mirror of
https://github.com/CatalaLang/catala.git
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297 lines
9.1 KiB
OCaml
297 lines
9.1 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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Nicolas Chataing <nicolas.chataing@ens.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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(** Abstract syntax tree of the desugared representation *)
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open Catala_utils
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open Shared_ast
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(** {1 Names, Maps and Keys} *)
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(** Inside a scope, a definition can refer either to a scope def, or a subscope
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def *)
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module ScopeDef = struct
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module Base = struct
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type t =
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| Var of ScopeVar.t * StateName.t option
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| SubScopeVar of SubScopeName.t * ScopeVar.t * Pos.t
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(** In this case, the [ScopeVar.t] lives inside the context of the
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subscope's original declaration *)
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let compare x y =
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match x, y with
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| Var (x, stx), Var (y, sty) -> (
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match ScopeVar.compare x y with
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| 0 -> Option.compare StateName.compare stx sty
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| n -> n)
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| SubScopeVar (x', x, _), SubScopeVar (y', y, _) -> (
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match SubScopeName.compare x' y' with
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| 0 -> ScopeVar.compare x y
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| n -> n)
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| Var _, _ -> -1
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| _, Var _ -> 1
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let get_position x =
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match x with
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| Var (x, None) -> Mark.get (ScopeVar.get_info x)
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| Var (_, Some sx) -> Mark.get (StateName.get_info sx)
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| SubScopeVar (_, _, pos) -> pos
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let format_t fmt x =
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match x with
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| Var (v, None) -> ScopeVar.format_t fmt v
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| Var (v, Some sv) ->
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Format.fprintf fmt "%a.%a" ScopeVar.format_t v StateName.format_t sv
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| SubScopeVar (s, v, _) ->
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Format.fprintf fmt "%a.%a" SubScopeName.format_t s ScopeVar.format_t v
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let hash x =
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match x with
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| Var (v, None) -> ScopeVar.hash v
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| Var (v, Some sv) -> Int.logxor (ScopeVar.hash v) (StateName.hash sv)
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| SubScopeVar (w, v, _) ->
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Int.logxor (SubScopeName.hash w) (ScopeVar.hash v)
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end
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include Base
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module Map = Map.Make (Base)
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module Set = Set.Make (Base)
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end
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module AssertionName = Uid.Gen ()
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(** {1 AST} *)
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type location = desugared glocation
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module LocationSet : Set.S with type elt = location Mark.pos = Set.Make (struct
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type t = location Mark.pos
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let compare = Expr.compare_location
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end)
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type expr = (desugared, untyped) gexpr
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module ExprMap = Map.Make (struct
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type t = expr
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let compare = Expr.compare
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end)
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type io = { io_output : bool Mark.pos; io_input : Runtime.io_input Mark.pos }
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type exception_situation =
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| BaseCase
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| ExceptionToLabel of LabelName.t Mark.pos
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| ExceptionToRule of RuleName.t Mark.pos
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type label_situation = ExplicitlyLabeled of LabelName.t Mark.pos | Unlabeled
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type rule = {
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rule_id : RuleName.t;
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rule_just : expr boxed;
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rule_cons : expr boxed;
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rule_parameter : (expr Var.t Mark.pos * typ) list Mark.pos option;
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rule_exception : exception_situation;
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rule_label : label_situation;
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}
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module Rule = struct
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type t = rule
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(** Structural equality (otherwise, you should just compare the [rule_id]
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fields) *)
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let compare r1 r2 =
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match r1.rule_parameter, r2.rule_parameter with
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| None, None -> (
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let j1, j1m = r1.rule_just in
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let j2, j2m = r2.rule_just in
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match
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Bindlib.unbox
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(Bindlib.box_apply2
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(fun j1 j2 -> Expr.compare (j1, j1m) (j2, j2m))
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j1 j2)
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with
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| 0 ->
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let c1, c1m = r1.rule_cons in
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let c2, c2m = r2.rule_cons in
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Bindlib.unbox
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(Bindlib.box_apply2
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(fun c1 c2 -> Expr.compare (c1, c1m) (c2, c2m))
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c1 c2)
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| n -> n)
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| Some (l1, _), Some (l2, _) ->
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ListLabels.compare l1 l2 ~cmp:(fun ((v1, _), t1) ((v2, _), t2) ->
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match Type.compare t1 t2 with
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| 0 -> (
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let open Bindlib in
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let b1 = bind_var v1 (Expr.Box.lift r1.rule_just) in
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let b2 = bind_var v2 (Expr.Box.lift r2.rule_just) in
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match
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Bindlib.unbox
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(Bindlib.box_apply2
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(fun b1 b2 ->
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let _, j1, j2 = unbind2 b1 b2 in
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Expr.compare j1 j2)
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b1 b2)
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with
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| 0 ->
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let b1 = bind_var v1 (Expr.Box.lift r1.rule_cons) in
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let b2 = bind_var v2 (Expr.Box.lift r2.rule_cons) in
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Bindlib.unbox
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(Bindlib.box_apply2
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(fun b1 b2 ->
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let _, c1, c2 = unbind2 b1 b2 in
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Expr.compare c1 c2)
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b1 b2)
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| n -> n)
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| n -> n)
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| None, Some _ -> -1
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| Some _, None -> 1
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end
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let empty_rule
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(pos : Pos.t)
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(parameters : (Uid.MarkedString.info * typ) list Mark.pos option) : rule =
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{
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rule_just = Expr.box (ELit (LBool false), Untyped { pos });
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rule_cons = Expr.box (EEmptyError, Untyped { pos });
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rule_parameter =
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Option.map
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(Mark.map (List.map (fun (lbl, typ) -> Mark.map Var.make lbl, typ)))
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parameters;
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rule_exception = BaseCase;
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rule_id = RuleName.fresh ("empty", pos);
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rule_label = Unlabeled;
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}
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let always_false_rule
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(pos : Pos.t)
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(parameters : (Uid.MarkedString.info * typ) list Mark.pos option) : rule =
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{
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rule_just = Expr.box (ELit (LBool true), Untyped { pos });
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rule_cons = Expr.box (ELit (LBool false), Untyped { pos });
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rule_parameter =
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Option.map
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(Mark.map (List.map (fun (lbl, typ) -> Mark.map Var.make lbl, typ)))
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parameters;
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rule_exception = BaseCase;
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rule_id = RuleName.fresh ("always_false", pos);
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rule_label = Unlabeled;
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}
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type assertion = expr boxed
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type variation_typ = Increasing | Decreasing
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type reference_typ = Decree | Law
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type catala_option = DateRounding of variation_typ
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type meta_assertion =
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| FixedBy of reference_typ Mark.pos
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| VariesWith of unit * variation_typ Mark.pos option
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type scope_def = {
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scope_def_rules : rule RuleName.Map.t;
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scope_def_typ : typ;
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scope_def_parameters : (Uid.MarkedString.info * typ) list Mark.pos option;
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scope_def_is_condition : bool;
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scope_def_io : io;
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}
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type var_or_states = WholeVar | States of StateName.t list
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type scope = {
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scope_vars : var_or_states ScopeVar.Map.t;
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scope_sub_scopes : ScopeName.t SubScopeName.Map.t;
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scope_uid : ScopeName.t;
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scope_defs : scope_def ScopeDef.Map.t;
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scope_assertions : assertion AssertionName.Map.t;
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scope_options : catala_option Mark.pos list;
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scope_meta_assertions : meta_assertion list;
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}
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type program = {
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program_scopes : scope ScopeName.Map.t;
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program_topdefs : (expr option * typ) TopdefName.Map.t;
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program_ctx : decl_ctx;
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}
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let rec locations_used e : LocationSet.t =
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match e with
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| ELocation l, m -> LocationSet.singleton (l, Expr.mark_pos m)
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| EAbs { binder; _ }, _ ->
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let _, body = Bindlib.unmbind binder in
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locations_used body
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| e ->
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Expr.shallow_fold
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(fun e -> LocationSet.union (locations_used e))
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e LocationSet.empty
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let free_variables (def : rule RuleName.Map.t) : Pos.t ScopeDef.Map.t =
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let add_locs (acc : Pos.t ScopeDef.Map.t) (locs : LocationSet.t) :
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Pos.t ScopeDef.Map.t =
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LocationSet.fold
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(fun (loc, loc_pos) acc ->
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let usage =
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match loc with
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| DesugaredScopeVar (v, st) -> Some (ScopeDef.Var (Mark.remove v, st))
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| SubScopeVar (_, sub_index, sub_var) ->
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Some
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(ScopeDef.SubScopeVar
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(Mark.remove sub_index, Mark.remove sub_var, Mark.get sub_index))
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| ToplevelVar _ -> None
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in
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match usage with
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| Some u -> ScopeDef.Map.add u loc_pos acc
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| None -> acc)
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locs acc
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in
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RuleName.Map.fold
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(fun _ rule acc ->
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let locs =
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LocationSet.union
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(locations_used (Expr.unbox rule.rule_just))
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(locations_used (Expr.unbox rule.rule_cons))
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in
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add_locs acc locs)
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def ScopeDef.Map.empty
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let fold_exprs ~(f : 'a -> expr -> 'a) ~(init : 'a) (p : program) : 'a =
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let acc =
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ScopeName.Map.fold
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(fun _ scope acc ->
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let acc =
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ScopeDef.Map.fold
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(fun _ scope_def acc ->
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RuleName.Map.fold
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(fun _ rule acc ->
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f
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(f acc (Expr.unbox rule.rule_just))
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(Expr.unbox rule.rule_cons))
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scope_def.scope_def_rules acc)
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scope.scope_defs acc
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in
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let acc =
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AssertionName.Map.fold
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(fun _ assertion acc -> f acc (Expr.unbox assertion))
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scope.scope_assertions acc
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in
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acc)
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p.program_scopes init
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in
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TopdefName.Map.fold
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(fun _ (e, _) acc -> Option.fold ~none:acc ~some:(f acc) e)
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p.program_topdefs acc
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