{-# LANGUAGE TypeFamilies, DeriveDataTypeable #-} module Phi.Widgets.Taskbar ( TaskbarConfig(..) , defaultTaskbarConfig , taskbar ) where import Control.Concurrent import Control.Monad import Control.Monad.State import Control.Monad.Trans import Data.Array.MArray import Data.Bits import Data.Char import Data.Function import Data.List import Data.Maybe import Data.Typeable import Data.Word import qualified Data.Map as M import Foreign.C.Types import Graphics.Rendering.Cairo import Graphics.Rendering.Pango.Cairo import Graphics.Rendering.Pango.Enums (PangoRectangle(..)) import Graphics.Rendering.Pango.Layout import Graphics.Rendering.Pango.Font import Graphics.X11.Xlib (Window) import qualified Graphics.X11.Xlib as Xlib import qualified Graphics.X11.Xlib.Extras as XExtras import Codec.Binary.UTF8.String import Phi.Phi import Phi.Types import Phi.Border import Phi.Widget import Phi.X11.Atoms data TaskbarConfig = TaskbarConfig { taskbarFont :: !String , taskMaxSize :: !Int , showDesktops :: !Bool , taskBorder :: !BorderConfig , activeTaskBorder :: !BorderConfig } deriving Show defaultTaskbarConfig :: TaskbarConfig defaultTaskbarConfig = TaskbarConfig { taskbarFont = "Sans 7" , taskMaxSize = 150 , showDesktops = False , taskBorder = defaultBorderConfig , activeTaskBorder = defaultBorderConfig { borderColor = (1, 1, 1, 1) } } data Taskbar = Taskbar TaskbarConfig deriving Show instance Show Surface where show _ = "Surface " data TaskbarState = TaskbarState { taskbarActiveWindow :: !Window , taskbarDesktopCount :: !Int , taskbarWindows :: ![Window] , taskbarWindowStates :: !(M.Map Window WindowState) , taskbarWindowIcons :: !(M.Map Window [(Int, Surface)]) } deriving Show data WindowState = WindowState { windowTitle :: !String , windowDesktop :: !Int , windowVisible :: !Bool } deriving (Show, Eq) data TaskbarMessage = WindowListUpdate [Xlib.Window] (M.Map Window WindowState) (M.Map Window [(Int, Surface)]) | DesktopCountUpdate Int | ActiveWindowUpdate Window deriving (Show, Typeable) instance WidgetClass Taskbar where type WidgetData Taskbar = TaskbarState initWidget (Taskbar _) phi dispvar = do forkIO $ taskbarRunner phi dispvar return $ TaskbarState 0 0 [] M.empty M.empty minSize _ = 0 weight _ = 1 render (Taskbar config) TaskbarState {taskbarActiveWindow = activeWindow, taskbarDesktopCount = desktopCount, taskbarWindows = windows, taskbarWindowStates = windowStates, taskbarWindowIcons = windowIcons} w h = do let desktopWindows = map (\desktop -> (desktop, filter (fromMaybe False . fmap (windowOnDesktop desktop) . flip M.lookup windowStates) windows)) $ take desktopCount [0..] windowCount = sum $ map (length . snd) $ desktopWindows when (windowCount /= 0) $ do let windowWidth = min (taskMaxSize config) (w `div` windowCount) forM_ (zip [0..] $ join $ map snd desktopWindows) $ \(i, window) -> do let border = if window == activeWindow then activeTaskBorder config else taskBorder config leftBorder = (borderLeft $ margin border) + (borderWidth border) + (borderLeft $ padding border) rightBorder = (borderRight $ margin border) + (borderWidth border) + (borderRight $ padding border) h' = h - (borderV $ margin border) mstate = M.lookup window windowStates micons = M.lookup window windowIcons case (mstate, micons) of (Just state, Just icons) -> do save drawBorder border (i*windowWidth) 0 windowWidth h clip setSourceRGB 1 1 1 renderText config (fromIntegral (i*windowWidth + leftBorder + h' + 3)) 0 (windowWidth - leftBorder - h' - 3 - rightBorder) h $ windowTitle state restore case bestIcon h' icons of Just icon -> withPatternForSurface icon $ \pattern -> do save translate (fromIntegral $ i*windowWidth + leftBorder) (fromIntegral $ borderTop $ margin border) imageW <- imageSurfaceGetWidth icon imageH <- imageSurfaceGetHeight icon let scalef = (fromIntegral h')/(fromIntegral $ max imageW imageH) scale scalef scalef when (imageH < imageW) $ translate 0 $ (fromIntegral (imageW-imageH))/2 setSource pattern paint restore Nothing -> return () _ -> return () handleMessage _ priv m = case (fromMessage m) of Just (WindowListUpdate windows windowStates icons) -> priv {taskbarWindows = windows, taskbarWindowStates = windowStates, taskbarWindowIcons = icons} Just (DesktopCountUpdate count) -> priv {taskbarDesktopCount = count} Just (ActiveWindowUpdate window) -> priv {taskbarActiveWindow = window} _ -> priv renderText :: TaskbarConfig -> Int -> Int -> Int -> Int -> String -> Render () renderText config x y w h text = do layout <- createLayout "" (_, PangoRectangle _ _ textWidth textHeight) <- liftIO $ do layoutSetMarkup layout $ "" ++ (escapeMarkup text) ++ "" layoutSetWidth layout $ Just $ fromIntegral w layoutSetEllipsize layout EllipsizeEnd layoutGetExtents layout moveTo ((fromIntegral x) + ((fromIntegral w) - textWidth)/2) ((fromIntegral y) + ((fromIntegral h) - textHeight)/2) showLayout layout bestIcon :: Int -> [(Int, Surface)] -> Maybe Surface bestIcon h icons = findBest $ sortBy compareIcons icons where compareIcons = flip (compare `on` fst) findBest (a1:a2:ax) = if (fst a2) < h then Just $ snd a1 else findBest (a2:ax) findBest [a] = Just $ snd a findBest [] = Nothing windowOnDesktop :: Int -> WindowState -> Bool windowOnDesktop desktop state = (windowVisible state) && (desktop == windowDesktop state) taskbarRunner :: Phi -> Display -> IO () taskbarRunner phi dispvar = do (windows, states, icons) <- liftIO $ withDisplay dispvar $ \disp -> do (windows, states, icons) <- getWindowStates disp (getAtoms dispvar) [] M.empty M.empty desktopCount <- getDesktopCount disp (getAtoms dispvar) activeWindow <- getActiveWindow disp (getAtoms dispvar) sendMessage phi $ WindowListUpdate windows states icons sendMessage phi $ DesktopCountUpdate desktopCount sendMessage phi $ ActiveWindowUpdate activeWindow return (windows, states, icons) sendMessage phi Repaint flip evalStateT (windows, states, icons) $ forever $ do m <- receiveMessage phi case (fromMessage m) of Just event@XExtras.PropertyEvent {} -> handlePropertyUpdate phi dispvar event _ -> return () handlePropertyUpdate :: Phi -> Display -> XExtras.Event -> StateT ([Window], M.Map Window WindowState, M.Map Window [(Int, Surface)]) IO () handlePropertyUpdate phi dispvar XExtras.PropertyEvent {XExtras.ev_atom = atom, XExtras.ev_window = window} = do let atoms = getAtoms dispvar when (elem atom $ map ($ atoms) [ atom_NET_ACTIVE_WINDOW , atom_NET_NUMBER_OF_DESKTOPS , atom_NET_CLIENT_LIST , atom_NET_WM_ICON , atom_NET_WM_NAME , atomWM_NAME , atom_NET_WM_DESKTOP , atom_NET_WM_STATE ]) $ withDisplay dispvar $ \disp -> do let rootwin = Xlib.defaultRootWindow disp if (window == rootwin) then do when (atom == atom_NET_ACTIVE_WINDOW atoms) $ do activeWindow <- liftIO $ getActiveWindow disp atoms sendMessage phi $ ActiveWindowUpdate activeWindow sendMessage phi Repaint when (atom == atom_NET_NUMBER_OF_DESKTOPS atoms) $ do desktopCount <- liftIO $ getDesktopCount disp atoms sendMessage phi $ DesktopCountUpdate desktopCount sendMessage phi Repaint when (atom == atom_NET_CLIENT_LIST atoms) $ do (windows, windowStates, icons) <- get (windows', windowStates', icons') <- liftIO $ getWindowStates disp atoms windows windowStates icons when (windows /= windows') $ do sendMessage phi $ WindowListUpdate windows' windowStates' icons' sendMessage phi Repaint put (windows', windowStates', icons') else do (windows, windowStates, icons) <- get when (elem window windows) $ do when (atom == atom_NET_WM_ICON atoms) $ do icon <- liftIO $ getWindowIcons disp atoms window let icons' = M.insert window icon icons sendMessage phi $ WindowListUpdate windows windowStates icons' sendMessage phi Repaint put (windows, windowStates, icons') when (atom /= atom_NET_WM_ICON atoms) $ do let windowState = M.lookup window windowStates windowState' <- liftIO $ getWindowState disp atoms window when (windowState /= (Just windowState')) $ do let windowStates' = M.insert window windowState' windowStates sendMessage phi $ WindowListUpdate windows windowStates' icons sendMessage phi Repaint put (windows, windowStates', icons) getDesktopCount :: Xlib.Display -> Atoms -> IO Int getDesktopCount disp atoms = liftM (fromIntegral . fromMaybe 0 . join . fmap listToMaybe) $ XExtras.getWindowProperty32 disp (atom_NET_NUMBER_OF_DESKTOPS atoms) $ Xlib.defaultRootWindow disp getActiveWindow :: Xlib.Display -> Atoms -> IO Window getActiveWindow disp atoms = liftM (fromIntegral . fromMaybe 0 . join . fmap listToMaybe) $ XExtras.getWindowProperty32 disp (atom_NET_ACTIVE_WINDOW atoms) $ Xlib.defaultRootWindow disp getWindowStates :: Xlib.Display -> Atoms -> [Window] -> M.Map Window WindowState -> M.Map Window [(Int, Surface)] -> IO ([Window], M.Map Window WindowState, M.Map Window [(Int, Surface)]) getWindowStates disp atoms oldWindows windowStates windowIcons = do windows <- getWindowList disp atoms oldWindows let windowStates' = map (\w -> (w, M.lookup w windowStates)) windows windowIcons' = map (\w -> (w, M.lookup w windowIcons)) windows newWindowStates <- mapM getWindowState' windowStates' newWindowIcons <- mapM getWindowIcons' windowIcons' return (windows, M.fromList newWindowStates, M.fromList newWindowIcons) where getWindowState' (window, Just windowState) = return (window, windowState) getWindowState' (window, Nothing) = do windowState <- getWindowState disp atoms window return (window, windowState) getWindowIcons' (window, Just icons) = return (window, icons) getWindowIcons' (window, Nothing) = do icons <- getWindowIcons disp atoms window return (window, icons) getWindowState :: Xlib.Display -> Atoms -> Window -> IO WindowState getWindowState disp atoms window = do Xlib.selectInput disp window Xlib.propertyChangeMask netwmname <- liftM (fmap (decode . map fromIntegral)) $ XExtras.getWindowProperty8 disp (atom_NET_WM_NAME atoms) window wmname <- case netwmname of Just name -> return name Nothing -> liftM (map unsignedChr . fromMaybe []) $ XExtras.getWindowProperty8 disp (atomWM_NAME atoms) window workspace <- liftM (fromIntegral . fromMaybe 0xFFFFFFFF . join . fmap listToMaybe) $ XExtras.getWindowProperty32 disp (atom_NET_WM_DESKTOP atoms) window visible <- showWindow disp atoms window return $ WindowState wmname workspace visible where unsignedChr = chr . fromIntegral . (fromIntegral :: (CChar -> CUChar)) getWindowIcons :: Xlib.Display -> Atoms -> Window -> IO [(Int, Surface)] getWindowIcons disp atoms window = XExtras.getWindowProperty32 disp (atom_NET_WM_ICON atoms) window >>= readIcons . fromMaybe [] readIcons :: [CLong] -> IO [(Int, Surface)] readIcons (width:height:iconData) = do if ((fromIntegral $ length iconData) < (width*height)) then return [] else do let (thisIcon, rest) = splitAt (fromIntegral (width*height)) iconData icon <- createImageSurface FormatARGB32 (fromIntegral width) (fromIntegral height) surfaceData <- imageSurfaceGetPixels icon :: IO (SurfaceData Int Word32) forM_ (zip thisIcon [1..]) $ \(e, i) -> writeArray surfaceData i $ premultiply $ fromIntegral e surfaceMarkDirty icon moreIcons <- readIcons rest return $ (fromIntegral $ max width height, icon):moreIcons readIcons _ = return [] premultiply :: Word32 -> Word32 premultiply c = a .|. r .|. g .|. b where amask = 0xFF000000 rmask = 0x00FF0000 gmask = 0x0000FF00 bmask = 0x000000FF a = c .&. amask pm mask = (((c .&. mask) * (a `shiftR` 24)) `div` 0xFF) .&. mask r = pm rmask g = pm gmask b = pm bmask showWindow :: Xlib.Display -> Atoms -> Window -> IO Bool showWindow disp atoms window = do states <- liftM (map fromIntegral . fromMaybe []) $ XExtras.getWindowProperty32 disp (atom_NET_WM_STATE atoms) window transientForHint <- XExtras.getTransientForHint disp window windowType <- liftM (fromMaybe (atom_NET_WM_WINDOW_TYPE_NORMAL atoms) . fmap fromIntegral . join . fmap listToMaybe) $ XExtras.getWindowProperty32 disp (atom_NET_WM_STATE atoms) window return $ not $ or [ elem (atom_NET_WM_STATE_SKIP_TASKBAR atoms) states , transientForHint /= Nothing , elem windowType $ map ($ atoms) [ atom_NET_WM_WINDOW_TYPE_DOCK , atom_NET_WM_WINDOW_TYPE_DESKTOP , atom_NET_WM_WINDOW_TYPE_TOOLBAR , atom_NET_WM_WINDOW_TYPE_MENU , atom_NET_WM_WINDOW_TYPE_SPLASH ] ] getWindowList :: Xlib.Display -> Atoms -> [Window] -> IO [Window] getWindowList disp atoms windows = do newWindows <- liftM (map fromIntegral . join . maybeToList) $ XExtras.getWindowProperty32 disp (atom_NET_CLIENT_LIST atoms) $ Xlib.defaultRootWindow disp return $ (filter (flip elem newWindows) windows) ++ (filter (not . flip elem windows) newWindows) taskbar :: TaskbarConfig -> Widget taskbar config = do Widget $ Taskbar config