{-# LANGUAGE CPP #-} -- -*-haskell-*- -- GIMP Toolkit (GTK) Widget Widget -- -- Author : Axel Simon -- -- Created: 27 April 2001 -- -- Copyright (C) 2001-2008 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. -- -- -- | -- Maintainer : gtk2hs-users@lists.sourceforge.net -- Stability : provisional -- Portability : portable (depends on GHC) -- -- The base class for all widgets. -- module Graphics.UI.Gtk.Abstract.Widget ( -- * Detail -- -- | The base class for all widgets. While a widget cannot be created directly, -- this module contains many useful methods common to all widgets. In -- particular, these functions are needed to add functionality to -- blank widgets such as 'DrawingArea' or 'Layout'. -- -- 'Widget' introduces style properties - these are basically object -- properties that are stored not on the object, but in the style object -- associated to the widget. Style properties are set in resource files. This -- mechanism is used for configuring such things as the location of the -- scrollbar arrows through the theme, giving theme authors more control over -- the look of applications without the need to write a theme engine in C. -- -- Widgets receive events, that is, signals that indicate some low-level -- user iteraction. The signal handlers for all these events have to -- return @True@ if the signal has been dealt with and @False@ if other -- signal handlers should be run. -- * Class Hierarchy -- -- | -- @ -- | 'GObject' -- | +----'Object' -- | +----Widget -- | +----/too many to list/ -- @ -- * Types Widget, WidgetClass, castToWidget, gTypeWidget, toWidget, EventMask(..), #if GTK_MAJOR_VERSION < 3 ExtensionMode(..), #endif GType, KeyVal, #if GTK_MAJOR_VERSION < 3 Region, Bitmap, #endif Requisition(..), Rectangle(..), Color, IconSize(..), StateType(..), TextDirection(..), AccelFlags(..), DirectionType(..), StockId, WidgetHelpType(..), Allocation, -- * Methods widgetShow, widgetShowNow, widgetHide, widgetShowAll, #if GTK_MAJOR_VERSION < 3 widgetHideAll, #endif widgetDestroy, #if GTK_CHECK_VERSION(3,0,0) widgetDraw, #endif widgetQueueDraw, widgetQueueResize, #if GTK_CHECK_VERSION(2,4,0) widgetQueueResizeNoRedraw, #endif #if GTK_CHECK_VERSION(3,8,0) widgetGetFrameClock, #endif #if GTK_CHECK_VERSION(3,10,0) widgetGetScaleFactor, #endif widgetSizeRequest, widgetGetChildRequisition, widgetSizeAllocate, #if GTK_CHECK_VERSION(3,10,0) widgetSizeAllocateWithBaseline, #endif widgetAddAccelerator, widgetRemoveAccelerator, widgetSetAccelPath, #if GTK_CHECK_VERSION(2,4,0) widgetCanActivateAccel, #endif widgetActivate, widgetIntersect, widgetHasIntersection, widgetGetIsFocus, widgetGrabFocus, widgetGrabDefault, widgetSetName, widgetGetName, widgetSetSensitive, widgetSetSensitivity, widgetGetParentWindow, #if GTK_MAJOR_VERSION < 3 widgetGetDrawWindow, #endif widgetDelEvents, widgetAddEvents, widgetGetEvents, widgetSetEvents, #if GTK_MAJOR_VERSION < 3 widgetSetExtensionEvents, widgetGetExtensionEvents, #endif widgetGetToplevel, widgetGetAncestor, #if GTK_MAJOR_VERSION < 3 widgetGetColormap, widgetSetColormap, #endif widgetGetPointer, widgetIsAncestor, widgetTranslateCoordinates, widgetSetStyle, widgetGetStyle, #if GTK_MAJOR_VERSION < 3 widgetPushColormap, widgetPopColormap, widgetSetDefaultColormap, widgetGetDefaultColormap, #endif widgetGetDefaultStyle, widgetSetDirection, widgetGetDirection, widgetSetDefaultDirection, widgetGetDefaultDirection, #if GTK_MAJOR_VERSION < 3 widgetShapeCombineMask, #if GTK_CHECK_VERSION(2,10,0) widgetInputShapeCombineMask, #endif #endif #if GTK_CHECK_VERSION(3,0,0) widgetShapeCombineRegion, widgetInputShapeCombineRegion, #endif #if GTK_MAJOR_VERSION < 3 #if GTK_CHECK_VERSION(2,14,0) widgetGetSnapshot, #endif #endif widgetPath, widgetClassPath, widgetGetCompositeName, #if GTK_CHECK_VERSION(3,0,0) widgetOverrideBackgroundColor, widgetOverrideColor, widgetOverrideFont, widgetOverrideSymbolicColor, widgetOverrideCursor, #endif widgetModifyStyle, widgetGetModifierStyle, widgetModifyFg, widgetModifyBg, widgetModifyText, widgetModifyBase, widgetModifyFont, widgetRestoreFg, widgetRestoreBg, widgetRestoreText, widgetRestoreBase, widgetCreatePangoContext, widgetGetPangoContext, widgetCreateLayout, widgetRenderIcon, widgetQueueDrawArea, #if GTK_CHECK_VERSION(3,0,0) widgetQueueDrawRegion, #endif #if GTK_MAJOR_VERSION < 3 widgetResetShapes, #endif widgetSetAppPaintable, widgetSetDoubleBuffered, widgetSetRedrawOnAllocate, widgetSetCompositeName, widgetMnemonicActivate, #if GTK_MAJOR_VERSION < 3 widgetSetScrollAdjustments, widgetRegionIntersect, #endif widgetGetAccessible, widgetChildFocus, widgetGetChildVisible, widgetGetParent, widgetGetSettings, #if GTK_CHECK_VERSION(2,2,0) widgetGetClipboard, widgetGetDisplay, widgetGetRootWindow, widgetGetScreen, widgetHasScreen, #endif widgetGetSizeRequest, widgetSetChildVisible, widgetSetSizeRequest, #if GTK_CHECK_VERSION(2,4,0) widgetSetNoShowAll, widgetGetNoShowAll, widgetListMnemonicLabels, widgetAddMnemonicLabel, widgetRemoveMnemonicLabel, #if GTK_CHECK_VERSION(2,10,0) #if GTK_MAJOR_VERSION < 3 widgetGetAction, #endif widgetIsComposited, #endif #endif #if GTK_CHECK_VERSION(2,12,0) widgetErrorBell, widgetKeynavFailed, widgetGetTooltipMarkup, widgetSetTooltipMarkup, widgetGetTooltipText, widgetSetTooltipText, widgetGetTooltipWindow, widgetSetTooltipWindow, widgetGetHasTooltip, widgetSetHasTooltip, widgetTriggerTooltipQuery, #endif #if GTK_CHECK_VERSION(2,14,0) widgetGetWindow, #endif #if GTK_CHECK_VERSION(3,8,0) widgetRegisterWindow, widgetUnregisterWindow, #endif #if GTK_CHECK_VERSION(3,0,0) cairoShouldDrawWindow, cairoTransformToWindow, #endif widgetReparent, #if GTK_CHECK_VERSION(2,18,0) widgetGetCanFocus, widgetSetCanFocus, widgetGetAllocation, #endif #if GTK_CHECK_VERSION(3,0,0) widgetGetAllocatedWidth, widgetGetAllocatedHeight, #endif #if GTK_CHECK_VERSION(3,10,0) widgetGetAllocatedBaseline, #endif #if GTK_CHECK_VERSION(3,14,0) widgetGetClip, widgetSetClip, #endif #if GTK_CHECK_VERSION(2,18,0) widgetGetAppPaintable, widgetGetCanDefault, widgetSetCanDefault, widgetGetHasWindow, widgetSetHasWindow, widgetGetSensitive, widgetIsSensitive, widgetGetState, widgetGetVisible, #endif #if GTK_CHECK_VERSION(3,8,0) widgetIsVisible, #endif #if GTK_CHECK_VERSION(3,0,0) widgetSetStateFlags, widgetUnsetStateFlags, widgetGetStateFlags, #endif #if GTK_CHECK_VERSION(2,18,0) widgetGetHasDefault, widgetGetHasFocus, #endif #if GTK_CHECK_VERSION(3,2,0) widgetHasVisibleFocus, #endif #if GTK_CHECK_VERSION(2,18,0) widgetHasGrab, widgetIsDrawable, widgetIsToplevel, widgetSetWindow, widgetSetReceivesDefault, widgetGetReceivesDefault, #endif #if GTK_CHECK_VERSION(3,0,0) widgetDeviceIsShadowed, #endif #if GTK_CHECK_VERSION(3,4,0) widgetGetModifierMask, #endif #if GTK_CHECK_VERSION(3,0,0) widgetSetSupportMultidevice, widgetGetSupportMultidevice, #endif widgetSetState, #if GTK_MAJOR_VERSION < 3 widgetGetSavedState, widgetGetSize, #endif widgetEvent, #if GTK_CHECK_VERSION(3,0,0) widgetGetHAlign, widgetSetHAlign, widgetGetVAlign, #if GTK_CHECK_VERSION(3,10,0) widgetGetVAlignWithBaseline, #endif widgetSetVAlign, #endif -- * Attributes widgetName, widgetParent, widgetWidthRequest, widgetHeightRequest, widgetMarginLeft, widgetMarginRight, #if GTK_CHECK_VERSION(3,12,0) widgetMarginStart, widgetMarginEnd, #endif widgetMarginTop, widgetMarginBottom, widgetVisible, widgetOpacity, widgetSensitive, widgetAppPaintable, widgetCanFocus, widgetHasFocus, widgetIsFocus, widgetCanDefault, widgetHasDefault, widgetReceivesDefault, widgetCompositeChild, widgetStyle, widgetState, widgetEvents, #if GTK_MAJOR_VERSION < 3 widgetExtensionEvents, #endif widgetExpand, widgetHExpand, widgetHExpandSet, widgetVExpand, widgetVExpandSet, widgetNoShowAll, widgetChildVisible, #if GTK_MAJOR_VERSION < 3 widgetColormap, #endif widgetCompositeName, widgetDirection, widgetTooltipMarkup, widgetTooltipText, widgetHasTooltip, #if GTK_CHECK_VERSION(2,20,0) widgetHasRcStyle, widgetGetRealized, widgetGetMapped, widgetSetRealized, widgetSetMapped, #endif #if GTK_CHECK_VERSION(3,0,0) widgetGetStyleContext, #endif -- * Signals realize, unrealize, mapSignal, unmapSignal, sizeRequest, sizeAllocate, showSignal, hideSignal, focus, stateChanged, #if GTK_CHECK_VERSION(3,0,0) stateFlagsChanged, #endif parentSet, hierarchyChanged, styleSet, directionChanged, grabNotify, popupMenuSignal, showHelp, accelClosuresChanged, screenChanged, queryTooltip, #if GTK_CHECK_VERSION(3,0,0) draw, #endif -- * Events buttonPressEvent, buttonReleaseEvent, configureEvent, deleteEvent, destroyEvent, enterNotifyEvent, exposeEvent, focusInEvent, focusOutEvent, #if GTK_CHECK_VERSION(2,8,0) grabBrokenEvent, #endif keyPressEvent, keyReleaseEvent, leaveNotifyEvent, mapEvent, motionNotifyEvent, noExposeEvent, proximityInEvent, proximityOutEvent, scrollEvent, unmapEvent, visibilityNotifyEvent, windowStateEvent, -- * Deprecated #ifndef DISABLE_DEPRECATED onButtonPress, afterButtonPress, onButtonRelease, afterButtonRelease, onClient, afterClient, onConfigure, afterConfigure, onDelete, afterDelete, onDestroyEvent, -- you probably want onDestroy afterDestroyEvent, onDirectionChanged, afterDirectionChanged, onEnterNotify, afterEnterNotify, onLeaveNotify, afterLeaveNotify, onExpose, afterExpose, onExposeRect, afterExposeRect, onFocus, afterFocus, onFocusIn, afterFocusIn, onFocusOut, afterFocusOut, onGrabFocus, afterGrabFocus, onDestroy, afterDestroy, onHide, afterHide, onHierarchyChanged, afterHierarchyChanged, onKeyPress, afterKeyPress, onKeyRelease, afterKeyRelease, onMnemonicActivate, afterMnemonicActivate, onMotionNotify, afterMotionNotify, onParentSet, afterParentSet, onPopupMenu, afterPopupMenu, onProximityIn, afterProximityIn, onProximityOut, afterProximityOut, onRealize, afterRealize, onScroll, afterScroll, onShow, afterShow, onSizeAllocate, afterSizeAllocate, onSizeRequest, afterSizeRequest, onStateChanged, afterStateChanged, onUnmap, afterUnmap, onUnrealize, afterUnrealize, onVisibilityNotify, afterVisibilityNotify, onWindowState, afterWindowState #endif ) where import Control.Monad (liftM, unless) import Data.Maybe (fromMaybe) import Control.Monad.Reader (ask) import Control.Monad.Trans (liftIO) import System.Glib.FFI import System.Glib.Flags (fromFlags, toFlags) #if GTK_CHECK_VERSION(3,0,0) import System.Glib.GError (failOnGError) import System.Glib.Flags (Flags) #endif import System.Glib.UTFString import System.Glib.Attributes import System.Glib.Properties import System.Glib.GType (GType) import System.Glib.GList (fromGList) import Graphics.UI.Gtk.Abstract.Object (makeNewObject) import Graphics.UI.Gtk.General.DNDTypes (Atom (Atom), SelectionTag) {#import Graphics.UI.Gtk.Types#} {#import Graphics.UI.Gtk.Signals#} import Graphics.UI.Gtk.Gdk.Enums (EventMask(..) #if GTK_MAJOR_VERSION < 3 , ExtensionMode(..) #endif ) import Graphics.UI.Gtk.Gdk.Keys (KeyVal) #if GTK_MAJOR_VERSION < 3 {#import Graphics.UI.Gtk.Gdk.Region#} (Region(..), makeNewRegion) {#import Graphics.UI.Gtk.Gdk.Pixmap#} (Bitmap) #endif import Graphics.UI.Gtk.General.Structs (Allocation, Rectangle(..) ,Requisition(..), Color, IconSize(..) ,Point #if !GTK_CHECK_VERSION(2,18,0) ,widgetGetState #endif #if GTK_MAJOR_VERSION < 3 ,widgetGetSavedState ,widgetGetDrawWindow, widgetGetSize #endif ) #ifndef DISABLE_DEPRECATED import Graphics.UI.Gtk.Gdk.Events (Event(..), marshalEvent, marshExposeRect) #endif import Graphics.UI.Gtk.Gdk.EventM (EventM, EventM, EAny, EKey, EButton, EScroll, EMotion, EExpose, EVisibility, ECrossing, EFocus, EConfigure, EProperty, EProximity, EWindowState, #if GTK_CHECK_VERSION(2,8,0) EGrabBroken, #endif ) import Graphics.UI.Gtk.General.Enums (StateType(..), TextDirection(..), AccelFlags(..), DirectionType(..), Modifier #if GTK_CHECK_VERSION(3,0,0) ,StateFlags(..), Align(..) #endif #if GTK_CHECK_VERSION(3,4,0) ,ModifierIntent(..) #endif ) {#import Graphics.Rendering.Pango.Types#} {#import Graphics.Rendering.Pango.BasicTypes#} (FontDescription(FontDescription), PangoLayout(PangoLayout), makeNewPangoString ) import Graphics.UI.Gtk.General.StockItems (StockId) import Data.IORef ( newIORef ) import Control.Monad.Reader ( runReaderT ) #if GTK_CHECK_VERSION(3,0,0) import Graphics.Rendering.Cairo.Types (Cairo(..), unCairo, Region(..), withRegion) import Graphics.Rendering.Cairo.Internal (Render(..)) #endif {# context lib="gtk" prefix="gtk" #} -------------------- -- Methods -- | Flags a widget to be displayed. Any widget that isn't shown will not -- appear on the screen. If you want to show all the widgets in a container, -- it's easier to call 'widgetShowAll' on the container, instead of -- individually showing the widgets. -- -- Remember that you have to show the containers containing a widget, in -- addition to the widget itself, before it will appear onscreen. -- -- When a toplevel container is shown, it is immediately realized and -- mapped; other shown widgets are realized and mapped when their toplevel -- container is realized and mapped. -- widgetShow :: WidgetClass self => self -> IO () widgetShow self = {# call widget_show #} (toWidget self) -- | Shows a widget. If the widget is an unmapped toplevel widget (i.e. a -- 'Window' that has not yet been shown), enter the main loop and wait for the -- window to actually be mapped. Be careful; because the main loop is running, -- anything can happen during this function. -- widgetShowNow :: WidgetClass self => self -> IO () widgetShowNow self = {# call widget_show_now #} (toWidget self) -- | Reverses the effects of 'widgetShow', causing the widget to be hidden -- (invisible to the user). -- widgetHide :: WidgetClass self => self -> IO () widgetHide self = {# call widget_hide #} (toWidget self) -- | Recursively shows a widget, and any child widgets (if the widget is a -- container). -- widgetShowAll :: WidgetClass self => self -> IO () widgetShowAll self = {# call widget_show_all #} (toWidget self) #if GTK_MAJOR_VERSION < 3 -- | Recursively hides a widget and any child widgets. -- -- Removed in Gtk3. widgetHideAll :: WidgetClass self => self -> IO () widgetHideAll self = {# call widget_hide_all #} (toWidget self) #endif -- | Destroys a widget. Equivalent to -- 'Graphics.UI.Gtk.Abstract.Object.objectDestroy'. -- -- When a widget is destroyed it will be removed from the screen and -- unrealized. When a widget is destroyed, it will break any references it -- holds to other objects.If the widget is inside a container, the widget will -- be removed from the container. The widget will be garbage collected -- (finalized) time after your last reference to the widget dissapears. -- -- In most cases, only toplevel widgets (windows) require explicit -- destruction, because when you destroy a toplevel its children will be -- destroyed as well. -- widgetDestroy :: WidgetClass self => self -> IO () widgetDestroy self = {# call widget_destroy #} (toWidget self) #if GTK_CHECK_VERSION(3,0,0) -- | Draws widget to @cr@. The top left corner of the widget will be drawn -- to the currently set origin point of @cr@. -- -- You should pass a cairo context as cr argument that is in an original -- state. Otherwise the resulting drawing is undefined. For example changing -- the operator using 'Graphics.Rendering.Cairo.setOperator' or the line -- width using 'Graphics.Rendering.Cairo.setLineWidth' might have unwanted -- side effects. You may however change the context’s transform matrix - like -- with 'Graphics.Rendering.Cairo.scale', 'Graphics.Rendering.Cairo.translate' -- or 'Graphics.Rendering.Cairo.setMatrix' and clip region with -- 'Graphics.Rendering.Cairo.clip' prior to calling this function. Also, it -- is fine to modify the context with 'Graphics.Rendering.Cairo.save' and -- 'Graphics.Rendering.Cairo.pushGroup' prior to calling this function. -- -- Note that special-purpose widgets may contain special code for rendering -- to the screen and might appear differently on screen and when rendered -- using 'widgetDraw'. -- widgetDraw :: WidgetClass self => self -- ^ the widget to draw. It must be drawable (see 'widgetIsDrawable') -- and a size must have been allocated. -> Cairo -- ^ a cairo context to draw to -> IO () widgetDraw self cr = {# call widget_draw #} (toWidget self) (castPtr $ unCairo cr) #endif -- * Functions to be used with 'Graphics.UI.Gtk.Misc.DrawingArea' or -- container implementations. -- | Send a redraw request to a widget. Equivalent to calling -- 'widgetQueueDrawArea' for the entire area of a widget. -- widgetQueueDraw :: WidgetClass self => self -> IO () widgetQueueDraw self = {# call widget_queue_draw #} (toWidget self) -- | This function is only for use in widget implementations. Flags a widget -- to have its size renegotiated; should be called when a widget for some -- reason has a new size request. For example, when you change the text in a -- 'Graphics.UI.Gtk.Display.Label.Label', -- 'Graphics.UI.Gtk.Display.Label.Label' queues a resize to ensure there's -- enough space for the new text. -- widgetQueueResize :: WidgetClass self => self -> IO () widgetQueueResize self = {# call widget_queue_resize #} (toWidget self) #if GTK_CHECK_VERSION(2,4,0) -- | This function works like 'widgetQueueResize', except that the widget is -- not invalidated. -- -- * Available since Gtk+ version 2.4 -- widgetQueueResizeNoRedraw :: WidgetClass self => self -> IO () widgetQueueResizeNoRedraw self = {# call widget_queue_resize_no_redraw #} (toWidget self) #endif #if GTK_CHECK_VERSION(3,8,0) -- | Obtains the frame clock for a widget. The frame clock is a global “ticker” -- that can be used to drive animations and repaints. The most common reason to -- get the frame clock is to call 'frameClockGetFrameTime', in order to get a -- time to use for animating. For example you might record the start of the -- animation with an initial value from 'frameClockGetFrameTime', and then -- update the animation by calling 'frameClockGetFrameTime' again during each -- repaint. -- -- 'frameClockRequestPhase' will result in a new frame on the clock, but won’t -- necessarily repaint any widgets. To repaint a widget, you have to use -- 'widgetQueueDraw' which invalidates the widget (thus scheduling it to -- receive a draw on the next frame). 'widgetQueueDraw' will also end up -- requesting a frame on the appropriate frame clock. -- -- A widget’s frame clock will not change while the widget is mapped. -- Reparenting a widget (which implies a temporary unmap) can change the -- widget’s frame clock. -- -- Unrealized widgets do not have a frame clock. -- widgetGetFrameClock :: WidgetClass self => self -> IO FrameClock widgetGetFrameClock self = makeNewGObject mkFrameClock $ {# call widget_get_frame_clock #} (toWidget self) #endif #if GTK_CHECK_VERSION(3,10,0) -- | Retrieves the internal scale factor that maps from window coordinates to -- the actual device pixels. On traditional systems this is 1, on high density -- outputs, it can be a higher value (typically 2). -- -- See 'drawWindowGetScaleFactor'. -- widgetGetScaleFactor :: WidgetClass self => self -> IO Int widgetGetScaleFactor self = liftM fromIntegral $ {# call widget_get_scale_factor #} (toWidget self) #endif -- | This function is typically used when implementing a -- 'Graphics.UI.Gtk.Abstract.Container.Container' subclass. Obtains the preferred size -- of a widget. The container uses this information to arrange its child -- widgets and decide what size allocations to give them with -- 'widgetSizeAllocate'. -- -- You can also call this function from an application, with some caveats. -- Most notably, getting a size request requires the widget to be associated -- with a screen, because font information may be needed. Multihead-aware -- applications should keep this in mind. -- -- Also remember that the size request is not necessarily the size a widget -- will actually be allocated. -- widgetSizeRequest :: WidgetClass self => self -> IO Requisition widgetSizeRequest self = alloca $ \reqPtr -> do {#call widget_size_request #} (toWidget self) (castPtr reqPtr) peek reqPtr -- | This function is only for use in widget implementations. Obtains the -- chached requisition information in the widget, unless someone has forced a -- particular geometry on the widget (e.g. with 'widgetSetUsize'), in which -- case it returns that geometry instead of the widget's requisition. -- -- This function differs from 'widgetSizeRequest' in that it retrieves the -- last size request value stored in the widget, while 'widgetSizeRequest' -- actually emits the 'sizeRequest' signal on the widget to compute the size -- request (which updates the widget's requisition information). -- -- Since this function does not emit the 'sizeRequest' signal, it can only be -- used when you know that the widget's requisition is up-to-date, that is, -- 'widgetSizeRequest' has been called since the last time a resize was -- queued. In general, only container implementations have this information; -- applications should use 'widgetSizeRequest'. -- widgetGetChildRequisition :: WidgetClass self => self -> IO Requisition widgetGetChildRequisition self = alloca $ \reqPtr -> do {#call widget_get_child_requisition #} (toWidget self) (castPtr reqPtr) peek reqPtr -- | This function is only used by -- 'Graphics.UI.Gtk.Abstract.Container.Container' subclasses, to assign a -- size and position to their child widgets. -- widgetSizeAllocate :: WidgetClass self => self -> Allocation -- ^ The @x@ and @y@ values of the rectangle determine the -- the position of the widget's area relative to its parent -- allocation. -> IO () widgetSizeAllocate self rect = with rect $ \rectPtr -> {#call widget_size_allocate#} (toWidget self) (castPtr rectPtr) #if GTK_CHECK_VERSION(3,10,0) -- | This function is only used by -- 'Graphics.UI.Gtk.Abstract.Container.Container' subclasses, to assign a -- size, position and (optionally) baseline to their child widgets. -- -- In this function, the allocation and baseline may be adjusted. It will -- be forced to a 1x1 minimum size, and the adjust_size_allocation virtual -- and adjust_baseline_allocation methods on the child will be used to adjust -- the allocation and baseline. Standard adjustments include removing the -- widget's margins, and applying the widget’s 'widgetHAlign' and -- 'widgetVAlign' properties. -- -- If the child widget does not have a valign of AlignBaseline the baseline -- argument is ignored and -1 is used instead. -- widgetSizeAllocateWithBaseline :: WidgetClass self => self -> Allocation -- ^ The @x@ and @y@ values of the rectangle determine the -- the position of the widget's area relative to its parent -- allocation. -> Int -- ^ The baseline of the child, or -1 -> IO () widgetSizeAllocateWithBaseline self rect baseline = with rect $ \rectPtr -> {#call widget_size_allocate_with_baseline#} (toWidget self) (castPtr rectPtr) (fromIntegral baseline) #endif -- %hash c:1e14 d:53c5 -- | Installs an accelerator for this @widget@ in @accelGroup@ that causes -- @accelSignal@ to be emitted if the accelerator is activated. The -- @accelGroup@ needs to be added to the widget's toplevel via -- 'windowAddAccelGroup', and the signal must be of type @G_RUN_ACTION@. -- Accelerators added through this function are not user changeable during -- runtime. If you want to support accelerators that can be changed by the -- user, use 'accelMapAddEntry' and 'widgetSetAccelPath' or -- 'menuItemSetAccelPath' instead. -- widgetAddAccelerator :: (WidgetClass self, GlibString string) => self -> string -- ^ @accelSignal@ - widget signal to emit on accelerator -- activation -> AccelGroup -- ^ @accelGroup@ - accel group for this widget, added to -- its toplevel -> KeyVal -- ^ @accelKey@ - the key of the accelerator -> [Modifier] -- ^ @accelMods@ - modifier key combination of the -- accelerator -> [AccelFlags] -- ^ @accelFlags@ - flag accelerators, e.g. 'AccelVisible' -> IO () widgetAddAccelerator self accelSignal accelGroup accelKey accelMods accelFlags = withUTFString accelSignal $ \accelSignalPtr -> {# call gtk_widget_add_accelerator #} (toWidget self) accelSignalPtr accelGroup (fromIntegral accelKey) ((fromIntegral . fromFlags) accelMods) ((fromIntegral . fromFlags) accelFlags) -- %hash c:3442 d:dfe8 -- | Removes an accelerator from @widget@, previously installed with -- 'widgetAddAccelerator'. -- widgetRemoveAccelerator :: WidgetClass self => self -> AccelGroup -- ^ @accelGroup@ - accel group for this widget -> KeyVal -- ^ @accelKey@ - the key of the accelerator -> [Modifier] -- ^ @accelMods@ - modifier key combination of the -- accelerator -> IO Bool -- ^ returns whether an accelerator was installed and could -- be removed widgetRemoveAccelerator self accelGroup accelKey accelMods = liftM toBool $ {# call gtk_widget_remove_accelerator #} (toWidget self) accelGroup (fromIntegral accelKey) ((fromIntegral . fromFlags) accelMods) -- %hash c:f8d4 d:bd7f -- | Given an accelerator group, @accelGroup@, and an accelerator path, -- @accelPath@, sets up an accelerator in @accelGroup@ so whenever the key -- binding that is defined for @accelPath@ is pressed, @widget@ will be -- activated. This removes any accelerators (for any accelerator group) -- installed by previous calls to 'widgetSetAccelPath'. Associating -- accelerators with paths allows them to be modified by the user and the -- modifications to be saved for future use. (See 'accelMapSave'.) -- -- This function is a low level function that would most likely be used by a -- menu creation system like 'ItemFactory'. If you use 'ItemFactory', setting -- up accelerator paths will be done automatically. -- -- Even when you you aren't using 'ItemFactory', if you only want to set up -- accelerators on menu items 'menuItemSetAccelPath' provides a somewhat more -- convenient interface. -- widgetSetAccelPath :: (WidgetClass self, GlibString string) => self -> string -- ^ @accelPath@ - path used to look up the accelerator -> AccelGroup -- ^ @accelGroup@ - a 'AccelGroup'. -> IO () widgetSetAccelPath self accelPath accelGroup = withUTFString accelPath $ \accelPathPtr -> {# call gtk_widget_set_accel_path #} (toWidget self) accelPathPtr accelGroup #if GTK_CHECK_VERSION(2,4,0) -- %hash c:157e d:82ae -- | Determines whether an accelerator that activates the signal identified by -- @signalId@ can currently be activated. This is done by emitting the -- 'canActivateAccel' signal on the widget the signal is attached to; if the -- signal isn't overridden by a handler or in a derived widget, then the -- default check is that the widget must be sensitive, and the widget and all -- its ancestors mapped. -- -- * Available since Gtk+ version 2.4 -- widgetCanActivateAccel :: WidgetClass self => (ConnectId self) -- ^ @signalId@ - the ID of a signal installed on @widget@ -> IO Bool -- ^ returns @True@ if the accelerator can be activated. widgetCanActivateAccel (ConnectId signalId self) = liftM toBool $ {# call gtk_widget_can_activate_accel #} (toWidget self) (fromIntegral signalId) #endif -- | For widgets that can be \"activated\" (buttons, menu items, etc.) this -- function activates them. Activation is what happens when you press Enter on -- a widget during key navigation. If @widget@ isn't activatable, the function -- returns @False@. -- widgetActivate :: WidgetClass self => self -> IO Bool -- ^ returns @True@ if the widget was activatable widgetActivate self = liftM toBool $ {# call widget_activate #} (toWidget self) -- | Computes the intersection of a widget's area and @area@, returning the -- intersection, and returns @Nothing@ if there was no intersection. -- widgetIntersect :: WidgetClass self => self -> Rectangle -- ^ @area@ - a rectangle -> IO (Maybe Rectangle) -- ^ returns the intersection or @Nothing@ widgetIntersect self area = with area $ \areaPtr -> alloca $ \intersectionPtr -> do hasIntersection <- {# call unsafe widget_intersect #} (toWidget self) (castPtr areaPtr) (castPtr intersectionPtr) if (toBool hasIntersection) then liftM Just $ peek intersectionPtr else return Nothing -- | Check if the widget intersects with a given area. -- widgetHasIntersection :: WidgetClass self => self -> Rectangle -- ^ @area@ - a rectangle -> IO Bool -- ^ returns @True@ if there was an intersection widgetHasIntersection self area = liftM toBool $ with area $ \areaPtr -> {# call unsafe widget_intersect #} (toWidget self) (castPtr areaPtr) (castPtr nullPtr) -- %hash d:1cab -- | Determines if the widget is the focus widget within its toplevel. (This -- does not mean that the 'widgetHasFocus' attribute is necessarily set; -- 'widgetHasFocus' will only be set if the toplevel widget additionally has -- the global input focus.) -- widgetGetIsFocus :: WidgetClass self => self -> IO Bool -- ^ returns @True@ if the widget is the focus widget. widgetGetIsFocus self = liftM toBool $ {# call unsafe widget_is_focus #} (toWidget self) -- %hash d:e1e -- | Causes @widget@ to have the keyboard focus for the 'Window' it's inside. -- @widget@ must be a focusable widget, such as a -- 'Graphics.UI.Gtk.Entry.Entry'; something like -- 'Graphics.UI.Gtk.Ornaments.Frame' won't work. (More precisely, it must have -- the 'widgetCanFocus' flag set.) -- widgetGrabFocus :: WidgetClass self => self -> IO () widgetGrabFocus self = {# call widget_grab_focus #} (toWidget self) -- %hash c:e5e9 d:412a -- | Causes @widget@ to become the default widget. @widget@ must have the -- 'canDefault' flag set. The default widget is -- activated when the user presses Enter in a window. Default widgets must be -- activatable, that is, 'widgetActivate' should affect them. -- widgetGrabDefault :: WidgetClass self => self -> IO () widgetGrabDefault self = {# call gtk_widget_grab_default #} (toWidget self) -- %hash c:4f62 d:d05a -- | Widgets can be named, which allows you to refer to them from a gtkrc -- file. You can apply a style to widgets with a particular name in the gtkrc -- file. See the documentation for gtkrc files. -- -- Note that widget names are separated by periods in paths (see -- 'widgetPath'), so names with embedded periods may cause confusion. -- widgetSetName :: (WidgetClass self, GlibString string) => self -> string -- ^ @name@ - name for the widget -> IO () widgetSetName self name = withUTFString name $ \namePtr -> {# call widget_set_name #} (toWidget self) namePtr -- | Retrieves the name of a widget. See 'widgetSetName' for the significance -- of widget names. -- widgetGetName :: (WidgetClass self, GlibString string) => self -> IO string widgetGetName self = {# call unsafe widget_get_name #} (toWidget self) >>= peekUTFString -- %hash c:25b1 d:f898 -- | Sets the sensitivity of a widget. A widget is sensitive if the user can -- interact with it. Insensitive widgets are \"grayed out\" and the user can't -- interact with them. Insensitive widgets are known as \"inactive\", -- \"disabled\", or \"ghosted\" in some other toolkits. -- widgetSetSensitive :: WidgetClass self => self -> Bool -- ^ @sensitive@ - @True@ to make the widget sensitive -> IO () widgetSetSensitive self sensitive = {# call gtk_widget_set_sensitive #} (toWidget self) (fromBool sensitive) -- bad spelling backwards compatability definition widgetSetSensitivity :: WidgetClass self => self -> Bool -> IO () widgetSetSensitivity = widgetSetSensitive -- | Gets the widget's parent window. -- widgetGetParentWindow :: WidgetClass self => self -> IO DrawWindow widgetGetParentWindow self = makeNewGObject mkDrawWindow $ {# call gtk_widget_get_parent_window #} (toWidget self) -- | Disable event signals. -- -- * Remove events from the 'EventMask' of this widget. The event mask -- determines which events a widget will receive. Events are signals -- that return an 'Event' data type. On connecting to a such a signal, -- the event mask is automatically adjusted so that he signal is emitted. -- This function is useful to disable the reception of the signal. It -- should be called whenever all signals receiving an 'Event' -- have been disconnected. -- widgetDelEvents :: WidgetClass self => self -> [EventMask] -> IO () widgetDelEvents self events = do mask <- {#call unsafe widget_get_events#} (toWidget self) let mask' = mask .&. (complement (fromIntegral $ fromFlags events)) {#call unsafe widget_set_events#} (toWidget self) mask' -- | Enable event signals. -- -- * See 'widgetDelEvents'. -- widgetAddEvents :: WidgetClass self => self -> [EventMask] -> IO () widgetAddEvents self [] = return () -- special [] case to work around a GTK+ bug, see: -- http://bugzilla.gnome.org/show_bug.cgi?id=316702 widgetAddEvents self events = {# call unsafe widget_add_events #} (toWidget self) (fromIntegral $ fromFlags events) -- | Get enabled event signals. -- -- * See 'widgetDelEvents'. -- widgetGetEvents :: WidgetClass self => self -> IO [EventMask] widgetGetEvents self = liftM (toFlags . fromIntegral) $ {# call unsafe widget_get_events #} (toWidget self) -- %hash c:468a d:49a0 -- | Sets the event mask (see 'EventMask') for a widget. The event mask -- determines which events a widget will receive. Keep in mind that different -- widgets have different default event masks, and by changing the event mask -- you may disrupt a widget's functionality, so be careful. This function must -- be called while a widget is unrealized. Consider 'widgetAddEvents' for -- widgets that are already realized, or if you want to preserve the existing -- event mask. This function can't be used with 'NoWindow' widgets; to get -- events on those widgets, place them inside a -- 'Graphics.UI.Gtk.Misc.EventBox' and receive events on the event box. -- widgetSetEvents :: WidgetClass self => self -> [EventMask] -- ^ @events@ - event mask -> IO () widgetSetEvents self events = {# call unsafe widget_set_events #} (toWidget self) (fromIntegral $ fromFlags events) #if GTK_MAJOR_VERSION < 3 -- %hash c:4f2c d:781 -- | Sets the extension events mask to @mode@. See 'ExtensionMode' and -- 'inputSetExtensionEvents'. -- widgetSetExtensionEvents :: WidgetClass self => self -> [ExtensionMode] -> IO () widgetSetExtensionEvents self mode = {# call widget_set_extension_events #} (toWidget self) ((fromIntegral . fromFlags) mode) -- %hash c:c824 d:e611 -- | Retrieves the extension events the widget will receive; see -- 'widgetSetExtensionEvents'. -- widgetGetExtensionEvents :: WidgetClass self => self -> IO [ExtensionMode] widgetGetExtensionEvents self = liftM (toFlags . fromIntegral) $ {# call widget_get_extension_events #} (toWidget self) #endif -- %hash c:270b d:8877 -- | This function returns the topmost widget in the container hierarchy -- @widget@ is a part of. If @widget@ has no parent widgets, it will be -- returned as the topmost widget. -- widgetGetToplevel :: WidgetClass self => self -- ^ @widget@ - the widget in question -> IO Widget -- ^ returns the topmost ancestor of @widget@, or @widget@ -- itself if there's no ancestor. widgetGetToplevel self = makeNewObject mkWidget $ {# call unsafe widget_get_toplevel #} (toWidget self) -- %hash c:17bc d:f8f9 -- | Gets the first ancestor of @widget@ with type @widgetType@. For example, -- @widgetGetAncestor widget gTypeBox@ gets the first 'Box' that's -- an ancestor of @widget@. See note about checking for a toplevel -- 'Window' in the docs for 'widgetGetToplevel'. -- -- Note that unlike 'widgetIsAncestor', 'widgetGetAncestor' considers -- @widget@ to be an ancestor of itself. -- widgetGetAncestor :: WidgetClass self => self -> GType -- ^ @widgetType@ - ancestor type -> IO (Maybe Widget) -- ^ returns the ancestor widget, or @Nothing@ if not found widgetGetAncestor self widgetType = do ptr <- {# call gtk_widget_get_ancestor #} (toWidget self) widgetType if ptr==nullPtr then return Nothing else liftM Just $ makeNewObject mkWidget (return ptr) #if GTK_MAJOR_VERSION < 3 -- %hash c:bd95 d:eb94 -- | Gets the colormap that will be used to render @widget@. -- widgetGetColormap :: WidgetClass self => self -> IO Colormap -- ^ returns the colormap used by @widget@ widgetGetColormap self = makeNewGObject mkColormap $ {# call gtk_widget_get_colormap #} (toWidget self) -- %hash c:cba1 d:ffeb -- | Sets the colormap for the widget to the given value. Widget must not have -- been previously realized. This probably should only be used from an 'init' -- function (i.e. from the constructor for the widget). -- widgetSetColormap :: WidgetClass self => self -> Colormap -- ^ @colormap@ - a colormap -> IO () widgetSetColormap self colormap = {# call gtk_widget_set_colormap #} (toWidget self) colormap #endif -- %hash c:3522 d:5637 -- | Obtains the location of the mouse pointer in widget coordinates. Widget -- coordinates are a bit odd; for historical reasons, they are defined as -- 'widgetGetParentWindow' coordinates for widgets that are not 'NoWindow' widgets, -- and are relative to the widget's allocation's (x,y) for -- widgets that are 'NoWindow' widgets. -- widgetGetPointer :: WidgetClass self => self -> IO (Int, Int) -- ^ @(x, y)@ - X Y coordinate widgetGetPointer self = alloca $ \xPtr -> alloca $ \yPtr -> {# call gtk_widget_get_pointer #} (toWidget self) xPtr yPtr >> peek xPtr >>= \x -> peek yPtr >>= \y -> return (fromIntegral x, fromIntegral y) -- %hash c:499d -- | Determines whether @widget@ is somewhere inside @ancestor@, possibly with -- intermediate containers. -- widgetIsAncestor :: (WidgetClass self, WidgetClass ancestor) => self -- ^ @widget@ - the widget in question -> ancestor -- ^ @ancestor@ - another 'Widget' -> IO Bool -- ^ returns @True@ if @ancestor@ contains @widget@ as a child, -- grandchild, great grandchild, etc. widgetIsAncestor self ancestor = liftM toBool $ {# call unsafe widget_is_ancestor #} (toWidget self) (toWidget ancestor) -- %hash c:8661 -- | Translate coordinates relative to @srcWidget@'s allocation to coordinates -- relative to @destWidget@'s allocations. In order to perform this operation, -- both widgets must be realized, and must share a common toplevel. -- widgetTranslateCoordinates :: (WidgetClass self, WidgetClass destWidget) => self -- ^ @srcWidget@ - a 'Widget' -> destWidget -- ^ @destWidget@ - a 'Widget' -> Int -- ^ @srcX@ - X position relative to @srcWidget@ -> Int -- ^ @srcY@ - Y position relative to @srcWidget@ -> IO (Maybe (Int, Int)) -- ^ @Just (destX, destY)@ - X and Y position -- relative to @destWidget@. Returns @Nothing@ if -- either widget was not realized, or there was no -- common ancestor. widgetTranslateCoordinates self destWidget srcX srcY = alloca $ \destXPtr -> alloca $ \destYPtr -> do worked <- {# call gtk_widget_translate_coordinates #} (toWidget self) (toWidget destWidget) (fromIntegral srcX) (fromIntegral srcY) destXPtr destYPtr if (toBool worked) then do destX <- peek destXPtr destY <- peek destYPtr return (Just (fromIntegral destX, fromIntegral destY)) else return Nothing -- %hash c:596c d:b7e5 -- | Sets the 'Style' for a widget. You probably don't want -- to use this function; it interacts badly with themes, because themes work by -- replacing the 'Style'. Instead, use 'widgetModifyStyle'. -- widgetSetStyle :: WidgetClass self => self -> Maybe Style -- ^ @style@ - a 'Style', or @Nothing@ to remove the effect of a previous -- 'widgetSetStyle' and go back to the default style -> IO () widgetSetStyle self style = {# call gtk_widget_set_style #} (toWidget self) (fromMaybe (Style nullForeignPtr) style) -- | Retrieve the 'Style' associated with the widget. -- widgetGetStyle :: WidgetClass widget => widget -> IO Style widgetGetStyle widget = do {# call gtk_widget_ensure_style #} (toWidget widget) makeNewGObject mkStyle $ {# call gtk_widget_get_style #} (toWidget widget) #if GTK_MAJOR_VERSION < 3 -- %hash c:d5ed d:dc10 -- | Pushes @cmap@ onto a global stack of colormaps; the topmost colormap on -- the stack will be used to create all widgets. Remove @cmap@ with -- 'widgetPopColormap'. There's little reason to use this function. -- widgetPushColormap :: Colormap -- ^ @cmap@ - a 'Colormap' -> IO () widgetPushColormap cmap = {# call gtk_widget_push_colormap #} cmap -- %hash c:7300 d:2920 -- | Removes a colormap pushed with 'widgetPushColormap'. -- widgetPopColormap :: IO () widgetPopColormap = {# call gtk_widget_pop_colormap #} -- %hash c:1f73 d:590e -- | Sets the default colormap to use when creating widgets. -- 'widgetPushColormap' is a better function to use if you only want to affect -- a few widgets, rather than all widgets. -- widgetSetDefaultColormap :: Colormap -- ^ @colormap@ - a 'Colormap' -> IO () widgetSetDefaultColormap colormap = {# call gtk_widget_set_default_colormap #} colormap #endif -- %hash c:e71b d:72c2 -- | Returns the default style used by all widgets initially. -- widgetGetDefaultStyle :: IO Style -- ^ returns the default style. This 'Style' object is owned by -- Gtk and should not be modified. widgetGetDefaultStyle = makeNewGObject mkStyle $ {# call gtk_widget_get_default_style #} #if GTK_MAJOR_VERSION < 3 -- %hash c:d731 d:52bf -- | Obtains the default colormap used to create widgets. -- widgetGetDefaultColormap :: IO Colormap -- ^ returns default widget colormap widgetGetDefaultColormap = makeNewGObject mkColormap $ {# call gtk_widget_get_default_colormap #} #endif -- | Sets the reading direction on a particular widget. This direction -- controls the primary direction for widgets containing text, and also the -- direction in which the children of a container are packed. The ability to -- set the direction is present in order so that correct localization into -- languages with right-to-left reading directions can be done. Generally, -- applications will let the default reading direction present, except for -- containers where the containers are arranged in an order that is explicitely -- visual rather than logical (such as buttons for text justification). -- -- If the direction is set to 'TextDirNone', then the value set by -- 'widgetSetDefaultDirection' will be used. -- widgetSetDirection :: WidgetClass self => self -> TextDirection -> IO () widgetSetDirection self dir = {# call widget_set_direction #} (toWidget self) ((fromIntegral . fromEnum) dir) -- | Gets the reading direction for a particular widget. See -- 'widgetSetDirection'. -- widgetGetDirection :: WidgetClass self => self -> IO TextDirection widgetGetDirection self = liftM (toEnum . fromIntegral) $ {# call widget_get_direction #} (toWidget self) -- %hash c:ff9a -- | Sets the default reading direction for widgets where the direction has -- not been explicitly set by 'widgetSetDirection'. -- widgetSetDefaultDirection :: TextDirection -- ^ @dir@ - the new default direction. This cannot be -- 'TextDirNone'. -> IO () widgetSetDefaultDirection dir = {# call gtk_widget_set_default_direction #} ((fromIntegral . fromEnum) dir) -- | Obtains the current default reading direction. See -- 'widgetSetDefaultDirection'. -- widgetGetDefaultDirection :: IO TextDirection widgetGetDefaultDirection = liftM (toEnum . fromIntegral) $ {# call gtk_widget_get_default_direction #} #if GTK_MAJOR_VERSION < 3 -- %hash c:c7ba d:3a9c -- | Sets a shape for this widget's 'DrawWindow'. This allows for transparent -- windows etc., see 'windowShapeCombineMask' for more information. -- widgetShapeCombineMask :: WidgetClass self => self -> Maybe Bitmap -- ^ @shapeMask@ - shape to be added, or @Nothint@ to remove an -- existing shape. -> Int -- ^ @offsetX@ - X position of shape mask with respect to @window@. -> Int -- ^ @offsetY@ - Y position of shape mask with respect to @window@. -> IO () widgetShapeCombineMask self shapeMask offsetX offsetY = case (fromMaybe (Pixmap nullForeignPtr) shapeMask) of Pixmap fPtr -> withForeignPtr fPtr $ \bitmapPtr -> {# call gtk_widget_shape_combine_mask #} (toWidget self) (castPtr bitmapPtr) (fromIntegral offsetX) (fromIntegral offsetY) #endif #if GTK_MAJOR_VERSION < 3 #if GTK_CHECK_VERSION(2,10,0) -- %hash c:3c29 d:68e2 -- | Sets an input shape for this widget's GDK window. This allows for windows -- which react to mouse click in a nonrectangular region, see -- 'windowInputShapeCombineMask' for more information. -- -- * Available since Gtk+ version 2.10 -- widgetInputShapeCombineMask :: WidgetClass self => self -> Maybe Bitmap -- ^ @shapeMask@ - shape to be added, or @Nothint@ to remove an -- existing shape. -> Int -- ^ @offsetX@ - X position of shape mask with respect to @window@. -> Int -- ^ @offsetY@ - Y position of shape mask with respect to @window@. -> IO () widgetInputShapeCombineMask self shapeMask offsetX offsetY = case (fromMaybe (Pixmap nullForeignPtr) shapeMask) of Pixmap fPtr -> withForeignPtr fPtr $ \bitmapPtr -> {# call gtk_widget_input_shape_combine_mask #} (toWidget self) (castPtr bitmapPtr) (fromIntegral offsetX) (fromIntegral offsetY) #endif #endif #if GTK_CHECK_VERSION(3,0,0) -- | Sets a shape for this widget’s GDK window. This allows for transparent -- windows etc., see 'drawWindowShapeCombineRegion' for more information. widgetShapeCombineRegion :: WidgetClass self => self -> Maybe Region -> IO () widgetShapeCombineRegion self region = withRegion (fromMaybe (Region nullForeignPtr) region) $ \ptrRegion -> {# call gtk_widget_shape_combine_region #} (toWidget self) (castPtr ptrRegion) -- | Sets an input shape for this widget’s GDK window. This allows for windows -- which react to mouse click in a nonrectangular region, -- see 'drawWindowInputShapeCombineRegion' for more information. widgetInputShapeCombineRegion :: WidgetClass self => self -> Maybe Region -> IO () widgetInputShapeCombineRegion self region = withRegion (fromMaybe (Region nullForeignPtr) region) $ \ptrRegion -> {# call gtk_widget_input_shape_combine_region #} (toWidget self) (castPtr ptrRegion) #endif #if GTK_MAJOR_VERSION < 3 #if GTK_CHECK_VERSION(2,14,0) -- | Create a 'Pixmap' of the contents of the widget and its children. -- -- Works even if the widget is obscured. The depth and visual of the resulting pixmap is dependent on -- the widget being snapshot and likely differs from those of a target widget displaying the -- pixmap. The function 'pixbufGetFromDrawable' can be used to convert the pixmap to a visual -- independant representation. -- -- The snapshot area used by this function is the widget's allocation plus any extra space occupied by -- additional windows belonging to this widget (such as the arrows of a spin button). Thus, the -- resulting snapshot pixmap is possibly larger than the allocation. -- -- The resulting pixmap is shrunken to match the specified @clipRect@. The -- (x,y) coordinates of @clipRect@ are interpreted widget relative. If width or height of @clipRect@ are -- 0 or negative, the width or height of the resulting pixmap will be shrunken by the respective -- amount. For instance a @clipRect@ { +5, +5, -10, -10 } will chop off 5 pixels at each side of the -- snapshot pixmap. @clipRect@ will contain the exact widget-relative snapshot coordinates -- upon return. A @clipRect@ of { -1, -1, 0, 0 } can be used to preserve the auto-grown snapshot area -- and use @clipRect@ as a pure output parameter. -- -- The returned pixmap can be 'Nothing', if the resulting @clipArea@ was empty. widgetGetSnapshot :: WidgetClass self => self -> Rectangle -> IO (Maybe Pixmap) -- ^ returns 'Pixmap' snapshot of the widget widgetGetSnapshot widget clipRect = maybeNull (wrapNewGObject mkPixmap) $ with clipRect $ \ clipRectPtr -> {#call gtk_widget_get_snapshot #} (toWidget widget) (castPtr clipRectPtr) #endif #endif -- %hash c:7e36 d:616f -- | Obtains the full path to @widget@. The path is simply the name of a -- widget and all its parents in the container hierarchy, separated by periods. -- The name of a widget comes from 'widgetGetName'. Paths are used to apply -- styles to a widget in gtkrc configuration files. Widget names are the type -- of the widget by default (e.g. \"GtkButton\") or can be set to an -- application-specific value with 'widgetSetName'. By setting the name of a -- widget, you allow users or theme authors to apply styles to that specific -- widget in their gtkrc file. Also returns the path in reverse -- order, i.e. starting with the widget's name instead of starting with the -- name of the widget's outermost ancestor. -- widgetPath :: (WidgetClass self, GlibString string) => self -> IO (Int, string, string) -- ^ @(pathLength, path, pathReversed)@ - length -- of the path, path string and reverse path -- string widgetPath self = alloca $ \pathLengthPtr -> alloca $ \pathPtr -> alloca $ \pathReversedPtr -> {# call gtk_widget_path #} (toWidget self) pathLengthPtr pathPtr pathReversedPtr >> peek pathLengthPtr >>= \pathLength -> peek pathPtr >>= readUTFString >>= \path -> peek pathReversedPtr >>= readUTFString >>= \pathReversed -> return (fromIntegral pathLength, path, pathReversed) -- %hash c:d4a6 -- | Same as 'widgetPath', but always uses the name of a widget's type, never -- uses a custom name set with 'widgetSetName'. -- widgetClassPath :: (WidgetClass self, GlibString string) => self -> IO (Int, string, string) -- ^ @(pathLength, path, pathReversed)@ - length -- of the path, path string and reverse path -- string widgetClassPath self = alloca $ \pathLengthPtr -> alloca $ \pathPtr -> alloca $ \pathReversedPtr -> {# call gtk_widget_class_path #} (toWidget self) pathLengthPtr pathPtr pathReversedPtr >> peek pathLengthPtr >>= \pathLength -> peek pathPtr >>= readUTFString >>= \path -> peek pathReversedPtr >>= readUTFString >>= \pathReversed -> return (fromIntegral pathLength, path, pathReversed) -- %hash c:769e -- | Obtains the composite name of a widget. -- widgetGetCompositeName :: (WidgetClass self, GlibString string) => self -> IO (Maybe string) -- ^ returns the composite name of @widget@, or -- @Nothing@ if @widget@ is not a composite child. widgetGetCompositeName self = {# call gtk_widget_get_composite_name #} (toWidget self) >>= maybePeek peekUTFString #if GTK_CHECK_VERSION(3,0,0) -- | Sets the background color to use for a widget. -- -- All other style values are left untouched. See 'widgetOverrideColor'. widgetOverrideBackgroundColor :: WidgetClass self => self -> StateType -- ^ @state@ - the state for which to set the background color. -> Maybe Color -- ^ @color@ - the color to assign, or Nothing to undo the -- effect of previous calls to 'widgetOverrideBackgroundColor' -> IO () widgetOverrideBackgroundColor self state color = maybeWith with color $ \colorPtr -> {# call widget_override_background_color #} (toWidget self) ((fromIntegral . fromEnum) state) (castPtr colorPtr) -- | Sets the color to use for a widget. -- -- All other style values are left untouched. -- -- This function does not act recursively. Setting the color of a container -- does not affect its children. Note that some widgets that you may not think -- of as containers, for instance 'Button's, are actually containers. -- -- This API is mostly meant as a quick way for applications to change a -- widget appearance. If you are developing a widgets library and intend this -- change to be themeable, it is better done by setting meaningful CSS classes -- and regions in your widget/container implementation through -- 'styleContextAddClass' and 'styleContextAddRegion'. -- -- This way, your widget library can install a 'CssProvider' with the -- GTK_STYLE_PROVIDER_PRIORITY_FALLBACK priority in order to provide a default -- styling for those widgets that need so, and this theming may fully overridden -- by the user’s theme. -- -- Note that for complex widgets this may bring in undesired results (such as -- uniform background color everywhere), in these cases it is better to fully -- style such widgets through a CssProvider with the -- GTK_STYLE_PROVIDER_PRIORITY_APPLICATION priority. widgetOverrideColor :: WidgetClass self => self -> StateType -- ^ @state@ - the state for which to set the color. -> Maybe Color -- ^ @color@ - the color to assign, or @Nothing@ to undo the -- effect of previous calls to 'widgetOverrideColor' -> IO () widgetOverrideColor self state color = maybeWith with color $ \colorPtr -> {# call widget_override_color #} (toWidget self) ((fromIntegral . fromEnum) state) (castPtr colorPtr) -- | Sets the font to use for a widget. All other style values are left untouched. -- See 'widgetOverrideColor'. widgetOverrideFont :: WidgetClass self => self -> Maybe FontDescription -- ^ @fontDesc@ - the font description to use, or -- @Nothing@ to undo the effect of previous calls to -- 'widgetOverrideFont'. -> IO () widgetOverrideFont self fontDesc = {# call widget_override_font #} (toWidget self) (fromMaybe (FontDescription nullForeignPtr) fontDesc) -- | Sets the symbolic color to use for a widget. -- -- All other style values are left untouched. See 'widgetOverrideColor'. widgetOverrideSymbolicColor :: (WidgetClass self, GlibString string) => self -> string -- ^ @name@ - the name of the symbolic color to modify. -> Maybe Color -- ^ @color@ - the color to assign, or @Nothing@ to undo the -- effect of previous calls to 'widgetOverrideSymbolicColor' -> IO () widgetOverrideSymbolicColor self name color = withUTFString name $ \namePtr -> maybeWith with color $ \colorPtr -> {# call widget_override_symbolic_color #} (toWidget self) namePtr (castPtr colorPtr) -- | Sets the cursor color to use in a widget, overriding the cursor-color -- and secondary-cursor-color style properties. All other style values are -- left untouched. See also 'widgetModifyStyle'. -- -- Note that the alpha values will be ignored. widgetOverrideCursor :: WidgetClass self => self -> Maybe Color -- ^ @cursor@ - the color to use for primary cursor, or @Nothing@ -- to undo the effect of previous calls to of 'widgetOverrideCursor'. -> Maybe Color -- ^ @secondaryCursor@ - the color to use for secondary cursor, or @Nothing@ -- to undo the effect of previous calls to of 'widgetOverrideCursor'. -> IO () widgetOverrideCursor self cursor secondaryCursor = maybeWith with cursor $ \cursorPtr -> maybeWith with secondaryCursor $ \secondaryCursorPtr -> {# call widget_override_cursor #} (toWidget self) (castPtr cursorPtr) (castPtr secondaryCursorPtr) #endif -- | Modifies style values on the widget. Modifications made using this -- technique take precedence over style values set via an RC file, however, -- they will be overriden if a style is explicitely set on the widget using -- 'widgetSetStyle'. The 'RcStyle' structure is designed so each field can -- either be set or unset, so it is possible, using this function, to modify -- some style values and leave the others unchanged. -- -- Note that modifications made with this function are not cumulative with -- previous calls to 'widgetModifyStyle' or with such functions as -- 'widgetModifyFg'. If you wish to retain previous values, you must first call -- 'widgetGetModifierStyle', make your modifications to the returned style, -- then call 'widgetModifyStyle' with that style. On the other hand, if you -- first call 'widgetModifyStyle', subsequent calls to such functions -- 'widgetModifyFg' will have a cumulative effect with the initial -- modifications. -- widgetModifyStyle :: (WidgetClass self, RcStyleClass style) => self -> style -- ^ @style@ - the 'RcStyle' holding the style modifications -> IO () widgetModifyStyle self style = {# call gtk_widget_modify_style #} (toWidget self) (toRcStyle style) -- | Returns the current modifier style for the widget. (As set by -- 'widgetModifyStyle'.) If no style has previously set, a new 'RcStyle' will -- be created with all values unset, and set as the modifier style for the -- widget. If you make changes to this rc style, you must call -- 'widgetModifyStyle', passing in the returned rc style, to make sure that -- your changes take effect. -- -- Caution: passing the style back to 'widgetModifyStyle' will normally end -- up destroying it, because 'widgetModifyStyle' copies the passed-in style and -- sets the copy as the new modifier style, thus dropping any reference to the -- old modifier styl e. Add a reference to the modifier style if you want to -- keep it alive. -- widgetGetModifierStyle :: WidgetClass self => self -> IO RcStyle widgetGetModifierStyle self = makeNewGObject mkRcStyle $ {# call gtk_widget_get_modifier_style #} (toWidget self) -- %hash c:5550 -- | Sets the foreground color for a widget in a particular state. All other -- style values are left untouched. See also 'widgetModifyStyle'. -- widgetModifyFg :: WidgetClass self => self -> StateType -- ^ @state@ - the state for which to set the foreground color. -> Color -- ^ @color@ - the color to assign (does not need to be -- allocated) -> IO () widgetModifyFg self state color = with color $ \colorPtr -> {# call gtk_widget_modify_fg #} (toWidget self) ((fromIntegral . fromEnum) state) (castPtr colorPtr) -- | Restores the foreground color for a widget in a particular state. This -- undoes the effects of previous calls to `widgetModifyFg'. -- widgetRestoreFg :: WidgetClass self => self -> StateType -- ^ @state@ - the state for which to restore the foreground color. -> IO () widgetRestoreFg self state = {# call gtk_widget_modify_fg #} (toWidget self) ((fromIntegral . fromEnum) state) nullPtr -- %hash c:2c5 -- | Sets the background color for a widget in a particular state. All other -- style values are left untouched. See also 'widgetModifyStyle'. -- -- Note that \"no window\" widgets (which have the 'NoWindow' flag set) draw -- on their parent container's window and thus may not draw any background -- themselves. This is the case for e.g. 'Label'. To modify the background of -- such widgets, you have to set the background color on their parent; if you -- want to set the background of a rectangular area around a label, try placing -- the label in a 'EventBox' widget and setting the background color on that. -- widgetModifyBg :: WidgetClass self => self -> StateType -- ^ @state@ - the state for which to set the background color. -> Color -- ^ @color@ - the color to assign (does not need to be -- allocated). -> IO () widgetModifyBg self state color = with color $ \colorPtr -> {# call gtk_widget_modify_bg #} (toWidget self) ((fromIntegral . fromEnum) state) (castPtr colorPtr) -- | Restores the background color for a widget in a particular state. This -- undoes the effects of previous calls to `widgetModifyBg'. -- widgetRestoreBg :: WidgetClass self => self -> StateType -- ^ @state@ - the state for which to restore the background color. -> IO () widgetRestoreBg self state = {# call gtk_widget_modify_bg #} (toWidget self) ((fromIntegral . fromEnum) state) nullPtr -- %hash c:d2ba -- | Sets the text color for a widget in a particular state. All other style -- values are left untouched. The text color is the foreground color used along -- with the base color (see 'widgetModifyBase') for widgets such as 'Entry' and -- 'TextView'. See also 'widgetModifyStyle'. -- widgetModifyText :: WidgetClass self => self -> StateType -- ^ @state@ - the state for which to set the text color. -> Color -- ^ @color@ - the color to assign (does not need to be -- allocated). -> IO () widgetModifyText self state color = with color $ \colorPtr -> {# call gtk_widget_modify_text #} (toWidget self) ((fromIntegral . fromEnum) state) (castPtr colorPtr) -- | Restores the text color for a widget in a particular state. This -- undoes the effects of previous calls to `widgetModifyText'. -- widgetRestoreText :: WidgetClass self => self -> StateType -- ^ @state@ - the state for which to restore the text color. -> IO () widgetRestoreText self state = {# call gtk_widget_modify_text #} (toWidget self) ((fromIntegral . fromEnum) state) nullPtr -- %hash c:ac08 -- | Sets the base color for a widget in a particular state. All other style -- values are left untouched. The base color is the background color used along -- with the text color (see 'widgetModifyText') for widgets such as 'Entry' and -- 'TextView'. See also 'widgetModifyStyle'. -- -- Note that \"no window\" widgets (which have the 'NoWindow' flag set) draw -- on their parent container's window and thus may not draw any background -- themselves. This is the case for e.g. 'Label'. To modify the background of -- such widgets, you have to set the base color on their parent; if you want to -- set the background of a rectangular area around a label, try placing the -- label in a 'EventBox' widget and setting the base color on that. -- widgetModifyBase :: WidgetClass self => self -> StateType -- ^ @state@ - the state for which to set the base color. -> Color -- ^ @color@ - the color to assign (does not need to be -- allocated). -> IO () widgetModifyBase self state color = with color $ \colorPtr -> {# call gtk_widget_modify_base #} (toWidget self) ((fromIntegral . fromEnum) state) (castPtr colorPtr) -- | Restores the base color for a widget in a particular state. This undoes -- the effects of previous calls to widgetModifyBase. -- widgetRestoreBase :: WidgetClass self => self -> StateType -- ^ @state@ - the state for which to restore the base color. -> IO () widgetRestoreBase self state = {# call gtk_widget_modify_base #} (toWidget self) ((fromIntegral . fromEnum) state) nullPtr -- %hash c:38d7 -- | Sets the font to use for a widget. All other style values are left -- untouched. See also 'widgetModifyStyle'. -- widgetModifyFont :: WidgetClass self => self -> Maybe FontDescription -- ^ @fontDesc@ - the font description to use, or -- @Nothing@ to undo the effect of previous calls to -- 'widgetModifyFont'. -> IO () widgetModifyFont self fontDesc = {# call gtk_widget_modify_font #} (toWidget self) (fromMaybe (FontDescription nullForeignPtr) fontDesc) -- | Creates a new 'PangoContext' with the appropriate colormap, font description, -- and base direction for drawing text for this widget. See also -- 'widgetGetPangoContext'. -- widgetCreatePangoContext :: WidgetClass self => self -> IO PangoContext -- ^ returns the new 'PangoContext' widgetCreatePangoContext self = wrapNewGObject mkPangoContext $ {# call gtk_widget_create_pango_context #} (toWidget self) -- | Gets a 'PangoContext' with the appropriate font description and base -- direction for this widget. Unlike the context returned by -- 'widgetCreatePangoContext', this context is owned by the widget (it can be -- used until the screen for the widget changes or the widget is removed from -- its toplevel), and will be updated to match any changes to the widget's -- attributes. -- -- If you create and keep a 'PangoLayout' using this context, you must deal -- with changes to the context by calling -- 'layoutContextChanged' on the layout -- in response to the 'onStyleChanged' and 'onDirectionChanged' signals for the -- widget. -- widgetGetPangoContext :: WidgetClass self => self -> IO PangoContext -- ^ returns the 'PangoContext' for the widget. widgetGetPangoContext self = makeNewGObject mkPangoContext $ {# call gtk_widget_get_pango_context #} (toWidget self) -- | Prepare text for display. -- -- The 'PangoLayout' represents the rendered text. It can be shown on screen -- by calling 'drawLayout'. -- -- The returned 'PangoLayout' shares the same font information ('PangoContext') as this -- widget. If this information changes, the 'PangoLayout' should change. The -- following code ensures that the displayed text always reflects the widget's -- settings: -- -- > l <- widgetCreateLayout w "My Text." -- > let update = do -- > layoutContextChanged l -- > -- update the Drawables which show this layout -- > w `onDirectionChanged` update -- > w `onStyleChanged` update -- widgetCreateLayout :: (WidgetClass self, GlibString string) => self -> string -- ^ @text@ - text to set on the layout -> IO PangoLayout widgetCreateLayout self text = do pl <- wrapNewGObject mkPangoLayoutRaw $ withUTFString text $ \textPtr -> {# call unsafe widget_create_pango_layout #} (toWidget self) textPtr ps <- makeNewPangoString text psRef <- newIORef ps return (PangoLayout psRef pl) -- %hash c:cee d:1d29 -- | A convenience function that uses the theme engine and RC file settings -- for @widget@ to look up the stock icon and render it to a -- 'Graphics.UI.Gtk.Gdk.Pixbuf.Pixbuf'. -- The icon should be one of the stock id constants such as -- 'Graphics.UI.Gtk.General.StockItems.stockOpen'. @size@ should be a -- size such as 'Graphics.UI.Gtk.General.IconFactory.IconSizeMenu'. -- @detail@ should be a string that identifies the -- widget or code doing the rendering, so that theme engines can special-case -- rendering for that widget or code. -- -- The pixels in the returned 'Graphics.UI.Gtk.Gdk.Pixbuf.Pixbuf' are -- shared with the rest of the -- application and should not be modified. -- widgetRenderIcon :: (WidgetClass self, GlibString string) => self -> string -- ^ @stockId@ - a stock ID -> IconSize -- ^ @size@ - a stock size -> string -- ^ @detail@ - render detail to pass to theme engine -> IO (Maybe Pixbuf) -- ^ returns a new pixbuf, or @Nothing@ if the stock ID -- wasn't known widgetRenderIcon self stockId size detail = maybeNull (wrapNewGObject mkPixbuf) $ withUTFString detail $ \detailPtr -> withUTFString stockId $ \stockIdPtr -> {# call gtk_widget_render_icon #} (toWidget self) stockIdPtr ((fromIntegral . fromEnum) size) detailPtr -- %hash c:62f d:1863 -- | Invalidates the rectangular area of @widget@ defined by @x@, @y@, @width@ -- and @height@ by calling -- 'Graphics.UI.Gtk.Gdk.DrawWindow.drawWindowInvalidateRect' on the widget's -- 'Graphics.UI.Gtk.Gdk.DrawWindow.DrawWindow' and all its child windows. Once -- the main loop becomes idle (after the current batch of events has been -- processed, roughly), the window will receive expose events for the union of -- all regions that have been invalidated. -- -- Normally you would only use this function in widget implementations. In -- particular, you might use it, or -- 'Graphics.UI.Gtk.Gdk.DrawWindow.drawWindowInvalidateRect' directly, to -- schedule a redraw of a 'Graphics.UI.Gtk.Gdk.DrawWindow.DrawingArea' or some -- portion thereof. -- -- Frequently you can just call -- 'Graphics.UI.Gtk.Gdk.DrawWindow.windowInvalidateRect' or -- 'Graphics.UI.Gtk.Gdk.DrawWindow.windowInvalidateRegion' instead of this -- function. Those functions will invalidate only a single window, instead of -- the widget and all its children. -- -- The advantage of adding to the invalidated region compared to simply -- drawing immediately is efficiency; using an invalid region ensures that you -- only have to redraw one time. -- widgetQueueDrawArea :: WidgetClass self => self -> Int -- ^ @x@ - x coordinate of upper-left corner of rectangle to redraw -> Int -- ^ @y@ - y coordinate of upper-left corner of rectangle to redraw -> Int -- ^ @width@ - width of region to draw -> Int -- ^ @height@ - height of region to draw -> IO () widgetQueueDrawArea self x y width height = {# call gtk_widget_queue_draw_area #} (toWidget self) (fromIntegral x) (fromIntegral y) (fromIntegral width) (fromIntegral height) #if GTK_CHECK_VERSION(3,0,0) -- | Invalidates the area of widget defined by @region@ by calling -- 'drawWindowInvalidateRegion' on the widget’s window and all its child -- windows. Once the main loop becomes idle (after the current batch of -- events has been processed, roughly), the window will receive expose events -- for the union of all regions that have been invalidated. -- -- Normally you would only use this function in widget implementations. You -- might also use it to schedule a redraw of a DrawingArea or some portion -- thereof. widgetQueueDrawRegion :: WidgetClass self => self -> Region -> IO () widgetQueueDrawRegion self region = withRegion region $ \regionPtr -> {# call gtk_widget_queue_draw_region #} (toWidget self) (castPtr regionPtr) #endif #if GTK_MAJOR_VERSION < 3 -- %hash c:5ffb d:3e1a -- | Recursively resets the shape on this widget and its descendants. -- widgetResetShapes :: WidgetClass self => self -> IO () widgetResetShapes self = {# call gtk_widget_reset_shapes #} (toWidget self) #endif -- | Sets whether the application intends to draw on the widget in response -- to an 'onExpose' signal. -- -- * This is a hint to the widget and does not affect the behavior of the -- GTK+ core; many widgets ignore this flag entirely. For widgets that do -- pay attention to the flag, such as 'EventBox' and 'Window', the effect -- is to suppress default themed drawing of the widget's background. -- (Children of the widget will still be drawn.) The application is then -- entirely responsible for drawing the widget background. -- widgetSetAppPaintable :: WidgetClass self => self -> Bool -- ^ @appPaintable@ - @True@ if the application will paint on the -- widget -> IO () widgetSetAppPaintable self appPaintable = {# call widget_set_app_paintable #} (toWidget self) (fromBool appPaintable) -- %hash c:89b2 d:e14d -- | Widgets are double buffered by default; you can use this function to turn -- off the buffering. \"Double buffered\" simply means that -- 'Graphics.UI.Gtk.Gdk.DrawWindow.drawWindowBeginPaintRegion' and -- 'Graphics.UI.Gtk.Gdk.DrawWindow.drawWindowEndPaint' are called automatically -- around expose events sent to the widget. -- 'Graphics.UI.Gtk.Gdk.DrawWindow.drawWindowBeginPaintRegion' diverts all -- drawing to a widget's window to an offscreen buffer, and -- 'Graphics.UI.Gtk.Gdk.DrawWindow.drawWindowEndPaint' -- draws the buffer to the screen. The result is that users see the window -- update in one smooth step, and don't see individual graphics primitives -- being rendered. -- -- In very simple terms, double buffered widgets don't flicker, so you would -- only use this function to turn off double buffering if you had special needs -- and really knew what you were doing. -- -- Note: if you turn off double-buffering, you have to handle expose events, -- since even the clearing to the background color or pixmap will not happen -- automatically (as it is done in -- 'Graphics.UI.Gtk.Gdk.DrawWindow.drawWindowBeginPaint'). -- widgetSetDoubleBuffered :: WidgetClass self => self -> Bool -- ^ @doubleBuffered@ - @True@ to double-buffer a widget -> IO () widgetSetDoubleBuffered self doubleBuffered = {# call gtk_widget_set_double_buffered #} (toWidget self) (fromBool doubleBuffered) -- %hash c:d61 d:ac24 -- | Sets whether the entire widget is queued for drawing when its size -- allocation changes. By default, this setting is @True@ and the entire widget -- is redrawn on every size change. If your widget leaves the upper left -- unchanged when made bigger, turning this setting on will improve -- performance. -- -- Note that for \"no window\" widgets setting this flag to @False@ turns off -- all allocation on resizing: the widget will not even redraw if its position -- changes; this is to allow containers that don't draw anything to avoid -- excess invalidations. If you set this flag on a \"no window\" widget that -- /does/ draw its window, you are responsible for invalidating both -- the old and new allocation of the widget when the widget is moved and -- responsible for invalidating regions newly when the widget increases size. -- widgetSetRedrawOnAllocate :: WidgetClass self => self -> Bool -- ^ @redrawOnAllocate@ - if @True@, the entire widget will be -- redrawn when it is allocated to a new size. Otherwise, only the -- new portion of the widget will be redrawn. -> IO () widgetSetRedrawOnAllocate self redrawOnAllocate = {# call gtk_widget_set_redraw_on_allocate #} (toWidget self) (fromBool redrawOnAllocate) -- | Sets a widgets composite name. A child widget of a container is -- composite if it serves as an internal widget and, thus, is not -- added by the user. -- widgetSetCompositeName :: (WidgetClass self, GlibString string) => self -> string -- ^ @name@ - the name to set. -> IO () widgetSetCompositeName self name = withUTFString name $ \namePtr -> {# call gtk_widget_set_composite_name #} (toWidget self) namePtr -- | Emits the “mnemonic-activate” signal. -- -- The default handler for this signal activates the widget if groupCycling -- is @False@, and just grabs the focus if @groupCycling@ is @True@. widgetMnemonicActivate :: WidgetClass self => self -> Bool -> IO Bool widgetMnemonicActivate self groupCycling = liftM toBool $ {# call widget_mnemonic_activate #} (toWidget self) (fromBool groupCycling) #if GTK_MAJOR_VERSION < 3 -- %hash c:5c58 d:6895 -- | For widgets that support scrolling, sets the scroll adjustments and -- returns @True@. For widgets that don't support scrolling, does nothing and -- returns @False@. Widgets that don't support scrolling can be scrolled by -- placing them in a 'Viewport', which does support scrolling. -- -- Removed in Gtk3. widgetSetScrollAdjustments :: WidgetClass self => self -> Maybe Adjustment -- ^ @hadjustment@ - an adjustment for horizontal scrolling, or -- @Nothing@ -> Maybe Adjustment -- ^ @vadjustment@ - an adjustment for vertical scrolling, or -- @Nothing@ -> IO Bool -- ^ returns @True@ if the widget supports scrolling widgetSetScrollAdjustments self hadjustment vadjustment = liftM toBool $ {# call gtk_widget_set_scroll_adjustments #} (toWidget self) (fromMaybe (Adjustment nullForeignPtr) hadjustment) (fromMaybe (Adjustment nullForeignPtr) vadjustment) #endif #if GTK_MAJOR_VERSION < 3 -- | Computes the intersection of a widget's area and @region@, returning -- the intersection. The result may be empty, use -- 'Graphics.UI.Gtk.Gdk.Region.regionEmpty' to check. -- widgetRegionIntersect :: WidgetClass self => self -> Region -- ^ @region@ - a 'Region' in the same coordinate system as the -- widget's allocation. That is, relative to the widget's -- 'DrawWindow' for 'NoWindow' widgets; relative to the parent -- 'DrawWindow' of the widget's 'DrawWindow' for widgets with -- their own 'DrawWindow'. -> IO Region -- ^ returns A region holding the intersection of the widget and -- @region@. The coordinates of the return value are relative to -- the widget's 'DrawWindow', if it has one, otherwise -- it is relative to the parent's 'DrawWindow'. widgetRegionIntersect self region = do intersectionPtr <- {# call gtk_widget_region_intersect #} (toWidget self) region makeNewRegion intersectionPtr #endif -- %hash c:3c94 d:cdb6 -- | Returns the accessible object that describes the widget to an assistive -- technology. -- -- If no accessibility library is loaded (i.e. no ATK implementation library -- is loaded via GTK_MODULES or via another application library, such as -- libgnome), then this 'Object' instance may be a no-op. Likewise, if no -- class-specific 'Object' implementation is available for the widget instance -- in question, it will inherit an 'Object' implementation from the first -- ancestor class for which such an implementation is defined. -- -- The documentation of the ATK library contains more information about -- accessible objects and their uses. -- -- Returns a GObject in Gtk3. widgetGetAccessible :: WidgetClass self => self #if GTK_MAJOR_VERSION < 3 -> IO Object -- ^ returns the 'Object' associated with @widget@ #else -> IO GObject -- ^ returns the 'GObject' associated with @widget@ #endif widgetGetAccessible self = #if GTK_MAJOR_VERSION < 3 makeNewGObject mkObject $ #else makeNewGObject mkGObject $ #endif liftM castPtr $ {# call gtk_widget_get_accessible #} (toWidget self) -- %hash c:713d d:c4fc -- | This function is used by custom widget implementations; if you\'re -- writing an app, you\'d use 'widgetGrabFocus' to move the focus to a -- particular widget, and 'containerSetFocusChain' to change the focus tab -- order. So you may want to investigate those functions instead. -- -- The \"focus\" default handler for a widget should return @True@ if moving -- in @direction@ left the focus on a focusable location inside that widget, -- and @False@ if moving in @direction@ moved the focus outside the widget. If -- returning @True@, widgets normally call 'widgetGrabFocus' to place the focus -- accordingly; if returning @False@, they don't modify the current focus -- location. -- widgetChildFocus :: WidgetClass self => self -> DirectionType -- ^ @direction@ - direction of focus movement -> IO Bool -- ^ returns @True@ if focus ended up inside @widget@ widgetChildFocus self direction = liftM toBool $ {# call gtk_widget_child_focus #} (toWidget self) ((fromIntegral . fromEnum) direction) -- %hash c:de20 d:5300 -- | Gets the value set with 'widgetSetChildVisible'. If you feel a need to -- use this function, your code probably needs reorganization. -- -- This function is only useful for container implementations and never -- should be called by an application. -- widgetGetChildVisible :: WidgetClass self => self -> IO Bool -- ^ returns @True@ if the widget is mapped with the parent. widgetGetChildVisible self = liftM toBool $ {# call gtk_widget_get_child_visible #} (toWidget self) -- %hash c:9320 d:367 -- | Returns the parent container of @widget@. -- -- * Returns the parent container of @widget@ if it has one. -- widgetGetParent :: WidgetClass self => self -> IO (Maybe Widget) widgetGetParent self = do parentPtr <- {# call gtk_widget_get_parent #} (toWidget self) if parentPtr==nullPtr then return Nothing else liftM Just $ makeNewObject mkWidget (return parentPtr) -- %hash c:85e3 d:a962 -- | Gets the settings object holding the settings (global property settings, -- RC file information, etc) used for this widget. -- -- Note that this function can only be called when the 'Widget' is attached -- to a toplevel, since the settings object is specific to a particular -- 'Screen'. -- widgetGetSettings :: WidgetClass self => self -> IO Settings -- ^ returns the relevant 'Settings' object widgetGetSettings self = makeNewGObject mkSettings $ {# call gtk_widget_get_settings #} (toWidget self) #if GTK_CHECK_VERSION(2,2,0) -- | Returns the clipboard object for the given selection to -- be used with widget. widget must have a 'Display' -- associated with it, so must be attached to a toplevel -- window. widgetGetClipboard :: WidgetClass self => self -> SelectionTag -- ^ @selection@ a 'Atom' which identifies the clipboard -- to use. 'selectionClipboard' gives the -- default clipboard. Another common value -- is 'selectionPrimary', which gives -- the primary X selection. -> IO Clipboard -- ^ returns the appropriate clipboard object. If no -- clipboard already exists, a new one will -- be created. widgetGetClipboard self (Atom tagPtr) = makeNewGObject mkClipboard $ {#call gtk_widget_get_clipboard #} (toWidget self) tagPtr -- %hash c:45ed d:52ef -- | Get the 'Display' for the toplevel window associated with this widget. -- This function can only be called after the widget has been added to a widget -- hierarchy with a 'Window' at the top. -- -- In general, you should only create display specific resources when a -- widget has been realized, and you should free those resources when the -- widget is unrealized. -- -- * Available since Gtk+ version 2.2 -- widgetGetDisplay :: WidgetClass self => self -> IO Display -- ^ returns the 'Display' for the toplevel for this widget. widgetGetDisplay self = makeNewGObject mkDisplay $ {# call gtk_widget_get_display #} (toWidget self) -- %hash c:8e4e d:252b -- | Get the root window where this widget is located. This function can only -- be called after the widget has been added to a widget heirarchy with -- 'Window' at the top. -- -- The root window is useful for such purposes as creating a popup -- 'DrawWindow' associated with the window. In general, you should only create -- display specific resources when a widget has been realized, and you should -- free those resources when the widget is unrealized. -- -- * Available since Gtk+ version 2.2 -- widgetGetRootWindow :: WidgetClass self => self -> IO DrawWindow -- ^ returns the 'DrawWindow' root window for the toplevel -- for this widget. widgetGetRootWindow self = makeNewGObject mkDrawWindow $ {# call gtk_widget_get_root_window #} (toWidget self) -- %hash c:b929 d:67f0 -- | Get the 'Screen' from the toplevel window associated with this widget. -- This function can only be called after the widget has been added to a widget -- hierarchy with a 'Window' at the top. -- -- In general, you should only create screen specific resources when a -- widget has been realized, and you should free those resources when the -- widget is unrealized. -- -- * Available since Gtk+ version 2.2 -- widgetGetScreen :: WidgetClass self => self -> IO Screen -- ^ returns the 'Screen' for the toplevel for this widget. widgetGetScreen self = makeNewGObject mkScreen $ {# call gtk_widget_get_screen #} (toWidget self) -- %hash c:4fab d:aae2 -- | Checks whether there is a 'Screen' is associated with this widget. All -- toplevel widgets have an associated screen, and all widgets added into a -- heirarchy with a toplevel window at the top. -- -- * Available since Gtk+ version 2.2 -- widgetHasScreen :: WidgetClass self => self -> IO Bool -- ^ returns @True@ if there is a 'Screen' associcated with the -- widget. widgetHasScreen self = liftM toBool $ {# call gtk_widget_has_screen #} (toWidget self) #endif -- %hash c:dabc d:8275 -- | Gets the size request that was explicitly set for the widget using -- 'widgetSetSizeRequest'. A value of -1 for @width@ or @height@ -- indicates that that dimension has not been set explicitly and the natural -- requisition of the widget will be used intead. See 'widgetSetSizeRequest'. -- To get the size a widget will actually use, call 'widgetSizeRequest' instead -- of this function. -- widgetGetSizeRequest :: WidgetClass self => self -> IO (Int, Int) -- ^ @(width, height)@ widgetGetSizeRequest self = alloca $ \widthPtr -> alloca $ \heightPtr -> do {# call gtk_widget_get_size_request #} (toWidget self) widthPtr heightPtr width <- peek widthPtr height <- peek heightPtr return (fromIntegral width, fromIntegral height) -- %hash c:546d d:3c7f -- | Sets whether @widget@ should be mapped along with its when its parent is -- mapped and @widget@ has been shown with 'widgetShow'. -- -- The child visibility can be set for widget before it is added to a -- container with 'widgetSetParent', to avoid mapping children unnecessary -- before immediately unmapping them. However it will be reset to its default -- state of @True@ when the widget is removed from a container. -- -- Note that changing the child visibility of a widget does not queue a -- resize on the widget. Most of the time, the size of a widget is computed -- from all visible children, whether or not they are mapped. If this is not -- the case, the container can queue a resize itself. -- -- This function is only useful for container implementations and never -- should be called by an application. -- widgetSetChildVisible :: WidgetClass self => self -> Bool -- ^ @isVisible@ - if @True@, @widget@ should be mapped along with -- its parent. -> IO () widgetSetChildVisible self isVisible = {# call gtk_widget_set_child_visible #} (toWidget self) (fromBool isVisible) -- | Sets the minimum size of a widget; that is, the widget's size request -- will be @width@ by @height@. You can use this function to force a widget to -- be either larger or smaller than it normally would be. -- -- In most cases, 'Graphics.UI.Gtk.Windows.Window.windowSetDefaultSize' -- is a better choice for toplevel -- windows than this function; setting the default size will still allow users -- to shrink the window. Setting the size request will force them to leave the -- window at least as large as the size request. When dealing with window -- sizes, 'Graphics.UI.Gtk.Windows.Window.windowSetGeometryHints' can be a -- useful function as well. -- -- Note the inherent danger of setting any fixed size - themes, translations -- into other languages, different fonts, and user action can all change the -- appropriate size for a given widget. So, it's basically impossible to -- hardcode a size that will always be correct. -- -- The size request of a widget is the smallest size a widget can accept -- while still functioning well and drawing itself correctly. However in some -- strange cases a widget may be allocated less than its requested size, and in -- many cases a widget may be allocated more space than it requested. -- -- If the size request in a given direction is -1 (unset), then the -- \"natural\" size request of the widget will be used instead. -- -- Widgets can't actually be allocated a size less than 1 by 1, but you can -- pass 0,0 to this function to mean \"as small as possible.\" -- widgetSetSizeRequest :: WidgetClass self => self -> Int -- ^ @width@ - width @widget@ should request, or -1 to unset -> Int -- ^ @height@ - height @widget@ should request, or -1 to unset -> IO () widgetSetSizeRequest self width height = {# call widget_set_size_request #} (toWidget self) (fromIntegral width) (fromIntegral height) #if GTK_CHECK_VERSION(2,4,0) -- %hash c:83c3 d:e6f1 -- | Sets the 'noShowAll' property, which determines whether calls to -- 'widgetShowAll' and 'widgetHideAll' will affect this widget. -- -- This is mostly for use in constructing widget hierarchies with externally -- controlled visibility, see 'UIManager'. -- -- * Available since Gtk+ version 2.4 -- widgetSetNoShowAll :: WidgetClass self => self -> Bool -- ^ @noShowAll@ - the new value for the 'noShowAll' property -> IO () widgetSetNoShowAll self noShowAll = {# call gtk_widget_set_no_show_all #} (toWidget self) (fromBool noShowAll) -- %hash c:218d d:e07e -- | Returns the current value of the 'noShowAll' property, which -- determines whether calls to 'widgetShowAll' and 'widgetHideAll' will affect -- this widget. -- -- * Available since Gtk+ version 2.4 -- widgetGetNoShowAll :: WidgetClass self => self -> IO Bool -- ^ returns the current value of the \"no_show_all\" property. widgetGetNoShowAll self = liftM toBool $ {# call gtk_widget_get_no_show_all #} (toWidget self) -- %hash c:205b d:c518 -- | Returns a list of the widgets, normally labels, for which -- this widget is a the target of a mnemonic (see for example, -- 'labelSetMnemonicWidget'). -- -- * Available since Gtk+ version 2.4 -- widgetListMnemonicLabels :: WidgetClass self => self -> IO [Widget] -- ^ returns the list of mnemonic labels widgetListMnemonicLabels self = {# call gtk_widget_list_mnemonic_labels #} (toWidget self) >>= fromGList >>= mapM (makeNewGObject mkWidget . return) -- %hash c:eb76 d:28a2 -- | Adds a widget to the list of mnemonic labels for this widget. (See -- 'widgetListMnemonicLabels'). Note the list of mnemonic labels for the widget -- is cleared when the widget is destroyed, so the caller must make sure to -- update its internal state at this point as well, by using a connection to -- the 'destroy' signal or a weak notifier. -- -- * Available since Gtk+ version 2.4 -- widgetAddMnemonicLabel :: (WidgetClass self, WidgetClass label) => self -> label -- ^ @label@ - a 'Widget' that acts as a mnemonic label for -- @widget@. -> IO () widgetAddMnemonicLabel self label = {# call gtk_widget_add_mnemonic_label #} (toWidget self) (toWidget label) -- %hash c:7831 d:d10b -- | Removes a widget from the list of mnemonic labels for this widget. (See -- 'widgetListMnemonicLabels'). The widget must have previously been added to -- the list with 'widgetAddMnemonicLabel'. -- -- * Available since Gtk+ version 2.4 -- widgetRemoveMnemonicLabel :: (WidgetClass self, WidgetClass label) => self -> label -- ^ @label@ - a 'Widget' that was previously set as a mnemnic label -- for @widget@ with 'widgetAddMnemonicLabel'. -> IO () widgetRemoveMnemonicLabel self label = {# call gtk_widget_remove_mnemonic_label #} (toWidget self) (toWidget label) #if GTK_CHECK_VERSION(2,10,0) #if GTK_MAJOR_VERSION < 3 -- %hash c:5c70 d:cbf9 -- | Returns the 'Action' that @widget@ is a proxy for. See also -- 'actionGetProxies'. -- -- * Available since Gtk+ version 2.10 -- -- Removed in Gtk3. widgetGetAction :: WidgetClass self => self -> IO (Maybe Action) -- ^ returns the action that a widget is a proxy for, or -- @Nothing@, if it is not attached to an action. widgetGetAction self = do ptr <- {# call gtk_widget_get_action #} (toWidget self) if ptr==nullPtr then return Nothing else liftM Just $ makeNewGObject mkAction (return ptr) #endif -- %hash c:7ea0 d:2560 -- | Whether @widget@ can rely on having its alpha channel drawn correctly. On -- X11 this function returns whether a compositing manager is running for -- @widget@'s screen -- -- * Available since Gtk+ version 2.10 -- widgetIsComposited :: WidgetClass self => self -> IO Bool -- ^ returns @True@ if the widget can rely on its alpha channel -- being drawn correctly. widgetIsComposited self = liftM toBool $ {# call gtk_widget_is_composited #} (toWidget self) #endif #endif #if GTK_CHECK_VERSION(2,12,0) -- | Notifies the user about an input-related error on this widget. -- If the "gtk-error-bell" setting is @True@, it calls 'drawWindowBeep', -- otherwise it does nothing. -- -- Note that the effect of 'drawWindow_beep' can be configured in many -- ways, depending on the windowing backend and the desktop environment -- or window manager that is used. widgetErrorBell :: WidgetClass self => self -> IO () widgetErrorBell self = {# call widget_error_bell #} (toWidget self) -- | This function should be called whenever keyboard navigation within -- a single widget hits a boundary. The function emits the "keynav-failed" -- signal on the widget and its return value should be interpreted in a -- way similar to the return value of 'widgetChildFocus': -- -- When @True@ is returned, stay in the widget, the failed keyboard -- navigation is Ok and/or there is nowhere we can/should move the -- focus to. -- -- When @False@ is returned, the caller should continue with keyboard -- navigation outside the widget, e.g. by calling 'widgetChildFocus' on -- the widget’s toplevel. -- -- The default ::keynav-failed handler returns @True@ for 'DirTabForward' -- and 'DirTabBackward'. For the other values of 'DirectionType' it -- returns @False@. -- -- Whenever the default handler returns @True@, it also calls -- 'widgetErrorBell' to notify the user of the failed keyboard -- navigation. -- -- A use case for providing an own implementation of ::keynav-failed -- (either by connecting to it or by overriding it) would be a row of -- 'Entry' widgets where the user should be able to navigate the entire -- row with the cursor keys, as e.g. known from user interfaces that -- require entering license keys. widgetKeynavFailed :: WidgetClass self => self -> DirectionType -- ^ @direction@ - direction of focus movement -> IO Bool -- ^ returns @True@ if stopping keyboard navigation is -- fine, @False@ if the emitting widget should try to handle -- the keyboard navigation attempt in its parent container(s). widgetKeynavFailed self direction = liftM toBool $ {# call widget_keynav_failed #} (toWidget self) ((fromIntegral . fromEnum) direction) -- | Gets the contents of the tooltip for widget. widgetGetTooltipMarkup :: (WidgetClass self, GlibString markup) => self -> IO (Maybe markup) -- Returns the tooltip text, or Nothing. widgetGetTooltipMarkup self = {# call widget_get_tooltip_markup #} (toWidget self) >>= maybePeek peekUTFString -- | Sets @markup@ as the contents of the tooltip, which is marked up with the -- Pango text markup language. -- -- This function will take care of setting "has-tooltip" to True and of the -- default handler for the "query-tooltip" signal. -- -- See also the "tooltip-markup" property and 'tooltipSetMarkup'. widgetSetTooltipMarkup :: (WidgetClass self, GlibString markup) => self -> Maybe markup -- ^ the contents of the tooltip for widget, or @Nothing@. -> IO () widgetSetTooltipMarkup self markup = maybeWith withUTFString markup $ \ markupPtr -> {# call widget_set_tooltip_markup #} (toWidget self) markupPtr -- | Gets the contents of the tooltip for widget. widgetGetTooltipText :: (WidgetClass self, GlibString text) => self -> IO (Maybe text) -- Returns the tooltip text, or Nothing. widgetGetTooltipText self = {# call widget_get_tooltip_text #} (toWidget self) >>= maybePeek peekUTFString -- | Sets @text@ as the contents of the tooltip. This function will take care -- of setting "has-tooltip" to @True@ and of the default handler for the -- "query-tooltip" signal. -- -- See also the "tooltip-text" property and 'tooltipSetText'. widgetSetTooltipText :: (WidgetClass widget, GlibString text) => widget -> Maybe text -- ^ the contents of the tooltip for widget, or @Nothing@. -> IO () widgetSetTooltipText widget text = maybeWith withUTFString text $ \ textPtr -> {# call widget_set_tooltip_text #} (toWidget widget) textPtr -- | Returns the 'Window' of the current tooltip. This can be the 'Window' created by default, or the -- custom tooltip window set using 'widgetSetTooltipWindow'. -- -- * Available since Gtk+ version 2.12 -- widgetGetTooltipWindow :: WidgetClass self => self -> IO Window -- ^ returns The 'Window' of the current tooltip widgetGetTooltipWindow self = makeNewObject mkWindow $ {# call gtk_widget_get_tooltip_window #} (toWidget self) -- | Replaces the default, usually yellow, window used for displaying tooltips with @customWindow@. GTK+ -- will take care of showing and hiding @customWindow@ at the right moment, to behave likewise as the -- default tooltip window. If @customWindow@ is 'Nothing', the default tooltip window will be used. -- -- If the custom window should have the default theming it needs to have the name 'gtk-tooltip', see -- 'widgetSetName'. -- -- * Available since Gtk+ version 2.12 -- widgetSetTooltipWindow :: (WidgetClass self, WindowClass customWindow) => self -> Maybe customWindow -- ^ @customWindow@ a 'Window', or 'Nothing'. allow-none. -> IO () widgetSetTooltipWindow self customWindow = {# call gtk_widget_set_tooltip_window #} (toWidget self) (maybe (Window nullForeignPtr) toWindow customWindow) -- | Returns the current value of the has-tooltip property. -- See 'widgetHasTooltip' for more information. widgetGetHasTooltip :: WidgetClass widget => widget -> IO Bool -- ^ current value of 'widgetHasTooltip' on @widget@. widgetGetHasTooltip widget = liftM toBool $ {# call widget_get_has_tooltip #} (toWidget widget) -- | Sets the has-tooltip property on @widget@ to @hasTooltip@. -- See 'widgetHasTooltip' for more information. widgetSetHasTooltip :: WidgetClass widget => widget -> Bool -- ^ @hasTooltip@ whether or not @widget@ has a tooltip. -> IO () widgetSetHasTooltip widget hasTooltip = {# call widget_set_has_tooltip #} (toWidget widget) (fromBool hasTooltip) -- | Triggers a tooltip query on the display where the toplevel of @widget@ is -- located. See 'tooltipTriggerTooltipQuery' for more information. -- -- * Available since Gtk+ version 2.12 -- widgetTriggerTooltipQuery :: WidgetClass self => self -> IO () widgetTriggerTooltipQuery self = {# call gtk_widget_trigger_tooltip_query #} (toWidget self) #endif #if GTK_CHECK_VERSION(2,14,0) -- | Returns the widget's window if it is realized, Nothing otherwise -- -- * Available since Gtk+ version 2.14 -- widgetGetWindow :: WidgetClass self => self -> IO (Maybe DrawWindow) widgetGetWindow self = maybeNull (makeNewGObject mkDrawWindow) $ {# call gtk_widget_get_window #} (toWidget self) #endif #if GTK_CHECK_VERSION(3,8,0) -- | Registers a 'DrawWindow' with the widget and sets it up so that the -- widget receives events for it. Call 'widgetUnregisterWindow' when -- destroying the window. widgetRegisterWindow :: (WidgetClass widget, DrawWindowClass window) => widget -> window -> IO () widgetRegisterWindow widget window = {# call widget_register_window #} (toWidget widget) (toDrawWindow window) -- | Unregisters a 'DrawWindow' from the widget that was previously set up -- with 'widgetRegisterWindow'. You need to call this when the window is no -- longer used by the widget, such as when you destroy it. widgetUnregisterWindow :: (WidgetClass widget, DrawWindowClass window) => widget -> window -> IO () widgetUnregisterWindow widget window = {# call widget_unregister_window #} (toWidget widget) (toDrawWindow window) #endif #if GTK_CHECK_VERSION(3,0,0) -- | This function is supposed to be called in "draw" implementations for -- widgets that support multiple windows. @cr@ must be untransformed from -- invoking of the draw function. This function will return @True@ if the -- contents of the given @window@ are supposed to be drawn and @False@ -- otherwise. Note that when the drawing was not initiated by the windowing -- system this function will return @True@ for all windows, so you need to -- draw the bottommost window first. Also, do not use “else if” statements to -- check which window should be drawn. cairoShouldDrawWindow :: DrawWindowClass window => Cairo -- ^ @cr@ a cairo context -> window -- ^ @window@ the window to check. @window@ may not be an input-only window. -> IO Bool cairoShouldDrawWindow cr window = liftM toBool $ {# call cairo_should_draw_window #} (castPtr $ unCairo cr) (toDrawWindow window) -- | Transforms the given cairo context @cr@ that from @widget@-relative -- coordinates to @window@-relative coordinates. If the @widget@’s window is -- not an ancestor of @window@, no modification will be applied. -- -- This is the inverse to the transformation GTK applies when preparing an -- expose event to be emitted with the “draw” signal. It is intended to help -- porting multiwindow widgets from GTK+ 2 to the rendering architecture of -- GTK+ 3. cairoTransformToWindow :: (WidgetClass widget, DrawWindowClass window) => Cairo -- ^ @cr@ the cairo context to transform -> widget -- ^ @widget@ the widget the context is currently centered for -> window -- ^ @window@ the window to transform the context to -> IO () cairoTransformToWindow cr widget window = {# call gtk_cairo_transform_to_window #} (castPtr $ unCairo cr) (toWidget widget) (toDrawWindow window) #endif -- | Moves a widget from one 'Container' to another. -- widgetReparent :: (WidgetClass self, WidgetClass newParent) => self -> newParent -- ^ @newParent@ - a 'Container' to move the widget into -> IO () widgetReparent self newParent = {# call widget_reparent #} (toWidget self) (toWidget newParent) #if GTK_CHECK_VERSION(2,18,0) -- | Set if this widget can receive keyboard input. -- -- * To use the 'keyPress' event, the widget must be allowed -- to get the input focus. Once it has the input focus all keyboard -- input is directed to this widget. -- widgetSetCanFocus :: WidgetClass self => self -> Bool -> IO () widgetSetCanFocus = objectSetPropertyBool "can_focus" -- | Check if this widget can receive keyboard input. -- widgetGetCanFocus :: WidgetClass self => self -> IO Bool widgetGetCanFocus = objectGetPropertyBool "can_focus" -- | Retrieves the widget's allocation. -- -- * Available since Gtk+ version 2.18 -- widgetGetAllocation :: WidgetClass self => self -> IO Allocation widgetGetAllocation widget = alloca $ \ allocationPtr -> do {#call widget_get_allocation#} (toWidget widget) (castPtr allocationPtr) peek allocationPtr #endif #if GTK_CHECK_VERSION(3,0,0) -- | Returns the width that has currently been allocated to widget. This function is intended -- | to be used when implementing handlers for the "draw" function. widgetGetAllocatedWidth :: WidgetClass self => self -> IO Int widgetGetAllocatedWidth widget = liftM fromIntegral $ {#call widget_get_allocated_width#} (toWidget widget) -- | Returns the height that has currently been allocated to widget. This function is intended -- | to be used when implementing handlers for the "draw" function. widgetGetAllocatedHeight :: WidgetClass self => self -> IO Int widgetGetAllocatedHeight widget = liftM fromIntegral $ {#call widget_get_allocated_height#} (toWidget widget) #endif #if GTK_CHECK_VERSION(3,10,0) -- | Returns the baseline that has currently been allocated to widget . This function is intended -- to be used when implementing handlers for the “draw” function, and when allocating child -- widgets in “size_allocate”. widgetGetAllocatedBaseline :: WidgetClass self => self -> IO Int widgetGetAllocatedBaseline widget = liftM fromIntegral $ {#call widget_get_allocated_baseline#} (toWidget widget) #endif #if GTK_CHECK_VERSION(3,14,0) -- | Retrieves the widget’s clip area. -- -- The clip area is the area in which all of widget's drawing will happen. Other -- toolkits call it the bounding box. -- -- Historically, in GTK+ the clip area has been equal to the allocation retrieved -- via widgetGetAllocation. widgetGetClip :: WidgetClass self => self -> IO Allocation widgetGetClip widget = alloca $ \ allocationPtr -> do {#call widget_get_clip#} (toWidget widget) (castPtr allocationPtr) peek allocationPtr -- | Sets the widget’s clip. This must not be used directly, but from within a widget’s 'sizeAllocate' method. -- -- The clip set should be the area that widget draws on. If widget is a GtkContainer, the area -- must contain all children's clips. -- -- If this function is not called by widget during a 'sizeAllocate' handler, it is assumed to be -- equal to the allocation. However, if the function is not called, certain features that might extend -- a widget's allocation will not be available: -- -- * The “draw” signal will be clipped to the widget's allocation to avoid overdraw. -- -- * Calling gtk_render_background() will not draw outset shadows. -- -- It is therefore suggested that you always call widgetSetClip during a 'sizeAllocate' handler. widgetSetClip :: WidgetClass self => self -> Allocation -> IO () widgetSetClip self clip = with clip $ \clipPtr -> {#call widget_set_clip#} (toWidget self) (castPtr clipPtr) #endif #if GTK_CHECK_VERSION(2,18,0) -- | Determines whether the application intends to draw on the widget in an -- "draw" handler. -- See 'widgetSetAppPaintable'. widgetGetAppPaintable :: WidgetClass widget => widget -> IO Bool -- ^ Returns @True@ if the @widget@ is app paintable. widgetGetAppPaintable widget = liftM toBool $ {#call widget_get_app_paintable #} (toWidget widget) -- | Determines whether @widget@ can be a default widget. -- See 'widgetSetCanDefault'. widgetGetCanDefault :: WidgetClass widget => widget -> IO Bool -- ^ Returns @True@ if @widget@ can be a default widget, @False@ otherwise. widgetGetCanDefault widget = liftM toBool $ {#call gtk_widget_get_can_default #} (toWidget widget) -- | Specifies whether @widget@ can be a default widget. -- See 'widgetGrabDefault' for details about the meaning of "default". widgetSetCanDefault :: WidgetClass widget => widget -> Bool -- ^ @canDefault@ whether or not @widget@ can be a default widget. -> IO () widgetSetCanDefault widget canDefault = {# call widget_set_can_default #} (toWidget widget) (fromBool canDefault) -- | Determines whether @widget@ has a 'DrawWindow' of its own. See 'widgetSetHasWindow'. widgetGetHasWindow :: WidgetClass widget => widget -> IO Bool -- ^ Returns @True@ if @widget@ has a window, @False@ otherwise. widgetGetHasWindow widget = liftM toBool $ {#call widget_get_has_window #} (toWidget widget) -- | Specifies whether @widget@ has a 'DrawWindow' of its own. Note that all -- realized widgets have a non-NULL "window" pointer ('widgetGetWindow' never -- returns a NULL window when a widget is realized), but for many of them it's -- actually the 'DrawWindow' of one of its parent widgets. Widgets that do not -- create a window for themselves in "realize" must announce this by calling -- this function with @hasWindow@ = @False@. -- -- This function should only be called by widget implementations, and they -- should call it in their @init()@ function. widgetSetHasWindow :: WidgetClass widget => widget -> Bool -- ^ @hasWindow@ whether or not @widget@ has a window. -> IO () widgetSetHasWindow widget hasWindow = {# call widget_set_has_window #} (toWidget widget) (fromBool hasWindow) -- | Returns the @widget@’s sensitivity (in the sense of returning the value -- that has been set using 'widgetSetSensitive'). -- -- The effective sensitivity of a widget is however determined by both its own -- and its parent widget’s sensitivity. See 'widgetIsSensitive'. widgetGetSensitive :: WidgetClass widget => widget -> IO Bool -- ^ Returns @True@ if the widget is sensitive. widgetGetSensitive widget = liftM toBool $ {#call widget_get_sensitive #} (toWidget widget) -- | Returns the widget’s effective sensitivity, which means it is sensitive -- itself and also its parent widget is sensitive. widgetIsSensitive :: WidgetClass widget => widget -> IO Bool -- ^ Returns @True@ if the widget is effectively sensitive. widgetIsSensitive widget = liftM toBool $ {#call widget_is_sensitive #} (toWidget widget) -- | Retrieve the current state of the widget. -- -- * The state refers to different modes of user interaction, see -- 'StateType' for more information. -- widgetGetState :: WidgetClass self => self -> IO StateType widgetGetState widget = liftM (toEnum . fromIntegral) $ {#call widget_get_state#} (toWidget widget) -- | Determines whether the widget is visible. If you want to take into -- account whether the widget’s parent is also marked as visible, use -- 'widgetIsVisible' instead. -- -- This function does not check if the widget is obscured in any way. -- See 'widgetSetVisible'. widgetGetVisible :: WidgetClass widget => widget -> IO Bool -- ^ Returns @True@ if the widget is visible. widgetGetVisible widget = liftM toBool $ {#call widget_get_visible #} (toWidget widget) #endif #if GTK_CHECK_VERSION(3,8,0) -- | Determines whether the widget and all its parents are marked as visible. -- -- This function does not check if the widget is obscured in any way. -- -- See also 'widgetGetVisible' and 'widgetSetVisible' widgetIsVisible :: WidgetClass widget => widget -> IO Bool -- ^ Returns @True@ if the widget and all its parents are visible. widgetIsVisible widget = liftM toBool $ {#call widget_is_visible #} (toWidget widget) #endif #if GTK_CHECK_VERSION(3,0,0) -- | This function is for use in widget implementations. Turns on flag values -- in the current widget state (insensitive, prelighted, etc.). -- -- This function accepts the values 'StateFlagDirLtr' and 'StateFlagDirRtl' -- but ignores them. If you want to set the widget's direction, use -- 'widgetSetDirection'. -- -- It is worth mentioning that any other state than StateFlagInsensitive', -- will be propagated down to all non-internal children if @widget@ is a -- 'Container', while 'StateFlagInsensitive' itself will be propagated down -- to all 'Container' children by different means than turning on the state -- flag down the hierarchy, both 'widgetGetStateFlags' and -- 'widgetIsSensitive' will make use of these. widgetSetStateFlags :: WidgetClass widget => widget -> [StateFlags] -- ^ @flags@ State flags to turn on -> Bool -- ^ @clear@ Whether to clear state before turning on @flags@ -> IO () widgetSetStateFlags widget flags clear = {# call widget_set_state_flags #} (toWidget widget) (fromIntegral $ fromFlags flags) (fromBool clear) -- | This function is for use in widget implementations. Turns off flag -- values for the current widget state (insensitive, prelighted, etc.). -- See 'widgetSetStateFlags'. widgetUnsetStateFlags :: WidgetClass widget => widget -> [StateFlags] -- ^ @flags@ State flags to turn off -> IO () widgetUnsetStateFlags widget flags = {# call widget_unset_state_flags #} (toWidget widget) (fromIntegral $ fromFlags flags) -- | Returns the widget state as a flag set. It is worth mentioning that the -- effective StateFlagInsensitive state will be returned, that is, also based -- on parent insensitivity, even if @widget@ itself is sensitive. widgetGetStateFlags :: WidgetClass widget => widget -> IO [StateFlags] -- ^ Returns the state flags for @widget@ widgetGetStateFlags widget = liftM (toFlags . fromIntegral) $ {# call widget_get_state_flags #} (toWidget widget) #endif #if GTK_CHECK_VERSION(2,18,0) -- | Determines whether @widget@ is the current default widget within its -- toplevel. See 'widgetSetCanDefault'. widgetGetHasDefault :: WidgetClass widget => widget -> IO Bool -- ^ Returns @True@ if @widget@ is the current default widget within its toplevel, @False@ otherwise. widgetGetHasDefault widget = liftM toBool $ {#call widget_has_default #} (toWidget widget) -- | Determines if the @widget@ has the global input focus. -- See 'widgetIsFocus' for the difference between having the global input -- focus, and only having the focus within a toplevel. widgetGetHasFocus :: WidgetClass widget => widget -> IO Bool -- ^ Returns @True@ if @widget@ has the global input focus. widgetGetHasFocus widget = liftM toBool $ {#call widget_has_focus #} (toWidget widget) #endif #if GTK_CHECK_VERSION(3,2,0) -- | Determines if the widget should show a visible indication that it has the -- global input focus. This is a convenience function for use in ::draw -- handlers that takes into account whether focus indication should currently -- be shown in the toplevel window of @widget@. See 'windowGetFocusVisible' -- for more information about focus indication. -- -- To find out if the widget has the global input focus, use 'widgetHasFocus'. widgetHasVisibleFocus :: WidgetClass widget => widget -> IO Bool -- ^ Returns @True@ if the widget should display a “focus rectangle” widgetHasVisibleFocus widget = liftM toBool $ {# call widget_has_visible_focus #} (toWidget widget) #endif #if GTK_CHECK_VERSION(2,18,0) -- | Determines whether the widget is currently grabbing events, so it is the -- only widget receiving input events (keyboard and mouse). -- -- See also 'grabAdd'. widgetHasGrab :: WidgetClass widget => widget -> IO Bool -- ^ Returns @True@ if the widget is in the grab_widgets stack widgetHasGrab widget = liftM toBool $ {# call widget_has_grab #} (toWidget widget) -- | Determines whether @widget@ can be drawn to. A widget can be drawn to if -- it is mapped and visible. widgetIsDrawable :: WidgetClass widget => widget -> IO Bool -- ^ Returns @True@ if @widget@ is drawable, @False@ otherwise widgetIsDrawable widget = liftM toBool $ {# call widget_is_drawable #} (toWidget widget) -- | Determines whether @widget@ is a toplevel widget. -- -- Currently only 'Window' and 'Invisible' (and out-of-process 'Plugs') are -- toplevel widgets. Toplevel widgets have no parent widget. widgetIsToplevel :: WidgetClass widget => widget -> IO Bool -- ^ Returns @True@ if @widget@ is a toplevel, @False@ otherwise widgetIsToplevel widget = liftM toBool $ {# call widget_is_toplevel #} (toWidget widget) -- | Sets a widget’s window. This function should only be used in a widget’s -- “realize” implementation. The window passed is usually either new window -- created with 'drawWindowNew', or the window of its parent widget as -- returned by 'widgetGetParentWindow'. -- -- Widgets must indicate whether they will create their own 'DrawWindow' by -- calling 'widgetSetHasWindow'. This is usually done in the widget’s init() -- function. -- -- Note that this function does not add any reference to window. widgetSetWindow :: (WidgetClass widget, DrawWindowClass window) => widget -> window -> IO () widgetSetWindow widget window = {# call widget_set_window #} (toWidget widget) (toDrawWindow window) -- | Specifies whether @widget@ will be treated as the default widget within -- its toplevel when it has the focus, even if another widget is the default. -- -- See 'widgetGrabDefault' for details about the meaning of “default”. widgetSetReceivesDefault :: WidgetClass widget => widget -> Bool -- ^ @receivesDefault@ whether or not widget can be a default widget. -> IO () widgetSetReceivesDefault widget receivesDefault = {# call widget_set_receives_default #} (toWidget widget) (fromBool receivesDefault) -- | Determines whether @widget@ is always treated as the default widget -- within its toplevel when it has the focus, even if another widget is the -- default. -- -- See 'widgetSetReceivesDefault'. widgetGetReceivesDefault :: WidgetClass widget => widget -> IO Bool -- ^ Returns @True@ if @widget@ acts as the default widget when focussed, @False@ otherwise widgetGetReceivesDefault widget = liftM toBool $ {# call widget_get_receives_default #} (toWidget widget) #endif #if GTK_CHECK_VERSION(3,0,0) -- | Returns @True@ if device has been shadowed by a GTK+ device grab on -- another widget, so it would stop sending events to widget. This may be -- used in the “grab-notify” signal to check for specific devices. -- See 'deviceGrabAdd'. widgetDeviceIsShadowed :: (WidgetClass widget, DeviceClass device) => widget -> device -> IO Bool -- ^ Returns @True@ if there is an ongoing grab on device by another 'Widget' than widget. widgetDeviceIsShadowed widget device = liftM toBool $ {# call widget_device_is_shadowed #} (toWidget widget) (toDevice device) #endif #if GTK_CHECK_VERSION(3,4,0) -- | Returns the modifier mask the @widget@’s windowing system backend uses -- for a particular purpose. -- -- See 'keymapGetModifierMask'. widgetGetModifierMask :: WidgetClass widget => widget -> ModifierIntent -- ^ @intent@ the use case for the modifier mask -> IO [Modifier] -- ^ Returns the modifier mask used for @intent@. widgetGetModifierMask widget intent = liftM (toFlags . fromIntegral) $ {# call widget_get_modifier_mask #} (toWidget widget) ((fromIntegral . fromEnum) intent) #endif #if GTK_CHECK_VERSION(3,0,0) -- | Enables or disables multiple pointer awareness. If this setting is -- @True@, widget will start receiving multiple, per device enter/leave -- events. Note that if custom 'DrawWindows' are created in “realize”, -- 'windowSetSupportMultidevice' will have to be called manually on them. widgetSetSupportMultidevice :: WidgetClass widget => widget -> Bool -- ^ @supportMultidevice@ @True@ to support input from multiple devices. -> IO () widgetSetSupportMultidevice widget supportMultidevice = {# call widget_set_support_multidevice #} (toWidget widget) (fromBool supportMultidevice) -- | Returns @True@ if @widget@ is multiple pointer aware. -- See 'widgetSetSupportMultidevice' for more information. widgetGetSupportMultidevice :: WidgetClass widget => widget -> IO Bool -- ^ Returns @True@ if @widget@ is multidevice aware. widgetGetSupportMultidevice widget = liftM toBool $ {# call widget_get_support_multidevice #} (toWidget widget) #endif -- | This function is for use in widget implementations. Sets the state of a -- widget (insensitive, prelighted, etc.) Usually you should set the state -- using wrapper functions such as 'widgetSetSensitive'. -- widgetSetState :: WidgetClass self => self -> StateType -> IO () widgetSetState widget state = {#call widget_set_state#} (toWidget widget) ((fromIntegral . fromEnum) state) -- | Rarely-used function. This function is used to emit the event signals on a widget (those signals -- should never be emitted without using this function to do so). If you want to synthesize an event -- though, don't use this function; instead, use 'mainDoEvent' so the event will behave as if it -- were in the event queue. Don't synthesize expose events; instead, use 'windowInvalidateRect' -- to invalidate a region of the window. widgetEvent :: WidgetClass self => self -> EventM t Bool widgetEvent widget = do ptr <- ask liftIO $ liftM toBool $ {#call widget_event #} (toWidget widget) (castPtr ptr) -------------------- -- Attributes -- %hash c:6f7f d:9384 -- | The name of the widget. -- -- Default value: @Nothing@ -- widgetName :: (WidgetClass self, GlibString string) => Attr self (Maybe string) widgetName = newAttrFromMaybeStringProperty "name" widgetMarginLeft :: WidgetClass self => Attr self Int widgetMarginLeft = newAttrFromIntProperty "margin-left" widgetMarginRight :: WidgetClass self => Attr self Int widgetMarginRight = newAttrFromIntProperty "margin-right" #if GTK_CHECK_VERSION(3,12,0) widgetMarginStart :: WidgetClass self => Attr self Int widgetMarginStart = newAttrFromIntProperty "margin-start" widgetMarginEnd :: WidgetClass self => Attr self Int widgetMarginEnd = newAttrFromIntProperty "margin-end" #endif widgetMarginTop :: WidgetClass self => Attr self Int widgetMarginTop = newAttrFromIntProperty "margin-top" widgetMarginBottom :: WidgetClass self => Attr self Int widgetMarginBottom = newAttrFromIntProperty "margin-bottom" -- %hash c:1533 d:3213 -- | The parent widget of this widget. Must be a Container widget. -- widgetParent :: (WidgetClass self, ContainerClass container) => ReadWriteAttr self (Maybe Container) (Maybe container) widgetParent = newAttrFromMaybeObjectProperty "parent" gTypeContainer -- %hash c:2b4c d:3c31 -- | Override for width request of the widget, or -1 if natural request should -- be used. -- -- Allowed values: >= -1 -- -- Default value: -1 -- widgetWidthRequest :: WidgetClass self => Attr self Int widgetWidthRequest = newAttrFromIntProperty "width-request" -- %hash c:fa97 d:172a -- | Override for height request of the widget, or -1 if natural request -- should be used. -- -- Allowed values: >= -1 -- -- Default value: -1 -- widgetHeightRequest :: WidgetClass self => Attr self Int widgetHeightRequest = newAttrFromIntProperty "height-request" -- %hash c:70d0 d:e8e2 -- | Whether the widget is visible. -- -- Default value: @False@ -- widgetVisible :: WidgetClass self => Attr self Bool widgetVisible = newAttrFromBoolProperty "visible" -- | The opacity of the widget -- -- Default value: @1.0@ -- widgetOpacity :: WidgetClass self => Attr self Double widgetOpacity = newAttrFromDoubleProperty "opacity" -- %hash c:4dd4 d:594e -- | Whether the widget responds to input. -- -- Default value: @True@ -- widgetSensitive :: WidgetClass self => Attr self Bool widgetSensitive = newAttrFromBoolProperty "sensitive" -- %hash c:7506 d:1dde -- | Whether the application will paint directly on the widget. -- -- Default value: @False@ -- widgetAppPaintable :: WidgetClass self => Attr self Bool widgetAppPaintable = newAttrFromBoolProperty "app-paintable" -- %hash c:6289 d:72ab -- | Whether the widget can accept the input focus. -- -- Default value: @False@ -- widgetCanFocus :: WidgetClass self => Attr self Bool widgetCanFocus = newAttrFromBoolProperty "can-focus" -- %hash c:8e7 d:2645 -- | Whether the widget has the input focus. -- -- Default value: @False@ -- widgetHasFocus :: WidgetClass self => Attr self Bool widgetHasFocus = newAttrFromBoolProperty "has-focus" -- %hash c:7547 d:1d78 -- | Whether the widget is the focus widget within the toplevel. -- -- Default value: @False@ -- widgetIsFocus :: WidgetClass self => Attr self Bool widgetIsFocus = newAttrFromBoolProperty "is-focus" -- %hash c:f2d8 d:1cbb -- | Whether the widget can be the default widget. -- -- Default value: @False@ -- widgetCanDefault :: WidgetClass self => Attr self Bool widgetCanDefault = newAttrFromBoolProperty "can-default" -- %hash c:836 d:4cbe -- | Whether the widget is the default widget. -- -- Default value: @False@ -- widgetHasDefault :: WidgetClass self => Attr self Bool widgetHasDefault = newAttrFromBoolProperty "has-default" -- %hash c:f964 d:b62f -- | If @True@, the widget will receive the default action when it is focused. -- -- Default value: @False@ -- widgetReceivesDefault :: WidgetClass self => Attr self Bool widgetReceivesDefault = newAttrFromBoolProperty "receives-default" -- %hash c:2ca6 d:cad8 -- | Whether the widget is part of a composite widget. -- -- Default value: @False@ -- widgetCompositeChild :: WidgetClass self => ReadAttr self Bool widgetCompositeChild = readAttrFromBoolProperty "composite-child" -- %hash c:4f01 d:bd3 -- | The style of the widget, which contains information about how it will -- look (colors etc). -- widgetStyle :: WidgetClass self => Attr self Style widgetStyle = newAttrFromObjectProperty "style" gTypeStyle -- | The current visual user interaction state of the widget (insensitive, -- prelighted, selected etc). See 'StateType' for more information. -- widgetState :: WidgetClass self => Attr self StateType widgetState = newAttr widgetGetState widgetSetState -- %hash c:e2a4 d:9296 -- | The event mask that decides what kind of GdkEvents this widget gets. -- -- Default value: 'StructureMask' -- widgetEvents :: WidgetClass self => Attr self [EventMask] widgetEvents = newAttrFromFlagsProperty "events" {# call pure unsafe gdk_event_mask_get_type #} #if GTK_MAJOR_VERSION < 3 -- %hash c:ba80 -- | The mask that decides what kind of extension events this widget gets. -- -- Default value: 'ExtensionEventsNone' -- -- Removed in Gtk3. widgetExtensionEvents :: WidgetClass self => Attr self [ExtensionMode] widgetExtensionEvents = newAttr widgetGetExtensionEvents widgetSetExtensionEvents #endif -- | Whether to expand in both directions. Setting this sets both 'widgetHExpand' and 'widgetVExpand' -- -- Default value: @False@ -- widgetExpand :: WidgetClass self => Attr self Bool widgetExpand = newAttrFromBoolProperty "expand" -- | Whether to expand horizontally. See 'widgetSetHExpand' -- -- Default value: @False@ -- widgetHExpand :: WidgetClass self => Attr self Bool widgetHExpand = newAttrFromBoolProperty "hexpand" -- | Whether to use the “hexpand” property. See 'widgetGetHExpandSet'. -- -- Default value: @False@ -- widgetHExpandSet :: WidgetClass self => Attr self Bool widgetHExpandSet = newAttrFromBoolProperty "hexpand-set" -- | Whether to expand vertically. See 'widgetSetVExpand'. -- -- Default value: @False@ -- widgetVExpand :: WidgetClass self => Attr self Bool widgetVExpand = newAttrFromBoolProperty "vexpand" -- | Whether to use the “vexpand” property. See 'widgetGetVExpandSet'. -- -- Default value: @False@ -- widgetVExpandSet :: WidgetClass self => Attr self Bool widgetVExpandSet = newAttrFromBoolProperty "vexpand-set" -- %hash c:1605 d:48ea -- | Whether 'widgetShowAll' should not affect this widget. -- -- Default value: @False@ -- widgetNoShowAll :: WidgetClass self => Attr self Bool widgetNoShowAll = newAttrFromBoolProperty "no-show-all" -- %hash c:cd8d d:59b2 -- | \'childVisible\' property. See 'widgetGetChildVisible' and -- 'widgetSetChildVisible' -- widgetChildVisible :: WidgetClass self => Attr self Bool widgetChildVisible = newAttr widgetGetChildVisible widgetSetChildVisible #if GTK_MAJOR_VERSION < 3 -- %hash c:a20a d:646f -- | \'colormap\' property. See 'widgetGetColormap' and 'widgetSetColormap' -- -- Removed in Gtk3. widgetColormap :: WidgetClass self => Attr self Colormap widgetColormap = newAttr widgetGetColormap widgetSetColormap #endif -- %hash c:a7fd d:55b8 -- | \'compositeName\' property. See 'widgetGetCompositeName' and -- 'widgetSetCompositeName' -- widgetCompositeName :: (WidgetClass self, GlibString string) => ReadWriteAttr self (Maybe string) string widgetCompositeName = newAttr widgetGetCompositeName widgetSetCompositeName -- %hash c:6c03 d:ce3b -- | \'direction\' property. See 'widgetGetDirection' and 'widgetSetDirection' -- widgetDirection :: WidgetClass self => Attr self TextDirection widgetDirection = newAttr widgetGetDirection widgetSetDirection -- | Sets the text of tooltip to be the given string, which is marked up with the Pango text markup -- language. Also see 'tooltipSetMarkup'. -- -- This is a convenience property which will take care of getting the tooltip shown if the given string -- is not \"\": 'hasTooltip' will automatically be set to 'True' and there will be taken care of -- 'queryTooltip' in the default signal handler. -- -- Default value: \"\" -- -- * Available since Gtk+ version 2.12 -- widgetTooltipMarkup :: (WidgetClass self, GlibString markup) => Attr self (Maybe markup) widgetTooltipMarkup = newAttrFromMaybeStringProperty "tooltip-markup" -- | Sets the text of tooltip to be the given string. -- -- Also see 'tooltipSetText'. -- -- This is a convenience property which will take care of getting the tooltip shown if the given string -- is not \"\": 'hasTooltip' will automatically be set to 'True' and there will be taken care of -- 'queryTooltip' in the default signal handler. -- -- Default value: \"\" -- -- * Available since Gtk+ version 2.12 -- widgetTooltipText :: (WidgetClass self, GlibString string) => Attr self (Maybe string) widgetTooltipText = newAttrFromMaybeStringProperty "tooltip-text" -- | Enables or disables the emission of 'queryTooltip' on widget. A value of 'True' indicates that widget -- can have a tooltip, in this case the widget will be queried using 'queryTooltip' to determine -- whether it will provide a tooltip or not. -- -- Note that setting this property to 'True' for the first time will change the event masks of the -- 'Windows' of this widget to include leave-notify and motion-notify events. This cannot and will not -- be undone when the property is set to 'False' again. -- -- Default value: 'False' -- -- * Available since Gtk+ version 2.12 -- widgetHasTooltip :: WidgetClass self => Attr self Bool widgetHasTooltip = newAttrFromBoolProperty "has-tooltip" #if GTK_CHECK_VERSION(2,20,0) -- | Determines if the widget style has been looked up through the rc mechanism. widgetHasRcStyle :: WidgetClass self => self -> IO Bool -- ^ returns 'True' if the widget has been looked up through the rc mechanism, 'False' otherwise. widgetHasRcStyle self = liftM toBool $ {#call gtk_widget_has_rc_style #} (toWidget self) -- | Determines whether widget is realized. widgetGetRealized :: WidgetClass self => self -> IO Bool -- ^ returns 'True' if widget is realized, 'False' otherwise widgetGetRealized self = liftM toBool $ {#call gtk_widget_get_realized #} (toWidget self) -- | Whether the widget is mapped. widgetGetMapped :: WidgetClass self => self -> IO Bool -- ^ returns 'True' if the widget is mapped, 'False' otherwise. widgetGetMapped self = liftM toBool $ {#call gtk_widget_get_mapped #} (toWidget self) -- | Marks the @widget@ as being realized. This function must only be called -- after all 'DrawWindows' for the widget have been created and registered. -- -- This function should only ever be called in a derived widget's “realize” -- or “unrealize” implementation. widgetSetRealized :: WidgetClass widget => widget -> Bool -- ^ @realized@ @True@ to mark the widget realized. -> IO () widgetSetRealized widget realized = {# call widget_set_realized #} (toWidget widget) (fromBool realized) -- | Marks the @widget@ as being realized. -- -- This function should only ever be called in a derived widget's “map” or -- “unmap” implementation. widgetSetMapped :: WidgetClass widget => widget -> Bool -- ^ @mapped@ @True@ to mark the widget as mapped. -> IO () widgetSetMapped widget mapped = {# call widget_set_mapped #} (toWidget widget) (fromBool mapped) #endif #if GTK_CHECK_VERSION(3,0,0) -- | Returns the style context associated to @widget@. widgetGetStyleContext :: WidgetClass widget => widget -- ^ @widget@ : a @Widget@ -> IO StyleContext -- ^ a @StyleContext@ widgetGetStyleContext widget = makeNewGObject mkStyleContext $ {# call gtk_widget_get_style_context #} (toWidget widget) -- | Gets the value of the `widgetHAlign` property. -- -- For backwards compatibility reasons this method will never return AlignBaseline, -- but instead it will convert it to AlignFill. Baselines are not supported for -- horizontal alignment. -- widgetGetHAlign :: WidgetClass self => self -> IO Align widgetGetHAlign self = liftM (toEnum . fromIntegral) $ {# call gtk_widget_get_halign #} (toWidget self) -- | Sets the horizontal alignment of widget. See the 'widgetHAlign' property. -- widgetSetHAlign :: WidgetClass self => self -> Align -> IO () widgetSetHAlign self align = {# call gtk_widget_set_halign #} (toWidget self) (fromIntegral $ fromEnum align) -- | Gets the value of the 'widgetVAlign' property. -- -- For backwards compatibility reasons this method will never return AlignBaseline, -- but instead it will convert it to AlignFill. If your widget want to support -- baseline aligned children it must use 'widgetGetVAlignWithBaseline', or -- 'widgetVAlign', which will also report the true value. widgetGetVAlign :: WidgetClass self => self -> IO Align widgetGetVAlign self = liftM (toEnum . fromIntegral) $ {# call gtk_widget_get_valign #} (toWidget self) #if GTK_CHECK_VERSION(3,10,0) -- | Gets the value of the 'widgetVAlign' property, including AlignBaseline. widgetGetVAlignWithBaseline :: WidgetClass self => self -> IO Align widgetGetVAlignWithBaseline self = liftM (toEnum . fromIntegral) $ {# call gtk_widget_get_valign_with_baseline #} (toWidget self) #endif -- | Sets the vertical alignment of widget . See the 'widgetVAlign' property. widgetSetVAlign :: WidgetClass self => self -> Align -> IO () widgetSetVAlign self align = {# call gtk_widget_set_valign #} (toWidget self) (fromIntegral $ fromEnum align) #endif -------------------- -- Signals -- %hash c:4cf5 d:af3f -- | The widget appears on screen. -- mapSignal :: WidgetClass self => Signal self (IO ()) mapSignal = Signal (connect_NONE__NONE "map") -- %hash c:e33e d:af3f -- | The widget disappears from the screen. -- unmapSignal :: WidgetClass self => Signal self (IO ()) unmapSignal = Signal (connect_NONE__NONE "unmap") -- %hash c:1f7f d:af3f -- | The widget should allocate any resources needed, in particular, the -- widget's 'DrawWindow' is created. If you connect to this signal and -- you rely on some of these resources to be present, you have to use -- 'System.Glib.Signals.after'. -- realize :: WidgetClass self => Signal self (IO ()) realize = Signal (connect_NONE__NONE "realize") -- %hash c:7948 d:af3f -- | The widget should deallocate any resources. This signal is emitted before -- the widget is destroyed. -- unrealize :: WidgetClass self => Signal self (IO ()) unrealize = Signal (connect_NONE__NONE "unrealize") -- %hash c:9f6f d:af3f -- | Query the widget for the size it likes to -- have. -- -- * A parent container emits this signal to its child to query the needed -- height and width of the child. There is not guarantee that the widget -- will actually get this area. -- sizeRequest :: WidgetClass self => Signal self (IO Requisition) sizeRequest = Signal (\after w fun -> connect_PTR__NONE "size-request" after w (\rqPtr -> fun >>= \req -> unless (rqPtr==nullPtr) $ poke rqPtr req)) -- %hash c:8ec5 d:af3f -- | Inform widget about the size it has. -- -- * After querying a widget for the size it wants to have (through emitting -- the @\"sizeRequest\"@ signal) a container will emit this signal to -- inform the widget about the real size it should occupy. -- sizeAllocate :: WidgetClass self => Signal self (Allocation -> IO ()) sizeAllocate = Signal (connect_BOXED__NONE "size-allocate" peek) -- %hash c:ae3e d:af3f -- | The widget is shown. -- showSignal :: WidgetClass self => Signal self (IO ()) showSignal = Signal (connect_NONE__NONE "show") -- %hash c:f589 d:af3f -- | The widget is hidden. -- hideSignal :: WidgetClass self => Signal self (IO ()) hideSignal = Signal (connect_NONE__NONE "hide") -- %hash c:a285 d:af3f -- | The widget gains focus via the given user action. -- focus :: WidgetClass self => Signal self (DirectionType -> IO Bool) focus = Signal (connect_ENUM__BOOL "focus") -- %hash c:78ae d:af3f -- | The state of the widget (input focus, insensitive, etc.) has changed. -- stateChanged :: WidgetClass self => Signal self (StateType -> IO ()) stateChanged = Signal (connect_ENUM__NONE "state-changed") #if GTK_CHECK_VERSION(3,0,0) connect_FLAGS__NONE :: (Flags a, GObjectClass obj) => SignalName -> ConnectAfter -> obj -> ([a] -> IO ()) -> IO (ConnectId obj) connect_FLAGS__NONE signal after obj user = connectGeneric signal after obj action where action :: Ptr GObject -> Int -> IO () action _ flags1 = failOnGError $ user (toFlags flags1) -- | The state of the widget (input focus, insensitive, etc.) has changed. -- stateFlagsChanged :: WidgetClass self => Signal self ([StateFlags] -> IO ()) stateFlagsChanged = Signal (connect_FLAGS__NONE "state-flags-changed") #endif -- %hash c:bef2 d:1d66 -- | The 'parentSet' signal is emitted when a new parent has been set on a -- widget. The parameter is the new parent. -- parentSet :: WidgetClass self => Signal self (Maybe Widget -> IO ()) parentSet = Signal (connect_MOBJECT__NONE "parent-set") -- %hash c:7e2b d:4049 -- | Emitted when there is a change in the hierarchy to which a widget belong. -- More precisely, a widget is anchored when its toplevel ancestor is a -- 'Window'. This signal is emitted when a widget changes from un-anchored to -- anchored or vice-versa. -- hierarchyChanged :: WidgetClass self => Signal self (Maybe Widget -> IO ()) hierarchyChanged = Signal (connect_MOBJECT__NONE "hierarchy-changed") -- %hash c:5894 d:ba10 -- | The 'styleSet' signal is emitted when a new style has been set on a -- widget. Note that style-modifying functions like 'widgetModifyBase' also -- cause this signal to be emitted. -- styleSet :: WidgetClass self => Signal self (Style -> IO ()) styleSet = Signal (connect_OBJECT__NONE "style-set") -- %hash c:6bb1 d:af3f -- | The default direction of text writing has changed. -- directionChanged :: WidgetClass self => Signal self (TextDirection -> IO ()) directionChanged = Signal (connect_ENUM__NONE "direction-changed") -- %hash c:c28c d:d116 -- | The 'grabNotify' signal is emitted when a widget becomes shadowed by a -- Gtk+ grab (not a pointer or keyboard grab) on another widget, or when it -- becomes unshadowed due to a grab being removed. -- -- A widget is shadowed by a 'grabAdd' when the topmost grab widget in the -- grab stack of its window group is not its ancestor. -- grabNotify :: WidgetClass self => Signal self (Bool -> IO ()) grabNotify = Signal (connect_BOOL__NONE "grab-notify") -- %hash c:e06c d:a681 -- | This signal gets emitted whenever a widget should pop up a -- context-sensitive menu. This usually happens through the standard key -- binding mechanism; by pressing a certain key while a widget is focused, the -- user can cause the widget to pop up a menu. For example, the 'Entry' widget -- creates a menu with clipboard commands. -- popupMenuSignal :: WidgetClass self => Signal self (IO Bool) popupMenuSignal = Signal (connect_NONE__BOOL "popup-menu") -- | Specify what kind of help the user wants. {#enum GtkWidgetHelpType as WidgetHelpType {underscoreToCase} deriving (Eq,Show) #} -- %hash c:b18e d:af3f -- | Tell the widget to show an explanatory help text. Should return @True@ -- if help has been shown. -- showHelp :: WidgetClass self => Signal self (WidgetHelpType -> IO Bool) showHelp = Signal (connect_ENUM__BOOL "show-help") -- %hash c:6a8f d:af3f -- | The set of keyboard accelerators has changed. -- accelClosuresChanged :: WidgetClass self => Signal self (IO ()) accelClosuresChanged = Signal (connect_NONE__NONE "accel-closures-changed") -- %hash c:5ca d:af3f -- | The widget moved to a new screen. -- screenChanged :: WidgetClass self => Signal self (Screen -> IO ()) screenChanged = Signal (connect_OBJECT__NONE "screen-changed") -- | Emitted when 'hasTooltip' is 'True' and the 'gtkTooltipTimeout' has expired with the cursor -- hovering "above" widget; or emitted when widget got focus in keyboard mode. -- -- Using the given coordinates, the signal handler should determine whether a tooltip should be shown -- for widget. If this is the case 'True' should be returned, 'False' otherwise. -- Note if widget got focus in keyboard mode, 'Point' is 'Nothing'. -- -- The signal handler is free to manipulate tooltip with the therefore destined function calls. -- -- * Available since Gtk+ version 2.12 -- queryTooltip :: WidgetClass self => Signal self (Widget -> Maybe Point -> Tooltip -> IO Bool) queryTooltip = Signal (\after model user -> connect_OBJECT_INT_INT_BOOL_OBJECT__BOOL "query-tooltip" after model (\widget x y keyb tooltip -> user widget (if keyb then Nothing else Just (x, y)) tooltip)) #if GTK_CHECK_VERSION(3,0,0) draw :: WidgetClass self => Signal self (Render ()) draw = Signal (\after model (Render user) -> connect_PTR__NONE "draw" after model (\ptr -> runReaderT user (Cairo ptr))) #endif -- * Events -- -- An event is a signal that indicates that some low-level interaction like a -- button or key press, mouse movement, etc. has occurred. In particular, -- events relate to operations on 'DrawWindow's which are a concept of the -- underlying OS rather than the logical widget concept. Some widgets have no -- window and use their parent to receive these events. Widgets normally -- synthesize more sophistiacted signals from events. For instance, the -- 'focusIn' and a 'focusOut' signal indicate that the widget gains or looses -- the input focus. From these events a 'focus' signal is synthesized that -- indicates what maneuver lead to the input focus change (i.e. a tab or -- shift-tab key press). -- -- For applications it is often sufficient to connect to the high-level -- signals rather than the low-level events. Only in cases where a custom -- widget is built based on the 'DarwingArea' skeleton, the functionality of -- such an application-specific widget needs to be implemented using events. -- -- Every event is passed an 'Event' structure that contains the data of the -- event. The return value should be @True@ if the handler has dealt with the -- event and @False@ if the event should be propagated further. For instance, -- if a key press event that isn't meaningful in the widget, the handler can -- return @False@ such that the key is handled by the other widgets (the main -- menu, for instance). -- -- Because there are so many similar signals (those that take an Event and -- return a Bool) we will abstract out the skeleton. As some of these events -- are emitted at a high rate often a bit has to be set to enable emission. eventM :: WidgetClass w => SignalName -> [EventMask] -> ConnectAfter -> w -> (EventM t Bool) -> IO (ConnectId w) eventM name eMask after obj fun = do id <- connect_PTR__BOOL name after obj (runReaderT fun) widgetAddEvents obj eMask return id -- %hash c:6cc d:af3f -- | A mouse button has been depressed while the mouse pointer was within the -- widget area. Sets the widget's 'ButtonPressMask' flag. -- buttonPressEvent :: WidgetClass self => Signal self (EventM EButton Bool) buttonPressEvent = Signal (eventM "button_press_event" [ButtonPressMask]) -- %hash c:62e8 d:af3f -- | A mouse button has been released. Sets the widget's 'ButtonReleaseMask' -- flag. -- buttonReleaseEvent :: WidgetClass self => Signal self (EventM EButton Bool) buttonReleaseEvent = Signal (eventM "button_release_event" [ButtonReleaseMask]) -- %hash c:23e5 d:af3f -- | The scroll wheel of the mouse has been used. Sets the widget's -- 'ScrollMask' flag. -- scrollEvent :: WidgetClass self => Signal self (EventM EScroll Bool) scrollEvent = Signal (eventM "scroll_event" [ScrollMask]) -- %hash c:ee92 d:af3f -- | The mouse pointer has moved. Since receiving all mouse movements is -- expensive, it is necessary to specify exactly what mouse motions are -- required by calling 'widgetAddEvents' on this widget with one or more of -- the following flags: -- -- * 'PointerMotionMask': Track all movements. -- -- * 'ButtonMotionMask': Only track movements if a button is depressed. -- -- * 'Button1MotionMask': Only track movements if the left button is depressed. -- -- * 'Button2MotionMask': Only track movements if the middle button is depressed. -- -- * 'Button3MotionMask': Only track movements if the right button is depressed. -- 'PointerMotionHintMask' is a special flag which can be used in -- combination with any of the above and is used to reduce the number of -- 'motionNotifyEvent's received. Normally a 'motionNotifyEvent' event is -- received each time the mouse moves. However, if the application spends a -- lot of time processing the event (updating the display, for example), it -- can lag behind the position of the mouse. When using -- 'PointerMotionHintMask', fewer 'motionNotifyEvent's will be sent, some of -- which are marked as a hint. To receive more motion events after a motion -- hint event, the application needs to asks for more, by calling -- 'Graphics.UI.Gtk.Gdk.EventM.eventRequestMotions'. This effectively limits -- the rate at which new motion events are received. (Note that you don't -- need to check if the hint is set as -- 'Graphics.UI.Gtk.Gdk.EventM.eventRequestMotions' does so automatically.) -- motionNotifyEvent :: WidgetClass self => Signal self (EventM EMotion Bool) motionNotifyEvent = Signal (eventM "motion_notify_event" []) -- %hash c:8783 d:3e27 -- | The 'deleteEvent' signal is emitted if a user requests that a toplevel -- window is closed. The default handler for this signal destroys the window. -- Calling 'widgetHide' and returning @True@ on reception of this signal will -- cause the window to be hidden instead, so that it can later be shown again -- without reconstructing it. -- deleteEvent :: WidgetClass self => Signal self (EventM EAny Bool) deleteEvent = Signal (eventM "delete_event" []) -- %hash c:c408 d:5514 -- | The 'destroyEvent' signal is emitted when a 'DrawWindow' is destroyed. -- You rarely get this signal, because most widgets disconnect themselves from -- their window before they destroy it, so no widget owns the window at -- destroy time. However, you might want to connect to the 'objectDestroy' -- signal of 'Object'. -- destroyEvent :: WidgetClass self => Signal self (EventM EAny Bool) destroyEvent = Signal (eventM "destroy_event" []) -- %hash c:c79e d:af3f -- | Instructs the widget to redraw. -- -- * The 'DrawWindow' that needs to be redrawn is available via -- 'eventWindow'. -- -- * The part that needs to be redrawn is available via 'eventArea' and -- 'eventRegion'. The options are, in order of efficiency: (a) redraw the -- entire window, (b) ask for the 'eventArea' and redraw that rectangle, (c) -- ask for the 'eventRegion' and redraw each of those rectangles. -- -- Only the exposed region will be updated; see also -- 'drawWindowBeginPaintRegion'. exposeEvent :: WidgetClass self => Signal self (EventM EExpose Bool) exposeEvent = Signal (eventM "expose_event" []) -- %hash c:5ccd d:af3f -- | A key has been depressed. Sets the widget's 'KeyPressMask' flag. -- keyPressEvent :: WidgetClass self => Signal self (EventM EKey Bool) keyPressEvent = Signal (eventM "key_press_event" [KeyPressMask]) -- %hash c:bd29 d:af3f -- | A key has been released. Sets the widget's 'KeyReleaseMask' flag. -- keyReleaseEvent :: WidgetClass self => Signal self (EventM EKey Bool) keyReleaseEvent = Signal (eventM "key_release_event" [KeyReleaseMask]) -- %hash c:602e d:af3f -- | The mouse pointer has entered the widget. Sets the widget's -- 'EnterNotifyMask' flag. -- enterNotifyEvent :: WidgetClass self => Signal self (EventM ECrossing Bool) enterNotifyEvent = Signal (eventM "enter_notify_event" [EnterNotifyMask]) -- %hash c:3bfb d:af3f -- | The mouse pointer has left the widget. Sets the widget's -- 'LeaveNotifyMask' flag. -- leaveNotifyEvent :: WidgetClass self => Signal self (EventM ECrossing Bool) leaveNotifyEvent = Signal (eventM "leave_notify_event" [LeaveNotifyMask]) -- %hash c:2b64 d:af3f -- | The size of the window has changed. -- configureEvent :: WidgetClass self => Signal self (EventM EConfigure Bool) configureEvent = Signal (eventM "configure_event" []) -- %hash c:427e d:af3f -- | The widget gets the input focus. Sets the widget's 'FocusChangeMask' flag. -- focusInEvent :: WidgetClass self => Signal self (EventM EFocus Bool) focusInEvent = Signal (eventM "focus_in_event" [FocusChangeMask]) -- %hash c:5281 d:af3f -- | The widget lost the input focus. Sets the widget's 'FocusChangeMask' flag. -- focusOutEvent :: WidgetClass self => Signal self (EventM EFocus Bool) focusOutEvent = Signal (eventM "focus_out_event" [FocusChangeMask]) -- %hash c:63c4 d:af3f -- | The window is put onto the screen. -- mapEvent :: WidgetClass self => Signal self (EventM EAny Bool) mapEvent = Signal (eventM "map_event" []) -- %hash c:342d d:af3f -- | The window is taken off the screen. -- unmapEvent :: WidgetClass self => Signal self (EventM EAny Bool) unmapEvent = Signal (eventM "unmap_event" []) -- %hash c:a1dd d:af3f -- | A 'DrawWindow' may be associated with a set of properties that are -- identified by a 'PropertyTag'. This event is triggered if a property is -- changed or deleted. Sets the widget's 'PropertyChangeMask' flag. -- _propertyNotifyEvent :: WidgetClass self => Signal self (EventM EProperty Bool) _propertyNotifyEvent = Signal (eventM "property_notify_event" [PropertyChangeMask]) {- not sure if these are useful -- %hash c:58cc d:af3f -- | -- selectionClearEvent :: WidgetClass self => Signal self ({-GdkEventSelection*-} Bool) selectionClearEvent = Signal (connect_{-GdkEventSelection*-}__BOOL "selection_clear_event") -- %hash c:4f92 d:af3f -- | -- selectionRequestEvent :: WidgetClass self => Signal self ({-GdkEventSelection*-} Bool) selectionRequestEvent = Signal (connect_{-GdkEventSelection*-}__BOOL "selection_request_event") -- %hash c:b842 d:af3f -- | -- selectionNotifyEvent :: WidgetClass self => Signal self ({-GdkEventSelection*-} Bool) selectionNotifyEvent = Signal (connect_{-GdkEventSelection*-}__BOOL "selection_notify_event") -} -- %hash c:b027 d:af3f -- | The pen of a graphics tablet was put down. Sets the widget's -- 'ProximityInMask' flag. -- proximityInEvent :: WidgetClass self => Signal self (EventM EProximity Bool) proximityInEvent = Signal (eventM "proximity_in_event" [ProximityInMask]) -- %hash c:faca d:af3f -- | The pen of a graphics tablet was lifted off the tablet. Sets the widget's -- 'ProximityOutMask' flag. -- proximityOutEvent :: WidgetClass self => Signal self (EventM EProximity Bool) proximityOutEvent = Signal (eventM "proximity_out_event" [ProximityOutMask]) -- %hash c:db2c d:af3f -- | Emitted when the window visibility status has changed. Sets the widget's -- 'VisibilityNotifyMask' flag. -- visibilityNotifyEvent :: WidgetClass self => Signal self (EventM EVisibility Bool) visibilityNotifyEvent = Signal (eventM "visibility_notify_event" [VisibilityNotifyMask]) {- -- %hash c:3f5 d:af3f -- | -- clientEvent :: WidgetClass self => Signal self ({-GdkEventClient*-} Bool) clientEvent = Signal (connect_{-GdkEventClient*-}__BOOL "client_event") -} -- %hash c:643c d:af3f -- | Generated when the area of a 'Drawable' being copied using, e.g. -- 'Graphics.UI.Gtk.Gdk.Drawable.drawDrawable', is completely available. -- noExposeEvent :: WidgetClass self => Signal self (EventM EAny Bool) noExposeEvent = Signal (eventM "no_expose_event" []) -- %hash c:63b6 d:af3f -- | Emitted when the state of the window changes, i.e. when it is minimized, -- moved to the top, etc. -- windowStateEvent :: WidgetClass self => Signal self (EventM EWindowState Bool) windowStateEvent = Signal (eventM "window_state_event" []) #if GTK_CHECK_VERSION(2,8,0) -- %hash c:502a d:e47a -- | Emitted when a pointer or keyboard grab on a window belonging to @widget@ -- gets broken. -- -- On X11, this happens when the grab window becomes unviewable (i.e. it or -- one of its ancestors is unmapped), or if the same application grabs the -- pointer or keyboard again. -- -- * Available since Gtk+ version 2.8 -- grabBrokenEvent :: WidgetClass self => Signal self (EventM EGrabBroken Bool) grabBrokenEvent = Signal (eventM "grab_broken_event" []) #endif -------------------- -- Deprecated Signals and Events #ifndef DISABLE_DEPRECATED event :: WidgetClass w => SignalName -> [EventMask] -> ConnectAfter -> w -> (Event -> IO Bool) -> IO (ConnectId w) event name eMask after obj fun = do id <- connect_BOXED__BOOL name marshalEvent after obj fun widgetAddEvents obj eMask return id -- | A Button was pressed. -- -- * This widget is part of a button which was just pressed. The event passed -- to the user function is a 'Graphics.UI.Gtk.Gdk.Events.Button' event. -- onButtonPress, afterButtonPress :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onButtonPress = event "button_press_event" [ButtonPressMask] False afterButtonPress = event "button_press_event" [ButtonPressMask] True -- | A Button was released. -- onButtonRelease, afterButtonRelease :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onButtonRelease = event "button_release_event" [ButtonReleaseMask] False afterButtonRelease = event "button_release_event" [ButtonReleaseMask] True -- | -- onClient, afterClient :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onClient = event "client_event" [] False afterClient = event "client_event" [] True -- | The widget's status has changed. -- onConfigure, afterConfigure :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onConfigure = event "configure_event" [] False afterConfigure = event "configure_event" [] True -- | This signal is emitted when the close icon on the -- surrounding window is pressed. The default action is to emit the -- @\"destroy\"@ signal. -- onDelete, afterDelete :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onDelete = event "delete_event" [] False afterDelete = event "delete_event" [] True -- | The widget will be destroyed. -- -- * The widget received a destroy event from the window manager. -- onDestroyEvent, afterDestroyEvent :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onDestroyEvent = event "destroy_event" [] False afterDestroyEvent = event "destroy_event" [] True -- | The default text direction was changed. -- onDirectionChanged, afterDirectionChanged :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onDirectionChanged = event "direction_changed" [] False afterDirectionChanged = event "direction_changed" [] True -- | Mouse cursor entered widget. -- -- * Contains a 'Crossing' event. -- onEnterNotify, afterEnterNotify :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onEnterNotify = event "enter_notify_event" [EnterNotifyMask] False afterEnterNotify = event "enter_notify_event" [EnterNotifyMask] True -- | Mouse cursor leaves widget. -- -- * Contains a 'Crossing' event. -- onLeaveNotify, afterLeaveNotify :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onLeaveNotify = event "leave_notify_event" [LeaveNotifyMask] False afterLeaveNotify = event "leave_notify_event" [LeaveNotifyMask] True -- | Instructs the widget to redraw. -- -- * This event is useful for the 'DrawingArea'. On receiving this signal -- the content of the passed Rectangle or Region needs to be redrawn. -- The return value should be 'True' if the region was completely redrawn -- and 'False' if other handlers in the chain should be invoked. -- If a client will redraw the whole area and is not interested in the -- extra information in 'Expose', it is more efficient -- to use 'onExposeRect'. -- -- * Widgets that are very expensive to re-render, such as an image editor, -- may prefer to use the 'onExpose' call back which delivers a -- 'Region' in addition to a 'Rectangle'. A 'Region' consists of several -- rectangles that need redrawing. The simpler 'onExposeRect' event encodes -- the area to be redrawn as a bounding rectangle which might be easier -- to deal with in a particular application. -- onExpose, afterExpose :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onExpose = event "expose_event" [] False afterExpose = event "expose_event" [] True -- | Expose event delivering a 'Rectangle'. -- onExposeRect, afterExposeRect :: WidgetClass w => w -> (Rectangle -> IO ()) -> IO (ConnectId w) onExposeRect w act = connect_BOXED__BOOL "expose_event" marshExposeRect False w (\r -> act r >> return True) afterExposeRect w act = connect_BOXED__BOOL "expose_event" marshExposeRect True w (\r -> act r >> return True) -- | This signal is called if the widget receives the input focus. -- onFocus, afterFocus :: WidgetClass w => w -> (DirectionType -> IO Bool) -> IO (ConnectId w) onFocus = connect_ENUM__BOOL "focus" False afterFocus = connect_ENUM__BOOL "focus" True -- | Widget gains input focus. -- onFocusIn, afterFocusIn :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onFocusIn = event "focus_in_event" [FocusChangeMask] False afterFocusIn = event "focus_in_event" [FocusChangeMask] True -- | Widget looses input focus. -- onFocusOut, afterFocusOut :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onFocusOut = event "focus_out_event" [FocusChangeMask] False afterFocusOut = event "focus_out_event" [FocusChangeMask] True -- | The widget is about to receive all events. -- -- * It is possible to redirect all input events to one widget to force the -- user to use only this widget. Such a situation is initiated by -- 'addGrab'. -- onGrabFocus, afterGrabFocus :: WidgetClass w => w -> IO () -> IO (ConnectId w) onGrabFocus = connect_NONE__NONE "grab_focus" False afterGrabFocus = connect_NONE__NONE "grab_focus" True -- | The widget will be destroyed. -- -- * This is the last signal this widget will receive. -- onDestroy, afterDestroy :: WidgetClass w => w -> (IO ()) -> IO (ConnectId w) onDestroy = connect_NONE__NONE "destroy" False afterDestroy = connect_NONE__NONE "destroy" True -- | The widget was asked to hide itself. -- -- * This signal is emitted each time 'widgetHide' is called. Use -- 'onUnmap' when your application needs to be informed -- when the widget is actually removed from screen. -- onHide, afterHide :: WidgetClass w => w -> IO () -> IO (ConnectId w) onHide = connect_NONE__NONE "hide" False afterHide = connect_NONE__NONE "hide" True -- | The toplevel window changed. -- -- * When a subtree of widgets is removed or added from a tree with a toplevel -- window this signal is emitted. It is emitted on each widget in the -- detached or attached subtree. -- onHierarchyChanged, afterHierarchyChanged :: WidgetClass w => w -> IO () -> IO (ConnectId w) onHierarchyChanged = connect_NONE__NONE "hierarchy_changed" False afterHierarchyChanged = connect_NONE__NONE "hierarchy_changed" True -- | A key was pressed. -- onKeyPress, afterKeyPress :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onKeyPress = event "key_press_event" [KeyPressMask] False afterKeyPress = event "key_press_event" [KeyPressMask] True -- | A key was released. -- onKeyRelease, afterKeyRelease :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onKeyRelease = event "key_release_event" [KeyReleaseMask] False afterKeyRelease = event "key_release_event" [KeyReleaseMask] True -- | -- onMnemonicActivate, afterMnemonicActivate :: WidgetClass w => w -> (Bool -> IO Bool) -> IO (ConnectId w) onMnemonicActivate = connect_BOOL__BOOL "mnemonic_activate" False afterMnemonicActivate = connect_BOOL__BOOL "mnemonic_activate" True -- | Track mouse movements. -- -- * If @hint@ is False, a callback for every movement of the mouse is -- generated. To avoid a backlog of mouse messages, it is usually sufficient -- to sent @hint@ to True, generating only one event. The -- application now has to state that it is ready for the next message by -- calling 'Graphics.UI.Gtk.Gdk.DrawWindow.drawWindowGetPointer'. -- onMotionNotify, afterMotionNotify :: WidgetClass w => w -> Bool -> (Event -> IO Bool) -> IO (ConnectId w) onMotionNotify w hint = event "motion_notify_event" (if hint then [PointerMotionMask, PointerMotionHintMask] else [PointerMotionMask]) False w afterMotionNotify w hint = event "motion_notify_event" (if hint then [PointerMotionMask, PointerMotionHintMask] else [PointerMotionMask]) True w -- | -- onParentSet, afterParentSet :: (WidgetClass w, WidgetClass old) => w -> (old -> IO ()) -> IO (ConnectId w) onParentSet = connect_OBJECT__NONE "parent_set" False afterParentSet = connect_OBJECT__NONE "parent_set" True -- | -- onPopupMenu, afterPopupMenu :: WidgetClass w => w -> IO () -> IO (ConnectId w) onPopupMenu = connect_NONE__NONE "popup_menu" False afterPopupMenu = connect_NONE__NONE "popup_menu" True -- | The input device became active. -- -- * This event indicates that a pen of a graphics tablet or similar device is -- now touching the tablet. -- onProximityIn, afterProximityIn :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onProximityIn = event "proximity_in_event" [ProximityInMask] False afterProximityIn = event "proximity_in_event" [ProximityInMask] True -- | The input device became inactive. -- -- * The pen was removed from the graphics tablet's surface. -- onProximityOut, afterProximityOut :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onProximityOut = event "proximity_out_event" [ProximityOutMask] False afterProximityOut = event "proximity_out_event" [ProximityOutMask] True -- | This widget's drawing area is about to be -- destroyed. -- onRealize, afterRealize :: WidgetClass w => w -> IO () -> IO (ConnectId w) onRealize = connect_NONE__NONE "realize" False afterRealize = connect_NONE__NONE "realize" True -- | The mouse wheel has turned. -- -- * The 'Event' is always 'Scroll'. -- onScroll, afterScroll :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onScroll = event "scroll_event" [ScrollMask] False afterScroll = event "scroll_event" [ScrollMask] True -- | The widget was asked to show itself. -- -- * This signal is emitted each time 'widgetShow' is called. Use -- 'onMap' when your application needs to be informed when -- the widget is actually shown. -- onShow, afterShow :: WidgetClass w => w -> IO () -> IO (ConnectId w) onShow = connect_NONE__NONE "show" False afterShow = connect_NONE__NONE "show" True -- | Inform widget about the size it has. -- -- * After querying a widget for the size it wants to have (through emitting -- the @\"sizeRequest\"@ signal) a container will emit this signal to -- inform the widget about the real size it should occupy. -- onSizeAllocate, afterSizeAllocate :: WidgetClass w => w -> (Allocation -> IO ()) -> IO (ConnectId w) onSizeAllocate = connect_BOXED__NONE "size_allocate" peek False afterSizeAllocate = connect_BOXED__NONE "size_allocate" peek True -- | Query the widget for the size it likes to -- have. -- -- * A parent container emits this signal to its child to query the needed -- height and width of the child. There is not guarantee that the widget -- will actually get this area. -- onSizeRequest, afterSizeRequest :: WidgetClass w => w -> (IO Requisition) -> IO (ConnectId w) onSizeRequest w fun = connect_PTR__NONE "size_request" False w (\rqPtr -> do req <- fun unless (rqPtr==nullPtr) $ poke rqPtr req) afterSizeRequest w fun = connect_PTR__NONE "size_request" True w (\rqPtr -> do req <- fun unless (rqPtr==nullPtr) $ poke rqPtr req) -- | -- onStateChanged, afterStateChanged :: WidgetClass w => w -> (StateType -> IO ()) -> IO (ConnectId w) onStateChanged = connect_ENUM__NONE "state_changed" False afterStateChanged = connect_ENUM__NONE "state_changed" True -- | The widget was removed from screen. -- onUnmap, afterUnmap :: WidgetClass w => w -> IO () -> IO (ConnectId w) onUnmap = connect_NONE__NONE "unmap" False afterUnmap = connect_NONE__NONE "unmap" True -- | This widget's drawing area is about to be -- destroyed. -- onUnrealize, afterUnrealize :: WidgetClass w => w -> IO () -> IO (ConnectId w) onUnrealize = connect_NONE__NONE "unrealize" False afterUnrealize = connect_NONE__NONE "unrealize" True -- | -- onVisibilityNotify, afterVisibilityNotify :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onVisibilityNotify = event "visibility_notify_event" [VisibilityNotifyMask] False afterVisibilityNotify = event "visibility_notify_event" [VisibilityNotifyMask] True -- | -- onWindowState, afterWindowState :: WidgetClass w => w -> (Event -> IO Bool) -> IO (ConnectId w) onWindowState = event "window_state_event" [] False afterWindowState = event "window_state_event" [] True #endif