catala/compiler/lcalc/compile_with_exceptions.ml

147 lines
4.9 KiB
OCaml

(* This file is part of the Catala compiler, a specification language for tax
and social benefits computation rules. Copyright (C) 2020 Inria, contributor:
Denis Merigoux <denis.merigoux@inria.fr>
Licensed under the Apache License, Version 2.0 (the "License"); you may not
use this file except in compliance with the License. You may obtain a copy of
the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
License for the specific language governing permissions and limitations under
the License. *)
open Catala_utils
open Shared_ast
module D = Dcalc.Ast
module A = Ast
let rec translate_typ (tau : typ) : typ =
Mark.copy tau
begin
match Mark.remove tau with
| TDefault t -> Mark.remove (translate_typ t)
| TLit l -> TLit l
| TTuple ts -> TTuple (List.map translate_typ ts)
| TStruct s -> TStruct s
| TEnum en -> TEnum en
| TOption _ ->
Message.raise_internal_error
"The types option should not appear before the dcalc -> lcalc \
translation step."
| TClosureEnv ->
Message.raise_internal_error
"The types closure_env should not appear before the dcalc -> lcalc \
translation step."
| TAny -> TAny
| TArray ts -> TArray (translate_typ ts)
| TArrow (t1, t2) -> TArrow (List.map translate_typ t1, translate_typ t2)
end
let rec translate_default
(exceptions : 'm D.expr list)
(just : 'm D.expr)
(cons : 'm D.expr)
(mark_default : 'm mark) : 'm A.expr boxed =
let exceptions =
List.map
(fun except -> Expr.thunk_term (translate_expr except) (Mark.get except))
exceptions
in
let pos = Expr.mark_pos mark_default in
let exceptions =
Expr.make_app
(Expr.eop Op.HandleDefault
[TAny, pos; TAny, pos; TAny, pos]
(Expr.no_mark mark_default))
[
Expr.earray exceptions mark_default;
Expr.thunk_term (translate_expr just) (Mark.get just);
Expr.thunk_term (translate_expr cons) (Mark.get cons);
]
pos
in
exceptions
and translate_expr (e : 'm D.expr) : 'm A.expr boxed =
let m = Mark.get e in
match Mark.remove e with
| EEmptyError -> Expr.eraise EmptyError m
| EErrorOnEmpty arg ->
Expr.ecatch (translate_expr arg) EmptyError
(Expr.eraise NoValueProvided m)
m
| EDefault { excepts; just; cons } ->
translate_default excepts just cons (Mark.get e)
| EPureDefault e -> translate_expr e
| EOp { op; tys } -> Expr.eop (Operator.translate op) tys m
| ( ELit _ | EApp _ | EArray _ | EVar _ | EExternal _ | EAbs _ | EIfThenElse _
| ETuple _ | ETupleAccess _ | EInj _ | EAssert _ | EStruct _
| EStructAccess _ | EMatch _ ) as e ->
Expr.map ~f:translate_expr (Mark.add m e)
| _ -> .
let translate_scope_body_expr (scope_body_expr : 'expr1 scope_body_expr) :
'expr2 scope_body_expr Bindlib.box =
Scope.fold_right_lets
~f:(fun scope_let var_next acc ->
Bindlib.box_apply2
(fun scope_let_next scope_let_expr ->
ScopeLet
{
scope_let with
scope_let_next;
scope_let_expr;
scope_let_typ = translate_typ scope_let.scope_let_typ;
})
(Bindlib.bind_var (Var.translate var_next) acc)
(Expr.Box.lift (translate_expr scope_let.scope_let_expr)))
~init:(fun res ->
Bindlib.box_apply
(fun res -> Result res)
(Expr.Box.lift (translate_expr res)))
scope_body_expr
let translate_code_items scopes =
let f = function
| ScopeDef (name, body) ->
let scope_input_var, scope_lets = Bindlib.unbind body.scope_body_expr in
let new_body_expr = translate_scope_body_expr scope_lets in
let new_body_expr =
Bindlib.bind_var (Var.translate scope_input_var) new_body_expr
in
Bindlib.box_apply
(fun scope_body_expr -> ScopeDef (name, { body with scope_body_expr }))
new_body_expr
| Topdef (name, typ, expr) ->
Bindlib.box_apply
(fun e -> Topdef (name, typ, e))
(Expr.Box.lift (translate_expr expr))
in
Scope.map ~f ~varf:Var.translate scopes
let translate_program (prg : typed D.program) : untyped A.program =
Program.untype
@@ Bindlib.unbox
@@ Bindlib.box_apply
(fun code_items ->
let ctx_enums =
EnumName.Map.map
(EnumConstructor.Map.map translate_typ)
prg.decl_ctx.ctx_enums
in
let ctx_structs =
StructName.Map.map
(StructField.Map.map translate_typ)
prg.decl_ctx.ctx_structs
in
{
prg with
code_items;
decl_ctx = { prg.decl_ctx with ctx_enums; ctx_structs };
})
(translate_code_items prg.code_items)