catala/compiler/shared_ast/boundList.ml

119 lines
3.8 KiB
OCaml

(* This file is part of the Catala compiler, a specification language for tax
and social benefits computation rules. Copyright (C) 2020-2022 Inria,
contributor: Louis Gesbert <louis.gesbert@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 Definitions
type ('e, 'elt, 'last) t = ('e, 'elt, 'last) bound_list =
| Last of 'last
| Cons of 'elt * ('e, ('e, 'elt, 'last) t) binder
let rec last = function
| Last e -> e
| Cons (_, bnd) ->
let _, next = Bindlib.unbind bnd in
last next
let rec iter ~f = function
| Last l -> l
| Cons (item, next_bind) ->
let var, next = Bindlib.unbind next_bind in
f var item;
iter ~f next
let rec find ~f = function
| Last _ -> raise Not_found
| Cons (item, next_bind) -> (
match f item with
| Some r -> r
| None ->
let _, next = Bindlib.unbind next_bind in
find ~f next)
let rec fold_left ~f ~init = function
| Last l -> init, l
| Cons (item, next_bind) ->
let var, next = Bindlib.unbind next_bind in
fold_left ~f ~init:(f init item var) next
let rec fold_right ~f ~init = function
| Last l -> init l
| Cons (item, next_bind) ->
let var_next, next = Bindlib.unbind next_bind in
let result_next = fold_right ~f ~init next in
f item var_next result_next
let rec fold_lr ~top ~down ~bottom ~up = function
| Last l -> bottom l top
| Cons (item, next_bind) ->
let var, next = Bindlib.unbind next_bind in
let top = down var item top in
let bottom = fold_lr ~down ~up ~top ~bottom next in
up var item bottom
let rec map ~f ~last = function
| Last l -> Bindlib.box_apply (fun l -> Last l) (last l)
| Cons (item, next_bind) ->
let var, next = Bindlib.unbind next_bind in
let var, item = f var item in
let next_bind = Bindlib.bind_var var (map ~f ~last next) in
Bindlib.box_apply2
(fun item next_bind -> Cons (item, next_bind))
item next_bind
let rec fold_map ~f ~last ~init:ctx = function
| Last l ->
let ret, l = last ctx l in
ret, Bindlib.box_apply (fun l -> Last l) l
| Cons (item, next_bind) ->
let var, next = Bindlib.unbind next_bind in
let ctx, var, item = f ctx var item in
let ctx, next = fold_map ~f ~last ~init:ctx next in
let next_bind = Bindlib.bind_var var next in
( ctx,
Bindlib.box_apply2
(fun item next_bind -> Cons (item, next_bind))
item next_bind )
let rec fold_left2 ~f ~init a b =
match a, b with
| Last l1, Last l2 -> init, (l1, l2)
| Cons (item1, next_bind1), Cons (item2, next_bind2) ->
let var, next1, next2 = Bindlib.unbind2 next_bind1 next_bind2 in
fold_left2 ~f ~init:(f init item1 item2 var) next1 next2
| _ -> invalid_arg "fold_left2"
let rec equal ~f ~last a b =
match a, b with
| Last l1, Last l2 -> last l1 l2
| Cons (item1, next_bind1), Cons (item2, next_bind2) ->
f item1 item2
&&
let _, next1, next2 = Bindlib.unbind2 next_bind1 next_bind2 in
equal ~f ~last next1 next2
| _ -> false
let rec compare ~f ~last a b =
match a, b with
| Last l1, Last l2 -> last l1 l2
| Cons (item1, next_bind1), Cons (item2, next_bind2) -> (
match f item1 item2 with
| 0 ->
let _, next1, next2 = Bindlib.unbind2 next_bind1 next_bind2 in
compare ~f ~last next1 next2
| n -> n)
| Last _, Cons _ -> -1
| Cons _, Last _ -> 1