{-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE TupleSections #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE ExistentialQuantification #-} {-# LANGUAGE CPP #-} {-# LANGUAGE NamedFieldPuns #-} {-# LANGUAGE PatternGuards #-} {-# LANGUAGE LambdaCase #-} {-# LANGUAGE ViewPatterns #-} ----------------------------------------------------------------------------- -- | -- Module : XMonad.Prompt -- Copyright : (C) 2007 Andrea Rossato, 2015 Evgeny Kurnevsky -- 2015 Sibi Prabakaran, 2018 Yclept Nemo -- License : BSD3 -- -- Maintainer : Spencer Janssen -- Stability : unstable -- Portability : unportable -- -- A module for writing graphical prompts for XMonad -- ----------------------------------------------------------------------------- ----------------------------------------------------------------------------- -- Bugs: -- if 'alwaysHighlight' is True, and -- 1 type several characters -- 2 tab-complete past several entries -- 3 backspace back to the several characters -- 4 tab-complete once (results in the entry past the one in [2]) -- 5 tab-complete against this shorter list of completions -- then the prompt will freeze (XMonad continues however). ----------------------------------------------------------------------------- module XMonad.Prompt ( -- * Usage -- $usage mkXPrompt , mkXPromptWithReturn , mkXPromptWithModes , def , amberXPConfig , greenXPConfig , XPMode , XPType (..) , XPColor (..) , XPPosition (..) , XPConfig (..) , XPrompt (..) , XP , defaultXPKeymap, defaultXPKeymap' , emacsLikeXPKeymap, emacsLikeXPKeymap' , vimLikeXPKeymap, vimLikeXPKeymap' , quit , promptSubmap, promptBuffer, toHeadChar, bufferOne , killBefore, killAfter, startOfLine, endOfLine , insertString, pasteString, pasteString' , clipCursor, moveCursor, moveCursorClip , setInput, getInput, getOffset , defaultColor, modifyColor, setColor , resetColor, setBorderColor , modifyPrompter, setPrompter, resetPrompter , moveWord, moveWord', killWord, killWord' , changeWord, deleteString , moveHistory, setSuccess, setDone, setModeDone , Direction1D(..) , ComplFunction , ComplCaseSensitivity(..) -- * 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 XMonad.Prelude hiding (toList) 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.Arrow (first, (&&&), (***)) import Control.Concurrent (threadDelay) import Control.Exception as E hiding (handle) import Control.Monad.State import Data.Bifunctor (bimap) import Data.Bits import Data.IORef import qualified Data.Map as M import Data.Set (fromList, toList) import System.IO import System.IO.Unsafe (unsafePerformIO) 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 , winWidth :: !Dimension -- ^ Width of the prompt window , complWinDim :: Maybe ComplWindowDim , complIndex :: !(Int,Int) , complWin :: IORef (Maybe Window) -- ^ This is an 'IORef' to enable removal of the completion -- window if an exception occurs, since otherwise the most -- recent value of 'complWin' would not be available. , showComplWin :: Bool , operationMode :: XPOperationMode , highlightedCompl :: Maybe String , gcon :: !GC , fontS :: !XMonadFont , commandHistory :: W.Stack String , offset :: !Int , config :: XPConfig , successful :: Bool , cleanMask :: KeyMask -> KeyMask , done :: Bool , modeDone :: Bool , color :: XPColor , prompter :: String -> String , eventBuffer :: [(KeySym, String, Event)] , inputBuffer :: String , currentCompletions :: Maybe [String] } data XPConfig = XPC { font :: String -- ^ Font. For TrueType fonts, use something like -- @"xft:Hack:pixelsize=1"@. Alternatively, use X Logical Font -- Description, i.e. something like -- @"-*-dejavu sans mono-medium-r-normal--*-80-*-*-*-*-iso10646-1"@. , bgColor :: String -- ^ Background color , fgColor :: String -- ^ Font color , bgHLight :: String -- ^ Background color of a highlighted completion entry , fgHLight :: String -- ^ Font color of a highlighted completion entry , borderColor :: String -- ^ Border color , promptBorderWidth :: !Dimension -- ^ Border width , position :: XPPosition -- ^ Position: 'Top', 'Bottom', or 'CenteredAt' , alwaysHighlight :: !Bool -- ^ Always highlight an item, overriden to True with multiple modes , height :: !Dimension -- ^ Window height , maxComplRows :: Maybe Dimension -- ^ Just x: maximum number of rows to show in completion window , maxComplColumns :: Maybe Dimension -- ^ Just x: maximum number of columns 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 :: (KeyMask, 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, -- and delay by x microseconds , showCompletionOnTab :: Bool -- ^ Only show list of completions when Tab was pressed , complCaseSensitivity :: ComplCaseSensitivity -- ^ Perform completion in a case-sensitive manner , searchPredicate :: String -> String -> Bool -- ^ Given the typed string and a possible -- completion, is the completion valid? , defaultPrompter :: String -> String -- ^ Modifies the prompt given by 'showXPrompt' , sorter :: String -> [String] -> [String] -- ^ Used to sort the possible completions by how well they -- match the search string (see X.P.FuzzyMatch for an -- example). } 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) data ComplCaseSensitivity = CaseSensitive | CaseInSensitive 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 -- | A class for an abstract prompt. In order for your data type to be a -- valid prompt you _must_ make it an instance of this class. -- -- The minimal complete definition is just 'showXPrompt', i.e. the name -- of the prompt. This string will be displayed in the command line -- window (before the cursor). -- -- As an example of a complete 'XPrompt' instance definition, we can -- look at the 'XMonad.Prompt.Shell.Shell' prompt from -- "XMonad.Prompt.Shell": -- -- > data Shell = Shell -- > -- > instance XPrompt Shell where -- > showXPrompt Shell = "Run: " class XPrompt t where {-# MINIMAL showXPrompt #-} -- | 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 = const $ 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 -- | Prompt will be placed in the center horizontally and -- in the certain place of screen vertically. If it's in the upper -- part of the screen, completion window will be placed below(like -- in 'Top') and otherwise above(like in 'Bottom') | CenteredAt { xpCenterY :: Rational -- ^ Rational between 0 and 1, giving -- y coordinate of center of the prompt relative to the screen height. , xpWidth :: Rational -- ^ Rational between 0 and 1, giving -- width of the prompt relatave to the screen width. } deriving (Show,Read) data XPColor = XPColor { bgNormal :: String -- ^ Background color , fgNormal :: String -- ^ Font color , bgHighlight :: String -- ^ Background color of a highlighted completion entry , fgHighlight :: String -- ^ Font color of a highlighted completion entry , border :: String -- ^ Border color } amberXPConfig, greenXPConfig :: XPConfig instance Default XPColor where def = XPColor { bgNormal = "grey22" , fgNormal = "grey80" , bgHighlight = "grey" , fgHighlight = "black" , border = "white" } instance Default XPConfig where def = #ifdef XFT XPC { font = "xft:monospace-12" #else XPC { font = "-misc-fixed-*-*-*-*-12-*-*-*-*-*-*-*" #endif , bgColor = bgNormal def , fgColor = fgNormal def , bgHLight = bgHighlight def , fgHLight = fgHighlight def , borderColor = border def , promptBorderWidth = 1 , promptKeymap = defaultXPKeymap , completionKey = (0,xK_Tab) , changeModeKey = xK_grave , position = Bottom , height = 18 , maxComplRows = Nothing , maxComplColumns = Nothing , historySize = 256 , historyFilter = id , defaultText = [] , autoComplete = Nothing , showCompletionOnTab = False , complCaseSensitivity = CaseSensitive , searchPredicate = isPrefixOf , alwaysHighlight = False , defaultPrompter = id , sorter = const id } greenXPConfig = def { bgColor = "black" , fgColor = "green" , promptBorderWidth = 0 } amberXPConfig = def { bgColor = "black" , fgColor = "#ca8f2d" , fgHLight = "#eaaf4c" } initState :: Display -> Window -> Window -> Rectangle -> XPOperationMode -> GC -> XMonadFont -> [String] -> XPConfig -> (KeyMask -> KeyMask) -> Dimension -> XPState initState d rw w s opMode gc fonts h c cm width = XPS { dpy = d , rootw = rw , win = w , screen = s , winWidth = width , complWinDim = Nothing , complWin = unsafePerformIO (newIORef 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 , modeDone = False , cleanMask = cm , prompter = defaultPrompter c , color = defaultColor c , eventBuffer = [] , inputBuffer = "" , currentCompletions = Nothing } -- 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 ComplWindowDim{ cwCols, cwRows } = winDim complMatrix = chunksOf (length cwRows) (take (length cwCols * length cwRows) completions) (col_index,row_index) = complIndex st' in case completions of [] -> Nothing _ -> complMatrix !? col_index >>= (!? row_index) -- | Return the selected completion, i.e. the 'String' we actually act -- upon after the user confirmed their selection (by pressing @Enter@). selectedCompletion :: XPState -> String selectedCompletion st -- If 'alwaysHighlight' is used, look at the currently selected item (if any) | alwaysHighlight (config st) = fromMaybe (command st) $ highlightedCompl st -- Otherwise, look at what the user actually wrote so far | otherwise = command st -- 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 }} -- | 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 'get' or similar can't be used to retrieve it. getInput :: XP String getInput = gets command -- | Returns the offset of the current input string. Intended for use in custom -- keys where 'get' or similar can't be used to retrieve it. getOffset :: XP Int getOffset = gets offset -- | Accessor encapsulating disparate color fields of 'XPConfig' into an -- 'XPColor' (the configuration provides default values). defaultColor :: XPConfig -> XPColor defaultColor c = XPColor { bgNormal = bgColor c , fgNormal = fgColor c , bgHighlight = bgHLight c , fgHighlight = fgHLight c , border = borderColor c } -- | Modify the prompt colors. modifyColor :: (XPColor -> XPColor) -> XP () modifyColor c = modify $ \s -> s { color = c $ color s } -- | Set the prompt colors. setColor :: XPColor -> XP () setColor = modifyColor . const -- | Reset the prompt colors to those from 'XPConfig'. resetColor :: XP () resetColor = gets (defaultColor . config) >>= setColor -- | Set the prompt border color. setBorderColor :: String -> XPColor -> XPColor setBorderColor bc xpc = xpc { border = bc } -- | Modify the prompter, i.e. for chaining prompters. modifyPrompter :: ((String -> String) -> (String -> String)) -> XP () modifyPrompter p = modify $ \s -> s { prompter = p $ prompter s } -- | Set the prompter. setPrompter :: (String -> String) -> XP () setPrompter = modifyPrompter . const -- | Reset the prompter to the one from 'XPConfig'. resetPrompter :: XP () resetPrompter = gets (defaultPrompter . config) >>= setPrompter -- | Set the current completion list, or 'Nothing' to invalidate the current -- completions. setCurrentCompletions :: Maybe [String] -> XP () setCurrentCompletions cs = modify $ \s -> s { currentCompletions = cs } -- | Get the current completion list. getCurrentCompletions :: XP (Maybe [String]) getCurrentCompletions = gets currentCompletions -- | 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 st' <- mkXPromptImplementation (showXPrompt t) conf (XPSingleMode compl (XPT t)) if successful st' then Just <$> action (selectedCompletion st') 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 = void $ mkXPromptWithReturn t conf compl action -- | 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 let defaultMode = head modes modeStack = W.Stack { W.focus = defaultMode -- Current mode , W.up = [] , W.down = tail modes -- Other modes } om = XPMultipleModes modeStack st' <- mkXPromptImplementation (showXPrompt defaultMode) conf { alwaysHighlight = True } om when (successful st') $ 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 -- Internal function used to implement 'mkXPromptWithReturn' and -- 'mkXPromptWithModes'. mkXPromptImplementation :: String -> XPConfig -> XPOperationMode -> X XPState mkXPromptImplementation historyKey conf om = do XConf { display = d, theRoot = rw } <- ask s <- gets $ screenRect . W.screenDetail . W.current . windowset cleanMask <- cleanKeyMask cachedir <- asks (cacheDir . directories) hist <- io $ readHistory cachedir fs <- initXMF (font conf) let width = getWinWidth s (position conf) st' <- io $ bracket (createPromptWin d rw conf s width) (destroyWindow d) (\w -> bracket (createGC d w) (freeGC d) (\gc -> do selectInput d w $ exposureMask .|. keyPressMask setGraphicsExposures d gc False let hs = fromMaybe [] $ M.lookup historyKey hist st = initState d rw w s om gc fs hs conf cleanMask width runXP st)) releaseXMF fs when (successful st') $ do let prune = take (historySize conf) io $ writeHistory cachedir $ M.insertWith (\xs ys -> prune . historyFilter conf $ xs ++ ys) historyKey -- We need to apply historyFilter before as well, since -- otherwise the filter would not be applied if there is no -- history (prune $ historyFilter conf [selectedCompletion st']) hist return st' where -- | Based on the ultimate position of the prompt and the screen -- dimensions, calculate its width. getWinWidth :: Rectangle -> XPPosition -> Dimension getWinWidth scr = \case CenteredAt{ xpWidth } -> floor $ fi (rect_width scr) * xpWidth _ -> rect_width scr -- | Inverse of 'Codec.Binary.UTF8.String.utf8Encode', that is, a convenience -- function that checks to see if the input string is UTF8 encoded before -- decoding. utf8Decode :: String -> String utf8Decode str | isUTF8Encoded str = decodeString str | otherwise = str runXP :: XPState -> IO XPState runXP st = do let d = dpy st w = win st bracket (grabKeyboard d w True grabModeAsync grabModeAsync currentTime) (\_ -> ungrabKeyboard d currentTime) (\status -> execStateT (when (status == grabSuccess) $ do ah <- gets (alwaysHighlight . config) when ah $ do compl <- listToMaybe <$> getCompletions modify' $ \xpst -> xpst{ highlightedCompl = compl } updateWindows eventLoop handleMain evDefaultStop) st `finally` (mapM_ (destroyWindow d) =<< readIORef (complWin st)) `finally` sync d False) type KeyStroke = (KeySym, String) -- | Main event "loop". Gives priority to events from the state's event buffer. eventLoop :: (KeyStroke -> Event -> XP ()) -> XP Bool -> XP () eventLoop handle stopAction = do b <- gets eventBuffer (keysym,keystr,event) <- case b of [] -> do d <- gets dpy io $ allocaXEvent $ \e -> do -- Also capture @buttonPressMask@, see Note [Allow ButtonEvents] maskEvent d (exposureMask .|. keyPressMask .|. buttonPressMask) e ev <- getEvent e if ev_event_type ev == keyPress then do (_, s) <- lookupString $ asKeyEvent e ks <- keycodeToKeysym d (ev_keycode ev) 0 return (ks, s, ev) else return (noSymbol, "", ev) l -> do modify $ \s -> s { eventBuffer = tail l } return $ head l handle (keysym,keystr) event stopAction >>= flip unless (eventLoop handle stopAction) -- | Default event loop stop condition. evDefaultStop :: XP Bool evDefaultStop = gets ((||) . modeDone) <*> gets done -- | Common patterns shared by all event handlers. handleOther :: KeyStroke -> Event -> XP () handleOther _ ExposeEvent{ev_window = w} = do -- Expose events can be triggered by switching virtual consoles. st <- get when (win st == w) updateWindows handleOther _ ButtonEvent{ev_event_type = t} = do -- See Note [Allow ButtonEvents] when (t == buttonPress) $ do d <- gets dpy io $ allowEvents d replayPointer currentTime handleOther _ _ = return () {- Note [Allow ButtonEvents] Some settings (like @clickJustFocuses = False@) set up the passive pointer grabs that xmonad makes to intercept clicks to unfocused windows with @pointer_mode = grabModeSync@ and @keyboard_mode = grabModeSync@. This means that any click in an unfocused window leads to a pointer/keyboard grab that freezes both devices until 'allowEvents' is called. But "XMonad.Prompt" has its own X event loop, so 'allowEvents' is never called and everything remains frozen indefinitely. This does not happen when the grabs are made with @grabModeAsync@, as pointer events processing is not frozen and the grab only lasts as long as the mouse button is pressed. Hence, in this situation we call 'allowEvents' in the prompts event loop whenever a button event is received, releasing the pointer grab. In this case, 'replayPointer' takes care of the fact that these events are not merely discarded, but passed to the respective application window. -} -- | Prompt event handler for the main loop. Dispatches to input, completion -- and mode switching handlers. handleMain :: KeyStroke -> Event -> XP () handleMain stroke@(keysym,_) KeyEvent{ev_event_type = t, ev_state = m} = do (compKey,modeKey) <- gets $ (completionKey &&& changeModeKey) . config keymask <- gets cleanMask <*> pure m -- haven't subscribed to keyRelease, so just in case when (t == keyPress) $ if (keymask,keysym) == compKey then getCurrentCompletions >>= handleCompletionMain else do setCurrentCompletions Nothing if keysym == modeKey then modify setNextMode >> updateWindows else handleInputMain keymask stroke handleMain stroke event = handleOther stroke event -- | Prompt input handler for the main loop. handleInputMain :: KeyMask -> KeyStroke -> XP () handleInputMain keymask (keysym,keystr) = do keymap <- gets (promptKeymap . config) case M.lookup (keymask,keysym) keymap of -- 'null keystr' i.e. when only a modifier was pressed Just action -> action >> updateWindows Nothing -> unless (null keystr) $ when (keymask .&. controlMask == 0) $ do insertString $ utf8Decode keystr updateWindows updateHighlightedCompl complete <- tryAutoComplete when complete $ setSuccess True >> setDone True -- There are two options to store the completion list during the main loop: -- * Use the State monad, with 'Nothing' as the initial state. -- * Join the output of the event loop handler to the input of the (same) -- subsequent handler, using 'Nothing' as the initial input. -- Both approaches are, under the hood, equivalent. -- -- | Prompt completion handler for the main loop. Given 'Nothing', generate the -- current completion list. With the current list, trigger a completion. handleCompletionMain :: Maybe [String] -> XP () handleCompletionMain Nothing = do cs <- getCompletions when (length cs > 1) $ modify $ \s -> s { showComplWin = True } setCurrentCompletions $ Just cs handleCompletion cs handleCompletionMain (Just cs) = handleCompletion cs handleCompletion :: [String] -> XP () handleCompletion cs = do alwaysHlight <- gets $ alwaysHighlight . config st <- get let updateWins = redrawWindows (pure ()) updateState l = if alwaysHlight then hlComplete (getLastWord $ command st) l st else simpleComplete l st case cs of [] -> updateWindows [x] -> do updateState [x] cs' <- getCompletions updateWins cs' setCurrentCompletions $ Just cs' l -> updateState l >> updateWins l where -- When alwaysHighlight is off, just complete based on what the -- user has typed so far. simpleComplete :: [String] -> XPState -> XP () simpleComplete l st = do let newCommand = nextCompletion (currentXPMode st) (command st) l modify $ \s -> setCommand newCommand $ s { offset = length newCommand , highlightedCompl = Just newCommand } -- If alwaysHighlight is on, and the user wants the next -- completion, move to the next completion item and update the -- buffer to reflect that. -- --TODO: Scroll or paginate results hlComplete :: String -> [String] -> XPState -> XP () hlComplete prevCompl l st | -- The current suggestion matches the command and is a -- proper suffix of the last suggestion, so replace it. isSuffixOfCmd && isProperSuffixOfLast = replaceCompletion prevCompl | -- We only have one suggestion, so we need to be a little -- bit smart in order to avoid a loop. length cs == 1 = if command st == hlCompl then put st else replaceCompletion (head cs) -- The current suggestion matches the command, so advance -- to the next completion and try again. | isSuffixOfCmd = hlComplete hlCompl l $ st{ complIndex = complIndex' , highlightedCompl = nextHlCompl } -- If nothing matches at all, delete the suggestion and -- highlight the next one. | otherwise = replaceCompletion prevCompl where hlCompl :: String = fromMaybe (command st) $ highlightedItem st l complIndex' :: (Int, Int) = nextComplIndex st nextHlCompl :: Maybe String = highlightedItem st{ complIndex = complIndex' } cs isSuffixOfCmd :: Bool = hlCompl `isSuffixOf` command st isProperSuffixOfLast :: Bool = hlCompl `isSuffixOf` prevCompl && not (prevCompl `isSuffixOf` hlCompl) replaceCompletion :: String -> XP () = \str -> do put st replicateM_ (length $ words str) $ killWord Prev insertString' hlCompl endOfLine -- | Initiate a prompt sub-map event loop. Submaps are intended to provide -- alternate keybindings. Accepts a default action and a mapping from key -- combinations to actions. If no entry matches, the default action is run. promptSubmap :: XP () -> M.Map (KeyMask, KeySym) (XP ()) -> XP () promptSubmap defaultAction keymap = do md <- gets modeDone setModeDone False updateWindows eventLoop (handleSubmap defaultAction keymap) evDefaultStop setModeDone md handleSubmap :: XP () -> M.Map (KeyMask, KeySym) (XP ()) -> KeyStroke -> Event -> XP () handleSubmap defaultAction keymap stroke KeyEvent{ev_event_type = t, ev_state = m} = do keymask <- gets cleanMask <*> pure m when (t == keyPress) $ handleInputSubmap defaultAction keymap keymask stroke handleSubmap _ _ stroke event = handleOther stroke event handleInputSubmap :: XP () -> M.Map (KeyMask, KeySym) (XP ()) -> KeyMask -> KeyStroke -> XP () handleInputSubmap defaultAction keymap keymask (keysym,keystr) = case M.lookup (keymask,keysym) keymap of Just action -> action >> updateWindows Nothing -> unless (null keystr) $ defaultAction >> updateWindows -- | Initiate a prompt input buffer event loop. Input is sent to a buffer and -- bypasses the prompt. The provided function is given the existing buffer and -- the input keystring. The first field of the result determines whether the -- input loop continues (if @True@). The second field determines whether the -- input is appended to the buffer, or dropped (if @False@). If the loop is to -- stop without keeping input - that is, @(False,False)@ - the event is -- prepended to the event buffer to be processed by the parent loop. This -- allows loop to process both fixed and indeterminate inputs. -- -- Result given @(continue,keep)@: -- -- * cont and keep -- -- * grow input buffer -- -- * stop and keep -- -- * grow input buffer -- * stop loop -- -- * stop and drop -- -- * buffer event -- * stop loop -- -- * cont and drop -- -- * do nothing promptBuffer :: (String -> String -> (Bool,Bool)) -> XP String promptBuffer f = do md <- gets modeDone setModeDone False eventLoop (handleBuffer f) evDefaultStop buff <- gets inputBuffer modify $ \s -> s { inputBuffer = "" } setModeDone md return buff handleBuffer :: (String -> String -> (Bool,Bool)) -> KeyStroke -> Event -> XP () handleBuffer f stroke event@KeyEvent{ev_event_type = t, ev_state = m} = do keymask <- gets cleanMask <*> pure m when (t == keyPress) $ handleInputBuffer f keymask stroke event handleBuffer _ stroke event = handleOther stroke event handleInputBuffer :: (String -> String -> (Bool,Bool)) -> KeyMask -> KeyStroke -> Event -> XP () handleInputBuffer f keymask (keysym,keystr) event = unless (null keystr || keymask .&. controlMask /= 0) $ do (evB,inB) <- gets (eventBuffer &&& inputBuffer) let keystr' = utf8Decode keystr let (cont,keep) = f inB keystr' when keep $ modify $ \s -> s { inputBuffer = inB ++ keystr' } unless cont $ setModeDone True unless (cont || keep) $ modify $ \s -> s { eventBuffer = (keysym,keystr,event) : evB } -- | Predicate instructing 'promptBuffer' to get (and keep) a single non-empty -- 'KeyEvent'. bufferOne :: String -> String -> (Bool,Bool) bufferOne xs x = (null xs && null x,True) -- | Return the @(column, row)@ of the next highlight, or @(0, 0)@ if -- there is no prompt window or a wrap-around occurs. nextComplIndex :: XPState -> (Int, Int) nextComplIndex st = case complWinDim st of Nothing -> (0, 0) -- no window dimensions (just destroyed or not created) Just ComplWindowDim{ cwCols, cwRows } -> let (currentcol, currentrow) = complIndex st (colm, rowm) = ((currentcol + 1) `mod` length cwCols, (currentrow + 1) `mod` length cwRows) in if rowm == currentrow + 1 then (currentcol, currentrow + 1) -- We are not in the last row, so go down else (colm, rowm) -- otherwise advance to the next column 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 + [ (xK_u, killBefore) , (xK_k, killAfter) , (xK_a, startOfLine) , (xK_e, endOfLine) , (xK_y, pasteString) -- Retain the pre-0.14 moveWord' behavior: , (xK_Right, moveWord' p Next >> moveCursor Next) , (xK_Left, moveCursor Prev >> 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 + [ (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) , (xK_t, transposeChars) ] ++ map (first $ (,) mod1Mask) -- meta key + [ (xK_BackSpace, killWord' p Prev) -- Retain the pre-0.14 moveWord' behavior: , (xK_f, moveWord' p Next >> moveCursor Next) -- move a word forward , (xK_b, moveCursor Prev >> 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) -- [ (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) ] -- | Vim-ish key bindings. Click on the \"Source\" link to the right to see the -- complete list. See also 'vimLikeXPKeymap''. vimLikeXPKeymap :: M.Map (KeyMask,KeySym) (XP ()) vimLikeXPKeymap = vimLikeXPKeymap' (setBorderColor "grey22") id id isSpace -- | A variant of 'vimLikeXPKeymap' with customizable aspects: vimLikeXPKeymap' :: (XPColor -> XPColor) -- ^ Modifies the prompt color when entering normal mode. -- The default is @setBorderColor "grey22"@ - same color as -- the default background color. -> (String -> String) -- ^ Prompter to use in normal mode. The default of 'id' -- balances 'defaultPrompter' but @("[n] " ++)@ is a good -- alternate with 'defaultPrompter' as @("[i] " ++)@. -> (String -> String) -- ^ Filter applied to the X Selection before pasting. The -- default is 'id' but @filter isPrint@ is a good -- alternate. -> (Char -> Bool) -- ^ Predicate identifying non-word characters. The default -- is 'isSpace'. See the documentation of other keymaps for -- alternates. -> M.Map (KeyMask,KeySym) (XP ()) vimLikeXPKeymap' fromColor promptF pasteFilter notWord = M.fromList $ 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, moveCursor Prev >> modifyColor fromColor >> setPrompter promptF >> promptSubmap (return ()) normalVimXPKeymap >> resetColor >> resetPrompter ) ] where normalVimXPKeymap = M.fromList $ map (first $ (,) 0) [ (xK_i, setModeDone True) , (xK_a, moveCursor Next >> setModeDone True) , (xK_s, deleteString Next >> setModeDone True) , (xK_x, deleteString Next >> clipCursor) , (xK_Delete, deleteString Next >> clipCursor) , (xK_p, moveCursor Next >> pasteString' pasteFilter >> moveCursor Prev ) , (xK_0, startOfLine) , (xK_Escape, quit) , (xK_Down, moveHistory W.focusUp') , (xK_j, moveHistory W.focusUp') , (xK_Up, moveHistory W.focusDown') , (xK_k, moveHistory W.focusDown') , (xK_Right, moveCursorClip Next) , (xK_l, moveCursorClip Next) , (xK_h, moveCursorClip Prev) , (xK_Left, moveCursorClip Prev) , (xK_BackSpace, moveCursorClip Prev) -- Implementation using the original 'moveWord'': --, (xK_e, moveCursor Next >> moveWord' notWord Next >> moveCursor Prev) --, (xK_b, moveWord' notWord Prev) --, (xK_w, moveWord' (not . notWord) Next >> clipCursor) , (xK_e, moveCursorClip Next >> moveWord' notWord Next) , (xK_b, moveCursorClip Prev >> moveWord' notWord Prev) , (xK_w, moveWord' (not . notWord) Next >> moveCursorClip Next) , (xK_f, promptBuffer bufferOne >>= toHeadChar Next) , (xK_d, promptSubmap (setModeDone True) deleteVimXPKeymap) , (xK_c, promptSubmap (setModeDone True) changeVimXPKeymap >> setModeDone True ) ] ++ map (first $ (,) shiftMask) [ (xK_dollar, endOfLine >> moveCursor Prev) , (xK_D, killAfter >> moveCursor Prev) , (xK_C, killAfter >> setModeDone True) , (xK_P, pasteString' pasteFilter >> moveCursor Prev) , (xK_A, endOfLine >> setModeDone True) , (xK_I, startOfLine >> setModeDone True) , (xK_F, promptBuffer bufferOne >>= toHeadChar Prev) ] deleteVimXPKeymap = M.fromList $ map (bimap (0 ,) (>> setModeDone True)) [ (xK_e, deleteString Next >> killWord' notWord Next >> clipCursor) , (xK_w, killWord' (not . notWord) Next >> clipCursor) , (xK_0, killBefore) , (xK_b, killWord' notWord Prev) , (xK_d, setInput "") ] ++ map (bimap (shiftMask ,) (>> setModeDone True)) [ (xK_dollar, killAfter >> moveCursor Prev) ] changeVimXPKeymap = M.fromList $ map (bimap (0 ,) (>> setModeDone True)) [ (xK_e, deleteString Next >> killWord' notWord Next) , (xK_0, killBefore) , (xK_b, killWord' notWord Prev) , (xK_c, setInput "") , (xK_w, changeWord notWord) ] ++ map (bimap (shiftMask, ) (>> setModeDone True)) [ (xK_dollar, killAfter) ] -- Useful for exploring off-by-one issues. --testOffset :: XP () --testOffset = do -- off <- getOffset -- str <- getInput -- setInput $ str ++ "|" ++ (show off) ++ ":" ++ (show $ length str) -- | Set @True@ to save the prompt's entry to history and run it via the -- provided action. setSuccess :: Bool -> XP () setSuccess b = modify $ \s -> s { successful = b } -- | Set @True@ to leave all event loops, no matter how nested. setDone :: Bool -> XP () setDone b = modify $ \s -> s { done = b } -- | Set @True@ to leave the current event loop, i.e. submaps. setModeDone :: Bool -> XP () setModeDone b = modify $ \s -> s { modeDone = b } -- KeyPress and State -- | Quit. quit :: XP () quit = flushString >> setSuccess False >> setDone True >> setModeDone 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 = dropWhile (not . 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} -- | From Vim's @:help cw@: -- -- * Special case: When the cursor is in a word, "cw" and "cW" do not include -- the white space after a word, they only change up to the end of the word. changeWord :: (Char -> Bool) -> XP () changeWord p = join $ f <$> getInput <*> getOffset <*> pure p where f :: String -> Int -> (Char -> Bool) -> XP () f str off _ | length str <= off || null str = return () f str off p'| p' $ str !! off = killWord' (not . p') Next | otherwise = killWord' p' Next -- | Interchange characters around point, moving forward one character -- if not at the end of the input. transposeChars :: XP () transposeChars = do off <- gets offset cmd <- gets command let (beforeCursor, afterCursor) = splitAt off cmd (ncom, noff) = fromMaybe (cmd, off) (go beforeCursor afterCursor off) modify $ \s -> setCommand ncom $ s{ offset = noff } where go :: [a] -> [a] -> Int -> Maybe ([a], Int) go (reverse -> (b1 : b2 : bs)) [] offset = -- end of line Just (reverse $ b2 : b1 : bs, offset) go (reverse -> (b : bs)) (a : as) offset = -- middle of line Just (reverse (a : bs) ++ b : as, offset + 1) go _ _ _ = Nothing -- | 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 = do insertString' str modify resetComplIndex insertString' :: String -> XP () insertString' str = modify $ \s -> let cmd = c (command s) (offset s) st = 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. The X -- selection is not modified. pasteString :: XP () pasteString = pasteString' id -- | A variant of 'pasteString' which allows modifying the X selection before -- pasting. pasteString' :: (String -> String) -> XP () pasteString' f = insertString . f =<< 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 -- | Ensure the cursor remains over the command by shifting left if necessary. clipCursor :: XP () clipCursor = modify $ \s -> s { offset = o (offset s) (command s)} where o oo c = min (max 0 $ length c - 1) oo -- | 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 position, but not beyond the command. moveCursorClip :: Direction1D -> XP () moveCursorClip = (>> clipCursor) . moveCursor -- modify $ \s -> s { offset = o (offset s) (command s)} -- where o oo c = if d == Prev then max 0 (oo - 1) else min (max 0 $ length c - 1) (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 -- | Given a direction, move the cursor to just before the next -- (predicate,not-predicate) character transition. This means a (not-word,word) -- transition should be followed by a 'moveCursorClip' action. Always considers -- the character under the current cursor position. This means a -- (word,not-word) transition should be preceded by a 'moveCursorClip' action. -- Calculated as the length of consecutive non-predicate characters starting -- from the cursor position, plus the length of subsequent consecutive -- predicate characters, plus when moving backwards the distance of the cursor -- beyond the input. Reduced by one to avoid jumping off either end of the -- input, when present. -- -- Use these identities to retain the pre-0.14 behavior: -- -- @ -- (oldMoveWord' p Prev) = (moveCursor Prev >> moveWord' p Prev) -- @ -- -- @ -- (oldMoveWord' p Next) = (moveWord' p Next >> moveCursor Next) -- @ moveWord' :: (Char -> Bool) -> Direction1D -> XP () moveWord' p d = do c <- gets command o <- gets offset let (f,ss) = splitOn o c splitOn n xs = (take (n+1) xs, drop n xs) gap = case d of Prev -> max 0 $ (o + 1) - length c Next -> 0 len = max 0 . flip (-) 1 . (gap +) . uncurry (+) . (length *** (length . takeWhile (not . p))) . span p newoff = case d of Prev -> o - len (reverse f) Next -> o + len ss modify $ \s -> s { offset = newoff } -- | Set the prompt's input to an entry further up or further down the history -- stack. Use 'Stack' functions from 'XMonad.StackSet', i.e. 'focusUp'' or -- 'focusDown''. moveHistory :: (W.Stack String -> W.Stack String) -> XP () moveHistory f = do modify $ \s -> let ch = f $ commandHistory s in s { commandHistory = ch , offset = length $ W.focus ch , complIndex = (0,0) } updateWindows updateHighlightedCompl -- | Move the cursor in the given direction to the first instance of the first -- character of the given string, assuming the string is not empty. The -- starting cursor character is not considered, and the cursor is placed over -- the matching character. toHeadChar :: Direction1D -> String -> XP () toHeadChar d s = unless (null s) $ do cmd <- gets command off <- gets offset let c = head s off' = (if d == Prev then negate . fst else snd) . join (***) (maybe 0 (+1) . elemIndex c) . (reverse *** drop 1) $ splitAt off cmd modify $ \st -> st { offset = offset st + off' } updateHighlightedCompl :: XP () updateHighlightedCompl = do st <- get cs <- getCompletions alwaysHighlight' <- gets $ alwaysHighlight . config when alwaysHighlight' $ modify $ \s -> s {highlightedCompl = highlightedItem st cs} ------------------------------------------------------------------------ -- X Stuff -- | The completion windows in its entirety. data ComplWindowDim = ComplWindowDim { cwX :: !Position -- ^ Starting x position , cwY :: !Position -- ^ Starting y position , cwWidth :: !Dimension -- ^ Width of the entire prompt , cwRowHeight :: !Dimension -- ^ Height of a single row , cwCols :: ![Position] -- ^ Starting position of all columns , cwRows :: ![Position] -- ^ Starting positions of all rows } deriving (Eq) -- | Create the prompt window. createPromptWin :: Display -> Window -> XPConfig -> Rectangle -> Dimension -> IO Window createPromptWin dpy rootw XPC{ position, height } scn width = do w <- mkUnmanagedWindow dpy (defaultScreenOfDisplay dpy) rootw (rect_x scn + x) (rect_y scn + y) width height setClassHint dpy w (ClassHint "xmonad-prompt" "xmonad") mapWindow dpy w return w where (x, y) :: (Position, Position) = fi <$> case position of Top -> (0, 0) Bottom -> (0, rect_height scn - height) CenteredAt py w -> ( floor $ fi (rect_width scn) * ((1 - w) / 2) , floor $ py * fi (rect_height scn) - (fi height / 2) ) -- | Update the state of the completion window. updateComplWin :: Maybe Window -> Maybe ComplWindowDim -> XP () updateComplWin win winDim = do cwr <- gets complWin io $ writeIORef cwr win modify' (\s -> s { complWinDim = winDim }) --- | Update all prompt windows. updateWindows :: XP () updateWindows = redrawWindows (void destroyComplWin) =<< getCompletions -- | Draw the main prompt window and, if necessary, redraw the -- completion window. redrawWindows :: XP () -- ^ What to do if the completions are empty -> [String] -- ^ Given completions -> XP () redrawWindows emptyAction compls = do d <- gets dpy drawWin case compls of [] -> emptyAction l -> redrawComplWin l io $ sync d False where -- | Draw the main prompt window. drawWin :: XP () = do XPS{ color, dpy, win, gcon, winWidth } <- get XPC{ height, promptBorderWidth } <- gets config let scr = defaultScreenOfDisplay dpy ht = height -- height of a single row bw = promptBorderWidth Just bgcolor <- io $ initColor dpy (bgNormal color) Just borderC <- io $ initColor dpy (border color) pm <- io $ createPixmap dpy win winWidth ht (defaultDepthOfScreen scr) io $ fillDrawable dpy pm gcon borderC bgcolor (fi bw) winWidth ht printPrompt pm io $ copyArea dpy pm win gcon 0 0 winWidth ht 0 0 io $ freePixmap dpy pm -- | Redraw the completion window, if necessary. redrawComplWin :: [String] -> XP () redrawComplWin compl = do XPS{ showComplWin, complWinDim, complWin } <- get nwi <- getComplWinDim compl let recreate = do destroyComplWin w <- createComplWin nwi drawComplWin w compl if compl /= [] && showComplWin then io (readIORef complWin) >>= \case Just w -> case complWinDim of Just wi -> if nwi == wi -- complWinDim did not change then drawComplWin w compl -- so update else recreate Nothing -> recreate Nothing -> recreate else destroyComplWin where createComplWin :: ComplWindowDim -> XP Window createComplWin wi@ComplWindowDim{ cwX, cwY, cwWidth, cwRowHeight } = do XPS{ dpy, rootw } <- get let scr = defaultScreenOfDisplay dpy w <- io $ mkUnmanagedWindow dpy scr rootw cwX cwY cwWidth cwRowHeight io $ mapWindow dpy w updateComplWin (Just w) (Just wi) return w -- | Print the main part of the prompt: the prompter, as well as the -- command line (including the current input) and the cursor. printPrompt :: Drawable -> XP () printPrompt drw = do st@XPS{ prompter, color, gcon, config, dpy, fontS, offset } <- get let -- (prompt-specific text before the command, the entered command) (prt, com) = (prompter . show . currentXPMode &&& command) st str = prt ++ com -- break the string in 3 parts: till the cursor, the cursor and the rest (preCursor, cursor, postCursor) = if offset >= length com then (str, " ","") -- add a space: it will be our cursor ;-) else let (a, b) = splitAt offset com in (prt ++ a, [head b], tail b) -- vertical and horizontal text alignment (asc, desc) <- io $ textExtentsXMF fontS str -- font ascent and descent let y = fi ((height config - fi (asc + desc)) `div` 2) + asc x = (asc + desc) `div` 2 pcFont <- io $ textWidthXMF dpy fontS preCursor cFont <- io $ textWidthXMF dpy fontS cursor let draw = printStringXMF dpy drw fontS gcon -- print the first part draw (fgNormal color) (bgNormal color) x y preCursor -- reverse the colors and print the "cursor" ;-) draw (bgNormal color) (fgNormal color) (x + fi pcFont) y cursor -- flip back to the original colors and print the rest of the string draw (fgNormal color) (bgNormal color) (x + fi (pcFont + cFont)) y postCursor -- | Get all available completions for the current input. getCompletions :: XP [String] getCompletions = do st@XPS{ config } <- get let cmd = commandToComplete (currentXPMode st) (command st) compl = getCompletionFunction st srt = sorter config io $ (srt cmd <$> compl cmd) `E.catch` \(SomeException _) -> return [] where -- | 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 -- | Destroy the currently drawn completion window, if there is one. destroyComplWin :: XP () destroyComplWin = do XPS{ dpy, complWin } <- get io (readIORef complWin) >>= \case Just w -> do io $ destroyWindow dpy w updateComplWin Nothing Nothing Nothing -> return () -- | Given the completions that we would like to show, calculate the -- required dimensions for the completion windows. getComplWinDim :: [String] -> XP ComplWindowDim getComplWinDim compl = do XPS{ config = cfg, screen = scr, fontS = fs, dpy, winWidth } <- get let -- Height of a single completion row ht = height cfg bw = promptBorderWidth cfg tws <- mapM (textWidthXMF dpy fs) compl let -- Length of widest completion we will print maxComplLen = (fi ht `div` 2) + maximum tws -- Height of the screen rectangle _without_ the prompt window remHeight = rect_height scr - ht maxColumns = maybe id min (maxComplColumns cfg) columns = max 1 . maxColumns $ winWidth `div` fi maxComplLen columnWidth = winWidth `div` columns (fullRows, lastRow) = length compl `divMod` fi columns allRows = max 1 (fullRows + if lastRow == 0 then 0 else 1) -- Maximum number of rows allowed by the config and the screen dimensions maxRows = maybe id min (maxComplRows cfg) (remHeight `div` ht) -- Actual number of rows to be drawn rows = min maxRows (fi allRows) rowHeight = rows * ht -- Starting x and y position of the completion windows. (x, y) = bimap (rect_x scr +) ((rect_y scr +) . fi) $ case position cfg of Top -> (0, ht - bw) Bottom -> (0, remHeight - rowHeight + bw) CenteredAt py w | py <= 1/2 -> ( floor $ fi (rect_width scr) * ((1 - w) / 2) , floor (py * fi (rect_height scr) + (fi ht / 2)) - bw ) | otherwise -> ( floor $ fi (rect_width scr) * ((1 - w) / 2) , floor (py * fi (rect_height scr) - (fi ht / 2)) - rowHeight + bw ) -- Get font ascent and descent. Coherence condition: we will print -- everything using the same font. (asc, desc) <- io $ textExtentsXMF fs $ head compl let yp = fi $ (ht + fi (asc - desc)) `div` 2 -- y position of the first row yRows = take (fi rows) [yp, yp + fi ht ..] -- y positions of all rows xp = (asc + desc) `div` 2 -- x position of the first column xCols = take (fi columns) [xp, xp + fi columnWidth ..] -- x positions of all columns pure $ ComplWindowDim x y winWidth rowHeight xCols yRows -- | Draw the completion window. drawComplWin :: Window -> [String] -> XP () drawComplWin w entries = do XPS{ config, color, dpy, gcon } <- get let scr = defaultScreenOfDisplay dpy bw = promptBorderWidth config Just bgcolor <- io $ initColor dpy (bgNormal color) Just borderC <- io $ initColor dpy (border color) cwd@ComplWindowDim{ cwWidth, cwRowHeight } <- getComplWinDim entries p <- io $ createPixmap dpy w cwWidth cwRowHeight (defaultDepthOfScreen scr) io $ fillDrawable dpy p gcon borderC bgcolor (fi bw) cwWidth cwRowHeight printComplEntries dpy p gcon (fgNormal color) (bgNormal color) entries cwd --lift $ spawn $ "xmessage " ++ " ac: " ++ show ac ++ " xx: " ++ show xx ++ " length xx: " ++ show (length xx) ++ " yy: " ++ show (length yy) io $ copyArea dpy p w gcon 0 0 cwWidth cwRowHeight 0 0 io $ freePixmap dpy p -- | Print all of the completion entries. printComplEntries :: Display -> Drawable -> GC -> String -- ^ Default foreground color -> String -- ^ Default background color -> [String] -- ^ Entries to be printed... -> ComplWindowDim -- ^ ...into a window of this size -> XP () printComplEntries dpy drw gc fc bc entries ComplWindowDim{ cwCols, cwRows } = do st@XPS{ color, complIndex, config = XPC{ alwaysHighlight } } <- get let printItemAt :: Position -> Position -> String -> XP () printItemAt x y item = printStringXMF dpy drw (fontS st) gc fgCol bgCol x y item where (fgCol, bgCol) | -- default to the first item, the one in (0, 0) alwaysHighlight, complIndex == findComplIndex item = (fgHighlight color, bgHighlight color) | -- compare item with buffer's value completionToCommand (currentXPMode st) item == commandToComplete (currentXPMode st) (command st) = (fgHighlight color, bgHighlight color) | -- if nothing matches, use default colors otherwise = (fc, bc) zipWithM_ (\x -> zipWithM_ (printItemAt x) cwRows) cwCols complMat where -- | Create the completion matrix to be printed. complMat :: [[String]] = chunksOf (length cwRows) (take (length cwCols * length cwRows) entries) -- | Find the column and row indexes in which a string appears. -- If the string is not in the matrix, the indices default to @(0, 0)@. findComplIndex :: String -> (Int, Int) findComplIndex item = (colIndex, rowIndex) where colIndex = fromMaybe 0 $ findIndex (\cols -> item `elem` cols) complMat rowIndex = fromMaybe 0 $ elemIndex item =<< complMat !? colIndex -- History type History = M.Map String [String] emptyHistory :: History emptyHistory = M.empty getHistoryFile :: FilePath -> FilePath getHistoryFile cachedir = cachedir ++ "/prompt-history" readHistory :: FilePath -> IO History readHistory cachedir = readHist `E.catch` \(SomeException _) -> return emptyHistory where readHist = do let path = getHistoryFile cachedir xs <- withFile path ReadMode hGetLine readIO xs writeHistory :: FilePath -> History -> IO () writeHistory cachedir hist = do let path = getHistoryFile cachedir 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 borderC bgcolor bw wh ht = do -- we start with the border setForeground d gc borderC 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 :: XPConfig -> [String] -> String -> IO [String] mkComplFunFromList _ _ [] = return [] mkComplFunFromList c l s = pure $ filter (searchPredicate c 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' :: XPConfig -> [String] -> String -> IO [String] mkComplFunFromList' _ l [] = return l mkComplFunFromList' c l s = pure $ filter (searchPredicate c 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 = chunksOf {-# DEPRECATED splitInSubListsAt "Use XMonad.Prelude.chunksOf instead." #-} -- | 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 the XMonad cache directory. historyCompletion :: X ComplFunction historyCompletion = historyCompletionP (const True) -- | Like 'historyCompletion' but only uses history data from Prompts whose -- name satisfies the given predicate. historyCompletionP :: (String -> Bool) -> X ComplFunction historyCompletionP p = do cd <- asks (cacheDir . directories) pure $ \x -> let toComplList = deleteConsecutive . filter (isInfixOf x) . M.foldr (++) [] in toComplList . M.filterWithKey (const . p) <$> readHistory cd -- | Sort a list and remove duplicates. Like 'deleteAllDuplicates', but trades off -- laziness and stability for efficiency. uniqSort :: Ord a => [a] -> [a] uniqSort = toList . fromList -- | Functions to be used with the 'historyFilter' setting. -- 'deleteAllDuplicates' will remove all duplicate entries. -- 'deleteConsecutive' will only remove duplicate elements -- immediately next to each other. deleteAllDuplicates, deleteConsecutive :: [String] -> [String] deleteAllDuplicates = nub deleteConsecutive = map head . group newtype HistoryMatches = HistoryMatches (IORef ([String],Maybe (W.Stack String))) -- | Initializes a new HistoryMatches structure to be passed -- to historyUpMatching initMatches :: (Functor m, MonadIO m) => m HistoryMatches initMatches = HistoryMatches <$> 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'