src/Data/List/Lens.hs

{-# LANGUAGE LiberalTypeSynonyms #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE BangPatterns #-}
{-# LANGUAGE Rank2Types #-}
-----------------------------------------------------------------------------
-- |
-- Module      :  Data.List.Lens
-- Copyright   :  (C) 2012 Edward Kmett
-- License     :  BSD-style (see the file LICENSE)
-- Maintainer  :  Edward Kmett <ekmett@gmail.com>
-- Stability   :  provisional
-- Portability :  portable
--
-- Traversals for manipulating parts of a list.
--
----------------------------------------------------------------------------
module Data.List.Lens
  ( _head
  , _tail
  , _last
  , _init
  , interspersed
  , intercalated
  -- * Traversals
  , traverseList
  , traverseHead
  , traverseTail
  , traverseInit
  , traverseLast
  ) where

import Control.Applicative
import Control.Lens
import Data.List

-- | A lens reading and writing to the head of a /non-empty/ list
--
-- >>> [1,2,3]^._head
-- 1
_head :: Simple Lens [a] a
_head _ [] = error "_head: empty list"
_head f (a:as) = (:as) <$> f a
{-# INLINE _head #-}

-- | A lens reading and writing to the tail of a /non-empty/ list
--
-- >>> _tail .~ [3,4,5] $ [1,2]
-- [1,3,4,5]
_tail :: Simple Lens [a] [a]
_tail _ [] = error "_tail: empty list"
_tail f (a:as) = (a:) <$> f as
{-# INLINE _tail #-}

-- | A lens reading and writing to the last element of a /non-empty/ list
--
-- >>> [1,2]^._last
-- 2
_last :: Simple Lens [a] a
_last _ []     = error "_last: empty list"
_last f [a]    = return <$> f a
_last f (a:as) = (a:) <$> _last f as
{-# INLINE _last #-}

-- | A lens reading and replacing all but the a last element of a /non-empty/ list
--
-- >>> [1,2,3,4]^._init
-- [1,2,3]
_init :: Simple Lens [a] [a]
_init _ [] = error "_init: empty list"
_init f as = (++ [Prelude.last as]) <$> f (Prelude.init as)
{-# INLINE _init #-}

-- | Obtain a version of the list with the supplied value interspersed.
--
-- >>> "abcde"^.interspersed ','
-- "a,b,c,d,e"
--
-- > xs^.interspersed a = intersperse a xs
interspersed :: a -> Getter [a] [a]
interspersed = to . intersperse
{-# INLINE interspersed #-}

-- | Obtain a version of the list with the supplied value intercalated
intercalated :: [a] -> Getter [[a]] [a]
intercalated = to . intercalate
{-# INLINE intercalated #-}

-- | Indexed traversal of a list. The position in the list is available as the index.
traverseList :: IndexedTraversal Int [a] [b] a b
traverseList = index $ go (0::Int) where
  go !n f (x:xs) = (:) <$> f n x <*> go (n + 1) f xs
  go _ _ [] = pure []
{-# INLINE traverseList #-}

-- | The traversal for reading and writing to the head of a list
--
-- The position of the head in the original list (0) is available as the index.
--
-- >>> traverseHead +~ 1 $ [1,2,3]
-- [2,2,3]
--
-- > traverseHead :: Applicative f => (a -> f a) -> [a] -> f [a]
traverseHead :: SimpleIndexedTraversal Int [a] a
traverseHead = index $ \f aas -> case aas of
  []     -> pure []
  (a:as) -> (:as) <$> f (0::Int) a
{-# INLINE traverseHead #-}

-- | Traversal for editing the tail of a list.
--
-- The position of each element /in the original list/ is available as the index.
--
-- >>> traverseTail +~ 1 $ [1,2,3]
-- [1,3,4]
--
-- > traverseTail :: Applicative f => (a -> f a) -> [a] -> f [a]
traverseTail :: SimpleIndexedTraversal Int [a] a
traverseTail = index $ \f aas -> case aas of
  []     -> pure []
  (a:as) -> (a:) <$> withIndex traverseList (f . (+1)) as
{-# INLINE traverseTail #-}

-- | Traverse the last element in a list.
--
-- The position of the last element in the original list is available as the index.
--
-- >>> traverseLast +~ 1 $ [1,2,3]
-- [1,2,4]
--
-- > traverseLast :: Applicative f => (a -> f a) -> [a] -> f [a]
traverseLast :: SimpleIndexedTraversal Int [a] a
traverseLast = index $ \f xs0 -> let
    go [a]    n = return <$> f n a
    go (a:as) n = (a:) <$> (go as $! n + 1)
    go []     _ = pure []
  in go xs0 (0::Int) where
{-# INLINE traverseLast #-}

-- | Traverse all but the last element of a list
--
-- The position of each element is available as the index.
--
-- >>> traverseInit +~ 1 $ [1,2,3]
-- [2,3,3]
--
-- > traverseInit :: Applicative f => (a -> f a) -> [a] -> f [a]
traverseInit :: SimpleIndexedTraversal Int [a] a
traverseInit = index $ \f aas -> case aas of
  [] -> pure []
  as -> (++ [Prelude.last as]) <$> withIndex traverseList f (Prelude.init as)
{-# INLINE traverseInit #-}