package containers
A modular, clean and powerful extension of the OCaml standard library
Install
Dune Dependency
Authors
Maintainers
Sources
containers-3.16.tbz
sha256=1e7992cb2e59c0d2290d1b6c3a31531b3f310be6170b8ef3dde17ccd876b5b79
sha512=bb124e69ad0690f88393e18eee499be07761e767593558867aab32f643466b43258ced503170b154ca3b56dbd68987abd6d9438cf473707ec9866511589a5b84
doc/src/containers/CCOption.ml.html
Source file CCOption.ml
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See file "license" for more details. *) (** {1 Options} *) type 'a t = 'a option let[@inline] map f = function | None -> None | Some x -> Some (f x) let map_or ~default f = function | None -> default | Some x -> f x let map_lazy default_fn f = function | None -> default_fn () | Some x -> f x let is_some = function | None -> false | Some _ -> true let is_none = function | None -> true | Some _ -> false let compare f o1 o2 = match o1, o2 with | None, None -> 0 | Some _, None -> 1 | None, Some _ -> -1 | Some x, Some y -> f x y let equal f o1 o2 = match o1, o2 with | None, None -> true | Some _, None | None, Some _ -> false | Some x, Some y -> f x y let return x = Some x let some = return let none = None let[@inline] flat_map f o = match o with | None -> None | Some x -> f x let[@inline] flat_map_l f o = match o with | None -> [] | Some x -> f x let[@inline] bind o f = flat_map f o let ( >>= ) = bind let pure x = Some x let k_compose f g x = f x |> flat_map g let ( >=> ) = k_compose let ( <=< ) f g = g >=> f let ( <*> ) f x = match f, x with | None, _ | _, None -> None | Some f, Some x -> Some (f x) let or_ ~else_ a = match a with | None -> else_ | Some _ -> a let or_lazy ~else_ a = match a with | None -> else_ () | Some _ -> a let ( <+> ) a b = or_ ~else_:b a let choice l = List.fold_left ( <+> ) None l let map2 f o1 o2 = match o1, o2 with | None, _ | _, None -> None | Some x, Some y -> Some (f x y) let filter p = function | Some x as o when p x -> o | _ -> None let if_ p x = if p x then Some x else None let exists p = function | None -> false | Some x -> p x let for_all p = function | None -> true | Some x -> p x let iter f o = match o with | None -> () | Some x -> f x let fold f acc o = match o with | None -> acc | Some x -> f acc x let get_or ~default x = match x with | None -> default | Some y -> y let apply_or f x = match f x with | None -> x | Some y -> y let ( |?> ) x f = apply_or f x let value x ~default = match x with | None -> default | Some y -> y let get_exn = function | Some x -> x | None -> invalid_arg "CCOption.get_exn" let get_exn_or msg = function | Some x -> x | None -> invalid_arg msg let get_lazy default_fn x = match x with | None -> default_fn () | Some y -> y let sequence_l l = let rec aux acc l = match l with | [] -> Some (List.rev acc) | Some x :: l' -> aux (x :: acc) l' | None :: _ -> raise Exit in try aux [] l with Exit -> None let wrap ?(handler = fun _ -> true) f x = try Some (f x) with e -> if handler e then None else raise e let wrap2 ?(handler = fun _ -> true) f x y = try Some (f x y) with e -> if handler e then None else raise e let to_list o = match o with | None -> [] | Some x -> [ x ] let of_list = function | x :: _ -> Some x | [] -> None let to_result err = function | None -> Error err | Some x -> Ok x let to_result_lazy err_fn = function | None -> Error (err_fn ()) | Some x -> Ok x let of_result = function | Error _ -> None | Ok x -> Some x module Infix = struct let ( >|= ) x f = map f x let ( >>= ) = ( >>= ) let ( <*> ) = ( <*> ) let ( <$> ) = map let ( <+> ) = ( <+> ) let ( |?> ) = ( |?> ) let ( let+ ) = ( >|= ) let ( let* ) = ( >>= ) let[@inline] ( and+ ) o1 o2 = match o1, o2 with | Some x, Some y -> Some (x, y) | _ -> None let ( and* ) = ( and+ ) let ( >=> ) = ( >=> ) let ( <=< ) = ( <=< ) end include Infix type 'a iter = ('a -> unit) -> unit type 'a gen = unit -> 'a option type 'a printer = Format.formatter -> 'a -> unit type 'a random_gen = Random.State.t -> 'a let random g st = if Random.State.bool st then Some (g st) else None exception ExitChoice let choice_iter s = let r = ref None in (try s (function | None -> () | Some _ as o -> r := o; raise ExitChoice) with ExitChoice -> ()); !r let rec choice_seq s = match s () with | Seq.Nil -> None | Seq.Cons (Some x, _) -> Some x | Seq.Cons (None, tl) -> choice_seq tl let to_gen o = match o with | None -> fun () -> None | Some _ -> let first = ref true in fun () -> if !first then ( first := false; o ) else None let to_iter o k = match o with | None -> () | Some x -> k x let to_seq o () = match o with | None -> Seq.Nil | Some x -> Seq.Cons (x, Seq.empty) let pp ppx out = function | None -> Format.pp_print_string out "None" | Some x -> Format.fprintf out "@[Some %a@]" ppx x let flatten = function | Some x -> x | None -> None let return_if b x = if b then Some x else None