package ppx_variants_conv
Install
Dune Dependency
Authors
Maintainers
Sources
sha256=6e7096f6e7b6c2fa916e85d2b526a4574234f72185b40f7d409d08f339dfac9c
README.md.html
ppx_variants_conv
Generation of accessor and iteration functions for ocaml variant types.
ppx_variants_conv
is a ppx rewriter that can be used to define first class values representing variant constructors, some helper functions to identify or match on individual constructors, and additional routines to fold, iterate and map over all constructors of a variant type.
It provides corresponding functionality for variant types as ppx_fields_conv
provides for record types.
Basic use of [@@deriving variants]
and variantslib
This code:
type 'a t =
| A of 'a
| B of char
| C
| D of int * int
[@@deriving variants]
generates the following values:
(** first-class constructor functions *)
val a : 'a -> 'a t
val b : char -> 'a t
val c : 'a t
val d : int -> int -> 'a t
val is_a : _ t -> bool
val is_b : _ t -> bool
val is_c : _ t -> bool
val is_d : _ t -> bool
val a_val : 'a t -> 'a option
val b_val : _ t -> char option
val c_val : _ t -> unit option
val d_val : _ t -> (int * int) option
(** higher order variants and functions over all variants *)
module Variants : sig
val a : ('a -> 'a t) Variant.t
val b : (char -> 'a t) Variant.t
val c : ('a t) Variant.t
val d : (int -> int -> 'a t) Variant.t
val fold :
init: 'b
-> a:('b -> ('a -> 'a t) Variant.t -> 'c)
-> b:('c -> (char -> 'a t) Variant.t -> 'd)
-> c:('d -> ('a t) Variant.t -> 'e)
-> d:('e -> (int -> int -> 'a t) Variant.t -> 'f)
-> 'f
val iter :
a: (('a -> 'a t) Variant.t -> unit)
-> b: ((char -> 'a t) Variant.t -> unit)
-> c: (('a t) Variant.t -> unit)
-> d: ((int -> int -> 'a t) Variant.t -> unit)
-> unit
val map :
'a t
-> a: (('a -> 'a t) Variant.t -> 'a -> 'r)
-> b: ((char -> 'a t) Variant.t -> char -> 'r)
-> c: (('a t) Variant.t -> 'r)
-> d: ((int -> int -> 'a t) Variant.t -> int -> int -> 'a t -> 'r)
-> 'r
val make_matcher :
a:(('a -> 'a t) Variant.t -> 'b -> ('c -> 'd) * 'e)
-> b:((char -> 'f t) Variant.t -> 'e -> (char -> 'd) * 'g)
-> c:('h t Variant.t -> 'g -> (unit -> 'd) * 'i)
-> d:((int -> int -> 'j t) Variant.t -> 'i -> (int -> int -> 'd) * 'k)
-> 'b
-> ('c t -> 'd) * 'k
val to_rank : _ t -> int
val to_name : _ t -> string
(** name * number of arguments, ie [("A", 1); ("B", 1); ("C", 0); ("D", 2)]. *)
val descriptions : (string * int) list
end
Variant.t is defined in Variantslib as follows:
module Variant = struct
type 'constructor t = {
name : string;
(* the position of the constructor in the type definition, starting from 0 *)
rank : int;
constructor : 'constructor
}
end
The fold, iter, and map functions are useful in dealing with the totality of variants. For example, to get a list of all variants when all the constructors are nullary:
type t =
| First
| Second
| Third
[@@deriving variants]
let all =
let add acc var = var.Variantslib.Variant.constructor :: acc in
Variants.fold ~init:[]
~first:add
~second:add
~third:add
Just like with [@@deriving fields]
, if the type changes, the compiler will complain until this definition is updated as well.
ppx_variant_libs
works similarly on simple polymorphic variants (without row variables and without inclusion).