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(*
* Copyright (c) Facebook, Inc. and its affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*)
open! NS0
include ContainersLabels.List
type 'a t = 'a list [@@deriving compare, equal, hash, sexp]
let hd_exn = hd
let hd = function [] -> None | hd :: _ -> Some hd
let tl_exn = tl
let tl = function [] -> None | _ :: tl -> Some tl
let pop_exn = function x :: xs -> (x, xs) | [] -> raise Not_found
let mem elt seq ~eq = mem ~eq elt seq
let exists xs ~f = exists ~f xs
let for_all xs ~f = for_all ~f xs
let find_exn xs ~f = find ~f xs
let find xs ~f = find_opt ~f xs
let find_map xs ~f = find_map ~f xs
let find_map_exn xs ~f = Option.get_exn (find_map xs ~f)
let remove_one_exn ~eq x xs =
let rec remove_ ys = function
| [] -> raise Not_found
| z :: xs -> if eq x z then rev_append ys xs else remove_ (z :: ys) xs
in
remove_ [] xs
let remove_one ~eq x xs =
try Some (remove_one_exn ~eq x xs) with Not_found -> None
let remove ~eq x xs = remove ~eq ~key:x xs
let map xs ~f = map ~f xs
let map_endo t ~f = map_endo map t ~f
let rev_map_split xs ~f =
fold_left xs ~init:([], []) ~f:(fun (ys, zs) x ->
let y, z = f x in
(y :: ys, z :: zs) )
let combine_exn = combine
let combine xs ys =
try Some (combine_exn xs ys) with Invalid_argument _ -> None
let group_by seq ~hash ~eq = group_by ~hash ~eq seq
let join_by ~eq ~hash k1 k2 ~merge = join_by ~eq ~hash k1 k2 ~merge
let join_all_by ~eq ~hash k1 k2 ~merge = join_all_by ~eq ~hash k1 k2 ~merge
let group_join_by ~eq ~hash = group_join_by ~eq ~hash
let fold xs init ~f = fold_left ~f:(fun s x -> f x s) ~init xs
let fold_left xs init ~f = fold_left ~f ~init xs
let fold_right xs init ~f = fold_right ~f ~init xs
let reduce xs ~f =
match xs with [] -> None | x :: xs -> Some (fold ~f xs x)
let fold_map xs init ~f =
Pair.swap (fold_map ~f:(fun s x -> Pair.swap (f x s)) ~init xs)
let fold2_exn xs ys init ~f =
fold_left2 ~f:(fun s x y -> f x y s) ~init xs ys
let group_succ ~eq xs = group_succ ~eq:(fun y x -> eq x y) xs
let symmetric_diff ~cmp xs ys =
let rec symmetric_diff_ xxs yys : _ Either.t list =
match (xxs, yys) with
| x :: xs, y :: ys ->
let ord = cmp x y in
if ord = 0 then symmetric_diff_ xs ys
else if ord < 0 then Left x :: symmetric_diff_ xs yys
else Right y :: symmetric_diff_ xxs ys
| xs, [] -> map ~f:Either.left xs
| [], ys -> map ~f:Either.right ys
in
symmetric_diff_ (sort ~cmp xs) (sort ~cmp ys)
let rec pp ?pre ?suf sep pp_elt fs = function
| [] -> ()
| x :: xs ->
Option.iter ~f:(Format.fprintf fs) pre ;
pp_elt fs x ;
( match xs with
| [] -> ()
| xs -> Format.fprintf fs "%( %)%a" sep (pp sep pp_elt) xs ) ;
Option.iter ~f:(Format.fprintf fs) suf
let pp_diff ~cmp sep pp_elt fs (xs, ys) =
let pp_diff_elt fs (elt : _ Either.t) =
match elt with
| Left x -> Format.fprintf fs "-- %a" pp_elt x
| Right y -> Format.fprintf fs "++ %a" pp_elt y
in
pp sep pp_diff_elt fs (symmetric_diff ~cmp xs ys)
module Assoc = struct
include Assoc
let mem elt seq ~eq = mem ~eq elt seq
end
let mem_assoc elt seq ~eq = mem_assoc ~eq elt seq