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{-# LANGUAGE GeneralizedNewtypeDeriving #-}
module Phi.X11 ( XConfig(..)
, defaultXConfig
, runPhi
) where
import Graphics.X11.Xlib
import Graphics.X11.Xlib.Extras
import Graphics.X11.Xinerama
import Graphics.Rendering.Cairo
import Control.Monad
import Data.Maybe
import Data.Bits
import Data.Char
import Control.Concurrent
import Control.Concurrent.MVar
import Control.Monad.State
import Control.Monad.Reader
import Control.Monad.Trans
import System.Posix.Types
import Phi.Phi
import qualified Phi.Types as Phi
import qualified Phi.Panel as Panel
import qualified Phi.Widget as Widget
import Phi.X11.Atoms
import qualified Phi.Bindings.Util as Util
data XConfig = XConfig { phiXScreenInfo :: !(Display -> IO [Rectangle])
}
data PhiState = PhiState { phiPhi :: !Phi
, phiRootImage :: !Surface
, phiPanels :: ![PanelState]
}
data PanelState = PanelState { panelWindow :: !Window
, panelBuffer :: !Surface
, panelArea :: !Rectangle
, panelScreenArea :: !Rectangle
, panelWidgetStates :: ![Widget.WidgetState]
}
data PhiConfig = PhiConfig { phiPanelConfig :: !Panel.PanelConfig
, phiXConfig :: !XConfig
, phiAtoms :: !Atoms
}
newtype PhiReader a = PhiReader (ReaderT PhiConfig IO a)
deriving (Monad, MonadReader PhiConfig, MonadIO)
runPhiReader :: PhiConfig -> PhiReader a -> IO a
runPhiReader config (PhiReader a) = runReaderT a config
newtype PhiX a = PhiX (StateT PhiState PhiReader a)
deriving (Monad, MonadState PhiState, MonadReader PhiConfig, MonadIO)
runPhiX :: PhiConfig -> PhiState -> PhiX a -> IO (a, PhiState)
runPhiX config st (PhiX a) = runPhiReader config $ runStateT a st
defaultXConfig = XConfig { phiXScreenInfo = getScreenInfo
}
runPhi :: XConfig -> Panel.PanelConfig -> [Widget.Widget] -> IO ()
runPhi xconfig config widgets = do
xSetErrorHandler
phi <- initPhi
disp <- openDisplay []
atoms <- initAtoms disp
selectInput disp (defaultRootWindow disp) $ propertyChangeMask.|.structureNotifyMask
bg <- createImageSurface FormatRGB24 1 1
runPhiX PhiConfig { phiXConfig = xconfig, phiPanelConfig = config, phiAtoms = atoms } PhiState { phiPhi = phi, phiRootImage = bg, phiPanels = [] } $ do
updateRootImage disp
screens <- liftIO $ phiXScreenInfo xconfig disp
dispmvar <- liftIO $ newMVar disp
let dispvar = Widget.Display dispmvar atoms
widgetStates <- liftIO $ mapM (Widget.createWidgetState phi dispvar) widgets
Widget.withDisplay dispvar $ \disp -> do
panels <- mapM (createPanel disp widgetStates) screens
forM_ panels $ \panel -> do
setPanelProperties disp panel
liftIO $ mapWindow disp (panelWindow panel)
modify $ \state -> state { phiPanels = panels }
updatePanels disp True
liftIO $ forkIO $ receiveEvents phi dispvar
forever $ do
message <- receiveMessage phi
handleMessage dispvar message
return ()
handlePanel :: Message -> PanelState -> PanelState
handlePanel message panel@PanelState {panelWidgetStates = widgets} = panel {panelWidgetStates = widgets'}
where
widgets' = Widget.handleMessageWidgets message widgets
handleMessage :: Widget.Display -> Message -> PhiX ()
handleMessage dispvar m = do
modify $ \state@PhiState {phiPanels = panels} -> state {phiPanels = map (handlePanel m) panels}
case (fromMessage m) of
Just Repaint -> Widget.withDisplay dispvar $ \disp ->
updatePanels disp True
_ ->
case (fromMessage m) of
Just ExposeEvent {} -> Widget.withDisplay dispvar $ \disp ->
updatePanels disp False
Just event@PropertyEvent {} -> Widget.withDisplay dispvar $ \disp ->
handlePropertyUpdate disp event
_ ->
return ()
receiveEvents :: Phi -> Widget.Display -> IO ()
receiveEvents phi dispvar = do
connection <- Widget.withDisplay dispvar $ return . Fd . connectionNumber
allocaXEvent $ \xevent -> forever $ do
handled <- Widget.withDisplay dispvar $ \disp -> do
pend <- pending disp
if pend /= 0 then
do
liftIO $ nextEvent disp xevent
event <- liftIO $ getEvent xevent
sendMessage phi event
return True
else return False
when (not handled) $ threadWaitRead connection
updatePanels :: Display -> Bool -> PhiX ()
updatePanels disp redraw = do
rootImage <- gets phiRootImage
panels <- gets phiPanels
panels' <- forM panels $ \panel -> do
let buffer = panelBuffer panel
area = panelArea panel
newPanel <- if not redraw then return panel else do
let layoutedWidgets = withDimension area $ Widget.layoutWidgets (panelWidgetStates panel) 0 0
panel' = panel { panelWidgetStates = layoutedWidgets }
renderWith buffer $ do
withPatternForSurface rootImage $ \pattern -> do
save
translate (-(fromIntegral $ rect_x area)) (-(fromIntegral $ rect_y area))
setSource pattern
paint
restore
Widget.renderWidgets layoutedWidgets
return panel'
let screen = defaultScreen disp
visual = defaultVisual disp screen
surface <- liftIO $ withDimension area $ Util.createXlibSurface disp (panelWindow newPanel) visual
-- copy buffer to window
renderWith surface $ withPatternForSurface buffer $ \pattern -> do
setSource pattern
paint
surfaceFinish surface
return newPanel
modify $ \state -> state { phiPanels = panels' }
handlePropertyUpdate :: Display -> Event -> PhiX ()
handlePropertyUpdate disp PropertyEvent { ev_atom = atom } = do
atoms <- asks phiAtoms
panels <- gets phiPanels
when (atom == atom_XROOTPMAP_ID atoms || atom == atom_XROOTMAP_ID atoms) $ do
updateRootImage disp
updatePanels disp True
updateRootImage :: Display -> PhiX ()
updateRootImage disp = do
atoms <- asks phiAtoms
let screen = defaultScreen disp
visual = defaultVisual disp screen
rootwin = defaultRootWindow disp
pixmap <- liftM (fromIntegral . fromMaybe 0 . listToMaybe . join . catMaybes) $ forM [atom_XROOTPMAP_ID atoms, atom_XROOTMAP_ID atoms] $
\atom -> liftIO $ getWindowProperty32 disp atom rootwin
(_, _, _, rootWidth, rootHeight, _, _) <- liftIO $ getGeometry disp rootwin
-- update surface size
oldBg <- gets phiRootImage
imageWidth <- liftM fromIntegral $ imageSurfaceGetWidth oldBg
imageHeight <- liftM fromIntegral $ imageSurfaceGetHeight oldBg
when (imageWidth /= rootWidth || imageHeight /= rootHeight) $ do
surfaceFinish oldBg
newBg <- liftIO $ createImageSurface FormatRGB24 (fromIntegral rootWidth) (fromIntegral rootHeight)
modify $ \state -> state { phiRootImage = newBg }
bg <- gets phiRootImage
rootSurface <- liftIO $ Util.createXlibSurface disp pixmap visual (fromIntegral rootWidth) (fromIntegral rootHeight)
renderWith bg $ withPatternForSurface rootSurface $ \pattern -> do
setSource pattern
paint
surfaceFinish rootSurface
createPanel :: Display -> [Widget.WidgetState] -> Rectangle -> PhiX PanelState
createPanel disp widgets screenRect = do
phi <- gets phiPhi
config <- asks phiPanelConfig
let rect = panelBounds config screenRect
win <- createPanelWindow disp rect
buffer <- liftIO $ withDimension rect $ createImageSurface FormatRGB24
return PanelState { panelWindow = win
, panelBuffer = buffer
, panelArea = rect
, panelScreenArea = screenRect
, panelWidgetStates = widgets
}
createPanelWindow :: Display -> Rectangle -> PhiX Window
createPanelWindow disp rect = do
let screen = defaultScreen disp
depth = defaultDepth disp screen
visual = defaultVisual disp screen
colormap = defaultColormap disp screen
rootwin = defaultRootWindow disp
mask = cWEventMask.|.cWColormap.|.cWBackPixel.|.cWBorderPixel
liftIO $ allocaSetWindowAttributes $ \attr -> do
set_colormap attr colormap
set_background_pixel attr 0
set_border_pixel attr 0
set_event_mask attr exposureMask
withRectangle rect (createWindow disp rootwin) 0 depth inputOutput visual mask attr
setPanelProperties :: Display -> PanelState -> PhiX ()
setPanelProperties disp panel = do
atoms <- asks phiAtoms
liftIO $ do
storeName disp (panelWindow panel) "Phi"
changeProperty8 disp (panelWindow panel) (atom_NET_WM_NAME atoms) (atomUTF8_STRING atoms) propModeReplace $ map (fromIntegral . ord) "Phi"
changeProperty32 disp (panelWindow panel) (atom_NET_WM_WINDOW_TYPE atoms) aTOM propModeReplace [fromIntegral (atom_NET_WM_WINDOW_TYPE_DOCK atoms)]
changeProperty32 disp (panelWindow panel) (atom_NET_WM_DESKTOP atoms) cARDINAL propModeReplace [0xFFFFFFFF]
changeProperty32 disp (panelWindow panel) (atom_NET_WM_STATE atoms) aTOM propModeReplace [ fromIntegral (atom_NET_WM_STATE_SKIP_PAGER atoms)
, fromIntegral (atom_NET_WM_STATE_SKIP_TASKBAR atoms)
, fromIntegral (atom_NET_WM_STATE_STICKY atoms)
, fromIntegral (atom_NET_WM_STATE_BELOW atoms)
]
setWMHints disp (panelWindow panel) WMHints { wmh_flags = fromIntegral inputHintBit
, wmh_input = False
, wmh_initial_state = 0
, wmh_icon_pixmap = 0
, wmh_icon_window = 0
, wmh_icon_x = 0
, wmh_icon_y = 0
, wmh_icon_mask = 0
, wmh_window_group = 0
}
changeProperty32 disp (panelWindow panel) (atom_MOTIF_WM_HINTS atoms) (atom_MOTIF_WM_HINTS atoms) propModeReplace [ 2, 0, 0, 0, 0 ]
Util.setClassHint disp (panelWindow panel) ClassHint { resName = "phi", resClass = "Phi" }
setStruts disp panel
setStruts :: Display -> PanelState -> PhiX ()
setStruts disp panel = do
atoms <- asks phiAtoms
config <- asks phiPanelConfig
let rootwin = defaultRootWindow disp
position = Panel.panelPosition config
area = panelArea panel
(_, _, _, _, rootHeight, _, _) <- liftIO $ getGeometry disp rootwin
let struts = [makeStruts i | i <- [0..11]]
where
makeTopStruts 2 = (fromIntegral $ rect_y area) + (fromIntegral $ rect_height area)
makeTopStruts 8 = (fromIntegral $ rect_x area)
makeTopStruts 9 = (fromIntegral $ rect_x area) + (fromIntegral $ rect_width area) - 1
makeTopStruts _ = 0
makeBottomStruts 3 = (fromIntegral rootHeight) - (fromIntegral $ rect_y area)
makeBottomStruts 10 = (fromIntegral $ rect_x area)
makeBottomStruts 11 = (fromIntegral $ rect_x area) + (fromIntegral $ rect_width area) - 1
makeBottomStruts _ = 0
makeStruts = case position of
Phi.Top -> makeTopStruts
Phi.Bottom -> makeBottomStruts
liftIO $ do
changeProperty32 disp (panelWindow panel) (atom_NET_WM_STRUT atoms) cARDINAL propModeReplace $ take 4 struts
changeProperty32 disp (panelWindow panel) (atom_NET_WM_STRUT_PARTIAL atoms) cARDINAL propModeReplace struts
panelBounds :: Panel.PanelConfig -> Rectangle -> Rectangle
panelBounds config screenBounds = case Panel.panelPosition config of
Phi.Top -> screenBounds { rect_height = fromIntegral $ Panel.panelSize config }
Phi.Bottom -> screenBounds { rect_height = fromIntegral $ Panel.panelSize config,
rect_y = (rect_y screenBounds) + (fromIntegral $ rect_height screenBounds) - (fromIntegral $ Panel.panelSize config) }
withRectangle :: (Num x, Num y, Num w, Num h) => Rectangle -> (x -> y -> w -> h -> a) -> a
withRectangle r = withDimension r . withPosition r
withPosition :: (Num x, Num y) => Rectangle -> (x -> y -> a) -> a
withPosition r f = f (fromIntegral $ rect_x r) (fromIntegral $ rect_y r)
withDimension :: (Num w, Num h) => Rectangle -> (w -> h -> a) -> a
withDimension r f = f (fromIntegral $ rect_width r) (fromIntegral $ rect_height r)
|