{-# LANGUAGE DeriveDataTypeable, PatternGuards, FlexibleInstances, MultiParamTypeClasses, CPP #-} ----------------------------------------------------------------------------- -- | -- Module : XMonad.Hooks.ManageDocks -- Copyright : (c) Joachim Breitner -- License : BSD -- -- Maintainer : Joachim Breitner -- Stability : unstable -- Portability : unportable -- -- This module provides tools to automatically manage 'dock' type programs, -- such as gnome-panel, kicker, dzen, and xmobar. module XMonad.Hooks.ManageDocks ( -- * Usage -- $usage docks, manageDocks, checkDock, AvoidStruts, avoidStruts, avoidStrutsOn, docksEventHook, docksStartupHook, ToggleStruts(..), SetStruts(..), module XMonad.Util.Types, #ifdef TESTING r2c, c2r, RectC(..), #endif -- for XMonad.Actions.FloatSnap calcGap ) where ----------------------------------------------------------------------------- import XMonad import Foreign.C.Types (CLong) import XMonad.Layout.LayoutModifier import XMonad.Util.Types import XMonad.Util.WindowProperties (getProp32s) import XMonad.Util.XUtils (fi) import qualified XMonad.Util.ExtensibleState as XS import Data.Monoid (All(..), mempty) import Data.Functor((<$>)) import qualified Data.Set as S import qualified Data.Map as M import Control.Monad (when, forM_, filterM) -- $usage -- To use this module, add the following import to @~\/.xmonad\/xmonad.hs@: -- -- > import XMonad.Hooks.ManageDocks -- -- Wrap your xmonad config with a call to 'docks', like so: -- -- > main = xmonad $ docks def -- -- Then add 'avoidStruts' or 'avoidStrutsOn' layout modifier to your layout -- to prevent windows from overlapping these windows. -- -- > layoutHook = avoidStruts (tall ||| mirror tall ||| ...) -- > where tall = Tall 1 (3/100) (1/2) -- -- 'AvoidStruts' also supports toggling the dock gaps; add a keybinding -- similar to: -- -- > ,((modm, xK_b ), sendMessage ToggleStruts) -- -- If you have multiple docks, you can toggle their gaps individually. -- For example, to toggle only the top gap: -- -- > ,((modm .|. controlMask, xK_t), sendMessage $ ToggleStrut U) -- -- Similarly, you can use 'D', 'L', and 'R' to individually toggle -- gaps on the bottom, left, or right. -- -- If you want certain docks to be avoided but others to be covered by -- default, you can manually specify the sides of the screen on which -- docks should be avoided, using 'avoidStrutsOn'. For example: -- -- > layoutHook = avoidStrutsOn [U,L] (tall ||| mirror tall ||| ...) -- -- For detailed instructions on editing your key bindings, see -- "XMonad.Doc.Extending#Editing_key_bindings". -- -- | Add docks functionality to the given config. See above for an example. docks :: XConfig a -> XConfig a docks c = c { startupHook = docksStartupHook <+> startupHook c , handleEventHook = docksEventHook <+> handleEventHook c , manageHook = manageDocks <+> manageHook c } newtype StrutCache = StrutCache { fromStrutCache :: M.Map Window [Strut] } deriving (Eq, Typeable) data UpdateDocks = UpdateDocks deriving Typeable instance Message UpdateDocks refreshDocks :: X () refreshDocks = sendMessage UpdateDocks instance ExtensionClass StrutCache where initialValue = StrutCache M.empty updateStrutCache :: Window -> [Strut] -> X Bool updateStrutCache w strut = do XS.modified $ StrutCache . M.insert w strut . fromStrutCache deleteFromStructCache :: Window -> X Bool deleteFromStructCache w = do XS.modified $ StrutCache . M.delete w . fromStrutCache -- | Detects if the given window is of type DOCK and if so, reveals -- it, but does not manage it. manageDocks :: ManageHook manageDocks = checkDock --> (doIgnore <+> setDocksMask) where setDocksMask = do ask >>= \win -> liftX $ withDisplay $ \dpy -> do io $ selectInput dpy win (propertyChangeMask .|. structureNotifyMask) mempty -- | Checks if a window is a DOCK or DESKTOP window checkDock :: Query Bool checkDock = ask >>= \w -> liftX $ do dock <- getAtom "_NET_WM_WINDOW_TYPE_DOCK" desk <- getAtom "_NET_WM_WINDOW_TYPE_DESKTOP" mbr <- getProp32s "_NET_WM_WINDOW_TYPE" w case mbr of Just rs -> return $ any (`elem` [dock,desk]) (map fromIntegral rs) _ -> return False -- | Whenever a new dock appears, refresh the layout immediately to avoid the -- new dock. docksEventHook :: Event -> X All docksEventHook (MapNotifyEvent { ev_window = w }) = do whenX (runQuery checkDock w <&&> (not <$> isClient w)) $ do strut <- getStrut w whenX (updateStrutCache w strut) refreshDocks return (All True) docksEventHook (PropertyEvent { ev_window = w , ev_atom = a }) = do nws <- getAtom "_NET_WM_STRUT" nwsp <- getAtom "_NET_WM_STRUT_PARTIAL" when (a == nws || a == nwsp) $ do strut <- getStrut w whenX (updateStrutCache w strut) refreshDocks return (All True) docksEventHook (DestroyWindowEvent {ev_window = w}) = do whenX (deleteFromStructCache w) refreshDocks return (All True) docksEventHook _ = return (All True) docksStartupHook :: X () docksStartupHook = withDisplay $ \dpy -> do rootw <- asks theRoot (_,_,wins) <- io $ queryTree dpy rootw docks <- filterM (runQuery checkDock) wins forM_ docks $ \win -> do strut <- getStrut win updateStrutCache win strut refreshDocks -- | Gets the STRUT config, if present, in xmonad gap order getStrut :: Window -> X [Strut] getStrut w = do msp <- getProp32s "_NET_WM_STRUT_PARTIAL" w case msp of Just sp -> return $ parseStrutPartial sp Nothing -> fmap (maybe [] parseStrut) $ getProp32s "_NET_WM_STRUT" w where parseStrut xs@[_, _, _, _] = parseStrutPartial . take 12 $ xs ++ cycle [minBound, maxBound] parseStrut _ = [] parseStrutPartial [l, r, t, b, ly1, ly2, ry1, ry2, tx1, tx2, bx1, bx2] = filter (\(_, n, _, _) -> n /= 0) [(L, l, ly1, ly2), (R, r, ry1, ry2), (U, t, tx1, tx2), (D, b, bx1, bx2)] parseStrutPartial _ = [] -- | Goes through the list of windows and find the gap so that all -- STRUT settings are satisfied. calcGap :: S.Set Direction2D -> X (Rectangle -> Rectangle) calcGap ss = withDisplay $ \dpy -> do rootw <- asks theRoot struts <- (filter careAbout . concat) `fmap` XS.gets (M.elems . fromStrutCache) -- we grab the window attributes of the root window rather than checking -- the width of the screen because xlib caches this info and it tends to -- be incorrect after RAndR wa <- io $ getWindowAttributes dpy rootw let screen = r2c $ Rectangle (fi $ wa_x wa) (fi $ wa_y wa) (fi $ wa_width wa) (fi $ wa_height wa) return $ \r -> c2r $ foldr (reduce screen) (r2c r) struts where careAbout (s,_,_,_) = s `S.member` ss -- | Adjust layout automagically: don't cover up any docks, status -- bars, etc. avoidStruts :: LayoutClass l a => l a -> ModifiedLayout AvoidStruts l a avoidStruts = avoidStrutsOn [U,D,L,R] -- | Adjust layout automagically: don't cover up docks, status bars, -- etc. on the indicated sides of the screen. Valid sides are U -- (top), D (bottom), R (right), or L (left). avoidStrutsOn :: LayoutClass l a => [Direction2D] -> l a -> ModifiedLayout AvoidStruts l a avoidStrutsOn ss = ModifiedLayout $ AvoidStruts (S.fromList ss) data AvoidStruts a = AvoidStruts (S.Set Direction2D) deriving ( Read, Show ) -- | Message type which can be sent to an 'AvoidStruts' layout -- modifier to alter its behavior. data ToggleStruts = ToggleStruts | ToggleStrut Direction2D deriving (Read,Show,Typeable) instance Message ToggleStruts -- | SetStruts is a message constructor used to set or unset specific struts, -- regardless of whether or not the struts were originally set. Here are some -- example bindings: -- -- Show all gaps: -- -- > ,((modm .|. shiftMask ,xK_b),sendMessage $ SetStruts [minBound .. maxBound] []) -- -- Hide all gaps: -- -- > ,((modm .|. controlMask,xK_b),sendMessage $ SetStruts [] [minBound .. maxBound]) -- -- Show only upper and left gaps: -- -- > ,((modm .|. controlMask .|. shiftMask,xK_b),sendMessage $ SetStruts [U,L] [minBound .. maxBound]) -- -- Hide the bottom keeping whatever the other values were: -- -- > ,((modm .|. controlMask .|. shiftMask,xK_g),sendMessage $ SetStruts [] [D]) data SetStruts = SetStruts { addedStruts :: [Direction2D] , removedStruts :: [Direction2D] -- ^ These are removed from the currently set struts before 'addedStruts' are added. } deriving (Read,Show,Typeable) instance Message SetStruts instance LayoutModifier AvoidStruts a where modifyLayout (AvoidStruts ss) w r = do srect <- fmap ($ r) (calcGap ss) -- Ensure _NET_WORKAREA is not set. -- See: https://github.com/xmonad/xmonad-contrib/pull/79 rmWorkarea runLayout w srect pureMess as@(AvoidStruts ss) m | Just ToggleStruts <- fromMessage m = Just $ AvoidStruts (toggleAll ss) | Just (ToggleStrut s) <- fromMessage m = Just $ AvoidStruts (toggleOne s ss) | Just (SetStruts n k) <- fromMessage m , let newSS = S.fromList n `S.union` (ss S.\\ S.fromList k) , newSS /= ss = Just $ AvoidStruts newSS | Just UpdateDocks <- fromMessage m = Just as | otherwise = Nothing where toggleAll x | S.null x = S.fromList [minBound .. maxBound] | otherwise = S.empty toggleOne x xs | x `S.member` xs = S.delete x xs | otherwise = x `S.insert` xs rmWorkarea :: X () rmWorkarea = withDisplay $ \dpy -> do a <- getAtom "_NET_WORKAREA" r <- asks theRoot io (deleteProperty dpy r a) -- | (Direction, height\/width, initial pixel, final pixel). type Strut = (Direction2D, CLong, CLong, CLong) -- | (Initial x pixel, initial y pixel, -- final x pixel, final y pixel). newtype RectC = RectC (CLong, CLong, CLong, CLong) deriving (Eq,Show) -- | Invertible conversion. r2c :: Rectangle -> RectC r2c (Rectangle x y w h) = RectC (fi x, fi y, fi x + fi w - 1, fi y + fi h - 1) -- | Invertible conversion. c2r :: RectC -> Rectangle c2r (RectC (x1, y1, x2, y2)) = Rectangle (fi x1) (fi y1) (fi $ x2 - x1 + 1) (fi $ y2 - y1 + 1) reduce :: RectC -> Strut -> RectC -> RectC reduce (RectC (sx0, sy0, sx1, sy1)) (s, n, l, h) (RectC (x0, y0, x1, y1)) = RectC $ case s of L | p (y0, y1) && qh x1 -> (mx x0 sx0, y0 , x1 , y1 ) R | p (y0, y1) && qv sx1 x0 -> (x0 , y0 , mn x1 sx1, y1 ) U | p (x0, x1) && qh y1 -> (x0 , mx y0 sy0, x1 , y1 ) D | p (x0, x1) && qv sy1 y0 -> (x0 , y0 , x1 , mn y1 sy1) _ -> (x0 , y0 , x1 , y1 ) where mx a b = max a (b + n) mn a b = min a (b - n) p r = r `overlaps` (l, h) -- Filter out struts that cover the entire rectangle: qh d1 = n <= d1 qv sd1 d0 = sd1 - n >= d0 -- | Do the two ranges overlap? -- -- Precondition for every input range @(x, y)@: @x '<=' y@. -- -- A range @(x, y)@ is assumed to include every pixel from @x@ to @y@. overlaps :: Ord a => (a, a) -> (a, a) -> Bool (a, b) `overlaps` (x, y) = inRange (a, b) x || inRange (a, b) y || inRange (x, y) a where inRange (i, j) k = i <= k && k <= j