mirror of
https://github.com/CatalaLang/catala.git
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e224e87f71
(first working dynload test with compilation done by manual calls to ocaml) A few pieces of the puzzle: * Loading of interfaces only from Catala files * Registration of toplevel values in modules compiled to OCaml, to allow access using dynlink * Shady conversion from OCaml runtime values to/from Catala expressions, to allow interop (ffi) of compiled modules and the interpreter
148 lines
5.1 KiB
OCaml
148 lines
5.1 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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module D = Dcalc.Ast
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module A = Ast
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type 'm ctx = unit
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(** This translation no longer needs a context at the moment, but we keep
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passing the argument through the functions in case the need arises with
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further evolutions. *)
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let thunk_expr (type m) (e : m A.expr boxed) : m A.expr boxed =
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let dummy_var = Var.make "_" in
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let pos = Expr.pos e in
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let arg_t = Mark.add pos (TLit TUnit) in
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Expr.make_abs [| dummy_var |] e [arg_t] pos
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let translate_var : 'm D.expr Var.t -> 'm A.expr Var.t = Var.translate
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let rec translate_default
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(ctx : 'm ctx)
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(exceptions : 'm D.expr list)
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(just : 'm D.expr)
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(cons : 'm D.expr)
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(mark_default : 'm mark) : 'm A.expr boxed =
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let exceptions =
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List.map (fun except -> thunk_expr (translate_expr ctx except)) exceptions
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in
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let pos = Expr.mark_pos mark_default in
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let exceptions =
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Expr.make_app
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(Expr.eop Op.HandleDefault
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[TAny, pos; TAny, pos; TAny, pos]
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(Expr.no_mark mark_default))
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[
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Expr.earray exceptions mark_default;
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thunk_expr (translate_expr ctx just);
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thunk_expr (translate_expr ctx cons);
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]
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pos
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in
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exceptions
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and translate_expr (ctx : 'm ctx) (e : 'm D.expr) : 'm A.expr boxed =
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let m = Mark.get e in
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match Mark.remove e with
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| EEmptyError -> Expr.eraise EmptyError m
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| EErrorOnEmpty arg ->
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Expr.ecatch (translate_expr ctx arg) EmptyError
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(Expr.eraise NoValueProvided m)
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m
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| EDefault { excepts = [exn]; just; cons } when !Cli.optimize_flag ->
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(* FIXME: bad place to rely on a global flag *)
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Expr.ecatch (translate_expr ctx exn) EmptyError
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(Expr.eifthenelse (translate_expr ctx just) (translate_expr ctx cons)
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(Expr.eraise EmptyError (Mark.get e))
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(Mark.get e))
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(Mark.get e)
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| EDefault { excepts; just; cons } ->
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translate_default ctx excepts just cons (Mark.get e)
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| EOp { op; tys } -> Expr.eop (Operator.translate op) tys m
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| ( ELit _ | EApp _ | EArray _ | EVar _ | EExternal _ | EAbs _ | EIfThenElse _
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| ETuple _ | ETupleAccess _ | EInj _ | EAssert _ | EStruct _
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| EStructAccess _ | EMatch _ ) as e ->
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Expr.map ~f:(translate_expr ctx) (Mark.add m e)
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| _ -> .
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let rec translate_scope_lets
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(decl_ctx : decl_ctx)
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(ctx : 'm ctx)
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(scope_lets : 'm D.expr scope_body_expr) :
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'm A.expr scope_body_expr Bindlib.box =
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match scope_lets with
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| Result e ->
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Bindlib.box_apply (fun e -> Result e) (Expr.Box.lift (translate_expr ctx e))
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| ScopeLet scope_let ->
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let scope_let_var, scope_let_next =
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Bindlib.unbind scope_let.scope_let_next
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in
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let new_scope_let_expr = translate_expr ctx scope_let.scope_let_expr in
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let new_scope_next = translate_scope_lets decl_ctx ctx scope_let_next in
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let new_scope_next =
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Bindlib.bind_var (translate_var scope_let_var) new_scope_next
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in
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Bindlib.box_apply2
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(fun new_scope_next new_scope_let_expr ->
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ScopeLet
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{
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scope_let_typ = scope_let.scope_let_typ;
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scope_let_kind = scope_let.scope_let_kind;
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scope_let_pos = scope_let.scope_let_pos;
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scope_let_next = new_scope_next;
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scope_let_expr = new_scope_let_expr;
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})
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new_scope_next
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(Expr.Box.lift new_scope_let_expr)
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let translate_items
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(decl_ctx : decl_ctx)
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(ctx : 'm ctx)
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(scopes : 'm D.expr code_item_list) : 'm A.expr code_item_list Bindlib.box =
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Scope.map_ctx
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~f:
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(fun ctx -> function
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| Topdef (name, ty, e) ->
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( ctx,
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Bindlib.box_apply
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(fun e -> Topdef (name, ty, e))
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(Expr.Box.lift (translate_expr ctx e)) )
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| ScopeDef (name, body) ->
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let scope_input_var, body_expr =
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Bindlib.unbind body.scope_body_expr
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in
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let new_scope_body_expr =
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translate_scope_lets decl_ctx ctx body_expr
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in
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let new_body =
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Bindlib.bind_var (translate_var scope_input_var) new_scope_body_expr
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in
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( ctx,
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Bindlib.box_apply
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(fun scope_body_expr ->
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ScopeDef (name, { body with scope_body_expr }))
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new_body ))
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~varf:translate_var ctx scopes
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let translate_program (prgm : 'm D.program) : 'm A.program =
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{
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code_items =
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Bindlib.unbox (translate_items prgm.decl_ctx () prgm.code_items);
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decl_ctx = prgm.decl_ctx;
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}
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