 092 \ 000 \ 255 \ 255 \ 255 \ 255 \ 092 \ 000 \ 092 \ 000 \ 092 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 092 \ 000 \ 092 \ 000 \ 092 \ 000 \ 255 \ 255 \ 092 \ 000 \ 092 \ 000 \ 092 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 090 \ 000 \ 255 \ 255 \ 090 \ 000 \ 091 \ 000 \ \ 091 \ 000 \ 091 \ 000 \ 092 \ 000 \ 255 \ 255 \ 092 \ 000 \ 092 \ 000 \ 092 \ 000 \ 092 \ 000 \ \ 092 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 093 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 093 \ 000 \ 093 \ 000 \ 093 \ 000 \ 255 \ 255 \ 255 \ 255 \ 093 \ 000 \ 093 \ 000 \ \ 093 \ 000 \ 255 \ 255 \ 093 \ 000 \ 093 \ 000 \ 093 \ 000 \ 255 \ 255 \ 255 \ 255 \ 091 \ 000 \ \ 091 \ 000 \ 091 \ 000 \ 255 \ 255 \ 255 \ 255 \ 092 \ 000 \ 092 \ 000 \ 092 \ 000 \ 093 \ 000 \ \ 255 \ 255 \ 093 \ 000 \ 093 \ 000 \ 093 \ 000 \ 093 \ 000 \ 093 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 094 \ 000 \ \ 094 \ 000 \ 255 \ 255 \ 255 \ 255 \ 094 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 094 \ 000 \ 094 \ 000 \ 255 \ 255 \ 255 \ 255 \ 092 \ 000 \ 092 \ 000 \ 092 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 093 \ 000 \ 093 \ 000 \ 093 \ 000 \ 094 \ 000 \ 255 \ 255 \ 094 \ 000 \ 094 \ 000 \ \ 094 \ 000 \ 255 \ 255 \ 094 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 095 \ 000 \ 255 \ 255 \ 255 \ 255 \ 095 \ 000 \ 095 \ 000 \ 095 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 095 \ 000 \ 095 \ 000 \ 095 \ 000 \ 255 \ 255 \ 095 \ 000 \ 095 \ 000 \ 095 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 093 \ 000 \ 093 \ 000 \ 093 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 094 \ 000 \ \ 094 \ 000 \ 095 \ 000 \ 255 \ 255 \ 095 \ 000 \ 095 \ 000 \ 095 \ 000 \ 095 \ 000 \ 095 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 096 \ 000 \ 096 \ 000 \ 255 \ 255 \ 255 \ 255 \ 096 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 096 \ 000 \ 096 \ 000 \ 255 \ 255 \ 255 \ 255 \ 094 \ 000 \ 094 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 095 \ 000 \ 095 \ 000 \ 095 \ 000 \ 096 \ 000 \ 255 \ 255 \ \ 096 \ 000 \ 096 \ 000 \ 096 \ 000 \ 255 \ 255 \ 096 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 097 \ 000 \ 255 \ 255 \ 255 \ 255 \ 097 \ 000 \ 097 \ 000 \ 097 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 097 \ 000 \ 097 \ 000 \ 097 \ 000 \ 255 \ 255 \ 097 \ 000 \ 097 \ 000 \ \ 097 \ 000 \ 255 \ 255 \ 255 \ 255 \ 095 \ 000 \ 095 \ 000 \ 095 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 096 \ 000 \ 096 \ 000 \ 097 \ 000 \ 255 \ 255 \ 097 \ 000 \ 097 \ 000 \ 097 \ 000 \ \ 097 \ 000 \ 097 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 098 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 098 \ 000 \ 098 \ 000 \ 098 \ 000 \ 255 \ 255 \ 255 \ 255 \ 098 \ 000 \ \ 098 \ 000 \ 098 \ 000 \ 255 \ 255 \ 098 \ 000 \ 098 \ 000 \ 098 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 096 \ 000 \ 096 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 097 \ 000 \ 097 \ 000 \ 097 \ 000 \ \ 098 \ 000 \ 255 \ 255 \ 098 \ 000 \ 098 \ 000 \ 098 \ 000 \ 098 \ 000 \ 098 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 109 \ 000 \ 109 \ 000 \ 255 \ 255 \ 255 \ 255 \ 109 \ 000 \ 255 \ 255 \ 255 \ 255 \ 110 \ 000 \ \ 110 \ 000 \ 109 \ 000 \ 109 \ 000 \ 110 \ 000 \ 255 \ 255 \ 097 \ 000 \ 097 \ 000 \ 097 \ 000 \ \ 110 \ 000 \ 110 \ 000 \ 098 \ 000 \ 098 \ 000 \ 098 \ 000 \ 109 \ 000 \ 255 \ 255 \ 109 \ 000 \ \ 109 \ 000 \ 109 \ 000 \ 255 \ 255 \ 109 \ 000 \ 110 \ 000 \ 255 \ 255 \ 110 \ 000 \ 110 \ 000 \ \ 110 \ 000 \ 255 \ 255 \ 110 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 111 \ 000 \ 111 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 111 \ 000 \ 255 \ 255 \ 098 \ 000 \ 098 \ 000 \ 098 \ 000 \ 111 \ 000 \ 111 \ 000 \ 255 \ 255 \ \ 109 \ 000 \ 109 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 110 \ 000 \ \ 110 \ 000 \ 111 \ 000 \ 255 \ 255 \ 111 \ 000 \ 111 \ 000 \ 111 \ 000 \ 255 \ 255 \ 111 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 112 \ 000 \ 112 \ 000 \ 255 \ 255 \ 255 \ 255 \ 112 \ 000 \ 255 \ 255 \ 109 \ 000 \ \ 109 \ 000 \ 255 \ 255 \ 112 \ 000 \ 112 \ 000 \ 255 \ 255 \ 255 \ 255 \ 110 \ 000 \ 110 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 111 \ 000 \ 111 \ 000 \ 112 \ 000 \ 255 \ 255 \ \ 112 \ 000 \ 112 \ 000 \ 112 \ 000 \ 255 \ 255 \ 112 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 113 \ 000 \ 113 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 113 \ 000 \ 255 \ 255 \ 255 \ 255 \ 114 \ 000 \ 114 \ 000 \ 113 \ 000 \ \ 113 \ 000 \ 114 \ 000 \ 255 \ 255 \ 111 \ 000 \ 111 \ 000 \ 255 \ 255 \ 114 \ 000 \ 114 \ 000 \ \ 255 \ 255 \ 112 \ 000 \ 112 \ 000 \ 113 \ 000 \ 255 \ 255 \ 113 \ 000 \ 113 \ 000 \ 113 \ 000 \ \ 255 \ 255 \ 113 \ 000 \ 114 \ 000 \ 255 \ 255 \ 114 \ 000 \ 114 \ 000 \ 114 \ 000 \ 255 \ 255 \ \ 114 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 115 \ 000 \ 115 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 112 \ 000 \ 112 \ 000 \ 255 \ 255 \ 115 \ 000 \ 115 \ 000 \ 255 \ 255 \ 113 \ 000 \ 113 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 114 \ 000 \ 114 \ 000 \ 115 \ 000 \ \ 255 \ 255 \ 115 \ 000 \ 115 \ 000 \ 115 \ 000 \ 255 \ 255 \ 115 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 116 \ 000 \ 116 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 116 \ 000 \ 116 \ 000 \ 255 \ 255 \ 113 \ 000 \ 113 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 114 \ 000 \ 114 \ 000 \ 116 \ 000 \ 255 \ 255 \ \ 116 \ 000 \ 116 \ 000 \ 116 \ 000 \ 115 \ 000 \ 116 \ 000 \ 117 \ 000 \ 117 \ 000 \ 255 \ 255 \ \ 117 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 117 \ 000 \ 117 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 117 \ 000 \ 255 \ 255 \ 117 \ 000 \ 117 \ 000 \ 117 \ 000 \ 255 \ 255 \ \ 117 \ 000 \ 115 \ 000 \ 116 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 118 \ 000 \ 118 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 119 \ 000 \ \ 119 \ 000 \ 255 \ 255 \ 119 \ 000 \ 118 \ 000 \ 118 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 119 \ 000 \ 119 \ 000 \ 255 \ 255 \ 117 \ 000 \ 255 \ 255 \ 255 \ 255 \ 117 \ 000 \ 118 \ 000 \ \ 116 \ 000 \ 118 \ 000 \ 118 \ 000 \ 118 \ 000 \ 119 \ 000 \ 118 \ 000 \ 119 \ 000 \ 119 \ 000 \ \ 119 \ 000 \ 255 \ 255 \ 119 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 117 \ 000 \ 117 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 118 \ 000 \ 255 \ 255 \ 119 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 119 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 120 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 120 \ 000 \ 120 \ 000 \ 120 \ 000 \ 255 \ 255 \ 255 \ 255 \ 120 \ 000 \ 120 \ 000 \ \ 120 \ 000 \ 255 \ 255 \ 120 \ 000 \ 120 \ 000 \ 120 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 118 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 119 \ 000 \ 119 \ 000 \ 120 \ 000 \ \ 255 \ 255 \ 120 \ 000 \ 120 \ 000 \ 120 \ 000 \ 120 \ 000 \ 120 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 121 \ 000 \ 255 \ 255 \ 255 \ 255 \ 121 \ 000 \ 121 \ 000 \ \ 121 \ 000 \ 255 \ 255 \ 255 \ 255 \ 121 \ 000 \ 121 \ 000 \ 121 \ 000 \ 255 \ 255 \ 121 \ 000 \ \ 121 \ 000 \ 121 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 120 \ 000 \ 120 \ 000 \ 120 \ 000 \ 121 \ 000 \ 255 \ 255 \ 121 \ 000 \ 121 \ 000 \ \ 121 \ 000 \ 121 \ 000 \ 121 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 122 \ 000 \ 255 \ 255 \ 255 \ 255 \ 122 \ 000 \ 122 \ 000 \ 122 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 122 \ 000 \ 122 \ 000 \ 122 \ 000 \ 255 \ 255 \ 122 \ 000 \ 122 \ 000 \ 122 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 120 \ 000 \ 120 \ 000 \ 120 \ 000 \ 255 \ 255 \ 255 \ 255 \ 121 \ 000 \ 121 \ 000 \ \ 121 \ 000 \ 122 \ 000 \ 255 \ 255 \ 122 \ 000 \ 122 \ 000 \ 122 \ 000 \ 122 \ 000 \ 122 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 123 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 123 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 121 \ 000 \ 121 \ 000 \ \ 121 \ 000 \ 255 \ 255 \ 255 \ 255 \ 122 \ 000 \ 122 \ 000 \ 122 \ 000 \ 255 \ 255 \ 123 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 123 \ 000 \ 123 \ 000 \ 255 \ 255 \ 123 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 123 \ 000 \ 255 \ 255 \ 122 \ 000 \ 122 \ 000 \ 122 \ 000 \ 123 \ 000 \ 123 \ 000 \ \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 123 \ 000 \ 255 \ 255 \ 123 \ 000 \ 123 \ 000 \ \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ \ 156 \ 000 \ 156 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 156 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 255 \ 255 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 255 \ 255 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 123 \ 000 \ 130 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 130 \ 000 \ 255 \ 255 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ \ 137 \ 000 \ 137 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 137 \ 000 \ 255 \ 255 \ \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ \ 137 \ 000 \ 137 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 255 \ 255 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 255 \ 255 \ 130 \ 000 \ \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 130 \ 000 \ 137 \ 000 \ \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 255 \ 255 \ 137 \ 000 \ \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 255 \ 255 \ 137 \ 000 \ \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 137 \ 000 \ 138 \ 000 \ \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ \ 138 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 138 \ 000 \ 255 \ 255 \ 138 \ 000 \ \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ \ 138 \ 000 \ 167 \ 000 \ 167 \ 000 \ 167 \ 000 \ 167 \ 000 \ 167 \ 000 \ 167 \ 000 \ 167 \ 000 \ \ 167 \ 000 \ 167 \ 000 \ 167 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 167 \ 000 \ 167 \ 000 \ 167 \ 000 \ 167 \ 000 \ 167 \ 000 \ 167 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 167 \ 000 \ 167 \ 000 \ 167 \ 000 \ 167 \ 000 \ 167 \ 000 \ 167 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 138 \ 000 \ 138 \ 000 \ \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 255 \ 255 \ 138 \ 000 \ 138 \ 000 \ \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 139 \ 000 \ 138 \ 000 \ 138 \ 000 \ \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 138 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 139 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 139 \ 000 \ 255 \ 255 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ 174 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 255 \ 255 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 140 \ 000 \ 139 \ 000 \ 139 \ 000 \ \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 139 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 140 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 140 \ 000 \ 255 \ 255 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 255 \ 255 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 255 \ 255 \ 140 \ 000 \ 140 \ 000 \ \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 140 \ 000 \ 141 \ 000 \ 255 \ 255 \ \ 141 \ 000 \ 255 \ 255 \ 255 \ 255 \ 164 \ 000 \ 255 \ 255 \ 141 \ 000 \ 164 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 141 \ 000 \ 141 \ 000 \ \ 141 \ 000 \ 141 \ 000 \ 141 \ 000 \ 141 \ 000 \ 141 \ 000 \ 141 \ 000 \ 141 \ 000 \ 141 \ 000 \ \ 255 \ 255 \ 164 \ 000 \ 255 \ 255 \ 164 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 164 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 164 \ 000 \ 164 \ 000 \ 164 \ 000 \ 164 \ 000 \ 164 \ 000 \ 164 \ 000 \ 164 \ 000 \ \ 164 \ 000 \ 164 \ 000 \ 164 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 141 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 141 \ 000 \ 176 \ 000 \ 255 \ 255 \ 255 \ 255 \ 176 \ 000 \ 176 \ 000 \ 176 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 176 \ 000 \ 176 \ 000 \ 141 \ 000 \ 176 \ 000 \ 176 \ 000 \ 176 \ 000 \ \ 141 \ 000 \ 255 \ 255 \ 141 \ 000 \ 255 \ 255 \ 255 \ 255 \ 164 \ 000 \ 141 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 176 \ 000 \ 164 \ 000 \ 176 \ 000 \ 176 \ 000 \ 176 \ 000 \ 176 \ 000 \ \ 176 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 164 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 164 \ 000 \ 255 \ 255 \ 164 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 164 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 176 \ 000 \ 255 \ 255 \ 176 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 177 \ 000 \ 255 \ 255 \ 255 \ 255 \ 177 \ 000 \ \ 177 \ 000 \ 177 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 177 \ 000 \ 177 \ 000 \ 255 \ 255 \ \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 176 \ 000 \ 177 \ 000 \ 176 \ 000 \ 177 \ 000 \ \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 255 \ 255 \ 177 \ 000 \ \ 255 \ 255 \ 177 \ 000 \ 177 \ 000 \ 255 \ 255 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 255 \ 255 \ 177 \ 000 \ \ 255 \ 255 \ 177 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 164 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ \ 177 \ 000 \ 177 \ 000 \ 255 \ 255 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ \ 177 \ 000 \ 177 \ 000 \ 255 \ 255 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ \ 177 \ 000 \ 177 \ 000 \ 177 \ 000 \ 178 \ 000 \ 255 \ 255 \ 255 \ 255 \ 178 \ 000 \ 178 \ 000 \ \ 178 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 178 \ 000 \ 178 \ 000 \ 255 \ 255 \ 178 \ 000 \ \ 178 \ 000 \ 178 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 178 \ 000 \ 255 \ 255 \ 178 \ 000 \ 178 \ 000 \ \ 178 \ 000 \ 178 \ 000 \ 178 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 179 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 255 \ 255 \ 255 \ 255 \ 179 \ 000 \ 255 \ 255 \ 178 \ 000 \ 255 \ 255 \ \ 178 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 178 \ 000 \ 179 \ 000 \ \ 178 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 255 \ 255 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 255 \ 255 \ \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ 179 \ 000 \ \ 181 \ 000 \ 255 \ 255 \ 255 \ 255 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 181 \ 000 \ 181 \ 000 \ 255 \ 255 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 181 \ 000 \ 255 \ 255 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 255 \ 255 \ 181 \ 000 \ 255 \ 255 \ 181 \ 000 \ 181 \ 000 \ 255 \ 255 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 255 \ 255 \ 181 \ 000 \ 255 \ 255 \ 181 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 255 \ 255 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 255 \ 255 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 182 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 182 \ 000 \ 182 \ 000 \ 182 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 182 \ 000 \ 182 \ 000 \ 255 \ 255 \ 182 \ 000 \ 182 \ 000 \ 182 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 182 \ 000 \ 255 \ 255 \ 182 \ 000 \ 182 \ 000 \ 182 \ 000 \ 182 \ 000 \ 182 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 183 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 255 \ 255 \ 182 \ 000 \ 183 \ 000 \ 182 \ 000 \ 255 \ 255 \ 255 \ 255 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 182 \ 000 \ 255 \ 255 \ 182 \ 000 \ 255 \ 255 \ 183 \ 000 \ 255 \ 255 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ \ 184 \ 000 \ 184 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 184 \ 000 \ 255 \ 255 \ \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ \ 184 \ 000 \ 184 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 255 \ 255 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 255 \ 255 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 184 \ 000 \ \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 255 \ 255 \ 184 \ 000 \ \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 186 \ 000 \ 184 \ 000 \ \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 184 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 255 \ 255 \ 255 \ 255 \ 186 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 186 \ 000 \ 255 \ 255 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ \ 196 \ 000 \ 196 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 196 \ 000 \ 255 \ 255 \ \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ \ 196 \ 000 \ 196 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 255 \ 255 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 255 \ 255 \ 186 \ 000 \ \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 186 \ 000 \ 196 \ 000 \ \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 255 \ 255 \ 196 \ 000 \ \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 255 \ 255 \ 196 \ 000 \ \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 196 \ 000 \ 197 \ 000 \ \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ \ 197 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 197 \ 000 \ 255 \ 255 \ 197 \ 000 \ \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ \ 197 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 197 \ 000 \ 197 \ 000 \ \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 255 \ 255 \ 197 \ 000 \ 197 \ 000 \ \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 198 \ 000 \ 197 \ 000 \ 197 \ 000 \ \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 197 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 198 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 198 \ 000 \ 255 \ 255 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 255 \ 255 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 199 \ 000 \ 198 \ 000 \ 198 \ 000 \ \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 198 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 199 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 199 \ 000 \ 255 \ 255 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 255 \ 255 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 255 \ 255 \ 199 \ 000 \ 199 \ 000 \ \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 199 \ 000 \ 201 \ 000 \ 201 \ 000 \ \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 255 \ 255 \ 201 \ 000 \ 201 \ 000 \ \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 255 \ 255 \ 201 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 201 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 201 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 201 \ 000 \ 205 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 201 \ 000 \ 205 \ 000 \ \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ \ 205 \ 000 \ 205 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ \ 205 \ 000 \ 205 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 205 \ 000 \ 255 \ 255 \ \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ \ 205 \ 000 \ 205 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 205 \ 000 \ \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 255 \ 255 \ 205 \ 000 \ \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 255 \ 255 \ 205 \ 000 \ \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 205 \ 000 \ 206 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 206 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 206 \ 000 \ 255 \ 255 \ 206 \ 000 \ 206 \ 000 \ \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ \ 206 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 206 \ 000 \ \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ \ 206 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 206 \ 000 \ 255 \ 255 \ 206 \ 000 \ \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ \ 206 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 206 \ 000 \ 206 \ 000 \ \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 255 \ 255 \ 206 \ 000 \ 206 \ 000 \ \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 209 \ 000 \ 206 \ 000 \ 206 \ 000 \ \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 206 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 209 \ 000 \ 255 \ 255 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 218 \ 000 \ \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ \ 218 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 218 \ 000 \ 255 \ 255 \ 218 \ 000 \ \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ \ 218 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 255 \ 255 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 255 \ 255 \ 209 \ 000 \ 209 \ 000 \ \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 209 \ 000 \ 218 \ 000 \ 218 \ 000 \ \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 255 \ 255 \ 218 \ 000 \ 218 \ 000 \ \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 255 \ 255 \ 218 \ 000 \ 218 \ 000 \ \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 218 \ 000 \ 219 \ 000 \ 219 \ 000 \ \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 219 \ 000 \ 255 \ 255 \ 219 \ 000 \ 219 \ 000 \ \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 255 \ 255 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 220 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 219 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 220 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 220 \ 000 \ 255 \ 255 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 255 \ 255 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 221 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 220 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 221 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 221 \ 000 \ 255 \ 255 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 255 \ 255 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 255 \ 255 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 221 \ 000 \ 255 \ 255 " ; Lexing . lex_base_code = " \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 027 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 066 \ 000 \ 101 \ 000 \ 136 \ 000 \ 171 \ 000 \ \ 206 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 241 \ 000 \ 020 \ 001 \ 055 \ 001 \ \ 000 \ 000 \ 000 \ 000 \ 018 \ 000 \ 090 \ 001 \ 125 \ 001 \ 160 \ 001 \ 195 \ 001 \ 230 \ 001 \ \ 000 \ 000 \ 021 \ 000 \ 026 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 247 \ 001 \ 040 \ 002 \ 000 \ 000 \ 034 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 003 \ 000 \ 000 \ 000 \ 000 \ 000 \ 049 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 001 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 002 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 036 \ 002 \ 000 \ 000 \ 244 \ 002 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 061 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 " ; Lexing . lex_backtrk_code = " \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 034 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 049 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 061 \ 000 \ 061 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 " ; Lexing . lex_default_code = " \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 041 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 " ; Lexing . lex_trans_code = " \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 001 \ 000 \ 000 \ 000 \ 058 \ 000 \ 058 \ 000 \ 000 \ 000 \ 058 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 001 \ 000 \ 000 \ 000 \ 000 \ 000 \ 001 \ 000 \ 007 \ 000 \ 044 \ 000 \ 000 \ 000 \ 007 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ \ 004 \ 000 \ 004 \ 000 \ 000 \ 000 \ 007 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 007 \ 000 \ 000 \ 000 \ 000 \ 000 \ 007 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ 012 \ 000 \ \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 007 \ 000 \ 015 \ 000 \ 000 \ 000 \ 000 \ 000 \ 015 \ 000 \ 015 \ 000 \ \ 015 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 015 \ 000 \ 015 \ 000 \ 000 \ 000 \ 015 \ 000 \ \ 015 \ 000 \ 015 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 015 \ 000 \ 000 \ 000 \ 015 \ 000 \ 015 \ 000 \ \ 015 \ 000 \ 015 \ 000 \ 015 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ \ 012 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 015 \ 000 \ 012 \ 000 \ \ 015 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 015 \ 000 \ 000 \ 000 \ \ 015 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ 012 \ 000 \ \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 012 \ 000 \ \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 012 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ \ 012 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ 012 \ 000 \ \ 012 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 015 \ 000 \ 000 \ 000 \ 000 \ 000 \ 015 \ 000 \ \ 015 \ 000 \ 015 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 015 \ 000 \ 015 \ 000 \ 000 \ 000 \ \ 015 \ 000 \ 015 \ 000 \ 015 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ 012 \ 000 \ 012 \ 000 \ 015 \ 000 \ 012 \ 000 \ 015 \ 000 \ \ 015 \ 000 \ 015 \ 000 \ 015 \ 000 \ 015 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 015 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 015 \ 000 \ 015 \ 000 \ 015 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 015 \ 000 \ 015 \ 000 \ 000 \ 000 \ 015 \ 000 \ 015 \ 000 \ 015 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 029 \ 000 \ 000 \ 000 \ 000 \ 000 \ 012 \ 000 \ 000 \ 000 \ 012 \ 000 \ 015 \ 000 \ \ 015 \ 000 \ 015 \ 000 \ 015 \ 000 \ 015 \ 000 \ 015 \ 000 \ 015 \ 000 \ 015 \ 000 \ 004 \ 000 \ \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ \ 004 \ 000 \ 001 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 015 \ 000 \ \ 000 \ 000 \ 015 \ 000 \ 015 \ 000 \ 000 \ 000 \ 015 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 001 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ 004 \ 000 \ \ 004 \ 000 \ 004 \ 000 \ 015 \ 000 \ 000 \ 000 \ 015 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 058 \ 000 \ 000 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 000 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 058 \ 000 \ 000 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 000 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 000 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 058 \ 000 \ 000 \ 000 " ; Lexing . lex_check_code = " \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 016 \ 000 \ 104 \ 000 \ 164 \ 000 \ 170 \ 000 \ 104 \ 000 \ 164 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 016 \ 000 \ 255 \ 255 \ 104 \ 000 \ 000 \ 000 \ 019 \ 000 \ 105 \ 000 \ 255 \ 255 \ 019 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 016 \ 000 \ 016 \ 000 \ 016 \ 000 \ 016 \ 000 \ 016 \ 000 \ 016 \ 000 \ 016 \ 000 \ 016 \ 000 \ \ 016 \ 000 \ 016 \ 000 \ 255 \ 255 \ 019 \ 000 \ 019 \ 000 \ 255 \ 255 \ 255 \ 255 \ 019 \ 000 \ \ 019 \ 000 \ 019 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 019 \ 000 \ 255 \ 255 \ \ 019 \ 000 \ 019 \ 000 \ 019 \ 000 \ 060 \ 000 \ 255 \ 255 \ 255 \ 255 \ 060 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 019 \ 000 \ 255 \ 255 \ 019 \ 000 \ \ 019 \ 000 \ 019 \ 000 \ 019 \ 000 \ 019 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 060 \ 000 \ 060 \ 000 \ 255 \ 255 \ 255 \ 255 \ 060 \ 000 \ 060 \ 000 \ \ 060 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 060 \ 000 \ 060 \ 000 \ 255 \ 255 \ 060 \ 000 \ \ 060 \ 000 \ 060 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 019 \ 000 \ \ 255 \ 255 \ 019 \ 000 \ 255 \ 255 \ 255 \ 255 \ 060 \ 000 \ 255 \ 255 \ 060 \ 000 \ 060 \ 000 \ \ 060 \ 000 \ 060 \ 000 \ 060 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 061 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 061 \ 000 \ 061 \ 000 \ 061 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 061 \ 000 \ \ 061 \ 000 \ 255 \ 255 \ 061 \ 000 \ 061 \ 000 \ 061 \ 000 \ 255 \ 255 \ 255 \ 255 \ 019 \ 000 \ \ 255 \ 255 \ 019 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 060 \ 000 \ 061 \ 000 \ \ 060 \ 000 \ 061 \ 000 \ 061 \ 000 \ 061 \ 000 \ 061 \ 000 \ 061 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 062 \ 000 \ 255 \ 255 \ 255 \ 255 \ 062 \ 000 \ 062 \ 000 \ 062 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 062 \ 000 \ 062 \ 000 \ 255 \ 255 \ 062 \ 000 \ 062 \ 000 \ 062 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 060 \ 000 \ 255 \ 255 \ \ 060 \ 000 \ 061 \ 000 \ 062 \ 000 \ 061 \ 000 \ 062 \ 000 \ 062 \ 000 \ 062 \ 000 \ 062 \ 000 \ \ 062 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 063 \ 000 \ 255 \ 255 \ 255 \ 255 \ 063 \ 000 \ \ 063 \ 000 \ 063 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 063 \ 000 \ 063 \ 000 \ 255 \ 255 \ \ 063 \ 000 \ 063 \ 000 \ 063 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 061 \ 000 \ 255 \ 255 \ 061 \ 000 \ 062 \ 000 \ 063 \ 000 \ 062 \ 000 \ 063 \ 000 \ \ 063 \ 000 \ 063 \ 000 \ 063 \ 000 \ 063 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 064 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 064 \ 000 \ 064 \ 000 \ 064 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 064 \ 000 \ 064 \ 000 \ 255 \ 255 \ 064 \ 000 \ 064 \ 000 \ 064 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 104 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 062 \ 000 \ 255 \ 255 \ 062 \ 000 \ 063 \ 000 \ \ 064 \ 000 \ 063 \ 000 \ 064 \ 000 \ 064 \ 000 \ 064 \ 000 \ 064 \ 000 \ 064 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 069 \ 000 \ 255 \ 255 \ 255 \ 255 \ 069 \ 000 \ 069 \ 000 \ 069 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 069 \ 000 \ 069 \ 000 \ 255 \ 255 \ 069 \ 000 \ 069 \ 000 \ \ 069 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 063 \ 000 \ \ 255 \ 255 \ 063 \ 000 \ 064 \ 000 \ 069 \ 000 \ 064 \ 000 \ 069 \ 000 \ 069 \ 000 \ 069 \ 000 \ \ 069 \ 000 \ 069 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 070 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 070 \ 000 \ 070 \ 000 \ 070 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 070 \ 000 \ 070 \ 000 \ \ 255 \ 255 \ 070 \ 000 \ 070 \ 000 \ 070 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 064 \ 000 \ 255 \ 255 \ 064 \ 000 \ 069 \ 000 \ 070 \ 000 \ 069 \ 000 \ \ 070 \ 000 \ 070 \ 000 \ 070 \ 000 \ 070 \ 000 \ 070 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 071 \ 000 \ 255 \ 255 \ 255 \ 255 \ 071 \ 000 \ 071 \ 000 \ 071 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 071 \ 000 \ 071 \ 000 \ 255 \ 255 \ 071 \ 000 \ 071 \ 000 \ 071 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 069 \ 000 \ 255 \ 255 \ 069 \ 000 \ \ 070 \ 000 \ 071 \ 000 \ 070 \ 000 \ 071 \ 000 \ 071 \ 000 \ 071 \ 000 \ 071 \ 000 \ 071 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 075 \ 000 \ 255 \ 255 \ 255 \ 255 \ 075 \ 000 \ 075 \ 000 \ \ 075 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 075 \ 000 \ 075 \ 000 \ 255 \ 255 \ 075 \ 000 \ \ 075 \ 000 \ 075 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 070 \ 000 \ 255 \ 255 \ 070 \ 000 \ 071 \ 000 \ 075 \ 000 \ 071 \ 000 \ 075 \ 000 \ 075 \ 000 \ \ 075 \ 000 \ 075 \ 000 \ 075 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 076 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 076 \ 000 \ 076 \ 000 \ 076 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 076 \ 000 \ \ 076 \ 000 \ 255 \ 255 \ 076 \ 000 \ 076 \ 000 \ 076 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 071 \ 000 \ 255 \ 255 \ 071 \ 000 \ 075 \ 000 \ 076 \ 000 \ \ 075 \ 000 \ 076 \ 000 \ 076 \ 000 \ 076 \ 000 \ 076 \ 000 \ 076 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 077 \ 000 \ 255 \ 255 \ 255 \ 255 \ 077 \ 000 \ 077 \ 000 \ 077 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 077 \ 000 \ 077 \ 000 \ 255 \ 255 \ 077 \ 000 \ 077 \ 000 \ 077 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 075 \ 000 \ 255 \ 255 \ \ 075 \ 000 \ 076 \ 000 \ 077 \ 000 \ 076 \ 000 \ 077 \ 000 \ 077 \ 000 \ 077 \ 000 \ 077 \ 000 \ \ 077 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 078 \ 000 \ 255 \ 255 \ 255 \ 255 \ 078 \ 000 \ \ 078 \ 000 \ 078 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 078 \ 000 \ 078 \ 000 \ 255 \ 255 \ \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 076 \ 000 \ 255 \ 255 \ 076 \ 000 \ 077 \ 000 \ 078 \ 000 \ 077 \ 000 \ 078 \ 000 \ \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ 078 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 079 \ 000 \ \ 255 \ 255 \ 255 \ 255 \ 079 \ 000 \ 079 \ 000 \ 079 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 079 \ 000 \ 079 \ 000 \ 255 \ 255 \ 079 \ 000 \ 079 \ 000 \ 079 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 099 \ 000 \ 255 \ 255 \ 255 \ 255 \ 077 \ 000 \ 255 \ 255 \ 077 \ 000 \ 078 \ 000 \ \ 079 \ 000 \ 078 \ 000 \ 079 \ 000 \ 079 \ 000 \ 079 \ 000 \ 079 \ 000 \ 079 \ 000 \ 099 \ 000 \ \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ 099 \ 000 \ \ 099 \ 000 \ 100 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 078 \ 000 \ \ 255 \ 255 \ 078 \ 000 \ 079 \ 000 \ 255 \ 255 \ 079 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 100 \ 000 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 100 \ 000 \ 100 \ 000 \ 100 \ 000 \ 100 \ 000 \ 100 \ 000 \ 100 \ 000 \ 100 \ 000 \ 100 \ 000 \ \ 100 \ 000 \ 100 \ 000 \ 079 \ 000 \ 255 \ 255 \ 079 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 181 \ 000 \ 255 \ 255 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 255 \ 255 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 183 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 181 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 183 \ 000 \ 255 \ 255 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 255 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 255 \ 255 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 255 \ 255 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 183 \ 000 \ 255 \ 255 " ; Lexing . lex_code = " \ 255 \ 004 \ 255 \ 255 \ 009 \ 255 \ 255 \ 006 \ 255 \ 005 \ 255 \ 255 \ 007 \ 255 \ 255 \ 008 \ \ 255 \ 255 \ 000 \ 007 \ 255 \ 000 \ 006 \ 001 \ 008 \ 255 \ 000 \ 005 \ 255 \ 011 \ 255 \ 010 \ \ 255 \ 255 \ 003 \ 255 \ 000 \ 004 \ 001 \ 009 \ 255 \ 011 \ 255 \ 255 \ 010 \ 255 \ 011 \ 255 \ \ 255 \ 000 \ 004 \ 001 \ 009 \ 003 \ 010 \ 002 \ 011 \ 255 \ 001 \ 255 \ 255 \ 000 \ 001 \ 255 \ " ; } let rec token c lexbuf = ( lexbuf . Lexing . lex_mem <- Array . create 12 ( - 1 ) ; __ocaml_lex_token_rec c lexbuf 0 ) and __ocaml_lex_token_rec c lexbuf __ocaml_lex_state = match Lexing . new_engine __ocaml_lex_tables __ocaml_lex_state lexbuf with | 0 -> ( update_loc c None 1 false 0 ; NEWLINE ) | 1 -> let x = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_start_pos lexbuf . Lexing . lex_curr_pos in BLANKS x | 2 -> let x = Lexing . sub_lexeme lexbuf ( lexbuf . Lexing . lex_start_pos + 1 ) ( lexbuf . Lexing . lex_curr_pos + ( - 1 ) ) in LABEL x | 3 -> let x = Lexing . sub_lexeme lexbuf ( lexbuf . Lexing . lex_start_pos + 1 ) ( lexbuf . Lexing . lex_curr_pos + ( - 1 ) ) in OPTLABEL x | 4 -> let x = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_start_pos lexbuf . Lexing . lex_curr_pos in LIDENT x | 5 -> let x = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_start_pos lexbuf . Lexing . lex_curr_pos in UIDENT x | 6 -> let i = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_start_pos lexbuf . Lexing . lex_curr_pos in ( try INT ( ( int_of_string i ) , i ) with | Failure _ -> err ( Literal_overflow " int " ) ( Loc . of_lexbuf lexbuf ) ) | 7 -> let f = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_start_pos lexbuf . Lexing . lex_curr_pos in ( try FLOAT ( ( float_of_string f ) , f ) with | Failure _ -> err ( Literal_overflow " float " ) ( Loc . of_lexbuf lexbuf ) ) | 8 -> let i = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_start_pos ( lexbuf . Lexing . lex_curr_pos + ( - 1 ) ) in ( try INT32 ( ( Int32 . of_string i ) , i ) with | Failure _ -> err ( Literal_overflow " int32 " ) ( Loc . of_lexbuf lexbuf ) ) | 9 -> let i = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_start_pos ( lexbuf . Lexing . lex_curr_pos + ( - 1 ) ) in ( try INT64 ( ( Int64 . of_string i ) , i ) with | Failure _ -> err ( Literal_overflow " int64 " ) ( Loc . of_lexbuf lexbuf ) ) | 10 -> let i = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_start_pos ( lexbuf . Lexing . lex_curr_pos + ( - 1 ) ) in ( try NATIVEINT ( ( Nativeint . of_string i ) , i ) with | Failure _ -> err ( Literal_overflow " nativeint " ) ( Loc . of_lexbuf lexbuf ) ) | 11 -> ( with_curr_loc string c ; let s = buff_contents c in STRING ( ( TokenEval . string s ) , s ) ) | 12 -> let x = Lexing . sub_lexeme lexbuf ( lexbuf . Lexing . lex_start_pos + 1 ) ( lexbuf . Lexing . lex_curr_pos + ( - 1 ) ) in ( update_loc c None 1 false 1 ; CHAR ( ( TokenEval . char x ) , x ) ) | 13 -> let x = Lexing . sub_lexeme lexbuf ( lexbuf . Lexing . lex_start_pos + 1 ) ( lexbuf . Lexing . lex_curr_pos + ( - 1 ) ) in CHAR ( ( TokenEval . char x ) , x ) | 14 -> let c = Lexing . sub_lexeme_char lexbuf ( lexbuf . Lexing . lex_start_pos + 2 ) in err ( Illegal_escape ( String . make 1 c ) ) ( Loc . of_lexbuf lexbuf ) | 15 -> ( store c ; COMMENT ( parse_nested comment ( in_comment c ) ) ) | 16 -> ( warn Comment_start ( Loc . of_lexbuf lexbuf ) ; parse comment ( in_comment c ) ; COMMENT ( buff_contents c ) ) | 17 -> ( warn Comment_not_end ( Loc . of_lexbuf lexbuf ) ; move_start_p ( - 1 ) c ; SYMBOL " " ) * | 18 -> let beginning = Lexing . sub_lexeme lexbuf ( lexbuf . Lexing . lex_start_pos + 2 ) lexbuf . Lexing . lex_curr_pos in if quotations c then ( move_start_p ( - ( String . length beginning ) ) ; mk_quotation quotation c " " " " 2 ) else parse ( symbolchar_star ( " " << ^ beginning ) ) c | 19 -> if quotations c then QUOTATION { q_name = " " ; q_loc = " " ; q_shift = 2 ; q_contents = " " ; } else parse ( symbolchar_star " " ) <<>> c | 20 -> if quotations c then with_curr_loc maybe_quotation_at c else parse ( symbolchar_star " " ) <@ c | 21 -> if quotations c then with_curr_loc maybe_quotation_colon c else parse ( symbolchar_star " " ) <: c | 22 -> let num = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_mem . ( 0 ) lexbuf . Lexing . lex_mem . ( 1 ) and name = Lexing . sub_lexeme_opt lexbuf lexbuf . Lexing . lex_mem . ( 3 ) lexbuf . Lexing . lex_mem . ( 2 ) in let inum = int_of_string num in ( update_loc c name inum true 0 ; LINE_DIRECTIVE ( inum , name ) ) | 23 -> let op = Lexing . sub_lexeme_char lexbuf ( lexbuf . Lexing . lex_start_pos + 1 ) in ESCAPED_IDENT ( String . make 1 op ) | 24 -> let op = Lexing . sub_lexeme lexbuf ( lexbuf . Lexing . lex_start_pos + 1 ) ( lexbuf . Lexing . lex_curr_pos + ( - 1 ) ) in ESCAPED_IDENT op | 25 -> let op = Lexing . sub_lexeme lexbuf ( lexbuf . Lexing . lex_start_pos + 1 ) lexbuf . Lexing . lex_mem . ( 0 ) in ESCAPED_IDENT op | 26 -> let op = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_mem . ( 0 ) ( lexbuf . Lexing . lex_curr_pos + ( - 1 ) ) in ESCAPED_IDENT op | 27 -> let op = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_mem . ( 0 ) lexbuf . Lexing . lex_mem . ( 1 ) in ESCAPED_IDENT op | 28 -> let x = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_start_pos lexbuf . Lexing . lex_curr_pos in SYMBOL x | 29 -> if antiquots c then with_curr_loc dollar ( shift 1 c ) else parse ( symbolchar_star " " ) $ c | 30 -> let x = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_start_pos lexbuf . Lexing . lex_curr_pos in SYMBOL x | 31 -> let pos = lexbuf . lex_curr_p in ( lexbuf . lex_curr_p <- { ( pos ) with pos_bol = pos . pos_bol + 1 ; pos_cnum = pos . pos_cnum + 1 ; } ; EOI ) | 32 -> let c = Lexing . sub_lexeme_char lexbuf lexbuf . Lexing . lex_start_pos in err ( Illegal_character c ) ( Loc . of_lexbuf lexbuf ) | __ocaml_lex_state -> ( lexbuf . Lexing . refill_buff lexbuf ; __ocaml_lex_token_rec c lexbuf __ocaml_lex_state ) and comment c lexbuf = __ocaml_lex_comment_rec c lexbuf 123 and __ocaml_lex_comment_rec c lexbuf __ocaml_lex_state = match Lexing . engine __ocaml_lex_tables __ocaml_lex_state lexbuf with | 0 -> ( store c ; with_curr_loc comment c ; parse comment c ) | 1 -> store c | 2 -> ( store c ; if quotations c then with_curr_loc quotation c else ( ) ; parse comment c ) | 3 -> store_parse comment c | 4 -> ( store c ; ( try with_curr_loc string c with | Loc . Exc_located ( _ , ( Error . E Unterminated_string ) ) -> err Unterminated_string_in_comment ( loc c ) ) ; Buffer . add_char c . buffer ' " ' ; parse comment c ) | 5 -> store_parse comment c | 6 -> store_parse comment c | 7 -> ( update_loc c None 1 false 1 ; store_parse comment c ) | 8 -> store_parse comment c | 9 -> store_parse comment c | 10 -> store_parse comment c | 11 -> store_parse comment c | 12 -> err Unterminated_comment ( loc c ) | 13 -> ( update_loc c None 1 false 0 ; store_parse comment c ) | 14 -> store_parse comment c | __ocaml_lex_state -> ( lexbuf . Lexing . refill_buff lexbuf ; __ocaml_lex_comment_rec c lexbuf __ocaml_lex_state ) and string c lexbuf = ( lexbuf . Lexing . lex_mem <- Array . create 2 ( - 1 ) ; __ocaml_lex_string_rec c lexbuf 159 ) and __ocaml_lex_string_rec c lexbuf __ocaml_lex_state = match Lexing . new_engine __ocaml_lex_tables __ocaml_lex_state lexbuf with | 0 -> set_start_p c | 1 -> let space = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_mem . ( 0 ) lexbuf . Lexing . lex_curr_pos in ( update_loc c None 1 false ( String . length space ) ; store_parse string c ) | 2 -> store_parse string c | 3 -> store_parse string c | 4 -> store_parse string c | 5 -> let x = Lexing . sub_lexeme_char lexbuf ( lexbuf . Lexing . lex_start_pos + 1 ) in if is_in_comment c then store_parse string c else ( warn ( Illegal_escape ( String . make 1 x ) ) ( Loc . of_lexbuf lexbuf ) ; store_parse string c ) | 6 -> ( update_loc c None 1 false 0 ; store_parse string c ) | 7 -> err Unterminated_string ( loc c ) | 8 -> store_parse string c | __ocaml_lex_state -> ( lexbuf . Lexing . refill_buff lexbuf ; __ocaml_lex_string_rec c lexbuf __ocaml_lex_state ) and symbolchar_star beginning c lexbuf = __ocaml_lex_symbolchar_star_rec beginning c lexbuf 176 and __ocaml_lex_symbolchar_star_rec beginning c lexbuf __ocaml_lex_state = match Lexing . engine __ocaml_lex_tables __ocaml_lex_state lexbuf with | 0 -> let tok = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_start_pos lexbuf . Lexing . lex_curr_pos in ( move_start_p ( - ( String . length beginning ) ) c ; SYMBOL ( beginning ^ tok ) ) | __ocaml_lex_state -> ( lexbuf . Lexing . refill_buff lexbuf ; __ocaml_lex_symbolchar_star_rec beginning c lexbuf __ocaml_lex_state ) and maybe_quotation_at c lexbuf = __ocaml_lex_maybe_quotation_at_rec c lexbuf 177 and __ocaml_lex_maybe_quotation_at_rec c lexbuf __ocaml_lex_state = match Lexing . engine __ocaml_lex_tables __ocaml_lex_state lexbuf with | 0 -> let loc = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_start_pos ( lexbuf . Lexing . lex_curr_pos + ( - 1 ) ) in mk_quotation quotation c " " loc ( 1 + ( String . length loc ) ) | 1 -> let tok = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_start_pos lexbuf . Lexing . lex_curr_pos in SYMBOL ( " " <@ ^ tok ) | __ocaml_lex_state -> ( lexbuf . Lexing . refill_buff lexbuf ; __ocaml_lex_maybe_quotation_at_rec c lexbuf __ocaml_lex_state ) and maybe_quotation_colon c lexbuf = ( lexbuf . Lexing . lex_mem <- Array . create 2 ( - 1 ) ; __ocaml_lex_maybe_quotation_colon_rec c lexbuf 181 ) and __ocaml_lex_maybe_quotation_colon_rec c lexbuf __ocaml_lex_state = match Lexing . new_engine __ocaml_lex_tables __ocaml_lex_state lexbuf with | 0 -> let name = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_start_pos ( lexbuf . Lexing . lex_curr_pos + ( - 1 ) ) in mk_quotation quotation c name " " ( 1 + ( String . length name ) ) | 1 -> let name = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_start_pos lexbuf . Lexing . lex_mem . ( 0 ) and loc = Lexing . sub_lexeme lexbuf ( lexbuf . Lexing . lex_mem . ( 0 ) + 1 ) ( lexbuf . Lexing . lex_curr_pos + ( - 1 ) ) in mk_quotation quotation c name loc ( ( 2 + ( String . length loc ) ) + ( String . length name ) ) | 2 -> let tok = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_start_pos lexbuf . Lexing . lex_curr_pos in SYMBOL ( " " <: ^ tok ) | __ocaml_lex_state -> ( lexbuf . Lexing . refill_buff lexbuf ; __ocaml_lex_maybe_quotation_colon_rec c lexbuf __ocaml_lex_state ) and quotation c lexbuf = __ocaml_lex_quotation_rec c lexbuf 188 and __ocaml_lex_quotation_rec c lexbuf __ocaml_lex_state = match Lexing . engine __ocaml_lex_tables __ocaml_lex_state lexbuf with | 0 -> ( store c ; with_curr_loc quotation c ; parse quotation c ) | 1 -> store c | 2 -> err Unterminated_quotation ( loc c ) | 3 -> ( update_loc c None 1 false 0 ; store_parse quotation c ) | 4 -> store_parse quotation c | __ocaml_lex_state -> ( lexbuf . Lexing . refill_buff lexbuf ; __ocaml_lex_quotation_rec c lexbuf __ocaml_lex_state ) and dollar c lexbuf = __ocaml_lex_dollar_rec c lexbuf 201 and __ocaml_lex_dollar_rec c lexbuf __ocaml_lex_state = match Lexing . engine __ocaml_lex_tables __ocaml_lex_state lexbuf with | 0 -> ( set_start_p c ; ANTIQUOT ( " " , " " ) ) | 1 -> let name = Lexing . sub_lexeme lexbuf lexbuf . Lexing . lex_start_pos ( lexbuf . Lexing . lex_curr_pos + ( - 1 ) ) in with_curr_loc ( antiquot name ) ( shift ( 1 + ( String . length name ) ) c ) | 2 -> store_parse ( antiquot " " ) c | __ocaml_lex_state -> ( lexbuf . Lexing . refill_buff lexbuf ; __ocaml_lex_dollar_rec c lexbuf __ocaml_lex_state ) and antiquot name c lexbuf = __ocaml_lex_antiquot_rec name c lexbuf 210 and __ocaml_lex_antiquot_rec name c lexbuf __ocaml_lex_state = match Lexing . engine __ocaml_lex_tables __ocaml_lex_state lexbuf with | 0 -> ( set_start_p c ; ANTIQUOT ( name , ( buff_contents c ) ) ) | 1 -> err Unterminated_antiquot ( loc c ) | 2 -> ( update_loc c None 1 false 0 ; store_parse ( antiquot name ) c ) | 3 -> ( store c ; with_curr_loc quotation c ; parse ( antiquot name ) c ) | 4 -> store_parse ( antiquot name ) c | __ocaml_lex_state -> ( lexbuf . Lexing . refill_buff lexbuf ; __ocaml_lex_antiquot_rec name c lexbuf __ocaml_lex_state ) let lexing_store s buff max = let rec self n s = if n >= max then n else ( match Stream . peek s with | Some x -> ( Stream . junk s ; buff . [ n ] <- x ; succ n ) | _ -> n ) in self 0 s let from_context c = let next _ = let tok = with_curr_loc token c in let loc = Loc . of_lexbuf c . lexbuf in Some ( tok , loc ) in Stream . from next let from_lexbuf ( ? quotations = true ) lb = let c = { ( default_context lb ) with loc = Loc . of_lexbuf lb ; antiquots = ! Camlp4_config . antiquotations ; quotations = quotations ; } in from_context c let setup_loc lb loc = let start_pos = Loc . start_pos loc in ( lb . lex_abs_pos <- start_pos . pos_cnum ; lb . lex_curr_p <- start_pos ) let from_string ? quotations loc str = let lb = Lexing . from_string str in ( setup_loc lb loc ; from_lexbuf ? quotations lb ) let from_stream ? quotations loc strm = let lb = Lexing . from_function ( lexing_store strm ) in ( setup_loc lb loc ; from_lexbuf ? quotations lb ) let mk ( ) loc strm = from_stream ~ quotations : ! Camlp4_config . quotations loc strm end end module Camlp4Ast = struct module Make ( Loc : Sig . Loc ) : Sig . Camlp4Ast with module Loc = Loc = struct module Loc = Loc module Ast = struct include Sig . MakeCamlp4Ast ( Loc ) let safe_string_escaped s = if ( ( String . length s ) > 2 ) && ( ( s . [ 0 ] = ' ' ) \\ && ( s . [ 1 ] = ' ' ) ) $ then s else String . escaped s end include Ast external loc_of_ctyp : ctyp -> Loc . t = " % field0 " external loc_of_patt : patt -> Loc . t = " % field0 " external loc_of_expr : expr -> Loc . t = " % field0 " external loc_of_module_type : module_type -> Loc . t = " % field0 " external loc_of_module_expr : module_expr -> Loc . t = " % field0 " external loc_of_sig_item : sig_item -> Loc . t = " % field0 " external loc_of_str_item : str_item -> Loc . t = " % field0 " external loc_of_class_type : class_type -> Loc . t = " % field0 " external loc_of_class_sig_item : class_sig_item -> Loc . t = " % field0 " external loc_of_class_expr : class_expr -> Loc . t = " % field0 " external loc_of_class_str_item : class_str_item -> Loc . t = " % field0 " external loc_of_with_constr : with_constr -> Loc . t = " % field0 " external loc_of_binding : binding -> Loc . t = " % field0 " external loc_of_rec_binding : rec_binding -> Loc . t = " % field0 " external loc_of_module_binding : module_binding -> Loc . t = " % field0 " external loc_of_match_case : match_case -> Loc . t = " % field0 " external loc_of_ident : ident -> Loc . t = " % field0 " let ghost = Loc . ghost let rec is_module_longident = function | Ast . IdAcc ( _ , _ , i ) -> is_module_longident i | Ast . IdApp ( _ , i1 , i2 ) -> ( is_module_longident i1 ) && ( is_module_longident i2 ) | Ast . IdUid ( _ , _ ) -> true | _ -> false let ident_of_expr = let error ( ) = invalid_arg " ident_of_expr : this expression is not an identifier " in let rec self = function | Ast . ExApp ( _loc , e1 , e2 ) -> Ast . IdApp ( _loc , ( self e1 ) , ( self e2 ) ) | Ast . ExAcc ( _loc , e1 , e2 ) -> Ast . IdAcc ( _loc , ( self e1 ) , ( self e2 ) ) | Ast . ExId ( _ , ( Ast . IdLid ( _ , _ ) ) ) -> error ( ) | Ast . ExId ( _ , i ) -> if is_module_longident i then i else error ( ) | _ -> error ( ) in function | Ast . ExId ( _ , i ) -> i | Ast . ExApp ( _ , _ , _ ) -> error ( ) | t -> self t let ident_of_ctyp = let error ( ) = invalid_arg " ident_of_ctyp : this type is not an identifier " in let rec self = function | Ast . TyApp ( _loc , t1 , t2 ) -> Ast . IdApp ( _loc , ( self t1 ) , ( self t2 ) ) | Ast . TyId ( _ , ( Ast . IdLid ( _ , _ ) ) ) -> error ( ) | Ast . TyId ( _ , i ) -> if is_module_longident i then i else error ( ) | _ -> error ( ) in function | Ast . TyId ( _ , i ) -> i | t -> self t let ident_of_patt = let error ( ) = invalid_arg " ident_of_patt : this pattern is not an identifier " in let rec self = function | Ast . PaApp ( _loc , p1 , p2 ) -> Ast . IdApp ( _loc , ( self p1 ) , ( self p2 ) ) | Ast . PaId ( _ , ( Ast . IdLid ( _ , _ ) ) ) -> error ( ) | Ast . PaId ( _ , i ) -> if is_module_longident i then i else error ( ) | _ -> error ( ) in function | Ast . PaId ( _ , i ) -> i | p -> self p let rec is_irrefut_patt = function | Ast . PaId ( _ , ( Ast . IdLid ( _ , _ ) ) ) -> true | Ast . PaId ( _ , ( Ast . IdUid ( _ , " ( ) " ) ) ) -> true | Ast . PaAny _ -> true | Ast . PaNil _ -> true | Ast . PaAli ( _ , x , y ) -> ( is_irrefut_patt x ) && ( is_irrefut_patt y ) | Ast . PaRec ( _ , p ) -> is_irrefut_patt p | Ast . PaEq ( _ , _ , p ) -> is_irrefut_patt p | Ast . PaSem ( _ , p1 , p2 ) -> ( is_irrefut_patt p1 ) && ( is_irrefut_patt p2 ) | Ast . PaCom ( _ , p1 , p2 ) -> ( is_irrefut_patt p1 ) && ( is_irrefut_patt p2 ) | Ast . PaOrp ( _ , p1 , p2 ) -> ( is_irrefut_patt p1 ) && ( is_irrefut_patt p2 ) | Ast . PaApp ( _ , p1 , p2 ) -> ( is_irrefut_patt p1 ) && ( is_irrefut_patt p2 ) | Ast . PaTyc ( _ , p , _ ) -> is_irrefut_patt p | Ast . PaTup ( _ , pl ) -> is_irrefut_patt pl | Ast . PaOlb ( _ , _ , ( Ast . PaNil _ ) ) -> true | Ast . PaOlb ( _ , _ , p ) -> is_irrefut_patt p | Ast . PaOlbi ( _ , _ , p , _ ) -> is_irrefut_patt p | Ast . PaLab ( _ , _ , ( Ast . PaNil _ ) ) -> true | Ast . PaLab ( _ , _ , p ) -> is_irrefut_patt p | Ast . PaLaz ( _ , p ) -> is_irrefut_patt p | Ast . PaId ( _ , _ ) -> false | Ast . PaVrn ( _ , _ ) | Ast . PaStr ( _ , _ ) | Ast . PaRng ( _ , _ , _ ) | Ast . PaFlo ( _ , _ ) | Ast . PaNativeInt ( _ , _ ) | Ast . PaInt64 ( _ , _ ) | Ast . PaInt32 ( _ , _ ) | Ast . PaInt ( _ , _ ) | Ast . PaChr ( _ , _ ) | Ast . PaTyp ( _ , _ ) | Ast . PaArr ( _ , _ ) | Ast . PaAnt ( _ , _ ) -> false let rec is_constructor = function | Ast . IdAcc ( _ , _ , i ) -> is_constructor i | Ast . IdUid ( _ , _ ) -> true | Ast . IdLid ( _ , _ ) | Ast . IdApp ( _ , _ , _ ) -> false | Ast . IdAnt ( _ , _ ) -> assert false let is_patt_constructor = function | Ast . PaId ( _ , i ) -> is_constructor i | Ast . PaVrn ( _ , _ ) -> true | _ -> false let rec is_expr_constructor = function | Ast . ExId ( _ , i ) -> is_constructor i | Ast . ExAcc ( _ , e1 , e2 ) -> ( is_expr_constructor e1 ) && ( is_expr_constructor e2 ) | Ast . ExVrn ( _ , _ ) -> true | _ -> false let rec tyOr_of_list = function | [ ] -> Ast . TyNil ghost | [ t ] -> t | t :: ts -> let _loc = loc_of_ctyp t in Ast . TyOr ( _loc , t , ( tyOr_of_list ts ) ) let rec tyAnd_of_list = function | [ ] -> Ast . TyNil ghost | [ t ] -> t | t :: ts -> let _loc = loc_of_ctyp t in Ast . TyAnd ( _loc , t , ( tyAnd_of_list ts ) ) let rec tySem_of_list = function | [ ] -> Ast . TyNil ghost | [ t ] -> t | t :: ts -> let _loc = loc_of_ctyp t in Ast . TySem ( _loc , t , ( tySem_of_list ts ) ) let rec tyCom_of_list = function | [ ] -> Ast . TyNil ghost | [ t ] -> t | t :: ts -> let _loc = loc_of_ctyp t in Ast . TyCom ( _loc , t , ( tyCom_of_list ts ) ) let rec tyAmp_of_list = function | [ ] -> Ast . TyNil ghost | [ t ] -> t | t :: ts -> let _loc = loc_of_ctyp t in Ast . TyAmp ( _loc , t , ( tyAmp_of_list ts ) ) let rec tySta_of_list = function | [ ] -> Ast . TyNil ghost | [ t ] -> t | t :: ts -> let _loc = loc_of_ctyp t in Ast . TySta ( _loc , t , ( tySta_of_list ts ) ) let rec stSem_of_list = function | [ ] -> Ast . StNil ghost | [ t ] -> t | t :: ts -> let _loc = loc_of_str_item t in Ast . StSem ( _loc , t , ( stSem_of_list ts ) ) let rec sgSem_of_list = function | [ ] -> Ast . SgNil ghost | [ t ] -> t | t :: ts -> let _loc = loc_of_sig_item t in Ast . SgSem ( _loc , t , ( sgSem_of_list ts ) ) let rec biAnd_of_list = function | [ ] -> Ast . BiNil ghost | [ b ] -> b | b :: bs -> let _loc = loc_of_binding b in Ast . BiAnd ( _loc , b , ( biAnd_of_list bs ) ) let rec rbSem_of_list = function | [ ] -> Ast . RbNil ghost | [ b ] -> b | b :: bs -> let _loc = loc_of_rec_binding b in Ast . RbSem ( _loc , b , ( rbSem_of_list bs ) ) let rec wcAnd_of_list = function | [ ] -> Ast . WcNil ghost | [ w ] -> w | w :: ws -> let _loc = loc_of_with_constr w in Ast . WcAnd ( _loc , w , ( wcAnd_of_list ws ) ) let rec idAcc_of_list = function | [ ] -> assert false | [ i ] -> i | i :: is -> let _loc = loc_of_ident i in Ast . IdAcc ( _loc , i , ( idAcc_of_list is ) ) let rec idApp_of_list = function | [ ] -> assert false | [ i ] -> i | i :: is -> let _loc = loc_of_ident i in Ast . IdApp ( _loc , i , ( idApp_of_list is ) ) let rec mcOr_of_list = function | [ ] -> Ast . McNil ghost | [ x ] -> x | x :: xs -> let _loc = loc_of_match_case x in Ast . McOr ( _loc , x , ( mcOr_of_list xs ) ) let rec mbAnd_of_list = function | [ ] -> Ast . MbNil ghost | [ x ] -> x | x :: xs -> let _loc = loc_of_module_binding x in Ast . MbAnd ( _loc , x , ( mbAnd_of_list xs ) ) let rec meApp_of_list = function | [ ] -> assert false | [ x ] -> x | x :: xs -> let _loc = loc_of_module_expr x in Ast . MeApp ( _loc , x , ( meApp_of_list xs ) ) let rec ceAnd_of_list = function | [ ] -> Ast . CeNil ghost | [ x ] -> x | x :: xs -> let _loc = loc_of_class_expr x in Ast . CeAnd ( _loc , x , ( ceAnd_of_list xs ) ) let rec ctAnd_of_list = function | [ ] -> Ast . CtNil ghost | [ x ] -> x | x :: xs -> let _loc = loc_of_class_type x in Ast . CtAnd ( _loc , x , ( ctAnd_of_list xs ) ) let rec cgSem_of_list = function | [ ] -> Ast . CgNil ghost | [ x ] -> x | x :: xs -> let _loc = loc_of_class_sig_item x in Ast . CgSem ( _loc , x , ( cgSem_of_list xs ) ) let rec crSem_of_list = function | [ ] -> Ast . CrNil ghost | [ x ] -> x | x :: xs -> let _loc = loc_of_class_str_item x in Ast . CrSem ( _loc , x , ( crSem_of_list xs ) ) let rec paSem_of_list = function | [ ] -> Ast . PaNil ghost | [ x ] -> x | x :: xs -> let _loc = loc_of_patt x in Ast . PaSem ( _loc , x , ( paSem_of_list xs ) ) let rec paCom_of_list = function | [ ] -> Ast . PaNil ghost | [ x ] -> x | x :: xs -> let _loc = loc_of_patt x in Ast . PaCom ( _loc , x , ( paCom_of_list xs ) ) let rec exSem_of_list = function | [ ] -> Ast . ExNil ghost | [ x ] -> x | x :: xs -> let _loc = loc_of_expr x in Ast . ExSem ( _loc , x , ( exSem_of_list xs ) ) let rec exCom_of_list = function | [ ] -> Ast . ExNil ghost | [ x ] -> x | x :: xs -> let _loc = loc_of_expr x in Ast . ExCom ( _loc , x , ( exCom_of_list xs ) ) let ty_of_stl = function | ( _loc , s , [ ] ) -> Ast . TyId ( _loc , ( Ast . IdUid ( _loc , s ) ) ) | ( _loc , s , tl ) -> Ast . TyOf ( _loc , ( Ast . TyId ( _loc , ( Ast . IdUid ( _loc , s ) ) ) ) , ( tyAnd_of_list tl ) ) let ty_of_sbt = function | ( _loc , s , true , t ) -> Ast . TyCol ( _loc , ( Ast . TyId ( _loc , ( Ast . IdLid ( _loc , s ) ) ) ) , ( Ast . TyMut ( _loc , t ) ) ) | ( _loc , s , false , t ) -> Ast . TyCol ( _loc , ( Ast . TyId ( _loc , ( Ast . IdLid ( _loc , s ) ) ) ) , t ) let bi_of_pe ( p , e ) = let _loc = loc_of_patt p in Ast . BiEq ( _loc , p , e ) let sum_type_of_list l = tyOr_of_list ( List . map ty_of_stl l ) let record_type_of_list l = tySem_of_list ( List . map ty_of_sbt l ) let binding_of_pel l = biAnd_of_list ( List . map bi_of_pe l ) let rec pel_of_binding = function | Ast . BiAnd ( _ , b1 , b2 ) -> ( pel_of_binding b1 ) @ ( pel_of_binding b2 ) | Ast . BiEq ( _ , p , e ) -> [ ( p , e ) ] | _ -> assert false let rec list_of_binding x acc = match x with | Ast . BiAnd ( _ , b1 , b2 ) -> list_of_binding b1 ( list_of_binding b2 acc ) | t -> t :: acc let rec list_of_rec_binding x acc = match x with | Ast . RbSem ( _ , b1 , b2 ) -> list_of_rec_binding b1 ( list_of_rec_binding b2 acc ) | t -> t :: acc let rec list_of_with_constr x acc = match x with | Ast . WcAnd ( _ , w1 , w2 ) -> list_of_with_constr w1 ( list_of_with_constr w2 acc ) | t -> t :: acc let rec list_of_ctyp x acc = match x with | Ast . TyNil _ -> acc | Ast . TyAmp ( _ , x , y ) | Ast . TyCom ( _ , x , y ) | Ast . TySta ( _ , x , y ) | Ast . TySem ( _ , x , y ) | Ast . TyAnd ( _ , x , y ) | Ast . TyOr ( _ , x , y ) -> list_of_ctyp x ( list_of_ctyp y acc ) | x -> x :: acc let rec list_of_patt x acc = match x with | Ast . PaNil _ -> acc | Ast . PaCom ( _ , x , y ) | Ast . PaSem ( _ , x , y ) -> list_of_patt x ( list_of_patt y acc ) | x -> x :: acc let rec list_of_expr x acc = match x with | Ast . ExNil _ -> acc | Ast . ExCom ( _ , x , y ) | Ast . ExSem ( _ , x , y ) -> list_of_expr x ( list_of_expr y acc ) | x -> x :: acc let rec list_of_str_item x acc = match x with | Ast . StNil _ -> acc | Ast . StSem ( _ , x , y ) -> list_of_str_item x ( list_of_str_item y acc ) | x -> x :: acc let rec list_of_sig_item x acc = match x with | Ast . SgNil _ -> acc | Ast . SgSem ( _ , x , y ) -> list_of_sig_item x ( list_of_sig_item y acc ) | x -> x :: acc let rec list_of_class_sig_item x acc = match x with | Ast . CgNil _ -> acc | Ast . CgSem ( _ , x , y ) -> list_of_class_sig_item x ( list_of_class_sig_item y acc ) | x -> x :: acc let rec list_of_class_str_item x acc = match x with | Ast . CrNil _ -> acc | Ast . CrSem ( _ , x , y ) -> list_of_class_str_item x ( list_of_class_str_item y acc ) | x -> x :: acc let rec list_of_class_type x acc = match x with | Ast . CtAnd ( _ , x , y ) -> list_of_class_type x ( list_of_class_type y acc ) | x -> x :: acc let rec list_of_class_expr x acc = match x with | Ast . CeAnd ( _ , x , y ) -> list_of_class_expr x ( list_of_class_expr y acc ) | x -> x :: acc let rec list_of_module_expr x acc = match x with | Ast . MeApp ( _ , x , y ) -> list_of_module_expr x ( list_of_module_expr y acc ) | x -> x :: acc let rec list_of_match_case x acc = match x with | Ast . McNil _ -> acc | Ast . McOr ( _ , x , y ) -> list_of_match_case x ( list_of_match_case y acc ) | x -> x :: acc let rec list_of_ident x acc = match x with | Ast . IdAcc ( _ , x , y ) | Ast . IdApp ( _ , x , y ) -> list_of_ident x ( list_of_ident y acc ) | x -> x :: acc let rec list_of_module_binding x acc = match x with | Ast . MbAnd ( _ , x , y ) -> list_of_module_binding x ( list_of_module_binding y acc ) | x -> x :: acc module Meta = struct module type META_LOC = sig val meta_loc_patt : Loc . t -> Loc . t -> Ast . patt val meta_loc_expr : Loc . t -> Loc . t -> Ast . expr end module MetaLoc = struct let meta_loc_patt _loc location = let ( a , b , c , d , e , f , g , h ) = Loc . to_tuple location in Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Loc " ) ) , ( Ast . IdLid ( _loc , " of_tuple " ) ) ) ) ) ) , ( Ast . PaTup ( _loc , ( Ast . PaCom ( _loc , ( Ast . PaStr ( _loc , ( Ast . safe_string_escaped a ) ) ) , ( Ast . PaCom ( _loc , ( Ast . PaCom ( _loc , ( Ast . PaCom ( _loc , ( Ast . PaCom ( _loc , ( Ast . PaCom ( _loc , ( Ast . PaCom ( _loc , ( Ast . PaInt ( _loc , ( string_of_int b ) ) ) , ( Ast . PaInt ( _loc , ( string_of_int c ) ) ) ) ) , ( Ast . PaInt ( _loc , ( string_of_int d ) ) ) ) ) , ( Ast . PaInt ( _loc , ( string_of_int e ) ) ) ) ) , ( Ast . PaInt ( _loc , ( string_of_int f ) ) ) ) ) , ( Ast . PaInt ( _loc , ( string_of_int g ) ) ) ) ) , ( if h then Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " True " ) ) ) else Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " False " ) ) ) ) ) ) ) ) ) ) ) let meta_loc_expr _loc location = let ( a , b , c , d , e , f , g , h ) = Loc . to_tuple location in Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Loc " ) ) , ( Ast . IdLid ( _loc , " of_tuple " ) ) ) ) ) ) , ( Ast . ExTup ( _loc , ( Ast . ExCom ( _loc , ( Ast . ExStr ( _loc , ( Ast . safe_string_escaped a ) ) ) , ( Ast . ExCom ( _loc , ( Ast . ExCom ( _loc , ( Ast . ExCom ( _loc , ( Ast . ExCom ( _loc , ( Ast . ExCom ( _loc , ( Ast . ExCom ( _loc , ( Ast . ExInt ( _loc , ( string_of_int b ) ) ) , ( Ast . ExInt ( _loc , ( string_of_int c ) ) ) ) ) , ( Ast . ExInt ( _loc , ( string_of_int d ) ) ) ) ) , ( Ast . ExInt ( _loc , ( string_of_int e ) ) ) ) ) , ( Ast . ExInt ( _loc , ( string_of_int f ) ) ) ) ) , ( Ast . ExInt ( _loc , ( string_of_int g ) ) ) ) ) , ( if h then Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " True " ) ) ) else Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " False " ) ) ) ) ) ) ) ) ) ) ) end module MetaGhostLoc = struct let meta_loc_patt _loc _ = Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Loc " ) ) , ( Ast . IdLid ( _loc , " ghost " ) ) ) ) ) let meta_loc_expr _loc _ = Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Loc " ) ) , ( Ast . IdLid ( _loc , " ghost " ) ) ) ) ) end module MetaLocVar = struct let meta_loc_patt _loc _ = Ast . PaId ( _loc , ( Ast . IdLid ( _loc , ! Loc . name ) ) ) let meta_loc_expr _loc _ = Ast . ExId ( _loc , ( Ast . IdLid ( _loc , ! Loc . name ) ) ) end module Make ( MetaLoc : META_LOC ) = struct open MetaLoc let meta_loc = meta_loc_expr module Expr = struct let meta_string _loc s = Ast . ExStr ( _loc , s ) let meta_int _loc s = Ast . ExInt ( _loc , s ) let meta_float _loc s = Ast . ExFlo ( _loc , s ) let meta_char _loc s = Ast . ExChr ( _loc , s ) let meta_bool _loc = function | false -> Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " False " ) ) ) | true -> Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " True " ) ) ) let rec meta_list mf_a _loc = function | [ ] -> Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) | x :: xs -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: ( mf_a _loc x ) ) ) , ( meta_list mf_a _loc xs ) ) let rec meta_binding _loc = function | Ast . BiAnt ( x0 , x1 ) -> Ast . ExAnt ( x0 , x1 ) | Ast . BiEq ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " BiEq " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . BiAnd ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " BiAnd " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_binding _loc x1 ) ) ) , ( meta_binding _loc x2 ) ) | Ast . BiNil x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " BiNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_class_expr _loc = function | Ast . CeAnt ( x0 , x1 ) -> Ast . ExAnt ( x0 , x1 ) | Ast . CeEq ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeEq " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_expr _loc x1 ) ) ) , ( meta_class_expr _loc x2 ) ) | Ast . CeAnd ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeAnd " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_expr _loc x1 ) ) ) , ( meta_class_expr _loc x2 ) ) | Ast . CeTyc ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeTyc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_expr _loc x1 ) ) ) , ( meta_class_type _loc x2 ) ) | Ast . CeStr ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeStr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_class_str_item _loc x2 ) ) | Ast . CeLet ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeLet " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_rec_flag _loc x1 ) ) ) , ( meta_binding _loc x2 ) ) ) , ( meta_class_expr _loc x3 ) ) | Ast . CeFun ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeFun " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_class_expr _loc x2 ) ) | Ast . CeCon ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeCon " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_virtual_flag _loc x1 ) ) ) , ( meta_ident _loc x2 ) ) ) , ( meta_ctyp _loc x3 ) ) | Ast . CeApp ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeApp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . CeNil x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_class_sig_item _loc = function | Ast . CgAnt ( x0 , x1 ) -> Ast . ExAnt ( x0 , x1 ) | Ast . CgVir ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CgVir " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_private_flag _loc x2 ) ) ) , ( meta_ctyp _loc x3 ) ) | Ast . CgVal ( x0 , x1 , x2 , x3 , x4 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CgVal " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_mutable_flag _loc x2 ) ) ) , ( meta_virtual_flag _loc x3 ) ) ) , ( meta_ctyp _loc x4 ) ) | Ast . CgMth ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CgMth " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_private_flag _loc x2 ) ) ) , ( meta_ctyp _loc x3 ) ) | Ast . CgInh ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CgInh " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_type _loc x1 ) ) | Ast . CgSem ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CgSem " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_sig_item _loc x1 ) ) ) , ( meta_class_sig_item _loc x2 ) ) | Ast . CgCtr ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CgCtr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . CgNil x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CgNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_class_str_item _loc = function | Ast . CrAnt ( x0 , x1 ) -> Ast . ExAnt ( x0 , x1 ) | Ast . CrVvr ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrVvr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_mutable_flag _loc x2 ) ) ) , ( meta_ctyp _loc x3 ) ) | Ast . CrVir ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrVir " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_private_flag _loc x2 ) ) ) , ( meta_ctyp _loc x3 ) ) | Ast . CrVal ( x0 , x1 , x2 , x3 , x4 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrVal " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_override_flag _loc x2 ) ) ) , ( meta_mutable_flag _loc x3 ) ) ) , ( meta_expr _loc x4 ) ) | Ast . CrMth ( x0 , x1 , x2 , x3 , x4 , x5 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrMth " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_override_flag _loc x2 ) ) ) , ( meta_private_flag _loc x3 ) ) ) , ( meta_expr _loc x4 ) ) ) , ( meta_ctyp _loc x5 ) ) | Ast . CrIni ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrIni " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) | Ast . CrInh ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrInh " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_override_flag _loc x1 ) ) ) , ( meta_class_expr _loc x2 ) ) ) , ( meta_string _loc x3 ) ) | Ast . CrCtr ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrCtr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . CrSem ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrSem " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_str_item _loc x1 ) ) ) , ( meta_class_str_item _loc x2 ) ) | Ast . CrNil x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_class_type _loc = function | Ast . CtAnt ( x0 , x1 ) -> Ast . ExAnt ( x0 , x1 ) | Ast . CtEq ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CtEq " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_type _loc x1 ) ) ) , ( meta_class_type _loc x2 ) ) | Ast . CtCol ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CtCol " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_type _loc x1 ) ) ) , ( meta_class_type _loc x2 ) ) | Ast . CtAnd ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CtAnd " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_type _loc x1 ) ) ) , ( meta_class_type _loc x2 ) ) | Ast . CtSig ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CtSig " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_class_sig_item _loc x2 ) ) | Ast . CtFun ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CtFun " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_class_type _loc x2 ) ) | Ast . CtCon ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CtCon " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_virtual_flag _loc x1 ) ) ) , ( meta_ident _loc x2 ) ) ) , ( meta_ctyp _loc x3 ) ) | Ast . CtNil x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CtNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_ctyp _loc = function | Ast . TyAnt ( x0 , x1 ) -> Ast . ExAnt ( x0 , x1 ) | Ast . TyPkg ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyPkg " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_type _loc x1 ) ) | Ast . TyOfAmp ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyOfAmp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyAmp ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyAmp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyVrnInfSup ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyVrnInfSup " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyVrnInf ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyVrnInf " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . TyVrnSup ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyVrnSup " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . TyVrnEq ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyVrnEq " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . TySta ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TySta " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyTup ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyTup " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . TyMut ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyMut " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . TyPrv ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyPrv " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . TyOr ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyOr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyAnd ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyAnd " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyOf ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyOf " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TySum ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TySum " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . TyCom ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyCom " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TySem ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TySem " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyCol ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyCol " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyRec ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyRec " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . TyVrn ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyVrn " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . TyQuM ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyQuM " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . TyQuP ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyQuP " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . TyQuo ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyQuo " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . TyPol ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyPol " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyOlb ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyOlb " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyObj ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyObj " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_row_var_flag _loc x2 ) ) | Ast . TyDcl ( x0 , x1 , x2 , x3 , x4 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyDcl " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_list meta_ctyp _loc x2 ) ) ) , ( meta_ctyp _loc x3 ) ) ) , ( meta_list ( fun _loc ( x1 , x2 ) -> Ast . ExTup ( _loc , ( Ast . ExCom ( _loc , ( meta_ctyp _loc x1 ) , ( meta_ctyp _loc x2 ) ) ) ) ) _loc x4 ) ) | Ast . TyMan ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyMan " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyId ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyId " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . TyLab ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyLab " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyCls ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyCls " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . TyArr ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyArr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyApp ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyApp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyAny x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyAny " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) | Ast . TyAli ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyAli " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyNil x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_direction_flag _loc = function | Ast . DiAnt x0 -> Ast . ExAnt ( _loc , x0 ) | Ast . DiDownto -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " DiDownto " ) ) ) ) ) | Ast . DiTo -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " DiTo " ) ) ) ) ) and meta_expr _loc = function | Ast . ExPkg ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExPkg " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_expr _loc x1 ) ) | Ast . ExFUN ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExFUN " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExOpI ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExOpI " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExWhi ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExWhi " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExVrn ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExVrn " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . ExTyc ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExTyc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . ExCom ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExCom " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExTup ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExTup " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) | Ast . ExTry ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExTry " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_match_case _loc x2 ) ) | Ast . ExStr ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExStr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . ExSte ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExSte " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExSnd ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExSnd " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_string _loc x2 ) ) | Ast . ExSeq ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExSeq " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) | Ast . ExRec ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExRec " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_rec_binding _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExOvr ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExOvr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_rec_binding _loc x1 ) ) | Ast . ExOlb ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExOlb " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExObj ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExObj " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_class_str_item _loc x2 ) ) | Ast . ExNew ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExNew " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . ExMat ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExMat " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_match_case _loc x2 ) ) | Ast . ExLmd ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExLmd " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_expr _loc x2 ) ) ) , ( meta_expr _loc x3 ) ) | Ast . ExLet ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExLet " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_rec_flag _loc x1 ) ) ) , ( meta_binding _loc x2 ) ) ) , ( meta_expr _loc x3 ) ) | Ast . ExLaz ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExLaz " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) | Ast . ExLab ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExLab " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExNativeInt ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExNativeInt " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . ExInt64 ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExInt64 " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . ExInt32 ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExInt32 " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . ExInt ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExInt " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . ExIfe ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExIfe " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) ) , ( meta_expr _loc x3 ) ) | Ast . ExFun ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExFun " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_match_case _loc x1 ) ) | Ast . ExFor ( x0 , x1 , x2 , x3 , x4 , x5 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExFor " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) ) , ( meta_expr _loc x3 ) ) ) , ( meta_direction_flag _loc x4 ) ) ) , ( meta_expr _loc x5 ) ) | Ast . ExFlo ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExFlo " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . ExCoe ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExCoe " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) ) , ( meta_ctyp _loc x3 ) ) | Ast . ExChr ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExChr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . ExAss ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExAss " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExAsr ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExAsr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) | Ast . ExAsf x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExAsf " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) | Ast . ExSem ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExSem " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExArr ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExArr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) | Ast . ExAre ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExAre " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExApp ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExApp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExAnt ( x0 , x1 ) -> Ast . ExAnt ( x0 , x1 ) | Ast . ExAcc ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExAcc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExId ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExId " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . ExNil x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_ident _loc = function | Ast . IdAnt ( x0 , x1 ) -> Ast . ExAnt ( x0 , x1 ) | Ast . IdUid ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " IdUid " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . IdLid ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " IdLid " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . IdApp ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " IdApp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) ) , ( meta_ident _loc x2 ) ) | Ast . IdAcc ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " IdAcc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) ) , ( meta_ident _loc x2 ) ) and meta_match_case _loc = function | Ast . McAnt ( x0 , x1 ) -> Ast . ExAnt ( x0 , x1 ) | Ast . McArr ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " McArr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) ) , ( meta_expr _loc x3 ) ) | Ast . McOr ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " McOr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_match_case _loc x1 ) ) ) , ( meta_match_case _loc x2 ) ) | Ast . McNil x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " McNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_meta_bool _loc = function | Ast . BAnt x0 -> Ast . ExAnt ( _loc , x0 ) | Ast . BFalse -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " BFalse " ) ) ) ) ) | Ast . BTrue -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " BTrue " ) ) ) ) ) and meta_meta_list mf_a _loc = function | Ast . LAnt x0 -> Ast . ExAnt ( _loc , x0 ) | Ast . LCons ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " LCons " ) ) ) ) ) ) , ( mf_a _loc x0 ) ) ) , ( meta_meta_list mf_a _loc x1 ) ) | Ast . LNil -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " LNil " ) ) ) ) ) and meta_meta_option mf_a _loc = function | Ast . OAnt x0 -> Ast . ExAnt ( _loc , x0 ) | Ast . OSome x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " OSome " ) ) ) ) ) ) , ( mf_a _loc x0 ) ) | Ast . ONone -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ONone " ) ) ) ) ) and meta_module_binding _loc = function | Ast . MbAnt ( x0 , x1 ) -> Ast . ExAnt ( x0 , x1 ) | Ast . MbCol ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MbCol " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_type _loc x2 ) ) | Ast . MbColEq ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MbColEq " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_type _loc x2 ) ) ) , ( meta_module_expr _loc x3 ) ) | Ast . MbAnd ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MbAnd " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_binding _loc x1 ) ) ) , ( meta_module_binding _loc x2 ) ) | Ast . MbNil x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MbNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_module_expr _loc = function | Ast . MeAnt ( x0 , x1 ) -> Ast . ExAnt ( x0 , x1 ) | Ast . MePkg ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MePkg " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) | Ast . MeTyc ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MeTyc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_expr _loc x1 ) ) ) , ( meta_module_type _loc x2 ) ) | Ast . MeStr ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MeStr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_str_item _loc x1 ) ) | Ast . MeFun ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MeFun " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_type _loc x2 ) ) ) , ( meta_module_expr _loc x3 ) ) | Ast . MeApp ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MeApp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_expr _loc x1 ) ) ) , ( meta_module_expr _loc x2 ) ) | Ast . MeId ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MeId " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . MeNil x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MeNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_module_type _loc = function | Ast . MtAnt ( x0 , x1 ) -> Ast . ExAnt ( x0 , x1 ) | Ast . MtOf ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MtOf " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_expr _loc x1 ) ) | Ast . MtWit ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MtWit " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_type _loc x1 ) ) ) , ( meta_with_constr _loc x2 ) ) | Ast . MtSig ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MtSig " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_sig_item _loc x1 ) ) | Ast . MtQuo ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MtQuo " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . MtFun ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MtFun " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_type _loc x2 ) ) ) , ( meta_module_type _loc x3 ) ) | Ast . MtId ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MtId " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . MtNil x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MtNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_mutable_flag _loc = function | Ast . MuAnt x0 -> Ast . ExAnt ( _loc , x0 ) | Ast . MuNil -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MuNil " ) ) ) ) ) | Ast . MuMutable -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MuMutable " ) ) ) ) ) and meta_override_flag _loc = function | Ast . OvAnt x0 -> Ast . ExAnt ( _loc , x0 ) | Ast . OvNil -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " OvNil " ) ) ) ) ) | Ast . OvOverride -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " OvOverride " ) ) ) ) ) and meta_patt _loc = function | Ast . PaLaz ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaLaz " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) | Ast . PaVrn ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaVrn " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . PaTyp ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaTyp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . PaTyc ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaTyc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . PaTup ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaTup " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) | Ast . PaStr ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaStr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . PaEq ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaEq " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaRec ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaRec " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) | Ast . PaRng ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaRng " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaOrp ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaOrp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaOlbi ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaOlbi " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) ) , ( meta_expr _loc x3 ) ) | Ast . PaOlb ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaOlb " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaLab ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaLab " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaFlo ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaFlo " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . PaNativeInt ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaNativeInt " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . PaInt64 ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaInt64 " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . PaInt32 ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaInt32 " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . PaInt ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaInt " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . PaChr ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaChr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . PaSem ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaSem " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaCom ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaCom " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaArr ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaArr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) | Ast . PaApp ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaApp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaAny x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaAny " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) | Ast . PaAnt ( x0 , x1 ) -> Ast . ExAnt ( x0 , x1 ) | Ast . PaAli ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaAli " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaId ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaId " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . PaNil x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_private_flag _loc = function | Ast . PrAnt x0 -> Ast . ExAnt ( _loc , x0 ) | Ast . PrNil -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PrNil " ) ) ) ) ) | Ast . PrPrivate -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PrPrivate " ) ) ) ) ) and meta_rec_binding _loc = function | Ast . RbAnt ( x0 , x1 ) -> Ast . ExAnt ( x0 , x1 ) | Ast . RbEq ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " RbEq " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . RbSem ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " RbSem " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_rec_binding _loc x1 ) ) ) , ( meta_rec_binding _loc x2 ) ) | Ast . RbNil x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " RbNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_rec_flag _loc = function | Ast . ReAnt x0 -> Ast . ExAnt ( _loc , x0 ) | Ast . ReNil -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ReNil " ) ) ) ) ) | Ast . ReRecursive -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ReRecursive " ) ) ) ) ) and meta_row_var_flag _loc = function | Ast . RvAnt x0 -> Ast . ExAnt ( _loc , x0 ) | Ast . RvNil -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " RvNil " ) ) ) ) ) | Ast . RvRowVar -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " RvRowVar " ) ) ) ) ) and meta_sig_item _loc = function | Ast . SgAnt ( x0 , x1 ) -> Ast . ExAnt ( x0 , x1 ) | Ast . SgVal ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgVal " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . SgTyp ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgTyp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . SgOpn ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgOpn " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . SgMty ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgMty " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_type _loc x2 ) ) | Ast . SgRecMod ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgRecMod " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_binding _loc x1 ) ) | Ast . SgMod ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgMod " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_type _loc x2 ) ) | Ast . SgInc ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgInc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_type _loc x1 ) ) | Ast . SgExt ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgExt " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) ) , ( meta_meta_list meta_string _loc x3 ) ) | Ast . SgExc ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgExc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . SgDir ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgDir " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . SgSem ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgSem " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_sig_item _loc x1 ) ) ) , ( meta_sig_item _loc x2 ) ) | Ast . SgClt ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgClt " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_type _loc x1 ) ) | Ast . SgCls ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgCls " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_type _loc x1 ) ) | Ast . SgNil x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_str_item _loc = function | Ast . StAnt ( x0 , x1 ) -> Ast . ExAnt ( x0 , x1 ) | Ast . StVal ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StVal " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_rec_flag _loc x1 ) ) ) , ( meta_binding _loc x2 ) ) | Ast . StTyp ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StTyp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . StOpn ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StOpn " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . StMty ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StMty " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_type _loc x2 ) ) | Ast . StRecMod ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StRecMod " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_binding _loc x1 ) ) | Ast . StMod ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StMod " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_expr _loc x2 ) ) | Ast . StInc ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StInc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_expr _loc x1 ) ) | Ast . StExt ( x0 , x1 , x2 , x3 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StExt " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) ) , ( meta_meta_list meta_string _loc x3 ) ) | Ast . StExp ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StExp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) | Ast . StExc ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StExc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_meta_option meta_ident _loc x2 ) ) | Ast . StDir ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StDir " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . StSem ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StSem " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_str_item _loc x1 ) ) ) , ( meta_str_item _loc x2 ) ) | Ast . StClt ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StClt " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_type _loc x1 ) ) | Ast . StCls ( x0 , x1 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StCls " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_expr _loc x1 ) ) | Ast . StNil x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_virtual_flag _loc = function | Ast . ViAnt x0 -> Ast . ExAnt ( _loc , x0 ) | Ast . ViNil -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ViNil " ) ) ) ) ) | Ast . ViVirtual -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ViVirtual " ) ) ) ) ) and meta_with_constr _loc = function | Ast . WcAnt ( x0 , x1 ) -> Ast . ExAnt ( x0 , x1 ) | Ast . WcAnd ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " WcAnd " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_with_constr _loc x1 ) ) ) , ( meta_with_constr _loc x2 ) ) | Ast . WcMoS ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " WcMoS " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) ) , ( meta_ident _loc x2 ) ) | Ast . WcTyS ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " WcTyS " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . WcMod ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " WcMod " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) ) , ( meta_ident _loc x2 ) ) | Ast . WcTyp ( x0 , x1 , x2 ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " WcTyp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . WcNil x0 -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " WcNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) end let meta_loc = meta_loc_patt module Patt = struct let meta_string _loc s = Ast . PaStr ( _loc , s ) let meta_int _loc s = Ast . PaInt ( _loc , s ) let meta_float _loc s = Ast . PaFlo ( _loc , s ) let meta_char _loc s = Ast . PaChr ( _loc , s ) let meta_bool _loc = function | false -> Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " False " ) ) ) | true -> Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " True " ) ) ) let rec meta_list mf_a _loc = function | [ ] -> Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) | x :: xs -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: ( mf_a _loc x ) ) ) , ( meta_list mf_a _loc xs ) ) let rec meta_binding _loc = function | Ast . BiAnt ( x0 , x1 ) -> Ast . PaAnt ( x0 , x1 ) | Ast . BiEq ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " BiEq " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . BiAnd ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " BiAnd " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_binding _loc x1 ) ) ) , ( meta_binding _loc x2 ) ) | Ast . BiNil x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " BiNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_class_expr _loc = function | Ast . CeAnt ( x0 , x1 ) -> Ast . PaAnt ( x0 , x1 ) | Ast . CeEq ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeEq " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_expr _loc x1 ) ) ) , ( meta_class_expr _loc x2 ) ) | Ast . CeAnd ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeAnd " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_expr _loc x1 ) ) ) , ( meta_class_expr _loc x2 ) ) | Ast . CeTyc ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeTyc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_expr _loc x1 ) ) ) , ( meta_class_type _loc x2 ) ) | Ast . CeStr ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeStr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_class_str_item _loc x2 ) ) | Ast . CeLet ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeLet " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_rec_flag _loc x1 ) ) ) , ( meta_binding _loc x2 ) ) ) , ( meta_class_expr _loc x3 ) ) | Ast . CeFun ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeFun " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_class_expr _loc x2 ) ) | Ast . CeCon ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeCon " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_virtual_flag _loc x1 ) ) ) , ( meta_ident _loc x2 ) ) ) , ( meta_ctyp _loc x3 ) ) | Ast . CeApp ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeApp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . CeNil x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_class_sig_item _loc = function | Ast . CgAnt ( x0 , x1 ) -> Ast . PaAnt ( x0 , x1 ) | Ast . CgVir ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CgVir " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_private_flag _loc x2 ) ) ) , ( meta_ctyp _loc x3 ) ) | Ast . CgVal ( x0 , x1 , x2 , x3 , x4 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CgVal " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_mutable_flag _loc x2 ) ) ) , ( meta_virtual_flag _loc x3 ) ) ) , ( meta_ctyp _loc x4 ) ) | Ast . CgMth ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CgMth " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_private_flag _loc x2 ) ) ) , ( meta_ctyp _loc x3 ) ) | Ast . CgInh ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CgInh " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_type _loc x1 ) ) | Ast . CgSem ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CgSem " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_sig_item _loc x1 ) ) ) , ( meta_class_sig_item _loc x2 ) ) | Ast . CgCtr ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CgCtr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . CgNil x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CgNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_class_str_item _loc = function | Ast . CrAnt ( x0 , x1 ) -> Ast . PaAnt ( x0 , x1 ) | Ast . CrVvr ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrVvr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_mutable_flag _loc x2 ) ) ) , ( meta_ctyp _loc x3 ) ) | Ast . CrVir ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrVir " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_private_flag _loc x2 ) ) ) , ( meta_ctyp _loc x3 ) ) | Ast . CrVal ( x0 , x1 , x2 , x3 , x4 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrVal " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_override_flag _loc x2 ) ) ) , ( meta_mutable_flag _loc x3 ) ) ) , ( meta_expr _loc x4 ) ) | Ast . CrMth ( x0 , x1 , x2 , x3 , x4 , x5 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrMth " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_override_flag _loc x2 ) ) ) , ( meta_private_flag _loc x3 ) ) ) , ( meta_expr _loc x4 ) ) ) , ( meta_ctyp _loc x5 ) ) | Ast . CrIni ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrIni " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) | Ast . CrInh ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrInh " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_override_flag _loc x1 ) ) ) , ( meta_class_expr _loc x2 ) ) ) , ( meta_string _loc x3 ) ) | Ast . CrCtr ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrCtr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . CrSem ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrSem " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_str_item _loc x1 ) ) ) , ( meta_class_str_item _loc x2 ) ) | Ast . CrNil x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_class_type _loc = function | Ast . CtAnt ( x0 , x1 ) -> Ast . PaAnt ( x0 , x1 ) | Ast . CtEq ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CtEq " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_type _loc x1 ) ) ) , ( meta_class_type _loc x2 ) ) | Ast . CtCol ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CtCol " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_type _loc x1 ) ) ) , ( meta_class_type _loc x2 ) ) | Ast . CtAnd ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CtAnd " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_type _loc x1 ) ) ) , ( meta_class_type _loc x2 ) ) | Ast . CtSig ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CtSig " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_class_sig_item _loc x2 ) ) | Ast . CtFun ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CtFun " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_class_type _loc x2 ) ) | Ast . CtCon ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CtCon " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_virtual_flag _loc x1 ) ) ) , ( meta_ident _loc x2 ) ) ) , ( meta_ctyp _loc x3 ) ) | Ast . CtNil x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CtNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_ctyp _loc = function | Ast . TyAnt ( x0 , x1 ) -> Ast . PaAnt ( x0 , x1 ) | Ast . TyPkg ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyPkg " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_type _loc x1 ) ) | Ast . TyOfAmp ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyOfAmp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyAmp ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyAmp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyVrnInfSup ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyVrnInfSup " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyVrnInf ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyVrnInf " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . TyVrnSup ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyVrnSup " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . TyVrnEq ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyVrnEq " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . TySta ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TySta " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyTup ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyTup " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . TyMut ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyMut " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . TyPrv ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyPrv " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . TyOr ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyOr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyAnd ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyAnd " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyOf ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyOf " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TySum ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TySum " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . TyCom ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyCom " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TySem ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TySem " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyCol ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyCol " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyRec ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyRec " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . TyVrn ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyVrn " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . TyQuM ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyQuM " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . TyQuP ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyQuP " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . TyQuo ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyQuo " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . TyPol ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyPol " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyOlb ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyOlb " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyObj ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyObj " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_row_var_flag _loc x2 ) ) | Ast . TyDcl ( x0 , x1 , x2 , x3 , x4 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyDcl " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_list meta_ctyp _loc x2 ) ) ) , ( meta_ctyp _loc x3 ) ) ) , ( meta_list ( fun _loc ( x1 , x2 ) -> Ast . PaTup ( _loc , ( Ast . PaCom ( _loc , ( meta_ctyp _loc x1 ) , ( meta_ctyp _loc x2 ) ) ) ) ) _loc x4 ) ) | Ast . TyMan ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyMan " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyId ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyId " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . TyLab ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyLab " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyCls ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyCls " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . TyArr ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyArr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyApp ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyApp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyAny x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyAny " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) | Ast . TyAli ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyAli " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . TyNil x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_direction_flag _loc = function | Ast . DiAnt x0 -> Ast . PaAnt ( _loc , x0 ) | Ast . DiDownto -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " DiDownto " ) ) ) ) ) | Ast . DiTo -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " DiTo " ) ) ) ) ) and meta_expr _loc = function | Ast . ExPkg ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExPkg " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_expr _loc x1 ) ) | Ast . ExFUN ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExFUN " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExOpI ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExOpI " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExWhi ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExWhi " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExVrn ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExVrn " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . ExTyc ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExTyc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . ExCom ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExCom " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExTup ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExTup " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) | Ast . ExTry ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExTry " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_match_case _loc x2 ) ) | Ast . ExStr ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExStr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . ExSte ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExSte " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExSnd ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExSnd " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_string _loc x2 ) ) | Ast . ExSeq ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExSeq " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) | Ast . ExRec ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExRec " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_rec_binding _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExOvr ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExOvr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_rec_binding _loc x1 ) ) | Ast . ExOlb ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExOlb " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExObj ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExObj " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_class_str_item _loc x2 ) ) | Ast . ExNew ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExNew " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . ExMat ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExMat " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_match_case _loc x2 ) ) | Ast . ExLmd ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExLmd " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_expr _loc x2 ) ) ) , ( meta_expr _loc x3 ) ) | Ast . ExLet ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExLet " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_rec_flag _loc x1 ) ) ) , ( meta_binding _loc x2 ) ) ) , ( meta_expr _loc x3 ) ) | Ast . ExLaz ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExLaz " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) | Ast . ExLab ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExLab " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExNativeInt ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExNativeInt " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . ExInt64 ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExInt64 " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . ExInt32 ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExInt32 " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . ExInt ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExInt " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . ExIfe ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExIfe " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) ) , ( meta_expr _loc x3 ) ) | Ast . ExFun ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExFun " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_match_case _loc x1 ) ) | Ast . ExFor ( x0 , x1 , x2 , x3 , x4 , x5 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExFor " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) ) , ( meta_expr _loc x3 ) ) ) , ( meta_direction_flag _loc x4 ) ) ) , ( meta_expr _loc x5 ) ) | Ast . ExFlo ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExFlo " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . ExCoe ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExCoe " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) ) , ( meta_ctyp _loc x3 ) ) | Ast . ExChr ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExChr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . ExAss ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExAss " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExAsr ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExAsr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) | Ast . ExAsf x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExAsf " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) | Ast . ExSem ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExSem " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExArr ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExArr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) | Ast . ExAre ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExAre " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExApp ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExApp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExAnt ( x0 , x1 ) -> Ast . PaAnt ( x0 , x1 ) | Ast . ExAcc ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExAcc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . ExId ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExId " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . ExNil x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_ident _loc = function | Ast . IdAnt ( x0 , x1 ) -> Ast . PaAnt ( x0 , x1 ) | Ast . IdUid ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " IdUid " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . IdLid ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " IdLid " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . IdApp ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " IdApp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) ) , ( meta_ident _loc x2 ) ) | Ast . IdAcc ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " IdAcc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) ) , ( meta_ident _loc x2 ) ) and meta_match_case _loc = function | Ast . McAnt ( x0 , x1 ) -> Ast . PaAnt ( x0 , x1 ) | Ast . McArr ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " McArr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) ) , ( meta_expr _loc x3 ) ) | Ast . McOr ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " McOr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_match_case _loc x1 ) ) ) , ( meta_match_case _loc x2 ) ) | Ast . McNil x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " McNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_meta_bool _loc = function | Ast . BAnt x0 -> Ast . PaAnt ( _loc , x0 ) | Ast . BFalse -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " BFalse " ) ) ) ) ) | Ast . BTrue -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " BTrue " ) ) ) ) ) and meta_meta_list mf_a _loc = function | Ast . LAnt x0 -> Ast . PaAnt ( _loc , x0 ) | Ast . LCons ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " LCons " ) ) ) ) ) ) , ( mf_a _loc x0 ) ) ) , ( meta_meta_list mf_a _loc x1 ) ) | Ast . LNil -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " LNil " ) ) ) ) ) and meta_meta_option mf_a _loc = function | Ast . OAnt x0 -> Ast . PaAnt ( _loc , x0 ) | Ast . OSome x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " OSome " ) ) ) ) ) ) , ( mf_a _loc x0 ) ) | Ast . ONone -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ONone " ) ) ) ) ) and meta_module_binding _loc = function | Ast . MbAnt ( x0 , x1 ) -> Ast . PaAnt ( x0 , x1 ) | Ast . MbCol ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MbCol " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_type _loc x2 ) ) | Ast . MbColEq ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MbColEq " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_type _loc x2 ) ) ) , ( meta_module_expr _loc x3 ) ) | Ast . MbAnd ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MbAnd " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_binding _loc x1 ) ) ) , ( meta_module_binding _loc x2 ) ) | Ast . MbNil x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MbNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_module_expr _loc = function | Ast . MeAnt ( x0 , x1 ) -> Ast . PaAnt ( x0 , x1 ) | Ast . MePkg ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MePkg " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) | Ast . MeTyc ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MeTyc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_expr _loc x1 ) ) ) , ( meta_module_type _loc x2 ) ) | Ast . MeStr ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MeStr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_str_item _loc x1 ) ) | Ast . MeFun ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MeFun " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_type _loc x2 ) ) ) , ( meta_module_expr _loc x3 ) ) | Ast . MeApp ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MeApp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_expr _loc x1 ) ) ) , ( meta_module_expr _loc x2 ) ) | Ast . MeId ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MeId " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . MeNil x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MeNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_module_type _loc = function | Ast . MtAnt ( x0 , x1 ) -> Ast . PaAnt ( x0 , x1 ) | Ast . MtOf ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MtOf " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_expr _loc x1 ) ) | Ast . MtWit ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MtWit " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_type _loc x1 ) ) ) , ( meta_with_constr _loc x2 ) ) | Ast . MtSig ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MtSig " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_sig_item _loc x1 ) ) | Ast . MtQuo ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MtQuo " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . MtFun ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MtFun " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_type _loc x2 ) ) ) , ( meta_module_type _loc x3 ) ) | Ast . MtId ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MtId " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . MtNil x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MtNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_mutable_flag _loc = function | Ast . MuAnt x0 -> Ast . PaAnt ( _loc , x0 ) | Ast . MuNil -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MuNil " ) ) ) ) ) | Ast . MuMutable -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MuMutable " ) ) ) ) ) and meta_override_flag _loc = function | Ast . OvAnt x0 -> Ast . PaAnt ( _loc , x0 ) | Ast . OvNil -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " OvNil " ) ) ) ) ) | Ast . OvOverride -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " OvOverride " ) ) ) ) ) and meta_patt _loc = function | Ast . PaLaz ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaLaz " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) | Ast . PaVrn ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaVrn " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . PaTyp ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaTyp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . PaTyc ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaTyc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . PaTup ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaTup " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) | Ast . PaStr ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaStr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . PaEq ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaEq " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaRec ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaRec " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) | Ast . PaRng ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaRng " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaOrp ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaOrp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaOlbi ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaOlbi " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) ) , ( meta_expr _loc x3 ) ) | Ast . PaOlb ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaOlb " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaLab ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaLab " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaFlo ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaFlo " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . PaNativeInt ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaNativeInt " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . PaInt64 ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaInt64 " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . PaInt32 ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaInt32 " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . PaInt ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaInt " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . PaChr ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaChr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) | Ast . PaSem ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaSem " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaCom ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaCom " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaArr ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaArr " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) | Ast . PaApp ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaApp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaAny x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaAny " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) | Ast . PaAnt ( x0 , x1 ) -> Ast . PaAnt ( x0 , x1 ) | Ast . PaAli ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaAli " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_patt _loc x1 ) ) ) , ( meta_patt _loc x2 ) ) | Ast . PaId ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaId " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . PaNil x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_private_flag _loc = function | Ast . PrAnt x0 -> Ast . PaAnt ( _loc , x0 ) | Ast . PrNil -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PrNil " ) ) ) ) ) | Ast . PrPrivate -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PrPrivate " ) ) ) ) ) and meta_rec_binding _loc = function | Ast . RbAnt ( x0 , x1 ) -> Ast . PaAnt ( x0 , x1 ) | Ast . RbEq ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " RbEq " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . RbSem ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " RbSem " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_rec_binding _loc x1 ) ) ) , ( meta_rec_binding _loc x2 ) ) | Ast . RbNil x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " RbNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_rec_flag _loc = function | Ast . ReAnt x0 -> Ast . PaAnt ( _loc , x0 ) | Ast . ReNil -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ReNil " ) ) ) ) ) | Ast . ReRecursive -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ReRecursive " ) ) ) ) ) and meta_row_var_flag _loc = function | Ast . RvAnt x0 -> Ast . PaAnt ( _loc , x0 ) | Ast . RvNil -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " RvNil " ) ) ) ) ) | Ast . RvRowVar -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " RvRowVar " ) ) ) ) ) and meta_sig_item _loc = function | Ast . SgAnt ( x0 , x1 ) -> Ast . PaAnt ( x0 , x1 ) | Ast . SgVal ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgVal " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . SgTyp ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgTyp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . SgOpn ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgOpn " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . SgMty ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgMty " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_type _loc x2 ) ) | Ast . SgRecMod ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgRecMod " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_binding _loc x1 ) ) | Ast . SgMod ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgMod " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_type _loc x2 ) ) | Ast . SgInc ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgInc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_type _loc x1 ) ) | Ast . SgExt ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgExt " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) ) , ( meta_meta_list meta_string _loc x3 ) ) | Ast . SgExc ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgExc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . SgDir ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgDir " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . SgSem ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgSem " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_sig_item _loc x1 ) ) ) , ( meta_sig_item _loc x2 ) ) | Ast . SgClt ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgClt " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_type _loc x1 ) ) | Ast . SgCls ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgCls " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_type _loc x1 ) ) | Ast . SgNil x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_str_item _loc = function | Ast . StAnt ( x0 , x1 ) -> Ast . PaAnt ( x0 , x1 ) | Ast . StVal ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StVal " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_rec_flag _loc x1 ) ) ) , ( meta_binding _loc x2 ) ) | Ast . StTyp ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StTyp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) | Ast . StOpn ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StOpn " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) | Ast . StMty ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StMty " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_type _loc x2 ) ) | Ast . StRecMod ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StRecMod " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_binding _loc x1 ) ) | Ast . StMod ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StMod " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_module_expr _loc x2 ) ) | Ast . StInc ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StInc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_module_expr _loc x1 ) ) | Ast . StExt ( x0 , x1 , x2 , x3 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StExt " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) ) , ( meta_meta_list meta_string _loc x3 ) ) | Ast . StExp ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StExp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_expr _loc x1 ) ) | Ast . StExc ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StExc " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_meta_option meta_ident _loc x2 ) ) | Ast . StDir ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StDir " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_string _loc x1 ) ) ) , ( meta_expr _loc x2 ) ) | Ast . StSem ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StSem " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_str_item _loc x1 ) ) ) , ( meta_str_item _loc x2 ) ) | Ast . StClt ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StClt " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_type _loc x1 ) ) | Ast . StCls ( x0 , x1 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StCls " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_class_expr _loc x1 ) ) | Ast . StNil x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) and meta_virtual_flag _loc = function | Ast . ViAnt x0 -> Ast . PaAnt ( _loc , x0 ) | Ast . ViNil -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ViNil " ) ) ) ) ) | Ast . ViVirtual -> Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ViVirtual " ) ) ) ) ) and meta_with_constr _loc = function | Ast . WcAnt ( x0 , x1 ) -> Ast . PaAnt ( x0 , x1 ) | Ast . WcAnd ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " WcAnd " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_with_constr _loc x1 ) ) ) , ( meta_with_constr _loc x2 ) ) | Ast . WcMoS ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " WcMoS " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) ) , ( meta_ident _loc x2 ) ) | Ast . WcTyS ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " WcTyS " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . WcMod ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " WcMod " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ident _loc x1 ) ) ) , ( meta_ident _loc x2 ) ) | Ast . WcTyp ( x0 , x1 , x2 ) -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " WcTyp " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) ) , ( meta_ctyp _loc x1 ) ) ) , ( meta_ctyp _loc x2 ) ) | Ast . WcNil x0 -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " WcNil " ) ) ) ) ) ) , ( meta_loc _loc x0 ) ) end end end class map = object ( ( o : ' self_type ) ) method string : string -> string = o # unknown method list : ' a ' a_out . ( ' self_type -> ' a -> ' a_out ) -> ' a list -> ' a_out list = fun _f_a -> function | [ ] -> [ ] | _x :: _x_i1 -> let _x = _f_a o _x in let _x_i1 = o # list _f_a _x_i1 in _x :: _x_i1 method with_constr : with_constr -> with_constr = function | WcNil _x -> let _x = o # loc _x in WcNil _x | WcTyp ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in WcTyp ( _x , _x_i1 , _x_i2 ) | WcMod ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in let _x_i2 = o # ident _x_i2 in WcMod ( _x , _x_i1 , _x_i2 ) | WcTyS ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in WcTyS ( _x , _x_i1 , _x_i2 ) | WcMoS ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in let _x_i2 = o # ident _x_i2 in WcMoS ( _x , _x_i1 , _x_i2 ) | WcAnd ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # with_constr _x_i1 in let _x_i2 = o # with_constr _x_i2 in WcAnd ( _x , _x_i1 , _x_i2 ) | WcAnt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in WcAnt ( _x , _x_i1 ) method virtual_flag : virtual_flag -> virtual_flag = function | ViVirtual -> ViVirtual | ViNil -> ViNil | ViAnt _x -> let _x = o # string _x in ViAnt _x method str_item : str_item -> str_item = function | StNil _x -> let _x = o # loc _x in StNil _x | StCls ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # class_expr _x_i1 in StCls ( _x , _x_i1 ) | StClt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # class_type _x_i1 in StClt ( _x , _x_i1 ) | StSem ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # str_item _x_i1 in let _x_i2 = o # str_item _x_i2 in StSem ( _x , _x_i1 , _x_i2 ) | StDir ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # expr _x_i2 in StDir ( _x , _x_i1 , _x_i2 ) | StExc ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # meta_option ( fun o -> o # ident ) _x_i2 in StExc ( _x , _x_i1 , _x_i2 ) | StExp ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in StExp ( _x , _x_i1 ) | StExt ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # ctyp _x_i2 in let _x_i3 = o # meta_list ( fun o -> o # string ) _x_i3 in StExt ( _x , _x_i1 , _x_i2 , _x_i3 ) | StInc ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # module_expr _x_i1 in StInc ( _x , _x_i1 ) | StMod ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_expr _x_i2 in StMod ( _x , _x_i1 , _x_i2 ) | StRecMod ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # module_binding _x_i1 in StRecMod ( _x , _x_i1 ) | StMty ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_type _x_i2 in StMty ( _x , _x_i1 , _x_i2 ) | StOpn ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in StOpn ( _x , _x_i1 ) | StTyp ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in StTyp ( _x , _x_i1 ) | StVal ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # rec_flag _x_i1 in let _x_i2 = o # binding _x_i2 in StVal ( _x , _x_i1 , _x_i2 ) | StAnt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in StAnt ( _x , _x_i1 ) method sig_item : sig_item -> sig_item = function | SgNil _x -> let _x = o # loc _x in SgNil _x | SgCls ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # class_type _x_i1 in SgCls ( _x , _x_i1 ) | SgClt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # class_type _x_i1 in SgClt ( _x , _x_i1 ) | SgSem ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # sig_item _x_i1 in let _x_i2 = o # sig_item _x_i2 in SgSem ( _x , _x_i1 , _x_i2 ) | SgDir ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # expr _x_i2 in SgDir ( _x , _x_i1 , _x_i2 ) | SgExc ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in SgExc ( _x , _x_i1 ) | SgExt ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # ctyp _x_i2 in let _x_i3 = o # meta_list ( fun o -> o # string ) _x_i3 in SgExt ( _x , _x_i1 , _x_i2 , _x_i3 ) | SgInc ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # module_type _x_i1 in SgInc ( _x , _x_i1 ) | SgMod ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_type _x_i2 in SgMod ( _x , _x_i1 , _x_i2 ) | SgRecMod ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # module_binding _x_i1 in SgRecMod ( _x , _x_i1 ) | SgMty ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_type _x_i2 in SgMty ( _x , _x_i1 , _x_i2 ) | SgOpn ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in SgOpn ( _x , _x_i1 ) | SgTyp ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in SgTyp ( _x , _x_i1 ) | SgVal ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # ctyp _x_i2 in SgVal ( _x , _x_i1 , _x_i2 ) | SgAnt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in SgAnt ( _x , _x_i1 ) method row_var_flag : row_var_flag -> row_var_flag = function | RvRowVar -> RvRowVar | RvNil -> RvNil | RvAnt _x -> let _x = o # string _x in RvAnt _x method rec_flag : rec_flag -> rec_flag = function | ReRecursive -> ReRecursive | ReNil -> ReNil | ReAnt _x -> let _x = o # string _x in ReAnt _x method rec_binding : rec_binding -> rec_binding = function | RbNil _x -> let _x = o # loc _x in RbNil _x | RbSem ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # rec_binding _x_i1 in let _x_i2 = o # rec_binding _x_i2 in RbSem ( _x , _x_i1 , _x_i2 ) | RbEq ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in let _x_i2 = o # expr _x_i2 in RbEq ( _x , _x_i1 , _x_i2 ) | RbAnt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in RbAnt ( _x , _x_i1 ) method private_flag : private_flag -> private_flag = function | PrPrivate -> PrPrivate | PrNil -> PrNil | PrAnt _x -> let _x = o # string _x in PrAnt _x method patt : patt -> patt = function | PaNil _x -> let _x = o # loc _x in PaNil _x | PaId ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in PaId ( _x , _x_i1 ) | PaAli ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # patt _x_i2 in PaAli ( _x , _x_i1 , _x_i2 ) | PaAnt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaAnt ( _x , _x_i1 ) | PaAny _x -> let _x = o # loc _x in PaAny _x | PaApp ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # patt _x_i2 in PaApp ( _x , _x_i1 , _x_i2 ) | PaArr ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in PaArr ( _x , _x_i1 ) | PaCom ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # patt _x_i2 in PaCom ( _x , _x_i1 , _x_i2 ) | PaSem ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # patt _x_i2 in PaSem ( _x , _x_i1 , _x_i2 ) | PaChr ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaChr ( _x , _x_i1 ) | PaInt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaInt ( _x , _x_i1 ) | PaInt32 ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaInt32 ( _x , _x_i1 ) | PaInt64 ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaInt64 ( _x , _x_i1 ) | PaNativeInt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaNativeInt ( _x , _x_i1 ) | PaFlo ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaFlo ( _x , _x_i1 ) | PaLab ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # patt _x_i2 in PaLab ( _x , _x_i1 , _x_i2 ) | PaOlb ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # patt _x_i2 in PaOlb ( _x , _x_i1 , _x_i2 ) | PaOlbi ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # patt _x_i2 in let _x_i3 = o # expr _x_i3 in PaOlbi ( _x , _x_i1 , _x_i2 , _x_i3 ) | PaOrp ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # patt _x_i2 in PaOrp ( _x , _x_i1 , _x_i2 ) | PaRng ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # patt _x_i2 in PaRng ( _x , _x_i1 , _x_i2 ) | PaRec ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in PaRec ( _x , _x_i1 ) | PaEq ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in let _x_i2 = o # patt _x_i2 in PaEq ( _x , _x_i1 , _x_i2 ) | PaStr ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaStr ( _x , _x_i1 ) | PaTup ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in PaTup ( _x , _x_i1 ) | PaTyc ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # ctyp _x_i2 in PaTyc ( _x , _x_i1 , _x_i2 ) | PaTyp ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in PaTyp ( _x , _x_i1 ) | PaVrn ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaVrn ( _x , _x_i1 ) | PaLaz ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in PaLaz ( _x , _x_i1 ) method override_flag : override_flag -> override_flag = function | OvOverride -> OvOverride | OvNil -> OvNil | OvAnt _x -> let _x = o # string _x in OvAnt _x method mutable_flag : mutable_flag -> mutable_flag = function | MuMutable -> MuMutable | MuNil -> MuNil | MuAnt _x -> let _x = o # string _x in MuAnt _x method module_type : module_type -> module_type = function | MtNil _x -> let _x = o # loc _x in MtNil _x | MtId ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in MtId ( _x , _x_i1 ) | MtFun ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_type _x_i2 in let _x_i3 = o # module_type _x_i3 in MtFun ( _x , _x_i1 , _x_i2 , _x_i3 ) | MtQuo ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in MtQuo ( _x , _x_i1 ) | MtSig ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # sig_item _x_i1 in MtSig ( _x , _x_i1 ) | MtWit ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # module_type _x_i1 in let _x_i2 = o # with_constr _x_i2 in MtWit ( _x , _x_i1 , _x_i2 ) | MtOf ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # module_expr _x_i1 in MtOf ( _x , _x_i1 ) | MtAnt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in MtAnt ( _x , _x_i1 ) method module_expr : module_expr -> module_expr = function | MeNil _x -> let _x = o # loc _x in MeNil _x | MeId ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in MeId ( _x , _x_i1 ) | MeApp ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # module_expr _x_i1 in let _x_i2 = o # module_expr _x_i2 in MeApp ( _x , _x_i1 , _x_i2 ) | MeFun ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_type _x_i2 in let _x_i3 = o # module_expr _x_i3 in MeFun ( _x , _x_i1 , _x_i2 , _x_i3 ) | MeStr ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # str_item _x_i1 in MeStr ( _x , _x_i1 ) | MeTyc ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # module_expr _x_i1 in let _x_i2 = o # module_type _x_i2 in MeTyc ( _x , _x_i1 , _x_i2 ) | MePkg ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in MePkg ( _x , _x_i1 ) | MeAnt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in MeAnt ( _x , _x_i1 ) method module_binding : module_binding -> module_binding = function | MbNil _x -> let _x = o # loc _x in MbNil _x | MbAnd ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # module_binding _x_i1 in let _x_i2 = o # module_binding _x_i2 in MbAnd ( _x , _x_i1 , _x_i2 ) | MbColEq ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_type _x_i2 in let _x_i3 = o # module_expr _x_i3 in MbColEq ( _x , _x_i1 , _x_i2 , _x_i3 ) | MbCol ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_type _x_i2 in MbCol ( _x , _x_i1 , _x_i2 ) | MbAnt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in MbAnt ( _x , _x_i1 ) method meta_option : ' a ' a_out . ( ' self_type -> ' a -> ' a_out ) -> ' a meta_option -> ' a_out meta_option = fun _f_a -> function | ONone -> ONone | OSome _x -> let _x = _f_a o _x in OSome _x | OAnt _x -> let _x = o # string _x in OAnt _x method meta_list : ' a ' a_out . ( ' self_type -> ' a -> ' a_out ) -> ' a meta_list -> ' a_out meta_list = fun _f_a -> function | LNil -> LNil | LCons ( _x , _x_i1 ) -> let _x = _f_a o _x in let _x_i1 = o # meta_list _f_a _x_i1 in LCons ( _x , _x_i1 ) | LAnt _x -> let _x = o # string _x in LAnt _x method meta_bool : meta_bool -> meta_bool = function | BTrue -> BTrue | BFalse -> BFalse | BAnt _x -> let _x = o # string _x in BAnt _x method match_case : match_case -> match_case = function | McNil _x -> let _x = o # loc _x in McNil _x | McOr ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # match_case _x_i1 in let _x_i2 = o # match_case _x_i2 in McOr ( _x , _x_i1 , _x_i2 ) | McArr ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # expr _x_i2 in let _x_i3 = o # expr _x_i3 in McArr ( _x , _x_i1 , _x_i2 , _x_i3 ) | McAnt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in McAnt ( _x , _x_i1 ) method loc : loc -> loc = o # unknown method ident : ident -> ident = function | IdAcc ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in let _x_i2 = o # ident _x_i2 in IdAcc ( _x , _x_i1 , _x_i2 ) | IdApp ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in let _x_i2 = o # ident _x_i2 in IdApp ( _x , _x_i1 , _x_i2 ) | IdLid ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in IdLid ( _x , _x_i1 ) | IdUid ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in IdUid ( _x , _x_i1 ) | IdAnt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in IdAnt ( _x , _x_i1 ) method expr : expr -> expr = function | ExNil _x -> let _x = o # loc _x in ExNil _x | ExId ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in ExId ( _x , _x_i1 ) | ExAcc ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in ExAcc ( _x , _x_i1 , _x_i2 ) | ExAnt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExAnt ( _x , _x_i1 ) | ExApp ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in ExApp ( _x , _x_i1 , _x_i2 ) | ExAre ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in ExAre ( _x , _x_i1 , _x_i2 ) | ExArr ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in ExArr ( _x , _x_i1 ) | ExSem ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in ExSem ( _x , _x_i1 , _x_i2 ) | ExAsf _x -> let _x = o # loc _x in ExAsf _x | ExAsr ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in ExAsr ( _x , _x_i1 ) | ExAss ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in ExAss ( _x , _x_i1 , _x_i2 ) | ExChr ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExChr ( _x , _x_i1 ) | ExCoe ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # ctyp _x_i2 in let _x_i3 = o # ctyp _x_i3 in ExCoe ( _x , _x_i1 , _x_i2 , _x_i3 ) | ExFlo ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExFlo ( _x , _x_i1 ) | ExFor ( _x , _x_i1 , _x_i2 , _x_i3 , _x_i4 , _x_i5 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # expr _x_i2 in let _x_i3 = o # expr _x_i3 in let _x_i4 = o # direction_flag _x_i4 in let _x_i5 = o # expr _x_i5 in ExFor ( _x , _x_i1 , _x_i2 , _x_i3 , _x_i4 , _x_i5 ) | ExFun ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # match_case _x_i1 in ExFun ( _x , _x_i1 ) | ExIfe ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in let _x_i3 = o # expr _x_i3 in ExIfe ( _x , _x_i1 , _x_i2 , _x_i3 ) | ExInt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExInt ( _x , _x_i1 ) | ExInt32 ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExInt32 ( _x , _x_i1 ) | ExInt64 ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExInt64 ( _x , _x_i1 ) | ExNativeInt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExNativeInt ( _x , _x_i1 ) | ExLab ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # expr _x_i2 in ExLab ( _x , _x_i1 , _x_i2 ) | ExLaz ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in ExLaz ( _x , _x_i1 ) | ExLet ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # rec_flag _x_i1 in let _x_i2 = o # binding _x_i2 in let _x_i3 = o # expr _x_i3 in ExLet ( _x , _x_i1 , _x_i2 , _x_i3 ) | ExLmd ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_expr _x_i2 in let _x_i3 = o # expr _x_i3 in ExLmd ( _x , _x_i1 , _x_i2 , _x_i3 ) | ExMat ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # match_case _x_i2 in ExMat ( _x , _x_i1 , _x_i2 ) | ExNew ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in ExNew ( _x , _x_i1 ) | ExObj ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # class_str_item _x_i2 in ExObj ( _x , _x_i1 , _x_i2 ) | ExOlb ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # expr _x_i2 in ExOlb ( _x , _x_i1 , _x_i2 ) | ExOvr ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # rec_binding _x_i1 in ExOvr ( _x , _x_i1 ) | ExRec ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # rec_binding _x_i1 in let _x_i2 = o # expr _x_i2 in ExRec ( _x , _x_i1 , _x_i2 ) | ExSeq ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in ExSeq ( _x , _x_i1 ) | ExSnd ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # string _x_i2 in ExSnd ( _x , _x_i1 , _x_i2 ) | ExSte ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in ExSte ( _x , _x_i1 , _x_i2 ) | ExStr ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExStr ( _x , _x_i1 ) | ExTry ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # match_case _x_i2 in ExTry ( _x , _x_i1 , _x_i2 ) | ExTup ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in ExTup ( _x , _x_i1 ) | ExCom ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in ExCom ( _x , _x_i1 , _x_i2 ) | ExTyc ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # ctyp _x_i2 in ExTyc ( _x , _x_i1 , _x_i2 ) | ExVrn ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExVrn ( _x , _x_i1 ) | ExWhi ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in ExWhi ( _x , _x_i1 , _x_i2 ) | ExOpI ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in let _x_i2 = o # expr _x_i2 in ExOpI ( _x , _x_i1 , _x_i2 ) | ExFUN ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # expr _x_i2 in ExFUN ( _x , _x_i1 , _x_i2 ) | ExPkg ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # module_expr _x_i1 in ExPkg ( _x , _x_i1 ) method direction_flag : direction_flag -> direction_flag = function | DiTo -> DiTo | DiDownto -> DiDownto | DiAnt _x -> let _x = o # string _x in DiAnt _x method ctyp : ctyp -> ctyp = function | TyNil _x -> let _x = o # loc _x in TyNil _x | TyAli ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyAli ( _x , _x_i1 , _x_i2 ) | TyAny _x -> let _x = o # loc _x in TyAny _x | TyApp ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyApp ( _x , _x_i1 , _x_i2 ) | TyArr ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyArr ( _x , _x_i1 , _x_i2 ) | TyCls ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in TyCls ( _x , _x_i1 ) | TyLab ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyLab ( _x , _x_i1 , _x_i2 ) | TyId ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in TyId ( _x , _x_i1 ) | TyMan ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyMan ( _x , _x_i1 , _x_i2 ) | TyDcl ( _x , _x_i1 , _x_i2 , _x_i3 , _x_i4 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # list ( fun o -> o # ctyp ) _x_i2 in let _x_i3 = o # ctyp _x_i3 in let _x_i4 = o # list ( fun o ( _x , _x_i1 ) -> let _x = o # ctyp _x in let _x_i1 = o # ctyp _x_i1 in ( _x , _x_i1 ) ) _x_i4 in TyDcl ( _x , _x_i1 , _x_i2 , _x_i3 , _x_i4 ) | TyObj ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # row_var_flag _x_i2 in TyObj ( _x , _x_i1 , _x_i2 ) | TyOlb ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyOlb ( _x , _x_i1 , _x_i2 ) | TyPol ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyPol ( _x , _x_i1 , _x_i2 ) | TyQuo ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in TyQuo ( _x , _x_i1 ) | TyQuP ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in TyQuP ( _x , _x_i1 ) | TyQuM ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in TyQuM ( _x , _x_i1 ) | TyVrn ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in TyVrn ( _x , _x_i1 ) | TyRec ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in TyRec ( _x , _x_i1 ) | TyCol ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyCol ( _x , _x_i1 , _x_i2 ) | TySem ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TySem ( _x , _x_i1 , _x_i2 ) | TyCom ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyCom ( _x , _x_i1 , _x_i2 ) | TySum ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in TySum ( _x , _x_i1 ) | TyOf ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyOf ( _x , _x_i1 , _x_i2 ) | TyAnd ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyAnd ( _x , _x_i1 , _x_i2 ) | TyOr ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyOr ( _x , _x_i1 , _x_i2 ) | TyPrv ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in TyPrv ( _x , _x_i1 ) | TyMut ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in TyMut ( _x , _x_i1 ) | TyTup ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in TyTup ( _x , _x_i1 ) | TySta ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TySta ( _x , _x_i1 , _x_i2 ) | TyVrnEq ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in TyVrnEq ( _x , _x_i1 ) | TyVrnSup ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in TyVrnSup ( _x , _x_i1 ) | TyVrnInf ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in TyVrnInf ( _x , _x_i1 ) | TyVrnInfSup ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyVrnInfSup ( _x , _x_i1 , _x_i2 ) | TyAmp ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyAmp ( _x , _x_i1 , _x_i2 ) | TyOfAmp ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyOfAmp ( _x , _x_i1 , _x_i2 ) | TyPkg ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # module_type _x_i1 in TyPkg ( _x , _x_i1 ) | TyAnt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in TyAnt ( _x , _x_i1 ) method class_type : class_type -> class_type = function | CtNil _x -> let _x = o # loc _x in CtNil _x | CtCon ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # virtual_flag _x_i1 in let _x_i2 = o # ident _x_i2 in let _x_i3 = o # ctyp _x_i3 in CtCon ( _x , _x_i1 , _x_i2 , _x_i3 ) | CtFun ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # class_type _x_i2 in CtFun ( _x , _x_i1 , _x_i2 ) | CtSig ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # class_sig_item _x_i2 in CtSig ( _x , _x_i1 , _x_i2 ) | CtAnd ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # class_type _x_i1 in let _x_i2 = o # class_type _x_i2 in CtAnd ( _x , _x_i1 , _x_i2 ) | CtCol ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # class_type _x_i1 in let _x_i2 = o # class_type _x_i2 in CtCol ( _x , _x_i1 , _x_i2 ) | CtEq ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # class_type _x_i1 in let _x_i2 = o # class_type _x_i2 in CtEq ( _x , _x_i1 , _x_i2 ) | CtAnt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in CtAnt ( _x , _x_i1 ) method class_str_item : class_str_item -> class_str_item = function | CrNil _x -> let _x = o # loc _x in CrNil _x | CrSem ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # class_str_item _x_i1 in let _x_i2 = o # class_str_item _x_i2 in CrSem ( _x , _x_i1 , _x_i2 ) | CrCtr ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in CrCtr ( _x , _x_i1 , _x_i2 ) | CrInh ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # override_flag _x_i1 in let _x_i2 = o # class_expr _x_i2 in let _x_i3 = o # string _x_i3 in CrInh ( _x , _x_i1 , _x_i2 , _x_i3 ) | CrIni ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in CrIni ( _x , _x_i1 ) | CrMth ( _x , _x_i1 , _x_i2 , _x_i3 , _x_i4 , _x_i5 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # override_flag _x_i2 in let _x_i3 = o # private_flag _x_i3 in let _x_i4 = o # expr _x_i4 in let _x_i5 = o # ctyp _x_i5 in CrMth ( _x , _x_i1 , _x_i2 , _x_i3 , _x_i4 , _x_i5 ) | CrVal ( _x , _x_i1 , _x_i2 , _x_i3 , _x_i4 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # override_flag _x_i2 in let _x_i3 = o # mutable_flag _x_i3 in let _x_i4 = o # expr _x_i4 in CrVal ( _x , _x_i1 , _x_i2 , _x_i3 , _x_i4 ) | CrVir ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # private_flag _x_i2 in let _x_i3 = o # ctyp _x_i3 in CrVir ( _x , _x_i1 , _x_i2 , _x_i3 ) | CrVvr ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # mutable_flag _x_i2 in let _x_i3 = o # ctyp _x_i3 in CrVvr ( _x , _x_i1 , _x_i2 , _x_i3 ) | CrAnt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in CrAnt ( _x , _x_i1 ) method class_sig_item : class_sig_item -> class_sig_item = function | CgNil _x -> let _x = o # loc _x in CgNil _x | CgCtr ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in CgCtr ( _x , _x_i1 , _x_i2 ) | CgSem ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # class_sig_item _x_i1 in let _x_i2 = o # class_sig_item _x_i2 in CgSem ( _x , _x_i1 , _x_i2 ) | CgInh ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # class_type _x_i1 in CgInh ( _x , _x_i1 ) | CgMth ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # private_flag _x_i2 in let _x_i3 = o # ctyp _x_i3 in CgMth ( _x , _x_i1 , _x_i2 , _x_i3 ) | CgVal ( _x , _x_i1 , _x_i2 , _x_i3 , _x_i4 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # mutable_flag _x_i2 in let _x_i3 = o # virtual_flag _x_i3 in let _x_i4 = o # ctyp _x_i4 in CgVal ( _x , _x_i1 , _x_i2 , _x_i3 , _x_i4 ) | CgVir ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # private_flag _x_i2 in let _x_i3 = o # ctyp _x_i3 in CgVir ( _x , _x_i1 , _x_i2 , _x_i3 ) | CgAnt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in CgAnt ( _x , _x_i1 ) method class_expr : class_expr -> class_expr = function | CeNil _x -> let _x = o # loc _x in CeNil _x | CeApp ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # class_expr _x_i1 in let _x_i2 = o # expr _x_i2 in CeApp ( _x , _x_i1 , _x_i2 ) | CeCon ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # virtual_flag _x_i1 in let _x_i2 = o # ident _x_i2 in let _x_i3 = o # ctyp _x_i3 in CeCon ( _x , _x_i1 , _x_i2 , _x_i3 ) | CeFun ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # class_expr _x_i2 in CeFun ( _x , _x_i1 , _x_i2 ) | CeLet ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let _x = o # loc _x in let _x_i1 = o # rec_flag _x_i1 in let _x_i2 = o # binding _x_i2 in let _x_i3 = o # class_expr _x_i3 in CeLet ( _x , _x_i1 , _x_i2 , _x_i3 ) | CeStr ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # class_str_item _x_i2 in CeStr ( _x , _x_i1 , _x_i2 ) | CeTyc ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # class_expr _x_i1 in let _x_i2 = o # class_type _x_i2 in CeTyc ( _x , _x_i1 , _x_i2 ) | CeAnd ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # class_expr _x_i1 in let _x_i2 = o # class_expr _x_i2 in CeAnd ( _x , _x_i1 , _x_i2 ) | CeEq ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # class_expr _x_i1 in let _x_i2 = o # class_expr _x_i2 in CeEq ( _x , _x_i1 , _x_i2 ) | CeAnt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in CeAnt ( _x , _x_i1 ) method binding : binding -> binding = function | BiNil _x -> let _x = o # loc _x in BiNil _x | BiAnd ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # binding _x_i1 in let _x_i2 = o # binding _x_i2 in BiAnd ( _x , _x_i1 , _x_i2 ) | BiEq ( _x , _x_i1 , _x_i2 ) -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # expr _x_i2 in BiEq ( _x , _x_i1 , _x_i2 ) | BiAnt ( _x , _x_i1 ) -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in BiAnt ( _x , _x_i1 ) method unknown : ' a . ' a -> ' a = fun x -> x end class fold = object ( ( o : ' self_type ) ) method string : string -> ' self_type = o # unknown method list : ' a . ( ' self_type -> ' a -> ' self_type ) -> ' a list -> ' self_type = fun _f_a -> function | [ ] -> o | _x :: _x_i1 -> let o = _f_a o _x in let o = o # list _f_a _x_i1 in o method with_constr : with_constr -> ' self_type = function | WcNil _x -> let o = o # loc _x in o | WcTyp ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | WcMod ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ident _x_i1 in let o = o # ident _x_i2 in o | WcTyS ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | WcMoS ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ident _x_i1 in let o = o # ident _x_i2 in o | WcAnd ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # with_constr _x_i1 in let o = o # with_constr _x_i2 in o | WcAnt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o method virtual_flag : virtual_flag -> ' self_type = function | ViVirtual -> o | ViNil -> o | ViAnt _x -> let o = o # string _x in o method str_item : str_item -> ' self_type = function | StNil _x -> let o = o # loc _x in o | StCls ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # class_expr _x_i1 in o | StClt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # class_type _x_i1 in o | StSem ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # str_item _x_i1 in let o = o # str_item _x_i2 in o | StDir ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # expr _x_i2 in o | StExc ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # meta_option ( fun o -> o # ident ) _x_i2 in o | StExp ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # expr _x_i1 in o | StExt ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # ctyp _x_i2 in let o = o # meta_list ( fun o -> o # string ) _x_i3 in o | StInc ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # module_expr _x_i1 in o | StMod ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_expr _x_i2 in o | StRecMod ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # module_binding _x_i1 in o | StMty ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_type _x_i2 in o | StOpn ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ident _x_i1 in o | StTyp ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | StVal ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # rec_flag _x_i1 in let o = o # binding _x_i2 in o | StAnt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o method sig_item : sig_item -> ' self_type = function | SgNil _x -> let o = o # loc _x in o | SgCls ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # class_type _x_i1 in o | SgClt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # class_type _x_i1 in o | SgSem ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # sig_item _x_i1 in let o = o # sig_item _x_i2 in o | SgDir ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # expr _x_i2 in o | SgExc ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | SgExt ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # ctyp _x_i2 in let o = o # meta_list ( fun o -> o # string ) _x_i3 in o | SgInc ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # module_type _x_i1 in o | SgMod ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_type _x_i2 in o | SgRecMod ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # module_binding _x_i1 in o | SgMty ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_type _x_i2 in o | SgOpn ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ident _x_i1 in o | SgTyp ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | SgVal ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # ctyp _x_i2 in o | SgAnt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o method row_var_flag : row_var_flag -> ' self_type = function | RvRowVar -> o | RvNil -> o | RvAnt _x -> let o = o # string _x in o method rec_flag : rec_flag -> ' self_type = function | ReRecursive -> o | ReNil -> o | ReAnt _x -> let o = o # string _x in o method rec_binding : rec_binding -> ' self_type = function | RbNil _x -> let o = o # loc _x in o | RbSem ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # rec_binding _x_i1 in let o = o # rec_binding _x_i2 in o | RbEq ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ident _x_i1 in let o = o # expr _x_i2 in o | RbAnt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o method private_flag : private_flag -> ' self_type = function | PrPrivate -> o | PrNil -> o | PrAnt _x -> let o = o # string _x in o method patt : patt -> ' self_type = function | PaNil _x -> let o = o # loc _x in o | PaId ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ident _x_i1 in o | PaAli ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # patt _x_i2 in o | PaAnt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | PaAny _x -> let o = o # loc _x in o | PaApp ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # patt _x_i2 in o | PaArr ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # patt _x_i1 in o | PaCom ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # patt _x_i2 in o | PaSem ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # patt _x_i2 in o | PaChr ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | PaInt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | PaInt32 ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | PaInt64 ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | PaNativeInt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | PaFlo ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | PaLab ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # patt _x_i2 in o | PaOlb ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # patt _x_i2 in o | PaOlbi ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # patt _x_i2 in let o = o # expr _x_i3 in o | PaOrp ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # patt _x_i2 in o | PaRng ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # patt _x_i2 in o | PaRec ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # patt _x_i1 in o | PaEq ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ident _x_i1 in let o = o # patt _x_i2 in o | PaStr ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | PaTup ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # patt _x_i1 in o | PaTyc ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # ctyp _x_i2 in o | PaTyp ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ident _x_i1 in o | PaVrn ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | PaLaz ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # patt _x_i1 in o method override_flag : override_flag -> ' self_type = function | OvOverride -> o | OvNil -> o | OvAnt _x -> let o = o # string _x in o method mutable_flag : mutable_flag -> ' self_type = function | MuMutable -> o | MuNil -> o | MuAnt _x -> let o = o # string _x in o method module_type : module_type -> ' self_type = function | MtNil _x -> let o = o # loc _x in o | MtId ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ident _x_i1 in o | MtFun ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_type _x_i2 in let o = o # module_type _x_i3 in o | MtQuo ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | MtSig ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # sig_item _x_i1 in o | MtWit ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # module_type _x_i1 in let o = o # with_constr _x_i2 in o | MtOf ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # module_expr _x_i1 in o | MtAnt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o method module_expr : module_expr -> ' self_type = function | MeNil _x -> let o = o # loc _x in o | MeId ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ident _x_i1 in o | MeApp ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # module_expr _x_i1 in let o = o # module_expr _x_i2 in o | MeFun ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_type _x_i2 in let o = o # module_expr _x_i3 in o | MeStr ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # str_item _x_i1 in o | MeTyc ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # module_expr _x_i1 in let o = o # module_type _x_i2 in o | MePkg ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # expr _x_i1 in o | MeAnt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o method module_binding : module_binding -> ' self_type = function | MbNil _x -> let o = o # loc _x in o | MbAnd ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # module_binding _x_i1 in let o = o # module_binding _x_i2 in o | MbColEq ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_type _x_i2 in let o = o # module_expr _x_i3 in o | MbCol ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_type _x_i2 in o | MbAnt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o method meta_option : ' a . ( ' self_type -> ' a -> ' self_type ) -> ' a meta_option -> ' self_type = fun _f_a -> function | ONone -> o | OSome _x -> let o = _f_a o _x in o | OAnt _x -> let o = o # string _x in o method meta_list : ' a . ( ' self_type -> ' a -> ' self_type ) -> ' a meta_list -> ' self_type = fun _f_a -> function | LNil -> o | LCons ( _x , _x_i1 ) -> let o = _f_a o _x in let o = o # meta_list _f_a _x_i1 in o | LAnt _x -> let o = o # string _x in o method meta_bool : meta_bool -> ' self_type = function | BTrue -> o | BFalse -> o | BAnt _x -> let o = o # string _x in o method match_case : match_case -> ' self_type = function | McNil _x -> let o = o # loc _x in o | McOr ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # match_case _x_i1 in let o = o # match_case _x_i2 in o | McArr ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # expr _x_i2 in let o = o # expr _x_i3 in o | McAnt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o method loc : loc -> ' self_type = o # unknown method ident : ident -> ' self_type = function | IdAcc ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ident _x_i1 in let o = o # ident _x_i2 in o | IdApp ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ident _x_i1 in let o = o # ident _x_i2 in o | IdLid ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | IdUid ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | IdAnt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o method expr : expr -> ' self_type = function | ExNil _x -> let o = o # loc _x in o | ExId ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ident _x_i1 in o | ExAcc ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in o | ExAnt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | ExApp ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in o | ExAre ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in o | ExArr ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # expr _x_i1 in o | ExSem ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in o | ExAsf _x -> let o = o # loc _x in o | ExAsr ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # expr _x_i1 in o | ExAss ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in o | ExChr ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | ExCoe ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # ctyp _x_i2 in let o = o # ctyp _x_i3 in o | ExFlo ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | ExFor ( _x , _x_i1 , _x_i2 , _x_i3 , _x_i4 , _x_i5 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # expr _x_i2 in let o = o # expr _x_i3 in let o = o # direction_flag _x_i4 in let o = o # expr _x_i5 in o | ExFun ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # match_case _x_i1 in o | ExIfe ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in let o = o # expr _x_i3 in o | ExInt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | ExInt32 ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | ExInt64 ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | ExNativeInt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | ExLab ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # expr _x_i2 in o | ExLaz ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # expr _x_i1 in o | ExLet ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # rec_flag _x_i1 in let o = o # binding _x_i2 in let o = o # expr _x_i3 in o | ExLmd ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_expr _x_i2 in let o = o # expr _x_i3 in o | ExMat ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # match_case _x_i2 in o | ExNew ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ident _x_i1 in o | ExObj ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # class_str_item _x_i2 in o | ExOlb ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # expr _x_i2 in o | ExOvr ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # rec_binding _x_i1 in o | ExRec ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # rec_binding _x_i1 in let o = o # expr _x_i2 in o | ExSeq ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # expr _x_i1 in o | ExSnd ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # string _x_i2 in o | ExSte ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in o | ExStr ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | ExTry ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # match_case _x_i2 in o | ExTup ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # expr _x_i1 in o | ExCom ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in o | ExTyc ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # ctyp _x_i2 in o | ExVrn ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | ExWhi ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in o | ExOpI ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ident _x_i1 in let o = o # expr _x_i2 in o | ExFUN ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # expr _x_i2 in o | ExPkg ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # module_expr _x_i1 in o method direction_flag : direction_flag -> ' self_type = function | DiTo -> o | DiDownto -> o | DiAnt _x -> let o = o # string _x in o method ctyp : ctyp -> ' self_type = function | TyNil _x -> let o = o # loc _x in o | TyAli ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyAny _x -> let o = o # loc _x in o | TyApp ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyArr ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyCls ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ident _x_i1 in o | TyLab ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # ctyp _x_i2 in o | TyId ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ident _x_i1 in o | TyMan ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyDcl ( _x , _x_i1 , _x_i2 , _x_i3 , _x_i4 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # list ( fun o -> o # ctyp ) _x_i2 in let o = o # ctyp _x_i3 in let o = o # list ( fun o ( _x , _x_i1 ) -> let o = o # ctyp _x in let o = o # ctyp _x_i1 in o ) _x_i4 in o | TyObj ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # row_var_flag _x_i2 in o | TyOlb ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # ctyp _x_i2 in o | TyPol ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyQuo ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | TyQuP ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | TyQuM ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | TyVrn ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o | TyRec ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | TyCol ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TySem ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyCom ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TySum ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | TyOf ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyAnd ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyOr ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyPrv ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | TyMut ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | TyTup ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | TySta ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyVrnEq ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | TyVrnSup ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | TyVrnInf ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | TyVrnInfSup ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyAmp ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyOfAmp ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyPkg ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # module_type _x_i1 in o | TyAnt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o method class_type : class_type -> ' self_type = function | CtNil _x -> let o = o # loc _x in o | CtCon ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # virtual_flag _x_i1 in let o = o # ident _x_i2 in let o = o # ctyp _x_i3 in o | CtFun ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # class_type _x_i2 in o | CtSig ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # class_sig_item _x_i2 in o | CtAnd ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # class_type _x_i1 in let o = o # class_type _x_i2 in o | CtCol ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # class_type _x_i1 in let o = o # class_type _x_i2 in o | CtEq ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # class_type _x_i1 in let o = o # class_type _x_i2 in o | CtAnt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o method class_str_item : class_str_item -> ' self_type = function | CrNil _x -> let o = o # loc _x in o | CrSem ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # class_str_item _x_i1 in let o = o # class_str_item _x_i2 in o | CrCtr ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | CrInh ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # override_flag _x_i1 in let o = o # class_expr _x_i2 in let o = o # string _x_i3 in o | CrIni ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # expr _x_i1 in o | CrMth ( _x , _x_i1 , _x_i2 , _x_i3 , _x_i4 , _x_i5 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # override_flag _x_i2 in let o = o # private_flag _x_i3 in let o = o # expr _x_i4 in let o = o # ctyp _x_i5 in o | CrVal ( _x , _x_i1 , _x_i2 , _x_i3 , _x_i4 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # override_flag _x_i2 in let o = o # mutable_flag _x_i3 in let o = o # expr _x_i4 in o | CrVir ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # private_flag _x_i2 in let o = o # ctyp _x_i3 in o | CrVvr ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # mutable_flag _x_i2 in let o = o # ctyp _x_i3 in o | CrAnt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o method class_sig_item : class_sig_item -> ' self_type = function | CgNil _x -> let o = o # loc _x in o | CgCtr ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | CgSem ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # class_sig_item _x_i1 in let o = o # class_sig_item _x_i2 in o | CgInh ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # class_type _x_i1 in o | CgMth ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # private_flag _x_i2 in let o = o # ctyp _x_i3 in o | CgVal ( _x , _x_i1 , _x_i2 , _x_i3 , _x_i4 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # mutable_flag _x_i2 in let o = o # virtual_flag _x_i3 in let o = o # ctyp _x_i4 in o | CgVir ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # private_flag _x_i2 in let o = o # ctyp _x_i3 in o | CgAnt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o method class_expr : class_expr -> ' self_type = function | CeNil _x -> let o = o # loc _x in o | CeApp ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # class_expr _x_i1 in let o = o # expr _x_i2 in o | CeCon ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # virtual_flag _x_i1 in let o = o # ident _x_i2 in let o = o # ctyp _x_i3 in o | CeFun ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # class_expr _x_i2 in o | CeLet ( _x , _x_i1 , _x_i2 , _x_i3 ) -> let o = o # loc _x in let o = o # rec_flag _x_i1 in let o = o # binding _x_i2 in let o = o # class_expr _x_i3 in o | CeStr ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # class_str_item _x_i2 in o | CeTyc ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # class_expr _x_i1 in let o = o # class_type _x_i2 in o | CeAnd ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # class_expr _x_i1 in let o = o # class_expr _x_i2 in o | CeEq ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # class_expr _x_i1 in let o = o # class_expr _x_i2 in o | CeAnt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o method binding : binding -> ' self_type = function | BiNil _x -> let o = o # loc _x in o | BiAnd ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # binding _x_i1 in let o = o # binding _x_i2 in o | BiEq ( _x , _x_i1 , _x_i2 ) -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # expr _x_i2 in o | BiAnt ( _x , _x_i1 ) -> let o = o # loc _x in let o = o # string _x_i1 in o method unknown : ' a . ' a -> ' self_type = fun _ -> o end let map_expr f = object inherit map as super method expr = fun x -> f ( super # expr x ) end let map_patt f = object inherit map as super method patt = fun x -> f ( super # patt x ) end let map_ctyp f = object inherit map as super method ctyp = fun x -> f ( super # ctyp x ) end let map_str_item f = object inherit map as super method str_item = fun x -> f ( super # str_item x ) end let map_sig_item f = object inherit map as super method sig_item = fun x -> f ( super # sig_item x ) end let map_loc f = object inherit map as super method loc = fun x -> f ( super # loc x ) end end end module DynAst = struct module Make ( Ast : Sig . Ast ) : Sig . DynAst with module Ast = Ast = struct module Ast = Ast type ' a tag = | Tag_ctyp | Tag_patt | Tag_expr | Tag_module_type | Tag_sig_item | Tag_with_constr | Tag_module_expr | Tag_str_item | Tag_class_type | Tag_class_sig_item | Tag_class_expr | Tag_class_str_item | Tag_match_case | Tag_ident | Tag_binding | Tag_rec_binding | Tag_module_binding let string_of_tag = function | Tag_ctyp -> " ctyp " | Tag_patt -> " patt " | Tag_expr -> " expr " | Tag_module_type -> " module_type " | Tag_sig_item -> " sig_item " | Tag_with_constr -> " with_constr " | Tag_module_expr -> " module_expr " | Tag_str_item -> " str_item " | Tag_class_type -> " class_type " | Tag_class_sig_item -> " class_sig_item " | Tag_class_expr -> " class_expr " | Tag_class_str_item -> " class_str_item " | Tag_match_case -> " match_case " | Tag_ident -> " ident " | Tag_binding -> " binding " | Tag_rec_binding -> " rec_binding " | Tag_module_binding -> " module_binding " let ctyp_tag = Tag_ctyp let patt_tag = Tag_patt let expr_tag = Tag_expr let module_type_tag = Tag_module_type let sig_item_tag = Tag_sig_item let with_constr_tag = Tag_with_constr let module_expr_tag = Tag_module_expr let str_item_tag = Tag_str_item let class_type_tag = Tag_class_type let class_sig_item_tag = Tag_class_sig_item let class_expr_tag = Tag_class_expr let class_str_item_tag = Tag_class_str_item let match_case_tag = Tag_match_case let ident_tag = Tag_ident let binding_tag = Tag_binding let rec_binding_tag = Tag_rec_binding let module_binding_tag = Tag_module_binding type dyn external dyn_tag : ' a tag -> dyn tag = " % identity " module Pack ( X : sig type ' a t end ) = struct type pack = ( ( dyn tag ) * Obj . t ) exception Pack_error let pack tag v = ( ( dyn_tag tag ) , ( Obj . repr v ) ) let unpack ( tag : ' a tag ) ( tag ' , obj ) = if ( dyn_tag tag ) = tag ' then ( Obj . obj obj : ' a X . t ) else raise Pack_error let print_tag f ( tag , _ ) = Format . pp_print_string f ( string_of_tag tag ) end end end module Quotation = struct module Make ( Ast : Sig . Camlp4Ast ) : Sig . Quotation with module Ast = Ast = struct module Ast = Ast module DynAst = DynAst . Make ( Ast ) module Loc = Ast . Loc open Format open Sig type ' a expand_fun = Loc . t -> string option -> string -> ' a module Exp_key = DynAst . Pack ( struct type ' a t = unit end ) module Exp_fun = DynAst . Pack ( struct type ' a t = ' a expand_fun end ) let expanders_table : ( ( ( string * Exp_key . pack ) * Exp_fun . pack ) list ) ref = ref [ ] let default = ref " " let translate = ref ( fun x -> x ) let expander_name name = match ! translate name with | " " -> ! default | name -> name let find name tag = let key = ( ( expander_name name ) , ( Exp_key . pack tag ( ) ) ) in Exp_fun . unpack tag ( List . assoc key ! expanders_table ) let add name tag f = let elt = ( ( name , ( Exp_key . pack tag ( ) ) ) , ( Exp_fun . pack tag f ) ) in expanders_table := elt :: ! expanders_table let dump_file = ref None module Error = struct type error = | Finding | Expanding | ParsingResult of Loc . t * string | Locating type t = ( string * string * error * exn ) exception E of t let print ppf ( name , position , ctx , exn ) = let name = if name = " " then ! default else name in let pp x = fprintf ppf " [ @?@< 2 > While % s % S in a position of % S " : x name position in let ( ) = match ctx with | Finding -> ( pp " finding quotation " ; if ! expanders_table = [ ] then fprintf ppf " @ There is no quotation expander available . " else ( fprintf ppf " @ [ @< hv2 > Available quotation expanders are :@\ n " ; List . iter ( fun ( ( s , t ) , _ ) -> fprintf ppf " [ @< 2 >% s @ ( in @ a @ position @ of % a ) ] @@ " s Exp_key . print_tag t ) ! expanders_table ; fprintf ppf " ] " ) ) @ | Expanding -> pp " expanding quotation " | Locating -> pp " parsing " | ParsingResult ( loc , str ) -> let ( ) = pp " parsing result of quotation " in ( match ! dump_file with | Some dump_file -> let ( ) = fprintf ppf " dumping result . . . \ n " in ( try let oc = open_out_bin dump_file in ( output_string oc str ; output_string oc " \ n " ; flush oc ; close_out oc ; fprintf ppf " % a " : Loc . print ( Loc . set_file_name dump_file loc ) ) with | _ -> fprintf ppf " Error while dumping result in file % S ; dump aborted " dump_file ) | None -> fprintf ppf " \ n ( consider setting variable Quotation . dump_file , or using the - QD option ) " ) in fprintf ppf " @\ n % a ] . " @@ ErrorHandler . print exn let to_string x = let b = Buffer . create 50 in let ( ) = bprintf b " % a " print x in Buffer . contents b end let _ = let module M = ErrorHandler . Register ( Error ) in ( ) open Error let expand_quotation loc expander pos_tag quot = let loc_name_opt = if quot . q_loc = " " then None else Some quot . q_loc in try expander loc loc_name_opt quot . q_contents with | ( Loc . Exc_located ( _ , ( Error . E _ ) ) as exc ) -> raise exc | Loc . Exc_located ( iloc , exc ) -> let exc1 = Error . E ( ( ( quot . q_name ) , pos_tag , Expanding , exc ) ) in raise ( Loc . Exc_located ( iloc , exc1 ) ) | exc -> let exc1 = Error . E ( ( ( quot . q_name ) , pos_tag , Expanding , exc ) ) in raise ( Loc . Exc_located ( loc , exc1 ) ) let parse_quotation_result parse loc quot pos_tag str = try parse loc str with | Loc . Exc_located ( iloc , ( Error . E ( ( n , pos_tag , Expanding , exc ) ) ) ) -> let ctx = ParsingResult ( iloc , quot . q_contents ) in let exc1 = Error . E ( ( n , pos_tag , ctx , exc ) ) in raise ( Loc . Exc_located ( iloc , exc1 ) ) | Loc . Exc_located ( iloc , ( ( Error . E _ as exc ) ) ) -> raise ( Loc . Exc_located ( iloc , exc ) ) | Loc . Exc_located ( iloc , exc ) -> let ctx = ParsingResult ( iloc , quot . q_contents ) in let exc1 = Error . E ( ( ( quot . q_name ) , pos_tag , ctx , exc ) ) in raise ( Loc . Exc_located ( iloc , exc1 ) ) let expand loc quotation tag = let pos_tag = DynAst . string_of_tag tag in let name = quotation . q_name in let expander = try find name tag with | ( Loc . Exc_located ( _ , ( Error . E _ ) ) as exc ) -> raise exc | Loc . Exc_located ( qloc , exc ) -> raise ( Loc . Exc_located ( qloc , ( Error . E ( ( name , pos_tag , Finding , exc ) ) ) ) ) | exc -> raise ( Loc . Exc_located ( loc , ( Error . E ( ( name , pos_tag , Finding , exc ) ) ) ) ) in let loc = Loc . join ( Loc . move ` start quotation . q_shift loc ) in expand_quotation loc expander pos_tag quotation end end module AstFilters = struct module Make ( Ast : Sig . Camlp4Ast ) : Sig . AstFilters with module Ast = Ast = struct module Ast = Ast type ' a filter = ' a -> ' a let interf_filters = Queue . create ( ) let fold_interf_filters f i = Queue . fold f i interf_filters let implem_filters = Queue . create ( ) let fold_implem_filters f i = Queue . fold f i implem_filters let topphrase_filters = Queue . create ( ) let fold_topphrase_filters f i = Queue . fold f i topphrase_filters let register_sig_item_filter f = Queue . add f interf_filters let register_str_item_filter f = Queue . add f implem_filters let register_topphrase_filter f = Queue . add f topphrase_filters end end module Camlp4Ast2OCamlAst : sig module Make ( Camlp4Ast : Sig . Camlp4Ast ) : sig open Camlp4Ast val sig_item : sig_item -> Camlp4_import . Parsetree . signature val str_item : str_item -> Camlp4_import . Parsetree . structure val phrase : str_item -> Camlp4_import . Parsetree . toplevel_phrase end end = struct module Make ( Ast : Sig . Camlp4Ast ) = struct open Format open Camlp4_import . Parsetree open Camlp4_import . Longident open Camlp4_import . Asttypes open Ast let constructors_arity ( ) = ! Camlp4_config . constructors_arity let error loc str = Loc . raise loc ( Failure str ) let char_of_char_token loc s = try Token . Eval . char s with | ( Failure _ as exn ) -> Loc . raise loc exn let string_of_string_token loc s = try Token . Eval . string s with | ( Failure _ as exn ) -> Loc . raise loc exn let remove_underscores s = let l = String . length s in let rec remove src dst = if src >= l then if dst >= l then s else String . sub s 0 dst else ( match s . [ src ] with | ' _ ' -> remove ( src + 1 ) dst | c -> ( s . [ dst ] <- c ; remove ( src + 1 ) ( dst + 1 ) ) ) in remove 0 0 let mkloc = Loc . to_ocaml_location let mkghloc loc = Loc . to_ocaml_location ( Loc . ghostify loc ) let mktyp loc d = { ptyp_desc = d ; ptyp_loc = mkloc loc ; } let mkpat loc d = { ppat_desc = d ; ppat_loc = mkloc loc ; } let mkghpat loc d = { ppat_desc = d ; ppat_loc = mkghloc loc ; } let mkexp loc d = { pexp_desc = d ; pexp_loc = mkloc loc ; } let mkmty loc d = { pmty_desc = d ; pmty_loc = mkloc loc ; } let mksig loc d = { psig_desc = d ; psig_loc = mkloc loc ; } let mkmod loc d = { pmod_desc = d ; pmod_loc = mkloc loc ; } let mkstr loc d = { pstr_desc = d ; pstr_loc = mkloc loc ; } let mkfield loc d = { pfield_desc = d ; pfield_loc = mkloc loc ; } let mkcty loc d = { pcty_desc = d ; pcty_loc = mkloc loc ; } let mkpcl loc d = { pcl_desc = d ; pcl_loc = mkloc loc ; } let mkpolytype t = match t . ptyp_desc with | Ptyp_poly ( _ , _ ) -> t | _ -> { ( t ) with ptyp_desc = Ptyp_poly ( [ ] , t ) ; } let mkvirtual = function | Ast . ViVirtual -> Virtual | Ast . ViNil -> Concrete | _ -> assert false let mkdirection = function | Ast . DiTo -> Upto | Ast . DiDownto -> Downto | _ -> assert false let lident s = Lident s let ldot l s = Ldot ( l , s ) let lapply l s = Lapply ( l , s ) let conv_con = let t = Hashtbl . create 73 in ( List . iter ( fun ( s , s ' ) -> Hashtbl . add t s s ' ) [ ( " True " , " true " ) ; ( " False " , " false " ) ; ( " True " , " True " ) ; ( " False " , " False " ) ] ; fun s -> try Hashtbl . find t s with | Not_found -> s ) let conv_lab = let t = Hashtbl . create 73 in ( List . iter ( fun ( s , s ' ) -> Hashtbl . add t s s ' ) [ ( " val " , " contents " ) ] ; fun s -> try Hashtbl . find t s with | Not_found -> s ) let array_function str name = ldot ( lident str ) ( if ! Camlp4_config . unsafe then " unsafe_ " ^ name else name ) let mkrf = function | Ast . ReRecursive -> Recursive | Ast . ReNil -> Nonrecursive | _ -> assert false let mkli s = let rec loop f = function | i :: il -> loop ( ldot ( f i ) ) il | [ ] -> f s in loop lident let rec ctyp_fa al = function | TyApp ( _ , f , a ) -> ctyp_fa ( a :: al ) f | f -> ( f , al ) let ident_tag ( ? conv_lid = fun x -> x ) i = let rec self i acc = match i with | Ast . IdAcc ( _ , i1 , i2 ) -> self i2 ( Some ( self i1 acc ) ) | Ast . IdApp ( _ , i1 , i2 ) -> let i ' = Lapply ( ( fst ( self i1 None ) ) , ( fst ( self i2 None ) ) ) in let x = ( match acc with | None -> i ' | _ -> error ( loc_of_ident i ) " invalid long identifier " ) in ( x , ` app ) | Ast . IdUid ( _ , s ) -> let x = ( match acc with | None -> lident s | Some ( ( acc , ( ` uident | ` app ) ) ) -> ldot acc s | _ -> error ( loc_of_ident i ) " invalid long identifier " ) in ( x , ` uident ) | Ast . IdLid ( _ , s ) -> let x = ( match acc with | None -> lident ( conv_lid s ) | Some ( ( acc , ( ` uident | ` app ) ) ) -> ldot acc ( conv_lid s ) | _ -> error ( loc_of_ident i ) " invalid long identifier " ) in ( x , ` lident ) | _ -> error ( loc_of_ident i ) " invalid long identifier " in self i None let ident ? conv_lid i = fst ( ident_tag ? conv_lid i ) let long_lident msg i = match ident_tag i with | ( i , ` lident ) -> i | _ -> error ( loc_of_ident i ) msg let long_type_ident = long_lident " invalid long identifier type " let long_class_ident = long_lident " invalid class name " let long_uident ( ? conv_con = fun x -> x ) i = match ident_tag i with | ( Ldot ( i , s ) , ` uident ) -> ldot i ( conv_con s ) | ( Lident s , ` uident ) -> lident ( conv_con s ) | ( i , ` app ) -> i | _ -> error ( loc_of_ident i ) " uppercase identifier expected " let rec ctyp_long_id_prefix t = match t with | Ast . TyId ( _ , i ) -> ident i | Ast . TyApp ( _ , m1 , m2 ) -> let li1 = ctyp_long_id_prefix m1 in let li2 = ctyp_long_id_prefix m2 in Lapply ( li1 , li2 ) | t -> error ( loc_of_ctyp t ) " invalid module expression " let ctyp_long_id t = match t with | Ast . TyId ( _ , i ) -> ( false , ( long_type_ident i ) ) | TyApp ( loc , _ , _ ) -> error loc " invalid type name " | TyCls ( _ , i ) -> ( true , ( ident i ) ) | t -> error ( loc_of_ctyp t ) " invalid type " let rec ty_var_list_of_ctyp = function | Ast . TyApp ( _ , t1 , t2 ) -> ( ty_var_list_of_ctyp t1 ) @ ( ty_var_list_of_ctyp t2 ) | Ast . TyQuo ( _ , s ) -> [ s ] | _ -> assert false let rec ctyp = function | TyId ( loc , i ) -> let li = long_type_ident i in mktyp loc ( Ptyp_constr ( li , [ ] ) ) | TyAli ( loc , t1 , t2 ) -> let ( t , i ) = ( match ( t1 , t2 ) with | ( t , TyQuo ( _ , s ) ) -> ( t , s ) | ( TyQuo ( _ , s ) , t ) -> ( t , s ) | _ -> error loc " invalid alias type " ) in mktyp loc ( Ptyp_alias ( ( ctyp t ) , i ) ) | TyAny loc -> mktyp loc Ptyp_any | ( TyApp ( loc , _ , _ ) as f ) -> let ( f , al ) = ctyp_fa [ ] f in let ( is_cls , li ) = ctyp_long_id f in if is_cls then mktyp loc ( Ptyp_class ( li , ( List . map ctyp al ) , [ ] ) ) else mktyp loc ( Ptyp_constr ( li , ( List . map ctyp al ) ) ) | TyArr ( loc , ( TyLab ( _ , lab , t1 ) ) , t2 ) -> mktyp loc ( Ptyp_arrow ( lab , ( ctyp t1 ) , ( ctyp t2 ) ) ) | TyArr ( loc , ( TyOlb ( loc1 , lab , t1 ) ) , t2 ) -> let t1 = TyApp ( loc1 , ( Ast . TyId ( loc1 , ( Ast . IdLid ( loc1 , " option " ) ) ) ) , t1 ) in mktyp loc ( Ptyp_arrow ( ( " " ? ^ lab ) , ( ctyp t1 ) , ( ctyp t2 ) ) ) | TyArr ( loc , t1 , t2 ) -> mktyp loc ( Ptyp_arrow ( " " , ( ctyp t1 ) , ( ctyp t2 ) ) ) | Ast . TyObj ( loc , fl , Ast . RvNil ) -> mktyp loc ( Ptyp_object ( meth_list fl [ ] ) ) | Ast . TyObj ( loc , fl , Ast . RvRowVar ) -> mktyp loc ( Ptyp_object ( meth_list fl [ mkfield loc Pfield_var ] ) ) | TyCls ( loc , id ) -> mktyp loc ( Ptyp_class ( ( ident id ) , [ ] , [ ] ) ) | Ast . TyPkg ( loc , pt ) -> let ( i , cs ) = package_type pt in mktyp loc ( Ptyp_package ( i , cs ) ) | TyLab ( loc , _ , _ ) -> error loc " labelled type not allowed here " | TyMan ( loc , _ , _ ) -> error loc " manifest type not allowed here " | TyOlb ( loc , _ , _ ) -> error loc " labelled type not allowed here " | TyPol ( loc , t1 , t2 ) -> mktyp loc ( Ptyp_poly ( ( ty_var_list_of_ctyp t1 ) , ( ctyp t2 ) ) ) | TyQuo ( loc , s ) -> mktyp loc ( Ptyp_var s ) | TyRec ( loc , _ ) -> error loc " record type not allowed here " | TySum ( loc , _ ) -> error loc " sum type not allowed here " | TyPrv ( loc , _ ) -> error loc " private type not allowed here " | TyMut ( loc , _ ) -> error loc " mutable type not allowed here " | TyOr ( loc , _ , _ ) -> error loc " type1 | type2 not allowed here " | TyAnd ( loc , _ , _ ) -> error loc " type1 and type2 not allowed here " | TyOf ( loc , _ , _ ) -> error loc " type1 of type2 not allowed here " | TyCol ( loc , _ , _ ) -> error loc " type1 : type2 not allowed here " | TySem ( loc , _ , _ ) -> error loc " type1 ; type2 not allowed here " | Ast . TyTup ( loc , ( Ast . TySta ( _ , t1 , t2 ) ) ) -> mktyp loc ( Ptyp_tuple ( List . map ctyp ( list_of_ctyp t1 ( list_of_ctyp t2 [ ] ) ) ) ) | Ast . TyVrnEq ( loc , t ) -> mktyp loc ( Ptyp_variant ( ( row_field t ) , true , None ) ) | Ast . TyVrnSup ( loc , t ) -> mktyp loc ( Ptyp_variant ( ( row_field t ) , false , None ) ) | Ast . TyVrnInf ( loc , t ) -> mktyp loc ( Ptyp_variant ( ( row_field t ) , true , ( Some [ ] ) ) ) | Ast . TyVrnInfSup ( loc , t , t ' ) -> mktyp loc ( Ptyp_variant ( ( row_field t ) , true , ( Some ( name_tags t ' ) ) ) ) | TyAnt ( loc , _ ) -> error loc " antiquotation not allowed here " | TyOfAmp ( _ , _ , _ ) | TyAmp ( _ , _ , _ ) | TySta ( _ , _ , _ ) | TyCom ( _ , _ , _ ) | TyVrn ( _ , _ ) | TyQuM ( _ , _ ) | TyQuP ( _ , _ ) | TyDcl ( _ , _ , _ , _ , _ ) | TyObj ( _ , _ , ( RvAnt _ ) ) | TyNil _ | TyTup ( _ , _ ) -> assert false and row_field = function | Ast . TyNil _ -> [ ] | Ast . TyVrn ( _ , i ) -> [ Rtag ( i , true , [ ] ) ] | Ast . TyOfAmp ( _ , ( Ast . TyVrn ( _ , i ) ) , t ) -> [ Rtag ( i , true , ( List . map ctyp ( list_of_ctyp t [ ] ) ) ) ] | Ast . TyOf ( _ , ( Ast . TyVrn ( _ , i ) ) , t ) -> [ Rtag ( i , false , ( List . map ctyp ( list_of_ctyp t [ ] ) ) ) ] | Ast . TyOr ( _ , t1 , t2 ) -> ( row_field t1 ) @ ( row_field t2 ) | t -> [ Rinherit ( ctyp t ) ] and name_tags = function | Ast . TyApp ( _ , t1 , t2 ) -> ( name_tags t1 ) @ ( name_tags t2 ) | Ast . TyVrn ( _ , s ) -> [ s ] | _ -> assert false and meth_list fl acc = match fl with | Ast . TyNil _ -> acc | Ast . TySem ( _ , t1 , t2 ) -> meth_list t1 ( meth_list t2 acc ) | Ast . TyCol ( loc , ( Ast . TyId ( _ , ( Ast . IdLid ( _ , lab ) ) ) ) , t ) -> ( mkfield loc ( Pfield ( lab , ( mkpolytype ( ctyp t ) ) ) ) ) :: acc | _ -> assert false and package_type_constraints wc acc = match wc with | Ast . WcNil _ -> acc | Ast . WcTyp ( _ , ( Ast . TyId ( _ , ( Ast . IdLid ( _ , id ) ) ) ) , ct ) -> ( id , ( ctyp ct ) ) :: acc | Ast . WcAnd ( _ , wc1 , wc2 ) -> package_type_constraints wc1 ( package_type_constraints wc2 acc ) | _ -> error ( loc_of_with_constr wc ) " unexpected ` with constraint ' for a package type " and package_type : module_type -> package_type = function | Ast . MtWit ( _ , ( Ast . MtId ( _ , i ) ) , wc ) -> ( ( long_uident i ) , ( package_type_constraints wc [ ] ) ) | Ast . MtId ( _ , i ) -> ( ( long_uident i ) , [ ] ) | mt -> error ( loc_of_module_type mt ) " unexpected package type " let mktype loc tl cl tk tp tm = let ( params , variance ) = List . split tl in { ptype_params = params ; ptype_cstrs = cl ; ptype_kind = tk ; ptype_private = tp ; ptype_manifest = tm ; ptype_loc = mkloc loc ; ptype_variance = variance ; } let mkprivate ' m = if m then Private else Public let mkprivate = function | Ast . PrPrivate -> Private | Ast . PrNil -> Public | _ -> assert false let mktrecord = function | Ast . TyCol ( loc , ( Ast . TyId ( _ , ( Ast . IdLid ( _ , s ) ) ) ) , ( Ast . TyMut ( _ , t ) ) ) -> ( s , Mutable , ( mkpolytype ( ctyp t ) ) , ( mkloc loc ) ) | Ast . TyCol ( loc , ( Ast . TyId ( _ , ( Ast . IdLid ( _ , s ) ) ) ) , t ) -> ( s , Immutable , ( mkpolytype ( ctyp t ) ) , ( mkloc loc ) ) | _ -> assert false let mkvariant = function | Ast . TyId ( loc , ( Ast . IdUid ( _ , s ) ) ) -> ( ( conv_con s ) , [ ] , ( mkloc loc ) ) | Ast . TyOf ( loc , ( Ast . TyId ( _ , ( Ast . IdUid ( _ , s ) ) ) ) , t ) -> ( ( conv_con s ) , ( List . map ctyp ( list_of_ctyp t [ ] ) ) , ( mkloc loc ) ) | _ -> assert false let rec type_decl tl cl loc m pflag = function | Ast . TyMan ( _ , t1 , t2 ) -> type_decl tl cl loc ( Some ( ctyp t1 ) ) pflag t2 | Ast . TyPrv ( _ , t ) -> type_decl tl cl loc m true t | Ast . TyRec ( _ , t ) -> mktype loc tl cl ( Ptype_record ( List . map mktrecord ( list_of_ctyp t [ ] ) ) ) ( mkprivate ' pflag ) m | Ast . TySum ( _ , t ) -> mktype loc tl cl ( Ptype_variant ( List . map mkvariant ( list_of_ctyp t [ ] ) ) ) ( mkprivate ' pflag ) m | t -> if m <> None then error loc " only one manifest type allowed by definition " else ( let m = match t with | Ast . TyNil _ -> None | _ -> Some ( ctyp t ) in mktype loc tl cl Ptype_abstract ( mkprivate ' pflag ) m ) let type_decl tl cl t = type_decl tl cl ( loc_of_ctyp t ) None false t let mkvalue_desc t p = { pval_type = ctyp t ; pval_prim = p ; } let rec list_of_meta_list = function | Ast . LNil -> [ ] | Ast . LCons ( x , xs ) -> x :: ( list_of_meta_list xs ) | Ast . LAnt _ -> assert false let mkmutable = function | Ast . MuMutable -> Mutable | Ast . MuNil -> Immutable | _ -> assert false let paolab lab p = match ( lab , p ) with | ( " " , ( Ast . PaId ( _ , ( Ast . IdLid ( _ , i ) ) ) | Ast . PaTyc ( _ , ( Ast . PaId ( _ , ( Ast . IdLid ( _ , i ) ) ) ) , _ ) ) ) -> i | ( " " , p ) -> error ( loc_of_patt p ) " bad ast in label " | _ -> lab let opt_private_ctyp = function | Ast . TyPrv ( _ , t ) -> ( Ptype_abstract , Private , ( ctyp t ) ) | t -> ( Ptype_abstract , Public , ( ctyp t ) ) let rec type_parameters t acc = match t with | Ast . TyApp ( _ , t1 , t2 ) -> type_parameters t1 ( type_parameters t2 acc ) | Ast . TyQuP ( _ , s ) -> ( s , ( true , false ) ) :: acc | Ast . TyQuM ( _ , s ) -> ( s , ( false , true ) ) :: acc | Ast . TyQuo ( _ , s ) -> ( s , ( false , false ) ) :: acc | _ -> assert false let rec class_parameters t acc = match t with | Ast . TyCom ( _ , t1 , t2 ) -> class_parameters t1 ( class_parameters t2 acc ) | Ast . TyQuP ( _ , s ) -> ( s , ( true , false ) ) :: acc | Ast . TyQuM ( _ , s ) -> ( s , ( false , true ) ) :: acc | Ast . TyQuo ( _ , s ) -> ( s , ( false , false ) ) :: acc | _ -> assert false let rec type_parameters_and_type_name t acc = match t with | Ast . TyApp ( _ , t1 , t2 ) -> type_parameters_and_type_name t1 ( type_parameters t2 acc ) | Ast . TyId ( _ , i ) -> ( ( ident i ) , acc ) | _ -> assert false let mkwithtyp pwith_type loc id_tpl ct = let ( id , tpl ) = type_parameters_and_type_name id_tpl [ ] in let ( params , variance ) = List . split tpl in let ( kind , priv , ct ) = opt_private_ctyp ct in ( id , ( pwith_type { ptype_params = params ; ptype_cstrs = [ ] ; ptype_kind = kind ; ptype_private = priv ; ptype_manifest = Some ct ; ptype_loc = mkloc loc ; ptype_variance = variance ; } ) ) let rec mkwithc wc acc = match wc with | Ast . WcNil _ -> acc | Ast . WcTyp ( loc , id_tpl , ct ) -> ( mkwithtyp ( fun x -> Pwith_type x ) loc id_tpl ct ) :: acc | Ast . WcMod ( _ , i1 , i2 ) -> ( ( long_uident i1 ) , ( Pwith_module ( long_uident i2 ) ) ) :: acc | Ast . WcTyS ( loc , id_tpl , ct ) -> ( mkwithtyp ( fun x -> Pwith_typesubst x ) loc id_tpl ct ) :: acc | Ast . WcMoS ( _ , i1 , i2 ) -> ( ( long_uident i1 ) , ( Pwith_modsubst ( long_uident i2 ) ) ) :: acc | Ast . WcAnd ( _ , wc1 , wc2 ) -> mkwithc wc1 ( mkwithc wc2 acc ) | Ast . WcAnt ( loc , _ ) -> error loc " bad with constraint ( antiquotation ) " let rec patt_fa al = function | PaApp ( _ , f , a ) -> patt_fa ( a :: al ) f | f -> ( f , al ) let rec deep_mkrangepat loc c1 c2 = if c1 = c2 then mkghpat loc ( Ppat_constant ( Const_char c1 ) ) else mkghpat loc ( Ppat_or ( ( mkghpat loc ( Ppat_constant ( Const_char c1 ) ) ) , ( deep_mkrangepat loc ( Char . chr ( ( Char . code c1 ) + 1 ) ) c2 ) ) ) let rec mkrangepat loc c1 c2 = if c1 > c2 then mkrangepat loc c2 c1 else if c1 = c2 then mkpat loc ( Ppat_constant ( Const_char c1 ) ) else mkpat loc ( Ppat_or ( ( mkghpat loc ( Ppat_constant ( Const_char c1 ) ) ) , ( deep_mkrangepat loc ( Char . chr ( ( Char . code c1 ) + 1 ) ) c2 ) ) ) let rec patt = function | Ast . PaId ( loc , ( Ast . IdLid ( _ , s ) ) ) -> mkpat loc ( Ppat_var s ) | Ast . PaId ( loc , i ) -> let p = Ppat_construct ( ( long_uident ~ conv_con i ) , None , ( constructors_arity ( ) ) ) in mkpat loc p | PaAli ( loc , p1 , p2 ) -> let ( p , i ) = ( match ( p1 , p2 ) with | ( p , Ast . PaId ( _ , ( Ast . IdLid ( _ , s ) ) ) ) -> ( p , s ) | ( Ast . PaId ( _ , ( Ast . IdLid ( _ , s ) ) ) , p ) -> ( p , s ) | _ -> error loc " invalid alias pattern " ) in mkpat loc ( Ppat_alias ( ( patt p ) , i ) ) | PaAnt ( loc , _ ) -> error loc " antiquotation not allowed here " | PaAny loc -> mkpat loc Ppat_any | Ast . PaApp ( loc , ( Ast . PaId ( _ , ( Ast . IdUid ( _ , s ) ) ) ) , ( Ast . PaTup ( _ , ( Ast . PaAny loc_any ) ) ) ) -> mkpat loc ( Ppat_construct ( ( lident ( conv_con s ) ) , ( Some ( mkpat loc_any Ppat_any ) ) , false ) ) | ( PaApp ( loc , _ , _ ) as f ) -> let ( f , al ) = patt_fa [ ] f in let al = List . map patt al in ( match ( patt f ) . ppat_desc with | Ppat_construct ( li , None , _ ) -> if constructors_arity ( ) then mkpat loc ( Ppat_construct ( li , ( Some ( mkpat loc ( Ppat_tuple al ) ) ) , true ) ) else ( let a = match al with | [ a ] -> a | _ -> mkpat loc ( Ppat_tuple al ) in mkpat loc ( Ppat_construct ( li , ( Some a ) , false ) ) ) | Ppat_variant ( s , None ) -> let a = if constructors_arity ( ) then mkpat loc ( Ppat_tuple al ) else ( match al with | [ a ] -> a | _ -> mkpat loc ( Ppat_tuple al ) ) in mkpat loc ( Ppat_variant ( s , ( Some a ) ) ) | _ -> error ( loc_of_patt f ) " this is not a constructor , it cannot be applied in a pattern " ) | PaArr ( loc , p ) -> mkpat loc ( Ppat_array ( List . map patt ( list_of_patt p [ ] ) ) ) | PaChr ( loc , s ) -> mkpat loc ( Ppat_constant ( Const_char ( char_of_char_token loc s ) ) ) | PaInt ( loc , s ) -> let i = ( try int_of_string s with | Failure _ -> error loc " Integer literal exceeds the range of representable integers of type int " ) in mkpat loc ( Ppat_constant ( Const_int i ) ) | PaInt32 ( loc , s ) -> let i32 = ( try Int32 . of_string s with | Failure _ -> error loc " Integer literal exceeds the range of representable integers of type int32 " ) in mkpat loc ( Ppat_constant ( Const_int32 i32 ) ) | PaInt64 ( loc , s ) -> let i64 = ( try Int64 . of_string s with | Failure _ -> error loc " Integer literal exceeds the range of representable integers of type int64 " ) in mkpat loc ( Ppat_constant ( Const_int64 i64 ) ) | PaNativeInt ( loc , s ) -> let nati = ( try Nativeint . of_string s with | Failure _ -> error loc " Integer literal exceeds the range of representable integers of type nativeint " ) in mkpat loc ( Ppat_constant ( Const_nativeint nati ) ) | PaFlo ( loc , s ) -> mkpat loc ( Ppat_constant ( Const_float ( remove_underscores s ) ) ) | PaLab ( loc , _ , _ ) -> error loc " labeled pattern not allowed here " | PaOlb ( loc , _ , _ ) | PaOlbi ( loc , _ , _ , _ ) -> error loc " labeled pattern not allowed here " | PaOrp ( loc , p1 , p2 ) -> mkpat loc ( Ppat_or ( ( patt p1 ) , ( patt p2 ) ) ) | PaRng ( loc , p1 , p2 ) -> ( match ( p1 , p2 ) with | ( PaChr ( loc1 , c1 ) , PaChr ( loc2 , c2 ) ) -> let c1 = char_of_char_token loc1 c1 in let c2 = char_of_char_token loc2 c2 in mkrangepat loc c1 c2 | _ -> error loc " range pattern allowed only for characters " ) | PaRec ( loc , p ) -> let ps = list_of_patt p [ ] in let is_wildcard = ( function | Ast . PaAny _ -> true | _ -> false ) in let ( wildcards , ps ) = List . partition is_wildcard ps in let is_closed = if wildcards = [ ] then Closed else Open in mkpat loc ( Ppat_record ( ( ( List . map mklabpat ps ) , is_closed ) ) ) | PaStr ( loc , s ) -> mkpat loc ( Ppat_constant ( Const_string ( string_of_string_token loc s ) ) ) | Ast . PaTup ( loc , ( Ast . PaCom ( _ , p1 , p2 ) ) ) -> mkpat loc ( Ppat_tuple ( List . map patt ( list_of_patt p1 ( list_of_patt p2 [ ] ) ) ) ) | Ast . PaTup ( loc , _ ) -> error loc " singleton tuple pattern " | PaTyc ( loc , p , t ) -> mkpat loc ( Ppat_constraint ( ( patt p ) , ( ctyp t ) ) ) | PaTyp ( loc , i ) -> mkpat loc ( Ppat_type ( long_type_ident i ) ) | PaVrn ( loc , s ) -> mkpat loc ( Ppat_variant ( s , None ) ) | PaLaz ( loc , p ) -> mkpat loc ( Ppat_lazy ( patt p ) ) | ( PaEq ( _ , _ , _ ) | PaSem ( _ , _ , _ ) | PaCom ( _ , _ , _ ) | PaNil _ as p ) -> error ( loc_of_patt p ) " invalid pattern " and mklabpat = function | Ast . PaEq ( _ , i , p ) -> ( ( ident ~ conv_lid : conv_lab i ) , ( patt p ) ) | p -> error ( loc_of_patt p ) " invalid pattern " let rec expr_fa al = function | ExApp ( _ , f , a ) -> expr_fa ( a :: al ) f | f -> ( f , al ) let rec class_expr_fa al = function | CeApp ( _ , ce , a ) -> class_expr_fa ( a :: al ) ce | ce -> ( ce , al ) let rec sep_expr_acc l = function | ExAcc ( _ , e1 , e2 ) -> sep_expr_acc ( sep_expr_acc l e2 ) e1 | ( Ast . ExId ( loc , ( Ast . IdUid ( _ , s ) ) ) as e ) -> ( match l with | [ ] -> [ ( loc , [ ] , e ) ] | ( loc ' , sl , e ) :: l -> ( ( Loc . merge loc loc ' ) , ( s :: sl ) , e ) :: l ) | Ast . ExId ( _ , ( ( Ast . IdAcc ( _ , _ , _ ) as i ) ) ) -> let rec normalize_acc = ( function | Ast . IdAcc ( _loc , i1 , i2 ) -> Ast . ExAcc ( _loc , ( normalize_acc i1 ) , ( normalize_acc i2 ) ) | Ast . IdApp ( _loc , i1 , i2 ) -> Ast . ExApp ( _loc , ( normalize_acc i1 ) , ( normalize_acc i2 ) ) | ( Ast . IdAnt ( _loc , _ ) | Ast . IdUid ( _loc , _ ) | Ast . IdLid ( _loc , _ ) as i ) -> Ast . ExId ( _loc , i ) ) in sep_expr_acc l ( normalize_acc i ) | e -> ( ( loc_of_expr e ) , [ ] , e ) :: l let override_flag loc = function | Ast . OvOverride -> Override | Ast . OvNil -> Fresh | _ -> error loc " antiquotation not allowed here " let list_of_opt_ctyp ot acc = match ot with | Ast . TyNil _ -> acc | t -> list_of_ctyp t acc let rec expr = function | Ast . ExAcc ( loc , x , ( Ast . ExId ( _ , ( Ast . IdLid ( _ , " val " ) ) ) ) ) -> mkexp loc ( Pexp_apply ( ( mkexp loc ( Pexp_ident ( Lident " " ) ) ) , ! [ ( " " , ( expr x ) ) ] ) ) | ( ExAcc ( loc , _ , _ ) | Ast . ExId ( loc , ( Ast . IdAcc ( _ , _ , _ ) ) ) as e ) -> let ( e , l ) = ( match sep_expr_acc [ ] e with | ( loc , ml , Ast . ExId ( _ , ( Ast . IdUid ( _ , s ) ) ) ) :: l -> let ca = constructors_arity ( ) in ( ( mkexp loc ( Pexp_construct ( ( mkli ( conv_con s ) ml ) , None , ca ) ) ) , l ) | ( loc , ml , Ast . ExId ( _ , ( Ast . IdLid ( _ , s ) ) ) ) :: l -> ( ( mkexp loc ( Pexp_ident ( mkli s ml ) ) ) , l ) | ( _ , [ ] , e ) :: l -> ( ( expr e ) , l ) | _ -> error loc " bad ast in expression " ) in let ( _ , e ) = List . fold_left ( fun ( loc_bp , e1 ) ( loc_ep , ml , e2 ) -> match e2 with | Ast . ExId ( _ , ( Ast . IdLid ( _ , s ) ) ) -> let loc = Loc . merge loc_bp loc_ep in ( loc , ( mkexp loc ( Pexp_field ( e1 , ( mkli ( conv_lab s ) ml ) ) ) ) ) | _ -> error ( loc_of_expr e2 ) " lowercase identifier expected " ) ( loc , e ) l in e | ExAnt ( loc , _ ) -> error loc " antiquotation not allowed here " | ( ExApp ( loc , _ , _ ) as f ) -> let ( f , al ) = expr_fa [ ] f in let al = List . map label_expr al in ( match ( expr f ) . pexp_desc with | Pexp_construct ( li , None , _ ) -> let al = List . map snd al in if constructors_arity ( ) then mkexp loc ( Pexp_construct ( li , ( Some ( mkexp loc ( Pexp_tuple al ) ) ) , true ) ) else ( let a = match al with | [ a ] -> a | _ -> mkexp loc ( Pexp_tuple al ) in mkexp loc ( Pexp_construct ( li , ( Some a ) , false ) ) ) | Pexp_variant ( s , None ) -> let al = List . map snd al in let a = if constructors_arity ( ) then mkexp loc ( Pexp_tuple al ) else ( match al with | [ a ] -> a | _ -> mkexp loc ( Pexp_tuple al ) ) in mkexp loc ( Pexp_variant ( s , ( Some a ) ) ) | _ -> mkexp loc ( Pexp_apply ( ( expr f ) , al ) ) ) | ExAre ( loc , e1 , e2 ) -> mkexp loc ( Pexp_apply ( ( mkexp loc ( Pexp_ident ( array_function " Array " " get " ) ) ) , [ ( " " , ( expr e1 ) ) ; ( " " , ( expr e2 ) ) ] ) ) | ExArr ( loc , e ) -> mkexp loc ( Pexp_array ( List . map expr ( list_of_expr e [ ] ) ) ) | ExAsf loc -> mkexp loc Pexp_assertfalse | ExAss ( loc , e , v ) -> let e = ( match e with | Ast . ExAcc ( loc , x , ( Ast . ExId ( _ , ( Ast . IdLid ( _ , " val " ) ) ) ) ) -> Pexp_apply ( ( mkexp loc ( Pexp_ident ( Lident " " ) ) ) , := [ ( " " , ( expr x ) ) ; ( " " , ( expr v ) ) ] ) | ExAcc ( loc , _ , _ ) -> ( match ( expr e ) . pexp_desc with | Pexp_field ( e , lab ) -> Pexp_setfield ( e , lab , ( expr v ) ) | _ -> error loc " bad record access " ) | ExAre ( _ , e1 , e2 ) -> Pexp_apply ( ( mkexp loc ( Pexp_ident ( array_function " Array " " set " ) ) ) , [ ( " " , ( expr e1 ) ) ; ( " " , ( expr e2 ) ) ; ( " " , ( expr v ) ) ] ) | Ast . ExId ( _ , ( Ast . IdLid ( _ , lab ) ) ) -> Pexp_setinstvar ( lab , ( expr v ) ) | ExSte ( _ , e1 , e2 ) -> Pexp_apply ( ( mkexp loc ( Pexp_ident ( array_function " String " " set " ) ) ) , [ ( " " , ( expr e1 ) ) ; ( " " , ( expr e2 ) ) ; ( " " , ( expr v ) ) ] ) | _ -> error loc " bad left part of assignment " ) in mkexp loc e | ExAsr ( loc , e ) -> mkexp loc ( Pexp_assert ( expr e ) ) | ExChr ( loc , s ) -> mkexp loc ( Pexp_constant ( Const_char ( char_of_char_token loc s ) ) ) | ExCoe ( loc , e , t1 , t2 ) -> let t1 = ( match t1 with | Ast . TyNil _ -> None | t -> Some ( ctyp t ) ) in mkexp loc ( Pexp_constraint ( ( expr e ) , t1 , ( Some ( ctyp t2 ) ) ) ) | ExFlo ( loc , s ) -> mkexp loc ( Pexp_constant ( Const_float ( remove_underscores s ) ) ) | ExFor ( loc , i , e1 , e2 , df , el ) -> let e3 = ExSeq ( loc , el ) in mkexp loc ( Pexp_for ( i , ( expr e1 ) , ( expr e2 ) , ( mkdirection df ) , ( expr e3 ) ) ) | Ast . ExFun ( loc , ( Ast . McArr ( _ , ( PaLab ( _ , lab , po ) ) , w , e ) ) ) -> mkexp loc ( Pexp_function ( lab , None , [ ( ( patt_of_lab loc lab po ) , ( when_expr e w ) ) ] ) ) | Ast . ExFun ( loc , ( Ast . McArr ( _ , ( PaOlbi ( _ , lab , p , e1 ) ) , w , e2 ) ) ) -> let lab = paolab lab p in mkexp loc ( Pexp_function ( ( " " ? ^ lab ) , ( Some ( expr e1 ) ) , [ ( ( patt p ) , ( when_expr e2 w ) ) ] ) ) | Ast . ExFun ( loc , ( Ast . McArr ( _ , ( PaOlb ( _ , lab , p ) ) , w , e ) ) ) -> let lab = paolab lab p in mkexp loc ( Pexp_function ( ( " " ? ^ lab ) , None , [ ( ( patt_of_lab loc lab p ) , ( when_expr e w ) ) ] ) ) | ExFun ( loc , a ) -> mkexp loc ( Pexp_function ( " " , None , ( match_case a [ ] ) ) ) | ExIfe ( loc , e1 , e2 , e3 ) -> mkexp loc ( Pexp_ifthenelse ( ( expr e1 ) , ( expr e2 ) , ( Some ( expr e3 ) ) ) ) | ExInt ( loc , s ) -> let i = ( try int_of_string s with | Failure _ -> error loc " Integer literal exceeds the range of representable integers of type int " ) in mkexp loc ( Pexp_constant ( Const_int i ) ) | ExInt32 ( loc , s ) -> let i32 = ( try Int32 . of_string s with | Failure _ -> error loc " Integer literal exceeds the range of representable integers of type int32 " ) in mkexp loc ( Pexp_constant ( Const_int32 i32 ) ) | ExInt64 ( loc , s ) -> let i64 = ( try Int64 . of_string s with | Failure _ -> error loc " Integer literal exceeds the range of representable integers of type int64 . 1 " ) in mkexp loc ( Pexp_constant ( Const_int64 i64 ) ) | ExNativeInt ( loc , s ) -> let nati = ( try Nativeint . of_string s with | Failure _ -> error loc " Integer literal exceeds the range of representable integers of type nativeint " ) in mkexp loc ( Pexp_constant ( Const_nativeint nati ) ) | ExLab ( loc , _ , _ ) -> error loc " labeled expression not allowed here " | ExLaz ( loc , e ) -> mkexp loc ( Pexp_lazy ( expr e ) ) | ExLet ( loc , rf , bi , e ) -> mkexp loc ( Pexp_let ( ( mkrf rf ) , ( binding bi [ ] ) , ( expr e ) ) ) | ExLmd ( loc , i , me , e ) -> mkexp loc ( Pexp_letmodule ( i , ( module_expr me ) , ( expr e ) ) ) | ExMat ( loc , e , a ) -> mkexp loc ( Pexp_match ( ( expr e ) , ( match_case a [ ] ) ) ) | ExNew ( loc , id ) -> mkexp loc ( Pexp_new ( long_type_ident id ) ) | ExObj ( loc , po , cfl ) -> let p = ( match po with | Ast . PaNil _ -> Ast . PaAny loc | p -> p ) in let cil = class_str_item cfl [ ] in mkexp loc ( Pexp_object ( ( ( patt p ) , cil ) ) ) | ExOlb ( loc , _ , _ ) -> error loc " labeled expression not allowed here " | ExOvr ( loc , iel ) -> mkexp loc ( Pexp_override ( mkideexp iel [ ] ) ) | ExRec ( loc , lel , eo ) -> ( match lel with | Ast . RbNil _ -> error loc " empty record " | _ -> let eo = ( match eo with | Ast . ExNil _ -> None | e -> Some ( expr e ) ) in mkexp loc ( Pexp_record ( ( mklabexp lel [ ] ) , eo ) ) ) | ExSeq ( _loc , e ) -> let rec loop = ( function | [ ] -> expr ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " ( ) " ) ) ) ) | [ e ] -> expr e | e :: el -> let _loc = Loc . merge ( loc_of_expr e ) _loc in mkexp _loc ( Pexp_sequence ( ( expr e ) , ( loop el ) ) ) ) in loop ( list_of_expr e [ ] ) | ExSnd ( loc , e , s ) -> mkexp loc ( Pexp_send ( ( expr e ) , s ) ) | ExSte ( loc , e1 , e2 ) -> mkexp loc ( Pexp_apply ( ( mkexp loc ( Pexp_ident ( array_function " String " " get " ) ) ) , [ ( " " , ( expr e1 ) ) ; ( " " , ( expr e2 ) ) ] ) ) | ExStr ( loc , s ) -> mkexp loc ( Pexp_constant ( Const_string ( string_of_string_token loc s ) ) ) | ExTry ( loc , e , a ) -> mkexp loc ( Pexp_try ( ( expr e ) , ( match_case a [ ] ) ) ) | Ast . ExTup ( loc , ( Ast . ExCom ( _ , e1 , e2 ) ) ) -> mkexp loc ( Pexp_tuple ( List . map expr ( list_of_expr e1 ( list_of_expr e2 [ ] ) ) ) ) | Ast . ExTup ( loc , _ ) -> error loc " singleton tuple " | ExTyc ( loc , e , t ) -> mkexp loc ( Pexp_constraint ( ( expr e ) , ( Some ( ctyp t ) ) , None ) ) | Ast . ExId ( loc , ( Ast . IdUid ( _ , " ( ) " ) ) ) -> mkexp loc ( Pexp_construct ( ( lident " ( ) " ) , None , true ) ) | Ast . ExId ( loc , ( Ast . IdLid ( _ , s ) ) ) -> mkexp loc ( Pexp_ident ( lident s ) ) | Ast . ExId ( loc , ( Ast . IdUid ( _ , s ) ) ) -> mkexp loc ( Pexp_construct ( ( lident ( conv_con s ) ) , None , true ) ) | ExVrn ( loc , s ) -> mkexp loc ( Pexp_variant ( s , None ) ) | ExWhi ( loc , e1 , el ) -> let e2 = ExSeq ( loc , el ) in mkexp loc ( Pexp_while ( ( expr e1 ) , ( expr e2 ) ) ) | Ast . ExOpI ( loc , i , e ) -> mkexp loc ( Pexp_open ( ( long_uident i ) , ( expr e ) ) ) | Ast . ExPkg ( loc , ( Ast . MeTyc ( _ , me , pt ) ) ) -> mkexp loc ( Pexp_pack ( ( module_expr me ) , ( package_type pt ) ) ) | Ast . ExPkg ( loc , _ ) -> error loc " ( module_expr : package_type ) expected here " | ExFUN ( loc , i , e ) -> mkexp loc ( Pexp_newtype ( i , ( expr e ) ) ) | Ast . ExCom ( loc , _ , _ ) -> error loc " expr , expr : not allowed here " | Ast . ExSem ( loc , _ , _ ) -> error loc " expr ; expr : not allowed here , use do { . . . } or [ . . . ] || to surround them " | ( ExId ( _ , _ ) | ExNil _ as e ) -> error ( loc_of_expr e ) " invalid expr " and patt_of_lab _loc lab = function | Ast . PaNil _ -> patt ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , lab ) ) ) ) | p -> patt p and expr_of_lab _loc lab = function | Ast . ExNil _ -> expr ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , lab ) ) ) ) | e -> expr e and label_expr = function | ExLab ( loc , lab , eo ) -> ( lab , ( expr_of_lab loc lab eo ) ) | ExOlb ( loc , lab , eo ) -> ( ( " " ? ^ lab ) , ( expr_of_lab loc lab eo ) ) | e -> ( " " , ( expr e ) ) and binding x acc = match x with | Ast . BiAnd ( _ , x , y ) -> binding x ( binding y acc ) | Ast . BiEq ( _loc , p , ( Ast . ExTyc ( _ , e , ( Ast . TyPol ( _ , vs , ty ) ) ) ) ) -> ( ( patt ( Ast . PaTyc ( _loc , p , ( Ast . TyPol ( _loc , vs , ty ) ) ) ) ) , ( expr e ) ) :: acc | Ast . BiEq ( _ , p , e ) -> ( ( patt p ) , ( expr e ) ) :: acc | Ast . BiNil _ -> acc | _ -> assert false and match_case x acc = match x with | Ast . McOr ( _ , x , y ) -> match_case x ( match_case y acc ) | Ast . McArr ( _ , p , w , e ) -> ( ( patt p ) , ( when_expr e w ) ) :: acc | Ast . McNil _ -> acc | _ -> assert false and when_expr e w = match w with | Ast . ExNil _ -> expr e | w -> mkexp ( loc_of_expr w ) ( Pexp_when ( ( expr w ) , ( expr e ) ) ) and mklabexp x acc = match x with | Ast . RbSem ( _ , x , y ) -> mklabexp x ( mklabexp y acc ) | Ast . RbEq ( _ , i , e ) -> ( ( ident ~ conv_lid : conv_lab i ) , ( expr e ) ) :: acc | _ -> assert false and mkideexp x acc = match x with | Ast . RbNil _ -> acc | Ast . RbSem ( _ , x , y ) -> mkideexp x ( mkideexp y acc ) | Ast . RbEq ( _ , ( Ast . IdLid ( _ , s ) ) , e ) -> ( s , ( expr e ) ) :: acc | _ -> assert false and mktype_decl x acc = match x with | Ast . TyAnd ( _ , x , y ) -> mktype_decl x ( mktype_decl y acc ) | Ast . TyDcl ( _ , c , tl , td , cl ) -> let cl = List . map ( fun ( t1 , t2 ) -> let loc = Loc . merge ( loc_of_ctyp t1 ) ( loc_of_ctyp t2 ) in ( ( ctyp t1 ) , ( ctyp t2 ) , ( mkloc loc ) ) ) cl in ( c , ( type_decl ( List . fold_right type_parameters tl [ ] ) cl td ) ) :: acc | _ -> assert false and module_type = function | Ast . MtNil loc -> error loc " abstract / nil module type not allowed here " | Ast . MtId ( loc , i ) -> mkmty loc ( Pmty_ident ( long_uident i ) ) | Ast . MtFun ( loc , n , nt , mt ) -> mkmty loc ( Pmty_functor ( n , ( module_type nt ) , ( module_type mt ) ) ) | Ast . MtQuo ( loc , _ ) -> error loc " module type variable not allowed here " | Ast . MtSig ( loc , sl ) -> mkmty loc ( Pmty_signature ( sig_item sl [ ] ) ) | Ast . MtWit ( loc , mt , wc ) -> mkmty loc ( Pmty_with ( ( module_type mt ) , ( mkwithc wc [ ] ) ) ) | Ast . MtAnt ( _ , _ ) -> assert false and sig_item s l = match s with | Ast . SgNil _ -> l | SgCls ( loc , cd ) -> ( mksig loc ( Psig_class ( List . map class_info_class_type ( list_of_class_type cd [ ] ) ) ) ) :: l | SgClt ( loc , ctd ) -> ( mksig loc ( Psig_class_type ( List . map class_info_class_type ( list_of_class_type ctd [ ] ) ) ) ) :: l | Ast . SgSem ( _ , sg1 , sg2 ) -> sig_item sg1 ( sig_item sg2 l ) | SgDir ( _ , _ , _ ) -> l | Ast . SgExc ( loc , ( Ast . TyId ( _ , ( Ast . IdUid ( _ , s ) ) ) ) ) -> ( mksig loc ( Psig_exception ( ( conv_con s ) , [ ] ) ) ) :: l | Ast . SgExc ( loc , ( Ast . TyOf ( _ , ( Ast . TyId ( _ , ( Ast . IdUid ( _ , s ) ) ) ) , t ) ) ) -> ( mksig loc ( Psig_exception ( ( conv_con s ) , ( List . map ctyp ( list_of_ctyp t [ ] ) ) ) ) ) :: l | SgExc ( _ , _ ) -> assert false | SgExt ( loc , n , t , sl ) -> ( mksig loc ( Psig_value ( n , ( mkvalue_desc t ( list_of_meta_list sl ) ) ) ) ) :: l | SgInc ( loc , mt ) -> ( mksig loc ( Psig_include ( module_type mt ) ) ) :: l | SgMod ( loc , n , mt ) -> ( mksig loc ( Psig_module ( n , ( module_type mt ) ) ) ) :: l | SgRecMod ( loc , mb ) -> ( mksig loc ( Psig_recmodule ( module_sig_binding mb [ ] ) ) ) :: l | SgMty ( loc , n , mt ) -> let si = ( match mt with | MtQuo ( _ , _ ) -> Pmodtype_abstract | _ -> Pmodtype_manifest ( module_type mt ) ) in ( mksig loc ( Psig_modtype ( n , si ) ) ) :: l | SgOpn ( loc , id ) -> ( mksig loc ( Psig_open ( long_uident id ) ) ) :: l | SgTyp ( loc , tdl ) -> ( mksig loc ( Psig_type ( mktype_decl tdl [ ] ) ) ) :: l | SgVal ( loc , n , t ) -> ( mksig loc ( Psig_value ( n , ( mkvalue_desc t [ ] ) ) ) ) :: l | Ast . SgAnt ( loc , _ ) -> error loc " antiquotation in sig_item " and module_sig_binding x acc = match x with | Ast . MbAnd ( _ , x , y ) -> module_sig_binding x ( module_sig_binding y acc ) | Ast . MbCol ( _ , s , mt ) -> ( s , ( module_type mt ) ) :: acc | _ -> assert false and module_str_binding x acc = match x with | Ast . MbAnd ( _ , x , y ) -> module_str_binding x ( module_str_binding y acc ) | Ast . MbColEq ( _ , s , mt , me ) -> ( s , ( module_type mt ) , ( module_expr me ) ) :: acc | _ -> assert false and module_expr = function | Ast . MeNil loc -> error loc " nil module expression " | Ast . MeId ( loc , i ) -> mkmod loc ( Pmod_ident ( long_uident i ) ) | Ast . MeApp ( loc , me1 , me2 ) -> mkmod loc ( Pmod_apply ( ( module_expr me1 ) , ( module_expr me2 ) ) ) | Ast . MeFun ( loc , n , mt , me ) -> mkmod loc ( Pmod_functor ( n , ( module_type mt ) , ( module_expr me ) ) ) | Ast . MeStr ( loc , sl ) -> mkmod loc ( Pmod_structure ( str_item sl [ ] ) ) | Ast . MeTyc ( loc , me , mt ) -> mkmod loc ( Pmod_constraint ( ( module_expr me ) , ( module_type mt ) ) ) | Ast . MePkg ( loc , ( Ast . ExTyc ( _ , e , ( Ast . TyPkg ( _ , pt ) ) ) ) ) -> mkmod loc ( Pmod_unpack ( ( expr e ) , ( package_type pt ) ) ) | Ast . MePkg ( loc , _ ) -> error loc " ( value expr ) not supported yet " | Ast . MeAnt ( loc , _ ) -> error loc " antiquotation in module_expr " and str_item s l = match s with | Ast . StNil _ -> l | StCls ( loc , cd ) -> ( mkstr loc ( Pstr_class ( List . map class_info_class_expr ( list_of_class_expr cd [ ] ) ) ) ) :: l | StClt ( loc , ctd ) -> ( mkstr loc ( Pstr_class_type ( List . map class_info_class_type ( list_of_class_type ctd [ ] ) ) ) ) :: l | Ast . StSem ( _ , st1 , st2 ) -> str_item st1 ( str_item st2 l ) | StDir ( _ , _ , _ ) -> l | Ast . StExc ( loc , ( Ast . TyId ( _ , ( Ast . IdUid ( _ , s ) ) ) ) , Ast . ONone ) -> ( mkstr loc ( Pstr_exception ( ( conv_con s ) , [ ] ) ) ) :: l | Ast . StExc ( loc , ( Ast . TyOf ( _ , ( Ast . TyId ( _ , ( Ast . IdUid ( _ , s ) ) ) ) , t ) ) , Ast . ONone ) -> ( mkstr loc ( Pstr_exception ( ( conv_con s ) , ( List . map ctyp ( list_of_ctyp t [ ] ) ) ) ) ) :: l | Ast . StExc ( loc , ( Ast . TyId ( _ , ( Ast . IdUid ( _ , s ) ) ) ) , ( Ast . OSome i ) ) -> ( mkstr loc ( Pstr_exn_rebind ( ( conv_con s ) , ( ident i ) ) ) ) :: l | StExc ( _ , _ , _ ) -> assert false | StExp ( loc , e ) -> ( mkstr loc ( Pstr_eval ( expr e ) ) ) :: l | StExt ( loc , n , t , sl ) -> ( mkstr loc ( Pstr_primitive ( n , ( mkvalue_desc t ( list_of_meta_list sl ) ) ) ) ) :: l | StInc ( loc , me ) -> ( mkstr loc ( Pstr_include ( module_expr me ) ) ) :: l | StMod ( loc , n , me ) -> ( mkstr loc ( Pstr_module ( n , ( module_expr me ) ) ) ) :: l | StRecMod ( loc , mb ) -> ( mkstr loc ( Pstr_recmodule ( module_str_binding mb [ ] ) ) ) :: l | StMty ( loc , n , mt ) -> ( mkstr loc ( Pstr_modtype ( n , ( module_type mt ) ) ) ) :: l | StOpn ( loc , id ) -> ( mkstr loc ( Pstr_open ( long_uident id ) ) ) :: l | StTyp ( loc , tdl ) -> ( mkstr loc ( Pstr_type ( mktype_decl tdl [ ] ) ) ) :: l | StVal ( loc , rf , bi ) -> ( mkstr loc ( Pstr_value ( ( mkrf rf ) , ( binding bi [ ] ) ) ) ) :: l | Ast . StAnt ( loc , _ ) -> error loc " antiquotation in str_item " and class_type = function | CtCon ( loc , ViNil , id , tl ) -> mkcty loc ( Pcty_constr ( ( long_class_ident id ) , ( List . map ctyp ( list_of_opt_ctyp tl [ ] ) ) ) ) | CtFun ( loc , ( TyLab ( _ , lab , t ) ) , ct ) -> mkcty loc ( Pcty_fun ( lab , ( ctyp t ) , ( class_type ct ) ) ) | CtFun ( loc , ( TyOlb ( loc1 , lab , t ) ) , ct ) -> let t = TyApp ( loc1 , ( Ast . TyId ( loc1 , ( Ast . IdLid ( loc1 , " option " ) ) ) ) , t ) in mkcty loc ( Pcty_fun ( ( " " ? ^ lab ) , ( ctyp t ) , ( class_type ct ) ) ) | CtFun ( loc , t , ct ) -> mkcty loc ( Pcty_fun ( " " , ( ctyp t ) , ( class_type ct ) ) ) | CtSig ( loc , t_o , ctfl ) -> let t = ( match t_o with | Ast . TyNil _ -> Ast . TyAny loc | t -> t ) in let cil = class_sig_item ctfl [ ] in mkcty loc ( Pcty_signature ( ( ( ctyp t ) , cil ) ) ) | CtCon ( loc , _ , _ , _ ) -> error loc " invalid virtual class inside a class type " | CtAnt ( _ , _ ) | CtEq ( _ , _ , _ ) | CtCol ( _ , _ , _ ) | CtAnd ( _ , _ , _ ) | CtNil _ -> assert false and class_info_class_expr ci = match ci with | CeEq ( _ , ( CeCon ( loc , vir , ( IdLid ( _ , name ) ) , params ) ) , ce ) -> let ( loc_params , ( params , variance ) ) = ( match params with | Ast . TyNil _ -> ( loc , ( [ ] , [ ] ) ) | t -> ( ( loc_of_ctyp t ) , ( List . split ( class_parameters t [ ] ) ) ) ) in { pci_virt = mkvirtual vir ; pci_params = ( params , ( mkloc loc_params ) ) ; pci_name = name ; pci_expr = class_expr ce ; pci_loc = mkloc loc ; pci_variance = variance ; } | ce -> error ( loc_of_class_expr ce ) " bad class definition " and class_info_class_type ci = match ci with | CtEq ( _ , ( CtCon ( loc , vir , ( IdLid ( _ , name ) ) , params ) ) , ct ) | CtCol ( _ , ( CtCon ( loc , vir , ( IdLid ( _ , name ) ) , params ) ) , ct ) -> let ( loc_params , ( params , variance ) ) = ( match params with | Ast . TyNil _ -> ( loc , ( [ ] , [ ] ) ) | t -> ( ( loc_of_ctyp t ) , ( List . split ( class_parameters t [ ] ) ) ) ) in { pci_virt = mkvirtual vir ; pci_params = ( params , ( mkloc loc_params ) ) ; pci_name = name ; pci_expr = class_type ct ; pci_loc = mkloc loc ; pci_variance = variance ; } | ct -> error ( loc_of_class_type ct ) " bad class / class type declaration / definition " and class_sig_item c l = match c with | Ast . CgNil _ -> l | CgCtr ( loc , t1 , t2 ) -> ( Pctf_cstr ( ( ( ctyp t1 ) , ( ctyp t2 ) , ( mkloc loc ) ) ) ) :: l | Ast . CgSem ( _ , csg1 , csg2 ) -> class_sig_item csg1 ( class_sig_item csg2 l ) | CgInh ( _ , ct ) -> ( Pctf_inher ( class_type ct ) ) :: l | CgMth ( loc , s , pf , t ) -> ( Pctf_meth ( ( s , ( mkprivate pf ) , ( mkpolytype ( ctyp t ) ) , ( mkloc loc ) ) ) ) :: l | CgVal ( loc , s , b , v , t ) -> ( Pctf_val ( ( s , ( mkmutable b ) , ( mkvirtual v ) , ( ctyp t ) , ( mkloc loc ) ) ) ) :: l | CgVir ( loc , s , b , t ) -> ( Pctf_virt ( ( s , ( mkprivate b ) , ( mkpolytype ( ctyp t ) ) , ( mkloc loc ) ) ) ) :: l | CgAnt ( _ , _ ) -> assert false and class_expr = function | ( CeApp ( loc , _ , _ ) as c ) -> let ( ce , el ) = class_expr_fa [ ] c in let el = List . map label_expr el in mkpcl loc ( Pcl_apply ( ( class_expr ce ) , el ) ) | CeCon ( loc , ViNil , id , tl ) -> mkpcl loc ( Pcl_constr ( ( long_class_ident id ) , ( List . map ctyp ( list_of_opt_ctyp tl [ ] ) ) ) ) | CeFun ( loc , ( PaLab ( _ , lab , po ) ) , ce ) -> mkpcl loc ( Pcl_fun ( lab , None , ( patt_of_lab loc lab po ) , ( class_expr ce ) ) ) | CeFun ( loc , ( PaOlbi ( _ , lab , p , e ) ) , ce ) -> let lab = paolab lab p in mkpcl loc ( Pcl_fun ( ( " " ? ^ lab ) , ( Some ( expr e ) ) , ( patt p ) , ( class_expr ce ) ) ) | CeFun ( loc , ( PaOlb ( _ , lab , p ) ) , ce ) -> let lab = paolab lab p in mkpcl loc ( Pcl_fun ( ( " " ? ^ lab ) , None , ( patt_of_lab loc lab p ) , ( class_expr ce ) ) ) | CeFun ( loc , p , ce ) -> mkpcl loc ( Pcl_fun ( " " , None , ( patt p ) , ( class_expr ce ) ) ) | CeLet ( loc , rf , bi , ce ) -> mkpcl loc ( Pcl_let ( ( mkrf rf ) , ( binding bi [ ] ) , ( class_expr ce ) ) ) | CeStr ( loc , po , cfl ) -> let p = ( match po with | Ast . PaNil _ -> Ast . PaAny loc | p -> p ) in let cil = class_str_item cfl [ ] in mkpcl loc ( Pcl_structure ( ( ( patt p ) , cil ) ) ) | CeTyc ( loc , ce , ct ) -> mkpcl loc ( Pcl_constraint ( ( class_expr ce ) , ( class_type ct ) ) ) | CeCon ( loc , _ , _ , _ ) -> error loc " invalid virtual class inside a class expression " | CeAnt ( _ , _ ) | CeEq ( _ , _ , _ ) | CeAnd ( _ , _ , _ ) | CeNil _ -> assert false and class_str_item c l = match c with | CrNil _ -> l | CrCtr ( loc , t1 , t2 ) -> ( Pcf_cstr ( ( ( ctyp t1 ) , ( ctyp t2 ) , ( mkloc loc ) ) ) ) :: l | Ast . CrSem ( _ , cst1 , cst2 ) -> class_str_item cst1 ( class_str_item cst2 l ) | CrInh ( loc , ov , ce , pb ) -> let opb = if pb = " " then None else Some pb in ( Pcf_inher ( ( override_flag loc ov ) , ( class_expr ce ) , opb ) ) :: l | CrIni ( _ , e ) -> ( Pcf_init ( expr e ) ) :: l | CrMth ( loc , s , ov , pf , e , t ) -> let t = ( match t with | Ast . TyNil _ -> None | t -> Some ( mkpolytype ( ctyp t ) ) ) in let e = mkexp loc ( Pexp_poly ( ( expr e ) , t ) ) in ( Pcf_meth ( ( s , ( mkprivate pf ) , ( override_flag loc ov ) , e , ( mkloc loc ) ) ) ) :: l | CrVal ( loc , s , ov , mf , e ) -> ( Pcf_val ( ( s , ( mkmutable mf ) , ( override_flag loc ov ) , ( expr e ) , ( mkloc loc ) ) ) ) :: l | CrVir ( loc , s , pf , t ) -> ( Pcf_virt ( ( s , ( mkprivate pf ) , ( mkpolytype ( ctyp t ) ) , ( mkloc loc ) ) ) ) :: l | CrVvr ( loc , s , mf , t ) -> ( Pcf_valvirt ( ( s , ( mkmutable mf ) , ( ctyp t ) , ( mkloc loc ) ) ) ) :: l | CrAnt ( _ , _ ) -> assert false let sig_item ast = sig_item ast [ ] let str_item ast = str_item ast [ ] let directive = function | Ast . ExNil _ -> Pdir_none | ExStr ( _ , s ) -> Pdir_string s | ExInt ( _ , i ) -> Pdir_int ( int_of_string i ) | Ast . ExId ( _ , ( Ast . IdUid ( _ , " True " ) ) ) -> Pdir_bool true | Ast . ExId ( _ , ( Ast . IdUid ( _ , " False " ) ) ) -> Pdir_bool false | e -> Pdir_ident ( ident ( ident_of_expr e ) ) let phrase = function | StDir ( _ , d , dp ) -> Ptop_dir ( d , ( directive dp ) ) | si -> Ptop_def ( str_item si ) end end module CleanAst = struct module Make ( Ast : Sig . Camlp4Ast ) = struct class clean_ast = object inherit Ast . map as super method with_constr = fun wc -> match super # with_constr wc with | Ast . WcAnd ( _ , ( Ast . WcNil _ ) , wc ) | Ast . WcAnd ( _ , wc , ( Ast . WcNil _ ) ) -> wc | wc -> wc method expr = fun e -> match super # expr e with | Ast . ExLet ( _ , _ , ( Ast . BiNil _ ) , e ) | Ast . ExRec ( _ , ( Ast . RbNil _ ) , e ) | Ast . ExCom ( _ , ( Ast . ExNil _ ) , e ) | Ast . ExCom ( _ , e , ( Ast . ExNil _ ) ) | Ast . ExSem ( _ , ( Ast . ExNil _ ) , e ) | Ast . ExSem ( _ , e , ( Ast . ExNil _ ) ) -> e | e -> e method patt = fun p -> match super # patt p with | Ast . PaAli ( _ , p , ( Ast . PaNil _ ) ) | Ast . PaOrp ( _ , ( Ast . PaNil _ ) , p ) | Ast . PaOrp ( _ , p , ( Ast . PaNil _ ) ) | Ast . PaCom ( _ , ( Ast . PaNil _ ) , p ) | Ast . PaCom ( _ , p , ( Ast . PaNil _ ) ) | Ast . PaSem ( _ , ( Ast . PaNil _ ) , p ) | Ast . PaSem ( _ , p , ( Ast . PaNil _ ) ) -> p | p -> p method match_case = fun mc -> match super # match_case mc with | Ast . McOr ( _ , ( Ast . McNil _ ) , mc ) | Ast . McOr ( _ , mc , ( Ast . McNil _ ) ) -> mc | mc -> mc method binding = fun bi -> match super # binding bi with | Ast . BiAnd ( _ , ( Ast . BiNil _ ) , bi ) | Ast . BiAnd ( _ , bi , ( Ast . BiNil _ ) ) -> bi | bi -> bi method rec_binding = fun rb -> match super # rec_binding rb with | Ast . RbSem ( _ , ( Ast . RbNil _ ) , bi ) | Ast . RbSem ( _ , bi , ( Ast . RbNil _ ) ) -> bi | bi -> bi method module_binding = fun mb -> match super # module_binding mb with | Ast . MbAnd ( _ , ( Ast . MbNil _ ) , mb ) | Ast . MbAnd ( _ , mb , ( Ast . MbNil _ ) ) -> mb | mb -> mb method ctyp = fun t -> match super # ctyp t with | Ast . TyPol ( _ , ( Ast . TyNil _ ) , t ) | Ast . TyAli ( _ , ( Ast . TyNil _ ) , t ) | Ast . TyAli ( _ , t , ( Ast . TyNil _ ) ) | Ast . TyArr ( _ , t , ( Ast . TyNil _ ) ) | Ast . TyArr ( _ , ( Ast . TyNil _ ) , t ) | Ast . TyOr ( _ , ( Ast . TyNil _ ) , t ) | Ast . TyOr ( _ , t , ( Ast . TyNil _ ) ) | Ast . TyOf ( _ , t , ( Ast . TyNil _ ) ) | Ast . TyAnd ( _ , ( Ast . TyNil _ ) , t ) | Ast . TyAnd ( _ , t , ( Ast . TyNil _ ) ) | Ast . TySem ( _ , t , ( Ast . TyNil _ ) ) | Ast . TySem ( _ , ( Ast . TyNil _ ) , t ) | Ast . TyCom ( _ , ( Ast . TyNil _ ) , t ) | Ast . TyCom ( _ , t , ( Ast . TyNil _ ) ) | Ast . TyAmp ( _ , t , ( Ast . TyNil _ ) ) | Ast . TyAmp ( _ , ( Ast . TyNil _ ) , t ) | Ast . TySta ( _ , ( Ast . TyNil _ ) , t ) | Ast . TySta ( _ , t , ( Ast . TyNil _ ) ) -> t | t -> t method sig_item = fun sg -> match super # sig_item sg with | Ast . SgSem ( _ , ( Ast . SgNil _ ) , sg ) | Ast . SgSem ( _ , sg , ( Ast . SgNil _ ) ) -> sg | Ast . SgTyp ( loc , ( Ast . TyNil _ ) ) -> Ast . SgNil loc | sg -> sg method str_item = fun st -> match super # str_item st with | Ast . StSem ( _ , ( Ast . StNil _ ) , st ) | Ast . StSem ( _ , st , ( Ast . StNil _ ) ) -> st | Ast . StTyp ( loc , ( Ast . TyNil _ ) ) -> Ast . StNil loc | Ast . StVal ( loc , _ , ( Ast . BiNil _ ) ) -> Ast . StNil loc | st -> st method module_type = fun mt -> match super # module_type mt with | Ast . MtWit ( _ , mt , ( Ast . WcNil _ ) ) -> mt | mt -> mt method class_expr = fun ce -> match super # class_expr ce with | Ast . CeAnd ( _ , ( Ast . CeNil _ ) , ce ) | Ast . CeAnd ( _ , ce , ( Ast . CeNil _ ) ) -> ce | ce -> ce method class_type = fun ct -> match super # class_type ct with | Ast . CtAnd ( _ , ( Ast . CtNil _ ) , ct ) | Ast . CtAnd ( _ , ct , ( Ast . CtNil _ ) ) -> ct | ct -> ct method class_sig_item = fun csg -> match super # class_sig_item csg with | Ast . CgSem ( _ , ( Ast . CgNil _ ) , csg ) | Ast . CgSem ( _ , csg , ( Ast . CgNil _ ) ) -> csg | csg -> csg method class_str_item = fun cst -> match super # class_str_item cst with | Ast . CrSem ( _ , ( Ast . CrNil _ ) , cst ) | Ast . CrSem ( _ , cst , ( Ast . CrNil _ ) ) -> cst | cst -> cst end end end module CommentFilter : sig module Make ( Token : Sig . Camlp4Token ) : sig open Token type t val mk : unit -> t val define : Token . Filter . t -> t -> unit val filter : t -> ( Token . t * Loc . t ) Stream . t -> ( Token . t * Loc . t ) Stream . t val take_list : t -> ( string * Loc . t ) list val take_stream : t -> ( string * Loc . t ) Stream . t end end = struct module Make ( Token : Sig . Camlp4Token ) = struct open Token type t = ( ( ( string * Loc . t ) Stream . t ) * ( ( string * Loc . t ) Queue . t ) ) let mk ( ) = let q = Queue . create ( ) in let f _ = try Some ( Queue . take q ) with | Queue . Empty -> None in ( ( Stream . from f ) , q ) let filter ( _ , q ) = let rec self ( __strm : _ Stream . t ) = match Stream . peek __strm with | Some ( ( Sig . COMMENT x , loc ) ) -> ( Stream . junk __strm ; let xs = __strm in ( Queue . add ( x , loc ) q ; self xs ) ) | Some x -> ( Stream . junk __strm ; let xs = __strm in Stream . icons x ( Stream . slazy ( fun _ -> self xs ) ) ) | _ -> Stream . sempty in self let take_list ( _ , q ) = let rec self accu = if Queue . is_empty q then accu else self ( ( Queue . take q ) :: accu ) in self [ ] let take_stream = fst let define token_fiter comments_strm = Token . Filter . define_filter token_fiter ( fun previous strm -> previous ( filter comments_strm strm ) ) end end module DynLoader : sig include Sig . DynLoader end = struct type t = string Queue . t exception Error of string * string let include_dir x y = Queue . add y x let fold_load_path x f acc = Queue . fold ( fun x y -> f y x ) acc x let mk ( ? ocaml_stdlib = true ) ( ? camlp4_stdlib = true ) ( ) = let q = Queue . create ( ) in ( if ocaml_stdlib then include_dir q Camlp4_config . ocaml_standard_library else ( ) ; if camlp4_stdlib then ( include_dir q Camlp4_config . camlp4_standard_library ; include_dir q ( Filename . concat Camlp4_config . camlp4_standard_library " Camlp4Parsers " ) ; include_dir q ( Filename . concat Camlp4_config . camlp4_standard_library " Camlp4Printers " ) ; include_dir q ( Filename . concat Camlp4_config . camlp4_standard_library " Camlp4Filters " ) ) else ( ) ; include_dir q " . " ; q ) let find_in_path x name = if not ( Filename . is_implicit name ) then if Sys . file_exists name then name else raise Not_found else ( let res = fold_load_path x ( fun dir -> function | None -> let fullname = Filename . concat dir name in if Sys . file_exists fullname then Some fullname else None | x -> x ) None in match res with | None -> raise Not_found | Some x -> x ) let load = let _initialized = ref false in fun _path file -> ( if not ! _initialized then ( try ( Dynlink . init ( ) ; Dynlink . allow_unsafe_modules true ; _initialized := true ) with | Dynlink . Error e -> raise ( Error ( " Camlp4 ' s dynamic loader initialization " , ( Dynlink . error_message e ) ) ) ) else ( ) ; let fname = try find_in_path _path file with | Not_found -> raise ( Error ( file , " file not found in path " ) ) in try Dynlink . loadfile fname with | Dynlink . Error e -> raise ( Error ( fname , ( Dynlink . error_message e ) ) ) ) let is_native = Dynlink . is_native end module EmptyError : sig include Sig . Error end = struct type t = unit exception E of t let print _ = assert false let to_string _ = assert false end module EmptyPrinter : sig module Make ( Ast : Sig . Ast ) : Sig . Printer ( Ast ) . S end = struct module Make ( Ast : Sig . Ast ) = struct let print_interf ? input_file ( : _ ) ? output_file ( : _ ) _ = failwith " No interface printer " let print_implem ? input_file ( : _ ) ? output_file ( : _ ) _ = failwith " No implementation printer " end end module FreeVars : sig module Make ( Ast : Sig . Camlp4Ast ) : sig module S : Set . S with type elt = string val fold_binding_vars : ( string -> ' accu -> ' accu ) -> Ast . binding -> ' accu -> ' accu class [ ' accu ] c_fold_pattern_vars : ( string -> ' accu -> ' accu ) -> ' accu -> object inherit Ast . fold val acc : ' accu method acc : ' accu end val fold_pattern_vars : ( string -> ' accu -> ' accu ) -> Ast . patt -> ' accu -> ' accu class [ ' accu ] fold_free_vars : ( string -> ' accu -> ' accu ) -> ? env_init : S . t -> ' accu -> object ( ' self_type ) inherit Ast . fold val free : ' accu val env : S . t method free : ' accu method set_env : S . t -> ' self_type method add_atom : string -> ' self_type method add_patt : Ast . patt -> ' self_type method add_binding : Ast . binding -> ' self_type end val free_vars : S . t -> Ast . expr -> S . t end end = struct module Make ( Ast : Sig . Camlp4Ast ) = struct module S = Set . Make ( String ) class [ ' accu ] c_fold_pattern_vars f init = object inherit Ast . fold as super val acc = init method acc : ' accu = acc method patt = function | Ast . PaId ( _ , ( Ast . IdLid ( _ , s ) ) ) | Ast . PaLab ( _ , s , ( Ast . PaNil _ ) ) | Ast . PaOlb ( _ , s , ( Ast . PaNil _ ) ) -> { < acc = f s acc ; } > | p -> super # patt p end let fold_pattern_vars f p init = ( ( new c_fold_pattern_vars f init ) # patt p ) # acc let rec fold_binding_vars f bi acc = match bi with | Ast . BiAnd ( _ , bi1 , bi2 ) -> fold_binding_vars f bi1 ( fold_binding_vars f bi2 acc ) | Ast . BiEq ( _ , p , _ ) -> fold_pattern_vars f p acc | Ast . BiNil _ -> acc | Ast . BiAnt ( _ , _ ) -> assert false class [ ' accu ] fold_free_vars ( f : string -> ' accu -> ' accu ) ( ? env_init = S . empty ) free_init = object ( o ) inherit Ast . fold as super val free = ( free_init : ' accu ) val env = ( env_init : S . t ) method free = free method set_env = fun env -> { < env = env ; } > method add_atom = fun s -> { < env = S . add s env ; } > method add_patt = fun p -> { < env = fold_pattern_vars S . add p env ; } > method add_binding = fun bi -> { < env = fold_binding_vars S . add bi env ; } > method expr = function | Ast . ExId ( _ , ( Ast . IdLid ( _ , s ) ) ) | Ast . ExLab ( _ , s , ( Ast . ExNil _ ) ) | Ast . ExOlb ( _ , s , ( Ast . ExNil _ ) ) -> if S . mem s env then o else { < free = f s free ; } > | Ast . ExLet ( _ , Ast . ReNil , bi , e ) -> ( ( ( o # add_binding bi ) # expr e ) # set_env env ) # binding bi | Ast . ExLet ( _ , Ast . ReRecursive , bi , e ) -> ( ( ( o # add_binding bi ) # expr e ) # binding bi ) # set_env env | Ast . ExFor ( _ , s , e1 , e2 , _ , e3 ) -> ( ( ( ( o # expr e1 ) # expr e2 ) # add_atom s ) # expr e3 ) # set_env env | Ast . ExId ( _ , _ ) | Ast . ExNew ( _ , _ ) -> o | Ast . ExObj ( _ , p , cst ) -> ( ( o # add_patt p ) # class_str_item cst ) # set_env env | e -> super # expr e method match_case = function | Ast . McArr ( _ , p , e1 , e2 ) -> ( ( ( o # add_patt p ) # expr e1 ) # expr e2 ) # set_env env | m -> super # match_case m method str_item = function | Ast . StExt ( _ , s , t , _ ) -> ( o # ctyp t ) # add_atom s | Ast . StVal ( _ , Ast . ReNil , bi ) -> ( o # binding bi ) # add_binding bi | Ast . StVal ( _ , Ast . ReRecursive , bi ) -> ( o # add_binding bi ) # binding bi | st -> super # str_item st method class_expr = function | Ast . CeFun ( _ , p , ce ) -> ( ( o # add_patt p ) # class_expr ce ) # set_env env | Ast . CeLet ( _ , Ast . ReNil , bi , ce ) -> ( ( ( o # binding bi ) # add_binding bi ) # class_expr ce ) # set_env env | Ast . CeLet ( _ , Ast . ReRecursive , bi , ce ) -> ( ( ( o # add_binding bi ) # binding bi ) # class_expr ce ) # set_env env | Ast . CeStr ( _ , p , cst ) -> ( ( o # add_patt p ) # class_str_item cst ) # set_env env | ce -> super # class_expr ce method class_str_item = function | ( Ast . CrInh ( _ , _ , _ , " " ) as cst ) -> super # class_str_item cst | Ast . CrInh ( _ , _ , ce , s ) -> ( o # class_expr ce ) # add_atom s | Ast . CrVal ( _ , s , _ , _ , e ) -> ( o # expr e ) # add_atom s | Ast . CrVvr ( _ , s , _ , t ) -> ( o # ctyp t ) # add_atom s | cst -> super # class_str_item cst method module_expr = function | Ast . MeStr ( _ , st ) -> ( o # str_item st ) # set_env env | me -> super # module_expr me end let free_vars env_init e = let fold = new fold_free_vars S . add ~ env_init S . empty in ( fold # expr e ) # free end end module Grammar = struct module Structure = struct open Sig . Grammar module type S = sig module Loc : Sig . Loc module Token : Sig . Token with module Loc = Loc module Lexer : Sig . Lexer with module Loc = Loc and module Token = Token module Action : Sig . Grammar . Action type gram = { gfilter : Token . Filter . t ; gkeywords : ( string , int ref ) Hashtbl . t ; glexer : Loc . t -> char Stream . t -> ( Token . t * Loc . t ) Stream . t ; warning_verbose : bool ref ; error_verbose : bool ref } type token_info = { prev_loc : Loc . t ; cur_loc : Loc . t ; prev_loc_only : bool } type token_stream = ( Token . t * token_info ) Stream . t type efun = token_stream -> Action . t type token_pattern = ( ( Token . t -> bool ) * string ) type internal_entry = { egram : gram ; ename : string ; mutable estart : int -> efun ; mutable econtinue : int -> Loc . t -> Action . t -> efun ; mutable edesc : desc } and desc = | Dlevels of level list | Dparser of ( token_stream -> Action . t ) and level = { assoc : assoc ; lname : string option ; lsuffix : tree ; lprefix : tree } and symbol = | Smeta of string * symbol list * Action . t | Snterm of internal_entry | Snterml of internal_entry * string | Slist0 of symbol | Slist0sep of symbol * symbol | Slist1 of symbol | Slist1sep of symbol * symbol | Sopt of symbol | Stry of symbol | Sself | Snext | Stoken of token_pattern | Skeyword of string | Stree of tree and tree = | Node of node | LocAct of Action . t * Action . t list | DeadEnd and node = { node : symbol ; son : tree ; brother : tree } type production_rule = ( ( symbol list ) * Action . t ) type single_extend_statment = ( ( string option ) * ( assoc option ) * ( production_rule list ) ) type extend_statment = ( ( position option ) * ( single_extend_statment list ) ) type delete_statment = symbol list type ( ' a , ' b , ' c ) fold = internal_entry -> symbol list -> ( ' a Stream . t -> ' b ) -> ' a Stream . t -> ' c type ( ' a , ' b , ' c ) foldsep = internal_entry -> symbol list -> ( ' a Stream . t -> ' b ) -> ( ' a Stream . t -> unit ) -> ' a Stream . t -> ' c val get_filter : gram -> Token . Filter . t val using : gram -> string -> unit val removing : gram -> string -> unit end module Make ( Lexer : Sig . Lexer ) = struct module Loc = Lexer . Loc module Token = Lexer . Token module Action : Sig . Grammar . Action = struct type t = Obj . t let mk = Obj . repr let get = Obj . obj let getf = Obj . obj let getf2 = Obj . obj end module Lexer = Lexer type gram = { gfilter : Token . Filter . t ; gkeywords : ( string , int ref ) Hashtbl . t ; glexer : Loc . t -> char Stream . t -> ( Token . t * Loc . t ) Stream . t ; warning_verbose : bool ref ; error_verbose : bool ref } type token_info = { prev_loc : Loc . t ; cur_loc : Loc . t ; prev_loc_only : bool } type token_stream = ( Token . t * token_info ) Stream . t type efun = token_stream -> Action . t type token_pattern = ( ( Token . t -> bool ) * string ) type internal_entry = { egram : gram ; ename : string ; mutable estart : int -> efun ; mutable econtinue : int -> Loc . t -> Action . t -> efun ; mutable edesc : desc } and desc = | Dlevels of level list | Dparser of ( token_stream -> Action . t ) and level = { assoc : assoc ; lname : string option ; lsuffix : tree ; lprefix : tree } and symbol = | Smeta of string * symbol list * Action . t | Snterm of internal_entry | Snterml of internal_entry * string | Slist0 of symbol | Slist0sep of symbol * symbol | Slist1 of symbol | Slist1sep of symbol * symbol | Sopt of symbol | Stry of symbol | Sself | Snext | Stoken of token_pattern | Skeyword of string | Stree of tree and tree = | Node of node | LocAct of Action . t * Action . t list | DeadEnd and node = { node : symbol ; son : tree ; brother : tree } type production_rule = ( ( symbol list ) * Action . t ) type single_extend_statment = ( ( string option ) * ( assoc option ) * ( production_rule list ) ) type extend_statment = ( ( position option ) * ( single_extend_statment list ) ) type delete_statment = symbol list type ( ' a , ' b , ' c ) fold = internal_entry -> symbol list -> ( ' a Stream . t -> ' b ) -> ' a Stream . t -> ' c type ( ' a , ' b , ' c ) foldsep = internal_entry -> symbol list -> ( ' a Stream . t -> ' b ) -> ( ' a Stream . t -> unit ) -> ' a Stream . t -> ' c let get_filter g = g . gfilter let token_location r = r . cur_loc type ' a not_filtered = ' a let using { gkeywords = table ; gfilter = filter } kwd = let r = try Hashtbl . find table kwd with | Not_found -> let r = ref 0 in ( Hashtbl . add table kwd r ; r ) in ( Token . Filter . keyword_added filter kwd ( ! r = 0 ) ; incr r ) let removing { gkeywords = table ; gfilter = filter } kwd = let r = Hashtbl . find table kwd in let ( ) = decr r in if ! r = 0 then ( Token . Filter . keyword_removed filter kwd ; Hashtbl . remove table kwd ) else ( ) end end module Search = struct module Make ( Structure : Structure . S ) = struct open Structure let tree_in_entry prev_symb tree = function | Dlevels levels -> let rec search_levels = ( function | [ ] -> tree | level :: levels -> ( match search_level level with | Some tree -> tree | None -> search_levels levels ) ) and search_level level = ( match search_tree level . lsuffix with | Some t -> Some ( Node { node = Sself ; son = t ; brother = DeadEnd ; } ) | None -> search_tree level . lprefix ) and search_tree t = if ( tree <> DeadEnd ) && ( t == tree ) then Some t else ( match t with | Node n -> ( match search_symbol n . node with | Some symb -> Some ( Node { node = symb ; son = n . son ; brother = DeadEnd ; } ) | None -> ( match search_tree n . son with | Some t -> Some ( Node { node = n . node ; son = t ; brother = DeadEnd ; } ) | None -> search_tree n . brother ) ) | LocAct ( _ , _ ) | DeadEnd -> None ) and search_symbol symb = ( match symb with | Snterm _ | Snterml ( _ , _ ) | Slist0 _ | Slist0sep ( _ , _ ) | Slist1 _ | Slist1sep ( _ , _ ) | Sopt _ | Stry _ | Stoken _ | Stree _ | Skeyword _ when symb == prev_symb -> Some symb | Slist0 symb -> ( match search_symbol symb with | Some symb -> Some ( Slist0 symb ) | None -> None ) | Slist0sep ( symb , sep ) -> ( match search_symbol symb with | Some symb -> Some ( Slist0sep ( symb , sep ) ) | None -> ( match search_symbol sep with | Some sep -> Some ( Slist0sep ( symb , sep ) ) | None -> None ) ) | Slist1 symb -> ( match search_symbol symb with | Some symb -> Some ( Slist1 symb ) | None -> None ) | Slist1sep ( symb , sep ) -> ( match search_symbol symb with | Some symb -> Some ( Slist1sep ( symb , sep ) ) | None -> ( match search_symbol sep with | Some sep -> Some ( Slist1sep ( symb , sep ) ) | None -> None ) ) | Sopt symb -> ( match search_symbol symb with | Some symb -> Some ( Sopt symb ) | None -> None ) | Stry symb -> ( match search_symbol symb with | Some symb -> Some ( Stry symb ) | None -> None ) | Stree t -> ( match search_tree t with | Some t -> Some ( Stree t ) | None -> None ) | _ -> None ) in search_levels levels | Dparser _ -> tree end end module Tools = struct let get_prev_loc_only = ref false module Make ( Structure : Structure . S ) = struct open Structure let empty_entry ename _ = raise ( Stream . Error ( " entry [ " ^ ( ename ^ " ] is empty " ) ) ) let rec stream_map f ( __strm : _ Stream . t ) = match Stream . peek __strm with | Some x -> ( Stream . junk __strm ; let strm = __strm in Stream . lcons ( fun _ -> f x ) ( Stream . slazy ( fun _ -> stream_map f strm ) ) ) | _ -> Stream . sempty let keep_prev_loc strm = match Stream . peek strm with | None -> Stream . sempty | Some ( ( tok0 , init_loc ) ) -> let rec go prev_loc strm1 = if ! get_prev_loc_only then Stream . lcons ( fun _ -> ( tok0 , { prev_loc = prev_loc ; cur_loc = prev_loc ; prev_loc_only = true ; } ) ) ( Stream . slazy ( fun _ -> go prev_loc strm1 ) ) else ( let ( __strm : _ Stream . t ) = strm1 in match Stream . peek __strm with | Some ( ( tok , cur_loc ) ) -> ( Stream . junk __strm ; let strm = __strm in Stream . lcons ( fun _ -> ( tok , { prev_loc = prev_loc ; cur_loc = cur_loc ; prev_loc_only = false ; } ) ) ( Stream . slazy ( fun _ -> go cur_loc strm ) ) ) | _ -> Stream . sempty ) in go init_loc strm let drop_prev_loc strm = stream_map ( fun ( tok , r ) -> ( tok , ( r . cur_loc ) ) ) strm let get_cur_loc strm = match Stream . peek strm with | Some ( ( _ , r ) ) -> r . cur_loc | None -> Loc . ghost let get_prev_loc strm = ( get_prev_loc_only := true ; let result = match Stream . peek strm with | Some ( ( _ , { prev_loc = prev_loc ; prev_loc_only = true } ) ) -> ( Stream . junk strm ; prev_loc ) | Some ( ( _ , { prev_loc = prev_loc ; prev_loc_only = false } ) ) -> prev_loc | None -> Loc . ghost in ( get_prev_loc_only := false ; result ) ) let is_level_labelled n lev = match lev . lname with | Some n1 -> n = n1 | None -> false let warning_verbose = ref true let rec get_token_list entry tokl last_tok tree = match tree with | Node { node = ( Stoken _ | Skeyword _ as tok ) ; son = son ; brother = DeadEnd } -> get_token_list entry ( last_tok :: tokl ) tok son | _ -> if tokl = [ ] then None else Some ( ( ( List . rev ( last_tok :: tokl ) ) , last_tok , tree ) ) let is_antiquot s = let len = String . length s in ( len > 1 ) && ( s . [ 0 ] = ' ' ) $ let eq_Stoken_ids s1 s2 = ( not ( is_antiquot s1 ) ) && ( ( not ( is_antiquot s2 ) ) && ( s1 = s2 ) ) let logically_eq_symbols entry = let rec eq_symbols s1 s2 = match ( s1 , s2 ) with | ( Snterm e1 , Snterm e2 ) -> e1 . ename = e2 . ename | ( Snterm e1 , Sself ) -> e1 . ename = entry . ename | ( Sself , Snterm e2 ) -> entry . ename = e2 . ename | ( Snterml ( e1 , l1 ) , Snterml ( e2 , l2 ) ) -> ( e1 . ename = e2 . ename ) && ( l1 = l2 ) | ( Slist0 s1 , Slist0 s2 ) | ( Slist1 s1 , Slist1 s2 ) | ( Sopt s1 , Sopt s2 ) | ( Stry s1 , Stry s2 ) -> eq_symbols s1 s2 | ( Slist0sep ( s1 , sep1 ) , Slist0sep ( s2 , sep2 ) ) | ( Slist1sep ( s1 , sep1 ) , Slist1sep ( s2 , sep2 ) ) -> ( eq_symbols s1 s2 ) && ( eq_symbols sep1 sep2 ) | ( Stree t1 , Stree t2 ) -> eq_trees t1 t2 | ( Stoken ( ( _ , s1 ) ) , Stoken ( ( _ , s2 ) ) ) -> eq_Stoken_ids s1 s2 | _ -> s1 = s2 and eq_trees t1 t2 = match ( t1 , t2 ) with | ( Node n1 , Node n2 ) -> ( eq_symbols n1 . node n2 . node ) && ( ( eq_trees n1 . son n2 . son ) && ( eq_trees n1 . brother n2 . brother ) ) | ( ( LocAct ( _ , _ ) | DeadEnd ) , ( LocAct ( _ , _ ) | DeadEnd ) ) -> true | _ -> false in eq_symbols let rec eq_symbol s1 s2 = match ( s1 , s2 ) with | ( Snterm e1 , Snterm e2 ) -> e1 == e2 | ( Snterml ( e1 , l1 ) , Snterml ( e2 , l2 ) ) -> ( e1 == e2 ) && ( l1 = l2 ) | ( Slist0 s1 , Slist0 s2 ) | ( Slist1 s1 , Slist1 s2 ) | ( Sopt s1 , Sopt s2 ) | ( Stry s1 , Stry s2 ) -> eq_symbol s1 s2 | ( Slist0sep ( s1 , sep1 ) , Slist0sep ( s2 , sep2 ) ) | ( Slist1sep ( s1 , sep1 ) , Slist1sep ( s2 , sep2 ) ) -> ( eq_symbol s1 s2 ) && ( eq_symbol sep1 sep2 ) | ( Stree _ , Stree _ ) -> false | ( Stoken ( ( _ , s1 ) ) , Stoken ( ( _ , s2 ) ) ) -> eq_Stoken_ids s1 s2 | _ -> s1 = s2 end end module Print : sig module Make ( Structure : Structure . S ) : sig val flatten_tree : Structure . tree -> ( Structure . symbol list ) list val print_symbol : Format . formatter -> Structure . symbol -> unit val print_meta : Format . formatter -> string -> Structure . symbol list -> unit val print_symbol1 : Format . formatter -> Structure . symbol -> unit val print_rule : Format . formatter -> Structure . symbol list -> unit val print_level : Format . formatter -> ( Format . formatter -> unit -> unit ) -> ( Structure . symbol list ) list -> unit val levels : Format . formatter -> Structure . level list -> unit val entry : Format . formatter -> Structure . internal_entry -> unit end module MakeDump ( Structure : Structure . S ) : sig val print_symbol : Format . formatter -> Structure . symbol -> unit val print_meta : Format . formatter -> string -> Structure . symbol list -> unit val print_symbol1 : Format . formatter -> Structure . symbol -> unit val print_rule : Format . formatter -> Structure . symbol list -> unit val print_level : Format . formatter -> ( Format . formatter -> unit -> unit ) -> ( Structure . symbol list ) list -> unit val levels : Format . formatter -> Structure . level list -> unit val entry : Format . formatter -> Structure . internal_entry -> unit end end = struct module Make ( Structure : Structure . S ) = struct open Structure open Format open Sig . Grammar let rec flatten_tree = function | DeadEnd -> [ ] | LocAct ( _ , _ ) -> [ [ ] ] | Node { node = n ; brother = b ; son = s } -> ( List . map ( fun l -> n :: l ) ( flatten_tree s ) ) @ ( flatten_tree b ) let rec print_symbol ppf = function | Smeta ( n , sl , _ ) -> print_meta ppf n sl | Slist0 s -> fprintf ppf " LIST0 % a " print_symbol1 s | Slist0sep ( s , t ) -> fprintf ppf " LIST0 % a SEP % a " print_symbol1 s print_symbol1 t | Slist1 s -> fprintf ppf " LIST1 % a " print_symbol1 s | Slist1sep ( s , t ) -> fprintf ppf " LIST1 % a SEP % a " print_symbol1 s print_symbol1 t | Sopt s -> fprintf ppf " OPT % a " print_symbol1 s | Stry s -> fprintf ppf " TRY % a " print_symbol1 s | Snterml ( e , l ) -> fprintf ppf " % s @ LEVEL @ % S " e . ename l | ( Snterm _ | Snext | Sself | Stree _ | Stoken _ | Skeyword _ as s ) -> print_symbol1 ppf s and print_meta ppf n sl = let rec loop i = function | [ ] -> ( ) | s :: sl -> let j = ( try String . index_from n i ' ' with | Not_found -> String . length n ) in ( fprintf ppf " % s % a " ( String . sub n i ( j - i ) ) print_symbol1 s ; if sl = [ ] then ( ) else ( fprintf ppf " " ; loop ( min ( j + 1 ) ( String . length n ) ) sl ) ) in loop 0 sl and print_symbol1 ppf = function | Snterm e -> pp_print_string ppf e . ename | Sself -> pp_print_string ppf " SELF " | Snext -> pp_print_string ppf " NEXT " | Stoken ( ( _ , descr ) ) -> pp_print_string ppf descr | Skeyword s -> fprintf ppf " % S " s | Stree t -> print_level ppf pp_print_space ( flatten_tree t ) | ( Smeta ( _ , _ , _ ) | Snterml ( _ , _ ) | Slist0 _ | Slist0sep ( _ , _ ) | Slist1 _ | Slist1sep ( _ , _ ) | Sopt _ | Stry _ as s ) -> fprintf ppf " ( % a ) " print_symbol s and print_rule ppf symbols = ( fprintf ppf " [ @< hov 0 " ; > let _ = List . fold_left ( fun sep symbol -> ( fprintf ppf " % t % a " sep print_symbol symbol ; fun ppf -> fprintf ppf " ; @ " ) ) ( fun _ -> ( ) ) symbols in fprintf ppf " ] " ) @ and print_level ppf pp_print_space rules = ( fprintf ppf " [ @< hov 0 [ > " ; let _ = List . fold_left ( fun sep rule -> ( fprintf ppf " % t % a " sep print_rule rule ; fun ppf -> fprintf ppf " % a | " pp_print_space ( ) ) ) ( fun _ -> ( ) ) rules in fprintf ppf " ] ] " ) @ let levels ppf elev = let _ = List . fold_left ( fun sep lev -> let rules = ( List . map ( fun t -> Sself :: t ) ( flatten_tree lev . lsuffix ) ) @ ( flatten_tree lev . lprefix ) in ( fprintf ppf " % t [ @< hov 2 " > sep ; ( match lev . lname with | Some n -> fprintf ppf " % S ; @< 1 2 " > n | None -> ( ) ) ; ( match lev . assoc with | LeftA -> fprintf ppf " LEFTA " | RightA -> fprintf ppf " RIGHTA " | NonA -> fprintf ppf " NONA " ) ; fprintf ppf " ] ; @@< 1 2 " ; > print_level ppf pp_force_newline rules ; fun ppf -> fprintf ppf " , @| " ) ) ( fun _ -> ( ) ) elev in ( ) let entry ppf e = ( fprintf ppf " [ @< v 0 >% s : [ " e . ename ; ( match e . edesc with | Dlevels elev -> levels ppf elev | Dparser _ -> fprintf ppf " < parser " ) ; > fprintf ppf " ] ] " ) @ end module MakeDump ( Structure : Structure . S ) = struct open Structure open Format open Sig . Grammar type brothers = | Bro of symbol * brothers list let rec print_tree ppf tree = let rec get_brothers acc = function | DeadEnd -> List . rev acc | LocAct ( _ , _ ) -> List . rev acc | Node { node = n ; brother = b ; son = s } -> get_brothers ( ( Bro ( n , ( get_brothers [ ] s ) ) ) :: acc ) b and print_brothers ppf brothers = if brothers = [ ] then fprintf ppf " @ [ ] " else List . iter ( function | Bro ( n , xs ) -> ( fprintf ppf " @ [ @< hv2 >- % a " print_symbol n ; ( match xs with | [ ] -> ( ) | [ _ ] -> ( try print_children ppf ( get_children [ ] xs ) with | Exit -> fprintf ppf " :% a " print_brothers xs ) | _ -> fprintf ppf " :% a " print_brothers xs ) ; fprintf ppf " ] " ) ) @ brothers and print_children ppf = List . iter ( fprintf ppf " ; @ % a " print_symbol ) and get_children acc = function | [ ] -> List . rev acc | [ Bro ( n , x ) ] -> get_children ( n :: acc ) x | _ -> raise Exit in print_brothers ppf ( get_brothers [ ] tree ) and print_symbol ppf = function | Smeta ( n , sl , _ ) -> print_meta ppf n sl | Slist0 s -> fprintf ppf " LIST0 % a " print_symbol1 s | Slist0sep ( s , t ) -> fprintf ppf " LIST0 % a SEP % a " print_symbol1 s print_symbol1 t | Slist1 s -> fprintf ppf " LIST1 % a " print_symbol1 s | Slist1sep ( s , t ) -> fprintf ppf " LIST1 % a SEP % a " print_symbol1 s print_symbol1 t | Sopt s -> fprintf ppf " OPT % a " print_symbol1 s | Stry s -> fprintf ppf " TRY % a " print_symbol1 s | Snterml ( e , l ) -> fprintf ppf " % s @ LEVEL @ % S " e . ename l | ( Snterm _ | Snext | Sself | Stree _ | Stoken _ | Skeyword _ as s ) -> print_symbol1 ppf s and print_meta ppf n sl = let rec loop i = function | [ ] -> ( ) | s :: sl -> let j = ( try String . index_from n i ' ' with | Not_found -> String . length n ) in ( fprintf ppf " % s % a " ( String . sub n i ( j - i ) ) print_symbol1 s ; if sl = [ ] then ( ) else ( fprintf ppf " " ; loop ( min ( j + 1 ) ( String . length n ) ) sl ) ) in loop 0 sl and print_symbol1 ppf = function | Snterm e -> pp_print_string ppf e . ename | Sself -> pp_print_string ppf " SELF " | Snext -> pp_print_string ppf " NEXT " | Stoken ( ( _ , descr ) ) -> pp_print_string ppf descr | Skeyword s -> fprintf ppf " % S " s | Stree t -> print_tree ppf t | ( Smeta ( _ , _ , _ ) | Snterml ( _ , _ ) | Slist0 _ | Slist0sep ( _ , _ ) | Slist1 _ | Slist1sep ( _ , _ ) | Sopt _ | Stry _ as s ) -> fprintf ppf " ( % a ) " print_symbol s and print_rule ppf symbols = ( fprintf ppf " [ @< hov 0 " ; > let _ = List . fold_left ( fun sep symbol -> ( fprintf ppf " % t % a " sep print_symbol symbol ; fun ppf -> fprintf ppf " ; @ " ) ) ( fun _ -> ( ) ) symbols in fprintf ppf " ] " ) @ and print_level ppf pp_print_space rules = ( fprintf ppf " [ @< hov 0 [ > " ; let _ = List . fold_left ( fun sep rule -> ( fprintf ppf " % t % a " sep print_rule rule ; fun ppf -> fprintf ppf " % a | " pp_print_space ( ) ) ) ( fun _ -> ( ) ) rules in fprintf ppf " ] ] " ) @ let levels ppf elev = let _ = List . fold_left ( fun sep lev -> ( fprintf ppf " % t [ @< v2 " > sep ; ( match lev . lname with | Some n -> fprintf ppf " % S ; @< 1 2 " > n | None -> ( ) ) ; ( match lev . assoc with | LeftA -> fprintf ppf " LEFTA " | RightA -> fprintf ppf " RIGHTA " | NonA -> fprintf ppf " NONA " ) ; fprintf ppf " ] ; @@< 1 2 " ; > fprintf ppf " [ @< v2 > suffix :@ " ; print_tree ppf lev . lsuffix ; fprintf ppf " ] @@ [ @< v2 > prefix :@ " ; print_tree ppf lev . lprefix ; fprintf ppf " ] " ; @ fun ppf -> fprintf ppf " , @| " ) ) ( fun _ -> ( ) ) elev in ( ) let entry ppf e = ( fprintf ppf " [ @< v 0 >% s : [ " e . ename ; ( match e . edesc with | Dlevels elev -> levels ppf elev | Dparser _ -> fprintf ppf " < parser " ) ; > fprintf ppf " ] ] " ) @ end end module Failed = struct module Make ( Structure : Structure . S ) = struct module Tools = Tools . Make ( Structure ) module Search = Search . Make ( Structure ) module Print = Print . Make ( Structure ) open Structure open Format let rec name_of_symbol entry = function | Snterm e -> " [ " ^ ( e . ename ^ " ] " ) | Snterml ( e , l ) -> " [ " ^ ( e . ename ^ ( " level " ^ ( l ^ " ] " ) ) ) | Sself | Snext -> " [ " ^ ( entry . ename ^ " ] " ) | Stoken ( ( _ , descr ) ) -> descr | Skeyword kwd -> " " " \ ^ ( kwd ^ " " " ) \ | _ -> " " ??? let rec name_of_symbol_failed entry = function | Slist0 s | Slist0sep ( s , _ ) | Slist1 s | Slist1sep ( s , _ ) | Sopt s | Stry s -> name_of_symbol_failed entry s | Stree t -> name_of_tree_failed entry t | s -> name_of_symbol entry s and name_of_tree_failed entry = function | Node { node = s ; brother = bro ; son = son } -> let tokl = ( match s with | Stoken _ | Skeyword _ -> Tools . get_token_list entry [ ] s son | _ -> None ) in ( match tokl with | None -> let txt = name_of_symbol_failed entry s in let txt = ( match ( s , son ) with | ( Sopt _ , Node _ ) -> txt ^ ( " or " ^ ( name_of_tree_failed entry son ) ) | _ -> txt ) in let txt = ( match bro with | DeadEnd | LocAct ( _ , _ ) -> txt | Node _ -> txt ^ ( " or " ^ ( name_of_tree_failed entry bro ) ) ) in txt | Some ( ( tokl , _ , _ ) ) -> List . fold_left ( fun s tok -> ( if s = " " then " " else s ^ " then " ) ^ ( match tok with | Stoken ( ( _ , descr ) ) -> descr | Skeyword kwd -> kwd | _ -> assert false ) ) " " tokl ) | DeadEnd | LocAct ( _ , _ ) -> " " ??? let magic _s x = Obj . magic x let tree_failed entry prev_symb_result prev_symb tree = let txt = name_of_tree_failed entry tree in let txt = match prev_symb with | Slist0 s -> let txt1 = name_of_symbol_failed entry s in txt1 ^ ( " or " ^ ( txt ^ " expected " ) ) | Slist1 s -> let txt1 = name_of_symbol_failed entry s in txt1 ^ ( " or " ^ ( txt ^ " expected " ) ) | Slist0sep ( s , sep ) -> ( match magic " tree_failed : ' a -> list ' b " prev_symb_result with | [ ] -> let txt1 = name_of_symbol_failed entry s in txt1 ^ ( " or " ^ ( txt ^ " expected " ) ) | _ -> let txt1 = name_of_symbol_failed entry sep in txt1 ^ ( " or " ^ ( txt ^ " expected " ) ) ) | Slist1sep ( s , sep ) -> ( match magic " tree_failed : ' a -> list ' b " prev_symb_result with | [ ] -> let txt1 = name_of_symbol_failed entry s in txt1 ^ ( " or " ^ ( txt ^ " expected " ) ) | _ -> let txt1 = name_of_symbol_failed entry sep in txt1 ^ ( " or " ^ ( txt ^ " expected " ) ) ) | Stry _ | Sopt _ | Stree _ -> txt ^ " expected " | _ -> txt ^ ( " expected after " ^ ( name_of_symbol entry prev_symb ) ) in ( if ( ! entry . egram . error_verbose ) then ( let tree = Search . tree_in_entry prev_symb tree entry . edesc in let ppf = err_formatter in ( fprintf ppf " [ @< v 0 , " ; >@ fprintf ppf " , " ; ----------------------------------@ fprintf ppf " Parse error in entry [ % s ] , rule ; :@< 0 2 " > entry . ename ; fprintf ppf " [ " ; @ Print . print_level ppf pp_force_newline ( Print . flatten_tree tree ) ; fprintf ppf " ] , " ; @@ fprintf ppf " , " ; ----------------------------------@ fprintf ppf " ] . " ) ) @@ else ( ) ; txt ^ ( " ( in [ " ^ ( entry . ename ^ " ] ) " ) ) ) let symb_failed entry prev_symb_result prev_symb symb = let tree = Node { node = symb ; brother = DeadEnd ; son = DeadEnd ; } in tree_failed entry prev_symb_result prev_symb tree let symb_failed_txt e s1 s2 = symb_failed e 0 s1 s2 end end module Parser = struct module Make ( Structure : Structure . S ) = struct module Tools = Tools . Make ( Structure ) module Failed = Failed . Make ( Structure ) module Print = Print . Make ( Structure ) open Structure open Sig . Grammar module StreamOrig = Stream let njunk strm n = for i = 1 to n do Stream . junk strm done let loc_bp = Tools . get_cur_loc let loc_ep = Tools . get_prev_loc let drop_prev_loc = Tools . drop_prev_loc let add_loc bp parse_fun strm = let x = parse_fun strm in let ep = loc_ep strm in let loc = Loc . merge bp ep in ( x , loc ) let stream_peek_nth strm n = let rec loop i = function | x :: xs -> if i = 1 then Some x else loop ( i - 1 ) xs | [ ] -> None in loop n ( Stream . npeek n strm ) module Stream = struct type ' a t = ' a StreamOrig . t exception Failure = StreamOrig . Failure exception Error = StreamOrig . Error let peek = StreamOrig . peek let junk = StreamOrig . junk let dup strm = let peek_nth n = let rec loop n = function | [ ] -> None | [ x ] -> if n = 0 then Some x else None | _ :: l -> loop ( n - 1 ) l in loop n ( Stream . npeek ( n + 1 ) strm ) in Stream . from peek_nth end let try_parser ps strm = let strm ' = Stream . dup strm in let r = try ps strm ' with | Stream . Error _ | Loc . Exc_located ( _ , ( Stream . Error _ ) ) -> raise Stream . Failure | exc -> raise exc in ( njunk strm ( StreamOrig . count strm ' ) ; r ) let level_number entry lab = let rec lookup levn = function | [ ] -> failwith ( " unknown level " ^ lab ) | lev :: levs -> if Tools . is_level_labelled lab lev then levn else lookup ( succ levn ) levs in match entry . edesc with | Dlevels elev -> lookup 0 elev | Dparser _ -> raise Not_found let strict_parsing = ref false let strict_parsing_warning = ref false let rec top_symb entry = function | Sself | Snext -> Snterm entry | Snterml ( e , _ ) -> Snterm e | Slist1sep ( s , sep ) -> Slist1sep ( ( top_symb entry s ) , sep ) | _ -> raise Stream . Failure let top_tree entry = function | Node { node = s ; brother = bro ; son = son } -> Node { node = top_symb entry s ; brother = bro ; son = son ; } | LocAct ( _ , _ ) | DeadEnd -> raise Stream . Failure let entry_of_symb entry = function | Sself | Snext -> entry | Snterm e -> e | Snterml ( e , _ ) -> e | _ -> raise Stream . Failure let continue entry loc a s son p1 ( __strm : _ Stream . t ) = let a = ( entry_of_symb entry s ) . econtinue 0 loc a __strm in let act = try p1 __strm with | Stream . Failure -> raise ( Stream . Error ( Failed . tree_failed entry a s son ) ) in Action . mk ( fun _ -> Action . getf act a ) let skip_if_empty bp strm = if ( loc_bp strm ) = bp then Action . mk ( fun _ -> raise Stream . Failure ) else raise Stream . Failure let do_recover parser_of_tree entry nlevn alevn loc a s son ( __strm : _ Stream . t ) = try parser_of_tree entry nlevn alevn ( top_tree entry son ) __strm with | Stream . Failure -> ( try skip_if_empty loc __strm with | Stream . Failure -> continue entry loc a s son ( parser_of_tree entry nlevn alevn son ) __strm ) let recover parser_of_tree entry nlevn alevn loc a s son strm = if ! strict_parsing then raise ( Stream . Error ( Failed . tree_failed entry a s son ) ) else ( let _ = if ! strict_parsing_warning then ( let msg = Failed . tree_failed entry a s son in ( Format . eprintf " Warning : trying to recover from syntax error " ; if entry . ename <> " " then Format . eprintf " in [ % s ] " entry . ename else ( ) ; Format . eprintf " \ n % s % a . " @ msg Loc . print loc ) ) else ( ) in do_recover parser_of_tree entry nlevn alevn loc a s son strm ) let rec parser_of_tree entry nlevn alevn = function | DeadEnd -> ( fun ( __strm : _ Stream . t ) -> raise Stream . Failure ) | LocAct ( act , _ ) -> ( fun ( __strm : _ Stream . t ) -> act ) | Node { node = Sself ; son = LocAct ( act , _ ) ; brother = DeadEnd } -> ( fun ( __strm : _ Stream . t ) -> let a = entry . estart alevn __strm in Action . getf act a ) | Node { node = Sself ; son = LocAct ( act , _ ) ; brother = bro } -> let p2 = parser_of_tree entry nlevn alevn bro in ( fun ( __strm : _ Stream . t ) -> match try Some ( entry . estart alevn __strm ) with | Stream . Failure -> None with | Some a -> Action . getf act a | _ -> p2 __strm ) | Node { node = s ; son = son ; brother = DeadEnd } -> let tokl = ( match s with | Stoken _ | Skeyword _ -> Tools . get_token_list entry [ ] s son | _ -> None ) in ( match tokl with | None -> let ps = parser_of_symbol entry nlevn s in let p1 = parser_of_tree entry nlevn alevn son in let p1 = parser_cont p1 entry nlevn alevn s son in ( fun strm -> let bp = loc_bp strm in let ( __strm : _ Stream . t ) = strm in let a = ps __strm in let act = try p1 bp a __strm with | Stream . Failure -> raise ( Stream . Error " " ) in Action . getf act a ) | Some ( ( tokl , last_tok , son ) ) -> let p1 = parser_of_tree entry nlevn alevn son in let p1 = parser_cont p1 entry nlevn alevn last_tok son in parser_of_token_list p1 tokl ) | Node { node = s ; son = son ; brother = bro } -> let tokl = ( match s with | Stoken _ | Skeyword _ -> Tools . get_token_list entry [ ] s son | _ -> None ) in ( match tokl with | None -> let ps = parser_of_symbol entry nlevn s in let p1 = parser_of_tree entry nlevn alevn son in let p1 = parser_cont p1 entry nlevn alevn s son in let p2 = parser_of_tree entry nlevn alevn bro in ( fun strm -> let bp = loc_bp strm in let ( __strm : _ Stream . t ) = strm in match try Some ( ps __strm ) with | Stream . Failure -> None with | Some a -> let act = ( try p1 bp a __strm with | Stream . Failure -> raise ( Stream . Error " " ) ) in Action . getf act a | _ -> p2 __strm ) | Some ( ( tokl , last_tok , son ) ) -> let p1 = parser_of_tree entry nlevn alevn son in let p1 = parser_cont p1 entry nlevn alevn last_tok son in let p1 = parser_of_token_list p1 tokl in let p2 = parser_of_tree entry nlevn alevn bro in ( fun ( __strm : _ Stream . t ) -> try p1 __strm with | Stream . Failure -> p2 __strm ) ) and parser_cont p1 entry nlevn alevn s son loc a ( __strm : _ Stream . t ) = try p1 __strm with | Stream . Failure -> ( try recover parser_of_tree entry nlevn alevn loc a s son __strm with | Stream . Failure -> raise ( Stream . Error ( Failed . tree_failed entry a s son ) ) ) and parser_of_token_list p1 tokl = let rec loop n = function | Stoken ( ( tematch , _ ) ) :: tokl -> ( match tokl with | [ ] -> let ps strm = ( match stream_peek_nth strm n with | Some ( ( tok , _ ) ) when tematch tok -> ( njunk strm n ; Action . mk tok ) | _ -> raise Stream . Failure ) in ( fun strm -> let bp = loc_bp strm in let ( __strm : _ Stream . t ) = strm in let a = ps __strm in let act = try p1 bp a __strm with | Stream . Failure -> raise ( Stream . Error " " ) in Action . getf act a ) | _ -> let ps strm = ( match stream_peek_nth strm n with | Some ( ( tok , _ ) ) when tematch tok -> tok | _ -> raise Stream . Failure ) in let p1 = loop ( n + 1 ) tokl in ( fun ( __strm : _ Stream . t ) -> let tok = ps __strm in let s = __strm in let act = p1 s in Action . getf act tok ) ) | Skeyword kwd :: tokl -> ( match tokl with | [ ] -> let ps strm = ( match stream_peek_nth strm n with | Some ( ( tok , _ ) ) when Token . match_keyword kwd tok -> ( njunk strm n ; Action . mk tok ) | _ -> raise Stream . Failure ) in ( fun strm -> let bp = loc_bp strm in let ( __strm : _ Stream . t ) = strm in let a = ps __strm in let act = try p1 bp a __strm with | Stream . Failure -> raise ( Stream . Error " " ) in Action . getf act a ) | _ -> let ps strm = ( match stream_peek_nth strm n with | Some ( ( tok , _ ) ) when Token . match_keyword kwd tok -> tok | _ -> raise Stream . Failure ) in let p1 = loop ( n + 1 ) tokl in ( fun ( __strm : _ Stream . t ) -> let tok = ps __strm in let s = __strm in let act = p1 s in Action . getf act tok ) ) | _ -> invalid_arg " parser_of_token_list " in loop 1 tokl and parser_of_symbol entry nlevn = function | Smeta ( _ , symbl , act ) -> let act = Obj . magic act entry symbl in let pl = List . map ( parser_of_symbol entry nlevn ) symbl in Obj . magic ( List . fold_left ( fun act p -> Obj . magic act p ) act pl ) | Slist0 s -> let ps = parser_of_symbol entry nlevn s in let rec loop al ( __strm : _ Stream . t ) = ( match try Some ( ps __strm ) with | Stream . Failure -> None with | Some a -> loop ( a :: al ) __strm | _ -> al ) in ( fun ( __strm : _ Stream . t ) -> let a = loop [ ] __strm in Action . mk ( List . rev a ) ) | Slist0sep ( symb , sep ) -> let ps = parser_of_symbol entry nlevn symb in let pt = parser_of_symbol entry nlevn sep in let rec kont al ( __strm : _ Stream . t ) = ( match try Some ( pt __strm ) with | Stream . Failure -> None with | Some v -> let a = ( try ps __strm with | Stream . Failure -> raise ( Stream . Error ( Failed . symb_failed entry v sep symb ) ) ) in kont ( a :: al ) __strm | _ -> al ) in ( fun ( __strm : _ Stream . t ) -> match try Some ( ps __strm ) with | Stream . Failure -> None with | Some a -> let s = __strm in Action . mk ( List . rev ( kont [ a ] s ) ) | _ -> Action . mk [ ] ) | Slist1 s -> let ps = parser_of_symbol entry nlevn s in let rec loop al ( __strm : _ Stream . t ) = ( match try Some ( ps __strm ) with | Stream . Failure -> None with | Some a -> loop ( a :: al ) __strm | _ -> al ) in ( fun ( __strm : _ Stream . t ) -> let a = ps __strm in let s = __strm in Action . mk ( List . rev ( loop [ a ] s ) ) ) | Slist1sep ( symb , sep ) -> let ps = parser_of_symbol entry nlevn symb in let pt = parser_of_symbol entry nlevn sep in let rec kont al ( __strm : _ Stream . t ) = ( match try Some ( pt __strm ) with | Stream . Failure -> None with | Some v -> let a = ( try ps __strm with | Stream . Failure -> ( try parse_top_symb entry symb __strm with | Stream . Failure -> raise ( Stream . Error ( Failed . symb_failed entry v sep symb ) ) ) ) in kont ( a :: al ) __strm | _ -> al ) in ( fun ( __strm : _ Stream . t ) -> let a = ps __strm in let s = __strm in Action . mk ( List . rev ( kont [ a ] s ) ) ) | Sopt s -> let ps = parser_of_symbol entry nlevn s in ( fun ( __strm : _ Stream . t ) -> match try Some ( ps __strm ) with | Stream . Failure -> None with | Some a -> Action . mk ( Some a ) | _ -> Action . mk None ) | Stry s -> let ps = parser_of_symbol entry nlevn s in try_parser ps | Stree t -> let pt = parser_of_tree entry 1 0 t in ( fun strm -> let bp = loc_bp strm in let ( __strm : _ Stream . t ) = strm in let ( act , loc ) = add_loc bp pt __strm in Action . getf act loc ) | Snterm e -> ( fun ( __strm : _ Stream . t ) -> e . estart 0 __strm ) | Snterml ( e , l ) -> ( fun ( __strm : _ Stream . t ) -> e . estart ( level_number e l ) __strm ) | Sself -> ( fun ( __strm : _ Stream . t ) -> entry . estart 0 __strm ) | Snext -> ( fun ( __strm : _ Stream . t ) -> entry . estart nlevn __strm ) | Skeyword kwd -> ( fun ( __strm : _ Stream . t ) -> match Stream . peek __strm with | Some ( ( tok , _ ) ) when Token . match_keyword kwd tok -> ( Stream . junk __strm ; Action . mk tok ) | _ -> raise Stream . Failure ) | Stoken ( ( f , _ ) ) -> ( fun ( __strm : _ Stream . t ) -> match Stream . peek __strm with | Some ( ( tok , _ ) ) when f tok -> ( Stream . junk __strm ; Action . mk tok ) | _ -> raise Stream . Failure ) and parse_top_symb entry symb strm = parser_of_symbol entry 0 ( top_symb entry symb ) strm let rec start_parser_of_levels entry clevn = function | [ ] -> ( fun _ ( __strm : _ Stream . t ) -> raise Stream . Failure ) | lev :: levs -> let p1 = start_parser_of_levels entry ( succ clevn ) levs in ( match lev . lprefix with | DeadEnd -> p1 | tree -> let alevn = ( match lev . assoc with | LeftA | NonA -> succ clevn | RightA -> clevn ) in let p2 = parser_of_tree entry ( succ clevn ) alevn tree in ( match levs with | [ ] -> ( fun levn strm -> let bp = loc_bp strm in let ( __strm : _ Stream . t ) = strm in let ( act , loc ) = add_loc bp p2 __strm in let strm = __strm in let a = Action . getf act loc in entry . econtinue levn loc a strm ) | _ -> ( fun levn strm -> if levn > clevn then p1 levn strm else ( let bp = loc_bp strm in let ( __strm : _ Stream . t ) = strm in match try Some ( add_loc bp p2 __strm ) with | Stream . Failure -> None with | Some ( ( act , loc ) ) -> let a = Action . getf act loc in entry . econtinue levn loc a strm | _ -> p1 levn __strm ) ) ) ) let start_parser_of_entry entry = match entry . edesc with | Dlevels [ ] -> Tools . empty_entry entry . ename | Dlevels elev -> start_parser_of_levels entry 0 elev | Dparser p -> ( fun _ -> p ) let rec continue_parser_of_levels entry clevn = function | [ ] -> ( fun _ _ _ ( __strm : _ Stream . t ) -> raise Stream . Failure ) | lev :: levs -> let p1 = continue_parser_of_levels entry ( succ clevn ) levs in ( match lev . lsuffix with | DeadEnd -> p1 | tree -> let alevn = ( match lev . assoc with | LeftA | NonA -> succ clevn | RightA -> clevn ) in let p2 = parser_of_tree entry ( succ clevn ) alevn tree in ( fun levn bp a strm -> if levn > clevn then p1 levn bp a strm else ( let ( __strm : _ Stream . t ) = strm in try p1 levn bp a __strm with | Stream . Failure -> let ( act , loc ) = add_loc bp p2 __strm in let a = Action . getf2 act a loc in entry . econtinue levn loc a strm ) ) ) let continue_parser_of_entry entry = match entry . edesc with | Dlevels elev -> let p = continue_parser_of_levels entry 0 elev in ( fun levn bp a ( __strm : _ Stream . t ) -> try p levn bp a __strm with | Stream . Failure -> a ) | Dparser _ -> ( fun _ _ _ ( __strm : _ Stream . t ) -> raise Stream . Failure ) end end module Insert = struct module Make ( Structure : Structure . S ) = struct module Tools = Tools . Make ( Structure ) module Parser = Parser . Make ( Structure ) open Structure open Format open Sig . Grammar let is_before s1 s2 = match ( s1 , s2 ) with | ( ( Skeyword _ | Stoken _ ) , ( Skeyword _ | Stoken _ ) ) -> false | ( ( Skeyword _ | Stoken _ ) , _ ) -> true | _ -> false let rec derive_eps = function | Slist0 _ | Slist0sep ( _ , _ ) | Sopt _ -> true | Stry s -> derive_eps s | Stree t -> tree_derive_eps t | Slist1 _ | Slist1sep ( _ , _ ) | Stoken _ | Skeyword _ -> false | Smeta ( _ , _ , _ ) | Snterm _ | Snterml ( _ , _ ) | Snext | Sself -> false and tree_derive_eps = function | LocAct ( _ , _ ) -> true | Node { node = s ; brother = bro ; son = son } -> ( ( derive_eps s ) && ( tree_derive_eps son ) ) || ( tree_derive_eps bro ) | DeadEnd -> false let empty_lev lname assoc = let assoc = match assoc with | Some a -> a | None -> LeftA in { assoc = assoc ; lname = lname ; lsuffix = DeadEnd ; lprefix = DeadEnd ; } let change_lev entry lev n lname assoc = let a = match assoc with | None -> lev . assoc | Some a -> ( if ( a <> lev . assoc ) && ( ! entry . egram . warning_verbose ) then ( eprintf " < W > Changing associativity of level " \% s " \\ n " n ; flush Pervasives . stderr ) else ( ) ; a ) in ( ( match lname with | Some n -> if ( lname <> lev . lname ) && ( ! entry . egram . warning_verbose ) then ( eprintf " < W > Level label " \% s " \ ignored \ n " n ; flush Pervasives . stderr ) else ( ) | None -> ( ) ) ; { assoc = a ; lname = lev . lname ; lsuffix = lev . lsuffix ; lprefix = lev . lprefix ; } ) let change_to_self entry = function | Snterm e when e == entry -> Sself | x -> x let get_level entry position levs = match position with | Some First -> ( [ ] , empty_lev , levs ) | Some Last -> ( levs , empty_lev , [ ] ) | Some ( Level n ) -> let rec get = ( function | [ ] -> ( eprintf " No level labelled " \% s " \ in entry " \% s " \\ n " n entry . ename ; flush Pervasives . stderr ; failwith " Grammar . extend " ) | lev :: levs -> if Tools . is_level_labelled n lev then ( [ ] , ( change_lev entry lev n ) , levs ) else ( let ( levs1 , rlev , levs2 ) = get levs in ( ( lev :: levs1 ) , rlev , levs2 ) ) ) in get levs | Some ( Before n ) -> let rec get = ( function | [ ] -> ( eprintf " No level labelled " \% s " \ in entry " \% s " \\ n " n entry . ename ; flush Pervasives . stderr ; failwith " Grammar . extend " ) | lev :: levs -> if Tools . is_level_labelled n lev then ( [ ] , empty_lev , ( lev :: levs ) ) else ( let ( levs1 , rlev , levs2 ) = get levs in ( ( lev :: levs1 ) , rlev , levs2 ) ) ) in get levs | Some ( After n ) -> let rec get = ( function | [ ] -> ( eprintf " No level labelled " \% s " \ in entry " \% s " \\ n " n entry . ename ; flush Pervasives . stderr ; failwith " Grammar . extend " ) | lev :: levs -> if Tools . is_level_labelled n lev then ( [ lev ] , empty_lev , levs ) else ( let ( levs1 , rlev , levs2 ) = get levs in ( ( lev :: levs1 ) , rlev , levs2 ) ) ) in get levs | None -> ( match levs with | lev :: levs -> ( [ ] , ( change_lev entry lev " < top " ) , > levs ) | [ ] -> ( [ ] , empty_lev , [ ] ) ) let rec check_gram entry = function | Snterm e -> if ( != ) e . egram entry . egram then ( eprintf " \ Error : entries " \% s " \ and " \% s " \ do not belong to the same grammar . \ n " entry . ename e . ename ; flush Pervasives . stderr ; failwith " Grammar . extend error " ) else ( ) | Snterml ( e , _ ) -> if ( != ) e . egram entry . egram then ( eprintf " \ Error : entries " \% s " \ and " \% s " \ do not belong to the same grammar . \ n " entry . ename e . ename ; flush Pervasives . stderr ; failwith " Grammar . extend error " ) else ( ) | Smeta ( _ , sl , _ ) -> List . iter ( check_gram entry ) sl | Slist0sep ( s , t ) -> ( check_gram entry t ; check_gram entry s ) | Slist1sep ( s , t ) -> ( check_gram entry t ; check_gram entry s ) | Slist0 s | Slist1 s | Sopt s | Stry s -> check_gram entry s | Stree t -> tree_check_gram entry t | Snext | Sself | Stoken _ | Skeyword _ -> ( ) and tree_check_gram entry = function | Node { node = n ; brother = bro ; son = son } -> ( check_gram entry n ; tree_check_gram entry bro ; tree_check_gram entry son ) | LocAct ( _ , _ ) | DeadEnd -> ( ) let get_initial = function | Sself :: symbols -> ( true , symbols ) | symbols -> ( false , symbols ) let insert_tokens gram symbols = let rec insert = function | Smeta ( _ , sl , _ ) -> List . iter insert sl | Slist0 s | Slist1 s | Sopt s | Stry s -> insert s | Slist0sep ( s , t ) -> ( insert s ; insert t ) | Slist1sep ( s , t ) -> ( insert s ; insert t ) | Stree t -> tinsert t | Skeyword kwd -> using gram kwd | Snterm _ | Snterml ( _ , _ ) | Snext | Sself | Stoken _ -> ( ) and tinsert = function | Node { node = s ; brother = bro ; son = son } -> ( insert s ; tinsert bro ; tinsert son ) | LocAct ( _ , _ ) | DeadEnd -> ( ) in List . iter insert symbols let insert_tree entry gsymbols action tree = let rec insert symbols tree = match symbols with | s :: sl -> insert_in_tree s sl tree | [ ] -> ( match tree with | Node { node = s ; son = son ; brother = bro } -> Node { node = s ; son = son ; brother = insert [ ] bro ; } | LocAct ( old_action , action_list ) -> let ( ) = if ( ! entry . egram . warning_verbose ) then eprintf " < W > Grammar extension : in [ % s ] some rule has been masked . " @ entry . ename else ( ) in LocAct ( action , ( old_action :: action_list ) ) | DeadEnd -> LocAct ( action , [ ] ) ) and insert_in_tree s sl tree = match try_insert s sl tree with | Some t -> t | None -> Node { node = s ; son = insert sl DeadEnd ; brother = tree ; } and try_insert s sl tree = match tree with | Node { node = s1 ; son = son ; brother = bro } -> if Tools . eq_symbol s s1 then ( let t = Node { node = s1 ; son = insert sl son ; brother = bro ; } in Some t ) else if ( is_before s1 s ) || ( ( derive_eps s ) && ( not ( derive_eps s1 ) ) ) then ( let bro = match try_insert s sl bro with | Some bro -> bro | None -> Node { node = s ; son = insert sl DeadEnd ; brother = bro ; } in let t = Node { node = s1 ; son = son ; brother = bro ; } in Some t ) else ( match try_insert s sl bro with | Some bro -> let t = Node { node = s1 ; son = son ; brother = bro ; } in Some t | None -> None ) | LocAct ( _ , _ ) | DeadEnd -> None and insert_new = function | s :: sl -> Node { node = s ; son = insert_new sl ; brother = DeadEnd ; } | [ ] -> LocAct ( action , [ ] ) in insert gsymbols tree let insert_level entry e1 symbols action slev = match e1 with | true -> { assoc = slev . assoc ; lname = slev . lname ; lsuffix = insert_tree entry symbols action slev . lsuffix ; lprefix = slev . lprefix ; } | false -> { assoc = slev . assoc ; lname = slev . lname ; lsuffix = slev . lsuffix ; lprefix = insert_tree entry symbols action slev . lprefix ; } let levels_of_rules entry position rules = let elev = match entry . edesc with | Dlevels elev -> elev | Dparser _ -> ( eprintf " Error : entry not extensible : " \% s " \\ n " entry . ename ; flush Pervasives . stderr ; failwith " Grammar . extend " ) in if rules = [ ] then elev else ( let ( levs1 , make_lev , levs2 ) = get_level entry position elev in let ( levs , _ ) = List . fold_left ( fun ( levs , make_lev ) ( lname , assoc , level ) -> let lev = make_lev lname assoc in let lev = List . fold_left ( fun lev ( symbols , action ) -> let symbols = List . map ( change_to_self entry ) symbols in ( List . iter ( check_gram entry ) symbols ; let ( e1 , symbols ) = get_initial symbols in ( insert_tokens entry . egram symbols ; insert_level entry e1 symbols action lev ) ) ) lev level in ( ( lev :: levs ) , empty_lev ) ) ( [ ] , make_lev ) rules in levs1 @ ( ( List . rev levs ) @ levs2 ) ) let extend entry ( position , rules ) = let elev = levels_of_rules entry position rules in ( entry . edesc <- Dlevels elev ; entry . estart <- ( fun lev strm -> let f = Parser . start_parser_of_entry entry in ( entry . estart <- f ; f lev strm ) ) ; entry . econtinue <- fun lev bp a strm -> let f = Parser . continue_parser_of_entry entry in ( entry . econtinue <- f ; f lev bp a strm ) ) end end module Delete = struct module Make ( Structure : Structure . S ) = struct module Tools = Tools . Make ( Structure ) module Parser = Parser . Make ( Structure ) open Structure let delete_rule_in_tree entry = let rec delete_in_tree symbols tree = match ( symbols , tree ) with | ( s :: sl , Node n ) -> if Tools . logically_eq_symbols entry s n . node then delete_son sl n else ( match delete_in_tree symbols n . brother with | Some ( ( dsl , t ) ) -> Some ( ( dsl , ( Node { node = n . node ; son = n . son ; brother = t ; } ) ) ) | None -> None ) | ( _ :: _ , _ ) -> None | ( [ ] , Node n ) -> ( match delete_in_tree [ ] n . brother with | Some ( ( dsl , t ) ) -> Some ( ( dsl , ( Node { node = n . node ; son = n . son ; brother = t ; } ) ) ) | None -> None ) | ( [ ] , DeadEnd ) -> None | ( [ ] , LocAct ( _ , [ ] ) ) -> Some ( ( ( Some [ ] ) , DeadEnd ) ) | ( [ ] , LocAct ( _ , ( action :: list ) ) ) -> Some ( ( None , ( LocAct ( action , list ) ) ) ) and delete_son sl n = match delete_in_tree sl n . son with | Some ( ( Some dsl , DeadEnd ) ) -> Some ( ( ( Some ( n . node :: dsl ) ) , ( n . brother ) ) ) | Some ( ( Some dsl , t ) ) -> let t = Node { node = n . node ; son = t ; brother = n . brother ; } in Some ( ( ( Some ( n . node :: dsl ) ) , t ) ) | Some ( ( None , t ) ) -> let t = Node { node = n . node ; son = t ; brother = n . brother ; } in Some ( ( None , t ) ) | None -> None in delete_in_tree let rec decr_keyw_use gram = function | Skeyword kwd -> removing gram kwd | Smeta ( _ , sl , _ ) -> List . iter ( decr_keyw_use gram ) sl | Slist0 s | Slist1 s | Sopt s | Stry s -> decr_keyw_use gram s | Slist0sep ( s1 , s2 ) -> ( decr_keyw_use gram s1 ; decr_keyw_use gram s2 ) | Slist1sep ( s1 , s2 ) -> ( decr_keyw_use gram s1 ; decr_keyw_use gram s2 ) | Stree t -> decr_keyw_use_in_tree gram t | Sself | Snext | Snterm _ | Snterml ( _ , _ ) | Stoken _ -> ( ) and decr_keyw_use_in_tree gram = function | DeadEnd | LocAct ( _ , _ ) -> ( ) | Node n -> ( decr_keyw_use gram n . node ; decr_keyw_use_in_tree gram n . son ; decr_keyw_use_in_tree gram n . brother ) let rec delete_rule_in_suffix entry symbols = function | lev :: levs -> ( match delete_rule_in_tree entry symbols lev . lsuffix with | Some ( ( dsl , t ) ) -> ( ( match dsl with | Some dsl -> List . iter ( decr_keyw_use entry . egram ) dsl | None -> ( ) ) ; ( match t with | DeadEnd when lev . lprefix == DeadEnd -> levs | _ -> let lev = { assoc = lev . assoc ; lname = lev . lname ; lsuffix = t ; lprefix = lev . lprefix ; } in lev :: levs ) ) | None -> let levs = delete_rule_in_suffix entry symbols levs in lev :: levs ) | [ ] -> raise Not_found let rec delete_rule_in_prefix entry symbols = function | lev :: levs -> ( match delete_rule_in_tree entry symbols lev . lprefix with | Some ( ( dsl , t ) ) -> ( ( match dsl with | Some dsl -> List . iter ( decr_keyw_use entry . egram ) dsl | None -> ( ) ) ; ( match t with | DeadEnd when lev . lsuffix == DeadEnd -> levs | _ -> let lev = { assoc = lev . assoc ; lname = lev . lname ; lsuffix = lev . lsuffix ; lprefix = t ; } in lev :: levs ) ) | None -> let levs = delete_rule_in_prefix entry symbols levs in lev :: levs ) | [ ] -> raise Not_found let rec delete_rule_in_level_list entry symbols levs = match symbols with | Sself :: symbols -> delete_rule_in_suffix entry symbols levs | Snterm e :: symbols when e == entry -> delete_rule_in_suffix entry symbols levs | _ -> delete_rule_in_prefix entry symbols levs let delete_rule entry sl = match entry . edesc with | Dlevels levs -> let levs = delete_rule_in_level_list entry sl levs in ( entry . edesc <- Dlevels levs ; entry . estart <- ( fun lev strm -> let f = Parser . start_parser_of_entry entry in ( entry . estart <- f ; f lev strm ) ) ; entry . econtinue <- ( fun lev bp a strm -> let f = Parser . continue_parser_of_entry entry in ( entry . econtinue <- f ; f lev bp a strm ) ) ) | Dparser _ -> ( ) end end module Fold : sig module Make ( Structure : Structure . S ) : sig open Structure val sfold0 : ( ' a -> ' b -> ' b ) -> ' b -> ( _ , ' a , ' b ) fold val sfold1 : ( ' a -> ' b -> ' b ) -> ' b -> ( _ , ' a , ' b ) fold val sfold0sep : ( ' a -> ' b -> ' b ) -> ' b -> ( _ , ' a , ' b ) foldsep end end = struct module Make ( Structure : Structure . S ) = struct open Structure open Format module Parse = Parser . Make ( Structure ) module Fail = Failed . Make ( Structure ) open Sig . Grammar module Stream = struct type ' a t = ' a Stream . t exception Failure = Stream . Failure exception Error = Stream . Error end let sfold0 f e _entry _symbl psymb = let rec fold accu ( __strm : _ Stream . t ) = match try Some ( psymb __strm ) with | Stream . Failure -> None with | Some a -> fold ( f a accu ) __strm | _ -> accu in fun ( __strm : _ Stream . t ) -> fold e __strm let sfold1 f e _entry _symbl psymb = let rec fold accu ( __strm : _ Stream . t ) = match try Some ( psymb __strm ) with | Stream . Failure -> None with | Some a -> fold ( f a accu ) __strm | _ -> accu in fun ( __strm : _ Stream . t ) -> let a = psymb __strm in try fold ( f a e ) __strm with | Stream . Failure -> raise ( Stream . Error " " ) let sfold0sep f e entry symbl psymb psep = let failed = function | [ symb ; sep ] -> Fail . symb_failed_txt entry sep symb | _ -> " failed " in let rec kont accu ( __strm : _ Stream . t ) = match try Some ( psep __strm ) with | Stream . Failure -> None with | Some ( ) -> let a = ( try psymb __strm with | Stream . Failure -> raise ( Stream . Error ( failed symbl ) ) ) in kont ( f a accu ) __strm | _ -> accu in fun ( __strm : _ Stream . t ) -> match try Some ( psymb __strm ) with | Stream . Failure -> None with | Some a -> kont ( f a e ) __strm | _ -> e let sfold1sep f e entry symbl psymb psep = let failed = function | [ symb ; sep ] -> Fail . symb_failed_txt entry sep symb | _ -> " failed " in let parse_top = function | [ symb ; _ ] -> Parse . parse_top_symb entry symb | _ -> raise Stream . Failure in let rec kont accu ( __strm : _ Stream . t ) = match try Some ( psep __strm ) with | Stream . Failure -> None with | Some ( ) -> let a = ( try try psymb __strm with | Stream . Failure -> let a = ( try parse_top symbl __strm with | Stream . Failure -> raise ( Stream . Error ( failed symbl ) ) ) in Obj . magic a with | Stream . Failure -> raise ( Stream . Error " " ) ) in kont ( f a accu ) __strm | _ -> accu in fun ( __strm : _ Stream . t ) -> let a = psymb __strm in kont ( f a e ) __strm end end module Entry = struct module Make ( Structure : Structure . S ) = struct module Dump = Print . MakeDump ( Structure ) module Print = Print . Make ( Structure ) module Tools = Tools . Make ( Structure ) open Format open Structure open Tools type ' a t = internal_entry let name e = e . ename let print ppf e = fprintf ppf " % a @\ n " Print . entry e let dump ppf e = fprintf ppf " % a @\ n " Dump . entry e let mk g n = { egram = g ; ename = n ; estart = empty_entry n ; econtinue = ( fun _ _ _ ( __strm : _ Stream . t ) -> raise Stream . Failure ) ; edesc = Dlevels [ ] ; } let action_parse entry ts : Action . t = try entry . estart 0 ts with | Stream . Failure -> Loc . raise ( get_prev_loc ts ) ( Stream . Error ( " illegal begin of " ^ entry . ename ) ) | ( Loc . Exc_located ( _ , _ ) as exc ) -> raise exc | exc -> Loc . raise ( get_prev_loc ts ) exc let lex entry loc cs = entry . egram . glexer loc cs let lex_string entry loc str = lex entry loc ( Stream . of_string str ) let filter entry ts = keep_prev_loc ( Token . Filter . filter ( get_filter entry . egram ) ts ) let parse_tokens_after_filter entry ts = Action . get ( action_parse entry ts ) let parse_tokens_before_filter entry ts = parse_tokens_after_filter entry ( filter entry ts ) let parse entry loc cs = parse_tokens_before_filter entry ( lex entry loc cs ) let parse_string entry loc str = parse_tokens_before_filter entry ( lex_string entry loc str ) let of_parser g n ( p : ( Token . t * token_info ) Stream . t -> ' a ) : ' a t = let f ts = Action . mk ( p ts ) in { egram = g ; ename = n ; estart = ( fun _ -> f ) ; econtinue = ( fun _ _ _ ( __strm : _ Stream . t ) -> raise Stream . Failure ) ; edesc = Dparser f ; } let setup_parser e ( p : ( Token . t * token_info ) Stream . t -> ' a ) = let f ts = Action . mk ( p ts ) in ( e . estart <- ( fun _ -> f ) ; e . econtinue <- ( fun _ _ _ ( __strm : _ Stream . t ) -> raise Stream . Failure ) ; e . edesc <- Dparser f ) let clear e = ( e . estart <- ( fun _ ( __strm : _ Stream . t ) -> raise Stream . Failure ) ; e . econtinue <- ( fun _ _ _ ( __strm : _ Stream . t ) -> raise Stream . Failure ) ; e . edesc <- Dlevels [ ] ) let obj x = x end end module Static = struct let uncurry f ( x , y ) = f x y let flip f x y = f y x module Make ( Lexer : Sig . Lexer ) : Sig . Grammar . Static with module Loc = Lexer . Loc and module Token = Lexer . Token = struct module Structure = Structure . Make ( Lexer ) module Delete = Delete . Make ( Structure ) module Insert = Insert . Make ( Structure ) module Fold = Fold . Make ( Structure ) module Tools = Tools . Make ( Structure ) include Structure let gram = let gkeywords = Hashtbl . create 301 in { gkeywords = gkeywords ; gfilter = Token . Filter . mk ( Hashtbl . mem gkeywords ) ; glexer = Lexer . mk ( ) ; warning_verbose = ref true ; error_verbose = Camlp4_config . verbose ; } module Entry = struct module E = Entry . Make ( Structure ) type ' a t = ' a E . t let mk = E . mk gram let of_parser name strm = E . of_parser gram name strm let setup_parser = E . setup_parser let name = E . name let print = E . print let clear = E . clear let dump = E . dump let obj x = x end let get_filter ( ) = gram . gfilter let lex loc cs = gram . glexer loc cs let lex_string loc str = lex loc ( Stream . of_string str ) let filter ts = Tools . keep_prev_loc ( Token . Filter . filter gram . gfilter ts ) let parse_tokens_after_filter entry ts = Entry . E . parse_tokens_after_filter entry ts let parse_tokens_before_filter entry ts = parse_tokens_after_filter entry ( filter ts ) let parse entry loc cs = parse_tokens_before_filter entry ( lex loc cs ) let parse_string entry loc str = parse_tokens_before_filter entry ( lex_string loc str ) let delete_rule = Delete . delete_rule let srules e rl = Stree ( List . fold_left ( flip ( uncurry ( Insert . insert_tree e ) ) ) DeadEnd rl ) let sfold0 = Fold . sfold0 let sfold1 = Fold . sfold1 let sfold0sep = Fold . sfold0sep let extend = Insert . extend end end module Dynamic = struct module Make ( Lexer : Sig . Lexer ) : Sig . Grammar . Dynamic with module Loc = Lexer . Loc and module Token = Lexer . Token = struct module Structure = Structure . Make ( Lexer ) module Delete = Delete . Make ( Structure ) module Insert = Insert . Make ( Structure ) module Entry = Entry . Make ( Structure ) module Fold = Fold . Make ( Structure ) module Tools = Tools . Make ( Structure ) include Structure let mk ( ) = let gkeywords = Hashtbl . create 301 in { gkeywords = gkeywords ; gfilter = Token . Filter . mk ( Hashtbl . mem gkeywords ) ; glexer = Lexer . mk ( ) ; warning_verbose = ref true ; error_verbose = Camlp4_config . verbose ; } let get_filter g = g . gfilter let lex g loc cs = g . glexer loc cs let lex_string g loc str = lex g loc ( Stream . of_string str ) let filter g ts = Tools . keep_prev_loc ( Token . Filter . filter g . gfilter ts ) let parse_tokens_after_filter entry ts = Entry . parse_tokens_after_filter entry ts let parse_tokens_before_filter entry ts = parse_tokens_after_filter entry ( filter entry . egram ts ) let parse entry loc cs = parse_tokens_before_filter entry ( lex entry . egram loc cs ) let parse_string entry loc str = parse_tokens_before_filter entry ( lex_string entry . egram loc str ) let delete_rule = Delete . delete_rule let srules e rl = let t = List . fold_left ( fun tree ( symbols , action ) -> Insert . insert_tree e symbols action tree ) DeadEnd rl in Stree t let sfold0 = Fold . sfold0 let sfold1 = Fold . sfold1 let sfold0sep = Fold . sfold0sep let extend = Insert . extend end end end end |
module Printers = struct module DumpCamlp4Ast : sig module Id : Sig . Id module Make ( Syntax : Sig . Syntax ) : Sig . Printer ( Syntax . Ast ) . S end = struct module Id = struct let name = " Camlp4Printers . DumpCamlp4Ast " let version = Sys . ocaml_version end module Make ( Syntax : Sig . Syntax ) : Sig . Printer ( Syntax . Ast ) . S = struct include Syntax let with_open_out_file x f = match x with | Some file -> let oc = open_out_bin file in ( f oc ; flush oc ; close_out oc ) | None -> ( set_binary_mode_out stdout true ; f stdout ; flush stdout ) let dump_ast magic ast oc = ( output_string oc magic ; output_value oc ast ) let print_interf ? input_file ( : _ ) ? output_file ast = with_open_out_file output_file ( dump_ast Camlp4_config . camlp4_ast_intf_magic_number ast ) let print_implem ? input_file ( : _ ) ? output_file ast = with_open_out_file output_file ( dump_ast Camlp4_config . camlp4_ast_impl_magic_number ast ) end end module DumpOCamlAst : sig module Id : Sig . Id module Make ( Syntax : Sig . Camlp4Syntax ) : Sig . Printer ( Syntax . Ast ) . S end = struct module Id : Sig . Id = struct let name = " Camlp4Printers . DumpOCamlAst " let version = Sys . ocaml_version end module Make ( Syntax : Sig . Camlp4Syntax ) : Sig . Printer ( Syntax . Ast ) . S = struct include Syntax module Ast2pt = Struct . Camlp4Ast2OCamlAst . Make ( Ast ) let with_open_out_file x f = match x with | Some file -> let oc = open_out_bin file in ( f oc ; flush oc ; close_out oc ) | None -> ( set_binary_mode_out stdout true ; f stdout ; flush stdout ) let dump_pt magic fname pt oc = ( output_string oc magic ; output_value oc ( if fname = " " - then " " else fname ) ; output_value oc pt ) let print_interf ( ? input_file = " " ) - ? output_file ast = let pt = Ast2pt . sig_item ast in with_open_out_file output_file ( dump_pt Camlp4_config . ocaml_ast_intf_magic_number input_file pt ) let print_implem ( ? input_file = " " ) - ? output_file ast = let pt = Ast2pt . str_item ast in with_open_out_file output_file ( dump_pt Camlp4_config . ocaml_ast_impl_magic_number input_file pt ) end end module Null : sig module Id : Sig . Id module Make ( Syntax : Sig . Syntax ) : Sig . Printer ( Syntax . Ast ) . S end = struct module Id = struct let name = " Camlp4 . Printers . Null " let version = Sys . ocaml_version end module Make ( Syntax : Sig . Syntax ) = struct include Syntax let print_interf ? input_file ( : _ ) ? output_file ( : _ ) _ = ( ) let print_implem ? input_file ( : _ ) ? output_file ( : _ ) _ = ( ) end end module OCaml : sig module Id : Sig . Id module Make ( Syntax : Sig . Camlp4Syntax ) : sig open Format include Sig . Camlp4Syntax with module Loc = Syntax . Loc and module Token = Syntax . Token and module Ast = Syntax . Ast and module Gram = Syntax . Gram type sep = ( unit , formatter , unit ) format type fun_binding = [ | ` patt of Ast . patt | ` newtype of string ] val list ' : ( formatter -> ' a -> unit ) -> ( ' b , formatter , unit ) format -> ( unit , formatter , unit ) format -> formatter -> ' a list -> unit val list : ( formatter -> ' a -> unit ) -> ( ' b , formatter , unit ) format -> formatter -> ' a list -> unit val lex_string : string -> Token . t val is_infix : string -> bool val is_keyword : string -> bool val ocaml_char : string -> string val get_expr_args : Ast . expr -> Ast . expr list -> ( Ast . expr * ( Ast . expr list ) ) val get_patt_args : Ast . patt -> Ast . patt list -> ( Ast . patt * ( Ast . patt list ) ) val get_ctyp_args : Ast . ctyp -> Ast . ctyp list -> ( Ast . ctyp * ( Ast . ctyp list ) ) val expr_fun_args : Ast . expr -> ( ( fun_binding list ) * Ast . expr ) class printer : ? curry_constr : bool -> ? comments : bool -> unit -> object ( ' a ) method interf : formatter -> Ast . sig_item -> unit method implem : formatter -> Ast . str_item -> unit method sig_item : formatter -> Ast . sig_item -> unit method str_item : formatter -> Ast . str_item -> unit val pipe : bool val semi : bool val semisep : sep method value_val : string method value_let : string method andsep : sep method anti : formatter -> string -> unit method class_declaration : formatter -> Ast . class_expr -> unit method class_expr : formatter -> Ast . class_expr -> unit method class_sig_item : formatter -> Ast . class_sig_item -> unit method class_str_item : formatter -> Ast . class_str_item -> unit method class_type : formatter -> Ast . class_type -> unit method constrain : formatter -> ( Ast . ctyp * Ast . ctyp ) -> unit method ctyp : formatter -> Ast . ctyp -> unit method ctyp1 : formatter -> Ast . ctyp -> unit method constructor_type : formatter -> Ast . ctyp -> unit method dot_expr : formatter -> Ast . expr -> unit method apply_expr : formatter -> Ast . expr -> unit method expr : formatter -> Ast . expr -> unit method expr_list : formatter -> Ast . expr list -> unit method expr_list_cons : bool -> formatter -> Ast . expr -> unit method fun_binding : formatter -> fun_binding -> unit method functor_arg : formatter -> ( string * Ast . module_type ) -> unit method functor_args : formatter -> ( string * Ast . module_type ) list -> unit method ident : formatter -> Ast . ident -> unit method numeric : formatter -> string -> string -> unit method binding : formatter -> Ast . binding -> unit method record_binding : formatter -> Ast . rec_binding -> unit method match_case : formatter -> Ast . match_case -> unit method match_case_aux : formatter -> Ast . match_case -> unit method mk_expr_list : Ast . expr -> ( ( Ast . expr list ) * ( Ast . expr option ) ) method mk_patt_list : Ast . patt -> ( ( Ast . patt list ) * ( Ast . patt option ) ) method simple_module_expr : formatter -> Ast . module_expr -> unit method module_expr : formatter -> Ast . module_expr -> unit method module_expr_get_functor_args : ( string * Ast . module_type ) list -> Ast . module_expr -> ( ( ( string * Ast . module_type ) list ) * Ast . module_expr * ( Ast . module_type option ) ) method module_rec_binding : formatter -> Ast . module_binding -> unit method module_type : formatter -> Ast . module_type -> unit method override_flag : formatter -> Ast . override_flag -> unit method mutable_flag : formatter -> Ast . mutable_flag -> unit method direction_flag : formatter -> Ast . direction_flag -> unit method rec_flag : formatter -> Ast . rec_flag -> unit method node : formatter -> ' b -> ( ' b -> Loc . t ) -> unit method patt : formatter -> Ast . patt -> unit method patt1 : formatter -> Ast . patt -> unit method patt2 : formatter -> Ast . patt -> unit method patt3 : formatter -> Ast . patt -> unit method patt4 : formatter -> Ast . patt -> unit method patt5 : formatter -> Ast . patt -> unit method patt_tycon : formatter -> Ast . patt -> unit method patt_expr_fun_args : formatter -> ( fun_binding * Ast . expr ) -> unit method patt_class_expr_fun_args : formatter -> ( Ast . patt * Ast . class_expr ) -> unit method print_comments_before : Loc . t -> formatter -> unit method private_flag : formatter -> Ast . private_flag -> unit method virtual_flag : formatter -> Ast . virtual_flag -> unit method quoted_string : formatter -> string -> unit method raise_match_failure : formatter -> Loc . t -> unit method reset : ' a method reset_semi : ' a method semisep : sep method set_comments : bool -> ' a method set_curry_constr : bool -> ' a method set_loc_and_comments : ' a method set_semisep : sep -> ' a method simple_ctyp : formatter -> Ast . ctyp -> unit method simple_expr : formatter -> Ast . expr -> unit method simple_patt : formatter -> Ast . patt -> unit method seq : formatter -> Ast . expr -> unit method string : formatter -> string -> unit method sum_type : formatter -> Ast . ctyp -> unit method type_params : formatter -> Ast . ctyp list -> unit method class_params : formatter -> Ast . ctyp -> unit method under_pipe : ' a method under_semi : ' a method var : formatter -> string -> unit method with_constraint : formatter -> Ast . with_constr -> unit end val with_outfile : string option -> ( formatter -> ' a -> unit ) -> ' a -> unit val print : string option -> ( printer -> formatter -> ' a -> unit ) -> ' a -> unit end module MakeMore ( Syntax : Sig . Camlp4Syntax ) : Sig . Printer ( Syntax . Ast ) . S end = struct open Format module Id = struct let name = " Camlp4 . Printers . OCaml " let version = Sys . ocaml_version end module Make ( Syntax : Sig . Camlp4Syntax ) = struct include Syntax type sep = ( unit , formatter , unit ) format type fun_binding = [ | ` patt of Ast . patt | ` newtype of string ] let pp = fprintf let cut f = fprintf f " @ " let list ' elt sep sep ' f = let rec loop = function | [ ] -> ( ) | x :: xs -> ( pp f sep ; elt f x ; pp f sep ' ; loop xs ) in function | [ ] -> ( ) | [ x ] -> ( elt f x ; pp f sep ' ) | x :: xs -> ( elt f x ; pp f sep ' ; loop xs ) let list elt sep f = let rec loop = function | [ ] -> ( ) | x :: xs -> ( pp f sep ; elt f x ; loop xs ) in function | [ ] -> ( ) | [ x ] -> elt f x | x :: xs -> ( elt f x ; loop xs ) let rec list_of_meta_list = function | Ast . LNil -> [ ] | Ast . LCons ( x , xs ) -> x :: ( list_of_meta_list xs ) | Ast . LAnt _ -> assert false let meta_list elt sep f mxs = let xs = list_of_meta_list mxs in list elt sep f xs module CommentFilter = Struct . CommentFilter . Make ( Token ) let comment_filter = CommentFilter . mk ( ) let _ = CommentFilter . define ( Gram . get_filter ( ) ) comment_filter module StringSet = Set . Make ( String ) let infix_lidents = [ " asr " ; " land " ; " lor " ; " lsl " ; " lsr " ; " lxor " ; " mod " ; " or " ] let is_infix = let first_chars = [ ' ' ; = ' ' ; < ' ' ; > ' ' ; | ' ' ; & ' ' ; $ ' ' ; @ ' ' ; ^ ' ' ; + ' ' ; - ' ' ; * ' ' ; / ' ' ; % ' ' \\ ] and infixes = List . fold_right StringSet . add infix_lidents StringSet . empty in fun s -> ( StringSet . mem s infixes ) || ( ( s <> " " ) && ( List . mem s . [ 0 ] first_chars ) ) let is_keyword = let keywords = List . fold_right StringSet . add [ " and " ; " as " ; " assert " ; " begin " ; " class " ; " constraint " ; " do " ; " done " ; " downto " ; " else " ; " end " ; " exception " ; " external " ; " false " ; " for " ; " fun " ; " function " ; " functor " ; " if " ; " in " ; " include " ; " inherit " ; " initializer " ; " lazy " ; " let " ; " match " ; " method " ; " module " ; " mutable " ; " new " ; " object " ; " of " ; " open " ; " parser " ; " private " ; " rec " ; " sig " ; " struct " ; " then " ; " to " ; " true " ; " try " ; " type " ; " val " ; " virtual " ; " when " ; " while " ; " with " ] StringSet . empty in fun s -> StringSet . mem s keywords module Lexer = Struct . Lexer . Make ( Token ) let _ = let module M = ErrorHandler . Register ( Lexer . Error ) in ( ) open Sig let lexer s = Lexer . from_string ~ quotations : ! Camlp4_config . quotations Loc . ghost s let lex_string str = try let ( __strm : _ Stream . t ) = lexer str in match Stream . peek __strm with | Some ( ( tok , _ ) ) -> ( Stream . junk __strm ; ( match Stream . peek __strm with | Some ( ( EOI , _ ) ) -> ( Stream . junk __strm ; tok ) | _ -> raise ( Stream . Error " " ) ) ) | _ -> raise Stream . Failure with | Stream . Failure | Stream . Error _ -> failwith ( sprintf " Cannot print % S this string contains more than one token " str ) | Lexer . Error . E exn -> failwith ( sprintf " Cannot print % S this identifier does not respect OCaml lexing rules ( % s ) " str ( Lexer . Error . to_string exn ) ) let ocaml_char = function | " ' " -> " ' " \\ | c -> c let rec get_expr_args a al = match a with | Ast . ExApp ( _ , a1 , a2 ) -> get_expr_args a1 ( a2 :: al ) | _ -> ( a , al ) let rec get_patt_args a al = match a with | Ast . PaApp ( _ , a1 , a2 ) -> get_patt_args a1 ( a2 :: al ) | _ -> ( a , al ) let rec get_ctyp_args a al = match a with | Ast . TyApp ( _ , a1 , a2 ) -> get_ctyp_args a1 ( a2 :: al ) | _ -> ( a , al ) let is_irrefut_patt = Ast . is_irrefut_patt let rec expr_fun_args = function | ( Ast . ExFun ( _ , ( Ast . McArr ( _ , p , ( Ast . ExNil _ ) , e ) ) ) as ge ) -> if is_irrefut_patt p then ( let ( pl , e ) = expr_fun_args e in ( ( ( ` patt p ) :: pl ) , e ) ) else ( [ ] , ge ) | Ast . ExFUN ( _ , i , e ) -> let ( pl , e ) = expr_fun_args e in ( ( ( ` newtype i ) :: pl ) , e ) | ge -> ( [ ] , ge ) let rec class_expr_fun_args = function | ( Ast . CeFun ( _ , p , ce ) as ge ) -> if is_irrefut_patt p then ( let ( pl , ce ) = class_expr_fun_args ce in ( ( p :: pl ) , ce ) ) else ( [ ] , ge ) | ge -> ( [ ] , ge ) let rec do_print_comments_before loc f ( __strm : _ Stream . t ) = match Stream . peek __strm with | Some ( ( comm , comm_loc ) ) when Loc . strictly_before comm_loc loc -> ( Stream . junk __strm ; let s = __strm in let ( ) = f comm comm_loc in do_print_comments_before loc f s ) | _ -> ( ) class printer ? curry_constr ( : init_curry_constr = false ) ( ? comments = true ) ( ) = object ( o ) val pipe = false val semi = false method under_pipe = { < pipe = true ; } > method under_semi = { < semi = true ; } > method reset_semi = { < semi = false ; } > method reset = { < pipe = false ; semi = false ; } > val semisep = ( " ; ; " : sep ) val mode = if comments then ` comments else ` no_comments val curry_constr = init_curry_constr val var_conversion = false method andsep : sep = " ] @@ [ @< 2 > and @ " method value_val = " val " method value_let = " let " method semisep = semisep method set_semisep = fun s -> { < semisep = s ; } > method set_comments = fun b -> { < mode = if b then ` comments else ` no_comments ; } > method set_loc_and_comments = { < mode = ` loc_and_comments ; } > method set_curry_constr = fun b -> { < curry_constr = b ; } > method print_comments_before = fun loc f -> match mode with | ` comments -> do_print_comments_before loc ( fun c _ -> pp f " % s @ " c ) ( CommentFilter . take_stream comment_filter ) | ` loc_and_comments -> let ( ) = pp f " @ " Loc . dump loc in do_print_comments_before loc ( fun s -> pp f " % s @ " s Loc . dump ) ( CommentFilter . take_stream comment_filter ) | _ -> ( ) method var = fun f -> function | " " -> pp f " $ lid " " " :\\$ | " [ ] " -> pp f " [ ] " | " ( ) " -> pp f " ( ) " | " True " -> pp f " True " | " False " -> pp f " False " | v -> ( match ( var_conversion , v ) with | ( true , " val " ) -> pp f " contents " | ( true , " True " ) -> pp f " true " | ( true , " False " ) -> pp f " false " | _ -> ( match lex_string v with | LIDENT s | UIDENT s | ESCAPED_IDENT s when is_keyword s -> pp f " % s__ " s | LIDENT s | ESCAPED_IDENT s when List . mem s infix_lidents -> pp f " ( % s ) " s | SYMBOL s -> pp f " ( % s ) " s | LIDENT s | UIDENT s | ESCAPED_IDENT s -> pp_print_string f s | tok -> failwith ( sprintf " Bad token used as an identifier : % s " ( Token . to_string tok ) ) ) ) method type_params = fun f -> function | [ ] -> ( ) | [ x ] -> pp f " % a @ " o # ctyp x | l -> pp f " [ @< 1 ( >% a ) ] @@ " ( list o # ctyp " , @ " ) l method class_params = fun f -> function | Ast . TyCom ( _ , t1 , t2 ) -> pp f " [ @< 1 >% a , @ % a ] " @ o # class_params t1 o # class_params t2 | x -> o # ctyp f x method override_flag = fun f -> function | Ast . OvOverride -> pp f " " ! | Ast . OvNil -> ( ) | Ast . OvAnt s -> o # anti f s method mutable_flag = fun f -> function | Ast . MuMutable -> pp f " mutable @ " | Ast . MuNil -> ( ) | Ast . MuAnt s -> o # anti f s method rec_flag = fun f -> function | Ast . ReRecursive -> pp f " rec @ " | Ast . ReNil -> ( ) | Ast . ReAnt s -> o # anti f s method virtual_flag = fun f -> function | Ast . ViVirtual -> pp f " virtual @ " | Ast . ViNil -> ( ) | Ast . ViAnt s -> o # anti f s method private_flag = fun f -> function | Ast . PrPrivate -> pp f " private @ " | Ast . PrNil -> ( ) | Ast . PrAnt s -> o # anti f s method anti = fun f s -> pp f " $% s " $ s method seq = fun f -> function | Ast . ExSem ( _ , e1 , e2 ) -> pp f " % a ; @ % a " o # under_semi # seq e1 o # seq e2 | Ast . ExSeq ( _ , e ) -> o # seq f e | e -> o # expr f e method match_case = fun f -> function | Ast . McNil _loc -> pp f " [ @< 2 >@ _ ->@ % a ] " @ o # raise_match_failure _loc | a -> o # match_case_aux f a method match_case_aux = fun f -> function | Ast . McNil _ -> ( ) | Ast . McAnt ( _ , s ) -> o # anti f s | Ast . McOr ( _ , a1 , a2 ) -> pp f " % a % a " o # match_case_aux a1 o # match_case_aux a2 | Ast . McArr ( _ , p , ( Ast . ExNil _ ) , e ) -> pp f " @ | [ @< 2 >% a @ ->@ % a ] " @ o # patt p o # under_pipe # expr e | Ast . McArr ( _ , p , w , e ) -> pp f " @ | [ @< 2 >% a @ when @ % a @ ->@ % a ] " @ o # patt p o # under_pipe # expr w o # under_pipe # expr e method fun_binding = fun f -> function | ` patt p -> o # simple_patt f p | ` newtype i -> pp f " ( type % s ) " i method binding = fun f bi -> let ( ) = o # node f bi Ast . loc_of_binding in match bi with | Ast . BiNil _ -> ( ) | Ast . BiAnd ( _ , b1 , b2 ) -> ( o # binding f b1 ; pp f o # andsep ; o # binding f b2 ) | Ast . BiEq ( _ , p , e ) -> let ( pl , e ) = ( match p with | Ast . PaTyc ( _ , _ , _ ) -> ( [ ] , e ) | _ -> expr_fun_args e ) in ( match ( p , e ) with | ( Ast . PaId ( _ , ( Ast . IdLid ( _ , _ ) ) ) , Ast . ExTyc ( _ , e , t ) ) -> pp f " % a :@ % a =@ % a " ( list o # fun_binding " @ " ) ( ( ` patt p ) :: pl ) o # ctyp t o # expr e | _ -> pp f " % a [ @< 0 >% a ] =@@ % a " o # simple_patt p ( list ' o # fun_binding " " " @ " ) pl o # expr e ) | Ast . BiAnt ( _ , s ) -> o # anti f s method record_binding = fun f bi -> let ( ) = o # node f bi Ast . loc_of_rec_binding in match bi with | Ast . RbNil _ -> ( ) | Ast . RbEq ( _ , i , e ) -> pp f " @ [ @< 2 >% a =@ % a ] ; " @ o # var_ident i o # expr e | Ast . RbSem ( _ , b1 , b2 ) -> ( o # under_semi # record_binding f b1 ; o # under_semi # record_binding f b2 ) | Ast . RbAnt ( _ , s ) -> o # anti f s method mk_patt_list = function | Ast . PaApp ( _ , ( Ast . PaApp ( _ , ( Ast . PaId ( _ , ( Ast . IdUid ( _ , " " ) ) ) ) , :: p1 ) ) , p2 ) -> let ( pl , c ) = o # mk_patt_list p2 in ( ( p1 :: pl ) , c ) | Ast . PaId ( _ , ( Ast . IdUid ( _ , " [ ] " ) ) ) -> ( [ ] , None ) | p -> ( [ ] , ( Some p ) ) method mk_expr_list = function | Ast . ExApp ( _ , ( Ast . ExApp ( _ , ( Ast . ExId ( _ , ( Ast . IdUid ( _ , " " ) ) ) ) , :: e1 ) ) , e2 ) -> let ( el , c ) = o # mk_expr_list e2 in ( ( e1 :: el ) , c ) | Ast . ExId ( _ , ( Ast . IdUid ( _ , " [ ] " ) ) ) -> ( [ ] , None ) | e -> ( [ ] , ( Some e ) ) method expr_list = fun f -> function | [ ] -> pp f " [ ] " | [ e ] -> pp f " [ % a ] " o # under_semi # expr e | el -> pp f " [ @< 2 [ > % a ] @ ] " ( list o # under_semi # expr " ; @ " ) el method expr_list_cons = fun simple f e -> let ( el , c ) = o # mk_expr_list e in match c with | None -> o # expr_list f el | Some x -> ( if simple then pp f " [ @< 2 ( >% a ) ] " @ else pp f " [ @< 2 >% a ] " ) @ ( list o # under_semi # dot_expr " ::@ " ) ( el @ [ x ] ) method patt_expr_fun_args = fun f ( p , e ) -> let ( pl , e ) = expr_fun_args e in pp f " % a @ ->@ % a " ( list o # fun_binding " @ " ) ( p :: pl ) o # expr e method patt_class_expr_fun_args = fun f ( p , ce ) -> let ( pl , ce ) = class_expr_fun_args ce in pp f " % a ] =@@ % a " ( list o # simple_patt " @ " ) ( p :: pl ) o # class_expr ce method constrain = fun f ( t1 , t2 ) -> pp f " [ @< 2 > constraint @ % a =@ % a ] " @ o # ctyp t1 o # ctyp t2 method sum_type = fun f t -> match Ast . list_of_ctyp t [ ] with | [ ] -> ( ) | ts -> pp f " [ @< hv0 >| % a ] " @ ( list o # ctyp " @ | " ) ts method string = fun f -> pp f " % s " method quoted_string = fun f -> pp f " % S " method numeric = fun f num suff -> if num . [ 0 ] = ' ' - then pp f " ( % s % s ) " num suff else pp f " % s % s " num suff method module_expr_get_functor_args = fun accu -> function | Ast . MeFun ( _ , s , mt , me ) -> o # module_expr_get_functor_args ( ( s , mt ) :: accu ) me | Ast . MeTyc ( _ , me , mt ) -> ( ( List . rev accu ) , me , ( Some mt ) ) | me -> ( ( List . rev accu ) , me , None ) method functor_args = fun f -> list o # functor_arg " @ " f method functor_arg = fun f ( s , mt ) -> pp f " [ @< 2 ( >% a :@ % a ) ] " @ o # var s o # module_type mt method module_rec_binding = fun f -> function | Ast . MbNil _ -> ( ) | Ast . MbColEq ( _ , s , mt , me ) -> pp f " [ @< 2 >% a :@ % a =@ % a ] " @ o # var s o # module_type mt o # module_expr me | Ast . MbCol ( _ , s , mt ) -> pp f " [ @< 2 >% a :@ % a ] " @ o # var s o # module_type mt | Ast . MbAnd ( _ , mb1 , mb2 ) -> ( o # module_rec_binding f mb1 ; pp f o # andsep ; o # module_rec_binding f mb2 ) | Ast . MbAnt ( _ , s ) -> o # anti f s method class_declaration = fun f -> function | Ast . CeTyc ( _ , ce , ct ) -> pp f " % a :@ % a " o # class_expr ce o # class_type ct | ce -> o # class_expr f ce method raise_match_failure = fun f _loc -> let n = Loc . file_name _loc in let l = Loc . start_line _loc in let c = ( Loc . start_off _loc ) - ( Loc . start_bol _loc ) in o # expr f ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " raise " ) ) ) ) , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " Match_failure " ) ) ) ) , ( Ast . ExStr ( _loc , ( Ast . safe_string_escaped n ) ) ) ) ) , ( Ast . ExInt ( _loc , ( string_of_int l ) ) ) ) ) , ( Ast . ExInt ( _loc , ( string_of_int c ) ) ) ) ) ) ) method node : ' a . formatter -> ' a -> ( ' a -> Loc . t ) -> unit = fun f node loc_of_node -> o # print_comments_before ( loc_of_node node ) f method ident = fun f i -> let ( ) = o # node f i Ast . loc_of_ident in match i with | Ast . IdAcc ( _ , i1 , i2 ) -> pp f " % a . , @% a " o # ident i1 o # ident i2 | Ast . IdApp ( _ , i1 , i2 ) -> pp f " % a , ( @% a ) " o # ident i1 o # ident i2 | Ast . IdAnt ( _ , s ) -> o # anti f s | Ast . IdLid ( _ , s ) | Ast . IdUid ( _ , s ) -> o # var f s method private var_ident = { < var_conversion = true ; } ># ident method expr = fun f e -> let ( ) = o # node f e Ast . loc_of_expr in match e with | ( Ast . ExLet ( _ , _ , _ , _ ) | Ast . ExLmd ( _ , _ , _ , _ ) as e ) when semi -> pp f " ( % a ) " o # reset # expr e | ( Ast . ExMat ( _ , _ , _ ) | Ast . ExTry ( _ , _ , _ ) | Ast . ExFun ( _ , _ ) as e ) when pipe || semi -> pp f " ( % a ) " o # reset # expr e | Ast . ExApp ( _ , ( Ast . ExId ( _ , ( Ast . IdLid ( _ , " " ) ) ) ) , ~- x ) -> pp f " [ @< 2 >-@ % a ] " @ o # dot_expr x | Ast . ExApp ( _ , ( Ast . ExId ( _ , ( Ast . IdLid ( _ , " . " ) ) ) ) , ~- x ) -> pp f " [ @< 2 . >-@ % a ] " @ o # dot_expr x | Ast . ExApp ( _ , ( Ast . ExApp ( _ , ( Ast . ExId ( _ , ( Ast . IdUid ( _ , " " ) ) ) ) , :: _ ) ) , _ ) -> o # expr_list_cons false f e | Ast . ExApp ( _loc , ( Ast . ExApp ( _ , ( Ast . ExId ( _ , ( Ast . IdLid ( _ , n ) ) ) ) , x ) ) , y ) when is_infix n -> pp f " [ @< 2 >% a @ % s @ % a ] " @ o # apply_expr x n o # apply_expr y | Ast . ExApp ( _ , x , y ) -> let ( a , al ) = get_expr_args x [ y ] in if ( not curry_constr ) && ( Ast . is_expr_constructor a ) then ( match al with | [ Ast . ExTup ( _ , _ ) ] -> pp f " [ @< 2 >% a @ ( % a ) ] " @ o # apply_expr x o # expr y | [ _ ] -> pp f " [ @< 2 >% a @ % a ] " @ o # apply_expr x o # apply_expr y | al -> pp f " [ @< 2 >% a @ ( % a ) ] " @ o # apply_expr a ( list o # under_pipe # apply_expr " , @ " ) al ) else pp f " [ @< 2 >% a ] " @ ( list o # apply_expr " @ " ) ( a :: al ) | Ast . ExAss ( _ , ( Ast . ExAcc ( _ , e1 , ( Ast . ExId ( _ , ( Ast . IdLid ( _ , " val " ) ) ) ) ) ) , e2 ) -> pp f " [ @< 2 >% a :=@ % a ] " @ o # dot_expr e1 o # expr e2 | Ast . ExAss ( _ , e1 , e2 ) -> pp f " [ @< 2 >% a @ <-@ % a ] " @ o # dot_expr e1 o # expr e2 | Ast . ExFun ( loc , ( Ast . McNil _ ) ) -> pp f " [ @< 2 > fun @ _ @ ->@ % a ] " @ o # raise_match_failure loc | Ast . ExFun ( _ , ( Ast . McArr ( _ , p , ( Ast . ExNil _ ) , e ) ) ) when is_irrefut_patt p -> pp f " [ @< 2 > fun @ % a ] " @ o # patt_expr_fun_args ( ( ` patt p ) , e ) | Ast . ExFUN ( _ , i , e ) -> pp f " [ @< 2 > fun @ % a ] " @ o # patt_expr_fun_args ( ( ` newtype i ) , e ) | Ast . ExFun ( _ , a ) -> pp f " [ @< hv0 > function % a ] " @ o # match_case a | Ast . ExIfe ( _ , e1 , e2 , e3 ) -> pp f " [ @< hv0 [ >@< 2 > if @ % a ] @@ [ @< 2 > then @ % a ] @@ [ @< 2 > else @ % a ] ] " @@ o # expr e1 o # under_semi # expr e2 o # under_semi # expr e3 | Ast . ExLaz ( _ , e ) -> pp f " [ @< 2 > lazy @ % a ] " @ o # simple_expr e | Ast . ExLet ( _ , r , bi , e ) -> ( match e with | Ast . ExLet ( _ , _ , _ , _ ) -> pp f " [ @< 0 [ >@< 2 > let % a % a in ] @@ % a ] " @ o # rec_flag r o # binding bi o # reset_semi # expr e | _ -> pp f " [ @< hv0 [ >@< 2 > let % a % a ] @@ [ @< hv2 > in @ % a ] ] " @@ o # rec_flag r o # binding bi o # reset_semi # expr e ) | Ast . ExOpI ( _ , i , e ) -> pp f " [ @< 2 > let open % a ] @@ [ @< 2 > in @ % a ] " @ o # ident i o # reset_semi # expr e | Ast . ExMat ( _ , e , a ) -> pp f " [ @< hv0 [ >@< hv0 [ >@< 2 > match % a ] @@ with ] @% a ] " @ o # expr e o # match_case a | Ast . ExTry ( _ , e , a ) -> pp f " [ @< 0 [ >@< hv2 > try @ % a ] @@ [ @< 0 > with % a ] ] " @@ o # expr e o # match_case a | Ast . ExAsf _ -> pp f " [ @< 2 > assert @ false ] " @ | Ast . ExAsr ( _ , e ) -> pp f " [ @< 2 > assert @ % a ] " @ o # dot_expr e | Ast . ExLmd ( _ , s , me , e ) -> pp f " [ @< 2 > let module % a =@ % a ] @@ [ @< 2 > in @ % a ] " @ o # var s o # module_expr me o # reset_semi # expr e | Ast . ExObj ( _ , ( Ast . PaNil _ ) , cst ) -> pp f " [ @< hv0 [ >@< hv2 > object @ % a ] @@ end ] " @ o # class_str_item cst | Ast . ExObj ( _ , ( Ast . PaTyc ( _ , p , t ) ) , cst ) -> pp f " [ @< hv0 [ >@< hv2 > object [ @< 1 ( >% a :@ % a ) ] @@ % a ] @@ end ] " @ o # patt p o # ctyp t o # class_str_item cst | Ast . ExObj ( _ , p , cst ) -> pp f " [ @< hv0 [ >@< hv2 > object [ @< 2 ( >% a ) ] @@ % a ] @@ end ] " @ o # patt p o # class_str_item cst | e -> o # apply_expr f e method apply_expr = fun f e -> let ( ) = o # node f e Ast . loc_of_expr in match e with | Ast . ExNew ( _ , i ) -> pp f " [ @< 2 > new @ % a ] " @ o # ident i | e -> o # dot_expr f e method dot_expr = fun f e -> let ( ) = o # node f e Ast . loc_of_expr in match e with | Ast . ExAcc ( _ , e , ( Ast . ExId ( _ , ( Ast . IdLid ( _ , " val " ) ) ) ) ) -> pp f " [ @< 2 , >!@% a ] " @ o # simple_expr e | Ast . ExAcc ( _ , e1 , e2 ) -> pp f " [ @< 2 >% a . , @% a ] " @ o # dot_expr e1 o # dot_expr e2 | Ast . ExAre ( _ , e1 , e2 ) -> pp f " [ @< 2 >% a . , ( @% a ) ] " @ o # dot_expr e1 o # expr e2 | Ast . ExSte ( _ , e1 , e2 ) -> pp f " % a . [ @< 1 [ , >@% a ] , ] " @@ o # dot_expr e1 o # expr e2 | Ast . ExSnd ( _ , e , s ) -> pp f " [ @< 2 >% a , #@% s ] " @ o # dot_expr e s | e -> o # simple_expr f e method simple_expr = fun f e -> let ( ) = o # node f e Ast . loc_of_expr in match e with | Ast . ExNil _ -> ( ) | Ast . ExSeq ( _ , e ) -> pp f " [ @< hv1 ( >% a ) ] " @ o # seq e | Ast . ExApp ( _ , ( Ast . ExApp ( _ , ( Ast . ExId ( _ , ( Ast . IdUid ( _ , " " ) ) ) ) , :: _ ) ) , _ ) -> o # expr_list_cons true f e | Ast . ExTup ( _ , e ) -> pp f " [ @< 1 ( >% a ) ] " @ o # expr e | Ast . ExArr ( _ , e ) -> pp f " [ @< 0 [ >@< 2 [ >|@ % a ] @@ ] ] " |@ o # under_semi # expr e | Ast . ExCoe ( _ , e , ( Ast . TyNil _ ) , t ) -> pp f " [ @< 2 ( >% a :>@ % a ) ] " @ o # expr e o # ctyp t | Ast . ExCoe ( _ , e , t1 , t2 ) -> pp f " [ @< 2 ( >% a :@ % a :>@ % a ) ] " @ o # expr e o # ctyp t1 o # ctyp t2 | Ast . ExTyc ( _ , e , t ) -> pp f " [ @< 2 ( >% a :@ % a ) ] " @ o # expr e o # ctyp t | Ast . ExAnt ( _ , s ) -> o # anti f s | Ast . ExFor ( _ , s , e1 , e2 , df , e3 ) -> pp f " [ @< hv0 [ >@< hv2 [ >@< 2 > for % a =@ % a @ % a @ % a @ do ] @@ % a ] @@ done ] " @ o # var s o # expr e1 o # direction_flag df o # expr e2 o # seq e3 | Ast . ExInt ( _ , s ) -> o # numeric f s " " | Ast . ExNativeInt ( _ , s ) -> o # numeric f s " n " | Ast . ExInt64 ( _ , s ) -> o # numeric f s " L " | Ast . ExInt32 ( _ , s ) -> o # numeric f s " l " | Ast . ExFlo ( _ , s ) -> o # numeric f s " " | Ast . ExChr ( _ , s ) -> pp f " ' % s ' " ( ocaml_char s ) | Ast . ExId ( _ , i ) -> o # var_ident f i | Ast . ExRec ( _ , b , ( Ast . ExNil _ ) ) -> pp f " [ @< hv0 [ >@< hv2 { >% a ] @@ } ] " @ o # record_binding b | Ast . ExRec ( _ , b , e ) -> pp f " [ @< hv0 [ >@< hv2 { >@ ( % a ) @ with % a ] @@ } ] " @ o # expr e o # record_binding b | Ast . ExStr ( _ , s ) -> pp f " " \% s " " \ s | Ast . ExWhi ( _ , e1 , e2 ) -> pp f " [ @< 2 > while @ % a @ do @ % a @ done ] " @ o # expr e1 o # seq e2 | Ast . ExLab ( _ , s , ( Ast . ExNil _ ) ) -> pp f " ~% s " s | Ast . ExLab ( _ , s , e ) -> pp f " [ @< 2 >~% s :@ % a ] " @ s o # dot_expr e | Ast . ExOlb ( _ , s , ( Ast . ExNil _ ) ) -> pp f " ?% s " s | Ast . ExOlb ( _ , s , e ) -> pp f " [ @< 2 >?% s :@ % a ] " @ s o # dot_expr e | Ast . ExVrn ( _ , s ) -> pp f " ` % a " o # var s | Ast . ExOvr ( _ , b ) -> pp f " [ @< hv0 [ >@< hv2 { ><% a ] @@ } ] " >@ o # record_binding b | Ast . ExCom ( _ , e1 , e2 ) -> pp f " % a , @ % a " o # simple_expr e1 o # simple_expr e2 | Ast . ExSem ( _ , e1 , e2 ) -> pp f " % a ; @ % a " o # under_semi # expr e1 o # expr e2 | Ast . ExPkg ( _ , ( Ast . MeTyc ( _ , me , mt ) ) ) -> pp f " [ @< hv0 [ >@< hv2 ( > module % a : % a ] ) ] " @@ o # module_expr me o # module_type mt | Ast . ExPkg ( _ , me ) -> pp f " [ @< hv0 [ >@< hv2 ( > module % a ] ) ] " @@ o # module_expr me | Ast . ExApp ( _ , _ , _ ) | Ast . ExAcc ( _ , _ , _ ) | Ast . ExAre ( _ , _ , _ ) | Ast . ExSte ( _ , _ , _ ) | Ast . ExAss ( _ , _ , _ ) | Ast . ExSnd ( _ , _ , _ ) | Ast . ExFun ( _ , _ ) | Ast . ExFUN ( _ , _ , _ ) | Ast . ExMat ( _ , _ , _ ) | Ast . ExTry ( _ , _ , _ ) | Ast . ExIfe ( _ , _ , _ , _ ) | Ast . ExLet ( _ , _ , _ , _ ) | Ast . ExLmd ( _ , _ , _ , _ ) | Ast . ExOpI ( _ , _ , _ ) | Ast . ExAsr ( _ , _ ) | Ast . ExAsf _ | Ast . ExLaz ( _ , _ ) | Ast . ExNew ( _ , _ ) | Ast . ExObj ( _ , _ , _ ) -> pp f " ( % a ) " o # reset # expr e method direction_flag = fun f b -> match b with | Ast . DiTo -> pp_print_string f " to " | Ast . DiDownto -> pp_print_string f " downto " | Ast . DiAnt s -> o # anti f s method patt = fun f p -> let ( ) = o # node f p Ast . loc_of_patt in match p with | Ast . PaAli ( _ , p1 , p2 ) -> pp f " [ @< 1 ( >% a @ as @ % a ) ] " @ o # patt p1 o # patt p2 | Ast . PaEq ( _ , i , p ) -> pp f " [ @< 2 >% a =@ % a ] " @ o # var_ident i o # patt p | Ast . PaSem ( _ , p1 , p2 ) -> pp f " % a ; @ % a " o # patt p1 o # patt p2 | p -> o # patt1 f p method patt1 = fun f -> function | Ast . PaOrp ( _ , p1 , p2 ) -> pp f " [ @< 2 >% a @ |@ % a ] " @ o # patt1 p1 o # patt2 p2 | p -> o # patt2 f p method patt2 = fun f p -> o # patt3 f p method patt3 = fun f -> function | Ast . PaRng ( _ , p1 , p2 ) -> pp f " [ @< 2 >% a @ . . @ % a ] " @ o # patt3 p1 o # patt4 p2 | Ast . PaCom ( _ , p1 , p2 ) -> pp f " % a , @ % a " o # patt3 p1 o # patt3 p2 | p -> o # patt4 f p method patt4 = fun f -> function | ( Ast . PaApp ( _ , ( Ast . PaApp ( _ , ( Ast . PaId ( _ , ( Ast . IdUid ( _ , " " ) ) ) ) , :: _ ) ) , _ ) as p ) -> let ( pl , c ) = o # mk_patt_list p in ( match c with | None -> pp f " [ @< 2 [ >@ % a ] @@ ] " ( list o # patt " ; @ " ) pl | Some x -> pp f " [ @< 2 >% a ] " @ ( list o # patt5 " ::@ " ) ( pl @ [ x ] ) ) | p -> o # patt5 f p method patt5 = fun f -> function | ( Ast . PaApp ( _ , ( Ast . PaApp ( _ , ( Ast . PaId ( _ , ( Ast . IdUid ( _ , " " ) ) ) ) , :: _ ) ) , _ ) as p ) -> o # simple_patt f p | Ast . PaLaz ( _ , p ) -> pp f " [ @< 2 > lazy % a ] " @ o # simple_patt p | Ast . PaApp ( _ , x , y ) -> let ( a , al ) = get_patt_args x [ y ] in if not ( Ast . is_patt_constructor a ) then Format . eprintf " WARNING : strange pattern application of a non constructor . " @ else if curry_constr then pp f " [ @< 2 >% a ] " @ ( list o # simple_patt " @ " ) ( a :: al ) else ( match al with | [ Ast . PaTup ( _ , _ ) ] -> pp f " [ @< 2 >% a @ ( % a ) ] " @ o # simple_patt x o # patt y | [ _ ] -> pp f " [ @< 2 >% a @ % a ] " @ o # patt5 x o # simple_patt y | al -> pp f " [ @< 2 >% a @ ( % a ) ] " @ o # patt5 a ( list o # simple_patt " , @ " ) al ) | p -> o # simple_patt f p method simple_patt = fun f p -> let ( ) = o # node f p Ast . loc_of_patt in match p with | Ast . PaNil _ -> ( ) | Ast . PaId ( _ , i ) -> o # var_ident f i | Ast . PaAnt ( _ , s ) -> o # anti f s | Ast . PaAny _ -> pp f " _ " | Ast . PaTup ( _ , p ) -> pp f " [ @< 1 ( >% a ) ] " @ o # patt3 p | Ast . PaRec ( _ , p ) -> pp f " [ @< hv2 { >@ % a ] @@ } " o # patt p | Ast . PaStr ( _ , s ) -> pp f " " \% s " " \ s | Ast . PaTyc ( _ , p , t ) -> pp f " [ @< 1 ( >% a :@ % a ) ] " @ o # patt p o # ctyp t | Ast . PaNativeInt ( _ , s ) -> o # numeric f s " n " | Ast . PaInt64 ( _ , s ) -> o # numeric f s " L " | Ast . PaInt32 ( _ , s ) -> o # numeric f s " l " | Ast . PaInt ( _ , s ) -> o # numeric f s " " | Ast . PaFlo ( _ , s ) -> o # numeric f s " " | Ast . PaChr ( _ , s ) -> pp f " ' % s ' " ( ocaml_char s ) | Ast . PaLab ( _ , s , ( Ast . PaNil _ ) ) -> pp f " ~% s " s | Ast . PaVrn ( _ , s ) -> pp f " ` % a " o # var s | Ast . PaTyp ( _ , i ) -> pp f " [ @< 2 >#% a ] " @ o # ident i | Ast . PaArr ( _ , p ) -> pp f " [ @< 2 [ >|@ % a ] @@ ] " | o # patt p | Ast . PaLab ( _ , s , p ) -> pp f " [ @< 2 >~% s :@ ( % a ) ] " @ s o # patt p | Ast . PaOlb ( _ , s , ( Ast . PaNil _ ) ) -> pp f " ?% s " s | Ast . PaOlb ( _ , " " , p ) -> pp f " [ @< 2 ( >?% a ) ] " @ o # patt_tycon p | Ast . PaOlb ( _ , s , p ) -> pp f " [ @< 2 >?% s , [ :@@< 1 ( >% a ) ] ] " @@ s o # patt_tycon p | Ast . PaOlbi ( _ , " " , p , e ) -> pp f " [ @< 2 ( >?% a =@ % a ) ] " @ o # patt_tycon p o # expr e | Ast . PaOlbi ( _ , s , p , e ) -> pp f " [ @< 2 >?% s , [ :@@< 1 ( >% a =@ % a ) ] ] " @@ s o # patt_tycon p o # expr e | ( Ast . PaApp ( _ , _ , _ ) | Ast . PaAli ( _ , _ , _ ) | Ast . PaOrp ( _ , _ , _ ) | Ast . PaRng ( _ , _ , _ ) | Ast . PaCom ( _ , _ , _ ) | Ast . PaSem ( _ , _ , _ ) | Ast . PaEq ( _ , _ , _ ) | Ast . PaLaz ( _ , _ ) as p ) -> pp f " [ @< 1 ( >% a ) ] " @ o # patt p method patt_tycon = fun f -> function | Ast . PaTyc ( _ , p , t ) -> pp f " % a :@ % a " o # patt p o # ctyp t | p -> o # patt f p method simple_ctyp = fun f t -> let ( ) = o # node f t Ast . loc_of_ctyp in match t with | Ast . TyId ( _ , i ) -> o # ident f i | Ast . TyAnt ( _ , s ) -> o # anti f s | Ast . TyAny _ -> pp f " _ " | Ast . TyLab ( _ , s , t ) -> pp f " [ @< 2 >% s :@ % a ] " @ s o # simple_ctyp t | Ast . TyOlb ( _ , s , t ) -> pp f " [ @< 2 >?% s :@ % a ] " @ s o # simple_ctyp t | Ast . TyObj ( _ , ( Ast . TyNil _ ) , Ast . RvNil ) -> pp f " < " > | Ast . TyObj ( _ , ( Ast . TyNil _ ) , Ast . RvRowVar ) -> pp f " < . . " > | Ast . TyObj ( _ , t , Ast . RvRowVar ) -> pp f " [ @< 0 [ >@< 2 ><@ % a ; @ . . ] @@ ] " >@ o # ctyp t | Ast . TyObj ( _ , t , Ast . RvNil ) -> pp f " [ @< 0 [ >@< 2 ><@ % a ] @@ ] " >@ o # ctyp t | Ast . TyQuo ( _ , s ) -> pp f " ' % a " o # var s | Ast . TyRec ( _ , t ) -> pp f " [ @< 2 { >@ % a ] @@ } " o # ctyp t | Ast . TySum ( _ , t ) -> pp f " [ @< 0 >% a ] " @ o # sum_type t | Ast . TyTup ( _ , t ) -> pp f " [ @< 1 ( >% a ) ] " @ o # ctyp t | Ast . TyPkg ( _ , mt ) -> pp f " [ @< 2 ( > module @ % a ] ) " @ o # module_type mt | Ast . TyVrnEq ( _ , t ) -> pp f " [ @< 2 [ >@ % a ] @@ ] " o # sum_type t | Ast . TyVrnInf ( _ , t ) -> pp f " [ @< 2 [ ><@ % a ] , ] " @@ o # sum_type t | Ast . TyVrnInfSup ( _ , t1 , t2 ) -> let ( a , al ) = get_ctyp_args t2 [ ] in pp f " [ @< 2 [ ><@ % a @ >@ % a ] @@ ] " o # sum_type t1 ( list o # simple_ctyp " @ " ) ( a :: al ) | Ast . TyVrnSup ( _ , t ) -> pp f " [ @< 2 [ >>@ % a ] , ] " @@ o # sum_type t | Ast . TyCls ( _ , i ) -> pp f " [ @< 2 >#% a ] " @ o # ident i | Ast . TyVrn ( _ , s ) -> pp f " ` % a " o # var s | Ast . TySta ( _ , t1 , t2 ) -> pp f " % a *@ % a " o # simple_ctyp t1 o # simple_ctyp t2 | Ast . TyNil _ -> assert false | t -> pp f " [ @< 1 ( >% a ) ] " @ o # ctyp t method ctyp = fun f t -> let ( ) = o # node f t Ast . loc_of_ctyp in match t with | Ast . TyAli ( _ , t1 , t2 ) -> pp f " [ @< 2 >% a @ as @ % a ] " @ o # simple_ctyp t1 o # simple_ctyp t2 | Ast . TyArr ( _ , t1 , t2 ) -> pp f " [ @< 2 >% a @ ->@ % a ] " @ o # ctyp1 t1 o # ctyp t2 | Ast . TyQuP ( _ , s ) -> pp f " ' +% a " o # var s | Ast . TyQuM ( _ , s ) -> pp f " ' -% a " o # var s | Ast . TyOr ( _ , t1 , t2 ) -> pp f " % a @ | % a " o # ctyp t1 o # ctyp t2 | Ast . TyCol ( _ , t1 , ( Ast . TyMut ( _ , t2 ) ) ) -> pp f " [ @ mutable @ % a :@ % a ] " @ o # ctyp t1 o # ctyp t2 | Ast . TyCol ( _ , t1 , t2 ) -> pp f " [ @< 2 >% a :@ % a ] " @ o # ctyp t1 o # ctyp t2 | Ast . TySem ( _ , t1 , t2 ) -> pp f " % a ; @ % a " o # ctyp t1 o # ctyp t2 | Ast . TyOf ( _ , t , ( Ast . TyNil _ ) ) -> o # ctyp f t | Ast . TyOf ( _ , t1 , t2 ) -> pp f " [ @< h >% a @ [ @< 3 > of @ % a ] ] " @@ o # ctyp t1 o # constructor_type t2 | Ast . TyOfAmp ( _ , t1 , t2 ) -> pp f " [ @< h >% a @ [ @< 3 > of &@ % a ] ] " @@ o # ctyp t1 o # constructor_type t2 | Ast . TyAnd ( _ , t1 , t2 ) -> pp f " % a @ and % a " o # ctyp t1 o # ctyp t2 | Ast . TyMut ( _ , t ) -> pp f " [ @< 2 > mutable @ % a ] " @ o # ctyp t | Ast . TyAmp ( _ , t1 , t2 ) -> pp f " % a @ &@ % a " o # ctyp t1 o # ctyp t2 | Ast . TyMan ( _ , t1 , t2 ) -> pp f " [ @< 2 >% a =@ % a ] " @ o # simple_ctyp t1 o # ctyp t2 | Ast . TyDcl ( _ , tn , tp , te , cl ) -> ( pp f " [ @< 2 >% a % a ] " @ o # type_params tp o # var tn ; ( match te with | Ast . TyNil _ -> ( ) | _ -> pp f " =@ % a " o # ctyp te ) ; if cl <> [ ] then pp f " @ % a " ( list o # constrain " @ " ) cl else ( ) ) | t -> o # ctyp1 f t method ctyp1 = fun f -> function | Ast . TyApp ( _ , t1 , t2 ) -> ( match get_ctyp_args t1 [ t2 ] with | ( _ , [ _ ] ) -> pp f " [ @< 2 >% a @ % a ] " @ o # simple_ctyp t2 o # simple_ctyp t1 | ( a , al ) -> pp f " [ @< 2 ( >% a ) @ % a ] " @ ( list o # ctyp " , @ " ) al o # simple_ctyp a ) | Ast . TyPol ( _ , t1 , t2 ) -> let ( a , al ) = get_ctyp_args t1 [ ] in pp f " [ @< 2 >% a . @ % a ] " @ ( list o # ctyp " @ " ) ( a :: al ) o # ctyp t2 | Ast . TyPrv ( _ , t ) -> pp f " [ @ private @ % a ] " @ o # simple_ctyp t | t -> o # simple_ctyp f t method constructor_type = fun f t -> match t with | Ast . TyAnd ( loc , t1 , t2 ) -> let ( ) = o # node f t ( fun _ -> loc ) in pp f " % a @ * % a " o # constructor_type t1 o # constructor_type t2 | Ast . TyArr ( _ , _ , _ ) -> pp f " ( % a ) " o # ctyp t | t -> o # ctyp f t method sig_item = fun f sg -> let ( ) = o # node f sg Ast . loc_of_sig_item in match sg with | Ast . SgNil _ -> ( ) | Ast . SgSem ( _ , sg , ( Ast . SgNil _ ) ) | Ast . SgSem ( _ , ( Ast . SgNil _ ) , sg ) -> o # sig_item f sg | Ast . SgSem ( _ , sg1 , sg2 ) -> ( o # sig_item f sg1 ; cut f ; o # sig_item f sg2 ) | Ast . SgExc ( _ , t ) -> pp f " [ @< 2 > exception @ % a ( ) ] " %%@ o # ctyp t semisep | Ast . SgExt ( _ , s , t , sl ) -> pp f " [ @< 2 > external @ % a :@ % a =@ % a ( ) ] " %%@ o # var s o # ctyp t ( meta_list o # quoted_string " @ " ) sl semisep | Ast . SgMod ( _ , s1 , ( Ast . MtFun ( _ , s2 , mt1 , mt2 ) ) ) -> let rec loop accu = ( function | Ast . MtFun ( _ , s , mt1 , mt2 ) -> loop ( ( s , mt1 ) :: accu ) mt2 | mt -> ( ( List . rev accu ) , mt ) ) in let ( al , mt ) = loop [ ( s2 , mt1 ) ] mt2 in pp f " [ @< 2 > module % a @ [ @< 0 >% a ] @ :@ % a ( ) ] " %%@ o # var s1 o # functor_args al o # module_type mt semisep | Ast . SgMod ( _ , s , mt ) -> pp f " [ @< 2 > module % a :@ % a ( ) ] " %%@ o # var s o # module_type mt semisep | Ast . SgMty ( _ , s , ( Ast . MtNil _ ) ) -> pp f " [ @< 2 > module type % a ( ) ] " %%@ o # var s semisep | Ast . SgMty ( _ , s , mt ) -> pp f " [ @< 2 > module type % a =@ % a ( ) ] " %%@ o # var s o # module_type mt semisep | Ast . SgOpn ( _ , sl ) -> pp f " [ @< 2 > open @ % a ( ) ] " %%@ o # ident sl semisep | Ast . SgTyp ( _ , t ) -> pp f " [ @< hv0 [ >@< hv2 > type % a ] ( ) ] " @%%@ o # ctyp t semisep | Ast . SgVal ( _ , s , t ) -> pp f " [ @< 2 >% s % a :@ % a ( ) ] " %%@ o # value_val o # var s o # ctyp t semisep | Ast . SgInc ( _ , mt ) -> pp f " [ @< 2 > include @ % a ( ) ] " %%@ o # module_type mt semisep | Ast . SgClt ( _ , ct ) -> pp f " [ @< 2 > class type % a ( ) ] " %%@ o # class_type ct semisep | Ast . SgCls ( _ , ce ) -> pp f " [ @< 2 > class % a ( ) ] " %%@ o # class_type ce semisep | Ast . SgRecMod ( _ , mb ) -> pp f " [ @< 2 > module rec % a ( ) ] " %%@ o # module_rec_binding mb semisep | Ast . SgDir ( _ , _ , _ ) -> ( ) | Ast . SgAnt ( _ , s ) -> pp f " % a ( ) " %% o # anti s semisep method str_item = fun f st -> let ( ) = o # node f st Ast . loc_of_str_item in match st with | Ast . StNil _ -> ( ) | Ast . StSem ( _ , st , ( Ast . StNil _ ) ) | Ast . StSem ( _ , ( Ast . StNil _ ) , st ) -> o # str_item f st | Ast . StSem ( _ , st1 , st2 ) -> ( o # str_item f st1 ; cut f ; o # str_item f st2 ) | Ast . StExc ( _ , t , Ast . ONone ) -> pp f " [ @< 2 > exception @ % a ( ) ] " %%@ o # ctyp t semisep | Ast . StExc ( _ , t , ( Ast . OSome sl ) ) -> pp f " [ @< 2 > exception @ % a =@ % a ( ) ] " %%@ o # ctyp t o # ident sl semisep | Ast . StExt ( _ , s , t , sl ) -> pp f " [ @< 2 > external @ % a :@ % a =@ % a ( ) ] " %%@ o # var s o # ctyp t ( meta_list o # quoted_string " @ " ) sl semisep | Ast . StMod ( _ , s1 , ( Ast . MeFun ( _ , s2 , mt1 , me ) ) ) -> ( match o # module_expr_get_functor_args [ ( s2 , mt1 ) ] me with | ( al , me , Some mt2 ) -> pp f " [ @< 2 > module % a @ [ @< 0 >% a ] @ :@ % a =@ % a ( ) ] " %%@ o # var s1 o # functor_args al o # module_type mt2 o # module_expr me semisep | ( al , me , _ ) -> pp f " [ @< 2 > module % a @ [ @< 0 >% a ] @ =@ % a ( ) ] " %%@ o # var s1 o # functor_args al o # module_expr me semisep ) | Ast . StMod ( _ , s , ( Ast . MeTyc ( _ , me , mt ) ) ) -> pp f " [ @< 2 > module % a :@ % a =@ % a ( ) ] " %%@ o # var s o # module_type mt o # module_expr me semisep | Ast . StMod ( _ , s , me ) -> pp f " [ @< 2 > module % a =@ % a ( ) ] " %%@ o # var s o # module_expr me semisep | Ast . StMty ( _ , s , mt ) -> pp f " [ @< 2 > module type % a =@ % a ( ) ] " %%@ o # var s o # module_type mt semisep | Ast . StOpn ( _ , sl ) -> pp f " [ @< 2 > open @ % a ( ) ] " %%@ o # ident sl semisep | Ast . StTyp ( _ , t ) -> pp f " [ @< hv0 [ >@< hv2 > type % a ] ( ) ] " @%%@ o # ctyp t semisep | Ast . StVal ( _ , r , bi ) -> pp f " [ @< 2 >% s % a % a ( ) ] " %%@ o # value_let o # rec_flag r o # binding bi semisep | Ast . StExp ( _ , e ) -> pp f " [ @< 2 > let _ =@ % a ( ) ] " %%@ o # expr e semisep | Ast . StInc ( _ , me ) -> pp f " [ @< 2 > include @ % a ( ) ] " %%@ o # simple_module_expr me semisep | Ast . StClt ( _ , ct ) -> pp f " [ @< 2 > class type % a ( ) ] " %%@ o # class_type ct semisep | Ast . StCls ( _ , ce ) -> pp f " [ @< hv2 > class % a ( ) ] " %%@ o # class_declaration ce semisep | Ast . StRecMod ( _ , mb ) -> pp f " [ @< 2 > module rec % a ( ) ] " %%@ o # module_rec_binding mb semisep | Ast . StDir ( _ , _ , _ ) -> ( ) | Ast . StAnt ( _ , s ) -> pp f " % a ( ) " %% o # anti s semisep | Ast . StExc ( _ , _ , ( Ast . OAnt _ ) ) -> assert false method module_type = fun f mt -> let ( ) = o # node f mt Ast . loc_of_module_type in match mt with | Ast . MtNil _ -> assert false | Ast . MtId ( _ , i ) -> o # ident f i | Ast . MtAnt ( _ , s ) -> o # anti f s | Ast . MtFun ( _ , s , mt1 , mt2 ) -> pp f " [ @< 2 > functor @ [ @< 1 ( >% a :@ % a ) ] @@ ->@ % a ] " @ o # var s o # module_type mt1 o # module_type mt2 | Ast . MtQuo ( _ , s ) -> pp f " ' % a " o # var s | Ast . MtSig ( _ , sg ) -> pp f " [ @< hv0 [ >@< hv2 > sig @ % a ] @@ end ] " @ o # sig_item sg | Ast . MtWit ( _ , mt , wc ) -> pp f " [ @< 2 >% a @ with @ % a ] " @ o # module_type mt o # with_constraint wc method with_constraint = fun f wc -> let ( ) = o # node f wc Ast . loc_of_with_constr in match wc with | Ast . WcNil _ -> ( ) | Ast . WcTyp ( _ , t1 , t2 ) -> pp f " [ @< 2 > type @ % a =@ % a ] " @ o # ctyp t1 o # ctyp t2 | Ast . WcMod ( _ , i1 , i2 ) -> pp f " [ @< 2 > module @ % a =@ % a ] " @ o # ident i1 o # ident i2 | Ast . WcTyS ( _ , t1 , t2 ) -> pp f " [ @< 2 > type @ % a :=@ % a ] " @ o # ctyp t1 o # ctyp t2 | Ast . WcMoS ( _ , i1 , i2 ) -> pp f " [ @< 2 > module @ % a :=@ % a ] " @ o # ident i1 o # ident i2 | Ast . WcAnd ( _ , wc1 , wc2 ) -> ( o # with_constraint f wc1 ; pp f o # andsep ; o # with_constraint f wc2 ) | Ast . WcAnt ( _ , s ) -> o # anti f s method module_expr = fun f me -> let ( ) = o # node f me Ast . loc_of_module_expr in match me with | Ast . MeNil _ -> assert false | Ast . MeTyc ( _ , ( Ast . MeStr ( _ , st ) ) , ( Ast . MtSig ( _ , sg ) ) ) -> pp f " [ @< 2 [ >@< hv2 > struct @ % a ] @@ end :@ [ @< hv2 > sig @ % a ] @@ end ] " @ o # str_item st o # sig_item sg | _ -> o # simple_module_expr f me method simple_module_expr = fun f me -> let ( ) = o # node f me Ast . loc_of_module_expr in match me with | Ast . MeNil _ -> assert false | Ast . MeId ( _ , i ) -> o # ident f i | Ast . MeAnt ( _ , s ) -> o # anti f s | Ast . MeApp ( _ , me1 , me2 ) -> pp f " [ @< 2 >% a , ( @% a ) ] " @ o # module_expr me1 o # module_expr me2 | Ast . MeFun ( _ , s , mt , me ) -> pp f " [ @< 2 > functor @ [ @< 1 ( >% a :@ % a ) ] @@ ->@ % a ] " @ o # var s o # module_type mt o # module_expr me | Ast . MeStr ( _ , st ) -> pp f " [ @< hv0 [ >@< hv2 > struct @ % a ] @@ end ] " @ o # str_item st | Ast . MeTyc ( _ , me , mt ) -> pp f " [ @< 1 ( >% a :@ % a ) ] " @ o # module_expr me o # module_type mt | Ast . MePkg ( _ , ( Ast . ExTyc ( _ , e , ( Ast . TyPkg ( _ , mt ) ) ) ) ) -> pp f " [ @< 1 ( >% s % a :@ % a ) ] " @ o # value_val o # expr e o # module_type mt | Ast . MePkg ( _ , e ) -> pp f " [ @< 1 ( >% s % a ) ] " @ o # value_val o # expr e method class_expr = fun f ce -> let ( ) = o # node f ce Ast . loc_of_class_expr in match ce with | Ast . CeApp ( _ , ce , e ) -> pp f " [ @< 2 >% a @ % a ] " @ o # class_expr ce o # expr e | Ast . CeCon ( _ , Ast . ViNil , i , ( Ast . TyNil _ ) ) -> pp f " [ @< 2 >% a ] " @ o # ident i | Ast . CeCon ( _ , Ast . ViNil , i , t ) -> pp f " [ @< 2 [ >@< 1 [ >% a ] ] @@ % a ] " @ o # class_params t o # ident i | Ast . CeCon ( _ , Ast . ViVirtual , ( Ast . IdLid ( _ , i ) ) , ( Ast . TyNil _ ) ) -> pp f " [ @< 2 > virtual @ % a ] " @ o # var i | Ast . CeCon ( _ , Ast . ViVirtual , ( Ast . IdLid ( _ , i ) ) , t ) -> pp f " [ @< 2 > virtual @ [ @< 1 [ >% a ] ] @@ % a ] " @ o # class_params t o # var i | Ast . CeFun ( _ , p , ce ) -> pp f " [ @< 2 > fun @ % a @ ->@ % a ] " @ o # simple_patt p o # class_expr ce | Ast . CeLet ( _ , r , bi , ce ) -> pp f " [ @< 2 > let % a % a ] @@ [ @< 2 > in @ % a ] " @ o # rec_flag r o # binding bi o # class_expr ce | Ast . CeStr ( _ , ( Ast . PaNil _ ) , cst ) -> pp f " [ @< hv0 [ >@< hv2 > object % a ] @@ end ] " @ o # class_str_item cst | Ast . CeStr ( _ , p , cst ) -> pp f " [ @< hv0 [ >@< hv2 > object [ @< 1 ( >% a ) ] @@ % a ] @@ end ] " @ o # patt p o # class_str_item cst | Ast . CeTyc ( _ , ce , ct ) -> pp f " [ @< 1 ( >% a :@ % a ) ] " @ o # class_expr ce o # class_type ct | Ast . CeAnt ( _ , s ) -> o # anti f s | Ast . CeAnd ( _ , ce1 , ce2 ) -> ( o # class_expr f ce1 ; pp f o # andsep ; o # class_expr f ce2 ) | Ast . CeEq ( _ , ce1 , ( Ast . CeFun ( _ , p , ce2 ) ) ) when is_irrefut_patt p -> pp f " [ @< 2 >% a @ % a " o # class_expr ce1 o # patt_class_expr_fun_args ( p , ce2 ) | Ast . CeEq ( _ , ce1 , ce2 ) -> pp f " [ @< 2 >% a ] =@@ % a " o # class_expr ce1 o # class_expr ce2 | _ -> assert false method class_type = fun f ct -> let ( ) = o # node f ct Ast . loc_of_class_type in match ct with | Ast . CtCon ( _ , Ast . ViNil , i , ( Ast . TyNil _ ) ) -> pp f " [ @< 2 >% a ] " @ o # ident i | Ast . CtCon ( _ , Ast . ViNil , i , t ) -> pp f " [ @< 2 [ , >@% a ] , ] @@@ % a " o # class_params t o # ident i | Ast . CtCon ( _ , Ast . ViVirtual , ( Ast . IdLid ( _ , i ) ) , ( Ast . TyNil _ ) ) -> pp f " [ @< 2 > virtual @ % a ] " @ o # var i | Ast . CtCon ( _ , Ast . ViVirtual , ( Ast . IdLid ( _ , i ) ) , t ) -> pp f " [ @< 2 > virtual @ [ , @% a ] , ] @@@ % a " o # class_params t o # var i | Ast . CtFun ( _ , t , ct ) -> pp f " [ @< 2 >% a @ ->@ % a ] " @ o # simple_ctyp t o # class_type ct | Ast . CtSig ( _ , ( Ast . TyNil _ ) , csg ) -> pp f " [ @< hv0 [ >@< hv2 > object @ % a ] @@ end ] " @ o # class_sig_item csg | Ast . CtSig ( _ , t , csg ) -> pp f " [ @< hv0 [ >@< hv2 > object [ @< 1 ( >% a ) ] @@ % a ] @@ end ] " @ o # ctyp t o # class_sig_item csg | Ast . CtAnt ( _ , s ) -> o # anti f s | Ast . CtAnd ( _ , ct1 , ct2 ) -> ( o # class_type f ct1 ; pp f o # andsep ; o # class_type f ct2 ) | Ast . CtCol ( _ , ct1 , ct2 ) -> pp f " % a :@ % a " o # class_type ct1 o # class_type ct2 | Ast . CtEq ( _ , ct1 , ct2 ) -> pp f " % a =@ % a " o # class_type ct1 o # class_type ct2 | _ -> assert false method class_sig_item = fun f csg -> let ( ) = o # node f csg Ast . loc_of_class_sig_item in match csg with | Ast . CgNil _ -> ( ) | Ast . CgSem ( _ , csg , ( Ast . CgNil _ ) ) | Ast . CgSem ( _ , ( Ast . CgNil _ ) , csg ) -> o # class_sig_item f csg | Ast . CgSem ( _ , csg1 , csg2 ) -> ( o # class_sig_item f csg1 ; cut f ; o # class_sig_item f csg2 ) | Ast . CgCtr ( _ , t1 , t2 ) -> pp f " [ @< 2 > constraint @ % a =@ % a ( ) ] " %%@ o # ctyp t1 o # ctyp t2 semisep | Ast . CgInh ( _ , ct ) -> pp f " [ @< 2 > inherit @ % a ( ) ] " %%@ o # class_type ct semisep | Ast . CgMth ( _ , s , pr , t ) -> pp f " [ @< 2 > method % a % a :@ % a ( ) ] " %%@ o # private_flag pr o # var s o # ctyp t semisep | Ast . CgVir ( _ , s , pr , t ) -> pp f " [ @< 2 > method virtual % a % a :@ % a ( ) ] " %%@ o # private_flag pr o # var s o # ctyp t semisep | Ast . CgVal ( _ , s , mu , vi , t ) -> pp f " [ @< 2 >% s % a % a % a :@ % a ( ) ] " %%@ o # value_val o # mutable_flag mu o # virtual_flag vi o # var s o # ctyp t semisep | Ast . CgAnt ( _ , s ) -> pp f " % a ( ) " %% o # anti s semisep method class_str_item = fun f cst -> let ( ) = o # node f cst Ast . loc_of_class_str_item in match cst with | Ast . CrNil _ -> ( ) | Ast . CrSem ( _ , cst , ( Ast . CrNil _ ) ) | Ast . CrSem ( _ , ( Ast . CrNil _ ) , cst ) -> o # class_str_item f cst | Ast . CrSem ( _ , cst1 , cst2 ) -> ( o # class_str_item f cst1 ; cut f ; o # class_str_item f cst2 ) | Ast . CrCtr ( _ , t1 , t2 ) -> pp f " [ @< 2 > constraint % a =@ % a ( ) ] " %%@ o # ctyp t1 o # ctyp t2 semisep | Ast . CrInh ( _ , ov , ce , " " ) -> pp f " [ @< 2 > inherit % a @ % a ( ) ] " %%@ o # override_flag ov o # class_expr ce semisep | Ast . CrInh ( _ , ov , ce , s ) -> pp f " [ @< 2 > inherit % a @ % a as @ % a ( ) ] " %%@ o # override_flag ov o # class_expr ce o # var s semisep | Ast . CrIni ( _ , e ) -> pp f " [ @< 2 > initializer @ % a ( ) ] " %%@ o # expr e semisep | Ast . CrMth ( _ , s , ov , pr , e , ( Ast . TyNil _ ) ) -> pp f " [ @< 2 > method % a % a % a =@ % a ( ) ] " %%@ o # override_flag ov o # private_flag pr o # var s o # expr e semisep | Ast . CrMth ( _ , s , ov , pr , e , t ) -> pp f " [ @< 2 > method % a % a % a :@ % a =@ % a ( ) ] " %%@ o # override_flag ov o # private_flag pr o # var s o # ctyp t o # expr e semisep | Ast . CrVir ( _ , s , pr , t ) -> pp f " [ @< 2 > method virtual @ % a % a :@ % a ( ) ] " %%@ o # private_flag pr o # var s o # ctyp t semisep | Ast . CrVvr ( _ , s , mu , t ) -> pp f " [ @< 2 >% s virtual % a % a :@ % a ( ) ] " %%@ o # value_val o # mutable_flag mu o # var s o # ctyp t semisep | Ast . CrVal ( _ , s , ov , mu , e ) -> pp f " [ @< 2 >% s % a % a % a =@ % a ( ) ] " %%@ o # value_val o # override_flag ov o # mutable_flag mu o # var s o # expr e semisep | Ast . CrAnt ( _ , s ) -> pp f " % a ( ) " %% o # anti s semisep method implem = fun f st -> match st with | Ast . StExp ( _ , e ) -> pp f " [ @< 0 >% a ( ) ] . " %%@@ o # expr e semisep | st -> pp f " [ @< v0 >% a ] . " @@ o # str_item st method interf = fun f sg -> pp f " [ @< v0 >% a ] . " @@ o # sig_item sg end let with_outfile output_file fct arg = let call close f = ( ( try fct f arg with | exn -> ( close ( ) ; raise exn ) ) ; close ( ) ) in match output_file with | None -> call ( fun ( ) -> ( ) ) std_formatter | Some s -> let oc = open_out s in let f = formatter_of_out_channel oc in call ( fun ( ) -> close_out oc ) f let print output_file fct = let o = new printer ( ) in with_outfile output_file ( fct o ) let print_interf ? input_file ( : _ ) ? output_file sg = print output_file ( fun o -> o # interf ) sg let print_implem ? input_file ( : _ ) ? output_file st = print output_file ( fun o -> o # implem ) st end module MakeMore ( Syntax : Sig . Camlp4Syntax ) : Sig . Printer ( Syntax . Ast ) . S = struct include Make ( Syntax ) let semisep : sep ref = ref ( " @\ n " : sep ) let margin = ref 78 let comments = ref true let locations = ref false let curry_constr = ref false let print output_file fct = let o = new printer ~ comments : ! comments ~ curry_constr : ! curry_constr ( ) in let o = o # set_semisep ! semisep in let o = if ! locations then o # set_loc_and_comments else o in with_outfile output_file ( fun f -> let ( ) = Format . pp_set_margin f ! margin in Format . fprintf f " [ @< v0 >% a ] . " @@ ( fct o ) ) let print_interf ? input_file ( : _ ) ? output_file sg = print output_file ( fun o -> o # interf ) sg let print_implem ? input_file ( : _ ) ? output_file st = print output_file ( fun o -> o # implem ) st let check_sep s = if String . contains s ' ' % then failwith " - sep Format error , % found in string " else ( Obj . magic ( Struct . Token . Eval . string s : string ) : sep ) let _ = Options . add " - l " ( Arg . Int ( fun i -> margin := i ) ) " < length > line length for pretty printing . " let _ = Options . add " - ss " ( Arg . Unit ( fun ( ) -> semisep := " ; ; " ) ) " Print double semicolons . " let _ = Options . add " - no_ss " ( Arg . Unit ( fun ( ) -> semisep := " " ) ) " Do not print double semicolons ( default ) . " let _ = Options . add " - sep " ( Arg . String ( fun s -> semisep := check_sep s ) ) " Use this string between phrases . " let _ = Options . add " - curry - constr " ( Arg . Set curry_constr ) " Use currified constructors . " let _ = Options . add " - no_comments " ( Arg . Clear comments ) " Do not add comments . " let _ = Options . add " - add_locations " ( Arg . Set locations ) " Add locations as comment . " end end module OCamlr : sig module Id : Sig . Id module Make ( Syntax : Sig . Camlp4Syntax ) : sig open Format include Sig . Camlp4Syntax with module Loc = Syntax . Loc and module Token = Syntax . Token and module Ast = Syntax . Ast and module Gram = Syntax . Gram class printer : ? curry_constr : bool -> ? comments : bool -> unit -> object ( ' a ) inherit OCaml . Make ( Syntax ) . printer end val with_outfile : string option -> ( formatter -> ' a -> unit ) -> ' a -> unit val print : string option -> ( printer -> formatter -> ' a -> unit ) -> ' a -> unit end module MakeMore ( Syntax : Sig . Camlp4Syntax ) : Sig . Printer ( Syntax . Ast ) . S end = struct open Format module Id = struct let name = " Camlp4 . Printers . OCamlr " let version = Sys . ocaml_version end module Make ( Syntax : Sig . Camlp4Syntax ) = struct include Syntax open Sig module PP_o = OCaml . Make ( Syntax ) open PP_o let pp = fprintf let is_keyword = let keywords = [ " where " ] and not_keywords = [ " false " ; " function " ; " true " ; " val " ] in fun s -> ( not ( List . mem s not_keywords ) ) && ( ( is_keyword s ) || ( List . mem s keywords ) ) class printer ? curry_constr ( : init_curry_constr = true ) ( ? comments = true ) ( ) = object ( o ) inherit PP_o . printer ~ curry_constr : init_curry_constr ~ comments ( ) as super val ! semisep = ( " ; " : sep ) val mode = if comments then ` comments else ` no_comments val curry_constr = init_curry_constr val first_match_case = true method andsep : sep = " ] @@ [ @< 2 > and @ " method value_val = " value " method value_let = " value " method under_pipe = o method under_semi = o method reset_semi = o method reset = o method private unset_first_match_case = { < first_match_case = false ; } > method private set_first_match_case = { < first_match_case = true ; } > method seq = fun f e -> let rec self right f e = let go_right = self right and go_left = self false in match e with | Ast . ExLet ( _ , r , bi , e1 ) -> if right then pp f " [ @< 2 > let % a % a ] ; @@ % a " o # rec_flag r o # binding bi go_right e1 else pp f " ( % a ) " o # expr e | Ast . ExSeq ( _ , e ) -> go_right f e | Ast . ExSem ( _ , e1 , e2 ) -> ( pp f " % a ; @ " go_left e1 ; ( match ( right , e2 ) with | ( true , Ast . ExLet ( _ , r , bi , e3 ) ) -> pp f " [ @< 2 > let % a % a ] ; @@ % a " o # rec_flag r o # binding bi go_right e3 | _ -> go_right f e2 ) ) | e -> o # expr f e in self true f e method var = fun f -> function | " " -> pp f " $ lid " " " :\\$ | " [ ] " -> pp f " [ ] " | " ( ) " -> pp f " ( ) " | " True " -> pp f " True " | " False " -> pp f " False " | v -> ( match lex_string v with | LIDENT s | UIDENT s | ESCAPED_IDENT s when is_keyword s -> pp f " % s__ " s | SYMBOL s -> pp f " ( % s ) " s | LIDENT s | UIDENT s | ESCAPED_IDENT s -> pp_print_string f s | tok -> failwith ( sprintf " Bad token used as an identifier : % s " ( Token . to_string tok ) ) ) method type_params = fun f -> function | [ ] -> ( ) | [ x ] -> pp f " @ % a " o # ctyp x | l -> pp f " @ [ @< 1 >% a ] " @ ( list o # ctyp " @ " ) l method match_case = fun f -> function | Ast . McNil _ -> pp f " @ [ ] " | m -> pp f " @ [ % a ] " o # set_first_match_case # match_case_aux m method match_case_aux = fun f -> function | Ast . McNil _ -> ( ) | Ast . McAnt ( _ , s ) -> o # anti f s | Ast . McOr ( _ , a1 , a2 ) -> pp f " % a % a " o # match_case_aux a1 o # unset_first_match_case # match_case_aux a2 | Ast . McArr ( _ , p , ( Ast . ExNil _ ) , e ) -> let ( ) = if first_match_case then ( ) else pp f " @ | " in pp f " [ @< 2 >% a @ ->@ % a ] " @ o # patt p o # under_pipe # expr e | Ast . McArr ( _ , p , w , e ) -> let ( ) = if first_match_case then ( ) else pp f " @ | " in pp f " [ @< 2 >% a @ when @ % a @ ->@ % a ] " @ o # patt p o # under_pipe # expr w o # under_pipe # expr e method sum_type = fun f -> function | Ast . TyNil _ -> pp f " [ ] " | t -> pp f " [ @< hv0 [ > % a ] ] " @ o # ctyp t method ident = fun f i -> let ( ) = o # node f i Ast . loc_of_ident in match i with | Ast . IdApp ( _ , i1 , i2 ) -> pp f " % a @ % a " o # dot_ident i1 o # dot_ident i2 | i -> o # dot_ident f i method private dot_ident = fun f i -> let ( ) = o # node f i Ast . loc_of_ident in match i with | Ast . IdAcc ( _ , i1 , i2 ) -> pp f " % a . , @% a " o # dot_ident i1 o # dot_ident i2 | Ast . IdAnt ( _ , s ) -> o # anti f s | Ast . IdLid ( _ , s ) | Ast . IdUid ( _ , s ) -> o # var f s | i -> pp f " ( % a ) " o # ident i method patt4 = fun f -> function | ( Ast . PaApp ( _ , ( Ast . PaApp ( _ , ( Ast . PaId ( _ , ( Ast . IdUid ( _ , " " ) ) ) ) , :: _ ) ) , _ ) as p ) -> let ( pl , c ) = o # mk_patt_list p in ( match c with | None -> pp f " [ @< 2 [ >@ % a ] @@ ] " ( list o # patt " ; @ " ) pl | Some x -> pp f " [ @< 2 [ > % a ::@ % a ] ] " @ ( list o # patt " ; @ " ) pl o # patt x ) | p -> super # patt4 f p method expr_list_cons = fun _ f e -> let ( el , c ) = o # mk_expr_list e in match c with | None -> o # expr_list f el | Some x -> pp f " [ @< 2 [ > % a ::@ % a ] ] " @ ( list o # expr " ; @ " ) el o # expr x method expr = fun f e -> let ( ) = o # node f e Ast . loc_of_expr in match e with | Ast . ExAss ( _ , e1 , e2 ) -> pp f " [ @< 2 >% a @ :=@ % a ] " @ o # dot_expr e1 o # expr e2 | Ast . ExFun ( _ , ( Ast . McArr ( _ , p , ( Ast . ExNil _ ) , e ) ) ) when Ast . is_irrefut_patt p -> pp f " [ @< 2 > fun @ % a ] " @ o # patt_expr_fun_args ( ( ` patt p ) , e ) | Ast . ExFUN ( _ , i , e ) -> pp f " [ @< 2 > fun @ % a ] " @ o # patt_expr_fun_args ( ( ` newtype i ) , e ) | Ast . ExFun ( _ , a ) -> pp f " [ @< hv0 > fun % a ] " @ o # match_case a | Ast . ExAsf _ -> pp f " [ @< 2 > assert @ False ] " @ | e -> super # expr f e method dot_expr = fun f e -> let ( ) = o # node f e Ast . loc_of_expr in match e with | Ast . ExAcc ( _ , e , ( Ast . ExId ( _ , ( Ast . IdLid ( _ , " val " ) ) ) ) ) -> pp f " [ @< 2 >% a . , @ val ] " @ o # simple_expr e | e -> super # dot_expr f e method ctyp = fun f t -> let ( ) = o # node f t Ast . loc_of_ctyp in match t with | Ast . TyDcl ( _ , tn , tp , te , cl ) -> ( pp f " [ @< 2 >% a % a ] " @ o # var tn o # type_params tp ; ( match te with | Ast . TyNil _ -> ( ) | _ -> pp f " =@ % a " o # ctyp te ) ; if cl <> [ ] then pp f " @ % a " ( list o # constrain " @ " ) cl else ( ) ) | Ast . TyCol ( _ , t1 , ( Ast . TyMut ( _ , t2 ) ) ) -> pp f " [ @% a :@ mutable % a ] " @ o # ctyp t1 o # ctyp t2 | t -> super # ctyp f t method simple_ctyp = fun f t -> let ( ) = o # node f t Ast . loc_of_ctyp in match t with | Ast . TyVrnEq ( _ , t ) -> pp f " [ @< 2 [ > =@ % a ] @@ ] " o # ctyp t | Ast . TyVrnInf ( _ , t ) -> pp f " [ @< 2 [ > <@ % a ] , ] " @@ o # ctyp t | Ast . TyVrnInfSup ( _ , t1 , t2 ) -> pp f " [ @< 2 [ > <@ % a @ >@ % a ] @@ ] " o # ctyp t1 o # ctyp t2 | Ast . TyVrnSup ( _ , t ) -> pp f " [ @< 2 [ > >@ % a ] , ] " @@ o # ctyp t | Ast . TyMan ( _ , t1 , t2 ) -> pp f " [ @< 2 >% a @ ==@ % a ] " @ o # simple_ctyp t1 o # simple_ctyp t2 | Ast . TyLab ( _ , s , t ) -> pp f " [ @< 2 >~% s :@ % a ] " @ s o # simple_ctyp t | t -> super # simple_ctyp f t method ctyp1 = fun f -> function | Ast . TyApp ( _ , t1 , t2 ) -> ( match get_ctyp_args t1 [ t2 ] with | ( _ , [ _ ] ) -> pp f " [ @< 2 >% a @ % a ] " @ o # simple_ctyp t1 o # simple_ctyp t2 | ( a , al ) -> pp f " [ @< 2 >% a ] " @ ( list o # simple_ctyp " @ " ) ( a :: al ) ) | Ast . TyPol ( _ , t1 , t2 ) -> let ( a , al ) = get_ctyp_args t1 [ ] in pp f " [ @< 2 >! % a . @ % a ] " @ ( list o # ctyp " @ " ) ( a :: al ) o # ctyp t2 | t -> super # ctyp1 f t method constructor_type = fun f t -> match t with | Ast . TyAnd ( loc , t1 , t2 ) -> let ( ) = o # node f t ( fun _ -> loc ) in pp f " % a @ and % a " o # constructor_type t1 o # constructor_type t2 | t -> o # ctyp f t method str_item = fun f st -> match st with | Ast . StExp ( _ , e ) -> pp f " [ @< 2 >% a ( ) ] " %%@ o # expr e semisep | st -> super # str_item f st method module_expr = fun f me -> let ( ) = o # node f me Ast . loc_of_module_expr in match me with | Ast . MeApp ( _ , me1 , me2 ) -> pp f " [ @< 2 >% a @ % a ] " @ o # module_expr me1 o # simple_module_expr me2 | me -> super # module_expr f me method simple_module_expr = fun f me -> let ( ) = o # node f me Ast . loc_of_module_expr in match me with | Ast . MeApp ( _ , _ , _ ) -> pp f " ( % a ) " o # module_expr me | _ -> super # simple_module_expr f me method implem = fun f st -> pp f " [ @< v0 >% a ] . " @@ o # str_item st method class_type = fun f ct -> let ( ) = o # node f ct Ast . loc_of_class_type in match ct with | Ast . CtFun ( _ , t , ct ) -> pp f " [ @< 2 [ > % a ] ->@ % a ] " @ o # simple_ctyp t o # class_type ct | Ast . CtCon ( _ , Ast . ViNil , i , ( Ast . TyNil _ ) ) -> pp f " [ @< 2 >% a ] " @ o # ident i | Ast . CtCon ( _ , Ast . ViNil , i , t ) -> pp f " [ @< 2 >% a [ , @% a ] , ] " @@ o # ident i o # class_params t | Ast . CtCon ( _ , Ast . ViVirtual , ( Ast . IdLid ( _ , i ) ) , ( Ast . TyNil _ ) ) -> pp f " [ @< 2 > virtual @ % a ] " @ o # var i | Ast . CtCon ( _ , Ast . ViVirtual , ( Ast . IdLid ( _ , i ) ) , t ) -> pp f " [ @< 2 > virtual @ % a @ [ , @% a ] , ] " @@ o # var i o # class_params t | ct -> super # class_type f ct method class_expr = fun f ce -> let ( ) = o # node f ce Ast . loc_of_class_expr in match ce with | Ast . CeCon ( _ , Ast . ViNil , i , ( Ast . TyNil _ ) ) -> pp f " [ @< 2 >% a ] " @ o # ident i | Ast . CeCon ( _ , Ast . ViNil , i , t ) -> pp f " [ @< 2 >% a @ [ @< 1 [ >% a ] ] ] " @@ o # ident i o # class_params t | Ast . CeCon ( _ , Ast . ViVirtual , ( Ast . IdLid ( _ , i ) ) , ( Ast . TyNil _ ) ) -> pp f " [ @< 2 > virtual @ % a ] " @ o # var i | Ast . CeCon ( _ , Ast . ViVirtual , ( Ast . IdLid ( _ , i ) ) , t ) -> pp f " [ @< 2 > virtual @ % a @ [ @< 1 [ >% a ] ] ] " @@ o # var i o # ctyp t | ce -> super # class_expr f ce end let with_outfile = with_outfile let print output_file fct = let o = new printer ( ) in with_outfile output_file ( fct o ) let print_interf ? input_file ( : _ ) ? output_file sg = print output_file ( fun o -> o # interf ) sg let print_implem ? input_file ( : _ ) ? output_file st = print output_file ( fun o -> o # implem ) st end module MakeMore ( Syntax : Sig . Camlp4Syntax ) : Sig . Printer ( Syntax . Ast ) . S = struct include Make ( Syntax ) let margin = ref 78 let comments = ref true let locations = ref false let curry_constr = ref true let print output_file fct = let o = new printer ~ comments : ! comments ~ curry_constr : ! curry_constr ( ) in let o = if ! locations then o # set_loc_and_comments else o in with_outfile output_file ( fun f -> let ( ) = Format . pp_set_margin f ! margin in Format . fprintf f " [ @< v0 >% a ] . " @@ ( fct o ) ) let print_interf ? input_file ( : _ ) ? output_file sg = print output_file ( fun o -> o # interf ) sg let print_implem ? input_file ( : _ ) ? output_file st = print output_file ( fun o -> o # implem ) st let _ = Options . add " - l " ( Arg . Int ( fun i -> margin := i ) ) " < length > line length for pretty printing . " let _ = Options . add " - no_comments " ( Arg . Clear comments ) " Do not add comments . " let _ = Options . add " - add_locations " ( Arg . Set locations ) " Add locations as comment . " end end end |
module OCamlInitSyntax = struct module Make ( Ast : Sig . Camlp4Ast ) ( Gram : Sig . Grammar . Static with module Loc = Ast . Loc with type Token . t = Sig . camlp4_token ) ( Quotation : Sig . Quotation with module Ast = Sig . Camlp4AstToAst ( Ast ) ) : Sig . Camlp4Syntax with module Loc = Ast . Loc and module Ast = Ast and module Token = Gram . Token and module Gram = Gram and module Quotation = Quotation = struct module Loc = Ast . Loc module Ast = Ast module Gram = Gram module Token = Gram . Token open Sig type warning = Loc . t -> string -> unit let default_warning loc txt = Format . eprintf " < W > % a : % s . " @ Loc . print loc txt let current_warning = ref default_warning let print_warning loc txt = ! current_warning loc txt let a_CHAR = Gram . Entry . mk " a_CHAR " let a_FLOAT = Gram . Entry . mk " a_FLOAT " let a_INT = Gram . Entry . mk " a_INT " let a_INT32 = Gram . Entry . mk " a_INT32 " let a_INT64 = Gram . Entry . mk " a_INT64 " let a_LABEL = Gram . Entry . mk " a_LABEL " let a_LIDENT = Gram . Entry . mk " a_LIDENT " let a_NATIVEINT = Gram . Entry . mk " a_NATIVEINT " let a_OPTLABEL = Gram . Entry . mk " a_OPTLABEL " let a_STRING = Gram . Entry . mk " a_STRING " let a_UIDENT = Gram . Entry . mk " a_UIDENT " let a_ident = Gram . Entry . mk " a_ident " let amp_ctyp = Gram . Entry . mk " amp_ctyp " let and_ctyp = Gram . Entry . mk " and_ctyp " let match_case = Gram . Entry . mk " match_case " let match_case0 = Gram . Entry . mk " match_case0 " let binding = Gram . Entry . mk " binding " let class_declaration = Gram . Entry . mk " class_declaration " let class_description = Gram . Entry . mk " class_description " let class_expr = Gram . Entry . mk " class_expr " let class_fun_binding = Gram . Entry . mk " class_fun_binding " let class_fun_def = Gram . Entry . mk " class_fun_def " let class_info_for_class_expr = Gram . Entry . mk " class_info_for_class_expr " let class_info_for_class_type = Gram . Entry . mk " class_info_for_class_type " let class_longident = Gram . Entry . mk " class_longident " let class_longident_and_param = Gram . Entry . mk " class_longident_and_param " let class_name_and_param = Gram . Entry . mk " class_name_and_param " let class_sig_item = Gram . Entry . mk " class_sig_item " let class_signature = Gram . Entry . mk " class_signature " let class_str_item = Gram . Entry . mk " class_str_item " let class_structure = Gram . Entry . mk " class_structure " let class_type = Gram . Entry . mk " class_type " let class_type_declaration = Gram . Entry . mk " class_type_declaration " let class_type_longident = Gram . Entry . mk " class_type_longident " let class_type_longident_and_param = Gram . Entry . mk " class_type_longident_and_param " let class_type_plus = Gram . Entry . mk " class_type_plus " let comma_ctyp = Gram . Entry . mk " comma_ctyp " let comma_expr = Gram . Entry . mk " comma_expr " let comma_ipatt = Gram . Entry . mk " comma_ipatt " let comma_patt = Gram . Entry . mk " comma_patt " let comma_type_parameter = Gram . Entry . mk " comma_type_parameter " let constrain = Gram . Entry . mk " constrain " let constructor_arg_list = Gram . Entry . mk " constructor_arg_list " let constructor_declaration = Gram . Entry . mk " constructor_declaration " let constructor_declarations = Gram . Entry . mk " constructor_declarations " let ctyp = Gram . Entry . mk " ctyp " let cvalue_binding = Gram . Entry . mk " cvalue_binding " let direction_flag = Gram . Entry . mk " direction_flag " let direction_flag_quot = Gram . Entry . mk " direction_flag_quot " let dummy = Gram . Entry . mk " dummy " let entry_eoi = Gram . Entry . mk " entry_eoi " let eq_expr = Gram . Entry . mk " eq_expr " let expr = Gram . Entry . mk " expr " let expr_eoi = Gram . Entry . mk " expr_eoi " let field_expr = Gram . Entry . mk " field_expr " let field_expr_list = Gram . Entry . mk " field_expr_list " let fun_binding = Gram . Entry . mk " fun_binding " let fun_def = Gram . Entry . mk " fun_def " let ident = Gram . Entry . mk " ident " let implem = Gram . Entry . mk " implem " let interf = Gram . Entry . mk " interf " let ipatt = Gram . Entry . mk " ipatt " let ipatt_tcon = Gram . Entry . mk " ipatt_tcon " let label = Gram . Entry . mk " label " let label_declaration = Gram . Entry . mk " label_declaration " let label_declaration_list = Gram . Entry . mk " label_declaration_list " let label_expr = Gram . Entry . mk " label_expr " let label_expr_list = Gram . Entry . mk " label_expr_list " let label_ipatt = Gram . Entry . mk " label_ipatt " let label_ipatt_list = Gram . Entry . mk " label_ipatt_list " let label_longident = Gram . Entry . mk " label_longident " let label_patt = Gram . Entry . mk " label_patt " let label_patt_list = Gram . Entry . mk " label_patt_list " let labeled_ipatt = Gram . Entry . mk " labeled_ipatt " let let_binding = Gram . Entry . mk " let_binding " let meth_list = Gram . Entry . mk " meth_list " let meth_decl = Gram . Entry . mk " meth_decl " let module_binding = Gram . Entry . mk " module_binding " let module_binding0 = Gram . Entry . mk " module_binding0 " let module_declaration = Gram . Entry . mk " module_declaration " let module_expr = Gram . Entry . mk " module_expr " let module_longident = Gram . Entry . mk " module_longident " let module_longident_with_app = Gram . Entry . mk " module_longident_with_app " let module_rec_declaration = Gram . Entry . mk " module_rec_declaration " let module_type = Gram . Entry . mk " module_type " let package_type = Gram . Entry . mk " package_type " let more_ctyp = Gram . Entry . mk " more_ctyp " let name_tags = Gram . Entry . mk " name_tags " let opt_as_lident = Gram . Entry . mk " opt_as_lident " let opt_class_self_patt = Gram . Entry . mk " opt_class_self_patt " let opt_class_self_type = Gram . Entry . mk " opt_class_self_type " let opt_class_signature = Gram . Entry . mk " opt_class_signature " let opt_class_structure = Gram . Entry . mk " opt_class_structure " let opt_comma_ctyp = Gram . Entry . mk " opt_comma_ctyp " let opt_dot_dot = Gram . Entry . mk " opt_dot_dot " let row_var_flag_quot = Gram . Entry . mk " row_var_flag_quot " let opt_eq_ctyp = Gram . Entry . mk " opt_eq_ctyp " let opt_expr = Gram . Entry . mk " opt_expr " let opt_meth_list = Gram . Entry . mk " opt_meth_list " let opt_mutable = Gram . Entry . mk " opt_mutable " let mutable_flag_quot = Gram . Entry . mk " mutable_flag_quot " let opt_polyt = Gram . Entry . mk " opt_polyt " let opt_private = Gram . Entry . mk " opt_private " let private_flag_quot = Gram . Entry . mk " private_flag_quot " let opt_rec = Gram . Entry . mk " opt_rec " let rec_flag_quot = Gram . Entry . mk " rec_flag_quot " let opt_sig_items = Gram . Entry . mk " opt_sig_items " let opt_str_items = Gram . Entry . mk " opt_str_items " let opt_virtual = Gram . Entry . mk " opt_virtual " let virtual_flag_quot = Gram . Entry . mk " virtual_flag_quot " let opt_override = Gram . Entry . mk " opt_override " let override_flag_quot = Gram . Entry . mk " override_flag_quot " let opt_when_expr = Gram . Entry . mk " opt_when_expr " let patt = Gram . Entry . mk " patt " let patt_as_patt_opt = Gram . Entry . mk " patt_as_patt_opt " let patt_eoi = Gram . Entry . mk " patt_eoi " let patt_tcon = Gram . Entry . mk " patt_tcon " let phrase = Gram . Entry . mk " phrase " let poly_type = Gram . Entry . mk " poly_type " let row_field = Gram . Entry . mk " row_field " let sem_expr = Gram . Entry . mk " sem_expr " let sem_expr_for_list = Gram . Entry . mk " sem_expr_for_list " let sem_patt = Gram . Entry . mk " sem_patt " let sem_patt_for_list = Gram . Entry . mk " sem_patt_for_list " let semi = Gram . Entry . mk " semi " let sequence = Gram . Entry . mk " sequence " let do_sequence = Gram . Entry . mk " do_sequence " let sig_item = Gram . Entry . mk " sig_item " let sig_items = Gram . Entry . mk " sig_items " let star_ctyp = Gram . Entry . mk " star_ctyp " let str_item = Gram . Entry . mk " str_item " let str_items = Gram . Entry . mk " str_items " let top_phrase = Gram . Entry . mk " top_phrase " let type_constraint = Gram . Entry . mk " type_constraint " let type_declaration = Gram . Entry . mk " type_declaration " let type_ident_and_parameters = Gram . Entry . mk " type_ident_and_parameters " let type_kind = Gram . Entry . mk " type_kind " let type_longident = Gram . Entry . mk " type_longident " let type_longident_and_parameters = Gram . Entry . mk " type_longident_and_parameters " let type_parameter = Gram . Entry . mk " type_parameter " let type_parameters = Gram . Entry . mk " type_parameters " let typevars = Gram . Entry . mk " typevars " let use_file = Gram . Entry . mk " use_file " let val_longident = Gram . Entry . mk " val_longident " let value_let = Gram . Entry . mk " value_let " let value_val = Gram . Entry . mk " value_val " let with_constr = Gram . Entry . mk " with_constr " let expr_quot = Gram . Entry . mk " quotation of expression " let patt_quot = Gram . Entry . mk " quotation of pattern " let ctyp_quot = Gram . Entry . mk " quotation of type " let str_item_quot = Gram . Entry . mk " quotation of structure item " let sig_item_quot = Gram . Entry . mk " quotation of signature item " let class_str_item_quot = Gram . Entry . mk " quotation of class structure item " let class_sig_item_quot = Gram . Entry . mk " quotation of class signature item " let module_expr_quot = Gram . Entry . mk " quotation of module expression " let module_type_quot = Gram . Entry . mk " quotation of module type " let class_type_quot = Gram . Entry . mk " quotation of class type " let class_expr_quot = Gram . Entry . mk " quotation of class expression " let with_constr_quot = Gram . Entry . mk " quotation of with constraint " let binding_quot = Gram . Entry . mk " quotation of binding " let rec_binding_quot = Gram . Entry . mk " quotation of record binding " let match_case_quot = Gram . Entry . mk " quotation of match_case ( try / match / function case ) " let module_binding_quot = Gram . Entry . mk " quotation of module rec binding " let ident_quot = Gram . Entry . mk " quotation of identifier " let prefixop = Gram . Entry . mk " prefix operator ( start with ' ' , ! ' ' , ? ' ' ) " ~ let infixop0 = Gram . Entry . mk " infix operator ( level 0 ) ( comparison operators , and some others ) " let infixop1 = Gram . Entry . mk " infix operator ( level 1 ) ( start with ' ' , ^ ' ' ) " @ let infixop2 = Gram . Entry . mk " infix operator ( level 2 ) ( start with ' ' , + ' ' ) " - let infixop3 = Gram . Entry . mk " infix operator ( level 3 ) ( start with ' ' , * ' ' , / ' ' ) " % let infixop4 = Gram . Entry . mk " infix operator ( level 4 ) ( start with " " ) \**\ ( right assoc ) " let _ = Gram . extend ( top_phrase : ' top_phrase Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | EOI -> true | _ -> false ) , " EOI " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | EOI -> ( None : ' top_phrase ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) module AntiquotSyntax = struct module Loc = Ast . Loc module Ast = Sig . Camlp4AstToAst ( Ast ) module Gram = Gram let antiquot_expr = Gram . Entry . mk " antiquot_expr " let antiquot_patt = Gram . Entry . mk " antiquot_patt " let _ = ( Gram . extend ( antiquot_expr : ' antiquot_expr Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Stoken ( ( ( function | EOI -> true | _ -> false ) , " EOI " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( x : ' expr ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | EOI -> ( x : ' antiquot_expr ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( antiquot_patt : ' antiquot_patt Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ; Gram . Stoken ( ( ( function | EOI -> true | _ -> false ) , " EOI " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( x : ' patt ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | EOI -> ( x : ' antiquot_patt ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ) let parse_expr loc str = Gram . parse_string antiquot_expr loc str let parse_patt loc str = Gram . parse_string antiquot_patt loc str end module Quotation = Quotation let wrap directive_handler pa init_loc cs = let rec loop loc = let ( pl , stopped_at_directive ) = pa loc cs in match stopped_at_directive with | Some new_loc -> let pl = ( match List . rev pl with | [ ] -> assert false | x :: xs -> ( match directive_handler x with | None -> xs | Some x -> x :: xs ) ) in ( List . rev pl ) @ ( loop new_loc ) | None -> pl in loop init_loc let parse_implem ( ? directive_handler = fun _ -> None ) _loc cs = let l = wrap directive_handler ( Gram . parse implem ) _loc cs in Ast . stSem_of_list l let parse_interf ( ? directive_handler = fun _ -> None ) _loc cs = let l = wrap directive_handler ( Gram . parse interf ) _loc cs in Ast . sgSem_of_list l let print_interf ? input_file ( : _ ) ? output_file ( : _ ) _ = failwith " No interface printer " let print_implem ? input_file ( : _ ) ? output_file ( : _ ) _ = failwith " No implementation printer " end end |
module PreCast : sig type camlp4_token = Sig . camlp4_token = | KEYWORD of string | SYMBOL of string | LIDENT of string | UIDENT of string | ESCAPED_IDENT of string | INT of int * string | INT32 of int32 * string | INT64 of int64 * string | NATIVEINT of nativeint * string | FLOAT of float * string | CHAR of char * string | STRING of string * string | LABEL of string | OPTLABEL of string | QUOTATION of Sig . quotation | ANTIQUOT of string * string | COMMENT of string | BLANKS of string | NEWLINE | LINE_DIRECTIVE of int * string option | EOI module Id : Sig . Id module Loc : Sig . Loc module Ast : Sig . Camlp4Ast with module Loc = Loc module Token : Sig . Token with module Loc = Loc and type t = camlp4_token module Lexer : Sig . Lexer with module Loc = Loc and module Token = Token module Gram : Sig . Grammar . Static with module Loc = Loc and module Token = Token module Quotation : Sig . Quotation with module Ast = Sig . Camlp4AstToAst ( Ast ) module DynLoader : Sig . DynLoader module AstFilters : Sig . AstFilters with module Ast = Ast module Syntax : Sig . Camlp4Syntax with module Loc = Loc and module Token = Token and module Ast = Ast and module Gram = Gram and module Quotation = Quotation module Printers : sig module OCaml : Sig . Printer ( Ast ) . S module OCamlr : Sig . Printer ( Ast ) . S module DumpOCamlAst : Sig . Printer ( Ast ) . S module DumpCamlp4Ast : Sig . Printer ( Ast ) . S module Null : Sig . Printer ( Ast ) . S end module MakeGram ( Lexer : Sig . Lexer with module Loc = Loc ) : Sig . Grammar . Static with module Loc = Loc and module Token = Lexer . Token module MakeSyntax ( U : sig end ) : Sig . Syntax end = struct module Id = struct let name = " Camlp4 . PreCast " let version = Sys . ocaml_version end type camlp4_token = Sig . camlp4_token = | KEYWORD of string | SYMBOL of string | LIDENT of string | UIDENT of string | ESCAPED_IDENT of string | INT of int * string | INT32 of int32 * string | INT64 of int64 * string | NATIVEINT of nativeint * string | FLOAT of float * string | CHAR of char * string | STRING of string * string | LABEL of string | OPTLABEL of string | QUOTATION of Sig . quotation | ANTIQUOT of string * string | COMMENT of string | BLANKS of string | NEWLINE | LINE_DIRECTIVE of int * string option | EOI module Loc = Struct . Loc module Ast = Struct . Camlp4Ast . Make ( Loc ) module Token = Struct . Token . Make ( Loc ) module Lexer = Struct . Lexer . Make ( Token ) module Gram = Struct . Grammar . Static . Make ( Lexer ) module DynLoader = Struct . DynLoader module Quotation = Struct . Quotation . Make ( Ast ) module MakeSyntax ( U : sig end ) = OCamlInitSyntax . Make ( Ast ) ( Gram ) ( Quotation ) module Syntax = MakeSyntax ( struct end ) module AstFilters = Struct . AstFilters . Make ( Ast ) module MakeGram = Struct . Grammar . Static . Make module Printers = struct module OCaml = Printers . OCaml . Make ( Syntax ) module OCamlr = Printers . OCamlr . Make ( Syntax ) module DumpOCamlAst = Printers . DumpOCamlAst . Make ( Syntax ) module DumpCamlp4Ast = Printers . DumpCamlp4Ast . Make ( Syntax ) module Null = Printers . Null . Make ( Syntax ) end end |
module Register : sig module Plugin ( Id : Sig . Id ) ( Plugin : functor ( Unit : sig end ) -> sig end ) : sig end module SyntaxPlugin ( Id : Sig . Id ) ( SyntaxPlugin : functor ( Syn : Sig . Syntax ) -> sig end ) : sig end module SyntaxExtension ( Id : Sig . Id ) ( SyntaxExtension : Sig . SyntaxExtension ) : sig end module OCamlSyntaxExtension ( Id : Sig . Id ) ( SyntaxExtension : functor ( Syntax : Sig . Camlp4Syntax ) -> Sig . Camlp4Syntax ) : sig end type ' a parser_fun = ? directive_handler : ( ' a -> ' a option ) -> PreCast . Loc . t -> char Stream . t -> ' a val register_str_item_parser : PreCast . Ast . str_item parser_fun -> unit val register_sig_item_parser : PreCast . Ast . sig_item parser_fun -> unit val register_parser : PreCast . Ast . str_item parser_fun -> PreCast . Ast . sig_item parser_fun -> unit module Parser ( Id : Sig . Id ) ( Maker : functor ( Ast : Sig . Ast ) -> Sig . Parser ( Ast ) . S ) : sig end module OCamlParser ( Id : Sig . Id ) ( Maker : functor ( Ast : Sig . Camlp4Ast ) -> Sig . Parser ( Ast ) . S ) : sig end module OCamlPreCastParser ( Id : Sig . Id ) ( Parser : Sig . Parser ( PreCast . Ast ) . S ) : sig end type ' a printer_fun = ? input_file : string -> ? output_file : string -> ' a -> unit val register_str_item_printer : PreCast . Ast . str_item printer_fun -> unit val register_sig_item_printer : PreCast . Ast . sig_item printer_fun -> unit val register_printer : PreCast . Ast . str_item printer_fun -> PreCast . Ast . sig_item printer_fun -> unit module Printer ( Id : Sig . Id ) ( Maker : functor ( Syn : Sig . Syntax ) -> Sig . Printer ( Syn . Ast ) . S ) : sig end module OCamlPrinter ( Id : Sig . Id ) ( Maker : functor ( Syn : Sig . Camlp4Syntax ) -> Sig . Printer ( Syn . Ast ) . S ) : sig end module OCamlPreCastPrinter ( Id : Sig . Id ) ( Printer : Sig . Printer ( PreCast . Ast ) . S ) : sig end module AstFilter ( Id : Sig . Id ) ( Maker : functor ( F : Sig . AstFilters ) -> sig end ) : sig end val declare_dyn_module : string -> ( unit -> unit ) -> unit val iter_and_take_callbacks : ( ( string * ( unit -> unit ) ) -> unit ) -> unit val loaded_modules : ( string list ) ref module CurrentParser : Sig . Parser ( PreCast . Ast ) . S module CurrentPrinter : Sig . Printer ( PreCast . Ast ) . S val enable_ocaml_printer : unit -> unit val enable_ocamlr_printer : unit -> unit val enable_null_printer : unit -> unit val enable_dump_ocaml_ast_printer : unit -> unit val enable_dump_camlp4_ast_printer : unit -> unit end = struct module PP = Printers open PreCast type ' a parser_fun = ? directive_handler : ( ' a -> ' a option ) -> PreCast . Loc . t -> char Stream . t -> ' a type ' a printer_fun = ? input_file : string -> ? output_file : string -> ' a -> unit let sig_item_parser = ref ( fun ? directive_handler ( : _ ) _ _ -> failwith " No interface parser " ) let str_item_parser = ref ( fun ? directive_handler ( : _ ) _ _ -> failwith " No implementation parser " ) let sig_item_printer = ref ( fun ? input_file ( : _ ) ? output_file ( : _ ) _ -> failwith " No interface printer " ) let str_item_printer = ref ( fun ? input_file ( : _ ) ? output_file ( : _ ) _ -> failwith " No implementation printer " ) let callbacks = Queue . create ( ) let loaded_modules = ref [ ] let iter_and_take_callbacks f = let rec loop ( ) = loop ( f ( Queue . take callbacks ) ) in try loop ( ) with | Queue . Empty -> ( ) let declare_dyn_module m f = ( loaded_modules := m :: ! loaded_modules ; Queue . add ( m , f ) callbacks ) let register_str_item_parser f = str_item_parser := f let register_sig_item_parser f = sig_item_parser := f let register_parser f g = ( str_item_parser := f ; sig_item_parser := g ) let register_str_item_printer f = str_item_printer := f let register_sig_item_printer f = sig_item_printer := f let register_printer f g = ( str_item_printer := f ; sig_item_printer := g ) module Plugin ( Id : Sig . Id ) ( Maker : functor ( Unit : sig end ) -> sig end ) = struct let _ = declare_dyn_module Id . name ( fun _ -> let module M = Maker ( struct end ) in ( ) ) end module SyntaxExtension ( Id : Sig . Id ) ( Maker : Sig . SyntaxExtension ) = struct let _ = declare_dyn_module Id . name ( fun _ -> let module M = Maker ( Syntax ) in ( ) ) end module OCamlSyntaxExtension ( Id : Sig . Id ) ( Maker : functor ( Syn : Sig . Camlp4Syntax ) -> Sig . Camlp4Syntax ) = struct let _ = declare_dyn_module Id . name ( fun _ -> let module M = Maker ( Syntax ) in ( ) ) end module SyntaxPlugin ( Id : Sig . Id ) ( Maker : functor ( Syn : Sig . Syntax ) -> sig end ) = struct let _ = declare_dyn_module Id . name ( fun _ -> let module M = Maker ( Syntax ) in ( ) ) end module Printer ( Id : Sig . Id ) ( Maker : functor ( Syn : Sig . Syntax ) -> Sig . Printer ( Syn . Ast ) . S ) = struct let _ = declare_dyn_module Id . name ( fun _ -> let module M = Maker ( Syntax ) in register_printer M . print_implem M . print_interf ) end module OCamlPrinter ( Id : Sig . Id ) ( Maker : functor ( Syn : Sig . Camlp4Syntax ) -> Sig . Printer ( Syn . Ast ) . S ) = struct let _ = declare_dyn_module Id . name ( fun _ -> let module M = Maker ( Syntax ) in register_printer M . print_implem M . print_interf ) end module OCamlPreCastPrinter ( Id : Sig . Id ) ( P : Sig . Printer ( PreCast . Ast ) . S ) = struct let _ = declare_dyn_module Id . name ( fun _ -> register_printer P . print_implem P . print_interf ) end module Parser ( Id : Sig . Id ) ( Maker : functor ( Ast : Sig . Ast ) -> Sig . Parser ( Ast ) . S ) = struct let _ = declare_dyn_module Id . name ( fun _ -> let module M = Maker ( PreCast . Ast ) in register_parser M . parse_implem M . parse_interf ) end module OCamlParser ( Id : Sig . Id ) ( Maker : functor ( Ast : Sig . Camlp4Ast ) -> Sig . Parser ( Ast ) . S ) = struct let _ = declare_dyn_module Id . name ( fun _ -> let module M = Maker ( PreCast . Ast ) in register_parser M . parse_implem M . parse_interf ) end module OCamlPreCastParser ( Id : Sig . Id ) ( P : Sig . Parser ( PreCast . Ast ) . S ) = struct let _ = declare_dyn_module Id . name ( fun _ -> register_parser P . parse_implem P . parse_interf ) end module AstFilter ( Id : Sig . Id ) ( Maker : functor ( F : Sig . AstFilters ) -> sig end ) = struct let _ = declare_dyn_module Id . name ( fun _ -> let module M = Maker ( AstFilters ) in ( ) ) end let _ = sig_item_parser := Syntax . parse_interf let _ = str_item_parser := Syntax . parse_implem module CurrentParser = struct module Ast = Ast let parse_interf ? directive_handler loc strm = ! sig_item_parser ? directive_handler loc strm let parse_implem ? directive_handler loc strm = ! str_item_parser ? directive_handler loc strm end module CurrentPrinter = struct module Ast = Ast let print_interf ? input_file ? output_file ast = ! sig_item_printer ? input_file ? output_file ast let print_implem ? input_file ? output_file ast = ! str_item_printer ? input_file ? output_file ast end let enable_ocaml_printer ( ) = let module M = OCamlPrinter ( PP . OCaml . Id ) ( PP . OCaml . MakeMore ) in ( ) let enable_ocamlr_printer ( ) = let module M = OCamlPrinter ( PP . OCamlr . Id ) ( PP . OCamlr . MakeMore ) in ( ) let enable_dump_ocaml_ast_printer ( ) = let module M = OCamlPrinter ( PP . DumpOCamlAst . Id ) ( PP . DumpOCamlAst . Make ) in ( ) let enable_dump_camlp4_ast_printer ( ) = let module M = Printer ( PP . DumpCamlp4Ast . Id ) ( PP . DumpCamlp4Ast . Make ) in ( ) let enable_null_printer ( ) = let module M = Printer ( PP . Null . Id ) ( PP . Null . Make ) in ( ) end |
module Make ( Loc : Sig . Loc ) : Sig . Camlp4Ast with module Loc = Loc = struct module Loc = Loc ; module Ast = struct include ( Sig . MakeCamlp4Ast Loc ) ; value safe_string_escaped s = if ( ( String . length s ) > 2 ) && ( ( s . [ 0 ] = ' ' ) \\ && ( s . [ 1 ] = ' ' ) ) $ then s else String . escaped s ; end ; include Ast ; external loc_of_ctyp : ctyp -> Loc . t = " % field0 " ; external loc_of_patt : patt -> Loc . t = " % field0 " ; external loc_of_expr : expr -> Loc . t = " % field0 " ; external loc_of_module_type : module_type -> Loc . t = " % field0 " ; external loc_of_module_expr : module_expr -> Loc . t = " % field0 " ; external loc_of_sig_item : sig_item -> Loc . t = " % field0 " ; external loc_of_str_item : str_item -> Loc . t = " % field0 " ; external loc_of_class_type : class_type -> Loc . t = " % field0 " ; external loc_of_class_sig_item : class_sig_item -> Loc . t = " % field0 " ; external loc_of_class_expr : class_expr -> Loc . t = " % field0 " ; external loc_of_class_str_item : class_str_item -> Loc . t = " % field0 " ; external loc_of_with_constr : with_constr -> Loc . t = " % field0 " ; external loc_of_binding : binding -> Loc . t = " % field0 " ; external loc_of_rec_binding : rec_binding -> Loc . t = " % field0 " ; external loc_of_module_binding : module_binding -> Loc . t = " % field0 " ; external loc_of_match_case : match_case -> Loc . t = " % field0 " ; external loc_of_ident : ident -> Loc . t = " % field0 " ; value ghost = Loc . ghost ; value rec is_module_longident = fun [ Ast . IdAcc _ _ i -> is_module_longident i | Ast . IdApp _ i1 i2 -> ( is_module_longident i1 ) && ( is_module_longident i2 ) | Ast . IdUid _ _ -> True | _ -> False ] ; value ident_of_expr = let error ( ) = invalid_arg " ident_of_expr : this expression is not an identifier " in let rec self = fun [ Ast . ExApp _loc e1 e2 -> Ast . IdApp _loc ( self e1 ) ( self e2 ) | Ast . ExAcc _loc e1 e2 -> Ast . IdAcc _loc ( self e1 ) ( self e2 ) | Ast . ExId _ ( Ast . IdLid _ _ ) -> error ( ) | Ast . ExId _ i -> if is_module_longident i then i else error ( ) | _ -> error ( ) ] in fun [ Ast . ExId _ i -> i | Ast . ExApp _ _ _ -> error ( ) | t -> self t ] ; value ident_of_ctyp = let error ( ) = invalid_arg " ident_of_ctyp : this type is not an identifier " in let rec self = fun [ Ast . TyApp _loc t1 t2 -> Ast . IdApp _loc ( self t1 ) ( self t2 ) | Ast . TyId _ ( Ast . IdLid _ _ ) -> error ( ) | Ast . TyId _ i -> if is_module_longident i then i else error ( ) | _ -> error ( ) ] in fun [ Ast . TyId _ i -> i | t -> self t ] ; value ident_of_patt = let error ( ) = invalid_arg " ident_of_patt : this pattern is not an identifier " in let rec self = fun [ Ast . PaApp _loc p1 p2 -> Ast . IdApp _loc ( self p1 ) ( self p2 ) | Ast . PaId _ ( Ast . IdLid _ _ ) -> error ( ) | Ast . PaId _ i -> if is_module_longident i then i else error ( ) | _ -> error ( ) ] in fun [ Ast . PaId _ i -> i | p -> self p ] ; value rec is_irrefut_patt = fun [ Ast . PaId _ ( Ast . IdLid _ _ ) -> True | Ast . PaId _ ( Ast . IdUid _ " ( ) " ) -> True | Ast . PaAny _ -> True | Ast . PaNil _ -> True | Ast . PaAli _ x y -> ( is_irrefut_patt x ) && ( is_irrefut_patt y ) | Ast . PaRec _ p -> is_irrefut_patt p | Ast . PaEq _ _ p -> is_irrefut_patt p | Ast . PaSem _ p1 p2 -> ( is_irrefut_patt p1 ) && ( is_irrefut_patt p2 ) | Ast . PaCom _ p1 p2 -> ( is_irrefut_patt p1 ) && ( is_irrefut_patt p2 ) | Ast . PaOrp _ p1 p2 -> ( is_irrefut_patt p1 ) && ( is_irrefut_patt p2 ) | Ast . PaApp _ p1 p2 -> ( is_irrefut_patt p1 ) && ( is_irrefut_patt p2 ) | Ast . PaTyc _ p _ -> is_irrefut_patt p | Ast . PaTup _ pl -> is_irrefut_patt pl | Ast . PaOlb _ _ ( Ast . PaNil _ ) -> True | Ast . PaOlb _ _ p -> is_irrefut_patt p | Ast . PaOlbi _ _ p _ -> is_irrefut_patt p | Ast . PaLab _ _ ( Ast . PaNil _ ) -> True | Ast . PaLab _ _ p -> is_irrefut_patt p | Ast . PaLaz _ p -> is_irrefut_patt p | Ast . PaId _ _ -> False | Ast . PaVrn _ _ | Ast . PaStr _ _ | Ast . PaRng _ _ _ | Ast . PaFlo _ _ | Ast . PaNativeInt _ _ | Ast . PaInt64 _ _ | Ast . PaInt32 _ _ | Ast . PaInt _ _ | Ast . PaChr _ _ | Ast . PaTyp _ _ | Ast . PaArr _ _ | Ast . PaAnt _ _ -> False ] ; value rec is_constructor = fun [ Ast . IdAcc _ _ i -> is_constructor i | Ast . IdUid _ _ -> True | Ast . IdLid _ _ | Ast . IdApp _ _ _ -> False | Ast . IdAnt _ _ -> assert False ] ; value is_patt_constructor = fun [ Ast . PaId _ i -> is_constructor i | Ast . PaVrn _ _ -> True | _ -> False ] ; value rec is_expr_constructor = fun [ Ast . ExId _ i -> is_constructor i | Ast . ExAcc _ e1 e2 -> ( is_expr_constructor e1 ) && ( is_expr_constructor e2 ) | Ast . ExVrn _ _ -> True | _ -> False ] ; value rec tyOr_of_list = fun [ [ ] -> Ast . TyNil ghost | [ t ] -> t | [ t :: ts ] -> let _loc = loc_of_ctyp t in Ast . TyOr _loc t ( tyOr_of_list ts ) ] ; value rec tyAnd_of_list = fun [ [ ] -> Ast . TyNil ghost | [ t ] -> t | [ t :: ts ] -> let _loc = loc_of_ctyp t in Ast . TyAnd _loc t ( tyAnd_of_list ts ) ] ; value rec tySem_of_list = fun [ [ ] -> Ast . TyNil ghost | [ t ] -> t | [ t :: ts ] -> let _loc = loc_of_ctyp t in Ast . TySem _loc t ( tySem_of_list ts ) ] ; value rec tyCom_of_list = fun [ [ ] -> Ast . TyNil ghost | [ t ] -> t | [ t :: ts ] -> let _loc = loc_of_ctyp t in Ast . TyCom _loc t ( tyCom_of_list ts ) ] ; value rec tyAmp_of_list = fun [ [ ] -> Ast . TyNil ghost | [ t ] -> t | [ t :: ts ] -> let _loc = loc_of_ctyp t in Ast . TyAmp _loc t ( tyAmp_of_list ts ) ] ; value rec tySta_of_list = fun [ [ ] -> Ast . TyNil ghost | [ t ] -> t | [ t :: ts ] -> let _loc = loc_of_ctyp t in Ast . TySta _loc t ( tySta_of_list ts ) ] ; value rec stSem_of_list = fun [ [ ] -> Ast . StNil ghost | [ t ] -> t | [ t :: ts ] -> let _loc = loc_of_str_item t in Ast . StSem _loc t ( stSem_of_list ts ) ] ; value rec sgSem_of_list = fun [ [ ] -> Ast . SgNil ghost | [ t ] -> t | [ t :: ts ] -> let _loc = loc_of_sig_item t in Ast . SgSem _loc t ( sgSem_of_list ts ) ] ; value rec biAnd_of_list = fun [ [ ] -> Ast . BiNil ghost | [ b ] -> b | [ b :: bs ] -> let _loc = loc_of_binding b in Ast . BiAnd _loc b ( biAnd_of_list bs ) ] ; value rec rbSem_of_list = fun [ [ ] -> Ast . RbNil ghost | [ b ] -> b | [ b :: bs ] -> let _loc = loc_of_rec_binding b in Ast . RbSem _loc b ( rbSem_of_list bs ) ] ; value rec wcAnd_of_list = fun [ [ ] -> Ast . WcNil ghost | [ w ] -> w | [ w :: ws ] -> let _loc = loc_of_with_constr w in Ast . WcAnd _loc w ( wcAnd_of_list ws ) ] ; value rec idAcc_of_list = fun [ [ ] -> assert False | [ i ] -> i | [ i :: is ] -> let _loc = loc_of_ident i in Ast . IdAcc _loc i ( idAcc_of_list is ) ] ; value rec idApp_of_list = fun [ [ ] -> assert False | [ i ] -> i | [ i :: is ] -> let _loc = loc_of_ident i in Ast . IdApp _loc i ( idApp_of_list is ) ] ; value rec mcOr_of_list = fun [ [ ] -> Ast . McNil ghost | [ x ] -> x | [ x :: xs ] -> let _loc = loc_of_match_case x in Ast . McOr _loc x ( mcOr_of_list xs ) ] ; value rec mbAnd_of_list = fun [ [ ] -> Ast . MbNil ghost | [ x ] -> x | [ x :: xs ] -> let _loc = loc_of_module_binding x in Ast . MbAnd _loc x ( mbAnd_of_list xs ) ] ; value rec meApp_of_list = fun [ [ ] -> assert False | [ x ] -> x | [ x :: xs ] -> let _loc = loc_of_module_expr x in Ast . MeApp _loc x ( meApp_of_list xs ) ] ; value rec ceAnd_of_list = fun [ [ ] -> Ast . CeNil ghost | [ x ] -> x | [ x :: xs ] -> let _loc = loc_of_class_expr x in Ast . CeAnd _loc x ( ceAnd_of_list xs ) ] ; value rec ctAnd_of_list = fun [ [ ] -> Ast . CtNil ghost | [ x ] -> x | [ x :: xs ] -> let _loc = loc_of_class_type x in Ast . CtAnd _loc x ( ctAnd_of_list xs ) ] ; value rec cgSem_of_list = fun [ [ ] -> Ast . CgNil ghost | [ x ] -> x | [ x :: xs ] -> let _loc = loc_of_class_sig_item x in Ast . CgSem _loc x ( cgSem_of_list xs ) ] ; value rec crSem_of_list = fun [ [ ] -> Ast . CrNil ghost | [ x ] -> x | [ x :: xs ] -> let _loc = loc_of_class_str_item x in Ast . CrSem _loc x ( crSem_of_list xs ) ] ; value rec paSem_of_list = fun [ [ ] -> Ast . PaNil ghost | [ x ] -> x | [ x :: xs ] -> let _loc = loc_of_patt x in Ast . PaSem _loc x ( paSem_of_list xs ) ] ; value rec paCom_of_list = fun [ [ ] -> Ast . PaNil ghost | [ x ] -> x | [ x :: xs ] -> let _loc = loc_of_patt x in Ast . PaCom _loc x ( paCom_of_list xs ) ] ; value rec exSem_of_list = fun [ [ ] -> Ast . ExNil ghost | [ x ] -> x | [ x :: xs ] -> let _loc = loc_of_expr x in Ast . ExSem _loc x ( exSem_of_list xs ) ] ; value rec exCom_of_list = fun [ [ ] -> Ast . ExNil ghost | [ x ] -> x | [ x :: xs ] -> let _loc = loc_of_expr x in Ast . ExCom _loc x ( exCom_of_list xs ) ] ; value ty_of_stl = fun [ ( _loc , s , [ ] ) -> Ast . TyId _loc ( Ast . IdUid _loc s ) | ( _loc , s , tl ) -> Ast . TyOf _loc ( Ast . TyId _loc ( Ast . IdUid _loc s ) ) ( tyAnd_of_list tl ) ] ; value ty_of_sbt = fun [ ( _loc , s , True , t ) -> Ast . TyCol _loc ( Ast . TyId _loc ( Ast . IdLid _loc s ) ) ( Ast . TyMut _loc t ) | ( _loc , s , False , t ) -> Ast . TyCol _loc ( Ast . TyId _loc ( Ast . IdLid _loc s ) ) t ] ; value bi_of_pe ( p , e ) = let _loc = loc_of_patt p in Ast . BiEq _loc p e ; value sum_type_of_list l = tyOr_of_list ( List . map ty_of_stl l ) ; value record_type_of_list l = tySem_of_list ( List . map ty_of_sbt l ) ; value binding_of_pel l = biAnd_of_list ( List . map bi_of_pe l ) ; value rec pel_of_binding = fun [ Ast . BiAnd _ b1 b2 -> ( pel_of_binding b1 ) @ ( pel_of_binding b2 ) | Ast . BiEq _ p e -> [ ( p , e ) ] | _ -> assert False ] ; value rec list_of_binding x acc = match x with [ Ast . BiAnd _ b1 b2 -> list_of_binding b1 ( list_of_binding b2 acc ) | t -> [ t :: acc ] ] ; value rec list_of_rec_binding x acc = match x with [ Ast . RbSem _ b1 b2 -> list_of_rec_binding b1 ( list_of_rec_binding b2 acc ) | t -> [ t :: acc ] ] ; value rec list_of_with_constr x acc = match x with [ Ast . WcAnd _ w1 w2 -> list_of_with_constr w1 ( list_of_with_constr w2 acc ) | t -> [ t :: acc ] ] ; value rec list_of_ctyp x acc = match x with [ Ast . TyNil _ -> acc | Ast . TyAmp _ x y | Ast . TyCom _ x y | Ast . TySta _ x y | Ast . TySem _ x y | Ast . TyAnd _ x y | Ast . TyOr _ x y -> list_of_ctyp x ( list_of_ctyp y acc ) | x -> [ x :: acc ] ] ; value rec list_of_patt x acc = match x with [ Ast . PaNil _ -> acc | Ast . PaCom _ x y | Ast . PaSem _ x y -> list_of_patt x ( list_of_patt y acc ) | x -> [ x :: acc ] ] ; value rec list_of_expr x acc = match x with [ Ast . ExNil _ -> acc | Ast . ExCom _ x y | Ast . ExSem _ x y -> list_of_expr x ( list_of_expr y acc ) | x -> [ x :: acc ] ] ; value rec list_of_str_item x acc = match x with [ Ast . StNil _ -> acc | Ast . StSem _ x y -> list_of_str_item x ( list_of_str_item y acc ) | x -> [ x :: acc ] ] ; value rec list_of_sig_item x acc = match x with [ Ast . SgNil _ -> acc | Ast . SgSem _ x y -> list_of_sig_item x ( list_of_sig_item y acc ) | x -> [ x :: acc ] ] ; value rec list_of_class_sig_item x acc = match x with [ Ast . CgNil _ -> acc | Ast . CgSem _ x y -> list_of_class_sig_item x ( list_of_class_sig_item y acc ) | x -> [ x :: acc ] ] ; value rec list_of_class_str_item x acc = match x with [ Ast . CrNil _ -> acc | Ast . CrSem _ x y -> list_of_class_str_item x ( list_of_class_str_item y acc ) | x -> [ x :: acc ] ] ; value rec list_of_class_type x acc = match x with [ Ast . CtAnd _ x y -> list_of_class_type x ( list_of_class_type y acc ) | x -> [ x :: acc ] ] ; value rec list_of_class_expr x acc = match x with [ Ast . CeAnd _ x y -> list_of_class_expr x ( list_of_class_expr y acc ) | x -> [ x :: acc ] ] ; value rec list_of_module_expr x acc = match x with [ Ast . MeApp _ x y -> list_of_module_expr x ( list_of_module_expr y acc ) | x -> [ x :: acc ] ] ; value rec list_of_match_case x acc = match x with [ Ast . McNil _ -> acc | Ast . McOr _ x y -> list_of_match_case x ( list_of_match_case y acc ) | x -> [ x :: acc ] ] ; value rec list_of_ident x acc = match x with [ Ast . IdAcc _ x y | Ast . IdApp _ x y -> list_of_ident x ( list_of_ident y acc ) | x -> [ x :: acc ] ] ; value rec list_of_module_binding x acc = match x with [ Ast . MbAnd _ x y -> list_of_module_binding x ( list_of_module_binding y acc ) | x -> [ x :: acc ] ] ; module Meta = struct module type META_LOC = sig value meta_loc_patt : Loc . t -> Loc . t -> Ast . patt ; value meta_loc_expr : Loc . t -> Loc . t -> Ast . expr ; end ; module MetaLoc = struct value meta_loc_patt _loc location = let ( a , b , c , d , e , f , g , h ) = Loc . to_tuple location in Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Loc " ) ( Ast . IdLid _loc " of_tuple " ) ) ) ( Ast . PaTup _loc ( Ast . PaCom _loc ( Ast . PaStr _loc ( Ast . safe_string_escaped a ) ) ( Ast . PaCom _loc ( Ast . PaCom _loc ( Ast . PaCom _loc ( Ast . PaCom _loc ( Ast . PaCom _loc ( Ast . PaCom _loc ( Ast . PaInt _loc ( string_of_int b ) ) ( Ast . PaInt _loc ( string_of_int c ) ) ) ( Ast . PaInt _loc ( string_of_int d ) ) ) ( Ast . PaInt _loc ( string_of_int e ) ) ) ( Ast . PaInt _loc ( string_of_int f ) ) ) ( Ast . PaInt _loc ( string_of_int g ) ) ) ( if h then Ast . PaId _loc ( Ast . IdUid _loc " True " ) else Ast . PaId _loc ( Ast . IdUid _loc " False " ) ) ) ) ) ; value meta_loc_expr _loc location = let ( a , b , c , d , e , f , g , h ) = Loc . to_tuple location in Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Loc " ) ( Ast . IdLid _loc " of_tuple " ) ) ) ( Ast . ExTup _loc ( Ast . ExCom _loc ( Ast . ExStr _loc ( Ast . safe_string_escaped a ) ) ( Ast . ExCom _loc ( Ast . ExCom _loc ( Ast . ExCom _loc ( Ast . ExCom _loc ( Ast . ExCom _loc ( Ast . ExCom _loc ( Ast . ExInt _loc ( string_of_int b ) ) ( Ast . ExInt _loc ( string_of_int c ) ) ) ( Ast . ExInt _loc ( string_of_int d ) ) ) ( Ast . ExInt _loc ( string_of_int e ) ) ) ( Ast . ExInt _loc ( string_of_int f ) ) ) ( Ast . ExInt _loc ( string_of_int g ) ) ) ( if h then Ast . ExId _loc ( Ast . IdUid _loc " True " ) else Ast . ExId _loc ( Ast . IdUid _loc " False " ) ) ) ) ) ; end ; module MetaGhostLoc = struct value meta_loc_patt _loc _ = Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Loc " ) ( Ast . IdLid _loc " ghost " ) ) ; value meta_loc_expr _loc _ = Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Loc " ) ( Ast . IdLid _loc " ghost " ) ) ; end ; module MetaLocVar = struct value meta_loc_patt _loc _ = Ast . PaId _loc ( Ast . IdLid _loc Loc . name . val ) ; value meta_loc_expr _loc _ = Ast . ExId _loc ( Ast . IdLid _loc Loc . name . val ) ; end ; module Make ( MetaLoc : META_LOC ) = struct open MetaLoc ; value meta_loc = meta_loc_expr ; module Expr = struct value meta_string _loc s = Ast . ExStr _loc s ; value meta_int _loc s = Ast . ExInt _loc s ; value meta_float _loc s = Ast . ExFlo _loc s ; value meta_char _loc s = Ast . ExChr _loc s ; value meta_bool _loc = fun [ False -> Ast . ExId _loc ( Ast . IdUid _loc " False " ) | True -> Ast . ExId _loc ( Ast . IdUid _loc " True " ) ] ; value rec meta_list mf_a _loc = fun [ [ ] -> Ast . ExId _loc ( Ast . IdUid _loc " [ ] " ) | [ x :: xs ] -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdUid _loc " " ) ) :: ( mf_a _loc x ) ) ( meta_list mf_a _loc xs ) ] ; value rec meta_binding _loc = fun [ Ast . BiAnt x0 x1 -> Ast . ExAnt x0 x1 | Ast . BiEq x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " BiEq " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . BiAnd x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " BiAnd " ) ) ) ( meta_loc _loc x0 ) ) ( meta_binding _loc x1 ) ) ( meta_binding _loc x2 ) | Ast . BiNil x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " BiNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_class_expr _loc = fun [ Ast . CeAnt x0 x1 -> Ast . ExAnt x0 x1 | Ast . CeEq x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeEq " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_expr _loc x1 ) ) ( meta_class_expr _loc x2 ) | Ast . CeAnd x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeAnd " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_expr _loc x1 ) ) ( meta_class_expr _loc x2 ) | Ast . CeTyc x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeTyc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_expr _loc x1 ) ) ( meta_class_type _loc x2 ) | Ast . CeStr x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeStr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_class_str_item _loc x2 ) | Ast . CeLet x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeLet " ) ) ) ( meta_loc _loc x0 ) ) ( meta_rec_flag _loc x1 ) ) ( meta_binding _loc x2 ) ) ( meta_class_expr _loc x3 ) | Ast . CeFun x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeFun " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_class_expr _loc x2 ) | Ast . CeCon x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeCon " ) ) ) ( meta_loc _loc x0 ) ) ( meta_virtual_flag _loc x1 ) ) ( meta_ident _loc x2 ) ) ( meta_ctyp _loc x3 ) | Ast . CeApp x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeApp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . CeNil x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_class_sig_item _loc = fun [ Ast . CgAnt x0 x1 -> Ast . ExAnt x0 x1 | Ast . CgVir x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CgVir " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_private_flag _loc x2 ) ) ( meta_ctyp _loc x3 ) | Ast . CgVal x0 x1 x2 x3 x4 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CgVal " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_mutable_flag _loc x2 ) ) ( meta_virtual_flag _loc x3 ) ) ( meta_ctyp _loc x4 ) | Ast . CgMth x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CgMth " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_private_flag _loc x2 ) ) ( meta_ctyp _loc x3 ) | Ast . CgInh x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CgInh " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_type _loc x1 ) | Ast . CgSem x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CgSem " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_sig_item _loc x1 ) ) ( meta_class_sig_item _loc x2 ) | Ast . CgCtr x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CgCtr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . CgNil x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CgNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_class_str_item _loc = fun [ Ast . CrAnt x0 x1 -> Ast . ExAnt x0 x1 | Ast . CrVvr x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrVvr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_mutable_flag _loc x2 ) ) ( meta_ctyp _loc x3 ) | Ast . CrVir x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrVir " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_private_flag _loc x2 ) ) ( meta_ctyp _loc x3 ) | Ast . CrVal x0 x1 x2 x3 x4 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrVal " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_override_flag _loc x2 ) ) ( meta_mutable_flag _loc x3 ) ) ( meta_expr _loc x4 ) | Ast . CrMth x0 x1 x2 x3 x4 x5 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrMth " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_override_flag _loc x2 ) ) ( meta_private_flag _loc x3 ) ) ( meta_expr _loc x4 ) ) ( meta_ctyp _loc x5 ) | Ast . CrIni x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrIni " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) | Ast . CrInh x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrInh " ) ) ) ( meta_loc _loc x0 ) ) ( meta_override_flag _loc x1 ) ) ( meta_class_expr _loc x2 ) ) ( meta_string _loc x3 ) | Ast . CrCtr x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrCtr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . CrSem x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrSem " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_str_item _loc x1 ) ) ( meta_class_str_item _loc x2 ) | Ast . CrNil x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_class_type _loc = fun [ Ast . CtAnt x0 x1 -> Ast . ExAnt x0 x1 | Ast . CtEq x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CtEq " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_type _loc x1 ) ) ( meta_class_type _loc x2 ) | Ast . CtCol x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CtCol " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_type _loc x1 ) ) ( meta_class_type _loc x2 ) | Ast . CtAnd x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CtAnd " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_type _loc x1 ) ) ( meta_class_type _loc x2 ) | Ast . CtSig x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CtSig " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_class_sig_item _loc x2 ) | Ast . CtFun x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CtFun " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_class_type _loc x2 ) | Ast . CtCon x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CtCon " ) ) ) ( meta_loc _loc x0 ) ) ( meta_virtual_flag _loc x1 ) ) ( meta_ident _loc x2 ) ) ( meta_ctyp _loc x3 ) | Ast . CtNil x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CtNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_ctyp _loc = fun [ Ast . TyAnt x0 x1 -> Ast . ExAnt x0 x1 | Ast . TyPkg x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyPkg " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_type _loc x1 ) | Ast . TyOfAmp x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyOfAmp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyAmp x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyAmp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyVrnInfSup x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyVrnInfSup " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyVrnInf x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyVrnInf " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . TyVrnSup x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyVrnSup " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . TyVrnEq x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyVrnEq " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . TySta x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TySta " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyTup x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyTup " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . TyMut x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyMut " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . TyPrv x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyPrv " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . TyOr x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyOr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyAnd x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyAnd " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyOf x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyOf " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TySum x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TySum " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . TyCom x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyCom " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TySem x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TySem " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyCol x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyCol " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyRec x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyRec " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . TyVrn x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyVrn " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . TyQuM x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyQuM " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . TyQuP x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyQuP " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . TyQuo x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyQuo " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . TyPol x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyPol " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyOlb x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyOlb " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyObj x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyObj " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_row_var_flag _loc x2 ) | Ast . TyDcl x0 x1 x2 x3 x4 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyDcl " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_list meta_ctyp _loc x2 ) ) ( meta_ctyp _loc x3 ) ) ( meta_list ( fun _loc ( x1 , x2 ) -> Ast . ExTup _loc ( Ast . ExCom _loc ( meta_ctyp _loc x1 ) ( meta_ctyp _loc x2 ) ) ) _loc x4 ) | Ast . TyMan x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyMan " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyId x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyId " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . TyLab x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyLab " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyCls x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyCls " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . TyArr x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyArr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyApp x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyApp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyAny x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyAny " ) ) ) ( meta_loc _loc x0 ) | Ast . TyAli x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyAli " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyNil x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_direction_flag _loc = fun [ Ast . DiAnt x0 -> Ast . ExAnt _loc x0 | Ast . DiDownto -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " DiDownto " ) ) | Ast . DiTo -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " DiTo " ) ) ] and meta_expr _loc = fun [ Ast . ExPkg x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExPkg " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_expr _loc x1 ) | Ast . ExFUN x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExFUN " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExOpI x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExOpI " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExWhi x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExWhi " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExVrn x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExVrn " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . ExTyc x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExTyc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . ExCom x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExCom " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExTup x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExTup " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) | Ast . ExTry x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExTry " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_match_case _loc x2 ) | Ast . ExStr x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExStr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . ExSte x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExSte " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExSnd x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExSnd " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_string _loc x2 ) | Ast . ExSeq x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExSeq " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) | Ast . ExRec x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExRec " ) ) ) ( meta_loc _loc x0 ) ) ( meta_rec_binding _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExOvr x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExOvr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_rec_binding _loc x1 ) | Ast . ExOlb x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExOlb " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExObj x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExObj " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_class_str_item _loc x2 ) | Ast . ExNew x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExNew " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . ExMat x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExMat " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_match_case _loc x2 ) | Ast . ExLmd x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExLmd " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_expr _loc x2 ) ) ( meta_expr _loc x3 ) | Ast . ExLet x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExLet " ) ) ) ( meta_loc _loc x0 ) ) ( meta_rec_flag _loc x1 ) ) ( meta_binding _loc x2 ) ) ( meta_expr _loc x3 ) | Ast . ExLaz x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExLaz " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) | Ast . ExLab x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExLab " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExNativeInt x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExNativeInt " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . ExInt64 x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExInt64 " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . ExInt32 x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExInt32 " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . ExInt x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExInt " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . ExIfe x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExIfe " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) ) ( meta_expr _loc x3 ) | Ast . ExFun x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExFun " ) ) ) ( meta_loc _loc x0 ) ) ( meta_match_case _loc x1 ) | Ast . ExFor x0 x1 x2 x3 x4 x5 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExFor " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_expr _loc x2 ) ) ( meta_expr _loc x3 ) ) ( meta_direction_flag _loc x4 ) ) ( meta_expr _loc x5 ) | Ast . ExFlo x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExFlo " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . ExCoe x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExCoe " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_ctyp _loc x2 ) ) ( meta_ctyp _loc x3 ) | Ast . ExChr x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExChr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . ExAss x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExAss " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExAsr x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExAsr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) | Ast . ExAsf x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExAsf " ) ) ) ( meta_loc _loc x0 ) | Ast . ExSem x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExSem " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExArr x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExArr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) | Ast . ExAre x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExAre " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExApp x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExApp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExAnt x0 x1 -> Ast . ExAnt x0 x1 | Ast . ExAcc x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExAcc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExId x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExId " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . ExNil x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_ident _loc = fun [ Ast . IdAnt x0 x1 -> Ast . ExAnt x0 x1 | Ast . IdUid x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " IdUid " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . IdLid x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " IdLid " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . IdApp x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " IdApp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) ) ( meta_ident _loc x2 ) | Ast . IdAcc x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " IdAcc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) ) ( meta_ident _loc x2 ) ] and meta_match_case _loc = fun [ Ast . McAnt x0 x1 -> Ast . ExAnt x0 x1 | Ast . McArr x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " McArr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_expr _loc x2 ) ) ( meta_expr _loc x3 ) | Ast . McOr x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " McOr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_match_case _loc x1 ) ) ( meta_match_case _loc x2 ) | Ast . McNil x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " McNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_meta_bool _loc = fun [ Ast . BAnt x0 -> Ast . ExAnt _loc x0 | Ast . BFalse -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " BFalse " ) ) | Ast . BTrue -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " BTrue " ) ) ] and meta_meta_list mf_a _loc = fun [ Ast . LAnt x0 -> Ast . ExAnt _loc x0 | Ast . LCons x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " LCons " ) ) ) ( mf_a _loc x0 ) ) ( meta_meta_list mf_a _loc x1 ) | Ast . LNil -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " LNil " ) ) ] and meta_meta_option mf_a _loc = fun [ Ast . OAnt x0 -> Ast . ExAnt _loc x0 | Ast . OSome x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " OSome " ) ) ) ( mf_a _loc x0 ) | Ast . ONone -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ONone " ) ) ] and meta_module_binding _loc = fun [ Ast . MbAnt x0 x1 -> Ast . ExAnt x0 x1 | Ast . MbCol x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MbCol " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_type _loc x2 ) | Ast . MbColEq x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MbColEq " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_type _loc x2 ) ) ( meta_module_expr _loc x3 ) | Ast . MbAnd x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MbAnd " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_binding _loc x1 ) ) ( meta_module_binding _loc x2 ) | Ast . MbNil x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MbNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_module_expr _loc = fun [ Ast . MeAnt x0 x1 -> Ast . ExAnt x0 x1 | Ast . MePkg x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MePkg " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) | Ast . MeTyc x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MeTyc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_expr _loc x1 ) ) ( meta_module_type _loc x2 ) | Ast . MeStr x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MeStr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_str_item _loc x1 ) | Ast . MeFun x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MeFun " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_type _loc x2 ) ) ( meta_module_expr _loc x3 ) | Ast . MeApp x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MeApp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_expr _loc x1 ) ) ( meta_module_expr _loc x2 ) | Ast . MeId x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MeId " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . MeNil x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MeNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_module_type _loc = fun [ Ast . MtAnt x0 x1 -> Ast . ExAnt x0 x1 | Ast . MtOf x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MtOf " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_expr _loc x1 ) | Ast . MtWit x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MtWit " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_type _loc x1 ) ) ( meta_with_constr _loc x2 ) | Ast . MtSig x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MtSig " ) ) ) ( meta_loc _loc x0 ) ) ( meta_sig_item _loc x1 ) | Ast . MtQuo x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MtQuo " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . MtFun x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MtFun " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_type _loc x2 ) ) ( meta_module_type _loc x3 ) | Ast . MtId x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MtId " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . MtNil x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MtNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_mutable_flag _loc = fun [ Ast . MuAnt x0 -> Ast . ExAnt _loc x0 | Ast . MuNil -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MuNil " ) ) | Ast . MuMutable -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MuMutable " ) ) ] and meta_override_flag _loc = fun [ Ast . OvAnt x0 -> Ast . ExAnt _loc x0 | Ast . OvNil -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " OvNil " ) ) | Ast . OvOverride -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " OvOverride " ) ) ] and meta_patt _loc = fun [ Ast . PaLaz x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaLaz " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) | Ast . PaVrn x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaVrn " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . PaTyp x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaTyp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . PaTyc x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaTyc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . PaTup x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaTup " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) | Ast . PaStr x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaStr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . PaEq x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaEq " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaRec x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaRec " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) | Ast . PaRng x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaRng " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaOrp x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaOrp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaOlbi x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaOlbi " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_patt _loc x2 ) ) ( meta_expr _loc x3 ) | Ast . PaOlb x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaOlb " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaLab x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaLab " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaFlo x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaFlo " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . PaNativeInt x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaNativeInt " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . PaInt64 x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaInt64 " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . PaInt32 x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaInt32 " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . PaInt x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaInt " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . PaChr x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaChr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . PaSem x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaSem " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaCom x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaCom " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaArr x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaArr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) | Ast . PaApp x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaApp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaAny x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaAny " ) ) ) ( meta_loc _loc x0 ) | Ast . PaAnt x0 x1 -> Ast . ExAnt x0 x1 | Ast . PaAli x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaAli " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaId x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaId " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . PaNil x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_private_flag _loc = fun [ Ast . PrAnt x0 -> Ast . ExAnt _loc x0 | Ast . PrNil -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PrNil " ) ) | Ast . PrPrivate -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PrPrivate " ) ) ] and meta_rec_binding _loc = fun [ Ast . RbAnt x0 x1 -> Ast . ExAnt x0 x1 | Ast . RbEq x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " RbEq " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . RbSem x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " RbSem " ) ) ) ( meta_loc _loc x0 ) ) ( meta_rec_binding _loc x1 ) ) ( meta_rec_binding _loc x2 ) | Ast . RbNil x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " RbNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_rec_flag _loc = fun [ Ast . ReAnt x0 -> Ast . ExAnt _loc x0 | Ast . ReNil -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ReNil " ) ) | Ast . ReRecursive -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ReRecursive " ) ) ] and meta_row_var_flag _loc = fun [ Ast . RvAnt x0 -> Ast . ExAnt _loc x0 | Ast . RvNil -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " RvNil " ) ) | Ast . RvRowVar -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " RvRowVar " ) ) ] and meta_sig_item _loc = fun [ Ast . SgAnt x0 x1 -> Ast . ExAnt x0 x1 | Ast . SgVal x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgVal " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . SgTyp x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgTyp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . SgOpn x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgOpn " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . SgMty x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgMty " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_type _loc x2 ) | Ast . SgRecMod x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgRecMod " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_binding _loc x1 ) | Ast . SgMod x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgMod " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_type _loc x2 ) | Ast . SgInc x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgInc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_type _loc x1 ) | Ast . SgExt x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgExt " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_ctyp _loc x2 ) ) ( meta_meta_list meta_string _loc x3 ) | Ast . SgExc x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgExc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . SgDir x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgDir " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . SgSem x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgSem " ) ) ) ( meta_loc _loc x0 ) ) ( meta_sig_item _loc x1 ) ) ( meta_sig_item _loc x2 ) | Ast . SgClt x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgClt " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_type _loc x1 ) | Ast . SgCls x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgCls " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_type _loc x1 ) | Ast . SgNil x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_str_item _loc = fun [ Ast . StAnt x0 x1 -> Ast . ExAnt x0 x1 | Ast . StVal x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StVal " ) ) ) ( meta_loc _loc x0 ) ) ( meta_rec_flag _loc x1 ) ) ( meta_binding _loc x2 ) | Ast . StTyp x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StTyp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . StOpn x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StOpn " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . StMty x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StMty " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_type _loc x2 ) | Ast . StRecMod x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StRecMod " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_binding _loc x1 ) | Ast . StMod x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StMod " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_expr _loc x2 ) | Ast . StInc x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StInc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_expr _loc x1 ) | Ast . StExt x0 x1 x2 x3 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StExt " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_ctyp _loc x2 ) ) ( meta_meta_list meta_string _loc x3 ) | Ast . StExp x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StExp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) | Ast . StExc x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StExc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_meta_option meta_ident _loc x2 ) | Ast . StDir x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StDir " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . StSem x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StSem " ) ) ) ( meta_loc _loc x0 ) ) ( meta_str_item _loc x1 ) ) ( meta_str_item _loc x2 ) | Ast . StClt x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StClt " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_type _loc x1 ) | Ast . StCls x0 x1 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StCls " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_expr _loc x1 ) | Ast . StNil x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_virtual_flag _loc = fun [ Ast . ViAnt x0 -> Ast . ExAnt _loc x0 | Ast . ViNil -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ViNil " ) ) | Ast . ViVirtual -> Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ViVirtual " ) ) ] and meta_with_constr _loc = fun [ Ast . WcAnt x0 x1 -> Ast . ExAnt x0 x1 | Ast . WcAnd x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " WcAnd " ) ) ) ( meta_loc _loc x0 ) ) ( meta_with_constr _loc x1 ) ) ( meta_with_constr _loc x2 ) | Ast . WcMoS x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " WcMoS " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) ) ( meta_ident _loc x2 ) | Ast . WcTyS x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " WcTyS " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . WcMod x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " WcMod " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) ) ( meta_ident _loc x2 ) | Ast . WcTyp x0 x1 x2 -> Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " WcTyp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . WcNil x0 -> Ast . ExApp _loc ( Ast . ExId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " WcNil " ) ) ) ( meta_loc _loc x0 ) ] ; end ; value meta_loc = meta_loc_patt ; module Patt = struct value meta_string _loc s = Ast . PaStr _loc s ; value meta_int _loc s = Ast . PaInt _loc s ; value meta_float _loc s = Ast . PaFlo _loc s ; value meta_char _loc s = Ast . PaChr _loc s ; value meta_bool _loc = fun [ False -> Ast . PaId _loc ( Ast . IdUid _loc " False " ) | True -> Ast . PaId _loc ( Ast . IdUid _loc " True " ) ] ; value rec meta_list mf_a _loc = fun [ [ ] -> Ast . PaId _loc ( Ast . IdUid _loc " [ ] " ) | [ x :: xs ] -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdUid _loc " " ) ) :: ( mf_a _loc x ) ) ( meta_list mf_a _loc xs ) ] ; value rec meta_binding _loc = fun [ Ast . BiAnt x0 x1 -> Ast . PaAnt x0 x1 | Ast . BiEq x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " BiEq " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . BiAnd x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " BiAnd " ) ) ) ( meta_loc _loc x0 ) ) ( meta_binding _loc x1 ) ) ( meta_binding _loc x2 ) | Ast . BiNil x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " BiNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_class_expr _loc = fun [ Ast . CeAnt x0 x1 -> Ast . PaAnt x0 x1 | Ast . CeEq x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeEq " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_expr _loc x1 ) ) ( meta_class_expr _loc x2 ) | Ast . CeAnd x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeAnd " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_expr _loc x1 ) ) ( meta_class_expr _loc x2 ) | Ast . CeTyc x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeTyc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_expr _loc x1 ) ) ( meta_class_type _loc x2 ) | Ast . CeStr x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeStr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_class_str_item _loc x2 ) | Ast . CeLet x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeLet " ) ) ) ( meta_loc _loc x0 ) ) ( meta_rec_flag _loc x1 ) ) ( meta_binding _loc x2 ) ) ( meta_class_expr _loc x3 ) | Ast . CeFun x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeFun " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_class_expr _loc x2 ) | Ast . CeCon x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeCon " ) ) ) ( meta_loc _loc x0 ) ) ( meta_virtual_flag _loc x1 ) ) ( meta_ident _loc x2 ) ) ( meta_ctyp _loc x3 ) | Ast . CeApp x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeApp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . CeNil x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CeNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_class_sig_item _loc = fun [ Ast . CgAnt x0 x1 -> Ast . PaAnt x0 x1 | Ast . CgVir x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CgVir " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_private_flag _loc x2 ) ) ( meta_ctyp _loc x3 ) | Ast . CgVal x0 x1 x2 x3 x4 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CgVal " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_mutable_flag _loc x2 ) ) ( meta_virtual_flag _loc x3 ) ) ( meta_ctyp _loc x4 ) | Ast . CgMth x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CgMth " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_private_flag _loc x2 ) ) ( meta_ctyp _loc x3 ) | Ast . CgInh x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CgInh " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_type _loc x1 ) | Ast . CgSem x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CgSem " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_sig_item _loc x1 ) ) ( meta_class_sig_item _loc x2 ) | Ast . CgCtr x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CgCtr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . CgNil x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CgNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_class_str_item _loc = fun [ Ast . CrAnt x0 x1 -> Ast . PaAnt x0 x1 | Ast . CrVvr x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrVvr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_mutable_flag _loc x2 ) ) ( meta_ctyp _loc x3 ) | Ast . CrVir x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrVir " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_private_flag _loc x2 ) ) ( meta_ctyp _loc x3 ) | Ast . CrVal x0 x1 x2 x3 x4 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrVal " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_override_flag _loc x2 ) ) ( meta_mutable_flag _loc x3 ) ) ( meta_expr _loc x4 ) | Ast . CrMth x0 x1 x2 x3 x4 x5 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrMth " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_override_flag _loc x2 ) ) ( meta_private_flag _loc x3 ) ) ( meta_expr _loc x4 ) ) ( meta_ctyp _loc x5 ) | Ast . CrIni x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrIni " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) | Ast . CrInh x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrInh " ) ) ) ( meta_loc _loc x0 ) ) ( meta_override_flag _loc x1 ) ) ( meta_class_expr _loc x2 ) ) ( meta_string _loc x3 ) | Ast . CrCtr x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrCtr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . CrSem x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrSem " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_str_item _loc x1 ) ) ( meta_class_str_item _loc x2 ) | Ast . CrNil x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CrNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_class_type _loc = fun [ Ast . CtAnt x0 x1 -> Ast . PaAnt x0 x1 | Ast . CtEq x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CtEq " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_type _loc x1 ) ) ( meta_class_type _loc x2 ) | Ast . CtCol x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CtCol " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_type _loc x1 ) ) ( meta_class_type _loc x2 ) | Ast . CtAnd x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CtAnd " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_type _loc x1 ) ) ( meta_class_type _loc x2 ) | Ast . CtSig x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CtSig " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_class_sig_item _loc x2 ) | Ast . CtFun x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CtFun " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_class_type _loc x2 ) | Ast . CtCon x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CtCon " ) ) ) ( meta_loc _loc x0 ) ) ( meta_virtual_flag _loc x1 ) ) ( meta_ident _loc x2 ) ) ( meta_ctyp _loc x3 ) | Ast . CtNil x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " CtNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_ctyp _loc = fun [ Ast . TyAnt x0 x1 -> Ast . PaAnt x0 x1 | Ast . TyPkg x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyPkg " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_type _loc x1 ) | Ast . TyOfAmp x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyOfAmp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyAmp x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyAmp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyVrnInfSup x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyVrnInfSup " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyVrnInf x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyVrnInf " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . TyVrnSup x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyVrnSup " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . TyVrnEq x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyVrnEq " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . TySta x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TySta " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyTup x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyTup " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . TyMut x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyMut " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . TyPrv x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyPrv " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . TyOr x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyOr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyAnd x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyAnd " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyOf x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyOf " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TySum x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TySum " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . TyCom x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyCom " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TySem x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TySem " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyCol x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyCol " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyRec x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyRec " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . TyVrn x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyVrn " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . TyQuM x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyQuM " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . TyQuP x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyQuP " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . TyQuo x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyQuo " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . TyPol x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyPol " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyOlb x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyOlb " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyObj x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyObj " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_row_var_flag _loc x2 ) | Ast . TyDcl x0 x1 x2 x3 x4 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyDcl " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_list meta_ctyp _loc x2 ) ) ( meta_ctyp _loc x3 ) ) ( meta_list ( fun _loc ( x1 , x2 ) -> Ast . PaTup _loc ( Ast . PaCom _loc ( meta_ctyp _loc x1 ) ( meta_ctyp _loc x2 ) ) ) _loc x4 ) | Ast . TyMan x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyMan " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyId x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyId " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . TyLab x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyLab " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyCls x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyCls " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . TyArr x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyArr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyApp x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyApp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyAny x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyAny " ) ) ) ( meta_loc _loc x0 ) | Ast . TyAli x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyAli " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . TyNil x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " TyNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_direction_flag _loc = fun [ Ast . DiAnt x0 -> Ast . PaAnt _loc x0 | Ast . DiDownto -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " DiDownto " ) ) | Ast . DiTo -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " DiTo " ) ) ] and meta_expr _loc = fun [ Ast . ExPkg x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExPkg " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_expr _loc x1 ) | Ast . ExFUN x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExFUN " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExOpI x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExOpI " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExWhi x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExWhi " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExVrn x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExVrn " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . ExTyc x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExTyc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . ExCom x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExCom " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExTup x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExTup " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) | Ast . ExTry x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExTry " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_match_case _loc x2 ) | Ast . ExStr x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExStr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . ExSte x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExSte " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExSnd x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExSnd " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_string _loc x2 ) | Ast . ExSeq x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExSeq " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) | Ast . ExRec x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExRec " ) ) ) ( meta_loc _loc x0 ) ) ( meta_rec_binding _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExOvr x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExOvr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_rec_binding _loc x1 ) | Ast . ExOlb x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExOlb " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExObj x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExObj " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_class_str_item _loc x2 ) | Ast . ExNew x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExNew " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . ExMat x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExMat " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_match_case _loc x2 ) | Ast . ExLmd x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExLmd " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_expr _loc x2 ) ) ( meta_expr _loc x3 ) | Ast . ExLet x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExLet " ) ) ) ( meta_loc _loc x0 ) ) ( meta_rec_flag _loc x1 ) ) ( meta_binding _loc x2 ) ) ( meta_expr _loc x3 ) | Ast . ExLaz x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExLaz " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) | Ast . ExLab x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExLab " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExNativeInt x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExNativeInt " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . ExInt64 x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExInt64 " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . ExInt32 x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExInt32 " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . ExInt x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExInt " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . ExIfe x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExIfe " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) ) ( meta_expr _loc x3 ) | Ast . ExFun x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExFun " ) ) ) ( meta_loc _loc x0 ) ) ( meta_match_case _loc x1 ) | Ast . ExFor x0 x1 x2 x3 x4 x5 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExFor " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_expr _loc x2 ) ) ( meta_expr _loc x3 ) ) ( meta_direction_flag _loc x4 ) ) ( meta_expr _loc x5 ) | Ast . ExFlo x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExFlo " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . ExCoe x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExCoe " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_ctyp _loc x2 ) ) ( meta_ctyp _loc x3 ) | Ast . ExChr x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExChr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . ExAss x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExAss " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExAsr x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExAsr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) | Ast . ExAsf x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExAsf " ) ) ) ( meta_loc _loc x0 ) | Ast . ExSem x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExSem " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExArr x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExArr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) | Ast . ExAre x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExAre " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExApp x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExApp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExAnt x0 x1 -> Ast . PaAnt x0 x1 | Ast . ExAcc x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExAcc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . ExId x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExId " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . ExNil x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ExNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_ident _loc = fun [ Ast . IdAnt x0 x1 -> Ast . PaAnt x0 x1 | Ast . IdUid x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " IdUid " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . IdLid x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " IdLid " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . IdApp x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " IdApp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) ) ( meta_ident _loc x2 ) | Ast . IdAcc x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " IdAcc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) ) ( meta_ident _loc x2 ) ] and meta_match_case _loc = fun [ Ast . McAnt x0 x1 -> Ast . PaAnt x0 x1 | Ast . McArr x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " McArr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_expr _loc x2 ) ) ( meta_expr _loc x3 ) | Ast . McOr x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " McOr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_match_case _loc x1 ) ) ( meta_match_case _loc x2 ) | Ast . McNil x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " McNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_meta_bool _loc = fun [ Ast . BAnt x0 -> Ast . PaAnt _loc x0 | Ast . BFalse -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " BFalse " ) ) | Ast . BTrue -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " BTrue " ) ) ] and meta_meta_list mf_a _loc = fun [ Ast . LAnt x0 -> Ast . PaAnt _loc x0 | Ast . LCons x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " LCons " ) ) ) ( mf_a _loc x0 ) ) ( meta_meta_list mf_a _loc x1 ) | Ast . LNil -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " LNil " ) ) ] and meta_meta_option mf_a _loc = fun [ Ast . OAnt x0 -> Ast . PaAnt _loc x0 | Ast . OSome x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " OSome " ) ) ) ( mf_a _loc x0 ) | Ast . ONone -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ONone " ) ) ] and meta_module_binding _loc = fun [ Ast . MbAnt x0 x1 -> Ast . PaAnt x0 x1 | Ast . MbCol x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MbCol " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_type _loc x2 ) | Ast . MbColEq x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MbColEq " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_type _loc x2 ) ) ( meta_module_expr _loc x3 ) | Ast . MbAnd x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MbAnd " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_binding _loc x1 ) ) ( meta_module_binding _loc x2 ) | Ast . MbNil x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MbNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_module_expr _loc = fun [ Ast . MeAnt x0 x1 -> Ast . PaAnt x0 x1 | Ast . MePkg x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MePkg " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) | Ast . MeTyc x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MeTyc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_expr _loc x1 ) ) ( meta_module_type _loc x2 ) | Ast . MeStr x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MeStr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_str_item _loc x1 ) | Ast . MeFun x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MeFun " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_type _loc x2 ) ) ( meta_module_expr _loc x3 ) | Ast . MeApp x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MeApp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_expr _loc x1 ) ) ( meta_module_expr _loc x2 ) | Ast . MeId x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MeId " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . MeNil x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MeNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_module_type _loc = fun [ Ast . MtAnt x0 x1 -> Ast . PaAnt x0 x1 | Ast . MtOf x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MtOf " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_expr _loc x1 ) | Ast . MtWit x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MtWit " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_type _loc x1 ) ) ( meta_with_constr _loc x2 ) | Ast . MtSig x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MtSig " ) ) ) ( meta_loc _loc x0 ) ) ( meta_sig_item _loc x1 ) | Ast . MtQuo x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MtQuo " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . MtFun x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MtFun " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_type _loc x2 ) ) ( meta_module_type _loc x3 ) | Ast . MtId x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MtId " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . MtNil x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MtNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_mutable_flag _loc = fun [ Ast . MuAnt x0 -> Ast . PaAnt _loc x0 | Ast . MuNil -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MuNil " ) ) | Ast . MuMutable -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " MuMutable " ) ) ] and meta_override_flag _loc = fun [ Ast . OvAnt x0 -> Ast . PaAnt _loc x0 | Ast . OvNil -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " OvNil " ) ) | Ast . OvOverride -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " OvOverride " ) ) ] and meta_patt _loc = fun [ Ast . PaLaz x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaLaz " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) | Ast . PaVrn x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaVrn " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . PaTyp x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaTyp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . PaTyc x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaTyc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . PaTup x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaTup " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) | Ast . PaStr x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaStr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . PaEq x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaEq " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaRec x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaRec " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) | Ast . PaRng x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaRng " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaOrp x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaOrp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaOlbi x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaOlbi " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_patt _loc x2 ) ) ( meta_expr _loc x3 ) | Ast . PaOlb x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaOlb " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaLab x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaLab " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaFlo x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaFlo " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . PaNativeInt x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaNativeInt " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . PaInt64 x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaInt64 " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . PaInt32 x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaInt32 " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . PaInt x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaInt " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . PaChr x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaChr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) | Ast . PaSem x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaSem " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaCom x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaCom " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaArr x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaArr " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) | Ast . PaApp x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaApp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaAny x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaAny " ) ) ) ( meta_loc _loc x0 ) | Ast . PaAnt x0 x1 -> Ast . PaAnt x0 x1 | Ast . PaAli x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaAli " ) ) ) ( meta_loc _loc x0 ) ) ( meta_patt _loc x1 ) ) ( meta_patt _loc x2 ) | Ast . PaId x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaId " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . PaNil x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PaNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_private_flag _loc = fun [ Ast . PrAnt x0 -> Ast . PaAnt _loc x0 | Ast . PrNil -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PrNil " ) ) | Ast . PrPrivate -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " PrPrivate " ) ) ] and meta_rec_binding _loc = fun [ Ast . RbAnt x0 x1 -> Ast . PaAnt x0 x1 | Ast . RbEq x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " RbEq " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . RbSem x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " RbSem " ) ) ) ( meta_loc _loc x0 ) ) ( meta_rec_binding _loc x1 ) ) ( meta_rec_binding _loc x2 ) | Ast . RbNil x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " RbNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_rec_flag _loc = fun [ Ast . ReAnt x0 -> Ast . PaAnt _loc x0 | Ast . ReNil -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ReNil " ) ) | Ast . ReRecursive -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ReRecursive " ) ) ] and meta_row_var_flag _loc = fun [ Ast . RvAnt x0 -> Ast . PaAnt _loc x0 | Ast . RvNil -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " RvNil " ) ) | Ast . RvRowVar -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " RvRowVar " ) ) ] and meta_sig_item _loc = fun [ Ast . SgAnt x0 x1 -> Ast . PaAnt x0 x1 | Ast . SgVal x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgVal " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . SgTyp x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgTyp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . SgOpn x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgOpn " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . SgMty x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgMty " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_type _loc x2 ) | Ast . SgRecMod x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgRecMod " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_binding _loc x1 ) | Ast . SgMod x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgMod " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_type _loc x2 ) | Ast . SgInc x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgInc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_type _loc x1 ) | Ast . SgExt x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgExt " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_ctyp _loc x2 ) ) ( meta_meta_list meta_string _loc x3 ) | Ast . SgExc x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgExc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . SgDir x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgDir " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . SgSem x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgSem " ) ) ) ( meta_loc _loc x0 ) ) ( meta_sig_item _loc x1 ) ) ( meta_sig_item _loc x2 ) | Ast . SgClt x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgClt " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_type _loc x1 ) | Ast . SgCls x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgCls " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_type _loc x1 ) | Ast . SgNil x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " SgNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_str_item _loc = fun [ Ast . StAnt x0 x1 -> Ast . PaAnt x0 x1 | Ast . StVal x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StVal " ) ) ) ( meta_loc _loc x0 ) ) ( meta_rec_flag _loc x1 ) ) ( meta_binding _loc x2 ) | Ast . StTyp x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StTyp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) | Ast . StOpn x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StOpn " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) | Ast . StMty x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StMty " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_type _loc x2 ) | Ast . StRecMod x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StRecMod " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_binding _loc x1 ) | Ast . StMod x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StMod " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_module_expr _loc x2 ) | Ast . StInc x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StInc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_module_expr _loc x1 ) | Ast . StExt x0 x1 x2 x3 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StExt " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_ctyp _loc x2 ) ) ( meta_meta_list meta_string _loc x3 ) | Ast . StExp x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StExp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_expr _loc x1 ) | Ast . StExc x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StExc " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_meta_option meta_ident _loc x2 ) | Ast . StDir x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StDir " ) ) ) ( meta_loc _loc x0 ) ) ( meta_string _loc x1 ) ) ( meta_expr _loc x2 ) | Ast . StSem x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StSem " ) ) ) ( meta_loc _loc x0 ) ) ( meta_str_item _loc x1 ) ) ( meta_str_item _loc x2 ) | Ast . StClt x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StClt " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_type _loc x1 ) | Ast . StCls x0 x1 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StCls " ) ) ) ( meta_loc _loc x0 ) ) ( meta_class_expr _loc x1 ) | Ast . StNil x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " StNil " ) ) ) ( meta_loc _loc x0 ) ] and meta_virtual_flag _loc = fun [ Ast . ViAnt x0 -> Ast . PaAnt _loc x0 | Ast . ViNil -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ViNil " ) ) | Ast . ViVirtual -> Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " ViVirtual " ) ) ] and meta_with_constr _loc = fun [ Ast . WcAnt x0 x1 -> Ast . PaAnt x0 x1 | Ast . WcAnd x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " WcAnd " ) ) ) ( meta_loc _loc x0 ) ) ( meta_with_constr _loc x1 ) ) ( meta_with_constr _loc x2 ) | Ast . WcMoS x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " WcMoS " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) ) ( meta_ident _loc x2 ) | Ast . WcTyS x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " WcTyS " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . WcMod x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " WcMod " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ident _loc x1 ) ) ( meta_ident _loc x2 ) | Ast . WcTyp x0 x1 x2 -> Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " WcTyp " ) ) ) ( meta_loc _loc x0 ) ) ( meta_ctyp _loc x1 ) ) ( meta_ctyp _loc x2 ) | Ast . WcNil x0 -> Ast . PaApp _loc ( Ast . PaId _loc ( Ast . IdAcc _loc ( Ast . IdUid _loc " Ast " ) ( Ast . IdUid _loc " WcNil " ) ) ) ( meta_loc _loc x0 ) ] ; end ; end ; end ; class map = object ( ( o : ' self_type ) ) method string : string -> string = o # unknown ; method list : ! ' a ' a_out . ( ' self_type -> ' a -> ' a_out ) -> list ' a -> list ' a_out = fun _f_a -> fun [ [ ] -> [ ] | [ _x :: _x_i1 ] -> let _x = _f_a o _x in let _x_i1 = o # list _f_a _x_i1 in [ _x :: _x_i1 ] ] ; method with_constr : with_constr -> with_constr = fun [ WcNil _x -> let _x = o # loc _x in WcNil _x | WcTyp _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in WcTyp _x _x_i1 _x_i2 | WcMod _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in let _x_i2 = o # ident _x_i2 in WcMod _x _x_i1 _x_i2 | WcTyS _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in WcTyS _x _x_i1 _x_i2 | WcMoS _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in let _x_i2 = o # ident _x_i2 in WcMoS _x _x_i1 _x_i2 | WcAnd _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # with_constr _x_i1 in let _x_i2 = o # with_constr _x_i2 in WcAnd _x _x_i1 _x_i2 | WcAnt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in WcAnt _x _x_i1 ] ; method virtual_flag : virtual_flag -> virtual_flag = fun [ ViVirtual -> ViVirtual | ViNil -> ViNil | ViAnt _x -> let _x = o # string _x in ViAnt _x ] ; method str_item : str_item -> str_item = fun [ StNil _x -> let _x = o # loc _x in StNil _x | StCls _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # class_expr _x_i1 in StCls _x _x_i1 | StClt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # class_type _x_i1 in StClt _x _x_i1 | StSem _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # str_item _x_i1 in let _x_i2 = o # str_item _x_i2 in StSem _x _x_i1 _x_i2 | StDir _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # expr _x_i2 in StDir _x _x_i1 _x_i2 | StExc _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # meta_option ( fun o -> o # ident ) _x_i2 in StExc _x _x_i1 _x_i2 | StExp _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in StExp _x _x_i1 | StExt _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # ctyp _x_i2 in let _x_i3 = o # meta_list ( fun o -> o # string ) _x_i3 in StExt _x _x_i1 _x_i2 _x_i3 | StInc _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # module_expr _x_i1 in StInc _x _x_i1 | StMod _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_expr _x_i2 in StMod _x _x_i1 _x_i2 | StRecMod _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # module_binding _x_i1 in StRecMod _x _x_i1 | StMty _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_type _x_i2 in StMty _x _x_i1 _x_i2 | StOpn _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in StOpn _x _x_i1 | StTyp _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in StTyp _x _x_i1 | StVal _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # rec_flag _x_i1 in let _x_i2 = o # binding _x_i2 in StVal _x _x_i1 _x_i2 | StAnt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in StAnt _x _x_i1 ] ; method sig_item : sig_item -> sig_item = fun [ SgNil _x -> let _x = o # loc _x in SgNil _x | SgCls _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # class_type _x_i1 in SgCls _x _x_i1 | SgClt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # class_type _x_i1 in SgClt _x _x_i1 | SgSem _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # sig_item _x_i1 in let _x_i2 = o # sig_item _x_i2 in SgSem _x _x_i1 _x_i2 | SgDir _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # expr _x_i2 in SgDir _x _x_i1 _x_i2 | SgExc _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in SgExc _x _x_i1 | SgExt _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # ctyp _x_i2 in let _x_i3 = o # meta_list ( fun o -> o # string ) _x_i3 in SgExt _x _x_i1 _x_i2 _x_i3 | SgInc _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # module_type _x_i1 in SgInc _x _x_i1 | SgMod _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_type _x_i2 in SgMod _x _x_i1 _x_i2 | SgRecMod _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # module_binding _x_i1 in SgRecMod _x _x_i1 | SgMty _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_type _x_i2 in SgMty _x _x_i1 _x_i2 | SgOpn _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in SgOpn _x _x_i1 | SgTyp _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in SgTyp _x _x_i1 | SgVal _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # ctyp _x_i2 in SgVal _x _x_i1 _x_i2 | SgAnt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in SgAnt _x _x_i1 ] ; method row_var_flag : row_var_flag -> row_var_flag = fun [ RvRowVar -> RvRowVar | RvNil -> RvNil | RvAnt _x -> let _x = o # string _x in RvAnt _x ] ; method rec_flag : rec_flag -> rec_flag = fun [ ReRecursive -> ReRecursive | ReNil -> ReNil | ReAnt _x -> let _x = o # string _x in ReAnt _x ] ; method rec_binding : rec_binding -> rec_binding = fun [ RbNil _x -> let _x = o # loc _x in RbNil _x | RbSem _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # rec_binding _x_i1 in let _x_i2 = o # rec_binding _x_i2 in RbSem _x _x_i1 _x_i2 | RbEq _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in let _x_i2 = o # expr _x_i2 in RbEq _x _x_i1 _x_i2 | RbAnt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in RbAnt _x _x_i1 ] ; method private_flag : private_flag -> private_flag = fun [ PrPrivate -> PrPrivate | PrNil -> PrNil | PrAnt _x -> let _x = o # string _x in PrAnt _x ] ; method patt : patt -> patt = fun [ PaNil _x -> let _x = o # loc _x in PaNil _x | PaId _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in PaId _x _x_i1 | PaAli _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # patt _x_i2 in PaAli _x _x_i1 _x_i2 | PaAnt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaAnt _x _x_i1 | PaAny _x -> let _x = o # loc _x in PaAny _x | PaApp _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # patt _x_i2 in PaApp _x _x_i1 _x_i2 | PaArr _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in PaArr _x _x_i1 | PaCom _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # patt _x_i2 in PaCom _x _x_i1 _x_i2 | PaSem _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # patt _x_i2 in PaSem _x _x_i1 _x_i2 | PaChr _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaChr _x _x_i1 | PaInt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaInt _x _x_i1 | PaInt32 _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaInt32 _x _x_i1 | PaInt64 _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaInt64 _x _x_i1 | PaNativeInt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaNativeInt _x _x_i1 | PaFlo _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaFlo _x _x_i1 | PaLab _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # patt _x_i2 in PaLab _x _x_i1 _x_i2 | PaOlb _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # patt _x_i2 in PaOlb _x _x_i1 _x_i2 | PaOlbi _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # patt _x_i2 in let _x_i3 = o # expr _x_i3 in PaOlbi _x _x_i1 _x_i2 _x_i3 | PaOrp _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # patt _x_i2 in PaOrp _x _x_i1 _x_i2 | PaRng _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # patt _x_i2 in PaRng _x _x_i1 _x_i2 | PaRec _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in PaRec _x _x_i1 | PaEq _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in let _x_i2 = o # patt _x_i2 in PaEq _x _x_i1 _x_i2 | PaStr _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaStr _x _x_i1 | PaTup _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in PaTup _x _x_i1 | PaTyc _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # ctyp _x_i2 in PaTyc _x _x_i1 _x_i2 | PaTyp _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in PaTyp _x _x_i1 | PaVrn _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in PaVrn _x _x_i1 | PaLaz _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in PaLaz _x _x_i1 ] ; method override_flag : override_flag -> override_flag = fun [ OvOverride -> OvOverride | OvNil -> OvNil | OvAnt _x -> let _x = o # string _x in OvAnt _x ] ; method mutable_flag : mutable_flag -> mutable_flag = fun [ MuMutable -> MuMutable | MuNil -> MuNil | MuAnt _x -> let _x = o # string _x in MuAnt _x ] ; method module_type : module_type -> module_type = fun [ MtNil _x -> let _x = o # loc _x in MtNil _x | MtId _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in MtId _x _x_i1 | MtFun _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_type _x_i2 in let _x_i3 = o # module_type _x_i3 in MtFun _x _x_i1 _x_i2 _x_i3 | MtQuo _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in MtQuo _x _x_i1 | MtSig _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # sig_item _x_i1 in MtSig _x _x_i1 | MtWit _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # module_type _x_i1 in let _x_i2 = o # with_constr _x_i2 in MtWit _x _x_i1 _x_i2 | MtOf _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # module_expr _x_i1 in MtOf _x _x_i1 | MtAnt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in MtAnt _x _x_i1 ] ; method module_expr : module_expr -> module_expr = fun [ MeNil _x -> let _x = o # loc _x in MeNil _x | MeId _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in MeId _x _x_i1 | MeApp _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # module_expr _x_i1 in let _x_i2 = o # module_expr _x_i2 in MeApp _x _x_i1 _x_i2 | MeFun _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_type _x_i2 in let _x_i3 = o # module_expr _x_i3 in MeFun _x _x_i1 _x_i2 _x_i3 | MeStr _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # str_item _x_i1 in MeStr _x _x_i1 | MeTyc _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # module_expr _x_i1 in let _x_i2 = o # module_type _x_i2 in MeTyc _x _x_i1 _x_i2 | MePkg _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in MePkg _x _x_i1 | MeAnt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in MeAnt _x _x_i1 ] ; method module_binding : module_binding -> module_binding = fun [ MbNil _x -> let _x = o # loc _x in MbNil _x | MbAnd _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # module_binding _x_i1 in let _x_i2 = o # module_binding _x_i2 in MbAnd _x _x_i1 _x_i2 | MbColEq _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_type _x_i2 in let _x_i3 = o # module_expr _x_i3 in MbColEq _x _x_i1 _x_i2 _x_i3 | MbCol _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_type _x_i2 in MbCol _x _x_i1 _x_i2 | MbAnt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in MbAnt _x _x_i1 ] ; method meta_option : ! ' a ' a_out . ( ' self_type -> ' a -> ' a_out ) -> meta_option ' a -> meta_option ' a_out = fun _f_a -> fun [ ONone -> ONone | OSome _x -> let _x = _f_a o _x in OSome _x | OAnt _x -> let _x = o # string _x in OAnt _x ] ; method meta_list : ! ' a ' a_out . ( ' self_type -> ' a -> ' a_out ) -> meta_list ' a -> meta_list ' a_out = fun _f_a -> fun [ LNil -> LNil | LCons _x _x_i1 -> let _x = _f_a o _x in let _x_i1 = o # meta_list _f_a _x_i1 in LCons _x _x_i1 | LAnt _x -> let _x = o # string _x in LAnt _x ] ; method meta_bool : meta_bool -> meta_bool = fun [ BTrue -> BTrue | BFalse -> BFalse | BAnt _x -> let _x = o # string _x in BAnt _x ] ; method match_case : match_case -> match_case = fun [ McNil _x -> let _x = o # loc _x in McNil _x | McOr _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # match_case _x_i1 in let _x_i2 = o # match_case _x_i2 in McOr _x _x_i1 _x_i2 | McArr _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # expr _x_i2 in let _x_i3 = o # expr _x_i3 in McArr _x _x_i1 _x_i2 _x_i3 | McAnt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in McAnt _x _x_i1 ] ; method loc : loc -> loc = o # unknown ; method ident : ident -> ident = fun [ IdAcc _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in let _x_i2 = o # ident _x_i2 in IdAcc _x _x_i1 _x_i2 | IdApp _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in let _x_i2 = o # ident _x_i2 in IdApp _x _x_i1 _x_i2 | IdLid _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in IdLid _x _x_i1 | IdUid _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in IdUid _x _x_i1 | IdAnt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in IdAnt _x _x_i1 ] ; method expr : expr -> expr = fun [ ExNil _x -> let _x = o # loc _x in ExNil _x | ExId _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in ExId _x _x_i1 | ExAcc _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in ExAcc _x _x_i1 _x_i2 | ExAnt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExAnt _x _x_i1 | ExApp _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in ExApp _x _x_i1 _x_i2 | ExAre _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in ExAre _x _x_i1 _x_i2 | ExArr _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in ExArr _x _x_i1 | ExSem _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in ExSem _x _x_i1 _x_i2 | ExAsf _x -> let _x = o # loc _x in ExAsf _x | ExAsr _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in ExAsr _x _x_i1 | ExAss _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in ExAss _x _x_i1 _x_i2 | ExChr _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExChr _x _x_i1 | ExCoe _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # ctyp _x_i2 in let _x_i3 = o # ctyp _x_i3 in ExCoe _x _x_i1 _x_i2 _x_i3 | ExFlo _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExFlo _x _x_i1 | ExFor _x _x_i1 _x_i2 _x_i3 _x_i4 _x_i5 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # expr _x_i2 in let _x_i3 = o # expr _x_i3 in let _x_i4 = o # direction_flag _x_i4 in let _x_i5 = o # expr _x_i5 in ExFor _x _x_i1 _x_i2 _x_i3 _x_i4 _x_i5 | ExFun _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # match_case _x_i1 in ExFun _x _x_i1 | ExIfe _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in let _x_i3 = o # expr _x_i3 in ExIfe _x _x_i1 _x_i2 _x_i3 | ExInt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExInt _x _x_i1 | ExInt32 _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExInt32 _x _x_i1 | ExInt64 _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExInt64 _x _x_i1 | ExNativeInt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExNativeInt _x _x_i1 | ExLab _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # expr _x_i2 in ExLab _x _x_i1 _x_i2 | ExLaz _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in ExLaz _x _x_i1 | ExLet _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # rec_flag _x_i1 in let _x_i2 = o # binding _x_i2 in let _x_i3 = o # expr _x_i3 in ExLet _x _x_i1 _x_i2 _x_i3 | ExLmd _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # module_expr _x_i2 in let _x_i3 = o # expr _x_i3 in ExLmd _x _x_i1 _x_i2 _x_i3 | ExMat _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # match_case _x_i2 in ExMat _x _x_i1 _x_i2 | ExNew _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in ExNew _x _x_i1 | ExObj _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # class_str_item _x_i2 in ExObj _x _x_i1 _x_i2 | ExOlb _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # expr _x_i2 in ExOlb _x _x_i1 _x_i2 | ExOvr _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # rec_binding _x_i1 in ExOvr _x _x_i1 | ExRec _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # rec_binding _x_i1 in let _x_i2 = o # expr _x_i2 in ExRec _x _x_i1 _x_i2 | ExSeq _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in ExSeq _x _x_i1 | ExSnd _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # string _x_i2 in ExSnd _x _x_i1 _x_i2 | ExSte _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in ExSte _x _x_i1 _x_i2 | ExStr _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExStr _x _x_i1 | ExTry _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # match_case _x_i2 in ExTry _x _x_i1 _x_i2 | ExTup _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in ExTup _x _x_i1 | ExCom _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in ExCom _x _x_i1 _x_i2 | ExTyc _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # ctyp _x_i2 in ExTyc _x _x_i1 _x_i2 | ExVrn _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in ExVrn _x _x_i1 | ExWhi _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in let _x_i2 = o # expr _x_i2 in ExWhi _x _x_i1 _x_i2 | ExOpI _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in let _x_i2 = o # expr _x_i2 in ExOpI _x _x_i1 _x_i2 | ExFUN _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # expr _x_i2 in ExFUN _x _x_i1 _x_i2 | ExPkg _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # module_expr _x_i1 in ExPkg _x _x_i1 ] ; method direction_flag : direction_flag -> direction_flag = fun [ DiTo -> DiTo | DiDownto -> DiDownto | DiAnt _x -> let _x = o # string _x in DiAnt _x ] ; method ctyp : ctyp -> ctyp = fun [ TyNil _x -> let _x = o # loc _x in TyNil _x | TyAli _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyAli _x _x_i1 _x_i2 | TyAny _x -> let _x = o # loc _x in TyAny _x | TyApp _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyApp _x _x_i1 _x_i2 | TyArr _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyArr _x _x_i1 _x_i2 | TyCls _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in TyCls _x _x_i1 | TyLab _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyLab _x _x_i1 _x_i2 | TyId _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ident _x_i1 in TyId _x _x_i1 | TyMan _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyMan _x _x_i1 _x_i2 | TyDcl _x _x_i1 _x_i2 _x_i3 _x_i4 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # list ( fun o -> o # ctyp ) _x_i2 in let _x_i3 = o # ctyp _x_i3 in let _x_i4 = o # list ( fun o ( _x , _x_i1 ) -> let _x = o # ctyp _x in let _x_i1 = o # ctyp _x_i1 in ( _x , _x_i1 ) ) _x_i4 in TyDcl _x _x_i1 _x_i2 _x_i3 _x_i4 | TyObj _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # row_var_flag _x_i2 in TyObj _x _x_i1 _x_i2 | TyOlb _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyOlb _x _x_i1 _x_i2 | TyPol _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyPol _x _x_i1 _x_i2 | TyQuo _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in TyQuo _x _x_i1 | TyQuP _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in TyQuP _x _x_i1 | TyQuM _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in TyQuM _x _x_i1 | TyVrn _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in TyVrn _x _x_i1 | TyRec _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in TyRec _x _x_i1 | TyCol _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyCol _x _x_i1 _x_i2 | TySem _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TySem _x _x_i1 _x_i2 | TyCom _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyCom _x _x_i1 _x_i2 | TySum _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in TySum _x _x_i1 | TyOf _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyOf _x _x_i1 _x_i2 | TyAnd _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyAnd _x _x_i1 _x_i2 | TyOr _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyOr _x _x_i1 _x_i2 | TyPrv _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in TyPrv _x _x_i1 | TyMut _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in TyMut _x _x_i1 | TyTup _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in TyTup _x _x_i1 | TySta _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TySta _x _x_i1 _x_i2 | TyVrnEq _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in TyVrnEq _x _x_i1 | TyVrnSup _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in TyVrnSup _x _x_i1 | TyVrnInf _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in TyVrnInf _x _x_i1 | TyVrnInfSup _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyVrnInfSup _x _x_i1 _x_i2 | TyAmp _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyAmp _x _x_i1 _x_i2 | TyOfAmp _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in TyOfAmp _x _x_i1 _x_i2 | TyPkg _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # module_type _x_i1 in TyPkg _x _x_i1 | TyAnt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in TyAnt _x _x_i1 ] ; method class_type : class_type -> class_type = fun [ CtNil _x -> let _x = o # loc _x in CtNil _x | CtCon _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # virtual_flag _x_i1 in let _x_i2 = o # ident _x_i2 in let _x_i3 = o # ctyp _x_i3 in CtCon _x _x_i1 _x_i2 _x_i3 | CtFun _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # class_type _x_i2 in CtFun _x _x_i1 _x_i2 | CtSig _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # class_sig_item _x_i2 in CtSig _x _x_i1 _x_i2 | CtAnd _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # class_type _x_i1 in let _x_i2 = o # class_type _x_i2 in CtAnd _x _x_i1 _x_i2 | CtCol _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # class_type _x_i1 in let _x_i2 = o # class_type _x_i2 in CtCol _x _x_i1 _x_i2 | CtEq _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # class_type _x_i1 in let _x_i2 = o # class_type _x_i2 in CtEq _x _x_i1 _x_i2 | CtAnt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in CtAnt _x _x_i1 ] ; method class_str_item : class_str_item -> class_str_item = fun [ CrNil _x -> let _x = o # loc _x in CrNil _x | CrSem _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # class_str_item _x_i1 in let _x_i2 = o # class_str_item _x_i2 in CrSem _x _x_i1 _x_i2 | CrCtr _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in CrCtr _x _x_i1 _x_i2 | CrInh _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # override_flag _x_i1 in let _x_i2 = o # class_expr _x_i2 in let _x_i3 = o # string _x_i3 in CrInh _x _x_i1 _x_i2 _x_i3 | CrIni _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # expr _x_i1 in CrIni _x _x_i1 | CrMth _x _x_i1 _x_i2 _x_i3 _x_i4 _x_i5 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # override_flag _x_i2 in let _x_i3 = o # private_flag _x_i3 in let _x_i4 = o # expr _x_i4 in let _x_i5 = o # ctyp _x_i5 in CrMth _x _x_i1 _x_i2 _x_i3 _x_i4 _x_i5 | CrVal _x _x_i1 _x_i2 _x_i3 _x_i4 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # override_flag _x_i2 in let _x_i3 = o # mutable_flag _x_i3 in let _x_i4 = o # expr _x_i4 in CrVal _x _x_i1 _x_i2 _x_i3 _x_i4 | CrVir _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # private_flag _x_i2 in let _x_i3 = o # ctyp _x_i3 in CrVir _x _x_i1 _x_i2 _x_i3 | CrVvr _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # mutable_flag _x_i2 in let _x_i3 = o # ctyp _x_i3 in CrVvr _x _x_i1 _x_i2 _x_i3 | CrAnt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in CrAnt _x _x_i1 ] ; method class_sig_item : class_sig_item -> class_sig_item = fun [ CgNil _x -> let _x = o # loc _x in CgNil _x | CgCtr _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # ctyp _x_i1 in let _x_i2 = o # ctyp _x_i2 in CgCtr _x _x_i1 _x_i2 | CgSem _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # class_sig_item _x_i1 in let _x_i2 = o # class_sig_item _x_i2 in CgSem _x _x_i1 _x_i2 | CgInh _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # class_type _x_i1 in CgInh _x _x_i1 | CgMth _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # private_flag _x_i2 in let _x_i3 = o # ctyp _x_i3 in CgMth _x _x_i1 _x_i2 _x_i3 | CgVal _x _x_i1 _x_i2 _x_i3 _x_i4 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # mutable_flag _x_i2 in let _x_i3 = o # virtual_flag _x_i3 in let _x_i4 = o # ctyp _x_i4 in CgVal _x _x_i1 _x_i2 _x_i3 _x_i4 | CgVir _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in let _x_i2 = o # private_flag _x_i2 in let _x_i3 = o # ctyp _x_i3 in CgVir _x _x_i1 _x_i2 _x_i3 | CgAnt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in CgAnt _x _x_i1 ] ; method class_expr : class_expr -> class_expr = fun [ CeNil _x -> let _x = o # loc _x in CeNil _x | CeApp _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # class_expr _x_i1 in let _x_i2 = o # expr _x_i2 in CeApp _x _x_i1 _x_i2 | CeCon _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # virtual_flag _x_i1 in let _x_i2 = o # ident _x_i2 in let _x_i3 = o # ctyp _x_i3 in CeCon _x _x_i1 _x_i2 _x_i3 | CeFun _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # class_expr _x_i2 in CeFun _x _x_i1 _x_i2 | CeLet _x _x_i1 _x_i2 _x_i3 -> let _x = o # loc _x in let _x_i1 = o # rec_flag _x_i1 in let _x_i2 = o # binding _x_i2 in let _x_i3 = o # class_expr _x_i3 in CeLet _x _x_i1 _x_i2 _x_i3 | CeStr _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # class_str_item _x_i2 in CeStr _x _x_i1 _x_i2 | CeTyc _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # class_expr _x_i1 in let _x_i2 = o # class_type _x_i2 in CeTyc _x _x_i1 _x_i2 | CeAnd _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # class_expr _x_i1 in let _x_i2 = o # class_expr _x_i2 in CeAnd _x _x_i1 _x_i2 | CeEq _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # class_expr _x_i1 in let _x_i2 = o # class_expr _x_i2 in CeEq _x _x_i1 _x_i2 | CeAnt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in CeAnt _x _x_i1 ] ; method binding : binding -> binding = fun [ BiNil _x -> let _x = o # loc _x in BiNil _x | BiAnd _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # binding _x_i1 in let _x_i2 = o # binding _x_i2 in BiAnd _x _x_i1 _x_i2 | BiEq _x _x_i1 _x_i2 -> let _x = o # loc _x in let _x_i1 = o # patt _x_i1 in let _x_i2 = o # expr _x_i2 in BiEq _x _x_i1 _x_i2 | BiAnt _x _x_i1 -> let _x = o # loc _x in let _x_i1 = o # string _x_i1 in BiAnt _x _x_i1 ] ; method unknown : ! ' a . ' a -> ' a = fun x -> x ; end ; class fold = object ( ( o : ' self_type ) ) method string : string -> ' self_type = o # unknown ; method list : ! ' a . ( ' self_type -> ' a -> ' self_type ) -> list ' a -> ' self_type = fun _f_a -> fun [ [ ] -> o | [ _x :: _x_i1 ] -> let o = _f_a o _x in let o = o # list _f_a _x_i1 in o ] ; method with_constr : with_constr -> ' self_type = fun [ WcNil _x -> let o = o # loc _x in o | WcTyp _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | WcMod _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ident _x_i1 in let o = o # ident _x_i2 in o | WcTyS _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | WcMoS _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ident _x_i1 in let o = o # ident _x_i2 in o | WcAnd _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # with_constr _x_i1 in let o = o # with_constr _x_i2 in o | WcAnt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o ] ; method virtual_flag : virtual_flag -> ' self_type = fun [ ViVirtual -> o | ViNil -> o | ViAnt _x -> let o = o # string _x in o ] ; method str_item : str_item -> ' self_type = fun [ StNil _x -> let o = o # loc _x in o | StCls _x _x_i1 -> let o = o # loc _x in let o = o # class_expr _x_i1 in o | StClt _x _x_i1 -> let o = o # loc _x in let o = o # class_type _x_i1 in o | StSem _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # str_item _x_i1 in let o = o # str_item _x_i2 in o | StDir _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # expr _x_i2 in o | StExc _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # meta_option ( fun o -> o # ident ) _x_i2 in o | StExp _x _x_i1 -> let o = o # loc _x in let o = o # expr _x_i1 in o | StExt _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # ctyp _x_i2 in let o = o # meta_list ( fun o -> o # string ) _x_i3 in o | StInc _x _x_i1 -> let o = o # loc _x in let o = o # module_expr _x_i1 in o | StMod _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_expr _x_i2 in o | StRecMod _x _x_i1 -> let o = o # loc _x in let o = o # module_binding _x_i1 in o | StMty _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_type _x_i2 in o | StOpn _x _x_i1 -> let o = o # loc _x in let o = o # ident _x_i1 in o | StTyp _x _x_i1 -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | StVal _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # rec_flag _x_i1 in let o = o # binding _x_i2 in o | StAnt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o ] ; method sig_item : sig_item -> ' self_type = fun [ SgNil _x -> let o = o # loc _x in o | SgCls _x _x_i1 -> let o = o # loc _x in let o = o # class_type _x_i1 in o | SgClt _x _x_i1 -> let o = o # loc _x in let o = o # class_type _x_i1 in o | SgSem _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # sig_item _x_i1 in let o = o # sig_item _x_i2 in o | SgDir _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # expr _x_i2 in o | SgExc _x _x_i1 -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | SgExt _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # ctyp _x_i2 in let o = o # meta_list ( fun o -> o # string ) _x_i3 in o | SgInc _x _x_i1 -> let o = o # loc _x in let o = o # module_type _x_i1 in o | SgMod _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_type _x_i2 in o | SgRecMod _x _x_i1 -> let o = o # loc _x in let o = o # module_binding _x_i1 in o | SgMty _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_type _x_i2 in o | SgOpn _x _x_i1 -> let o = o # loc _x in let o = o # ident _x_i1 in o | SgTyp _x _x_i1 -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | SgVal _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # ctyp _x_i2 in o | SgAnt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o ] ; method row_var_flag : row_var_flag -> ' self_type = fun [ RvRowVar -> o | RvNil -> o | RvAnt _x -> let o = o # string _x in o ] ; method rec_flag : rec_flag -> ' self_type = fun [ ReRecursive -> o | ReNil -> o | ReAnt _x -> let o = o # string _x in o ] ; method rec_binding : rec_binding -> ' self_type = fun [ RbNil _x -> let o = o # loc _x in o | RbSem _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # rec_binding _x_i1 in let o = o # rec_binding _x_i2 in o | RbEq _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ident _x_i1 in let o = o # expr _x_i2 in o | RbAnt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o ] ; method private_flag : private_flag -> ' self_type = fun [ PrPrivate -> o | PrNil -> o | PrAnt _x -> let o = o # string _x in o ] ; method patt : patt -> ' self_type = fun [ PaNil _x -> let o = o # loc _x in o | PaId _x _x_i1 -> let o = o # loc _x in let o = o # ident _x_i1 in o | PaAli _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # patt _x_i2 in o | PaAnt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | PaAny _x -> let o = o # loc _x in o | PaApp _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # patt _x_i2 in o | PaArr _x _x_i1 -> let o = o # loc _x in let o = o # patt _x_i1 in o | PaCom _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # patt _x_i2 in o | PaSem _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # patt _x_i2 in o | PaChr _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | PaInt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | PaInt32 _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | PaInt64 _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | PaNativeInt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | PaFlo _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | PaLab _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # patt _x_i2 in o | PaOlb _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # patt _x_i2 in o | PaOlbi _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # patt _x_i2 in let o = o # expr _x_i3 in o | PaOrp _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # patt _x_i2 in o | PaRng _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # patt _x_i2 in o | PaRec _x _x_i1 -> let o = o # loc _x in let o = o # patt _x_i1 in o | PaEq _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ident _x_i1 in let o = o # patt _x_i2 in o | PaStr _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | PaTup _x _x_i1 -> let o = o # loc _x in let o = o # patt _x_i1 in o | PaTyc _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # ctyp _x_i2 in o | PaTyp _x _x_i1 -> let o = o # loc _x in let o = o # ident _x_i1 in o | PaVrn _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | PaLaz _x _x_i1 -> let o = o # loc _x in let o = o # patt _x_i1 in o ] ; method override_flag : override_flag -> ' self_type = fun [ OvOverride -> o | OvNil -> o | OvAnt _x -> let o = o # string _x in o ] ; method mutable_flag : mutable_flag -> ' self_type = fun [ MuMutable -> o | MuNil -> o | MuAnt _x -> let o = o # string _x in o ] ; method module_type : module_type -> ' self_type = fun [ MtNil _x -> let o = o # loc _x in o | MtId _x _x_i1 -> let o = o # loc _x in let o = o # ident _x_i1 in o | MtFun _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_type _x_i2 in let o = o # module_type _x_i3 in o | MtQuo _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | MtSig _x _x_i1 -> let o = o # loc _x in let o = o # sig_item _x_i1 in o | MtWit _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # module_type _x_i1 in let o = o # with_constr _x_i2 in o | MtOf _x _x_i1 -> let o = o # loc _x in let o = o # module_expr _x_i1 in o | MtAnt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o ] ; method module_expr : module_expr -> ' self_type = fun [ MeNil _x -> let o = o # loc _x in o | MeId _x _x_i1 -> let o = o # loc _x in let o = o # ident _x_i1 in o | MeApp _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # module_expr _x_i1 in let o = o # module_expr _x_i2 in o | MeFun _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_type _x_i2 in let o = o # module_expr _x_i3 in o | MeStr _x _x_i1 -> let o = o # loc _x in let o = o # str_item _x_i1 in o | MeTyc _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # module_expr _x_i1 in let o = o # module_type _x_i2 in o | MePkg _x _x_i1 -> let o = o # loc _x in let o = o # expr _x_i1 in o | MeAnt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o ] ; method module_binding : module_binding -> ' self_type = fun [ MbNil _x -> let o = o # loc _x in o | MbAnd _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # module_binding _x_i1 in let o = o # module_binding _x_i2 in o | MbColEq _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_type _x_i2 in let o = o # module_expr _x_i3 in o | MbCol _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_type _x_i2 in o | MbAnt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o ] ; method meta_option : ! ' a . ( ' self_type -> ' a -> ' self_type ) -> meta_option ' a -> ' self_type = fun _f_a -> fun [ ONone -> o | OSome _x -> let o = _f_a o _x in o | OAnt _x -> let o = o # string _x in o ] ; method meta_list : ! ' a . ( ' self_type -> ' a -> ' self_type ) -> meta_list ' a -> ' self_type = fun _f_a -> fun [ LNil -> o | LCons _x _x_i1 -> let o = _f_a o _x in let o = o # meta_list _f_a _x_i1 in o | LAnt _x -> let o = o # string _x in o ] ; method meta_bool : meta_bool -> ' self_type = fun [ BTrue -> o | BFalse -> o | BAnt _x -> let o = o # string _x in o ] ; method match_case : match_case -> ' self_type = fun [ McNil _x -> let o = o # loc _x in o | McOr _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # match_case _x_i1 in let o = o # match_case _x_i2 in o | McArr _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # expr _x_i2 in let o = o # expr _x_i3 in o | McAnt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o ] ; method loc : loc -> ' self_type = o # unknown ; method ident : ident -> ' self_type = fun [ IdAcc _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ident _x_i1 in let o = o # ident _x_i2 in o | IdApp _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ident _x_i1 in let o = o # ident _x_i2 in o | IdLid _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | IdUid _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | IdAnt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o ] ; method expr : expr -> ' self_type = fun [ ExNil _x -> let o = o # loc _x in o | ExId _x _x_i1 -> let o = o # loc _x in let o = o # ident _x_i1 in o | ExAcc _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in o | ExAnt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | ExApp _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in o | ExAre _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in o | ExArr _x _x_i1 -> let o = o # loc _x in let o = o # expr _x_i1 in o | ExSem _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in o | ExAsf _x -> let o = o # loc _x in o | ExAsr _x _x_i1 -> let o = o # loc _x in let o = o # expr _x_i1 in o | ExAss _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in o | ExChr _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | ExCoe _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # ctyp _x_i2 in let o = o # ctyp _x_i3 in o | ExFlo _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | ExFor _x _x_i1 _x_i2 _x_i3 _x_i4 _x_i5 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # expr _x_i2 in let o = o # expr _x_i3 in let o = o # direction_flag _x_i4 in let o = o # expr _x_i5 in o | ExFun _x _x_i1 -> let o = o # loc _x in let o = o # match_case _x_i1 in o | ExIfe _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in let o = o # expr _x_i3 in o | ExInt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | ExInt32 _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | ExInt64 _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | ExNativeInt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | ExLab _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # expr _x_i2 in o | ExLaz _x _x_i1 -> let o = o # loc _x in let o = o # expr _x_i1 in o | ExLet _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # rec_flag _x_i1 in let o = o # binding _x_i2 in let o = o # expr _x_i3 in o | ExLmd _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # module_expr _x_i2 in let o = o # expr _x_i3 in o | ExMat _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # match_case _x_i2 in o | ExNew _x _x_i1 -> let o = o # loc _x in let o = o # ident _x_i1 in o | ExObj _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # class_str_item _x_i2 in o | ExOlb _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # expr _x_i2 in o | ExOvr _x _x_i1 -> let o = o # loc _x in let o = o # rec_binding _x_i1 in o | ExRec _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # rec_binding _x_i1 in let o = o # expr _x_i2 in o | ExSeq _x _x_i1 -> let o = o # loc _x in let o = o # expr _x_i1 in o | ExSnd _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # string _x_i2 in o | ExSte _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in o | ExStr _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | ExTry _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # match_case _x_i2 in o | ExTup _x _x_i1 -> let o = o # loc _x in let o = o # expr _x_i1 in o | ExCom _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in o | ExTyc _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # ctyp _x_i2 in o | ExVrn _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | ExWhi _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # expr _x_i1 in let o = o # expr _x_i2 in o | ExOpI _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ident _x_i1 in let o = o # expr _x_i2 in o | ExFUN _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # expr _x_i2 in o | ExPkg _x _x_i1 -> let o = o # loc _x in let o = o # module_expr _x_i1 in o ] ; method direction_flag : direction_flag -> ' self_type = fun [ DiTo -> o | DiDownto -> o | DiAnt _x -> let o = o # string _x in o ] ; method ctyp : ctyp -> ' self_type = fun [ TyNil _x -> let o = o # loc _x in o | TyAli _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyAny _x -> let o = o # loc _x in o | TyApp _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyArr _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyCls _x _x_i1 -> let o = o # loc _x in let o = o # ident _x_i1 in o | TyLab _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # ctyp _x_i2 in o | TyId _x _x_i1 -> let o = o # loc _x in let o = o # ident _x_i1 in o | TyMan _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyDcl _x _x_i1 _x_i2 _x_i3 _x_i4 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # list ( fun o -> o # ctyp ) _x_i2 in let o = o # ctyp _x_i3 in let o = o # list ( fun o ( _x , _x_i1 ) -> let o = o # ctyp _x in let o = o # ctyp _x_i1 in o ) _x_i4 in o | TyObj _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # row_var_flag _x_i2 in o | TyOlb _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # ctyp _x_i2 in o | TyPol _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyQuo _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | TyQuP _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | TyQuM _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | TyVrn _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o | TyRec _x _x_i1 -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | TyCol _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TySem _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyCom _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TySum _x _x_i1 -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | TyOf _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyAnd _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyOr _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyPrv _x _x_i1 -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | TyMut _x _x_i1 -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | TyTup _x _x_i1 -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | TySta _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyVrnEq _x _x_i1 -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | TyVrnSup _x _x_i1 -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | TyVrnInf _x _x_i1 -> let o = o # loc _x in let o = o # ctyp _x_i1 in o | TyVrnInfSup _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyAmp _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyOfAmp _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | TyPkg _x _x_i1 -> let o = o # loc _x in let o = o # module_type _x_i1 in o | TyAnt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o ] ; method class_type : class_type -> ' self_type = fun [ CtNil _x -> let o = o # loc _x in o | CtCon _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # virtual_flag _x_i1 in let o = o # ident _x_i2 in let o = o # ctyp _x_i3 in o | CtFun _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # class_type _x_i2 in o | CtSig _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # class_sig_item _x_i2 in o | CtAnd _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # class_type _x_i1 in let o = o # class_type _x_i2 in o | CtCol _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # class_type _x_i1 in let o = o # class_type _x_i2 in o | CtEq _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # class_type _x_i1 in let o = o # class_type _x_i2 in o | CtAnt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o ] ; method class_str_item : class_str_item -> ' self_type = fun [ CrNil _x -> let o = o # loc _x in o | CrSem _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # class_str_item _x_i1 in let o = o # class_str_item _x_i2 in o | CrCtr _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | CrInh _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # override_flag _x_i1 in let o = o # class_expr _x_i2 in let o = o # string _x_i3 in o | CrIni _x _x_i1 -> let o = o # loc _x in let o = o # expr _x_i1 in o | CrMth _x _x_i1 _x_i2 _x_i3 _x_i4 _x_i5 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # override_flag _x_i2 in let o = o # private_flag _x_i3 in let o = o # expr _x_i4 in let o = o # ctyp _x_i5 in o | CrVal _x _x_i1 _x_i2 _x_i3 _x_i4 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # override_flag _x_i2 in let o = o # mutable_flag _x_i3 in let o = o # expr _x_i4 in o | CrVir _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # private_flag _x_i2 in let o = o # ctyp _x_i3 in o | CrVvr _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # mutable_flag _x_i2 in let o = o # ctyp _x_i3 in o | CrAnt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o ] ; method class_sig_item : class_sig_item -> ' self_type = fun [ CgNil _x -> let o = o # loc _x in o | CgCtr _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # ctyp _x_i1 in let o = o # ctyp _x_i2 in o | CgSem _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # class_sig_item _x_i1 in let o = o # class_sig_item _x_i2 in o | CgInh _x _x_i1 -> let o = o # loc _x in let o = o # class_type _x_i1 in o | CgMth _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # private_flag _x_i2 in let o = o # ctyp _x_i3 in o | CgVal _x _x_i1 _x_i2 _x_i3 _x_i4 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # mutable_flag _x_i2 in let o = o # virtual_flag _x_i3 in let o = o # ctyp _x_i4 in o | CgVir _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # string _x_i1 in let o = o # private_flag _x_i2 in let o = o # ctyp _x_i3 in o | CgAnt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o ] ; method class_expr : class_expr -> ' self_type = fun [ CeNil _x -> let o = o # loc _x in o | CeApp _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # class_expr _x_i1 in let o = o # expr _x_i2 in o | CeCon _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # virtual_flag _x_i1 in let o = o # ident _x_i2 in let o = o # ctyp _x_i3 in o | CeFun _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # class_expr _x_i2 in o | CeLet _x _x_i1 _x_i2 _x_i3 -> let o = o # loc _x in let o = o # rec_flag _x_i1 in let o = o # binding _x_i2 in let o = o # class_expr _x_i3 in o | CeStr _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # class_str_item _x_i2 in o | CeTyc _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # class_expr _x_i1 in let o = o # class_type _x_i2 in o | CeAnd _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # class_expr _x_i1 in let o = o # class_expr _x_i2 in o | CeEq _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # class_expr _x_i1 in let o = o # class_expr _x_i2 in o | CeAnt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o ] ; method binding : binding -> ' self_type = fun [ BiNil _x -> let o = o # loc _x in o | BiAnd _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # binding _x_i1 in let o = o # binding _x_i2 in o | BiEq _x _x_i1 _x_i2 -> let o = o # loc _x in let o = o # patt _x_i1 in let o = o # expr _x_i2 in o | BiAnt _x _x_i1 -> let o = o # loc _x in let o = o # string _x_i1 in o ] ; method unknown : ! ' a . ' a -> ' self_type = fun _ -> o ; end ; value map_expr f = object inherit map as super ; method expr = fun x -> f ( super # expr x ) ; end ; value map_patt f = object inherit map as super ; method patt = fun x -> f ( super # patt x ) ; end ; value map_ctyp f = object inherit map as super ; method ctyp = fun x -> f ( super # ctyp x ) ; end ; value map_str_item f = object inherit map as super ; method str_item = fun x -> f ( super # str_item x ) ; end ; value map_sig_item f = object inherit map as super ; method sig_item = fun x -> f ( super # sig_item x ) ; end ; value map_loc f = object inherit map as super ; method loc = fun x -> f ( super # loc x ) ; end ; end ; |
type loc = Loc . t and meta_bool = [ BTrue | BFalse | BAnt of string ] and rec_flag = [ ReRecursive | ReNil | ReAnt of string ] and direction_flag = [ DiTo | DiDownto | DiAnt of string ] and mutable_flag = [ MuMutable | MuNil | MuAnt of string ] and private_flag = [ PrPrivate | PrNil | PrAnt of string ] and virtual_flag = [ ViVirtual | ViNil | ViAnt of string ] and override_flag = [ OvOverride | OvNil | OvAnt of string ] and row_var_flag = [ RvRowVar | RvNil | RvAnt of string ] and meta_option ' a = [ ONone | OSome of ' a | OAnt of string ] and meta_list ' a = [ LNil | LCons of ' a and meta_list ' a | LAnt of string ] and ident = [ IdAcc of loc and ident and ident | IdApp of loc and ident and ident | IdLid of loc and string | IdUid of loc and string | IdAnt of loc and string ] and ctyp = [ TyNil of loc | TyAli of loc and ctyp and ctyp | TyAny of loc | TyApp of loc and ctyp and ctyp | TyArr of loc and ctyp and ctyp | TyCls of loc and ident | TyLab of loc and string and ctyp | TyId of loc and ident | TyMan of loc and ctyp and ctyp | TyDcl of loc and string and list ctyp and ctyp and list ( ctyp * ctyp ) | TyObj of loc and ctyp and row_var_flag | TyOlb of loc and string and ctyp | TyPol of loc and ctyp and ctyp | TyQuo of loc and string | TyQuP of loc and string | TyQuM of loc and string | TyVrn of loc and string | TyRec of loc and ctyp | TyCol of loc and ctyp and ctyp | TySem of loc and ctyp and ctyp | TyCom of loc and ctyp and ctyp | TySum of loc and ctyp | TyOf of loc and ctyp and ctyp | TyAnd of loc and ctyp and ctyp | TyOr of loc and ctyp and ctyp | TyPrv of loc and ctyp | TyMut of loc and ctyp | TyTup of loc and ctyp | TySta of loc and ctyp and ctyp | TyVrnEq of loc and ctyp | TyVrnSup of loc and ctyp | TyVrnInf of loc and ctyp | TyVrnInfSup of loc and ctyp and ctyp | TyAmp of loc and ctyp and ctyp | TyOfAmp of loc and ctyp and ctyp | TyPkg of loc and module_type | TyAnt of loc and string ] and patt = [ PaNil of loc | PaId of loc and ident | PaAli of loc and patt and patt | PaAnt of loc and string | PaAny of loc | PaApp of loc and patt and patt | PaArr of loc and patt | PaCom of loc and patt and patt | PaSem of loc and patt and patt | PaChr of loc and string | PaInt of loc and string | PaInt32 of loc and string | PaInt64 of loc and string | PaNativeInt of loc and string | PaFlo of loc and string | PaLab of loc and string and patt | PaOlb of loc and string and patt | PaOlbi of loc and string and patt and expr | PaOrp of loc and patt and patt | PaRng of loc and patt and patt | PaRec of loc and patt | PaEq of loc and ident and patt | PaStr of loc and string | PaTup of loc and patt | PaTyc of loc and patt and ctyp | PaTyp of loc and ident | PaVrn of loc and string | PaLaz of loc and patt ] and expr = [ ExNil of loc | ExId of loc and ident | ExAcc of loc and expr and expr | ExAnt of loc and string | ExApp of loc and expr and expr | ExAre of loc and expr and expr | ExArr of loc and expr | ExSem of loc and expr and expr | ExAsf of loc | ExAsr of loc and expr | ExAss of loc and expr and expr | ExChr of loc and string | ExCoe of loc and expr and ctyp and ctyp | ExFlo of loc and string | ExFor of loc and string and expr and expr and direction_flag and expr | ExFun of loc and match_case | ExIfe of loc and expr and expr and expr | ExInt of loc and string | ExInt32 of loc and string | ExInt64 of loc and string | ExNativeInt of loc and string | ExLab of loc and string and expr | ExLaz of loc and expr | ExLet of loc and rec_flag and binding and expr | ExLmd of loc and string and module_expr and expr | ExMat of loc and expr and match_case | ExNew of loc and ident | ExObj of loc and patt and class_str_item | ExOlb of loc and string and expr | ExOvr of loc and rec_binding | ExRec of loc and rec_binding and expr | ExSeq of loc and expr | ExSnd of loc and expr and string | ExSte of loc and expr and expr | ExStr of loc and string | ExTry of loc and expr and match_case | ExTup of loc and expr | ExCom of loc and expr and expr | ExTyc of loc and expr and ctyp | ExVrn of loc and string | ExWhi of loc and expr and expr | ExOpI of loc and ident and expr | ExFUN of loc and string and expr | ExPkg of loc and module_expr ] and module_type = [ MtNil of loc | MtId of loc and ident | MtFun of loc and string and module_type and module_type | MtQuo of loc and string | MtSig of loc and sig_item | MtWit of loc and module_type and with_constr | MtOf of loc and module_expr | MtAnt of loc and string ] and sig_item = [ SgNil of loc | SgCls of loc and class_type | SgClt of loc and class_type | SgSem of loc and sig_item and sig_item | SgDir of loc and string and expr | SgExc of loc and ctyp | SgExt of loc and string and ctyp and meta_list string | SgInc of loc and module_type | SgMod of loc and string and module_type | SgRecMod of loc and module_binding | SgMty of loc and string and module_type | SgOpn of loc and ident | SgTyp of loc and ctyp | SgVal of loc and string and ctyp | SgAnt of loc and string ] and with_constr = [ WcNil of loc | WcTyp of loc and ctyp and ctyp | WcMod of loc and ident and ident | WcTyS of loc and ctyp and ctyp | WcMoS of loc and ident and ident | WcAnd of loc and with_constr and with_constr | WcAnt of loc and string ] and binding = [ BiNil of loc | BiAnd of loc and binding and binding | BiEq of loc and patt and expr | BiAnt of loc and string ] and rec_binding = [ RbNil of loc | RbSem of loc and rec_binding and rec_binding | RbEq of loc and ident and expr | RbAnt of loc and string ] and module_binding = [ MbNil of loc | MbAnd of loc and module_binding and module_binding | MbColEq of loc and string and module_type and module_expr | MbCol of loc and string and module_type | MbAnt of loc and string ] and match_case = [ McNil of loc | McOr of loc and match_case and match_case | McArr of loc and patt and expr and expr | McAnt of loc and string ] and module_expr = [ MeNil of loc | MeId of loc and ident | MeApp of loc and module_expr and module_expr | MeFun of loc and string and module_type and module_expr | MeStr of loc and str_item | MeTyc of loc and module_expr and module_type | MePkg of loc and expr | MeAnt of loc and string ] and str_item = [ StNil of loc | StCls of loc and class_expr | StClt of loc and class_type | StSem of loc and str_item and str_item | StDir of loc and string and expr | StExc of loc and ctyp and meta_option ident | StExp of loc and expr | StExt of loc and string and ctyp and meta_list string | StInc of loc and module_expr | StMod of loc and string and module_expr | StRecMod of loc and module_binding | StMty of loc and string and module_type | StOpn of loc and ident | StTyp of loc and ctyp | StVal of loc and rec_flag and binding | StAnt of loc and string ] and class_type = [ CtNil of loc | CtCon of loc and virtual_flag and ident and ctyp | CtFun of loc and ctyp and class_type | CtSig of loc and ctyp and class_sig_item | CtAnd of loc and class_type and class_type | CtCol of loc and class_type and class_type | CtEq of loc and class_type and class_type | CtAnt of loc and string ] and class_sig_item = [ CgNil of loc | CgCtr of loc and ctyp and ctyp | CgSem of loc and class_sig_item and class_sig_item | CgInh of loc and class_type | CgMth of loc and string and private_flag and ctyp | CgVal of loc and string and mutable_flag and virtual_flag and ctyp | CgVir of loc and string and private_flag and ctyp | CgAnt of loc and string ] and class_expr = [ CeNil of loc | CeApp of loc and class_expr and expr | CeCon of loc and virtual_flag and ident and ctyp | CeFun of loc and patt and class_expr | CeLet of loc and rec_flag and binding and class_expr | CeStr of loc and patt and class_str_item | CeTyc of loc and class_expr and class_type | CeAnd of loc and class_expr and class_expr | CeEq of loc and class_expr and class_expr | CeAnt of loc and string ] and class_str_item = [ CrNil of loc | CrSem of loc and class_str_item and class_str_item | CrCtr of loc and ctyp and ctyp | CrInh of loc and override_flag and class_expr and string | CrIni of loc and expr | CrMth of loc and string and override_flag and private_flag and expr and ctyp | CrVal of loc and string and override_flag and mutable_flag and expr | CrVir of loc and string and private_flag and ctyp | CrVvr of loc and string and mutable_flag and ctyp | CrAnt of loc and string ] ; |
module Make ( Ast : Sig . Camlp4Ast ) = struct open Format ; open Camlp4_import . Parsetree ; open Camlp4_import . Longident ; open Camlp4_import . Asttypes ; open Ast ; value constructors_arity ( ) = debug ast2pt " constructors_arity : % b . " @ Camlp4_config . constructors_arity . val in Camlp4_config . constructors_arity . val ; value error loc str = Loc . raise loc ( Failure str ) ; value char_of_char_token loc s = try Token . Eval . char s with [ Failure _ as exn -> Loc . raise loc exn ] ; value string_of_string_token loc s = try Token . Eval . string s with [ Failure _ as exn -> Loc . raise loc exn ] ; value remove_underscores s = let l = String . length s in let rec remove src dst = if src >= l then if dst >= l then s else String . sub s 0 dst else match s . [ src ] with [ ' _ ' -> remove ( src + 1 ) dst | c -> do { s . [ dst ] := c ; remove ( src + 1 ) ( dst + 1 ) } ] in remove 0 0 ; value mkloc = Loc . to_ocaml_location ; value mkghloc loc = Loc . to_ocaml_location ( Loc . ghostify loc ) ; value mktyp loc d = { ptyp_desc = d ; ptyp_loc = mkloc loc } ; value mkpat loc d = { ppat_desc = d ; ppat_loc = mkloc loc } ; value mkghpat loc d = { ppat_desc = d ; ppat_loc = mkghloc loc } ; value mkexp loc d = { pexp_desc = d ; pexp_loc = mkloc loc } ; value mkmty loc d = { pmty_desc = d ; pmty_loc = mkloc loc } ; value mksig loc d = { psig_desc = d ; psig_loc = mkloc loc } ; value mkmod loc d = { pmod_desc = d ; pmod_loc = mkloc loc } ; value mkstr loc d = { pstr_desc = d ; pstr_loc = mkloc loc } ; value mkfield loc d = { pfield_desc = d ; pfield_loc = mkloc loc } ; value mkcty loc d = { pcty_desc = d ; pcty_loc = mkloc loc } ; value mkpcl loc d = { pcl_desc = d ; pcl_loc = mkloc loc } ; value mkpolytype t = match t . ptyp_desc with [ Ptyp_poly _ _ -> t | _ -> { ( t ) with ptyp_desc = Ptyp_poly [ ] t } ] ; value mkvirtual = fun [ <: virtual_flag < virtual >> -> Virtual | <: virtual_flag <>> -> Concrete | _ -> assert False ] ; value mkdirection = fun [ <: direction_flag < to >> -> Upto | <: direction_flag < downto >> -> Downto | _ -> assert False ] ; value lident s = Lident s ; value ldot l s = Ldot l s ; value lapply l s = Lapply l s ; value conv_con = let t = Hashtbl . create 73 in do { List . iter ( fun ( s , s ' ) -> Hashtbl . add t s s ' ) [ ( " True " , " true " ) ; ( " False " , " false " ) ; ( " True " , " True " ) ; ( " False " , " False " ) ] ; fun s -> try Hashtbl . find t s with [ Not_found -> s ] } ; value conv_lab = let t = Hashtbl . create 73 in do { List . iter ( fun ( s , s ' ) -> Hashtbl . add t s s ' ) [ ( " val " , " contents " ) ] ; fun s -> try Hashtbl . find t s with [ Not_found -> s ] } ; value array_function str name = ldot ( lident str ) ( if Camlp4_config . unsafe . val then " unsafe_ " ^ name else name ) ; value mkrf = fun [ <: rec_flag < rec >> -> Recursive | <: rec_flag <>> -> Nonrecursive | _ -> assert False ] ; value mkli s = loop lident where rec loop f = fun [ [ i :: il ] -> loop ( ldot ( f i ) ) il | [ ] -> f s ] ; value rec ctyp_fa al = fun [ TyApp _ f a -> ctyp_fa [ a :: al ] f | f -> ( f , al ) ] ; value ident_tag ( ? conv_lid = fun x -> x ) i = let rec self i acc = match i with [ <: ident < $ i1 . $$ i2 $ >> -> self i2 ( Some ( self i1 acc ) ) | <: ident < $ i1 $ $ i2 $ >> -> let i ' = Lapply ( fst ( self i1 None ) ) ( fst ( self i2 None ) ) in let x = match acc with [ None -> i ' | _ -> error ( loc_of_ident i ) " invalid long identifier " ] in ( x , ` app ) | <: ident < $ uid : s $ >> -> let x = match acc with [ None -> lident s | Some ( acc , ` uident | ` app ) -> ldot acc s | _ -> error ( loc_of_ident i ) " invalid long identifier " ] in ( x , ` uident ) | <: ident < $ lid : s $ >> -> let x = match acc with [ None -> lident ( conv_lid s ) | Some ( acc , ` uident | ` app ) -> ldot acc ( conv_lid s ) | _ -> error ( loc_of_ident i ) " invalid long identifier " ] in ( x , ` lident ) | _ -> error ( loc_of_ident i ) " invalid long identifier " ] in self i None ; value ident ? conv_lid i = fst ( ident_tag ? conv_lid i ) ; value long_lident msg i = match ident_tag i with [ ( i , ` lident ) -> i | _ -> error ( loc_of_ident i ) msg ] ; value long_type_ident = long_lident " invalid long identifier type " ; value long_class_ident = long_lident " invalid class name " ; value long_uident ( ? conv_con = fun x -> x ) i = match ident_tag i with [ ( Ldot i s , ` uident ) -> ldot i ( conv_con s ) | ( Lident s , ` uident ) -> lident ( conv_con s ) | ( i , ` app ) -> i | _ -> error ( loc_of_ident i ) " uppercase identifier expected " ] ; value rec ctyp_long_id_prefix t = match t with [ <: ctyp < $ id : i $ >> -> ident i | <: ctyp < $ m1 $ $ m2 $ >> -> let li1 = ctyp_long_id_prefix m1 in let li2 = ctyp_long_id_prefix m2 in Lapply li1 li2 | t -> error ( loc_of_ctyp t ) " invalid module expression " ] ; value ctyp_long_id t = match t with [ <: ctyp < $ id : i $ >> -> ( False , long_type_ident i ) | TyApp loc _ _ -> error loc " invalid type name " | TyCls _ i -> ( True , ident i ) | t -> error ( loc_of_ctyp t ) " invalid type " ] ; value rec ty_var_list_of_ctyp = fun [ <: ctyp < $ t1 $ $ t2 $ >> -> ty_var_list_of_ctyp t1 @ ty_var_list_of_ctyp t2 | <: ctyp < ' $ s $ >> -> [ s ] | _ -> assert False ] ; value rec ctyp = fun [ TyId loc i -> let li = long_type_ident i in mktyp loc ( Ptyp_constr li [ ] ) | TyAli loc t1 t2 -> let ( t , i ) = match ( t1 , t2 ) with [ ( t , TyQuo _ s ) -> ( t , s ) | ( TyQuo _ s , t ) -> ( t , s ) | _ -> error loc " invalid alias type " ] in mktyp loc ( Ptyp_alias ( ctyp t ) i ) | TyAny loc -> mktyp loc Ptyp_any | TyApp loc _ _ as f -> let ( f , al ) = ctyp_fa [ ] f in let ( is_cls , li ) = ctyp_long_id f in if is_cls then mktyp loc ( Ptyp_class li ( List . map ctyp al ) [ ] ) else mktyp loc ( Ptyp_constr li ( List . map ctyp al ) ) | TyArr loc ( TyLab _ lab t1 ) t2 -> mktyp loc ( Ptyp_arrow lab ( ctyp t1 ) ( ctyp t2 ) ) | TyArr loc ( TyOlb loc1 lab t1 ) t2 -> let t1 = TyApp loc1 <: ctyp @ loc1 < option >> t1 in mktyp loc ( Ptyp_arrow ( " " ? ^ lab ) ( ctyp t1 ) ( ctyp t2 ) ) | TyArr loc t1 t2 -> mktyp loc ( Ptyp_arrow " " ( ctyp t1 ) ( ctyp t2 ) ) | <: ctyp @ loc < < $ fl $ > >> -> mktyp loc ( Ptyp_object ( meth_list fl [ ] ) ) | <: ctyp @ loc < < $ fl $ . . > >> -> mktyp loc ( Ptyp_object ( meth_list fl [ mkfield loc Pfield_var ] ) ) | TyCls loc id -> mktyp loc ( Ptyp_class ( ident id ) [ ] [ ] ) | <: ctyp @ loc < ( module $ pt ) $ >> -> let ( i , cs ) = package_type pt in mktyp loc ( Ptyp_package i cs ) | TyLab loc _ _ -> error loc " labelled type not allowed here " | TyMan loc _ _ -> error loc " manifest type not allowed here " | TyOlb loc _ _ -> error loc " labelled type not allowed here " | TyPol loc t1 t2 -> mktyp loc ( Ptyp_poly ( ty_var_list_of_ctyp t1 ) ( ctyp t2 ) ) | TyQuo loc s -> mktyp loc ( Ptyp_var s ) | TyRec loc _ -> error loc " record type not allowed here " | TySum loc _ -> error loc " sum type not allowed here " | TyPrv loc _ -> error loc " private type not allowed here " | TyMut loc _ -> error loc " mutable type not allowed here " | TyOr loc _ _ -> error loc " type1 | type2 not allowed here " | TyAnd loc _ _ -> error loc " type1 and type2 not allowed here " | TyOf loc _ _ -> error loc " type1 of type2 not allowed here " | TyCol loc _ _ -> error loc " type1 : type2 not allowed here " | TySem loc _ _ -> error loc " type1 ; type2 not allowed here " | <: ctyp @ loc < ( $ t1 $ * $ t2 ) $ >> -> mktyp loc ( Ptyp_tuple ( List . map ctyp ( list_of_ctyp t1 ( list_of_ctyp t2 [ ] ) ) ) ) | <: ctyp @ loc < [ = $ t $ ] >> -> mktyp loc ( Ptyp_variant ( row_field t ) True None ) | <: ctyp @ loc < [ > $ t $ ] >> -> mktyp loc ( Ptyp_variant ( row_field t ) False None ) | <: ctyp @ loc < [ < $ t $ ] >> -> mktyp loc ( Ptyp_variant ( row_field t ) True ( Some [ ] ) ) | <: ctyp @ loc < [ < $ t $ > $ t ' $ ] >> -> mktyp loc ( Ptyp_variant ( row_field t ) True ( Some ( name_tags t ' ) ) ) | TyAnt loc _ -> error loc " antiquotation not allowed here " | TyOfAmp _ _ _ | TyAmp _ _ _ | TySta _ _ _ | TyCom _ _ _ | TyVrn _ _ | TyQuM _ _ | TyQuP _ _ | TyDcl _ _ _ _ _ | TyObj _ _ ( RvAnt _ ) | TyNil _ | TyTup _ _ -> assert False ] and row_field = fun [ <: ctyp <>> -> [ ] | <: ctyp < ` $ i $ >> -> [ Rtag i True [ ] ] | <: ctyp < ` $ i $ of & $ t $ >> -> [ Rtag i True ( List . map ctyp ( list_of_ctyp t [ ] ) ) ] | <: ctyp < ` $ i $ of $ t $ >> -> [ Rtag i False ( List . map ctyp ( list_of_ctyp t [ ] ) ) ] | <: ctyp < $ t1 $ | $ t2 $ >> -> row_field t1 @ row_field t2 | t -> [ Rinherit ( ctyp t ) ] ] and name_tags = fun [ <: ctyp < $ t1 $ $ t2 $ >> -> name_tags t1 @ name_tags t2 | <: ctyp < ` $ s $ >> -> [ s ] | _ -> assert False ] and meth_list fl acc = match fl with [ <: ctyp <>> -> acc | <: ctyp < $ t1 ; $ $ t2 $ >> -> meth_list t1 ( meth_list t2 acc ) | <: ctyp @ loc < $ lid : lab $ : $ t $ >> -> [ mkfield loc ( Pfield lab ( mkpolytype ( ctyp t ) ) ) :: acc ] | _ -> assert False ] and package_type_constraints wc acc = match wc with [ <: with_constr <>> -> acc | <: with_constr < type $ lid : id $ = $ ct $ >> -> [ ( id , ctyp ct ) :: acc ] | <: with_constr < $ wc1 $ and $ wc2 $ >> -> package_type_constraints wc1 ( package_type_constraints wc2 acc ) | _ -> error ( loc_of_with_constr wc ) " unexpected ` with constraint ' for a package type " ] and package_type : module_type -> package_type = fun [ <: module_type < $ id : i $ with $ wc $ >> -> ( long_uident i , package_type_constraints wc [ ] ) | <: module_type < $ id : i $ >> -> ( long_uident i , [ ] ) | mt -> error ( loc_of_module_type mt ) " unexpected package type " ] ; value mktype loc tl cl tk tp tm = let ( params , variance ) = List . split tl in { ptype_params = params ; ptype_cstrs = cl ; ptype_kind = tk ; ptype_private = tp ; ptype_manifest = tm ; ptype_loc = mkloc loc ; ptype_variance = variance } ; value mkprivate ' m = if m then Private else Public ; value mkprivate = fun [ <: private_flag < private >> -> Private | <: private_flag <>> -> Public | _ -> assert False ] ; value mktrecord = fun [ <: ctyp @ loc < $ lid : s $ : mutable $ t $ >> -> ( s , Mutable , mkpolytype ( ctyp t ) , mkloc loc ) | <: ctyp @ loc < $ lid : s $ : $ t $ >> -> ( s , Immutable , mkpolytype ( ctyp t ) , mkloc loc ) | _ -> assert False ] ; value mkvariant = fun [ <: ctyp @ loc < $ uid : s $ >> -> ( conv_con s , [ ] , mkloc loc ) | <: ctyp @ loc < $ uid : s $ of $ t $ >> -> ( conv_con s , List . map ctyp ( list_of_ctyp t [ ] ) , mkloc loc ) | _ -> assert False ] ; value rec type_decl tl cl loc m pflag = fun [ <: ctyp < $ t1 $ == $ t2 $ >> -> type_decl tl cl loc ( Some ( ctyp t1 ) ) pflag t2 | <: ctyp < private $ t $ >> -> type_decl tl cl loc m True t | <: ctyp < { $ t $ } >> -> mktype loc tl cl ( Ptype_record ( List . map mktrecord ( list_of_ctyp t [ ] ) ) ) ( mkprivate ' pflag ) m | <: ctyp < [ $ t $ ] >> -> mktype loc tl cl ( Ptype_variant ( List . map mkvariant ( list_of_ctyp t [ ] ) ) ) ( mkprivate ' pflag ) m | t -> if m <> None then error loc " only one manifest type allowed by definition " else let m = match t with [ <: ctyp <>> -> None | _ -> Some ( ctyp t ) ] in mktype loc tl cl Ptype_abstract ( mkprivate ' pflag ) m ] ; value type_decl tl cl t = type_decl tl cl ( loc_of_ctyp t ) None False t ; value mkvalue_desc t p = { pval_type = ctyp t ; pval_prim = p } ; value rec list_of_meta_list = fun [ Ast . LNil -> [ ] | Ast . LCons x xs -> [ x :: list_of_meta_list xs ] | Ast . LAnt _ -> assert False ] ; value mkmutable = fun [ <: mutable_flag < mutable >> -> Mutable | <: mutable_flag <>> -> Immutable | _ -> assert False ] ; value paolab lab p = match ( lab , p ) with [ ( " " , <: patt < $ lid : i $ >> | <: patt < ( $ lid : i $ : $ _ ) $ ) >> -> i | ( " " , p ) -> error ( loc_of_patt p ) " bad ast in label " | _ -> lab ] ; value opt_private_ctyp = fun [ <: ctyp < private $ t $ >> -> ( Ptype_abstract , Private , ctyp t ) | t -> ( Ptype_abstract , Public , ctyp t ) ] ; value rec type_parameters t acc = match t with [ <: ctyp < $ t1 $ $ t2 $ >> -> type_parameters t1 ( type_parameters t2 acc ) | <: ctyp < ' +$ s $ >> -> [ ( s , ( True , False ) ) :: acc ] | <: ctyp < ' -$ s $ >> -> [ ( s , ( False , True ) ) :: acc ] | <: ctyp < ' $ s $ >> -> [ ( s , ( False , False ) ) :: acc ] | _ -> assert False ] ; value rec class_parameters t acc = match t with [ <: ctyp < $ t1 , $ $ t2 $ >> -> class_parameters t1 ( class_parameters t2 acc ) | <: ctyp < ' +$ s $ >> -> [ ( s , ( True , False ) ) :: acc ] | <: ctyp < ' -$ s $ >> -> [ ( s , ( False , True ) ) :: acc ] | <: ctyp < ' $ s $ >> -> [ ( s , ( False , False ) ) :: acc ] | _ -> assert False ] ; value rec type_parameters_and_type_name t acc = match t with [ <: ctyp < $ t1 $ $ t2 $ >> -> type_parameters_and_type_name t1 ( type_parameters t2 acc ) | <: ctyp < $ id : i $ >> -> ( ident i , acc ) | _ -> assert False ] ; value mkwithtyp pwith_type loc id_tpl ct = let ( id , tpl ) = type_parameters_and_type_name id_tpl [ ] in let ( params , variance ) = List . split tpl in let ( kind , priv , ct ) = opt_private_ctyp ct in ( id , pwith_type { ptype_params = params ; ptype_cstrs = [ ] ; ptype_kind = kind ; ptype_private = priv ; ptype_manifest = Some ct ; ptype_loc = mkloc loc ; ptype_variance = variance } ) ; value rec mkwithc wc acc = match wc with [ <: with_constr <>> -> acc | <: with_constr @ loc < type $ id_tpl $ = $ ct $ >> -> [ mkwithtyp ( fun x -> Pwith_type x ) loc id_tpl ct :: acc ] | <: with_constr < module $ i1 $ = $ i2 $ >> -> [ ( long_uident i1 , Pwith_module ( long_uident i2 ) ) :: acc ] | <: with_constr @ loc < type $ id_tpl $ := $ ct $ >> -> [ mkwithtyp ( fun x -> Pwith_typesubst x ) loc id_tpl ct :: acc ] | <: with_constr < module $ i1 $ := $ i2 $ >> -> [ ( long_uident i1 , Pwith_modsubst ( long_uident i2 ) ) :: acc ] | <: with_constr < $ wc1 $ and $ wc2 $ >> -> mkwithc wc1 ( mkwithc wc2 acc ) | <: with_constr @ loc < $ anti : _ $ >> -> error loc " bad with constraint ( antiquotation ) " ] ; value rec patt_fa al = fun [ PaApp _ f a -> patt_fa [ a :: al ] f | f -> ( f , al ) ] ; value rec deep_mkrangepat loc c1 c2 = if c1 = c2 then mkghpat loc ( Ppat_constant ( Const_char c1 ) ) else mkghpat loc ( Ppat_or ( mkghpat loc ( Ppat_constant ( Const_char c1 ) ) ) ( deep_mkrangepat loc ( Char . chr ( Char . code c1 + 1 ) ) c2 ) ) ; value rec mkrangepat loc c1 c2 = if c1 > c2 then mkrangepat loc c2 c1 else if c1 = c2 then mkpat loc ( Ppat_constant ( Const_char c1 ) ) else mkpat loc ( Ppat_or ( mkghpat loc ( Ppat_constant ( Const_char c1 ) ) ) ( deep_mkrangepat loc ( Char . chr ( Char . code c1 + 1 ) ) c2 ) ) ; value rec patt = fun [ <: patt @ loc < $ lid : s $ >> -> mkpat loc ( Ppat_var s ) | <: patt @ loc < $ id : i $ >> -> let p = Ppat_construct ( long_uident ~ conv_con i ) None ( constructors_arity ( ) ) in mkpat loc p | PaAli loc p1 p2 -> let ( p , i ) = match ( p1 , p2 ) with [ ( p , <: patt < $ lid : s $ ) >> -> ( p , s ) | ( <: patt < $ lid : s $ , >> p ) -> ( p , s ) | _ -> error loc " invalid alias pattern " ] in mkpat loc ( Ppat_alias ( patt p ) i ) | PaAnt loc _ -> error loc " antiquotation not allowed here " | PaAny loc -> mkpat loc Ppat_any | <: patt @ loc < $ uid : s $ ( $ tup :<: patt @ loc_any < _ ) >>$ >> -> mkpat loc ( Ppat_construct ( lident ( conv_con s ) ) ( Some ( mkpat loc_any Ppat_any ) ) False ) | PaApp loc _ _ as f -> let ( f , al ) = patt_fa [ ] f in let al = List . map patt al in match ( patt f ) . ppat_desc with [ Ppat_construct li None _ -> if constructors_arity ( ) then mkpat loc ( Ppat_construct li ( Some ( mkpat loc ( Ppat_tuple al ) ) ) True ) else let a = match al with [ [ a ] -> a | _ -> mkpat loc ( Ppat_tuple al ) ] in mkpat loc ( Ppat_construct li ( Some a ) False ) | Ppat_variant s None -> let a = if constructors_arity ( ) then mkpat loc ( Ppat_tuple al ) else match al with [ [ a ] -> a | _ -> mkpat loc ( Ppat_tuple al ) ] in mkpat loc ( Ppat_variant s ( Some a ) ) | _ -> error ( loc_of_patt f ) " this is not a constructor , it cannot be applied in a pattern " ] | PaArr loc p -> mkpat loc ( Ppat_array ( List . map patt ( list_of_patt p [ ] ) ) ) | PaChr loc s -> mkpat loc ( Ppat_constant ( Const_char ( char_of_char_token loc s ) ) ) | PaInt loc s -> let i = try int_of_string s with [ Failure _ -> error loc " Integer literal exceeds the range of representable integers of type int " ] in mkpat loc ( Ppat_constant ( Const_int i ) ) | PaInt32 loc s -> let i32 = try Int32 . of_string s with [ Failure _ -> error loc " Integer literal exceeds the range of representable integers of type int32 " ] in mkpat loc ( Ppat_constant ( Const_int32 i32 ) ) | PaInt64 loc s -> let i64 = try Int64 . of_string s with [ Failure _ -> error loc " Integer literal exceeds the range of representable integers of type int64 " ] in mkpat loc ( Ppat_constant ( Const_int64 i64 ) ) | PaNativeInt loc s -> let nati = try Nativeint . of_string s with [ Failure _ -> error loc " Integer literal exceeds the range of representable integers of type nativeint " ] in mkpat loc ( Ppat_constant ( Const_nativeint nati ) ) | PaFlo loc s -> mkpat loc ( Ppat_constant ( Const_float ( remove_underscores s ) ) ) | PaLab loc _ _ -> error loc " labeled pattern not allowed here " | PaOlb loc _ _ | PaOlbi loc _ _ _ -> error loc " labeled pattern not allowed here " | PaOrp loc p1 p2 -> mkpat loc ( Ppat_or ( patt p1 ) ( patt p2 ) ) | PaRng loc p1 p2 -> match ( p1 , p2 ) with [ ( PaChr loc1 c1 , PaChr loc2 c2 ) -> let c1 = char_of_char_token loc1 c1 in let c2 = char_of_char_token loc2 c2 in mkrangepat loc c1 c2 | _ -> error loc " range pattern allowed only for characters " ] | PaRec loc p -> let ps = list_of_patt p [ ] in let is_wildcard = fun [ <: patt < _ >> -> True | _ -> False ] in let ( wildcards , ps ) = List . partition is_wildcard ps in let is_closed = if wildcards = [ ] then Closed else Open in mkpat loc ( Ppat_record ( List . map mklabpat ps , is_closed ) ) | PaStr loc s -> mkpat loc ( Ppat_constant ( Const_string ( string_of_string_token loc s ) ) ) | <: patt @ loc < ( $ p1 , $ $ p2 ) $ >> -> mkpat loc ( Ppat_tuple ( List . map patt ( list_of_patt p1 ( list_of_patt p2 [ ] ) ) ) ) | <: patt @ loc < ( $ tup : _ ) $ >> -> error loc " singleton tuple pattern " | PaTyc loc p t -> mkpat loc ( Ppat_constraint ( patt p ) ( ctyp t ) ) | PaTyp loc i -> mkpat loc ( Ppat_type ( long_type_ident i ) ) | PaVrn loc s -> mkpat loc ( Ppat_variant s None ) | PaLaz loc p -> mkpat loc ( Ppat_lazy ( patt p ) ) | PaEq _ _ _ | PaSem _ _ _ | PaCom _ _ _ | PaNil _ as p -> error ( loc_of_patt p ) " invalid pattern " ] and mklabpat = fun [ <: patt < $ i $ = $ p $ >> -> ( ident ~ conv_lid : conv_lab i , patt p ) | p -> error ( loc_of_patt p ) " invalid pattern " ] ; value rec expr_fa al = fun [ ExApp _ f a -> expr_fa [ a :: al ] f | f -> ( f , al ) ] ; value rec class_expr_fa al = fun [ CeApp _ ce a -> class_expr_fa [ a :: al ] ce | ce -> ( ce , al ) ] ; value rec sep_expr_acc l = fun [ ExAcc _ e1 e2 -> sep_expr_acc ( sep_expr_acc l e2 ) e1 | <: expr @ loc < $ uid : s $ >> as e -> match l with [ [ ] -> [ ( loc , [ ] , e ) ] | [ ( loc ' , sl , e ) :: l ] -> [ ( Loc . merge loc loc ' , [ s :: sl ] , e ) :: l ] ] | <: expr < $ id ( :<: ident < $ _ . $$ _ $ >> as i ) $ >> -> let rec normalize_acc = fun [ <: ident @ _loc < $ i1 . $$ i2 $ >> -> <: expr < $ normalize_acc i1 . $$ normalize_acc i2 $ >> | <: ident @ _loc < $ i1 $ $ i2 $ >> -> <: expr < $ normalize_acc i1 $ $ normalize_acc i2 $ >> | <: ident @ _loc < $ anti : _ $ >> | <: ident @ _loc < $ uid : _ $ >> | <: ident @ _loc < $ lid : _ $ >> as i -> <: expr < $ id : i $ >> ] in sep_expr_acc l ( normalize_acc i ) | e -> [ ( loc_of_expr e , [ ] , e ) :: l ] ] ; value override_flag loc = fun [ <: override_flag < ! >> -> Override | <: override_flag <>> -> Fresh | _ -> error loc " antiquotation not allowed here " ] ; value list_of_opt_ctyp ot acc = match ot with [ <: ctyp <>> -> acc | t -> list_of_ctyp t acc ] ; value rec expr = fun [ <: expr @ loc < $ x . $ val >> -> mkexp loc ( Pexp_apply ( mkexp loc ( Pexp_ident ( Lident " " ) ) ) ! [ ( " " , expr x ) ] ) | ExAcc loc _ _ | <: expr @ loc < $ id :<: ident < $ _ $ . $ _ $ >>$ >> as e -> let ( e , l ) = match sep_expr_acc [ ] e with [ [ ( loc , ml , <: expr < $ uid : s $ ) >> :: l ] -> let ca = constructors_arity ( ) in ( mkexp loc ( Pexp_construct ( mkli ( conv_con s ) ml ) None ca ) , l ) | [ ( loc , ml , <: expr < $ lid : s $ ) >> :: l ] -> ( mkexp loc ( Pexp_ident ( mkli s ml ) ) , l ) | [ ( _ , [ ] , e ) :: l ] -> ( expr e , l ) | _ -> error loc " bad ast in expression " ] in let ( _ , e ) = List . fold_left ( fun ( loc_bp , e1 ) ( loc_ep , ml , e2 ) -> match e2 with [ <: expr < $ lid : s $ >> -> let loc = Loc . merge loc_bp loc_ep in ( loc , mkexp loc ( Pexp_field e1 ( mkli ( conv_lab s ) ml ) ) ) | _ -> error ( loc_of_expr e2 ) " lowercase identifier expected " ] ) ( loc , e ) l in e | ExAnt loc _ -> error loc " antiquotation not allowed here " | ExApp loc _ _ as f -> let ( f , al ) = expr_fa [ ] f in let al = List . map label_expr al in match ( expr f ) . pexp_desc with [ Pexp_construct li None _ -> let al = List . map snd al in if constructors_arity ( ) then mkexp loc ( Pexp_construct li ( Some ( mkexp loc ( Pexp_tuple al ) ) ) True ) else let a = match al with [ [ a ] -> a | _ -> mkexp loc ( Pexp_tuple al ) ] in mkexp loc ( Pexp_construct li ( Some a ) False ) | Pexp_variant s None -> let al = List . map snd al in let a = if constructors_arity ( ) then mkexp loc ( Pexp_tuple al ) else match al with [ [ a ] -> a | _ -> mkexp loc ( Pexp_tuple al ) ] in mkexp loc ( Pexp_variant s ( Some a ) ) | _ -> mkexp loc ( Pexp_apply ( expr f ) al ) ] | ExAre loc e1 e2 -> mkexp loc ( Pexp_apply ( mkexp loc ( Pexp_ident ( array_function " Array " " get " ) ) ) [ ( " " , expr e1 ) ; ( " " , expr e2 ) ] ) | ExArr loc e -> mkexp loc ( Pexp_array ( List . map expr ( list_of_expr e [ ] ) ) ) | ExAsf loc -> mkexp loc Pexp_assertfalse | ExAss loc e v -> let e = match e with [ <: expr @ loc < $ x . $ val >> -> Pexp_apply ( mkexp loc ( Pexp_ident ( Lident " " ) ) ) := [ ( " " , expr x ) ; ( " " , expr v ) ] | ExAcc loc _ _ -> match ( expr e ) . pexp_desc with [ Pexp_field e lab -> Pexp_setfield e lab ( expr v ) | _ -> error loc " bad record access " ] | ExAre _ e1 e2 -> Pexp_apply ( mkexp loc ( Pexp_ident ( array_function " Array " " set " ) ) ) [ ( " " , expr e1 ) ; ( " " , expr e2 ) ; ( " " , expr v ) ] | <: expr < $ lid : lab $ >> -> Pexp_setinstvar lab ( expr v ) | ExSte _ e1 e2 -> Pexp_apply ( mkexp loc ( Pexp_ident ( array_function " String " " set " ) ) ) [ ( " " , expr e1 ) ; ( " " , expr e2 ) ; ( " " , expr v ) ] | _ -> error loc " bad left part of assignment " ] in mkexp loc e | ExAsr loc e -> mkexp loc ( Pexp_assert ( expr e ) ) | ExChr loc s -> mkexp loc ( Pexp_constant ( Const_char ( char_of_char_token loc s ) ) ) | ExCoe loc e t1 t2 -> let t1 = match t1 with [ <: ctyp <>> -> None | t -> Some ( ctyp t ) ] in mkexp loc ( Pexp_constraint ( expr e ) t1 ( Some ( ctyp t2 ) ) ) | ExFlo loc s -> mkexp loc ( Pexp_constant ( Const_float ( remove_underscores s ) ) ) | ExFor loc i e1 e2 df el -> let e3 = ExSeq loc el in mkexp loc ( Pexp_for i ( expr e1 ) ( expr e2 ) ( mkdirection df ) ( expr e3 ) ) | <: expr @ loc < fun [ $ PaLab _ lab po $ when $ w $ -> $ e $ ] >> -> mkexp loc ( Pexp_function lab None [ ( patt_of_lab loc lab po , when_expr e w ) ] ) | <: expr @ loc < fun [ $ PaOlbi _ lab p e1 $ when $ w $ -> $ e2 $ ] >> -> let lab = paolab lab p in mkexp loc ( Pexp_function ( " " ? ^ lab ) ( Some ( expr e1 ) ) [ ( patt p , when_expr e2 w ) ] ) | <: expr @ loc < fun [ $ PaOlb _ lab p $ when $ w $ -> $ e $ ] >> -> let lab = paolab lab p in mkexp loc ( Pexp_function ( " " ? ^ lab ) None [ ( patt_of_lab loc lab p , when_expr e w ) ] ) | ExFun loc a -> mkexp loc ( Pexp_function " " None ( match_case a [ ] ) ) | ExIfe loc e1 e2 e3 -> mkexp loc ( Pexp_ifthenelse ( expr e1 ) ( expr e2 ) ( Some ( expr e3 ) ) ) | ExInt loc s -> let i = try int_of_string s with [ Failure _ -> error loc " Integer literal exceeds the range of representable integers of type int " ] in mkexp loc ( Pexp_constant ( Const_int i ) ) | ExInt32 loc s -> let i32 = try Int32 . of_string s with [ Failure _ -> error loc " Integer literal exceeds the range of representable integers of type int32 " ] in mkexp loc ( Pexp_constant ( Const_int32 i32 ) ) | ExInt64 loc s -> let i64 = try Int64 . of_string s with [ Failure _ -> error loc " Integer literal exceeds the range of representable integers of type int64 " ] in mkexp loc ( Pexp_constant ( Const_int64 i64 ) ) | ExNativeInt loc s -> let nati = try Nativeint . of_string s with [ Failure _ -> error loc " Integer literal exceeds the range of representable integers of type nativeint " ] in mkexp loc ( Pexp_constant ( Const_nativeint nati ) ) | ExLab loc _ _ -> error loc " labeled expression not allowed here " | ExLaz loc e -> mkexp loc ( Pexp_lazy ( expr e ) ) | ExLet loc rf bi e -> mkexp loc ( Pexp_let ( mkrf rf ) ( binding bi [ ] ) ( expr e ) ) | ExLmd loc i me e -> mkexp loc ( Pexp_letmodule i ( module_expr me ) ( expr e ) ) | ExMat loc e a -> mkexp loc ( Pexp_match ( expr e ) ( match_case a [ ] ) ) | ExNew loc id -> mkexp loc ( Pexp_new ( long_type_ident id ) ) | ExObj loc po cfl -> let p = match po with [ <: patt <>> -> <: patt @ loc < _ >> | p -> p ] in let cil = class_str_item cfl [ ] in mkexp loc ( Pexp_object ( patt p , cil ) ) | ExOlb loc _ _ -> error loc " labeled expression not allowed here " | ExOvr loc iel -> mkexp loc ( Pexp_override ( mkideexp iel [ ] ) ) | ExRec loc lel eo -> match lel with [ <: rec_binding <>> -> error loc " empty record " | _ -> let eo = match eo with [ <: expr <>> -> None | e -> Some ( expr e ) ] in mkexp loc ( Pexp_record ( mklabexp lel [ ] ) eo ) ] | ExSeq _loc e -> let rec loop = fun [ [ ] -> expr <: expr < ( ) >> | [ e ] -> expr e | [ e :: el ] -> let _loc = Loc . merge ( loc_of_expr e ) _loc in mkexp _loc ( Pexp_sequence ( expr e ) ( loop el ) ) ] in loop ( list_of_expr e [ ] ) | ExSnd loc e s -> mkexp loc ( Pexp_send ( expr e ) s ) | ExSte loc e1 e2 -> mkexp loc ( Pexp_apply ( mkexp loc ( Pexp_ident ( array_function " String " " get " ) ) ) [ ( " " , expr e1 ) ; ( " " , expr e2 ) ] ) | ExStr loc s -> mkexp loc ( Pexp_constant ( Const_string ( string_of_string_token loc s ) ) ) | ExTry loc e a -> mkexp loc ( Pexp_try ( expr e ) ( match_case a [ ] ) ) | <: expr @ loc < ( $ e1 , $ $ e2 ) $ >> -> mkexp loc ( Pexp_tuple ( List . map expr ( list_of_expr e1 ( list_of_expr e2 [ ] ) ) ) ) | <: expr @ loc < ( $ tup : _ ) $ >> -> error loc " singleton tuple " | ExTyc loc e t -> mkexp loc ( Pexp_constraint ( expr e ) ( Some ( ctyp t ) ) None ) | <: expr @ loc < ( ) >> -> mkexp loc ( Pexp_construct ( lident " ( ) " ) None True ) | <: expr @ loc < $ lid : s $ >> -> mkexp loc ( Pexp_ident ( lident s ) ) | <: expr @ loc < $ uid : s $ >> -> mkexp loc ( Pexp_construct ( lident ( conv_con s ) ) None True ) | ExVrn loc s -> mkexp loc ( Pexp_variant s None ) | ExWhi loc e1 el -> let e2 = ExSeq loc el in mkexp loc ( Pexp_while ( expr e1 ) ( expr e2 ) ) | <: expr @ loc < let open $ i $ in $ e $ >> -> mkexp loc ( Pexp_open ( long_uident i ) ( expr e ) ) | <: expr @ loc < ( module $ me $ : $ pt ) $ >> -> mkexp loc ( Pexp_pack ( module_expr me ) ( package_type pt ) ) | <: expr @ loc < ( module $ _ ) $ >> -> error loc " ( module_expr : package_type ) expected here " | ExFUN loc i e -> mkexp loc ( Pexp_newtype i ( expr e ) ) | <: expr @ loc < $ _ , $$ _ $ >> -> error loc " expr , expr : not allowed here " | <: expr @ loc < $ _ ; $$ _ $ >> -> error loc " expr ; expr : not allowed here , use do { . . . } or [ . . . ] || to surround them " | ExId _ _ | ExNil _ as e -> error ( loc_of_expr e ) " invalid expr " ] and patt_of_lab _loc lab = fun [ <: patt <>> -> patt <: patt < $ lid : lab $ >> | p -> patt p ] and expr_of_lab _loc lab = fun [ <: expr <>> -> expr <: expr < $ lid : lab $ >> | e -> expr e ] and label_expr = fun [ ExLab loc lab eo -> ( lab , expr_of_lab loc lab eo ) | ExOlb loc lab eo -> ( " " ? ^ lab , expr_of_lab loc lab eo ) | e -> ( " " , expr e ) ] and binding x acc = match x with [ <: binding < $ x $ and $ y $ >> -> binding x ( binding y acc ) | <: binding @ _loc < $ p $ = ( $ e $ : ! $ vs $ . $ ty ) $ >> -> [ ( patt <: patt < ( $ p $ : ! $ vs $ . $ ty $ ) , >> expr e ) :: acc ] | <: binding < $ p $ = $ e $ >> -> [ ( patt p , expr e ) :: acc ] | <: binding <>> -> acc | _ -> assert False ] and match_case x acc = match x with [ <: match_case < $ x $ | $ y $ >> -> match_case x ( match_case y acc ) | <: match_case < $ pat : p $ when $ w $ -> $ e $ >> -> [ ( patt p , when_expr e w ) :: acc ] | <: match_case <>> -> acc | _ -> assert False ] and when_expr e w = match w with [ <: expr <>> -> expr e | w -> mkexp ( loc_of_expr w ) ( Pexp_when ( expr w ) ( expr e ) ) ] and mklabexp x acc = match x with [ <: rec_binding < $ x ; $ $ y $ >> -> mklabexp x ( mklabexp y acc ) | <: rec_binding < $ i $ = $ e $ >> -> [ ( ident ~ conv_lid : conv_lab i , expr e ) :: acc ] | _ -> assert False ] and mkideexp x acc = match x with [ <: rec_binding <>> -> acc | <: rec_binding < $ x ; $ $ y $ >> -> mkideexp x ( mkideexp y acc ) | <: rec_binding < $ lid : s $ = $ e $ >> -> [ ( s , expr e ) :: acc ] | _ -> assert False ] and mktype_decl x acc = match x with [ <: ctyp < $ x $ and $ y $ >> -> mktype_decl x ( mktype_decl y acc ) | Ast . TyDcl _ c tl td cl -> let cl = List . map ( fun ( t1 , t2 ) -> let loc = Loc . merge ( loc_of_ctyp t1 ) ( loc_of_ctyp t2 ) in ( ctyp t1 , ctyp t2 , mkloc loc ) ) cl in [ ( c , type_decl ( List . fold_right type_parameters tl [ ] ) cl td ) :: acc ] | _ -> assert False ] and module_type = fun [ <: module_type @ loc <>> -> error loc " abstract / nil module type not allowed here " | <: module_type @ loc < $ id : i $ >> -> mkmty loc ( Pmty_ident ( long_uident i ) ) | <: module_type @ loc < functor ( $ n $ : $ nt ) $ -> $ mt $ >> -> mkmty loc ( Pmty_functor n ( module_type nt ) ( module_type mt ) ) | <: module_type @ loc < ' $ _ $ >> -> error loc " module type variable not allowed here " | <: module_type @ loc < sig $ sl $ end >> -> mkmty loc ( Pmty_signature ( sig_item sl [ ] ) ) | <: module_type @ loc < $ mt $ with $ wc $ >> -> mkmty loc ( Pmty_with ( module_type mt ) ( mkwithc wc [ ] ) ) | <: module_type @ loc < module type of $ me $ >> -> mkmty loc ( Pmty_typeof ( module_expr me ) ) | <: module_type < $ anti : _ $ >> -> assert False ] and sig_item s l = match s with [ <: sig_item <>> -> l | SgCls loc cd -> [ mksig loc ( Psig_class ( List . map class_info_class_type ( list_of_class_type cd [ ] ) ) ) :: l ] | SgClt loc ctd -> [ mksig loc ( Psig_class_type ( List . map class_info_class_type ( list_of_class_type ctd [ ] ) ) ) :: l ] | <: sig_item < $ sg1 ; $ $ sg2 $ >> -> sig_item sg1 ( sig_item sg2 l ) | SgDir _ _ _ -> l | <: sig_item @ loc < exception $ uid : s $ >> -> [ mksig loc ( Psig_exception ( conv_con s ) [ ] ) :: l ] | <: sig_item @ loc < exception $ uid : s $ of $ t $ >> -> [ mksig loc ( Psig_exception ( conv_con s ) ( List . map ctyp ( list_of_ctyp t [ ] ) ) ) :: l ] | SgExc _ _ -> assert False | SgExt loc n t sl -> [ mksig loc ( Psig_value n ( mkvalue_desc t ( list_of_meta_list sl ) ) ) :: l ] | SgInc loc mt -> [ mksig loc ( Psig_include ( module_type mt ) ) :: l ] | SgMod loc n mt -> [ mksig loc ( Psig_module n ( module_type mt ) ) :: l ] | SgRecMod loc mb -> [ mksig loc ( Psig_recmodule ( module_sig_binding mb [ ] ) ) :: l ] | SgMty loc n mt -> let si = match mt with [ MtQuo _ _ -> Pmodtype_abstract | _ -> Pmodtype_manifest ( module_type mt ) ] in [ mksig loc ( Psig_modtype n si ) :: l ] | SgOpn loc id -> [ mksig loc ( Psig_open ( long_uident id ) ) :: l ] | SgTyp loc tdl -> [ mksig loc ( Psig_type ( mktype_decl tdl [ ] ) ) :: l ] | SgVal loc n t -> [ mksig loc ( Psig_value n ( mkvalue_desc t [ ] ) ) :: l ] | <: sig_item @ loc < $ anti : _ $ >> -> error loc " antiquotation in sig_item " ] and module_sig_binding x acc = match x with [ <: module_binding < $ x $ and $ y $ >> -> module_sig_binding x ( module_sig_binding y acc ) | <: module_binding < $ s $ : $ mt $ >> -> [ ( s , module_type mt ) :: acc ] | _ -> assert False ] and module_str_binding x acc = match x with [ <: module_binding < $ x $ and $ y $ >> -> module_str_binding x ( module_str_binding y acc ) | <: module_binding < $ s $ : $ mt $ = $ me $ >> -> [ ( s , module_type mt , module_expr me ) :: acc ] | _ -> assert False ] and module_expr = fun [ <: module_expr @ loc <>> -> error loc " nil module expression " | <: module_expr @ loc < $ id : i $ >> -> mkmod loc ( Pmod_ident ( long_uident i ) ) | <: module_expr @ loc < $ me1 $ $ me2 $ >> -> mkmod loc ( Pmod_apply ( module_expr me1 ) ( module_expr me2 ) ) | <: module_expr @ loc < functor ( $ n $ : $ mt ) $ -> $ me $ >> -> mkmod loc ( Pmod_functor n ( module_type mt ) ( module_expr me ) ) | <: module_expr @ loc < struct $ sl $ end >> -> mkmod loc ( Pmod_structure ( str_item sl [ ] ) ) | <: module_expr @ loc < ( $ me $ : $ mt ) $ >> -> mkmod loc ( Pmod_constraint ( module_expr me ) ( module_type mt ) ) | <: module_expr @ loc < ( value $ e $ : $ pt ) $ >> -> mkmod loc ( Pmod_unpack ( expr e ) ( package_type pt ) ) | <: module_expr @ loc < ( value $ _ ) $ >> -> error loc " ( value expr ) not supported yet " | <: module_expr @ loc < $ anti : _ $ >> -> error loc " antiquotation in module_expr " ] and str_item s l = match s with [ <: str_item <>> -> l | StCls loc cd -> [ mkstr loc ( Pstr_class ( List . map class_info_class_expr ( list_of_class_expr cd [ ] ) ) ) :: l ] | StClt loc ctd -> [ mkstr loc ( Pstr_class_type ( List . map class_info_class_type ( list_of_class_type ctd [ ] ) ) ) :: l ] | <: str_item < $ st1 ; $ $ st2 $ >> -> str_item st1 ( str_item st2 l ) | StDir _ _ _ -> l | <: str_item @ loc < exception $ uid : s $ >> -> [ mkstr loc ( Pstr_exception ( conv_con s ) [ ] ) :: l ] | <: str_item @ loc < exception $ uid : s $ of $ t $ >> -> [ mkstr loc ( Pstr_exception ( conv_con s ) ( List . map ctyp ( list_of_ctyp t [ ] ) ) ) :: l ] | <: str_item @ loc < exception $ uid : s $ = $ i $ >> -> [ mkstr loc ( Pstr_exn_rebind ( conv_con s ) ( ident i ) ) :: l ] | StExc _ _ _ -> assert False | StExp loc e -> [ mkstr loc ( Pstr_eval ( expr e ) ) :: l ] | StExt loc n t sl -> [ mkstr loc ( Pstr_primitive n ( mkvalue_desc t ( list_of_meta_list sl ) ) ) :: l ] | StInc loc me -> [ mkstr loc ( Pstr_include ( module_expr me ) ) :: l ] | StMod loc n me -> [ mkstr loc ( Pstr_module n ( module_expr me ) ) :: l ] | StRecMod loc mb -> [ mkstr loc ( Pstr_recmodule ( module_str_binding mb [ ] ) ) :: l ] | StMty loc n mt -> [ mkstr loc ( Pstr_modtype n ( module_type mt ) ) :: l ] | StOpn loc id -> [ mkstr loc ( Pstr_open ( long_uident id ) ) :: l ] | StTyp loc tdl -> [ mkstr loc ( Pstr_type ( mktype_decl tdl [ ] ) ) :: l ] | StVal loc rf bi -> [ mkstr loc ( Pstr_value ( mkrf rf ) ( binding bi [ ] ) ) :: l ] | <: str_item @ loc < $ anti : _ $ >> -> error loc " antiquotation in str_item " ] and class_type = fun [ CtCon loc ViNil id tl -> mkcty loc ( Pcty_constr ( long_class_ident id ) ( List . map ctyp ( list_of_opt_ctyp tl [ ] ) ) ) | CtFun loc ( TyLab _ lab t ) ct -> mkcty loc ( Pcty_fun lab ( ctyp t ) ( class_type ct ) ) | CtFun loc ( TyOlb loc1 lab t ) ct -> let t = TyApp loc1 <: ctyp @ loc1 < option >> t in mkcty loc ( Pcty_fun ( " " ? ^ lab ) ( ctyp t ) ( class_type ct ) ) | CtFun loc t ct -> mkcty loc ( Pcty_fun " " ( ctyp t ) ( class_type ct ) ) | CtSig loc t_o ctfl -> let t = match t_o with [ <: ctyp <>> -> <: ctyp @ loc < _ >> | t -> t ] in let cil = class_sig_item ctfl [ ] in mkcty loc ( Pcty_signature ( ctyp t , cil ) ) | CtCon loc _ _ _ -> error loc " invalid virtual class inside a class type " | CtAnt _ _ | CtEq _ _ _ | CtCol _ _ _ | CtAnd _ _ _ | CtNil _ -> assert False ] and class_info_class_expr ci = match ci with [ CeEq _ ( CeCon loc vir ( IdLid _ name ) params ) ce -> let ( loc_params , ( params , variance ) ) = match params with [ <: ctyp <>> -> ( loc , ( [ ] , [ ] ) ) | t -> ( loc_of_ctyp t , List . split ( class_parameters t [ ] ) ) ] in { pci_virt = mkvirtual vir ; pci_params = ( params , mkloc loc_params ) ; pci_name = name ; pci_expr = class_expr ce ; pci_loc = mkloc loc ; pci_variance = variance } | ce -> error ( loc_of_class_expr ce ) " bad class definition " ] and class_info_class_type ci = match ci with [ CtEq _ ( CtCon loc vir ( IdLid _ name ) params ) ct | CtCol _ ( CtCon loc vir ( IdLid _ name ) params ) ct -> let ( loc_params , ( params , variance ) ) = match params with [ <: ctyp <>> -> ( loc , ( [ ] , [ ] ) ) | t -> ( loc_of_ctyp t , List . split ( class_parameters t [ ] ) ) ] in { pci_virt = mkvirtual vir ; pci_params = ( params , mkloc loc_params ) ; pci_name = name ; pci_expr = class_type ct ; pci_loc = mkloc loc ; pci_variance = variance } | ct -> error ( loc_of_class_type ct ) " bad class / class type declaration / definition " ] and class_sig_item c l = match c with [ <: class_sig_item <>> -> l | CgCtr loc t1 t2 -> [ Pctf_cstr ( ctyp t1 , ctyp t2 , mkloc loc ) :: l ] | <: class_sig_item < $ csg1 ; $ $ csg2 $ >> -> class_sig_item csg1 ( class_sig_item csg2 l ) | CgInh _ ct -> [ Pctf_inher ( class_type ct ) :: l ] | CgMth loc s pf t -> [ Pctf_meth ( s , mkprivate pf , mkpolytype ( ctyp t ) , mkloc loc ) :: l ] | CgVal loc s b v t -> [ Pctf_val ( s , mkmutable b , mkvirtual v , ctyp t , mkloc loc ) :: l ] | CgVir loc s b t -> [ Pctf_virt ( s , mkprivate b , mkpolytype ( ctyp t ) , mkloc loc ) :: l ] | CgAnt _ _ -> assert False ] and class_expr = fun [ CeApp loc _ _ as c -> let ( ce , el ) = class_expr_fa [ ] c in let el = List . map label_expr el in mkpcl loc ( Pcl_apply ( class_expr ce ) el ) | CeCon loc ViNil id tl -> mkpcl loc ( Pcl_constr ( long_class_ident id ) ( List . map ctyp ( list_of_opt_ctyp tl [ ] ) ) ) | CeFun loc ( PaLab _ lab po ) ce -> mkpcl loc ( Pcl_fun lab None ( patt_of_lab loc lab po ) ( class_expr ce ) ) | CeFun loc ( PaOlbi _ lab p e ) ce -> let lab = paolab lab p in mkpcl loc ( Pcl_fun ( " " ? ^ lab ) ( Some ( expr e ) ) ( patt p ) ( class_expr ce ) ) | CeFun loc ( PaOlb _ lab p ) ce -> let lab = paolab lab p in mkpcl loc ( Pcl_fun ( " " ? ^ lab ) None ( patt_of_lab loc lab p ) ( class_expr ce ) ) | CeFun loc p ce -> mkpcl loc ( Pcl_fun " " None ( patt p ) ( class_expr ce ) ) | CeLet loc rf bi ce -> mkpcl loc ( Pcl_let ( mkrf rf ) ( binding bi [ ] ) ( class_expr ce ) ) | CeStr loc po cfl -> let p = match po with [ <: patt <>> -> <: patt @ loc < _ >> | p -> p ] in let cil = class_str_item cfl [ ] in mkpcl loc ( Pcl_structure ( patt p , cil ) ) | CeTyc loc ce ct -> mkpcl loc ( Pcl_constraint ( class_expr ce ) ( class_type ct ) ) | CeCon loc _ _ _ -> error loc " invalid virtual class inside a class expression " | CeAnt _ _ | CeEq _ _ _ | CeAnd _ _ _ | CeNil _ -> assert False ] and class_str_item c l = match c with [ CrNil _ -> l | CrCtr loc t1 t2 -> [ Pcf_cstr ( ctyp t1 , ctyp t2 , mkloc loc ) :: l ] | <: class_str_item < $ cst1 ; $ $ cst2 $ >> -> class_str_item cst1 ( class_str_item cst2 l ) | CrInh loc ov ce pb -> let opb = if pb = " " then None else Some pb in [ Pcf_inher ( override_flag loc ov ) ( class_expr ce ) opb :: l ] | CrIni _ e -> [ Pcf_init ( expr e ) :: l ] | CrMth loc s ov pf e t -> let t = match t with [ <: ctyp <>> -> None | t -> Some ( mkpolytype ( ctyp t ) ) ] in let e = mkexp loc ( Pexp_poly ( expr e ) t ) in [ Pcf_meth ( s , mkprivate pf , override_flag loc ov , e , mkloc loc ) :: l ] | CrVal loc s ov mf e -> [ Pcf_val ( s , mkmutable mf , override_flag loc ov , expr e , mkloc loc ) :: l ] | CrVir loc s pf t -> [ Pcf_virt ( s , mkprivate pf , mkpolytype ( ctyp t ) , mkloc loc ) :: l ] | CrVvr loc s mf t -> [ Pcf_valvirt ( s , mkmutable mf , ctyp t , mkloc loc ) :: l ] | CrAnt _ _ -> assert False ] ; value sig_item ast = sig_item ast [ ] ; value str_item ast = str_item ast [ ] ; value directive = fun [ <: expr <>> -> Pdir_none | ExStr _ s -> Pdir_string s | ExInt _ i -> Pdir_int ( int_of_string i ) | <: expr < True >> -> Pdir_bool True | <: expr < False >> -> Pdir_bool False | e -> Pdir_ident ( ident ( ident_of_expr e ) ) ] ; value phrase = fun [ StDir _ d dp -> Ptop_dir d ( directive dp ) | si -> Ptop_def ( str_item si ) ] ; end ; |
module CleanAst = Camlp4 . Struct . CleanAst . Make Ast ; |
module SSet = Set . Make String ; loaded_modules . val := SSet . add name loaded_modules . val ; if DynLoader . is_native then ( " . cmxs " , " . cmxs " ) else ( " . cmo " , " . cma " ) ; let dyn_loader = dyn_loader . val ( ) in let find_in_path = DynLoader . find_in_path dyn_loader in let real_load name = do { add_to_loaded_modules name ; DynLoader . load dyn_loader name } in let load = List . iter begin fun n -> if SSet . mem n loaded_modules . val || List . mem n Register . loaded_modules . val then ( ) else begin add_to_loaded_modules n ; DynLoader . load dyn_loader ( n ^ objext ) ; end end in do { match ( n , String . lowercase x ) with [ ( " Parsers " " " , | " pa_r . cmo " | " r " | " ocamlr " | " ocamlrevised " | " camlp4ocamlrevisedparser . cmo " ) -> load [ pa_r ] | ( " Parsers " " " , | " rr " | " reloaded " | " ocamlreloaded " | " camlp4ocamlreloadedparser . cmo " ) -> load [ pa_rr ] | ( " Parsers " " " , | " pa_o . cmo " | " o " | " ocaml " | " camlp4ocamlparser . cmo " ) -> load [ pa_r ; pa_o ] | ( " Parsers " " " , | " pa_rp . cmo " | " rp " | " rparser " | " camlp4ocamlrevisedparserparser . cmo " ) -> load [ pa_r ; pa_rp ] | ( " Parsers " " " , | " pa_op . cmo " | " op " | " parser " | " camlp4ocamlparserparser . cmo " ) -> load [ pa_r ; pa_o ; pa_rp ; pa_op ] | ( " Parsers " " " , | " pa_extend . cmo " | " pa_extend_m . cmo " | " g " | " grammar " | " camlp4grammarparser . cmo " ) -> load [ pa_g ] | ( " Parsers " " " , | " pa_macro . cmo " | " m " | " macro " | " camlp4macroparser . cmo " ) -> load [ pa_m ] | ( " Parsers " " " , | " q " | " camlp4quotationexpander . cmo " ) -> load [ pa_qb ; pa_q ] | ( " Parsers " " " , | " q_mlast . cmo " | " rq " | " camlp4ocamlrevisedquotationexpander . cmo " ) -> load [ pa_qb ; pa_rq ] | ( " Parsers " " " , | " oq " | " camlp4ocamloriginalquotationexpander . cmo " ) -> load [ pa_r ; pa_o ; pa_qb ; pa_oq ] | ( " Parsers " " " , | " rf " ) -> load [ pa_r ; pa_rp ; pa_qb ; pa_q ; pa_g ; pa_l ; pa_m ] | ( " Parsers " " " , | " of " ) -> load [ pa_r ; pa_o ; pa_rp ; pa_op ; pa_qb ; pa_q ; pa_g ; pa_l ; pa_m ] | ( " Parsers " " " , | " comp " | " camlp4listcomprehension . cmo " ) -> load [ pa_l ] | ( " Filters " " " , | " lift " | " camlp4astlifter . cmo " ) -> load [ " Camlp4AstLifter " ] | ( " Filters " " " , | " exn " | " camlp4exceptiontracer . cmo " ) -> load [ " Camlp4ExceptionTracer " ] | ( " Filters " " " , | " prof " | " camlp4profiler . cmo " ) -> load [ " Camlp4Profiler " ] | ( " Filters " " " , | " map " | " camlp4mapgenerator . cmo " ) -> load [ " Camlp4FoldGenerator " ] | ( " Filters " " " , | " fold " | " camlp4foldgenerator . cmo " ) -> load [ " Camlp4FoldGenerator " ] | ( " Filters " " " , | " meta " | " camlp4metagenerator . cmo " ) -> load [ " Camlp4MetaGenerator " ] | ( " Filters " " " , | " trash " | " camlp4trashremover . cmo " ) -> load [ " Camlp4TrashRemover " ] | ( " Filters " " " , | " striploc " | " camlp4locationstripper . cmo " ) -> load [ " Camlp4LocationStripper " ] | ( " Printers " " " , | " pr_r . cmo " | " r " | " ocamlr " | " camlp4ocamlrevisedprinter . cmo " ) -> Register . enable_ocamlr_printer ( ) | ( " Printers " " " , | " pr_o . cmo " | " o " | " ocaml " | " camlp4ocamlprinter . cmo " ) -> Register . enable_ocaml_printer ( ) | ( " Printers " " " , | " pr_dump . cmo " | " p " | " dumpocaml " | " camlp4ocamlastdumper . cmo " ) -> Register . enable_dump_ocaml_ast_printer ( ) | ( " Printers " " " , | " d " | " dumpcamlp4 " | " camlp4astdumper . cmo " ) -> Register . enable_dump_camlp4_ast_printer ( ) | ( " Printers " " " , | " a " | " auto " | " camlp4autoprinter . cmo " ) -> load [ " Camlp4AutoPrinter " ] | _ -> let y = " Camlp4 " ^ n " " ^/^ x ^ objext in real_load ( try find_in_path y with [ Not_found -> x ] ) ] ; rcall_callback . val ( ) ; } ; let directive_handler = Some ( fun ast -> match getdir ast with [ Some x -> match x with [ ( _ , " load " , s ) -> do { rewrite_and_load " " s ; None } | ( _ , " directory " , s ) -> do { DynLoader . include_dir dyn_loader s ; None } | ( _ , " use " , s ) -> Some ( parse_file dyn_loader s pa getdir ) | ( _ , " default_quotation " , s ) -> do { Quotation . default . val := s ; None } | ( loc , _ , _ ) -> Loc . raise loc ( Stream . Error " bad directive " ) ] | None -> None ] ) in let loc = Loc . mk name in do { current_warning . val := print_warning ; let ic = if name = " " - then stdin else open_in_bin name ; let cs = Stream . of_channel ic ; let clear ( ) = if name = " " - then ( ) else close_in ic ; let phr = try pa ? directive_handler loc cs with x -> do { clear ( ) ; raise x } ; clear ( ) ; phr } ; let ast = parse_file dyn_loader name pa getdir in let ast = fold_filters ( fun t filter -> filter t ) ast in let ast = clean ast in pr ? input_file ( : Some name ) ? output_file : output_file . val ast ; fun [ <: sig_item @ loc < # $ n $ $ str : s $ >> -> Some ( loc , n , s ) | _ -> None ] ; fun [ <: str_item @ loc < # $ n $ $ str : s $ >> -> Some ( loc , n , s ) | _ -> None ] ; process dyn_loader name CurrentParser . parse_interf CurrentPrinter . print_interf ( new CleanAst . clean_ast ) # sig_item AstFilters . fold_interf_filters gind ; process dyn_loader name CurrentParser . parse_implem CurrentPrinter . print_implem ( new CleanAst . clean_ast ) # str_item AstFilters . fold_implem_filters gimd ; do { printf " % s . " @ Camlp4_config . version ; exit 0 } ; do { eprintf " Camlp4 version % s . " @ Camlp4_config . version ; exit 0 } ; do { printf " % s . " @ Camlp4_config . camlp4_standard_library ; exit 0 } ; do { eprintf " \ Options :\ n \ ; Options . print_usage_list ini_sl ; if ext_sl <> [ ] then do { eprintf " Options added by loaded object files . " ; :@ Options . print_usage_list ext_sl ; } else ( ) ; } ; do { eprintf " \ } ; |
type file_kind = [ Intf of string | Impl of string | Str of string | ModuleImpl of string | IncludeDir of string ] ; let t = ref None in let task f x = let ( ) = Camlp4_config . current_input_file . val := x in t . val := Some ( if t . val = None then ( fun _ -> f x ) else ( fun usage -> usage ( ) ) ) in let do_task usage = match t . val with [ Some f -> f usage | None -> ( ) ] in ( task , do_task ) ; let dyn_loader = dyn_loader . val ( ) in do { rcall_callback . val ( ) ; match x with [ Intf file_name -> task ( process_intf dyn_loader ) file_name | Impl file_name -> task ( process_impl dyn_loader ) file_name | Str s -> begin let ( f , o ) = Filename . open_temp_file " from_string " " . ml " ; output_string o s ; close_out o ; task ( process_impl dyn_loader ) f ; at_exit ( fun ( ) -> Sys . remove f ) ; end | ModuleImpl file_name -> rewrite_and_load " " file_name | IncludeDir dir -> DynLoader . include_dir dyn_loader dir ] ; rcall_callback . val ( ) ; } ; [ ( " - I " , Arg . String ( fun x -> input_file ( IncludeDir x ) ) , " < directory > Add directory in search patch for object files . " ) ; ( " - where " , Arg . Unit print_stdlib , " Print camlp4 library directory and exit . " ) ; ( " - nolib " , Arg . Clear search_stdlib , " No automatic search for object files in library directory . " ) ; ( " - intf " , Arg . String ( fun x -> input_file ( Intf x ) ) , " < file > Parse < file > as an interface , whatever its extension . " ) ; ( " - impl " , Arg . String ( fun x -> input_file ( Impl x ) ) , " < file > Parse < file > as an implementation , whatever its extension . " ) ; ( " - str " , Arg . String ( fun x -> input_file ( Str x ) ) , " < string > Parse < string > as an implementation . " ) ; ( " - unsafe " , Arg . Set Camlp4_config . unsafe , " Generate unsafe accesses to array and strings . " ) ; ( " - noassert " , Arg . Unit warn_noassert , " Obsolete , do not use this option . " ) ; ( " - verbose " , Arg . Set Camlp4_config . verbose , " More verbose in parsing errors . " ) ; ( " - loc " , Arg . Set_string Loc . name , " < name > Name of the location variable ( default : " ^ Loc . name . val ^ " ) . " ) ; ( " - QD " , Arg . String ( fun x -> Quotation . dump_file . val := Some x ) , " < file > Dump quotation expander result in case of syntax error . " ) ; ( " - o " , Arg . String ( fun x -> output_file . val := Some x ) , " < file > Output on < file > instead of standard output . " ) ; ( " - v " , Arg . Unit print_version , " Print Camlp4 version and exit . " ) ; ( " - version " , Arg . Unit just_print_the_version , " Print Camlp4 version number and exit . " ) ; ( " - vnum " , Arg . Unit just_print_the_version , " Print Camlp4 version number and exit . " ) ; ( " - no_quot " , Arg . Clear Camlp4_config . quotations , " Don ' t parse quotations , allowing to use , e . g . " " \<:>\ as token . " ) ; ( " - loaded - modules " , Arg . Set print_loaded_modules , " Print the list of loaded modules . " ) ; ( " - parser " , Arg . String ( rewrite_and_load " Parsers " ) , " < name > Load the parser Camlp4Parsers /< name . > cm ( o | a | xs ) " ) ; ( " - printer " , Arg . String ( rewrite_and_load " Printers " ) , " < name > Load the printer Camlp4Printers /< name . > cm ( o | a | xs ) " ) ; ( " - filter " , Arg . String ( rewrite_and_load " Filters " ) , " < name > Load the filter Camlp4Filters /< name . > cm ( o | a | xs ) " ) ; ( " - ignore " , Arg . String ignore , " ignore the next argument " ) ; ( " " , -- Arg . Unit ignore , " Deprecated , does nothing " ) ] ; input_file ( if Filename . check_suffix name " . mli " then Intf name else if Filename . check_suffix name " . ml " then Impl name else if Filename . check_suffix name objext then ModuleImpl name else if Filename . check_suffix name libext then ModuleImpl name else raise ( Arg . Bad ( " don ' t know what to do with " ^ name ) ) ) ; let usage ( ) = do { usage initial_spec_list ( Options . ext_spec_list ( ) ) ; exit 0 } in try do { let dynloader = DynLoader . mk ~ ocaml_stdlib : search_stdlib . val ~ camlp4_stdlib : search_stdlib . val ( ) ; dyn_loader . val := fun ( ) -> dynloader ; let call_callback ( ) = Register . iter_and_take_callbacks ( fun ( name , module_callback ) -> let ( ) = add_to_loaded_modules name in module_callback ( ) ) ; call_callback ( ) ; rcall_callback . val := call_callback ; match Options . parse anon_fun argv with [ [ ] -> ( ) | [ " - help " " |-- help " " |- h " " " |-? :: _ ] -> usage ( ) | [ s :: _ ] -> do { eprintf " % s : unknown or misused option \ n " s ; eprintf " Use option - help for usage . " ; @ exit 2 } ] ; do_task usage ; call_callback ( ) ; if print_loaded_modules . val then do { SSet . iter ( eprintf " % s . " ) @ loaded_modules . val ; } else ( ) } with [ Arg . Bad s -> do { eprintf " Error : % s \ n " s ; eprintf " Use option - help for usage . " ; @ exit 2 } | Arg . Help _ -> usage ( ) | exc -> do { eprintf " [ @< v0 >% a ] . " @@ ErrorHandler . print exc ; exit 2 } ] ; |
module R = struct open Camlp4 module Id = struct let name = " Camlp4OCamlRevisedParser " let version = Sys . ocaml_version end module Make ( Syntax : Sig . Camlp4Syntax ) = struct open Sig include Syntax let _ = Camlp4_config . constructors_arity := false let help_sequences ( ) = ( Printf . eprintf " \ \ n " ; flush stderr ; exit 1 ) let _ = Options . add " - help_seq " ( Arg . Unit help_sequences ) " Print explanations about new sequences and exit . " let _ = Gram . Entry . clear a_CHAR let _ = Gram . Entry . clear a_FLOAT let _ = Gram . Entry . clear a_INT let _ = Gram . Entry . clear a_INT32 let _ = Gram . Entry . clear a_INT64 let _ = Gram . Entry . clear a_LABEL let _ = Gram . Entry . clear a_LIDENT let _ = Gram . Entry . clear a_NATIVEINT let _ = Gram . Entry . clear a_OPTLABEL let _ = Gram . Entry . clear a_STRING let _ = Gram . Entry . clear a_UIDENT let _ = Gram . Entry . clear a_ident let _ = Gram . Entry . clear amp_ctyp let _ = Gram . Entry . clear and_ctyp let _ = Gram . Entry . clear match_case let _ = Gram . Entry . clear match_case0 let _ = Gram . Entry . clear match_case_quot let _ = Gram . Entry . clear binding let _ = Gram . Entry . clear binding_quot let _ = Gram . Entry . clear rec_binding_quot let _ = Gram . Entry . clear class_declaration let _ = Gram . Entry . clear class_description let _ = Gram . Entry . clear class_expr let _ = Gram . Entry . clear class_expr_quot let _ = Gram . Entry . clear class_fun_binding let _ = Gram . Entry . clear class_fun_def let _ = Gram . Entry . clear class_info_for_class_expr let _ = Gram . Entry . clear class_info_for_class_type let _ = Gram . Entry . clear class_longident let _ = Gram . Entry . clear class_longident_and_param let _ = Gram . Entry . clear class_name_and_param let _ = Gram . Entry . clear class_sig_item let _ = Gram . Entry . clear class_sig_item_quot let _ = Gram . Entry . clear class_signature let _ = Gram . Entry . clear class_str_item let _ = Gram . Entry . clear class_str_item_quot let _ = Gram . Entry . clear class_structure let _ = Gram . Entry . clear class_type let _ = Gram . Entry . clear class_type_declaration let _ = Gram . Entry . clear class_type_longident let _ = Gram . Entry . clear class_type_longident_and_param let _ = Gram . Entry . clear class_type_plus let _ = Gram . Entry . clear class_type_quot let _ = Gram . Entry . clear comma_ctyp let _ = Gram . Entry . clear comma_expr let _ = Gram . Entry . clear comma_ipatt let _ = Gram . Entry . clear comma_patt let _ = Gram . Entry . clear comma_type_parameter let _ = Gram . Entry . clear constrain let _ = Gram . Entry . clear constructor_arg_list let _ = Gram . Entry . clear constructor_declaration let _ = Gram . Entry . clear constructor_declarations let _ = Gram . Entry . clear ctyp let _ = Gram . Entry . clear ctyp_quot let _ = Gram . Entry . clear cvalue_binding let _ = Gram . Entry . clear direction_flag let _ = Gram . Entry . clear dummy let _ = Gram . Entry . clear eq_expr let _ = Gram . Entry . clear expr let _ = Gram . Entry . clear expr_eoi let _ = Gram . Entry . clear expr_quot let _ = Gram . Entry . clear field_expr let _ = Gram . Entry . clear field_expr_list let _ = Gram . Entry . clear fun_binding let _ = Gram . Entry . clear fun_def let _ = Gram . Entry . clear ident let _ = Gram . Entry . clear ident_quot let _ = Gram . Entry . clear implem let _ = Gram . Entry . clear interf let _ = Gram . Entry . clear ipatt let _ = Gram . Entry . clear ipatt_tcon let _ = Gram . Entry . clear label let _ = Gram . Entry . clear label_declaration let _ = Gram . Entry . clear label_declaration_list let _ = Gram . Entry . clear label_expr_list let _ = Gram . Entry . clear label_expr let _ = Gram . Entry . clear label_ipatt let _ = Gram . Entry . clear label_ipatt_list let _ = Gram . Entry . clear label_longident let _ = Gram . Entry . clear label_patt let _ = Gram . Entry . clear label_patt_list let _ = Gram . Entry . clear labeled_ipatt let _ = Gram . Entry . clear let_binding let _ = Gram . Entry . clear meth_list let _ = Gram . Entry . clear meth_decl let _ = Gram . Entry . clear module_binding let _ = Gram . Entry . clear module_binding0 let _ = Gram . Entry . clear module_binding_quot let _ = Gram . Entry . clear module_declaration let _ = Gram . Entry . clear module_expr let _ = Gram . Entry . clear module_expr_quot let _ = Gram . Entry . clear module_longident let _ = Gram . Entry . clear module_longident_with_app let _ = Gram . Entry . clear module_rec_declaration let _ = Gram . Entry . clear module_type let _ = Gram . Entry . clear module_type_quot let _ = Gram . Entry . clear more_ctyp let _ = Gram . Entry . clear name_tags let _ = Gram . Entry . clear opt_as_lident let _ = Gram . Entry . clear opt_class_self_patt let _ = Gram . Entry . clear opt_class_self_type let _ = Gram . Entry . clear opt_comma_ctyp let _ = Gram . Entry . clear opt_dot_dot let _ = Gram . Entry . clear opt_eq_ctyp let _ = Gram . Entry . clear opt_expr let _ = Gram . Entry . clear opt_meth_list let _ = Gram . Entry . clear opt_mutable let _ = Gram . Entry . clear opt_polyt let _ = Gram . Entry . clear opt_private let _ = Gram . Entry . clear opt_rec let _ = Gram . Entry . clear opt_virtual let _ = Gram . Entry . clear opt_when_expr let _ = Gram . Entry . clear patt let _ = Gram . Entry . clear patt_as_patt_opt let _ = Gram . Entry . clear patt_eoi let _ = Gram . Entry . clear patt_quot let _ = Gram . Entry . clear patt_tcon let _ = Gram . Entry . clear phrase let _ = Gram . Entry . clear poly_type let _ = Gram . Entry . clear row_field let _ = Gram . Entry . clear sem_expr let _ = Gram . Entry . clear sem_expr_for_list let _ = Gram . Entry . clear sem_patt let _ = Gram . Entry . clear sem_patt_for_list let _ = Gram . Entry . clear semi let _ = Gram . Entry . clear sequence let _ = Gram . Entry . clear sig_item let _ = Gram . Entry . clear sig_item_quot let _ = Gram . Entry . clear sig_items let _ = Gram . Entry . clear star_ctyp let _ = Gram . Entry . clear str_item let _ = Gram . Entry . clear str_item_quot let _ = Gram . Entry . clear str_items let _ = Gram . Entry . clear top_phrase let _ = Gram . Entry . clear type_constraint let _ = Gram . Entry . clear type_declaration let _ = Gram . Entry . clear type_ident_and_parameters let _ = Gram . Entry . clear type_kind let _ = Gram . Entry . clear type_longident let _ = Gram . Entry . clear type_longident_and_parameters let _ = Gram . Entry . clear type_parameter let _ = Gram . Entry . clear type_parameters let _ = Gram . Entry . clear typevars let _ = Gram . Entry . clear use_file let _ = Gram . Entry . clear val_longident let _ = Gram . Entry . clear value_let let _ = Gram . Entry . clear value_val let _ = Gram . Entry . clear with_constr let _ = Gram . Entry . clear with_constr_quot let neg_string n = let len = String . length n in if ( len > 0 ) && ( n . [ 0 ] = ' ' ) - then String . sub n 1 ( len - 1 ) else " " - ^ n let mkumin _loc f arg = match arg with | Ast . ExInt ( _ , n ) -> Ast . ExInt ( _loc , ( neg_string n ) ) | Ast . ExInt32 ( _ , n ) -> Ast . ExInt32 ( _loc , ( neg_string n ) ) | Ast . ExInt64 ( _ , n ) -> Ast . ExInt64 ( _loc , ( neg_string n ) ) | Ast . ExNativeInt ( _ , n ) -> Ast . ExNativeInt ( _loc , ( neg_string n ) ) | Ast . ExFlo ( _ , n ) -> Ast . ExFlo ( _loc , ( neg_string n ) ) | _ -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , ( " " ~ ^ f ) ) ) ) ) , arg ) let mklistexp _loc last = let rec loop top = function | [ ] -> ( match last with | Some e -> e | None -> Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) ) | e1 :: el -> let _loc = if top then _loc else Loc . merge ( Ast . loc_of_expr e1 ) _loc in Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: e1 ) ) , ( loop false el ) ) in loop true let mkassert _loc = function | Ast . ExId ( _ , ( Ast . IdUid ( _ , " False " ) ) ) -> Ast . ExAsf _loc | e -> Ast . ExAsr ( _loc , e ) let append_eLem el e = el @ [ e ] let mk_anti ( ? c = " " ) n s = " " \\$ ^ ( n ^ ( c ^ ( " " : ^ s ) ) ) let mksequence _loc = function | ( Ast . ExSem ( _ , _ , _ ) | Ast . ExAnt ( _ , _ ) as e ) -> Ast . ExSeq ( _loc , e ) | e -> e let mksequence ' _loc = function | ( Ast . ExSem ( _ , _ , _ ) as e ) -> Ast . ExSeq ( _loc , e ) | e -> e let rec lid_of_ident = function | Ast . IdAcc ( _ , _ , i ) -> lid_of_ident i | Ast . IdLid ( _ , lid ) -> lid | _ -> assert false let module_type_app mt1 mt2 = match ( mt1 , mt2 ) with | ( Ast . MtId ( _loc , i1 ) , Ast . MtId ( _ , i2 ) ) -> Ast . MtId ( _loc , ( Ast . IdApp ( _loc , i1 , i2 ) ) ) | _ -> raise Stream . Failure let module_type_acc mt1 mt2 = match ( mt1 , mt2 ) with | ( Ast . MtId ( _loc , i1 ) , Ast . MtId ( _ , i2 ) ) -> Ast . MtId ( _loc , ( Ast . IdAcc ( _loc , i1 , i2 ) ) ) | _ -> raise Stream . Failure let bigarray_get _loc arr arg = let coords = match arg with | Ast . ExTup ( _ , ( Ast . ExCom ( _ , e1 , e2 ) ) ) | Ast . ExCom ( _ , e1 , e2 ) -> Ast . list_of_expr e1 ( Ast . list_of_expr e2 [ ] ) | _ -> [ arg ] in match coords with | [ c1 ] -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Bigarray " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Array1 " ) ) , ( Ast . IdLid ( _loc , " get " ) ) ) ) ) ) ) ) , arr ) ) , c1 ) | [ c1 ; c2 ] -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Bigarray " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Array2 " ) ) , ( Ast . IdLid ( _loc , " get " ) ) ) ) ) ) ) ) , arr ) ) , c1 ) ) , c2 ) | [ c1 ; c2 ; c3 ] -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Bigarray " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Array3 " ) ) , ( Ast . IdLid ( _loc , " get " ) ) ) ) ) ) ) ) , arr ) ) , c1 ) ) , c2 ) ) , c3 ) | coords -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Bigarray " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Genarray " ) ) , ( Ast . IdLid ( _loc , " get " ) ) ) ) ) ) ) ) , arr ) ) , ( Ast . ExArr ( _loc , ( Ast . exSem_of_list coords ) ) ) ) let bigarray_set _loc var newval = match var with | Ast . ExApp ( _ , ( Ast . ExApp ( _ , ( Ast . ExId ( _ , ( Ast . IdAcc ( _ , ( Ast . IdUid ( _ , " Bigarray " ) ) , ( Ast . IdAcc ( _ , ( Ast . IdUid ( _ , " Array1 " ) ) , ( Ast . IdLid ( _ , " get " ) ) ) ) ) ) ) ) , arr ) ) , c1 ) -> Some ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Bigarray " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Array1 " ) ) , ( Ast . IdLid ( _loc , " set " ) ) ) ) ) ) ) ) , arr ) ) , c1 ) ) , newval ) ) | Ast . ExApp ( _ , ( Ast . ExApp ( _ , ( Ast . ExApp ( _ , ( Ast . ExId ( _ , ( Ast . IdAcc ( _ , ( Ast . IdUid ( _ , " Bigarray " ) ) , ( Ast . IdAcc ( _ , ( Ast . IdUid ( _ , " Array2 " ) ) , ( Ast . IdLid ( _ , " get " ) ) ) ) ) ) ) ) , arr ) ) , c1 ) ) , c2 ) -> Some ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Bigarray " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Array2 " ) ) , ( Ast . IdLid ( _loc , " set " ) ) ) ) ) ) ) ) , arr ) ) , c1 ) ) , c2 ) ) , newval ) ) | Ast . ExApp ( _ , ( Ast . ExApp ( _ , ( Ast . ExApp ( _ , ( Ast . ExApp ( _ , ( Ast . ExId ( _ , ( Ast . IdAcc ( _ , ( Ast . IdUid ( _ , " Bigarray " ) ) , ( Ast . IdAcc ( _ , ( Ast . IdUid ( _ , " Array3 " ) ) , ( Ast . IdLid ( _ , " get " ) ) ) ) ) ) ) ) , arr ) ) , c1 ) ) , c2 ) ) , c3 ) -> Some ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Bigarray " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Array3 " ) ) , ( Ast . IdLid ( _loc , " set " ) ) ) ) ) ) ) ) , arr ) ) , c1 ) ) , c2 ) ) , c3 ) ) , newval ) ) | Ast . ExApp ( _ , ( Ast . ExApp ( _ , ( Ast . ExId ( _ , ( Ast . IdAcc ( _ , ( Ast . IdUid ( _ , " Bigarray " ) ) , ( Ast . IdAcc ( _ , ( Ast . IdUid ( _ , " Genarray " ) ) , ( Ast . IdLid ( _ , " get " ) ) ) ) ) ) ) ) , arr ) ) , ( Ast . ExArr ( _ , coords ) ) ) -> Some ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Bigarray " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Genarray " ) ) , ( Ast . IdLid ( _loc , " set " ) ) ) ) ) ) ) ) , arr ) ) , ( Ast . ExArr ( _loc , coords ) ) ) ) , newval ) ) | _ -> None let stopped_at _loc = Some ( Loc . move_line 1 _loc ) let symbolchar = let list = [ ' ' ; $ ' ' ; ! ' ' ; % ' ' ; & ' ' ; * ' ' ; + ' ' ; - ' . ' ; ' ' ; / ' ' ; : ' ' ; < ' ' ; = ' ' ; > ' ' ; ? ' ' ; @ ' ' ; ^ ' ' ; | ' ' ; ~ ' ' \\ ] in let rec loop s i = if i == ( String . length s ) then true else if List . mem s . [ i ] list then loop s ( i + 1 ) else false in loop let setup_op_parser entry p = Gram . Entry . setup_parser entry ( fun ( __strm : _ Stream . t ) -> match Stream . peek __strm with | Some ( ( ( KEYWORD x | SYMBOL x ) , ti ) ) when p x -> ( Stream . junk __strm ; let _loc = Gram . token_location ti in Ast . ExId ( _loc , ( Ast . IdLid ( _loc , x ) ) ) ) | _ -> raise Stream . Failure ) let _ = let list = [ ' ' ; ! ' ' ; ? ' ' ~ ] in let excl = [ " " ; != " " ?? ] in setup_op_parser prefixop ( fun x -> ( not ( List . mem x excl ) ) && ( ( ( String . length x ) >= 2 ) && ( ( List . mem x . [ 0 ] list ) && ( symbolchar x 1 ) ) ) ) let _ = let list_ok = [ " " ; < " " ; > " " ; <= " " ; >= " " ; = " " ; <> " " ; == " " ; != " " $ ] in let list_first_char_ok = [ ' ' ; = ' ' ; < ' ' ; > ' ' ; | ' ' ; & ' ' ; $ ' ' ! ] in let excl = [ " " ; <- " " ; || " " && ] in setup_op_parser infixop0 ( fun x -> ( List . mem x list_ok ) || ( ( not ( List . mem x excl ) ) && ( ( ( String . length x ) >= 2 ) && ( ( List . mem x . [ 0 ] list_first_char_ok ) && ( symbolchar x 1 ) ) ) ) ) let _ = let list = [ ' ' ; @ ' ' ^ ] in setup_op_parser infixop1 ( fun x -> ( ( String . length x ) >= 1 ) && ( ( List . mem x . [ 0 ] list ) && ( symbolchar x 1 ) ) ) let _ = let list = [ ' ' ; + ' ' - ] in setup_op_parser infixop2 ( fun x -> ( x <> " " ) -> && ( ( ( String . length x ) >= 1 ) && ( ( List . mem x . [ 0 ] list ) && ( symbolchar x 1 ) ) ) ) let _ = let list = [ ' ' ; * ' ' ; / ' ' ; % ' ' \\ ] in setup_op_parser infixop3 ( fun x -> ( ( String . length x ) >= 1 ) && ( ( List . mem x . [ 0 ] list ) && ( ( ( x . [ 0 ] <> ' ' ) * || ( ( ( String . length x ) < 2 ) || ( x . [ 1 ] <> ' ' ) ) ) * && ( symbolchar x 1 ) ) ) ) let _ = setup_op_parser infixop4 ( fun x -> ( ( String . length x ) >= 2 ) && ( ( x . [ 0 ] == ' ' ) * && ( ( x . [ 1 ] == ' ' ) * && ( symbolchar x 2 ) ) ) ) let rec infix_kwds_filter ( __strm : _ Stream . t ) = match Stream . peek __strm with | Some ( ( ( KEYWORD " ( " , _ ) as tok ) ) -> ( Stream . junk __strm ; let xs = __strm in let ( __strm : _ Stream . t ) = xs in ( match Stream . peek __strm with | Some ( ( KEYWORD ( ( " mod " | " land " | " lor " | " lxor " | " lsl " | " lsr " | " asr " as i ) ) , _loc ) ) -> ( Stream . junk __strm ; ( match Stream . peek __strm with | Some ( ( KEYWORD " ) " , _ ) ) -> ( Stream . junk __strm ; let xs = __strm in Stream . lcons ( fun _ -> ( ( LIDENT i ) , _loc ) ) ( Stream . slazy ( fun _ -> infix_kwds_filter xs ) ) ) | _ -> raise ( Stream . Error " " ) ) ) | _ -> let xs = __strm in Stream . icons tok ( Stream . slazy ( fun _ -> infix_kwds_filter xs ) ) ) ) | Some x -> ( Stream . junk __strm ; let xs = __strm in Stream . icons x ( Stream . slazy ( fun _ -> infix_kwds_filter xs ) ) ) | _ -> raise Stream . Failure let _ = Token . Filter . define_filter ( Gram . get_filter ( ) ) ( fun f strm -> infix_kwds_filter ( f strm ) ) let _ = Gram . Entry . setup_parser sem_expr ( let symb1 = Gram . parse_tokens_after_filter expr in let symb ( __strm : _ Stream . t ) = match Stream . peek __strm with | Some ( ( ANTIQUOT ( ( ( " list " as n ) ) , s ) , ti ) ) -> ( Stream . junk __strm ; let _loc = Gram . token_location ti in Ast . ExAnt ( _loc , ( mk_anti ~ c : " expr ; " n s ) ) ) | _ -> symb1 __strm in let rec kont al ( __strm : _ Stream . t ) = match Stream . peek __strm with | Some ( ( KEYWORD " ; " , _ ) ) -> ( Stream . junk __strm ; let a = ( try symb __strm with | Stream . Failure -> raise ( Stream . Error " " ) ) in let s = __strm in let _loc = Loc . merge ( Ast . loc_of_expr al ) ( Ast . loc_of_expr a ) in kont ( Ast . ExSem ( _loc , al , a ) ) s ) | _ -> al in fun ( __strm : _ Stream . t ) -> let a = symb __strm in kont a __strm ) let _ = let _ = ( a_CHAR : ' a_CHAR Gram . Entry . t ) and _ = ( override_flag_quot : ' override_flag_quot Gram . Entry . t ) and _ = ( row_var_flag_quot : ' row_var_flag_quot Gram . Entry . t ) and _ = ( virtual_flag_quot : ' virtual_flag_quot Gram . Entry . t ) and _ = ( private_flag_quot : ' private_flag_quot Gram . Entry . t ) and _ = ( mutable_flag_quot : ' mutable_flag_quot Gram . Entry . t ) and _ = ( direction_flag_quot : ' direction_flag_quot Gram . Entry . t ) and _ = ( rec_flag_quot : ' rec_flag_quot Gram . Entry . t ) and _ = ( package_type : ' package_type Gram . Entry . t ) and _ = ( do_sequence : ' do_sequence Gram . Entry . t ) and _ = ( infixop4 : ' infixop4 Gram . Entry . t ) and _ = ( infixop3 : ' infixop3 Gram . Entry . t ) and _ = ( infixop2 : ' infixop2 Gram . Entry . t ) and _ = ( infixop1 : ' infixop1 Gram . Entry . t ) and _ = ( infixop0 : ' infixop0 Gram . Entry . t ) and _ = ( with_constr_quot : ' with_constr_quot Gram . Entry . t ) and _ = ( with_constr : ' with_constr Gram . Entry . t ) and _ = ( value_val : ' value_val Gram . Entry . t ) and _ = ( value_let : ' value_let Gram . Entry . t ) and _ = ( val_longident : ' val_longident Gram . Entry . t ) and _ = ( use_file : ' use_file Gram . Entry . t ) and _ = ( typevars : ' typevars Gram . Entry . t ) and _ = ( type_parameters : ' type_parameters Gram . Entry . t ) and _ = ( type_parameter : ' type_parameter Gram . Entry . t ) and _ = ( type_longident_and_parameters : ' type_longident_and_parameters Gram . Entry . t ) and _ = ( type_longident : ' type_longident Gram . Entry . t ) and _ = ( type_kind : ' type_kind Gram . Entry . t ) and _ = ( type_ident_and_parameters : ' type_ident_and_parameters Gram . Entry . t ) and _ = ( type_declaration : ' type_declaration Gram . Entry . t ) and _ = ( type_constraint : ' type_constraint Gram . Entry . t ) and _ = ( top_phrase : ' top_phrase Gram . Entry . t ) and _ = ( str_items : ' str_items Gram . Entry . t ) and _ = ( str_item_quot : ' str_item_quot Gram . Entry . t ) and _ = ( str_item : ' str_item Gram . Entry . t ) and _ = ( star_ctyp : ' star_ctyp Gram . Entry . t ) and _ = ( sig_items : ' sig_items Gram . Entry . t ) and _ = ( sig_item_quot : ' sig_item_quot Gram . Entry . t ) and _ = ( sig_item : ' sig_item Gram . Entry . t ) and _ = ( sequence : ' sequence Gram . Entry . t ) and _ = ( semi : ' semi Gram . Entry . t ) and _ = ( sem_patt_for_list : ' sem_patt_for_list Gram . Entry . t ) and _ = ( sem_patt : ' sem_patt Gram . Entry . t ) and _ = ( sem_expr_for_list : ' sem_expr_for_list Gram . Entry . t ) and _ = ( sem_expr : ' sem_expr Gram . Entry . t ) and _ = ( row_field : ' row_field Gram . Entry . t ) and _ = ( poly_type : ' poly_type Gram . Entry . t ) and _ = ( phrase : ' phrase Gram . Entry . t ) and _ = ( patt_tcon : ' patt_tcon Gram . Entry . t ) and _ = ( patt_quot : ' patt_quot Gram . Entry . t ) and _ = ( patt_eoi : ' patt_eoi Gram . Entry . t ) and _ = ( patt_as_patt_opt : ' patt_as_patt_opt Gram . Entry . t ) and _ = ( patt : ' patt Gram . Entry . t ) and _ = ( opt_when_expr : ' opt_when_expr Gram . Entry . t ) and _ = ( opt_virtual : ' opt_virtual Gram . Entry . t ) and _ = ( opt_rec : ' opt_rec Gram . Entry . t ) and _ = ( opt_private : ' opt_private Gram . Entry . t ) and _ = ( opt_polyt : ' opt_polyt Gram . Entry . t ) and _ = ( opt_mutable : ' opt_mutable Gram . Entry . t ) and _ = ( opt_meth_list : ' opt_meth_list Gram . Entry . t ) and _ = ( opt_expr : ' opt_expr Gram . Entry . t ) and _ = ( opt_eq_ctyp : ' opt_eq_ctyp Gram . Entry . t ) and _ = ( opt_dot_dot : ' opt_dot_dot Gram . Entry . t ) and _ = ( opt_comma_ctyp : ' opt_comma_ctyp Gram . Entry . t ) and _ = ( opt_class_self_type : ' opt_class_self_type Gram . Entry . t ) and _ = ( opt_class_self_patt : ' opt_class_self_patt Gram . Entry . t ) and _ = ( opt_as_lident : ' opt_as_lident Gram . Entry . t ) and _ = ( name_tags : ' name_tags Gram . Entry . t ) and _ = ( more_ctyp : ' more_ctyp Gram . Entry . t ) and _ = ( module_type_quot : ' module_type_quot Gram . Entry . t ) and _ = ( module_type : ' module_type Gram . Entry . t ) and _ = ( module_rec_declaration : ' module_rec_declaration Gram . Entry . t ) and _ = ( module_longident_with_app : ' module_longident_with_app Gram . Entry . t ) and _ = ( module_longident : ' module_longident Gram . Entry . t ) and _ = ( module_expr_quot : ' module_expr_quot Gram . Entry . t ) and _ = ( module_expr : ' module_expr Gram . Entry . t ) and _ = ( module_declaration : ' module_declaration Gram . Entry . t ) and _ = ( module_binding_quot : ' module_binding_quot Gram . Entry . t ) and _ = ( module_binding0 : ' module_binding0 Gram . Entry . t ) and _ = ( module_binding : ' module_binding Gram . Entry . t ) and _ = ( meth_decl : ' meth_decl Gram . Entry . t ) and _ = ( meth_list : ' meth_list Gram . Entry . t ) and _ = ( let_binding : ' let_binding Gram . Entry . t ) and _ = ( labeled_ipatt : ' labeled_ipatt Gram . Entry . t ) and _ = ( label_patt_list : ' label_patt_list Gram . Entry . t ) and _ = ( label_patt : ' label_patt Gram . Entry . t ) and _ = ( label_longident : ' label_longident Gram . Entry . t ) and _ = ( label_ipatt_list : ' label_ipatt_list Gram . Entry . t ) and _ = ( label_ipatt : ' label_ipatt Gram . Entry . t ) and _ = ( label_expr_list : ' label_expr_list Gram . Entry . t ) and _ = ( label_expr : ' label_expr Gram . Entry . t ) and _ = ( label_declaration_list : ' label_declaration_list Gram . Entry . t ) and _ = ( label_declaration : ' label_declaration Gram . Entry . t ) and _ = ( label : ' label Gram . Entry . t ) and _ = ( ipatt_tcon : ' ipatt_tcon Gram . Entry . t ) and _ = ( ipatt : ' ipatt Gram . Entry . t ) and _ = ( interf : ' interf Gram . Entry . t ) and _ = ( implem : ' implem Gram . Entry . t ) and _ = ( ident_quot : ' ident_quot Gram . Entry . t ) and _ = ( ident : ' ident Gram . Entry . t ) and _ = ( fun_def : ' fun_def Gram . Entry . t ) and _ = ( fun_binding : ' fun_binding Gram . Entry . t ) and _ = ( field_expr_list : ' field_expr_list Gram . Entry . t ) and _ = ( field_expr : ' field_expr Gram . Entry . t ) and _ = ( expr_quot : ' expr_quot Gram . Entry . t ) and _ = ( expr_eoi : ' expr_eoi Gram . Entry . t ) and _ = ( expr : ' expr Gram . Entry . t ) and _ = ( eq_expr : ' eq_expr Gram . Entry . t ) and _ = ( dummy : ' dummy Gram . Entry . t ) and _ = ( direction_flag : ' direction_flag Gram . Entry . t ) and _ = ( cvalue_binding : ' cvalue_binding Gram . Entry . t ) and _ = ( ctyp_quot : ' ctyp_quot Gram . Entry . t ) and _ = ( ctyp : ' ctyp Gram . Entry . t ) and _ = ( constructor_declarations : ' constructor_declarations Gram . Entry . t ) and _ = ( constructor_declaration : ' constructor_declaration Gram . Entry . t ) and _ = ( constructor_arg_list : ' constructor_arg_list Gram . Entry . t ) and _ = ( constrain : ' constrain Gram . Entry . t ) and _ = ( comma_type_parameter : ' comma_type_parameter Gram . Entry . t ) and _ = ( comma_patt : ' comma_patt Gram . Entry . t ) and _ = ( comma_ipatt : ' comma_ipatt Gram . Entry . t ) and _ = ( comma_expr : ' comma_expr Gram . Entry . t ) and _ = ( comma_ctyp : ' comma_ctyp Gram . Entry . t ) and _ = ( class_type_quot : ' class_type_quot Gram . Entry . t ) and _ = ( class_type_plus : ' class_type_plus Gram . Entry . t ) and _ = ( class_type_longident_and_param : ' class_type_longident_and_param Gram . Entry . t ) and _ = ( class_type_longident : ' class_type_longident Gram . Entry . t ) and _ = ( class_type_declaration : ' class_type_declaration Gram . Entry . t ) and _ = ( class_type : ' class_type Gram . Entry . t ) and _ = ( class_structure : ' class_structure Gram . Entry . t ) and _ = ( class_str_item_quot : ' class_str_item_quot Gram . Entry . t ) and _ = ( class_str_item : ' class_str_item Gram . Entry . t ) and _ = ( class_signature : ' class_signature Gram . Entry . t ) and _ = ( class_sig_item_quot : ' class_sig_item_quot Gram . Entry . t ) and _ = ( class_sig_item : ' class_sig_item Gram . Entry . t ) and _ = ( class_name_and_param : ' class_name_and_param Gram . Entry . t ) and _ = ( class_longident_and_param : ' class_longident_and_param Gram . Entry . t ) and _ = ( class_longident : ' class_longident Gram . Entry . t ) and _ = ( class_info_for_class_type : ' class_info_for_class_type Gram . Entry . t ) and _ = ( class_info_for_class_expr : ' class_info_for_class_expr Gram . Entry . t ) and _ = ( class_fun_def : ' class_fun_def Gram . Entry . t ) and _ = ( class_fun_binding : ' class_fun_binding Gram . Entry . t ) and _ = ( class_expr_quot : ' class_expr_quot Gram . Entry . t ) and _ = ( class_expr : ' class_expr Gram . Entry . t ) and _ = ( class_description : ' class_description Gram . Entry . t ) and _ = ( class_declaration : ' class_declaration Gram . Entry . t ) and _ = ( binding_quot : ' binding_quot Gram . Entry . t ) and _ = ( binding : ' binding Gram . Entry . t ) and _ = ( match_case_quot : ' match_case_quot Gram . Entry . t ) and _ = ( match_case0 : ' match_case0 Gram . Entry . t ) and _ = ( match_case : ' match_case Gram . Entry . t ) and _ = ( and_ctyp : ' and_ctyp Gram . Entry . t ) and _ = ( amp_ctyp : ' amp_ctyp Gram . Entry . t ) and _ = ( a_ident : ' a_ident Gram . Entry . t ) and _ = ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) and _ = ( a_STRING : ' a_STRING Gram . Entry . t ) and _ = ( a_OPTLABEL : ' a_OPTLABEL Gram . Entry . t ) and _ = ( a_NATIVEINT : ' a_NATIVEINT Gram . Entry . t ) and _ = ( rec_binding_quot : ' rec_binding_quot Gram . Entry . t ) and _ = ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) and _ = ( a_LABEL : ' a_LABEL Gram . Entry . t ) and _ = ( a_INT64 : ' a_INT64 Gram . Entry . t ) and _ = ( a_INT32 : ' a_INT32 Gram . Entry . t ) and _ = ( a_INT : ' a_INT Gram . Entry . t ) and _ = ( a_FLOAT : ' a_FLOAT Gram . Entry . t ) in let grammar_entry_create = Gram . Entry . mk in let infixop5 : ' infixop5 Gram . Entry . t = grammar_entry_create " infixop5 " and string_list : ' string_list Gram . Entry . t = grammar_entry_create " string_list " and opt_override : ' opt_override Gram . Entry . t = grammar_entry_create " opt_override " and value_val_opt_override : ' value_val_opt_override Gram . Entry . t = grammar_entry_create " value_val_opt_override " and method_opt_override : ' method_opt_override Gram . Entry . t = grammar_entry_create " method_opt_override " and module_longident_dot_lparen : ' module_longident_dot_lparen Gram . Entry . t = grammar_entry_create " module_longident_dot_lparen " and fun_def_cont_no_when : ' fun_def_cont_no_when Gram . Entry . t = grammar_entry_create " fun_def_cont_no_when " and fun_def_cont : ' fun_def_cont Gram . Entry . t = grammar_entry_create " fun_def_cont " and sequence ' : ' sequence ' Gram . Entry . t = grammar_entry_create " sequence ' " and infixop6 : ' infixop6 Gram . Entry . t = grammar_entry_create " infixop6 " in ( Gram . extend ( module_expr : ' module_expr Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( ( Some " top " ) , None , [ ( [ Gram . Skeyword " struct " ; Gram . Snterm ( Gram . Entry . obj ( str_items : ' str_items Gram . Entry . t ) ) ; Gram . Skeyword " end " ] , ( Gram . Action . mk ( fun _ ( st : ' str_items ) _ ( _loc : Gram . Loc . t ) -> ( Ast . MeStr ( _loc , st ) : ' module_expr ) ) ) ) ; ( [ Gram . Skeyword " functor " ; Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ; Gram . Skeyword " ) " ; Gram . Skeyword " " ; -> Gram . Sself ] , ( Gram . Action . mk ( fun ( me : ' module_expr ) _ _ ( t : ' module_type ) _ ( i : ' a_UIDENT ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . MeFun ( _loc , i , t , me ) : ' module_expr ) ) ) ) ] ) ; ( ( Some " apply " ) , None , [ ( [ Gram . Sself ; Gram . Sself ] , ( Gram . Action . mk ( fun ( me2 : ' module_expr ) ( me1 : ' module_expr ) ( _loc : Gram . Loc . t ) -> ( Ast . MeApp ( _loc , me1 , me2 ) : ' module_expr ) ) ) ) ] ) ; ( ( Some " simple " ) , None , [ ( [ Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( value_val : ' value_val Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( package_type : ' package_type Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( p : ' package_type ) _ ( e : ' expr ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . MePkg ( _loc , ( Ast . ExTyc ( _loc , e , ( Ast . TyPkg ( _loc , p ) ) ) ) ) : ' module_expr ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( value_val : ' value_val Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( e : ' expr ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . MePkg ( _loc , e ) : ' module_expr ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( me : ' module_expr ) _ ( _loc : Gram . Loc . t ) -> ( me : ' module_expr ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( mt : ' module_type ) _ ( me : ' module_expr ) _ ( _loc : Gram . Loc . t ) -> ( Ast . MeTyc ( _loc , me , mt ) : ' module_expr ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( module_longident : ' module_longident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' module_longident ) ( _loc : Gram . Loc . t ) -> ( Ast . MeId ( _loc , i ) : ' module_expr ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . module_expr_tag : ' module_expr ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " mexp " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ mexp " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " mexp " | " anti " | " list " as n ) ) , s ) -> ( Ast . MeAnt ( _loc , ( mk_anti ~ c : " module_expr " n s ) ) : ' module_expr ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( str_item : ' str_item Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( ( Some " top " ) , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . StExp ( _loc , e ) : ' str_item ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . str_item_tag : ' str_item ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " stri " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ stri " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " stri " | " anti " | " list " as n ) ) , s ) -> ( Ast . StAnt ( _loc , ( mk_anti ~ c : " str_item " n s ) ) : ' str_item ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " class " ; Gram . Skeyword " type " ; Gram . Snterm ( Gram . Entry . obj ( class_type_declaration : ' class_type_declaration Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ctd : ' class_type_declaration ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . StClt ( _loc , ctd ) : ' str_item ) ) ) ) ; ( [ Gram . Skeyword " class " ; Gram . Snterm ( Gram . Entry . obj ( class_declaration : ' class_declaration Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( cd : ' class_declaration ) _ ( _loc : Gram . Loc . t ) -> ( Ast . StCls ( _loc , cd ) : ' str_item ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( value_let : ' value_let Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_rec : ' opt_rec Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( binding : ' binding Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( bi : ' binding ) ( r : ' opt_rec ) _ ( _loc : Gram . Loc . t ) -> ( Ast . StVal ( _loc , r , bi ) : ' str_item ) ) ) ) ; ( [ Gram . Skeyword " type " ; Gram . Snterm ( Gram . Entry . obj ( type_declaration : ' type_declaration Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( td : ' type_declaration ) _ ( _loc : Gram . Loc . t ) -> ( Ast . StTyp ( _loc , td ) : ' str_item ) ) ) ) ; ( [ Gram . Skeyword " open " ; Gram . Snterm ( Gram . Entry . obj ( module_longident : ' module_longident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' module_longident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . StOpn ( _loc , i ) : ' str_item ) ) ) ) ; ( [ Gram . Skeyword " module " ; Gram . Skeyword " type " ; Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( mt : ' module_type ) _ ( i : ' a_UIDENT ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . StMty ( _loc , i , mt ) : ' str_item ) ) ) ) ; ( [ Gram . Skeyword " module " ; Gram . Skeyword " rec " ; Gram . Snterm ( Gram . Entry . obj ( module_binding : ' module_binding Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( mb : ' module_binding ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . StRecMod ( _loc , mb ) : ' str_item ) ) ) ) ; ( [ Gram . Skeyword " module " ; Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( module_binding0 : ' module_binding0 Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( mb : ' module_binding0 ) ( i : ' a_UIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . StMod ( _loc , i , mb ) : ' str_item ) ) ) ) ; ( [ Gram . Skeyword " include " ; Gram . Snterm ( Gram . Entry . obj ( module_expr : ' module_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( me : ' module_expr ) _ ( _loc : Gram . Loc . t ) -> ( Ast . StInc ( _loc , me ) : ' str_item ) ) ) ) ; ( [ Gram . Skeyword " external " ; Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( string_list : ' string_list Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( sl : ' string_list ) _ ( t : ' ctyp ) _ ( i : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . StExt ( _loc , i , t , sl ) : ' str_item ) ) ) ) ; ( [ Gram . Skeyword " exception " ; Gram . Snterm ( Gram . Entry . obj ( constructor_declaration : ' constructor_declaration Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( type_longident : ' type_longident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' type_longident ) _ ( t : ' constructor_declaration ) _ ( _loc : Gram . Loc . t ) -> ( Ast . StExc ( _loc , t , ( Ast . OSome i ) ) : ' str_item ) ) ) ) ; ( [ Gram . Skeyword " exception " ; Gram . Snterm ( Gram . Entry . obj ( constructor_declaration : ' constructor_declaration Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' constructor_declaration ) _ ( _loc : Gram . Loc . t ) -> ( Ast . StExc ( _loc , t , Ast . ONone ) : ' str_item ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( module_binding0 : ' module_binding0 Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , ( Some Camlp4 . Sig . Grammar . RightA ) , [ ( [ Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( module_expr : ' module_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( me : ' module_expr ) _ ( _loc : Gram . Loc . t ) -> ( me : ' module_binding0 ) ) ) ) ; ( [ Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( module_expr : ' module_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( me : ' module_expr ) _ ( mt : ' module_type ) _ ( _loc : Gram . Loc . t ) -> ( Ast . MeTyc ( _loc , me , mt ) : ' module_binding0 ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ; Gram . Skeyword " ) " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( mb : ' module_binding0 ) _ ( mt : ' module_type ) _ ( m : ' a_UIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . MeFun ( _loc , m , mt , mb ) : ' module_binding0 ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( module_binding : ' module_binding Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( module_expr : ' module_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( me : ' module_expr ) _ ( mt : ' module_type ) _ ( m : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . MbColEq ( _loc , m , mt , me ) : ' module_binding ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . module_binding_tag : ' module_binding ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " " , \\ _ ) " ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( module_expr : ' module_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( me : ' module_expr ) _ ( mt : ' module_type ) _ ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " as n ) ) , m ) -> ( Ast . MbColEq ( _loc , ( mk_anti n m ) , mt , me ) : ' module_binding ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " " , \\ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " as n ) ) , s ) -> ( Ast . MbAnt ( _loc , ( mk_anti ~ c : " module_binding " n s ) ) : ' module_binding ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " module_binding " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " \ module_binding " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " module_binding " | " anti " | " list " as n ) ) , s ) -> ( Ast . MbAnt ( _loc , ( mk_anti ~ c : " module_binding " n s ) ) : ' module_binding ) | _ -> assert false ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " and " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( b2 : ' module_binding ) _ ( b1 : ' module_binding ) ( _loc : Gram . Loc . t ) -> ( Ast . MbAnd ( _loc , b1 , b2 ) : ' module_binding ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( module_type : ' module_type Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( ( Some " top " ) , None , [ ( [ Gram . Skeyword " functor " ; Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Sself ; Gram . Skeyword " ) " ; Gram . Skeyword " " ; -> Gram . Sself ] , ( Gram . Action . mk ( fun ( mt : ' module_type ) _ _ ( t : ' module_type ) _ ( i : ' a_UIDENT ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . MtFun ( _loc , i , t , mt ) : ' module_type ) ) ) ) ] ) ; ( ( Some " with " ) , None , [ ( [ Gram . Sself ; Gram . Skeyword " with " ; Gram . Snterm ( Gram . Entry . obj ( with_constr : ' with_constr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( wc : ' with_constr ) _ ( mt : ' module_type ) ( _loc : Gram . Loc . t ) -> ( Ast . MtWit ( _loc , mt , wc ) : ' module_type ) ) ) ) ] ) ; ( ( Some " apply " ) , None , [ ( [ Gram . Sself ; Gram . Sself ; Gram . Snterm ( Gram . Entry . obj ( dummy : ' dummy Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( mt2 : ' module_type ) ( mt1 : ' module_type ) ( _loc : Gram . Loc . t ) -> ( module_type_app mt1 mt2 : ' module_type ) ) ) ) ] ) ; ( ( Some " . " ) , None , [ ( [ Gram . Sself ; Gram . Skeyword " . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( mt2 : ' module_type ) _ ( mt1 : ' module_type ) ( _loc : Gram . Loc . t ) -> ( module_type_acc mt1 mt2 : ' module_type ) ) ) ) ] ) ; ( ( Some " sig " ) , None , [ ( [ Gram . Skeyword " sig " ; Gram . Snterm ( Gram . Entry . obj ( sig_items : ' sig_items Gram . Entry . t ) ) ; Gram . Skeyword " end " ] , ( Gram . Action . mk ( fun _ ( sg : ' sig_items ) _ ( _loc : Gram . Loc . t ) -> ( Ast . MtSig ( _loc , sg ) : ' module_type ) ) ) ) ] ) ; ( ( Some " simple " ) , None , [ ( [ Gram . Skeyword " module " ; Gram . Skeyword " type " ; Gram . Skeyword " of " ; Gram . Snterm ( Gram . Entry . obj ( module_expr : ' module_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( me : ' module_expr ) _ _ _ ( _loc : Gram . Loc . t ) -> ( Ast . MtOf ( _loc , me ) : ' module_type ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( mt : ' module_type ) _ ( _loc : Gram . Loc . t ) -> ( mt : ' module_type ) ) ) ) ; ( [ Gram . Skeyword " ' " ; Gram . Snterm ( Gram . Entry . obj ( a_ident : ' a_ident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_ident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . MtQuo ( _loc , i ) : ' module_type ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( module_longident_with_app : ' module_longident_with_app Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' module_longident_with_app ) ( _loc : Gram . Loc . t ) -> ( Ast . MtId ( _loc , i ) : ' module_type ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . module_type_tag : ' module_type ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " mtyp " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ mtyp " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " mtyp " | " anti " | " list " as n ) ) , s ) -> ( Ast . MtAnt ( _loc , ( mk_anti ~ c : " module_type " n s ) ) : ' module_type ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( sig_item : ' sig_item Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( ( Some " top " ) , None , [ ( [ Gram . Skeyword " class " ; Gram . Skeyword " type " ; Gram . Snterm ( Gram . Entry . obj ( class_type_declaration : ' class_type_declaration Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ctd : ' class_type_declaration ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . SgClt ( _loc , ctd ) : ' sig_item ) ) ) ) ; ( [ Gram . Skeyword " class " ; Gram . Snterm ( Gram . Entry . obj ( class_description : ' class_description Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( cd : ' class_description ) _ ( _loc : Gram . Loc . t ) -> ( Ast . SgCls ( _loc , cd ) : ' sig_item ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( value_val : ' value_val Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) _ ( i : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . SgVal ( _loc , i , t ) : ' sig_item ) ) ) ) ; ( [ Gram . Skeyword " type " ; Gram . Snterm ( Gram . Entry . obj ( type_declaration : ' type_declaration Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' type_declaration ) _ ( _loc : Gram . Loc . t ) -> ( Ast . SgTyp ( _loc , t ) : ' sig_item ) ) ) ) ; ( [ Gram . Skeyword " open " ; Gram . Snterm ( Gram . Entry . obj ( module_longident : ' module_longident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' module_longident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . SgOpn ( _loc , i ) : ' sig_item ) ) ) ) ; ( [ Gram . Skeyword " module " ; Gram . Skeyword " type " ; Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_UIDENT ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . SgMty ( _loc , i , ( Ast . MtNil _loc ) ) : ' sig_item ) ) ) ) ; ( [ Gram . Skeyword " module " ; Gram . Skeyword " type " ; Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( mt : ' module_type ) _ ( i : ' a_UIDENT ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . SgMty ( _loc , i , mt ) : ' sig_item ) ) ) ) ; ( [ Gram . Skeyword " module " ; Gram . Skeyword " rec " ; Gram . Snterm ( Gram . Entry . obj ( module_rec_declaration : ' module_rec_declaration Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( mb : ' module_rec_declaration ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . SgRecMod ( _loc , mb ) : ' sig_item ) ) ) ) ; ( [ Gram . Skeyword " module " ; Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( module_declaration : ' module_declaration Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( mt : ' module_declaration ) ( i : ' a_UIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . SgMod ( _loc , i , mt ) : ' sig_item ) ) ) ) ; ( [ Gram . Skeyword " include " ; Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( mt : ' module_type ) _ ( _loc : Gram . Loc . t ) -> ( Ast . SgInc ( _loc , mt ) : ' sig_item ) ) ) ) ; ( [ Gram . Skeyword " external " ; Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( string_list : ' string_list Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( sl : ' string_list ) _ ( t : ' ctyp ) _ ( i : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . SgExt ( _loc , i , t , sl ) : ' sig_item ) ) ) ) ; ( [ Gram . Skeyword " exception " ; Gram . Snterm ( Gram . Entry . obj ( constructor_declaration : ' constructor_declaration Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' constructor_declaration ) _ ( _loc : Gram . Loc . t ) -> ( Ast . SgExc ( _loc , t ) : ' sig_item ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . sig_item_tag : ' sig_item ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " sigi " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ sigi " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " sigi " | " anti " | " list " as n ) ) , s ) -> ( Ast . SgAnt ( _loc , ( mk_anti ~ c : " sig_item " n s ) ) : ' sig_item ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( module_declaration : ' module_declaration Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , ( Some Camlp4 . Sig . Grammar . RightA ) , [ ( [ Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ; Gram . Skeyword " ) " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( mt : ' module_declaration ) _ ( t : ' module_type ) _ ( i : ' a_UIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . MtFun ( _loc , i , t , mt ) : ' module_declaration ) ) ) ) ; ( [ Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( mt : ' module_type ) _ ( _loc : Gram . Loc . t ) -> ( mt : ' module_declaration ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( module_rec_declaration : ' module_rec_declaration Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( mt : ' module_type ) _ ( m : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . MbCol ( _loc , m , mt ) : ' module_rec_declaration ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . module_binding_tag : ' module_rec_declaration ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " module_binding " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ module_binding " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " module_binding " | " anti " | " list " as n ) ) , s ) -> ( Ast . MbAnt ( _loc , ( mk_anti ~ c : " module_binding " n s ) ) : ' module_rec_declaration ) | _ -> assert false ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " and " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( m2 : ' module_rec_declaration ) _ ( m1 : ' module_rec_declaration ) ( _loc : Gram . Loc . t ) -> ( Ast . MbAnd ( _loc , m1 , m2 ) : ' module_rec_declaration ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( with_constr : ' with_constr Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Skeyword " module " ; Gram . Snterm ( Gram . Entry . obj ( module_longident : ' module_longident Gram . Entry . t ) ) ; Gram . Skeyword " " ; := Gram . Snterm ( Gram . Entry . obj ( module_longident_with_app : ' module_longident_with_app Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i2 : ' module_longident_with_app ) _ ( i1 : ' module_longident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . WcMoS ( _loc , i1 , i2 ) : ' with_constr ) ) ) ) ; ( [ Gram . Skeyword " type " ; Gram . Snterm ( Gram . Entry . obj ( type_longident_and_parameters : ' type_longident_and_parameters Gram . Entry . t ) ) ; Gram . Skeyword " " ; := Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t2 : ' ctyp ) _ ( t1 : ' type_longident_and_parameters ) _ ( _loc : Gram . Loc . t ) -> ( Ast . WcTyS ( _loc , t1 , t2 ) : ' with_constr ) ) ) ) ; ( [ Gram . Skeyword " type " ; Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " typ " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ typ " \ | " \ anti " ) , \ _ ) " ) ) ; Gram . Skeyword " " ; := Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) _ ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " typ " | " anti " as n ) ) , s ) -> ( Ast . WcTyS ( _loc , ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp " n s ) ) ) , t ) : ' with_constr ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " module " ; Gram . Snterm ( Gram . Entry . obj ( module_longident : ' module_longident Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( module_longident_with_app : ' module_longident_with_app Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i2 : ' module_longident_with_app ) _ ( i1 : ' module_longident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . WcMod ( _loc , i1 , i2 ) : ' with_constr ) ) ) ) ; ( [ Gram . Skeyword " type " ; Gram . Snterm ( Gram . Entry . obj ( type_longident_and_parameters : ' type_longident_and_parameters Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t2 : ' ctyp ) _ ( t1 : ' type_longident_and_parameters ) _ ( _loc : Gram . Loc . t ) -> ( Ast . WcTyp ( _loc , t1 , t2 ) : ' with_constr ) ) ) ) ; ( [ Gram . Skeyword " type " ; Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " typ " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ typ " \ | " \ anti " ) , \ _ ) " ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) _ ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " typ " | " anti " as n ) ) , s ) -> ( Ast . WcTyp ( _loc , ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp " n s ) ) ) , t ) : ' with_constr ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . with_constr_tag : ' with_constr ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " with_constr " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ with_constr " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " with_constr " | " anti " | " list " as n ) ) , s ) -> ( Ast . WcAnt ( _loc , ( mk_anti ~ c : " with_constr " n s ) ) : ' with_constr ) | _ -> assert false ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " and " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( wc2 : ' with_constr ) _ ( wc1 : ' with_constr ) ( _loc : Gram . Loc . t ) -> ( Ast . WcAnd ( _loc , wc1 , wc2 ) : ' with_constr ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( expr : ' expr Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( ( Some " top " ) , ( Some Camlp4 . Sig . Grammar . RightA ) , [ ( [ Gram . Skeyword " object " ; Gram . Snterm ( Gram . Entry . obj ( opt_class_self_patt : ' opt_class_self_patt Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( class_structure : ' class_structure Gram . Entry . t ) ) ; Gram . Skeyword " end " ] , ( Gram . Action . mk ( fun _ ( cst : ' class_structure ) ( csp : ' opt_class_self_patt ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExObj ( _loc , csp , cst ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " while " ; Gram . Snterm ( Gram . Entry . obj ( sequence : ' sequence Gram . Entry . t ) ) ; Gram . Skeyword " do " ; Gram . Snterm ( Gram . Entry . obj ( do_sequence : ' do_sequence Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( seq : ' do_sequence ) _ ( e : ' sequence ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExWhi ( _loc , ( mksequence ' _loc e ) , seq ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " for " ; Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( sequence : ' sequence Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( direction_flag : ' direction_flag Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( sequence : ' sequence Gram . Entry . t ) ) ; Gram . Skeyword " do " ; Gram . Snterm ( Gram . Entry . obj ( do_sequence : ' do_sequence Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( seq : ' do_sequence ) _ ( e2 : ' sequence ) ( df : ' direction_flag ) ( e1 : ' sequence ) _ ( i : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExFor ( _loc , i , ( mksequence ' _loc e1 ) , ( mksequence ' _loc e2 ) , df , seq ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " do " ; Gram . Snterm ( Gram . Entry . obj ( do_sequence : ' do_sequence Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( seq : ' do_sequence ) _ ( _loc : Gram . Loc . t ) -> ( mksequence _loc seq : ' expr ) ) ) ) ; ( [ Gram . Skeyword " if " ; Gram . Sself ; Gram . Skeyword " then " ; Gram . Sself ; Gram . Skeyword " else " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e3 : ' expr ) _ ( e2 : ' expr ) _ ( e1 : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExIfe ( _loc , e1 , e2 , e3 ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " try " ; Gram . Snterm ( Gram . Entry . obj ( sequence : ' sequence Gram . Entry . t ) ) ; Gram . Skeyword " with " ; Gram . Snterm ( Gram . Entry . obj ( match_case : ' match_case Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( a : ' match_case ) _ ( e : ' sequence ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExTry ( _loc , ( mksequence ' _loc e ) , a ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " match " ; Gram . Snterm ( Gram . Entry . obj ( sequence : ' sequence Gram . Entry . t ) ) ; Gram . Skeyword " with " ; Gram . Snterm ( Gram . Entry . obj ( match_case : ' match_case Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( a : ' match_case ) _ ( e : ' sequence ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExMat ( _loc , ( mksequence ' _loc e ) , a ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " fun " ; Gram . Snterm ( Gram . Entry . obj ( fun_def : ' fun_def Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' fun_def ) _ ( _loc : Gram . Loc . t ) -> ( e : ' expr ) ) ) ) ; ( [ Gram . Skeyword " fun " ; Gram . Skeyword " [ " ; Gram . Slist0sep ( ( Gram . Snterm ( Gram . Entry . obj ( match_case0 : ' match_case0 Gram . Entry . t ) ) ) , ( Gram . Skeyword " " ) ) ; | Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( a : ' match_case0 list ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . ExFun ( _loc , ( Ast . mcOr_of_list a ) ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " let " ; Gram . Skeyword " open " ; Gram . Snterm ( Gram . Entry . obj ( module_longident : ' module_longident Gram . Entry . t ) ) ; Gram . Skeyword " in " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( i : ' module_longident ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . ExOpI ( _loc , i , e ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " let " ; Gram . Skeyword " module " ; Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( module_binding0 : ' module_binding0 Gram . Entry . t ) ) ; Gram . Skeyword " in " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( mb : ' module_binding0 ) ( m : ' a_UIDENT ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . ExLmd ( _loc , m , mb , e ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " let " ; Gram . Snterm ( Gram . Entry . obj ( opt_rec : ' opt_rec Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( binding : ' binding Gram . Entry . t ) ) ; Gram . Skeyword " in " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( x : ' expr ) _ ( bi : ' binding ) ( r : ' opt_rec ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExLet ( _loc , r , bi , x ) : ' expr ) ) ) ) ] ) ; ( ( Some " where " ) , None , [ ( [ Gram . Sself ; Gram . Skeyword " where " ; Gram . Snterm ( Gram . Entry . obj ( opt_rec : ' opt_rec Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( let_binding : ' let_binding Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( lb : ' let_binding ) ( rf : ' opt_rec ) _ ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExLet ( _loc , rf , lb , e ) : ' expr ) ) ) ) ] ) ; ( ( Some " " ) , := ( Some Camlp4 . Sig . Grammar . NonA ) , [ ( [ Gram . Sself ; Gram . Skeyword " " ; := Gram . Sself ; Gram . Snterm ( Gram . Entry . obj ( dummy : ' dummy Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( e2 : ' expr ) _ ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( match bigarray_set _loc e1 e2 with | Some e -> e | None -> Ast . ExAss ( _loc , e1 , e2 ) : ' expr ) ) ) ) ] ) ; ( ( Some " " ) , || ( Some Camlp4 . Sig . Grammar . RightA ) , [ ( [ Gram . Sself ; Gram . Snterm ( Gram . Entry . obj ( infixop6 : ' infixop6 Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e2 : ' expr ) ( op : ' infixop6 ) ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , op , e1 ) ) , e2 ) : ' expr ) ) ) ) ] ) ; ( ( Some " " ) , && ( Some Camlp4 . Sig . Grammar . RightA ) , [ ( [ Gram . Sself ; Gram . Snterm ( Gram . Entry . obj ( infixop5 : ' infixop5 Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e2 : ' expr ) ( op : ' infixop5 ) ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , op , e1 ) ) , e2 ) : ' expr ) ) ) ) ] ) ; ( ( Some " " ) , < ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Sself ; Gram . Snterm ( Gram . Entry . obj ( infixop0 : ' infixop0 Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e2 : ' expr ) ( op : ' infixop0 ) ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , op , e1 ) ) , e2 ) : ' expr ) ) ) ) ] ) ; ( ( Some " " ) , ^ ( Some Camlp4 . Sig . Grammar . RightA ) , [ ( [ Gram . Sself ; Gram . Snterm ( Gram . Entry . obj ( infixop1 : ' infixop1 Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e2 : ' expr ) ( op : ' infixop1 ) ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , op , e1 ) ) , e2 ) : ' expr ) ) ) ) ] ) ; ( ( Some " " ) , + ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Sself ; Gram . Snterm ( Gram . Entry . obj ( infixop2 : ' infixop2 Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e2 : ' expr ) ( op : ' infixop2 ) ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , op , e1 ) ) , e2 ) : ' expr ) ) ) ) ] ) ; ( ( Some " " ) , * ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Sself ; Gram . Snterm ( Gram . Entry . obj ( infixop3 : ' infixop3 Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e2 : ' expr ) ( op : ' infixop3 ) ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , op , e1 ) ) , e2 ) : ' expr ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " mod " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e2 : ' expr ) _ ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " mod " ) ) ) ) , e1 ) ) , e2 ) : ' expr ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " lxor " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e2 : ' expr ) _ ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " lxor " ) ) ) ) , e1 ) ) , e2 ) : ' expr ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " lor " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e2 : ' expr ) _ ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " lor " ) ) ) ) , e1 ) ) , e2 ) : ' expr ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " land " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e2 : ' expr ) _ ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " land " ) ) ) ) , e1 ) ) , e2 ) : ' expr ) ) ) ) ] ) ; ( ( Some " " ) , ** ( Some Camlp4 . Sig . Grammar . RightA ) , [ ( [ Gram . Sself ; Gram . Snterm ( Gram . Entry . obj ( infixop4 : ' infixop4 Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e2 : ' expr ) ( op : ' infixop4 ) ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , op , e1 ) ) , e2 ) : ' expr ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " lsr " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e2 : ' expr ) _ ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " lsr " ) ) ) ) , e1 ) ) , e2 ) : ' expr ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " lsl " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e2 : ' expr ) _ ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " lsl " ) ) ) ) , e1 ) ) , e2 ) : ' expr ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " asr " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e2 : ' expr ) _ ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " asr " ) ) ) ) , e1 ) ) , e2 ) : ' expr ) ) ) ) ] ) ; ( ( Some " unary minus " ) , ( Some Camlp4 . Sig . Grammar . NonA ) , [ ( [ Gram . Skeyword " . " ; - Gram . Sself ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( mkumin _loc " . " - e : ' expr ) ) ) ) ; ( [ Gram . Skeyword " " ; - Gram . Sself ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( mkumin _loc " " - e : ' expr ) ) ) ) ] ) ; ( ( Some " apply " ) , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Skeyword " lazy " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExLaz ( _loc , e ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " new " ; Gram . Snterm ( Gram . Entry . obj ( class_longident : ' class_longident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' class_longident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExNew ( _loc , i ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " assert " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( mkassert _loc e : ' expr ) ) ) ) ; ( [ Gram . Sself ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e2 : ' expr ) ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , e1 , e2 ) : ' expr ) ) ) ) ] ) ; ( ( Some " label " ) , ( Some Camlp4 . Sig . Grammar . NonA ) , [ ( [ Gram . Skeyword " " ; ? Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExOlb ( _loc , i , ( Ast . ExNil _loc ) ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " " ; ? Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Sself ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( i : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExOlb ( _loc , i , e ) : ' expr ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | OPTLABEL _ -> true | _ -> false ) , " OPTLABEL _ " ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e : ' expr ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | OPTLABEL i -> ( Ast . ExOlb ( _loc , i , e ) : ' expr ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | LABEL _ -> true | _ -> false ) , " LABEL _ " ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e : ' expr ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | LABEL i -> ( Ast . ExLab ( _loc , i , e ) : ' expr ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " " ; ~ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExLab ( _loc , i , ( Ast . ExNil _loc ) ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " " ; ~ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Sself ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( i : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExLab ( _loc , i , e ) : ' expr ) ) ) ) ] ) ; ( ( Some " . " ) , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Sself ; Gram . Skeyword " " ; # Gram . Snterm ( Gram . Entry . obj ( label : ' label Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( lab : ' label ) _ ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExSnd ( _loc , e , lab ) : ' expr ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e2 : ' expr ) _ ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExAcc ( _loc , e1 , e2 ) : ' expr ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " . " ; Gram . Skeyword " { " ; Gram . Snterm ( Gram . Entry . obj ( comma_expr : ' comma_expr Gram . Entry . t ) ) ; Gram . Skeyword " } " ] , ( Gram . Action . mk ( fun _ ( e2 : ' comma_expr ) _ _ ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( bigarray_get _loc e1 e2 : ' expr ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " . " ; Gram . Skeyword " [ " ; Gram . Sself ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( e2 : ' expr ) _ _ ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExSte ( _loc , e1 , e2 ) : ' expr ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " . " ; Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( e2 : ' expr ) _ _ ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExAre ( _loc , e1 , e2 ) : ' expr ) ) ) ) ] ) ; ( ( Some " " ) , ~- ( Some Camlp4 . Sig . Grammar . NonA ) , [ ( [ Gram . Snterm ( Gram . Entry . obj ( prefixop : ' prefixop Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e : ' expr ) ( f : ' prefixop ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , f , e ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " " ; ! Gram . Sself ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExAcc ( _loc , e , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " val " ) ) ) ) ) : ' expr ) ) ) ) ] ) ; ( ( Some " simple " ) , None , [ ( [ Gram . Skeyword " ( " ; Gram . Skeyword " module " ; Gram . Snterm ( Gram . Entry . obj ( module_expr : ' module_expr Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( package_type : ' package_type Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( pt : ' package_type ) _ ( me : ' module_expr ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . ExPkg ( _loc , ( Ast . MeTyc ( _loc , me , pt ) ) ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Skeyword " module " ; Gram . Snterm ( Gram . Entry . obj ( module_expr : ' module_expr Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( me : ' module_expr ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . ExPkg ( _loc , me ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " begin " ; Gram . Skeyword " end " ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " ( ) " ) ) ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " begin " ; Gram . Snterm ( Gram . Entry . obj ( sequence : ' sequence Gram . Entry . t ) ) ; Gram . Skeyword " end " ] , ( Gram . Action . mk ( fun _ ( seq : ' sequence ) _ ( _loc : Gram . Loc . t ) -> ( mksequence _loc seq : ' expr ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( e : ' expr ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " " ; :> Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( t : ' ctyp ) _ ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExCoe ( _loc , e , ( Ast . TyNil _loc ) , t ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ; Gram . Skeyword " " ; :> Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( t2 : ' ctyp ) _ ( t : ' ctyp ) _ ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExCoe ( _loc , e , t , t2 ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " ; " ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ _ ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( mksequence _loc e : ' expr ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " ; " ; Gram . Snterm ( Gram . Entry . obj ( sequence : ' sequence Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( seq : ' sequence ) _ ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( mksequence _loc ( Ast . ExSem ( _loc , e , seq ) ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " , " ; Gram . Snterm ( Gram . Entry . obj ( comma_expr : ' comma_expr Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( el : ' comma_expr ) _ ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExTup ( _loc , ( Ast . ExCom ( _loc , e , el ) ) ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( t : ' ctyp ) _ ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExTyc ( _loc , e , t ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " ( ) " ) ) ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " { " ; < Gram . Snterm ( Gram . Entry . obj ( field_expr_list : ' field_expr_list Gram . Entry . t ) ) ; Gram . Skeyword " } " > ] , ( Gram . Action . mk ( fun _ ( fel : ' field_expr_list ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExOvr ( _loc , fel ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " { " ; < Gram . Skeyword " } " > ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( Ast . ExOvr ( _loc , ( Ast . RbNil _loc ) ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " { " ; Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " ) " ; Gram . Skeyword " with " ; Gram . Snterm ( Gram . Entry . obj ( label_expr_list : ' label_expr_list Gram . Entry . t ) ) ; Gram . Skeyword " } " ] , ( Gram . Action . mk ( fun _ ( el : ' label_expr_list ) _ _ ( e : ' expr ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . ExRec ( _loc , el , e ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " { " ; Gram . Snterm ( Gram . Entry . obj ( label_expr_list : ' label_expr_list Gram . Entry . t ) ) ; Gram . Skeyword " } " ] , ( Gram . Action . mk ( fun _ ( el : ' label_expr_list ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExRec ( _loc , el , ( Ast . ExNil _loc ) ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " [ " ; | Gram . Snterm ( Gram . Entry . obj ( sem_expr : ' sem_expr Gram . Entry . t ) ) ; Gram . Skeyword " ] " | ] , ( Gram . Action . mk ( fun _ ( el : ' sem_expr ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExArr ( _loc , el ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " [ " ; | Gram . Skeyword " ] " | ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( Ast . ExArr ( _loc , ( Ast . ExNil _loc ) ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Snterm ( Gram . Entry . obj ( sem_expr_for_list : ' sem_expr_for_list Gram . Entry . t ) ) ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( mk_list : ' sem_expr_for_list ) _ ( _loc : Gram . Loc . t ) -> ( mk_list ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Snterm ( Gram . Entry . obj ( sem_expr_for_list : ' sem_expr_for_list Gram . Entry . t ) ) ; Gram . Skeyword " " ; :: Gram . Sself ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( last : ' expr ) _ ( mk_list : ' sem_expr_for_list ) _ ( _loc : Gram . Loc . t ) -> ( mk_list last : ' expr ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " ` " ; Gram . Snterm ( Gram . Entry . obj ( a_ident : ' a_ident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_ident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExVrn ( _loc , s ) : ' expr ) ) ) ) ; ( [ Gram . Stry ( Gram . Snterm ( Gram . Entry . obj ( val_longident : ' val_longident Gram . Entry . t ) ) ) ] , ( Gram . Action . mk ( fun ( i : ' val_longident ) ( _loc : Gram . Loc . t ) -> ( Ast . ExId ( _loc , i ) : ' expr ) ) ) ) ; ( [ Gram . Stry ( Gram . Snterm ( Gram . Entry . obj ( module_longident_dot_lparen : ' module_longident_dot_lparen Gram . Entry . t ) ) ) ; Gram . Snterm ( Gram . Entry . obj ( sequence : ' sequence Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( e : ' sequence ) ( i : ' module_longident_dot_lparen ) ( _loc : Gram . Loc . t ) -> ( Ast . ExOpI ( _loc , i , e ) : ' expr ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_CHAR : ' a_CHAR Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_CHAR ) ( _loc : Gram . Loc . t ) -> ( Ast . ExChr ( _loc , s ) : ' expr ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_STRING : ' a_STRING Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_STRING ) ( _loc : Gram . Loc . t ) -> ( Ast . ExStr ( _loc , s ) : ' expr ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_FLOAT : ' a_FLOAT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_FLOAT ) ( _loc : Gram . Loc . t ) -> ( Ast . ExFlo ( _loc , s ) : ' expr ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_NATIVEINT : ' a_NATIVEINT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_NATIVEINT ) ( _loc : Gram . Loc . t ) -> ( Ast . ExNativeInt ( _loc , s ) : ' expr ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_INT64 : ' a_INT64 Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_INT64 ) ( _loc : Gram . Loc . t ) -> ( Ast . ExInt64 ( _loc , s ) : ' expr ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_INT32 : ' a_INT32 Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_INT32 ) ( _loc : Gram . Loc . t ) -> ( Ast . ExInt32 ( _loc , s ) : ' expr ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_INT : ' a_INT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_INT ) ( _loc : Gram . Loc . t ) -> ( Ast . ExInt ( _loc , s ) : ' expr ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " seq " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ seq " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " seq " as n ) ) , s ) -> ( Ast . ExSeq ( _loc , ( Ast . ExAnt ( _loc , ( mk_anti ~ c : " expr " n s ) ) ) ) : ' expr ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " tup " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ tup " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " tup " as n ) ) , s ) -> ( Ast . ExTup ( _loc , ( Ast . ExAnt ( _loc , ( mk_anti ~ c : " expr " n s ) ) ) ) : ' expr ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " ` bool " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " ` \ bool " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " ` bool " as n ) ) , s ) -> ( Ast . ExId ( _loc , ( Ast . IdAnt ( _loc , ( mk_anti n s ) ) ) ) : ' expr ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " exp " | " " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " \ exp " \ | " " \\ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " exp " | " " | " anti " as n ) ) , s ) -> ( Ast . ExAnt ( _loc , ( mk_anti ~ c : " expr " n s ) ) : ' expr ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . expr_tag : ' expr ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( do_sequence : ' do_sequence Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " done " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " ( ) " ) ) ) : ' do_sequence ) ) ) ) ; ( [ Gram . Stry ( Gram . srules do_sequence [ ( [ Gram . Snterm ( Gram . Entry . obj ( sequence : ' sequence Gram . Entry . t ) ) ; Gram . Skeyword " done " ] , ( Gram . Action . mk ( fun _ ( seq : ' sequence ) ( _loc : Gram . Loc . t ) -> ( seq : ' e__3 ) ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( seq : ' e__3 ) ( _loc : Gram . Loc . t ) -> ( seq : ' do_sequence ) ) ) ) ; ( [ Gram . Stry ( Gram . srules do_sequence [ ( [ Gram . Skeyword " { " ; Gram . Skeyword " } " ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( ( ) : ' e__2 ) ) ) ) ] ) ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " ( ) " ) ) ) : ' do_sequence ) ) ) ) ; ( [ Gram . Stry ( Gram . srules do_sequence [ ( [ Gram . Skeyword " { " ; Gram . Snterm ( Gram . Entry . obj ( sequence : ' sequence Gram . Entry . t ) ) ; Gram . Skeyword " } " ] , ( Gram . Action . mk ( fun _ ( seq : ' sequence ) _ ( _loc : Gram . Loc . t ) -> ( seq : ' e__1 ) ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( seq : ' e__1 ) ( _loc : Gram . Loc . t ) -> ( seq : ' do_sequence ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( infixop5 : ' infixop5 Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . srules infixop5 [ ( [ Gram . Skeyword " " && ] , ( Gram . Action . mk ( fun ( x : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( Gram . Token . extract_string x : ' e__4 ) ) ) ) ; ( [ Gram . Skeyword " " & ] , ( Gram . Action . mk ( fun ( x : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( Gram . Token . extract_string x : ' e__4 ) ) ) ) ] ] , ( Gram . Action . mk ( fun ( x : ' e__4 ) ( _loc : Gram . Loc . t ) -> ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , x ) ) ) : ' infixop5 ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( infixop6 : ' infixop6 Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . srules infixop6 [ ( [ Gram . Skeyword " " || ] , ( Gram . Action . mk ( fun ( x : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( Gram . Token . extract_string x : ' e__5 ) ) ) ) ; ( [ Gram . Skeyword " or " ] , ( Gram . Action . mk ( fun ( x : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( Gram . Token . extract_string x : ' e__5 ) ) ) ) ] ] , ( Gram . Action . mk ( fun ( x : ' e__5 ) ( _loc : Gram . Loc . t ) -> ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , x ) ) ) : ' infixop6 ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( sem_expr_for_list : ' sem_expr_for_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( fun acc -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: e ) ) , acc ) : ' sem_expr_for_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Skeyword " ; " ] , ( Gram . Action . mk ( fun _ ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( fun acc -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: e ) ) , acc ) : ' sem_expr_for_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( el : ' sem_expr_for_list ) _ ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( fun acc -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: e ) ) , ( el acc ) ) : ' sem_expr_for_list ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( comma_expr : ' comma_expr Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterml ( ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) , " top " ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( e : ' comma_expr ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . ExAnt ( _loc , ( mk_anti ~ c : " expr , " n s ) ) : ' comma_expr ) | _ -> assert false ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " , " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e2 : ' comma_expr ) _ ( e1 : ' comma_expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExCom ( _loc , e1 , e2 ) : ' comma_expr ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( dummy : ' dummy Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( ( ) : ' dummy ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( sequence ' : ' sequence ' Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " ; " ; Gram . Snterm ( Gram . Entry . obj ( sequence : ' sequence Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( el : ' sequence ) _ ( _loc : Gram . Loc . t ) -> ( fun e -> Ast . ExSem ( _loc , e , el ) : ' sequence ' ) ) ) ) ; ( [ Gram . Skeyword " ; " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( fun e -> e : ' sequence ' ) ) ) ) ; ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( fun e -> e : ' sequence ' ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( sequence : ' sequence Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( sequence ' : ' sequence ' Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( k : ' sequence ' ) ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( k e : ' sequence ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . ExAnt ( _loc , ( mk_anti ~ c : " expr ; " n s ) ) : ' sequence ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " let " ; Gram . Skeyword " open " ; Gram . Snterm ( Gram . Entry . obj ( module_longident : ' module_longident Gram . Entry . t ) ) ; Gram . Skeyword " in " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e : ' sequence ) _ ( i : ' module_longident ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . ExOpI ( _loc , i , e ) : ' sequence ) ) ) ) ; ( [ Gram . Skeyword " let " ; Gram . Skeyword " module " ; Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( module_binding0 : ' module_binding0 Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( el : ' sequence ) _ ( mb : ' module_binding0 ) ( m : ' a_UIDENT ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . ExLmd ( _loc , m , mb , ( mksequence _loc el ) ) : ' sequence ) ) ) ) ; ( [ Gram . Skeyword " let " ; Gram . Skeyword " module " ; Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( module_binding0 : ' module_binding0 Gram . Entry . t ) ) ; Gram . Skeyword " in " ; Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( sequence ' : ' sequence ' Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( k : ' sequence ' ) ( e : ' expr ) _ ( mb : ' module_binding0 ) ( m : ' a_UIDENT ) _ _ ( _loc : Gram . Loc . t ) -> ( k ( Ast . ExLmd ( _loc , m , mb , e ) ) : ' sequence ) ) ) ) ; ( [ Gram . Skeyword " let " ; Gram . Snterm ( Gram . Entry . obj ( opt_rec : ' opt_rec Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( binding : ' binding Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( el : ' sequence ) _ ( bi : ' binding ) ( rf : ' opt_rec ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExLet ( _loc , rf , bi , ( mksequence _loc el ) ) : ' sequence ) ) ) ) ; ( [ Gram . Skeyword " let " ; Gram . Snterm ( Gram . Entry . obj ( opt_rec : ' opt_rec Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( binding : ' binding Gram . Entry . t ) ) ; Gram . Skeyword " in " ; Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( sequence ' : ' sequence ' Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( k : ' sequence ' ) ( e : ' expr ) _ ( bi : ' binding ) ( rf : ' opt_rec ) _ ( _loc : Gram . Loc . t ) -> ( k ( Ast . ExLet ( _loc , rf , bi , e ) ) : ' sequence ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( binding : ' binding Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Snterm ( Gram . Entry . obj ( let_binding : ' let_binding Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( b : ' let_binding ) ( _loc : Gram . Loc . t ) -> ( b : ' binding ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " and " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( b2 : ' binding ) _ ( b1 : ' binding ) ( _loc : Gram . Loc . t ) -> ( Ast . BiAnd ( _loc , b1 , b2 ) : ' binding ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " anti " as n ) ) , s ) -> ( Ast . BiAnt ( _loc , ( mk_anti ~ c : " binding " n s ) ) : ' binding ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ anti " ) , \ _ ) " ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " anti " as n ) ) , s ) -> ( Ast . BiEq ( _loc , ( Ast . PaAnt ( _loc , ( mk_anti ~ c : " patt " n s ) ) ) , e ) : ' binding ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " binding " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " \ binding " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " binding " | " list " as n ) ) , s ) -> ( Ast . BiAnt ( _loc , ( mk_anti ~ c : " binding " n s ) ) : ' binding ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( let_binding : ' let_binding Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( ipatt : ' ipatt Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( fun_binding : ' fun_binding Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' fun_binding ) ( p : ' ipatt ) ( _loc : Gram . Loc . t ) -> ( Ast . BiEq ( _loc , p , e ) : ' let_binding ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( fun_binding : ' fun_binding Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , ( Some Camlp4 . Sig . Grammar . RightA ) , [ ( [ Gram . Snterm ( Gram . Entry . obj ( cvalue_binding : ' cvalue_binding Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( bi : ' cvalue_binding ) ( _loc : Gram . Loc . t ) -> ( bi : ' fun_binding ) ) ) ) ; ( [ Gram . Stry ( Gram . Snterm ( Gram . Entry . obj ( labeled_ipatt : ' labeled_ipatt Gram . Entry . t ) ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e : ' fun_binding ) ( p : ' labeled_ipatt ) ( _loc : Gram . Loc . t ) -> ( Ast . ExFun ( _loc , ( Ast . McArr ( _loc , p , ( Ast . ExNil _loc ) , e ) ) ) : ' fun_binding ) ) ) ) ; ( [ Gram . Stry ( Gram . srules fun_binding [ ( [ Gram . Skeyword " ( " ; Gram . Skeyword " type " ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( ( ) : ' e__6 ) ) ) ) ] ) ; Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Skeyword " ) " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e : ' fun_binding ) _ ( i : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExFUN ( _loc , i , e ) : ' fun_binding ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( match_case : ' match_case Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( ipatt : ' ipatt Gram . Entry . t ) ) ; Gram . Skeyword " " ; -> Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( p : ' ipatt ) ( _loc : Gram . Loc . t ) -> ( Ast . McArr ( _loc , p , ( Ast . ExNil _loc ) , e ) : ' match_case ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Slist0sep ( ( Gram . Snterm ( Gram . Entry . obj ( match_case0 : ' match_case0 Gram . Entry . t ) ) ) , ( Gram . Skeyword " " ) ) ; | Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( l : ' match_case0 list ) _ ( _loc : Gram . Loc . t ) -> ( Ast . mcOr_of_list l : ' match_case ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( match_case0 : ' match_case0 Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( patt_as_patt_opt : ' patt_as_patt_opt Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_when_expr : ' opt_when_expr Gram . Entry . t ) ) ; Gram . Skeyword " " ; -> Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( w : ' opt_when_expr ) ( p : ' patt_as_patt_opt ) ( _loc : Gram . Loc . t ) -> ( Ast . McArr ( _loc , p , w , e ) : ' match_case0 ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ anti " ) , \ _ ) " ) ) ; Gram . Skeyword " when " ; Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Skeyword " " ; -> Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( w : ' expr ) _ ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " anti " as n ) ) , s ) -> ( Ast . McArr ( _loc , ( Ast . PaAnt ( _loc , ( mk_anti ~ c : " patt " n s ) ) ) , w , e ) : ' match_case0 ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ anti " ) , \ _ ) " ) ) ; Gram . Skeyword " " ; -> Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " anti " as n ) ) , s ) -> ( Ast . McArr ( _loc , ( Ast . PaAnt ( _loc , ( mk_anti ~ c : " patt " n s ) ) ) , ( Ast . ExNil _loc ) , e ) : ' match_case0 ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " anti " as n ) ) , s ) -> ( Ast . McAnt ( _loc , ( mk_anti ~ c : " match_case " n s ) ) : ' match_case0 ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " match_case " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " \ match_case " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " match_case " | " list " as n ) ) , s ) -> ( Ast . McAnt ( _loc , ( mk_anti ~ c : " match_case " n s ) ) : ' match_case0 ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( opt_when_expr : ' opt_when_expr Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . ExNil _loc : ' opt_when_expr ) ) ) ) ; ( [ Gram . Skeyword " when " ; Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( w : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( w : ' opt_when_expr ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( patt_as_patt_opt : ' patt_as_patt_opt Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( p : ' patt ) ( _loc : Gram . Loc . t ) -> ( p : ' patt_as_patt_opt ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ; Gram . Skeyword " as " ; Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( p2 : ' patt ) _ ( p1 : ' patt ) ( _loc : Gram . Loc . t ) -> ( Ast . PaAli ( _loc , p1 , p2 ) : ' patt_as_patt_opt ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( label_expr_list : ' label_expr_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( label_expr : ' label_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( b1 : ' label_expr ) ( _loc : Gram . Loc . t ) -> ( b1 : ' label_expr_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( label_expr : ' label_expr Gram . Entry . t ) ) ; Gram . Skeyword " ; " ] , ( Gram . Action . mk ( fun _ ( b1 : ' label_expr ) ( _loc : Gram . Loc . t ) -> ( b1 : ' label_expr_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( label_expr : ' label_expr Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( b2 : ' label_expr_list ) _ ( b1 : ' label_expr ) ( _loc : Gram . Loc . t ) -> ( Ast . RbSem ( _loc , b1 , b2 ) : ' label_expr_list ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( label_expr : ' label_expr Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( label_longident : ' label_longident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' label_longident ) ( _loc : Gram . Loc . t ) -> ( Ast . RbEq ( _loc , i , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , ( lid_of_ident i ) ) ) ) ) ) : ' label_expr ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( label_longident : ' label_longident Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( fun_binding : ' fun_binding Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' fun_binding ) ( i : ' label_longident ) ( _loc : Gram . Loc . t ) -> ( Ast . RbEq ( _loc , i , e ) : ' label_expr ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . RbAnt ( _loc , ( mk_anti ~ c : " rec_binding " n s ) ) : ' label_expr ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ anti " ) , \ _ ) " ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " anti " as n ) ) , s ) -> ( Ast . RbEq ( _loc , ( Ast . IdAnt ( _loc , ( mk_anti ~ c : " ident " n s ) ) ) , e ) : ' label_expr ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " anti " as n ) ) , s ) -> ( Ast . RbAnt ( _loc , ( mk_anti ~ c : " rec_binding " n s ) ) : ' label_expr ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " rec_binding " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ rec_binding " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " rec_binding " as n ) ) , s ) -> ( Ast . RbAnt ( _loc , ( mk_anti ~ c : " rec_binding " n s ) ) : ' label_expr ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( fun_def : ' fun_def Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stry ( Gram . Snterm ( Gram . Entry . obj ( labeled_ipatt : ' labeled_ipatt Gram . Entry . t ) ) ) ; Gram . Snterm ( Gram . Entry . obj ( fun_def_cont : ' fun_def_cont Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ( w , e ) : ' fun_def_cont ) ( p : ' labeled_ipatt ) ( _loc : Gram . Loc . t ) -> ( Ast . ExFun ( _loc , ( Ast . McArr ( _loc , p , w , e ) ) ) : ' fun_def ) ) ) ) ; ( [ Gram . Stry ( Gram . srules fun_def [ ( [ Gram . Skeyword " ( " ; Gram . Skeyword " type " ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( ( ) : ' e__7 ) ) ) ) ] ) ; Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Skeyword " ) " ; Gram . Snterm ( Gram . Entry . obj ( fun_def_cont_no_when : ' fun_def_cont_no_when Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' fun_def_cont_no_when ) _ ( i : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExFUN ( _loc , i , e ) : ' fun_def ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( fun_def_cont : ' fun_def_cont Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , ( Some Camlp4 . Sig . Grammar . RightA ) , [ ( [ Gram . Skeyword " " ; -> Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( ( ( Ast . ExNil _loc ) , e ) : ' fun_def_cont ) ) ) ) ; ( [ Gram . Skeyword " when " ; Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Skeyword " " ; -> Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( w : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( ( w , e ) : ' fun_def_cont ) ) ) ) ; ( [ Gram . Stry ( Gram . Snterm ( Gram . Entry . obj ( labeled_ipatt : ' labeled_ipatt Gram . Entry . t ) ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( ( w , e ) : ' fun_def_cont ) ( p : ' labeled_ipatt ) ( _loc : Gram . Loc . t ) -> ( ( ( Ast . ExNil _loc ) , ( Ast . ExFun ( _loc , ( Ast . McArr ( _loc , p , w , e ) ) ) ) ) : ' fun_def_cont ) ) ) ) ; ( [ Gram . Stry ( Gram . srules fun_def_cont [ ( [ Gram . Skeyword " ( " ; Gram . Skeyword " type " ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( ( ) : ' e__8 ) ) ) ) ] ) ; Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Skeyword " ) " ; Gram . Snterm ( Gram . Entry . obj ( fun_def_cont_no_when : ' fun_def_cont_no_when Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' fun_def_cont_no_when ) _ ( i : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( ( ( Ast . ExNil _loc ) , ( Ast . ExFUN ( _loc , i , e ) ) ) : ' fun_def_cont ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( fun_def_cont_no_when : ' fun_def_cont_no_when Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , ( Some Camlp4 . Sig . Grammar . RightA ) , [ ( [ Gram . Skeyword " " ; -> Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( e : ' fun_def_cont_no_when ) ) ) ) ; ( [ Gram . Stry ( Gram . Snterm ( Gram . Entry . obj ( labeled_ipatt : ' labeled_ipatt Gram . Entry . t ) ) ) ; Gram . Snterm ( Gram . Entry . obj ( fun_def_cont : ' fun_def_cont Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ( w , e ) : ' fun_def_cont ) ( p : ' labeled_ipatt ) ( _loc : Gram . Loc . t ) -> ( Ast . ExFun ( _loc , ( Ast . McArr ( _loc , p , w , e ) ) ) : ' fun_def_cont_no_when ) ) ) ) ; ( [ Gram . Stry ( Gram . srules fun_def_cont_no_when [ ( [ Gram . Skeyword " ( " ; Gram . Skeyword " type " ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( ( ) : ' e__9 ) ) ) ) ] ) ; Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Skeyword " ) " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( e : ' fun_def_cont_no_when ) _ ( i : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExFUN ( _loc , i , e ) : ' fun_def_cont_no_when ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( patt : ' patt Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( ( Some " " ) , | ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Sself ; Gram . Skeyword " " ; | Gram . Sself ] , ( Gram . Action . mk ( fun ( p2 : ' patt ) _ ( p1 : ' patt ) ( _loc : Gram . Loc . t ) -> ( Ast . PaOrp ( _loc , p1 , p2 ) : ' patt ) ) ) ) ] ) ; ( ( Some " . . " ) , ( Some Camlp4 . Sig . Grammar . NonA ) , [ ( [ Gram . Sself ; Gram . Skeyword " . . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( p2 : ' patt ) _ ( p1 : ' patt ) ( _loc : Gram . Loc . t ) -> ( Ast . PaRng ( _loc , p1 , p2 ) : ' patt ) ) ) ) ] ) ; ( ( Some " apply " ) , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Skeyword " lazy " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( p : ' patt ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaLaz ( _loc , p ) : ' patt ) ) ) ) ; ( [ Gram . Sself ; Gram . Sself ] , ( Gram . Action . mk ( fun ( p2 : ' patt ) ( p1 : ' patt ) ( _loc : Gram . Loc . t ) -> ( Ast . PaApp ( _loc , p1 , p2 ) : ' patt ) ) ) ) ] ) ; ( ( Some " simple " ) , None , [ ( [ Gram . Skeyword " " ; ? Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( patt_tcon : ' patt_tcon Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( e : ' expr ) _ ( p : ' patt_tcon ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . PaOlbi ( _loc , " " , p , e ) : ' patt ) ) ) ) ; ( [ Gram . Skeyword " " ; ? Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( patt_tcon : ' patt_tcon Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( p : ' patt_tcon ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . PaOlb ( _loc , " " , p ) : ' patt ) ) ) ) ; ( [ Gram . Skeyword " " ; ? Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " lid " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ lid " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " lid " as n ) ) , i ) -> ( Ast . PaOlb ( _loc , ( mk_anti n i ) , ( Ast . PaNil _loc ) ) : ' patt ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " " ; ? Gram . Stoken ( ( ( function | LIDENT _ -> true | _ -> false ) , " LIDENT _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | LIDENT i -> ( Ast . PaOlb ( _loc , i , ( Ast . PaNil _loc ) ) : ' patt ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " " ; ? Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " lid " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ lid " ) , \ _ ) " ) ) ; Gram . Skeyword " " ; : Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( patt_tcon : ' patt_tcon Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( eq_expr : ' eq_expr Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( f : ' eq_expr ) ( p : ' patt_tcon ) _ _ ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " lid " as n ) ) , i ) -> ( f ( mk_anti n i ) p : ' patt ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | OPTLABEL _ -> true | _ -> false ) , " OPTLABEL _ " ) ) ; Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( patt_tcon : ' patt_tcon Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( eq_expr : ' eq_expr Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( f : ' eq_expr ) ( p : ' patt_tcon ) _ ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | OPTLABEL i -> ( f i p : ' patt ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " " ; ~ Gram . Stoken ( ( ( function | LIDENT _ -> true | _ -> false ) , " LIDENT _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | LIDENT i -> ( Ast . PaLab ( _loc , i , ( Ast . PaNil _loc ) ) : ' patt ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " " ; ~ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " lid " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ lid " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " lid " as n ) ) , i ) -> ( Ast . PaLab ( _loc , ( mk_anti n i ) , ( Ast . PaNil _loc ) ) : ' patt ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " " ; ~ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " lid " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ lid " ) , \ _ ) " ) ) ; Gram . Skeyword " " ; : Gram . Sself ] , ( Gram . Action . mk ( fun ( p : ' patt ) _ ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " lid " as n ) ) , i ) -> ( Ast . PaLab ( _loc , ( mk_anti n i ) , p ) : ' patt ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | LABEL _ -> true | _ -> false ) , " LABEL _ " ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( p : ' patt ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | LABEL i -> ( Ast . PaLab ( _loc , i , p ) : ' patt ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " " ; # Gram . Snterm ( Gram . Entry . obj ( type_longident : ' type_longident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' type_longident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaTyp ( _loc , i ) : ' patt ) ) ) ) ; ( [ Gram . Skeyword " ` " ; Gram . Snterm ( Gram . Entry . obj ( a_ident : ' a_ident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_ident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaVrn ( _loc , s ) : ' patt ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . patt_tag : ' patt ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " _ " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . PaAny _loc : ' patt ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " , " ; Gram . Snterm ( Gram . Entry . obj ( comma_patt : ' comma_patt Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( pl : ' comma_patt ) _ ( p : ' patt ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaTup ( _loc , ( Ast . PaCom ( _loc , p , pl ) ) ) : ' patt ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " as " ; Gram . Sself ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( p2 : ' patt ) _ ( p : ' patt ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaAli ( _loc , p , p2 ) : ' patt ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( t : ' ctyp ) _ ( p : ' patt ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaTyc ( _loc , p , t ) : ' patt ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( p : ' patt ) _ ( _loc : Gram . Loc . t ) -> ( p : ' patt ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " ( ) " ) ) ) : ' patt ) ) ) ) ; ( [ Gram . Skeyword " { " ; Gram . Snterm ( Gram . Entry . obj ( label_patt_list : ' label_patt_list Gram . Entry . t ) ) ; Gram . Skeyword " } " ] , ( Gram . Action . mk ( fun _ ( pl : ' label_patt_list ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaRec ( _loc , pl ) : ' patt ) ) ) ) ; ( [ Gram . Skeyword " [ " ; | Gram . Snterm ( Gram . Entry . obj ( sem_patt : ' sem_patt Gram . Entry . t ) ) ; Gram . Skeyword " ] " | ] , ( Gram . Action . mk ( fun _ ( pl : ' sem_patt ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaArr ( _loc , pl ) : ' patt ) ) ) ) ; ( [ Gram . Skeyword " [ " ; | Gram . Skeyword " ] " | ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( Ast . PaArr ( _loc , ( Ast . PaNil _loc ) ) : ' patt ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Snterm ( Gram . Entry . obj ( sem_patt_for_list : ' sem_patt_for_list Gram . Entry . t ) ) ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( mk_list : ' sem_patt_for_list ) _ ( _loc : Gram . Loc . t ) -> ( mk_list ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) ) : ' patt ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Snterm ( Gram . Entry . obj ( sem_patt_for_list : ' sem_patt_for_list Gram . Entry . t ) ) ; Gram . Skeyword " " ; :: Gram . Sself ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( last : ' patt ) _ ( mk_list : ' sem_patt_for_list ) _ ( _loc : Gram . Loc . t ) -> ( mk_list last : ' patt ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) : ' patt ) ) ) ) ; ( [ Gram . Skeyword " " ; - Gram . Snterm ( Gram . Entry . obj ( a_FLOAT : ' a_FLOAT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_FLOAT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaFlo ( _loc , ( neg_string s ) ) : ' patt ) ) ) ) ; ( [ Gram . Skeyword " " ; - Gram . Snterm ( Gram . Entry . obj ( a_NATIVEINT : ' a_NATIVEINT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_NATIVEINT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaNativeInt ( _loc , ( neg_string s ) ) : ' patt ) ) ) ) ; ( [ Gram . Skeyword " " ; - Gram . Snterm ( Gram . Entry . obj ( a_INT64 : ' a_INT64 Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_INT64 ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaInt64 ( _loc , ( neg_string s ) ) : ' patt ) ) ) ) ; ( [ Gram . Skeyword " " ; - Gram . Snterm ( Gram . Entry . obj ( a_INT32 : ' a_INT32 Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_INT32 ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaInt32 ( _loc , ( neg_string s ) ) : ' patt ) ) ) ) ; ( [ Gram . Skeyword " " ; - Gram . Snterm ( Gram . Entry . obj ( a_INT : ' a_INT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_INT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaInt ( _loc , ( neg_string s ) ) : ' patt ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_CHAR : ' a_CHAR Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_CHAR ) ( _loc : Gram . Loc . t ) -> ( Ast . PaChr ( _loc , s ) : ' patt ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_STRING : ' a_STRING Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_STRING ) ( _loc : Gram . Loc . t ) -> ( Ast . PaStr ( _loc , s ) : ' patt ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_FLOAT : ' a_FLOAT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_FLOAT ) ( _loc : Gram . Loc . t ) -> ( Ast . PaFlo ( _loc , s ) : ' patt ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_NATIVEINT : ' a_NATIVEINT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_NATIVEINT ) ( _loc : Gram . Loc . t ) -> ( Ast . PaNativeInt ( _loc , s ) : ' patt ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_INT64 : ' a_INT64 Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_INT64 ) ( _loc : Gram . Loc . t ) -> ( Ast . PaInt64 ( _loc , s ) : ' patt ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_INT32 : ' a_INT32 Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_INT32 ) ( _loc : Gram . Loc . t ) -> ( Ast . PaInt32 ( _loc , s ) : ' patt ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_INT : ' a_INT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_INT ) ( _loc : Gram . Loc . t ) -> ( Ast . PaInt ( _loc , s ) : ' patt ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( ident : ' ident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' ident ) ( _loc : Gram . Loc . t ) -> ( Ast . PaId ( _loc , i ) : ' patt ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " ` bool " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " ` \ bool " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " ` bool " as n ) ) , s ) -> ( Ast . PaId ( _loc , ( Ast . IdAnt ( _loc , ( mk_anti n s ) ) ) ) : ' patt ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " tup " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ tup " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " tup " as n ) ) , s ) -> ( Ast . PaTup ( _loc , ( Ast . PaAnt ( _loc , ( mk_anti ~ c : " patt " n s ) ) ) ) : ' patt ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " pat " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ pat " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " pat " | " anti " as n ) ) , s ) -> ( Ast . PaAnt ( _loc , ( mk_anti ~ c : " patt " n s ) ) : ' patt ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( comma_patt : ' comma_patt Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( p : ' patt ) ( _loc : Gram . Loc . t ) -> ( p : ' comma_patt ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . PaAnt ( _loc , ( mk_anti ~ c : " patt , " n s ) ) : ' comma_patt ) | _ -> assert false ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " , " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( p2 : ' comma_patt ) _ ( p1 : ' comma_patt ) ( _loc : Gram . Loc . t ) -> ( Ast . PaCom ( _loc , p1 , p2 ) : ' comma_patt ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( sem_patt : ' sem_patt Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( p : ' patt ) ( _loc : Gram . Loc . t ) -> ( p : ' sem_patt ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ; Gram . Skeyword " ; " ] , ( Gram . Action . mk ( fun _ ( p : ' patt ) ( _loc : Gram . Loc . t ) -> ( p : ' sem_patt ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . PaAnt ( _loc , ( mk_anti ~ c : " patt ; " n s ) ) : ' sem_patt ) | _ -> assert false ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( p2 : ' sem_patt ) _ ( p1 : ' patt ) ( _loc : Gram . Loc . t ) -> ( Ast . PaSem ( _loc , p1 , p2 ) : ' sem_patt ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( sem_patt_for_list : ' sem_patt_for_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( p : ' patt ) ( _loc : Gram . Loc . t ) -> ( fun acc -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: p ) ) , acc ) : ' sem_patt_for_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ; Gram . Skeyword " ; " ] , ( Gram . Action . mk ( fun _ ( p : ' patt ) ( _loc : Gram . Loc . t ) -> ( fun acc -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: p ) ) , acc ) : ' sem_patt_for_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( pl : ' sem_patt_for_list ) _ ( p : ' patt ) ( _loc : Gram . Loc . t ) -> ( fun acc -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: p ) ) , ( pl acc ) ) : ' sem_patt_for_list ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( label_patt_list : ' label_patt_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( label_patt : ' label_patt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( p1 : ' label_patt ) ( _loc : Gram . Loc . t ) -> ( p1 : ' label_patt_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( label_patt : ' label_patt Gram . Entry . t ) ) ; Gram . Skeyword " ; " ] , ( Gram . Action . mk ( fun _ ( p1 : ' label_patt ) ( _loc : Gram . Loc . t ) -> ( p1 : ' label_patt_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( label_patt : ' label_patt Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Skeyword " _ " ; Gram . Skeyword " ; " ] , ( Gram . Action . mk ( fun _ _ _ ( p1 : ' label_patt ) ( _loc : Gram . Loc . t ) -> ( Ast . PaSem ( _loc , p1 , ( Ast . PaAny _loc ) ) : ' label_patt_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( label_patt : ' label_patt Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Skeyword " _ " ] , ( Gram . Action . mk ( fun _ _ ( p1 : ' label_patt ) ( _loc : Gram . Loc . t ) -> ( Ast . PaSem ( _loc , p1 , ( Ast . PaAny _loc ) ) : ' label_patt_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( label_patt : ' label_patt Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( p2 : ' label_patt_list ) _ ( p1 : ' label_patt ) ( _loc : Gram . Loc . t ) -> ( Ast . PaSem ( _loc , p1 , p2 ) : ' label_patt_list ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( label_patt : ' label_patt Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( label_longident : ' label_longident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' label_longident ) ( _loc : Gram . Loc . t ) -> ( Ast . PaEq ( _loc , i , ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , ( lid_of_ident i ) ) ) ) ) ) : ' label_patt ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( label_longident : ' label_longident Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( p : ' patt ) _ ( i : ' label_longident ) ( _loc : Gram . Loc . t ) -> ( Ast . PaEq ( _loc , i , p ) : ' label_patt ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . PaAnt ( _loc , ( mk_anti ~ c : " patt ; " n s ) ) : ' label_patt ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . patt_tag : ' label_patt ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " pat " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ pat " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " pat " | " anti " as n ) ) , s ) -> ( Ast . PaAnt ( _loc , ( mk_anti ~ c : " patt " n s ) ) : ' label_patt ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( ipatt : ' ipatt Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " _ " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . PaAny _loc : ' ipatt ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_LIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , s ) ) ) : ' ipatt ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " , " ; Gram . Snterm ( Gram . Entry . obj ( comma_ipatt : ' comma_ipatt Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( pl : ' comma_ipatt ) _ ( p : ' ipatt ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaTup ( _loc , ( Ast . PaCom ( _loc , p , pl ) ) ) : ' ipatt ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " as " ; Gram . Sself ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( p2 : ' ipatt ) _ ( p : ' ipatt ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaAli ( _loc , p , p2 ) : ' ipatt ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( t : ' ctyp ) _ ( p : ' ipatt ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaTyc ( _loc , p , t ) : ' ipatt ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( p : ' ipatt ) _ ( _loc : Gram . Loc . t ) -> ( p : ' ipatt ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " ( ) " ) ) ) : ' ipatt ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . patt_tag : ' ipatt ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " tup " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ tup " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " tup " as n ) ) , s ) -> ( Ast . PaTup ( _loc , ( Ast . PaAnt ( _loc , ( mk_anti ~ c : " patt " n s ) ) ) ) : ' ipatt ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " pat " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ pat " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " pat " | " anti " as n ) ) , s ) -> ( Ast . PaAnt ( _loc , ( mk_anti ~ c : " patt " n s ) ) : ' ipatt ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " { " ; Gram . Snterm ( Gram . Entry . obj ( label_ipatt_list : ' label_ipatt_list Gram . Entry . t ) ) ; Gram . Skeyword " } " ] , ( Gram . Action . mk ( fun _ ( pl : ' label_ipatt_list ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaRec ( _loc , pl ) : ' ipatt ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( labeled_ipatt : ' labeled_ipatt Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( ipatt : ' ipatt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( p : ' ipatt ) ( _loc : Gram . Loc . t ) -> ( p : ' labeled_ipatt ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( comma_ipatt : ' comma_ipatt Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Snterm ( Gram . Entry . obj ( ipatt : ' ipatt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( p : ' ipatt ) ( _loc : Gram . Loc . t ) -> ( p : ' comma_ipatt ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . PaAnt ( _loc , ( mk_anti ~ c : " patt , " n s ) ) : ' comma_ipatt ) | _ -> assert false ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " , " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( p2 : ' comma_ipatt ) _ ( p1 : ' comma_ipatt ) ( _loc : Gram . Loc . t ) -> ( Ast . PaCom ( _loc , p1 , p2 ) : ' comma_ipatt ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( label_ipatt_list : ' label_ipatt_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( label_ipatt : ' label_ipatt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( p1 : ' label_ipatt ) ( _loc : Gram . Loc . t ) -> ( p1 : ' label_ipatt_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( label_ipatt : ' label_ipatt Gram . Entry . t ) ) ; Gram . Skeyword " ; " ] , ( Gram . Action . mk ( fun _ ( p1 : ' label_ipatt ) ( _loc : Gram . Loc . t ) -> ( p1 : ' label_ipatt_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( label_ipatt : ' label_ipatt Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( p2 : ' label_ipatt_list ) _ ( p1 : ' label_ipatt ) ( _loc : Gram . Loc . t ) -> ( Ast . PaSem ( _loc , p1 , p2 ) : ' label_ipatt_list ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( label_ipatt : ' label_ipatt Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( label_longident : ' label_longident Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( ipatt : ' ipatt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( p : ' ipatt ) _ ( i : ' label_longident ) ( _loc : Gram . Loc . t ) -> ( Ast . PaEq ( _loc , i , p ) : ' label_ipatt ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . patt_tag : ' label_ipatt ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . PaAnt ( _loc , ( mk_anti ~ c : " patt ; " n s ) ) : ' label_ipatt ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " pat " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ pat " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " pat " | " anti " as n ) ) , s ) -> ( Ast . PaAnt ( _loc , ( mk_anti ~ c : " patt " n s ) ) : ' label_ipatt ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( type_declaration : ' type_declaration Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Snterm ( Gram . Entry . obj ( type_ident_and_parameters : ' type_ident_and_parameters Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_eq_ctyp : ' opt_eq_ctyp Gram . Entry . t ) ) ; Gram . Slist0 ( Gram . Snterm ( Gram . Entry . obj ( constrain : ' constrain Gram . Entry . t ) ) ) ] , ( Gram . Action . mk ( fun ( cl : ' constrain list ) ( tk : ' opt_eq_ctyp ) ( ( n , tpl ) : ' type_ident_and_parameters ) ( _loc : Gram . Loc . t ) -> ( Ast . TyDcl ( _loc , n , tpl , tk , cl ) : ' type_declaration ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " and " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' type_declaration ) _ ( t1 : ' type_declaration ) ( _loc : Gram . Loc . t ) -> ( Ast . TyAnd ( _loc , t1 , t2 ) : ' type_declaration ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . ctyp_tag : ' type_declaration ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctypand " n s ) ) : ' type_declaration ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " typ " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ typ " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " typ " | " anti " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp " n s ) ) : ' type_declaration ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( constrain : ' constrain Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " constraint " ; Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t2 : ' ctyp ) _ ( t1 : ' ctyp ) _ ( _loc : Gram . Loc . t ) -> ( ( t1 , t2 ) : ' constrain ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( opt_eq_ctyp : ' opt_eq_ctyp Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . TyNil _loc : ' opt_eq_ctyp ) ) ) ) ; ( [ Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( type_kind : ' type_kind Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( tk : ' type_kind ) _ ( _loc : Gram . Loc . t ) -> ( tk : ' opt_eq_ctyp ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( type_kind : ' type_kind Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) ( _loc : Gram . Loc . t ) -> ( t : ' type_kind ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( type_ident_and_parameters : ' type_ident_and_parameters Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Slist0 ( Gram . Snterm ( Gram . Entry . obj ( type_parameter : ' type_parameter Gram . Entry . t ) ) ) ] , ( Gram . Action . mk ( fun ( tpl : ' type_parameter list ) ( i : ' a_LIDENT ) ( _loc : Gram . Loc . t ) -> ( ( i , tpl ) : ' type_ident_and_parameters ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( type_longident_and_parameters : ' type_longident_and_parameters Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( type_longident : ' type_longident Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( type_parameters : ' type_parameters Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( tpl : ' type_parameters ) ( i : ' type_longident ) ( _loc : Gram . Loc . t ) -> ( tpl ( Ast . TyId ( _loc , i ) ) : ' type_longident_and_parameters ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( type_parameters : ' type_parameters Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( fun t -> t : ' type_parameters ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( type_parameter : ' type_parameter Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' type_parameter ) ( _loc : Gram . Loc . t ) -> ( fun acc -> Ast . TyApp ( _loc , acc , t ) : ' type_parameters ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( type_parameter : ' type_parameter Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' type_parameters ) ( t1 : ' type_parameter ) ( _loc : Gram . Loc . t ) -> ( fun acc -> t2 ( Ast . TyApp ( _loc , acc , t1 ) ) : ' type_parameters ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( type_parameter : ' type_parameter Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " " ; - Gram . Skeyword " ' " ; Gram . Snterm ( Gram . Entry . obj ( a_ident : ' a_ident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_ident ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . TyQuM ( _loc , i ) : ' type_parameter ) ) ) ) ; ( [ Gram . Skeyword " " ; + Gram . Skeyword " ' " ; Gram . Snterm ( Gram . Entry . obj ( a_ident : ' a_ident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_ident ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . TyQuP ( _loc , i ) : ' type_parameter ) ) ) ) ; ( [ Gram . Skeyword " ' " ; Gram . Snterm ( Gram . Entry . obj ( a_ident : ' a_ident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_ident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyQuo ( _loc , i ) : ' type_parameter ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . ctyp_tag : ' type_parameter ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " typ " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ typ " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " typ " | " anti " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti n s ) ) : ' type_parameter ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( ctyp : ' ctyp Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( ( Some " " ) , == ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Sself ; Gram . Skeyword " " ; == Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' ctyp ) _ ( t1 : ' ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TyMan ( _loc , t1 , t2 ) : ' ctyp ) ) ) ) ] ) ; ( ( Some " private " ) , ( Some Camlp4 . Sig . Grammar . NonA ) , [ ( [ Gram . Skeyword " private " ; Gram . Snterml ( ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) , " alias " ) ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyPrv ( _loc , t ) : ' ctyp ) ) ) ) ] ) ; ( ( Some " alias " ) , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Sself ; Gram . Skeyword " as " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' ctyp ) _ ( t1 : ' ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TyAli ( _loc , t1 , t2 ) : ' ctyp ) ) ) ) ] ) ; ( ( Some " forall " ) , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Skeyword " " ; ! Gram . Snterm ( Gram . Entry . obj ( typevars : ' typevars Gram . Entry . t ) ) ; Gram . Skeyword " . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' ctyp ) _ ( t1 : ' typevars ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyPol ( _loc , t1 , t2 ) : ' ctyp ) ) ) ) ] ) ; ( ( Some " arrow " ) , ( Some Camlp4 . Sig . Grammar . RightA ) , [ ( [ Gram . Sself ; Gram . Skeyword " " ; -> Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' ctyp ) _ ( t1 : ' ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TyArr ( _loc , t1 , t2 ) : ' ctyp ) ) ) ) ] ) ; ( ( Some " label " ) , ( Some Camlp4 . Sig . Grammar . NonA ) , [ ( [ Gram . Snterm ( Gram . Entry . obj ( a_OPTLABEL : ' a_OPTLABEL Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) ( i : ' a_OPTLABEL ) ( _loc : Gram . Loc . t ) -> ( Ast . TyOlb ( _loc , i , t ) : ' ctyp ) ) ) ) ; ( [ Gram . Skeyword " " ; ? Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Sself ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) _ ( i : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyOlb ( _loc , i , t ) : ' ctyp ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_LABEL : ' a_LABEL Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) ( i : ' a_LABEL ) ( _loc : Gram . Loc . t ) -> ( Ast . TyLab ( _loc , i , t ) : ' ctyp ) ) ) ) ; ( [ Gram . Skeyword " " ; ~ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Sself ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) _ ( i : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyLab ( _loc , i , t ) : ' ctyp ) ) ) ) ] ) ; ( ( Some " apply " ) , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Sself ; Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' ctyp ) ( t1 : ' ctyp ) ( _loc : Gram . Loc . t ) -> ( let t = Ast . TyApp ( _loc , t1 , t2 ) in try Ast . TyId ( _loc , ( Ast . ident_of_ctyp t ) ) with | Invalid_argument _ -> t : ' ctyp ) ) ) ) ] ) ; ( ( Some " . " ) , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Sself ; Gram . Skeyword " . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' ctyp ) _ ( t1 : ' ctyp ) ( _loc : Gram . Loc . t ) -> ( try Ast . TyId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . ident_of_ctyp t1 ) , ( Ast . ident_of_ctyp t2 ) ) ) ) with | Invalid_argument s -> raise ( Stream . Error s ) : ' ctyp ) ) ) ) ] ) ; ( ( Some " simple " ) , None , [ ( [ Gram . Skeyword " ( " ; Gram . Skeyword " module " ; Gram . Snterm ( Gram . Entry . obj ( package_type : ' package_type Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( p : ' package_type ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . TyPkg ( _loc , p ) : ' ctyp ) ) ) ) ; ( [ Gram . Skeyword " " ; < Gram . Snterm ( Gram . Entry . obj ( opt_meth_list : ' opt_meth_list Gram . Entry . t ) ) ; Gram . Skeyword " " > ] , ( Gram . Action . mk ( fun _ ( t : ' opt_meth_list ) _ ( _loc : Gram . Loc . t ) -> ( t : ' ctyp ) ) ) ) ; ( [ Gram . Skeyword " " ; # Gram . Snterm ( Gram . Entry . obj ( class_longident : ' class_longident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' class_longident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyCls ( _loc , i ) : ' ctyp ) ) ) ) ; ( [ Gram . Skeyword " { " ; Gram . Snterm ( Gram . Entry . obj ( label_declaration_list : ' label_declaration_list Gram . Entry . t ) ) ; Gram . Skeyword " } " ] , ( Gram . Action . mk ( fun _ ( t : ' label_declaration_list ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyRec ( _loc , t ) : ' ctyp ) ) ) ) ; ( [ Gram . Skeyword " [ " ; < Gram . Snterm ( Gram . Entry . obj ( row_field : ' row_field Gram . Entry . t ) ) ; Gram . Skeyword " " ; > Gram . Snterm ( Gram . Entry . obj ( name_tags : ' name_tags Gram . Entry . t ) ) ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( ntl : ' name_tags ) _ ( rfl : ' row_field ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyVrnInfSup ( _loc , rfl , ntl ) : ' ctyp ) ) ) ) ; ( [ Gram . Skeyword " [ " ; < Gram . Snterm ( Gram . Entry . obj ( row_field : ' row_field Gram . Entry . t ) ) ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( rfl : ' row_field ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyVrnInf ( _loc , rfl ) : ' ctyp ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Skeyword " " ; < Gram . Snterm ( Gram . Entry . obj ( row_field : ' row_field Gram . Entry . t ) ) ; Gram . Skeyword " " ; > Gram . Snterm ( Gram . Entry . obj ( name_tags : ' name_tags Gram . Entry . t ) ) ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( ntl : ' name_tags ) _ ( rfl : ' row_field ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . TyVrnInfSup ( _loc , rfl , ntl ) : ' ctyp ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Skeyword " " ; < Gram . Snterm ( Gram . Entry . obj ( row_field : ' row_field Gram . Entry . t ) ) ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( rfl : ' row_field ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . TyVrnInf ( _loc , rfl ) : ' ctyp ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Skeyword " " ; > Gram . Snterm ( Gram . Entry . obj ( row_field : ' row_field Gram . Entry . t ) ) ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( rfl : ' row_field ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . TyVrnSup ( _loc , rfl ) : ' ctyp ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Skeyword " " ; > Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ _ _ ( _loc : Gram . Loc . t ) -> ( Ast . TyVrnSup ( _loc , ( Ast . TyNil _loc ) ) : ' ctyp ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( row_field : ' row_field Gram . Entry . t ) ) ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( rfl : ' row_field ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . TyVrnEq ( _loc , rfl ) : ' ctyp ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Snterm ( Gram . Entry . obj ( constructor_declarations : ' constructor_declarations Gram . Entry . t ) ) ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( t : ' constructor_declarations ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TySum ( _loc , t ) : ' ctyp ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( Ast . TySum ( _loc , ( Ast . TyNil _loc ) ) : ' ctyp ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( t : ' ctyp ) _ ( _loc : Gram . Loc . t ) -> ( t : ' ctyp ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " " ; * Gram . Snterm ( Gram . Entry . obj ( star_ctyp : ' star_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( tl : ' star_ctyp ) _ ( t : ' ctyp ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyTup ( _loc , ( Ast . TySta ( _loc , t , tl ) ) ) : ' ctyp ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . TyId ( _loc , ( Ast . IdUid ( _loc , i ) ) ) : ' ctyp ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_LIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . TyId ( _loc , ( Ast . IdLid ( _loc , i ) ) ) : ' ctyp ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . ctyp_tag : ' ctyp ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " id " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ id " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " id " as n ) ) , s ) -> ( Ast . TyId ( _loc , ( Ast . IdAnt ( _loc , ( mk_anti ~ c : " ident " n s ) ) ) ) : ' ctyp ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " tup " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ tup " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " tup " as n ) ) , s ) -> ( Ast . TyTup ( _loc , ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp " n s ) ) ) ) : ' ctyp ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " typ " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ typ " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " typ " | " anti " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp " n s ) ) : ' ctyp ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " _ " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . TyAny _loc : ' ctyp ) ) ) ) ; ( [ Gram . Skeyword " ' " ; Gram . Snterm ( Gram . Entry . obj ( a_ident : ' a_ident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_ident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyQuo ( _loc , i ) : ' ctyp ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( star_ctyp : ' star_ctyp Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) ( _loc : Gram . Loc . t ) -> ( t : ' star_ctyp ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " " ; * Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' star_ctyp ) _ ( t1 : ' star_ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TySta ( _loc , t1 , t2 ) : ' star_ctyp ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp " * n s ) ) : ' star_ctyp ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " typ " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ typ " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " typ " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp " n s ) ) : ' star_ctyp ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( constructor_declarations : ' constructor_declarations Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . TyId ( _loc , ( Ast . IdUid ( _loc , s ) ) ) : ' constructor_declarations ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Skeyword " of " ; Gram . Snterm ( Gram . Entry . obj ( constructor_arg_list : ' constructor_arg_list Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' constructor_arg_list ) _ ( s : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . TyOf ( _loc , ( Ast . TyId ( _loc , ( Ast . IdUid ( _loc , s ) ) ) ) , t ) : ' constructor_declarations ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " " ; | Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' constructor_declarations ) _ ( t1 : ' constructor_declarations ) ( _loc : Gram . Loc . t ) -> ( Ast . TyOr ( _loc , t1 , t2 ) : ' constructor_declarations ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . ctyp_tag : ' constructor_declarations ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp " | n s ) ) : ' constructor_declarations ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " typ " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ typ " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " typ " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp " n s ) ) : ' constructor_declarations ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( constructor_declaration : ' constructor_declaration Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . TyId ( _loc , ( Ast . IdUid ( _loc , s ) ) ) : ' constructor_declaration ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Skeyword " of " ; Gram . Snterm ( Gram . Entry . obj ( constructor_arg_list : ' constructor_arg_list Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' constructor_arg_list ) _ ( s : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . TyOf ( _loc , ( Ast . TyId ( _loc , ( Ast . IdUid ( _loc , s ) ) ) ) , t ) : ' constructor_declaration ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . ctyp_tag : ' constructor_declaration ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " typ " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ typ " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " typ " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp " n s ) ) : ' constructor_declaration ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( constructor_arg_list : ' constructor_arg_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) ( _loc : Gram . Loc . t ) -> ( t : ' constructor_arg_list ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " and " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' constructor_arg_list ) _ ( t1 : ' constructor_arg_list ) ( _loc : Gram . Loc . t ) -> ( Ast . TyAnd ( _loc , t1 , t2 ) : ' constructor_arg_list ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctypand " n s ) ) : ' constructor_arg_list ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( label_declaration_list : ' label_declaration_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( label_declaration : ' label_declaration Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t1 : ' label_declaration ) ( _loc : Gram . Loc . t ) -> ( t1 : ' label_declaration_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( label_declaration : ' label_declaration Gram . Entry . t ) ) ; Gram . Skeyword " ; " ] , ( Gram . Action . mk ( fun _ ( t1 : ' label_declaration ) ( _loc : Gram . Loc . t ) -> ( t1 : ' label_declaration_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( label_declaration : ' label_declaration Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' label_declaration_list ) _ ( t1 : ' label_declaration ) ( _loc : Gram . Loc . t ) -> ( Ast . TySem ( _loc , t1 , t2 ) : ' label_declaration_list ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( label_declaration : ' label_declaration Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Skeyword " mutable " ; Gram . Snterm ( Gram . Entry . obj ( poly_type : ' poly_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' poly_type ) _ _ ( s : ' a_LIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . TyCol ( _loc , ( Ast . TyId ( _loc , ( Ast . IdLid ( _loc , s ) ) ) ) , ( Ast . TyMut ( _loc , t ) ) ) : ' label_declaration ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( poly_type : ' poly_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' poly_type ) _ ( s : ' a_LIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . TyCol ( _loc , ( Ast . TyId ( _loc , ( Ast . IdLid ( _loc , s ) ) ) ) , t ) : ' label_declaration ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . ctyp_tag : ' label_declaration ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp ; " n s ) ) : ' label_declaration ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " typ " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ typ " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " typ " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp " n s ) ) : ' label_declaration ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( a_ident : ' a_ident Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( i : ' a_ident ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_LIDENT ) ( _loc : Gram . Loc . t ) -> ( i : ' a_ident ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( ident : ' ident Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Skeyword " . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( j : ' ident ) _ ( i : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , i ) ) , j ) : ' ident ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " id " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ id " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ; Gram . Skeyword " . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( i : ' ident ) _ ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " id " | " anti " | " list " as n ) ) , s ) -> ( Ast . IdAcc ( _loc , ( Ast . IdAnt ( _loc , ( mk_anti ~ c : " ident " n s ) ) ) , i ) : ' ident ) | _ -> assert false ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_LIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . IdLid ( _loc , i ) : ' ident ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . IdUid ( _loc , i ) : ' ident ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " id " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ id " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " id " | " anti " | " list " as n ) ) , s ) -> ( Ast . IdAnt ( _loc , ( mk_anti ~ c : " ident " n s ) ) : ' ident ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( module_longident : ' module_longident Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . IdUid ( _loc , i ) : ' module_longident ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Skeyword " . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( l : ' module_longident ) _ ( m : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , m ) ) , l ) : ' module_longident ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " id " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ id " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " id " | " anti " | " list " as n ) ) , s ) -> ( Ast . IdAnt ( _loc , ( mk_anti ~ c : " ident " n s ) ) : ' module_longident ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( module_longident_with_app : ' module_longident_with_app Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( ( Some " apply " ) , None , [ ( [ Gram . Sself ; Gram . Sself ] , ( Gram . Action . mk ( fun ( j : ' module_longident_with_app ) ( i : ' module_longident_with_app ) ( _loc : Gram . Loc . t ) -> ( Ast . IdApp ( _loc , i , j ) : ' module_longident_with_app ) ) ) ) ] ) ; ( ( Some " . " ) , None , [ ( [ Gram . Sself ; Gram . Skeyword " . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( j : ' module_longident_with_app ) _ ( i : ' module_longident_with_app ) ( _loc : Gram . Loc . t ) -> ( Ast . IdAcc ( _loc , i , j ) : ' module_longident_with_app ) ) ) ) ] ) ; ( ( Some " simple " ) , None , [ ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( i : ' module_longident_with_app ) _ ( _loc : Gram . Loc . t ) -> ( i : ' module_longident_with_app ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . IdUid ( _loc , i ) : ' module_longident_with_app ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " id " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ id " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " id " | " anti " | " list " as n ) ) , s ) -> ( Ast . IdAnt ( _loc , ( mk_anti ~ c : " ident " n s ) ) : ' module_longident_with_app ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( module_longident_dot_lparen : ' module_longident_dot_lparen Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Skeyword " . " ; Gram . Skeyword " ( " ] , ( Gram . Action . mk ( fun _ _ ( i : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . IdUid ( _loc , i ) : ' module_longident_dot_lparen ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Skeyword " . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( l : ' module_longident_dot_lparen ) _ ( m : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , m ) ) , l ) : ' module_longident_dot_lparen ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " id " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ id " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ; Gram . Skeyword " . " ; Gram . Skeyword " ( " ] , ( Gram . Action . mk ( fun _ _ ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " id " | " anti " | " list " as n ) ) , s ) -> ( Ast . IdAnt ( _loc , ( mk_anti ~ c : " ident " n s ) ) : ' module_longident_dot_lparen ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( type_longident : ' type_longident Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( ( Some " apply " ) , None , [ ( [ Gram . Sself ; Gram . Sself ] , ( Gram . Action . mk ( fun ( j : ' type_longident ) ( i : ' type_longident ) ( _loc : Gram . Loc . t ) -> ( Ast . IdApp ( _loc , i , j ) : ' type_longident ) ) ) ) ] ) ; ( ( Some " . " ) , None , [ ( [ Gram . Sself ; Gram . Skeyword " . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( j : ' type_longident ) _ ( i : ' type_longident ) ( _loc : Gram . Loc . t ) -> ( Ast . IdAcc ( _loc , i , j ) : ' type_longident ) ) ) ) ] ) ; ( ( Some " simple " ) , None , [ ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( i : ' type_longident ) _ ( _loc : Gram . Loc . t ) -> ( i : ' type_longident ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . IdUid ( _loc , i ) : ' type_longident ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_LIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . IdLid ( _loc , i ) : ' type_longident ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " id " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ id " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " id " | " anti " | " list " as n ) ) , s ) -> ( Ast . IdAnt ( _loc , ( mk_anti ~ c : " ident " n s ) ) : ' type_longident ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( label_longident : ' label_longident Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_LIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . IdLid ( _loc , i ) : ' label_longident ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Skeyword " . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( l : ' label_longident ) _ ( m : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , m ) ) , l ) : ' label_longident ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " id " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ id " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " id " | " anti " | " list " as n ) ) , s ) -> ( Ast . IdAnt ( _loc , ( mk_anti ~ c : " ident " n s ) ) : ' label_longident ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_type_longident : ' class_type_longident Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( type_longident : ' type_longident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' type_longident ) ( _loc : Gram . Loc . t ) -> ( x : ' class_type_longident ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( val_longident : ' val_longident Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( ident : ' ident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' ident ) ( _loc : Gram . Loc . t ) -> ( x : ' val_longident ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_longident : ' class_longident Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( label_longident : ' label_longident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' label_longident ) ( _loc : Gram . Loc . t ) -> ( x : ' class_longident ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_declaration : ' class_declaration Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Snterm ( Gram . Entry . obj ( class_info_for_class_expr : ' class_info_for_class_expr Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( class_fun_binding : ' class_fun_binding Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ce : ' class_fun_binding ) ( ci : ' class_info_for_class_expr ) ( _loc : Gram . Loc . t ) -> ( Ast . CeEq ( _loc , ci , ce ) : ' class_declaration ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . class_expr_tag : ' class_declaration ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " cdcl " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ cdcl " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " cdcl " | " anti " | " list " as n ) ) , s ) -> ( Ast . CeAnt ( _loc , ( mk_anti ~ c : " class_expr " n s ) ) : ' class_declaration ) | _ -> assert false ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " and " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( c2 : ' class_declaration ) _ ( c1 : ' class_declaration ) ( _loc : Gram . Loc . t ) -> ( Ast . CeAnd ( _loc , c1 , c2 ) : ' class_declaration ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_fun_binding : ' class_fun_binding Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( labeled_ipatt : ' labeled_ipatt Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( cfb : ' class_fun_binding ) ( p : ' labeled_ipatt ) ( _loc : Gram . Loc . t ) -> ( Ast . CeFun ( _loc , p , cfb ) : ' class_fun_binding ) ) ) ) ; ( [ Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( class_type_plus : ' class_type_plus Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( class_expr : ' class_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ce : ' class_expr ) _ ( ct : ' class_type_plus ) _ ( _loc : Gram . Loc . t ) -> ( Ast . CeTyc ( _loc , ce , ct ) : ' class_fun_binding ) ) ) ) ; ( [ Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( class_expr : ' class_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ce : ' class_expr ) _ ( _loc : Gram . Loc . t ) -> ( ce : ' class_fun_binding ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_info_for_class_type : ' class_info_for_class_type Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( opt_virtual : ' opt_virtual Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( class_name_and_param : ' class_name_and_param Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ( i , ot ) : ' class_name_and_param ) ( mv : ' opt_virtual ) ( _loc : Gram . Loc . t ) -> ( Ast . CtCon ( _loc , mv , ( Ast . IdLid ( _loc , i ) ) , ot ) : ' class_info_for_class_type ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_info_for_class_expr : ' class_info_for_class_expr Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( opt_virtual : ' opt_virtual Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( class_name_and_param : ' class_name_and_param Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ( i , ot ) : ' class_name_and_param ) ( mv : ' opt_virtual ) ( _loc : Gram . Loc . t ) -> ( Ast . CeCon ( _loc , mv , ( Ast . IdLid ( _loc , i ) ) , ot ) : ' class_info_for_class_expr ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_name_and_param : ' class_name_and_param Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_LIDENT ) ( _loc : Gram . Loc . t ) -> ( ( i , ( Ast . TyNil _loc ) ) : ' class_name_and_param ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Skeyword " [ " ; Gram . Snterm ( Gram . Entry . obj ( comma_type_parameter : ' comma_type_parameter Gram . Entry . t ) ) ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( x : ' comma_type_parameter ) _ ( i : ' a_LIDENT ) ( _loc : Gram . Loc . t ) -> ( ( i , x ) : ' class_name_and_param ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( comma_type_parameter : ' comma_type_parameter Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( type_parameter : ' type_parameter Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' type_parameter ) ( _loc : Gram . Loc . t ) -> ( t : ' comma_type_parameter ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp , " n s ) ) : ' comma_type_parameter ) | _ -> assert false ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " , " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' comma_type_parameter ) _ ( t1 : ' comma_type_parameter ) ( _loc : Gram . Loc . t ) -> ( Ast . TyCom ( _loc , t1 , t2 ) : ' comma_type_parameter ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( opt_comma_ctyp : ' opt_comma_ctyp Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . TyNil _loc : ' opt_comma_ctyp ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Snterm ( Gram . Entry . obj ( comma_ctyp : ' comma_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( x : ' comma_ctyp ) _ ( _loc : Gram . Loc . t ) -> ( x : ' opt_comma_ctyp ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( comma_ctyp : ' comma_ctyp Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) ( _loc : Gram . Loc . t ) -> ( t : ' comma_ctyp ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp , " n s ) ) : ' comma_ctyp ) | _ -> assert false ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " , " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' comma_ctyp ) _ ( t1 : ' comma_ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TyCom ( _loc , t1 , t2 ) : ' comma_ctyp ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_fun_def : ' class_fun_def Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " " ; -> Gram . Snterm ( Gram . Entry . obj ( class_expr : ' class_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ce : ' class_expr ) _ ( _loc : Gram . Loc . t ) -> ( ce : ' class_fun_def ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( labeled_ipatt : ' labeled_ipatt Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( ce : ' class_fun_def ) ( p : ' labeled_ipatt ) ( _loc : Gram . Loc . t ) -> ( Ast . CeFun ( _loc , p , ce ) : ' class_fun_def ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_expr : ' class_expr Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( ( Some " top " ) , None , [ ( [ Gram . Skeyword " let " ; Gram . Snterm ( Gram . Entry . obj ( opt_rec : ' opt_rec Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( binding : ' binding Gram . Entry . t ) ) ; Gram . Skeyword " in " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( ce : ' class_expr ) _ ( bi : ' binding ) ( rf : ' opt_rec ) _ ( _loc : Gram . Loc . t ) -> ( Ast . CeLet ( _loc , rf , bi , ce ) : ' class_expr ) ) ) ) ; ( [ Gram . Skeyword " fun " ; Gram . Snterm ( Gram . Entry . obj ( labeled_ipatt : ' labeled_ipatt Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( class_fun_def : ' class_fun_def Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ce : ' class_fun_def ) ( p : ' labeled_ipatt ) _ ( _loc : Gram . Loc . t ) -> ( Ast . CeFun ( _loc , p , ce ) : ' class_expr ) ) ) ) ] ) ; ( ( Some " apply " ) , ( Some Camlp4 . Sig . Grammar . NonA ) , [ ( [ Gram . Sself ; Gram . Snterml ( ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) , " label " ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) ( ce : ' class_expr ) ( _loc : Gram . Loc . t ) -> ( Ast . CeApp ( _loc , ce , e ) : ' class_expr ) ) ) ) ] ) ; ( ( Some " simple " ) , None , [ ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( ce : ' class_expr ) _ ( _loc : Gram . Loc . t ) -> ( ce : ' class_expr ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( class_type : ' class_type Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( ct : ' class_type ) _ ( ce : ' class_expr ) _ ( _loc : Gram . Loc . t ) -> ( Ast . CeTyc ( _loc , ce , ct ) : ' class_expr ) ) ) ) ; ( [ Gram . Skeyword " object " ; Gram . Snterm ( Gram . Entry . obj ( opt_class_self_patt : ' opt_class_self_patt Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( class_structure : ' class_structure Gram . Entry . t ) ) ; Gram . Skeyword " end " ] , ( Gram . Action . mk ( fun _ ( cst : ' class_structure ) ( csp : ' opt_class_self_patt ) _ ( _loc : Gram . Loc . t ) -> ( Ast . CeStr ( _loc , csp , cst ) : ' class_expr ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( class_longident_and_param : ' class_longident_and_param Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ce : ' class_longident_and_param ) ( _loc : Gram . Loc . t ) -> ( ce : ' class_expr ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . class_expr_tag : ' class_expr ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " cexp " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ cexp " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " cexp " | " anti " as n ) ) , s ) -> ( Ast . CeAnt ( _loc , ( mk_anti ~ c : " class_expr " n s ) ) : ' class_expr ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_longident_and_param : ' class_longident_and_param Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( class_longident : ' class_longident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ci : ' class_longident ) ( _loc : Gram . Loc . t ) -> ( Ast . CeCon ( _loc , Ast . ViNil , ci , ( Ast . TyNil _loc ) ) : ' class_longident_and_param ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( class_longident : ' class_longident Gram . Entry . t ) ) ; Gram . Skeyword " [ " ; Gram . Snterm ( Gram . Entry . obj ( comma_ctyp : ' comma_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( t : ' comma_ctyp ) _ ( ci : ' class_longident ) ( _loc : Gram . Loc . t ) -> ( Ast . CeCon ( _loc , Ast . ViNil , ci , t ) : ' class_longident_and_param ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_structure : ' class_structure Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Slist0 ( Gram . srules class_structure [ ( [ Gram . Snterm ( Gram . Entry . obj ( class_str_item : ' class_str_item Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( cst : ' class_str_item ) ( _loc : Gram . Loc . t ) -> ( cst : ' e__10 ) ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( l : ' e__10 list ) ( _loc : Gram . Loc . t ) -> ( Ast . crSem_of_list l : ' class_structure ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " cst " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ cst " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( cst : ' class_structure ) _ ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " cst " | " anti " | " list " as n ) ) , s ) -> ( Ast . CrSem ( _loc , ( Ast . CrAnt ( _loc , ( mk_anti ~ c : " class_str_item " n s ) ) ) , cst ) : ' class_structure ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " cst " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ cst " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " cst " | " anti " | " list " as n ) ) , s ) -> ( Ast . CrAnt ( _loc , ( mk_anti ~ c : " class_str_item " n s ) ) : ' class_structure ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( opt_class_self_patt : ' opt_class_self_patt Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . PaNil _loc : ' opt_class_self_patt ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( t : ' ctyp ) _ ( p : ' patt ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaTyc ( _loc , p , t ) : ' opt_class_self_patt ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( p : ' patt ) _ ( _loc : Gram . Loc . t ) -> ( p : ' opt_class_self_patt ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_str_item : ' class_str_item Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Skeyword " initializer " ; Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( se : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( Ast . CrIni ( _loc , se ) : ' class_str_item ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( type_constraint : ' type_constraint Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t2 : ' ctyp ) _ ( t1 : ' ctyp ) _ ( _loc : Gram . Loc . t ) -> ( Ast . CrCtr ( _loc , t1 , t2 ) : ' class_str_item ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( method_opt_override : ' method_opt_override Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_private : ' opt_private Gram . Entry . t ) ) ; Gram . Skeyword " virtual " ; Gram . Snterm ( Gram . Entry . obj ( label : ' label Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( poly_type : ' poly_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' poly_type ) _ ( l : ' label ) _ ( pf : ' opt_private ) ( o : ' method_opt_override ) ( _loc : Gram . Loc . t ) -> ( if o <> Ast . OvNil then raise ( Stream . Error " override ( ) ! is incompatible with virtual " ) else Ast . CrVir ( _loc , l , pf , t ) : ' class_str_item ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( method_opt_override : ' method_opt_override Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_private : ' opt_private Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( label : ' label Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_polyt : ' opt_polyt Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( fun_binding : ' fun_binding Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' fun_binding ) ( topt : ' opt_polyt ) ( l : ' label ) ( pf : ' opt_private ) ( o : ' method_opt_override ) ( _loc : Gram . Loc . t ) -> ( Ast . CrMth ( _loc , l , o , pf , e , topt ) : ' class_str_item ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( method_opt_override : ' method_opt_override Gram . Entry . t ) ) ; Gram . Skeyword " virtual " ; Gram . Snterm ( Gram . Entry . obj ( opt_private : ' opt_private Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( label : ' label Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( poly_type : ' poly_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' poly_type ) _ ( l : ' label ) ( pf : ' opt_private ) _ ( o : ' method_opt_override ) ( _loc : Gram . Loc . t ) -> ( if o <> Ast . OvNil then raise ( Stream . Error " override ( ) ! is incompatible with virtual " ) else Ast . CrVir ( _loc , l , pf , t ) : ' class_str_item ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( value_val_opt_override : ' value_val_opt_override Gram . Entry . t ) ) ; Gram . Skeyword " virtual " ; Gram . Snterm ( Gram . Entry . obj ( opt_mutable : ' opt_mutable Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( label : ' label Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( poly_type : ' poly_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' poly_type ) _ ( l : ' label ) ( mf : ' opt_mutable ) _ ( o : ' value_val_opt_override ) ( _loc : Gram . Loc . t ) -> ( if o <> Ast . OvNil then raise ( Stream . Error " override ( ) ! is incompatible with virtual " ) else Ast . CrVvr ( _loc , l , mf , t ) : ' class_str_item ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( value_val_opt_override : ' value_val_opt_override Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_mutable : ' opt_mutable Gram . Entry . t ) ) ; Gram . Skeyword " virtual " ; Gram . Snterm ( Gram . Entry . obj ( label : ' label Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( poly_type : ' poly_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' poly_type ) _ ( l : ' label ) _ ( mf : ' opt_mutable ) ( o : ' value_val_opt_override ) ( _loc : Gram . Loc . t ) -> ( if o <> Ast . OvNil then raise ( Stream . Error " override ( ) ! is incompatible with virtual " ) else Ast . CrVvr ( _loc , l , mf , t ) : ' class_str_item ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( value_val_opt_override : ' value_val_opt_override Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_mutable : ' opt_mutable Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( label : ' label Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( cvalue_binding : ' cvalue_binding Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' cvalue_binding ) ( lab : ' label ) ( mf : ' opt_mutable ) ( o : ' value_val_opt_override ) ( _loc : Gram . Loc . t ) -> ( Ast . CrVal ( _loc , lab , o , mf , e ) : ' class_str_item ) ) ) ) ; ( [ Gram . Skeyword " inherit " ; Gram . Snterm ( Gram . Entry . obj ( opt_override : ' opt_override Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( class_expr : ' class_expr Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_as_lident : ' opt_as_lident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( pb : ' opt_as_lident ) ( ce : ' class_expr ) ( o : ' opt_override ) _ ( _loc : Gram . Loc . t ) -> ( Ast . CrInh ( _loc , o , ce , pb ) : ' class_str_item ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . class_str_item_tag : ' class_str_item ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " cst " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ cst " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " cst " | " anti " | " list " as n ) ) , s ) -> ( Ast . CrAnt ( _loc , ( mk_anti ~ c : " class_str_item " n s ) ) : ' class_str_item ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( method_opt_override : ' method_opt_override Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " method " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . OvNil : ' method_opt_override ) ) ) ) ; ( [ Gram . Skeyword " method " ; Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " ! | " override " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \!\ | " \ override " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " ! | " override " | " anti " as n ) ) , s ) -> ( Ast . OvAnt ( mk_anti n s ) : ' method_opt_override ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " method " ; Gram . Skeyword " " ! ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( Ast . OvOverride : ' method_opt_override ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( value_val_opt_override : ' value_val_opt_override Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( value_val : ' value_val Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . OvNil : ' value_val_opt_override ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( value_val : ' value_val Gram . Entry . t ) ) ; Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " ! | " override " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \!\ | " \ override " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " ! | " override " | " anti " as n ) ) , s ) -> ( Ast . OvAnt ( mk_anti n s ) : ' value_val_opt_override ) | _ -> assert false ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( value_val : ' value_val Gram . Entry . t ) ) ; Gram . Skeyword " " ! ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( Ast . OvOverride : ' value_val_opt_override ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( opt_as_lident : ' opt_as_lident Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( " " : ' opt_as_lident ) ) ) ) ; ( [ Gram . Skeyword " as " ; Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( i : ' opt_as_lident ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( opt_polyt : ' opt_polyt Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . TyNil _loc : ' opt_polyt ) ) ) ) ; ( [ Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( poly_type : ' poly_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' poly_type ) _ ( _loc : Gram . Loc . t ) -> ( t : ' opt_polyt ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( cvalue_binding : ' cvalue_binding Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " " ; :> Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( t : ' ctyp ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExCoe ( _loc , e , ( Ast . TyNil _loc ) , t ) : ' cvalue_binding ) ) ) ) ; ( [ Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( poly_type : ' poly_type Gram . Entry . t ) ) ; Gram . Skeyword " " ; :> Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( t2 : ' ctyp ) _ ( t : ' poly_type ) _ ( _loc : Gram . Loc . t ) -> ( match t with | Ast . TyPol ( _ , _ , _ ) -> raise ( Stream . Error " unexpected polytype here " ) | _ -> Ast . ExCoe ( _loc , e , t , t2 ) : ' cvalue_binding ) ) ) ) ; ( [ Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( poly_type : ' poly_type Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( t : ' poly_type ) _ ( _loc : Gram . Loc . t ) -> ( Ast . ExTyc ( _loc , e , t ) : ' cvalue_binding ) ) ) ) ; ( [ Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( e : ' cvalue_binding ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( label : ' label Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_LIDENT ) ( _loc : Gram . Loc . t ) -> ( i : ' label ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_type : ' class_type Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " object " ; Gram . Snterm ( Gram . Entry . obj ( opt_class_self_type : ' opt_class_self_type Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( class_signature : ' class_signature Gram . Entry . t ) ) ; Gram . Skeyword " end " ] , ( Gram . Action . mk ( fun _ ( csg : ' class_signature ) ( cst : ' opt_class_self_type ) _ ( _loc : Gram . Loc . t ) -> ( Ast . CtSig ( _loc , cst , csg ) : ' class_type ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( class_type_longident_and_param : ' class_type_longident_and_param Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ct : ' class_type_longident_and_param ) ( _loc : Gram . Loc . t ) -> ( ct : ' class_type ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . class_type_tag : ' class_type ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " ctyp " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ ctyp " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " ctyp " | " anti " as n ) ) , s ) -> ( Ast . CtAnt ( _loc , ( mk_anti ~ c : " class_type " n s ) ) : ' class_type ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_type_longident_and_param : ' class_type_longident_and_param Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( class_type_longident : ' class_type_longident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' class_type_longident ) ( _loc : Gram . Loc . t ) -> ( Ast . CtCon ( _loc , Ast . ViNil , i , ( Ast . TyNil _loc ) ) : ' class_type_longident_and_param ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( class_type_longident : ' class_type_longident Gram . Entry . t ) ) ; Gram . Skeyword " [ " ; Gram . Snterm ( Gram . Entry . obj ( comma_ctyp : ' comma_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( t : ' comma_ctyp ) _ ( i : ' class_type_longident ) ( _loc : Gram . Loc . t ) -> ( Ast . CtCon ( _loc , Ast . ViNil , i , t ) : ' class_type_longident_and_param ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_type_plus : ' class_type_plus Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( class_type : ' class_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ct : ' class_type ) ( _loc : Gram . Loc . t ) -> ( ct : ' class_type_plus ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ; Gram . Skeyword " ] " ; Gram . Skeyword " " ; -> Gram . Sself ] , ( Gram . Action . mk ( fun ( ct : ' class_type_plus ) _ _ ( t : ' ctyp ) _ ( _loc : Gram . Loc . t ) -> ( Ast . CtFun ( _loc , t , ct ) : ' class_type_plus ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( opt_class_self_type : ' opt_class_self_type Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . TyNil _loc : ' opt_class_self_type ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( t : ' ctyp ) _ ( _loc : Gram . Loc . t ) -> ( t : ' opt_class_self_type ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_signature : ' class_signature Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Slist0 ( Gram . srules class_signature [ ( [ Gram . Snterm ( Gram . Entry . obj ( class_sig_item : ' class_sig_item Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( csg : ' class_sig_item ) ( _loc : Gram . Loc . t ) -> ( csg : ' e__11 ) ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( l : ' e__11 list ) ( _loc : Gram . Loc . t ) -> ( Ast . cgSem_of_list l : ' class_signature ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " csg " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ csg " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( csg : ' class_signature ) _ ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " csg " | " anti " | " list " as n ) ) , s ) -> ( Ast . CgSem ( _loc , ( Ast . CgAnt ( _loc , ( mk_anti ~ c : " class_sig_item " n s ) ) ) , csg ) : ' class_signature ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " csg " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ csg " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " csg " | " anti " | " list " as n ) ) , s ) -> ( Ast . CgAnt ( _loc , ( mk_anti ~ c : " class_sig_item " n s ) ) : ' class_signature ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_sig_item : ' class_sig_item Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( type_constraint : ' type_constraint Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t2 : ' ctyp ) _ ( t1 : ' ctyp ) _ ( _loc : Gram . Loc . t ) -> ( Ast . CgCtr ( _loc , t1 , t2 ) : ' class_sig_item ) ) ) ) ; ( [ Gram . Skeyword " method " ; Gram . Snterm ( Gram . Entry . obj ( opt_private : ' opt_private Gram . Entry . t ) ) ; Gram . Skeyword " virtual " ; Gram . Snterm ( Gram . Entry . obj ( label : ' label Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( poly_type : ' poly_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' poly_type ) _ ( l : ' label ) _ ( pf : ' opt_private ) _ ( _loc : Gram . Loc . t ) -> ( Ast . CgVir ( _loc , l , pf , t ) : ' class_sig_item ) ) ) ) ; ( [ Gram . Skeyword " method " ; Gram . Snterm ( Gram . Entry . obj ( opt_private : ' opt_private Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( label : ' label Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( poly_type : ' poly_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' poly_type ) _ ( l : ' label ) ( pf : ' opt_private ) _ ( _loc : Gram . Loc . t ) -> ( Ast . CgMth ( _loc , l , pf , t ) : ' class_sig_item ) ) ) ) ; ( [ Gram . Skeyword " method " ; Gram . Skeyword " virtual " ; Gram . Snterm ( Gram . Entry . obj ( opt_private : ' opt_private Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( label : ' label Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( poly_type : ' poly_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' poly_type ) _ ( l : ' label ) ( pf : ' opt_private ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . CgVir ( _loc , l , pf , t ) : ' class_sig_item ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( value_val : ' value_val Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_mutable : ' opt_mutable Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_virtual : ' opt_virtual Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( label : ' label Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) _ ( l : ' label ) ( mv : ' opt_virtual ) ( mf : ' opt_mutable ) _ ( _loc : Gram . Loc . t ) -> ( Ast . CgVal ( _loc , l , mf , mv , t ) : ' class_sig_item ) ) ) ) ; ( [ Gram . Skeyword " inherit " ; Gram . Snterm ( Gram . Entry . obj ( class_type : ' class_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( cs : ' class_type ) _ ( _loc : Gram . Loc . t ) -> ( Ast . CgInh ( _loc , cs ) : ' class_sig_item ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . class_sig_item_tag : ' class_sig_item ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " csg " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ csg " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " csg " | " anti " | " list " as n ) ) , s ) -> ( Ast . CgAnt ( _loc , ( mk_anti ~ c : " class_sig_item " n s ) ) : ' class_sig_item ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( type_constraint : ' type_constraint Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " constraint " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( ( ) : ' type_constraint ) ) ) ) ; ( [ Gram . Skeyword " type " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( ( ) : ' type_constraint ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_description : ' class_description Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( class_info_for_class_type : ' class_info_for_class_type Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( class_type_plus : ' class_type_plus Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ct : ' class_type_plus ) _ ( ci : ' class_info_for_class_type ) ( _loc : Gram . Loc . t ) -> ( Ast . CtCol ( _loc , ci , ct ) : ' class_description ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . class_type_tag : ' class_description ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " typ " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ typ " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " typ " | " anti " | " list " as n ) ) , s ) -> ( Ast . CtAnt ( _loc , ( mk_anti ~ c : " class_type " n s ) ) : ' class_description ) | _ -> assert false ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " and " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( cd2 : ' class_description ) _ ( cd1 : ' class_description ) ( _loc : Gram . Loc . t ) -> ( Ast . CtAnd ( _loc , cd1 , cd2 ) : ' class_description ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_type_declaration : ' class_type_declaration Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Snterm ( Gram . Entry . obj ( class_info_for_class_type : ' class_info_for_class_type Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( class_type : ' class_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ct : ' class_type ) _ ( ci : ' class_info_for_class_type ) ( _loc : Gram . Loc . t ) -> ( Ast . CtEq ( _loc , ci , ct ) : ' class_type_declaration ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . class_type_tag : ' class_type_declaration ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " typ " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ typ " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " typ " | " anti " | " list " as n ) ) , s ) -> ( Ast . CtAnt ( _loc , ( mk_anti ~ c : " class_type " n s ) ) : ' class_type_declaration ) | _ -> assert false ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " and " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( cd2 : ' class_type_declaration ) _ ( cd1 : ' class_type_declaration ) ( _loc : Gram . Loc . t ) -> ( Ast . CtAnd ( _loc , cd1 , cd2 ) : ' class_type_declaration ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( field_expr_list : ' field_expr_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( field_expr : ' field_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( b1 : ' field_expr ) ( _loc : Gram . Loc . t ) -> ( b1 : ' field_expr_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( field_expr : ' field_expr Gram . Entry . t ) ) ; Gram . Skeyword " ; " ] , ( Gram . Action . mk ( fun _ ( b1 : ' field_expr ) ( _loc : Gram . Loc . t ) -> ( b1 : ' field_expr_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( field_expr : ' field_expr Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( b2 : ' field_expr_list ) _ ( b1 : ' field_expr ) ( _loc : Gram . Loc . t ) -> ( Ast . RbSem ( _loc , b1 , b2 ) : ' field_expr_list ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( field_expr : ' field_expr Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( label : ' label Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( l : ' label ) ( _loc : Gram . Loc . t ) -> ( Ast . RbEq ( _loc , ( Ast . IdLid ( _loc , l ) ) , e ) : ' field_expr ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . RbAnt ( _loc , ( mk_anti ~ c : " rec_binding " n s ) ) : ' field_expr ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " bi " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ bi " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " bi " | " anti " as n ) ) , s ) -> ( Ast . RbAnt ( _loc , ( mk_anti ~ c : " rec_binding " n s ) ) : ' field_expr ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( meth_list : ' meth_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( meth_decl : ' meth_decl Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_dot_dot : ' opt_dot_dot Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( v : ' opt_dot_dot ) ( m : ' meth_decl ) ( _loc : Gram . Loc . t ) -> ( ( m , v ) : ' meth_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( meth_decl : ' meth_decl Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Snterm ( Gram . Entry . obj ( opt_dot_dot : ' opt_dot_dot Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( v : ' opt_dot_dot ) _ ( m : ' meth_decl ) ( _loc : Gram . Loc . t ) -> ( ( m , v ) : ' meth_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( meth_decl : ' meth_decl Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( ( ml , v ) : ' meth_list ) _ ( m : ' meth_decl ) ( _loc : Gram . Loc . t ) -> ( ( ( Ast . TySem ( _loc , m , ml ) ) , v ) : ' meth_list ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( meth_decl : ' meth_decl Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( poly_type : ' poly_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' poly_type ) _ ( lab : ' a_LIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . TyCol ( _loc , ( Ast . TyId ( _loc , ( Ast . IdLid ( _loc , lab ) ) ) ) , t ) : ' meth_decl ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . ctyp_tag : ' meth_decl ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp ; " n s ) ) : ' meth_decl ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " typ " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ typ " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " typ " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp " n s ) ) : ' meth_decl ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( opt_meth_list : ' opt_meth_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( opt_dot_dot : ' opt_dot_dot Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( v : ' opt_dot_dot ) ( _loc : Gram . Loc . t ) -> ( Ast . TyObj ( _loc , ( Ast . TyNil _loc ) , v ) : ' opt_meth_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( meth_list : ' meth_list Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ( ml , v ) : ' meth_list ) ( _loc : Gram . Loc . t ) -> ( Ast . TyObj ( _loc , ml , v ) : ' opt_meth_list ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( poly_type : ' poly_type Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) ( _loc : Gram . Loc . t ) -> ( t : ' poly_type ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( package_type : ' package_type Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( p : ' module_type ) ( _loc : Gram . Loc . t ) -> ( p : ' package_type ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( typevars : ' typevars Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , ( Some Camlp4 . Sig . Grammar . LeftA ) , [ ( [ Gram . Skeyword " ' " ; Gram . Snterm ( Gram . Entry . obj ( a_ident : ' a_ident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_ident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyQuo ( _loc , i ) : ' typevars ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | QUOTATION _ -> true | _ -> false ) , " QUOTATION _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | QUOTATION x -> ( Quotation . expand _loc x Quotation . DynAst . ctyp_tag : ' typevars ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " typ " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ typ " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " typ " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp " n s ) ) : ' typevars ) | _ -> assert false ) ) ) ; ( [ Gram . Sself ; Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' typevars ) ( t1 : ' typevars ) ( _loc : Gram . Loc . t ) -> ( Ast . TyApp ( _loc , t1 , t2 ) : ' typevars ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( row_field : ' row_field Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) ( _loc : Gram . Loc . t ) -> ( t : ' row_field ) ) ) ) ; ( [ Gram . Skeyword " ` " ; Gram . Snterm ( Gram . Entry . obj ( a_ident : ' a_ident Gram . Entry . t ) ) ; Gram . Skeyword " of " ; Gram . Snterm ( Gram . Entry . obj ( amp_ctyp : ' amp_ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' amp_ctyp ) _ ( i : ' a_ident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyOf ( _loc , ( Ast . TyVrn ( _loc , i ) ) , t ) : ' row_field ) ) ) ) ; ( [ Gram . Skeyword " ` " ; Gram . Snterm ( Gram . Entry . obj ( a_ident : ' a_ident Gram . Entry . t ) ) ; Gram . Skeyword " of " ; Gram . Skeyword " " ; & Gram . Snterm ( Gram . Entry . obj ( amp_ctyp : ' amp_ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' amp_ctyp ) _ _ ( i : ' a_ident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyOfAmp ( _loc , ( Ast . TyVrn ( _loc , i ) ) , t ) : ' row_field ) ) ) ) ; ( [ Gram . Skeyword " ` " ; Gram . Snterm ( Gram . Entry . obj ( a_ident : ' a_ident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_ident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyVrn ( _loc , i ) : ' row_field ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " " ; | Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' row_field ) _ ( t1 : ' row_field ) ( _loc : Gram . Loc . t ) -> ( Ast . TyOr ( _loc , t1 , t2 ) : ' row_field ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp " | n s ) ) : ' row_field ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " typ " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ typ " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " typ " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp " n s ) ) : ' row_field ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( amp_ctyp : ' amp_ctyp Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) ( _loc : Gram . Loc . t ) -> ( t : ' amp_ctyp ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " list " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ list " , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " list " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp " & n s ) ) : ' amp_ctyp ) | _ -> assert false ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " " ; & Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' amp_ctyp ) _ ( t1 : ' amp_ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TyAmp ( _loc , t1 , t2 ) : ' amp_ctyp ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( name_tags : ' name_tags Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " ` " ; Gram . Snterm ( Gram . Entry . obj ( a_ident : ' a_ident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_ident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyVrn ( _loc , i ) : ' name_tags ) ) ) ) ; ( [ Gram . Sself ; Gram . Sself ] , ( Gram . Action . mk ( fun ( t2 : ' name_tags ) ( t1 : ' name_tags ) ( _loc : Gram . Loc . t ) -> ( Ast . TyApp ( _loc , t1 , t2 ) : ' name_tags ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " typ " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ typ " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " typ " as n ) ) , s ) -> ( Ast . TyAnt ( _loc , ( mk_anti ~ c : " ctyp " n s ) ) : ' name_tags ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( eq_expr : ' eq_expr Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( fun i p -> Ast . PaOlb ( _loc , i , p ) : ' eq_expr ) ) ) ) ; ( [ Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( fun i p -> Ast . PaOlbi ( _loc , i , p , e ) : ' eq_expr ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( patt_tcon : ' patt_tcon Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( p : ' patt ) ( _loc : Gram . Loc . t ) -> ( p : ' patt_tcon ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) _ ( p : ' patt ) ( _loc : Gram . Loc . t ) -> ( Ast . PaTyc ( _loc , p , t ) : ' patt_tcon ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( ipatt : ' ipatt Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " " ; ? Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( ipatt_tcon : ' ipatt_tcon Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( e : ' expr ) _ ( p : ' ipatt_tcon ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . PaOlbi ( _loc , " " , p , e ) : ' ipatt ) ) ) ) ; ( [ Gram . Skeyword " " ; ? Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( ipatt_tcon : ' ipatt_tcon Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( p : ' ipatt_tcon ) _ _ ( _loc : Gram . Loc . t ) -> ( Ast . PaOlb ( _loc , " " , p ) : ' ipatt ) ) ) ) ; ( [ Gram . Skeyword " " ; ? Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " lid " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ lid " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " lid " as n ) ) , i ) -> ( Ast . PaOlb ( _loc , ( mk_anti n i ) , ( Ast . PaNil _loc ) ) : ' ipatt ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " " ; ? Gram . Stoken ( ( ( function | LIDENT _ -> true | _ -> false ) , " LIDENT _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | LIDENT i -> ( Ast . PaOlb ( _loc , i , ( Ast . PaNil _loc ) ) : ' ipatt ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " " ; ? Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " lid " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ lid " ) , \ _ ) " ) ) ; Gram . Skeyword " " ; : Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( ipatt_tcon : ' ipatt_tcon Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( eq_expr : ' eq_expr Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( f : ' eq_expr ) ( p : ' ipatt_tcon ) _ _ ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " lid " as n ) ) , i ) -> ( f ( mk_anti n i ) p : ' ipatt ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | OPTLABEL _ -> true | _ -> false ) , " OPTLABEL _ " ) ) ; Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( ipatt_tcon : ' ipatt_tcon Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( eq_expr : ' eq_expr Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( f : ' eq_expr ) ( p : ' ipatt_tcon ) _ ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | OPTLABEL i -> ( f i p : ' ipatt ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " " ; ~ Gram . Stoken ( ( ( function | LIDENT _ -> true | _ -> false ) , " LIDENT _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | LIDENT i -> ( Ast . PaLab ( _loc , i , ( Ast . PaNil _loc ) ) : ' ipatt ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " " ; ~ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " lid " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ lid " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " lid " as n ) ) , i ) -> ( Ast . PaLab ( _loc , ( mk_anti n i ) , ( Ast . PaNil _loc ) ) : ' ipatt ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " " ; ~ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " lid " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ lid " ) , \ _ ) " ) ) ; Gram . Skeyword " " ; : Gram . Sself ] , ( Gram . Action . mk ( fun ( p : ' ipatt ) _ ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " lid " as n ) ) , i ) -> ( Ast . PaLab ( _loc , ( mk_anti n i ) , p ) : ' ipatt ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | LABEL _ -> true | _ -> false ) , " LABEL _ " ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( p : ' ipatt ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | LABEL i -> ( Ast . PaLab ( _loc , i , p ) : ' ipatt ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( ipatt_tcon : ' ipatt_tcon Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( ipatt : ' ipatt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( p : ' ipatt ) ( _loc : Gram . Loc . t ) -> ( p : ' ipatt_tcon ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( ipatt : ' ipatt Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( ctyp : ' ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' ctyp ) _ ( p : ' ipatt ) ( _loc : Gram . Loc . t ) -> ( Ast . PaTyc ( _loc , p , t ) : ' ipatt_tcon ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( direction_flag : ' direction_flag Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " to " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " \ to " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " to " | " anti " as n ) ) , s ) -> ( Ast . DiAnt ( mk_anti n s ) : ' direction_flag ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " downto " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . DiDownto : ' direction_flag ) ) ) ) ; ( [ Gram . Skeyword " to " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . DiTo : ' direction_flag ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( opt_private : ' opt_private Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . PrNil : ' opt_private ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " private " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " \ private " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " private " | " anti " as n ) ) , s ) -> ( Ast . PrAnt ( mk_anti n s ) : ' opt_private ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " private " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . PrPrivate : ' opt_private ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( opt_mutable : ' opt_mutable Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . MuNil : ' opt_mutable ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " mutable " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " \ mutable " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " mutable " | " anti " as n ) ) , s ) -> ( Ast . MuAnt ( mk_anti n s ) : ' opt_mutable ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " mutable " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . MuMutable : ' opt_mutable ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( opt_virtual : ' opt_virtual Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . ViNil : ' opt_virtual ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " virtual " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " \ virtual " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " virtual " | " anti " as n ) ) , s ) -> ( Ast . ViAnt ( mk_anti n s ) : ' opt_virtual ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " virtual " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . ViVirtual : ' opt_virtual ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( opt_dot_dot : ' opt_dot_dot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . RvNil : ' opt_dot_dot ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " . . " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " . . " \\ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " . . " | " anti " as n ) ) , s ) -> ( Ast . RvAnt ( mk_anti n s ) : ' opt_dot_dot ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " . . " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . RvRowVar : ' opt_dot_dot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( opt_rec : ' opt_rec Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . ReNil : ' opt_rec ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " rec " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " \ rec " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " rec " | " anti " as n ) ) , s ) -> ( Ast . ReAnt ( mk_anti n s ) : ' opt_rec ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " rec " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . ReRecursive : ' opt_rec ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( opt_override : ' opt_override Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . OvNil : ' opt_override ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " ! | " override " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \!\ | " \ override " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " ! | " override " | " anti " as n ) ) , s ) -> ( Ast . OvAnt ( mk_anti n s ) : ' opt_override ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " " ! ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . OvOverride : ' opt_override ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( opt_expr : ' opt_expr Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . ExNil _loc : ' opt_expr ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( e : ' opt_expr ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( interf : ' interf Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | EOI -> true | _ -> false ) , " EOI " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | EOI -> ( ( [ ] , None ) : ' interf ) | _ -> assert false ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( sig_item : ' sig_item Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( ( sil , stopped ) : ' interf ) _ ( si : ' sig_item ) ( _loc : Gram . Loc . t ) -> ( ( ( si :: sil ) , stopped ) : ' interf ) ) ) ) ; ( [ Gram . Skeyword " " ; # Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_expr : ' opt_expr Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( dp : ' opt_expr ) ( n : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( ( [ Ast . SgDir ( _loc , n , dp ) ] , ( stopped_at _loc ) ) : ' interf ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( sig_items : ' sig_items Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Slist0 ( Gram . srules sig_items [ ( [ Gram . Snterm ( Gram . Entry . obj ( sig_item : ' sig_item Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( sg : ' sig_item ) ( _loc : Gram . Loc . t ) -> ( sg : ' e__12 ) ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( l : ' e__12 list ) ( _loc : Gram . Loc . t ) -> ( Ast . sgSem_of_list l : ' sig_items ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " sigi " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ sigi " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( sg : ' sig_items ) _ ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " sigi " | " anti " | " list " as n ) ) , s ) -> ( Ast . SgSem ( _loc , ( Ast . SgAnt ( _loc , ( mk_anti n ~ c : " sig_item " s ) ) ) , sg ) : ' sig_items ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " sigi " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ sigi " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " sigi " | " anti " | " list " as n ) ) , s ) -> ( Ast . SgAnt ( _loc , ( mk_anti n ~ c : " sig_item " s ) ) : ' sig_items ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( implem : ' implem Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | EOI -> true | _ -> false ) , " EOI " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | EOI -> ( ( [ ] , None ) : ' implem ) | _ -> assert false ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( str_item : ' str_item Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( ( sil , stopped ) : ' implem ) _ ( si : ' str_item ) ( _loc : Gram . Loc . t ) -> ( ( ( si :: sil ) , stopped ) : ' implem ) ) ) ) ; ( [ Gram . Skeyword " " ; # Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_expr : ' opt_expr Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( dp : ' opt_expr ) ( n : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( ( [ Ast . StDir ( _loc , n , dp ) ] , ( stopped_at _loc ) ) : ' implem ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( str_items : ' str_items Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Slist0 ( Gram . srules str_items [ ( [ Gram . Snterm ( Gram . Entry . obj ( str_item : ' str_item Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( st : ' str_item ) ( _loc : Gram . Loc . t ) -> ( st : ' e__13 ) ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( l : ' e__13 list ) ( _loc : Gram . Loc . t ) -> ( Ast . stSem_of_list l : ' str_items ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " stri " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ stri " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( st : ' str_items ) _ ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " stri " | " anti " | " list " as n ) ) , s ) -> ( Ast . StSem ( _loc , ( Ast . StAnt ( _loc , ( mk_anti n ~ c : " str_item " s ) ) ) , st ) : ' str_items ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " stri " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ stri " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " stri " | " anti " | " list " as n ) ) , s ) -> ( Ast . StAnt ( _loc , ( mk_anti n ~ c : " str_item " s ) ) : ' str_items ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( top_phrase : ' top_phrase Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | EOI -> true | _ -> false ) , " EOI " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | EOI -> ( None : ' top_phrase ) | _ -> assert false ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( phrase : ' phrase Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ph : ' phrase ) ( _loc : Gram . Loc . t ) -> ( Some ph : ' top_phrase ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( use_file : ' use_file Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | EOI -> true | _ -> false ) , " EOI " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | EOI -> ( ( [ ] , None ) : ' use_file ) | _ -> assert false ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( str_item : ' str_item Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( ( sil , stopped ) : ' use_file ) _ ( si : ' str_item ) ( _loc : Gram . Loc . t ) -> ( ( ( si :: sil ) , stopped ) : ' use_file ) ) ) ) ; ( [ Gram . Skeyword " " ; # Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_expr : ' opt_expr Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( dp : ' opt_expr ) ( n : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( ( [ Ast . StDir ( _loc , n , dp ) ] , ( stopped_at _loc ) ) : ' use_file ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( phrase : ' phrase Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( str_item : ' str_item Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( st : ' str_item ) ( _loc : Gram . Loc . t ) -> ( st : ' phrase ) ) ) ) ; ( [ Gram . Skeyword " " ; # Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_expr : ' opt_expr Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( dp : ' opt_expr ) ( n : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . StDir ( _loc , n , dp ) : ' phrase ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( a_INT : ' a_INT Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | INT ( _ , _ ) -> true | _ -> false ) , " INT ( _ , _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | INT ( _ , s ) -> ( s : ' a_INT ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " int " | " ` int " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ int " \ | " ` \ int " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " int " | " ` int " as n ) ) , s ) -> ( mk_anti n s : ' a_INT ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( a_INT32 : ' a_INT32 Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | INT32 ( _ , _ ) -> true | _ -> false ) , " INT32 ( _ , _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | INT32 ( _ , s ) -> ( s : ' a_INT32 ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " int32 " | " ` int32 " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ int32 " \ | " ` \ int32 " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " int32 " | " ` int32 " as n ) ) , s ) -> ( mk_anti n s : ' a_INT32 ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( a_INT64 : ' a_INT64 Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | INT64 ( _ , _ ) -> true | _ -> false ) , " INT64 ( _ , _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | INT64 ( _ , s ) -> ( s : ' a_INT64 ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " int64 " | " ` int64 " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ int64 " \ | " ` \ int64 " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " int64 " | " ` int64 " as n ) ) , s ) -> ( mk_anti n s : ' a_INT64 ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( a_NATIVEINT : ' a_NATIVEINT Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | NATIVEINT ( _ , _ ) -> true | _ -> false ) , " NATIVEINT ( _ , _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | NATIVEINT ( _ , s ) -> ( s : ' a_NATIVEINT ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " nativeint " | " ` nativeint " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ nativeint " \ | " ` \ nativeint " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " nativeint " | " ` nativeint " as n ) ) , s ) -> ( mk_anti n s : ' a_NATIVEINT ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( a_FLOAT : ' a_FLOAT Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | FLOAT ( _ , _ ) -> true | _ -> false ) , " FLOAT ( _ , _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | FLOAT ( _ , s ) -> ( s : ' a_FLOAT ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " flo " | " ` flo " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ flo " \ | " ` \ flo " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " flo " | " ` flo " as n ) ) , s ) -> ( mk_anti n s : ' a_FLOAT ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( a_CHAR : ' a_CHAR Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | CHAR ( _ , _ ) -> true | _ -> false ) , " CHAR ( _ , _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | CHAR ( _ , s ) -> ( s : ' a_CHAR ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " chr " | " ` chr " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ chr " \ | " ` \ chr " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " chr " | " ` chr " as n ) ) , s ) -> ( mk_anti n s : ' a_CHAR ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | UIDENT _ -> true | _ -> false ) , " UIDENT _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT s -> ( s : ' a_UIDENT ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " uid " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ uid " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " uid " as n ) ) , s ) -> ( mk_anti n s : ' a_UIDENT ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | LIDENT _ -> true | _ -> false ) , " LIDENT _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | LIDENT s -> ( s : ' a_LIDENT ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " lid " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ lid " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " lid " as n ) ) , s ) -> ( mk_anti n s : ' a_LIDENT ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( a_LABEL : ' a_LABEL Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | LABEL _ -> true | _ -> false ) , " LABEL _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | LABEL s -> ( s : ' a_LABEL ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " " ; ~ Gram . Stoken ( ( ( function | ANTIQUOT ( " " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " " , \\ _ ) " ) ) ; Gram . Skeyword " " : ] , ( Gram . Action . mk ( fun _ ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " as n ) ) , s ) -> ( mk_anti n s : ' a_LABEL ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( a_OPTLABEL : ' a_OPTLABEL Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | OPTLABEL _ -> true | _ -> false ) , " OPTLABEL _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | OPTLABEL s -> ( s : ' a_OPTLABEL ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " " ; ? Gram . Stoken ( ( ( function | ANTIQUOT ( " " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " " , \\ _ ) " ) ) ; Gram . Skeyword " " : ] , ( Gram . Action . mk ( fun _ ( __camlp4_0 : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " as n ) ) , s ) -> ( mk_anti n s : ' a_OPTLABEL ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( a_STRING : ' a_STRING Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | STRING ( _ , _ ) -> true | _ -> false ) , " STRING ( _ , _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | STRING ( _ , s ) -> ( s : ' a_STRING ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " str " | " ` str " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ str " \ | " ` \ str " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " str " | " ` str " as n ) ) , s ) -> ( mk_anti n s : ' a_STRING ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( string_list : ' string_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | STRING ( _ , _ ) -> true | _ -> false ) , " STRING ( _ , _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | STRING ( _ , x ) -> ( Ast . LCons ( x , Ast . LNil ) : ' string_list ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | STRING ( _ , _ ) -> true | _ -> false ) , " STRING ( _ , _ ) " ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( xs : ' string_list ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | STRING ( _ , x ) -> ( Ast . LCons ( x , xs ) : ' string_list ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " str_list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ str_list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( " " | " str_list " ) , s ) -> ( Ast . LAnt ( mk_anti " str_list " s ) : ' string_list ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( value_let : ' value_let Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " value " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( ( ) : ' value_let ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( value_val : ' value_val Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " value " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( ( ) : ' value_val ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( semi : ' semi Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " ; " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( ( ) : ' semi ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( expr_quot : ' expr_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . ExNil _loc : ' expr_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( e : ' expr_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Snterm ( Gram . Entry . obj ( sem_expr : ' sem_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e2 : ' sem_expr ) _ ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExSem ( _loc , e1 , e2 ) : ' expr_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Skeyword " , " ; Gram . Snterm ( Gram . Entry . obj ( comma_expr : ' comma_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e2 : ' comma_expr ) _ ( e1 : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExCom ( _loc , e1 , e2 ) : ' expr_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( patt_quot : ' patt_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . PaNil _loc : ' patt_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' patt ) ( _loc : Gram . Loc . t ) -> ( x : ' patt_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( y : ' patt ) _ ( x : ' patt ) ( _loc : Gram . Loc . t ) -> ( let i = match x with | Ast . PaAnt ( loc , s ) -> Ast . IdAnt ( loc , s ) | p -> Ast . ident_of_patt p in Ast . PaEq ( _loc , i , y ) : ' patt_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Snterm ( Gram . Entry . obj ( sem_patt : ' sem_patt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( y : ' sem_patt ) _ ( x : ' patt ) ( _loc : Gram . Loc . t ) -> ( Ast . PaSem ( _loc , x , y ) : ' patt_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ; Gram . Skeyword " , " ; Gram . Snterm ( Gram . Entry . obj ( comma_patt : ' comma_patt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( y : ' comma_patt ) _ ( x : ' patt ) ( _loc : Gram . Loc . t ) -> ( Ast . PaCom ( _loc , x , y ) : ' patt_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( ctyp_quot : ' ctyp_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . TyNil _loc : ' ctyp_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( more_ctyp : ' more_ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' more_ctyp ) ( _loc : Gram . Loc . t ) -> ( x : ' ctyp_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( more_ctyp : ' more_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " and " ; Gram . Snterm ( Gram . Entry . obj ( constructor_arg_list : ' constructor_arg_list Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( y : ' constructor_arg_list ) _ ( x : ' more_ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TyAnd ( _loc , x , y ) : ' ctyp_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( more_ctyp : ' more_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " " ; & Gram . Snterm ( Gram . Entry . obj ( amp_ctyp : ' amp_ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( y : ' amp_ctyp ) _ ( x : ' more_ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TyAmp ( _loc , x , y ) : ' ctyp_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( more_ctyp : ' more_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " " ; * Gram . Snterm ( Gram . Entry . obj ( star_ctyp : ' star_ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( y : ' star_ctyp ) _ ( x : ' more_ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TySta ( _loc , x , y ) : ' ctyp_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( more_ctyp : ' more_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( more_ctyp : ' more_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Snterm ( Gram . Entry . obj ( label_declaration_list : ' label_declaration_list Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( z : ' label_declaration_list ) _ ( y : ' more_ctyp ) _ ( x : ' more_ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TySem ( _loc , ( Ast . TyCol ( _loc , x , y ) ) , z ) : ' ctyp_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( more_ctyp : ' more_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( more_ctyp : ' more_ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( y : ' more_ctyp ) _ ( x : ' more_ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TyCol ( _loc , x , y ) : ' ctyp_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( more_ctyp : ' more_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " of " ; Gram . Skeyword " " ; & Gram . Snterm ( Gram . Entry . obj ( amp_ctyp : ' amp_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " " ; | Gram . Snterm ( Gram . Entry . obj ( row_field : ' row_field Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( z : ' row_field ) _ ( y : ' amp_ctyp ) _ _ ( x : ' more_ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TyOr ( _loc , ( Ast . TyOfAmp ( _loc , x , y ) ) , z ) : ' ctyp_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( more_ctyp : ' more_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " of " ; Gram . Skeyword " " ; & Gram . Snterm ( Gram . Entry . obj ( amp_ctyp : ' amp_ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( y : ' amp_ctyp ) _ _ ( x : ' more_ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TyOfAmp ( _loc , x , y ) : ' ctyp_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( more_ctyp : ' more_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " of " ; Gram . Snterm ( Gram . Entry . obj ( constructor_arg_list : ' constructor_arg_list Gram . Entry . t ) ) ; Gram . Skeyword " " ; | Gram . Snterm ( Gram . Entry . obj ( constructor_declarations : ' constructor_declarations Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( z : ' constructor_declarations ) _ ( y : ' constructor_arg_list ) _ ( x : ' more_ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TyOr ( _loc , ( Ast . TyOf ( _loc , x , y ) ) , z ) : ' ctyp_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( more_ctyp : ' more_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " of " ; Gram . Snterm ( Gram . Entry . obj ( constructor_arg_list : ' constructor_arg_list Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( y : ' constructor_arg_list ) _ ( x : ' more_ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TyOf ( _loc , x , y ) : ' ctyp_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( more_ctyp : ' more_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " " ; | Gram . Snterm ( Gram . Entry . obj ( constructor_declarations : ' constructor_declarations Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( y : ' constructor_declarations ) _ ( x : ' more_ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TyOr ( _loc , x , y ) : ' ctyp_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( more_ctyp : ' more_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Snterm ( Gram . Entry . obj ( label_declaration_list : ' label_declaration_list Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( y : ' label_declaration_list ) _ ( x : ' more_ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TySem ( _loc , x , y ) : ' ctyp_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( more_ctyp : ' more_ctyp Gram . Entry . t ) ) ; Gram . Skeyword " , " ; Gram . Snterm ( Gram . Entry . obj ( comma_ctyp : ' comma_ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( y : ' comma_ctyp ) _ ( x : ' more_ctyp ) ( _loc : Gram . Loc . t ) -> ( Ast . TyCom ( _loc , x , y ) : ' ctyp_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( more_ctyp : ' more_ctyp Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( type_parameter : ' type_parameter Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' type_parameter ) ( _loc : Gram . Loc . t ) -> ( x : ' more_ctyp ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( type_kind : ' type_kind Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' type_kind ) ( _loc : Gram . Loc . t ) -> ( x : ' more_ctyp ) ) ) ) ; ( [ Gram . Skeyword " ` " ; Gram . Snterm ( Gram . Entry . obj ( a_ident : ' a_ident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' a_ident ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyVrn ( _loc , x ) : ' more_ctyp ) ) ) ) ; ( [ Gram . Skeyword " mutable " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( x : ' more_ctyp ) _ ( _loc : Gram . Loc . t ) -> ( Ast . TyMut ( _loc , x ) : ' more_ctyp ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( str_item_quot : ' str_item_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . StNil _loc : ' str_item_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( str_item : ' str_item Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( st : ' str_item ) ( _loc : Gram . Loc . t ) -> ( st : ' str_item_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( str_item : ' str_item Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( st2 : ' str_item_quot ) _ ( st1 : ' str_item ) ( _loc : Gram . Loc . t ) -> ( Ast . StSem ( _loc , st1 , st2 ) : ' str_item_quot ) ) ) ) ; ( [ Gram . Skeyword " " ; # Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_expr : ' opt_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( dp : ' opt_expr ) ( n : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . StDir ( _loc , n , dp ) : ' str_item_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( sig_item_quot : ' sig_item_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . SgNil _loc : ' sig_item_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( sig_item : ' sig_item Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( sg : ' sig_item ) ( _loc : Gram . Loc . t ) -> ( sg : ' sig_item_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( sig_item : ' sig_item Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( sg2 : ' sig_item_quot ) _ ( sg1 : ' sig_item ) ( _loc : Gram . Loc . t ) -> ( Ast . SgSem ( _loc , sg1 , sg2 ) : ' sig_item_quot ) ) ) ) ; ( [ Gram . Skeyword " " ; # Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_expr : ' opt_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( dp : ' opt_expr ) ( n : ' a_LIDENT ) _ ( _loc : Gram . Loc . t ) -> ( Ast . SgDir ( _loc , n , dp ) : ' sig_item_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( module_type_quot : ' module_type_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . MtNil _loc : ' module_type_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' module_type ) ( _loc : Gram . Loc . t ) -> ( x : ' module_type_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( module_expr_quot : ' module_expr_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . MeNil _loc : ' module_expr_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( module_expr : ' module_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' module_expr ) ( _loc : Gram . Loc . t ) -> ( x : ' module_expr_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( match_case_quot : ' match_case_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . McNil _loc : ' match_case_quot ) ) ) ) ; ( [ Gram . Slist0sep ( ( Gram . Snterm ( Gram . Entry . obj ( match_case0 : ' match_case0 Gram . Entry . t ) ) ) , ( Gram . Skeyword " " ) ) | ] , ( Gram . Action . mk ( fun ( x : ' match_case0 list ) ( _loc : Gram . Loc . t ) -> ( Ast . mcOr_of_list x : ' match_case_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( binding_quot : ' binding_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . BiNil _loc : ' binding_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( binding : ' binding Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' binding ) ( _loc : Gram . Loc . t ) -> ( x : ' binding_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( rec_binding_quot : ' rec_binding_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . RbNil _loc : ' rec_binding_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( label_expr_list : ' label_expr_list Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' label_expr_list ) ( _loc : Gram . Loc . t ) -> ( x : ' rec_binding_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( module_binding_quot : ' module_binding_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . MbNil _loc : ' module_binding_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( module_expr : ' module_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( me : ' module_expr ) _ ( mt : ' module_type ) _ ( m : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . MbColEq ( _loc , m , mt , me ) : ' module_binding_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( mt : ' module_type ) _ ( m : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . MbCol ( _loc , m , mt ) : ' module_binding_quot ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " " , \\ _ ) " ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( module_expr : ' module_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( me : ' module_expr ) _ ( mt : ' module_type ) _ ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " as n ) ) , m ) -> ( Ast . MbColEq ( _loc , ( mk_anti n m ) , mt , me ) : ' module_binding_quot ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " " , \\ _ ) " ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( module_type : ' module_type Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( mt : ' module_type ) _ ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " as n ) ) , m ) -> ( Ast . MbCol ( _loc , ( mk_anti n m ) , mt ) : ' module_binding_quot ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " " , \\ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " as n ) ) , s ) -> ( Ast . MbAnt ( _loc , ( mk_anti ~ c : " module_binding " n s ) ) : ' module_binding_quot ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " module_binding " | " anti " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " \ module_binding " \ | " \ anti " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " module_binding " | " anti " as n ) ) , s ) -> ( Ast . MbAnt ( _loc , ( mk_anti ~ c : " module_binding " n s ) ) : ' module_binding_quot ) | _ -> assert false ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " and " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( b2 : ' module_binding_quot ) _ ( b1 : ' module_binding_quot ) ( _loc : Gram . Loc . t ) -> ( Ast . MbAnd ( _loc , b1 , b2 ) : ' module_binding_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( ident_quot : ' ident_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( ( Some " apply " ) , None , [ ( [ Gram . Sself ; Gram . Sself ] , ( Gram . Action . mk ( fun ( j : ' ident_quot ) ( i : ' ident_quot ) ( _loc : Gram . Loc . t ) -> ( Ast . IdApp ( _loc , i , j ) : ' ident_quot ) ) ) ) ] ) ; ( ( Some " . " ) , None , [ ( [ Gram . Sself ; Gram . Skeyword " . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( j : ' ident_quot ) _ ( i : ' ident_quot ) ( _loc : Gram . Loc . t ) -> ( Ast . IdAcc ( _loc , i , j ) : ' ident_quot ) ) ) ) ] ) ; ( ( Some " simple " ) , None , [ ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( i : ' ident_quot ) _ ( _loc : Gram . Loc . t ) -> ( i : ' ident_quot ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " id " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ id " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ; Gram . Skeyword " . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( i : ' ident_quot ) _ ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " id " | " anti " | " list " as n ) ) , s ) -> ( Ast . IdAcc ( _loc , ( Ast . IdAnt ( _loc , ( mk_anti ~ c : " ident " n s ) ) ) , i ) : ' ident_quot ) | _ -> assert false ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_LIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . IdLid ( _loc , i ) : ' ident_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_UIDENT : ' a_UIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_UIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . IdUid ( _loc , i ) : ' ident_quot ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( ( " " | " id " | " anti " | " list " ) , _ ) -> true | _ -> false ) , " ANTIQUOT ( ( " " \\ | " \ id " \ | " \ anti " \ | " \ list " ) , \ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " " | " id " | " anti " | " list " as n ) ) , s ) -> ( Ast . IdAnt ( _loc , ( mk_anti ~ c : " ident " n s ) ) : ' ident_quot ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_expr_quot : ' class_expr_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . CeNil _loc : ' class_expr_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( class_expr : ' class_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' class_expr ) ( _loc : Gram . Loc . t ) -> ( x : ' class_expr_quot ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " virtual " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ virtual " , \ _ ) " ) ) ; Gram . Snterm ( Gram . Entry . obj ( ident : ' ident Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_comma_ctyp : ' opt_comma_ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ot : ' opt_comma_ctyp ) ( i : ' ident ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " virtual " as n ) ) , s ) -> ( let anti = Ast . ViAnt ( mk_anti ~ c : " class_expr " n s ) in Ast . CeCon ( _loc , anti , i , ot ) : ' class_expr_quot ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " virtual " ; Gram . Snterm ( Gram . Entry . obj ( class_name_and_param : ' class_name_and_param Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ( i , ot ) : ' class_name_and_param ) _ ( _loc : Gram . Loc . t ) -> ( Ast . CeCon ( _loc , Ast . ViVirtual , ( Ast . IdLid ( _loc , i ) ) , ot ) : ' class_expr_quot ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " " ; = Gram . Sself ] , ( Gram . Action . mk ( fun ( ce2 : ' class_expr_quot ) _ ( ce1 : ' class_expr_quot ) ( _loc : Gram . Loc . t ) -> ( Ast . CeEq ( _loc , ce1 , ce2 ) : ' class_expr_quot ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " and " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( ce2 : ' class_expr_quot ) _ ( ce1 : ' class_expr_quot ) ( _loc : Gram . Loc . t ) -> ( Ast . CeAnd ( _loc , ce1 , ce2 ) : ' class_expr_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_type_quot : ' class_type_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . CtNil _loc : ' class_type_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( class_type_plus : ' class_type_plus Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' class_type_plus ) ( _loc : Gram . Loc . t ) -> ( x : ' class_type_quot ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " virtual " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " \ virtual " , \ _ ) " ) ) ; Gram . Snterm ( Gram . Entry . obj ( ident : ' ident Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_comma_ctyp : ' opt_comma_ctyp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ot : ' opt_comma_ctyp ) ( i : ' ident ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( ( ( " virtual " as n ) ) , s ) -> ( let anti = Ast . ViAnt ( mk_anti ~ c : " class_type " n s ) in Ast . CtCon ( _loc , anti , i , ot ) : ' class_type_quot ) | _ -> assert false ) ) ) ; ( [ Gram . Skeyword " virtual " ; Gram . Snterm ( Gram . Entry . obj ( class_name_and_param : ' class_name_and_param Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ( i , ot ) : ' class_name_and_param ) _ ( _loc : Gram . Loc . t ) -> ( Ast . CtCon ( _loc , Ast . ViVirtual , ( Ast . IdLid ( _loc , i ) ) , ot ) : ' class_type_quot ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " " ; : Gram . Sself ] , ( Gram . Action . mk ( fun ( ct2 : ' class_type_quot ) _ ( ct1 : ' class_type_quot ) ( _loc : Gram . Loc . t ) -> ( Ast . CtCol ( _loc , ct1 , ct2 ) : ' class_type_quot ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " " ; = Gram . Sself ] , ( Gram . Action . mk ( fun ( ct2 : ' class_type_quot ) _ ( ct1 : ' class_type_quot ) ( _loc : Gram . Loc . t ) -> ( Ast . CtEq ( _loc , ct1 , ct2 ) : ' class_type_quot ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " and " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( ct2 : ' class_type_quot ) _ ( ct1 : ' class_type_quot ) ( _loc : Gram . Loc . t ) -> ( Ast . CtAnd ( _loc , ct1 , ct2 ) : ' class_type_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_str_item_quot : ' class_str_item_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . CrNil _loc : ' class_str_item_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( class_str_item : ' class_str_item Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' class_str_item ) ( _loc : Gram . Loc . t ) -> ( x : ' class_str_item_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( class_str_item : ' class_str_item Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( x2 : ' class_str_item_quot ) _ ( x1 : ' class_str_item ) ( _loc : Gram . Loc . t ) -> ( Ast . CrSem ( _loc , x1 , x2 ) : ' class_str_item_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( class_sig_item_quot : ' class_sig_item_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . CgNil _loc : ' class_sig_item_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( class_sig_item : ' class_sig_item Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' class_sig_item ) ( _loc : Gram . Loc . t ) -> ( x : ' class_sig_item_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( class_sig_item : ' class_sig_item Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( x2 : ' class_sig_item_quot ) _ ( x1 : ' class_sig_item ) ( _loc : Gram . Loc . t ) -> ( Ast . CgSem ( _loc , x1 , x2 ) : ' class_sig_item_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( with_constr_quot : ' with_constr_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( Ast . WcNil _loc : ' with_constr_quot ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( with_constr : ' with_constr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' with_constr ) ( _loc : Gram . Loc . t ) -> ( x : ' with_constr_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( rec_flag_quot : ' rec_flag_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( opt_rec : ' opt_rec Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' opt_rec ) ( _loc : Gram . Loc . t ) -> ( x : ' rec_flag_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( direction_flag_quot : ' direction_flag_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( direction_flag : ' direction_flag Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' direction_flag ) ( _loc : Gram . Loc . t ) -> ( x : ' direction_flag_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( mutable_flag_quot : ' mutable_flag_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( opt_mutable : ' opt_mutable Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' opt_mutable ) ( _loc : Gram . Loc . t ) -> ( x : ' mutable_flag_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( private_flag_quot : ' private_flag_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( opt_private : ' opt_private Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' opt_private ) ( _loc : Gram . Loc . t ) -> ( x : ' private_flag_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( virtual_flag_quot : ' virtual_flag_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( opt_virtual : ' opt_virtual Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' opt_virtual ) ( _loc : Gram . Loc . t ) -> ( x : ' virtual_flag_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( row_var_flag_quot : ' row_var_flag_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( opt_dot_dot : ' opt_dot_dot Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' opt_dot_dot ) ( _loc : Gram . Loc . t ) -> ( x : ' row_var_flag_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( override_flag_quot : ' override_flag_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( opt_override : ' opt_override Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' opt_override ) ( _loc : Gram . Loc . t ) -> ( x : ' override_flag_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( patt_eoi : ' patt_eoi Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ; Gram . Stoken ( ( ( function | EOI -> true | _ -> false ) , " EOI " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( x : ' patt ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | EOI -> ( x : ' patt_eoi ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( expr_eoi : ' expr_eoi Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Stoken ( ( ( function | EOI -> true | _ -> false ) , " EOI " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( x : ' expr ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | EOI -> ( x : ' expr_eoi ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ) end let _ = let module M = Register . OCamlSyntaxExtension ( Id ) ( Make ) in ( ) end |
module Camlp4QuotationCommon = struct open Camlp4 module Id = struct let name = " Camlp4QuotationCommon " let version = Sys . ocaml_version end module Make ( Syntax : Sig . Camlp4Syntax ) ( TheAntiquotSyntax : Sig . Parser ( Syntax . Ast ) . SIMPLE ) = struct open Sig include Syntax module MetaLocHere = Ast . Meta . MetaLoc module MetaLoc = struct module Ast = Ast let loc_name = ref None let meta_loc_expr _loc loc = match ! loc_name with | None -> Ast . ExId ( _loc , ( Ast . IdLid ( _loc , ! Loc . name ) ) ) | Some " here " -> MetaLocHere . meta_loc_expr _loc loc | Some x -> Ast . ExId ( _loc , ( Ast . IdLid ( _loc , x ) ) ) let meta_loc_patt _loc _ = Ast . PaAny _loc end module MetaAst = Ast . Meta . Make ( MetaLoc ) module ME = MetaAst . Expr module MP = MetaAst . Patt let is_antiquot s = let len = String . length s in ( len > 2 ) && ( ( s . [ 0 ] = ' ' ) \\ && ( s . [ 1 ] = ' ' ) ) $ let handle_antiquot_in_string s term parse loc decorate = if is_antiquot s then ( let pos = String . index s ' ' : in let name = String . sub s 2 ( pos - 2 ) and code = String . sub s ( pos + 1 ) ( ( ( String . length s ) - pos ) - 1 ) in decorate name ( parse loc code ) ) else term let antiquot_expander = object inherit Ast . map as super method patt = function | ( Ast . PaAnt ( _loc , s ) | Ast . PaStr ( _loc , s ) as p ) -> let mloc _loc = MetaLoc . meta_loc_patt _loc _loc in handle_antiquot_in_string s p TheAntiquotSyntax . parse_patt _loc ( fun n p -> match n with | " antisig_item " -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , p ) | " antistr_item " -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , p ) | " antictyp " -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , p ) | " antipatt " -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , p ) | " antiexpr " -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , p ) | " antimodule_type " -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MtAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , p ) | " antimodule_expr " -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MeAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , p ) | " anticlass_type " -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CtAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , p ) | " anticlass_expr " -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , p ) | " anticlass_sig_item " -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CgAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , p ) | " anticlass_str_item " -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , p ) | " antiwith_constr " -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " WcAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , p ) | " antibinding " -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " BiAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , p ) | " antirec_binding " -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " RbAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , p ) | " antimatch_case " -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " McAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , p ) | " antimodule_binding " -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MbAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , p ) | " antiident " -> Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " IdAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , p ) | _ -> p ) | p -> super # patt p method expr = function | ( Ast . ExAnt ( _loc , s ) | Ast . ExStr ( _loc , s ) as e ) -> let mloc _loc = MetaLoc . meta_loc_expr _loc _loc in handle_antiquot_in_string s e TheAntiquotSyntax . parse_expr _loc ( fun n e -> match n with | " ` int " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " string_of_int " ) ) ) ) , e ) | " ` int32 " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Int32 " ) ) , ( Ast . IdLid ( _loc , " to_string " ) ) ) ) ) ) , e ) | " ` int64 " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Int64 " ) ) , ( Ast . IdLid ( _loc , " to_string " ) ) ) ) ) ) , e ) | " ` nativeint " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Nativeint " ) ) , ( Ast . IdLid ( _loc , " to_string " ) ) ) ) ) ) , e ) | " ` flo " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Camlp4_import " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Oprint " ) ) , ( Ast . IdLid ( _loc , " float_repres " ) ) ) ) ) ) ) ) , e ) | " ` str " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " safe_string_escaped " ) ) ) ) ) ) , e ) | " ` chr " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Char " ) ) , ( Ast . IdLid ( _loc , " escaped " ) ) ) ) ) ) , e ) | " ` bool " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " IdUid " ) ) ) ) ) ) , ( mloc _loc ) ) ) , ( Ast . ExIfe ( _loc , e , ( Ast . ExStr ( _loc , " True " ) ) , ( Ast . ExStr ( _loc , " False " ) ) ) ) ) | " liststr_item " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " stSem_of_list " ) ) ) ) ) ) , e ) | " listsig_item " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " sgSem_of_list " ) ) ) ) ) ) , e ) | " listclass_sig_item " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " cgSem_of_list " ) ) ) ) ) ) , e ) | " listclass_str_item " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " crSem_of_list " ) ) ) ) ) ) , e ) | " listmodule_expr " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " meApp_of_list " ) ) ) ) ) ) , e ) | " listmodule_type " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " mtApp_of_list " ) ) ) ) ) ) , e ) | " listmodule_binding " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " mbAnd_of_list " ) ) ) ) ) ) , e ) | " listbinding " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " biAnd_of_list " ) ) ) ) ) ) , e ) | " listbinding ; " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " biSem_of_list " ) ) ) ) ) ) , e ) | " listrec_binding " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " rbSem_of_list " ) ) ) ) ) ) , e ) | " listclass_type " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " ctAnd_of_list " ) ) ) ) ) ) , e ) | " listclass_expr " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " ceAnd_of_list " ) ) ) ) ) ) , e ) | " listident " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " idAcc_of_list " ) ) ) ) ) ) , e ) | " listctypand " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " tyAnd_of_list " ) ) ) ) ) ) , e ) | " listctyp ; " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " tySem_of_list " ) ) ) ) ) ) , e ) | " listctyp " * -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " tySta_of_list " ) ) ) ) ) ) , e ) | " listctyp " | -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " tyOr_of_list " ) ) ) ) ) ) , e ) | " listctyp , " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " tyCom_of_list " ) ) ) ) ) ) , e ) | " listctyp " & -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " tyAmp_of_list " ) ) ) ) ) ) , e ) | " listwith_constr " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " wcAnd_of_list " ) ) ) ) ) ) , e ) | " listmatch_case " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " mcOr_of_list " ) ) ) ) ) ) , e ) | " listpatt , " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " paCom_of_list " ) ) ) ) ) ) , e ) | " listpatt ; " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " paSem_of_list " ) ) ) ) ) ) , e ) | " listexpr , " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " exCom_of_list " ) ) ) ) ) ) , e ) | " listexpr ; " -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdLid ( _loc , " exSem_of_list " ) ) ) ) ) ) , e ) | " antisig_item " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " SgAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , e ) | " antistr_item " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " StAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , e ) | " antictyp " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " TyAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , e ) | " antipatt " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " PaAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , e ) | " antiexpr " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " ExAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , e ) | " antimodule_type " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MtAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , e ) | " antimodule_expr " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MeAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , e ) | " anticlass_type " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CtAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , e ) | " anticlass_expr " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CeAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , e ) | " anticlass_sig_item " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CgAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , e ) | " anticlass_str_item " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " CrAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , e ) | " antiwith_constr " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " WcAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , e ) | " antibinding " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " BiAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , e ) | " antirec_binding " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " RbAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , e ) | " antimatch_case " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " McAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , e ) | " antimodule_binding " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " MbAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , e ) | " antiident " -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , " IdAnt " ) ) ) ) ) ) , ( mloc _loc ) ) ) , e ) | _ -> e ) | e -> super # expr e end let add_quotation name entry mexpr mpatt = let entry_eoi = Gram . Entry . mk ( Gram . Entry . name entry ) in let parse_quot_string entry loc s = let q = ! Camlp4_config . antiquotations in let ( ) = Camlp4_config . antiquotations := true in let res = Gram . parse_string entry loc s in let ( ) = Camlp4_config . antiquotations := q in res in let expand_expr loc loc_name_opt s = let ast = parse_quot_string entry_eoi loc s in let ( ) = MetaLoc . loc_name := loc_name_opt in let meta_ast = mexpr loc ast in let exp_ast = antiquot_expander # expr meta_ast in exp_ast in let expand_str_item loc loc_name_opt s = let exp_ast = expand_expr loc loc_name_opt s in Ast . StExp ( loc , exp_ast ) in let expand_patt _loc loc_name_opt s = let ast = parse_quot_string entry_eoi _loc s in let meta_ast = mpatt _loc ast in let exp_ast = antiquot_expander # patt meta_ast in match loc_name_opt with | None -> exp_ast | Some name -> let rec subst_first_loc = ( function | Ast . PaApp ( _loc , ( Ast . PaId ( _ , ( Ast . IdAcc ( _ , ( Ast . IdUid ( _ , " Ast " ) ) , ( Ast . IdUid ( _ , u ) ) ) ) ) ) , _ ) -> Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Ast " ) ) , ( Ast . IdUid ( _loc , u ) ) ) ) ) ) , ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , name ) ) ) ) ) | Ast . PaApp ( _loc , a , b ) -> Ast . PaApp ( _loc , ( subst_first_loc a ) , b ) | p -> p ) in subst_first_loc exp_ast in ( Gram . extend ( entry_eoi : ' entry_eoi Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( entry : ' entry Gram . Entry . t ) ) ; Gram . Stoken ( ( ( function | EOI -> true | _ -> false ) , " EOI " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( x : ' entry ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | EOI -> ( x : ' entry_eoi ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Quotation . add name Quotation . DynAst . expr_tag expand_expr ; Quotation . add name Quotation . DynAst . patt_tag expand_patt ; Quotation . add name Quotation . DynAst . str_item_tag expand_str_item ) let _ = add_quotation " sig_item " sig_item_quot ME . meta_sig_item MP . meta_sig_item let _ = add_quotation " str_item " str_item_quot ME . meta_str_item MP . meta_str_item let _ = add_quotation " ctyp " ctyp_quot ME . meta_ctyp MP . meta_ctyp let _ = add_quotation " patt " patt_quot ME . meta_patt MP . meta_patt let _ = add_quotation " expr " expr_quot ME . meta_expr MP . meta_expr let _ = add_quotation " module_type " module_type_quot ME . meta_module_type MP . meta_module_type let _ = add_quotation " module_expr " module_expr_quot ME . meta_module_expr MP . meta_module_expr let _ = add_quotation " class_type " class_type_quot ME . meta_class_type MP . meta_class_type let _ = add_quotation " class_expr " class_expr_quot ME . meta_class_expr MP . meta_class_expr let _ = add_quotation " class_sig_item " class_sig_item_quot ME . meta_class_sig_item MP . meta_class_sig_item let _ = add_quotation " class_str_item " class_str_item_quot ME . meta_class_str_item MP . meta_class_str_item let _ = add_quotation " with_constr " with_constr_quot ME . meta_with_constr MP . meta_with_constr let _ = add_quotation " binding " binding_quot ME . meta_binding MP . meta_binding let _ = add_quotation " rec_binding " rec_binding_quot ME . meta_rec_binding MP . meta_rec_binding let _ = add_quotation " match_case " match_case_quot ME . meta_match_case MP . meta_match_case let _ = add_quotation " module_binding " module_binding_quot ME . meta_module_binding MP . meta_module_binding let _ = add_quotation " ident " ident_quot ME . meta_ident MP . meta_ident let _ = add_quotation " rec_flag " rec_flag_quot ME . meta_rec_flag MP . meta_rec_flag let _ = add_quotation " private_flag " private_flag_quot ME . meta_private_flag MP . meta_private_flag let _ = add_quotation " row_var_flag " row_var_flag_quot ME . meta_row_var_flag MP . meta_row_var_flag let _ = add_quotation " mutable_flag " mutable_flag_quot ME . meta_mutable_flag MP . meta_mutable_flag let _ = add_quotation " virtual_flag " virtual_flag_quot ME . meta_virtual_flag MP . meta_virtual_flag let _ = add_quotation " override_flag " override_flag_quot ME . meta_override_flag MP . meta_override_flag let _ = add_quotation " direction_flag " direction_flag_quot ME . meta_direction_flag MP . meta_direction_flag end end |
module Q = struct open Camlp4 module Id = struct let name = " Camlp4QuotationExpander " let version = Sys . ocaml_version end module Make ( Syntax : Sig . Camlp4Syntax ) = struct module M = Camlp4QuotationCommon . Make ( Syntax ) ( Syntax . AntiquotSyntax ) include M end let _ = let module M = Register . OCamlSyntaxExtension ( Id ) ( Make ) in ( ) end |
module Rp = struct open Camlp4 module Id : Sig . Id = struct let name = " Camlp4OCamlRevisedParserParser " let version = Sys . ocaml_version end module Make ( Syntax : Sig . Camlp4Syntax ) = struct open Sig include Syntax type spat_comp = | SpTrm of Loc . t * Ast . patt * Ast . expr option | SpNtr of Loc . t * Ast . patt * Ast . expr | SpStr of Loc . t * Ast . patt type sexp_comp = | SeTrm of Loc . t * Ast . expr | SeNtr of Loc . t * Ast . expr let stream_expr = Gram . Entry . mk " stream_expr " let stream_begin = Gram . Entry . mk " stream_begin " let stream_end = Gram . Entry . mk " stream_end " let stream_quot = Gram . Entry . mk " stream_quot " let parser_case = Gram . Entry . mk " parser_case " let parser_case_list = Gram . Entry . mk " parser_case_list " let strm_n = " __strm " let peek_fun _loc = Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdLid ( _loc , " peek " ) ) ) ) ) let junk_fun _loc = Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdLid ( _loc , " junk " ) ) ) ) ) let rec pattern_eq_expression p e = match ( p , e ) with | ( Ast . PaId ( _ , ( Ast . IdLid ( _ , a ) ) ) , Ast . ExId ( _ , ( Ast . IdLid ( _ , b ) ) ) ) -> a = b | ( Ast . PaId ( _ , ( Ast . IdUid ( _ , a ) ) ) , Ast . ExId ( _ , ( Ast . IdUid ( _ , b ) ) ) ) -> a = b | ( Ast . PaApp ( _ , p1 , p2 ) , Ast . ExApp ( _ , e1 , e2 ) ) -> ( pattern_eq_expression p1 e1 ) && ( pattern_eq_expression p2 e2 ) | _ -> false let is_raise e = match e with | Ast . ExApp ( _ , ( Ast . ExId ( _ , ( Ast . IdLid ( _ , " raise " ) ) ) ) , _ ) -> true | _ -> false let is_raise_failure e = match e with | Ast . ExApp ( _ , ( Ast . ExId ( _ , ( Ast . IdLid ( _ , " raise " ) ) ) ) , ( Ast . ExId ( _ , ( Ast . IdAcc ( _ , ( Ast . IdUid ( _ , " Stream " ) ) , ( Ast . IdUid ( _ , " Failure " ) ) ) ) ) ) ) -> true | _ -> false let rec handle_failure e = match e with | Ast . ExTry ( _ , _ , ( Ast . McArr ( _ , ( Ast . PaId ( _ , ( Ast . IdAcc ( _ , ( Ast . IdUid ( _ , " Stream " ) ) , ( Ast . IdUid ( _ , " Failure " ) ) ) ) ) ) , ( Ast . ExNil _ ) , e ) ) ) -> handle_failure e | Ast . ExMat ( _ , me , a ) -> let rec match_case_handle_failure = ( function | Ast . McOr ( _ , a1 , a2 ) -> ( match_case_handle_failure a1 ) && ( match_case_handle_failure a2 ) | Ast . McArr ( _ , _ , ( Ast . ExNil _ ) , e ) -> handle_failure e | _ -> false ) in ( handle_failure me ) && ( match_case_handle_failure a ) | Ast . ExLet ( _ , Ast . ReNil , bi , e ) -> let rec binding_handle_failure = ( function | Ast . BiAnd ( _ , b1 , b2 ) -> ( binding_handle_failure b1 ) && ( binding_handle_failure b2 ) | Ast . BiEq ( _ , _ , e ) -> handle_failure e | _ -> false ) in ( binding_handle_failure bi ) && ( handle_failure e ) | Ast . ExId ( _ , ( Ast . IdLid ( _ , _ ) ) ) | Ast . ExInt ( _ , _ ) | Ast . ExStr ( _ , _ ) | Ast . ExChr ( _ , _ ) | Ast . ExFun ( _ , _ ) | Ast . ExId ( _ , ( Ast . IdUid ( _ , _ ) ) ) -> true | Ast . ExApp ( _ , ( Ast . ExId ( _ , ( Ast . IdLid ( _ , " raise " ) ) ) ) , e ) -> ( match e with | Ast . ExId ( _ , ( Ast . IdAcc ( _ , ( Ast . IdUid ( _ , " Stream " ) ) , ( Ast . IdUid ( _ , " Failure " ) ) ) ) ) -> false | _ -> true ) | Ast . ExApp ( _ , f , x ) -> ( is_constr_apply f ) && ( ( handle_failure f ) && ( handle_failure x ) ) | _ -> false and is_constr_apply = function | Ast . ExId ( _ , ( Ast . IdUid ( _ , _ ) ) ) -> true | Ast . ExId ( _ , ( Ast . IdLid ( _ , _ ) ) ) -> false | Ast . ExApp ( _ , x , _ ) -> is_constr_apply x | _ -> false let rec subst v e = let _loc = Ast . loc_of_expr e in match e with | Ast . ExId ( _ , ( Ast . IdLid ( _ , x ) ) ) -> let x = if x = v then strm_n else x in Ast . ExId ( _loc , ( Ast . IdLid ( _loc , x ) ) ) | Ast . ExId ( _ , ( Ast . IdUid ( _ , _ ) ) ) -> e | Ast . ExInt ( _ , _ ) -> e | Ast . ExChr ( _ , _ ) -> e | Ast . ExStr ( _ , _ ) -> e | Ast . ExAcc ( _ , _ , _ ) -> e | Ast . ExLet ( _ , rf , bi , e ) -> Ast . ExLet ( _loc , rf , ( subst_binding v bi ) , ( subst v e ) ) | Ast . ExApp ( _ , e1 , e2 ) -> Ast . ExApp ( _loc , ( subst v e1 ) , ( subst v e2 ) ) | Ast . ExTup ( _ , e ) -> Ast . ExTup ( _loc , ( subst v e ) ) | Ast . ExCom ( _ , e1 , e2 ) -> Ast . ExCom ( _loc , ( subst v e1 ) , ( subst v e2 ) ) | _ -> raise Not_found and subst_binding v = function | Ast . BiAnd ( _loc , b1 , b2 ) -> Ast . BiAnd ( _loc , ( subst_binding v b1 ) , ( subst_binding v b2 ) ) | Ast . BiEq ( _loc , ( Ast . PaId ( _ , ( Ast . IdLid ( _ , v ' ) ) ) ) , e ) -> Ast . BiEq ( _loc , ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , v ' ) ) ) ) , ( if v = v ' then e else subst v e ) ) | _ -> raise Not_found let stream_pattern_component skont ckont = function | SpTrm ( _loc , p , None ) -> Ast . ExMat ( _loc , ( Ast . ExApp ( _loc , ( peek_fun _loc ) , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , strm_n ) ) ) ) ) ) , ( Ast . McOr ( _loc , ( Ast . McArr ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " Some " ) ) ) ) , p ) ) , ( Ast . ExNil _loc ) , ( Ast . ExSeq ( _loc , ( Ast . ExSem ( _loc , ( Ast . ExApp ( _loc , ( junk_fun _loc ) , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , strm_n ) ) ) ) ) ) , skont ) ) ) ) ) ) , ( Ast . McArr ( _loc , ( Ast . PaAny _loc ) , ( Ast . ExNil _loc ) , ckont ) ) ) ) ) | SpTrm ( _loc , p , ( Some w ) ) -> Ast . ExMat ( _loc , ( Ast . ExApp ( _loc , ( peek_fun _loc ) , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , strm_n ) ) ) ) ) ) , ( Ast . McOr ( _loc , ( Ast . McArr ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " Some " ) ) ) ) , p ) ) , w , ( Ast . ExSeq ( _loc , ( Ast . ExSem ( _loc , ( Ast . ExApp ( _loc , ( junk_fun _loc ) , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , strm_n ) ) ) ) ) ) , skont ) ) ) ) ) ) , ( Ast . McArr ( _loc , ( Ast . PaAny _loc ) , ( Ast . ExNil _loc ) , ckont ) ) ) ) ) | SpNtr ( _loc , p , e ) -> let e = ( match e with | Ast . ExFun ( _ , ( Ast . McArr ( _ , ( Ast . PaTyc ( _ , ( Ast . PaId ( _ , ( Ast . IdLid ( _ , v ) ) ) ) , ( Ast . TyApp ( _ , ( Ast . TyId ( _ , ( Ast . IdAcc ( _ , ( Ast . IdUid ( _ , " Stream " ) ) , ( Ast . IdLid ( _ , " t " ) ) ) ) ) ) , ( Ast . TyAny _ ) ) ) ) ) , ( Ast . ExNil _ ) , e ) ) ) when v = strm_n -> e | _ -> Ast . ExApp ( _loc , e , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , strm_n ) ) ) ) ) ) in if pattern_eq_expression p skont then if is_raise_failure ckont then e else if handle_failure e then e else Ast . ExTry ( _loc , e , ( Ast . McArr ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdUid ( _loc , " Failure " ) ) ) ) ) ) , ( Ast . ExNil _loc ) , ckont ) ) ) else if is_raise_failure ckont then Ast . ExLet ( _loc , Ast . ReNil , ( Ast . BiEq ( _loc , p , e ) ) , skont ) else if pattern_eq_expression ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " Some " ) ) ) ) , p ) ) skont then Ast . ExTry ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " Some " ) ) ) ) , e ) ) , ( Ast . McArr ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdUid ( _loc , " Failure " ) ) ) ) ) ) , ( Ast . ExNil _loc ) , ckont ) ) ) else if is_raise ckont then ( let tst = if handle_failure e then e else Ast . ExTry ( _loc , e , ( Ast . McArr ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdUid ( _loc , " Failure " ) ) ) ) ) ) , ( Ast . ExNil _loc ) , ckont ) ) ) in Ast . ExLet ( _loc , Ast . ReNil , ( Ast . BiEq ( _loc , p , tst ) ) , skont ) ) else Ast . ExMat ( _loc , ( Ast . ExTry ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " Some " ) ) ) ) , e ) ) , ( Ast . McArr ( _loc , ( Ast . PaId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdUid ( _loc , " Failure " ) ) ) ) ) ) , ( Ast . ExNil _loc ) , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " None " ) ) ) ) ) ) ) ) , ( Ast . McOr ( _loc , ( Ast . McArr ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " Some " ) ) ) ) , p ) ) , ( Ast . ExNil _loc ) , skont ) ) , ( Ast . McArr ( _loc , ( Ast . PaAny _loc ) , ( Ast . ExNil _loc ) , ckont ) ) ) ) ) | SpStr ( _loc , p ) -> ( try match p with | Ast . PaId ( _ , ( Ast . IdLid ( _ , v ) ) ) -> subst v skont | _ -> raise Not_found with | Not_found -> Ast . ExLet ( _loc , Ast . ReNil , ( Ast . BiEq ( _loc , p , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , strm_n ) ) ) ) ) ) , skont ) ) let rec stream_pattern _loc epo e ekont = function | [ ] -> ( match epo with | Some ep -> Ast . ExLet ( _loc , Ast . ReNil , ( Ast . BiEq ( _loc , ep , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdLid ( _loc , " count " ) ) ) ) ) ) , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , strm_n ) ) ) ) ) ) ) ) , e ) | _ -> e ) | ( spc , err ) :: spcl -> let skont = let ekont err = let str = ( match err with | Some estr -> estr | _ -> Ast . ExStr ( _loc , " " ) ) in Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " raise " ) ) ) ) , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdUid ( _loc , " Error " ) ) ) ) ) ) , str ) ) ) in stream_pattern _loc epo e ekont spcl in let ckont = ekont err in stream_pattern_component skont ckont spc let stream_patterns_term _loc ekont tspel = let pel = List . fold_right ( fun ( p , w , _loc , spcl , epo , e ) acc -> let p = Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " Some " ) ) ) ) , p ) in let e = let ekont err = let str = match err with | Some estr -> estr | _ -> Ast . ExStr ( _loc , " " ) in Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " raise " ) ) ) ) , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdUid ( _loc , " Error " ) ) ) ) ) ) , str ) ) ) in let skont = stream_pattern _loc epo e ekont spcl in Ast . ExSeq ( _loc , ( Ast . ExSem ( _loc , ( Ast . ExApp ( _loc , ( junk_fun _loc ) , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , strm_n ) ) ) ) ) ) , skont ) ) ) in match w with | Some w -> Ast . McOr ( _loc , ( Ast . McArr ( _loc , p , w , e ) ) , acc ) | None -> Ast . McOr ( _loc , ( Ast . McArr ( _loc , p , ( Ast . ExNil _loc ) , e ) ) , acc ) ) tspel ( Ast . McNil _loc ) in Ast . ExMat ( _loc , ( Ast . ExApp ( _loc , ( peek_fun _loc ) , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , strm_n ) ) ) ) ) ) , ( Ast . McOr ( _loc , pel , ( Ast . McArr ( _loc , ( Ast . PaAny _loc ) , ( Ast . ExNil _loc ) , ( ekont ( ) ) ) ) ) ) ) let rec group_terms = function | ( ( SpTrm ( _loc , p , w ) , None ) :: spcl , epo , e ) :: spel -> let ( tspel , spel ) = group_terms spel in ( ( ( p , w , _loc , spcl , epo , e ) :: tspel ) , spel ) | spel -> ( [ ] , spel ) let rec parser_cases _loc = function | [ ] -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " raise " ) ) ) ) , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdUid ( _loc , " Failure " ) ) ) ) ) ) ) | spel -> ( match group_terms spel with | ( [ ] , ( spcl , epo , e ) :: spel ) -> stream_pattern _loc epo e ( fun _ -> parser_cases _loc spel ) spcl | ( tspel , spel ) -> stream_patterns_term _loc ( fun _ -> parser_cases _loc spel ) tspel ) let cparser _loc bpo pc = let e = parser_cases _loc pc in let e = match bpo with | Some bp -> Ast . ExLet ( _loc , Ast . ReNil , ( Ast . BiEq ( _loc , bp , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdLid ( _loc , " count " ) ) ) ) ) ) , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , strm_n ) ) ) ) ) ) ) ) , e ) | None -> e in let p = Ast . PaTyc ( _loc , ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , strm_n ) ) ) ) , ( Ast . TyApp ( _loc , ( Ast . TyId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdLid ( _loc , " t " ) ) ) ) ) ) , ( Ast . TyAny _loc ) ) ) ) in Ast . ExFun ( _loc , ( Ast . McArr ( _loc , p , ( Ast . ExNil _loc ) , e ) ) ) let cparser_match _loc me bpo pc = let pc = parser_cases _loc pc in let e = match bpo with | Some bp -> Ast . ExLet ( _loc , Ast . ReNil , ( Ast . BiEq ( _loc , bp , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdLid ( _loc , " count " ) ) ) ) ) ) , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , strm_n ) ) ) ) ) ) ) ) , pc ) | None -> pc in let me = match me with | ( Ast . ExSem ( _loc , _ , _ ) as e ) -> Ast . ExSeq ( _loc , e ) | e -> e in match me with | Ast . ExId ( _ , ( Ast . IdLid ( _ , x ) ) ) when x = strm_n -> e | _ -> Ast . ExLet ( _loc , Ast . ReNil , ( Ast . BiEq ( _loc , ( Ast . PaTyc ( _loc , ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , strm_n ) ) ) ) , ( Ast . TyApp ( _loc , ( Ast . TyId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdLid ( _loc , " t " ) ) ) ) ) ) , ( Ast . TyAny _loc ) ) ) ) ) , me ) ) , e ) let rec not_computing = function | Ast . ExId ( _ , ( Ast . IdLid ( _ , _ ) ) ) | Ast . ExId ( _ , ( Ast . IdUid ( _ , _ ) ) ) | Ast . ExInt ( _ , _ ) | Ast . ExFlo ( _ , _ ) | Ast . ExChr ( _ , _ ) | Ast . ExStr ( _ , _ ) -> true | Ast . ExApp ( _ , x , y ) -> ( is_cons_apply_not_computing x ) && ( not_computing y ) | _ -> false and is_cons_apply_not_computing = function | Ast . ExId ( _ , ( Ast . IdUid ( _ , _ ) ) ) -> true | Ast . ExId ( _ , ( Ast . IdLid ( _ , _ ) ) ) -> false | Ast . ExApp ( _ , x , y ) -> ( is_cons_apply_not_computing x ) && ( not_computing y ) | _ -> false let slazy _loc e = match e with | Ast . ExApp ( _ , f , ( Ast . ExId ( _ , ( Ast . IdUid ( _ , " ( ) " ) ) ) ) ) -> ( match f with | Ast . ExId ( _ , ( Ast . IdLid ( _ , _ ) ) ) -> f | _ -> Ast . ExFun ( _loc , ( Ast . McArr ( _loc , ( Ast . PaAny _loc ) , ( Ast . ExNil _loc ) , e ) ) ) ) | _ -> Ast . ExFun ( _loc , ( Ast . McArr ( _loc , ( Ast . PaAny _loc ) , ( Ast . ExNil _loc ) , e ) ) ) let rec cstream gloc = function | [ ] -> let _loc = gloc in Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdLid ( _loc , " sempty " ) ) ) ) ) | [ SeTrm ( _loc , e ) ] -> if not_computing e then Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdLid ( _loc , " ising " ) ) ) ) ) ) , e ) else Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdLid ( _loc , " lsing " ) ) ) ) ) ) , ( slazy _loc e ) ) | SeTrm ( _loc , e ) :: secl -> if not_computing e then Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdLid ( _loc , " icons " ) ) ) ) ) ) , e ) ) , ( cstream gloc secl ) ) else Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdLid ( _loc , " lcons " ) ) ) ) ) ) , ( slazy _loc e ) ) ) , ( cstream gloc secl ) ) | [ SeNtr ( _loc , e ) ] -> if not_computing e then e else Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdLid ( _loc , " slazy " ) ) ) ) ) ) , ( slazy _loc e ) ) | SeNtr ( _loc , e ) :: secl -> if not_computing e then Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdLid ( _loc , " iapp " ) ) ) ) ) ) , e ) ) , ( cstream gloc secl ) ) else Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Stream " ) ) , ( Ast . IdLid ( _loc , " lapp " ) ) ) ) ) ) , ( slazy _loc e ) ) ) , ( cstream gloc secl ) ) let _ = let _ = ( expr : ' expr Gram . Entry . t ) and _ = ( parser_case_list : ' parser_case_list Gram . Entry . t ) and _ = ( parser_case : ' parser_case Gram . Entry . t ) and _ = ( stream_quot : ' stream_quot Gram . Entry . t ) and _ = ( stream_end : ' stream_end Gram . Entry . t ) and _ = ( stream_begin : ' stream_begin Gram . Entry . t ) and _ = ( stream_expr : ' stream_expr Gram . Entry . t ) in let grammar_entry_create = Gram . Entry . mk in let stream_patt : ' stream_patt Gram . Entry . t = grammar_entry_create " stream_patt " and stream_expr_comp : ' stream_expr_comp Gram . Entry . t = grammar_entry_create " stream_expr_comp " and stream_expr_comp_list : ' stream_expr_comp_list Gram . Entry . t = grammar_entry_create " stream_expr_comp_list " and parser_ipatt : ' parser_ipatt Gram . Entry . t = grammar_entry_create " parser_ipatt " and stream_patt_comp : ' stream_patt_comp Gram . Entry . t = grammar_entry_create " stream_patt_comp " and stream_patt_comp_err_list : ' stream_patt_comp_err_list Gram . Entry . t = grammar_entry_create " stream_patt_comp_err_list " and stream_patt_comp_err : ' stream_patt_comp_err Gram . Entry . t = grammar_entry_create " stream_patt_comp_err " in ( Gram . extend ( expr : ' expr Gram . Entry . t ) ( ( fun ( ) -> ( ( Some ( Camlp4 . Sig . Grammar . Level " top " ) ) , [ ( None , None , [ ( [ Gram . Skeyword " match " ; Gram . Snterm ( Gram . Entry . obj ( sequence : ' sequence Gram . Entry . t ) ) ; Gram . Skeyword " with " ; Gram . Skeyword " parser " ; Gram . Sopt ( Gram . Snterm ( Gram . Entry . obj ( parser_ipatt : ' parser_ipatt Gram . Entry . t ) ) ) ; Gram . Snterm ( Gram . Entry . obj ( parser_case_list : ' parser_case_list Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( pcl : ' parser_case_list ) ( po : ' parser_ipatt option ) _ _ ( e : ' sequence ) _ ( _loc : Gram . Loc . t ) -> ( cparser_match _loc e po pcl : ' expr ) ) ) ) ; ( [ Gram . Skeyword " parser " ; Gram . Sopt ( Gram . Snterm ( Gram . Entry . obj ( parser_ipatt : ' parser_ipatt Gram . Entry . t ) ) ) ; Gram . Snterm ( Gram . Entry . obj ( parser_case_list : ' parser_case_list Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( pcl : ' parser_case_list ) ( po : ' parser_ipatt option ) _ ( _loc : Gram . Loc . t ) -> ( cparser _loc po pcl : ' expr ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( parser_case_list : ' parser_case_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( parser_case : ' parser_case Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( pc : ' parser_case ) ( _loc : Gram . Loc . t ) -> ( [ pc ] : ' parser_case_list ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Slist0sep ( ( Gram . Snterm ( Gram . Entry . obj ( parser_case : ' parser_case Gram . Entry . t ) ) ) , ( Gram . Skeyword " " ) ) ; | Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( pcl : ' parser_case list ) _ ( _loc : Gram . Loc . t ) -> ( pcl : ' parser_case_list ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( parser_case : ' parser_case Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( stream_begin : ' stream_begin Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( stream_patt : ' stream_patt Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( stream_end : ' stream_end Gram . Entry . t ) ) ; Gram . Sopt ( Gram . Snterm ( Gram . Entry . obj ( parser_ipatt : ' parser_ipatt Gram . Entry . t ) ) ) ; Gram . Skeyword " " ; -> Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( po : ' parser_ipatt option ) _ ( sp : ' stream_patt ) _ ( _loc : Gram . Loc . t ) -> ( ( sp , po , e ) : ' parser_case ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( stream_begin : ' stream_begin Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " [ " : ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( ( ) : ' stream_begin ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( stream_end : ' stream_end Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " ] " : ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( ( ) : ' stream_end ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( stream_quot : ' stream_quot Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " ` " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( ( ) : ' stream_quot ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( stream_expr : ' stream_expr Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( e : ' stream_expr ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( stream_patt : ' stream_patt Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( [ ] : ' stream_patt ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( stream_patt_comp : ' stream_patt_comp Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Snterm ( Gram . Entry . obj ( stream_patt_comp_err_list : ' stream_patt_comp_err_list Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( sp : ' stream_patt_comp_err_list ) _ ( spc : ' stream_patt_comp ) ( _loc : Gram . Loc . t ) -> ( ( spc , None ) :: sp : ' stream_patt ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( stream_patt_comp : ' stream_patt_comp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( spc : ' stream_patt_comp ) ( _loc : Gram . Loc . t ) -> ( [ ( spc , None ) ] : ' stream_patt ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( stream_patt_comp_err : ' stream_patt_comp_err Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( stream_patt_comp : ' stream_patt_comp Gram . Entry . t ) ) ; Gram . Sopt ( Gram . srules stream_patt_comp_err [ ( [ Gram . Skeyword " " ; ?? Gram . Snterm ( Gram . Entry . obj ( stream_expr : ' stream_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' stream_expr ) _ ( _loc : Gram . Loc . t ) -> ( e : ' e__14 ) ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( eo : ' e__14 option ) ( spc : ' stream_patt_comp ) ( _loc : Gram . Loc . t ) -> ( ( spc , eo ) : ' stream_patt_comp_err ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( stream_patt_comp_err_list : ' stream_patt_comp_err_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( stream_patt_comp_err : ' stream_patt_comp_err Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( sp : ' stream_patt_comp_err_list ) _ ( spc : ' stream_patt_comp_err ) ( _loc : Gram . Loc . t ) -> ( spc :: sp : ' stream_patt_comp_err_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( stream_patt_comp_err : ' stream_patt_comp_err Gram . Entry . t ) ) ; Gram . Skeyword " ; " ] , ( Gram . Action . mk ( fun _ ( spc : ' stream_patt_comp_err ) ( _loc : Gram . Loc . t ) -> ( [ spc ] : ' stream_patt_comp_err_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( stream_patt_comp_err : ' stream_patt_comp_err Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( spc : ' stream_patt_comp_err ) ( _loc : Gram . Loc . t ) -> ( [ spc ] : ' stream_patt_comp_err_list ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( stream_patt_comp : ' stream_patt_comp Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( p : ' patt ) ( _loc : Gram . Loc . t ) -> ( SpStr ( _loc , p ) : ' stream_patt_comp ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( stream_expr : ' stream_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' stream_expr ) _ ( p : ' patt ) ( _loc : Gram . Loc . t ) -> ( SpNtr ( _loc , p , e ) : ' stream_patt_comp ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( stream_quot : ' stream_quot Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ; Gram . Sopt ( Gram . srules stream_patt_comp [ ( [ Gram . Skeyword " when " ; Gram . Snterm ( Gram . Entry . obj ( stream_expr : ' stream_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' stream_expr ) _ ( _loc : Gram . Loc . t ) -> ( e : ' e__15 ) ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( eo : ' e__15 option ) ( p : ' patt ) _ ( _loc : Gram . Loc . t ) -> ( SpTrm ( _loc , p , eo ) : ' stream_patt_comp ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( parser_ipatt : ' parser_ipatt Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " _ " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . PaAny _loc : ' parser_ipatt ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_LIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , i ) ) ) : ' parser_ipatt ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( expr : ' expr Gram . Entry . t ) ( ( fun ( ) -> ( ( Some ( Camlp4 . Sig . Grammar . Level " simple " ) ) , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( stream_begin : ' stream_begin Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( stream_expr_comp_list : ' stream_expr_comp_list Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( stream_end : ' stream_end Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( sel : ' stream_expr_comp_list ) _ ( _loc : Gram . Loc . t ) -> ( cstream _loc sel : ' expr ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( stream_begin : ' stream_begin Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( stream_end : ' stream_end Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( cstream _loc [ ] : ' expr ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( stream_expr_comp_list : ' stream_expr_comp_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( stream_expr_comp : ' stream_expr_comp Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( se : ' stream_expr_comp ) ( _loc : Gram . Loc . t ) -> ( [ se ] : ' stream_expr_comp_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( stream_expr_comp : ' stream_expr_comp Gram . Entry . t ) ) ; Gram . Skeyword " ; " ] , ( Gram . Action . mk ( fun _ ( se : ' stream_expr_comp ) ( _loc : Gram . Loc . t ) -> ( [ se ] : ' stream_expr_comp_list ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( stream_expr_comp : ' stream_expr_comp Gram . Entry . t ) ) ; Gram . Skeyword " ; " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( sel : ' stream_expr_comp_list ) _ ( se : ' stream_expr_comp ) ( _loc : Gram . Loc . t ) -> ( se :: sel : ' stream_expr_comp_list ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( stream_expr_comp : ' stream_expr_comp Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( stream_expr : ' stream_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' stream_expr ) ( _loc : Gram . Loc . t ) -> ( SeNtr ( _loc , e ) : ' stream_expr_comp ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( stream_quot : ' stream_quot Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( stream_expr : ' stream_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' stream_expr ) _ ( _loc : Gram . Loc . t ) -> ( SeTrm ( _loc , e ) : ' stream_expr_comp ) ) ) ) ] ) ] ) ) ( ) ) ) end module M = Register . OCamlSyntaxExtension ( Id ) ( Make ) end |
module G = struct open Camlp4 module Id = struct let name = " Camlp4GrammarParser " let version = Sys . ocaml_version end module Make ( Syntax : Sig . Camlp4Syntax ) = struct open Sig include Syntax module MetaLoc = Ast . Meta . MetaGhostLoc module MetaAst = Ast . Meta . Make ( MetaLoc ) module PP = Camlp4 . Printers . OCaml . Make ( Syntax ) let pp = new PP . printer ~ comments : false ( ) let string_of_patt patt = let buf = Buffer . create 42 in let ( ) = Format . bprintf buf " % a " @? pp # patt patt in let str = Buffer . contents buf in if str = " " then assert false else str let split_ext = ref false type loc = Loc . t type ' e name = { expr : ' e ; tvar : string ; loc : loc } type styp = | STlid of loc * string | STapp of loc * styp * styp | STquo of loc * string | STself of loc * string | STtok of loc | STstring_tok of loc | STtyp of Ast . ctyp type ( ' e , ' p ) text = | TXmeta of loc * string * ( ( ' e , ' p ) text ) list * ' e * styp | TXlist of loc * bool * ( ' e , ' p ) symbol * ( ( ' e , ' p ) symbol ) option | TXnext of loc | TXnterm of loc * ' e name * string option | TXopt of loc * ( ' e , ' p ) text | TXtry of loc * ( ' e , ' p ) text | TXrules of loc * ( ( ( ( ' e , ' p ) text ) list ) * ' e ) list | TXself of loc | TXkwd of loc * string | TXtok of loc * ' e * string and ( ' e , ' p ) entry = { name : ' e name ; pos : ' e option ; levels : ( ( ' e , ' p ) level ) list } and ( ' e , ' p ) level = { label : string option ; assoc : ' e option ; rules : ( ( ' e , ' p ) rule ) list } and ( ' e , ' p ) rule = { prod : ( ( ' e , ' p ) symbol ) list ; action : ' e option } and ( ' e , ' p ) symbol = { used : string list ; text : ( ' e , ' p ) text ; styp : styp ; pattern : ' p option } type used = | Unused | UsedScanned | UsedNotScanned let _loc = Loc . ghost let gm = " Camlp4Grammar__ " let mark_used modif ht n = try let rll = Hashtbl . find_all ht n in List . iter ( fun ( r , _ ) -> if ! r == Unused then ( r := UsedNotScanned ; modif := true ) else ( ) ) rll with | Not_found -> ( ) let rec mark_symbol modif ht symb = List . iter ( fun e -> mark_used modif ht e ) symb . used let check_use nl el = let ht = Hashtbl . create 301 in let modif = ref false in ( List . iter ( fun e -> let u = match e . name . expr with | Ast . ExId ( _ , ( Ast . IdLid ( _ , _ ) ) ) -> Unused | _ -> UsedNotScanned in Hashtbl . add ht e . name . tvar ( ( ref u ) , e ) ) el ; List . iter ( fun n -> try let rll = Hashtbl . find_all ht n . tvar in List . iter ( fun ( r , _ ) -> r := UsedNotScanned ) rll with | _ -> ( ) ) nl ; modif := true ; while ! modif do modif := false ; Hashtbl . iter ( fun _ ( r , e ) -> if ! r = UsedNotScanned then ( r := UsedScanned ; List . iter ( fun level -> let rules = level . rules in List . iter ( fun rule -> List . iter ( fun s -> mark_symbol modif ht s ) rule . prod ) rules ) e . levels ) else ( ) ) ht done ; Hashtbl . iter ( fun s ( r , e ) -> if ! r = Unused then print_warning e . name . loc ( " Unused local entry " " \ ^ ( s ^ " " " ) ) \ else ( ) ) ht ) let new_type_var = let i = ref 0 in fun ( ) -> ( incr i ; " e__ " ^ ( string_of_int ! i ) ) let used_of_rule_list rl = List . fold_left ( fun nl r -> List . fold_left ( fun nl s -> s . used @ nl ) nl r . prod ) [ ] rl let retype_rule_list_without_patterns _loc rl = try List . map ( function | { prod = [ ( { pattern = None ; styp = STtok _ } as s ) ] ; action = None } -> { prod = [ { ( s ) with pattern = Some ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , " x " ) ) ) ) ; } ] ; action = Some ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Token " ) ) , ( Ast . IdLid ( _loc , " extract_string " ) ) ) ) ) ) ) ) , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " x " ) ) ) ) ) ) ; } | { prod = [ ( { pattern = None } as s ) ] ; action = None } -> { prod = [ { ( s ) with pattern = Some ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , " x " ) ) ) ) ; } ] ; action = Some ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " x " ) ) ) ) ; } | ( { prod = [ ] ; action = Some _ } as r ) -> r | _ -> raise Exit ) rl with | Exit -> rl let meta_action = ref false let mklistexp _loc = let rec loop top = function | [ ] -> Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) | e1 :: el -> let _loc = if top then _loc else Loc . merge ( Ast . loc_of_expr e1 ) _loc in Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: e1 ) ) , ( loop false el ) ) in loop true let mklistpat _loc = let rec loop top = function | [ ] -> Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) | p1 :: pl -> let _loc = if top then _loc else Loc . merge ( Ast . loc_of_patt p1 ) _loc in Ast . PaApp ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: p1 ) ) , ( loop false pl ) ) in loop true let rec expr_fa al = function | Ast . ExApp ( _ , f , a ) -> expr_fa ( a :: al ) f | f -> ( f , al ) let rec make_ctyp styp tvar = match styp with | STlid ( _loc , s ) -> Ast . TyId ( _loc , ( Ast . IdLid ( _loc , s ) ) ) | STapp ( _loc , t1 , t2 ) -> Ast . TyApp ( _loc , ( make_ctyp t1 tvar ) , ( make_ctyp t2 tvar ) ) | STquo ( _loc , s ) -> Ast . TyQuo ( _loc , s ) | STself ( _loc , x ) -> if tvar = " " then Loc . raise _loc ( Stream . Error ( " ' " ^ ( x ^ " ' illegal in anonymous entry level " ) ) ) else Ast . TyQuo ( _loc , tvar ) | STtok _loc -> Ast . TyId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Token " ) ) ) ) , ( Ast . IdLid ( _loc , " t " ) ) ) ) ) | STstring_tok _loc -> Ast . TyId ( _loc , ( Ast . IdLid ( _loc , " string " ) ) ) | STtyp t -> t let make_ctyp_patt styp tvar patt = let styp = match styp with | STstring_tok _loc -> STtok _loc | t -> t in match make_ctyp styp tvar with | Ast . TyAny _ -> patt | t -> let _loc = Ast . loc_of_patt patt in Ast . PaTyc ( _loc , patt , t ) let make_ctyp_expr styp tvar expr = match make_ctyp styp tvar with | Ast . TyAny _ -> expr | t -> let _loc = Ast . loc_of_expr expr in Ast . ExTyc ( _loc , expr , t ) let text_of_action _loc psl rtvar act tvar = let locid = Ast . PaId ( _loc , ( Ast . IdLid ( _loc , ! Loc . name ) ) ) in let act = match act with | Some act -> act | None -> Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " ( ) " ) ) ) in let ( tok_match_pl , act , _ ) = List . fold_left ( fun ( ( ( tok_match_pl , act , i ) as accu ) ) -> function | { pattern = None } -> accu | { pattern = Some p } when Ast . is_irrefut_patt p -> accu | { pattern = Some ( Ast . PaAli ( _ , ( Ast . PaApp ( _ , _ , ( Ast . PaTup ( _ , ( Ast . PaAny _ ) ) ) ) ) , ( Ast . PaId ( _ , ( Ast . IdLid ( _ , s ) ) ) ) ) ) } -> ( tok_match_pl , ( Ast . ExLet ( _loc , Ast . ReNil , ( Ast . BiEq ( _loc , ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , s ) ) ) ) , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Token " ) ) , ( Ast . IdLid ( _loc , " extract_string " ) ) ) ) ) ) ) ) , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , s ) ) ) ) ) ) ) ) , act ) ) , i ) | { pattern = Some p ; text = TXtok ( _ , _ , _ ) } -> let id = " __camlp4_ " ^ ( string_of_int i ) in ( ( Some ( match tok_match_pl with | None -> ( ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , id ) ) ) ) , p ) | Some ( ( tok_pl , match_pl ) ) -> ( ( Ast . ExCom ( _loc , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , id ) ) ) ) , tok_pl ) ) , ( Ast . PaCom ( _loc , p , match_pl ) ) ) ) ) , act , ( succ i ) ) | _ -> accu ) ( None , act , 0 ) psl in let e = let e1 = Ast . ExTyc ( _loc , act , ( Ast . TyQuo ( _loc , rtvar ) ) ) in let e2 = match tok_match_pl with | None -> e1 | Some ( ( Ast . ExCom ( _ , t1 , t2 ) , Ast . PaCom ( _ , p1 , p2 ) ) ) -> Ast . ExMat ( _loc , ( Ast . ExTup ( _loc , ( Ast . ExCom ( _loc , t1 , t2 ) ) ) ) , ( Ast . McOr ( _loc , ( Ast . McArr ( _loc , ( Ast . PaTup ( _loc , ( Ast . PaCom ( _loc , p1 , p2 ) ) ) ) , ( Ast . ExNil _loc ) , e1 ) ) , ( Ast . McArr ( _loc , ( Ast . PaAny _loc ) , ( Ast . ExNil _loc ) , ( Ast . ExAsf _loc ) ) ) ) ) ) | Some ( ( tok , match_ ) ) -> Ast . ExMat ( _loc , tok , ( Ast . McOr ( _loc , ( Ast . McArr ( _loc , match_ , ( Ast . ExNil _loc ) , e1 ) ) , ( Ast . McArr ( _loc , ( Ast . PaAny _loc ) , ( Ast . ExNil _loc ) , ( Ast . ExAsf _loc ) ) ) ) ) ) in Ast . ExFun ( _loc , ( Ast . McArr ( _loc , ( Ast . PaTyc ( _loc , locid , ( Ast . TyId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Loc " ) ) ) ) , ( Ast . IdLid ( _loc , " t " ) ) ) ) ) ) ) ) , ( Ast . ExNil _loc ) , e2 ) ) ) in let ( txt , _ ) = List . fold_left ( fun ( txt , i ) s -> match s . pattern with | None | Some ( Ast . PaAny _ ) -> ( ( Ast . ExFun ( _loc , ( Ast . McArr ( _loc , ( Ast . PaAny _loc ) , ( Ast . ExNil _loc ) , txt ) ) ) ) , i ) | Some ( Ast . PaAli ( _ , ( Ast . PaApp ( _ , _ , ( Ast . PaTup ( _ , ( Ast . PaAny _ ) ) ) ) ) , p ) ) -> let p = make_ctyp_patt s . styp tvar p in ( ( Ast . ExFun ( _loc , ( Ast . McArr ( _loc , p , ( Ast . ExNil _loc ) , txt ) ) ) ) , i ) | Some p when Ast . is_irrefut_patt p -> let p = make_ctyp_patt s . styp tvar p in ( ( Ast . ExFun ( _loc , ( Ast . McArr ( _loc , p , ( Ast . ExNil _loc ) , txt ) ) ) ) , i ) | Some _ -> let p = make_ctyp_patt s . styp tvar ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , ( " __camlp4_ " ^ ( string_of_int i ) ) ) ) ) ) in ( ( Ast . ExFun ( _loc , ( Ast . McArr ( _loc , p , ( Ast . ExNil _loc ) , txt ) ) ) ) , ( succ i ) ) ) ( e , 0 ) psl in let txt = if ! meta_action then Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Obj " ) ) , ( Ast . IdLid ( _loc , " magic " ) ) ) ) ) ) , ( MetaAst . Expr . meta_expr _loc txt ) ) else txt in Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Action " ) ) , ( Ast . IdLid ( _loc , " mk " ) ) ) ) ) ) ) ) , txt ) let srules loc t rl tvar = List . map ( fun r -> let sl = List . map ( fun s -> s . text ) r . prod in let ac = text_of_action loc r . prod t r . action tvar in ( sl , ac ) ) rl let rec make_expr entry tvar = function | TXmeta ( _loc , n , tl , e , t ) -> let el = List . fold_right ( fun t el -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: ( make_expr entry " " t ) ) ) , el ) ) tl ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) ) in Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Smeta " ) ) ) ) ) ) , ( Ast . ExStr ( _loc , n ) ) ) ) , el ) ) , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Action " ) ) , ( Ast . IdLid ( _loc , " mk " ) ) ) ) ) ) ) ) , ( make_ctyp_expr t tvar e ) ) ) ) | TXlist ( _loc , min , t , ts ) -> let txt = make_expr entry " " t . text in ( match ( min , ts ) with | ( false , None ) -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Slist0 " ) ) ) ) ) ) , txt ) | ( true , None ) -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Slist1 " ) ) ) ) ) ) , txt ) | ( false , Some s ) -> let x = make_expr entry tvar s . text in Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Slist0sep " ) ) ) ) ) ) , txt ) ) , x ) | ( true , Some s ) -> let x = make_expr entry tvar s . text in Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Slist1sep " ) ) ) ) ) ) , txt ) ) , x ) ) | TXnext _loc -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Snext " ) ) ) ) ) | TXnterm ( _loc , n , lev ) -> ( match lev with | Some lab -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Snterml " ) ) ) ) ) ) , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Entry " ) ) , ( Ast . IdLid ( _loc , " obj " ) ) ) ) ) ) ) ) , ( Ast . ExTyc ( _loc , n . expr , ( Ast . TyApp ( _loc , ( Ast . TyId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Entry " ) ) ) ) , ( Ast . IdLid ( _loc , " t " ) ) ) ) ) ) , ( Ast . TyQuo ( _loc , n . tvar ) ) ) ) ) ) ) ) ) ) , ( Ast . ExStr ( _loc , lab ) ) ) | None -> if n . tvar = tvar then Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Sself " ) ) ) ) ) else Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Snterm " ) ) ) ) ) ) , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Entry " ) ) , ( Ast . IdLid ( _loc , " obj " ) ) ) ) ) ) ) ) , ( Ast . ExTyc ( _loc , n . expr , ( Ast . TyApp ( _loc , ( Ast . TyId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Entry " ) ) ) ) , ( Ast . IdLid ( _loc , " t " ) ) ) ) ) ) , ( Ast . TyQuo ( _loc , n . tvar ) ) ) ) ) ) ) ) ) ) | TXopt ( _loc , t ) -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Sopt " ) ) ) ) ) ) , ( make_expr entry " " t ) ) | TXtry ( _loc , t ) -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Stry " ) ) ) ) ) ) , ( make_expr entry " " t ) ) | TXrules ( _loc , rl ) -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdLid ( _loc , " srules " ) ) ) ) ) ) , entry . expr ) ) , ( make_expr_rules _loc entry rl " " ) ) | TXself _loc -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Sself " ) ) ) ) ) | TXkwd ( _loc , kwd ) -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Skeyword " ) ) ) ) ) ) , ( Ast . ExStr ( _loc , kwd ) ) ) | TXtok ( _loc , match_fun , descr ) -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Stoken " ) ) ) ) ) ) , ( Ast . ExTup ( _loc , ( Ast . ExCom ( _loc , match_fun , ( Ast . ExStr ( _loc , ( Ast . safe_string_escaped descr ) ) ) ) ) ) ) ) and make_expr_rules _loc n rl tvar = List . fold_left ( fun txt ( sl , ac ) -> let sl = List . fold_right ( fun t txt -> let x = make_expr n tvar t in Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: x ) ) , txt ) ) sl ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) ) in Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: ( Ast . ExTup ( _loc , ( Ast . ExCom ( _loc , sl , ac ) ) ) ) ) ) , txt ) ) ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) ) rl let expr_of_delete_rule _loc n sl = let sl = List . fold_right ( fun s e -> Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: ( make_expr n " " s . text ) ) ) , e ) ) sl ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) ) in ( ( n . expr ) , sl ) let rec tvar_of_ident = function | Ast . IdLid ( _ , x ) | Ast . IdUid ( _ , x ) -> x | Ast . IdAcc ( _ , ( Ast . IdUid ( _ , x ) ) , xs ) -> x ^ ( " __ " ^ ( tvar_of_ident xs ) ) | _ -> failwith " internal error in the Grammar extension " let mk_name _loc i = { expr = Ast . ExId ( _loc , i ) ; tvar = tvar_of_ident i ; loc = _loc ; } let slist loc min sep symb = TXlist ( loc , min , symb , sep ) let text_of_entry _loc e = let ent = let x = e . name in let _loc = e . name . loc in Ast . ExTyc ( _loc , x . expr , ( Ast . TyApp ( _loc , ( Ast . TyId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Entry " ) ) ) ) , ( Ast . IdLid ( _loc , " t " ) ) ) ) ) ) , ( Ast . TyQuo ( _loc , x . tvar ) ) ) ) ) in let pos = match e . pos with | Some pos -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " Some " ) ) ) ) , pos ) | None -> Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " None " ) ) ) in let txt = List . fold_right ( fun level txt -> let lab = match level . label with | Some lab -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " Some " ) ) ) ) , ( Ast . ExStr ( _loc , lab ) ) ) | None -> Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " None " ) ) ) in let ass = match level . assoc with | Some ass -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " Some " ) ) ) ) , ass ) | None -> Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " None " ) ) ) in let txt = let rl = srules _loc e . name . tvar level . rules e . name . tvar in let e = make_expr_rules _loc e . name rl e . name . tvar in Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: ( Ast . ExTup ( _loc , ( Ast . ExCom ( _loc , lab , ( Ast . ExCom ( _loc , ass , e ) ) ) ) ) ) ) ) , txt ) in txt ) e . levels ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) ) in ( ent , pos , txt ) let let_in_of_extend _loc gram gl el args = match gl with | None -> args | Some nl -> ( check_use nl el ; let ll = let same_tvar e n = e . name . tvar = n . tvar in List . fold_right ( fun e ll -> match e . name . expr with | Ast . ExId ( _ , ( Ast . IdLid ( _ , _ ) ) ) -> if List . exists ( same_tvar e ) nl then ll else if List . exists ( same_tvar e ) ll then ll else e . name :: ll | _ -> ll ) el [ ] in let local_binding_of_name { expr = e ; tvar = x ; loc = _loc } = let i = ( match e with | Ast . ExId ( _ , ( Ast . IdLid ( _ , i ) ) ) -> i | _ -> failwith " internal error in the Grammar extension " ) in Ast . BiEq ( _loc , ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , i ) ) ) ) , ( Ast . ExTyc ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " grammar_entry_create " ) ) ) ) , ( Ast . ExStr ( _loc , i ) ) ) ) , ( Ast . TyApp ( _loc , ( Ast . TyId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Entry " ) ) ) ) , ( Ast . IdLid ( _loc , " t " ) ) ) ) ) ) , ( Ast . TyQuo ( _loc , x ) ) ) ) ) ) ) in let expr_of_name { expr = e ; tvar = x ; loc = _loc } = Ast . ExTyc ( _loc , e , ( Ast . TyApp ( _loc , ( Ast . TyId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdUid ( _loc , " Entry " ) ) ) ) , ( Ast . IdLid ( _loc , " t " ) ) ) ) ) ) , ( Ast . TyQuo ( _loc , x ) ) ) ) ) in let e = ( match ll with | [ ] -> args | x :: xs -> let locals = List . fold_right ( fun name acc -> Ast . BiAnd ( _loc , acc , ( local_binding_of_name name ) ) ) xs ( local_binding_of_name x ) in let entry_mk = ( match gram with | Some g -> Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Entry " ) ) , ( Ast . IdLid ( _loc , " mk " ) ) ) ) ) ) ) ) , ( Ast . ExId ( _loc , g ) ) ) | None -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Entry " ) ) , ( Ast . IdLid ( _loc , " mk " ) ) ) ) ) ) ) ) in Ast . ExLet ( _loc , Ast . ReNil , ( Ast . BiEq ( _loc , ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , " grammar_entry_create " ) ) ) ) , entry_mk ) ) , ( Ast . ExLet ( _loc , Ast . ReNil , locals , args ) ) ) ) in ( match nl with | [ ] -> e | x :: xs -> let globals = List . fold_right ( fun name acc -> Ast . BiAnd ( _loc , acc , ( Ast . BiEq ( _loc , ( Ast . PaAny _loc ) , ( expr_of_name name ) ) ) ) ) xs ( Ast . BiEq ( _loc , ( Ast . PaAny _loc ) , ( expr_of_name x ) ) ) in Ast . ExLet ( _loc , Ast . ReNil , globals , e ) ) ) class subst gmod = object inherit Ast . map as super method ident = function | Ast . IdUid ( _ , x ) when x = gm -> gmod | x -> super # ident x end let subst_gmod ast gmod = ( new subst gmod ) # expr ast let text_of_functorial_extend _loc gmod gram gl el = let args = let el = List . map ( fun e -> let ( ent , pos , txt ) = text_of_entry e . name . loc e in let e = Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdLid ( _loc , " extend " ) ) ) ) ) ) , ent ) ) , ( Ast . ExApp ( _loc , ( Ast . ExFun ( _loc , ( Ast . McArr ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " ( ) " ) ) ) ) , ( Ast . ExNil _loc ) , ( Ast . ExTup ( _loc , ( Ast . ExCom ( _loc , pos , txt ) ) ) ) ) ) ) ) , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " ( ) " ) ) ) ) ) ) ) in if ! split_ext then Ast . ExLet ( _loc , Ast . ReNil , ( Ast . BiEq ( _loc , ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , " aux " ) ) ) ) , ( Ast . ExFun ( _loc , ( Ast . McArr ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " ( ) " ) ) ) ) , ( Ast . ExNil _loc ) , e ) ) ) ) ) ) , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " aux " ) ) ) ) , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " ( ) " ) ) ) ) ) ) ) else e ) el in match el with | [ ] -> Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " ( ) " ) ) ) | [ e ] -> e | e :: el -> Ast . ExSeq ( _loc , ( List . fold_left ( fun acc x -> Ast . ExSem ( _loc , acc , x ) ) e el ) ) in subst_gmod ( let_in_of_extend _loc gram gl el args ) gmod let wildcarder = object ( self ) inherit Ast . map as super method patt = function | Ast . PaId ( _loc , ( Ast . IdLid ( _ , _ ) ) ) -> Ast . PaAny _loc | Ast . PaAli ( _ , p , _ ) -> self # patt p | p -> super # patt p end let mk_tok _loc p t = let p ' = wildcarder # patt p in let match_fun = if Ast . is_irrefut_patt p ' then Ast . ExFun ( _loc , ( Ast . McArr ( _loc , p ' , ( Ast . ExNil _loc ) , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " True " ) ) ) ) ) ) ) else Ast . ExFun ( _loc , ( Ast . McOr ( _loc , ( Ast . McArr ( _loc , p ' , ( Ast . ExNil _loc ) , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " True " ) ) ) ) ) ) , ( Ast . McArr ( _loc , ( Ast . PaAny _loc ) , ( Ast . ExNil _loc ) , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " False " ) ) ) ) ) ) ) ) ) in let descr = string_of_patt p ' in let text = TXtok ( _loc , match_fun , descr ) in { used = [ ] ; text = text ; styp = t ; pattern = Some p ; } let symbol = Gram . Entry . mk " symbol " let check_not_tok s = match s with | { text = TXtok ( _loc , _ , _ ) } -> Loc . raise _loc ( Stream . Error ( " Deprecated syntax , use a sub rule . " ^ " LIST0 STRING becomes LIST0 [ x = STRING -> x ] " ) ) | _ -> ( ) let _ = Camlp4_config . antiquotations := true let _ = let _ = ( expr : ' expr Gram . Entry . t ) and _ = ( symbol : ' symbol Gram . Entry . t ) in let grammar_entry_create = Gram . Entry . mk in let extend_header : ' extend_header Gram . Entry . t = grammar_entry_create " extend_header " and semi_sep : ' semi_sep Gram . Entry . t = grammar_entry_create " semi_sep " and string : ' string Gram . Entry . t = grammar_entry_create " string " and name : ' name Gram . Entry . t = grammar_entry_create " name " and comma_patt : ' comma_patt Gram . Entry . t = grammar_entry_create " comma_patt " and pattern : ' pattern Gram . Entry . t = grammar_entry_create " pattern " and psymbol : ' psymbol Gram . Entry . t = grammar_entry_create " psymbol " and rule : ' rule Gram . Entry . t = grammar_entry_create " rule " and rule_list : ' rule_list Gram . Entry . t = grammar_entry_create " rule_list " and assoc : ' assoc Gram . Entry . t = grammar_entry_create " assoc " and level : ' level Gram . Entry . t = grammar_entry_create " level " and level_list : ' level_list Gram . Entry . t = grammar_entry_create " level_list " and position : ' position Gram . Entry . t = grammar_entry_create " position " and entry : ' entry Gram . Entry . t = grammar_entry_create " entry " and global : ' global Gram . Entry . t = grammar_entry_create " global " and t_qualid : ' t_qualid Gram . Entry . t = grammar_entry_create " t_qualid " and qualid : ' qualid Gram . Entry . t = grammar_entry_create " qualid " and qualuid : ' qualuid Gram . Entry . t = grammar_entry_create " qualuid " and delete_rule_body : ' delete_rule_body Gram . Entry . t = grammar_entry_create " delete_rule_body " and extend_body : ' extend_body Gram . Entry . t = grammar_entry_create " extend_body " in ( Gram . extend ( expr : ' expr Gram . Entry . t ) ( ( fun ( ) -> ( ( Some ( Camlp4 . Sig . Grammar . After " top " ) ) , [ ( None , None , [ ( [ Gram . Skeyword " GEXTEND " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Loc . raise _loc ( Stream . Error " Deprecated syntax , use EXTEND MyGramModule . . . END instead " ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " GDELETE_RULE " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Loc . raise _loc ( Stream . Error " Deprecated syntax , use DELETE_RULE MyGramModule . . . END instead " ) : ' expr ) ) ) ) ; ( [ Gram . Skeyword " DELETE_RULE " ; Gram . Snterm ( Gram . Entry . obj ( delete_rule_body : ' delete_rule_body Gram . Entry . t ) ) ; Gram . Skeyword " END " ] , ( Gram . Action . mk ( fun _ ( e : ' delete_rule_body ) _ ( _loc : Gram . Loc . t ) -> ( e : ' expr ) ) ) ) ; ( [ Gram . Skeyword " EXTEND " ; Gram . Snterm ( Gram . Entry . obj ( extend_body : ' extend_body Gram . Entry . t ) ) ; Gram . Skeyword " END " ] , ( Gram . Action . mk ( fun _ ( e : ' extend_body ) _ ( _loc : Gram . Loc . t ) -> ( e : ' expr ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( extend_header : ' extend_header Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( qualuid : ' qualuid Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( g : ' qualuid ) ( _loc : Gram . Loc . t ) -> ( ( None , g ) : ' extend_header ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( qualid : ' qualid Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Snterm ( Gram . Entry . obj ( t_qualid : ' t_qualid Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( t : ' t_qualid ) _ ( i : ' qualid ) _ ( _loc : Gram . Loc . t ) -> ( ( ( Some i ) , t ) : ' extend_header ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( extend_body : ' extend_body Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( extend_header : ' extend_header Gram . Entry . t ) ) ; Gram . Sopt ( Gram . Snterm ( Gram . Entry . obj ( global : ' global Gram . Entry . t ) ) ) ; Gram . Slist1 ( Gram . srules extend_body [ ( [ Gram . Snterm ( Gram . Entry . obj ( entry : ' entry Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi_sep : ' semi_sep Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( e : ' entry ) ( _loc : Gram . Loc . t ) -> ( e : ' e__16 ) ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( el : ' e__16 list ) ( global_list : ' global option ) ( ( gram , g ) : ' extend_header ) ( _loc : Gram . Loc . t ) -> ( text_of_functorial_extend _loc g gram global_list el : ' extend_body ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( delete_rule_body : ' delete_rule_body Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( qualuid : ' qualuid Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( name : ' name Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Slist0sep ( ( Gram . Snterm ( Gram . Entry . obj ( symbol : ' symbol Gram . Entry . t ) ) ) , ( Gram . Snterm ( Gram . Entry . obj ( semi_sep : ' semi_sep Gram . Entry . t ) ) ) ) ] , ( Gram . Action . mk ( fun ( sl : ' symbol list ) _ ( n : ' name ) ( g : ' qualuid ) ( _loc : Gram . Loc . t ) -> ( let ( e , b ) = expr_of_delete_rule _loc n sl in subst_gmod ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdLid ( _loc , " delete_rule " ) ) ) ) ) ) , e ) ) , b ) ) g : ' delete_rule_body ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( qualuid : ' qualuid Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . srules qualuid [ ( [ Gram . Stoken ( ( ( function | UIDENT " GLOBAL " -> true | _ -> false ) , " UIDENT " \ GLOBAL " " ) ) \ ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " GLOBAL " -> ( ( ) : ' e__17 ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | LIDENT ( ( _ ) ) -> true | _ -> false ) , " LIDENT ( ( _ ) ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | LIDENT ( ( _ ) ) -> ( ( ) : ' e__17 ) | _ -> assert false ) ) ) ] ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Loc . raise _loc ( Stream . Error " Deprecated syntax , the grammar module is expected " ) : ' qualuid ) ) ) ) ] ) ; ( None , None , [ ( [ Gram . Stoken ( ( ( function | UIDENT ( ( _ ) ) -> true | _ -> false ) , " UIDENT _ " ) ) ] , ( Gram . Action . mk ( fun ( i : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let i = Gram . Token . extract_string i in Ast . IdUid ( _loc , i ) : ' qualuid ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT ( ( _ ) ) -> true | _ -> false ) , " UIDENT _ " ) ) ; Gram . Skeyword " . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( xs : ' qualuid ) _ ( x : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let x = Gram . Token . extract_string x in Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , x ) ) , xs ) : ' qualuid ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( qualuid : ' qualuid Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . srules qualuid [ ( [ Gram . Stoken ( ( ( function | UIDENT " GLOBAL " -> true | _ -> false ) , " UIDENT " \ GLOBAL " " ) ) \ ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " GLOBAL " -> ( ( ) : ' e__18 ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | LIDENT ( ( _ ) ) -> true | _ -> false ) , " LIDENT ( ( _ ) ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | LIDENT ( ( _ ) ) -> ( ( ) : ' e__18 ) | _ -> assert false ) ) ) ] ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Loc . raise _loc ( Stream . Error " Deprecated syntax , the grammar module is expected " ) : ' qualuid ) ) ) ) ] ) ; ( None , None , [ ( [ Gram . Stoken ( ( ( function | UIDENT ( ( _ ) ) -> true | _ -> false ) , " UIDENT _ " ) ) ] , ( Gram . Action . mk ( fun ( i : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let i = Gram . Token . extract_string i in Ast . IdUid ( _loc , i ) : ' qualuid ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT ( ( _ ) ) -> true | _ -> false ) , " UIDENT _ " ) ) ; Gram . Skeyword " . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( xs : ' qualuid ) _ ( x : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let x = Gram . Token . extract_string x in Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , x ) ) , xs ) : ' qualuid ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( qualid : ' qualid Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | LIDENT ( ( _ ) ) -> true | _ -> false ) , " LIDENT _ " ) ) ] , ( Gram . Action . mk ( fun ( i : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let i = Gram . Token . extract_string i in Ast . IdLid ( _loc , i ) : ' qualid ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT ( ( _ ) ) -> true | _ -> false ) , " UIDENT _ " ) ) ] , ( Gram . Action . mk ( fun ( i : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let i = Gram . Token . extract_string i in Ast . IdUid ( _loc , i ) : ' qualid ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT ( ( _ ) ) -> true | _ -> false ) , " UIDENT _ " ) ) ; Gram . Skeyword " . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( xs : ' qualid ) _ ( x : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let x = Gram . Token . extract_string x in Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , x ) ) , xs ) : ' qualid ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( t_qualid : ' t_qualid Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | LIDENT _ | UIDENT _ -> true | _ -> false ) , " LIDENT _ | UIDENT _ " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | LIDENT _ | UIDENT _ -> ( Loc . raise _loc ( Stream . Error ( " Wrong EXTEND header , the grammar type must finish by ' t ' , " ^ " like in EXTEND ( g : Gram . t ) . . . END " ) ) : ' t_qualid ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT ( ( _ ) ) -> true | _ -> false ) , " UIDENT _ " ) ) ; Gram . Skeyword " . " ; Gram . Stoken ( ( ( function | LIDENT " t " -> true | _ -> false ) , " LIDENT " \ t " " ) ) \ ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) _ ( x : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | LIDENT " t " -> ( let x = Gram . Token . extract_string x in Ast . IdUid ( _loc , x ) : ' t_qualid ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT ( ( _ ) ) -> true | _ -> false ) , " UIDENT _ " ) ) ; Gram . Skeyword " . " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( xs : ' t_qualid ) _ ( x : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let x = Gram . Token . extract_string x in Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , x ) ) , xs ) : ' t_qualid ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( global : ' global Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | UIDENT " GLOBAL " -> true | _ -> false ) , " UIDENT " \ GLOBAL " " ) ) ; \ Gram . Skeyword " " ; : Gram . Slist1 ( Gram . Snterm ( Gram . Entry . obj ( name : ' name Gram . Entry . t ) ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi_sep : ' semi_sep Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( sl : ' name list ) _ ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " GLOBAL " -> ( sl : ' global ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( entry : ' entry Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( name : ' name Gram . Entry . t ) ) ; Gram . Skeyword " " ; : Gram . Sopt ( Gram . Snterm ( Gram . Entry . obj ( position : ' position Gram . Entry . t ) ) ) ; Gram . Snterm ( Gram . Entry . obj ( level_list : ' level_list Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( ll : ' level_list ) ( pos : ' position option ) _ ( n : ' name ) ( _loc : Gram . Loc . t ) -> ( { name = n ; pos = pos ; levels = ll ; } : ' entry ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( position : ' position Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | UIDENT " LEVEL " -> true | _ -> false ) , " UIDENT " \ LEVEL " " ) ) ; \ Gram . Snterm ( Gram . Entry . obj ( string : ' string Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( n : ' string ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " LEVEL " -> ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Camlp4 " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Sig " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Grammar " ) ) , ( Ast . IdUid ( _loc , " Level " ) ) ) ) ) ) ) ) ) ) , n ) : ' position ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT " AFTER " -> true | _ -> false ) , " UIDENT " \ AFTER " " ) ) ; \ Gram . Snterm ( Gram . Entry . obj ( string : ' string Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( n : ' string ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " AFTER " -> ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Camlp4 " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Sig " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Grammar " ) ) , ( Ast . IdUid ( _loc , " After " ) ) ) ) ) ) ) ) ) ) , n ) : ' position ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT " BEFORE " -> true | _ -> false ) , " UIDENT " \ BEFORE " " ) ) ; \ Gram . Snterm ( Gram . Entry . obj ( string : ' string Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( n : ' string ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " BEFORE " -> ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Camlp4 " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Sig " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Grammar " ) ) , ( Ast . IdUid ( _loc , " Before " ) ) ) ) ) ) ) ) ) ) , n ) : ' position ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT " LAST " -> true | _ -> false ) , " UIDENT " \ LAST " " ) ) \ ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " LAST " -> ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Camlp4 " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Sig " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Grammar " ) ) , ( Ast . IdUid ( _loc , " Last " ) ) ) ) ) ) ) ) ) : ' position ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT " FIRST " -> true | _ -> false ) , " UIDENT " \ FIRST " " ) ) \ ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " FIRST " -> ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Camlp4 " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Sig " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Grammar " ) ) , ( Ast . IdUid ( _loc , " First " ) ) ) ) ) ) ) ) ) : ' position ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( level_list : ' level_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " [ " ; Gram . Slist0sep ( ( Gram . Snterm ( Gram . Entry . obj ( level : ' level Gram . Entry . t ) ) ) , ( Gram . Skeyword " " ) ) ; | Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( ll : ' level list ) _ ( _loc : Gram . Loc . t ) -> ( ll : ' level_list ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( level : ' level Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Sopt ( Gram . srules level [ ( [ Gram . Stoken ( ( ( function | STRING ( ( _ ) ) -> true | _ -> false ) , " STRING _ " ) ) ] , ( Gram . Action . mk ( fun ( x : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let x = Gram . Token . extract_string x in x : ' e__19 ) ) ) ) ] ) ; Gram . Sopt ( Gram . Snterm ( Gram . Entry . obj ( assoc : ' assoc Gram . Entry . t ) ) ) ; Gram . Snterm ( Gram . Entry . obj ( rule_list : ' rule_list Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( rules : ' rule_list ) ( ass : ' assoc option ) ( lab : ' e__19 option ) ( _loc : Gram . Loc . t ) -> ( { label = lab ; assoc = ass ; rules = rules ; } : ' level ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( assoc : ' assoc Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | UIDENT " NONA " -> true | _ -> false ) , " UIDENT " \ NONA " " ) ) \ ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " NONA " -> ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Camlp4 " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Sig " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Grammar " ) ) , ( Ast . IdUid ( _loc , " NonA " ) ) ) ) ) ) ) ) ) : ' assoc ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT " RIGHTA " -> true | _ -> false ) , " UIDENT " \ RIGHTA " " ) ) \ ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " RIGHTA " -> ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Camlp4 " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Sig " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Grammar " ) ) , ( Ast . IdUid ( _loc , " RightA " ) ) ) ) ) ) ) ) ) : ' assoc ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT " LEFTA " -> true | _ -> false ) , " UIDENT " \ LEFTA " " ) ) \ ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " LEFTA " -> ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Camlp4 " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Sig " ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Grammar " ) ) , ( Ast . IdUid ( _loc , " LeftA " ) ) ) ) ) ) ) ) ) : ' assoc ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( rule_list : ' rule_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " [ " ; Gram . Slist1sep ( ( Gram . Snterm ( Gram . Entry . obj ( rule : ' rule Gram . Entry . t ) ) ) , ( Gram . Skeyword " " ) ) ; | Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( rules : ' rule list ) _ ( _loc : Gram . Loc . t ) -> ( retype_rule_list_without_patterns _loc rules : ' rule_list ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ _ ( _loc : Gram . Loc . t ) -> ( [ ] : ' rule_list ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( rule : ' rule Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Slist0sep ( ( Gram . Snterm ( Gram . Entry . obj ( psymbol : ' psymbol Gram . Entry . t ) ) ) , ( Gram . Snterm ( Gram . Entry . obj ( semi_sep : ' semi_sep Gram . Entry . t ) ) ) ) ] , ( Gram . Action . mk ( fun ( psl : ' psymbol list ) ( _loc : Gram . Loc . t ) -> ( { prod = psl ; action = None ; } : ' rule ) ) ) ) ; ( [ Gram . Slist0sep ( ( Gram . Snterm ( Gram . Entry . obj ( psymbol : ' psymbol Gram . Entry . t ) ) ) , ( Gram . Snterm ( Gram . Entry . obj ( semi_sep : ' semi_sep Gram . Entry . t ) ) ) ) ; Gram . Skeyword " " ; -> Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( act : ' expr ) _ ( psl : ' psymbol list ) ( _loc : Gram . Loc . t ) -> ( { prod = psl ; action = Some act ; } : ' rule ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( psymbol : ' psymbol Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( symbol : ' symbol Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' symbol ) ( _loc : Gram . Loc . t ) -> ( s : ' psymbol ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( pattern : ' pattern Gram . Entry . t ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( symbol : ' symbol Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' symbol ) _ ( p : ' pattern ) ( _loc : Gram . Loc . t ) -> ( match s . pattern with | Some ( Ast . PaApp ( _ , ( Ast . PaId ( _ , ( Ast . IdUid ( _ , u ) ) ) ) , ( Ast . PaTup ( _ , ( Ast . PaAny _ ) ) ) ) ) -> mk_tok _loc ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , u ) ) ) ) , p ) ) s . styp | _ -> { ( s ) with pattern = Some p ; } : ' psymbol ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | LIDENT ( ( _ ) ) -> true | _ -> false ) , " LIDENT _ " ) ) ; Gram . Sopt ( Gram . srules psymbol [ ( [ Gram . Stoken ( ( ( function | UIDENT " LEVEL " -> true | _ -> false ) , " UIDENT " \ LEVEL " " ) ) ; \ Gram . Stoken ( ( ( function | STRING ( ( _ ) ) -> true | _ -> false ) , " STRING _ " ) ) ] , ( Gram . Action . mk ( fun ( s : Gram . Token . t ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " LEVEL " -> ( let s = Gram . Token . extract_string s in s : ' e__20 ) | _ -> assert false ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( lev : ' e__20 option ) ( i : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let i = Gram . Token . extract_string i in let name = mk_name _loc ( Ast . IdLid ( _loc , i ) ) in let text = TXnterm ( _loc , name , lev ) in let styp = STquo ( _loc , i ) in { used = [ i ] ; text = text ; styp = styp ; pattern = None ; } : ' psymbol ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | LIDENT ( ( _ ) ) -> true | _ -> false ) , " LIDENT _ " ) ) ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( symbol : ' symbol Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( s : ' symbol ) _ ( p : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let p = Gram . Token . extract_string p in match s . pattern with | Some ( ( Ast . PaApp ( _ , ( Ast . PaId ( _ , ( Ast . IdUid ( _ , u ) ) ) ) , ( Ast . PaTup ( _ , ( Ast . PaAny _ ) ) ) ) as p ' ) ) -> let match_fun = Ast . ExFun ( _loc , ( Ast . McOr ( _loc , ( Ast . McArr ( _loc , p ' , ( Ast . ExNil _loc ) , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " True " ) ) ) ) ) ) , ( Ast . McArr ( _loc , ( Ast . PaAny _loc ) , ( Ast . ExNil _loc ) , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " False " ) ) ) ) ) ) ) ) ) in let p ' = Ast . PaAli ( _loc , p ' , ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , p ) ) ) ) ) in let descr = u ^ " _ " in let text = TXtok ( _loc , match_fun , descr ) in { ( s ) with text = text ; pattern = Some p ' ; } | _ -> { ( s ) with pattern = Some ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , p ) ) ) ) ; } : ' psymbol ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( symbol : ' symbol Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( ( Some " top " ) , ( Some Camlp4 . Sig . Grammar . NonA ) , [ ( [ Gram . Stoken ( ( ( function | UIDENT " TRY " -> true | _ -> false ) , " UIDENT " \ TRY " " ) ) ; \ Gram . Sself ] , ( Gram . Action . mk ( fun ( s : ' symbol ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " TRY " -> ( let text = TXtry ( _loc , s . text ) in { used = s . used ; text = text ; styp = s . styp ; pattern = None ; } : ' symbol ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT " OPT " -> true | _ -> false ) , " UIDENT " \ OPT " " ) ) ; \ Gram . Sself ] , ( Gram . Action . mk ( fun ( s : ' symbol ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " OPT " -> ( let ( ) = check_not_tok s in let styp = STapp ( _loc , ( STlid ( _loc , " option " ) ) , s . styp ) in let text = TXopt ( _loc , s . text ) in { used = s . used ; text = text ; styp = styp ; pattern = None ; } : ' symbol ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT " LIST1 " -> true | _ -> false ) , " UIDENT " \ LIST1 " " ) ) ; \ Gram . Sself ; Gram . Sopt ( Gram . srules symbol [ ( [ Gram . Stoken ( ( ( function | UIDENT " SEP " -> true | _ -> false ) , " UIDENT " \ SEP " " ) ) ; \ Gram . Snterm ( Gram . Entry . obj ( symbol : ' symbol Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' symbol ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " SEP " -> ( t : ' e__22 ) | _ -> assert false ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( sep : ' e__22 option ) ( s : ' symbol ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " LIST1 " -> ( let ( ) = check_not_tok s in let used = ( match sep with | Some symb -> symb . used @ s . used | None -> s . used ) in let styp = STapp ( _loc , ( STlid ( _loc , " list " ) ) , s . styp ) in let text = slist _loc true sep s in { used = used ; text = text ; styp = styp ; pattern = None ; } : ' symbol ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT " LIST0 " -> true | _ -> false ) , " UIDENT " \ LIST0 " " ) ) ; \ Gram . Sself ; Gram . Sopt ( Gram . srules symbol [ ( [ Gram . Stoken ( ( ( function | UIDENT " SEP " -> true | _ -> false ) , " UIDENT " \ SEP " " ) ) ; \ Gram . Snterm ( Gram . Entry . obj ( symbol : ' symbol Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( t : ' symbol ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " SEP " -> ( t : ' e__21 ) | _ -> assert false ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( sep : ' e__21 option ) ( s : ' symbol ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " LIST0 " -> ( let ( ) = check_not_tok s in let used = ( match sep with | Some symb -> symb . used @ s . used | None -> s . used ) in let styp = STapp ( _loc , ( STlid ( _loc , " list " ) ) , s . styp ) in let text = slist _loc false sep s in { used = used ; text = text ; styp = styp ; pattern = None ; } : ' symbol ) | _ -> assert false ) ) ) ] ) ; ( None , None , [ ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( s_t : ' symbol ) _ ( _loc : Gram . Loc . t ) -> ( s_t : ' symbol ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( name : ' name Gram . Entry . t ) ) ; Gram . Sopt ( Gram . srules symbol [ ( [ Gram . Stoken ( ( ( function | UIDENT " LEVEL " -> true | _ -> false ) , " UIDENT " \ LEVEL " " ) ) ; \ Gram . Stoken ( ( ( function | STRING ( ( _ ) ) -> true | _ -> false ) , " STRING _ " ) ) ] , ( Gram . Action . mk ( fun ( s : Gram . Token . t ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " LEVEL " -> ( let s = Gram . Token . extract_string s in s : ' e__24 ) | _ -> assert false ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( lev : ' e__24 option ) ( n : ' name ) ( _loc : Gram . Loc . t ) -> ( { used = [ n . tvar ] ; text = TXnterm ( _loc , n , lev ) ; styp = STquo ( _loc , n . tvar ) ; pattern = None ; } : ' symbol ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT ( ( _ ) ) -> true | _ -> false ) , " UIDENT _ " ) ) ; Gram . Skeyword " . " ; Gram . Snterm ( Gram . Entry . obj ( qualid : ' qualid Gram . Entry . t ) ) ; Gram . Sopt ( Gram . srules symbol [ ( [ Gram . Stoken ( ( ( function | UIDENT " LEVEL " -> true | _ -> false ) , " UIDENT " \ LEVEL " " ) ) ; \ Gram . Stoken ( ( ( function | STRING ( ( _ ) ) -> true | _ -> false ) , " STRING _ " ) ) ] , ( Gram . Action . mk ( fun ( s : Gram . Token . t ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " LEVEL " -> ( let s = Gram . Token . extract_string s in s : ' e__23 ) | _ -> assert false ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( lev : ' e__23 option ) ( il : ' qualid ) _ ( i : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let i = Gram . Token . extract_string i in let n = mk_name _loc ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , i ) ) , il ) ) in { used = [ n . tvar ] ; text = TXnterm ( _loc , n , lev ) ; styp = STquo ( _loc , n . tvar ) ; pattern = None ; } : ' symbol ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | STRING ( ( _ ) ) -> true | _ -> false ) , " STRING _ " ) ) ] , ( Gram . Action . mk ( fun ( s : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let s = Gram . Token . extract_string s in { used = [ ] ; text = TXkwd ( _loc , s ) ; styp = STtok _loc ; pattern = None ; } : ' symbol ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT ( ( _ ) ) -> true | _ -> false ) , " UIDENT _ " ) ) ; Gram . Stoken ( ( ( function | ANTIQUOT ( " " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " " , \\ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( x : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( " " , s ) -> ( let x = Gram . Token . extract_string x in let e = AntiquotSyntax . parse_expr _loc s in let match_fun = Ast . ExFun ( _loc , ( Ast . McOr ( _loc , ( Ast . McArr ( _loc , ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , x ) ) ) ) , ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , " camlp4_x " ) ) ) ) ) ) , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " " ) ) ) ) , = ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " camlp4_x " ) ) ) ) ) ) , e ) ) , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " True " ) ) ) ) ) ) , ( Ast . McArr ( _loc , ( Ast . PaAny _loc ) , ( Ast . ExNil _loc ) , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " False " ) ) ) ) ) ) ) ) ) in let descr = " " $ ^ ( x ^ ( " " ^ s ) ) in let text = TXtok ( _loc , match_fun , descr ) in let p = Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , x ) ) ) ) , ( Ast . PaTup ( _loc , ( Ast . PaAny _loc ) ) ) ) in { used = [ ] ; text = text ; styp = STtok _loc ; pattern = Some p ; } : ' symbol ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT ( ( _ ) ) -> true | _ -> false ) , " UIDENT _ " ) ) ; Gram . Stoken ( ( ( function | STRING ( ( _ ) ) -> true | _ -> false ) , " STRING _ " ) ) ] , ( Gram . Action . mk ( fun ( s : Gram . Token . t ) ( x : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let s = Gram . Token . extract_string s in let x = Gram . Token . extract_string x in mk_tok _loc ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , x ) ) ) ) , ( Ast . PaStr ( _loc , s ) ) ) ) ( STtok _loc ) : ' symbol ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT ( ( _ ) ) -> true | _ -> false ) , " UIDENT _ " ) ) ] , ( Gram . Action . mk ( fun ( x : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let x = Gram . Token . extract_string x in mk_tok _loc ( Ast . PaApp ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , x ) ) ) ) , ( Ast . PaTup ( _loc , ( Ast . PaAny _loc ) ) ) ) ) ( STstring_tok _loc ) : ' symbol ) ) ) ) ; ( [ Gram . Skeyword " ` " ; Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( p : ' patt ) _ ( _loc : Gram . Loc . t ) -> ( mk_tok _loc p ( STtok _loc ) : ' symbol ) ) ) ) ; ( [ Gram . Skeyword " [ " ; Gram . Slist0sep ( ( Gram . Snterm ( Gram . Entry . obj ( rule : ' rule Gram . Entry . t ) ) ) , ( Gram . Skeyword " " ) ) ; | Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( rl : ' rule list ) _ ( _loc : Gram . Loc . t ) -> ( let rl = retype_rule_list_without_patterns _loc rl in let t = new_type_var ( ) in { used = used_of_rule_list rl ; text = TXrules ( _loc , ( srules _loc t rl " " ) ) ; styp = STquo ( _loc , t ) ; pattern = None ; } : ' symbol ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT " NEXT " -> true | _ -> false ) , " UIDENT " \ NEXT " " ) ) \ ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " NEXT " -> ( { used = [ ] ; text = TXnext _loc ; styp = STself ( _loc , " NEXT " ) ; pattern = None ; } : ' symbol ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT " SELF " -> true | _ -> false ) , " UIDENT " \ SELF " " ) ) \ ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " SELF " -> ( { used = [ ] ; text = TXself _loc ; styp = STself ( _loc , " SELF " ) ; pattern = None ; } : ' symbol ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( pattern : ' pattern Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " , " ; Gram . Snterm ( Gram . Entry . obj ( comma_patt : ' comma_patt Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( p2 : ' comma_patt ) _ ( p1 : ' pattern ) _ ( _loc : Gram . Loc . t ) -> ( Ast . PaTup ( _loc , ( Ast . PaCom ( _loc , p1 , p2 ) ) ) : ' pattern ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Sself ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( p : ' pattern ) _ ( _loc : Gram . Loc . t ) -> ( p : ' pattern ) ) ) ) ; ( [ Gram . Skeyword " _ " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . PaAny _loc : ' pattern ) ) ) ) ; ( [ Gram . Stoken ( ( ( function | LIDENT ( ( _ ) ) -> true | _ -> false ) , " LIDENT _ " ) ) ] , ( Gram . Action . mk ( fun ( i : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let i = Gram . Token . extract_string i in Ast . PaId ( _loc , ( Ast . IdLid ( _loc , i ) ) ) : ' pattern ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( comma_patt : ' comma_patt Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( pattern : ' pattern Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( p : ' pattern ) ( _loc : Gram . Loc . t ) -> ( p : ' comma_patt ) ) ) ) ; ( [ Gram . Sself ; Gram . Skeyword " , " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( p2 : ' comma_patt ) _ ( p1 : ' comma_patt ) ( _loc : Gram . Loc . t ) -> ( Ast . PaCom ( _loc , p1 , p2 ) : ' comma_patt ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( name : ' name Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( qualid : ' qualid Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( il : ' qualid ) ( _loc : Gram . Loc . t ) -> ( mk_name _loc il : ' name ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( string : ' string Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | ANTIQUOT ( " " , _ ) -> true | _ -> false ) , " ANTIQUOT ( " " , \\ _ ) " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | ANTIQUOT ( " " , s ) -> ( AntiquotSyntax . parse_expr _loc s : ' string ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | STRING ( ( _ ) ) -> true | _ -> false ) , " STRING _ " ) ) ] , ( Gram . Action . mk ( fun ( s : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let s = Gram . Token . extract_string s in Ast . ExStr ( _loc , s ) : ' string ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( semi_sep : ' semi_sep Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " ; " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( ( ) : ' semi_sep ) ) ) ) ] ) ] ) ) ( ) ) ) let sfold _loc n foldfun f e s = let styp = STquo ( _loc , ( new_type_var ( ) ) ) in let e = Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdLid ( _loc , foldfun ) ) ) ) ) ) , f ) ) , e ) in let t = STapp ( _loc , ( STapp ( _loc , ( STtyp ( Ast . TyApp ( _loc , ( Ast . TyId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdLid ( _loc , " fold " ) ) ) ) ) ) , ( Ast . TyAny _loc ) ) ) ) , s . styp ) ) , styp ) in { used = s . used ; text = TXmeta ( _loc , n , [ s . text ] , e , t ) ; styp = styp ; pattern = None ; } let sfoldsep _loc n foldfun f e s sep = let styp = STquo ( _loc , ( new_type_var ( ) ) ) in let e = Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdLid ( _loc , foldfun ) ) ) ) ) ) , f ) ) , e ) in let t = STapp ( _loc , ( STapp ( _loc , ( STtyp ( Ast . TyApp ( _loc , ( Ast . TyId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , gm ) ) , ( Ast . IdLid ( _loc , " foldsep " ) ) ) ) ) ) , ( Ast . TyAny _loc ) ) ) ) , s . styp ) ) , styp ) in { used = s . used @ sep . used ; text = TXmeta ( _loc , n , [ s . text ; sep . text ] , e , t ) ; styp = styp ; pattern = None ; } let _ = let _ = ( symbol : ' symbol Gram . Entry . t ) in let grammar_entry_create = Gram . Entry . mk in let simple_expr : ' simple_expr Gram . Entry . t = grammar_entry_create " simple_expr " in ( Gram . extend ( symbol : ' symbol Gram . Entry . t ) ( ( fun ( ) -> ( ( Some ( Camlp4 . Sig . Grammar . Level " top " ) ) , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | UIDENT " FOLD1 " -> true | _ -> false ) , " UIDENT " \ FOLD1 " " ) ) ; \ Gram . Snterm ( Gram . Entry . obj ( simple_expr : ' simple_expr Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( simple_expr : ' simple_expr Gram . Entry . t ) ) ; Gram . Sself ; Gram . Stoken ( ( ( function | UIDENT " SEP " -> true | _ -> false ) , " UIDENT " \ SEP " " ) ) ; \ Gram . Sself ] , ( Gram . Action . mk ( fun ( sep : ' symbol ) ( __camlp4_1 : Gram . Token . t ) ( s : ' symbol ) ( e : ' simple_expr ) ( f : ' simple_expr ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match ( __camlp4_1 , __camlp4_0 ) with | ( UIDENT " SEP " , UIDENT " FOLD1 " ) -> ( sfoldsep _loc " FOLD1 SEP " " sfold1sep " f e s sep : ' symbol ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT " FOLD0 " -> true | _ -> false ) , " UIDENT " \ FOLD0 " " ) ) ; \ Gram . Snterm ( Gram . Entry . obj ( simple_expr : ' simple_expr Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( simple_expr : ' simple_expr Gram . Entry . t ) ) ; Gram . Sself ; Gram . Stoken ( ( ( function | UIDENT " SEP " -> true | _ -> false ) , " UIDENT " \ SEP " " ) ) ; \ Gram . Sself ] , ( Gram . Action . mk ( fun ( sep : ' symbol ) ( __camlp4_1 : Gram . Token . t ) ( s : ' symbol ) ( e : ' simple_expr ) ( f : ' simple_expr ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match ( __camlp4_1 , __camlp4_0 ) with | ( UIDENT " SEP " , UIDENT " FOLD0 " ) -> ( sfoldsep _loc " FOLD0 SEP " " sfold0sep " f e s sep : ' symbol ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT " FOLD1 " -> true | _ -> false ) , " UIDENT " \ FOLD1 " " ) ) ; \ Gram . Snterm ( Gram . Entry . obj ( simple_expr : ' simple_expr Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( simple_expr : ' simple_expr Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( s : ' symbol ) ( e : ' simple_expr ) ( f : ' simple_expr ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " FOLD1 " -> ( sfold _loc " FOLD1 " " sfold1 " f e s : ' symbol ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | UIDENT " FOLD0 " -> true | _ -> false ) , " UIDENT " \ FOLD0 " " ) ) ; \ Gram . Snterm ( Gram . Entry . obj ( simple_expr : ' simple_expr Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( simple_expr : ' simple_expr Gram . Entry . t ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( s : ' symbol ) ( e : ' simple_expr ) ( f : ' simple_expr ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT " FOLD0 " -> ( sfold _loc " FOLD0 " " sfold0 " f e s : ' symbol ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( simple_expr : ' simple_expr Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " ( " ; Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Skeyword " ) " ] , ( Gram . Action . mk ( fun _ ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( e : ' simple_expr ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( a_LIDENT : ' a_LIDENT Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' a_LIDENT ) ( _loc : Gram . Loc . t ) -> ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , i ) ) ) : ' simple_expr ) ) ) ) ] ) ] ) ) ( ) ) ) let _ = Options . add " - split_ext " ( Arg . Set split_ext ) " Split EXTEND by functions to turn around a PowerPC problem . " let _ = Options . add " - split_gext " ( Arg . Set split_ext ) " Old name for the option - split_ext . " let _ = Options . add " - meta_action " ( Arg . Set meta_action ) " Undocumented " end module M = Register . OCamlSyntaxExtension ( Id ) ( Make ) end |
module M = struct open Camlp4 module Id = struct let name = " Camlp4MacroParser " let version = Sys . ocaml_version end open Camlp4 module Make ( Syntax : Sig . Camlp4Syntax ) = struct open Sig include Syntax type ' a item_or_def = | SdStr of ' a | SdDef of string * ( ( string list ) * Ast . expr ) option | SdUnd of string | SdITE of bool * ( ' a item_or_def ) list * ( ' a item_or_def ) list | SdLazy of ' a Lazy . t let rec list_remove x = function | ( y , _ ) :: l when y = x -> l | d :: l -> d :: ( list_remove x l ) | [ ] -> [ ] let defined = ref [ ] let is_defined i = List . mem_assoc i ! defined let bad_patt _loc = Loc . raise _loc ( Failure " this macro cannot be used in a pattern ( see its definition ) " ) let substp _loc env = let rec loop = function | Ast . ExApp ( _ , e1 , e2 ) -> Ast . PaApp ( _loc , ( loop e1 ) , ( loop e2 ) ) | Ast . ExNil _ -> Ast . PaNil _loc | Ast . ExId ( _ , ( Ast . IdLid ( _ , x ) ) ) -> ( try List . assoc x env with | Not_found -> Ast . PaId ( _loc , ( Ast . IdLid ( _loc , x ) ) ) ) | Ast . ExId ( _ , ( Ast . IdUid ( _ , x ) ) ) -> ( try List . assoc x env with | Not_found -> Ast . PaId ( _loc , ( Ast . IdUid ( _loc , x ) ) ) ) | Ast . ExInt ( _ , x ) -> Ast . PaInt ( _loc , x ) | Ast . ExStr ( _ , s ) -> Ast . PaStr ( _loc , s ) | Ast . ExTup ( _ , x ) -> Ast . PaTup ( _loc , ( loop x ) ) | Ast . ExCom ( _ , x1 , x2 ) -> Ast . PaCom ( _loc , ( loop x1 ) , ( loop x2 ) ) | Ast . ExRec ( _ , bi , ( Ast . ExNil _ ) ) -> let rec substbi = ( function | Ast . RbSem ( _ , b1 , b2 ) -> Ast . PaSem ( _loc , ( substbi b1 ) , ( substbi b2 ) ) | Ast . RbEq ( _ , i , e ) -> Ast . PaEq ( _loc , i , ( loop e ) ) | _ -> bad_patt _loc ) in Ast . PaRec ( _loc , ( substbi bi ) ) | _ -> bad_patt _loc in loop class reloc _loc = object inherit Ast . map as super method loc = fun _ -> _loc end class subst _loc env = object inherit reloc _loc as super method expr = function | ( Ast . ExId ( _ , ( Ast . IdLid ( _ , x ) ) ) | Ast . ExId ( _ , ( Ast . IdUid ( _ , x ) ) ) as e ) -> ( try List . assoc x env with | Not_found -> super # expr e ) | e -> super # expr e method patt = function | ( Ast . PaId ( _ , ( Ast . IdLid ( _ , x ) ) ) | Ast . PaId ( _ , ( Ast . IdUid ( _ , x ) ) ) as p ) -> ( try substp _loc [ ] ( List . assoc x env ) with | Not_found -> super # patt p ) | p -> super # patt p end let incorrect_number loc l1 l2 = Loc . raise loc ( Failure ( Printf . sprintf " expected % d parameters ; found % d " ( List . length l2 ) ( List . length l1 ) ) ) let define eo x = ( ( match eo with | Some ( ( [ ] , e ) ) -> ( Gram . extend ( expr : ' expr Gram . Entry . t ) ( ( fun ( ) -> ( ( Some ( Camlp4 . Sig . Grammar . Level " simple " ) ) , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | UIDENT camlp4_x when camlp4_x = x -> true | _ -> false ) , " $ UIDENT x " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT ( ( _ ) ) -> ( ( new reloc _loc ) # expr e : ' expr ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( patt : ' patt Gram . Entry . t ) ( ( fun ( ) -> ( ( Some ( Camlp4 . Sig . Grammar . Level " simple " ) ) , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | UIDENT camlp4_x when camlp4_x = x -> true | _ -> false ) , " $ UIDENT x " ) ) ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT ( ( _ ) ) -> ( let p = substp _loc [ ] e in ( new reloc _loc ) # patt p : ' patt ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ) | Some ( ( sl , e ) ) -> ( Gram . extend ( expr : ' expr Gram . Entry . t ) ( ( fun ( ) -> ( ( Some ( Camlp4 . Sig . Grammar . Level " apply " ) ) , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | UIDENT camlp4_x when camlp4_x = x -> true | _ -> false ) , " $ UIDENT x " ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( param : ' expr ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT ( ( _ ) ) -> ( let el = ( match param with | Ast . ExTup ( _ , e ) -> Ast . list_of_expr e [ ] | e -> [ e ] ) in if ( List . length el ) = ( List . length sl ) then ( let env = List . combine sl el in ( new subst _loc env ) # expr e ) else incorrect_number _loc el sl : ' expr ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( patt : ' patt Gram . Entry . t ) ( ( fun ( ) -> ( ( Some ( Camlp4 . Sig . Grammar . Level " simple " ) ) , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | UIDENT camlp4_x when camlp4_x = x -> true | _ -> false ) , " $ UIDENT x " ) ) ; Gram . Sself ] , ( Gram . Action . mk ( fun ( param : ' patt ) ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | UIDENT ( ( _ ) ) -> ( let pl = ( match param with | Ast . PaTup ( _ , p ) -> Ast . list_of_patt p [ ] | p -> [ p ] ) in if ( List . length pl ) = ( List . length sl ) then ( let env = List . combine sl pl in let p = substp _loc env e in ( new reloc _loc ) # patt p ) else incorrect_number _loc pl sl : ' patt ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ) | None -> ( ) ) ; defined := ( x , eo ) :: ! defined ) let undef x = try ( ( let eo = List . assoc x ! defined in match eo with | Some ( ( [ ] , _ ) ) -> ( Gram . delete_rule expr [ Gram . Stoken ( ( ( function | UIDENT camlp4_x when camlp4_x = x -> true | _ -> false ) , " $ UIDENT x " ) ) ] ; Gram . delete_rule patt [ Gram . Stoken ( ( ( function | UIDENT camlp4_x when camlp4_x = x -> true | _ -> false ) , " $ UIDENT x " ) ) ] ) | Some ( ( _ , _ ) ) -> ( Gram . delete_rule expr [ Gram . Stoken ( ( ( function | UIDENT camlp4_x when camlp4_x = x -> true | _ -> false ) , " $ UIDENT x " ) ) ; Gram . Sself ] ; Gram . delete_rule patt [ Gram . Stoken ( ( ( function | UIDENT camlp4_x when camlp4_x = x -> true | _ -> false ) , " $ UIDENT x " ) ) ; Gram . Sself ] ) | None -> ( ) ) ; defined := list_remove x ! defined ) with | Not_found -> ( ) let parse_def s = match Gram . parse_string expr ( Loc . mk " < command line " ) > s with | Ast . ExId ( _ , ( Ast . IdUid ( _ , n ) ) ) -> define None n | Ast . ExApp ( _ , ( Ast . ExApp ( _ , ( Ast . ExId ( _ , ( Ast . IdLid ( _ , " " ) ) ) ) , = ( Ast . ExId ( _ , ( Ast . IdUid ( _ , n ) ) ) ) ) ) , e ) -> define ( Some ( ( [ ] , e ) ) ) n | _ -> invalid_arg s let include_dirs = ref [ ] let add_include_dir str = if str <> " " then ( let str = if ( String . get str ( ( String . length str ) - 1 ) ) = ' ' / then str else str ^ " " / in include_dirs := ! include_dirs @ [ str ] ) else ( ) let parse_include_file rule = let dir_ok file dir = Sys . file_exists ( dir ^ file ) in fun file -> let file = try ( List . find ( dir_ok file ) ( ! include_dirs @ [ " . " / ] ) ) ^ file with | Not_found -> file in let ch = open_in file in let st = Stream . of_channel ch in Gram . parse rule ( Loc . mk file ) st let rec execute_macro nil cons = function | SdStr i -> i | SdDef ( x , eo ) -> ( define eo x ; nil ) | SdUnd x -> ( undef x ; nil ) | SdITE ( b , l1 , l2 ) -> execute_macro_list nil cons ( if b then l1 else l2 ) | SdLazy l -> Lazy . force l and execute_macro_list nil cons = function | [ ] -> nil | hd :: tl -> let il1 = execute_macro nil cons hd in let il2 = execute_macro_list nil cons tl in cons il1 il2 let stack = Stack . create ( ) let make_SdITE_result st1 st2 = let test = Stack . pop stack in SdITE ( test , st1 , st2 ) type branch = | Then | Else let execute_macro_if_active_branch _loc nil cons branch macro_def = let test = Stack . top stack in let item = if ( test && ( branch = Then ) ) || ( ( not test ) && ( branch = Else ) ) then execute_macro nil cons macro_def else nil in SdStr item let _ = let _ = ( expr : ' expr Gram . Entry . t ) and _ = ( sig_item : ' sig_item Gram . Entry . t ) and _ = ( str_item : ' str_item Gram . Entry . t ) and _ = ( patt : ' patt Gram . Entry . t ) in let grammar_entry_create = Gram . Entry . mk in let macro_def : ' macro_def Gram . Entry . t = grammar_entry_create " macro_def " and uident : ' uident Gram . Entry . t = grammar_entry_create " uident " and opt_macro_value : ' opt_macro_value Gram . Entry . t = grammar_entry_create " opt_macro_value " and endif : ' endif Gram . Entry . t = grammar_entry_create " endif " and sglist_else : ' sglist_else Gram . Entry . t = grammar_entry_create " sglist_else " and sglist_then : ' sglist_then Gram . Entry . t = grammar_entry_create " sglist_then " and smlist_else : ' smlist_else Gram . Entry . t = grammar_entry_create " smlist_else " and smlist_then : ' smlist_then Gram . Entry . t = grammar_entry_create " smlist_then " and else_expr : ' else_expr Gram . Entry . t = grammar_entry_create " else_expr " and else_macro_def_sig : ' else_macro_def_sig Gram . Entry . t = grammar_entry_create " else_macro_def_sig " and else_macro_def : ' else_macro_def Gram . Entry . t = grammar_entry_create " else_macro_def " and uident_eval_ifndef : ' uident_eval_ifndef Gram . Entry . t = grammar_entry_create " uident_eval_ifndef " and uident_eval_ifdef : ' uident_eval_ifdef Gram . Entry . t = grammar_entry_create " uident_eval_ifdef " and macro_def_sig : ' macro_def_sig Gram . Entry . t = grammar_entry_create " macro_def_sig " in ( Gram . extend ( str_item : ' str_item Gram . Entry . t ) ( ( fun ( ) -> ( ( Some Camlp4 . Sig . Grammar . First ) , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( macro_def : ' macro_def Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' macro_def ) ( _loc : Gram . Loc . t ) -> ( execute_macro ( Ast . StNil _loc ) ( fun a b -> Ast . StSem ( _loc , a , b ) ) x : ' str_item ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( sig_item : ' sig_item Gram . Entry . t ) ( ( fun ( ) -> ( ( Some Camlp4 . Sig . Grammar . First ) , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( macro_def_sig : ' macro_def_sig Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' macro_def_sig ) ( _loc : Gram . Loc . t ) -> ( execute_macro ( Ast . SgNil _loc ) ( fun a b -> Ast . SgSem ( _loc , a , b ) ) x : ' sig_item ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( macro_def : ' macro_def Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " INCLUDE " ; Gram . Stoken ( ( ( function | STRING ( ( _ ) ) -> true | _ -> false ) , " STRING _ " ) ) ] , ( Gram . Action . mk ( fun ( fname : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> ( let fname = Gram . Token . extract_string fname in SdLazy ( lazy ( parse_include_file str_items fname ) ) : ' macro_def ) ) ) ) ; ( [ Gram . Skeyword " IFNDEF " ; Gram . Snterm ( Gram . Entry . obj ( uident_eval_ifndef : ' uident_eval_ifndef Gram . Entry . t ) ) ; Gram . Skeyword " THEN " ; Gram . Snterm ( Gram . Entry . obj ( smlist_then : ' smlist_then Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( else_macro_def : ' else_macro_def Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( st2 : ' else_macro_def ) ( st1 : ' smlist_then ) _ _ _ ( _loc : Gram . Loc . t ) -> ( make_SdITE_result st1 st2 : ' macro_def ) ) ) ) ; ( [ Gram . Skeyword " IFDEF " ; Gram . Snterm ( Gram . Entry . obj ( uident_eval_ifdef : ' uident_eval_ifdef Gram . Entry . t ) ) ; Gram . Skeyword " THEN " ; Gram . Snterm ( Gram . Entry . obj ( smlist_then : ' smlist_then Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( else_macro_def : ' else_macro_def Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( st2 : ' else_macro_def ) ( st1 : ' smlist_then ) _ _ _ ( _loc : Gram . Loc . t ) -> ( make_SdITE_result st1 st2 : ' macro_def ) ) ) ) ; ( [ Gram . Skeyword " UNDEF " ; Gram . Snterm ( Gram . Entry . obj ( uident : ' uident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' uident ) _ ( _loc : Gram . Loc . t ) -> ( SdUnd i : ' macro_def ) ) ) ) ; ( [ Gram . Skeyword " DEFINE " ; Gram . Snterm ( Gram . Entry . obj ( uident : ' uident Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( opt_macro_value : ' opt_macro_value Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( def : ' opt_macro_value ) ( i : ' uident ) _ ( _loc : Gram . Loc . t ) -> ( SdDef ( i , def ) : ' macro_def ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( macro_def_sig : ' macro_def_sig Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " INCLUDE " ; Gram . Stoken ( ( ( function | STRING ( ( _ ) ) -> true | _ -> false ) , " STRING _ " ) ) ] , ( Gram . Action . mk ( fun ( fname : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> ( let fname = Gram . Token . extract_string fname in SdLazy ( lazy ( parse_include_file sig_items fname ) ) : ' macro_def_sig ) ) ) ) ; ( [ Gram . Skeyword " IFNDEF " ; Gram . Snterm ( Gram . Entry . obj ( uident_eval_ifndef : ' uident_eval_ifndef Gram . Entry . t ) ) ; Gram . Skeyword " THEN " ; Gram . Snterm ( Gram . Entry . obj ( sglist_then : ' sglist_then Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( else_macro_def_sig : ' else_macro_def_sig Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( sg2 : ' else_macro_def_sig ) ( sg1 : ' sglist_then ) _ _ _ ( _loc : Gram . Loc . t ) -> ( make_SdITE_result sg1 sg2 : ' macro_def_sig ) ) ) ) ; ( [ Gram . Skeyword " IFDEF " ; Gram . Snterm ( Gram . Entry . obj ( uident_eval_ifdef : ' uident_eval_ifdef Gram . Entry . t ) ) ; Gram . Skeyword " THEN " ; Gram . Snterm ( Gram . Entry . obj ( sglist_then : ' sglist_then Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( else_macro_def_sig : ' else_macro_def_sig Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( sg2 : ' else_macro_def_sig ) ( sg1 : ' sglist_then ) _ _ _ ( _loc : Gram . Loc . t ) -> ( make_SdITE_result sg1 sg2 : ' macro_def_sig ) ) ) ) ; ( [ Gram . Skeyword " UNDEF " ; Gram . Snterm ( Gram . Entry . obj ( uident : ' uident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' uident ) _ ( _loc : Gram . Loc . t ) -> ( SdUnd i : ' macro_def_sig ) ) ) ) ; ( [ Gram . Skeyword " DEFINE " ; Gram . Snterm ( Gram . Entry . obj ( uident : ' uident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' uident ) _ ( _loc : Gram . Loc . t ) -> ( SdDef ( i , None ) : ' macro_def_sig ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( uident_eval_ifdef : ' uident_eval_ifdef Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( uident : ' uident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' uident ) ( _loc : Gram . Loc . t ) -> ( Stack . push ( is_defined i ) stack : ' uident_eval_ifdef ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( uident_eval_ifndef : ' uident_eval_ifndef Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( uident : ' uident Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( i : ' uident ) ( _loc : Gram . Loc . t ) -> ( Stack . push ( not ( is_defined i ) ) stack : ' uident_eval_ifndef ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( else_macro_def : ' else_macro_def Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( endif : ' endif Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( [ ] : ' else_macro_def ) ) ) ) ; ( [ Gram . Skeyword " ELSE " ; Gram . Snterm ( Gram . Entry . obj ( smlist_else : ' smlist_else Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( endif : ' endif Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( st : ' smlist_else ) _ ( _loc : Gram . Loc . t ) -> ( st : ' else_macro_def ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( else_macro_def_sig : ' else_macro_def_sig Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( endif : ' endif Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( [ ] : ' else_macro_def_sig ) ) ) ) ; ( [ Gram . Skeyword " ELSE " ; Gram . Snterm ( Gram . Entry . obj ( sglist_else : ' sglist_else Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( endif : ' endif Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( st : ' sglist_else ) _ ( _loc : Gram . Loc . t ) -> ( st : ' else_macro_def_sig ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( else_expr : ' else_expr Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( endif : ' endif Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " ( ) " ) ) ) : ' else_expr ) ) ) ) ; ( [ Gram . Skeyword " ELSE " ; Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( endif : ' endif Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( e : ' else_expr ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( smlist_then : ' smlist_then Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Slist1 ( Gram . srules smlist_then [ ( [ Gram . Snterm ( Gram . Entry . obj ( str_item : ' str_item Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( si : ' str_item ) ( _loc : Gram . Loc . t ) -> ( SdStr si : ' e__25 ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( macro_def : ' macro_def Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( d : ' macro_def ) ( _loc : Gram . Loc . t ) -> ( execute_macro_if_active_branch _loc ( Ast . StNil _loc ) ( fun a b -> Ast . StSem ( _loc , a , b ) ) Then d : ' e__25 ) ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( sml : ' e__25 list ) ( _loc : Gram . Loc . t ) -> ( sml : ' smlist_then ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( smlist_else : ' smlist_else Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Slist1 ( Gram . srules smlist_else [ ( [ Gram . Snterm ( Gram . Entry . obj ( str_item : ' str_item Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( si : ' str_item ) ( _loc : Gram . Loc . t ) -> ( SdStr si : ' e__26 ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( macro_def : ' macro_def Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( d : ' macro_def ) ( _loc : Gram . Loc . t ) -> ( execute_macro_if_active_branch _loc ( Ast . StNil _loc ) ( fun a b -> Ast . StSem ( _loc , a , b ) ) Else d : ' e__26 ) ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( sml : ' e__26 list ) ( _loc : Gram . Loc . t ) -> ( sml : ' smlist_else ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( sglist_then : ' sglist_then Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Slist1 ( Gram . srules sglist_then [ ( [ Gram . Snterm ( Gram . Entry . obj ( sig_item : ' sig_item Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( si : ' sig_item ) ( _loc : Gram . Loc . t ) -> ( SdStr si : ' e__27 ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( macro_def_sig : ' macro_def_sig Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( d : ' macro_def_sig ) ( _loc : Gram . Loc . t ) -> ( execute_macro_if_active_branch _loc ( Ast . SgNil _loc ) ( fun a b -> Ast . SgSem ( _loc , a , b ) ) Then d : ' e__27 ) ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( sgl : ' e__27 list ) ( _loc : Gram . Loc . t ) -> ( sgl : ' sglist_then ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( sglist_else : ' sglist_else Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Slist1 ( Gram . srules sglist_else [ ( [ Gram . Snterm ( Gram . Entry . obj ( sig_item : ' sig_item Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( si : ' sig_item ) ( _loc : Gram . Loc . t ) -> ( SdStr si : ' e__28 ) ) ) ) ; ( [ Gram . Snterm ( Gram . Entry . obj ( macro_def_sig : ' macro_def_sig Gram . Entry . t ) ) ; Gram . Snterm ( Gram . Entry . obj ( semi : ' semi Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( d : ' macro_def_sig ) ( _loc : Gram . Loc . t ) -> ( execute_macro_if_active_branch _loc ( Ast . SgNil _loc ) ( fun a b -> Ast . SgSem ( _loc , a , b ) ) Else d : ' e__28 ) ) ) ) ] ) ] , ( Gram . Action . mk ( fun ( sgl : ' e__28 list ) ( _loc : Gram . Loc . t ) -> ( sgl : ' sglist_else ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( endif : ' endif Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " ENDIF " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( ( ) : ' endif ) ) ) ) ; ( [ Gram . Skeyword " END " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( ( ) : ' endif ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( opt_macro_value : ' opt_macro_value Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ ] , ( Gram . Action . mk ( fun ( _loc : Gram . Loc . t ) -> ( None : ' opt_macro_value ) ) ) ) ; ( [ Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( Some ( ( [ ] , e ) ) : ' opt_macro_value ) ) ) ) ; ( [ Gram . Skeyword " ( " ; Gram . Slist1sep ( ( Gram . srules opt_macro_value [ ( [ Gram . Stoken ( ( ( function | LIDENT ( ( _ ) ) -> true | _ -> false ) , " LIDENT _ " ) ) ] , ( Gram . Action . mk ( fun ( x : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let x = Gram . Token . extract_string x in x : ' e__29 ) ) ) ) ] ) , ( Gram . Skeyword " , " ) ) ; Gram . Skeyword " ) " ; Gram . Skeyword " " ; = Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ _ ( pl : ' e__29 list ) _ ( _loc : Gram . Loc . t ) -> ( Some ( ( pl , e ) ) : ' opt_macro_value ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( expr : ' expr Gram . Entry . t ) ( ( fun ( ) -> ( ( Some ( Camlp4 . Sig . Grammar . Level " top " ) ) , [ ( None , None , [ ( [ Gram . Skeyword " DEFINE " ; Gram . Stoken ( ( ( function | LIDENT ( ( _ ) ) -> true | _ -> false ) , " LIDENT _ " ) ) ; Gram . Skeyword " " ; = Gram . Sself ; Gram . Skeyword " IN " ; Gram . Sself ] , ( Gram . Action . mk ( fun ( body : ' expr ) _ ( def : ' expr ) _ ( i : Gram . Token . t ) _ ( _loc : Gram . Loc . t ) -> ( let i = Gram . Token . extract_string i in ( new subst _loc [ ( i , def ) ] ) # expr body : ' expr ) ) ) ) ; ( [ Gram . Skeyword " IFNDEF " ; Gram . Snterm ( Gram . Entry . obj ( uident : ' uident Gram . Entry . t ) ) ; Gram . Skeyword " THEN " ; Gram . Sself ; Gram . Snterm ( Gram . Entry . obj ( else_expr : ' else_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e2 : ' else_expr ) ( e1 : ' expr ) _ ( i : ' uident ) _ ( _loc : Gram . Loc . t ) -> ( if is_defined i then e2 else e1 : ' expr ) ) ) ) ; ( [ Gram . Skeyword " IFDEF " ; Gram . Snterm ( Gram . Entry . obj ( uident : ' uident Gram . Entry . t ) ) ; Gram . Skeyword " THEN " ; Gram . Sself ; Gram . Snterm ( Gram . Entry . obj ( else_expr : ' else_expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e2 : ' else_expr ) ( e1 : ' expr ) _ ( i : ' uident ) _ ( _loc : Gram . Loc . t ) -> ( if is_defined i then e1 else e2 : ' expr ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( expr : ' expr Gram . Entry . t ) ( ( fun ( ) -> ( ( Some ( Camlp4 . Sig . Grammar . Level " simple " ) ) , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | LIDENT " __LOCATION__ " -> true | _ -> false ) , " LIDENT " \ __LOCATION__ " " ) ) \ ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | LIDENT " __LOCATION__ " -> ( let ( a , b , c , d , e , f , g , h ) = Loc . to_tuple _loc in Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Loc " ) ) , ( Ast . IdLid ( _loc , " of_tuple " ) ) ) ) ) ) , ( Ast . ExTup ( _loc , ( Ast . ExCom ( _loc , ( Ast . ExStr ( _loc , ( Ast . safe_string_escaped a ) ) ) , ( Ast . ExCom ( _loc , ( Ast . ExCom ( _loc , ( Ast . ExCom ( _loc , ( Ast . ExCom ( _loc , ( Ast . ExCom ( _loc , ( Ast . ExCom ( _loc , ( Ast . ExInt ( _loc , ( string_of_int b ) ) ) , ( Ast . ExInt ( _loc , ( string_of_int c ) ) ) ) ) , ( Ast . ExInt ( _loc , ( string_of_int d ) ) ) ) ) , ( Ast . ExInt ( _loc , ( string_of_int e ) ) ) ) ) , ( Ast . ExInt ( _loc , ( string_of_int f ) ) ) ) ) , ( Ast . ExInt ( _loc , ( string_of_int g ) ) ) ) ) , ( if h then Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " True " ) ) ) else Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " False " ) ) ) ) ) ) ) ) ) ) ) : ' expr ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | LIDENT " __FILE__ " -> true | _ -> false ) , " LIDENT " \ __FILE__ " " ) ) \ ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | LIDENT " __FILE__ " -> ( Ast . ExStr ( _loc , ( Ast . safe_string_escaped ( Loc . file_name _loc ) ) ) : ' expr ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( patt : ' patt Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " IFNDEF " ; Gram . Snterm ( Gram . Entry . obj ( uident : ' uident Gram . Entry . t ) ) ; Gram . Skeyword " THEN " ; Gram . Sself ; Gram . Skeyword " ELSE " ; Gram . Sself ; Gram . Snterm ( Gram . Entry . obj ( endif : ' endif Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( p2 : ' patt ) _ ( p1 : ' patt ) _ ( i : ' uident ) _ ( _loc : Gram . Loc . t ) -> ( if is_defined i then p2 else p1 : ' patt ) ) ) ) ; ( [ Gram . Skeyword " IFDEF " ; Gram . Snterm ( Gram . Entry . obj ( uident : ' uident Gram . Entry . t ) ) ; Gram . Skeyword " THEN " ; Gram . Sself ; Gram . Skeyword " ELSE " ; Gram . Sself ; Gram . Snterm ( Gram . Entry . obj ( endif : ' endif Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun _ ( p2 : ' patt ) _ ( p1 : ' patt ) _ ( i : ' uident ) _ ( _loc : Gram . Loc . t ) -> ( if is_defined i then p1 else p2 : ' patt ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( uident : ' uident Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | UIDENT ( ( _ ) ) -> true | _ -> false ) , " UIDENT _ " ) ) ] , ( Gram . Action . mk ( fun ( i : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> ( let i = Gram . Token . extract_string i in i : ' uident ) ) ) ) ] ) ] ) ) ( ) ) ) let _ = Options . add " - D " ( Arg . String parse_def ) " < string > Define for IFDEF instruction . " let _ = Options . add " - U " ( Arg . String undef ) " < string > Undefine for IFDEF instruction . " let _ = Options . add " - I " ( Arg . String add_include_dir ) " < string > Add a directory to INCLUDE search path . " end let _ = let module M = Register . OCamlSyntaxExtension ( Id ) ( Make ) in ( ) module MakeNothing ( AstFilters : Camlp4 . Sig . AstFilters ) = struct open AstFilters open Ast let remove_nothings = function | Ast . ExApp ( _ , e , ( Ast . ExId ( _ , ( Ast . IdUid ( _ , " NOTHING " ) ) ) ) ) | Ast . ExFun ( _ , ( Ast . McArr ( _ , ( Ast . PaId ( _ , ( Ast . IdUid ( _ , " NOTHING " ) ) ) ) , ( Ast . ExNil _ ) , e ) ) ) -> e | e -> e let _ = register_str_item_filter ( Ast . map_expr remove_nothings ) # str_item end let _ = let module M = Camlp4 . Register . AstFilter ( Id ) ( MakeNothing ) in ( ) end |
module D = struct open Camlp4 module Id = struct let name = " Camlp4DebugParser " let version = Sys . ocaml_version end module Make ( Syntax : Sig . Camlp4Syntax ) = struct open Sig include Syntax module StringSet = Set . Make ( String ) let debug_mode = try let str = Sys . getenv " STATIC_CAMLP4_DEBUG " in let rec loop acc i = try let pos = String . index_from str i ' ' : in loop ( StringSet . add ( String . sub str i ( pos - i ) ) acc ) ( pos + 1 ) with | Not_found -> StringSet . add ( String . sub str i ( ( String . length str ) - i ) ) acc in let sections = loop StringSet . empty 0 in if StringSet . mem " " * sections then ( fun _ -> true ) else ( fun x -> StringSet . mem x sections ) with | Not_found -> ( fun _ -> false ) let rec apply accu = function | [ ] -> accu | x :: xs -> let _loc = Ast . loc_of_expr x in apply ( Ast . ExApp ( _loc , accu , x ) ) xs let mk_debug_mode _loc = function | None -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Debug " ) ) , ( Ast . IdLid ( _loc , " mode " ) ) ) ) ) | Some m -> Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , m ) ) , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Debug " ) ) , ( Ast . IdLid ( _loc , " mode " ) ) ) ) ) ) ) let mk_debug _loc m fmt section args = let call = apply ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " Debug " ) ) , ( Ast . IdLid ( _loc , " printf " ) ) ) ) ) ) , ( Ast . ExStr ( _loc , section ) ) ) ) , ( Ast . ExStr ( _loc , fmt ) ) ) ) args in Ast . ExIfe ( _loc , ( Ast . ExApp ( _loc , ( mk_debug_mode _loc m ) , ( Ast . ExStr ( _loc , section ) ) ) ) , call , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " ( ) " ) ) ) ) ) let _ = let _ = ( expr : ' expr Gram . Entry . t ) in let grammar_entry_create = Gram . Entry . mk in let end_or_in : ' end_or_in Gram . Entry . t = grammar_entry_create " end_or_in " and start_debug : ' start_debug Gram . Entry . t = grammar_entry_create " start_debug " in ( Gram . extend ( expr : ' expr Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterm ( Gram . Entry . obj ( start_debug : ' start_debug Gram . Entry . t ) ) ; Gram . Stoken ( ( ( function | LIDENT ( ( _ ) ) -> true | _ -> false ) , " LIDENT _ " ) ) ; Gram . Stoken ( ( ( function | STRING ( ( _ ) ) -> true | _ -> false ) , " STRING _ " ) ) ; Gram . Slist0 ( Gram . Snterml ( ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) , " . " ) ) ; Gram . Snterm ( Gram . Entry . obj ( end_or_in : ' end_or_in Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( x : ' end_or_in ) ( args : ' expr list ) ( fmt : Gram . Token . t ) ( section : Gram . Token . t ) ( m : ' start_debug ) ( _loc : Gram . Loc . t ) -> ( let fmt = Gram . Token . extract_string fmt in let section = Gram . Token . extract_string section in match ( x , ( debug_mode section ) ) with | ( None , false ) -> Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " ( ) " ) ) ) | ( Some e , false ) -> e | ( None , _ ) -> mk_debug _loc m fmt section args | ( Some e , _ ) -> Ast . ExLet ( _loc , Ast . ReNil , ( Ast . BiEq ( _loc , ( Ast . PaId ( _loc , ( Ast . IdUid ( _loc , " ( ) " ) ) ) ) , ( mk_debug _loc m fmt section args ) ) ) , e ) : ' expr ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( end_or_in : ' end_or_in Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Skeyword " in " ; Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) _ ( _loc : Gram . Loc . t ) -> ( Some e : ' end_or_in ) ) ) ) ; ( [ Gram . Skeyword " end " ] , ( Gram . Action . mk ( fun _ ( _loc : Gram . Loc . t ) -> ( None : ' end_or_in ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( start_debug : ' start_debug Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Stoken ( ( ( function | LIDENT " camlp4_debug " -> true | _ -> false ) , " LIDENT " \ camlp4_debug " " ) ) \ ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | LIDENT " camlp4_debug " -> ( Some " Camlp4 " : ' start_debug ) | _ -> assert false ) ) ) ; ( [ Gram . Stoken ( ( ( function | LIDENT " debug " -> true | _ -> false ) , " LIDENT " \ debug " " ) ) \ ] , ( Gram . Action . mk ( fun ( __camlp4_0 : Gram . Token . t ) ( _loc : Gram . Loc . t ) -> match __camlp4_0 with | LIDENT " debug " -> ( None : ' start_debug ) | _ -> assert false ) ) ) ] ) ] ) ) ( ) ) ) end let _ = let module M = Register . OCamlSyntaxExtension ( Id ) ( Make ) in ( ) end |
module L = struct open Camlp4 module Id = struct let name = " Camlp4ListComprehension " let version = Sys . ocaml_version end module Make ( Syntax : Sig . Camlp4Syntax ) = struct open Sig include Syntax let rec loop n = function | [ ] -> None | [ ( x , _ ) ] -> if n = 1 then Some x else None | _ :: l -> loop ( n - 1 ) l let stream_peek_nth n strm = loop n ( Stream . npeek n strm ) let test_patt_lessminus = Gram . Entry . of_parser " test_patt_lessminus " ( fun strm -> let rec skip_patt n = match stream_peek_nth n strm with | Some ( KEYWORD " " ) <- -> n | Some ( KEYWORD ( " [ " | " [ " ) ) < -> skip_patt ( ( ignore_upto " ] " ( n + 1 ) ) + 1 ) | Some ( KEYWORD " ( " ) -> skip_patt ( ( ignore_upto " ) " ( n + 1 ) ) + 1 ) | Some ( KEYWORD " { " ) -> skip_patt ( ( ignore_upto " } " ( n + 1 ) ) + 1 ) | Some ( KEYWORD ( " as " | " " :: | " , " | " _ " ) ) | Some ( LIDENT _ | UIDENT _ ) -> skip_patt ( n + 1 ) | Some _ | None -> raise Stream . Failure and ignore_upto end_kwd n = match stream_peek_nth n strm with | Some ( KEYWORD prm ) when prm = end_kwd -> n | Some ( KEYWORD ( " [ " | " [ " ) ) < -> ignore_upto end_kwd ( ( ignore_upto " ] " ( n + 1 ) ) + 1 ) | Some ( KEYWORD " ( " ) -> ignore_upto end_kwd ( ( ignore_upto " ) " ( n + 1 ) ) + 1 ) | Some ( KEYWORD " { " ) -> ignore_upto end_kwd ( ( ignore_upto " } " ( n + 1 ) ) + 1 ) | Some _ -> ignore_upto end_kwd ( n + 1 ) | None -> raise Stream . Failure in skip_patt 1 ) let map _loc p e l = match ( p , e ) with | ( Ast . PaId ( _ , ( Ast . IdLid ( _ , x ) ) ) , Ast . ExId ( _ , ( Ast . IdLid ( _ , y ) ) ) ) when x = y -> l | _ -> if Ast . is_irrefut_patt p then Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " List " ) ) , ( Ast . IdLid ( _loc , " map " ) ) ) ) ) ) , ( Ast . ExFun ( _loc , ( Ast . McArr ( _loc , p , ( Ast . ExNil _loc ) , e ) ) ) ) ) ) , l ) else Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " List " ) ) , ( Ast . IdLid ( _loc , " fold_right " ) ) ) ) ) ) , ( Ast . ExFun ( _loc , ( Ast . McOr ( _loc , ( Ast . McArr ( _loc , p , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " True " ) ) ) ) , ( Ast . ExApp ( _loc , ( Ast . ExFun ( _loc , ( Ast . McArr ( _loc , ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , " x " ) ) ) ) , ( Ast . ExNil _loc ) , ( Ast . ExFun ( _loc , ( Ast . McArr ( _loc , ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , " xs " ) ) ) ) , ( Ast . ExNil _loc ) , ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " x " ) ) ) ) ) ) , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " xs " ) ) ) ) ) ) ) ) ) ) ) ) ) ) , e ) ) ) ) , ( Ast . McArr ( _loc , ( Ast . PaAny _loc ) , ( Ast . ExNil _loc ) , ( Ast . ExFun ( _loc , ( Ast . McArr ( _loc , ( Ast . PaId ( _loc , ( Ast . IdLid ( _loc , " l " ) ) ) ) , ( Ast . ExNil _loc ) , ( Ast . ExId ( _loc , ( Ast . IdLid ( _loc , " l " ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) ) , l ) ) , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) ) ) let filter _loc p b l = if Ast . is_irrefut_patt p then Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " List " ) ) , ( Ast . IdLid ( _loc , " filter " ) ) ) ) ) ) , ( Ast . ExFun ( _loc , ( Ast . McArr ( _loc , p , ( Ast . ExNil _loc ) , b ) ) ) ) ) ) , l ) else Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " List " ) ) , ( Ast . IdLid ( _loc , " filter " ) ) ) ) ) ) , ( Ast . ExFun ( _loc , ( Ast . McOr ( _loc , ( Ast . McArr ( _loc , p , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " True " ) ) ) ) , b ) ) , ( Ast . McArr ( _loc , ( Ast . PaAny _loc ) , ( Ast . ExNil _loc ) , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " False " ) ) ) ) ) ) ) ) ) ) ) ) , l ) let concat _loc l = Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdAcc ( _loc , ( Ast . IdUid ( _loc , " List " ) ) , ( Ast . IdLid ( _loc , " concat " ) ) ) ) ) ) , l ) let rec compr _loc e = function | [ ` gen ( ( p , l ) ) ] -> map _loc p e l | ` gen ( ( p , l ) ) :: ` cond b :: items -> compr _loc e ( ( ` gen ( ( p , ( filter _loc p b l ) ) ) ) :: items ) | ` gen ( ( p , l ) ) :: ( ( ` gen ( ( _ , _ ) ) :: _ as is ) ) -> concat _loc ( map _loc p ( compr _loc e is ) l ) | _ -> raise Stream . Failure let _ = Gram . delete_rule expr [ Gram . Skeyword " [ " ; Gram . Snterm ( Gram . Entry . obj ( sem_expr_for_list : ' sem_expr_for_list Gram . Entry . t ) ) ; Gram . Skeyword " ] " ] let is_revised = try ( Gram . delete_rule expr [ Gram . Skeyword " [ " ; Gram . Snterm ( Gram . Entry . obj ( sem_expr_for_list : ' sem_expr_for_list Gram . Entry . t ) ) ; Gram . Skeyword " " ; :: Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ; Gram . Skeyword " ] " ] ; true ) with | Not_found -> false let comprehension_or_sem_expr_for_list = Gram . Entry . mk " comprehension_or_sem_expr_for_list " let _ = let _ = ( expr : ' expr Gram . Entry . t ) and _ = ( comprehension_or_sem_expr_for_list : ' comprehension_or_sem_expr_for_list Gram . Entry . t ) in let grammar_entry_create = Gram . Entry . mk in let item : ' item Gram . Entry . t = grammar_entry_create " item " in ( Gram . extend ( expr : ' expr Gram . Entry . t ) ( ( fun ( ) -> ( ( Some ( Camlp4 . Sig . Grammar . Level " simple " ) ) , [ ( None , None , [ ( [ Gram . Skeyword " [ " ; Gram . Snterm ( Gram . Entry . obj ( comprehension_or_sem_expr_for_list : ' comprehension_or_sem_expr_for_list Gram . Entry . t ) ) ; Gram . Skeyword " ] " ] , ( Gram . Action . mk ( fun _ ( e : ' comprehension_or_sem_expr_for_list ) _ ( _loc : Gram . Loc . t ) -> ( e : ' expr ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( comprehension_or_sem_expr_for_list : ' comprehension_or_sem_expr_for_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterml ( ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) , " top " ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: e ) ) , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) ) ) : ' comprehension_or_sem_expr_for_list ) ) ) ) ; ( [ Gram . Snterml ( ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) , " top " ) ; Gram . Skeyword " " ; | Gram . Slist1sep ( ( Gram . Snterm ( Gram . Entry . obj ( item : ' item Gram . Entry . t ) ) ) , ( Gram . Skeyword " ; " ) ) ] , ( Gram . Action . mk ( fun ( l : ' item list ) _ ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( compr _loc e l : ' comprehension_or_sem_expr_for_list ) ) ) ) ; ( [ Gram . Snterml ( ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) , " top " ) ; Gram . Skeyword " ; " ] , ( Gram . Action . mk ( fun _ ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: e ) ) , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) ) ) : ' comprehension_or_sem_expr_for_list ) ) ) ) ; ( [ Gram . Snterml ( ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) , " top " ) ; Gram . Skeyword " ; " ; Gram . Snterm ( Gram . Entry . obj ( sem_expr_for_list : ' sem_expr_for_list Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( mk : ' sem_expr_for_list ) _ ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: e ) ) , ( mk ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " [ ] " ) ) ) ) ) ) : ' comprehension_or_sem_expr_for_list ) ) ) ) ] ) ] ) ) ( ) ) ; Gram . extend ( item : ' item Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterml ( ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) , " top " ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( ` cond e : ' item ) ) ) ) ; ( [ Gram . Stry ( Gram . srules item [ ( [ Gram . Snterm ( Gram . Entry . obj ( patt : ' patt Gram . Entry . t ) ) ; Gram . Skeyword " " <- ] , ( Gram . Action . mk ( fun _ ( p : ' patt ) ( _loc : Gram . Loc . t ) -> ( p : ' e__30 ) ) ) ) ] ) ; Gram . Snterml ( ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) , " top " ) ] , ( Gram . Action . mk ( fun ( e : ' expr ) ( p : ' e__30 ) ( _loc : Gram . Loc . t ) -> ( ` gen ( ( p , e ) ) : ' item ) ) ) ) ] ) ] ) ) ( ) ) ) let _ = if is_revised then ( let _ = ( expr : ' expr Gram . Entry . t ) and _ = ( comprehension_or_sem_expr_for_list : ' comprehension_or_sem_expr_for_list Gram . Entry . t ) in Gram . extend ( comprehension_or_sem_expr_for_list : ' comprehension_or_sem_expr_for_list Gram . Entry . t ) ( ( fun ( ) -> ( None , [ ( None , None , [ ( [ Gram . Snterml ( ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) , " top " ) ; Gram . Skeyword " " ; :: Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( last : ' expr ) _ ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: e ) ) , last ) : ' comprehension_or_sem_expr_for_list ) ) ) ) ; ( [ Gram . Snterml ( ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) , " top " ) ; Gram . Skeyword " ; " ; Gram . Snterm ( Gram . Entry . obj ( sem_expr_for_list : ' sem_expr_for_list Gram . Entry . t ) ) ; Gram . Skeyword " " ; :: Gram . Snterm ( Gram . Entry . obj ( expr : ' expr Gram . Entry . t ) ) ] , ( Gram . Action . mk ( fun ( last : ' expr ) _ ( mk : ' sem_expr_for_list ) _ ( e : ' expr ) ( _loc : Gram . Loc . t ) -> ( Ast . ExApp ( _loc , ( Ast . ExApp ( _loc , ( Ast . ExId ( _loc , ( Ast . IdUid ( _loc , " " ) ) ) ) , :: e ) ) , ( mk last ) ) : ' comprehension_or_sem_expr_for_list ) ) ) ) ] ) ] ) ) ( ) ) ) else ( ) end let _ = let module M = Register . OCamlSyntaxExtension ( Id ) ( Make ) in ( ) end |
module P = struct let _ = Camlp4 . Register . enable_dump_ocaml_ast_printer ( ) end |
Subsets and Splits
No community queries yet
The top public SQL queries from the community will appear here once available.