{-# LANGUAGE PatternGuards #-}
-----------------------------------------------------------------------------
-- |
-- Module : XMonad.Util.Stack
-- Copyright : Quentin Moser <moserq@gmail.com>
-- License : BSD-style (see LICENSE)
--
-- Maintainer : orphaned
-- Stability : unstable
-- Portability : unportable
--
-- Utility functions for manipulating @Maybe Stack@s.
--
-----------------------------------------------------------------------------
module XMonad.Util.Stack ( -- * Usage
-- | This is a developer-oriented module, intended to be used
-- for writing new extentions.
Zipper
, emptyZ
, singletonZ
-- * Conversions
, fromIndex
, toIndex
, fromTags
, toTags
-- * 'Zipper' manipulation functions
-- ** Insertion, movement
, insertUpZ
, insertDownZ
, swapUpZ
, swapDownZ
, swapMasterZ
-- ** Focus movement
, focusUpZ
, focusDownZ
, focusMasterZ
-- ** Extraction
, getFocusZ
, getIZ
-- ** Sorting
, sortZ
, sortByZ
-- ** Maps
, mapZ
, mapZ_
, mapZM
, mapZM_
, onFocusedZ
, onFocusedZM
, onIndexZ
, onIndexZM
-- ** Filters
, filterZ
, filterZ_
, deleteFocusedZ
, deleteIndexZ
-- ** Folds
, foldrZ
, foldlZ
, foldrZ_
, foldlZ_
, elemZ
-- * Other utility functions
, getI
, tagBy
, fromE
, mapE
, mapE_
, mapEM
, mapEM_
) where
import qualified XMonad.StackSet as W
import Control.Monad (liftM)
import Data.List (sortBy)
type Zipper a = Maybe (W.Stack a)
emptyZ :: Zipper a
emptyZ = Nothing
singletonZ :: a -> Zipper a
singletonZ a = Just $ W.Stack a [] []
-- * Conversions
-- | Create a stack from a list, and the 0-based index of the focused element.
-- If the index is out of bounds, focus will go to the first element.
fromIndex :: [a] -> Int -> Zipper a
fromIndex as i = fromTags $ zipWith ($) (replicate i Left ++ [Right] ++ repeat Left) as
-- | Turn a stack into a list and the index of its focused element.
toIndex :: Zipper a -> ([a], Maybe Int)
toIndex Nothing = ([], Nothing)
toIndex (Just s) = (W.integrate s, Just $ length $ W.up s)
-- | Create a stack from a list of 'Either'-tagged values. Focus will go to
-- the first 'Right' value, or if there is none, to the first 'Left' one.
fromTags :: [Either a a] -> Zipper a
fromTags = finalize . foldr step ([], Nothing, [])
where step (Right a) (u, Just f, d) = ([], Just a, u++f:d)
step (Right a) (u, Nothing, d) = (u, Just a, d)
step (Left a) (u, Just f, d) = (a:u, Just f, d)
step (Left a) (u, Nothing, d) = (u, Nothing, a:d)
finalize (u, Just f, d) = Just $ W.Stack f (reverse u) d
finalize (u, Nothing, a:d) = Just $ W.Stack a (reverse u) d
finalize (_, Nothing, []) = Nothing
-- | Turn a stack into an 'Either'-tagged list. The focused element
-- will be tagged with 'Right', the others with 'Left'.
toTags :: Zipper a -> [Either a a]
toTags Nothing = []
toTags (Just s) = map Left (reverse . W.up $ s) ++ [Right . W.focus $ s]
++ map Left (W.down s)
-- * Zipper functions
-- ** Insertion, movement
-- | Insert an element before the focused one, and focus it
insertUpZ :: a -> Zipper a -> Zipper a
insertUpZ a Nothing = W.differentiate [a]
insertUpZ a (Just s) = Just s { W.focus = a , W.down = W.focus s : W.down s }
-- | Insert an element after the focused one, and focus it
insertDownZ :: a -> Zipper a -> Zipper a
insertDownZ a Nothing = W.differentiate [a]
insertDownZ a (Just s) = Just s { W.focus = a, W.up = W.focus s : W.up s }
-- | Swap the focused element with the previous one
swapUpZ :: Zipper a -> Zipper a
swapUpZ Nothing = Nothing
swapUpZ (Just s) | u:up <- W.up s = Just s { W.up = up, W.down = u:W.down s}
swapUpZ (Just s) = Just s { W.up = reverse (W.down s), W.down = [] }
-- | Swap the focused element with the next one
swapDownZ :: Zipper a -> Zipper a
swapDownZ Nothing = Nothing
swapDownZ (Just s) | d:down <- W.down s = Just s { W.down = down, W.up = d:W.up s }
swapDownZ (Just s) = Just s { W.up = [], W.down = reverse (W.up s) }
-- | Swap the focused element with the first one
swapMasterZ :: Zipper a -> Zipper a
swapMasterZ Nothing = Nothing
swapMasterZ (Just (W.Stack f up down)) = Just $ W.Stack f [] (reverse up ++ down)
-- ** Focus movement
-- | Move the focus to the previous element
focusUpZ :: Zipper a -> Zipper a
focusUpZ Nothing = Nothing
focusUpZ (Just s) | u:up <- W.up s = Just $ W.Stack u up (W.focus s:W.down s)
focusUpZ (Just s) | null $ W.down s = Just s
focusUpZ (Just (W.Stack f _ down)) = Just $ W.Stack (last down) (reverse (init down) ++ [f]) []
-- | Move the focus to the next element
focusDownZ :: Zipper a -> Zipper a
focusDownZ Nothing = Nothing
focusDownZ (Just s) | d:down <- W.down s = Just $ W.Stack d (W.focus s:W.up s) down
focusDownZ (Just s) | null $ W.up s = Just s
focusDownZ (Just (W.Stack f up _)) = Just $ W.Stack (last up) [] (reverse (init up) ++ [f])
-- | Move the focus to the first element
focusMasterZ :: Zipper a -> Zipper a
focusMasterZ Nothing = Nothing
focusMasterZ (Just (W.Stack f up down)) | not $ null up
= Just $ W.Stack (last up) [] (reverse (init up) ++ [f] ++ down)
focusMasterZ (Just s) = Just s
-- ** Extraction
-- | Get the focused element
getFocusZ :: Zipper a -> Maybe a
getFocusZ = fmap W.focus
-- | Get the element at a given index
getIZ :: Int -> Zipper a -> Maybe a
getIZ i = getI i . W.integrate'
-- ** Sorting
-- | Sort a stack of elements supporting 'Ord'
sortZ :: Ord a => Zipper a -> Zipper a
sortZ = sortByZ compare
-- | Sort a stack with an arbitrary sorting function
sortByZ :: (a -> a -> Ordering) -> Zipper a -> Zipper a
sortByZ f = fromTags . sortBy (adapt f) . toTags
where adapt g e1 e2 = g (fromE e1) (fromE e2)
-- ** Maps
-- | Map a function over a stack. The boolean argument indcates whether
-- the current element is the focused one
mapZ :: (Bool -> a -> b) -> Zipper a -> Zipper b
mapZ f as = fromTags . map (mapE f) . toTags $ as
-- | 'mapZ' without the 'Bool' argument
mapZ_ :: (a -> b) -> Zipper a -> Zipper b
mapZ_ = mapZ . const
-- | Monadic version of 'mapZ'
mapZM :: Monad m => (Bool -> a -> m b) -> Zipper a -> m (Zipper b)
mapZM f as = fromTags `liftM` (mapM (mapEM f) . toTags) as
-- | Monadic version of 'mapZ_'
mapZM_ :: Monad m => (a -> m b) -> Zipper a -> m (Zipper b)
mapZM_ = mapZM . const
-- | Apply a function to the focused element
onFocusedZ :: (a -> a) -> Zipper a -> Zipper a
onFocusedZ f = mapZ $ \b a -> if b then f a else a
-- | Monadic version of 'onFocusedZ'
onFocusedZM :: Monad m => (a -> m a) -> Zipper a -> m (Zipper a)
onFocusedZM f = mapZM $ \b a -> if b then f a else return a
-- | Apply a function to the element at the given index
onIndexZ :: Int -> (a -> a) -> Zipper a -> Zipper a
onIndexZ i _ as | i < 0 = as
onIndexZ i f as = case splitAt i $ toTags as of
(before, []) -> fromTags before
(before, a:after) -> fromTags $ before ++ mapE (const f) a : after
-- | Monadic version of 'onIndexZ'
onIndexZM :: Monad m => Int -> (a -> m a) -> Zipper a -> m (Zipper a)
onIndexZM i f as = case splitAt i $ toTags as of
(before, []) -> return $ fromTags before
(before, a:after) -> do a' <- mapEM (const f) a
return $ fromTags $ before ++ a' : after
-- ** Filters
-- | Fiter a stack according to a predicate. The refocusing behavior
-- mimics XMonad's usual one. The boolean argument indicates whether the current
-- element is the focused one.
filterZ :: (Bool -> a -> Bool) -> Zipper a -> Zipper a
filterZ _ Nothing = Nothing
filterZ p (Just s) = case ( p True (W.focus s)
, filter (p False) (W.up s)
, filter (p False) (W.down s) ) of
(True, up', down') -> Just s { W.up = up', W.down = down' }
(False, [], []) -> Nothing
(False, f:up', []) -> Just s { W.focus = f, W.up = up', W.down = [] }
(False, up', f:down') -> Just s { W.focus = f
, W.up = up'
, W.down = down' }
-- | 'filterZ' without the 'Bool' argument
filterZ_ :: (a -> Bool) -> Zipper a -> Zipper a
filterZ_ = filterZ . const
-- | Delete the focused element
deleteFocusedZ :: Zipper a -> Zipper a
deleteFocusedZ = filterZ (\b _ -> not b)
-- | Delete the ith element
deleteIndexZ :: Int -> Zipper a -> Zipper a
deleteIndexZ i z = let numbered = (fromTags . zipWith number [0..] . toTags) z
number j ea = mapE (\_ a -> (j,a)) ea
in mapZ_ snd $ filterZ_ ((/=i) . fst) numbered
-- ** Folds
-- | Analogous to 'foldr'. The 'Bool' argument to the step functions indicates
-- whether the current element is the focused one
foldrZ :: (Bool -> a -> b -> b) -> b -> Zipper a -> b
foldrZ _ b Nothing = b
foldrZ f b (Just s) = let b1 = foldr (f False) b (W.down s)
b2 = f True (W.focus s) b1
b3 = foldl (flip $ f False) b2 (W.up s)
in b3
-- | Analogous to 'foldl'. The 'Bool' argument to the step functions indicates
-- whether the current element is the focused one
foldlZ :: (Bool -> b -> a -> b) -> b -> Zipper a -> b
foldlZ _ b Nothing = b
foldlZ f b (Just s) = let b1 = foldr (flip $ f False) b (W.up s)
b2 = f True b1 (W.focus s)
b3 = foldl (f False) b2 (W.down s)
in b3
-- | 'foldrZ' without the 'Bool' argument.
foldrZ_ :: (a -> b -> b) -> b -> Zipper a -> b
foldrZ_ = foldrZ . const
-- | 'foldlZ' without the 'Bool' argument.
foldlZ_ :: (b -> a -> b) -> b -> Zipper a -> b
foldlZ_ = foldlZ . const
-- | Find whether an element is present in a stack.
elemZ :: Eq a => a -> Zipper a -> Bool
elemZ a as = foldlZ_ step False as
where step True _ = True
step False a' = a' == a
-- * Other utility functions
-- | Safe version of '!!'
getI :: Int -> [a] -> Maybe a
getI _ [] = Nothing
getI 0 (a:_) = Just a
getI i (_:as) = getI (i-1) as
-- | Map a function across both 'Left's and 'Right's.
-- The 'Bool' argument is 'True' in a 'Right', 'False'
-- in a 'Left'.
mapE :: (Bool -> a -> b) -> Either a a -> Either b b
mapE f (Left a) = Left $ f False a
mapE f (Right a) = Right $ f True a
mapE_ :: (a -> b) -> Either a a -> Either b b
mapE_ = mapE . const
-- | Monadic version of 'mapE'
mapEM :: Monad m => (Bool -> a -> m b) -> Either a a -> m (Either b b)
mapEM f (Left a) = Left `liftM` f False a
mapEM f (Right a) = Right `liftM` f True a
mapEM_ :: Monad m => (a -> m b) -> Either a a -> m (Either b b)
mapEM_ = mapEM . const
-- | Get the @a@ from an @Either a a@
fromE :: Either a a -> a
fromE (Right a) = a
fromE (Left a) = a
-- | Tag the element with 'Right' if the property is true, 'Left' otherwise
tagBy :: (a -> Bool) -> a -> Either a a
tagBy p a = if p a then Right a else Left a