(* * 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 module Array = ContainersLabels.Array include Array type 'a t = 'a array [@@deriving compare, equal, sexp] let of_ x = [|x|] let of_list_rev = function | [] -> [||] | hd :: tl -> let len = 1 + List.length tl in let a = make len hd in let rec back_fill i = function | [] -> a | hd :: tl -> a.(i) <- hd ; back_fill (i - 1) tl in back_fill (len - 2) tl let is_empty = function [||] -> true | _ -> false let map xs ~f = map ~f xs let mapi xs ~f = mapi ~f xs let map_endo xs ~f = map_endo map xs ~f let reduce_adjacent xs ~f = let n = length xs - 1 in let rec reduce_adjacent_ j i xs = if i < n then ( match f xs.(i - j) xs.(i + 1) with | None -> if j != 0 then xs.(i + 1 - j) <- xs.(i + 1) ; reduce_adjacent_ j (i + 1) xs | Some x -> let xs = if j = 0 then copy xs else xs in xs.(i - j) <- x ; reduce_adjacent_ (j + 1) (i + 1) xs ) else if j = 0 then xs else sub xs ~pos:0 ~len:(n + 1 - j) in reduce_adjacent_ 0 0 xs let split xys = let n = length xys in if n = 0 then ([||], [||]) else let x0, y0 = xys.(0) in let xs = make n x0 in let ys = make n y0 in for i = 1 to n - 1 do let xI, yI = xys.(i) in xs.(i) <- xI ; ys.(i) <- yI done ; (xs, ys) let combine_exn xs ys = let len = length xs in if len <> length ys then invalid_arg "Array.combine_exn" ; init len ~f:(fun i -> (xs.(i), ys.(i))) let combine xs ys = try Some (combine_exn xs ys) with Invalid_argument _ -> None let mem x xs ~eq = mem ~eq x xs let iter xs ~f = iter ~f xs let iteri xs ~f = iteri ~f xs let exists xs ~f = exists ~f xs let for_all xs ~f = for_all ~f xs let fold xs init ~f = fold ~f:(fun s x -> f x s) ~init xs let fold_right xs init ~f = fold_right ~f ~init xs let fold_map xs init ~f = Pair.swap (fold_map ~f:(fun s x -> Pair.swap (f x s)) ~init xs) let fold_map_until xs s ~f ~finish = let l = length xs in if l = 0 then finish ([||], s) else match f xs.(0) s with | `Stop r -> r | `Continue (y, s) -> let ys = make l y in let rec fold_map_until_ s i = if i = l then finish (ys, s) else match f xs.(i) s with | `Stop r -> r | `Continue (y, s) -> ys.(i) <- y ; fold_map_until_ s (i + 1) in fold_map_until_ s 1 let for_all2_exn xs ys ~f = for_all2 ~f xs ys let to_list_rev_map xs ~f = fold ~f:(fun x ys -> f x :: ys) xs [] let pp sep pp_elt fs a = List.pp sep pp_elt fs (to_list a)