Module `Ecaml.Vector`

A Vector.t is a general-purpose array whose elements are Value.t's.

(Info-goto-node "(elisp)Vectors")

include Ecaml__.Import.Value.Subtype

type value
type t = private value: We expose private value for free identity conversions when the value is nested in some covariant type, e.g. (symbols : Symbol.t list :> Value.t list) rather than List.map symbols ~f:Symbol.to_value.

val sexp_of_t : t -> Ppx_sexp_conv_lib.Sexp.t

val eq : t -> t -> bool: eq t1 t2 = Value.eq (to_value t1) (to_value t2), i.e. eq checks whether the Emacs values underlying t1 and t2 are physically equal. This is different than phys_equal t1 t2, because we don't always wrap eq Emacs values in phys_equal OCaml values. I.e. phys_equal t1 t2 implies eq t1 t2, but not the converse.

val is_in_subtype : value -> bool

include Ecaml_value__.Valueable0.S with type t := t

type t
type 'a type_

val of_value_exn : Ecaml_value__.Value0.t -> t
val to_value : t -> Ecaml_value__.Value0.t
val type_ : t type_

val type_ : 'a Ecaml__.Import.Value.Type.t -> 'a array Ecaml__.Import.Value.Type.t
val create : len:int -> Ecaml__.Import.Value.t -> t: (describe-function 'make-vector)

val length : t -> int
val get : t -> int -> Ecaml__.Import.Value.t
val set : t -> int -> Ecaml__.Import.Value.t -> unit
val of_list : Ecaml__.Import.Value.t list -> t: (describe-function 'vector)

val concat : t list -> t: (describe-function 'vconcat)

val to_array : t -> f:(Ecaml__.Import.Value.t -> 'a) -> 'a array