accessor

A library that makes it nicer to work with nested functional data structures
IN THIS PACKAGE

Parameters

module A : sig ... end

Signature

val map : ( Base.unit -> 'a -> 'b, Base.unit -> 'at -> 'bt, [> Subtyping.nonempty ] ) General.t -> 'at -> f:( 'a -> 'b A.t ) -> 'bt A.t
val mapi : ( 'i -> 'a -> 'b, Base.unit -> 'at -> 'bt, [> Subtyping.nonempty ] ) General.t -> 'at -> f:( 'i Index.t -> 'a -> 'b A.t ) -> 'bt A.t
val iter : ( Base.unit -> 'a -> _, Base.unit -> 'at -> _, [> Subtyping.nonempty_getter ] ) General.t -> 'at -> f:( 'a -> Base.unit A.t ) -> Base.unit A.t
val iteri : ( 'i -> 'a -> _, Base.unit -> 'at -> _, [> Subtyping.nonempty_getter ] ) General.t -> 'at -> f:( 'i Index.t -> 'a -> Base.unit A.t ) -> Base.unit A.t
val sum : (module Base.Container.Summable with type t = 'sum) -> ( Base.unit -> 'a -> _, Base.unit -> 'at -> _, [> Subtyping.nonempty_getter ] ) General.t -> 'at -> f:( 'a -> 'sum A.t ) -> 'sum A.t
val sumi : (module Base.Container.Summable with type t = 'sum) -> ( 'i -> 'a -> _, Base.unit -> 'at -> _, [> Subtyping.nonempty_getter ] ) General.t -> 'at -> f:( 'i Index.t -> 'a -> 'sum A.t ) -> 'sum A.t
val count : ( Base.unit -> 'a -> _, Base.unit -> 'at -> _, [> Subtyping.nonempty_getter ] ) General.t -> 'at -> f:( 'a -> Base.bool A.t ) -> Base.int A.t
val counti : ( 'i -> 'a -> _, Base.unit -> 'at -> _, [> Subtyping.nonempty_getter ] ) General.t -> 'at -> f:( 'i Index.t -> 'a -> Base.bool A.t ) -> Base.int A.t
val all : ( Base.unit -> 'a A.t -> 'a, Base.unit -> 'at -> 'bt, [> Subtyping.nonempty ] ) General.t -> 'at -> 'bt A.t
val all_unit : ( Base.unit -> Base.unit A.t -> _, Base.unit -> 'at -> _, [> Subtyping.nonempty_getter ] ) General.t -> 'at -> Base.unit A.t
val map_reduce_nonempty : ( Base.unit -> 'a -> _, Base.unit -> 'at -> _, [> Subtyping.nonempty_getter ] ) General.t -> 'at -> combine:( 'b -> 'b -> 'b ) -> f:( 'a -> 'b A.t ) -> 'b A.t
val map_reduce_nonemptyi : ( 'i -> 'a -> _, Base.unit -> 'at -> _, [> Subtyping.nonempty_getter ] ) General.t -> 'at -> combine:( 'b -> 'b -> 'b ) -> f:( 'i Index.t -> 'a -> 'b A.t ) -> 'b A.t