{-# LINE 2 "./Graphics/UI/Gtk/General/General.chs" #-} -- -*-haskell-*- -- GIMP Toolkit (GTK) General -- -- Author : Axel Simon, Manuel M. T. Chakravarty -- -- Created: 8 December 1998 -- -- Copyright (C) 2000..2005 Axel Simon, Manuel M. T. Chakravarty -- -- This library is free software; you can redistribute it and/or -- modify it under the terms of the GNU Lesser General Public -- License as published by the Free Software Foundation; either -- version 2.1 of the License, or (at your option) any later version. -- -- This library is distributed in the hope that it will be useful, -- but WITHOUT ANY WARRANTY; without even the implied warranty of -- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU -- Lesser General Public License for more details. -- -- | -- Maintainer : gtk2hs-users@lists.sourceforge.net -- Stability : provisional -- Portability : portable (depends on GHC) -- -- library initialization, main event loop, and events -- module Graphics.UI.Gtk.General.General ( -- getDefaultLanguage, -- * Initialisation initGUI, -- ** Support for OS threads unsafeInitGUIForThreadedRTS, postGUISync, postGUIAsync, threadsEnter, threadsLeave, -- * Main event loop mainGUI, mainQuit, -- ** Less commonly used event loop functions eventsPending, mainLevel, mainIteration, mainIterationDo, mainDoEvent, -- ** Call when mainloop is left -- * Grab widgets grabAdd, grabGetCurrent, grabRemove, -- * Timeout and idle callbacks Priority, priorityLow, priorityDefaultIdle, priorityHighIdle, priorityDefault, priorityHigh, timeoutAdd, timeoutAddFull, timeoutRemove, idleAdd, idleRemove, inputAdd, inputRemove, IOCondition(..), HandlerId, FD ) where import System.Environment (getProgName, getArgs) import Control.Monad (liftM, when) import Control.Applicative ((<$>)) import Control.Concurrent (rtsSupportsBoundThreads, newEmptyMVar, putMVar, takeMVar) import System.Glib.FFI import System.Glib.UTFString import qualified System.Glib.MainLoop as ML import System.Glib.MainLoop ( Priority, priorityLow, priorityDefaultIdle, priorityHighIdle, priorityDefault, priorityHigh, timeoutRemove, idleRemove, inputRemove, IOCondition(..), HandlerId ) import Graphics.UI.Gtk.Abstract.Object (makeNewObject) import Graphics.UI.Gtk.Gdk.EventM (EventM) import Control.Monad.Reader (ask) import Control.Monad.Trans (liftIO) import Graphics.UI.Gtk.Types {-# LINE 99 "./Graphics/UI/Gtk/General/General.chs" #-} {-# LINE 101 "./Graphics/UI/Gtk/General/General.chs" #-} {- -- | Retreive the current language. -- * This function returns a String which's pointer can be used later on for -- comarisions. -- --getDefaultLanguage :: GlibString string => IO string --getDefaultLanguage = do -- strPtr <- {#call unsafe get_default_language#} -- str <- peekUTFString strPtr -- destruct strPtr -- return str -} unsafeInitGUIForThreadedRTS = initGUI -- We compile this module using -#includ"gtk/wingtk.h" to bypass the win32 abi -- check however we do not compile users programs with this header so if -- initGUI was ever inlined in a users program, then that program would not -- bypass the abi check and would fail on startup. So to stop that we must -- prevent initGUI from being inlined. {-# NOINLINE initGUI #-} -- | Initialize the GUI. -- -- This must be called before any other function in the Gtk2Hs library. -- -- This function initializes the GUI toolkit and parses all Gtk -- specific arguments. The remaining arguments are returned. If the -- initialization of the toolkit fails for whatever reason, an exception -- is thrown. -- -- * Throws: @error \"Cannot initialize GUI.\"@ -- -- -- * If you want to use Gtk2Hs and in a multi-threaded application then it is your obligation -- to ensure that all calls to Gtk+ happen in a single OS thread. -- If you want to make calls to Gtk2Hs functions from a Haskell thread other -- than the one that calls this functions and 'mainGUI' then you will have to -- \'post\' your GUI actions to the main GUI thread. You can do this using -- 'postGUISync' or 'postGUIAsync'. See also 'threadsEnter'. -- initGUI :: IO [String] initGUI = do initialise when rtsSupportsBoundThreads initialiseGThreads -- note: initizliseGThreads calls 'threadsEnter' prog <- getProgName args <- getArgs let allArgs = (prog:args) withMany withUTFString (map stringToGlib allArgs) $ \addrs -> withArrayLen addrs $ \argc argv -> with argv $ \argvp -> with argc $ \argcp -> do res <- gtk_init_check (castPtr argcp) (castPtr argvp) if (toBool res) then do argc' <- peek argcp argv' <- peek argvp _:addrs' <- peekArray argc' argv' -- drop the program name mapM ((glibToString <$>) . peekUTFString) addrs' else error "Cannot initialize GUI." -- g_thread_init aborts the whole program if it's called more than once so -- we've got to keep track of whether or not we've called it already. Sigh. -- foreign import ccall "hsgthread.h gtk2hs_threads_initialise" initialiseGThreads :: IO () foreign import ccall "hsgthread.h gtk2hs_initialise" initialise :: IO () -- | Post an action to be run in the main GUI thread. -- -- The current thread blocks until the action completes and the result is -- returned. -- postGUISync :: IO a -> IO a postGUISync action = do resultVar <- newEmptyMVar idleAdd (action >>= putMVar resultVar >> return False) priorityDefault takeMVar resultVar -- | Post an action to be run in the main GUI thread. -- -- The current thread continues and does not wait for the result of the -- action. -- postGUIAsync :: IO () -> IO () postGUIAsync action = do idleAdd (action >> return False) priorityDefault return () -- | Acquire the global Gtk lock. -- -- * During normal operation, this lock is held by the thread from which all -- interaction with Gtk is performed. When calling 'mainGUI', the thread will -- release this global lock before it waits for user interaction. During this -- time it is, in principle, possible to use a different OS thread (any other -- Haskell thread that is bound to the Gtk OS thread will be blocked anyway) -- to interact with Gtk by explicitly acquiring the lock, calling Gtk functions -- and releasing the lock. However, the Gtk functions that are called from this -- different thread may not trigger any calls to the OS since this will -- lead to a crash on Windows (the Win32 API can only be used from a single -- thread). Since it is very hard to tell which function only interacts on -- Gtk data structures and which function call actual OS functions, it -- is best not to use this feature at all. A better way to perform updates -- in the background is to spawn a Haskell thread and to perform the update -- to Gtk widgets using 'postGUIAsync' or 'postGUISync'. These will execute -- their arguments from the main loop, that is, from the OS thread of Gtk, -- thereby ensuring that any Gtk and OS function can be called. -- threadsEnter :: IO () threadsEnter = threadsEnter'_ >>= \res -> return () {-# LINE 212 "./Graphics/UI/Gtk/General/General.chs" #-} -- | Release the global Gtk lock. -- -- * The use of this function is not recommended. See 'threadsEnter'. -- threadsLeave :: IO () threadsLeave = threadsLeave'_ >>= \res -> return () {-# LINE 218 "./Graphics/UI/Gtk/General/General.chs" #-} -- | Inquire the number of events pending on the event queue -- eventsPending :: IO Int eventsPending = liftM fromIntegral gtk_events_pending {-# LINE 223 "./Graphics/UI/Gtk/General/General.chs" #-} -- | Run the Gtk+ main event loop. -- mainGUI :: IO () mainGUI = gtk_main {-# LINE 228 "./Graphics/UI/Gtk/General/General.chs" #-} -- | Inquire the main loop level. -- -- * Callbacks that take more time to process can call 'mainIteration' to keep -- the GUI responsive. Each time the main loop is restarted this way, the main -- loop counter is increased. This function returns this counter. -- mainLevel :: IO Int mainLevel = liftM (toEnum.fromEnum) gtk_main_level {-# LINE 237 "./Graphics/UI/Gtk/General/General.chs" #-} -- | Exit the main event loop. -- mainQuit :: IO () mainQuit = gtk_main_quit {-# LINE 242 "./Graphics/UI/Gtk/General/General.chs" #-} -- | Process an event, block if necessary. -- -- * Returns @True@ if 'mainQuit' was called while processing the event. -- mainIteration :: IO Bool mainIteration = liftM toBool gtk_main_iteration {-# LINE 249 "./Graphics/UI/Gtk/General/General.chs" #-} -- | Process a single event. -- -- * Called with @True@, this function behaves as 'mainIteration' in that it -- waits until an event is available for processing. It will return -- immediately, if passed @False@. -- -- * Returns @True@ if the 'mainQuit' was called while processing the event. -- mainIterationDo :: Bool -> IO Bool mainIterationDo blocking = liftM toBool $ gtk_main_iteration_do (fromBool blocking) -- | Processes a single GDK event. This is public only to allow filtering of events between GDK and -- GTK+. You will not usually need to call this function directly. -- -- While you should not call this function directly, you might want to know how exactly events are -- handled. So here is what this function does with the event: -- -- 1. Compress enter\/leave notify events. If the event passed build an enter\/leave pair together with -- the next event (peeked from GDK) both events are thrown away. This is to avoid a backlog of -- (de-)highlighting widgets crossed by the pointer. -- -- 2. Find the widget which got the event. If the widget can't be determined the event is thrown away -- unless it belongs to a INCR transaction. In that case it is passed to -- 'selectionIncrEvent'. -- -- 3. Then the event is passed on a stack so you can query the currently handled event with -- 'getCurrentEvent'. -- -- 4. The event is sent to a widget. If a grab is active all events for widgets that are not in the -- contained in the grab widget are sent to the latter with a few exceptions: -- -- * Deletion and destruction events are still sent to the event widget for obvious reasons. -- -- * Events which directly relate to the visual representation of the event widget. -- -- * Leave events are delivered to the event widget if there was an enter event delivered to it -- before without the paired leave event. -- -- * Drag events are not redirected because it is unclear what the semantics of that would be. -- -- Another point of interest might be that all key events are first passed through the key snooper -- functions if there are any. Read the description of 'keySnooperInstall' if you need this -- feature. -- -- 5. After finishing the delivery the event is popped from the event stack. mainDoEvent :: EventM t () mainDoEvent = do ptr <- ask liftIO $ gtk_main_do_event (castPtr ptr) {-# LINE 343 "./Graphics/UI/Gtk/General/General.chs" #-} -- | add a grab widget -- grabAdd :: WidgetClass wd => wd -> IO () grabAdd = (\(Widget arg1) -> withForeignPtr arg1 $ \argPtr1 ->gtk_grab_add argPtr1) . toWidget -- | inquire current grab widget -- grabGetCurrent :: IO (Maybe Widget) grabGetCurrent = do wPtr <- gtk_grab_get_current {-# LINE 353 "./Graphics/UI/Gtk/General/General.chs" #-} if (wPtr==nullPtr) then return Nothing else liftM Just $ makeNewObject mkWidget (return wPtr) -- | remove a grab widget -- grabRemove :: WidgetClass w => w -> IO () grabRemove = (\(Widget arg1) -> withForeignPtr arg1 $ \argPtr1 ->gtk_grab_remove argPtr1) . toWidget -- | Sets a function to be called at regular intervals, with the default -- priority 'priorityDefault'. The function is called repeatedly until it -- returns @False@, after which point the timeout function will not be called -- again. The first call to the function will be at the end of the first interval. -- -- Note that timeout functions may be delayed, due to the processing of other -- event sources. Thus they should not be relied on for precise timing. After -- each call to the timeout function, the time of the next timeout is -- recalculated based on the current time and the given interval (it does not -- try to 'catch up' time lost in delays). -- -- This function differs from 'ML.timeoutAdd' in that the action will -- be executed within the global Gtk+ lock. It is therefore possible to -- call Gtk+ functions from the action. -- timeoutAdd :: IO Bool -> Int -> IO HandlerId timeoutAdd fun msec = timeoutAddFull fun priorityDefault msec -- | Sets a function to be called at regular intervals, with the given -- priority. The function is called repeatedly until it returns @False@, after -- which point the timeout function will not be called again. The first call -- to the function will be at the end of the first interval. -- -- Note that timeout functions may be delayed, due to the processing of other -- event sources. Thus they should not be relied on for precise timing. After -- each call to the timeout function, the time of the next timeout is -- recalculated based on the current time and the given interval (it does not -- try to 'catch up' time lost in delays). -- -- This function differs from 'ML.timeoutAddFull' in that the action will -- be executed within the global Gtk+ lock. It is therefore possible to -- call Gtk+ functions from the action. -- timeoutAddFull :: IO Bool -> Priority -> Int -> IO HandlerId timeoutAddFull fun pri msec = ML.timeoutAddFull (threadsEnter >> fun >>= \r -> threadsLeave >> return r) pri msec -- | Add a callback that is called whenever the system is idle. -- -- * A priority can be specified via an integer. This should usually be -- 'priorityDefaultIdle'. -- -- * If the function returns @False@ it will be removed. -- -- This function differs from 'ML.idleAdd' in that the action will -- be executed within the global Gtk+ lock. It is therefore possible to -- call Gtk+ functions from the action. -- idleAdd :: IO Bool -> Priority -> IO HandlerId idleAdd fun pri = ML.idleAdd (threadsEnter >> fun >>= \r -> threadsLeave >> return r) pri type FD = Int -- | Adds the file descriptor into the main event loop with the given priority. -- -- This function differs from 'ML.inputAdd' in that the action will -- be executed within the global Gtk+ lock. It is therefore possible to -- call Gtk+ functions from the action. -- inputAdd :: FD -- ^ a file descriptor -> [IOCondition] -- ^ the condition to watch for -> Priority -- ^ the priority of the event source -> IO Bool -- ^ the function to call when the condition is satisfied. -- The function should return False if the event source -- should be removed. -> IO HandlerId -- ^ the event source id inputAdd fd conds pri fun = ML.inputAdd fd conds pri (threadsEnter >> fun >>= \r -> threadsLeave >> return r) foreign import ccall unsafe "gtk_init_check" gtk_init_check :: ((Ptr CInt) -> ((Ptr (Ptr (Ptr CChar))) -> (IO CInt))) foreign import ccall safe "gdk_threads_enter" threadsEnter'_ :: (IO ()) foreign import ccall unsafe "gdk_threads_leave" threadsLeave'_ :: (IO ()) foreign import ccall safe "gtk_events_pending" gtk_events_pending :: (IO CInt) foreign import ccall safe "gtk_main" gtk_main :: (IO ()) foreign import ccall unsafe "gtk_main_level" gtk_main_level :: (IO CUInt) foreign import ccall safe "gtk_main_quit" gtk_main_quit :: (IO ()) foreign import ccall safe "gtk_main_iteration" gtk_main_iteration :: (IO CInt) foreign import ccall safe "gtk_main_iteration_do" gtk_main_iteration_do :: (CInt -> (IO CInt)) foreign import ccall safe "gtk_main_do_event" gtk_main_do_event :: ((Ptr ()) -> (IO ())) foreign import ccall safe "gtk_grab_add" gtk_grab_add :: ((Ptr Widget) -> (IO ())) foreign import ccall safe "gtk_grab_get_current" gtk_grab_get_current :: (IO (Ptr Widget)) foreign import ccall safe "gtk_grab_remove" gtk_grab_remove :: ((Ptr Widget) -> (IO ()))