225 lines
8.3 KiB
Haskell
225 lines
8.3 KiB
Haskell
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
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--------------------------------------------------------------------------------
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-- | Automatically Manage Dynamic Workspaces
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-- This is a somewhat convoluted wrapper for the Dymamic Workspaces module
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-- in the contrib library. The general behavior this allows:
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-- 1) launch app
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-- 2) move app to its own dynamic workspace
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-- 3) close app and remove dynamic workspace
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--
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-- The only sane way to do this is to monitor the lifetime of a PID on a dynamic
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-- workspace (effectively tying each dynamic workspace to a single PID). Xmonad
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-- is single threaded and thus cannot "wait" for PIDs to exit, so this spawns
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-- a separate thread outside XMonad that will in turn spawn monitor threads
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-- for each dynamic workspace. When these monitor threads detect that the app
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-- has closed, they will send an event to X which can be caught by Xmonad so
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-- the workspace can be removed.
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--
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-- What is the motivation? Some apps suck and don't play nice with others on
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-- normal workspaces, so I would rather have them go in their own little
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-- environment and misbehave.
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--
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-- Examples:
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-- 1) Gimp (lots of trays and floating windows)
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-- 2) Xsane (see Gimp)
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-- 3) Virtualbox (should always be by itself anyways)
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module XMonad.Internal.Concurrent.DynamicWorkspaces
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( DynWorkspace(..)
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, appendShift
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, appendViewShift
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, removeDynamicWorkspace
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, runWorkspaceMon
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, spawnOrSwitch
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, doSink
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) where
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import Data.List (deleteBy, find)
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import qualified Data.Map as M
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import Data.Maybe
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import Control.Concurrent
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import Control.Monad
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import Control.Monad.Reader
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import Graphics.X11.Types
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import Graphics.X11.Xlib.Atom
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import Graphics.X11.Xlib.Display
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import Graphics.X11.Xlib.Event
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import Graphics.X11.Xlib.Extras
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import Graphics.X11.Xlib.Misc
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import Graphics.X11.Xlib.Types
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import XMonad.Actions.DynamicWorkspaces
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import XMonad.Core
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( ManageHook
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, WorkspaceId
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, X
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, withWindowSet
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)
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import XMonad.Hooks.ManageHelpers (MaybeManageHook)
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import XMonad.Internal.Concurrent.ClientMessage
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import XMonad.Internal.Process
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import XMonad.ManageHook
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import XMonad.Operations
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import qualified XMonad.StackSet as W
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--------------------------------------------------------------------------------
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-- | Dynamic Workspace datatype
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-- This hold all the data needed to tie an app to a particular dynamic workspace
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data DynWorkspace = DynWorkspace
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{ dwName :: String
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, dwTag :: WorkspaceId
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, dwClass :: String
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, dwHook :: [MaybeManageHook]
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, dwKey :: Char
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, dwCmd :: Maybe (X ())
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-- TODO this should also have the layout for this workspace
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}
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--------------------------------------------------------------------------------
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-- | Manager thread
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-- The main thread that watches for new windows. When a match is found, this
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-- thread spawns a new thread the waits for the PID of the window to exit. When
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-- the PID exits, it sends a ClientMessage event to X
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-- TOOD it would be really nice if the manner we used to match windows was
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-- the same as that in XMonad itself (eg with Query types)
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-- type MatchTags = M.Map String String
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type WatchedPIDs = MVar [Pid]
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data WConf = WConf
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{ display :: Display
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, dynWorkspaces :: [DynWorkspace]
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}
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newtype W a = W (ReaderT WConf IO a)
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deriving (Functor, Monad, MonadIO, MonadReader WConf)
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instance Applicative W where
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pure = return
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(<*>) = ap
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runW :: WConf -> W a -> IO a
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runW c (W a) = runReaderT a c
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io :: MonadIO m => IO a -> m a
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io = liftIO
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runWorkspaceMon :: [DynWorkspace] -> IO ()
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runWorkspaceMon dws = do
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dpy <- openDisplay ""
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root <- rootWindow dpy $ defaultScreen dpy
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curPIDs <- newMVar [] -- TODO this is ugly, use a mutable state monad
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-- listen only for substructure change events (which includes MapNotify)
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allocaSetWindowAttributes $ \a -> do
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set_event_mask a substructureNotifyMask
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changeWindowAttributes dpy root cWEventMask a
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let c = WConf { display = dpy, dynWorkspaces = dws }
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_ <- allocaXEvent $ \e ->
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runW c $ forever $ handle curPIDs =<< io (nextEvent dpy e >> getEvent e)
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return ()
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handle :: WatchedPIDs -> Event -> W ()
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-- | assume this fires at least once when a new window is created (also could
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-- use CreateNotify but that is really noisy)
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handle curPIDs MapNotifyEvent { ev_window = w } = do
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dpy <- asks display
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hint <- io $ getClassHint dpy w
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dws <- asks dynWorkspaces
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let m = M.fromList $ fmap (\DynWorkspace { dwTag = t, dwClass = c } -> (c, t)) dws
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let tag = M.lookup (resClass hint) m
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io $ forM_ tag $ \t -> do
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a <- internAtom dpy "_NET_WM_PID" False
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pid <- getWindowProperty32 dpy a w
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case pid of
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-- ASSUMPTION windows will only have one PID at one time
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Just [p] -> let p' = fromIntegral p
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in void $ forkIO $ withUniquePid curPIDs p' $ waitAndKill t p'
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_ -> return ()
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handle _ _ = return ()
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waitAndKill :: String -> Pid -> IO ()
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waitAndKill tag pid = waitUntilExit pid >> sendXMsg Workspace tag
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withUniquePid :: WatchedPIDs -> Pid -> IO () -> IO ()
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withUniquePid curPIDs pid f = do
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pids <- readMVar curPIDs
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unless (pid `elem` pids) $ do
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modifyMVar_ curPIDs (return . (pid:))
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f
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modifyMVar_ curPIDs (return . filter (/=pid))
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--------------------------------------------------------------------------------
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-- | Launching apps
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-- When launching apps on dymamic workspaces, first check if they are running
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-- and launch if not, then switch to their workspace
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wsOccupied :: Eq a1 => a1 -> W.StackSet a1 l a2 sid sd -> Bool
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wsOccupied tag ws = elem tag $ map W.tag $ filter (isJust . W.stack)
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-- list of all workspaces with windows on them
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-- TODO is there not a better way to do this?
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$ W.workspace (W.current ws) : W.hidden ws ++ map W.workspace (W.visible ws)
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spawnOrSwitch :: WorkspaceId -> X () -> X ()
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spawnOrSwitch tag cmd = do
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occupied <- withWindowSet $ return . wsOccupied tag
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if occupied then windows $ W.view tag else cmd
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--------------------------------------------------------------------------------
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-- | Managehook
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-- Move windows to new workspace if they are part of a dynamic workspace
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-- shamelessly ripped off from appendWorkspace (this analogue doesn't exist)
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appendHiddenWorkspace :: String -> X ()
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appendHiddenWorkspace = addHiddenWorkspaceAt (flip (++) . return)
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viewShift :: WorkspaceId -> ManageHook
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viewShift = doF . liftM2 (.) W.view W.shift
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-- NOTE: need to appendHidden because the regular append function will shift
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-- to the new workspace, which I don't want for this one
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appendShift :: String -> ManageHook
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appendShift tag = liftX (appendHiddenWorkspace tag) >> doF (W.shift tag)
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appendViewShift :: String -> ManageHook
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appendViewShift tag = liftX (appendWorkspace tag) >> viewShift tag
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-- TODO surprisingly this doesn't exist? We shouldn't need to TBH
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doSink :: ManageHook
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doSink = doF $ \s -> case W.stack $ W.workspace $ W.current s of
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Just s' -> W.sink (W.focus s') s
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Nothing -> s
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--------------------------------------------------------------------------------
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-- | Eventhook
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-- When an app is closed, this will respond the event that is sent in the main
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-- XMonad thread
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removeDynamicWorkspace :: WorkspaceId -> X ()
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removeDynamicWorkspace target = windows removeIfEmpty
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where
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-- remove workspace if it is empty and if there are hidden workspaces
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removeIfEmpty s@W.StackSet { W.visible = vis, W.hidden = hall@(h:hs) }
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-- if hidden, delete from hidden
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| Just x <- find isEmptyTarget hall
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= s { W.hidden = deleteBy (eq W.tag) x hall }
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-- if visible, delete from visible and move first hidden to its place
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| Just x <- find (isEmptyTarget . W.workspace) vis
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= s { W.visible = x { W.workspace = h } : deleteBy (eq W.screen) x vis
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, W.hidden = hs }
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-- if current, move the first hidden workspace to the current
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| isEmptyTarget $ W.workspace $ W.current s
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= s { W.current = (W.current s) { W.workspace = h }, W.hidden = hs }
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-- otherwise do nothing
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| otherwise = s
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removeIfEmpty s = s
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isEmptyTarget ws = isNothing (W.stack ws) && W.tag ws == target
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eq f x y = f x == f y
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