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https://github.com/CatalaLang/catala.git
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a56d95d790
This allows for retyping after monomorphisation: a new function just extracts the return type of the operator, without checking the operand types. Also to avoid multiplying function arguments around the typer, the flags have been gathered in a record that is included in the typing environment; it's ok to give them default values as long as these are the strictest.
138 lines
4.5 KiB
OCaml
138 lines
4.5 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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type location = scopelang glocation
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module LocationSet : Set.S with type elt = location Mark.pos = Set.Make (struct
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type t = location Mark.pos
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let compare = Expr.compare_location
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end)
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type 'm expr = (scopelang, 'm) gexpr
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let rec locations_used (e : 'm expr) : LocationSet.t =
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match e with
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| ELocation l, pos -> LocationSet.singleton (l, Expr.mark_pos pos)
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| EAbs { binder; _ }, _ ->
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let _, body = Bindlib.unmbind binder in
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locations_used body
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| e ->
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Expr.shallow_fold
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(fun e -> LocationSet.union (locations_used e))
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e LocationSet.empty
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type 'm rule =
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| Definition of location Mark.pos * typ * Desugared.Ast.io * 'm expr
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| Assertion of 'm expr
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| Call of ScopeName.t * SubScopeName.t * 'm mark
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type scope_var_ty = {
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svar_in_ty : typ;
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svar_out_ty : typ;
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svar_io : Desugared.Ast.io;
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}
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type 'm scope_decl = {
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scope_decl_name : ScopeName.t;
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scope_sig : scope_var_ty ScopeVar.Map.t;
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scope_decl_rules : 'm rule list;
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scope_options : Desugared.Ast.catala_option Mark.pos list;
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}
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type 'm program = {
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program_module_name : ModuleName.t option;
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program_ctx : decl_ctx;
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program_modules : nil scope_decl Mark.pos ScopeName.Map.t ModuleName.Map.t;
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program_scopes : 'm scope_decl Mark.pos ScopeName.Map.t;
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program_topdefs : ('m expr * typ) TopdefName.Map.t;
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program_lang : Cli.backend_lang;
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}
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let type_rule decl_ctx env = function
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| Definition (loc, typ, io, expr) ->
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let expr' = Typing.expr decl_ctx ~env ~typ expr in
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Definition (loc, typ, io, Expr.unbox expr')
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| Assertion expr ->
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let typ = Mark.add (Expr.pos expr) (TLit TBool) in
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let expr' = Typing.expr decl_ctx ~env ~typ expr in
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Assertion (Expr.unbox expr')
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| Call (sc_name, ssc_name, m) ->
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let pos = Expr.mark_pos m in
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Call (sc_name, ssc_name, Typed { pos; ty = Mark.add pos TAny })
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let type_program (type m) (prg : m program) : typed program =
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(* Caution: this environment building code is very similar to that in
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desugared/disambiguate.ml. Any edits should probably be reflected. *)
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let env = Typing.Env.empty prg.program_ctx in
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let env =
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TopdefName.Map.fold
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(fun name ty env -> Typing.Env.add_toplevel_var name ty env)
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prg.program_ctx.ctx_topdefs env
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in
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let env =
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ScopeName.Map.fold
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(fun scope_name _info env ->
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let scope_sig =
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match ScopeName.path scope_name with
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| [] ->
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(Mark.remove (ScopeName.Map.find scope_name prg.program_scopes))
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.scope_sig
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| p ->
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let m = List.hd (List.rev p) in
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let scope =
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ScopeName.Map.find scope_name
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(ModuleName.Map.find m prg.program_modules)
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in
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(Mark.remove scope).scope_sig
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in
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let vars =
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ScopeVar.Map.map (fun { svar_out_ty; _ } -> svar_out_ty) scope_sig
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in
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let in_vars =
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ScopeVar.Map.map (fun { svar_in_ty; _ } -> svar_in_ty) scope_sig
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in
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Typing.Env.add_scope scope_name ~vars ~in_vars env)
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prg.program_ctx.ctx_scopes env
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in
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let program_topdefs =
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TopdefName.Map.map
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(fun (expr, typ) ->
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Expr.unbox (Typing.expr prg.program_ctx ~env ~typ expr), typ)
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prg.program_topdefs
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in
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let program_scopes =
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ScopeName.Map.map
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(Mark.map (fun scope_decl ->
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let env =
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ScopeVar.Map.fold
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(fun svar { svar_out_ty; _ } env ->
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Typing.Env.add_scope_var svar svar_out_ty env)
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scope_decl.scope_sig env
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in
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let scope_decl_rules =
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List.map
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(type_rule prg.program_ctx env)
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scope_decl.scope_decl_rules
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in
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{ scope_decl with scope_decl_rules }))
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prg.program_scopes
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in
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{ prg with program_topdefs; program_scopes }
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