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259 lines
11 KiB
Haskell
259 lines
11 KiB
Haskell
{-# LANGUAGE LambdaCase #-}
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-----------------------------------------------------------------------------
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-- |
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-- Module : XMonad.Layout.IndependentScreens
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-- Copyright : (c) 2009 Daniel Wagner
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-- License : BSD3
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--
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-- Maintainer : <daniel@wagner-home.com>
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-- Stability : unstable
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-- Portability : unportable
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--
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-- Utility functions for simulating independent sets of workspaces on
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-- each screen (like dwm's workspace model), using internal tags to
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-- distinguish workspaces associated with each screen.
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-----------------------------------------------------------------------------
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module IndependentScreens (
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-- * Usage
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-- $usage
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VirtualWorkspace, PhysicalWorkspace,
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workspaces',
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withScreens, onCurrentScreen,
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marshallPP,
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whenCurrentOn,
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countScreens,
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-- * Converting between virtual and physical workspaces
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-- $converting
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marshall, unmarshall, unmarshallS, unmarshallW,
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marshallWindowSpace, unmarshallWindowSpace, marshallSort,
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workspaceOnScreen, focusWindow', focusScreen, nthWorkspace, withWspOnScreen, activateWindowEventHook
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) where
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-- for the screen stuff
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import Control.Applicative(liftA2)
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import Control.Arrow hiding ((|||))
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import Data.List (find, nub, genericLength)
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import Graphics.X11.Xinerama
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import XMonad
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import qualified XMonad.StackSet as W
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import XMonad.Hooks.DynamicLog
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import Data.Monoid (All(All))
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import Control.Monad (when)
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-- $usage
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-- You can use this module with the following in your @~\/.xmonad\/xmonad.hs@:
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--
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-- > import XMonad.Layout.IndependentScreens
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--
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-- You can define your workspaces by calling @withScreens@:
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--
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-- > myConfig = def { workspaces = withScreens 2 ["web", "email", "irc"] }
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--
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-- This will create \"physical\" workspaces with distinct internal names for
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-- each (screen, virtual workspace) pair.
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--
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-- Then edit any keybindings that use the list of workspaces or refer
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-- to specific workspace names. In the default configuration, only
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-- the keybindings for changing workspace do this:
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--
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-- > keyBindings conf = let m = modMask conf in fromList $
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-- > {- lots of other keybindings -}
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-- > [((m .|. modm, k), windows $ f i)
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-- > | (i, k) <- zip (XMonad.workspaces conf) [xK_1 .. xK_9]
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-- > , (f, m) <- [(W.greedyView, 0), (W.shift, shiftMask)]]
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--
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-- This should change to
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--
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-- > keyBindings conf = let m = modMask conf in fromList $
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-- > {- lots of other keybindings -}
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-- > [((m .|. modm, k), windows $ onCurrentScreen f i)
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-- > | (i, k) <- zip (workspaces' conf) [xK_1 .. xK_9]
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-- > , (f, m) <- [(W.greedyView, 0), (W.shift, shiftMask)]]
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--
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-- In particular, the analogue of @XMonad.workspaces@ is
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-- @workspaces'@, and you can use @onCurrentScreen@ to convert functions
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-- of virtual workspaces to functions of physical workspaces, which work
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-- by marshalling the virtual workspace name and the currently focused
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-- screen into a physical workspace name.
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--
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-- A complete example abusing many of the functions below is available in the
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-- "XMonad.Config.Dmwit" module.
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type VirtualWorkspace = WorkspaceId
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type PhysicalWorkspace = WorkspaceId
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-- $converting
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-- You shouldn't need to use the functions below very much. They are used
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-- internally. However, in some cases, they may be useful, and so are exported
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-- just in case. In general, the \"marshall\" functions convert the convenient
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-- form (like \"web\") you would like to use in your configuration file to the
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-- inconvenient form (like \"2_web\") that xmonad uses internally. Similarly,
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-- the \"unmarshall\" functions convert in the other direction.
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marshall :: ScreenId -> VirtualWorkspace -> PhysicalWorkspace
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marshall (S sc) vws = show sc ++ '_':vws
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unmarshall :: PhysicalWorkspace -> (ScreenId, VirtualWorkspace)
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unmarshallS :: PhysicalWorkspace -> ScreenId
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unmarshallW :: PhysicalWorkspace -> VirtualWorkspace
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unmarshall = ((S . read) *** drop 1) . break (=='_')
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unmarshallS = fst . unmarshall
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unmarshallW = snd . unmarshall
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-- | Get a list of all the virtual workspace names.
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workspaces' :: XConfig l -> [VirtualWorkspace]
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workspaces' = nub . map (snd . unmarshall) . workspaces
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withScreens :: ScreenId -- ^ The number of screens to make workspaces for
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-> [VirtualWorkspace] -- ^ The desired virtual workspace names
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-> [PhysicalWorkspace] -- ^ A list of all internal physical workspace names
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withScreens n vws = [marshall sc pws | pws <- vws, sc <- [0..n-1]]
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-- | Transform a function over physical workspaces into a function over virtual workspaces.
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-- This is useful as it allows you to write code without caring about the current screen, i.e. to say "switch to workspace 3"
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-- rather than saying "switch to workspace 3 on monitor 3".
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onCurrentScreen :: (PhysicalWorkspace -> WindowSet -> a) -> (VirtualWorkspace -> WindowSet -> a)
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onCurrentScreen f vws ws =
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let currentScreenId = W.screen $ W.current ws
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in f (marshall currentScreenId vws) ws
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-- | Get the workspace currently active on a given screen
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workspaceOnScreen :: ScreenId -> WindowSet -> Maybe PhysicalWorkspace
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workspaceOnScreen screenId ws = W.tag . W.workspace <$> screenOnMonitor screenId ws
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-- | generate WindowSet transformation by providing a given function with the workspace active on a given screen.
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-- This may for example be used to shift a window to another screen as follows:
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--
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-- > windows $ withWspOnScreen 1 W.shift
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--
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withWspOnScreen :: ScreenId -- ^ The screen to run on
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-> (PhysicalWorkspace -> WindowSet -> WindowSet) -- ^ The transformation that will be passed the workspace currently active on there
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-> WindowSet -> WindowSet
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withWspOnScreen screenId operation ws = case workspaceOnScreen screenId ws of
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Just wsp -> operation wsp ws
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Nothing -> ws
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-- | Get the workspace that is active on a given screen.
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screenOnMonitor :: ScreenId -> WindowSet -> Maybe (W.Screen WorkspaceId (Layout Window) Window ScreenId ScreenDetail)
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screenOnMonitor screenId ws = find ((screenId ==) . W.screen) (W.current ws : W.visible ws)
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-- | Focus a window, switching workspace on the correct Xinerama screen if neccessary.
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focusWindow' :: Window -> WindowSet -> WindowSet
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focusWindow' window ws
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| Just window == W.peek ws = ws
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| otherwise = case W.findTag window ws of
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Just tag -> W.focusWindow window $ focusScreen (unmarshallS tag) ws
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Nothing -> ws
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-- | Focus a given screen.
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focusScreen :: ScreenId -> WindowSet -> WindowSet
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focusScreen screenId = withWspOnScreen screenId W.view
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-- | Get the nth virtual workspace
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nthWorkspace :: Int -> X (Maybe VirtualWorkspace)
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nthWorkspace n = (!!? n) . workspaces' <$> asks config
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-- | HandleEventHook which makes the activate window event respect IndependentScreens.
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-- Without this, a window requesting activation may cause a workspace switch
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-- that shows a workspace from a different screen on the current one.
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activateWindowEventHook :: Event -> X All
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activateWindowEventHook ClientMessageEvent { ev_message_type = messageType, ev_window = window } = do
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activateWindowAtom <- getAtom "_NET_ACTIVE_WINDOW"
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when (messageType == activateWindowAtom) $
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windows (focusWindow' window)
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return $ All True
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activateWindowEventHook _ = return $ All True
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-- | In case you don't know statically how many screens there will be, you can call this in main before starting xmonad. For example, part of my config reads
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--
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-- > main = do
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-- > nScreens <- countScreens
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-- > xmonad $ def {
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-- > ...
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-- > workspaces = withScreens nScreens (workspaces def),
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-- > ...
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-- > }
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--
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countScreens :: (MonadIO m, Integral i) => m i
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countScreens = fmap genericLength . liftIO $ openDisplay "" >>= liftA2 (<*) getScreenInfo closeDisplay
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-- | This turns a naive pretty-printer into one that is aware of the
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-- independent screens. That is, you can write your pretty printer to behave
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-- the way you want on virtual workspaces; this function will convert that
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-- pretty-printer into one that first filters out physical workspaces on other
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-- screens, then converts all the physical workspaces on this screen to their
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-- virtual names.
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--
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-- For example, if you have handles @hLeft@ and @hRight@ for bars on the left and right screens, respectively, and @pp@ is a pretty-printer function that takes a handle, you could write
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--
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-- > logHook = let log screen handle = dynamicLogWithPP . marshallPP screen . pp $ handle
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-- > in log 0 hLeft >> log 1 hRight
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marshallPP :: ScreenId -> PP -> PP
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marshallPP s pp = pp {
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ppCurrent = ppCurrent pp . snd . unmarshall,
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ppVisible = ppVisible pp . snd . unmarshall,
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ppHidden = ppHidden pp . snd . unmarshall,
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ppHiddenNoWindows = ppHiddenNoWindows pp . snd . unmarshall,
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ppUrgent = ppUrgent pp . snd . unmarshall,
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ppSort = fmap (marshallSort s) (ppSort pp)
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}
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-- | Take a pretty-printer and turn it into one that only runs when the current
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-- workspace is one associated with the given screen. The way this works is a
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-- bit hacky, so beware: the 'ppOutput' field of the input will not be invoked
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-- if either of the following conditions is met:
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--
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-- 1. The 'ppSort' of the input returns an empty list (when not given one).
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--
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-- 2. The 'ppOrder' of the input returns the exact string @\"\\0\"@.
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--
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-- For example, you can use this to create a pipe which tracks the title of the
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-- window currently focused on a given screen (even if the screen is not
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-- current) by doing something like this:
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--
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-- > ppFocus s = whenCurrentOn s def
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-- > { ppOrder = \(_:_:title:_) -> [title]
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-- > , ppOutput = appendFile ("focus" ++ show s) . (++ "\n")
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-- > }
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--
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-- Sequence a few of these pretty-printers to get a log hook that keeps each
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-- screen's title up-to-date.
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whenCurrentOn :: ScreenId -> PP -> PP
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whenCurrentOn s pp = pp
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{ ppSort = do
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sort <- ppSort pp
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pure $ \xs -> case xs of
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x:_ | unmarshallS (W.tag x) == s -> sort xs
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_ -> []
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, ppOrder = \case ("":_) -> ["\0"] -- we got passed no workspaces; this is the signal from ppSort that this is a boring case
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list -> ppOrder pp list
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, ppOutput = \case "\0" -> pure () -- we got passed the signal from ppOrder that this is a boring case
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output -> ppOutput pp output
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}
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-- | If @vSort@ is a function that sorts 'WindowSpace's with virtual names, then @marshallSort s vSort@ is a function which sorts 'WindowSpace's with physical names in an analogous way -- but keeps only the spaces on screen @s@.
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marshallSort :: ScreenId -> ([WindowSpace] -> [WindowSpace]) -> ([WindowSpace] -> [WindowSpace])
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marshallSort s vSort = pScreens . vSort . vScreens where
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isOnScreen ws = unmarshallS (W.tag ws) == s
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vScreens = map unmarshallWindowSpace . filter isOnScreen
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pScreens = map (marshallWindowSpace s)
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-- | Convert the tag of the 'WindowSpace' from a 'VirtualWorkspace' to a 'PhysicalWorkspace'.
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marshallWindowSpace :: ScreenId -> WindowSpace -> WindowSpace
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-- | Convert the tag of the 'WindowSpace' from a 'PhysicalWorkspace' to a 'VirtualWorkspace'.
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unmarshallWindowSpace :: WindowSpace -> WindowSpace
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marshallWindowSpace s ws = ws { W.tag = marshall s (W.tag ws) }
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unmarshallWindowSpace ws = ws { W.tag = unmarshallW (W.tag ws) }
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-- | Safe version of (!!)
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(!!?) :: [a] -> Int -> Maybe a
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(!!?) list n
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| n < length list = Just $ list !! n
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| otherwise = Nothing
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