mirror of
https://github.com/CatalaLang/catala.git
synced 2024-11-09 22:16:10 +03:00
466 lines
16 KiB
OCaml
466 lines
16 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) 2021 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 A = Ast
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module L = Lcalc.Ast
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module D = Dcalc.Ast
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type 'm ctxt = {
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func_dict : ('m L.expr, A.FuncName.t) Var.Map.t;
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decl_ctx : decl_ctx;
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var_dict : ('m L.expr, A.VarName.t) Var.Map.t;
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inside_definition_of : A.VarName.t option;
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context_name : string;
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}
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(* Expressions can spill out side effect, hence this function also returns a
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list of statements to be prepended before the expression is evaluated *)
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let rec translate_expr (ctxt : 'm ctxt) (expr : 'm L.expr) : A.block * A.expr =
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match Marked.unmark expr with
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| EVar v ->
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let local_var =
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try A.EVar (Var.Map.find v ctxt.var_dict)
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with Not_found -> (
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try A.EFunc (Var.Map.find v ctxt.func_dict)
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with Not_found ->
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Errors.raise_spanned_error (Expr.pos expr)
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"Var not found in lambda→scalc: %a@\nknown: @[<hov>%a@]@\n"
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Print.var_debug v
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(Format.pp_print_list ~pp_sep:Format.pp_print_space
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(fun ppf (v, _) -> Print.var_debug ppf v))
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(Var.Map.bindings ctxt.var_dict))
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in
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[], (local_var, Expr.pos expr)
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| EStruct { fields; name } ->
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let args_stmts, new_args =
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StructField.Map.fold
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(fun _ arg (args_stmts, new_args) ->
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let arg_stmts, new_arg = translate_expr ctxt arg in
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arg_stmts @ args_stmts, new_arg :: new_args)
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fields ([], [])
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in
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let new_args = List.rev new_args in
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let args_stmts = List.rev args_stmts in
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args_stmts, (A.EStruct (new_args, name), Expr.pos expr)
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| ETuple _ -> failwith "Tuples cannot be compiled to scalc"
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| EStructAccess { e = e1; field; name } ->
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let e1_stmts, new_e1 = translate_expr ctxt e1 in
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e1_stmts, (A.EStructFieldAccess (new_e1, field, name), Expr.pos expr)
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| ETupleAccess _ -> failwith "Non-struct tuples cannot be compiled to scalc"
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| EInj { e = e1; cons; name } ->
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let e1_stmts, new_e1 = translate_expr ctxt e1 in
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e1_stmts, (A.EInj (new_e1, cons, name), Expr.pos expr)
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| EApp { f; args } ->
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let f_stmts, new_f = translate_expr ctxt f in
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let args_stmts, new_args =
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List.fold_left
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(fun (args_stmts, new_args) arg ->
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let arg_stmts, new_arg = translate_expr ctxt arg in
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arg_stmts @ args_stmts, new_arg :: new_args)
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([], []) args
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in
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let new_args = List.rev new_args in
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f_stmts @ args_stmts, (A.EApp (new_f, new_args), Expr.pos expr)
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| EArray args ->
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let args_stmts, new_args =
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List.fold_left
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(fun (args_stmts, new_args) arg ->
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let arg_stmts, new_arg = translate_expr ctxt arg in
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arg_stmts @ args_stmts, new_arg :: new_args)
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([], []) args
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in
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let new_args = List.rev new_args in
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args_stmts, (A.EArray new_args, Expr.pos expr)
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| EOp { op; _ } -> [], (A.EOp (Operator.translate op), Expr.pos expr)
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| ELit l -> [], (A.ELit l, Expr.pos expr)
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| _ ->
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let tmp_var =
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A.VarName.fresh
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( (*This piece of logic is used to make the code more readable. TODO:
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should be removed when
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https://github.com/CatalaLang/catala/issues/240 is fixed. *)
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(match ctxt.inside_definition_of with
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| None -> ctxt.context_name
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| Some v ->
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let v = Marked.unmark (A.VarName.get_info v) in
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let tmp_rex = Re.Pcre.regexp "^temp_" in
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if Re.Pcre.pmatch ~rex:tmp_rex v then v else "temp_" ^ v),
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Expr.pos expr )
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in
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let ctxt =
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{
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ctxt with
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inside_definition_of = Some tmp_var;
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context_name = Marked.unmark (A.VarName.get_info tmp_var);
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}
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in
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let tmp_stmts = translate_statements ctxt expr in
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( ( A.SLocalDecl ((tmp_var, Expr.pos expr), (TAny, Expr.pos expr)),
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Expr.pos expr )
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:: tmp_stmts,
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(A.EVar tmp_var, Expr.pos expr) )
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and translate_statements (ctxt : 'm ctxt) (block_expr : 'm L.expr) : A.block =
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match Marked.unmark block_expr with
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| EAssert e ->
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(* Assertions are always encapsulated in a unit-typed let binding *)
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let e_stmts, new_e = translate_expr ctxt e in
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e_stmts @ [A.SAssert (Marked.unmark new_e), Expr.pos block_expr]
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| EApp { f = EAbs { binder; tys }, binder_mark; args } ->
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(* This defines multiple local variables at the time *)
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let binder_pos = Expr.mark_pos binder_mark in
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let vars, body = Bindlib.unmbind binder in
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let vars_tau = List.map2 (fun x tau -> x, tau) (Array.to_list vars) tys in
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let ctxt =
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{
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ctxt with
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var_dict =
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List.fold_left
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(fun var_dict (x, _) ->
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Var.Map.add x
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(A.VarName.fresh (Bindlib.name_of x, binder_pos))
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var_dict)
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ctxt.var_dict vars_tau;
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}
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in
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let local_decls =
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List.map
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(fun (x, tau) ->
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( A.SLocalDecl ((Var.Map.find x ctxt.var_dict, binder_pos), tau),
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binder_pos ))
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vars_tau
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in
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let vars_args =
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List.map2
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(fun (x, tau) arg ->
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(Var.Map.find x ctxt.var_dict, binder_pos), tau, arg)
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vars_tau args
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in
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let def_blocks =
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List.map
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(fun (x, _tau, arg) ->
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let ctxt =
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{
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ctxt with
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inside_definition_of = Some (Marked.unmark x);
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context_name =
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Marked.unmark (A.VarName.get_info (Marked.unmark x));
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}
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in
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let arg_stmts, new_arg = translate_expr ctxt arg in
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arg_stmts @ [A.SLocalDef (x, new_arg), binder_pos])
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vars_args
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in
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let rest_of_block = translate_statements ctxt body in
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local_decls @ List.flatten def_blocks @ rest_of_block
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| EAbs { binder; tys } ->
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let vars, body = Bindlib.unmbind binder in
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let binder_pos = Expr.pos block_expr in
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let vars_tau = List.map2 (fun x tau -> x, tau) (Array.to_list vars) tys in
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let closure_name =
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match ctxt.inside_definition_of with
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| None -> A.VarName.fresh (ctxt.context_name, Expr.pos block_expr)
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| Some x -> x
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in
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let ctxt =
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{
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ctxt with
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var_dict =
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List.fold_left
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(fun var_dict (x, _) ->
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Var.Map.add x
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(A.VarName.fresh (Bindlib.name_of x, binder_pos))
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var_dict)
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ctxt.var_dict vars_tau;
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inside_definition_of = None;
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}
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in
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let new_body = translate_statements ctxt body in
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[
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( A.SInnerFuncDef
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( (closure_name, binder_pos),
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{
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func_params =
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List.map
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(fun (var, tau) ->
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(Var.Map.find var ctxt.var_dict, binder_pos), tau)
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vars_tau;
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func_body = new_body;
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} ),
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binder_pos );
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]
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| EMatch { e = e1; cases; name } ->
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let e1_stmts, new_e1 = translate_expr ctxt e1 in
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let new_cases =
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EnumConstructor.Map.fold
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(fun _ arg new_args ->
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match Marked.unmark arg with
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| EAbs { binder; _ } ->
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let vars, body = Bindlib.unmbind binder in
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assert (Array.length vars = 1);
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let var = vars.(0) in
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let scalc_var =
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A.VarName.fresh (Bindlib.name_of var, Expr.pos arg)
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in
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let ctxt =
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{ ctxt with var_dict = Var.Map.add var scalc_var ctxt.var_dict }
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in
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let new_arg = translate_statements ctxt body in
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(new_arg, scalc_var) :: new_args
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| _ -> assert false
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(* should not happen *))
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cases []
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in
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let new_args = List.rev new_cases in
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e1_stmts @ [A.SSwitch (new_e1, name, new_args), Expr.pos block_expr]
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| EIfThenElse { cond; etrue; efalse } ->
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let cond_stmts, s_cond = translate_expr ctxt cond in
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let s_e_true = translate_statements ctxt etrue in
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let s_e_false = translate_statements ctxt efalse in
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cond_stmts
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@ [A.SIfThenElse (s_cond, s_e_true, s_e_false), Expr.pos block_expr]
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| ECatch { body; exn; handler } ->
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let s_e_try = translate_statements ctxt body in
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let s_e_catch = translate_statements ctxt handler in
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[A.STryExcept (s_e_try, exn, s_e_catch), Expr.pos block_expr]
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| ERaise except ->
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(* Before raising the exception, we still give a dummy definition to the
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current variable so that tools like mypy don't complain. *)
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(match ctxt.inside_definition_of with
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| None -> []
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| Some x ->
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[
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( A.SLocalDef
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( (x, Expr.pos block_expr),
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(Ast.EVar Ast.dead_value, Expr.pos block_expr) ),
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Expr.pos block_expr );
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])
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@ [A.SRaise except, Expr.pos block_expr]
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| _ -> (
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let e_stmts, new_e = translate_expr ctxt block_expr in
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e_stmts
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@
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match e_stmts with
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| (A.SRaise _, _) :: _ ->
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(* if the last statement raises an exception, then we don't need to return
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or to define the current variable since this code will be
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unreachable *)
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[]
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| _ ->
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[
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( (match ctxt.inside_definition_of with
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| None -> A.SReturn (Marked.unmark new_e)
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| Some x -> A.SLocalDef (Marked.same_mark_as x new_e, new_e)),
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Expr.pos block_expr );
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])
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let rec translate_scope_body_expr
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(scope_name : ScopeName.t)
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(decl_ctx : decl_ctx)
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(var_dict : ('m L.expr, A.VarName.t) Var.Map.t)
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(func_dict : ('m L.expr, A.FuncName.t) Var.Map.t)
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(scope_expr : 'm L.expr scope_body_expr) : A.block =
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match scope_expr with
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| Result e ->
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let block, new_e =
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translate_expr
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{
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decl_ctx;
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func_dict;
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var_dict;
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inside_definition_of = None;
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context_name = Marked.unmark (ScopeName.get_info scope_name);
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}
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e
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in
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block @ [A.SReturn (Marked.unmark new_e), Marked.get_mark new_e]
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| ScopeLet scope_let ->
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let let_var, scope_let_next = Bindlib.unbind scope_let.scope_let_next in
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let let_var_id =
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A.VarName.fresh (Bindlib.name_of let_var, scope_let.scope_let_pos)
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in
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let new_var_dict = Var.Map.add let_var let_var_id var_dict in
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(match scope_let.scope_let_kind with
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| Assertion ->
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translate_statements
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{
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decl_ctx;
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func_dict;
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var_dict;
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inside_definition_of = Some let_var_id;
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context_name = Marked.unmark (ScopeName.get_info scope_name);
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}
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scope_let.scope_let_expr
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| _ ->
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let let_expr_stmts, new_let_expr =
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translate_expr
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{
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decl_ctx;
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func_dict;
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var_dict;
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inside_definition_of = Some let_var_id;
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context_name = Marked.unmark (ScopeName.get_info scope_name);
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}
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scope_let.scope_let_expr
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in
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let_expr_stmts
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@ [
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( A.SLocalDecl
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((let_var_id, scope_let.scope_let_pos), scope_let.scope_let_typ),
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scope_let.scope_let_pos );
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( A.SLocalDef ((let_var_id, scope_let.scope_let_pos), new_let_expr),
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scope_let.scope_let_pos );
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])
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@ translate_scope_body_expr scope_name decl_ctx new_var_dict func_dict
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scope_let_next
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let translate_program (p : 'm L.program) : A.program =
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let _, _, rev_items =
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Scope.fold_left
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~f:(fun (func_dict, var_dict, rev_items) code_item var ->
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match code_item with
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| ScopeDef (name, body) ->
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let scope_input_var, scope_body_expr =
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Bindlib.unbind body.scope_body_expr
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in
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let input_pos = Marked.get_mark (ScopeName.get_info name) in
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let scope_input_var_id =
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A.VarName.fresh (Bindlib.name_of scope_input_var, input_pos)
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in
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let var_dict_local =
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Var.Map.add scope_input_var scope_input_var_id var_dict
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in
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let new_scope_body =
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translate_scope_body_expr name p.decl_ctx var_dict_local func_dict
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scope_body_expr
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in
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let func_id = A.FuncName.fresh (Bindlib.name_of var, Pos.no_pos) in
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( Var.Map.add var func_id func_dict,
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var_dict,
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A.SScope
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{
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Ast.scope_body_name = name;
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Ast.scope_body_var = func_id;
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scope_body_func =
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{
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A.func_params =
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[
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( (scope_input_var_id, input_pos),
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(TStruct body.scope_body_input_struct, input_pos) );
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];
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A.func_body = new_scope_body;
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};
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}
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:: rev_items )
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| Topdef (name, _, (EAbs abs, _)) ->
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(* Toplevel function def *)
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let func_id = A.FuncName.fresh (Bindlib.name_of var, Pos.no_pos) in
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let args_a, expr = Bindlib.unmbind abs.binder in
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let args = Array.to_list args_a in
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let args_id =
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List.map2
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(fun v ty ->
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let pos = Marked.get_mark ty in
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(A.VarName.fresh (Bindlib.name_of v, pos), pos), ty)
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args abs.tys
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in
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let block, expr =
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let ctxt =
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{
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func_dict;
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decl_ctx = p.decl_ctx;
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var_dict =
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List.fold_left2
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(fun map arg ((id, _), _) -> Var.Map.add arg id map)
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var_dict args args_id;
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inside_definition_of = None;
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context_name = Marked.unmark (TopdefName.get_info name);
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}
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in
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translate_expr ctxt expr
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in
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let body_block =
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block @ [A.SReturn (Marked.unmark expr), Marked.get_mark expr]
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in
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( Var.Map.add var func_id func_dict,
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var_dict,
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A.SFunc
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{
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var = func_id;
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func = { A.func_params = args_id; A.func_body = body_block };
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}
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:: rev_items )
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| Topdef (name, _ty, expr) ->
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(* Toplevel constant def *)
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let var_id = A.VarName.fresh (Bindlib.name_of var, Pos.no_pos) in
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let block, expr =
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let ctxt =
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{
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func_dict;
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decl_ctx = p.decl_ctx;
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var_dict;
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inside_definition_of = None;
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context_name = Marked.unmark (TopdefName.get_info name);
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}
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in
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translate_expr ctxt expr
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in
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(* If the evaluation of the toplevel expr requires preliminary
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statements, we lift its computation into an auxiliary function *)
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let rev_items =
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match block with
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| [] -> A.SVar { var = var_id; expr } :: rev_items
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| block ->
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let pos = Marked.get_mark expr in
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let func_id =
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A.FuncName.fresh (Bindlib.name_of var ^ "_aux", pos)
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in
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(* The list is being built in reverse order *)
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A.SVar
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{ var = var_id; expr = A.EApp ((EFunc func_id, pos), []), pos }
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:: A.SFunc
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{
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var = func_id;
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func =
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{
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A.func_params = [];
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A.func_body =
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block
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@ [
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( A.SReturn (Marked.unmark expr),
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Marked.get_mark expr );
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];
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};
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}
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:: rev_items
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in
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( func_dict,
|
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(* No need to add func_id since the function will only be called
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right here *)
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Var.Map.add var var_id var_dict,
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rev_items ))
|
|
~init:
|
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( (if !Cli.avoid_exceptions_flag then
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Var.Map.singleton L.handle_default_opt A.handle_default_opt
|
|
else Var.Map.singleton L.handle_default A.handle_default),
|
|
Var.Map.empty,
|
|
[] )
|
|
p.code_items
|
|
in
|
|
{ decl_ctx = p.decl_ctx; code_items = List.rev rev_items }
|