{-# LANGUAGE ScopedTypeVariables #-} -- -*-haskell-*- #include #include "template-hsc-gtk2hs.h" -- GIMP Toolkit (GTK) GDK Event information in a Monad -- -- Author : Axel Simon -- -- Created 12 October 2008 -- -- Copyright (C) 2008 Axel Simon -- -- 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. -- -- #prune -- | -- Maintainer : gtk2hs-users\@lists.sourceforge.net -- Stability : provisional -- Portability : portable (depends on GHC) -- -- Types and accessors to examine information in events. This module is not -- exposed by default and therefore has to be imported explicitly using: -- @import Graphics.UI.Gtk.Gdk.EventM@ -- module Graphics.UI.Gtk.Gdk.EventM ( -- * Detail -- -- | This modules provides a monad that encapsulates the information in an -- event. -- -- The events a widget can receive are defined in -- "Graphics.UI.Gtk.Abstract.Widget#7". Every event carries additional -- information which is accessible through functions in the 'EventM' monad. -- For instance, every event is associated with a -- 'Graphics.UI.Gtk.Gdk.DrawWindow.DrawWindow' which is accessed using the -- 'eventWindow' accessor function. Other information is only available in -- one specific event. For example, the -- area that has to be redrawn, accessed by 'eventArea' is only available in -- the 'Graphics.UI.Gtk.Abstract.Widget.exposeEvent'. Indeed, you can only -- call 'eventArea' if the first type parameter of 'EventM' is the phantom -- type 'EExpose'. (A phantom type is a type for which no values exist and -- which is only used to enforce certain constraints on the usage of -- functions such as 'eventArea'.) Some information is available in several -- but not all events. In order to express these constraints the module -- defines type classes whose names start with @Has...@ but which are not -- exported, implying that no new instance can be created. (They could be -- called phantom type classes.) For instance, the mouse pointer coordinates -- can be retrieved using the function 'eventCoordinates' which requires -- that the first type parameter of 'EventM' is in the class -- 'HasCoordinates'. The module supplies instance of class 'HasCoordinates' -- for the types 'EButton', 'ECrossing', 'EMotion' and 'EScroll'. Thus for -- all events that require an 'EventM' action with one of the types above, -- the accessor function 'eventCoordinates' may be used. -- -- Note that an event handler must always returns @True@ if the event -- was handled or @False@ if the event should be dealt with by another -- event handler. For instance, a handler for a key press should return -- @False@ if the pressed key is not one of those that the widget reacts -- to. In this case the event is passed to the parent widgets. This -- ensures that pressing, say, @Alt-F@ opens the file menu even if the -- current input focus is in a text entry widget. In order to facilitate -- writing handlers that may abort handling an event, this module provides -- the function 'tryEvent'. This function catches pattern match exceptions -- and returns @False@. If the signal successfully runs to its end, it -- returns @True@. A typical use is as follows: -- -- > widget `on` keyPressEvent $ tryEvent $ do -- > [Control] <- eventModifier -- > "Return" <- eventKeyName -- > liftIO $ putStrLn "Ctrl-Return pressed" -- -- The rationale is that the action will throw an exception if the -- two event functions 'eventModifier' and 'eventKeyName' return something -- else than what is stated in -- the pattern. When no exception is thrown, execution continues to -- the last statement where the event is processed, here we merely -- print a message. Note that the return -- value of this statement must be @()@ since 'tryEvent' always -- assumes that the -- function handeled the event if no exception is thrown. A handler -- wrapped by 'tryEvent' can also indicate that it cannot handle the -- given event by calling 'stopEvent'. -- -- Finally, not that the 'EventM' monad wraps the @IO@ monad. As such -- you can (and usually have to) use @liftIO@ to execute @IO@ functions. -- -- * Event monad and type tags EventM, EAny, EKey, EButton, EScroll, EMotion, EExpose, EVisibility, ECrossing, EFocus, EConfigure, EProperty, EProximity, EWindowState, #if GTK_CHECK_VERSION(2,6,0) EOwnerChange, #endif #if GTK_CHECK_VERSION(2,8,0) EGrabBroken, #endif -- * Accessor functions for event information eventWindow, eventSent, eventCoordinates, eventRootCoordinates, eventModifier, eventModifierAll, eventTime, eventKeyVal, eventKeyName, eventHardwareKeycode, eventKeyboardGroup, MouseButton(..), eventButton, Click(..), eventClick, ScrollDirection(..), eventScrollDirection, eventIsHint, eventArea, eventRegion, VisibilityState(..), eventVisibilityState, CrossingMode(..), eventCrossingMode, NotifyType(..), eventNotifyType, eventCrossingFocus, eventFocusIn, eventPosition, eventSize, eventProperty, WindowState(..), eventWindowStateChanged, eventWindowState, #if GTK_CHECK_VERSION(2,6,0) OwnerChange(..), eventChangeReason, eventSelection, eventSelectionTime, #endif #if GTK_CHECK_VERSION(2,8,0) eventKeyboardGrab, eventImplicit, eventGrabWindow, #endif -- * Auxilliary Definitions Modifier(..), -- a mask of control keys TimeStamp, currentTime, tryEvent, stopEvent, ) where import Prelude hiding (catch) import System.Glib.FFI import System.Glib.Flags import System.Glib.GObject ( makeNewGObject ) import Graphics.UI.Gtk.Gdk.Keys (KeyVal, keyName) import Graphics.UI.Gtk.Gdk.Region (Region, makeNewRegion) import Graphics.UI.Gtk.Gdk.Enums (Modifier(..), VisibilityState(..), CrossingMode(..), NotifyType(..), WindowState(..), ScrollDirection(..), #if GTK_CHECK_VERSION(2,6,0) OwnerChange(..) #endif ) import Graphics.UI.Gtk.General.Enums (MouseButton(..), Click(..)) import Graphics.UI.Gtk.General.Structs (Rectangle(..)) import Graphics.UI.Gtk.General.DNDTypes (Atom(..), SelectionTag) import Graphics.UI.Gtk.Types ( DrawWindow, mkDrawWindow ) import Data.Bits ((.|.), (.&.), testBit, shiftL, shiftR) import Data.Maybe (catMaybes) import Data.List (isPrefixOf) import Control.Monad.Reader ( ReaderT, ask, runReaderT ) import Control.Monad.Trans ( liftIO ) import Control.Monad ( liftM ) #if __GLASGOW_HASKELL__ >= 610 import Control.Exception ( Handler(..) , PatternMatchFail(..) , catches, throw ) import System.IO.Error (isUserError, ioeGetErrorString) #else import Control.Exception (catch, throw, Exception(PatternMatchFail,IOException) ) #endif -- | A monad providing access to data in an event. -- type EventM t a = ReaderT (Ptr t) IO a -- | A tag for events that do not carry any event-specific information. data EAny = EAny -- | A tag for /key/ events. data EKey = EKey -- | A tag for /Button/ events. data EButton = EButton -- | A tag for /Scroll/ events. data EScroll = EScroll -- | A tag for /Motion/ events. data EMotion = EMotion -- | A tag for /Expose/ events. data EExpose = EExpose -- | A tag for /Visibility/ events. data EVisibility = EVisibility -- | A tag for /Crossing/ events. data ECrossing = ECrossing -- | A tag for /Focus/ events. data EFocus = EFocus -- | A tag for /Configure/ events. data EConfigure = EConfigure -- | A tag for /Property/ events. data EProperty = EProperty -- | A tag for /Proximity/ events. data EProximity = EProximity -- | A tag for /WindowState/ event. data EWindowState = EWindowState #if GTK_CHECK_VERSION(2,6,0) -- | A tag for /OwnerChange/ events. data EOwnerChange = EOwnerChange #endif #if GTK_CHECK_VERSION(2,8,0) -- | A tag for /GrabBroken/ events. data EGrabBroken = EGrabBroken #endif -- | Retrieve the 'Graphics.UI.Gtk.Gdk.DrawWindow.DrawWindow' that this -- event relates to. eventWindow :: EventM any DrawWindow eventWindow = do ptr <- ask liftIO $ makeNewGObject mkDrawWindow (#{peek GdkEventAny, window} ptr) -- | Query if this event was sent sent explicitly by the application -- (rather than being generated by human interaction). eventSent :: EventM any Bool eventSent = do ptr <- ask liftIO $ #{peek GdkEventAny, send_event} ptr class HasCoordinates a instance HasCoordinates EButton instance HasCoordinates EScroll instance HasCoordinates EMotion instance HasCoordinates ECrossing -- | Retrieve the @(x,y)@ coordinates of the mouse. eventCoordinates :: HasCoordinates t => EventM t (Double, Double) eventCoordinates = do ptr <- ask liftIO $ do (ty :: #{gtk2hs_type GdkEventType}) <- peek (castPtr ptr) if ty `elem` [ #{const GDK_BUTTON_PRESS}, #{const GDK_2BUTTON_PRESS}, #{const GDK_3BUTTON_PRESS}, #{const GDK_BUTTON_RELEASE}] then do (x :: #{gtk2hs_type gdouble}) <- #{peek GdkEventButton, x} ptr (y :: #{gtk2hs_type gdouble}) <- #{peek GdkEventButton, y} ptr return (realToFrac x, realToFrac y) else if ty `elem` [ #{const GDK_SCROLL} ] then do (x :: #{gtk2hs_type gdouble}) <- #{peek GdkEventScroll, x} ptr (y :: #{gtk2hs_type gdouble}) <- #{peek GdkEventScroll, y} ptr return (realToFrac x, realToFrac y) else if ty `elem` [ #{const GDK_MOTION_NOTIFY} ] then do (x :: #{gtk2hs_type gdouble}) <- #{peek GdkEventMotion, x} ptr (y :: #{gtk2hs_type gdouble}) <- #{peek GdkEventMotion, y} ptr return (realToFrac x, realToFrac y) else if ty `elem` [ #{const GDK_ENTER_NOTIFY}, #{const GDK_LEAVE_NOTIFY}] then do (x :: #{gtk2hs_type gdouble}) <- #{peek GdkEventCrossing, x} ptr (y :: #{gtk2hs_type gdouble}) <- #{peek GdkEventCrossing, y} ptr return (realToFrac x, realToFrac y) else error ("eventCoordinates: none for event type "++show ty) class HasRootCoordinates a instance HasRootCoordinates EButton instance HasRootCoordinates EScroll instance HasRootCoordinates EMotion instance HasRootCoordinates ECrossing -- | Retrieve the @(x,y)@ coordinates of the mouse relative to the -- root (origin) of the screen. eventRootCoordinates :: HasRootCoordinates t => EventM t (Double, Double) eventRootCoordinates = do ptr <- ask liftIO $ do (ty :: #{gtk2hs_type GdkEventType}) <- peek (castPtr ptr) if ty `elem` [ #{const GDK_BUTTON_PRESS}, #{const GDK_2BUTTON_PRESS}, #{const GDK_3BUTTON_PRESS}, #{const GDK_BUTTON_RELEASE}] then do (x :: #{gtk2hs_type gdouble}) <- #{peek GdkEventButton, x_root} ptr (y :: #{gtk2hs_type gdouble}) <- #{peek GdkEventButton, y_root} ptr return (realToFrac x, realToFrac y) else if ty `elem` [ #{const GDK_SCROLL} ] then do (x :: #{gtk2hs_type gdouble}) <- #{peek GdkEventScroll, x_root} ptr (y :: #{gtk2hs_type gdouble}) <- #{peek GdkEventScroll, y_root} ptr return (realToFrac x, realToFrac y) else if ty `elem` [ #{const GDK_MOTION_NOTIFY} ] then do (x :: #{gtk2hs_type gdouble}) <- #{peek GdkEventMotion, x_root} ptr (y :: #{gtk2hs_type gdouble}) <- #{peek GdkEventMotion, y_root} ptr return (realToFrac x, realToFrac y) else if ty `elem` [ #{const GDK_ENTER_NOTIFY}, #{const GDK_LEAVE_NOTIFY}] then do (x :: #{gtk2hs_type gdouble}) <- #{peek GdkEventCrossing, x_root} ptr (y :: #{gtk2hs_type gdouble}) <- #{peek GdkEventCrossing, y_root} ptr return (realToFrac x, realToFrac y) else error ("eventRootCoordinates: none for event type "++show ty) class HasModifier a instance HasModifier EKey instance HasModifier EButton instance HasModifier EScroll instance HasModifier EMotion instance HasModifier ECrossing -- | Query the modifier keys that were depressed when the event happened. -- Sticky modifiers such as CapsLock are omitted in the return value. -- Use 'eventModifierAll' your application requires all modifiers. -- eventModifier :: HasModifier t => EventM t [Modifier] eventModifier = eM False -- | Query the modifier keys that were depressed when the event happened. -- The result includes sticky modifiers such as CapsLock. Normally, -- 'eventModifier' is more appropriate in applications. -- eventModifierAll :: HasModifier t => EventM t [Modifier] eventModifierAll = eM True foreign import ccall safe "gtk_accelerator_get_default_mod_mask" defModMask :: #gtk2hs_type guint eM allModifs = do let mask | allModifs = -1 | otherwise = defModMask ptr <- ask liftIO $ do (ty :: #{gtk2hs_type GdkEventType}) <- peek (castPtr ptr) if ty `elem` [ #{const GDK_KEY_PRESS}, #{const GDK_KEY_RELEASE}] then do (modif ::#gtk2hs_type guint) <- #{peek GdkEventKey, state} ptr return (toFlags (fromIntegral (modif .&. mask))) else if ty `elem` [ #{const GDK_BUTTON_PRESS}, #{const GDK_2BUTTON_PRESS}, #{const GDK_3BUTTON_PRESS}, #{const GDK_BUTTON_RELEASE}] then do (modif ::#gtk2hs_type guint) <- #{peek GdkEventButton, state} ptr return (toFlags (fromIntegral (modif .&. mask))) else if ty `elem` [ #{const GDK_SCROLL} ] then do (modif ::#gtk2hs_type guint) <- #{peek GdkEventScroll, state} ptr return (toFlags (fromIntegral (modif .&. mask))) else if ty `elem` [ #{const GDK_MOTION_NOTIFY} ] then do (modif ::#gtk2hs_type guint) <- #{peek GdkEventMotion, state} ptr return (toFlags (fromIntegral (modif .&. mask))) else if ty `elem` [ #{const GDK_ENTER_NOTIFY}, #{const GDK_LEAVE_NOTIFY}] then do (modif ::#gtk2hs_type guint) <- #{peek GdkEventCrossing, state} ptr return (toFlags (fromIntegral (modif .&. mask))) else error ("eventModifiers: none for event type "++show ty) class HasTime a instance HasTime EKey instance HasTime EButton instance HasTime EScroll instance HasTime EMotion instance HasTime ECrossing instance HasTime EProperty instance HasTime EProximity #if GTK_CHECK_VERSION(2,6,0) instance HasTime EOwnerChange #endif -- | The time (in milliseconds) when an event happened. This is used mostly -- for ordering events and responses to events. -- type TimeStamp = Word32 -- TODO: make this a newtype -- | Represents the current time, and can be used anywhere a time is expected. currentTime :: TimeStamp currentTime = #{const GDK_CURRENT_TIME} -- | Query the time when the event occurred. eventTime :: HasTime t => EventM t TimeStamp eventTime = do ptr <- ask liftIO $ do (ty :: #{gtk2hs_type GdkEventType}) <- peek (castPtr ptr) if ty `elem` [ #{const GDK_KEY_PRESS}, #{const GDK_KEY_RELEASE}] then do (time :: #gtk2hs_type guint32) <- #{peek GdkEventKey, time} ptr return (fromIntegral time) else if ty `elem` [ #{const GDK_BUTTON_PRESS}, #{const GDK_2BUTTON_PRESS}, #{const GDK_3BUTTON_PRESS}, #{const GDK_BUTTON_RELEASE}] then do (time :: #gtk2hs_type guint32) <- #{peek GdkEventButton, time} ptr return (fromIntegral time) else if ty `elem` [ #{const GDK_SCROLL} ] then do (time :: #gtk2hs_type guint32) <- #{peek GdkEventScroll, time} ptr return (fromIntegral time) else if ty `elem` [ #{const GDK_MOTION_NOTIFY} ] then do (time :: #gtk2hs_type guint32) <- #{peek GdkEventMotion, time} ptr return (fromIntegral time) else if ty `elem` [ #{const GDK_ENTER_NOTIFY}, #{const GDK_LEAVE_NOTIFY}] then do (time :: #gtk2hs_type guint32) <- #{peek GdkEventCrossing, time} ptr return (fromIntegral time) else if ty `elem` [ #{const GDK_PROPERTY_NOTIFY} ] then do (time :: #gtk2hs_type guint32) <- #{peek GdkEventProperty, time} ptr return (fromIntegral time) else if ty `elem` [ #{const GDK_PROXIMITY_IN}, #{const GDK_PROXIMITY_OUT}] then do (time :: #gtk2hs_type guint32) <- #{peek GdkEventProximity, time} ptr return (fromIntegral time) #if GTK_CHECK_VERSION(2,6,0) else if ty `elem` [ #{const GDK_OWNER_CHANGE} ] then do (time :: #gtk2hs_type guint32) <- #{peek GdkEventOwnerChange, time} ptr return (fromIntegral time) #endif else error ("eventModifiers: none for event type "++show ty) -- | The key value. See 'Graphics.UI.Gtk.Gdk.Keys.KeyVal'. eventKeyVal :: EventM EKey KeyVal eventKeyVal = ask >>= \ptr -> liftIO $ liftM fromIntegral (#{peek GdkEventKey, keyval} ptr :: IO #{gtk2hs_type guint}) -- | The key value as a string. See 'Graphics.UI.Gtk.Gdk.Keys.KeyVal'. eventKeyName :: EventM EKey String eventKeyName = liftM keyName $ eventKeyVal -- | The hardware key code. eventHardwareKeycode :: EventM EKey Word16 eventHardwareKeycode = ask >>= \ptr -> liftIO $ liftM fromIntegral (#{peek GdkEventKey, hardware_keycode} ptr :: IO #{gtk2hs_type guint16}) -- | The keyboard group. eventKeyboardGroup :: EventM EKey Word8 eventKeyboardGroup = ask >>= \ptr -> liftIO $ liftM fromIntegral (#{peek GdkEventKey, group} ptr :: IO #{gtk2hs_type guint8}) -- | Query the mouse buttons. eventButton :: EventM EButton MouseButton eventButton = ask >>= \ptr -> liftIO $ liftM (toEnum . fromIntegral) (#{peek GdkEventButton, button} ptr :: IO #{gtk2hs_type guint}) --- | Query the mouse click. eventClick :: EventM EButton Click eventClick = do ptr <- ask liftIO $ do (ty :: #{gtk2hs_type GdkEventType}) <- peek (castPtr ptr) case ty of #{const GDK_BUTTON_PRESS} -> return SingleClick #{const GDK_2BUTTON_PRESS} -> return DoubleClick #{const GDK_3BUTTON_PRESS} -> return TripleClick #{const GDK_BUTTON_RELEASE} -> return ReleaseClick _ -> error ("eventClick: non for event type "++show ty) -- | Query the direction of scrolling. eventScrollDirection :: EventM EScroll ScrollDirection eventScrollDirection = ask >>= \ptr -> liftIO $ liftM (toEnum . fromIntegral) (#{peek GdkEventScroll, direction} ptr :: IO #{gtk2hs_type GdkScrollDirection}) -- | Check if the motion event is only a hint rather than the full mouse -- movement information. eventIsHint :: EventM EMotion Bool eventIsHint = ask >>= \ptr -> liftIO $ liftM toBool (#{peek GdkEventMotion, is_hint} ptr :: IO #{gtk2hs_type gint16}) -- | Query a bounding box of the region that needs to be updated. eventArea :: EventM EExpose Rectangle eventArea = ask >>= \ptr -> liftIO $ (#{peek GdkEventExpose, area} ptr :: IO Rectangle) -- | Query the region that needs to be updated. eventRegion :: EventM EExpose Region eventRegion = ask >>= \ptr -> liftIO $ do (reg_ :: Ptr Region) <- #{peek GdkEventExpose, region} ptr reg_ <- gdk_region_copy reg_ makeNewRegion reg_ foreign import ccall "gdk_region_copy" gdk_region_copy :: Ptr Region -> IO (Ptr Region) -- | Get the visibility status of a window. eventVisibilityState :: EventM EVisibility VisibilityState eventVisibilityState = ask >>= \ptr -> liftIO $ liftM (toEnum . fromIntegral) (#{peek GdkEventVisibility, state} ptr :: IO #{gtk2hs_type GdkVisibilityState}) -- | Get the mode of the mouse cursor crossing a window. eventCrossingMode :: EventM ECrossing CrossingMode eventCrossingMode = ask >>= \ptr -> liftIO $ liftM (toEnum . fromIntegral) (#{peek GdkEventCrossing, mode} ptr :: IO #{gtk2hs_type GdkCrossingMode}) -- | Get the notify type of the mouse cursor crossing a window. eventNotifyType :: EventM ECrossing NotifyType eventNotifyType = ask >>= \ptr -> liftIO $ liftM (toEnum . fromIntegral) (#{peek GdkEventCrossing, detail} ptr :: IO #{gtk2hs_type GdkNotifyType}) -- | Query if the window has the focus or is an inferior window. eventCrossingFocus :: EventM ECrossing Bool eventCrossingFocus = ask >>= \ptr -> liftIO $ liftM toBool (#{peek GdkEventCrossing, focus} ptr :: IO #{gtk2hs_type gboolean}) -- | Query if a window gained focus (@True@) or lost the focus (@False@). eventFocusIn :: EventM EFocus Bool eventFocusIn = ask >>= \ptr -> liftIO $ liftM toBool (#{peek GdkEventFocus, in} ptr :: IO #{gtk2hs_type gint16}) -- | Get the @(x,y)@ position of the window within the parent window. eventPosition :: EventM EConfigure (Int,Int) eventPosition = ask >>= \ptr -> liftIO $ do (x :: #{gtk2hs_type gint}) <- #{peek GdkEventConfigure, x} ptr (y :: #{gtk2hs_type gint}) <- #{peek GdkEventConfigure, y} ptr return (fromIntegral x, fromIntegral y) -- | Get the new size of the window as @(width,height)@. eventSize :: EventM EConfigure (Int,Int) eventSize = ask >>= \ptr -> liftIO $ do (x :: #{gtk2hs_type gint}) <- #{peek GdkEventConfigure, width} ptr (y :: #{gtk2hs_type gint}) <- #{peek GdkEventConfigure, height} ptr return (fromIntegral x, fromIntegral y) eventProperty :: EventM EProperty Atom eventProperty = ask >>= \ptr -> liftIO $ liftM Atom (#{peek GdkEventProperty, atom} ptr :: IO (Ptr ())) -- | Query which window state bits have changed. eventWindowStateChanged :: EventM EWindowState [WindowState] eventWindowStateChanged = ask >>= \ptr -> liftIO $ liftM (toFlags . fromIntegral) (#{peek GdkEventWindowState, changed_mask} ptr :: IO #{gtk2hs_type GdkWindowState}) -- | Query the new window state. eventWindowState :: EventM EWindowState [WindowState] eventWindowState = ask >>= \ptr -> liftIO $ liftM (toFlags . fromIntegral) (#{peek GdkEventWindowState, new_window_state} ptr :: IO #{gtk2hs_type GdkWindowState}) #if GTK_CHECK_VERSION(2,6,0) -- | Query why a seleciton changed its owner. eventChangeReason :: EventM EOwnerChange OwnerChange eventChangeReason = ask >>= \ptr -> liftIO $ liftM (toEnum . fromIntegral) (#{peek GdkEventOwnerChange, reason} ptr :: IO #{gtk2hs_type GdkOwnerChange}) -- | Query what selection changed its owner. eventSelection :: EventM EOwnerChange SelectionTag eventSelection = ask >>= \ptr -> liftIO $ liftM Atom (#{peek GdkEventOwnerChange, selection} ptr :: IO (Ptr ())) -- | Query the time when the selection was taken over. eventSelectionTime :: EventM EOwnerChange TimeStamp eventSelectionTime = ask >>= \ptr -> liftIO $ liftM fromIntegral (#{peek GdkEventOwnerChange, selection_time} ptr :: IO (#{gtk2hs_type guint32})) #endif #if GTK_CHECK_VERSION(2,8,0) -- | Check if a keyboard (@True@) or a mouse pointer grap (@False@) was -- broken. eventKeyboardGrab :: EventM EGrabBroken Bool eventKeyboardGrab = ask >>= \ptr -> liftIO $ liftM toBool (#{peek GdkEventGrabBroken, keyboard} ptr :: IO #{gtk2hs_type gboolean}) -- | Check if a grab was broken implicitly. eventImplicit :: EventM EGrabBroken Bool eventImplicit = ask >>= \ptr -> liftIO $ liftM toBool (#{peek GdkEventGrabBroken, implicit} ptr :: IO #{gtk2hs_type gboolean}) -- | Get the new window that owns the grab or @Nothing@ if the window -- is not part of this application. eventGrabWindow :: EventM EGrabBroken (Maybe DrawWindow) eventGrabWindow = do ptr <- ask liftIO $ maybeNull (makeNewGObject mkDrawWindow) (#{peek GdkEventAny, window} ptr) #endif -- | Execute an event handler and assume it handled the event unless it -- threw a pattern match exception. tryEvent :: EventM any () -> EventM any Bool tryEvent act = do ptr <- ask liftIO $ (runReaderT (act >> return True) ptr) #if __GLASGOW_HASKELL__ >= 610 `catches` [ Handler (\ (PatternMatchFail _) -> return False) , Handler (\ e -> if isUserError e && "Pattern" `isPrefixOf` ioeGetErrorString e then return False else throw e) ] #else `catch` (\e -> case e of IOException e | "user error (Pattern" `isPrefixOf` show e -> return False PatternMatchFail _ -> return False _ -> throw e) #endif -- | Explicitly stop the handling of an event. This function should only be -- called inside a handler that is wrapped with 'tryEvent'. (It merely -- throws a bogus pattern matching error which 'tryEvent' interprets as if -- the handler does not handle the event.) stopEvent :: EventM any () stopEvent = liftIO $ throw (PatternMatchFail "EventM.stopEvent called explicitly")