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|
{-# LANGUAGE ExistentialQuantification, FlexibleInstances, GeneralizedNewtypeDeriving, PatternGuards,
MultiParamTypeClasses, TypeSynonymInstances, CPP, DeriveDataTypeable #-}
-----------------------------------------------------------------------------
-- |
-- Module : XMonad.Core
-- Copyright : (c) Spencer Janssen 2007
-- License : BSD3-style (see LICENSE)
--
-- Maintainer : spencerjanssen@gmail.com
-- 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.Core (
X, WindowSet, WindowSpace, WorkspaceId, WindowState(..),
ScreenId(..), ScreenDetail(..), XState(..),
XConf(..), XConfig(..), LayoutClass(..),
Layout(..), readsLayout, Typeable, Message,
SomeMessage(..), fromMessage, LayoutMessages(..),
StateExtension(..), ExtensionClass(..),
runX, catchX, userCode, userCodeDef, io, catchIO, installSignalHandlers, uninstallSignalHandlers,
withDisplay, withWindowSet, isRoot, runOnWorkspaces, getWindowState, getsWindowState, setWindowState, modifyWindowState,
getAtom, spawn, spawnPID, xfork, getXMonadDir, recompile, trace, whenJust, whenX,
atom_WM_STATE, atom_WM_PROTOCOLS, atom_WM_DELETE_WINDOW, atom_WM_TAKE_FOCUS, ManageHook, Query(..), runQuery
) where
import XMonad.StackSet hiding (modify)
import Prelude hiding ( catch )
import Codec.Binary.UTF8.String (encodeString)
import Control.Exception.Extensible (catch, fromException, try, bracket, throw, finally, SomeException(..))
import Control.Applicative
import Control.Monad.State
import Control.Monad.Reader
import Data.Default
import System.FilePath
import System.IO
import System.Info
import System.Posix.Process (executeFile, forkProcess, getAnyProcessStatus, createSession)
import System.Posix.Signals
import System.Posix.IO
import System.Posix.Types (ProcessID)
import System.Process
import System.Directory
import System.Exit
import Graphics.X11.Xlib hiding (Screen)
import Graphics.X11.Xlib.Extras (Event)
import Data.Typeable
import Data.List ((\\))
import Data.Maybe (isJust,fromMaybe)
import Data.Monoid
import qualified Data.Map as M
data WindowState = WindowState
{ wsMapped :: !Bool
, wsWaitingUnmap :: !Int -- ^ the number of expected UnmapEvents
} deriving (Eq)
-- | XState, the (mutable) window manager state.
data XState = XState
{ windowset :: !WindowSet -- ^ workspace list
, windowState :: !(M.Map Window WindowState) -- ^ the extended window state
, dragging :: !(Maybe (Position -> Position -> X (), X ()))
, numberlockMask :: !KeyMask -- ^ The numlock modifier
, extensibleState :: !(M.Map String (Either String StateExtension))
-- ^ stores custom state information.
--
-- The module "XMonad.Utils.ExtensibleState" in xmonad-contrib
-- provides additional information and a simple interface for using this.
}
-- | XConf, the (read-only) window manager configuration.
data XConf = XConf
{ display :: Display -- ^ the X11 display
, config :: !(XConfig Layout) -- ^ initial user configuration
, theRoot :: !Window -- ^ the root window
, normalBorder :: !Pixel -- ^ border color of unfocused windows
, focusedBorder :: !Pixel -- ^ border color of the focused window
, keyActions :: !(M.Map (KeyMask, KeySym) (X ()))
-- ^ a mapping of key presses to actions
, buttonActions :: !(M.Map (KeyMask, Button) (Window -> X ()))
-- ^ a mapping of button presses to actions
, mouseFocused :: !Bool -- ^ was refocus caused by mouse action?
, mousePosition :: !(Maybe (Position, Position))
-- ^ position of the mouse according to
-- the event currently being processed
, currentEvent :: !(Maybe Event)
-- ^ event currently being processed
}
-- todo, better name
data XConfig l = XConfig
{ normalBorderColor :: !String -- ^ Non focused windows border color. Default: \"#dddddd\"
, focusedBorderColor :: !String -- ^ Focused windows border color. Default: \"#ff0000\"
, terminal :: !String -- ^ The preferred terminal application. Default: \"xterm\"
, layoutHook :: !(l Window) -- ^ The available layouts
, manageHook :: !ManageHook -- ^ The action to run when a new window is opened
, handleEventHook :: !(Event -> X All) -- ^ Handle an X event, returns (All True) if the default handler
-- should also be run afterwards. mappend should be used for combining
-- event hooks in most cases.
, workspaces :: ![String] -- ^ The list of workspaces' names
, modMask :: !KeyMask -- ^ the mod modifier
, keys :: !(XConfig Layout -> M.Map (ButtonMask,KeySym) (X ()))
-- ^ The key binding: a map from key presses and actions
, mouseBindings :: !(XConfig Layout -> M.Map (ButtonMask, Button) (Window -> X ()))
-- ^ The mouse bindings
, logHook :: !(X ()) -- ^ The action to perform when the windows set is changed
, startupHook :: !(X ()) -- ^ The action to perform on startup
, focusFollowsMouse :: !Bool -- ^ Whether window entry events can change focus
, clickJustFocuses :: !Bool -- ^ False to make a click which changes focus to be additionally passed to the window
, clientMask :: !EventMask -- ^ The client events that xmonad is interested in
, rootMask :: !EventMask -- ^ The root events that xmonad is interested in
}
type WindowSet = StackSet WorkspaceId (Layout Window) Window ScreenId ScreenDetail
type WindowSpace = Workspace WorkspaceId (Layout Window) Window
-- | Virtual workspace indices
type WorkspaceId = String
-- | Physical screen indices
newtype ScreenId = S Int deriving (Eq,Ord,Show,Read,Enum,Num,Integral,Real)
-- | The 'Rectangle' with screen dimensions
data ScreenDetail = SD { screenRect :: !Rectangle } deriving (Eq,Show, Read)
------------------------------------------------------------------------
-- | The X monad, 'ReaderT' and 'StateT' transformers over 'IO'
-- encapsulating the window manager configuration and state,
-- respectively.
--
-- 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, Typeable)
instance Applicative X where
pure = return
(<*>) = ap
instance (Monoid a) => Monoid (X a) where
mempty = return mempty
mappend = liftM2 mappend
instance Default a => Default (X a) where
def = return def
type ManageHook = Query (Endo WindowSet)
newtype Query a = Query (ReaderT Window X a)
deriving (Functor, Monad, MonadReader Window, MonadIO)
runQuery :: Query a -> Window -> X a
runQuery (Query m) w = runReaderT m w
instance Monoid a => Monoid (Query a) where
mempty = return mempty
mappend = liftM2 mappend
instance Default a => Default (Query a) where
def = return def
-- | 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 (a, XState)
runX c st (X a) = runStateT (runReaderT a c) st
-- | 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 job errcase = do
st <- get
c <- ask
(a, s') <- io $ runX c st job `catch` \e -> case fromException e of
Just x -> throw e `const` (x `asTypeOf` ExitSuccess)
_ -> do hPrint stderr e; runX c st errcase
put s'
return a
-- | Execute the argument, catching all exceptions. Either this function or
-- 'catchX' should be used at all callsites of user customized code.
userCode :: X a -> X (Maybe a)
userCode a = catchX (Just `liftM` a) (return Nothing)
-- | Same as userCode but with a default argument to return instead of using
-- Maybe, provided for convenience.
userCodeDef :: a -> X a -> X a
userCodeDef defValue a = fromMaybe defValue `liftM` userCode 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 = (w==) <$> asks theRoot
-- | Wrapper for the common case of atom internment
getAtom :: String -> X Atom
getAtom str = withDisplay $ \dpy -> io $ internAtom dpy str False
emptyWindowState :: WindowState
emptyWindowState = WindowState False 0
getWindowState :: Window -> X WindowState
getWindowState w = gets $ M.findWithDefault emptyWindowState w . windowState
getsWindowState :: (WindowState -> a) -> Window -> X a
getsWindowState f w = f <$> getWindowState w
setWindowState :: Window -> WindowState -> X ()
setWindowState w ws = modify $ \s -> s { windowState = f (windowState s) }
where
f | ws == emptyWindowState = M.delete w
| otherwise = M.insert w ws
modifyWindowState :: (WindowState -> WindowState) -> Window -> X ()
modifyWindowState f w = getWindowState w >>= return . f >>= setWindowState w
-- | Common non-predefined atoms
atom_WM_PROTOCOLS, atom_WM_DELETE_WINDOW, atom_WM_STATE, atom_WM_TAKE_FOCUS :: X Atom
atom_WM_PROTOCOLS = getAtom "WM_PROTOCOLS"
atom_WM_DELETE_WINDOW = getAtom "WM_DELETE_WINDOW"
atom_WM_STATE = getAtom "WM_STATE"
atom_WM_TAKE_FOCUS = getAtom "WM_TAKE_FOCUS"
------------------------------------------------------------------------
-- LayoutClass handling. See particular instances in Operations.hs
-- | An existential type that can hold any object that is in 'Read'
-- and 'LayoutClass'.
data Layout a = forall l. (LayoutClass l a, Read (l a)) => Layout (l a)
-- | Using the 'Layout' as a witness, parse existentially wrapped windows
-- from a 'String'.
readsLayout :: Layout a -> String -> [(Layout a, String)]
readsLayout (Layout l) s = [(Layout (asTypeOf x l), rs) | (x, rs) <- reads s]
-- | Every layout must be an instance of 'LayoutClass', which defines
-- the basic layout operations along with a sensible default for each.
--
-- Minimal complete definition:
--
-- * 'runLayout' || (('doLayout' || 'pureLayout') && 'emptyLayout'), and
--
-- * 'handleMessage' || 'pureMessage'
--
-- You should also strongly consider implementing 'description',
-- although it is not required.
--
-- Note that any code which /uses/ 'LayoutClass' methods should only
-- ever call 'runLayout', 'handleMessage', and 'description'! In
-- other words, the only calls to 'doLayout', 'pureMessage', and other
-- such methods should be from the default implementations of
-- 'runLayout', 'handleMessage', and so on. This ensures that the
-- proper methods will be used, regardless of the particular methods
-- that any 'LayoutClass' instance chooses to define.
class Show (layout a) => LayoutClass layout a where
-- | By default, 'runLayout' calls 'doLayout' if there are any
-- windows to be laid out, and 'emptyLayout' otherwise. Most
-- instances of 'LayoutClass' probably do not need to implement
-- 'runLayout'; it is only useful for layouts which wish to make
-- use of more of the 'Workspace' information (for example,
-- "XMonad.Layout.PerWorkspace").
runLayout :: Workspace WorkspaceId (layout a) a
-> Rectangle
-> X ([(a, Rectangle)], Maybe (layout a))
runLayout (Workspace _ l ms) r = maybe (emptyLayout l r) (doLayout l r) ms
-- | Given a 'Rectangle' in which to place the windows, and a 'Stack'
-- of windows, return a list of windows and their corresponding
-- Rectangles. If an element is not given a Rectangle by
-- 'doLayout', then it is not shown on screen. The order of
-- windows in this list should be the desired stacking order.
--
-- Also possibly return a modified layout (by returning @Just
-- newLayout@), if this layout needs to be modified (e.g. if it
-- keeps track of some sort of state). Return @Nothing@ if the
-- layout does not need to be modified.
--
-- Layouts which do not need access to the 'X' monad ('IO', window
-- manager state, or configuration) and do not keep track of their
-- own state should implement 'pureLayout' instead of 'doLayout'.
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 lay out
-- the windows, and we don't need to modify the layout itself.
pureLayout :: layout a -> Rectangle -> Stack a -> [(a, Rectangle)]
pureLayout _ r s = [(focus s, r)]
-- | 'emptyLayout' is called when there are no windows.
emptyLayout :: layout a -> Rectangle -> X ([(a, Rectangle)], Maybe (layout a))
emptyLayout _ _ = return ([], Nothing)
-- | 'handleMessage' performs message handling. If
-- 'handleMessage' returns @Nothing@, then the layout did not
-- respond to the message and the screen is not refreshed.
-- Otherwise, 'handleMessage' returns an updated layout and the
-- screen is refreshed.
--
-- Layouts which do not need access to the 'X' monad to decide how
-- to handle messages should implement 'pureMessage' instead of
-- 'handleMessage' (this restricts the risk of error, and makes
-- testing much easier).
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. The default implementation is
-- 'show', which is in some cases a poor default.
description :: layout a -> String
description = show
instance LayoutClass Layout Window where
runLayout (Workspace i (Layout l) ms) r = fmap (fmap Layout) `fmap` runLayout (Workspace i l ms) r
doLayout (Layout l) r s = fmap (fmap Layout) `fmap` doLayout l r s
emptyLayout (Layout l) r = fmap (fmap Layout) `fmap` emptyLayout l r
handleMessage (Layout l) = fmap (fmap Layout) . handleMessage l
description (Layout l) = description l
instance Show (Layout a) where show (Layout l) = show l
-- | 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
-- X Events are valid Messages.
instance Message Event
-- | 'LayoutMessages' are core messages that all layouts (especially stateful
-- layouts) should consider handling.
data LayoutMessages = Hide -- ^ sent when a layout becomes non-visible
| ReleaseResources -- ^ sent when xmonad is exiting or restarting
deriving (Typeable, Eq)
instance Message LayoutMessages
-- ---------------------------------------------------------------------
-- Extensible state
--
-- | Every module must make the data it wants to store
-- an instance of this class.
--
-- Minimal complete definition: initialValue
class Typeable a => ExtensionClass a where
-- | Defines an initial value for the state extension
initialValue :: a
-- | Specifies whether the state extension should be
-- persistent. Setting this method to 'PersistentExtension'
-- will make the stored data survive restarts, but
-- requires a to be an instance of Read and Show.
--
-- It defaults to 'StateExtension', i.e. no persistence.
extensionType :: a -> StateExtension
extensionType = StateExtension
-- | Existential type to store a state extension.
data StateExtension =
forall a. ExtensionClass a => StateExtension a
-- ^ Non-persistent state extension
| forall a. (Read a, Show a, ExtensionClass a) => PersistentExtension a
-- ^ Persistent extension
-- ---------------------------------------------------------------------
-- | General utilities
--
-- Lift an 'IO' action into the 'X' monad
io :: MonadIO m => IO a -> m 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 :: MonadIO m => IO () -> m ()
catchIO f = io (f `catch` \(SomeException e) -> hPrint stderr e >> hFlush stderr)
-- | spawn. Launch an external application. Specifically, it double-forks and
-- runs the 'String' you pass as a command to \/bin\/sh.
--
-- Note this function assumes your locale uses utf8.
spawn :: MonadIO m => String -> m ()
spawn x = spawnPID x >> return ()
-- | Like 'spawn', but returns the 'ProcessID' of the launched application
spawnPID :: MonadIO m => String -> m ProcessID
spawnPID x = xfork $ executeFile "/bin/sh" False ["-c", encodeString x] Nothing
-- | A replacement for 'forkProcess' which resets default signal handlers.
xfork :: MonadIO m => IO () -> m ProcessID
xfork x = io . forkProcess . finally nullStdin $ do
uninstallSignalHandlers
createSession
x
where
nullStdin = do
fd <- openFd "/dev/null" ReadOnly Nothing defaultFileFlags
dupTo fd stdInput
closeFd fd
-- | This is basically a map function, running a function in the 'X' monad on
-- each workspace with the output of that function being the modified workspace.
runOnWorkspaces :: (WindowSpace -> X WindowSpace) -> X ()
runOnWorkspaces job = do
ws <- gets windowset
c:v <- mapM runOnScreen $ current ws : visible ws
modify $ \s -> s { windowset = ws { current = c, visible = v } }
where
runOnScreen scr@Screen { screenWorkspace = w, screenHidden = ws } = do
w':ws' <- mapM job (w:ws)
return scr { screenWorkspace = w', screenHidden = ws' }
-- | Return the path to @~\/.xmonad@.
getXMonadDir :: MonadIO m => m String
getXMonadDir = io $ getAppUserDataDirectory "xmonad"
-- | 'recompile force', recompile @~\/.xmonad\/xmonad.hs@ when any of the
-- following apply:
--
-- * force is 'True'
--
-- * the xmonad executable does not exist
--
-- * the xmonad executable is older than xmonad.hs or any file in
-- ~\/.xmonad\/lib
--
-- The -i flag is used to restrict recompilation to the xmonad.hs file only,
-- and any files in the ~\/.xmonad\/lib directory.
--
-- Compilation errors (if any) are logged to ~\/.xmonad\/xmonad.errors. If
-- GHC indicates failure with a non-zero exit code, an xmessage displaying
-- that file is spawned.
--
-- 'False' is returned if there are compilation errors.
--
recompile :: MonadIO m => Bool -> m Bool
recompile force = io $ do
dir <- getXMonadDir
let binn = "xmonad-"++arch++"-"++os
bin = dir </> binn
base = dir </> "xmonad"
err = base ++ ".errors"
src = base ++ ".hs"
lib = dir </> "lib"
libTs <- mapM getModTime . Prelude.filter isSource =<< allFiles lib
srcT <- getModTime src
binT <- getModTime bin
if force || any (binT <) (srcT : libTs)
then do
-- temporarily disable SIGCHLD ignoring:
uninstallSignalHandlers
status <- bracket (openFile err WriteMode) hClose $ \h ->
waitForProcess =<< runProcess "ghc" ["--make", "xmonad.hs", "-i", "-ilib", "-fforce-recomp", "-main-is", "main", "-v0", "-o",binn] (Just dir)
Nothing Nothing Nothing (Just h)
-- re-enable SIGCHLD:
installSignalHandlers
-- now, if it fails, run xmessage to let the user know:
when (status /= ExitSuccess) $ do
ghcErr <- readFile err
let msg = unlines $
["Error detected while loading xmonad configuration file: " ++ src]
++ lines (if null ghcErr then show status else ghcErr)
++ ["","Please check the file for errors."]
-- nb, the ordering of printing, then forking, is crucial due to
-- lazy evaluation
hPutStrLn stderr msg
forkProcess $ executeFile "xmessage" True ["-default", "okay", msg] Nothing
return ()
return (status == ExitSuccess)
else return True
where getModTime f = catch (Just <$> getModificationTime f) (\(SomeException _) -> return Nothing)
isSource = flip elem [".hs",".lhs",".hsc"] . takeExtension
allFiles t = do
let prep = map (t</>) . Prelude.filter (`notElem` [".",".."])
cs <- prep <$> catch (getDirectoryContents t) (\(SomeException _) -> return [])
ds <- filterM doesDirectoryExist cs
concat . ((cs \\ ds):) <$> mapM allFiles ds
-- | Conditionally run an action, using a @Maybe a@ to decide.
whenJust :: Monad m => Maybe a -> (a -> m ()) -> m ()
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 :: MonadIO m => String -> m ()
trace = io . hPutStrLn stderr
-- | Ignore SIGPIPE to avoid termination when a pipe is full, and SIGCHLD to
-- avoid zombie processes, and clean up any extant zombie processes.
installSignalHandlers :: MonadIO m => m ()
installSignalHandlers = io $ do
installHandler openEndedPipe Ignore Nothing
installHandler sigCHLD Ignore Nothing
(try :: IO a -> IO (Either SomeException a))
$ fix $ \more -> do
x <- getAnyProcessStatus False False
when (isJust x) more
return ()
uninstallSignalHandlers :: MonadIO m => m ()
uninstallSignalHandlers = io $ do
installHandler openEndedPipe Default Nothing
installHandler sigCHLD Default Nothing
return ()
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