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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 Import0
include Core.List
let rec pp ?pre ?suf sep pp_elt fs = function
| [] -> ()
| x :: xs ->
Option.iter pre ~f:(Format.fprintf fs) ;
pp_elt fs x ;
( match xs with
| [] -> ()
| xs -> Format.fprintf fs "%( %)%a" sep (pp sep pp_elt) xs ) ;
Option.iter suf ~f:(Format.fprintf fs)
let pop_exn =
let not_found = Not_found_s (Atom "pop_exn") in
function x :: xs -> (x, xs) | [] -> raise not_found
let find_map_remove xs ~f =
let rec find_map_remove_ ys = function
| [] -> None
| x :: xs -> (
match f x with
| Some x' -> Some (x', rev_append ys xs)
| None -> find_map_remove_ (x :: ys) xs )
in
find_map_remove_ [] xs
let fold_option xs ~init ~f =
with_return
@@ fun {return} ->
Some
(fold xs ~init ~f:(fun acc elt ->
match f acc elt with Some res -> res | None -> return None ))
let map_preserving_phys_equal map t ~f =
let change = ref false in
let t' =
map t ~f:(fun x ->
let x' = f x in
if not (x' == x) then change := true ;
x' )
in
if !change then t' else t
let filter_map_preserving_phys_equal filter_map t ~f =
let change = ref false in
let t' =
filter_map t ~f:(fun x ->
let x'_opt = f x in
( match x'_opt with
| Some x' when x' == x -> ()
| _ -> change := true ) ;
x'_opt )
in
if !change then t' else t
let filter_map_preserving_phys_equal t ~f =
filter_map_preserving_phys_equal filter_map t ~f
let map_preserving_phys_equal t ~f = map_preserving_phys_equal map t ~f
let rev_map_unzip xs ~f =
fold xs ~init:([], []) ~f:(fun (ys, zs) x ->
let y, z = f x in
(y :: ys, z :: zs) )
let remove_exn =
let not_found = Not_found_s (Atom "remove_exn") in
fun ?(equal = phys_equal) xs x ->
let rec remove_ ys = function
| [] -> raise not_found
| z :: xs ->
if equal x z then rev_append ys xs else remove_ (z :: ys) xs
in
remove_ [] xs
let remove ?equal xs x =
try Some (remove_exn ?equal xs x) with Not_found_s _ -> None
let rec rev_init n ~f =
if n = 0 then []
else
let n = n - 1 in
let xs = rev_init n ~f in
f n :: xs
let symmetric_diff ~compare xs ys =
let rec symmetric_diff_ xxs yys : _ Either.t list =
match (xxs, yys) with
| x :: xs, y :: ys ->
let ord = compare x y in
if ord = 0 then symmetric_diff_ xs ys
else if ord < 0 then First x :: symmetric_diff_ xs yys
else Second y :: symmetric_diff_ xxs ys
| xs, [] -> map ~f:Either.first xs
| [], ys -> map ~f:Either.second ys
in
symmetric_diff_ (sort ~compare xs) (sort ~compare ys)
let pp_diff ~compare sep pp_elt fs (xs, ys) =
let pp_diff_elt fs elt =
match elt with
| First x -> Format.fprintf fs "-- %a" pp_elt x
| Second y -> Format.fprintf fs "++ %a" pp_elt y
in
pp sep pp_diff_elt fs (symmetric_diff ~compare xs ys)