{-# LANGUAGE CPP #-} {-# LANGUAGE Rank2Types #-} {-# LANGUAGE FlexibleContexts #-} #ifdef TRUSTWORTHY {-# LANGUAGE Trustworthy #-} #endif ------------------------------------------------------------------------------- -- | -- Module : Data.Vector.Generic.Lens -- Copyright : (C) 2012-2015 Edward Kmett -- License : BSD-style (see the file LICENSE) -- Maintainer : Edward Kmett <ekmett@gmail.com> -- Stability : provisional -- Portability : non-portable -- -- This module provides lenses and traversals for working with generic -- vectors. ------------------------------------------------------------------------------- module Data.Vector.Generic.Lens ( toVectorOf -- * Isomorphisms , forced , vector , asStream , asStreamR , cloned , converted -- * Lenses , sliced -- * Traversal of individual indices , ordinals , vectorIx , vectorTraverse ) where import Control.Applicative import Control.Lens.Type import Control.Lens.Lens import Control.Lens.Getter import Control.Lens.Fold import Control.Lens.Iso import Control.Lens.Indexed import Control.Lens.Setter import Control.Lens.Traversal import Control.Lens.Internal.List (ordinalNub) import Data.Monoid import Data.Vector.Generic as V hiding (zip, filter, indexed) import Data.Vector.Fusion.Stream (Stream) import Data.Vector.Generic.New (New) import Prelude hiding ((++), length, null, head, tail, init, last, map, reverse) -- $setup -- >>> import Data.Vector as Vector -- | @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 -- fromList [3,4,5,6,7] -- -- >>> Vector.fromList [1..10] & sliced 2 5 . mapped .~ 0 -- fromList [1,2,0,0,0,0,0,8,9,10] sliced :: Vector v a => Int -- ^ @i@ starting index -> Int -- ^ @n@ length -> Lens' (v a) (v a) sliced i n f v = f (slice i n v) <&> \ v0 -> v // zip [i..i+n-1] (V.toList v0) {-# INLINE sliced #-} -- | Similar to 'toListOf', but returning a 'Vector'. -- -- >>> toVectorOf both (8,15) :: Vector.Vector Int -- fromList [8,15] toVectorOf :: Vector v a => Getting (Endo [a]) s a -> s -> v a toVectorOf l s = fromList (toListOf l s) {-# INLINE toVectorOf #-} -- | Convert a list to a 'Vector' (or back.) -- -- >>> [1,2,3] ^. vector :: Vector.Vector Int -- fromList [1,2,3] -- -- >>> Vector.fromList [0,8,15] ^. from vector -- [0,8,15] vector :: (Vector v a, Vector v b) => Iso [a] [b] (v a) (v b) vector = iso fromList V.toList {-# INLINE vector #-} -- | Convert a 'Vector' to a finite 'Stream' (or back.) asStream :: (Vector v a, Vector v b) => Iso (v a) (v b) (Stream a) (Stream b) asStream = iso stream unstream {-# INLINE asStream #-} -- | Convert a 'Vector' to a finite 'Stream' from right to left (or -- back.) asStreamR :: (Vector v a, Vector v b) => Iso (v a) (v b) (Stream a) (Stream b) asStreamR = iso streamR unstreamR {-# INLINE asStreamR #-} -- | Convert a 'Vector' back and forth to an initializer that when run -- produces a copy of the 'Vector'. cloned :: Vector v a => Iso' (v a) (New v a) cloned = iso clone new {-# INLINE cloned #-} -- | Convert a 'Vector' to a version that doesn't retain any extra -- memory. forced :: Vector v a => Iso' (v a) (v a) forced = involuted force {-# INLINE forced #-} -- | 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] ordinals :: Vector v a => [Int] -> IndexedTraversal' Int (v a) a ordinals is f v = fmap (v //) $ traverse (\i -> (,) i <$> indexed f i (v ! i)) $ ordinalNub (length v) is {-# INLINE ordinals #-} -- | Like 'ix' but polymorphic in the vector type. vectorIx :: V.Vector v a => Int -> Traversal' (v a) a vectorIx i f v | 0 <= i && i < V.length v = f (v V.! i) <&> \a -> v V.// [(i, a)] | otherwise = pure v {-# INLINE vectorIx #-} -- | Indexed vector traversal for a generic vector. vectorTraverse :: (V.Vector v a, V.Vector w b) => IndexedTraversal Int (v a) (w b) a b vectorTraverse f v = V.fromListN (V.length v) <$> traversed f (V.toList v) {-# INLINE [0] vectorTraverse #-} {-# RULES "vectorTraverse -> mapped" vectorTraverse = sets V.map :: (V.Vector v a, V.Vector v b) => ASetter (v a) (v b) a b; "vectorTraverse -> imapped" vectorTraverse = isets V.imap :: (V.Vector v a, V.Vector v b) => AnIndexedSetter Int (v a) (v b) a b; "vectorTraverse -> foldr" vectorTraverse = foldring V.foldr :: V.Vector v a => Getting (Endo r) (v a) a; "vectorTraverse -> ifoldr" vectorTraverse = ifoldring V.ifoldr :: V.Vector v a => IndexedGetting Int (Endo r) (v a) a; #-} -- | Different vector implementations are isomorphic to each other. converted :: (Vector v a, Vector w a, Vector v b, Vector w b) => Iso (v a) (v b) (w a) (w b) converted = iso convert convert