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(*
* Copyright (c) 2015-present, Facebook, Inc.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*)
open! IStd
(* [take_append ~max list ~tail] takes the first max elements of [list] and appends [tail] to the result.
Does not create garbage for [max] <= 1000. *)
let take_append =
let rec take_append_non_tailrec ~max list ~tail =
match list with
| hd :: tl when max > 0 ->
hd :: take_append_non_tailrec ~max:(max - 1) tl ~tail
| _ ->
tail
in
let rec take_append_tailrec ~max list acc ~tail =
match list with
| hd :: tl when max > 0 ->
(take_append_tailrec [@tailcall]) ~max:(max - 1) tl (hd :: acc) ~tail
| _ ->
List.rev_append acc tail
in
fun list ~max ~tail ->
if max <= 1000 then take_append_non_tailrec ~max list ~tail
else take_append_tailrec ~max list [] ~tail
(** like map, but returns the original list if unchanged *)
let map_changed ~equal ~f l =
let rec aux unchanged_prefix_length = function
| [] ->
l
| x :: tl ->
let x' = f x in
if not (equal x x') then
take_append ~max:unchanged_prefix_length ~tail:(x' :: List.map ~f tl) l
else aux (unchanged_prefix_length + 1) tl
in
aux 0 l
(** like filter, but returns the original list if unchanged *)
let filter_changed ~f l =
let res_rev, changed =
List.fold_left l ~init:([], false) ~f:(fun (l, changed) x ->
if f x then (x :: l, changed) else (l, true) )
in
if changed then List.rev res_rev else l
(** Remove consecutive equal irrelevant elements from a list (according to the given comparison and
relevance functions) *)
let remove_irrelevant_duplicates ~equal ~f l =
let rec remove acc = function
| [] ->
List.rev acc
| [x] ->
List.rev (x :: acc)
| x :: (y :: l'' as l') ->
if equal x y then
match (f x, f y) with
| false, _ ->
remove acc l'
| true, false ->
remove acc (x :: l'')
| true, true ->
remove (x :: acc) l'
else remove (x :: acc) l'
in
remove [] l
(** The function works on sorted lists without duplicates, and keeps only one copy of elements that
appear in both lists. *)
let rec merge_sorted_nodup ~cmp ~res xs1 xs2 =
match (xs1, xs2) with
| [], _ ->
List.rev_append res xs2
| _, [] ->
List.rev_append res xs1
| x1 :: xs1', x2 :: xs2' ->
let n = cmp x1 x2 in
if Int.equal n 0 then merge_sorted_nodup ~cmp ~res:(x1 :: res) xs1' xs2'
else if n < 0 then merge_sorted_nodup ~cmp ~res:(x1 :: res) xs1' xs2
else merge_sorted_nodup ~cmp ~res:(x2 :: res) xs1 xs2'
let inter ~cmp xs ys =
let rev_sort xs = List.dedup_and_sort ~compare:(fun x y -> cmp y x) xs in
let rev_xs = rev_sort xs in
let rev_ys = rev_sort ys in
let rec inter_ is rev_xxs rev_yys =
match (rev_xxs, rev_yys) with
| [], _ | _, [] ->
is
| x :: rev_xs, y :: rev_ys ->
let c = cmp x y in
if Int.equal c 0 then inter_ (x :: is) rev_xs rev_ys
else if c > 0 then inter_ is rev_xs rev_yys
else inter_ is rev_xxs rev_ys
in
inter_ [] rev_xs rev_ys
(** like fold, but apply [f_last] to the last element *)
let rec fold_last l ~init ~f ~f_last =
match l with
| [] ->
init
| [last] ->
f_last init last
| hd :: tl ->
fold_last tl ~init:(f init hd) ~f ~f_last
let split_last_rev l =
let result, _rev_prefix =
fold_last l ~init:(None, [])
~f:(fun (_, rev_prefix) x -> (None, x :: rev_prefix))
~f_last:(fun (_, rev_prefix) last -> (Some (last, rev_prefix), rev_prefix))
in
result
let append_no_duplicates (type a) ~(cmp : a -> a -> int) =
(* roughly based on [Core.List.stable_dedup_staged] but also takes care of the append and takes
into account the invariant that [list1] and [list2] do not contain duplicates individually *)
let module Set = Set.Make (struct
type t = a
let compare = cmp
(* we never calls these *)
let t_of_sexp _ = assert false
let sexp_of_t _ = assert false
end) in
Staged.stage (fun (list1 : a list) (list2 : a list) ->
let set1 = Set.of_list list1 in
let res_rev =
List.fold_left list2 ~init:(List.rev list1) ~f:(fun res_rev x ->
if Set.mem set1 x then res_rev else x :: res_rev )
in
List.rev res_rev )
let merge_dedup l1 l2 ~compare =
let rec loop acc l1 l2 =
match (l1, l2) with
| [], l2 ->
List.rev_append acc l2
| l1, [] ->
List.rev_append acc l1
| h1 :: t1, h2 :: t2 ->
let cmp = compare h1 h2 in
if Int.equal cmp 0 then loop (h1 :: acc) t1 t2
else if cmp < 0 then loop (h1 :: acc) t1 l2
else loop (h2 :: acc) l1 t2
in
loop [] l1 l2
(* Remove when Base.List.drop perf is fixed *)
let rec drop list index =
match list with _ :: tl when index > 0 -> drop tl (index - 1) | _ -> list
let opt_cons opt list = match opt with Some x -> x :: list | None -> list
let remove_first =
let rec aux list ~f rev_front =
match list with
| [] ->
None
| hd :: tl ->
if f hd then Some (List.rev_append rev_front tl) else aux tl ~f (hd :: rev_front)
in
fun list ~f -> aux list ~f []
let pp_print_list ~max ?(pp_sep = Format.pp_print_cut) pp_v ppf =
let rec aux n = function
| [] ->
()
| v :: rest ->
if n >= max then Format.fprintf ppf " ..."
else (
pp_sep ppf () ;
pp_v ppf v ;
aux (n + 1) rest )
in
function [] -> () | [v] -> pp_v ppf v | v :: rest -> pp_v ppf v ; aux 1 rest
let fold2_result ~init ~f l1 l2 =
List.fold2 l1 l2 ~init:(Ok init) ~f:(fun result x1 x2 ->
Result.bind result ~f:(fun acc -> f acc x1 x2) )