mirror of
https://github.com/CatalaLang/catala.git
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763 lines
28 KiB
OCaml
763 lines
28 KiB
OCaml
(* This file is part of the Catala compiler, a specification language for tax
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and social benefits computation rules. Copyright (C) 2020 Inria, contributor:
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Denis Merigoux <denis.merigoux@inria.fr>
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Licensed under the Apache License, Version 2.0 (the "License"); you may not
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use this file except in compliance with the License. You may obtain a copy of
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the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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License for the specific language governing permissions and limitations under
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the License. *)
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open Catala_utils
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open Shared_ast
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open Ast
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module D = Dcalc.Ast
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let format_lit (fmt : Format.formatter) (l : lit Mark.pos) : unit =
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match Mark.remove l with
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| LBool b -> Print.lit fmt (LBool b)
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| LInt i ->
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Format.fprintf fmt "integer_of_string@ \"%s\"" (Runtime.integer_to_string i)
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| LUnit -> Print.lit fmt LUnit
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| LRat i -> Format.fprintf fmt "decimal_of_string \"%a\"" Print.lit (LRat i)
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| LMoney e ->
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Format.fprintf fmt "money_of_cents_string@ \"%s\""
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(Runtime.integer_to_string (Runtime.money_to_cents e))
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| LDate d ->
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Format.fprintf fmt "date_of_numbers (%d) (%d) (%d)"
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(Runtime.integer_to_int (Runtime.year_of_date d))
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(Runtime.integer_to_int (Runtime.month_number_of_date d))
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(Runtime.integer_to_int (Runtime.day_of_month_of_date d))
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| LDuration d ->
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let years, months, days = Runtime.duration_to_years_months_days d in
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Format.fprintf fmt "duration_of_numbers (%d) (%d) (%d)" years months days
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let format_uid_list (fmt : Format.formatter) (uids : Uid.MarkedString.info list)
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: unit =
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Format.fprintf fmt "@[<hov 2>[%a]@]"
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(Format.pp_print_list
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~pp_sep:(fun fmt () -> Format.fprintf fmt ";@ ")
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(fun fmt info ->
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Format.fprintf fmt "\"%a\"" Uid.MarkedString.format info))
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uids
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let format_string_list (fmt : Format.formatter) (uids : string list) : unit =
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let sanitize_quotes = Re.compile (Re.char '"') in
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Format.fprintf fmt "@[<hov 2>[%a]@]"
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(Format.pp_print_list
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~pp_sep:(fun fmt () -> Format.fprintf fmt ";@ ")
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(fun fmt info ->
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Format.fprintf fmt "\"%s\""
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(Re.replace sanitize_quotes ~f:(fun _ -> "\\\"") info)))
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uids
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(* list taken from
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http://caml.inria.fr/pub/docs/manual-ocaml/lex.html#sss:keywords *)
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let ocaml_keywords =
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[
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"and";
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"as";
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"assert";
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"asr";
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"begin";
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"class";
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"constraint";
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"do";
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"done";
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"downto";
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"else";
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"end";
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"exception";
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"external";
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"false";
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"for";
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"fun";
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"function";
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"functor";
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"if";
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"in";
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"include";
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"inherit";
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"initializer";
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"land";
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"lazy";
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"let";
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"lor";
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"lsl";
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"lsr";
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"lxor";
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"match";
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"method";
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"mod";
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"module";
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"mutable";
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"new";
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"nonrec";
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"object";
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"of";
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"open";
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"or";
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"private";
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"rec";
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"sig";
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"struct";
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"then";
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"to";
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"true";
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"try";
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"type";
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"val";
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"virtual";
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"when";
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"while";
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"with";
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"Stdlib";
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"Runtime";
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"Oper";
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]
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let ocaml_keywords_set = String.Set.of_list ocaml_keywords
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let avoid_keywords (s : string) : string =
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if String.Set.mem s ocaml_keywords_set then s ^ "_user" else s
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(* Fixme: this could cause clashes if the user program contains both e.g. [new]
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and [new_user] *)
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let format_struct_name (fmt : Format.formatter) (v : StructName.t) : unit =
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Format.asprintf "%a" StructName.format v
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|> String.to_ascii
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|> String.to_snake_case
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|> avoid_keywords
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|> Format.fprintf fmt "%s"
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let format_to_module_name
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(fmt : Format.formatter)
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(name : [< `Ename of EnumName.t | `Sname of StructName.t ]) =
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(match name with
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| `Ename v -> Format.asprintf "%a" EnumName.format v
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| `Sname v -> Format.asprintf "%a" StructName.format v)
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|> String.to_ascii
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|> avoid_keywords
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|> Format.pp_print_string fmt
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let format_struct_field_name
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(fmt : Format.formatter)
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((sname_opt, v) : StructName.t option * StructField.t) : unit =
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(match sname_opt with
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| Some sname ->
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Format.fprintf fmt "%a.%s" format_to_module_name (`Sname sname)
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| None -> Format.fprintf fmt "%s")
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(avoid_keywords
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(String.to_ascii (Format.asprintf "%a" StructField.format v)))
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let format_enum_name (fmt : Format.formatter) (v : EnumName.t) : unit =
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Format.fprintf fmt "%s"
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(avoid_keywords
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(String.to_snake_case
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(String.to_ascii (Format.asprintf "%a" EnumName.format v))))
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let format_enum_cons_name (fmt : Format.formatter) (v : EnumConstructor.t) :
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unit =
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Format.fprintf fmt "%s"
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(avoid_keywords
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(String.to_ascii (Format.asprintf "%a" EnumConstructor.format v)))
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let rec typ_embedding_name (fmt : Format.formatter) (ty : typ) : unit =
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match Mark.remove ty with
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| TLit TUnit -> Format.fprintf fmt "embed_unit"
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| TLit TBool -> Format.fprintf fmt "embed_bool"
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| TLit TInt -> Format.fprintf fmt "embed_integer"
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| TLit TRat -> Format.fprintf fmt "embed_decimal"
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| TLit TMoney -> Format.fprintf fmt "embed_money"
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| TLit TDate -> Format.fprintf fmt "embed_date"
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| TLit TDuration -> Format.fprintf fmt "embed_duration"
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| TStruct s_name -> Format.fprintf fmt "embed_%a" format_struct_name s_name
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| TEnum e_name -> Format.fprintf fmt "embed_%a" format_enum_name e_name
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| TArray ty -> Format.fprintf fmt "embed_array (%a)" typ_embedding_name ty
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| _ -> Format.fprintf fmt "unembeddable"
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let typ_needs_parens (e : typ) : bool =
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match Mark.remove e with TArrow _ | TArray _ -> true | _ -> false
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let rec format_typ (fmt : Format.formatter) (typ : typ) : unit =
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let format_typ_with_parens (fmt : Format.formatter) (t : typ) =
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if typ_needs_parens t then Format.fprintf fmt "(%a)" format_typ t
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else Format.fprintf fmt "%a" format_typ t
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in
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match Mark.remove typ with
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| TLit l -> Format.fprintf fmt "%a" Print.tlit l
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| TTuple ts ->
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Format.fprintf fmt "@[<hov 2>(%a)@]"
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(Format.pp_print_list
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~pp_sep:(fun fmt () -> Format.fprintf fmt "@ *@ ")
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format_typ_with_parens)
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ts
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| TStruct s -> Format.fprintf fmt "%a.t" format_to_module_name (`Sname s)
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| TOption t ->
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Format.fprintf fmt "@[<hov 2>(%a)@] %a.t" format_typ_with_parens t
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format_to_module_name (`Ename Expr.option_enum)
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| TDefault t -> format_typ fmt t
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| TEnum e -> Format.fprintf fmt "%a.t" format_to_module_name (`Ename e)
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| TArrow (t1, t2) ->
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Format.fprintf fmt "@[<hov 2>%a@]"
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(Format.pp_print_list
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~pp_sep:(fun fmt () -> Format.fprintf fmt " ->@ ")
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format_typ_with_parens)
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(t1 @ [t2])
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| TArray t1 -> Format.fprintf fmt "@[%a@ array@]" format_typ_with_parens t1
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| TAny -> Format.fprintf fmt "_"
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| TClosureEnv -> failwith "unimplemented!"
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let format_var_str (fmt : Format.formatter) (v : string) : unit =
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let lowercase_name = String.to_snake_case (String.to_ascii v) in
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let lowercase_name =
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Re.Pcre.substitute ~rex:(Re.Pcre.regexp "\\.")
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~subst:(fun _ -> "_dot_")
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lowercase_name
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in
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let lowercase_name = String.to_ascii lowercase_name in
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if
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List.mem lowercase_name ["handle_default"; "handle_default_opt"]
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(* O_O *)
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|| String.begins_with_uppercase v
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then Format.pp_print_string fmt lowercase_name
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else if lowercase_name = "_" then Format.pp_print_string fmt lowercase_name
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else Format.fprintf fmt "%s_" lowercase_name
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let format_var (fmt : Format.formatter) (v : 'm Var.t) : unit =
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format_var_str fmt (Bindlib.name_of v)
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let needs_parens (e : 'm expr) : bool =
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match Mark.remove e with
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| EApp { f = EAbs _, _; _ }
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| ELit (LBool _ | LUnit)
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| EVar _ | ETuple _ | EOp _ ->
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false
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| _ -> true
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let format_exception (fmt : Format.formatter) (exc : except Mark.pos) : unit =
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match Mark.remove exc with
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| ConflictError ->
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let pos = Mark.get exc in
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Format.fprintf fmt
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"(ConflictError@ @[<hov 2>{filename = \"%s\";@\n\
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start_line=%d;@ start_column=%d;@ end_line=%d; end_column=%d;@ \
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law_headings=%a}@])"
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(Pos.get_file pos) (Pos.get_start_line pos) (Pos.get_start_column pos)
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(Pos.get_end_line pos) (Pos.get_end_column pos) format_string_list
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(Pos.get_law_info pos)
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| EmptyError -> Format.fprintf fmt "EmptyError"
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| Crash -> Format.fprintf fmt "Crash"
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| NoValueProvided ->
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let pos = Mark.get exc in
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Format.fprintf fmt
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"(NoValueProvided@ @[<hov 2>{filename = \"%s\";@ start_line=%d;@ \
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start_column=%d;@ end_line=%d; end_column=%d;@ law_headings=%a}@])"
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(Pos.get_file pos) (Pos.get_start_line pos) (Pos.get_start_column pos)
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(Pos.get_end_line pos) (Pos.get_end_column pos) format_string_list
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(Pos.get_law_info pos)
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let rec format_expr (ctx : decl_ctx) (fmt : Format.formatter) (e : 'm expr) :
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unit =
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let format_expr = format_expr ctx in
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let format_with_parens (fmt : Format.formatter) (e : 'm expr) =
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if needs_parens e then Format.fprintf fmt "(%a)" format_expr e
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else Format.fprintf fmt "%a" format_expr e
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in
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match Mark.remove e with
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| EVar v -> Format.fprintf fmt "%a" format_var v
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| EExternal { name } -> (
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(* FIXME: this is wrong in general !! We assume the idents exposed by the
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module depend only on the original name, while they actually get through
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Bindlib and may have been renamed. A correct implem could use the runtime
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registration used by the interpreter, but that would be distasteful and
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incur a penalty ; or we would need to reproduce the same structure as in
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the original module to ensure that bindlib performs the exact same
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renamings ; or finally we could normalise the names at generation time
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(either at toplevel or in a dedicated submodule ?) *)
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let path =
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match Mark.remove name with
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| External_value name -> TopdefName.path name
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| External_scope name -> ScopeName.path name
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in
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Uid.Path.format fmt path;
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match Mark.remove name with
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| External_value name ->
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format_var_str fmt (Mark.remove (TopdefName.get_info name))
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| External_scope name ->
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format_var_str fmt (Mark.remove (ScopeName.get_info name)))
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| ETuple es ->
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Format.fprintf fmt "@[<hov 2>(%a)@]"
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(Format.pp_print_list
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~pp_sep:(fun fmt () -> Format.fprintf fmt ",@ ")
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(fun fmt e -> Format.fprintf fmt "%a" format_with_parens e))
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es
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| EStruct { name = s; fields = es } ->
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if StructField.Map.is_empty es then Format.fprintf fmt "()"
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else
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Format.fprintf fmt "{@[<hov 2>%a@]}"
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(Format.pp_print_list
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~pp_sep:(fun fmt () -> Format.fprintf fmt ";@ ")
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(fun fmt (struct_field, e) ->
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Format.fprintf fmt "@[<hov 2>%a =@ %a@]" format_struct_field_name
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(Some s, struct_field) format_with_parens e))
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(StructField.Map.bindings es)
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| EArray es ->
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Format.fprintf fmt "@[<hov 2>[|%a|]@]"
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(Format.pp_print_list
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~pp_sep:(fun fmt () -> Format.fprintf fmt ";@ ")
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(fun fmt e -> Format.fprintf fmt "%a" format_with_parens e))
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es
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| ETupleAccess { e; index; size } ->
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Format.fprintf fmt "let@ %a@ = %a@ in@ x"
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(Format.pp_print_list
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~pp_sep:(fun fmt () -> Format.fprintf fmt ",@ ")
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(fun fmt i ->
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Format.pp_print_string fmt (if i = index then "x" else "_")))
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(List.init size Fun.id) format_with_parens e
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| EStructAccess { e; field; name } ->
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Format.fprintf fmt "%a.%a" format_with_parens e format_struct_field_name
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(Some name, field)
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| EInj { e; cons; name } ->
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Format.fprintf fmt "@[<hov 2>%a.%a@ %a@]" format_to_module_name
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(`Ename name) format_enum_cons_name cons format_with_parens e
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| EMatch { e; cases; name } ->
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Format.fprintf fmt "@[<hv>@[<hov 2>match@ %a@]@ with@\n| %a@]"
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format_with_parens e
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(Format.pp_print_list
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~pp_sep:(fun fmt () -> Format.fprintf fmt "@ | ")
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(fun fmt (c, e) ->
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Format.fprintf fmt "@[<hov 2>%a.%a %a@]" format_to_module_name
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(`Ename name) format_enum_cons_name c
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(fun fmt e ->
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match Mark.remove e with
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| EAbs { binder; _ } ->
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let xs, body = Bindlib.unmbind binder in
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Format.fprintf fmt "%a ->@ %a"
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(Format.pp_print_list
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~pp_sep:(fun fmt () -> Format.fprintf fmt "@,")
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(fun fmt x -> Format.fprintf fmt "%a" format_var x))
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(Array.to_list xs) format_with_parens body
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| _ -> assert false
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(* should not happen *))
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e))
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(EnumConstructor.Map.bindings cases)
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| ELit l -> Format.fprintf fmt "%a" format_lit (Mark.add (Expr.pos e) l)
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| EApp { f = EAbs { binder; tys }, _; args } ->
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let xs, body = Bindlib.unmbind binder in
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let xs_tau = List.map2 (fun x tau -> x, tau) (Array.to_list xs) tys in
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let xs_tau_arg = List.map2 (fun (x, tau) arg -> x, tau, arg) xs_tau args in
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Format.fprintf fmt "(%a%a)"
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(Format.pp_print_list
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~pp_sep:(fun fmt () -> Format.fprintf fmt "")
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(fun fmt (x, tau, arg) ->
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Format.fprintf fmt "@[<hov 2>let@ %a@ :@ %a@ =@ %a@]@ in@\n"
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format_var x format_typ tau format_with_parens arg))
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xs_tau_arg format_with_parens body
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| EAbs { binder; tys } ->
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let xs, body = Bindlib.unmbind binder in
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let xs_tau = List.map2 (fun x tau -> x, tau) (Array.to_list xs) tys in
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Format.fprintf fmt "@[<hov 2>fun@ %a ->@ %a@]"
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(Format.pp_print_list
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~pp_sep:(fun fmt () -> Format.fprintf fmt "@ ")
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(fun fmt (x, tau) ->
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Format.fprintf fmt "@[<hov 2>(%a:@ %a)@]" format_var x format_typ tau))
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xs_tau format_expr body
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| EApp
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{
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f = EApp { f = EOp { op = Log (BeginCall, info); _ }, _; args = [f] }, _;
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args = [arg];
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}
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when Cli.globals.trace ->
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Format.fprintf fmt "(log_begin_call@ %a@ %a)@ %a" format_uid_list info
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format_with_parens f format_with_parens arg
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| EApp
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{ f = EOp { op = Log (VarDef var_def_info, info); _ }, _; args = [arg1] }
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when Cli.globals.trace ->
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Format.fprintf fmt
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"(log_variable_definition@ %a@ {io_input=%s;@ io_output=%b}@ (%a)@ %a)"
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format_uid_list info
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(match var_def_info.log_io_input with
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| NoInput -> "NoInput"
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| OnlyInput -> "OnlyInput"
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| Reentrant -> "Reentrant")
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var_def_info.log_io_output typ_embedding_name
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(var_def_info.log_typ, Pos.no_pos)
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format_with_parens arg1
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| EApp { f = EOp { op = Log (PosRecordIfTrueBool, _); _ }, m; args = [arg1] }
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when Cli.globals.trace ->
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let pos = Expr.mark_pos m in
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Format.fprintf fmt
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"(log_decision_taken@ @[<hov 2>{filename = \"%s\";@ start_line=%d;@ \
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start_column=%d;@ end_line=%d; end_column=%d;@ law_headings=%a}@]@ %a)"
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(Pos.get_file pos) (Pos.get_start_line pos) (Pos.get_start_column pos)
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(Pos.get_end_line pos) (Pos.get_end_column pos) format_string_list
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(Pos.get_law_info pos) format_with_parens arg1
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| EApp { f = EOp { op = Log (EndCall, info); _ }, _; args = [arg1] }
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when Cli.globals.trace ->
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Format.fprintf fmt "(log_end_call@ %a@ %a)" format_uid_list info
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format_with_parens arg1
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| EApp { f = EOp { op = Log _; _ }, _; args = [arg1] } ->
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Format.fprintf fmt "%a" format_with_parens arg1
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| EApp
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{
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f = EOp { op = (HandleDefault | HandleDefaultOpt) as op; _ }, pos;
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args;
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} ->
|
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Format.fprintf fmt
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"@[<hov 2>%s@ @[<hov 2>{filename = \"%s\";@ start_line=%d;@ \
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start_column=%d;@ end_line=%d; end_column=%d;@ law_headings=%a}@]@ %a@]"
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(Print.operator_to_string op)
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|
(Pos.get_file (Expr.mark_pos pos))
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|
(Pos.get_start_line (Expr.mark_pos pos))
|
|
(Pos.get_start_column (Expr.mark_pos pos))
|
|
(Pos.get_end_line (Expr.mark_pos pos))
|
|
(Pos.get_end_column (Expr.mark_pos pos))
|
|
format_string_list
|
|
(Pos.get_law_info (Expr.mark_pos pos))
|
|
(Format.pp_print_list
|
|
~pp_sep:(fun fmt () -> Format.fprintf fmt "@ ")
|
|
format_with_parens)
|
|
args
|
|
| EApp { f; args } ->
|
|
Format.fprintf fmt "@[<hov 2>%a@ %a@]" format_with_parens f
|
|
(Format.pp_print_list
|
|
~pp_sep:(fun fmt () -> Format.fprintf fmt "@ ")
|
|
format_with_parens)
|
|
args
|
|
| EIfThenElse { cond; etrue; efalse } ->
|
|
Format.fprintf fmt
|
|
"@[<hov 2> if@ @[<hov 2>%a@]@ then@ @[<hov 2>%a@]@ else@ @[<hov 2>%a@]@]"
|
|
format_with_parens cond format_with_parens etrue format_with_parens efalse
|
|
| EOp { op; _ } -> Format.pp_print_string fmt (Operator.name op)
|
|
| EAssert e' ->
|
|
Format.fprintf fmt
|
|
"@[<hov 2>if@ %a@ then@ ()@ else@ raise (AssertionFailed @[<hov \
|
|
2>{filename = \"%s\";@ start_line=%d;@ start_column=%d;@ end_line=%d; \
|
|
end_column=%d;@ law_headings=%a}@])@]"
|
|
format_with_parens e'
|
|
(Pos.get_file (Expr.pos e'))
|
|
(Pos.get_start_line (Expr.pos e'))
|
|
(Pos.get_start_column (Expr.pos e'))
|
|
(Pos.get_end_line (Expr.pos e'))
|
|
(Pos.get_end_column (Expr.pos e'))
|
|
format_string_list
|
|
(Pos.get_law_info (Expr.pos e'))
|
|
| ERaise exc ->
|
|
Format.fprintf fmt "raise@ %a" format_exception (exc, Expr.pos e)
|
|
| ECatch { body; exn; handler } ->
|
|
Format.fprintf fmt
|
|
"@,@[<hv>@[<hov 2>try@ %a@]@ with@]@ @[<hov 2>%a@ ->@ %a@]"
|
|
format_with_parens body format_exception
|
|
(exn, Expr.pos e)
|
|
format_with_parens handler
|
|
| _ -> .
|
|
|
|
let format_struct_embedding
|
|
(fmt : Format.formatter)
|
|
((struct_name, struct_fields) : StructName.t * typ StructField.Map.t) =
|
|
if StructField.Map.is_empty struct_fields then
|
|
Format.fprintf fmt "let embed_%a (_: %a.t) : runtime_value = Unit@\n@\n"
|
|
format_struct_name struct_name format_to_module_name (`Sname struct_name)
|
|
else
|
|
Format.fprintf fmt
|
|
"@[<hov 2>let embed_%a (x: %a.t) : runtime_value =@ Struct([\"%a\"],@ \
|
|
@[<hov 2>[%a]@])@]@\n\
|
|
@\n"
|
|
format_struct_name struct_name format_to_module_name (`Sname struct_name)
|
|
StructName.format struct_name
|
|
(Format.pp_print_list
|
|
~pp_sep:(fun fmt () -> Format.fprintf fmt ";@\n")
|
|
(fun fmt (struct_field, struct_field_type) ->
|
|
Format.fprintf fmt "(\"%a\",@ %a@ x.%a)" StructField.format
|
|
struct_field typ_embedding_name struct_field_type
|
|
format_struct_field_name
|
|
(Some struct_name, struct_field)))
|
|
(StructField.Map.bindings struct_fields)
|
|
|
|
let format_enum_embedding
|
|
(fmt : Format.formatter)
|
|
((enum_name, enum_cases) : EnumName.t * typ EnumConstructor.Map.t) =
|
|
if EnumConstructor.Map.is_empty enum_cases then
|
|
Format.fprintf fmt "let embed_%a (_: %a.t) : runtime_value = Unit@\n@\n"
|
|
format_to_module_name (`Ename enum_name) format_enum_name enum_name
|
|
else
|
|
Format.fprintf fmt
|
|
"@[<hv 2>@[<hov 2>let embed_%a@ @[<hov 2>(x:@ %a.t)@]@ : runtime_value \
|
|
=@]@ Enum([\"%a\"],@ @[<hov 2>match x with@ %a@])@]@\n\
|
|
@\n"
|
|
format_enum_name enum_name format_to_module_name (`Ename enum_name)
|
|
EnumName.format enum_name
|
|
(Format.pp_print_list
|
|
~pp_sep:(fun fmt () -> Format.fprintf fmt "@\n")
|
|
(fun fmt (enum_cons, enum_cons_type) ->
|
|
Format.fprintf fmt "@[<hov 2>| %a x ->@ (\"%a\", %a x)@]"
|
|
format_enum_cons_name enum_cons EnumConstructor.format enum_cons
|
|
typ_embedding_name enum_cons_type))
|
|
(EnumConstructor.Map.bindings enum_cases)
|
|
|
|
let format_ctx
|
|
(type_ordering : Scopelang.Dependency.TVertex.t list)
|
|
(fmt : Format.formatter)
|
|
(ctx : decl_ctx) : unit =
|
|
let format_struct_decl fmt (struct_name, struct_fields) =
|
|
if StructField.Map.is_empty struct_fields then
|
|
Format.fprintf fmt
|
|
"@[<v 2>module %a = struct@\n@[<hov 2>type t = unit@]@]@\nend@\n"
|
|
format_to_module_name (`Sname struct_name)
|
|
else
|
|
Format.fprintf fmt
|
|
"@[<v>@[<v 2>module %a = struct@ @[<hv 2>type t = {@,\
|
|
%a@;\
|
|
<0-2>}@]@]@ end@]@\n"
|
|
format_to_module_name (`Sname struct_name)
|
|
(Format.pp_print_list
|
|
~pp_sep:(fun fmt () -> Format.fprintf fmt ";@ ")
|
|
(fun fmt (struct_field, struct_field_type) ->
|
|
Format.fprintf fmt "@[<hov 2>%a:@ %a@]" format_struct_field_name
|
|
(None, struct_field) format_typ struct_field_type))
|
|
(StructField.Map.bindings struct_fields);
|
|
if Cli.globals.trace then
|
|
format_struct_embedding fmt (struct_name, struct_fields)
|
|
in
|
|
let format_enum_decl fmt (enum_name, enum_cons) =
|
|
Format.fprintf fmt
|
|
"module %a = struct@\n@[<hov 2>@ type t =@\n@[<hov 2> %a@]@\nend@]@\n"
|
|
format_to_module_name (`Ename enum_name)
|
|
(Format.pp_print_list
|
|
~pp_sep:(fun fmt () -> Format.fprintf fmt "@\n")
|
|
(fun fmt (enum_cons, enum_cons_type) ->
|
|
Format.fprintf fmt "@[<hov 2>| %a@ of@ %a@]" format_enum_cons_name
|
|
enum_cons format_typ enum_cons_type))
|
|
(EnumConstructor.Map.bindings enum_cons);
|
|
if Cli.globals.trace then format_enum_embedding fmt (enum_name, enum_cons)
|
|
in
|
|
let is_in_type_ordering s =
|
|
List.exists
|
|
(fun struct_or_enum ->
|
|
match struct_or_enum with
|
|
| Scopelang.Dependency.TVertex.Enum _ -> false
|
|
| Scopelang.Dependency.TVertex.Struct s' -> s = s')
|
|
type_ordering
|
|
in
|
|
let scope_structs =
|
|
List.map
|
|
(fun (s, _) -> Scopelang.Dependency.TVertex.Struct s)
|
|
(StructName.Map.bindings
|
|
(StructName.Map.filter
|
|
(fun s _ -> not (is_in_type_ordering s))
|
|
ctx.ctx_structs))
|
|
in
|
|
List.iter
|
|
(fun struct_or_enum ->
|
|
match struct_or_enum with
|
|
| Scopelang.Dependency.TVertex.Struct s ->
|
|
let def = StructName.Map.find s ctx.ctx_structs in
|
|
if StructName.path s = [] then
|
|
Format.fprintf fmt "%a@\n" format_struct_decl (s, def)
|
|
| Scopelang.Dependency.TVertex.Enum e ->
|
|
let def = EnumName.Map.find e ctx.ctx_enums in
|
|
if EnumName.path e = [] then
|
|
Format.fprintf fmt "%a@\n" format_enum_decl (e, def))
|
|
(type_ordering @ scope_structs)
|
|
|
|
let rename_vars e =
|
|
Expr.(
|
|
unbox
|
|
(rename_vars ~exclude:ocaml_keywords ~reset_context_for_closed_terms:true
|
|
~skip_constant_binders:true ~constant_binder_name:(Some "_") e))
|
|
|
|
let format_expr ctx fmt e = format_expr ctx fmt (rename_vars e)
|
|
|
|
let rec format_scope_body_expr
|
|
(ctx : decl_ctx)
|
|
(fmt : Format.formatter)
|
|
(scope_lets : 'm Ast.expr scope_body_expr) : unit =
|
|
match scope_lets with
|
|
| Result e -> format_expr ctx fmt e
|
|
| ScopeLet scope_let ->
|
|
let scope_let_var, scope_let_next =
|
|
Bindlib.unbind scope_let.scope_let_next
|
|
in
|
|
Format.fprintf fmt "@[<hov 2>let %a: %a = %a in@]@\n%a" format_var
|
|
scope_let_var format_typ scope_let.scope_let_typ (format_expr ctx)
|
|
scope_let.scope_let_expr
|
|
(format_scope_body_expr ctx)
|
|
scope_let_next
|
|
|
|
let format_code_items
|
|
(ctx : decl_ctx)
|
|
(fmt : Format.formatter)
|
|
(code_items : 'm Ast.expr code_item_list) :
|
|
('m Ast.expr Var.t * 'm Ast.expr code_item) String.Map.t =
|
|
Scope.fold_left
|
|
~f:(fun bnd item var ->
|
|
match item with
|
|
| Topdef (name, typ, e) ->
|
|
Format.fprintf fmt "@\n@\n@[<hov 2>let %a : %a =@\n%a@]" format_var var
|
|
format_typ typ (format_expr ctx) e;
|
|
String.Map.add (TopdefName.to_string name) (var, item) bnd
|
|
| ScopeDef (name, body) ->
|
|
let scope_input_var, scope_body_expr =
|
|
Bindlib.unbind body.scope_body_expr
|
|
in
|
|
Format.fprintf fmt "@\n@\n@[<hov 2>let %a (%a: %a.t) : %a.t =@\n%a@]"
|
|
format_var var format_var scope_input_var format_to_module_name
|
|
(`Sname body.scope_body_input_struct) format_to_module_name
|
|
(`Sname body.scope_body_output_struct)
|
|
(format_scope_body_expr ctx)
|
|
scope_body_expr;
|
|
String.Map.add (ScopeName.to_string name) (var, item) bnd)
|
|
~init:String.Map.empty code_items
|
|
|
|
let format_scope_exec
|
|
(ctx : decl_ctx)
|
|
(fmt : Format.formatter)
|
|
(bnd : ('m Ast.expr Var.t * _) String.Map.t)
|
|
scope_name
|
|
scope_body =
|
|
let scope_name_str = Format.asprintf "%a" ScopeName.format scope_name in
|
|
let scope_var, _ = String.Map.find scope_name_str bnd in
|
|
let scope_input =
|
|
StructName.Map.find scope_body.scope_body_input_struct ctx.ctx_structs
|
|
in
|
|
if not (StructField.Map.is_empty scope_input) then
|
|
Message.raise_error
|
|
"The scope @{<bold>%s@} defines input variables.@ This is not supported \
|
|
for a main scope at the moment."
|
|
scope_name_str;
|
|
Format.pp_open_vbox fmt 2;
|
|
Format.pp_print_string fmt "let () =";
|
|
(* TODO: dump the output using yojson that should be already available from
|
|
the runtime *)
|
|
Format.pp_print_space fmt ();
|
|
format_var fmt scope_var;
|
|
Format.pp_print_space fmt ();
|
|
Format.pp_print_string fmt "()";
|
|
Format.pp_close_box fmt ()
|
|
|
|
let format_scope_exec_args
|
|
(ctx : decl_ctx)
|
|
(fmt : Format.formatter)
|
|
(bnd : ('m Ast.expr Var.t * 'm Ast.expr code_item) String.Map.t) =
|
|
let scopes_with_no_input =
|
|
String.Map.fold
|
|
(fun strname (var, item) acc ->
|
|
match item with
|
|
| Topdef _ -> acc
|
|
| ScopeDef (name, body) ->
|
|
let input_struct =
|
|
StructName.Map.find body.scope_body_input_struct ctx.ctx_structs
|
|
in
|
|
if StructField.Map.is_empty input_struct then
|
|
(var, name, strname) :: acc
|
|
else acc)
|
|
bnd []
|
|
|> List.rev
|
|
in
|
|
if scopes_with_no_input = [] then
|
|
Message.raise_error
|
|
"No scopes that don't require input were found, executable can't be \
|
|
generated";
|
|
Format.eprintf "@[<hov 2>Generating entry points for scopes:@ %a@]@."
|
|
(Format.pp_print_list ~pp_sep:Format.pp_print_space (fun ppf (_, s, _) ->
|
|
ScopeName.format ppf s))
|
|
scopes_with_no_input;
|
|
Format.pp_print_string fmt "\nlet entry_scopes = [\n";
|
|
List.iter
|
|
(fun (_, _, name) -> Format.fprintf fmt " %S;\n" name)
|
|
scopes_with_no_input;
|
|
Format.pp_print_string fmt "]\n";
|
|
|
|
Format.pp_print_string fmt
|
|
{|
|
|
let commands =
|
|
List.map (fun c ->
|
|
if List.mem c entry_scopes then c else (
|
|
print_endline "Specify scopes from the following list (or no argument for running them all):";
|
|
List.iter (fun n -> print_endline (" - " ^ n)) entry_scopes;
|
|
exit 1
|
|
))
|
|
(List.tl (Array.to_list Sys.argv))
|
|
|
|
let commands = if commands = [] then entry_scopes else commands
|
|
|
|
|};
|
|
List.iter
|
|
(fun (var, _, name) ->
|
|
(* Note: this only checks that execution doesn't raise errors or assert
|
|
failures. Adding a printer for the results could be an idea... *)
|
|
Format.fprintf fmt
|
|
"let () = if List.mem %S commands then (\n\
|
|
\ ignore (%a ());\n\
|
|
\ print_endline \"Scope %s executed successfully.\"\n\
|
|
)@\n"
|
|
name format_var var name)
|
|
scopes_with_no_input
|
|
|
|
let format_module_registration
|
|
fmt
|
|
(bnd : ('m Ast.expr Var.t * _) String.Map.t)
|
|
modname =
|
|
Format.pp_open_vbox fmt 2;
|
|
Format.pp_print_string fmt "let () =";
|
|
Format.pp_print_space fmt ();
|
|
Format.pp_open_hvbox fmt 2;
|
|
Format.fprintf fmt "Runtime_ocaml.Runtime.register_module \"%a\""
|
|
ModuleName.format modname;
|
|
Format.pp_print_space fmt ();
|
|
Format.pp_open_vbox fmt 2;
|
|
Format.pp_print_string fmt "[ ";
|
|
Format.pp_print_seq
|
|
~pp_sep:(fun fmt () ->
|
|
Format.pp_print_char fmt ';';
|
|
Format.pp_print_cut fmt ())
|
|
(fun fmt (id, (var, _)) ->
|
|
Format.fprintf fmt "@[<hov 2>%S,@ Obj.repr %a@]" id format_var var)
|
|
fmt (String.Map.to_seq bnd);
|
|
Format.pp_close_box fmt ();
|
|
Format.pp_print_char fmt ' ';
|
|
Format.pp_print_string fmt "]";
|
|
Format.pp_print_space fmt ();
|
|
Format.pp_print_string fmt "\"todo-module-hash\"";
|
|
Format.pp_close_box fmt ();
|
|
Format.pp_close_box fmt ();
|
|
Format.pp_print_newline fmt ()
|
|
|
|
let header =
|
|
{ocaml|
|
|
(** This file has been generated by the Catala compiler, do not edit! *)
|
|
|
|
open Runtime_ocaml.Runtime
|
|
|
|
[@@@ocaml.warning "-4-26-27-32-41-42"]
|
|
|
|
|ocaml}
|
|
|
|
let format_program
|
|
(fmt : Format.formatter)
|
|
?exec_scope
|
|
?(exec_args = true)
|
|
(p : 'm Ast.program)
|
|
(type_ordering : Scopelang.Dependency.TVertex.t list) : unit =
|
|
Format.pp_print_string fmt header;
|
|
format_ctx type_ordering fmt p.decl_ctx;
|
|
let bnd = format_code_items p.decl_ctx fmt p.code_items in
|
|
Format.pp_print_newline fmt ();
|
|
match p.module_name, exec_scope with
|
|
| Some modname, None -> format_module_registration fmt bnd modname
|
|
| None, Some scope_name ->
|
|
let scope_body = Program.get_scope_body p scope_name in
|
|
format_scope_exec p.decl_ctx fmt bnd scope_name scope_body
|
|
| None, None -> if exec_args then format_scope_exec_args p.decl_ctx fmt bnd
|
|
| Some _, Some _ ->
|
|
Message.raise_error
|
|
"OCaml generation: both module registration and top-level scope \
|
|
execution where required at the same time."
|