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Library
Module
Module type
Parameter
Class
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val negated :
('i ->
('a -> Base.bool) ->
'b ->
Base.bool,
'i ->
('a -> Base.bool) ->
'b ->
Base.bool,
[< Accessor_base__.Import.isomorphism ])
Accessor.t
Access the inverse of a predicate.
val result :
('i ->
'a ->
'b,
'i ->
('c -> 'a) ->
'c ->
'b,
[< Accessor_base__.Import.mapper ])
Accessor.t
You can't really extract the result of a function without applying it to something, but you can still map over it.
val resulti :
(('c * 'i) ->
'a ->
'b,
'i ->
('c -> 'a) ->
'c ->
'b,
[< Accessor_base__.Import.mapper ])
Accessor.t
Like result
, but uses whatever argument is supplied to the resulting function as an index.
val flipped :
('i ->
('a -> 'b -> 'c) ->
'd ->
'e ->
'f,
'i ->
('b -> 'a -> 'c) ->
'e ->
'd ->
'f,
[< Accessor_base__.Import.isomorphism ])
Accessor.t
Access a function with its arguments flipped.
This applicative interface allows you to pass some environment around as you access something.
include Accessor.Applicative.S2
with type ('output, 'input) t := 'input -> 'output
val map :
(Base.unit ->
'a ->
'b,
Base.unit ->
'at ->
'bt,
[> Accessor.Subtyping.many ])
Accessor.t ->
'at ->
f:('a -> 'e -> 'b) ->
'e ->
'bt
val mapi :
('i -> 'a -> 'b, Base.unit -> 'at -> 'bt, [> Accessor.Subtyping.many ])
Accessor.t ->
'at ->
f:('i Accessor.Index.t -> 'a -> 'e -> 'b) ->
'e ->
'bt
val all :
(Base.unit ->
('e -> 'a) ->
'a,
Base.unit ->
'at ->
'bt,
[> Accessor.Subtyping.many ])
Accessor.t ->
'at ->
'e ->
'bt
val all_unit :
(Base.unit ->
('e -> Base.unit) ->
_,
Base.unit ->
'at ->
_,
[> Accessor.Subtyping.many_getter ])
Accessor.t ->
'at ->
'e ->
Base.unit
val iter :
(Base.unit ->
'a ->
_,
Base.unit ->
'at ->
_,
[> Accessor.Subtyping.many_getter ])
Accessor.t ->
'at ->
f:('a -> 'e -> Base.unit) ->
'e ->
Base.unit
val iteri :
('i -> 'a -> _, Base.unit -> 'at -> _, [> Accessor.Subtyping.many_getter ])
Accessor.t ->
'at ->
f:('i Accessor.Index.t -> 'a -> 'e -> Base.unit) ->
'e ->
Base.unit
val sum :
(module Base.Container.Summable with type t = 'sum) ->
(Base.unit ->
'a ->
_,
Base.unit ->
'at ->
_,
[> Accessor.Subtyping.many_getter ])
Accessor.t ->
'at ->
f:('a -> 'e -> 'sum) ->
'e ->
'sum
val sumi :
(module Base.Container.Summable with type t = 'sum) ->
('i -> 'a -> _, Base.unit -> 'at -> _, [> Accessor.Subtyping.many_getter ])
Accessor.t ->
'at ->
f:('i Accessor.Index.t -> 'a -> 'e -> 'sum) ->
'e ->
'sum
val count :
(Base.unit ->
'a ->
_,
Base.unit ->
'at ->
_,
[> Accessor.Subtyping.many_getter ])
Accessor.t ->
'at ->
f:('a -> 'e -> Base.bool) ->
'e ->
Base.int
val counti :
('i -> 'a -> _, Base.unit -> 'at -> _, [> Accessor.Subtyping.many_getter ])
Accessor.t ->
'at ->
f:('i Accessor.Index.t -> 'a -> 'e -> Base.bool) ->
'e ->
Base.int
val map_reduce :
(Base.unit ->
'a ->
_,
Base.unit ->
'at ->
_,
[> Accessor.Subtyping.many_getter ])
Accessor.t ->
'at ->
empty:'b ->
combine:('b -> 'b -> 'b) ->
f:('a -> 'e -> 'b) ->
'e ->
'b
val map_reducei :
('i -> 'a -> _, Base.unit -> 'at -> _, [> Accessor.Subtyping.many_getter ])
Accessor.t ->
'at ->
empty:'b ->
combine:('b -> 'b -> 'b) ->
f:('i Accessor.Index.t -> 'a -> 'e -> 'b) ->
'e ->
'b
val map_reduce_nonempty :
(Base.unit ->
'a ->
_,
Base.unit ->
'at ->
_,
[> Accessor.Subtyping.nonempty_getter ])
Accessor.t ->
'at ->
combine:('b -> 'b -> 'b) ->
f:('a -> 'e -> 'b) ->
'e ->
'b
val map_reduce_nonemptyi :
('i ->
'a ->
_,
Base.unit ->
'at ->
_,
[> Accessor.Subtyping.nonempty_getter ])
Accessor.t ->
'at ->
combine:('b -> 'b -> 'b) ->
f:('i Accessor.Index.t -> 'a -> 'e -> 'b) ->
'e ->
'b