ligo/lib_stdlib/tzList.ml

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(**************************************************************************)
(* *)
(* Copyright (c) 2014 - 2017. *)
(* Dynamic Ledger Solutions, Inc. <contact@tezos.com> *)
(* *)
(* All rights reserved. No warranty, explicit or implicit, provided. *)
(* *)
(**************************************************************************)
let may_cons xs x = match x with None -> xs | Some x -> x :: xs
let filter_map f l =
List.rev @@ List.fold_left (fun acc x -> may_cons acc (f x)) [] l
let rev_sub l n =
if n < 0 then
invalid_arg "Utils.rev_sub: `n` must be non-negative.";
let rec append_rev_sub acc l = function
| 0 -> acc
| n ->
match l with
| [] -> acc
| hd :: tl -> append_rev_sub (hd :: acc) tl (n - 1) in
append_rev_sub [] l n
let sub l n = rev_sub l n |> List.rev
let hd_opt = function
| [] -> None
| h :: _ -> Some h
let rec last_exn = function
| [] -> raise Not_found
| [x] -> x
| _ :: xs -> last_exn xs
let merge_filter2
?(finalize = List.rev) ?(compare = compare)
?(f = Option.first_some)
l1 l2 =
let sort = List.sort compare in
let rec merge_aux acc = function
| [], [] -> finalize acc
| r1, [] -> finalize acc @ (filter_map (fun x1 -> f (Some x1) None) r1)
| [], r2 -> finalize acc @ (filter_map (fun x2 -> f None (Some x2)) r2)
| ((h1 :: t1) as r1), ((h2 :: t2) as r2) ->
if compare h1 h2 > 0 then
merge_aux (may_cons acc (f None (Some h2))) (r1, t2)
else if compare h1 h2 < 0 then
merge_aux (may_cons acc (f (Some h1) None)) (t1, r2)
else (* m1 = m2 *)
merge_aux (may_cons acc (f (Some h1) (Some h2))) (t1, t2)
in
merge_aux [] (sort l1, sort l2)
let merge2 ?finalize ?compare ?(f = fun x1 _x1 -> x1) l1 l2 =
merge_filter2 ?finalize ?compare
~f:(fun x1 x2 -> match x1, x2 with
| None, None -> assert false
| Some x1, None -> Some x1
| None, Some x2 -> Some x2
| Some x1, Some x2 -> Some (f x1 x2))
l1 l2
let rec remove nb = function
| [] -> []
| l when nb <= 0 -> l
| _ :: tl -> remove (nb - 1) tl
let rec repeat n x = if n <= 0 then [] else x :: repeat (pred n) x
let take_n_unsorted n l =
let rec loop acc n = function
| [] -> l
| _ when n <= 0 -> List.rev acc
| x :: xs -> loop (x :: acc) (pred n) xs in
loop [] n l
module Bounded(E: Set.OrderedType) : sig
type t
val create: int -> t
val insert: E.t -> t -> unit
val get: t -> E.t list
end = struct
(* TODO one day replace the list by an heap array *)
type t = {
bound : int ;
mutable size : int ;
mutable data : E.t list ;
}
let create bound =
if bound <= 0 then invalid_arg "Utils.Bounded(_).create" ;
{ bound ; size = 0 ; data = [] }
let rec push x = function
| [] -> [x]
| (y :: xs) as ys ->
if E.compare x y <= 0
then x :: ys
else y :: push x xs
let insert x t =
if t.size < t.bound then begin
t.size <- t.size + 1 ;
t.data <- push x t.data
end else if E.compare (List.hd t.data) x < 0 then
t.data <- push x (List.tl t.data)
let get { data ; _ } = data
end
let take_n_sorted (type a) compare n l =
let module B = Bounded(struct type t = a let compare = compare end) in
let t = B.create n in
List.iter (fun x -> B.insert x t) l ;
B.get t
let take_n ?compare n l =
match compare with
| None -> take_n_unsorted n l
| Some compare -> take_n_sorted compare n l
let select n l =
let rec loop n acc = function
| [] -> invalid_arg "Utils.select"
| x :: xs when n <= 0 -> x, List.rev_append acc xs
| x :: xs -> loop (pred n) (x :: acc) xs
in
loop n [] l