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|
{-# LANGUAGE DeriveDataTypeable #-}
-----------------------------------------------------------------------------
-- |
-- Module : Xmobar
-- Copyright : (c) Andrea Rossato
-- License : BSD-style (see LICENSE)
--
-- Maintainer : Jose A. Ortega Ruiz <jao@gnu.org>
-- Stability : unstable
-- Portability : unportable
--
-- A status bar for the Xmonad Window Manager
--
-----------------------------------------------------------------------------
module Xmobar
( -- * Main Stuff
-- $main
X , XConf (..), runX
, eventLoop
-- * Program Execution
-- $command
, startCommand
-- * Window Management
-- $window
, createWin, updateWin
-- * Printing
-- $print
, drawInWin, printStrings
) where
import Prelude hiding (catch)
import Graphics.X11.Xlib hiding (textExtents, textWidth)
import Graphics.X11.Xlib.Extras
import Graphics.X11.Xinerama
import Control.Arrow ((&&&))
import Control.Monad.Reader
import Control.Concurrent
import Control.Concurrent.STM
import Control.Exception hiding (handle)
import Data.Bits
import Data.Maybe(fromMaybe)
import Data.Typeable (Typeable)
import Config
import Parsers
import Commands
import Runnable
import XUtil
-- $main
--
-- The Xmobar data type and basic loops and functions.
-- | The X type is a ReaderT
type X = ReaderT XConf IO
-- | The ReaderT inner component
data XConf =
XConf { display :: Display
, rect :: Rectangle
, window :: Window
, fontS :: XFont
, config :: Config
}
-- | Runs the ReaderT
runX :: XConf -> X () -> IO ()
runX xc f = runReaderT f xc
data WakeUp = WakeUp deriving (Show,Typeable)
instance Exception WakeUp
-- | The event loop
eventLoop :: XConf -> [(Maybe ThreadId, TVar String)] -> IO ()
eventLoop xc@(XConf d _ w fs c) v = block $ do
tv <- atomically $ newTVar []
t <- myThreadId
ct <- forkIO (checker t tv "" `catch` \(SomeException _) -> return ())
go tv ct
where
-- interrupt the drawing thread every time a var is updated
checker t tvar ov = do
nval <- atomically $ do
nv <- fmap concat $ mapM readTVar (map snd v)
guard (nv /= ov)
writeTVar tvar nv
return nv
throwTo t WakeUp
checker t tvar nval
-- Continuously wait for a timer interrupt or an expose event
go tv ct = do
catch (unblock $ allocaXEvent $ \e ->
handle tv ct =<< (nextEvent' d e >> getEvent e))
(\WakeUp -> runX xc (updateWin tv) >> return ())
go tv ct
-- event hanlder
handle _ ct (ConfigureEvent {ev_window = win}) = do
rootw <- rootWindow d (defaultScreen d)
when (win == rootw) $ block $ do
killThread ct
destroyWindow d w
(r',w') <- createWin d fs c
eventLoop (XConf d r' w' fs c) v
handle tvar _ (ExposeEvent {}) = runX xc (updateWin tvar)
handle _ _ _ = return ()
-- $command
-- | Runs a command as an independent thread and returns its thread id
-- and the TVar the command will be writing to.
startCommand :: (Runnable,String,String) -> IO (Maybe ThreadId, TVar String)
startCommand (com,s,ss)
| alias com == "" = do var <- atomically $ newTVar is
atomically $ writeTVar var "Could not parse the template"
return (Nothing,var)
| otherwise = do var <- atomically $ newTVar is
let cb str = atomically $ writeTVar var (s ++ str ++ ss)
h <- forkIO $ start com cb
return (Just h,var)
where is = s ++ "Updating..." ++ ss
-- $window
-- | The function to create the initial window
createWin :: Display -> XFont -> Config -> IO (Rectangle,Window)
createWin d fs c = do
let dflt = defaultScreen d
srs <- getScreenInfo d
rootw <- rootWindow d dflt
(as,ds) <- textExtents fs "0"
let ht = as + ds + 4
(r,o) = setPosition (position c) srs (fi ht)
win <- newWindow d (defaultScreenOfDisplay d) rootw r o
selectInput d win (exposureMask .|. structureNotifyMask)
setProperties r c d win srs
when (lowerOnStart c) (lowerWindow d win)
mapWindow d win
return (r,win)
setPosition :: XPosition -> [Rectangle] -> Dimension -> (Rectangle,Bool)
setPosition p rs ht =
case p' of
Top -> (Rectangle rx ry rw h , True)
TopW a i -> (Rectangle (ax a i ) ry (nw i ) h , True)
TopSize a i ch -> (Rectangle (ax a i ) ry (nw i ) (mh ch), True)
Bottom -> (Rectangle rx ny rw h , True)
BottomW a i -> (Rectangle (ax a i ) ny (nw i ) h , True)
BottomSize a i ch -> (Rectangle (ax a i ) ny (nw i ) (mh ch), True)
Static cx cy cw ch -> (Rectangle (fi cx ) (fi cy) (fi cw) (fi ch), True)
OnScreen _ p'' -> setPosition p'' [scr] ht
where
(scr@(Rectangle rx ry rw rh), p') =
case p of OnScreen i x -> (fromMaybe (head rs) $ safeIndex i rs, x)
_ -> (head rs, p)
ny = ry + fi (rh - ht)
center i = rx + (fi $ div (remwid i) 2)
right i = rx + (fi $ remwid i)
remwid i = rw - pw (fi i)
ax L = const rx
ax R = right
ax C = center
pw i = rw * (min 100 i) `div` 100
nw = fi . pw . fi
h = fi ht
mh h' = max (fi h') h
safeIndex i = lookup i . zip [0..]
setProperties :: Rectangle -> Config -> Display -> Window -> [Rectangle] -> IO ()
setProperties r c d w srs = do
a1 <- internAtom d "_NET_WM_STRUT_PARTIAL" False
c1 <- internAtom d "CARDINAL" False
a2 <- internAtom d "_NET_WM_WINDOW_TYPE" False
c2 <- internAtom d "ATOM" False
v <- internAtom d "_NET_WM_WINDOW_TYPE_DOCK" False
changeProperty32 d w a1 c1 propModeReplace $ map fi $
getStrutValues r (position c) (getRootWindowHeight srs)
changeProperty32 d w a2 c2 propModeReplace [fromIntegral v]
getRootWindowHeight :: [Rectangle] -> Int
getRootWindowHeight srs = foldr1 max (map getMaxScreenYCoord srs)
where
getMaxScreenYCoord sr = fi (rect_y sr) + fi (rect_height sr)
getStrutValues :: Rectangle -> XPosition -> Int -> [Int]
getStrutValues r@(Rectangle x y w h) p rwh =
case p of
OnScreen _ p' -> getStrutValues r p' rwh
Top -> [0, 0, st, 0, 0, 0, 0, 0, nx, nw, 0, 0]
TopW _ _ -> [0, 0, st, 0, 0, 0, 0, 0, nx, nw, 0, 0]
TopSize {} -> [0, 0, st, 0, 0, 0, 0, 0, nx, nw, 0, 0]
Bottom -> [0, 0, 0, sb, 0, 0, 0, 0, 0, 0, nx, nw]
BottomW _ _ -> [0, 0, 0, sb, 0, 0, 0, 0, 0, 0, nx, nw]
BottomSize {} -> [0, 0, 0, sb, 0, 0, 0, 0, 0, 0, nx, nw]
Static _ _ _ _ -> getStaticStrutValues p rwh
where st = fi y + fi h
sb = rwh - fi y
nx = fi x
nw = fi (x + fi w - 1)
-- get some reaonable strut values for static placement.
getStaticStrutValues :: XPosition -> Int -> [Int]
getStaticStrutValues (Static cx cy cw ch) rwh
-- if the yPos is in the top half of the screen, then assume a Top
-- placement, otherwise, it's a Bottom placement
| cy < (rwh `div` 2) = [0, 0, st, 0, 0, 0, 0, 0, xs, xe, 0, 0]
| otherwise = [0, 0, 0, sb, 0, 0, 0, 0, 0, 0, xs, xe]
where st = cy + ch
sb = rwh - cy
xs = cx -- a simple calculation for horizontal (x) placement
xe = xs + cw
getStaticStrutValues _ _ = [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]
updateWin :: TVar String -> X ()
updateWin v = do
xc <- ask
let (conf,rec) = (config &&& rect) xc
[lc,rc] = if length (alignSep conf) == 2
then alignSep conf
else alignSep defaultConfig
i <- io $ atomically $ readTVar v
let def = [i,[],[]]
[l,c,r] = case break (==lc) i of
(le,_:re) -> case break (==rc) re of
(ce,_:ri) -> [le,ce,ri]
_ -> def
_ -> def
ps <- io $ mapM (parseString conf) [l,c,r]
drawInWin rec ps
-- $print
-- | Draws in and updates the window
drawInWin :: Rectangle -> [[(String, String)]] -> X ()
drawInWin (Rectangle _ _ wid ht) ~[left,center,right] = do
r <- ask
let (c,d ) = (config &&& display) r
(w,fs) = (window &&& fontS ) r
strLn = io . mapM (\(s,cl) -> textWidth d fs s >>= \tw -> return (s,cl,fi tw))
withColors d [bgColor c, borderColor c] $ \[bgcolor, bdcolor] -> do
gc <- io $ createGC d w
-- create a pixmap to write to and fill it with a rectangle
p <- io $ createPixmap d w wid ht
(defaultDepthOfScreen (defaultScreenOfDisplay d))
-- the fgcolor of the rectangle will be the bgcolor of the window
io $ setForeground d gc bgcolor
io $ fillRectangle d p gc 0 0 wid ht
-- write to the pixmap the new string
printStrings p gc fs 1 L =<< strLn left
printStrings p gc fs 1 R =<< strLn right
printStrings p gc fs 1 C =<< strLn center
-- draw 1 pixel border if requested
io $ drawBorder (border c) d p gc bdcolor wid ht
-- copy the pixmap with the new string to the window
io $ copyArea d p w gc 0 0 wid ht 0 0
-- free up everything (we do not want to leak memory!)
io $ freeGC d gc
io $ freePixmap d p
-- resync
io $ sync d True
drawBorder :: Border -> Display -> Drawable -> GC -> Pixel -> Dimension
-> Dimension -> IO ()
drawBorder b d p gc c wi ht = case b of
NoBorder -> return ()
TopB -> drawBorder (TopBM 0) d p gc c w h
BottomB -> drawBorder (BottomBM 0) d p gc c w h
FullB -> drawBorder (FullBM 0) d p gc c w h
TopBM m -> sf >> drawLine d p gc 0 (fi m) (fi w) 0
BottomBM m -> let rw = (fi h) - (fi m) in
sf >> drawLine d p gc 0 rw (fi w) rw
FullBM m -> let rm = fi m; mp = fi m in
sf >> drawRectangle d p gc mp mp (w - rm) (h - rm)
where sf = setForeground d gc c
(w, h) = (wi - 1, ht - 1)
-- | An easy way to print the stuff we need to print
printStrings :: Drawable -> GC -> XFont -> Position
-> Align -> [(String, String, Position)] -> X ()
printStrings _ _ _ _ _ [] = return ()
printStrings dr gc fontst offs a sl@((s,c,l):xs) = do
r <- ask
(as,ds) <- io $ textExtents fontst s
let (conf,d) = (config &&& display) r
Rectangle _ _ wid ht = rect r
totSLen = foldr (\(_,_,len) -> (+) len) 0 sl
valign = fi $ as + ds
remWidth = fi wid - fi totSLen
offset = case a of
C -> (remWidth + offs) `div` 2
R -> remWidth
L -> offs
(fc,bc) = case (break (==',') c) of
(f,',':b) -> (f, b )
(f, _) -> (f, bgColor conf)
withColors d [bc] $ \[bc'] -> do
io $ setForeground d gc bc'
io $ fillRectangle d dr gc offset 0 (fi l) ht
io $ printString d dr fontst gc fc bc offset valign s
printStrings dr gc fontst (offs + l) a xs
|