optics-extra-0.2: Extra utilities and instances for optics-core

Safe HaskellNone
LanguageHaskell2010

Data.Vector.Generic.Optics

Contents

Description

This module provides lenses and traversals for working with generic vectors.

Synopsis

Documentation

toVectorOf :: (Is k A_Fold, Vector v a) => Optic' k is s a -> s -> v a Source #

Similar to toListOf, but returning a Vector.

>>> (toVectorOf each (8,15) :: Vector.Vector Int) == Vector.fromList [8,15]
True

Isomorphisms

forced :: (Vector v a, Vector v b) => Iso (v a) (v b) (v a) (v b) Source #

Convert a Vector to a version that doesn't retain any extra memory.

vector :: (Vector v a, Vector v b) => Iso [a] [b] (v a) (v b) Source #

Convert a list to a Vector (or back.)

>>> ([1,2,3] ^. vector :: Vector.Vector Int) == Vector.fromList [1,2,3]
True
>>> Vector.fromList [0,8,15] ^. re vector
[0,8,15]

asStream :: (Vector v a, Vector v b) => Iso (v a) (v b) (Bundle v a) (Bundle v b) Source #

Convert a Vector to a finite Bundle (or back.)

asStreamR :: (Vector v a, Vector v b) => Iso (v a) (v b) (Bundle v a) (Bundle v b) Source #

Convert a Vector to a finite Bundle from right to left (or back.)

cloned :: Vector v a => Iso' (v a) (New v a) Source #

Convert a Vector back and forth to an initializer that when run produces a copy of the Vector.

converted :: (Vector v a, Vector w a, Vector v b, Vector w b) => Iso (v a) (v b) (w a) (w b) Source #

Different vector implementations are isomorphic to each other.

Lenses

sliced Source #

Arguments

:: Vector v a 
=> Int

i starting index

-> Int

n length

-> Lens' (v a) (v a) 

sliced i n provides a Lens that edits the n elements starting at index i from a Lens.

This is only a valid Lens if you do not change the length of the resulting Vector.

Attempting to return a longer or shorter vector will result in violations of the Lens laws.

>>> Vector.fromList [1..10] ^. sliced 2 5 == Vector.fromList [3,4,5,6,7]
True
>>> (Vector.fromList [1..10] & sliced 2 5 % mapped .~ 0) == Vector.fromList [1,2,0,0,0,0,0,8,9,10]
True

Traversal of individual indices

ordinals :: forall v a. Vector v a => [Int] -> IxTraversal' Int (v a) a Source #

This Traversal will ignore any duplicates in the supplied list of indices.

>>> toListOf (ordinals [1,3,2,5,9,10]) $ Vector.fromList [2,4..40]
[4,8,6,12,20,22]

vectorIx :: Vector v a => Int -> Traversal' (v a) a Source #

Like ix but polymorphic in the vector type.

vectorTraverse :: forall v w a b. (Vector v a, Vector w b) => IxTraversal Int (v a) (w b) a b Source #

Indexed vector traversal for a generic vector.