{-# LANGUAGE ExistentialQuantification #-}
-----------------------------------------------------------------------------
-- |
-- Module : XMonad.Prompt
-- Copyright : (C) 2007 Andrea Rossato
-- License : BSD3
--
-- Maintainer : Spencer Janssen <spencerjanssen@gmail.com>
-- Stability : unstable
-- Portability : unportable
--
-- A module for writing graphical prompts for XMonad
--
-----------------------------------------------------------------------------
module XMonad.Prompt
( -- * Usage
-- $usage
mkXPrompt
, mkXPromptWithReturn
, mkXPromptWithModes
, def
, amberXPConfig
, defaultXPConfig
, greenXPConfig
, XPMode
, XPType (..)
, XPPosition (..)
, XPConfig (..)
, XPrompt (..)
, XP
, defaultXPKeymap, defaultXPKeymap'
, emacsLikeXPKeymap, emacsLikeXPKeymap'
, quit
, killBefore, killAfter, startOfLine, endOfLine
, pasteString, moveCursor
, setInput, getInput
, moveWord, moveWord', killWord, killWord', deleteString
, moveHistory, setSuccess, setDone
, Direction1D(..)
, ComplFunction
-- * X Utilities
-- $xutils
, mkUnmanagedWindow
, fillDrawable
-- * Other Utilities
-- $utils
, mkComplFunFromList
, mkComplFunFromList'
-- * @nextCompletion@ implementations
, getNextOfLastWord
, getNextCompletion
-- * List utilities
, getLastWord
, skipLastWord
, splitInSubListsAt
, breakAtSpace
, uniqSort
, historyCompletion
, historyCompletionP
-- * History filters
, deleteAllDuplicates
, deleteConsecutive
, HistoryMatches
, initMatches
, historyUpMatching
, historyDownMatching
-- * Types
, XPState
) where
import XMonad hiding (cleanMask, config)
import qualified XMonad as X (numberlockMask)
import qualified XMonad.StackSet as W
import XMonad.Util.Font
import XMonad.Util.Types
import XMonad.Util.XSelection (getSelection)
import Codec.Binary.UTF8.String (decodeString,isUTF8Encoded)
import Control.Applicative ((<$>))
import Control.Arrow (first, (&&&), (***))
import Control.Concurrent (threadDelay)
import Control.Exception.Extensible as E hiding (handle)
import Control.Monad.State
import Data.Bits
import Data.Char (isSpace)
import Data.IORef
import Data.List
import qualified Data.Map as M
import Data.Maybe (fromMaybe)
import Data.Set (fromList, toList)
import System.Directory (getAppUserDataDirectory)
import System.IO
import System.Posix.Files
-- $usage
-- For usage examples see "XMonad.Prompt.Shell",
-- "XMonad.Prompt.XMonad" or "XMonad.Prompt.Ssh"
--
-- TODO:
--
-- * scrolling the completions that don't fit in the window (?)
type XP = StateT XPState IO
data XPState =
XPS { dpy :: Display
, rootw :: !Window
, win :: !Window
, screen :: !Rectangle
, complWin :: Maybe Window
, complWinDim :: Maybe ComplWindowDim
, complIndex :: !(Int,Int)
, showComplWin :: Bool
, operationMode :: XPOperationMode
, highlightedCompl :: Maybe String
, gcon :: !GC
, fontS :: !XMonadFont
, commandHistory :: W.Stack String
, offset :: !Int
, config :: XPConfig
, successful :: Bool
, numlockMask :: KeyMask
, done :: Bool
}
data XPConfig =
XPC { font :: String -- ^ Font
, bgColor :: String -- ^ Background color
, fgColor :: String -- ^ Font color
, fgHLight :: String -- ^ Font color of a highlighted completion entry
, bgHLight :: String -- ^ Background color of a highlighted completion entry
, borderColor :: String -- ^ Border color
, promptBorderWidth :: !Dimension -- ^ Border width
, position :: XPPosition -- ^ Position: 'Top' or 'Bottom'
, alwaysHighlight :: !Bool -- ^ Always highlight an item, overriden to True with multiple modes. This implies having *one* column of autocompletions only.
, height :: !Dimension -- ^ Window height
, maxComplRows :: Maybe Dimension
-- ^ Just x: maximum number of rows to show in completion window
, historySize :: !Int -- ^ The number of history entries to be saved
, historyFilter :: [String] -> [String]
-- ^ a filter to determine which
-- history entries to remember
, promptKeymap :: M.Map (KeyMask,KeySym) (XP ())
-- ^ Mapping from key combinations to actions
, completionKey :: KeySym -- ^ Key that should trigger completion
, changeModeKey :: KeySym -- ^ Key to change mode (when the prompt has multiple modes)
, defaultText :: String -- ^ The text by default in the prompt line
, autoComplete :: Maybe Int -- ^ Just x: if only one completion remains, auto-select it,
, showCompletionOnTab :: Bool -- ^ Only show list of completions when Tab was pressed
-- and delay by x microseconds
, searchPredicate :: String -> String -> Bool
-- ^ Given the typed string and a possible
-- completion, is the completion valid?
}
data XPType = forall p . XPrompt p => XPT p
type ComplFunction = String -> IO [String]
type XPMode = XPType
data XPOperationMode = XPSingleMode ComplFunction XPType | XPMultipleModes (W.Stack XPType)
instance Show XPType where
show (XPT p) = showXPrompt p
instance XPrompt XPType where
showXPrompt = show
nextCompletion (XPT t) = nextCompletion t
commandToComplete (XPT t) = commandToComplete t
completionToCommand (XPT t) = completionToCommand t
completionFunction (XPT t) = completionFunction t
modeAction (XPT t) = modeAction t
-- | The class prompt types must be an instance of. In order to
-- create a prompt you need to create a data type, without parameters,
-- and make it an instance of this class, by implementing a simple
-- method, 'showXPrompt', which will be used to print the string to be
-- displayed in the command line window.
--
-- This is an example of a XPrompt instance definition:
--
-- > instance XPrompt Shell where
-- > showXPrompt Shell = "Run: "
class XPrompt t where
-- | This method is used to print the string to be
-- displayed in the command line window.
showXPrompt :: t -> String
-- | This method is used to generate the next completion to be
-- printed in the command line when tab is pressed, given the
-- string presently in the command line and the list of
-- completion.
-- This function is not used when in multiple modes (because alwaysHighlight in XPConfig is True)
nextCompletion :: t -> String -> [String] -> String
nextCompletion = getNextOfLastWord
-- | This method is used to generate the string to be passed to
-- the completion function.
commandToComplete :: t -> String -> String
commandToComplete _ = getLastWord
-- | This method is used to process each completion in order to
-- generate the string that will be compared with the command
-- presently displayed in the command line. If the prompt is using
-- 'getNextOfLastWord' for implementing 'nextCompletion' (the
-- default implementation), this method is also used to generate,
-- from the returned completion, the string that will form the
-- next command line when tab is pressed.
completionToCommand :: t -> String -> String
completionToCommand _ c = c
-- | When the prompt has multiple modes, this is the function
-- used to generate the autocompletion list.
-- The argument passed to this function is given by `commandToComplete`
-- The default implementation shows an error message.
completionFunction :: t -> ComplFunction
completionFunction t = \_ -> return ["Completions for " ++ (showXPrompt t) ++ " could not be loaded"]
-- | When the prompt has multiple modes (created with mkXPromptWithModes), this function is called
-- when the user picks an item from the autocompletion list.
-- The first argument is the prompt (or mode) on which the item was picked
-- The first string argument is the autocompleted item's text.
-- The second string argument is the query made by the user (written in the prompt's buffer).
-- See XMonad/Actions/Launcher.hs for a usage example.
modeAction :: t -> String -> String -> X ()
modeAction _ _ _ = return ()
data XPPosition = Top
| Bottom
deriving (Show,Read)
amberXPConfig, defaultXPConfig, greenXPConfig :: XPConfig
instance Default XPConfig where
def =
XPC { font = "-misc-fixed-*-*-*-*-12-*-*-*-*-*-*-*"
, bgColor = "grey22"
, fgColor = "grey80"
, fgHLight = "black"
, bgHLight = "grey"
, borderColor = "white"
, promptBorderWidth = 1
, promptKeymap = defaultXPKeymap
, completionKey = xK_Tab
, changeModeKey = xK_grave
, position = Bottom
, height = 18
, maxComplRows = Nothing
, historySize = 256
, historyFilter = id
, defaultText = []
, autoComplete = Nothing
, showCompletionOnTab = False
, searchPredicate = isPrefixOf
, alwaysHighlight = False
}
{-# DEPRECATED defaultXPConfig "Use def (from Data.Default, and re-exported from XMonad.Prompt) instead." #-}
defaultXPConfig = def
greenXPConfig = def { fgColor = "green", bgColor = "black", promptBorderWidth = 0 }
amberXPConfig = def { fgColor = "#ca8f2d", bgColor = "black", fgHLight = "#eaaf4c" }
initState :: Display -> Window -> Window -> Rectangle -> XPOperationMode
-> GC -> XMonadFont -> [String] -> XPConfig -> KeyMask -> XPState
initState d rw w s opMode gc fonts h c nm =
XPS { dpy = d
, rootw = rw
, win = w
, screen = s
, complWin = Nothing
, complWinDim = Nothing
, showComplWin = not (showCompletionOnTab c)
, operationMode = opMode
, highlightedCompl = Nothing
, gcon = gc
, fontS = fonts
, commandHistory = W.Stack { W.focus = defaultText c
, W.up = []
, W.down = h }
, complIndex = (0,0) --(column index, row index), used when `alwaysHighlight` in XPConfig is True
, offset = length (defaultText c)
, config = c
, successful = False
, done = False
, numlockMask = nm
}
-- Returns the current XPType
currentXPMode :: XPState -> XPType
currentXPMode st = case operationMode st of
XPMultipleModes modes -> W.focus modes
XPSingleMode _ xptype -> xptype
-- When in multiple modes, this function sets the next mode
-- in the list of modes as active
setNextMode :: XPState -> XPState
setNextMode st = case operationMode st of
XPMultipleModes modes -> case W.down modes of
[] -> st -- there is no next mode, return same state
(m:ms) -> let
currentMode = W.focus modes
in st { operationMode = XPMultipleModes W.Stack { W.up = [], W.focus = m, W.down = ms ++ [currentMode]}} --set next and move previous current mode to the of the stack
_ -> st --nothing to do, the prompt's operation has only one mode
-- Returns the highlighted item
highlightedItem :: XPState -> [String] -> Maybe String
highlightedItem st' completions = case complWinDim st' of
Nothing -> Nothing -- when there isn't any compl win, we can't say how many cols,rows there are
Just winDim ->
let
(_,_,_,_,xx,yy) = winDim
complMatrix = splitInSubListsAt (length yy) (take (length xx * length yy) completions)
(col_index,row_index) = (complIndex st')
in case completions of
[] -> Nothing
_ -> Just $ complMatrix !! col_index !! row_index
-- this would be much easier with functional references
command :: XPState -> String
command = W.focus . commandHistory
setCommand :: String -> XPState -> XPState
setCommand xs s = s { commandHistory = (commandHistory s) { W.focus = xs }}
setHighlightedCompl :: Maybe String -> XPState -> XPState
setHighlightedCompl hc st = st { highlightedCompl = hc}
-- | Sets the input string to the given value.
setInput :: String -> XP ()
setInput = modify . setCommand
-- | Returns the current input string. Intented for use in custom keymaps
-- where the 'get' or similar can't be used to retrieve it.
getInput :: XP String
getInput = gets command
-- | Same as 'mkXPrompt', except that the action function can have
-- type @String -> X a@, for any @a@, and the final action returned
-- by 'mkXPromptWithReturn' will have type @X (Maybe a)@. @Nothing@
-- is yielded if the user cancels the prompt (by e.g. hitting Esc or
-- Ctrl-G). For an example of use, see the 'XMonad.Prompt.Input'
-- module.
mkXPromptWithReturn :: XPrompt p => p -> XPConfig -> ComplFunction -> (String -> X a) -> X (Maybe a)
mkXPromptWithReturn t conf compl action = do
XConf { display = d, theRoot = rw } <- ask
s <- gets $ screenRect . W.screenDetail . W.current . windowset
hist <- io readHistory
w <- io $ createWin d rw conf s
io $ selectInput d w $ exposureMask .|. keyPressMask
gc <- io $ createGC d w
io $ setGraphicsExposures d gc False
fs <- initXMF (font conf)
numlock <- gets $ X.numberlockMask
let hs = fromMaybe [] $ M.lookup (showXPrompt t) hist
om = (XPSingleMode compl (XPT t)) --operation mode
st = initState d rw w s om gc fs hs conf numlock
st' <- io $ execStateT runXP st
releaseXMF fs
io $ freeGC d gc
if successful st' then do
let
prune = take (historySize conf)
io $ writeHistory $ M.insertWith
(\xs ys -> prune . historyFilter conf $ xs ++ ys)
(showXPrompt t)
(prune $ historyFilter conf [command st'])
hist
-- we need to apply historyFilter before as well, since
-- otherwise the filter would not be applied if
-- there is no history
--When alwaysHighlight is True, autocompletion is handled with indexes.
--When it is false, it is handled depending on the prompt buffer's value
let selectedCompletion = case alwaysHighlight (config st') of
False -> command st'
True -> fromMaybe (command st') $ highlightedCompl st' --
Just <$> action selectedCompletion
else return Nothing
-- | Creates a prompt given:
--
-- * a prompt type, instance of the 'XPrompt' class.
--
-- * a prompt configuration ('def' can be used as a starting point)
--
-- * a completion function ('mkComplFunFromList' can be used to
-- create a completions function given a list of possible completions)
--
-- * an action to be run: the action must take a string and return 'XMonad.X' ()
mkXPrompt :: XPrompt p => p -> XPConfig -> ComplFunction -> (String -> X ()) -> X ()
mkXPrompt t conf compl action = mkXPromptWithReturn t conf compl action >> return ()
-- | Creates a prompt with multiple modes given:
--
-- * A non-empty list of modes
-- * A prompt configuration
--
-- The created prompt allows to switch between modes with `changeModeKey` in `conf`. The modes are
-- instances of XPrompt. See XMonad.Actions.Launcher for more details
--
-- The argument supplied to the action to execute is always the current highlighted item,
-- that means that this prompt overrides the value `alwaysHighlight` for its configuration to True.
mkXPromptWithModes :: [XPType] -> XPConfig -> X ()
mkXPromptWithModes modes conf = do
XConf { display = d, theRoot = rw } <- ask
s <- gets $ screenRect . W.screenDetail . W.current . windowset
hist <- io readHistory
w <- io $ createWin d rw conf s
io $ selectInput d w $ exposureMask .|. keyPressMask
gc <- io $ createGC d w
io $ setGraphicsExposures d gc False
fs <- initXMF (font conf)
numlock <- gets $ X.numberlockMask
let
defaultMode = head modes
hs = fromMaybe [] $ M.lookup (showXPrompt defaultMode) hist
modeStack = W.Stack{ W.focus = defaultMode --current mode
, W.up = []
, W.down = tail modes --other modes
}
st = initState d rw w s (XPMultipleModes modeStack) gc fs hs conf { alwaysHighlight = True} numlock
st' <- io $ execStateT runXP st
releaseXMF fs
io $ freeGC d gc
if successful st' then do
let
prune = take (historySize conf)
-- insert into history the buffers value
io $ writeHistory $ M.insertWith
(\xs ys -> prune . historyFilter conf $ xs ++ ys)
(showXPrompt defaultMode)
(prune $ historyFilter conf [command st'])
hist
case operationMode st' of
XPMultipleModes ms -> let
action = modeAction $ W.focus ms
in action (command st') $ (fromMaybe "" $ highlightedCompl st')
_ -> error "The impossible occurred: This prompt runs with multiple modes but they could not be found." --we are creating a prompt with multiple modes, so its operationMode should have been constructed with XPMultipleMode
else
return ()
runXP :: XP ()
runXP = do
(d,w) <- gets (dpy &&& win)
status <- io $ grabKeyboard d w True grabModeAsync grabModeAsync currentTime
when (status == grabSuccess) $ do
updateWindows
eventLoop handle
io $ ungrabKeyboard d currentTime
io $ destroyWindow d w
destroyComplWin
io $ sync d False
type KeyStroke = (KeySym, String)
eventLoop :: (KeyStroke -> Event -> XP ()) -> XP ()
eventLoop action = do
d <- gets dpy
(keysym,string,event) <- io $
allocaXEvent $ \e -> do
maskEvent d (exposureMask .|. keyPressMask) e
ev <- getEvent e
(ks,s) <- if ev_event_type ev == keyPress
then lookupString $ asKeyEvent e
else return (Nothing, "")
return (ks,s,ev)
action (fromMaybe xK_VoidSymbol keysym,string) event
gets done >>= flip unless (eventLoop handle)
-- | Removes numlock and capslock from a keymask.
-- Duplicate of cleanMask from core, but in the
-- XP monad instead of X.
cleanMask :: KeyMask -> XP KeyMask
cleanMask msk = do
numlock <- gets numlockMask
let highMasks = 1 `shiftL` 12 - 1
return (complement (numlock .|. lockMask) .&. msk .&. highMasks)
-- Main event handler
handle :: KeyStroke -> Event -> XP ()
handle ks@(sym,_) e@(KeyEvent {ev_event_type = t, ev_state = m}) = do
complKey <- gets $ completionKey . config
chgModeKey <- gets $ changeModeKey . config
c <- getCompletions
when (length c > 1) $ modify (\s -> s { showComplWin = True })
if complKey == sym
then completionHandle c ks e
else if (sym == chgModeKey) then
do
modify setNextMode
updateWindows
else when (t == keyPress) $ keyPressHandle m ks
handle _ (ExposeEvent {ev_window = w}) = do
st <- get
when (win st == w) updateWindows
handle _ _ = return ()
-- completion event handler
completionHandle :: [String] -> KeyStroke -> Event -> XP ()
completionHandle c ks@(sym,_) (KeyEvent { ev_event_type = t, ev_state = m }) = do
complKey <- gets $ completionKey . config
alwaysHlight <- gets $ alwaysHighlight . config
case () of
() | t == keyPress && sym == complKey ->
do
st <- get
let updateState l = case alwaysHlight of
-- modify the buffer's value
False -> let newCommand = nextCompletion (currentXPMode st) (command st) l
in modify $ \s -> setCommand newCommand $ s { offset = length newCommand, highlightedCompl = Just newCommand}
--TODO: Scroll or paginate results
True -> let complIndex' = nextComplIndex st (length l)
highlightedCompl' = highlightedItem st { complIndex = complIndex'} c
in modify $ \s -> setHighlightedCompl highlightedCompl' $ s { complIndex = complIndex' }
updateWins l = redrawWindows l >> eventLoop (completionHandle l)
case c of
[] -> updateWindows >> eventLoop handle
[x] -> updateState [x] >> getCompletions >>= updateWins
l -> updateState l >> updateWins l
| t == keyRelease && sym == complKey -> eventLoop (completionHandle c)
| otherwise -> keyPressHandle m ks -- some other key, handle it normally
-- some other event: go back to main loop
completionHandle _ k e = handle k e
--Receives an state of the prompt, the size of the autocompletion list and returns the column,row
--which should be highlighted next
nextComplIndex :: XPState -> Int -> (Int,Int)
nextComplIndex st nitems = case complWinDim st of
Nothing -> (0,0) --no window dims (just destroyed or not created)
Just (_,_,_,_,_,yy) -> let
(ncols,nrows) = (nitems `div` length yy + if (nitems `mod` length yy > 0) then 1 else 0, length yy)
(currentcol,currentrow) = complIndex st
in if (currentcol + 1 >= ncols) then --hlight is in the last column
if (currentrow + 1 < nrows ) then --hlight is still not at the last row
(currentcol, currentrow + 1)
else
(0,0)
else if(currentrow + 1 < nrows) then --hlight not at the last row
(currentcol, currentrow + 1)
else
(currentcol + 1, 0)
tryAutoComplete :: XP Bool
tryAutoComplete = do
ac <- gets (autoComplete . config)
case ac of
Just d -> do cs <- getCompletions
case cs of
[c] -> runCompleted c d >> return True
_ -> return False
Nothing -> return False
where runCompleted cmd delay = do
st <- get
let new_command = nextCompletion (currentXPMode st) (command st) [cmd]
modify $ setCommand "autocompleting..."
updateWindows
io $ threadDelay delay
modify $ setCommand new_command
return True
-- KeyPresses
-- | Default key bindings for prompts. Click on the \"Source\" link
-- to the right to see the complete list. See also 'defaultXPKeymap''.
defaultXPKeymap :: M.Map (KeyMask,KeySym) (XP ())
defaultXPKeymap = defaultXPKeymap' isSpace
-- | A variant of 'defaultXPKeymap' which lets you specify a custom
-- predicate for identifying non-word characters, which affects all
-- the word-oriented commands (move\/kill word). The default is
-- 'isSpace'. For example, by default a path like @foo\/bar\/baz@
-- would be considered as a single word. You could use a predicate
-- like @(\\c -> isSpace c || c == \'\/\')@ to move through or
-- delete components of the path one at a time.
defaultXPKeymap' :: (Char -> Bool) -> M.Map (KeyMask,KeySym) (XP ())
defaultXPKeymap' p = M.fromList $
map (first $ (,) controlMask) -- control + <key>
[ (xK_u, killBefore)
, (xK_k, killAfter)
, (xK_a, startOfLine)
, (xK_e, endOfLine)
, (xK_y, pasteString)
, (xK_Right, moveWord' p Next)
, (xK_Left, moveWord' p Prev)
, (xK_Delete, killWord' p Next)
, (xK_BackSpace, killWord' p Prev)
, (xK_w, killWord' p Prev)
, (xK_g, quit)
, (xK_bracketleft, quit)
] ++
map (first $ (,) 0)
[ (xK_Return, setSuccess True >> setDone True)
, (xK_KP_Enter, setSuccess True >> setDone True)
, (xK_BackSpace, deleteString Prev)
, (xK_Delete, deleteString Next)
, (xK_Left, moveCursor Prev)
, (xK_Right, moveCursor Next)
, (xK_Home, startOfLine)
, (xK_End, endOfLine)
, (xK_Down, moveHistory W.focusUp')
, (xK_Up, moveHistory W.focusDown')
, (xK_Escape, quit)
]
-- | A keymap with many emacs-like key bindings. Click on the
-- \"Source\" link to the right to see the complete list.
-- See also 'emacsLikeXPKeymap''.
emacsLikeXPKeymap :: M.Map (KeyMask,KeySym) (XP ())
emacsLikeXPKeymap = emacsLikeXPKeymap' isSpace
-- | A variant of 'emacsLikeXPKeymap' which lets you specify a custom
-- predicate for identifying non-word characters, which affects all
-- the word-oriented commands (move\/kill word). The default is
-- 'isSpace'. For example, by default a path like @foo\/bar\/baz@
-- would be considered as a single word. You could use a predicate
-- like @(\\c -> isSpace c || c == \'\/\')@ to move through or
-- delete components of the path one at a time.
emacsLikeXPKeymap' :: (Char -> Bool) -> M.Map (KeyMask,KeySym) (XP ())
emacsLikeXPKeymap' p = M.fromList $
map (first $ (,) controlMask) -- control + <key>
[ (xK_z, killBefore) --kill line backwards
, (xK_k, killAfter) -- kill line fowards
, (xK_a, startOfLine) --move to the beginning of the line
, (xK_e, endOfLine) -- move to the end of the line
, (xK_d, deleteString Next) -- delete a character foward
, (xK_b, moveCursor Prev) -- move cursor forward
, (xK_f, moveCursor Next) -- move cursor backward
, (xK_BackSpace, killWord' p Prev) -- kill the previous word
, (xK_y, pasteString)
, (xK_g, quit)
, (xK_bracketleft, quit)
] ++
map (first $ (,) mod1Mask) -- meta key + <key>
[ (xK_BackSpace, killWord' p Prev)
, (xK_f, moveWord' p Next) -- move a word forward
, (xK_b, moveWord' p Prev) -- move a word backward
, (xK_d, killWord' p Next) -- kill the next word
, (xK_n, moveHistory W.focusUp')
, (xK_p, moveHistory W.focusDown')
]
++
map (first $ (,) 0) -- <key>
[ (xK_Return, setSuccess True >> setDone True)
, (xK_KP_Enter, setSuccess True >> setDone True)
, (xK_BackSpace, deleteString Prev)
, (xK_Delete, deleteString Next)
, (xK_Left, moveCursor Prev)
, (xK_Right, moveCursor Next)
, (xK_Home, startOfLine)
, (xK_End, endOfLine)
, (xK_Down, moveHistory W.focusUp')
, (xK_Up, moveHistory W.focusDown')
, (xK_Escape, quit)
]
keyPressHandle :: KeyMask -> KeyStroke -> XP ()
keyPressHandle m (ks,str) = do
km <- gets (promptKeymap . config)
kmask <- cleanMask m -- mask is defined in ghc7
case M.lookup (kmask,ks) km of
Just action -> action >> updateWindows
Nothing -> case str of
"" -> eventLoop handle
_ -> when (kmask .&. controlMask == 0) $ do
let str' = if isUTF8Encoded str
then decodeString str
else str
insertString str'
updateWindows
updateHighlightedCompl
completed <- tryAutoComplete
when completed $ setSuccess True >> setDone True
setSuccess :: Bool -> XP ()
setSuccess b = modify $ \s -> s { successful = b }
setDone :: Bool -> XP ()
setDone b = modify $ \s -> s { done = b }
-- KeyPress and State
-- | Quit.
quit :: XP ()
quit = flushString >> setSuccess False >> setDone True
-- | Kill the portion of the command before the cursor
killBefore :: XP ()
killBefore =
modify $ \s -> setCommand (drop (offset s) (command s)) $ s { offset = 0 }
-- | Kill the portion of the command including and after the cursor
killAfter :: XP ()
killAfter =
modify $ \s -> setCommand (take (offset s) (command s)) s
-- | Kill the next\/previous word, using 'isSpace' as the default
-- predicate for non-word characters. See 'killWord''.
killWord :: Direction1D -> XP ()
killWord = killWord' isSpace
-- | Kill the next\/previous word, given a predicate to identify
-- non-word characters. First delete any consecutive non-word
-- characters; then delete consecutive word characters, stopping
-- just before the next non-word character.
--
-- For example, by default (using 'killWord') a path like
-- @foo\/bar\/baz@ would be deleted in its entirety. Instead you can
-- use something like @killWord' (\\c -> isSpace c || c == \'\/\')@ to
-- delete the path one component at a time.
killWord' :: (Char -> Bool) -> Direction1D -> XP ()
killWord' p d = do
o <- gets offset
c <- gets command
let (f,ss) = splitAt o c
delNextWord = snd . break p . dropWhile p
delPrevWord = reverse . delNextWord . reverse
(ncom,noff) =
case d of
Next -> (f ++ delNextWord ss, o)
Prev -> (delPrevWord f ++ ss, length $ delPrevWord f) -- laziness!!
modify $ \s -> setCommand ncom $ s { offset = noff}
-- | Put the cursor at the end of line
endOfLine :: XP ()
endOfLine =
modify $ \s -> s { offset = length (command s)}
-- | Put the cursor at the start of line
startOfLine :: XP ()
startOfLine =
modify $ \s -> s { offset = 0 }
-- | Flush the command string and reset the offset
flushString :: XP ()
flushString = modify $ \s -> setCommand "" $ s { offset = 0}
--reset index if config has `alwaysHighlight`. The inserted char could imply fewer autocompletions.
--If the current index was column 2, row 1 and now there are only 4 autocompletion rows with 1 column, what should we highlight? Set it to the first and start navigation again
resetComplIndex :: XPState -> XPState
resetComplIndex st = if (alwaysHighlight $ config st) then st { complIndex = (0,0) } else st
-- | Insert a character at the cursor position
insertString :: String -> XP ()
insertString str =
modify $ \s -> let
cmd = (c (command s) (offset s))
st = resetComplIndex $ s { offset = o (offset s)}
in setCommand cmd st
where o oo = oo + length str
c oc oo | oo >= length oc = oc ++ str
| otherwise = f ++ str ++ ss
where (f,ss) = splitAt oo oc
-- | Insert the current X selection string at the cursor position.
pasteString :: XP ()
pasteString = join $ io $ liftM insertString getSelection
-- | Remove a character at the cursor position
deleteString :: Direction1D -> XP ()
deleteString d =
modify $ \s -> setCommand (c (command s) (offset s)) $ s { offset = o (offset s)}
where o oo = if d == Prev then max 0 (oo - 1) else oo
c oc oo
| oo >= length oc && d == Prev = take (oo - 1) oc
| oo < length oc && d == Prev = take (oo - 1) f ++ ss
| oo < length oc && d == Next = f ++ tail ss
| otherwise = oc
where (f,ss) = splitAt oo oc
-- | move the cursor one position
moveCursor :: Direction1D -> XP ()
moveCursor d =
modify $ \s -> s { offset = o (offset s) (command s)}
where o oo c = if d == Prev then max 0 (oo - 1) else min (length c) (oo + 1)
-- | Move the cursor one word, using 'isSpace' as the default
-- predicate for non-word characters. See 'moveWord''.
moveWord :: Direction1D -> XP ()
moveWord = moveWord' isSpace
-- | Move the cursor one word, given a predicate to identify non-word
-- characters. First move past any consecutive non-word characters;
-- then move to just before the next non-word character.
moveWord' :: (Char -> Bool) -> Direction1D -> XP ()
moveWord' p d = do
c <- gets command
o <- gets offset
let (f,ss) = splitAt o c
len = uncurry (+)
. (length *** (length . fst . break p))
. break (not . p)
newoff = case d of
Prev -> o - len (reverse f)
Next -> o + len ss
modify $ \s -> s { offset = newoff }
moveHistory :: (W.Stack String -> W.Stack String) -> XP ()
moveHistory f = modify $ \s -> let ch = f $ commandHistory s
in s { commandHistory = ch
, offset = length $ W.focus ch }
updateHighlightedCompl :: XP ()
updateHighlightedCompl = do
st <- get
cs <- getCompletions
alwaysHighlight' <- gets $ alwaysHighlight . config
when (alwaysHighlight') $ modify $ \s -> s {highlightedCompl = highlightedItem st cs}
-- X Stuff
updateWindows :: XP ()
updateWindows = do
d <- gets dpy
drawWin
c <- getCompletions
case c of
[] -> destroyComplWin >> return ()
l -> redrawComplWin l
io $ sync d False
redrawWindows :: [String] -> XP ()
redrawWindows c = do
d <- gets dpy
drawWin
case c of
[] -> return ()
l -> redrawComplWin l
io $ sync d False
createWin :: Display -> Window -> XPConfig -> Rectangle -> IO Window
createWin d rw c s = do
let (x,y) = case position c of
Top -> (0,0)
Bottom -> (0, rect_height s - height c)
w <- mkUnmanagedWindow d (defaultScreenOfDisplay d) rw
(rect_x s + x) (rect_y s + fi y) (rect_width s) (height c)
mapWindow d w
return w
drawWin :: XP ()
drawWin = do
st <- get
let (c,(d,(w,gc))) = (config &&& dpy &&& win &&& gcon) st
scr = defaultScreenOfDisplay d
wh = widthOfScreen scr
ht = height c
bw = promptBorderWidth c
Just bgcolor <- io $ initColor d (bgColor c)
Just border <- io $ initColor d (borderColor c)
p <- io $ createPixmap d w wh ht
(defaultDepthOfScreen scr)
io $ fillDrawable d p gc border bgcolor (fi bw) wh ht
printPrompt p
io $ copyArea d p w gc 0 0 wh ht 0 0
io $ freePixmap d p
printPrompt :: Drawable -> XP ()
printPrompt drw = do
st <- get
let (gc,(c,(d,fs))) = (gcon &&& config &&& dpy &&& fontS) st
(prt,(com,off)) = (show . currentXPMode &&& command &&& offset) st
str = prt ++ com
-- break the string in 3 parts: till the cursor, the cursor and the rest
(f,p,ss) = if off >= length com
then (str, " ","") -- add a space: it will be our cursor ;-)
else let (a,b) = (splitAt off com)
in (prt ++ a, [head b], tail b)
ht = height c
fsl <- io $ textWidthXMF (dpy st) fs f
psl <- io $ textWidthXMF (dpy st) fs p
(asc,desc) <- io $ textExtentsXMF fs str
let y = fi $ ((ht - fi (asc + desc)) `div` 2) + fi asc
x = (asc + desc) `div` 2
let draw = printStringXMF d drw fs gc
-- print the first part
draw (fgColor c) (bgColor c) x y f
-- reverse the colors and print the "cursor" ;-)
draw (bgColor c) (fgColor c) (x + fromIntegral fsl) y p
-- reverse the colors and print the rest of the string
draw (fgColor c) (bgColor c) (x + fromIntegral (fsl + psl)) y ss
-- get the current completion function depending on the active mode
getCompletionFunction :: XPState -> ComplFunction
getCompletionFunction st = case operationMode st of
XPSingleMode compl _ -> compl
XPMultipleModes modes -> completionFunction $ W.focus modes
-- Completions
getCompletions :: XP [String]
getCompletions = do
s <- get
io $ getCompletionFunction s (commandToComplete (currentXPMode s) (command s))
`E.catch` \(SomeException _) -> return []
setComplWin :: Window -> ComplWindowDim -> XP ()
setComplWin w wi =
modify (\s -> s { complWin = Just w, complWinDim = Just wi })
destroyComplWin :: XP ()
destroyComplWin = do
d <- gets dpy
cw <- gets complWin
case cw of
Just w -> do io $ destroyWindow d w
modify (\s -> s { complWin = Nothing, complWinDim = Nothing })
Nothing -> return ()
type ComplWindowDim = (Position,Position,Dimension,Dimension,Columns,Rows)
type Rows = [Position]
type Columns = [Position]
createComplWin :: ComplWindowDim -> XP Window
createComplWin wi@(x,y,wh,ht,_,_) = do
st <- get
let d = dpy st
scr = defaultScreenOfDisplay d
w <- io $ mkUnmanagedWindow d scr (rootw st)
x y wh ht
io $ mapWindow d w
setComplWin w wi
return w
getComplWinDim :: [String] -> XP ComplWindowDim
getComplWinDim compl = do
st <- get
let (c,(scr,fs)) = (config &&& screen &&& fontS) st
wh = rect_width scr
ht = height c
tws <- mapM (textWidthXMF (dpy st) fs) compl
let max_compl_len = fromIntegral ((fi ht `div` 2) + maximum tws)
columns = max 1 $ wh `div` fi max_compl_len
rem_height = rect_height scr - ht
(rows,r) = length compl `divMod` fi columns
needed_rows = max 1 (rows + if r == 0 then 0 else 1)
limit_max_number = case maxComplRows c of
Nothing -> id
Just m -> min m
actual_max_number_of_rows = limit_max_number $ rem_height `div` ht
actual_rows = min actual_max_number_of_rows (fi needed_rows)
actual_height = actual_rows * ht
(x,y) = case position c of
Top -> (0,ht)
Bottom -> (0, (0 + rem_height - actual_height))
(asc,desc) <- io $ textExtentsXMF fs $ head compl
let yp = fi $ (ht + fi (asc - desc)) `div` 2
xp = (asc + desc) `div` 2
yy = map fi . take (fi actual_rows) $ [yp,(yp + ht)..]
xx = take (fi columns) [xp,(xp + max_compl_len)..]
return (rect_x scr + x, rect_y scr + fi y, wh, actual_height, xx, yy)
drawComplWin :: Window -> [String] -> XP ()
drawComplWin w compl = do
st <- get
let c = config st
d = dpy st
scr = defaultScreenOfDisplay d
bw = promptBorderWidth c
gc = gcon st
Just bgcolor <- io $ initColor d (bgColor c)
Just border <- io $ initColor d (borderColor c)
(_,_,wh,ht,xx,yy) <- getComplWinDim compl
p <- io $ createPixmap d w wh ht
(defaultDepthOfScreen scr)
io $ fillDrawable d p gc border bgcolor (fi bw) wh ht
let ac = splitInSubListsAt (length yy) (take (length xx * length yy) compl)
printComplList d p gc (fgColor c) (bgColor c) xx yy ac
--lift $ spawn $ "xmessage " ++ " ac: " ++ show ac ++ " xx: " ++ show xx ++ " length xx: " ++ show (length xx) ++ " yy: " ++ show (length yy)
io $ copyArea d p w gc 0 0 wh ht 0 0
io $ freePixmap d p
redrawComplWin :: [String] -> XP ()
redrawComplWin compl = do
st <- get
nwi <- getComplWinDim compl
let recreate = do destroyComplWin
w <- createComplWin nwi
drawComplWin w compl
if compl /= [] && showComplWin st
then case complWin st of
Just w -> case complWinDim st of
Just wi -> if nwi == wi -- complWinDim did not change
then drawComplWin w compl -- so update
else recreate
Nothing -> recreate
Nothing -> recreate
else destroyComplWin
-- Finds the column and row indexes in which a string appears.
-- if the string is not in the matrix, the indexes default to (0,0)
findComplIndex :: String -> [[String]] -> (Int,Int)
findComplIndex x xss = let
colIndex = fromMaybe 0 $ findIndex (\cols -> x `elem` cols) xss
rowIndex = fromMaybe 0 $ elemIndex x $ (!!) xss colIndex
in (colIndex,rowIndex)
printComplList :: Display -> Drawable -> GC -> String -> String
-> [Position] -> [Position] -> [[String]] -> XP ()
printComplList d drw gc fc bc xs ys sss =
zipWithM_ (\x ss ->
zipWithM_ (\y item -> do
st <- get
alwaysHlight <- gets $ alwaysHighlight . config
let (f,b) = case alwaysHlight of
True -> -- default to the first item, the one in (0,0)
let
(colIndex,rowIndex) = findComplIndex item sss
in -- assign some colors
if ((complIndex st) == (colIndex,rowIndex)) then (fgHLight $ config st,bgHLight $ config st)
else (fc,bc)
False ->
-- compare item with buffer's value
if completionToCommand (currentXPMode st) item == commandToComplete (currentXPMode st) (command st)
then (fgHLight $ config st,bgHLight $ config st)
else (fc,bc)
printStringXMF d drw (fontS st) gc f b x y item)
ys ss) xs sss
-- History
type History = M.Map String [String]
emptyHistory :: History
emptyHistory = M.empty
getHistoryFile :: IO FilePath
getHistoryFile = fmap (++ "/history") $ getAppUserDataDirectory "xmonad"
readHistory :: IO History
readHistory = readHist `E.catch` \(SomeException _) -> return emptyHistory
where
readHist = do
path <- getHistoryFile
xs <- bracket (openFile path ReadMode) hClose hGetLine
readIO xs
writeHistory :: History -> IO ()
writeHistory hist = do
path <- getHistoryFile
let filtered = M.filter (not . null) hist
writeFile path (show filtered) `E.catch` \(SomeException e) ->
hPutStrLn stderr ("error writing history: "++show e)
setFileMode path mode
where mode = ownerReadMode .|. ownerWriteMode
-- $xutils
-- | Fills a 'Drawable' with a rectangle and a border
fillDrawable :: Display -> Drawable -> GC -> Pixel -> Pixel
-> Dimension -> Dimension -> Dimension -> IO ()
fillDrawable d drw gc border bgcolor bw wh ht = do
-- we start with the border
setForeground d gc border
fillRectangle d drw gc 0 0 wh ht
-- here foreground means the background of the text
setForeground d gc bgcolor
fillRectangle d drw gc (fi bw) (fi bw) (wh - (bw * 2)) (ht - (bw * 2))
-- | Creates a window with the attribute override_redirect set to True.
-- Windows Managers should not touch this kind of windows.
mkUnmanagedWindow :: Display -> Screen -> Window -> Position
-> Position -> Dimension -> Dimension -> IO Window
mkUnmanagedWindow d s rw x y w h = do
let visual = defaultVisualOfScreen s
attrmask = cWOverrideRedirect
allocaSetWindowAttributes $
\attributes -> do
set_override_redirect attributes True
createWindow d rw x y w h 0 (defaultDepthOfScreen s)
inputOutput visual attrmask attributes
-- $utils
-- | This function takes a list of possible completions and returns a
-- completions function to be used with 'mkXPrompt'
mkComplFunFromList :: [String] -> String -> IO [String]
mkComplFunFromList _ [] = return []
mkComplFunFromList l s =
return $ filter (\x -> take (length s) x == s) l
-- | This function takes a list of possible completions and returns a
-- completions function to be used with 'mkXPrompt'. If the string is
-- null it will return all completions.
mkComplFunFromList' :: [String] -> String -> IO [String]
mkComplFunFromList' l [] = return l
mkComplFunFromList' l s =
return $ filter (\x -> take (length s) x == s) l
-- | Given the prompt type, the command line and the completion list,
-- return the next completion in the list for the last word of the
-- command line. This is the default 'nextCompletion' implementation.
getNextOfLastWord :: XPrompt t => t -> String -> [String] -> String
getNextOfLastWord t c l = skipLastWord c ++ completionToCommand t (l !! ni)
where ni = case commandToComplete t c `elemIndex` map (completionToCommand t) l of
Just i -> if i >= length l - 1 then 0 else i + 1
Nothing -> 0
-- | An alternative 'nextCompletion' implementation: given a command
-- and a completion list, get the next completion in the list matching
-- the whole command line.
getNextCompletion :: String -> [String] -> String
getNextCompletion c l = l !! idx
where idx = case c `elemIndex` l of
Just i -> if i >= length l - 1 then 0 else i + 1
Nothing -> 0
-- | Given a maximum length, splits a list into sublists
splitInSubListsAt :: Int -> [a] -> [[a]]
splitInSubListsAt _ [] = []
splitInSubListsAt i x = f : splitInSubListsAt i rest
where (f,rest) = splitAt i x
-- | Gets the last word of a string or the whole string if formed by
-- only one word
getLastWord :: String -> String
getLastWord = reverse . fst . breakAtSpace . reverse
-- | Skips the last word of the string, if the string is composed by
-- more then one word. Otherwise returns the string.
skipLastWord :: String -> String
skipLastWord = reverse . snd . breakAtSpace . reverse
breakAtSpace :: String -> (String, String)
breakAtSpace s
| " \\" `isPrefixOf` s2 = (s1 ++ " " ++ s1', s2')
| otherwise = (s1, s2)
where (s1, s2 ) = break isSpace s
(s1',s2') = breakAtSpace $ tail s2
-- | 'historyCompletion' provides a canned completion function much like
-- 'getShellCompl'; you pass it to mkXPrompt, and it will make completions work
-- from the query history stored in ~\/.xmonad\/history.
historyCompletion :: ComplFunction
historyCompletion = historyCompletionP (const True)
-- | Like 'historyCompletion' but only uses history data from Prompts whose
-- name satisfies the given predicate.
historyCompletionP :: (String -> Bool) -> ComplFunction
historyCompletionP p x = fmap (toComplList . M.filterWithKey (const . p)) readHistory
where toComplList = deleteConsecutive . filter (isInfixOf x) . M.fold (++) []
-- | Sort a list and remove duplicates. Like 'deleteAllDuplicates', but trades off
-- laziness and stability for efficiency.
uniqSort :: Ord a => [a] -> [a]
uniqSort = toList . fromList
-- | Functions to be used with the 'historyFilter' setting.
-- 'deleteAllDuplicates' will remove all duplicate entries.
-- 'deleteConsecutive' will only remove duplicate elements
-- immediately next to each other.
deleteAllDuplicates, deleteConsecutive :: [String] -> [String]
deleteAllDuplicates = nub
deleteConsecutive = map head . group
newtype HistoryMatches = HistoryMatches (IORef ([String],Maybe (W.Stack String)))
-- | Initializes a new HistoryMatches structure to be passed
-- to historyUpMatching
initMatches :: (Functor m, MonadIO m) => m HistoryMatches
initMatches = HistoryMatches <$> liftIO (newIORef ([],Nothing))
historyNextMatching :: HistoryMatches -> (W.Stack String -> W.Stack String) -> XP ()
historyNextMatching hm@(HistoryMatches ref) next = do
(completed,completions) <- io $ readIORef ref
input <- getInput
if input `elem` completed
then case completions of
Just cs -> do
let cmd = W.focus cs
modify $ setCommand cmd
modify $ \s -> s { offset = length cmd }
io $ writeIORef ref (cmd:completed,Just $ next cs)
Nothing -> return ()
else do -- the user typed something new, recompute completions
io . writeIORef ref . ((,) [input]) . filterMatching input =<< gets commandHistory
historyNextMatching hm next
where filterMatching :: String -> W.Stack String -> Maybe (W.Stack String)
filterMatching prefix = W.filter (prefix `isPrefixOf`) . next
-- | Retrieve the next history element that starts with
-- the current input. Pass it the result of initMatches
-- when creating the prompt. Example:
--
-- > ..
-- > ((modMask,xK_p), shellPrompt . myPrompt =<< initMatches)
-- > ..
-- > myPrompt ref = def
-- > { promptKeymap = M.union [((0,xK_Up), historyUpMatching ref)
-- > ,((0,xK_Down), historyDownMatching ref)]
-- > (promptKeymap def)
-- > , .. }
--
historyUpMatching, historyDownMatching :: HistoryMatches -> XP ()
historyUpMatching hm = historyNextMatching hm W.focusDown'
historyDownMatching hm = historyNextMatching hm W.focusUp'
