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{-# LANGUAGE ExistentialQuantification, FlexibleInstances, GeneralizedNewtypeDeriving, MultiParamTypeClasses #-}
-----------------------------------------------------------------------------
-- |
-- Module : XMonad.hs
-- Copyright : (c) Spencer Janssen 2007
-- License : BSD3-style (see LICENSE)
--
-- Maintainer : sjanssen@cse.unl.edu
-- Stability : unstable
-- Portability : not portable, uses cunning newtype deriving
--
-- The X monad, a state monad transformer over IO, for the window
-- manager state, and support routines.
--
-----------------------------------------------------------------------------
module XMonad (
X, WindowSet, WindowSpace, WorkspaceId, ScreenId(..), ScreenDetail(..), XState(..), XConf(..), LayoutClass(..), Layout(..), ReadableLayout(..),
Typeable, Message, SomeMessage(..), fromMessage, runLayout,
runX, catchX, io, catchIO, withDisplay, withWindowSet, isRoot, getAtom, spawn, restart, trace, whenJust, whenX,
atom_WM_STATE, atom_WM_PROTOCOLS, atom_WM_DELETE_WINDOW
) where
import StackSet
import Prelude hiding ( catch )
import Control.Exception ( catch )
import Control.Monad.State
import Control.Monad.Reader
import System.IO
import System.Posix.Process (executeFile, forkProcess, getProcessStatus, createSession)
import System.Exit
import System.Environment
import Graphics.X11.Xlib
-- for Read instance
import Graphics.X11.Xlib.Extras ()
import Data.Typeable
import qualified Data.Map as M
import qualified Data.Set as S
-- | XState, the window manager state.
-- Just the display, width, height and a window list
data XState = XState
{ windowset :: !WindowSet -- ^ workspace list
, mapped :: !(S.Set Window) -- ^ the Set of mapped windows
, waitingUnmap :: !(M.Map Window Int) -- ^ the number of expected UnmapEvents
, dragging :: !(Maybe (Position -> Position -> X (), X ())) }
data XConf = XConf
{ display :: Display -- ^ the X11 display
, theRoot :: !Window -- ^ the root window
, normalBorder :: !Pixel -- ^ border color of unfocused windows
, focusedBorder :: !Pixel } -- ^ border color of the focused window
type WindowSet = StackSet WorkspaceId (Layout Window) Window ScreenId ScreenDetail
type WindowSpace = Workspace WorkspaceId (Layout Window) Window
-- | Virtual workspace indicies
type WorkspaceId = String
-- | Physical screen indicies
newtype ScreenId = S Int deriving (Eq,Ord,Show,Read,Enum,Num,Integral,Real)
-- | TODO Comment me
data ScreenDetail = SD { screenRect :: !Rectangle
, statusGap :: !(Int,Int,Int,Int) -- ^ width of status bar on the screen
} deriving (Eq,Show, Read)
------------------------------------------------------------------------
-- | The X monad, a StateT transformer over IO encapsulating the window
-- manager state
--
-- Dynamic components may be retrieved with 'get', static components
-- with 'ask'. With newtype deriving we get readers and state monads
-- instantiated on XConf and XState automatically.
--
newtype X a = X (ReaderT XConf (StateT XState IO) a)
deriving (Functor, Monad, MonadIO, MonadState XState, MonadReader XConf)
-- | Run the X monad, given a chunk of X monad code, and an initial state
-- Return the result, and final state
runX :: XConf -> XState -> X a -> IO ()
runX c st (X a) = runStateT (runReaderT a c) st >> return ()
-- | Run in the X monad, and in case of exception, and catch it and log it
-- to stderr, and run the error case.
catchX :: X a -> X a -> X a
catchX (X job) (X errcase) = do
st <- get
c <- ask
(a,s') <- io ((runStateT (runReaderT job c) st) `catch`
\e -> (do hPutStrLn stderr (show e); runStateT (runReaderT errcase c) st))
put s'
return a
-- ---------------------------------------------------------------------
-- Convenient wrappers to state
-- | Run a monad action with the current display settings
withDisplay :: (Display -> X a) -> X a
withDisplay f = asks display >>= f
-- | Run a monadic action with the current stack set
withWindowSet :: (WindowSet -> X a) -> X a
withWindowSet f = gets windowset >>= f
-- | True if the given window is the root window
isRoot :: Window -> X Bool
isRoot w = liftM (w==) (asks theRoot)
-- | Wrapper for the common case of atom internment
getAtom :: String -> X Atom
getAtom str = withDisplay $ \dpy -> io $ internAtom dpy str False
-- | Common non-predefined atoms
atom_WM_PROTOCOLS, atom_WM_DELETE_WINDOW, atom_WM_STATE :: X Atom
atom_WM_PROTOCOLS = getAtom "WM_PROTOCOLS"
atom_WM_DELETE_WINDOW = getAtom "WM_DELETE_WINDOW"
atom_WM_STATE = getAtom "WM_STATE"
------------------------------------------------------------------------
-- | LayoutClass handling
-- | And existential class that can hold any object that is in
-- the LayoutClass.
data Layout a = forall l. LayoutClass l a => Layout (l a)
-- | This class defines a set of layout types (held in Layout
-- objects) that are used when trying to read an existential
-- Layout.
class ReadableLayout a where
defaults :: [Layout a]
-- | The different layout modes
-- 'doLayout': given a Rectangle and a Stack, layout the stack elements
-- inside the given Rectangle. If an element is not given a Rectangle
-- by 'doLayout', then it is not shown on screen. Windows are restacked
-- according to the order they are returned by 'doLayout'.
--
class (Show (layout a), Read (layout a)) => LayoutClass layout a where
-- | Given a Rectangle in which to place the windows, and a Stack of
-- windows, return a list of windows and their corresponding Rectangles.
-- The order of windows in this list should be the desired stacking order.
-- Also return a modified layout, if this layout needs to be modified
-- (e.g. if we keep track of the windows we have displayed).
doLayout :: layout a -> Rectangle -> Stack a -> X ([(a, Rectangle)], Maybe (layout a))
doLayout l r s = return (pureLayout l r s, Nothing)
-- | This is a pure version of doLayout, for cases where we don't need
-- access to the X monad to determine how to layou out the windows, and
-- we don't need to modify our layout itself.
pureLayout :: layout a -> Rectangle -> Stack a -> [(a, Rectangle)]
pureLayout _ r s = [(focus s, r)]
-- | 'handleMessage' performs message handling for that layout. If
-- 'handleMessage' returns Nothing, then the layout did not respond to
-- that message and the screen is not refreshed. Otherwise, 'handleMessage'
-- returns an updated 'LayoutClass' and the screen is refreshed.
--
handleMessage :: layout a -> SomeMessage -> X (Maybe (layout a))
handleMessage l = return . pureMessage l
-- | Respond to a message by (possibly) changing our layout, but taking
-- no other action. If the layout changes, the screen will be refreshed.
pureMessage :: layout a -> SomeMessage -> Maybe (layout a)
pureMessage _ _ = Nothing
-- | This should be a human-readable string that is used when selecting
-- layouts by name.
description :: layout a -> String
description = show
instance ReadableLayout a => Read (Layout a) where
readsPrec _ s = take 1 $ concatMap rl defaults
-- We take the first parse only, because multiple matches
-- indicate a bad parse.
where rl (Layout x) = map (\(l,s') -> (Layout l,s')) $ rl' x
rl' :: LayoutClass l a => l a -> [(l a,String)]
rl' _ = reads s
instance ReadableLayout a => LayoutClass Layout a where
doLayout (Layout l) r s = fmap (fmap $ fmap Layout) $ doLayout l r s
handleMessage (Layout l) = fmap (fmap Layout) . handleMessage l
description (Layout l) = description l
instance Show (Layout a) where
show (Layout l) = show l
-- | This calls doLayout if there are any windows to be laid out.
runLayout :: LayoutClass l a => l a -> Rectangle -> StackOrNot a -> X ([(a, Rectangle)], Maybe (l a))
runLayout l r = maybe (return ([], Nothing)) (doLayout l r)
-- | Based on ideas in /An Extensible Dynamically-Typed Hierarchy of Exceptions/,
-- Simon Marlow, 2006. Use extensible messages to the handleMessage handler.
--
-- User-extensible messages must be a member of this class.
--
class Typeable a => Message a
-- |
-- A wrapped value of some type in the Message class.
--
data SomeMessage = forall a. Message a => SomeMessage a
-- |
-- And now, unwrap a given, unknown Message type, performing a (dynamic)
-- type check on the result.
--
fromMessage :: Message m => SomeMessage -> Maybe m
fromMessage (SomeMessage m) = cast m
-- ---------------------------------------------------------------------
-- | General utilities
--
-- Lift an IO action into the X monad
io :: IO a -> X a
io = liftIO
-- | Lift an IO action into the X monad. If the action results in an IO
-- exception, log the exception to stderr and continue normal execution.
catchIO :: IO () -> X ()
catchIO f = liftIO (f `catch` \e -> hPrint stderr e >> hFlush stderr)
-- | spawn. Launch an external application
spawn :: String -> X ()
spawn x = io $ do
pid <- forkProcess $ do
forkProcess (createSession >> executeFile "/bin/sh" False ["-c", x] Nothing)
exitWith ExitSuccess
getProcessStatus True False pid
return ()
-- | Restart xmonad via exec().
--
-- If the first parameter is 'Just name', restart will attempt to execute the
-- program corresponding to 'name'. Otherwise, xmonad will attempt to execute
-- the name of the current program.
--
-- When the second parameter is 'True', xmonad will attempt to resume with the
-- current window state.
restart :: Maybe String -> Bool -> X ()
restart mprog resume = do
prog <- maybe (io getProgName) return mprog
args <- if resume then gets (("--resume":) . return . showWs . windowset) else return []
catchIO (executeFile prog True args Nothing)
where showWs = show . mapLayout show
-- | Run a side effecting action with the current workspace. Like 'when' but
whenJust :: Maybe a -> (a -> X ()) -> X ()
whenJust mg f = maybe (return ()) f mg
-- | Conditionally run an action, using a X event to decide
whenX :: X Bool -> X () -> X ()
whenX a f = a >>= \b -> when b f
-- | A 'trace' for the X monad. Logs a string to stderr. The result may
-- be found in your .xsession-errors file
trace :: String -> X ()
trace msg = io $! do hPutStrLn stderr msg; hFlush stderr
|