catala/compiler/scopelang/ast.ml
2024-05-28 11:43:50 +02:00

148 lines
4.7 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
type location = scopelang glocation
module LocationSet : Set.S with type elt = location Mark.pos = Set.Make (struct
type t = location Mark.pos
let compare = Expr.compare_location
end)
type 'm expr = (scopelang, 'm) gexpr
let rec locations_used (e : 'm expr) : LocationSet.t =
match e with
| ELocation l, pos -> LocationSet.singleton (l, Expr.mark_pos pos)
| EAbs { binder; _ }, _ ->
let _, body = Bindlib.unmbind binder in
locations_used body
| e ->
Expr.shallow_fold
(fun e -> LocationSet.union (locations_used e))
e LocationSet.empty
type 'm rule =
| ScopeVarDefinition of {
var : ScopeVar.t Mark.pos;
typ : typ;
io : Desugared.Ast.io;
e : 'm expr;
}
| SubScopeVarDefinition of {
var : ScopeVar.t Mark.pos;
var_within_origin_scope : ScopeVar.t;
typ : typ;
e : 'm expr;
}
| Assertion of 'm expr
type scope_var_ty = {
svar_in_ty : typ;
svar_out_ty : typ;
svar_io : Desugared.Ast.io;
}
type 'm scope_decl = {
scope_decl_name : ScopeName.t;
scope_sig : scope_var_ty ScopeVar.Map.t;
scope_decl_rules : 'm rule list;
scope_options : Desugared.Ast.catala_option Mark.pos list;
}
type 'm program = {
program_module_name : (ModuleName.t * module_intf_id) option;
program_ctx : decl_ctx;
program_modules : nil scope_decl Mark.pos ScopeName.Map.t ModuleName.Map.t;
program_scopes : 'm scope_decl Mark.pos ScopeName.Map.t;
program_topdefs : ('m expr * typ) TopdefName.Map.t;
program_lang : Global.backend_lang;
}
let type_rule decl_ctx env = function
| ScopeVarDefinition ({ typ; e; _ } as def) ->
let e = Typing.expr decl_ctx ~env ~typ e in
ScopeVarDefinition { def with e = Expr.unbox e }
| SubScopeVarDefinition ({ typ; e; _ } as def) ->
let e = Typing.expr decl_ctx ~env ~typ e in
SubScopeVarDefinition { def with e = Expr.unbox e }
| Assertion e ->
let typ = Mark.add (Expr.pos e) (TLit TBool) in
let e = Typing.expr decl_ctx ~env ~typ e in
Assertion (Expr.unbox e)
let type_program (type m) (prg : m program) : typed program =
(* Caution: this environment building code is very similar to that in
desugared/disambiguate.ml. Any edits should probably be reflected. *)
let env = Typing.Env.empty prg.program_ctx in
let env =
TopdefName.Map.fold
(fun name ty env -> Typing.Env.add_toplevel_var name ty env)
prg.program_ctx.ctx_topdefs env
in
let env =
ScopeName.Map.fold
(fun scope_name _info env ->
let scope_sig =
match ScopeName.path scope_name with
| [] ->
(Mark.remove (ScopeName.Map.find scope_name prg.program_scopes))
.scope_sig
| p ->
let m = List.hd (List.rev p) in
let scope =
ScopeName.Map.find scope_name
(ModuleName.Map.find m prg.program_modules)
in
(Mark.remove scope).scope_sig
in
let vars =
ScopeVar.Map.map (fun { svar_out_ty; _ } -> svar_out_ty) scope_sig
in
let in_vars =
ScopeVar.Map.map (fun { svar_in_ty; _ } -> svar_in_ty) scope_sig
in
Typing.Env.add_scope scope_name ~vars ~in_vars env)
prg.program_ctx.ctx_scopes env
in
let program_topdefs =
TopdefName.Map.map
(fun (expr, typ) ->
Expr.unbox (Typing.expr prg.program_ctx ~env ~typ expr), typ)
prg.program_topdefs
in
let program_scopes =
ScopeName.Map.map
(Mark.map (fun scope_decl ->
let env =
ScopeVar.Map.fold
(fun svar { svar_out_ty; _ } env ->
Typing.Env.add_scope_var svar svar_out_ty env)
scope_decl.scope_sig env
in
let scope_decl_rules =
List.map
(type_rule prg.program_ctx env)
scope_decl.scope_decl_rules
in
{ scope_decl with scope_decl_rules }))
prg.program_scopes
in
{ prg with program_topdefs; program_scopes }