mirror of
https://github.com/CatalaLang/catala.git
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0a23dc526d
Since the marked kind is used throughout, this should be more clear
198 lines
6.9 KiB
OCaml
198 lines
6.9 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) 2020-2022 Inria,
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contributor: Denis Merigoux <denis.merigoux@inria.fr>, Alain Delaët-Tixeuil
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<alain.delaet--tixeuil@inria.fr>, Louis Gesbert <louis.gesbert@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 Utils
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open Definitions
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let rec fold_left_lets ~f ~init scope_body_expr =
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match scope_body_expr with
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| Result _ -> init
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| ScopeLet scope_let ->
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let var, next = Bindlib.unbind scope_let.scope_let_next in
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fold_left_lets ~f ~init:(f init scope_let var) next
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let rec fold_right_lets ~f ~init scope_body_expr =
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match scope_body_expr with
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| Result result -> init result
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| ScopeLet scope_let ->
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let var, next = Bindlib.unbind scope_let.scope_let_next in
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let next_result = fold_right_lets ~f ~init next in
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f scope_let var next_result
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let map_exprs_in_lets ~f ~varf scope_body_expr =
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fold_right_lets
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~f:(fun scope_let var_next acc ->
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Bindlib.box_apply2
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(fun scope_let_next scope_let_expr ->
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ScopeLet { scope_let with scope_let_next; scope_let_expr })
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(Bindlib.bind_var (varf var_next) acc)
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(f scope_let.scope_let_expr))
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~init:(fun res -> Bindlib.box_apply (fun res -> Result res) (f res))
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scope_body_expr
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let rec fold_left ~f ~init scopes =
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match scopes with
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| Nil -> init
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| ScopeDef scope_def ->
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let var, next = Bindlib.unbind scope_def.scope_next in
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fold_left ~f ~init:(f init scope_def var) next
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let rec fold_right ~f ~init scopes =
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match scopes with
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| Nil -> init
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| ScopeDef scope_def ->
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let var_next, next = Bindlib.unbind scope_def.scope_next in
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let result_next = fold_right ~f ~init next in
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f scope_def var_next result_next
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let map ~f scopes =
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fold_right
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~f:(fun scope_def var_next acc ->
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let new_def = f scope_def in
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let new_next = Bindlib.bind_var var_next acc in
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Bindlib.box_apply2
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(fun new_def new_next ->
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ScopeDef { new_def with scope_next = new_next })
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new_def new_next)
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~init:(Bindlib.box Nil) scopes
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let map_exprs ~f ~varf scopes =
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fold_right
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~f:(fun scope_def var_next acc ->
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let scope_input_var, scope_lets =
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Bindlib.unbind scope_def.scope_body.scope_body_expr
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in
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let new_body_expr = map_exprs_in_lets ~f ~varf scope_lets in
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let new_body_expr =
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Bindlib.bind_var (varf scope_input_var) new_body_expr
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in
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let new_next = Bindlib.bind_var (varf var_next) acc in
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Bindlib.box_apply2
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(fun scope_body_expr scope_next ->
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ScopeDef
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{
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scope_def with
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scope_body = { scope_def.scope_body with scope_body_expr };
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scope_next;
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})
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new_body_expr new_next)
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~init:(Bindlib.box Nil) scopes
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let get_body_mark scope_body =
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match snd (Bindlib.unbind scope_body.scope_body_expr) with
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| Result e | ScopeLet { scope_let_expr = e; _ } -> Marked.get_mark e
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let rec unfold_body_expr (ctx : decl_ctx) (scope_let : 'e scope_body_expr) :
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'e marked Bindlib.box =
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match scope_let with
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| Result e -> Expr.box e
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| ScopeLet
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{
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scope_let_kind = _;
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scope_let_typ;
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scope_let_expr;
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scope_let_next;
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scope_let_pos;
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} ->
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let var, next = Bindlib.unbind scope_let_next in
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Expr.make_let_in var scope_let_typ (Expr.box scope_let_expr)
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(unfold_body_expr ctx next)
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scope_let_pos
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let build_typ_from_sig
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(_ctx : decl_ctx)
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(scope_input_struct_name : StructName.t)
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(scope_return_struct_name : StructName.t)
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(pos : Pos.t) : typ Marked.pos =
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let input_typ = Marked.mark pos (TStruct scope_input_struct_name) in
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let result_typ = Marked.mark pos (TStruct scope_return_struct_name) in
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Marked.mark pos (TArrow (input_typ, result_typ))
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type 'e scope_name_or_var =
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| ScopeName of ScopeName.t
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| ScopeVar of 'e Bindlib.var
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let to_expr (ctx : decl_ctx) (body : 'e scope_body) (mark_scope : 'm mark) :
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'e marked Bindlib.box =
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let var, body_expr = Bindlib.unbind body.scope_body_expr in
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let body_expr = unfold_body_expr ctx body_expr in
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Expr.make_abs [| var |] body_expr
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[TStruct body.scope_body_input_struct, Expr.mark_pos mark_scope]
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mark_scope
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let format
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?(debug : bool = false)
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(ctx : decl_ctx)
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(fmt : Format.formatter)
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((n, s) : ScopeName.t * 'm scope_body) =
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Format.fprintf fmt "@[<hov 2>%a %a =@ %a@]" Print.keyword "let"
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ScopeName.format_t n (Expr.format ctx ~debug)
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(Bindlib.unbox
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(to_expr ctx s
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(Expr.map_mark
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(fun _ -> Marked.get_mark (ScopeName.get_info n))
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(fun ty -> ty)
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(get_body_mark s))))
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let rec unfold
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(ctx : decl_ctx)
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(s : 'e scopes)
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(mark : 'm mark)
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(main_scope : 'naked_expr scope_name_or_var) : 'e marked Bindlib.box =
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match s with
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| Nil -> (
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match main_scope with
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| ScopeVar v -> Bindlib.box_apply (fun v -> v, mark) (Bindlib.box_var v)
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| ScopeName _ -> failwith "should not happen")
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| ScopeDef { scope_name; scope_body; scope_next } ->
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let scope_var, scope_next = Bindlib.unbind scope_next in
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let scope_pos = Marked.get_mark (ScopeName.get_info scope_name) in
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let scope_body_mark = get_body_mark scope_body in
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let main_scope =
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match main_scope with
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| ScopeVar v -> ScopeVar v
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| ScopeName n ->
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if ScopeName.compare n scope_name = 0 then ScopeVar scope_var
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else ScopeName n
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in
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Expr.make_let_in scope_var
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(build_typ_from_sig ctx scope_body.scope_body_input_struct
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scope_body.scope_body_output_struct scope_pos)
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(to_expr ctx scope_body scope_body_mark)
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(unfold ctx scope_next mark main_scope)
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scope_pos
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let rec free_vars_body_expr scope_lets =
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match scope_lets with
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| Result e -> Expr.free_vars e
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| ScopeLet { scope_let_expr = e; scope_let_next = next; _ } ->
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let v, body = Bindlib.unbind next in
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Var.Set.union (Expr.free_vars e)
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(Var.Set.remove v (free_vars_body_expr body))
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let free_vars_body scope_body =
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let { scope_body_expr = binder; _ } = scope_body in
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let v, body = Bindlib.unbind binder in
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Var.Set.remove v (free_vars_body_expr body)
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let rec free_vars scopes =
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match scopes with
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| Nil -> Var.Set.empty
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| ScopeDef { scope_body = body; scope_next = next; _ } ->
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let v, next = Bindlib.unbind next in
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Var.Set.union (Var.Set.remove v (free_vars next)) (free_vars_body body)
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