Copyright | Will Thompson Iñaki García Etxebarria and Jonas Platte |
---|---|
License | LGPL-2.1 |
Maintainer | Iñaki García Etxebarria (garetxe@gmail.com) |
Safe Haskell | None |
Language | Haskell2010 |
- Exported types
- Methods
- activate
- addAccelerator
- addDeviceEvents
- addEvents
- addMnemonicLabel
- addTickCallback
- canActivateAccel
- childFocus
- childNotify
- classPath
- computeExpand
- createPangoContext
- createPangoLayout
- destroy
- destroyed
- deviceIsShadowed
- dragBegin
- dragBeginWithCoordinates
- dragCheckThreshold
- dragDestAddImageTargets
- dragDestAddTextTargets
- dragDestAddUriTargets
- dragDestFindTarget
- dragDestGetTargetList
- dragDestGetTrackMotion
- dragDestSet
- dragDestSetProxy
- dragDestSetTargetList
- dragDestSetTrackMotion
- dragDestUnset
- dragGetData
- dragHighlight
- dragSourceAddImageTargets
- dragSourceAddTextTargets
- dragSourceAddUriTargets
- dragSourceGetTargetList
- dragSourceSet
- dragSourceSetIconGicon
- dragSourceSetIconName
- dragSourceSetIconPixbuf
- dragSourceSetIconStock
- dragSourceSetTargetList
- dragSourceUnset
- dragUnhighlight
- draw
- ensureStyle
- errorBell
- event
- freezeChildNotify
- getAccessible
- getActionGroup
- getAllocatedBaseline
- getAllocatedHeight
- getAllocatedSize
- getAllocatedWidth
- getAllocation
- getAncestor
- getAppPaintable
- getCanDefault
- getCanFocus
- getChildRequisition
- getChildVisible
- getClip
- getClipboard
- getCompositeName
- getDefaultDirection
- getDefaultStyle
- getDeviceEnabled
- getDeviceEvents
- getDirection
- getDisplay
- getDoubleBuffered
- getEvents
- getFocusOnClick
- getFontMap
- getFontOptions
- getFrameClock
- getHalign
- getHasTooltip
- getHasWindow
- getHexpand
- getHexpandSet
- getMapped
- getMarginBottom
- getMarginEnd
- getMarginLeft
- getMarginRight
- getMarginStart
- getMarginTop
- getModifierMask
- getModifierStyle
- getName
- getNoShowAll
- getOpacity
- getPangoContext
- getParent
- getParentWindow
- getPath
- getPointer
- getPreferredHeight
- getPreferredHeightAndBaselineForWidth
- getPreferredHeightForWidth
- getPreferredSize
- getPreferredWidth
- getPreferredWidthForHeight
- getRealized
- getReceivesDefault
- getRequestMode
- getRequisition
- getRootWindow
- getScaleFactor
- getScreen
- getSensitive
- getSettings
- getSizeRequest
- getState
- getStateFlags
- getStyle
- getStyleContext
- getSupportMultidevice
- getTemplateChild
- getTooltipMarkup
- getTooltipText
- getTooltipWindow
- getToplevel
- getValign
- getValignWithBaseline
- getVexpand
- getVexpandSet
- getVisible
- getVisual
- getWindow
- grabAdd
- grabDefault
- grabFocus
- grabRemove
- hasDefault
- hasFocus
- hasGrab
- hasRcStyle
- hasScreen
- hasVisibleFocus
- hide
- hideOnDelete
- inDestruction
- initTemplate
- inputShapeCombineRegion
- insertActionGroup
- intersect
- isAncestor
- isComposited
- isDrawable
- isFocus
- isSensitive
- isToplevel
- isVisible
- keynavFailed
- listAccelClosures
- listActionPrefixes
- listMnemonicLabels
- map
- mnemonicActivate
- modifyBase
- modifyBg
- modifyCursor
- modifyFg
- modifyFont
- modifyStyle
- modifyText
- overrideBackgroundColor
- overrideColor
- overrideCursor
- overrideFont
- overrideSymbolicColor
- path
- popCompositeChild
- pushCompositeChild
- queueAllocate
- queueComputeExpand
- queueDraw
- queueDrawArea
- queueDrawRegion
- queueResize
- queueResizeNoRedraw
- realize
- regionIntersect
- registerWindow
- removeAccelerator
- removeMnemonicLabel
- removeTickCallback
- renderIcon
- renderIconPixbuf
- reparent
- resetRcStyles
- resetStyle
- sendExpose
- sendFocusChange
- setAccelPath
- setAllocation
- setAppPaintable
- setCanDefault
- setCanFocus
- setChildVisible
- setClip
- setCompositeName
- setDefaultDirection
- setDeviceEnabled
- setDeviceEvents
- setDirection
- setDoubleBuffered
- setEvents
- setFocusOnClick
- setFontMap
- setFontOptions
- setHalign
- setHasTooltip
- setHasWindow
- setHexpand
- setHexpandSet
- setMapped
- setMarginBottom
- setMarginEnd
- setMarginLeft
- setMarginRight
- setMarginStart
- setMarginTop
- setName
- setNoShowAll
- setOpacity
- setParent
- setParentWindow
- setRealized
- setReceivesDefault
- setRedrawOnAllocate
- setSensitive
- setSizeRequest
- setState
- setStateFlags
- setStyle
- setSupportMultidevice
- setTooltipMarkup
- setTooltipText
- setTooltipWindow
- setValign
- setVexpand
- setVexpandSet
- setVisible
- setVisual
- setWindow
- shapeCombineRegion
- show
- showAll
- showNow
- sizeAllocate
- sizeAllocateWithBaseline
- sizeRequest
- styleAttach
- styleGetProperty
- thawChildNotify
- translateCoordinates
- triggerTooltipQuery
- unmap
- unparent
- unrealize
- unregisterWindow
- unsetStateFlags
- Properties
- appPaintable
- canDefault
- canFocus
- compositeChild
- doubleBuffered
- events
- expand
- focusOnClick
- halign
- hasDefault
- hasFocus
- hasTooltip
- heightRequest
- hexpand
- hexpandSet
- isFocus
- margin
- marginBottom
- marginEnd
- marginLeft
- marginRight
- marginStart
- marginTop
- name
- noShowAll
- opacity
- parent
- receivesDefault
- scaleFactor
- sensitive
- style
- tooltipMarkup
- tooltipText
- valign
- vexpand
- vexpandSet
- visible
- widthRequest
- window
- Signals
- accelClosuresChanged
- buttonPressEvent
- buttonReleaseEvent
- canActivateAccel
- childNotify
- compositedChanged
- configureEvent
- damageEvent
- deleteEvent
- destroy
- destroyEvent
- directionChanged
- dragBegin
- dragDataDelete
- dragDataGet
- dragDataReceived
- dragDrop
- dragEnd
- dragFailed
- dragLeave
- dragMotion
- draw
- enterNotifyEvent
- event
- eventAfter
- focus
- focusInEvent
- focusOutEvent
- grabBrokenEvent
- grabFocus
- grabNotify
- hide
- hierarchyChanged
- keyPressEvent
- keyReleaseEvent
- keynavFailed
- leaveNotifyEvent
- map
- mapEvent
- mnemonicActivate
- motionNotifyEvent
- moveFocus
- parentSet
- popupMenu
- propertyNotifyEvent
- proximityInEvent
- proximityOutEvent
- queryTooltip
- realize
- screenChanged
- scrollEvent
- selectionClearEvent
- selectionGet
- selectionNotifyEvent
- selectionReceived
- selectionRequestEvent
- show
- showHelp
- sizeAllocate
- stateChanged
- stateFlagsChanged
- styleSet
- styleUpdated
- touchEvent
- unmap
- unmapEvent
- unrealize
- visibilityNotifyEvent
- windowStateEvent
GtkWidget is the base class all widgets in GTK+ derive from. It manages the widget lifecycle, states and style.
GTK+ uses a height-for-width (and width-for-height) geometry management system. Height-for-width means that a widget can change how much vertical space it needs, depending on the amount of horizontal space that it is given (and similar for width-for-height). The most common example is a label that reflows to fill up the available width, wraps to fewer lines, and therefore needs less height.
Height-for-width geometry management is implemented in GTK+ by way of five virtual methods:
WidgetClass
.get_request_mode
()WidgetClass
.get_preferred_width
()WidgetClass
.get_preferred_height
()WidgetClass
.get_preferred_height_for_width
()WidgetClass
.get_preferred_width_for_height
()WidgetClass
.get_preferred_height_and_baseline_for_width
()
There are some important things to keep in mind when implementing height-for-width and when using it in container implementations.
The geometry management system will query a widget hierarchy in
only one orientation at a time. When widgets are initially queried
for their minimum sizes it is generally done in two initial passes
in the SizeRequestMode
chosen by the toplevel.
For example, when queried in the normal
SizeRequestModeHeightForWidth
mode:
First, the default minimum and natural width for each widget
in the interface will be computed using widgetGetPreferredWidth
.
Because the preferred widths for each container depend on the preferred
widths of their children, this information propagates up the hierarchy,
and finally a minimum and natural width is determined for the entire
toplevel. Next, the toplevel will use the minimum width to query for the
minimum height contextual to that width using
widgetGetPreferredHeightForWidth
, which will also be a highly
recursive operation. The minimum height for the minimum width is normally
used to set the minimum size constraint on the toplevel
(unless windowSetGeometryHints
is explicitly used instead).
After the toplevel window has initially requested its size in both
dimensions it can go on to allocate itself a reasonable size (or a size
previously specified with windowSetDefaultSize
). During the
recursive allocation process it’s important to note that request cycles
will be recursively executed while container widgets allocate their children.
Each container widget, once allocated a size, will go on to first share the
space in one orientation among its children and then request each child's
height for its target allocated width or its width for allocated height,
depending. In this way a Widget
will typically be requested its size
a number of times before actually being allocated a size. The size a
widget is finally allocated can of course differ from the size it has
requested. For this reason, Widget
caches a small number of results
to avoid re-querying for the same sizes in one allocation cycle.
See [GtkContainer’s geometry management section][container-geometry-management] to learn more about how height-for-width allocations are performed by container widgets.
If a widget does move content around to intelligently use up the
allocated size then it must support the request in both
GtkSizeRequestModes
even if the widget in question only
trades sizes in a single orientation.
For instance, a Label
that does height-for-width word wrapping
will not expect to have WidgetClass
.get_preferred_height
() called
because that call is specific to a width-for-height request. In this
case the label must return the height required for its own minimum
possible width. By following this rule any widget that handles
height-for-width or width-for-height requests will always be allocated
at least enough space to fit its own content.
Here are some examples of how a SizeRequestModeHeightForWidth
widget
generally deals with width-for-height requests, for WidgetClass
.get_preferred_height
()
it will do:
C code
static void foo_widget_get_preferred_height (GtkWidget *widget, gint *min_height, gint *nat_height) { if (i_am_in_height_for_width_mode) { gint min_width, nat_width; GTK_WIDGET_GET_CLASS (widget)->get_preferred_width (widget, &min_width, &nat_width); GTK_WIDGET_GET_CLASS (widget)->get_preferred_height_for_width (widget, min_width, min_height, nat_height); } else { ... some widgets do both. For instance, if a GtkLabel is rotated to 90 degrees it will return the minimum and natural height for the rotated label here. } }
And in WidgetClass
.get_preferred_width_for_height
() it will simply return
the minimum and natural width:
C code
static void foo_widget_get_preferred_width_for_height (GtkWidget *widget, gint for_height, gint *min_width, gint *nat_width) { if (i_am_in_height_for_width_mode) { GTK_WIDGET_GET_CLASS (widget)->get_preferred_width (widget, min_width, nat_width); } else { ... again if a widget is sometimes operating in width-for-height mode (like a rotated GtkLabel) it can go ahead and do its real width for height calculation here. } }
Often a widget needs to get its own request during size request or allocation. For example, when computing height it may need to also compute width. Or when deciding how to use an allocation, the widget may need to know its natural size. In these cases, the widget should be careful to call its virtual methods directly, like this:
C code
GTK_WIDGET_GET_CLASS(widget)->get_preferred_width (widget, &min, &natural);
It will not work to use the wrapper functions, such as
widgetGetPreferredWidth
inside your own size request
implementation. These return a request adjusted by SizeGroup
and by the WidgetClass
.adjust_size_request
() virtual method. If a
widget used the wrappers inside its virtual method implementations,
then the adjustments (such as widget margins) would be applied
twice. GTK+ therefore does not allow this and will warn if you try
to do it.
Of course if you are getting the size request for
another widget, such as a child of a
container, you must use the wrapper APIs.
Otherwise, you would not properly consider widget margins,
SizeGroup
, and so forth.
Since 3.10 GTK+ also supports baseline vertical alignment of widgets. This
means that widgets are positioned such that the typographical baseline of
widgets in the same row are aligned. This happens if a widget supports baselines,
has a vertical alignment of AlignBaseline
, and is inside a container
that supports baselines and has a natural “row” that it aligns to the baseline,
or a baseline assigned to it by the grandparent.
Baseline alignment support for a widget is done by the WidgetClass
.get_preferred_height_and_baseline_for_width
()
virtual function. It allows you to report a baseline in combination with the
minimum and natural height. If there is no baseline you can return -1 to indicate
this. The default implementation of this virtual function calls into the
WidgetClass
.get_preferred_height
() and WidgetClass
.get_preferred_height_for_width
(),
so if baselines are not supported it doesn’t need to be implemented.
If a widget ends up baseline aligned it will be allocated all the space in the parent
as if it was AlignFill
, but the selected baseline can be found via widgetGetAllocatedBaseline
.
If this has a value other than -1 you need to align the widget such that the baseline
appears at the position.
Style Properties
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][gtk3-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.
Use widgetClassInstallStyleProperty
to install style properties for
a widget class, widgetClassFindStyleProperty
or
widgetClassListStyleProperties
to get information about existing
style properties and widgetStyleGetProperty
, gtk_widget_style_get()
or
gtk_widget_style_get_valist()
to obtain the value of a style property.
GtkWidget as GtkBuildable
The GtkWidget implementation of the GtkBuildable interface supports a custom <accelerator> element, which has attributes named ”key”, ”modifiers” and ”signal” and allows to specify accelerators.
An example of a UI definition fragment specifying an accelerator: > >class="GtkButton" > key="q" modifiers="GDK_CONTROL_MASK" signal="clicked"/ >/object
In addition to accelerators, GtkWidget also support a custom <accessible>
element, which supports actions and relations. Properties on the accessible
implementation of an object can be set by accessing the internal child
“accessible” of a Widget
.
An example of a UI definition fragment specifying an accessible: > >class="GtkLabel" id="label1"/ > name="label"I am a Label for a Button/property >/object >class="GtkButton" id="button1" > accessibility > action_name="click" translatable="yes"Click the button./action > target="label1" type="labelled-by"/ > /accessibility > internal-child="accessible" > class="AtkObject" id="a11y-button1" > name="accessible-name"Clickable Button/property > /object > /child >/object
Finally, GtkWidget allows style information such as style classes to be associated with widgets, using the custom <style> element: > >class="GtkButton" id="button1" > style > name="my-special-button-class"/ > name="dark-button"/ > /style >/object
GtkWidget exposes some facilities to automate the procedure
of creating composite widgets using Builder
interface description
language.
To create composite widgets with Builder
XML, one must associate
the interface description with the widget class at class initialization
time using widgetClassSetTemplate
.
The interface description semantics expected in composite template descriptions
is slightly different from regular Builder
XML.
Unlike regular interface descriptions, widgetClassSetTemplate
will
expect a <template> tag as a direct child of the toplevel <interface>
tag. The <template> tag must specify the “class” attribute which must be
the type name of the widget. Optionally, the “parent” attribute may be
specified to specify the direct parent type of the widget type, this is
ignored by the GtkBuilder but required for Glade to introspect what kind
of properties and internal children exist for a given type when the actual
type does not exist.
The XML which is contained inside the <template> tag behaves as if it were
added to the <object> tag defining widget
itself. You may set properties
on widget
by inserting <property> tags into the <template> tag, and also
add <child> tags to add children and extend widget
in the normal way you
would with <object> tags.
Additionally, <object> tags can also be added before and after the initial <template> tag in the normal way, allowing one to define auxiliary objects which might be referenced by other widgets declared as children of the <template> tag.
An example of a GtkBuilder Template Definition: > >interface > class="FooWidget" parent="GtkBox" > name="orientation"GTK_ORIENTATION_HORIZONTAL/property > name="spacing"4/property > child > class="GtkButton" id="hello_button" > name="label"Hello World/property > name="clicked" handler="hello_button_clicked" object="FooWidget" swapped="yes"/ > /object > /child > child > class="GtkButton" id="goodbye_button" > name="label"Goodbye World/property > /object > /child > /template >/interface
Typically, you'll place the template fragment into a file that is
bundled with your project, using Resource
. In order to load the
template, you need to call widgetClassSetTemplateFromResource
from the class initialization of your Widget
type:
C code
static void foo_widget_class_init (FooWidgetClass *klass) { // ... gtk_widget_class_set_template_from_resource (GTK_WIDGET_CLASS (klass), "/com/example/ui/foowidget.ui"); }
You will also need to call widgetInitTemplate
from the instance
initialization function:
C code
static void foo_widget_init (FooWidget *self) { // ... gtk_widget_init_template (GTK_WIDGET (self)); }
You can access widgets defined in the template using the
widgetGetTemplateChild
function, but you will typically declare
a pointer in the instance private data structure of your type using the same
name as the widget in the template definition, and call
gtk_widget_class_bind_template_child_private()
with that name, e.g.
C code
typedef struct { GtkWidget *hello_button; GtkWidget *goodbye_button; } FooWidgetPrivate; G_DEFINE_TYPE_WITH_PRIVATE (FooWidget, foo_widget, GTK_TYPE_BOX) static void foo_widget_class_init (FooWidgetClass *klass) { // ... gtk_widget_class_set_template_from_resource (GTK_WIDGET_CLASS (klass), "/com/example/ui/foowidget.ui"); gtk_widget_class_bind_template_child_private (GTK_WIDGET_CLASS (klass), FooWidget, hello_button); gtk_widget_class_bind_template_child_private (GTK_WIDGET_CLASS (klass), FooWidget, goodbye_button); } static void foo_widget_init (FooWidget *widget) { }
You can also use gtk_widget_class_bind_template_callback()
to connect a signal
callback defined in the template with a function visible in the scope of the
class, e.g.
C code
// the signal handler has the instance and user data swapped // because of the swapped="yes" attribute in the template XML static void hello_button_clicked (FooWidget *self, GtkButton *button) { g_print ("Hello, world!\n"); } static void foo_widget_class_init (FooWidgetClass *klass) { // ... gtk_widget_class_set_template_from_resource (GTK_WIDGET_CLASS (klass), "/com/example/ui/foowidget.ui"); gtk_widget_class_bind_template_callback (GTK_WIDGET_CLASS (klass), hello_button_clicked); }
Synopsis
- newtype Widget = Widget (ManagedPtr Widget)
- class GObject o => IsWidget o
- toWidget :: (MonadIO m, IsWidget o) => o -> m Widget
- noWidget :: Maybe Widget
- widgetActivate :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetAddAccelerator :: (HasCallStack, MonadIO m, IsWidget a, IsAccelGroup b) => a -> Text -> b -> Word32 -> [ModifierType] -> [AccelFlags] -> m ()
- widgetAddDeviceEvents :: (HasCallStack, MonadIO m, IsWidget a, IsDevice b) => a -> b -> [EventMask] -> m ()
- widgetAddEvents :: (HasCallStack, MonadIO m, IsWidget a) => a -> [EventMask] -> m ()
- widgetAddMnemonicLabel :: (HasCallStack, MonadIO m, IsWidget a, IsWidget b) => a -> b -> m ()
- widgetAddTickCallback :: (HasCallStack, MonadIO m, IsWidget a) => a -> TickCallback -> m Word32
- widgetCanActivateAccel :: (HasCallStack, MonadIO m, IsWidget a) => a -> Word32 -> m Bool
- widgetChildFocus :: (HasCallStack, MonadIO m, IsWidget a) => a -> DirectionType -> m Bool
- widgetChildNotify :: (HasCallStack, MonadIO m, IsWidget a) => a -> Text -> m ()
- widgetClassPath :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Word32, Text, Text)
- widgetComputeExpand :: (HasCallStack, MonadIO m, IsWidget a) => a -> Orientation -> m Bool
- widgetCreatePangoContext :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Context
- widgetCreatePangoLayout :: (HasCallStack, MonadIO m, IsWidget a) => a -> Maybe Text -> m Layout
- widgetDestroy :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetDestroyed :: (HasCallStack, MonadIO m, IsWidget a, IsWidget b) => a -> b -> m Widget
- widgetDeviceIsShadowed :: (HasCallStack, MonadIO m, IsWidget a, IsDevice b) => a -> b -> m Bool
- widgetDragBegin :: (HasCallStack, MonadIO m, IsWidget a) => a -> TargetList -> [DragAction] -> Int32 -> Maybe Event -> m DragContext
- widgetDragBeginWithCoordinates :: (HasCallStack, MonadIO m, IsWidget a) => a -> TargetList -> [DragAction] -> Int32 -> Maybe Event -> Int32 -> Int32 -> m DragContext
- widgetDragCheckThreshold :: (HasCallStack, MonadIO m, IsWidget a) => a -> Int32 -> Int32 -> Int32 -> Int32 -> m Bool
- widgetDragDestAddImageTargets :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetDragDestAddTextTargets :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetDragDestAddUriTargets :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetDragDestFindTarget :: (HasCallStack, MonadIO m, IsWidget a, IsDragContext b) => a -> b -> Maybe TargetList -> m (Maybe Atom)
- widgetDragDestGetTargetList :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Maybe TargetList)
- widgetDragDestGetTrackMotion :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetDragDestSet :: (HasCallStack, MonadIO m, IsWidget a) => a -> [DestDefaults] -> Maybe [TargetEntry] -> [DragAction] -> m ()
- widgetDragDestSetProxy :: (HasCallStack, MonadIO m, IsWidget a, IsWindow b) => a -> b -> DragProtocol -> Bool -> m ()
- widgetDragDestSetTargetList :: (HasCallStack, MonadIO m, IsWidget a) => a -> Maybe TargetList -> m ()
- widgetDragDestSetTrackMotion :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetDragDestUnset :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetDragGetData :: (HasCallStack, MonadIO m, IsWidget a, IsDragContext b) => a -> b -> Atom -> Word32 -> m ()
- widgetDragHighlight :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetDragSourceAddImageTargets :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetDragSourceAddTextTargets :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetDragSourceAddUriTargets :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetDragSourceGetTargetList :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Maybe TargetList)
- widgetDragSourceSet :: (HasCallStack, MonadIO m, IsWidget a) => a -> [ModifierType] -> Maybe [TargetEntry] -> [DragAction] -> m ()
- widgetDragSourceSetIconGicon :: (HasCallStack, MonadIO m, IsWidget a, IsIcon b) => a -> b -> m ()
- widgetDragSourceSetIconName :: (HasCallStack, MonadIO m, IsWidget a) => a -> Text -> m ()
- widgetDragSourceSetIconPixbuf :: (HasCallStack, MonadIO m, IsWidget a, IsPixbuf b) => a -> b -> m ()
- widgetDragSourceSetIconStock :: (HasCallStack, MonadIO m, IsWidget a) => a -> Text -> m ()
- widgetDragSourceSetTargetList :: (HasCallStack, MonadIO m, IsWidget a) => a -> Maybe TargetList -> m ()
- widgetDragSourceUnset :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetDragUnhighlight :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetDraw :: (HasCallStack, MonadIO m, IsWidget a) => a -> Context -> m ()
- widgetEnsureStyle :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetErrorBell :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetEvent :: (HasCallStack, MonadIO m, IsWidget a) => a -> Event -> m Bool
- widgetFreezeChildNotify :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetGetAccessible :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Object
- widgetGetActionGroup :: (HasCallStack, MonadIO m, IsWidget a) => a -> Text -> m (Maybe ActionGroup)
- widgetGetAllocatedBaseline :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Int32
- widgetGetAllocatedHeight :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Int32
- widgetGetAllocatedSize :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Rectangle, Int32)
- widgetGetAllocatedWidth :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Int32
- widgetGetAllocation :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Rectangle
- widgetGetAncestor :: (HasCallStack, MonadIO m, IsWidget a) => a -> GType -> m (Maybe Widget)
- widgetGetAppPaintable :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetCanDefault :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetCanFocus :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetChildRequisition :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Requisition
- widgetGetChildVisible :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetClip :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Rectangle
- widgetGetClipboard :: (HasCallStack, MonadIO m, IsWidget a) => a -> Atom -> m Clipboard
- widgetGetCompositeName :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Text
- widgetGetDefaultDirection :: (HasCallStack, MonadIO m) => m TextDirection
- widgetGetDefaultStyle :: (HasCallStack, MonadIO m) => m Style
- widgetGetDeviceEnabled :: (HasCallStack, MonadIO m, IsWidget a, IsDevice b) => a -> b -> m Bool
- widgetGetDeviceEvents :: (HasCallStack, MonadIO m, IsWidget a, IsDevice b) => a -> b -> m [EventMask]
- widgetGetDirection :: (HasCallStack, MonadIO m, IsWidget a) => a -> m TextDirection
- widgetGetDisplay :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Display
- widgetGetDoubleBuffered :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetEvents :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Int32
- widgetGetFocusOnClick :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetFontMap :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Maybe FontMap)
- widgetGetFontOptions :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Maybe FontOptions)
- widgetGetFrameClock :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Maybe FrameClock)
- widgetGetHalign :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Align
- widgetGetHasTooltip :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetHasWindow :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetHexpand :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetHexpandSet :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetMapped :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetMarginBottom :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Int32
- widgetGetMarginEnd :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Int32
- widgetGetMarginLeft :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Int32
- widgetGetMarginRight :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Int32
- widgetGetMarginStart :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Int32
- widgetGetMarginTop :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Int32
- widgetGetModifierMask :: (HasCallStack, MonadIO m, IsWidget a) => a -> ModifierIntent -> m [ModifierType]
- widgetGetModifierStyle :: (HasCallStack, MonadIO m, IsWidget a) => a -> m RcStyle
- widgetGetName :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Text
- widgetGetNoShowAll :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetOpacity :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Double
- widgetGetPangoContext :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Context
- widgetGetParent :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Maybe Widget)
- widgetGetParentWindow :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Maybe Window)
- widgetGetPath :: (HasCallStack, MonadIO m, IsWidget a) => a -> m WidgetPath
- widgetGetPointer :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Int32, Int32)
- widgetGetPreferredHeight :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Int32, Int32)
- widgetGetPreferredHeightAndBaselineForWidth :: (HasCallStack, MonadIO m, IsWidget a) => a -> Int32 -> m (Int32, Int32, Int32, Int32)
- widgetGetPreferredHeightForWidth :: (HasCallStack, MonadIO m, IsWidget a) => a -> Int32 -> m (Int32, Int32)
- widgetGetPreferredSize :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Requisition, Requisition)
- widgetGetPreferredWidth :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Int32, Int32)
- widgetGetPreferredWidthForHeight :: (HasCallStack, MonadIO m, IsWidget a) => a -> Int32 -> m (Int32, Int32)
- widgetGetRealized :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetReceivesDefault :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetRequestMode :: (HasCallStack, MonadIO m, IsWidget a) => a -> m SizeRequestMode
- widgetGetRequisition :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Requisition
- widgetGetRootWindow :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Window
- widgetGetScaleFactor :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Int32
- widgetGetScreen :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Screen
- widgetGetSensitive :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetSettings :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Settings
- widgetGetSizeRequest :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Int32, Int32)
- widgetGetState :: (HasCallStack, MonadIO m, IsWidget a) => a -> m StateType
- widgetGetStateFlags :: (HasCallStack, MonadIO m, IsWidget a) => a -> m [StateFlags]
- widgetGetStyle :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Style
- widgetGetStyleContext :: (HasCallStack, MonadIO m, IsWidget a) => a -> m StyleContext
- widgetGetSupportMultidevice :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetTemplateChild :: (HasCallStack, MonadIO m, IsWidget a) => a -> GType -> Text -> m Object
- widgetGetTooltipMarkup :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Maybe Text)
- widgetGetTooltipText :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Maybe Text)
- widgetGetTooltipWindow :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Window
- widgetGetToplevel :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Widget
- widgetGetValign :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Align
- widgetGetValignWithBaseline :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Align
- widgetGetVexpand :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetVexpandSet :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetVisible :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetGetVisual :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Visual
- widgetGetWindow :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Maybe Window)
- widgetGrabAdd :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetGrabDefault :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetGrabFocus :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetGrabRemove :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetHasDefault :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetHasFocus :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetHasGrab :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetHasRcStyle :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetHasScreen :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetHasVisibleFocus :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetHide :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetHideOnDelete :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetInDestruction :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetInitTemplate :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetInputShapeCombineRegion :: (HasCallStack, MonadIO m, IsWidget a) => a -> Maybe Region -> m ()
- widgetInsertActionGroup :: (HasCallStack, MonadIO m, IsWidget a, IsActionGroup b) => a -> Text -> Maybe b -> m ()
- widgetIntersect :: (HasCallStack, MonadIO m, IsWidget a) => a -> Rectangle -> m (Bool, Maybe Rectangle)
- widgetIsAncestor :: (HasCallStack, MonadIO m, IsWidget a, IsWidget b) => a -> b -> m Bool
- widgetIsComposited :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetIsDrawable :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetIsFocus :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetIsSensitive :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetIsToplevel :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetIsVisible :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Bool
- widgetKeynavFailed :: (HasCallStack, MonadIO m, IsWidget a) => a -> DirectionType -> m Bool
- widgetListAccelClosures :: (HasCallStack, MonadIO m, IsWidget a) => a -> m [Closure]
- widgetListActionPrefixes :: (HasCallStack, MonadIO m, IsWidget a) => a -> m [Text]
- widgetListMnemonicLabels :: (HasCallStack, MonadIO m, IsWidget a) => a -> m [Widget]
- widgetMap :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetMnemonicActivate :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m Bool
- widgetModifyBase :: (HasCallStack, MonadIO m, IsWidget a) => a -> StateType -> Maybe Color -> m ()
- widgetModifyBg :: (HasCallStack, MonadIO m, IsWidget a) => a -> StateType -> Maybe Color -> m ()
- widgetModifyCursor :: (HasCallStack, MonadIO m, IsWidget a) => a -> Maybe Color -> Maybe Color -> m ()
- widgetModifyFg :: (HasCallStack, MonadIO m, IsWidget a) => a -> StateType -> Maybe Color -> m ()
- widgetModifyFont :: (HasCallStack, MonadIO m, IsWidget a) => a -> Maybe FontDescription -> m ()
- widgetModifyStyle :: (HasCallStack, MonadIO m, IsWidget a, IsRcStyle b) => a -> b -> m ()
- widgetModifyText :: (HasCallStack, MonadIO m, IsWidget a) => a -> StateType -> Maybe Color -> m ()
- widgetOverrideBackgroundColor :: (HasCallStack, MonadIO m, IsWidget a) => a -> [StateFlags] -> Maybe RGBA -> m ()
- widgetOverrideColor :: (HasCallStack, MonadIO m, IsWidget a) => a -> [StateFlags] -> Maybe RGBA -> m ()
- widgetOverrideCursor :: (HasCallStack, MonadIO m, IsWidget a) => a -> Maybe RGBA -> Maybe RGBA -> m ()
- widgetOverrideFont :: (HasCallStack, MonadIO m, IsWidget a) => a -> Maybe FontDescription -> m ()
- widgetOverrideSymbolicColor :: (HasCallStack, MonadIO m, IsWidget a) => a -> Text -> Maybe RGBA -> m ()
- widgetPath :: (HasCallStack, MonadIO m, IsWidget a) => a -> m (Word32, Text, Text)
- widgetPopCompositeChild :: (HasCallStack, MonadIO m) => m ()
- widgetPushCompositeChild :: (HasCallStack, MonadIO m) => m ()
- widgetQueueAllocate :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetQueueComputeExpand :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetQueueDraw :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetQueueDrawArea :: (HasCallStack, MonadIO m, IsWidget a) => a -> Int32 -> Int32 -> Int32 -> Int32 -> m ()
- widgetQueueDrawRegion :: (HasCallStack, MonadIO m, IsWidget a) => a -> Region -> m ()
- widgetQueueResize :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetQueueResizeNoRedraw :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetRealize :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetRegionIntersect :: (HasCallStack, MonadIO m, IsWidget a) => a -> Region -> m Region
- widgetRegisterWindow :: (HasCallStack, MonadIO m, IsWidget a, IsWindow b) => a -> b -> m ()
- widgetRemoveAccelerator :: (HasCallStack, MonadIO m, IsWidget a, IsAccelGroup b) => a -> b -> Word32 -> [ModifierType] -> m Bool
- widgetRemoveMnemonicLabel :: (HasCallStack, MonadIO m, IsWidget a, IsWidget b) => a -> b -> m ()
- widgetRemoveTickCallback :: (HasCallStack, MonadIO m, IsWidget a) => a -> Word32 -> m ()
- widgetRenderIcon :: (HasCallStack, MonadIO m, IsWidget a) => a -> Text -> Int32 -> Maybe Text -> m (Maybe Pixbuf)
- widgetRenderIconPixbuf :: (HasCallStack, MonadIO m, IsWidget a) => a -> Text -> Int32 -> m (Maybe Pixbuf)
- widgetReparent :: (HasCallStack, MonadIO m, IsWidget a, IsWidget b) => a -> b -> m ()
- widgetResetRcStyles :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetResetStyle :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetSendExpose :: (HasCallStack, MonadIO m, IsWidget a) => a -> Event -> m Int32
- widgetSendFocusChange :: (HasCallStack, MonadIO m, IsWidget a) => a -> Event -> m Bool
- widgetSetAccelPath :: (HasCallStack, MonadIO m, IsWidget a, IsAccelGroup b) => a -> Maybe Text -> Maybe b -> m ()
- widgetSetAllocation :: (HasCallStack, MonadIO m, IsWidget a) => a -> Rectangle -> m ()
- widgetSetAppPaintable :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetCanDefault :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetCanFocus :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetChildVisible :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetClip :: (HasCallStack, MonadIO m, IsWidget a) => a -> Rectangle -> m ()
- widgetSetCompositeName :: (HasCallStack, MonadIO m, IsWidget a) => a -> Text -> m ()
- widgetSetDefaultDirection :: (HasCallStack, MonadIO m) => TextDirection -> m ()
- widgetSetDeviceEnabled :: (HasCallStack, MonadIO m, IsWidget a, IsDevice b) => a -> b -> Bool -> m ()
- widgetSetDeviceEvents :: (HasCallStack, MonadIO m, IsWidget a, IsDevice b) => a -> b -> [EventMask] -> m ()
- widgetSetDirection :: (HasCallStack, MonadIO m, IsWidget a) => a -> TextDirection -> m ()
- widgetSetDoubleBuffered :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetEvents :: (HasCallStack, MonadIO m, IsWidget a) => a -> [EventMask] -> m ()
- widgetSetFocusOnClick :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetFontMap :: (HasCallStack, MonadIO m, IsWidget a, IsFontMap b) => a -> Maybe b -> m ()
- widgetSetFontOptions :: (HasCallStack, MonadIO m, IsWidget a) => a -> Maybe FontOptions -> m ()
- widgetSetHalign :: (HasCallStack, MonadIO m, IsWidget a) => a -> Align -> m ()
- widgetSetHasTooltip :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetHasWindow :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetHexpand :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetHexpandSet :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetMapped :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetMarginBottom :: (HasCallStack, MonadIO m, IsWidget a) => a -> Int32 -> m ()
- widgetSetMarginEnd :: (HasCallStack, MonadIO m, IsWidget a) => a -> Int32 -> m ()
- widgetSetMarginLeft :: (HasCallStack, MonadIO m, IsWidget a) => a -> Int32 -> m ()
- widgetSetMarginRight :: (HasCallStack, MonadIO m, IsWidget a) => a -> Int32 -> m ()
- widgetSetMarginStart :: (HasCallStack, MonadIO m, IsWidget a) => a -> Int32 -> m ()
- widgetSetMarginTop :: (HasCallStack, MonadIO m, IsWidget a) => a -> Int32 -> m ()
- widgetSetName :: (HasCallStack, MonadIO m, IsWidget a) => a -> Text -> m ()
- widgetSetNoShowAll :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetOpacity :: (HasCallStack, MonadIO m, IsWidget a) => a -> Double -> m ()
- widgetSetParent :: (HasCallStack, MonadIO m, IsWidget a, IsWidget b) => a -> b -> m ()
- widgetSetParentWindow :: (HasCallStack, MonadIO m, IsWidget a, IsWindow b) => a -> b -> m ()
- widgetSetRealized :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetReceivesDefault :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetRedrawOnAllocate :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetSensitive :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetSizeRequest :: (HasCallStack, MonadIO m, IsWidget a) => a -> Int32 -> Int32 -> m ()
- widgetSetState :: (HasCallStack, MonadIO m, IsWidget a) => a -> StateType -> m ()
- widgetSetStateFlags :: (HasCallStack, MonadIO m, IsWidget a) => a -> [StateFlags] -> Bool -> m ()
- widgetSetStyle :: (HasCallStack, MonadIO m, IsWidget a, IsStyle b) => a -> Maybe b -> m ()
- widgetSetSupportMultidevice :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetTooltipMarkup :: (HasCallStack, MonadIO m, IsWidget a) => a -> Maybe Text -> m ()
- widgetSetTooltipText :: (HasCallStack, MonadIO m, IsWidget a) => a -> Maybe Text -> m ()
- widgetSetTooltipWindow :: (HasCallStack, MonadIO m, IsWidget a, IsWindow b) => a -> Maybe b -> m ()
- widgetSetValign :: (HasCallStack, MonadIO m, IsWidget a) => a -> Align -> m ()
- widgetSetVexpand :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetVexpandSet :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetVisible :: (HasCallStack, MonadIO m, IsWidget a) => a -> Bool -> m ()
- widgetSetVisual :: (HasCallStack, MonadIO m, IsWidget a, IsVisual b) => a -> Maybe b -> m ()
- widgetSetWindow :: (HasCallStack, MonadIO m, IsWidget a, IsWindow b) => a -> b -> m ()
- widgetShapeCombineRegion :: (HasCallStack, MonadIO m, IsWidget a) => a -> Maybe Region -> m ()
- widgetShow :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetShowAll :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetShowNow :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetSizeAllocate :: (HasCallStack, MonadIO m, IsWidget a) => a -> Rectangle -> m ()
- widgetSizeAllocateWithBaseline :: (HasCallStack, MonadIO m, IsWidget a) => a -> Rectangle -> Int32 -> m ()
- widgetSizeRequest :: (HasCallStack, MonadIO m, IsWidget a) => a -> m Requisition
- widgetStyleAttach :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetStyleGetProperty :: (HasCallStack, MonadIO m, IsWidget a) => a -> Text -> GValue -> m ()
- widgetThawChildNotify :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetTranslateCoordinates :: (HasCallStack, MonadIO m, IsWidget a, IsWidget b) => a -> b -> Int32 -> Int32 -> m (Bool, Int32, Int32)
- widgetTriggerTooltipQuery :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetUnmap :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetUnparent :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetUnrealize :: (HasCallStack, MonadIO m, IsWidget a) => a -> m ()
- widgetUnregisterWindow :: (HasCallStack, MonadIO m, IsWidget a, IsWindow b) => a -> b -> m ()
- widgetUnsetStateFlags :: (HasCallStack, MonadIO m, IsWidget a) => a -> [StateFlags] -> m ()
- constructWidgetAppPaintable :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetAppPaintable :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetAppPaintable :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- constructWidgetCanDefault :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetCanDefault :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetCanDefault :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- constructWidgetCanFocus :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetCanFocus :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetCanFocus :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- getWidgetCompositeChild :: (MonadIO m, IsWidget o) => o -> m Bool
- constructWidgetDoubleBuffered :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetDoubleBuffered :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetDoubleBuffered :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- constructWidgetEvents :: IsWidget o => [EventMask] -> IO (GValueConstruct o)
- getWidgetEvents :: (MonadIO m, IsWidget o) => o -> m [EventMask]
- setWidgetEvents :: (MonadIO m, IsWidget o) => o -> [EventMask] -> m ()
- constructWidgetExpand :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetExpand :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetExpand :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- constructWidgetFocusOnClick :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetFocusOnClick :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetFocusOnClick :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- constructWidgetHalign :: IsWidget o => Align -> IO (GValueConstruct o)
- getWidgetHalign :: (MonadIO m, IsWidget o) => o -> m Align
- setWidgetHalign :: (MonadIO m, IsWidget o) => o -> Align -> m ()
- constructWidgetHasDefault :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetHasDefault :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetHasDefault :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- constructWidgetHasFocus :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetHasFocus :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetHasFocus :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- constructWidgetHasTooltip :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetHasTooltip :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetHasTooltip :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- constructWidgetHeightRequest :: IsWidget o => Int32 -> IO (GValueConstruct o)
- getWidgetHeightRequest :: (MonadIO m, IsWidget o) => o -> m Int32
- setWidgetHeightRequest :: (MonadIO m, IsWidget o) => o -> Int32 -> m ()
- constructWidgetHexpand :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetHexpand :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetHexpand :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- constructWidgetHexpandSet :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetHexpandSet :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetHexpandSet :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- constructWidgetIsFocus :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetIsFocus :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetIsFocus :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- constructWidgetMargin :: IsWidget o => Int32 -> IO (GValueConstruct o)
- getWidgetMargin :: (MonadIO m, IsWidget o) => o -> m Int32
- setWidgetMargin :: (MonadIO m, IsWidget o) => o -> Int32 -> m ()
- constructWidgetMarginBottom :: IsWidget o => Int32 -> IO (GValueConstruct o)
- getWidgetMarginBottom :: (MonadIO m, IsWidget o) => o -> m Int32
- setWidgetMarginBottom :: (MonadIO m, IsWidget o) => o -> Int32 -> m ()
- constructWidgetMarginEnd :: IsWidget o => Int32 -> IO (GValueConstruct o)
- getWidgetMarginEnd :: (MonadIO m, IsWidget o) => o -> m Int32
- setWidgetMarginEnd :: (MonadIO m, IsWidget o) => o -> Int32 -> m ()
- constructWidgetMarginLeft :: IsWidget o => Int32 -> IO (GValueConstruct o)
- getWidgetMarginLeft :: (MonadIO m, IsWidget o) => o -> m Int32
- setWidgetMarginLeft :: (MonadIO m, IsWidget o) => o -> Int32 -> m ()
- constructWidgetMarginRight :: IsWidget o => Int32 -> IO (GValueConstruct o)
- getWidgetMarginRight :: (MonadIO m, IsWidget o) => o -> m Int32
- setWidgetMarginRight :: (MonadIO m, IsWidget o) => o -> Int32 -> m ()
- constructWidgetMarginStart :: IsWidget o => Int32 -> IO (GValueConstruct o)
- getWidgetMarginStart :: (MonadIO m, IsWidget o) => o -> m Int32
- setWidgetMarginStart :: (MonadIO m, IsWidget o) => o -> Int32 -> m ()
- constructWidgetMarginTop :: IsWidget o => Int32 -> IO (GValueConstruct o)
- getWidgetMarginTop :: (MonadIO m, IsWidget o) => o -> m Int32
- setWidgetMarginTop :: (MonadIO m, IsWidget o) => o -> Int32 -> m ()
- constructWidgetName :: IsWidget o => Text -> IO (GValueConstruct o)
- getWidgetName :: (MonadIO m, IsWidget o) => o -> m Text
- setWidgetName :: (MonadIO m, IsWidget o) => o -> Text -> m ()
- constructWidgetNoShowAll :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetNoShowAll :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetNoShowAll :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- constructWidgetOpacity :: IsWidget o => Double -> IO (GValueConstruct o)
- getWidgetOpacity :: (MonadIO m, IsWidget o) => o -> m Double
- setWidgetOpacity :: (MonadIO m, IsWidget o) => o -> Double -> m ()
- clearWidgetParent :: (MonadIO m, IsWidget o) => o -> m ()
- constructWidgetParent :: (IsWidget o, IsContainer a) => a -> IO (GValueConstruct o)
- getWidgetParent :: (MonadIO m, IsWidget o) => o -> m (Maybe Container)
- setWidgetParent :: (MonadIO m, IsWidget o, IsContainer a) => o -> a -> m ()
- constructWidgetReceivesDefault :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetReceivesDefault :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetReceivesDefault :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- getWidgetScaleFactor :: (MonadIO m, IsWidget o) => o -> m Int32
- constructWidgetSensitive :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetSensitive :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetSensitive :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- clearWidgetStyle :: (MonadIO m, IsWidget o) => o -> m ()
- constructWidgetStyle :: (IsWidget o, IsStyle a) => a -> IO (GValueConstruct o)
- getWidgetStyle :: (MonadIO m, IsWidget o) => o -> m Style
- setWidgetStyle :: (MonadIO m, IsWidget o, IsStyle a) => o -> a -> m ()
- clearWidgetTooltipMarkup :: (MonadIO m, IsWidget o) => o -> m ()
- constructWidgetTooltipMarkup :: IsWidget o => Text -> IO (GValueConstruct o)
- getWidgetTooltipMarkup :: (MonadIO m, IsWidget o) => o -> m (Maybe Text)
- setWidgetTooltipMarkup :: (MonadIO m, IsWidget o) => o -> Text -> m ()
- clearWidgetTooltipText :: (MonadIO m, IsWidget o) => o -> m ()
- constructWidgetTooltipText :: IsWidget o => Text -> IO (GValueConstruct o)
- getWidgetTooltipText :: (MonadIO m, IsWidget o) => o -> m (Maybe Text)
- setWidgetTooltipText :: (MonadIO m, IsWidget o) => o -> Text -> m ()
- constructWidgetValign :: IsWidget o => Align -> IO (GValueConstruct o)
- getWidgetValign :: (MonadIO m, IsWidget o) => o -> m Align
- setWidgetValign :: (MonadIO m, IsWidget o) => o -> Align -> m ()
- constructWidgetVexpand :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetVexpand :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetVexpand :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- constructWidgetVexpandSet :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetVexpandSet :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetVexpandSet :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- constructWidgetVisible :: IsWidget o => Bool -> IO (GValueConstruct o)
- getWidgetVisible :: (MonadIO m, IsWidget o) => o -> m Bool
- setWidgetVisible :: (MonadIO m, IsWidget o) => o -> Bool -> m ()
- constructWidgetWidthRequest :: IsWidget o => Int32 -> IO (GValueConstruct o)
- getWidgetWidthRequest :: (MonadIO m, IsWidget o) => o -> m Int32
- setWidgetWidthRequest :: (MonadIO m, IsWidget o) => o -> Int32 -> m ()
- getWidgetWindow :: (MonadIO m, IsWidget o) => o -> m (Maybe Window)
- type C_WidgetAccelClosuresChangedCallback = Ptr () -> Ptr () -> IO ()
- type WidgetAccelClosuresChangedCallback = IO ()
- afterWidgetAccelClosuresChanged :: (IsWidget a, MonadIO m) => a -> WidgetAccelClosuresChangedCallback -> m SignalHandlerId
- genClosure_WidgetAccelClosuresChanged :: WidgetAccelClosuresChangedCallback -> IO Closure
- mk_WidgetAccelClosuresChangedCallback :: C_WidgetAccelClosuresChangedCallback -> IO (FunPtr C_WidgetAccelClosuresChangedCallback)
- noWidgetAccelClosuresChangedCallback :: Maybe WidgetAccelClosuresChangedCallback
- onWidgetAccelClosuresChanged :: (IsWidget a, MonadIO m) => a -> WidgetAccelClosuresChangedCallback -> m SignalHandlerId
- wrap_WidgetAccelClosuresChangedCallback :: WidgetAccelClosuresChangedCallback -> C_WidgetAccelClosuresChangedCallback
- type C_WidgetButtonPressEventCallback = Ptr () -> Ptr EventButton -> Ptr () -> IO CInt
- type WidgetButtonPressEventCallback = EventButton -> IO Bool
- afterWidgetButtonPressEvent :: (IsWidget a, MonadIO m) => a -> WidgetButtonPressEventCallback -> m SignalHandlerId
- genClosure_WidgetButtonPressEvent :: WidgetButtonPressEventCallback -> IO Closure
- mk_WidgetButtonPressEventCallback :: C_WidgetButtonPressEventCallback -> IO (FunPtr C_WidgetButtonPressEventCallback)
- noWidgetButtonPressEventCallback :: Maybe WidgetButtonPressEventCallback
- onWidgetButtonPressEvent :: (IsWidget a, MonadIO m) => a -> WidgetButtonPressEventCallback -> m SignalHandlerId
- wrap_WidgetButtonPressEventCallback :: WidgetButtonPressEventCallback -> C_WidgetButtonPressEventCallback
- type C_WidgetButtonReleaseEventCallback = Ptr () -> Ptr EventButton -> Ptr () -> IO CInt
- type WidgetButtonReleaseEventCallback = EventButton -> IO Bool
- afterWidgetButtonReleaseEvent :: (IsWidget a, MonadIO m) => a -> WidgetButtonReleaseEventCallback -> m SignalHandlerId
- genClosure_WidgetButtonReleaseEvent :: WidgetButtonReleaseEventCallback -> IO Closure
- mk_WidgetButtonReleaseEventCallback :: C_WidgetButtonReleaseEventCallback -> IO (FunPtr C_WidgetButtonReleaseEventCallback)
- noWidgetButtonReleaseEventCallback :: Maybe WidgetButtonReleaseEventCallback
- onWidgetButtonReleaseEvent :: (IsWidget a, MonadIO m) => a -> WidgetButtonReleaseEventCallback -> m SignalHandlerId
- wrap_WidgetButtonReleaseEventCallback :: WidgetButtonReleaseEventCallback -> C_WidgetButtonReleaseEventCallback
- type C_WidgetCanActivateAccelCallback = Ptr () -> Word32 -> Ptr () -> IO CInt
- type WidgetCanActivateAccelCallback = Word32 -> IO Bool
- afterWidgetCanActivateAccel :: (IsWidget a, MonadIO m) => a -> WidgetCanActivateAccelCallback -> m SignalHandlerId
- genClosure_WidgetCanActivateAccel :: WidgetCanActivateAccelCallback -> IO Closure
- mk_WidgetCanActivateAccelCallback :: C_WidgetCanActivateAccelCallback -> IO (FunPtr C_WidgetCanActivateAccelCallback)
- noWidgetCanActivateAccelCallback :: Maybe WidgetCanActivateAccelCallback
- onWidgetCanActivateAccel :: (IsWidget a, MonadIO m) => a -> WidgetCanActivateAccelCallback -> m SignalHandlerId
- wrap_WidgetCanActivateAccelCallback :: WidgetCanActivateAccelCallback -> C_WidgetCanActivateAccelCallback
- type C_WidgetChildNotifyCallback = Ptr () -> Ptr GParamSpec -> Ptr () -> IO ()
- type WidgetChildNotifyCallback = GParamSpec -> IO ()
- afterWidgetChildNotify :: (IsWidget a, MonadIO m) => a -> WidgetChildNotifyCallback -> m SignalHandlerId
- genClosure_WidgetChildNotify :: WidgetChildNotifyCallback -> IO Closure
- mk_WidgetChildNotifyCallback :: C_WidgetChildNotifyCallback -> IO (FunPtr C_WidgetChildNotifyCallback)
- noWidgetChildNotifyCallback :: Maybe WidgetChildNotifyCallback
- onWidgetChildNotify :: (IsWidget a, MonadIO m) => a -> WidgetChildNotifyCallback -> m SignalHandlerId
- wrap_WidgetChildNotifyCallback :: WidgetChildNotifyCallback -> C_WidgetChildNotifyCallback
- type C_WidgetCompositedChangedCallback = Ptr () -> Ptr () -> IO ()
- type WidgetCompositedChangedCallback = IO ()
- afterWidgetCompositedChanged :: (IsWidget a, MonadIO m) => a -> WidgetCompositedChangedCallback -> m SignalHandlerId
- genClosure_WidgetCompositedChanged :: WidgetCompositedChangedCallback -> IO Closure
- mk_WidgetCompositedChangedCallback :: C_WidgetCompositedChangedCallback -> IO (FunPtr C_WidgetCompositedChangedCallback)
- noWidgetCompositedChangedCallback :: Maybe WidgetCompositedChangedCallback
- onWidgetCompositedChanged :: (IsWidget a, MonadIO m) => a -> WidgetCompositedChangedCallback -> m SignalHandlerId
- wrap_WidgetCompositedChangedCallback :: WidgetCompositedChangedCallback -> C_WidgetCompositedChangedCallback
- type C_WidgetConfigureEventCallback = Ptr () -> Ptr EventConfigure -> Ptr () -> IO CInt
- type WidgetConfigureEventCallback = EventConfigure -> IO Bool
- afterWidgetConfigureEvent :: (IsWidget a, MonadIO m) => a -> WidgetConfigureEventCallback -> m SignalHandlerId
- genClosure_WidgetConfigureEvent :: WidgetConfigureEventCallback -> IO Closure
- mk_WidgetConfigureEventCallback :: C_WidgetConfigureEventCallback -> IO (FunPtr C_WidgetConfigureEventCallback)
- noWidgetConfigureEventCallback :: Maybe WidgetConfigureEventCallback
- onWidgetConfigureEvent :: (IsWidget a, MonadIO m) => a -> WidgetConfigureEventCallback -> m SignalHandlerId
- wrap_WidgetConfigureEventCallback :: WidgetConfigureEventCallback -> C_WidgetConfigureEventCallback
- type C_WidgetDamageEventCallback = Ptr () -> Ptr EventExpose -> Ptr () -> IO CInt
- type WidgetDamageEventCallback = EventExpose -> IO Bool
- afterWidgetDamageEvent :: (IsWidget a, MonadIO m) => a -> WidgetDamageEventCallback -> m SignalHandlerId
- genClosure_WidgetDamageEvent :: WidgetDamageEventCallback -> IO Closure
- mk_WidgetDamageEventCallback :: C_WidgetDamageEventCallback -> IO (FunPtr C_WidgetDamageEventCallback)
- noWidgetDamageEventCallback :: Maybe WidgetDamageEventCallback
- onWidgetDamageEvent :: (IsWidget a, MonadIO m) => a -> WidgetDamageEventCallback -> m SignalHandlerId
- wrap_WidgetDamageEventCallback :: WidgetDamageEventCallback -> C_WidgetDamageEventCallback
- type C_WidgetDeleteEventCallback = Ptr () -> Ptr Event -> Ptr () -> IO CInt
- type WidgetDeleteEventCallback = Event -> IO Bool
- afterWidgetDeleteEvent :: (IsWidget a, MonadIO m) => a -> WidgetDeleteEventCallback -> m SignalHandlerId
- genClosure_WidgetDeleteEvent :: WidgetDeleteEventCallback -> IO Closure
- mk_WidgetDeleteEventCallback :: C_WidgetDeleteEventCallback -> IO (FunPtr C_WidgetDeleteEventCallback)
- noWidgetDeleteEventCallback :: Maybe WidgetDeleteEventCallback
- onWidgetDeleteEvent :: (IsWidget a, MonadIO m) => a -> WidgetDeleteEventCallback -> m SignalHandlerId
- wrap_WidgetDeleteEventCallback :: WidgetDeleteEventCallback -> C_WidgetDeleteEventCallback
- type C_WidgetDestroyCallback = Ptr () -> Ptr () -> IO ()
- type WidgetDestroyCallback = IO ()
- afterWidgetDestroy :: (IsWidget a, MonadIO m) => a -> WidgetDestroyCallback -> m SignalHandlerId
- genClosure_WidgetDestroy :: WidgetDestroyCallback -> IO Closure
- mk_WidgetDestroyCallback :: C_WidgetDestroyCallback -> IO (FunPtr C_WidgetDestroyCallback)
- noWidgetDestroyCallback :: Maybe WidgetDestroyCallback
- onWidgetDestroy :: (IsWidget a, MonadIO m) => a -> WidgetDestroyCallback -> m SignalHandlerId
- wrap_WidgetDestroyCallback :: WidgetDestroyCallback -> C_WidgetDestroyCallback
- type C_WidgetDestroyEventCallback = Ptr () -> Ptr Event -> Ptr () -> IO CInt
- type WidgetDestroyEventCallback = Event -> IO Bool
- afterWidgetDestroyEvent :: (IsWidget a, MonadIO m) => a -> WidgetDestroyEventCallback -> m SignalHandlerId
- genClosure_WidgetDestroyEvent :: WidgetDestroyEventCallback -> IO Closure
- mk_WidgetDestroyEventCallback :: C_WidgetDestroyEventCallback -> IO (FunPtr C_WidgetDestroyEventCallback)
- noWidgetDestroyEventCallback :: Maybe WidgetDestroyEventCallback
- onWidgetDestroyEvent :: (IsWidget a, MonadIO m) => a -> WidgetDestroyEventCallback -> m SignalHandlerId
- wrap_WidgetDestroyEventCallback :: WidgetDestroyEventCallback -> C_WidgetDestroyEventCallback
- type C_WidgetDirectionChangedCallback = Ptr () -> CUInt -> Ptr () -> IO ()
- type WidgetDirectionChangedCallback = TextDirection -> IO ()
- afterWidgetDirectionChanged :: (IsWidget a, MonadIO m) => a -> WidgetDirectionChangedCallback -> m SignalHandlerId
- genClosure_WidgetDirectionChanged :: WidgetDirectionChangedCallback -> IO Closure
- mk_WidgetDirectionChangedCallback :: C_WidgetDirectionChangedCallback -> IO (FunPtr C_WidgetDirectionChangedCallback)
- noWidgetDirectionChangedCallback :: Maybe WidgetDirectionChangedCallback
- onWidgetDirectionChanged :: (IsWidget a, MonadIO m) => a -> WidgetDirectionChangedCallback -> m SignalHandlerId
- wrap_WidgetDirectionChangedCallback :: WidgetDirectionChangedCallback -> C_WidgetDirectionChangedCallback
- type C_WidgetDragBeginCallback = Ptr () -> Ptr DragContext -> Ptr () -> IO ()
- type WidgetDragBeginCallback = DragContext -> IO ()
- afterWidgetDragBegin :: (IsWidget a, MonadIO m) => a -> WidgetDragBeginCallback -> m SignalHandlerId
- genClosure_WidgetDragBegin :: WidgetDragBeginCallback -> IO Closure
- mk_WidgetDragBeginCallback :: C_WidgetDragBeginCallback -> IO (FunPtr C_WidgetDragBeginCallback)
- noWidgetDragBeginCallback :: Maybe WidgetDragBeginCallback
- onWidgetDragBegin :: (IsWidget a, MonadIO m) => a -> WidgetDragBeginCallback -> m SignalHandlerId
- wrap_WidgetDragBeginCallback :: WidgetDragBeginCallback -> C_WidgetDragBeginCallback
- type C_WidgetDragDataDeleteCallback = Ptr () -> Ptr DragContext -> Ptr () -> IO ()
- type WidgetDragDataDeleteCallback = DragContext -> IO ()
- afterWidgetDragDataDelete :: (IsWidget a, MonadIO m) => a -> WidgetDragDataDeleteCallback -> m SignalHandlerId
- genClosure_WidgetDragDataDelete :: WidgetDragDataDeleteCallback -> IO Closure
- mk_WidgetDragDataDeleteCallback :: C_WidgetDragDataDeleteCallback -> IO (FunPtr C_WidgetDragDataDeleteCallback)
- noWidgetDragDataDeleteCallback :: Maybe WidgetDragDataDeleteCallback
- onWidgetDragDataDelete :: (IsWidget a, MonadIO m) => a -> WidgetDragDataDeleteCallback -> m SignalHandlerId
- wrap_WidgetDragDataDeleteCallback :: WidgetDragDataDeleteCallback -> C_WidgetDragDataDeleteCallback
- type C_WidgetDragDataGetCallback = Ptr () -> Ptr DragContext -> Ptr SelectionData -> Word32 -> Word32 -> Ptr () -> IO ()
- type WidgetDragDataGetCallback = DragContext -> SelectionData -> Word32 -> Word32 -> IO ()
- afterWidgetDragDataGet :: (IsWidget a, MonadIO m) => a -> WidgetDragDataGetCallback -> m SignalHandlerId
- genClosure_WidgetDragDataGet :: WidgetDragDataGetCallback -> IO Closure
- mk_WidgetDragDataGetCallback :: C_WidgetDragDataGetCallback -> IO (FunPtr C_WidgetDragDataGetCallback)
- noWidgetDragDataGetCallback :: Maybe WidgetDragDataGetCallback
- onWidgetDragDataGet :: (IsWidget a, MonadIO m) => a -> WidgetDragDataGetCallback -> m SignalHandlerId
- wrap_WidgetDragDataGetCallback :: WidgetDragDataGetCallback -> C_WidgetDragDataGetCallback
- type C_WidgetDragDataReceivedCallback = Ptr () -> Ptr DragContext -> Int32 -> Int32 -> Ptr SelectionData -> Word32 -> Word32 -> Ptr () -> IO ()
- type WidgetDragDataReceivedCallback = DragContext -> Int32 -> Int32 -> SelectionData -> Word32 -> Word32 -> IO ()
- afterWidgetDragDataReceived :: (IsWidget a, MonadIO m) => a -> WidgetDragDataReceivedCallback -> m SignalHandlerId
- genClosure_WidgetDragDataReceived :: WidgetDragDataReceivedCallback -> IO Closure
- mk_WidgetDragDataReceivedCallback :: C_WidgetDragDataReceivedCallback -> IO (FunPtr C_WidgetDragDataReceivedCallback)
- noWidgetDragDataReceivedCallback :: Maybe WidgetDragDataReceivedCallback
- onWidgetDragDataReceived :: (IsWidget a, MonadIO m) => a -> WidgetDragDataReceivedCallback -> m SignalHandlerId
- wrap_WidgetDragDataReceivedCallback :: WidgetDragDataReceivedCallback -> C_WidgetDragDataReceivedCallback
- type C_WidgetDragDropCallback = Ptr () -> Ptr DragContext -> Int32 -> Int32 -> Word32 -> Ptr () -> IO CInt
- type WidgetDragDropCallback = DragContext -> Int32 -> Int32 -> Word32 -> IO Bool
- afterWidgetDragDrop :: (IsWidget a, MonadIO m) => a -> WidgetDragDropCallback -> m SignalHandlerId
- genClosure_WidgetDragDrop :: WidgetDragDropCallback -> IO Closure
- mk_WidgetDragDropCallback :: C_WidgetDragDropCallback -> IO (FunPtr C_WidgetDragDropCallback)
- noWidgetDragDropCallback :: Maybe WidgetDragDropCallback
- onWidgetDragDrop :: (IsWidget a, MonadIO m) => a -> WidgetDragDropCallback -> m SignalHandlerId
- wrap_WidgetDragDropCallback :: WidgetDragDropCallback -> C_WidgetDragDropCallback
- type C_WidgetDragEndCallback = Ptr () -> Ptr DragContext -> Ptr () -> IO ()
- type WidgetDragEndCallback = DragContext -> IO ()
- afterWidgetDragEnd :: (IsWidget a, MonadIO m) => a -> WidgetDragEndCallback -> m SignalHandlerId
- genClosure_WidgetDragEnd :: WidgetDragEndCallback -> IO Closure
- mk_WidgetDragEndCallback :: C_WidgetDragEndCallback -> IO (FunPtr C_WidgetDragEndCallback)
- noWidgetDragEndCallback :: Maybe WidgetDragEndCallback
- onWidgetDragEnd :: (IsWidget a, MonadIO m) => a -> WidgetDragEndCallback -> m SignalHandlerId
- wrap_WidgetDragEndCallback :: WidgetDragEndCallback -> C_WidgetDragEndCallback
- type C_WidgetDragFailedCallback = Ptr () -> Ptr DragContext -> CUInt -> Ptr () -> IO CInt
- type WidgetDragFailedCallback = DragContext -> DragResult -> IO Bool
- afterWidgetDragFailed :: (IsWidget a, MonadIO m) => a -> WidgetDragFailedCallback -> m SignalHandlerId
- genClosure_WidgetDragFailed :: WidgetDragFailedCallback -> IO Closure
- mk_WidgetDragFailedCallback :: C_WidgetDragFailedCallback -> IO (FunPtr C_WidgetDragFailedCallback)
- noWidgetDragFailedCallback :: Maybe WidgetDragFailedCallback
- onWidgetDragFailed :: (IsWidget a, MonadIO m) => a -> WidgetDragFailedCallback -> m SignalHandlerId
- wrap_WidgetDragFailedCallback :: WidgetDragFailedCallback -> C_WidgetDragFailedCallback
- type C_WidgetDragLeaveCallback = Ptr () -> Ptr DragContext -> Word32 -> Ptr () -> IO ()
- type WidgetDragLeaveCallback = DragContext -> Word32 -> IO ()
- afterWidgetDragLeave :: (IsWidget a, MonadIO m) => a -> WidgetDragLeaveCallback -> m SignalHandlerId
- genClosure_WidgetDragLeave :: WidgetDragLeaveCallback -> IO Closure
- mk_WidgetDragLeaveCallback :: C_WidgetDragLeaveCallback -> IO (FunPtr C_WidgetDragLeaveCallback)
- noWidgetDragLeaveCallback :: Maybe WidgetDragLeaveCallback
- onWidgetDragLeave :: (IsWidget a, MonadIO m) => a -> WidgetDragLeaveCallback -> m SignalHandlerId
- wrap_WidgetDragLeaveCallback :: WidgetDragLeaveCallback -> C_WidgetDragLeaveCallback
- type C_WidgetDragMotionCallback = Ptr () -> Ptr DragContext -> Int32 -> Int32 -> Word32 -> Ptr () -> IO CInt
- type WidgetDragMotionCallback = DragContext -> Int32 -> Int32 -> Word32 -> IO Bool
- afterWidgetDragMotion :: (IsWidget a, MonadIO m) => a -> WidgetDragMotionCallback -> m SignalHandlerId
- genClosure_WidgetDragMotion :: WidgetDragMotionCallback -> IO Closure
- mk_WidgetDragMotionCallback :: C_WidgetDragMotionCallback -> IO (FunPtr C_WidgetDragMotionCallback)
- noWidgetDragMotionCallback :: Maybe WidgetDragMotionCallback
- onWidgetDragMotion :: (IsWidget a, MonadIO m) => a -> WidgetDragMotionCallback -> m SignalHandlerId
- wrap_WidgetDragMotionCallback :: WidgetDragMotionCallback -> C_WidgetDragMotionCallback
- type C_WidgetDrawCallback = Ptr () -> Ptr Context -> Ptr () -> IO CInt
- type WidgetDrawCallback = Context -> IO Bool
- afterWidgetDraw :: (IsWidget a, MonadIO m) => a -> WidgetDrawCallback -> m SignalHandlerId
- genClosure_WidgetDraw :: WidgetDrawCallback -> IO Closure
- mk_WidgetDrawCallback :: C_WidgetDrawCallback -> IO (FunPtr C_WidgetDrawCallback)
- noWidgetDrawCallback :: Maybe WidgetDrawCallback
- onWidgetDraw :: (IsWidget a, MonadIO m) => a -> WidgetDrawCallback -> m SignalHandlerId
- wrap_WidgetDrawCallback :: WidgetDrawCallback -> C_WidgetDrawCallback
- type C_WidgetEnterNotifyEventCallback = Ptr () -> Ptr EventCrossing -> Ptr () -> IO CInt
- type WidgetEnterNotifyEventCallback = EventCrossing -> IO Bool
- afterWidgetEnterNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetEnterNotifyEventCallback -> m SignalHandlerId
- genClosure_WidgetEnterNotifyEvent :: WidgetEnterNotifyEventCallback -> IO Closure
- mk_WidgetEnterNotifyEventCallback :: C_WidgetEnterNotifyEventCallback -> IO (FunPtr C_WidgetEnterNotifyEventCallback)
- noWidgetEnterNotifyEventCallback :: Maybe WidgetEnterNotifyEventCallback
- onWidgetEnterNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetEnterNotifyEventCallback -> m SignalHandlerId
- wrap_WidgetEnterNotifyEventCallback :: WidgetEnterNotifyEventCallback -> C_WidgetEnterNotifyEventCallback
- type C_WidgetEventCallback = Ptr () -> Ptr Event -> Ptr () -> IO CInt
- type WidgetEventCallback = Event -> IO Bool
- afterWidgetEvent :: (IsWidget a, MonadIO m) => a -> WidgetEventCallback -> m SignalHandlerId
- genClosure_WidgetEvent :: WidgetEventCallback -> IO Closure
- mk_WidgetEventCallback :: C_WidgetEventCallback -> IO (FunPtr C_WidgetEventCallback)
- noWidgetEventCallback :: Maybe WidgetEventCallback
- onWidgetEvent :: (IsWidget a, MonadIO m) => a -> WidgetEventCallback -> m SignalHandlerId
- wrap_WidgetEventCallback :: WidgetEventCallback -> C_WidgetEventCallback
- type C_WidgetEventAfterCallback = Ptr () -> Ptr Event -> Ptr () -> IO ()
- type WidgetEventAfterCallback = Event -> IO ()
- afterWidgetEventAfter :: (IsWidget a, MonadIO m) => a -> WidgetEventAfterCallback -> m SignalHandlerId
- genClosure_WidgetEventAfter :: WidgetEventAfterCallback -> IO Closure
- mk_WidgetEventAfterCallback :: C_WidgetEventAfterCallback -> IO (FunPtr C_WidgetEventAfterCallback)
- noWidgetEventAfterCallback :: Maybe WidgetEventAfterCallback
- onWidgetEventAfter :: (IsWidget a, MonadIO m) => a -> WidgetEventAfterCallback -> m SignalHandlerId
- wrap_WidgetEventAfterCallback :: WidgetEventAfterCallback -> C_WidgetEventAfterCallback
- type C_WidgetFocusCallback = Ptr () -> CUInt -> Ptr () -> IO CInt
- type WidgetFocusCallback = DirectionType -> IO Bool
- afterWidgetFocus :: (IsWidget a, MonadIO m) => a -> WidgetFocusCallback -> m SignalHandlerId
- genClosure_WidgetFocus :: WidgetFocusCallback -> IO Closure
- mk_WidgetFocusCallback :: C_WidgetFocusCallback -> IO (FunPtr C_WidgetFocusCallback)
- noWidgetFocusCallback :: Maybe WidgetFocusCallback
- onWidgetFocus :: (IsWidget a, MonadIO m) => a -> WidgetFocusCallback -> m SignalHandlerId
- wrap_WidgetFocusCallback :: WidgetFocusCallback -> C_WidgetFocusCallback
- type C_WidgetFocusInEventCallback = Ptr () -> Ptr EventFocus -> Ptr () -> IO CInt
- type WidgetFocusInEventCallback = EventFocus -> IO Bool
- afterWidgetFocusInEvent :: (IsWidget a, MonadIO m) => a -> WidgetFocusInEventCallback -> m SignalHandlerId
- genClosure_WidgetFocusInEvent :: WidgetFocusInEventCallback -> IO Closure
- mk_WidgetFocusInEventCallback :: C_WidgetFocusInEventCallback -> IO (FunPtr C_WidgetFocusInEventCallback)
- noWidgetFocusInEventCallback :: Maybe WidgetFocusInEventCallback
- onWidgetFocusInEvent :: (IsWidget a, MonadIO m) => a -> WidgetFocusInEventCallback -> m SignalHandlerId
- wrap_WidgetFocusInEventCallback :: WidgetFocusInEventCallback -> C_WidgetFocusInEventCallback
- type C_WidgetFocusOutEventCallback = Ptr () -> Ptr EventFocus -> Ptr () -> IO CInt
- type WidgetFocusOutEventCallback = EventFocus -> IO Bool
- afterWidgetFocusOutEvent :: (IsWidget a, MonadIO m) => a -> WidgetFocusOutEventCallback -> m SignalHandlerId
- genClosure_WidgetFocusOutEvent :: WidgetFocusOutEventCallback -> IO Closure
- mk_WidgetFocusOutEventCallback :: C_WidgetFocusOutEventCallback -> IO (FunPtr C_WidgetFocusOutEventCallback)
- noWidgetFocusOutEventCallback :: Maybe WidgetFocusOutEventCallback
- onWidgetFocusOutEvent :: (IsWidget a, MonadIO m) => a -> WidgetFocusOutEventCallback -> m SignalHandlerId
- wrap_WidgetFocusOutEventCallback :: WidgetFocusOutEventCallback -> C_WidgetFocusOutEventCallback
- type C_WidgetGrabBrokenEventCallback = Ptr () -> Ptr EventGrabBroken -> Ptr () -> IO CInt
- type WidgetGrabBrokenEventCallback = EventGrabBroken -> IO Bool
- afterWidgetGrabBrokenEvent :: (IsWidget a, MonadIO m) => a -> WidgetGrabBrokenEventCallback -> m SignalHandlerId
- genClosure_WidgetGrabBrokenEvent :: WidgetGrabBrokenEventCallback -> IO Closure
- mk_WidgetGrabBrokenEventCallback :: C_WidgetGrabBrokenEventCallback -> IO (FunPtr C_WidgetGrabBrokenEventCallback)
- noWidgetGrabBrokenEventCallback :: Maybe WidgetGrabBrokenEventCallback
- onWidgetGrabBrokenEvent :: (IsWidget a, MonadIO m) => a -> WidgetGrabBrokenEventCallback -> m SignalHandlerId
- wrap_WidgetGrabBrokenEventCallback :: WidgetGrabBrokenEventCallback -> C_WidgetGrabBrokenEventCallback
- type C_WidgetGrabFocusCallback = Ptr () -> Ptr () -> IO ()
- type WidgetGrabFocusCallback = IO ()
- afterWidgetGrabFocus :: (IsWidget a, MonadIO m) => a -> WidgetGrabFocusCallback -> m SignalHandlerId
- genClosure_WidgetGrabFocus :: WidgetGrabFocusCallback -> IO Closure
- mk_WidgetGrabFocusCallback :: C_WidgetGrabFocusCallback -> IO (FunPtr C_WidgetGrabFocusCallback)
- noWidgetGrabFocusCallback :: Maybe WidgetGrabFocusCallback
- onWidgetGrabFocus :: (IsWidget a, MonadIO m) => a -> WidgetGrabFocusCallback -> m SignalHandlerId
- wrap_WidgetGrabFocusCallback :: WidgetGrabFocusCallback -> C_WidgetGrabFocusCallback
- type C_WidgetGrabNotifyCallback = Ptr () -> CInt -> Ptr () -> IO ()
- type WidgetGrabNotifyCallback = Bool -> IO ()
- afterWidgetGrabNotify :: (IsWidget a, MonadIO m) => a -> WidgetGrabNotifyCallback -> m SignalHandlerId
- genClosure_WidgetGrabNotify :: WidgetGrabNotifyCallback -> IO Closure
- mk_WidgetGrabNotifyCallback :: C_WidgetGrabNotifyCallback -> IO (FunPtr C_WidgetGrabNotifyCallback)
- noWidgetGrabNotifyCallback :: Maybe WidgetGrabNotifyCallback
- onWidgetGrabNotify :: (IsWidget a, MonadIO m) => a -> WidgetGrabNotifyCallback -> m SignalHandlerId
- wrap_WidgetGrabNotifyCallback :: WidgetGrabNotifyCallback -> C_WidgetGrabNotifyCallback
- type C_WidgetHideCallback = Ptr () -> Ptr () -> IO ()
- type WidgetHideCallback = IO ()
- afterWidgetHide :: (IsWidget a, MonadIO m) => a -> WidgetHideCallback -> m SignalHandlerId
- genClosure_WidgetHide :: WidgetHideCallback -> IO Closure
- mk_WidgetHideCallback :: C_WidgetHideCallback -> IO (FunPtr C_WidgetHideCallback)
- noWidgetHideCallback :: Maybe WidgetHideCallback
- onWidgetHide :: (IsWidget a, MonadIO m) => a -> WidgetHideCallback -> m SignalHandlerId
- wrap_WidgetHideCallback :: WidgetHideCallback -> C_WidgetHideCallback
- type C_WidgetHierarchyChangedCallback = Ptr () -> Ptr Widget -> Ptr () -> IO ()
- type WidgetHierarchyChangedCallback = Maybe Widget -> IO ()
- afterWidgetHierarchyChanged :: (IsWidget a, MonadIO m) => a -> WidgetHierarchyChangedCallback -> m SignalHandlerId
- genClosure_WidgetHierarchyChanged :: WidgetHierarchyChangedCallback -> IO Closure
- mk_WidgetHierarchyChangedCallback :: C_WidgetHierarchyChangedCallback -> IO (FunPtr C_WidgetHierarchyChangedCallback)
- noWidgetHierarchyChangedCallback :: Maybe WidgetHierarchyChangedCallback
- onWidgetHierarchyChanged :: (IsWidget a, MonadIO m) => a -> WidgetHierarchyChangedCallback -> m SignalHandlerId
- wrap_WidgetHierarchyChangedCallback :: WidgetHierarchyChangedCallback -> C_WidgetHierarchyChangedCallback
- type C_WidgetKeyPressEventCallback = Ptr () -> Ptr EventKey -> Ptr () -> IO CInt
- type WidgetKeyPressEventCallback = EventKey -> IO Bool
- afterWidgetKeyPressEvent :: (IsWidget a, MonadIO m) => a -> WidgetKeyPressEventCallback -> m SignalHandlerId
- genClosure_WidgetKeyPressEvent :: WidgetKeyPressEventCallback -> IO Closure
- mk_WidgetKeyPressEventCallback :: C_WidgetKeyPressEventCallback -> IO (FunPtr C_WidgetKeyPressEventCallback)
- noWidgetKeyPressEventCallback :: Maybe WidgetKeyPressEventCallback
- onWidgetKeyPressEvent :: (IsWidget a, MonadIO m) => a -> WidgetKeyPressEventCallback -> m SignalHandlerId
- wrap_WidgetKeyPressEventCallback :: WidgetKeyPressEventCallback -> C_WidgetKeyPressEventCallback
- type C_WidgetKeyReleaseEventCallback = Ptr () -> Ptr EventKey -> Ptr () -> IO CInt
- type WidgetKeyReleaseEventCallback = EventKey -> IO Bool
- afterWidgetKeyReleaseEvent :: (IsWidget a, MonadIO m) => a -> WidgetKeyReleaseEventCallback -> m SignalHandlerId
- genClosure_WidgetKeyReleaseEvent :: WidgetKeyReleaseEventCallback -> IO Closure
- mk_WidgetKeyReleaseEventCallback :: C_WidgetKeyReleaseEventCallback -> IO (FunPtr C_WidgetKeyReleaseEventCallback)
- noWidgetKeyReleaseEventCallback :: Maybe WidgetKeyReleaseEventCallback
- onWidgetKeyReleaseEvent :: (IsWidget a, MonadIO m) => a -> WidgetKeyReleaseEventCallback -> m SignalHandlerId
- wrap_WidgetKeyReleaseEventCallback :: WidgetKeyReleaseEventCallback -> C_WidgetKeyReleaseEventCallback
- type C_WidgetKeynavFailedCallback = Ptr () -> CUInt -> Ptr () -> IO CInt
- type WidgetKeynavFailedCallback = DirectionType -> IO Bool
- afterWidgetKeynavFailed :: (IsWidget a, MonadIO m) => a -> WidgetKeynavFailedCallback -> m SignalHandlerId
- genClosure_WidgetKeynavFailed :: WidgetKeynavFailedCallback -> IO Closure
- mk_WidgetKeynavFailedCallback :: C_WidgetKeynavFailedCallback -> IO (FunPtr C_WidgetKeynavFailedCallback)
- noWidgetKeynavFailedCallback :: Maybe WidgetKeynavFailedCallback
- onWidgetKeynavFailed :: (IsWidget a, MonadIO m) => a -> WidgetKeynavFailedCallback -> m SignalHandlerId
- wrap_WidgetKeynavFailedCallback :: WidgetKeynavFailedCallback -> C_WidgetKeynavFailedCallback
- type C_WidgetLeaveNotifyEventCallback = Ptr () -> Ptr EventCrossing -> Ptr () -> IO CInt
- type WidgetLeaveNotifyEventCallback = EventCrossing -> IO Bool
- afterWidgetLeaveNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetLeaveNotifyEventCallback -> m SignalHandlerId
- genClosure_WidgetLeaveNotifyEvent :: WidgetLeaveNotifyEventCallback -> IO Closure
- mk_WidgetLeaveNotifyEventCallback :: C_WidgetLeaveNotifyEventCallback -> IO (FunPtr C_WidgetLeaveNotifyEventCallback)
- noWidgetLeaveNotifyEventCallback :: Maybe WidgetLeaveNotifyEventCallback
- onWidgetLeaveNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetLeaveNotifyEventCallback -> m SignalHandlerId
- wrap_WidgetLeaveNotifyEventCallback :: WidgetLeaveNotifyEventCallback -> C_WidgetLeaveNotifyEventCallback
- type C_WidgetMapCallback = Ptr () -> Ptr () -> IO ()
- type WidgetMapCallback = IO ()
- afterWidgetMap :: (IsWidget a, MonadIO m) => a -> WidgetMapCallback -> m SignalHandlerId
- genClosure_WidgetMap :: WidgetMapCallback -> IO Closure
- mk_WidgetMapCallback :: C_WidgetMapCallback -> IO (FunPtr C_WidgetMapCallback)
- noWidgetMapCallback :: Maybe WidgetMapCallback
- onWidgetMap :: (IsWidget a, MonadIO m) => a -> WidgetMapCallback -> m SignalHandlerId
- wrap_WidgetMapCallback :: WidgetMapCallback -> C_WidgetMapCallback
- type C_WidgetMapEventCallback = Ptr () -> Ptr EventAny -> Ptr () -> IO CInt
- type WidgetMapEventCallback = EventAny -> IO Bool
- afterWidgetMapEvent :: (IsWidget a, MonadIO m) => a -> WidgetMapEventCallback -> m SignalHandlerId
- genClosure_WidgetMapEvent :: WidgetMapEventCallback -> IO Closure
- mk_WidgetMapEventCallback :: C_WidgetMapEventCallback -> IO (FunPtr C_WidgetMapEventCallback)
- noWidgetMapEventCallback :: Maybe WidgetMapEventCallback
- onWidgetMapEvent :: (IsWidget a, MonadIO m) => a -> WidgetMapEventCallback -> m SignalHandlerId
- wrap_WidgetMapEventCallback :: WidgetMapEventCallback -> C_WidgetMapEventCallback
- type C_WidgetMnemonicActivateCallback = Ptr () -> CInt -> Ptr () -> IO CInt
- type WidgetMnemonicActivateCallback = Bool -> IO Bool
- afterWidgetMnemonicActivate :: (IsWidget a, MonadIO m) => a -> WidgetMnemonicActivateCallback -> m SignalHandlerId
- genClosure_WidgetMnemonicActivate :: WidgetMnemonicActivateCallback -> IO Closure
- mk_WidgetMnemonicActivateCallback :: C_WidgetMnemonicActivateCallback -> IO (FunPtr C_WidgetMnemonicActivateCallback)
- noWidgetMnemonicActivateCallback :: Maybe WidgetMnemonicActivateCallback
- onWidgetMnemonicActivate :: (IsWidget a, MonadIO m) => a -> WidgetMnemonicActivateCallback -> m SignalHandlerId
- wrap_WidgetMnemonicActivateCallback :: WidgetMnemonicActivateCallback -> C_WidgetMnemonicActivateCallback
- type C_WidgetMotionNotifyEventCallback = Ptr () -> Ptr EventMotion -> Ptr () -> IO CInt
- type WidgetMotionNotifyEventCallback = EventMotion -> IO Bool
- afterWidgetMotionNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetMotionNotifyEventCallback -> m SignalHandlerId
- genClosure_WidgetMotionNotifyEvent :: WidgetMotionNotifyEventCallback -> IO Closure
- mk_WidgetMotionNotifyEventCallback :: C_WidgetMotionNotifyEventCallback -> IO (FunPtr C_WidgetMotionNotifyEventCallback)
- noWidgetMotionNotifyEventCallback :: Maybe WidgetMotionNotifyEventCallback
- onWidgetMotionNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetMotionNotifyEventCallback -> m SignalHandlerId
- wrap_WidgetMotionNotifyEventCallback :: WidgetMotionNotifyEventCallback -> C_WidgetMotionNotifyEventCallback
- type C_WidgetMoveFocusCallback = Ptr () -> CUInt -> Ptr () -> IO ()
- type WidgetMoveFocusCallback = DirectionType -> IO ()
- afterWidgetMoveFocus :: (IsWidget a, MonadIO m) => a -> WidgetMoveFocusCallback -> m SignalHandlerId
- genClosure_WidgetMoveFocus :: WidgetMoveFocusCallback -> IO Closure
- mk_WidgetMoveFocusCallback :: C_WidgetMoveFocusCallback -> IO (FunPtr C_WidgetMoveFocusCallback)
- noWidgetMoveFocusCallback :: Maybe WidgetMoveFocusCallback
- onWidgetMoveFocus :: (IsWidget a, MonadIO m) => a -> WidgetMoveFocusCallback -> m SignalHandlerId
- wrap_WidgetMoveFocusCallback :: WidgetMoveFocusCallback -> C_WidgetMoveFocusCallback
- type C_WidgetParentSetCallback = Ptr () -> Ptr Widget -> Ptr () -> IO ()
- type WidgetParentSetCallback = Maybe Widget -> IO ()
- afterWidgetParentSet :: (IsWidget a, MonadIO m) => a -> WidgetParentSetCallback -> m SignalHandlerId
- genClosure_WidgetParentSet :: WidgetParentSetCallback -> IO Closure
- mk_WidgetParentSetCallback :: C_WidgetParentSetCallback -> IO (FunPtr C_WidgetParentSetCallback)
- noWidgetParentSetCallback :: Maybe WidgetParentSetCallback
- onWidgetParentSet :: (IsWidget a, MonadIO m) => a -> WidgetParentSetCallback -> m SignalHandlerId
- wrap_WidgetParentSetCallback :: WidgetParentSetCallback -> C_WidgetParentSetCallback
- type C_WidgetPopupMenuCallback = Ptr () -> Ptr () -> IO CInt
- type WidgetPopupMenuCallback = IO Bool
- afterWidgetPopupMenu :: (IsWidget a, MonadIO m) => a -> WidgetPopupMenuCallback -> m SignalHandlerId
- genClosure_WidgetPopupMenu :: WidgetPopupMenuCallback -> IO Closure
- mk_WidgetPopupMenuCallback :: C_WidgetPopupMenuCallback -> IO (FunPtr C_WidgetPopupMenuCallback)
- noWidgetPopupMenuCallback :: Maybe WidgetPopupMenuCallback
- onWidgetPopupMenu :: (IsWidget a, MonadIO m) => a -> WidgetPopupMenuCallback -> m SignalHandlerId
- wrap_WidgetPopupMenuCallback :: WidgetPopupMenuCallback -> C_WidgetPopupMenuCallback
- type C_WidgetPropertyNotifyEventCallback = Ptr () -> Ptr EventProperty -> Ptr () -> IO CInt
- type WidgetPropertyNotifyEventCallback = EventProperty -> IO Bool
- afterWidgetPropertyNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetPropertyNotifyEventCallback -> m SignalHandlerId
- genClosure_WidgetPropertyNotifyEvent :: WidgetPropertyNotifyEventCallback -> IO Closure
- mk_WidgetPropertyNotifyEventCallback :: C_WidgetPropertyNotifyEventCallback -> IO (FunPtr C_WidgetPropertyNotifyEventCallback)
- noWidgetPropertyNotifyEventCallback :: Maybe WidgetPropertyNotifyEventCallback
- onWidgetPropertyNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetPropertyNotifyEventCallback -> m SignalHandlerId
- wrap_WidgetPropertyNotifyEventCallback :: WidgetPropertyNotifyEventCallback -> C_WidgetPropertyNotifyEventCallback
- type C_WidgetProximityInEventCallback = Ptr () -> Ptr EventProximity -> Ptr () -> IO CInt
- type WidgetProximityInEventCallback = EventProximity -> IO Bool
- afterWidgetProximityInEvent :: (IsWidget a, MonadIO m) => a -> WidgetProximityInEventCallback -> m SignalHandlerId
- genClosure_WidgetProximityInEvent :: WidgetProximityInEventCallback -> IO Closure
- mk_WidgetProximityInEventCallback :: C_WidgetProximityInEventCallback -> IO (FunPtr C_WidgetProximityInEventCallback)
- noWidgetProximityInEventCallback :: Maybe WidgetProximityInEventCallback
- onWidgetProximityInEvent :: (IsWidget a, MonadIO m) => a -> WidgetProximityInEventCallback -> m SignalHandlerId
- wrap_WidgetProximityInEventCallback :: WidgetProximityInEventCallback -> C_WidgetProximityInEventCallback
- type C_WidgetProximityOutEventCallback = Ptr () -> Ptr EventProximity -> Ptr () -> IO CInt
- type WidgetProximityOutEventCallback = EventProximity -> IO Bool
- afterWidgetProximityOutEvent :: (IsWidget a, MonadIO m) => a -> WidgetProximityOutEventCallback -> m SignalHandlerId
- genClosure_WidgetProximityOutEvent :: WidgetProximityOutEventCallback -> IO Closure
- mk_WidgetProximityOutEventCallback :: C_WidgetProximityOutEventCallback -> IO (FunPtr C_WidgetProximityOutEventCallback)
- noWidgetProximityOutEventCallback :: Maybe WidgetProximityOutEventCallback
- onWidgetProximityOutEvent :: (IsWidget a, MonadIO m) => a -> WidgetProximityOutEventCallback -> m SignalHandlerId
- wrap_WidgetProximityOutEventCallback :: WidgetProximityOutEventCallback -> C_WidgetProximityOutEventCallback
- type C_WidgetQueryTooltipCallback = Ptr () -> Int32 -> Int32 -> CInt -> Ptr Tooltip -> Ptr () -> IO CInt
- type WidgetQueryTooltipCallback = Int32 -> Int32 -> Bool -> Tooltip -> IO Bool
- afterWidgetQueryTooltip :: (IsWidget a, MonadIO m) => a -> WidgetQueryTooltipCallback -> m SignalHandlerId
- genClosure_WidgetQueryTooltip :: WidgetQueryTooltipCallback -> IO Closure
- mk_WidgetQueryTooltipCallback :: C_WidgetQueryTooltipCallback -> IO (FunPtr C_WidgetQueryTooltipCallback)
- noWidgetQueryTooltipCallback :: Maybe WidgetQueryTooltipCallback
- onWidgetQueryTooltip :: (IsWidget a, MonadIO m) => a -> WidgetQueryTooltipCallback -> m SignalHandlerId
- wrap_WidgetQueryTooltipCallback :: WidgetQueryTooltipCallback -> C_WidgetQueryTooltipCallback
- type C_WidgetRealizeCallback = Ptr () -> Ptr () -> IO ()
- type WidgetRealizeCallback = IO ()
- afterWidgetRealize :: (IsWidget a, MonadIO m) => a -> WidgetRealizeCallback -> m SignalHandlerId
- genClosure_WidgetRealize :: WidgetRealizeCallback -> IO Closure
- mk_WidgetRealizeCallback :: C_WidgetRealizeCallback -> IO (FunPtr C_WidgetRealizeCallback)
- noWidgetRealizeCallback :: Maybe WidgetRealizeCallback
- onWidgetRealize :: (IsWidget a, MonadIO m) => a -> WidgetRealizeCallback -> m SignalHandlerId
- wrap_WidgetRealizeCallback :: WidgetRealizeCallback -> C_WidgetRealizeCallback
- type C_WidgetScreenChangedCallback = Ptr () -> Ptr Screen -> Ptr () -> IO ()
- type WidgetScreenChangedCallback = Maybe Screen -> IO ()
- afterWidgetScreenChanged :: (IsWidget a, MonadIO m) => a -> WidgetScreenChangedCallback -> m SignalHandlerId
- genClosure_WidgetScreenChanged :: WidgetScreenChangedCallback -> IO Closure
- mk_WidgetScreenChangedCallback :: C_WidgetScreenChangedCallback -> IO (FunPtr C_WidgetScreenChangedCallback)
- noWidgetScreenChangedCallback :: Maybe WidgetScreenChangedCallback
- onWidgetScreenChanged :: (IsWidget a, MonadIO m) => a -> WidgetScreenChangedCallback -> m SignalHandlerId
- wrap_WidgetScreenChangedCallback :: WidgetScreenChangedCallback -> C_WidgetScreenChangedCallback
- type C_WidgetScrollEventCallback = Ptr () -> Ptr EventScroll -> Ptr () -> IO CInt
- type WidgetScrollEventCallback = EventScroll -> IO Bool
- afterWidgetScrollEvent :: (IsWidget a, MonadIO m) => a -> WidgetScrollEventCallback -> m SignalHandlerId
- genClosure_WidgetScrollEvent :: WidgetScrollEventCallback -> IO Closure
- mk_WidgetScrollEventCallback :: C_WidgetScrollEventCallback -> IO (FunPtr C_WidgetScrollEventCallback)
- noWidgetScrollEventCallback :: Maybe WidgetScrollEventCallback
- onWidgetScrollEvent :: (IsWidget a, MonadIO m) => a -> WidgetScrollEventCallback -> m SignalHandlerId
- wrap_WidgetScrollEventCallback :: WidgetScrollEventCallback -> C_WidgetScrollEventCallback
- type C_WidgetSelectionClearEventCallback = Ptr () -> Ptr EventSelection -> Ptr () -> IO CInt
- type WidgetSelectionClearEventCallback = EventSelection -> IO Bool
- afterWidgetSelectionClearEvent :: (IsWidget a, MonadIO m) => a -> WidgetSelectionClearEventCallback -> m SignalHandlerId
- genClosure_WidgetSelectionClearEvent :: WidgetSelectionClearEventCallback -> IO Closure
- mk_WidgetSelectionClearEventCallback :: C_WidgetSelectionClearEventCallback -> IO (FunPtr C_WidgetSelectionClearEventCallback)
- noWidgetSelectionClearEventCallback :: Maybe WidgetSelectionClearEventCallback
- onWidgetSelectionClearEvent :: (IsWidget a, MonadIO m) => a -> WidgetSelectionClearEventCallback -> m SignalHandlerId
- wrap_WidgetSelectionClearEventCallback :: WidgetSelectionClearEventCallback -> C_WidgetSelectionClearEventCallback
- type C_WidgetSelectionGetCallback = Ptr () -> Ptr SelectionData -> Word32 -> Word32 -> Ptr () -> IO ()
- type WidgetSelectionGetCallback = SelectionData -> Word32 -> Word32 -> IO ()
- afterWidgetSelectionGet :: (IsWidget a, MonadIO m) => a -> WidgetSelectionGetCallback -> m SignalHandlerId
- genClosure_WidgetSelectionGet :: WidgetSelectionGetCallback -> IO Closure
- mk_WidgetSelectionGetCallback :: C_WidgetSelectionGetCallback -> IO (FunPtr C_WidgetSelectionGetCallback)
- noWidgetSelectionGetCallback :: Maybe WidgetSelectionGetCallback
- onWidgetSelectionGet :: (IsWidget a, MonadIO m) => a -> WidgetSelectionGetCallback -> m SignalHandlerId
- wrap_WidgetSelectionGetCallback :: WidgetSelectionGetCallback -> C_WidgetSelectionGetCallback
- type C_WidgetSelectionNotifyEventCallback = Ptr () -> Ptr EventSelection -> Ptr () -> IO CInt
- type WidgetSelectionNotifyEventCallback = EventSelection -> IO Bool
- afterWidgetSelectionNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetSelectionNotifyEventCallback -> m SignalHandlerId
- genClosure_WidgetSelectionNotifyEvent :: WidgetSelectionNotifyEventCallback -> IO Closure
- mk_WidgetSelectionNotifyEventCallback :: C_WidgetSelectionNotifyEventCallback -> IO (FunPtr C_WidgetSelectionNotifyEventCallback)
- noWidgetSelectionNotifyEventCallback :: Maybe WidgetSelectionNotifyEventCallback
- onWidgetSelectionNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetSelectionNotifyEventCallback -> m SignalHandlerId
- wrap_WidgetSelectionNotifyEventCallback :: WidgetSelectionNotifyEventCallback -> C_WidgetSelectionNotifyEventCallback
- type C_WidgetSelectionReceivedCallback = Ptr () -> Ptr SelectionData -> Word32 -> Ptr () -> IO ()
- type WidgetSelectionReceivedCallback = SelectionData -> Word32 -> IO ()
- afterWidgetSelectionReceived :: (IsWidget a, MonadIO m) => a -> WidgetSelectionReceivedCallback -> m SignalHandlerId
- genClosure_WidgetSelectionReceived :: WidgetSelectionReceivedCallback -> IO Closure
- mk_WidgetSelectionReceivedCallback :: C_WidgetSelectionReceivedCallback -> IO (FunPtr C_WidgetSelectionReceivedCallback)
- noWidgetSelectionReceivedCallback :: Maybe WidgetSelectionReceivedCallback
- onWidgetSelectionReceived :: (IsWidget a, MonadIO m) => a -> WidgetSelectionReceivedCallback -> m SignalHandlerId
- wrap_WidgetSelectionReceivedCallback :: WidgetSelectionReceivedCallback -> C_WidgetSelectionReceivedCallback
- type C_WidgetSelectionRequestEventCallback = Ptr () -> Ptr EventSelection -> Ptr () -> IO CInt
- type WidgetSelectionRequestEventCallback = EventSelection -> IO Bool
- afterWidgetSelectionRequestEvent :: (IsWidget a, MonadIO m) => a -> WidgetSelectionRequestEventCallback -> m SignalHandlerId
- genClosure_WidgetSelectionRequestEvent :: WidgetSelectionRequestEventCallback -> IO Closure
- mk_WidgetSelectionRequestEventCallback :: C_WidgetSelectionRequestEventCallback -> IO (FunPtr C_WidgetSelectionRequestEventCallback)
- noWidgetSelectionRequestEventCallback :: Maybe WidgetSelectionRequestEventCallback
- onWidgetSelectionRequestEvent :: (IsWidget a, MonadIO m) => a -> WidgetSelectionRequestEventCallback -> m SignalHandlerId
- wrap_WidgetSelectionRequestEventCallback :: WidgetSelectionRequestEventCallback -> C_WidgetSelectionRequestEventCallback
- type C_WidgetShowCallback = Ptr () -> Ptr () -> IO ()
- type WidgetShowCallback = IO ()
- afterWidgetShow :: (IsWidget a, MonadIO m) => a -> WidgetShowCallback -> m SignalHandlerId
- genClosure_WidgetShow :: WidgetShowCallback -> IO Closure
- mk_WidgetShowCallback :: C_WidgetShowCallback -> IO (FunPtr C_WidgetShowCallback)
- noWidgetShowCallback :: Maybe WidgetShowCallback
- onWidgetShow :: (IsWidget a, MonadIO m) => a -> WidgetShowCallback -> m SignalHandlerId
- wrap_WidgetShowCallback :: WidgetShowCallback -> C_WidgetShowCallback
- type C_WidgetShowHelpCallback = Ptr () -> CUInt -> Ptr () -> IO CInt
- type WidgetShowHelpCallback = WidgetHelpType -> IO Bool
- afterWidgetShowHelp :: (IsWidget a, MonadIO m) => a -> WidgetShowHelpCallback -> m SignalHandlerId
- genClosure_WidgetShowHelp :: WidgetShowHelpCallback -> IO Closure
- mk_WidgetShowHelpCallback :: C_WidgetShowHelpCallback -> IO (FunPtr C_WidgetShowHelpCallback)
- noWidgetShowHelpCallback :: Maybe WidgetShowHelpCallback
- onWidgetShowHelp :: (IsWidget a, MonadIO m) => a -> WidgetShowHelpCallback -> m SignalHandlerId
- wrap_WidgetShowHelpCallback :: WidgetShowHelpCallback -> C_WidgetShowHelpCallback
- type C_WidgetSizeAllocateCallback = Ptr () -> Ptr Rectangle -> Ptr () -> IO ()
- type WidgetSizeAllocateCallback = Rectangle -> IO ()
- afterWidgetSizeAllocate :: (IsWidget a, MonadIO m) => a -> WidgetSizeAllocateCallback -> m SignalHandlerId
- genClosure_WidgetSizeAllocate :: WidgetSizeAllocateCallback -> IO Closure
- mk_WidgetSizeAllocateCallback :: C_WidgetSizeAllocateCallback -> IO (FunPtr C_WidgetSizeAllocateCallback)
- noWidgetSizeAllocateCallback :: Maybe WidgetSizeAllocateCallback
- onWidgetSizeAllocate :: (IsWidget a, MonadIO m) => a -> WidgetSizeAllocateCallback -> m SignalHandlerId
- wrap_WidgetSizeAllocateCallback :: WidgetSizeAllocateCallback -> C_WidgetSizeAllocateCallback
- type C_WidgetStateChangedCallback = Ptr () -> CUInt -> Ptr () -> IO ()
- type WidgetStateChangedCallback = StateType -> IO ()
- afterWidgetStateChanged :: (IsWidget a, MonadIO m) => a -> WidgetStateChangedCallback -> m SignalHandlerId
- genClosure_WidgetStateChanged :: WidgetStateChangedCallback -> IO Closure
- mk_WidgetStateChangedCallback :: C_WidgetStateChangedCallback -> IO (FunPtr C_WidgetStateChangedCallback)
- noWidgetStateChangedCallback :: Maybe WidgetStateChangedCallback
- onWidgetStateChanged :: (IsWidget a, MonadIO m) => a -> WidgetStateChangedCallback -> m SignalHandlerId
- wrap_WidgetStateChangedCallback :: WidgetStateChangedCallback -> C_WidgetStateChangedCallback
- type C_WidgetStateFlagsChangedCallback = Ptr () -> CUInt -> Ptr () -> IO ()
- type WidgetStateFlagsChangedCallback = [StateFlags] -> IO ()
- afterWidgetStateFlagsChanged :: (IsWidget a, MonadIO m) => a -> WidgetStateFlagsChangedCallback -> m SignalHandlerId
- genClosure_WidgetStateFlagsChanged :: WidgetStateFlagsChangedCallback -> IO Closure
- mk_WidgetStateFlagsChangedCallback :: C_WidgetStateFlagsChangedCallback -> IO (FunPtr C_WidgetStateFlagsChangedCallback)
- noWidgetStateFlagsChangedCallback :: Maybe WidgetStateFlagsChangedCallback
- onWidgetStateFlagsChanged :: (IsWidget a, MonadIO m) => a -> WidgetStateFlagsChangedCallback -> m SignalHandlerId
- wrap_WidgetStateFlagsChangedCallback :: WidgetStateFlagsChangedCallback -> C_WidgetStateFlagsChangedCallback
- type C_WidgetStyleSetCallback = Ptr () -> Ptr Style -> Ptr () -> IO ()
- type WidgetStyleSetCallback = Maybe Style -> IO ()
- afterWidgetStyleSet :: (IsWidget a, MonadIO m) => a -> WidgetStyleSetCallback -> m SignalHandlerId
- genClosure_WidgetStyleSet :: WidgetStyleSetCallback -> IO Closure
- mk_WidgetStyleSetCallback :: C_WidgetStyleSetCallback -> IO (FunPtr C_WidgetStyleSetCallback)
- noWidgetStyleSetCallback :: Maybe WidgetStyleSetCallback
- onWidgetStyleSet :: (IsWidget a, MonadIO m) => a -> WidgetStyleSetCallback -> m SignalHandlerId
- wrap_WidgetStyleSetCallback :: WidgetStyleSetCallback -> C_WidgetStyleSetCallback
- type C_WidgetStyleUpdatedCallback = Ptr () -> Ptr () -> IO ()
- type WidgetStyleUpdatedCallback = IO ()
- afterWidgetStyleUpdated :: (IsWidget a, MonadIO m) => a -> WidgetStyleUpdatedCallback -> m SignalHandlerId
- genClosure_WidgetStyleUpdated :: WidgetStyleUpdatedCallback -> IO Closure
- mk_WidgetStyleUpdatedCallback :: C_WidgetStyleUpdatedCallback -> IO (FunPtr C_WidgetStyleUpdatedCallback)
- noWidgetStyleUpdatedCallback :: Maybe WidgetStyleUpdatedCallback
- onWidgetStyleUpdated :: (IsWidget a, MonadIO m) => a -> WidgetStyleUpdatedCallback -> m SignalHandlerId
- wrap_WidgetStyleUpdatedCallback :: WidgetStyleUpdatedCallback -> C_WidgetStyleUpdatedCallback
- type C_WidgetTouchEventCallback = Ptr () -> Ptr Event -> Ptr () -> IO CInt
- type WidgetTouchEventCallback = Event -> IO Bool
- afterWidgetTouchEvent :: (IsWidget a, MonadIO m) => a -> WidgetTouchEventCallback -> m SignalHandlerId
- genClosure_WidgetTouchEvent :: WidgetTouchEventCallback -> IO Closure
- mk_WidgetTouchEventCallback :: C_WidgetTouchEventCallback -> IO (FunPtr C_WidgetTouchEventCallback)
- noWidgetTouchEventCallback :: Maybe WidgetTouchEventCallback
- onWidgetTouchEvent :: (IsWidget a, MonadIO m) => a -> WidgetTouchEventCallback -> m SignalHandlerId
- wrap_WidgetTouchEventCallback :: WidgetTouchEventCallback -> C_WidgetTouchEventCallback
- type C_WidgetUnmapCallback = Ptr () -> Ptr () -> IO ()
- type WidgetUnmapCallback = IO ()
- afterWidgetUnmap :: (IsWidget a, MonadIO m) => a -> WidgetUnmapCallback -> m SignalHandlerId
- genClosure_WidgetUnmap :: WidgetUnmapCallback -> IO Closure
- mk_WidgetUnmapCallback :: C_WidgetUnmapCallback -> IO (FunPtr C_WidgetUnmapCallback)
- noWidgetUnmapCallback :: Maybe WidgetUnmapCallback
- onWidgetUnmap :: (IsWidget a, MonadIO m) => a -> WidgetUnmapCallback -> m SignalHandlerId
- wrap_WidgetUnmapCallback :: WidgetUnmapCallback -> C_WidgetUnmapCallback
- type C_WidgetUnmapEventCallback = Ptr () -> Ptr EventAny -> Ptr () -> IO CInt
- type WidgetUnmapEventCallback = EventAny -> IO Bool
- afterWidgetUnmapEvent :: (IsWidget a, MonadIO m) => a -> WidgetUnmapEventCallback -> m SignalHandlerId
- genClosure_WidgetUnmapEvent :: WidgetUnmapEventCallback -> IO Closure
- mk_WidgetUnmapEventCallback :: C_WidgetUnmapEventCallback -> IO (FunPtr C_WidgetUnmapEventCallback)
- noWidgetUnmapEventCallback :: Maybe WidgetUnmapEventCallback
- onWidgetUnmapEvent :: (IsWidget a, MonadIO m) => a -> WidgetUnmapEventCallback -> m SignalHandlerId
- wrap_WidgetUnmapEventCallback :: WidgetUnmapEventCallback -> C_WidgetUnmapEventCallback
- type C_WidgetUnrealizeCallback = Ptr () -> Ptr () -> IO ()
- type WidgetUnrealizeCallback = IO ()
- afterWidgetUnrealize :: (IsWidget a, MonadIO m) => a -> WidgetUnrealizeCallback -> m SignalHandlerId
- genClosure_WidgetUnrealize :: WidgetUnrealizeCallback -> IO Closure
- mk_WidgetUnrealizeCallback :: C_WidgetUnrealizeCallback -> IO (FunPtr C_WidgetUnrealizeCallback)
- noWidgetUnrealizeCallback :: Maybe WidgetUnrealizeCallback
- onWidgetUnrealize :: (IsWidget a, MonadIO m) => a -> WidgetUnrealizeCallback -> m SignalHandlerId
- wrap_WidgetUnrealizeCallback :: WidgetUnrealizeCallback -> C_WidgetUnrealizeCallback
- type C_WidgetVisibilityNotifyEventCallback = Ptr () -> Ptr EventVisibility -> Ptr () -> IO CInt
- type WidgetVisibilityNotifyEventCallback = EventVisibility -> IO Bool
- afterWidgetVisibilityNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetVisibilityNotifyEventCallback -> m SignalHandlerId
- genClosure_WidgetVisibilityNotifyEvent :: WidgetVisibilityNotifyEventCallback -> IO Closure
- mk_WidgetVisibilityNotifyEventCallback :: C_WidgetVisibilityNotifyEventCallback -> IO (FunPtr C_WidgetVisibilityNotifyEventCallback)
- noWidgetVisibilityNotifyEventCallback :: Maybe WidgetVisibilityNotifyEventCallback
- onWidgetVisibilityNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetVisibilityNotifyEventCallback -> m SignalHandlerId
- wrap_WidgetVisibilityNotifyEventCallback :: WidgetVisibilityNotifyEventCallback -> C_WidgetVisibilityNotifyEventCallback
- type C_WidgetWindowStateEventCallback = Ptr () -> Ptr EventWindowState -> Ptr () -> IO CInt
- type WidgetWindowStateEventCallback = EventWindowState -> IO Bool
- afterWidgetWindowStateEvent :: (IsWidget a, MonadIO m) => a -> WidgetWindowStateEventCallback -> m SignalHandlerId
- genClosure_WidgetWindowStateEvent :: WidgetWindowStateEventCallback -> IO Closure
- mk_WidgetWindowStateEventCallback :: C_WidgetWindowStateEventCallback -> IO (FunPtr C_WidgetWindowStateEventCallback)
- noWidgetWindowStateEventCallback :: Maybe WidgetWindowStateEventCallback
- onWidgetWindowStateEvent :: (IsWidget a, MonadIO m) => a -> WidgetWindowStateEventCallback -> m SignalHandlerId
- wrap_WidgetWindowStateEventCallback :: WidgetWindowStateEventCallback -> C_WidgetWindowStateEventCallback
Exported types
Memory-managed wrapper type.
Instances
GObject Widget Source # | |
Defined in GI.Gtk.Objects.Widget gobjectType :: Widget -> IO GType # | |
IsImplementorIface Widget Source # | |
Defined in GI.Gtk.Objects.Widget | |
IsObject Widget Source # | |
Defined in GI.Gtk.Objects.Widget | |
IsBuildable Widget Source # | |
Defined in GI.Gtk.Objects.Widget | |
IsWidget Widget Source # | |
Defined in GI.Gtk.Objects.Widget |
class GObject o => IsWidget o Source #
Instances
Methods
activate
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
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
.
addAccelerator
:: (HasCallStack, MonadIO m, IsWidget a, IsAccelGroup b) | |
=> a |
|
-> Text |
|
-> b |
|
-> Word32 |
|
-> [ModifierType] |
|
-> [AccelFlags] |
|
-> m () |
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 SignalFlagsAction
.
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.
addDeviceEvents
widgetAddDeviceEvents Source #
:: (HasCallStack, MonadIO m, IsWidget a, IsDevice b) | |
=> a |
|
-> b |
|
-> [EventMask] |
|
-> m () |
Adds the device events in the bitfield events
to the event mask for
widget
. See widgetSetDeviceEvents
for details.
Since: 3.0
addEvents
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> [EventMask] |
|
-> m () |
Adds the events in the bitfield events
to the event mask for
widget
. See widgetSetEvents
and the
[input handling overview][event-masks] for details.
addMnemonicLabel
widgetAddMnemonicLabel Source #
:: (HasCallStack, MonadIO m, IsWidget a, IsWidget b) | |
=> a |
|
-> b |
|
-> m () |
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 Widget
::destroy
signal or a weak notifier.
Since: 2.4
addTickCallback
widgetAddTickCallback Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> TickCallback |
|
-> m Word32 | Returns: an id for the connection of this callback. Remove the callback
by passing it to |
Queues an animation frame update and adds a callback to be called
before each frame. Until the tick callback is removed, it will be
called frequently (usually at the frame rate of the output device
or as quickly as the application can be repainted, whichever is
slower). For this reason, is most suitable for handling graphics
that change every frame or every few frames. The tick callback does
not automatically imply a relayout or repaint. If you want a
repaint or relayout, and aren’t changing widget properties that
would trigger that (for example, changing the text of a Label
),
then you will have to call widgetQueueResize
or
widgetQueueDrawArea
yourself.
frameClockGetFrameTime
should generally be used for timing
continuous animations and
frameTimingsGetPredictedPresentationTime
if you are
trying to display isolated frames at particular times.
This is a more convenient alternative to connecting directly to the
FrameClock
::update
signal of FrameClock
, since you don't
have to worry about when a FrameClock
is assigned to a widget.
Since: 3.8
canActivateAccel
widgetCanActivateAccel Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Word32 |
|
-> m Bool | Returns: |
Determines whether an accelerator that activates the signal
identified by signalId
can currently be activated.
This is done by emitting the Widget
::can-activate-accel
signal on widget
; 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.
Since: 2.4
childFocus
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> DirectionType |
|
-> m Bool | Returns: |
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.
widgetChildFocus
is called by containers as the user moves
around the window using keyboard shortcuts. direction
indicates
what kind of motion is taking place (up, down, left, right, tab
forward, tab backward). widgetChildFocus
emits the
Widget
::focus
signal; widgets override the default handler
for this signal in order to implement appropriate focus behavior.
The default ::focus 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.
childNotify
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Text |
|
-> m () |
Emits a Widget
::child-notify
signal for the
[child property][child-properties] childProperty
on widget
.
This is the analogue of objectNotify
for child properties.
Also see containerChildNotify
.
classPath
Deprecated: (Since version 3.0)Use widgetGetPath
instead
Same as widgetPath
, but always uses the name of a widget’s type,
never uses a custom name set with widgetSetName
.
computeExpand
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Orientation |
|
-> m Bool | Returns: whether widget tree rooted here should be expanded |
Computes whether a container should give this widget extra space
when possible. Containers should check this, rather than
looking at widgetGetHexpand
or widgetGetVexpand
.
This function already checks whether the widget is visible, so visibility does not need to be checked separately. Non-visible widgets are not expanded.
The computed expand value uses either the expand setting explicitly set on the widget itself, or, if none has been explicitly set, the widget may expand if some of its children do.
createPangoContext
widgetCreatePangoContext Source #
Creates a new Context
with the appropriate font map,
font options, font description, and base direction for drawing
text for this widget. See also widgetGetPangoContext
.
createPangoLayout
widgetCreatePangoLayout Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Maybe Text |
|
-> m Layout | Returns: the new |
Creates a new Layout
with the appropriate font map,
font description, and base direction for drawing text for
this widget.
If you keep a Layout
created in this way around, you need
to re-create it when the widget Context
is replaced.
This can be tracked by using the Widget
::screen-changed
signal
on the widget.
destroy
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Destroys a widget.
When a widget is destroyed all references it holds on other objects will be released:
- if the widget is inside a container, it will be removed from its parent
- if the widget is a container, all its children will be destroyed, recursively
- if the widget is a top level, it will be removed from the list of top level widgets that GTK+ maintains internally
It's expected that all references held on the widget will also
be released; you should connect to the Widget
::destroy
signal
if you hold a reference to widget
and you wish to remove it when
this function is called. It is not necessary to do so if you are
implementing a Container
, as you'll be able to use the
ContainerClass
.remove
() virtual function for that.
It's important to notice that widgetDestroy
will only cause
the widget
to be finalized if no additional references, acquired
using objectRef
, are held on it. In case additional references
are in place, the widget
will be in an "inert" state after calling
this function; widget
will still point to valid memory, allowing you
to release the references you hold, but you may not query the widget's
own state.
You should typically call this function on top level widgets, and rarely on child widgets.
See also: containerRemove
destroyed
:: (HasCallStack, MonadIO m, IsWidget a, IsWidget b) | |
=> a |
|
-> b |
|
-> m Widget |
This function sets *widgetPointer
to Nothing
if widgetPointer
!=
Nothing
. It’s intended to be used as a callback connected to the
“destroy” signal of a widget. You connect widgetDestroyed
as a signal handler, and pass the address of your widget variable
as user data. Then when the widget is destroyed, the variable will
be set to Nothing
. Useful for example to avoid multiple copies
of the same dialog.
deviceIsShadowed
widgetDeviceIsShadowed Source #
:: (HasCallStack, MonadIO m, IsWidget a, IsDevice b) | |
=> a |
|
-> b |
|
-> m Bool | Returns: |
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
Widget
::grab-notify
signal to check for specific
devices. See deviceGrabAdd
.
Since: 3.0
dragBegin
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> TargetList |
|
-> [DragAction] |
|
-> Int32 |
|
-> Maybe Event |
|
-> m DragContext | Returns: the context for this drag |
Deprecated: (Since version 3.10)Use widgetDragBeginWithCoordinates
instead
This function is equivalent to widgetDragBeginWithCoordinates
,
passing -1, -1 as coordinates.
dragBeginWithCoordinates
widgetDragBeginWithCoordinates Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> TargetList |
|
-> [DragAction] |
|
-> Int32 |
|
-> Maybe Event |
|
-> Int32 |
|
-> Int32 |
|
-> m DragContext | Returns: the context for this drag |
Initiates a drag on the source side. The function only needs to be used
when the application is starting drags itself, and is not needed when
widgetDragSourceSet
is used.
The event
is used to retrieve the timestamp that will be used internally to
grab the pointer. If event
is Nothing
, then CURRENT_TIME
will be used.
However, you should try to pass a real event in all cases, since that can be
used to get information about the drag.
Generally there are three cases when you want to start a drag by hand by calling this function:
- During a
Widget
::button-press-event
handler, if you want to start a drag immediately when the user presses the mouse button. Pass theevent
that you have in yourWidget
::button-press-event
handler. - During a
Widget
::motion-notify-event
handler, if you want to start a drag when the mouse moves past a certain threshold distance after a button-press. Pass theevent
that you have in yourWidget
::motion-notify-event
handler. - During a timeout handler, if you want to start a drag after the mouse
button is held down for some time. Try to save the last event that you got
from the mouse, using
eventCopy
, and pass it to this function (remember to free the event witheventFree
when you are done). If you really cannot pass a real event, passNothing
instead.
Since: 3.10
dragCheckThreshold
widgetDragCheckThreshold Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Int32 |
|
-> Int32 |
|
-> Int32 |
|
-> Int32 |
|
-> m Bool | Returns: |
Checks to see if a mouse drag starting at (startX
, startY
) and ending
at (currentX
, currentY
) has passed the GTK+ drag threshold, and thus
should trigger the beginning of a drag-and-drop operation.
dragDestAddImageTargets
widgetDragDestAddImageTargets Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Add the image targets supported by SelectionData
to
the target list of the drag destination. The targets
are added with info
= 0. If you need another value,
use targetListAddImageTargets
and
widgetDragDestSetTargetList
.
Since: 2.6
dragDestAddTextTargets
widgetDragDestAddTextTargets Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Add the text targets supported by SelectionData
to
the target list of the drag destination. The targets
are added with info
= 0. If you need another value,
use targetListAddTextTargets
and
widgetDragDestSetTargetList
.
Since: 2.6
dragDestAddUriTargets
widgetDragDestAddUriTargets Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Add the URI targets supported by SelectionData
to
the target list of the drag destination. The targets
are added with info
= 0. If you need another value,
use targetListAddUriTargets
and
widgetDragDestSetTargetList
.
Since: 2.6
dragDestFindTarget
widgetDragDestFindTarget Source #
:: (HasCallStack, MonadIO m, IsWidget a, IsDragContext b) | |
=> a |
|
-> b |
|
-> Maybe TargetList |
|
-> m (Maybe Atom) | Returns: first target that the source offers
and the dest can accept, or |
Looks for a match between the supported targets of context
and the
destTargetList
, returning the first matching target, otherwise
returning GDK_NONE
. destTargetList
should usually be the return
value from widgetDragDestGetTargetList
, but some widgets may
have different valid targets for different parts of the widget; in
that case, they will have to implement a drag_motion handler that
passes the correct target list to this function.
dragDestGetTargetList
widgetDragDestGetTargetList Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m (Maybe TargetList) | Returns: the |
Returns the list of targets this widget can accept from drag-and-drop.
dragDestGetTrackMotion
widgetDragDestGetTrackMotion Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
Returns whether the widget has been configured to always
emit Widget
::drag-motion
signals.
Since: 2.10
dragDestSet
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> [DestDefaults] |
|
-> Maybe [TargetEntry] |
|
-> [DragAction] |
|
-> m () |
Sets a widget as a potential drop destination, and adds default behaviors.
The default behaviors listed in flags
have an effect similar
to installing default handlers for the widget’s drag-and-drop signals
(Widget
::drag-motion
, Widget
::drag-drop
, ...). They all exist
for convenience. When passing GTK_DEST_DEFAULT_ALL
for instance it is
sufficient to connect to the widget’s Widget
::drag-data-received
signal to get primitive, but consistent drag-and-drop support.
Things become more complicated when you try to preview the dragged data,
as described in the documentation for Widget
::drag-motion
. The default
behaviors described by flags
make some assumptions, that can conflict
with your own signal handlers. For instance GTK_DEST_DEFAULT_DROP
causes
invokations of dragStatus
in the context of Widget
::drag-motion
,
and invokations of dragFinish
in Widget
::drag-data-received
.
Especially the later is dramatic, when your own Widget
::drag-motion
handler calls widgetDragGetData
to inspect the dragged data.
There’s no way to set a default action here, you can use the
Widget
::drag-motion
callback for that. Here’s an example which selects
the action to use depending on whether the control key is pressed or not:
C code
static void drag_motion (GtkWidget *widget, GdkDragContext *context, gint x, gint y, guint time) { GdkModifierType mask; gdk_window_get_pointer (gtk_widget_get_window (widget), NULL, NULL, &mask); if (mask & GDK_CONTROL_MASK) gdk_drag_status (context, GDK_ACTION_COPY, time); else gdk_drag_status (context, GDK_ACTION_MOVE, time); }
dragDestSetProxy
widgetDragDestSetProxy Source #
:: (HasCallStack, MonadIO m, IsWidget a, IsWindow b) | |
=> a |
|
-> b |
|
-> DragProtocol |
|
-> Bool |
|
-> m () |
Deprecated: (Since version 3.22)
Sets this widget as a proxy for drops to another window.
dragDestSetTargetList
widgetDragDestSetTargetList Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Maybe TargetList |
|
-> m () |
Sets the target types that this widget can accept from drag-and-drop.
The widget must first be made into a drag destination with
widgetDragDestSet
.
dragDestSetTrackMotion
widgetDragDestSetTrackMotion Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
Tells the widget to emit Widget
::drag-motion
and
Widget
::drag-leave
events regardless of the targets and the
DestDefaultsMotion
flag.
This may be used when a widget wants to do generic actions regardless of the targets that the source offers.
Since: 2.10
dragDestUnset
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Clears information about a drop destination set with
widgetDragDestSet
. The widget will no longer receive
notification of drags.
dragGetData
:: (HasCallStack, MonadIO m, IsWidget a, IsDragContext b) | |
=> a |
|
-> b |
|
-> Atom |
|
-> Word32 |
|
-> m () |
Gets the data associated with a drag. When the data
is received or the retrieval fails, GTK+ will emit a
Widget
::drag-data-received
signal. Failure of the retrieval
is indicated by the length field of the selectionData
signal parameter being negative. However, when widgetDragGetData
is called implicitely because the DestDefaultsDrop
was set,
then the widget will not receive notification of failed
drops.
dragHighlight
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Highlights a widget as a currently hovered drop target.
To end the highlight, call widgetDragUnhighlight
.
GTK+ calls this automatically if DestDefaultsHighlight
is set.
dragSourceAddImageTargets
widgetDragSourceAddImageTargets Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Add the writable image targets supported by SelectionData
to
the target list of the drag source. The targets
are added with info
= 0. If you need another value,
use targetListAddImageTargets
and
widgetDragSourceSetTargetList
.
Since: 2.6
dragSourceAddTextTargets
widgetDragSourceAddTextTargets Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Add the text targets supported by SelectionData
to
the target list of the drag source. The targets
are added with info
= 0. If you need another value,
use targetListAddTextTargets
and
widgetDragSourceSetTargetList
.
Since: 2.6
dragSourceAddUriTargets
widgetDragSourceAddUriTargets Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Add the URI targets supported by SelectionData
to
the target list of the drag source. The targets
are added with info
= 0. If you need another value,
use targetListAddUriTargets
and
widgetDragSourceSetTargetList
.
Since: 2.6
dragSourceGetTargetList
widgetDragSourceGetTargetList Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m (Maybe TargetList) | Returns: the |
Gets the list of targets this widget can provide for drag-and-drop.
Since: 2.4
dragSourceSet
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> [ModifierType] |
|
-> Maybe [TargetEntry] |
|
-> [DragAction] |
|
-> m () |
Sets up a widget so that GTK+ will start a drag operation when the user clicks and drags on the widget. The widget must have a window.
dragSourceSetIconGicon
widgetDragSourceSetIconGicon Source #
Sets the icon that will be used for drags from a particular source
to icon
. See the docs for IconTheme
for more details.
Since: 3.2
dragSourceSetIconName
widgetDragSourceSetIconName Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Text |
|
-> m () |
Sets the icon that will be used for drags from a particular source
to a themed icon. See the docs for IconTheme
for more details.
Since: 2.8
dragSourceSetIconPixbuf
widgetDragSourceSetIconPixbuf Source #
:: (HasCallStack, MonadIO m, IsWidget a, IsPixbuf b) | |
=> a |
|
-> b |
|
-> m () |
Sets the icon that will be used for drags from a particular widget
from a Pixbuf
. GTK+ retains a reference for pixbuf
and will
release it when it is no longer needed.
dragSourceSetIconStock
widgetDragSourceSetIconStock Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Text |
|
-> m () |
Deprecated: (Since version 3.10)Use widgetDragSourceSetIconName
instead.
Sets the icon that will be used for drags from a particular source to a stock icon.
dragSourceSetTargetList
widgetDragSourceSetTargetList Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Maybe TargetList |
|
-> m () |
Changes the target types that this widget offers for drag-and-drop.
The widget must first be made into a drag source with
widgetDragSourceSet
.
Since: 2.4
dragSourceUnset
widgetDragSourceUnset Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Undoes the effects of widgetDragSourceSet
.
dragUnhighlight
widgetDragUnhighlight Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Removes a highlight set by widgetDragHighlight
from
a widget.
draw
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Context |
|
-> m () |
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 cairo_set_operator()
or the
line width using cairo_set_line_width()
might have unwanted side
effects.
You may however change the context’s transform matrix - like with
cairo_scale()
, cairo_translate()
or cairo_set_matrix()
and clip
region with cairo_clip()
prior to calling this function. Also, it
is fine to modify the context with cairo_save()
and
cairo_push_group()
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
.
Since: 3.0
ensureStyle
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Deprecated: (Since version 3.0)Use StyleContext
instead
Ensures that widget
has a style (widget
->style).
Not a very useful function; most of the time, if you want the style, the widget is realized, and realized widgets are guaranteed to have a style already.
errorBell
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Notifies the user about an input-related error on this widget.
If the Settings
:gtk-error-bell
setting is True
, it calls
windowBeep
, otherwise it does nothing.
Note that the effect of windowBeep
can be configured in many
ways, depending on the windowing backend and the desktop environment
or window manager that is used.
Since: 2.12
event
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Event |
|
-> m Bool | Returns: return from the event signal emission ( |
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.
freezeChildNotify
widgetFreezeChildNotify Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Stops emission of Widget
::child-notify
signals on widget
. The
signals are queued until widgetThawChildNotify
is called
on widget
.
This is the analogue of objectFreezeNotify
for child properties.
getAccessible
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Object | Returns: the |
Returns the accessible object that describes the widget to an assistive technology.
If accessibility support is not available, 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.
getActionGroup
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Text |
|
-> m (Maybe ActionGroup) | Returns: A |
Retrieves the ActionGroup
that was registered using prefix
. The resulting
ActionGroup
may have been registered to widget
or any Widget
in its
ancestry.
If no action group was found matching prefix
, then Nothing
is returned.
Since: 3.16
getAllocatedBaseline
widgetGetAllocatedBaseline Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Int32 | Returns: the baseline of the |
getAllocatedHeight
widgetGetAllocatedHeight Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Int32 | Returns: the height of the |
Returns the height that has currently been allocated to widget
.
This function is intended to be used when implementing handlers
for the Widget
::draw
function.
getAllocatedSize
widgetGetAllocatedSize Source #
Retrieves the widget’s allocated size.
This function returns the last values passed to
widgetSizeAllocateWithBaseline
. The value differs from
the size returned in widgetGetAllocation
in that functions
like widgetSetHalign
can adjust the allocation, but not
the value returned by this function.
If a widget is not visible, its allocated size is 0.
Since: 3.20
getAllocatedWidth
widgetGetAllocatedWidth Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Int32 | Returns: the width of the |
Returns the width that has currently been allocated to widget
.
This function is intended to be used when implementing handlers
for the Widget
::draw
function.
getAllocation
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Rectangle |
Retrieves the widget’s allocation.
Note, when implementing a Container
: a widget’s allocation will
be its “adjusted” allocation, that is, the widget’s parent
container typically calls widgetSizeAllocate
with an
allocation, and that allocation is then adjusted (to handle margin
and alignment for example) before assignment to the widget.
widgetGetAllocation
returns the adjusted allocation that
was actually assigned to the widget. The adjusted allocation is
guaranteed to be completely contained within the
widgetSizeAllocate
allocation, however. So a Container
is guaranteed that its children stay inside the assigned bounds,
but not that they have exactly the bounds the container assigned.
There is no way to get the original allocation assigned by
widgetSizeAllocate
, since it isn’t stored; if a container
implementation needs that information it will have to track it itself.
Since: 2.18
getAncestor
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> GType |
|
-> m (Maybe Widget) | Returns: the ancestor widget, or |
Gets the first ancestor of widget
with type widgetType
. For example,
gtk_widget_get_ancestor (widget, GTK_TYPE_BOX)
gets
the first Box
that’s an ancestor of widget
. No reference will be
added to the returned widget; it should not be unreferenced. 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.
getAppPaintable
widgetGetAppPaintable Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
Determines whether the application intends to draw on the widget in
an Widget
::draw
handler.
Since: 2.18
getCanDefault
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
Determines whether widget
can be a default widget. See
widgetSetCanDefault
.
Since: 2.18
getCanFocus
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
Determines whether widget
can own the input focus. See
widgetSetCanFocus
.
Since: 2.18
getChildRequisition
widgetGetChildRequisition Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Requisition |
Deprecated: (Since version 3.0)Use widgetGetPreferredSize
instead.
This function is only for use in widget implementations. Obtains
widget
->requisition, unless someone has forced a particular
geometry on the widget (e.g. with widgetSetSizeRequest
),
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 from widget
->requisition,
while widgetSizeRequest
actually calls the "size_request" method
on widget
to compute the size request and fill in widget
->requisition,
and only then returns widget
->requisition.
Because this function does not call the “size_request” method, it
can only be used when you know that widget
->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
.
getChildVisible
widgetGetChildVisible Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
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.
getClip
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Rectangle |
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
.
Since: 3.14
getClipboard
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Atom |
|
-> m Clipboard | Returns: the appropriate clipboard object. If no clipboard already exists, a new one will be created. Once a clipboard object has been created, it is persistent for all time. |
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.
Since: 2.2
getCompositeName
widgetGetCompositeName Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Text | Returns: the composite name of |
Deprecated: (Since version 3.10)Use widgetClassSetTemplate
, or don’t use this API at all.
Obtains the composite name of a widget.
getDefaultDirection
widgetGetDefaultDirection Source #
:: (HasCallStack, MonadIO m) | |
=> m TextDirection | Returns: the current default direction. |
Obtains the current default reading direction. See
widgetSetDefaultDirection
.
getDefaultStyle
widgetGetDefaultStyle Source #
:: (HasCallStack, MonadIO m) | |
=> m Style | Returns: the default style. This |
Deprecated: (Since version 3.0)Use StyleContext
instead, and cssProviderGetDefault
to obtain a StyleProvider
with the default widget style information.
Returns the default style used by all widgets initially.
getDeviceEnabled
widgetGetDeviceEnabled Source #
:: (HasCallStack, MonadIO m, IsWidget a, IsDevice b) | |
=> a |
|
-> b |
|
-> m Bool | Returns: |
Returns whether device
can interact with widget
and its
children. See widgetSetDeviceEnabled
.
Since: 3.0
getDeviceEvents
widgetGetDeviceEvents Source #
:: (HasCallStack, MonadIO m, IsWidget a, IsDevice b) | |
=> a |
|
-> b |
|
-> m [EventMask] | Returns: device event mask for |
Returns the events mask for the widget corresponding to an specific device. These
are the events that the widget will receive when device
operates on it.
Since: 3.0
getDirection
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m TextDirection | Returns: the reading direction for the widget. |
Gets the reading direction for a particular widget. See
widgetSetDirection
.
getDisplay
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Display | Returns: the |
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.
Since: 2.2
getDoubleBuffered
getEvents
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Int32 | Returns: event mask for |
Returns the event mask (see EventMask
) for the widget. These are the
events that the widget will receive.
Note: Internally, the widget event mask will be the logical OR of the event
mask set through widgetSetEvents
or widgetAddEvents
, and the
event mask necessary to cater for every EventController
created for the
widget.
getFocusOnClick
widgetGetFocusOnClick Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
Returns whether the widget should grab focus when it is clicked with the mouse.
See widgetSetFocusOnClick
.
Since: 3.20
getFontMap
Gets the font map that has been set with widgetSetFontMap
.
Since: 3.18
getFontOptions
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m (Maybe FontOptions) | Returns: the |
Returns the FontOptions
used for Pango rendering. When not set,
the defaults font options for the Screen
will be used.
Since: 3.18
getFrameClock
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m (Maybe FrameClock) | Returns: a |
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.
Since: 3.8
getHalign
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Align | Returns: the horizontal alignment of |
Gets the value of the Widget
:halign
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.
getHasTooltip
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: current value of has-tooltip on |
Returns the current value of the has-tooltip property. See
Widget
:has-tooltip
for more information.
Since: 2.12
getHasWindow
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool |
Determines whether widget
has a Window
of its own. See
widgetSetHasWindow
.
Since: 2.18
getHexpand
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: whether hexpand flag is set |
Gets whether the widget would like any available extra horizontal
space. When a user resizes a Window
, widgets with expand=TRUE
generally receive the extra space. For example, a list or
scrollable area or document in your window would often be set to
expand.
Containers should use widgetComputeExpand
rather than
this function, to see whether a widget, or any of its children,
has the expand flag set. If any child of a widget wants to
expand, the parent may ask to expand also.
This function only looks at the widget’s own hexpand flag, rather than computing whether the entire widget tree rooted at this widget wants to expand.
getHexpandSet
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: whether hexpand has been explicitly set |
Gets whether widgetSetHexpand
has been used to
explicitly set the expand flag on this widget.
If hexpand is set, then it overrides any computed expand value based on child widgets. If hexpand is not set, then the expand value depends on whether any children of the widget would like to expand.
There are few reasons to use this function, but it’s here for completeness and consistency.
getMapped
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool |
Whether the widget is mapped.
Since: 2.20
getMarginBottom
widgetGetMarginBottom Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Int32 | Returns: The bottom margin of |
Gets the value of the Widget
:margin-bottom
property.
Since: 3.0
getMarginEnd
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Int32 | Returns: The end margin of |
Gets the value of the Widget
:margin-end
property.
Since: 3.12
getMarginLeft
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Int32 | Returns: The left margin of |
Deprecated: (Since version 3.12)Use widgetGetMarginStart
instead.
Gets the value of the Widget
:margin-left
property.
Since: 3.0
getMarginRight
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Int32 | Returns: The right margin of |
Deprecated: (Since version 3.12)Use widgetGetMarginEnd
instead.
Gets the value of the Widget
:margin-right
property.
Since: 3.0
getMarginStart
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Int32 | Returns: The start margin of |
Gets the value of the Widget
:margin-start
property.
Since: 3.12
getMarginTop
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Int32 | Returns: The top margin of |
Gets the value of the Widget
:margin-top
property.
Since: 3.0
getModifierMask
widgetGetModifierMask Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> ModifierIntent |
|
-> m [ModifierType] | Returns: the modifier mask used for |
Returns the modifier mask the widget
’s windowing system backend
uses for a particular purpose.
Since: 3.4
getModifierStyle
widgetGetModifierStyle Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m RcStyle | Returns: the modifier style for the widget.
This rc style is owned by the widget. If you want to keep a
pointer to value this around, you must add a refcount using
|
Deprecated: (Since version 3.0)Use StyleContext
with a custom StyleProvider
instead
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 style. Add a reference
to the modifier style if you want to keep it alive.
getName
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Text | Returns: name of the widget. This string is owned by GTK+ and should not be modified or freed |
Retrieves the name of a widget. See widgetSetName
for the
significance of widget names.
getNoShowAll
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: the current value of the “no-show-all” property. |
Returns the current value of the Widget
:no-show-all
property,
which determines whether calls to widgetShowAll
will affect this widget.
Since: 2.4
getOpacity
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Double | Returns: the requested opacity for this widget. |
Fetches the requested opacity for this widget.
See widgetSetOpacity
.
Since: 3.8
getPangoContext
widgetGetPangoContext Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Context | Returns: the |
Gets a Context
with the appropriate font map, 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. This can be tracked
by using the Widget
::screen-changed
signal on the widget.
getParent
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m (Maybe Widget) | Returns: the parent container of |
Returns the parent container of widget
.
getParentWindow
widgetGetParentWindow Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m (Maybe Window) | Returns: the parent window of |
Gets widget
’s parent window, or Nothing
if it does not have one.
getPath
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m WidgetPath | Returns: The |
Returns the WidgetPath
representing widget
, if the widget
is not connected to a toplevel widget, a partial path will be
created.
getPointer
Deprecated: (Since version 3.4)Use windowGetDevicePosition
instead.
Obtains the location of the mouse pointer in widget coordinates.
Widget coordinates are a bit odd; for historical reasons, they are
defined as widget
->window coordinates for widgets that return True
for
widgetGetHasWindow
; and are relative to widget
->allocation.x,
widget
->allocation.y otherwise.
getPreferredHeight
widgetGetPreferredHeight Source #
Retrieves a widget’s initial minimum and natural height.
This call is specific to width-for-height requests.
The returned request will be modified by the
GtkWidgetClass::adjust_size_request virtual method and by any
GtkSizeGroups
that have been applied. That is, the returned request
is the one that should be used for layout, not necessarily the one
returned by the widget itself.
Since: 3.0
getPreferredHeightAndBaselineForWidth
widgetGetPreferredHeightAndBaselineForWidth Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Int32 |
|
-> m (Int32, Int32, Int32, Int32) |
Retrieves a widget’s minimum and natural height and the corresponding baselines if it would be given
the specified width
, or the default height if width
is -1. The baselines may be -1 which means
that no baseline is requested for this widget.
The returned request will be modified by the
GtkWidgetClass::adjust_size_request and GtkWidgetClass::adjust_baseline_request virtual methods
and by any GtkSizeGroups
that have been applied. That is, the returned request
is the one that should be used for layout, not necessarily the one
returned by the widget itself.
Since: 3.10
getPreferredHeightForWidth
widgetGetPreferredHeightForWidth Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Int32 |
|
-> m (Int32, Int32) |
Retrieves a widget’s minimum and natural height if it would be given
the specified width
.
The returned request will be modified by the
GtkWidgetClass::adjust_size_request virtual method and by any
GtkSizeGroups
that have been applied. That is, the returned request
is the one that should be used for layout, not necessarily the one
returned by the widget itself.
Since: 3.0
getPreferredSize
widgetGetPreferredSize Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m (Requisition, Requisition) |
Retrieves the minimum and natural size of a widget, taking into account the widget’s preference for height-for-width management.
This is used to retrieve a suitable size by container widgets which do not impose any restrictions on the child placement. It can be used to deduce toplevel window and menu sizes as well as child widgets in free-form containers such as GtkLayout.
Handle with care. Note that the natural height of a height-for-width widget will generally be a smaller size than the minimum height, since the required height for the natural width is generally smaller than the required height for the minimum width.
Use widgetGetPreferredHeightAndBaselineForWidth
if you want to support
baseline alignment.
Since: 3.0
getPreferredWidth
widgetGetPreferredWidth Source #
Retrieves a widget’s initial minimum and natural width.
This call is specific to height-for-width requests.
The returned request will be modified by the
GtkWidgetClass::adjust_size_request virtual method and by any
GtkSizeGroups
that have been applied. That is, the returned request
is the one that should be used for layout, not necessarily the one
returned by the widget itself.
Since: 3.0
getPreferredWidthForHeight
widgetGetPreferredWidthForHeight Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Int32 |
|
-> m (Int32, Int32) |
Retrieves a widget’s minimum and natural width if it would be given
the specified height
.
The returned request will be modified by the
GtkWidgetClass::adjust_size_request virtual method and by any
GtkSizeGroups
that have been applied. That is, the returned request
is the one that should be used for layout, not necessarily the one
returned by the widget itself.
Since: 3.0
getRealized
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool |
Determines whether widget
is realized.
Since: 2.20
getReceivesDefault
widgetGetReceivesDefault Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
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.
Since: 2.18
getRequestMode
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m SizeRequestMode | Returns: The |
Gets whether the widget prefers a height-for-width layout or a width-for-height layout.
Bin
widgets generally propagate the preference of
their child, container widgets need to request something either in
context of their children or in context of their allocation
capabilities.
Since: 3.0
getRequisition
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Requisition |
Deprecated: (Since version 3.0)The Requisition
cache on the widget wasremoved, If you need to cache sizes across requests and allocations,add an explicit cache to the widget in question instead.
Retrieves the widget’s requisition.
This function should only be used by widget implementations in
order to figure whether the widget’s requisition has actually
changed after some internal state change (so that they can call
widgetQueueResize
instead of widgetQueueDraw
).
Normally, widgetSizeRequest
should be used.
Since: 2.20
getRootWindow
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Window | Returns: the |
Deprecated: (Since version 3.12)Use screenGetRootWindow
instead
Get the root window where this widget is located. This function can
only be called after the widget has been added to a widget
hierarchy with Window
at the top.
The root window is useful for such purposes as creating a popup
Window
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.
Since: 2.2
getScaleFactor
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Int32 | Returns: the scale factor for |
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 windowGetScaleFactor
.
Since: 3.10
getScreen
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Screen | Returns: the |
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.
Since: 2.2
getSensitive
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
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
.
Since: 2.18
getSettings
getSizeRequest
Gets the size request that was explicitly set for the widget using
widgetSetSizeRequest
. A value of -1 stored in width
or
height
indicates that that dimension has not been set explicitly
and the natural requisition of the widget will be used instead. See
widgetSetSizeRequest
. To get the size a widget will
actually request, call widgetGetPreferredSize
instead of
this function.
getState
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m StateType | Returns: the state of |
Deprecated: (Since version 3.0)Use widgetGetStateFlags
instead.
Returns the widget’s state. See widgetSetState
.
Since: 2.18
getStateFlags
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m [StateFlags] | Returns: The state flags for widget |
Returns the widget state as a flag set. It is worth mentioning
that the effective StateFlagsInsensitive
state will be
returned, that is, also based on parent insensitivity, even if
widget
itself is sensitive.
Also note that if you are looking for a way to obtain the
StateFlags
to pass to a StyleContext
method, you
should look at styleContextGetState
.
Since: 3.0
getStyle
Deprecated: (Since version 3.0)Use StyleContext
instead
Simply an accessor function that returns widget
->style.
getStyleContext
widgetGetStyleContext Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m StyleContext | Returns: a |
Returns the style context associated to widget
. The returned object is
guaranteed to be the same for the lifetime of widget
.
getSupportMultidevice
widgetGetSupportMultidevice Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
Returns True
if widget
is multiple pointer aware. See
widgetSetSupportMultidevice
for more information.
getTemplateChild
widgetGetTemplateChild Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> GType |
|
-> Text |
|
-> m Object | Returns: The object built in the template XML with the id |
Fetch an object build from the template XML for widgetType
in this widget
instance.
This will only report children which were previously declared with
widgetClassBindTemplateChildFull
or one of its
variants.
This function is only meant to be called for code which is private to the widgetType
which
declared the child and is meant for language bindings which cannot easily make use
of the GObject structure offsets.
getTooltipMarkup
widgetGetTooltipMarkup Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m (Maybe Text) | Returns: the tooltip text, or |
Gets the contents of the tooltip for widget
.
Since: 2.12
getTooltipText
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m (Maybe Text) | Returns: the tooltip text, or |
Gets the contents of the tooltip for widget
.
Since: 2.12
getTooltipWindow
widgetGetTooltipWindow Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Window | Returns: The |
Returns the Window
of the current tooltip. This can be the
GtkWindow created by default, or the custom tooltip window set
using widgetSetTooltipWindow
.
Since: 2.12
getToplevel
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Widget | Returns: the topmost ancestor of |
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. No reference will be added to the
returned widget; it should not be unreferenced.
Note the difference in behavior vs. widgetGetAncestor
;
gtk_widget_get_ancestor (widget, GTK_TYPE_WINDOW)
would return
Nothing
if widget
wasn’t inside a toplevel window, and if the
window was inside a Window
-derived widget which was in turn
inside the toplevel Window
. While the second case may
seem unlikely, it actually happens when a Plug
is embedded
inside a Socket
within the same application.
To reliably find the toplevel Window
, use
widgetGetToplevel
and call GTK_IS_WINDOW()
on the result. For instance, to get the title of a widget's toplevel
window, one might use:
C code
static const char * get_widget_toplevel_title (GtkWidget *widget) { GtkWidget *toplevel = gtk_widget_get_toplevel (widget); if (GTK_IS_WINDOW (toplevel)) { return gtk_window_get_title (GTK_WINDOW (toplevel)); } return NULL; }
getValign
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Align | Returns: the vertical alignment of |
Gets the value of the Widget
:valign
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
g_object_get (widget, "valign", &value, NULL)
, which will
also report the true value.
getValignWithBaseline
widgetGetValignWithBaseline Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Align | Returns: the vertical alignment of |
Gets the value of the Widget
:valign
property, including
AlignBaseline
.
Since: 3.10
getVexpand
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: whether vexpand flag is set |
Gets whether the widget would like any available extra vertical space.
See widgetGetHexpand
for more detail.
getVexpandSet
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: whether vexpand has been explicitly set |
Gets whether widgetSetVexpand
has been used to
explicitly set the expand flag on this widget.
See widgetGetHexpandSet
for more detail.
getVisible
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
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
.
Since: 2.18
getVisual
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Visual | Returns: the visual for |
Gets the visual that will be used to render widget
.
getWindow
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m (Maybe Window) | Returns: |
Returns the widget’s window if it is realized, Nothing
otherwise
Since: 2.14
grabAdd
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Makes widget
the current grabbed widget.
This means that interaction with other widgets in the same application is blocked and mouse as well as keyboard events are delivered to this widget.
If widget
is not sensitive, it is not set as the current
grabbed widget and this function does nothing.
grabDefault
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Causes widget
to become the default widget. widget
must be able to be
a default widget; typically you would ensure this yourself
by calling widgetSetCanDefault
with a True
value.
The default widget is activated when
the user presses Enter in a window. Default widgets must be
activatable, that is, widgetActivate
should affect them. Note
that Entry
widgets require the “activates-default” property
set to True
before they activate the default widget when Enter
is pressed and the Entry
is focused.
grabFocus
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Causes widget
to have the keyboard focus for the Window
it's
inside. widget
must be a focusable widget, such as a Entry
;
something like Frame
won’t work.
More precisely, it must have the GTK_CAN_FOCUS
flag set. Use
widgetSetCanFocus
to modify that flag.
The widget also needs to be realized and mapped. This is indicated by the related signals. Grabbing the focus immediately after creating the widget will likely fail and cause critical warnings.
grabRemove
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Removes the grab from the given widget.
You have to pair calls to widgetGrabAdd
and widgetGrabRemove
.
If widget
does not have the grab, this function does nothing.
hasDefault
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
Determines whether widget
is the current default widget within its
toplevel. See widgetSetCanDefault
.
Since: 2.18
hasFocus
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
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.
Since: 2.18
hasGrab
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
Determines whether the widget is currently grabbing events, so it is the only widget receiving input events (keyboard and mouse).
See also widgetGrabAdd
.
Since: 2.18
hasRcStyle
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
Deprecated: (Since version 3.0)Use StyleContext
instead
Determines if the widget style has been looked up through the rc mechanism.
Since: 2.20
hasScreen
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
Checks whether there is a Screen
is associated with
this widget. All toplevel widgets have an associated
screen, and all widgets added into a hierarchy with a toplevel
window at the top.
Since: 2.2
hasVisibleFocus
widgetHasVisibleFocus Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
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
.
Since: 3.2
hide
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Reverses the effects of widgetShow
, causing the widget to be
hidden (invisible to the user).
hideOnDelete
Utility function; intended to be connected to the Widget
::delete-event
signal on a Window
. The function calls widgetHide
on its
argument, then returns True
. If connected to ::delete-event, the
result is that clicking the close button for a window (on the
window frame, top right corner usually) will hide but not destroy
the window. By default, GTK+ destroys windows when ::delete-event
is received.
inDestruction
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
Returns whether the widget is currently being destroyed. This information can sometimes be used to avoid doing unnecessary work.
initTemplate
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Creates and initializes child widgets defined in templates. This
function must be called in the instance initializer for any
class which assigned itself a template using widgetClassSetTemplate
It is important to call this function in the instance initializer
of a Widget
subclass and not in Object
.constructed
() or
Object
.constructor
() for two reasons.
One reason is that generally derived widgets will assume that parent class composite widgets have been created in their instance initializers.
Another reason is that when calling g_object_new()
on a widget with
composite templates, it’s important to build the composite widgets
before the construct properties are set. Properties passed to g_object_new()
should take precedence over properties set in the private template XML.
Since: 3.10
inputShapeCombineRegion
widgetInputShapeCombineRegion Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Maybe Region |
|
-> m () |
Sets an input shape for this widget’s GDK window. This allows for
windows which react to mouse click in a nonrectangular region, see
windowInputShapeCombineRegion
for more information.
Since: 3.0
insertActionGroup
widgetInsertActionGroup Source #
:: (HasCallStack, MonadIO m, IsWidget a, IsActionGroup b) | |
=> a |
|
-> Text |
|
-> Maybe b |
|
-> m () |
Inserts group
into widget
. Children of widget
that implement
Actionable
can then be associated with actions in group
by
setting their “action-name” to
prefix
.action-name
.
If group
is Nothing
, a previously inserted group for name
is removed
from widget
.
Since: 3.6
intersect
isAncestor
:: (HasCallStack, MonadIO m, IsWidget a, IsWidget b) | |
=> a |
|
-> b |
|
-> m Bool | Returns: |
Determines whether widget
is somewhere inside ancestor
, possibly with
intermediate containers.
isComposited
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
Deprecated: (Since version 3.22)Use screenIsComposited
instead.
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.
Please note that the semantics of this call will change
in the future if used on a widget that has a composited
window in its hierarchy (as set by windowSetComposited
).
Since: 2.10
isDrawable
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool |
Determines whether widget
can be drawn to. A widget can be drawn
to if it is mapped and visible.
Since: 2.18
isFocus
isSensitive
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
Returns the widget’s effective sensitivity, which means it is sensitive itself and also its parent widget is sensitive
Since: 2.18
isToplevel
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool |
isVisible
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Bool | Returns: |
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
Since: 3.8
keynavFailed
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> DirectionType |
|
-> m Bool | Returns: |
This function should be called whenever keyboard navigation within
a single widget hits a boundary. The function emits the
Widget
::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 False
for
DirectionTypeTabForward
and DirectionTypeTabBackward
. For the other
values of DirectionType
it returns True
.
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.
Since: 2.12
listAccelClosures
widgetListAccelClosures Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m [Closure] | Returns:
a newly allocated |
Lists the closures used by widget
for accelerator group connections
with accelGroupConnectByPath
or accelGroupConnect
.
The closures can be used to monitor accelerator changes on widget
,
by connecting to the gtkAccelGroup
::accel-changed signal of the
AccelGroup
of a closure which can be found out with
accelGroupFromAccelClosure
.
listActionPrefixes
widgetListActionPrefixes Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m [Text] | Returns: a |
Retrieves a Nothing
-terminated array of strings containing the prefixes of
'GI.Gio.Interfaces.ActionGroup.ActionGroup'\'s available to widget
.
Since: 3.16
listMnemonicLabels
widgetListMnemonicLabels Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m [Widget] | Returns: the list of
mnemonic labels; free this list
with |
Returns a newly allocated list of the widgets, normally labels, for
which this widget is the target of a mnemonic (see for example,
labelSetMnemonicWidget
).
The widgets in the list are not individually referenced. If you
want to iterate through the list and perform actions involving
callbacks that might destroy the widgets, you
must call g_list_foreach (result,
(GFunc)g_object_ref, NULL)
first, and then unref all the
widgets afterwards.
Since: 2.4
map
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
This function is only for use in widget implementations. Causes a widget to be mapped if it isn’t already.
mnemonicActivate
widgetMnemonicActivate Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m Bool | Returns: |
Emits the Widget
::mnemonic-activate
signal.
modifyBase
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> StateType |
|
-> Maybe Color |
|
-> m () |
Deprecated: (Since version 3.0)Use widgetOverrideBackgroundColor
instead
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 @/GTK_NO_WINDOW/@ flag set) draw on their parent container’s window and thus may not draw any background themselves. This is the case for e.g. 'GI.Gtk.Objects.Label.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 'GI.Gtk.Objects.EventBox.EventBox' widget and setting the base color on that.
modifyBg
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> StateType |
|
-> Maybe Color |
|
-> m () |
Deprecated: (Since version 3.0)Use widgetOverrideBackgroundColor
instead
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 @/GTK_NO_WINDOW/@ flag set) draw on their parent container’s window and thus may not draw any background themselves. This is the case for e.g. 'GI.Gtk.Objects.Label.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 'GI.Gtk.Objects.EventBox.EventBox' widget and setting the background color on that.
modifyCursor
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Maybe Color |
|
-> Maybe Color |
|
-> m () |
Deprecated: (Since version 3.0)Use widgetOverrideCursor
instead.
Sets the cursor color to use in a widget, overriding the Widget
cursor-color and secondary-cursor-color
style properties.
All other style values are left untouched.
See also widgetModifyStyle
.
Since: 2.12
modifyFg
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> StateType |
|
-> Maybe Color |
|
-> m () |
Deprecated: (Since version 3.0)Use widgetOverrideColor
instead
Sets the foreground color for a widget in a particular state.
All other style values are left untouched.
See also widgetModifyStyle
.
modifyFont
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Maybe FontDescription |
|
-> m () |
Deprecated: (Since version 3.0)Use widgetOverrideFont
instead
Sets the font to use for a widget.
All other style values are left untouched.
See also widgetModifyStyle
.
modifyStyle
:: (HasCallStack, MonadIO m, IsWidget a, IsRcStyle b) | |
=> a |
|
-> b |
|
-> m () |
Deprecated: (Since version 3.0)Use StyleContext
with a custom StyleProvider
instead
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 overridden
if a style is explicitly set on the widget using widgetSetStyle
.
The RcStyle
-struct 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.
modifyText
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> StateType |
|
-> Maybe Color |
|
-> m () |
Deprecated: (Since version 3.0)Use widgetOverrideColor
instead
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
.
overrideBackgroundColor
widgetOverrideBackgroundColor Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> [StateFlags] |
|
-> Maybe RGBA |
|
-> m () |
Deprecated: (Since version 3.16)This function is not useful in the context of CSS-based rendering. If you wish to change the way a widget renders its background you should use a custom CSS style, through an application-specific StyleProvider
and a CSS style class. You can also override the default drawing of a widget through the Widget
::draw
signal, and use Cairo to draw a specific color, regardless of the CSS style.
Sets the background color to use for a widget.
All other style values are left untouched.
See widgetOverrideColor
.
Since: 3.0
overrideColor
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> [StateFlags] |
|
-> Maybe RGBA |
|
-> m () |
Deprecated: (Since version 3.16)Use a custom style provider and style classes instead
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 GtkButtons
,
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 in your
widget/container implementation through styleContextAddClass
.
This way, your widget library can install a CssProvider
with the 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 STYLE_PROVIDER_PRIORITY_APPLICATION
priority.
Since: 3.0
overrideCursor
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Maybe RGBA |
|
-> Maybe RGBA |
|
-> m () |
Deprecated: (Since version 3.16)This function is not useful in the context of CSS-based rendering. If you wish to change the color used to render the primary and secondary cursors you should use a custom CSS style, through an application-specific StyleProvider
and a CSS style class.
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 underlying properties have the Color
type,
so the alpha value in primary
and secondary
will be ignored.
Since: 3.0
overrideFont
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Maybe FontDescription |
|
-> m () |
Deprecated: (Since version 3.16)This function is not useful in the context of CSS-based rendering. If you wish to change the font a widget uses to render its text you should use a custom CSS style, through an application-specific StyleProvider
and a CSS style class.
Sets the font to use for a widget. All other style values are
left untouched. See widgetOverrideColor
.
Since: 3.0
overrideSymbolicColor
widgetOverrideSymbolicColor Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Text |
|
-> Maybe RGBA |
|
-> m () |
Deprecated: (Since version 3.16)This function is not useful in the context of CSS-based rendering. If you wish to change the color used to render symbolic icons you should use a custom CSS style, through an application-specific StyleProvider
and a CSS style class.
Sets a symbolic color for a widget.
All other style values are left untouched.
See widgetOverrideColor
for overriding the foreground
or background color.
Since: 3.0
path
Deprecated: (Since version 3.0)Use widgetGetPath
instead
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. pathReversedP
fills in the path in reverse order,
i.e. starting with widget
’s name instead of starting with the name
of widget
’s outermost ancestor.
popCompositeChild
widgetPopCompositeChild :: (HasCallStack, MonadIO m) => m () Source #
Deprecated: (Since version 3.10)Use widgetClassSetTemplate
, or don’t use this API at all.
Cancels the effect of a previous call to widgetPushCompositeChild
.
pushCompositeChild
widgetPushCompositeChild :: (HasCallStack, MonadIO m) => m () Source #
Deprecated: (Since version 3.10)This API never really worked well and was mostly unused, nowwe have a more complete mechanism for composite children, see widgetClassSetTemplate
.
Makes all newly-created widgets as composite children until
the corresponding widgetPopCompositeChild
call.
A composite child is a child that’s an implementation detail of the
container it’s inside and should not be visible to people using the
container. Composite children aren’t treated differently by GTK+ (but
see containerForeach
vs. containerForall
), but e.g. GUI
builders might want to treat them in a different way.
queueAllocate
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
This function is only for use in widget implementations.
Flags the widget for a rerun of the GtkWidgetClass::size_allocate
function. Use this function instead of widgetQueueResize
when the widget
's size request didn't change but it wants to
reposition its contents.
An example user of this function is widgetSetHalign
.
Since: 3.20
queueComputeExpand
widgetQueueComputeExpand Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Mark widget
as needing to recompute its expand flags. Call
this function when setting legacy expand child properties
on the child of a container.
See widgetComputeExpand
.
queueDraw
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Equivalent to calling widgetQueueDrawArea
for the
entire area of a widget.
queueDrawArea
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Int32 |
|
-> Int32 |
|
-> Int32 |
|
-> Int32 |
|
-> m () |
Convenience function that calls widgetQueueDrawRegion
on
the region created from the given coordinates.
The region here is specified in widget coordinates.
Widget coordinates are a bit odd; for historical reasons, they are
defined as widget
->window coordinates for widgets that return True
for
widgetGetHasWindow
, and are relative to widget
->allocation.x,
widget
->allocation.y otherwise.
width
or height
may be 0, in this case this function does
nothing. Negative values for width
and height
are not allowed.
queueDrawRegion
widgetQueueDrawRegion Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Region |
|
-> m () |
Invalidates the area of widget
defined by region
by calling
windowInvalidateRegion
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.
Since: 3.0
queueResize
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
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 Label
, Label
queues a resize to ensure there’s enough space for the new text.
Note that you cannot call widgetQueueResize
on a widget
from inside its implementation of the GtkWidgetClass::size_allocate
virtual method. Calls to widgetQueueResize
from inside
GtkWidgetClass::size_allocate will be silently ignored.
queueResizeNoRedraw
widgetQueueResizeNoRedraw Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
This function works like widgetQueueResize
,
except that the widget is not invalidated.
Since: 2.4
realize
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Creates the GDK (windowing system) resources associated with a
widget. For example, widget
->window will be created when a widget
is realized. Normally realization happens implicitly; if you show
a widget and all its parent containers, then the widget will be
realized and mapped automatically.
Realizing a widget requires all
the widget’s parent widgets to be realized; calling
widgetRealize
realizes the widget’s parents in addition to
widget
itself. If a widget is not yet inside a toplevel window
when you realize it, bad things will happen.
This function is primarily used in widget implementations, and
isn’t very useful otherwise. Many times when you think you might
need it, a better approach is to connect to a signal that will be
called after the widget is realized automatically, such as
Widget
::draw
. Or simply g_signal_connect () to the
Widget
::realize
signal.
regionIntersect
widgetRegionIntersect Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Region |
|
-> m Region | Returns: A newly allocated region holding the intersection of |
Deprecated: (Since version 3.14)Use widgetGetAllocation
and cairo_region_intersect_rectangle()
to get the same behavior.
Computes the intersection of a widget
’s area and region
, returning
the intersection. The result may be empty, use cairo_region_is_empty()
to
check.
registerWindow
:: (HasCallStack, MonadIO m, IsWidget a, IsWindow b) | |
=> a |
|
-> b |
|
-> m () |
Registers a Window
with the widget and sets it up so that
the widget receives events for it. Call widgetUnregisterWindow
when destroying the window.
Before 3.8 you needed to call windowSetUserData
directly to set
this up. This is now deprecated and you should use widgetRegisterWindow
instead. Old code will keep working as is, although some new features like
transparency might not work perfectly.
Since: 3.8
removeAccelerator
widgetRemoveAccelerator Source #
:: (HasCallStack, MonadIO m, IsWidget a, IsAccelGroup b) | |
=> a |
|
-> b |
|
-> Word32 |
|
-> [ModifierType] |
|
-> m Bool | Returns: whether an accelerator was installed and could be removed |
Removes an accelerator from widget
, previously installed with
widgetAddAccelerator
.
removeMnemonicLabel
widgetRemoveMnemonicLabel Source #
:: (HasCallStack, MonadIO m, IsWidget a, IsWidget b) | |
=> a |
|
-> b |
|
-> m () |
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
.
Since: 2.4
removeTickCallback
widgetRemoveTickCallback Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Word32 |
|
-> m () |
Removes a tick callback previously registered with
widgetAddTickCallback
.
Since: 3.8
renderIcon
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Text |
|
-> Int32 |
|
-> Maybe Text |
|
-> m (Maybe Pixbuf) | Returns: a new pixbuf, or |
Deprecated: (Since version 3.0)Use widgetRenderIconPixbuf
instead.
A convenience function that uses the theme settings for widget
to look up stockId
and render it to a pixbuf. stockId
should
be a stock icon ID such as STOCK_OPEN
or STOCK_OK
. size
should be a size such as GTK_ICON_SIZE_MENU
. 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 Pixbuf
are shared with the rest of
the application and should not be modified. The pixbuf should be
freed after use with objectUnref
.
renderIconPixbuf
widgetRenderIconPixbuf Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Text |
|
-> Int32 |
|
-> m (Maybe Pixbuf) | Returns: a new pixbuf, or |
Deprecated: (Since version 3.10)Use iconThemeLoadIcon
instead.
A convenience function that uses the theme engine and style
settings for widget
to look up stockId
and render it to
a pixbuf. stockId
should be a stock icon ID such as
STOCK_OPEN
or STOCK_OK
. size
should be a size
such as GTK_ICON_SIZE_MENU
.
The pixels in the returned Pixbuf
are shared with the rest of
the application and should not be modified. The pixbuf should be freed
after use with objectUnref
.
Since: 3.0
reparent
:: (HasCallStack, MonadIO m, IsWidget a, IsWidget b) | |
=> a |
|
-> b |
|
-> m () |
Deprecated: (Since version 3.14)Use containerRemove
and containerAdd
.
Moves a widget from one Container
to another, handling reference
count issues to avoid destroying the widget.
resetRcStyles
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Deprecated: (Since version 3.0)Use StyleContext
instead, and widgetResetStyle
Reset the styles of widget
and all descendents, so when
they are looked up again, they get the correct values
for the currently loaded RC file settings.
This function is not useful for applications.
resetStyle
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Updates the style context of widget
and all descendants
by updating its widget path. GtkContainers
may want
to use this on a child when reordering it in a way that a different
style might apply to it. See also containerGetPathForChild
.
Since: 3.0
sendExpose
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Event |
|
-> m Int32 | Returns: return from the event signal emission ( |
Deprecated: (Since version 3.22)Application and widget code should not handle expose events directly; invalidation should use the Widget
API, and drawing should only happen inside Widget
::draw
implementations
Very rarely-used function. This function is used to emit
an expose event on a widget. This function is not normally used
directly. The only time it is used is when propagating an expose
event to a windowless child widget (widgetGetHasWindow
is False
),
and that is normally done using containerPropagateDraw
.
If you want to force an area of a window to be redrawn,
use windowInvalidateRect
or windowInvalidateRegion
.
To cause the redraw to be done immediately, follow that call
with a call to windowProcessUpdates
.
sendFocusChange
widgetSendFocusChange Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Event |
|
-> m Bool | Returns: the return value from the event signal emission: |
Sends the focus change event
to widget
This function is not meant to be used by applications. The only time it
should be used is when it is necessary for a Widget
to assign focus
to a widget that is semantically owned by the first widget even though
it’s not a direct child - for instance, a search entry in a floating
window similar to the quick search in TreeView
.
An example of its usage is:
C code
GdkEvent *fevent = gdk_event_new (GDK_FOCUS_CHANGE); fevent->focus_change.type = GDK_FOCUS_CHANGE; fevent->focus_change.in = TRUE; fevent->focus_change.window = _gtk_widget_get_window (widget); if (fevent->focus_change.window != NULL) g_object_ref (fevent->focus_change.window); gtk_widget_send_focus_change (widget, fevent); gdk_event_free (event);
Since: 2.20
setAccelPath
:: (HasCallStack, MonadIO m, IsWidget a, IsAccelGroup b) | |
=> a |
|
-> Maybe Text |
|
-> Maybe b |
|
-> m () |
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 UIManager
. If you
use UIManager
, setting up accelerator paths will be done
automatically.
Even when you you aren’t using UIManager
, if you only want to
set up accelerators on menu items menuItemSetAccelPath
provides a somewhat more convenient interface.
Note that accelPath
string will be stored in a GQuark
. Therefore, if you
pass a static string, you can save some memory by interning it first with
internStaticString
.
setAllocation
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Rectangle |
|
-> m () |
Sets the widget’s allocation. This should not be used directly, but from within a widget’s size_allocate method.
The allocation set should be the “adjusted” or actual
allocation. If you’re implementing a Container
, you want to use
widgetSizeAllocate
instead of widgetSetAllocation
.
The GtkWidgetClass::adjust_size_allocation virtual method adjusts the
allocation inside widgetSizeAllocate
to create an adjusted
allocation.
Since: 2.18
setAppPaintable
widgetSetAppPaintable Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
Sets whether the application intends to draw on the widget in
an Widget
::draw
handler.
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.
Note that the background is still drawn when the widget is mapped.
setCanDefault
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
Specifies whether widget
can be a default widget. See
widgetGrabDefault
for details about the meaning of
“default”.
Since: 2.18
setCanFocus
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
Specifies whether widget
can own the input focus. See
widgetGrabFocus
for actually setting the input focus on a
widget.
Since: 2.18
setChildVisible
widgetSetChildVisible Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
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.
setClip
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Rectangle |
|
-> m () |
Sets the widget’s clip. This must not be used directly,
but from within a widget’s size_allocate method.
It must be called after widgetSetAllocation
(or after chaining up
to the parent class), because that function resets the clip.
The clip set should be the area that widget
draws on. If widget
is a
Container
, the area must contain all children's clips.
If this function is not called by widget
during a ::size-allocate handler,
the clip will be set to widget
's allocation.
Since: 3.14
setCompositeName
widgetSetCompositeName Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Text |
|
-> m () |
Deprecated: (Since version 3.10)Use widgetClassSetTemplate
, or don’t use this API at all.
Sets a widgets composite name. The widget must be
a composite child of its parent; see widgetPushCompositeChild
.
setDefaultDirection
widgetSetDefaultDirection Source #
:: (HasCallStack, MonadIO m) | |
=> TextDirection |
|
-> m () |
Sets the default reading direction for widgets where the
direction has not been explicitly set by widgetSetDirection
.
setDeviceEnabled
widgetSetDeviceEnabled Source #
:: (HasCallStack, MonadIO m, IsWidget a, IsDevice b) | |
=> a |
|
-> b |
|
-> Bool |
|
-> m () |
Enables or disables a Device
to interact with widget
and all its children.
It does so by descending through the Window
hierarchy
and enabling the same mask that is has for core events
(i.e. the one that windowGetEvents
returns).
Since: 3.0
setDeviceEvents
widgetSetDeviceEvents Source #
:: (HasCallStack, MonadIO m, IsWidget a, IsDevice b) | |
=> a |
|
-> b |
|
-> [EventMask] |
|
-> m () |
Sets the device event mask (see EventMask
) for a widget. The event
mask determines which events a widget will receive from device
. 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 widgetAddDeviceEvents
for widgets that are
already realized, or if you want to preserve the existing event
mask. This function can’t be used with windowless widgets (which return
False
from widgetGetHasWindow
);
to get events on those widgets, place them inside a EventBox
and receive events on the event box.
Since: 3.0
setDirection
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> TextDirection |
|
-> m () |
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 explicitly visual rather than logical (such as buttons for text justification).
If the direction is set to TextDirectionNone
, then the value
set by widgetSetDefaultDirection
will be used.
setDoubleBuffered
widgetSetDoubleBuffered Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
Deprecated: (Since version 3.14)This function does not work under non-X11 backends or withnon-native windows.It should not be used in newly written code.
Widgets are double buffered by default; you can use this function
to turn off the buffering. “Double buffered” simply means that
windowBeginDrawFrame
and windowEndDrawFrame
are called
automatically around expose events sent to the
widget. windowBeginDrawFrame
diverts all drawing to a widget's
window to an offscreen buffer, and windowEndDrawFrame
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
windowBeginDrawFrame
).
In 3.10 GTK and GDK have been restructured for translucent drawing. Since then expose events for double-buffered widgets are culled into a single event to the toplevel GDK window. If you now unset double buffering, you will cause a separate rendering pass for every widget. This will likely cause rendering problems - in particular related to stacking - and usually increases rendering times significantly.
setEvents
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> [EventMask] |
|
-> m () |
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 widgets that have no window.
(See widgetGetHasWindow
). To get events on those widgets,
place them inside a EventBox
and receive events on the event
box.
setFocusOnClick
widgetSetFocusOnClick Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
Sets whether the widget should grab focus when it is clicked with the mouse. Making mouse clicks not grab focus is useful in places like toolbars where you don’t want the keyboard focus removed from the main area of the application.
Since: 3.20
setFontMap
:: (HasCallStack, MonadIO m, IsWidget a, IsFontMap b) | |
=> a |
|
-> Maybe b |
|
-> m () |
Sets the font map to use for Pango rendering. When not set, the widget will inherit the font map from its parent.
Since: 3.18
setFontOptions
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Maybe FontOptions |
|
-> m () |
Sets the FontOptions
used for Pango rendering in this widget.
When not set, the default font options for the Screen
will be used.
Since: 3.18
setHalign
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Align |
|
-> m () |
Sets the horizontal alignment of widget
.
See the Widget
:halign
property.
setHasTooltip
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
Sets the has-tooltip property on widget
to hasTooltip
. See
Widget
:has-tooltip
for more information.
Since: 2.12
setHasWindow
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
Specifies whether widget
has a Window
of its own. Note that
all realized widgets have a non-Nothing
“window” pointer
(widgetGetWindow
never returns a Nothing
window when a widget
is realized), but for many of them it’s actually the Window
of
one of its parent widgets. Widgets that do not create a window
for
themselves in Widget
::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.
Since: 2.18
setHexpand
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
Sets whether the widget would like any available extra horizontal
space. When a user resizes a Window
, widgets with expand=TRUE
generally receive the extra space. For example, a list or
scrollable area or document in your window would often be set to
expand.
Call this function to set the expand flag if you would like your widget to become larger horizontally when the window has extra room.
By default, widgets automatically expand if any of their children
want to expand. (To see if a widget will automatically expand given
its current children and state, call widgetComputeExpand
. A
container can decide how the expandability of children affects the
expansion of the container by overriding the compute_expand virtual
method on Widget
.).
Setting hexpand explicitly with this function will override the automatic expand behavior.
This function forces the widget to expand or not to expand,
regardless of children. The override occurs because
widgetSetHexpand
sets the hexpand-set property (see
widgetSetHexpandSet
) which causes the widget’s hexpand
value to be used, rather than looking at children and widget state.
setHexpandSet
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
Sets whether the hexpand flag (see widgetGetHexpand
) will
be used.
The hexpand-set property will be set automatically when you call
widgetSetHexpand
to set hexpand, so the most likely
reason to use this function would be to unset an explicit expand
flag.
If hexpand is set, then it overrides any computed expand value based on child widgets. If hexpand is not set, then the expand value depends on whether any children of the widget would like to expand.
There are few reasons to use this function, but it’s here for completeness and consistency.
setMapped
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
Marks the widget as being mapped.
This function should only ever be called in a derived widget's “map” or “unmap” implementation.
Since: 2.20
setMarginBottom
widgetSetMarginBottom Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Int32 |
|
-> m () |
Sets the bottom margin of widget
.
See the Widget
:margin-bottom
property.
Since: 3.0
setMarginEnd
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Int32 |
|
-> m () |
Sets the end margin of widget
.
See the Widget
:margin-end
property.
Since: 3.12
setMarginLeft
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Int32 |
|
-> m () |
Deprecated: (Since version 3.12)Use widgetSetMarginStart
instead.
Sets the left margin of widget
.
See the Widget
:margin-left
property.
Since: 3.0
setMarginRight
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Int32 |
|
-> m () |
Deprecated: (Since version 3.12)Use widgetSetMarginEnd
instead.
Sets the right margin of widget
.
See the Widget
:margin-right
property.
Since: 3.0
setMarginStart
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Int32 |
|
-> m () |
Sets the start margin of widget
.
See the Widget
:margin-start
property.
Since: 3.12
setMarginTop
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Int32 |
|
-> m () |
Sets the top margin of widget
.
See the Widget
:margin-top
property.
Since: 3.0
setName
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Text |
|
-> m () |
Widgets can be named, which allows you to refer to them from a
CSS file. You can apply a style to widgets with a particular name
in the CSS file. See the documentation for the CSS syntax (on the
same page as the docs for StyleContext
).
Note that the CSS syntax has certain special characters to delimit and represent elements in a selector (period, #, >, *...), so using these will make your widget impossible to match by name. Any combination of alphanumeric symbols, dashes and underscores will suffice.
setNoShowAll
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
Sets the Widget
:no-show-all
property, which determines whether
calls to widgetShowAll
will affect this widget.
This is mostly for use in constructing widget hierarchies with externally
controlled visibility, see UIManager
.
Since: 2.4
setOpacity
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Double |
|
-> m () |
Request the widget
to be rendered partially transparent,
with opacity 0 being fully transparent and 1 fully opaque. (Opacity values
are clamped to the [0,1] range.).
This works on both toplevel widget, and child widgets, although there
are some limitations:
For toplevel widgets this depends on the capabilities of the windowing
system. On X11 this has any effect only on X screens with a compositing manager
running. See widgetIsComposited
. On Windows it should work
always, although setting a window’s opacity after the window has been
shown causes it to flicker once on Windows.
For child widgets it doesn’t work if any affected widget has a native window, or disables double buffering.
Since: 3.8
setParent
:: (HasCallStack, MonadIO m, IsWidget a, IsWidget b) | |
=> a |
|
-> b |
|
-> m () |
This function is useful only when implementing subclasses of
Container
.
Sets the container as the parent of widget
, and takes care of
some details such as updating the state and style of the child
to reflect its new location. The opposite function is
widgetUnparent
.
setParentWindow
widgetSetParentWindow Source #
:: (HasCallStack, MonadIO m, IsWidget a, IsWindow b) | |
=> a |
|
-> b |
|
-> m () |
setRealized
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
Marks the widget as being realized. This function must only be
called after all GdkWindows
for the widget
have been created
and registered.
This function should only ever be called in a derived widget's “realize” or “unrealize” implementation.
Since: 2.20
setReceivesDefault
widgetSetReceivesDefault Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
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”.
Since: 2.18
setRedrawOnAllocate
widgetSetRedrawOnAllocate Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
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 off will improve performance.
Note that for widgets where widgetGetHasWindow
is False
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 widget with no window that
does draw on widget
->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.
setSensitive
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
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.
setSizeRequest
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Int32 |
|
-> Int32 |
|
-> m () |
Sets the minimum size of a widget; that is, the widget’s size
request will be at least width
by height
. You can use this
function to force a widget to be larger than it normally would be.
In most cases, 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,
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.
The size request set here does not include any margin from the
Widget
properties margin-left, margin-right, margin-top, and
margin-bottom, but it does include pretty much all other padding
or border properties set by any subclass of Widget
.
setState
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> StateType |
|
-> m () |
Deprecated: (Since version 3.0)Use widgetSetStateFlags
instead.
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
.
setStateFlags
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> [StateFlags] |
|
-> Bool |
|
-> m () |
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 StateFlagsDirLtr
and
StateFlagsDirRtl
but ignores them. If you want to set the widget's
direction, use widgetSetDirection
.
It is worth mentioning that any other state than StateFlagsInsensitive
,
will be propagated down to all non-internal children if widget
is a
Container
, while StateFlagsInsensitive
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.
Since: 3.0
setStyle
:: (HasCallStack, MonadIO m, IsWidget a, IsStyle b) | |
=> a |
|
-> Maybe b |
|
-> m () |
Deprecated: (Since version 3.0)Use StyleContext
instead
Used to set the Style
for a widget (widget
->style). Since
GTK 3, this function does nothing, the passed in style is ignored.
setSupportMultidevice
widgetSetSupportMultidevice Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
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 GdkWindows
are created in Widget
::realize
,
windowSetSupportMultidevice
will have to be called manually on them.
Since: 3.0
setTooltipMarkup
widgetSetTooltipMarkup Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Maybe Text |
|
-> m () |
Sets markup
as the contents of the tooltip, which is marked up with
the [Pango text markup language][PangoMarkupFormat].
This function will take care of setting Widget
:has-tooltip
to True
and of the default handler for the Widget
::query-tooltip
signal.
See also the Widget
:tooltip-markup
property and
tooltipSetMarkup
.
Since: 2.12
setTooltipText
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Maybe Text |
|
-> m () |
Sets text
as the contents of the tooltip. This function will take
care of setting Widget
:has-tooltip
to True
and of the default
handler for the Widget
::query-tooltip
signal.
See also the Widget
:tooltip-text
property and tooltipSetText
.
Since: 2.12
setTooltipWindow
widgetSetTooltipWindow Source #
Replaces the default 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.
Since: 2.12
setValign
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Align |
|
-> m () |
Sets the vertical alignment of widget
.
See the Widget
:valign
property.
setVexpand
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
Sets whether the widget would like any available extra vertical space.
See widgetSetHexpand
for more detail.
setVexpandSet
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
Sets whether the vexpand flag (see widgetGetVexpand
) will
be used.
See widgetSetHexpandSet
for more detail.
setVisible
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Bool |
|
-> m () |
Sets the visibility state of widget
. Note that setting this to
True
doesn’t mean the widget is actually viewable, see
widgetGetVisible
.
This function simply calls widgetShow
or widgetHide
but is nicer to use when the visibility of the widget depends on
some condition.
Since: 2.18
setVisual
:: (HasCallStack, MonadIO m, IsWidget a, IsVisual b) | |
=> a |
|
-> Maybe b |
|
-> m () |
Sets the visual that should be used for by widget and its children for
creating GdkWindows
. The visual must be on the same Screen
as
returned by widgetGetScreen
, so handling the
Widget
::screen-changed
signal is necessary.
Setting a new visual
will not cause widget
to recreate its windows,
so you should call this function before widget
is realized.
setWindow
:: (HasCallStack, MonadIO m, IsWidget a, IsWindow b) | |
=> a |
|
-> b |
|
-> m () |
Sets a widget’s window. This function should only be used in a
widget’s Widget
::realize
implementation. The window
passed is
usually either new window created with windowNew
, or the
window of its parent widget as returned by
widgetGetParentWindow
.
Widgets must indicate whether they will create their own Window
by calling widgetSetHasWindow
. This is usually done in the
widget’s init()
function.
Note that this function does not add any reference to window
.
Since: 2.18
shapeCombineRegion
widgetShapeCombineRegion Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Maybe Region |
|
-> m () |
Sets a shape for this widget’s GDK window. This allows for
transparent windows etc., see windowShapeCombineRegion
for more information.
Since: 3.0
show
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
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.
showAll
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Recursively shows a widget, and any child widgets (if the widget is a container).
showNow
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
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.
sizeAllocate
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Rectangle |
|
-> m () |
This function is only used by Container
subclasses, to assign a size
and position to their child widgets.
In this function, the allocation may be adjusted. It will be forced
to a 1x1 minimum size, and the adjust_size_allocation virtual
method on the child will be used to adjust the allocation. Standard
adjustments include removing the widget’s margins, and applying the
widget’s Widget
:halign
and Widget
:valign
properties.
For baseline support in containers you need to use widgetSizeAllocateWithBaseline
instead.
sizeAllocateWithBaseline
widgetSizeAllocateWithBaseline Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Rectangle |
|
-> Int32 |
|
-> m () |
This function is only used by 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 Widget
:halign
and
Widget
:valign
properties.
If the child widget does not have a valign of AlignBaseline
the
baseline argument is ignored and -1 is used instead.
Since: 3.10
sizeRequest
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m Requisition |
Deprecated: (Since version 3.0)Use widgetGetPreferredSize
instead.
This function is typically used when implementing a 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.
styleAttach
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Deprecated: (Since version 3.0)This step is unnecessary with StyleContext
.
This function attaches the widget’s Style
to the widget's
Window
. It is a replacement for
widget->style = gtk_style_attach (widget->style, widget->window);
and should only ever be called in a derived widget’s “realize”
implementation which does not chain up to its parent class'
“realize” implementation, because one of the parent classes
(finally Widget
) would attach the style itself.
Since: 2.20
styleGetProperty
widgetStyleGetProperty Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> Text |
|
-> GValue |
|
-> m () |
Gets the value of a style property of widget
.
thawChildNotify
widgetThawChildNotify Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Reverts the effect of a previous call to widgetFreezeChildNotify
.
This causes all queued Widget
::child-notify
signals on widget
to be
emitted.
translateCoordinates
widgetTranslateCoordinates Source #
:: (HasCallStack, MonadIO m, IsWidget a, IsWidget b) | |
=> a |
|
-> b |
|
-> Int32 |
|
-> Int32 |
|
-> m (Bool, Int32, Int32) | Returns: |
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.
triggerTooltipQuery
widgetTriggerTooltipQuery Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
Triggers a tooltip query on the display where the toplevel of widget
is located. See tooltipTriggerTooltipQuery
for more
information.
Since: 2.12
unmap
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
This function is only for use in widget implementations. Causes a widget to be unmapped if it’s currently mapped.
unparent
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
This function is only for use in widget implementations.
Should be called by implementations of the remove method
on Container
, to dissociate a child from the container.
unrealize
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> m () |
This function is only useful in widget implementations.
Causes a widget to be unrealized (frees all GDK resources
associated with the widget, such as widget
->window).
unregisterWindow
widgetUnregisterWindow Source #
:: (HasCallStack, MonadIO m, IsWidget a, IsWindow b) | |
=> a |
|
-> b |
|
-> m () |
Unregisters a Window
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.
Since: 3.8
unsetStateFlags
widgetUnsetStateFlags Source #
:: (HasCallStack, MonadIO m, IsWidget a) | |
=> a |
|
-> [StateFlags] |
|
-> m () |
This function is for use in widget implementations. Turns off flag
values for the current widget state (insensitive, prelighted, etc.).
See widgetSetStateFlags
.
Since: 3.0
Properties
appPaintable
No description available in the introspection data.
constructWidgetAppPaintable :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “app-paintable
” property. This is rarely needed directly, but it is used by new
.
getWidgetAppPaintable :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “app-paintable
” property.
When overloading is enabled, this is equivalent to
get
widget #appPaintable
setWidgetAppPaintable :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “app-paintable
” property.
When overloading is enabled, this is equivalent to
set
widget [ #appPaintable:=
value ]
canDefault
No description available in the introspection data.
constructWidgetCanDefault :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “can-default
” property. This is rarely needed directly, but it is used by new
.
getWidgetCanDefault :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “can-default
” property.
When overloading is enabled, this is equivalent to
get
widget #canDefault
setWidgetCanDefault :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “can-default
” property.
When overloading is enabled, this is equivalent to
set
widget [ #canDefault:=
value ]
canFocus
No description available in the introspection data.
constructWidgetCanFocus :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “can-focus
” property. This is rarely needed directly, but it is used by new
.
getWidgetCanFocus :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “can-focus
” property.
When overloading is enabled, this is equivalent to
get
widget #canFocus
setWidgetCanFocus :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “can-focus
” property.
When overloading is enabled, this is equivalent to
set
widget [ #canFocus:=
value ]
compositeChild
No description available in the introspection data.
getWidgetCompositeChild :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “composite-child
” property.
When overloading is enabled, this is equivalent to
get
widget #compositeChild
doubleBuffered
Whether the widget is double buffered.
Since: 2.18
constructWidgetDoubleBuffered :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “double-buffered
” property. This is rarely needed directly, but it is used by new
.
getWidgetDoubleBuffered :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “double-buffered
” property.
When overloading is enabled, this is equivalent to
get
widget #doubleBuffered
setWidgetDoubleBuffered :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “double-buffered
” property.
When overloading is enabled, this is equivalent to
set
widget [ #doubleBuffered:=
value ]
events
No description available in the introspection data.
constructWidgetEvents :: IsWidget o => [EventMask] -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “events
” property. This is rarely needed directly, but it is used by new
.
getWidgetEvents :: (MonadIO m, IsWidget o) => o -> m [EventMask] Source #
Get the value of the “events
” property.
When overloading is enabled, this is equivalent to
get
widget #events
setWidgetEvents :: (MonadIO m, IsWidget o) => o -> [EventMask] -> m () Source #
Set the value of the “events
” property.
When overloading is enabled, this is equivalent to
set
widget [ #events:=
value ]
expand
Whether to expand in both directions. Setting this sets both Widget
:hexpand
and Widget
:vexpand
Since: 3.0
constructWidgetExpand :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “expand
” property. This is rarely needed directly, but it is used by new
.
getWidgetExpand :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “expand
” property.
When overloading is enabled, this is equivalent to
get
widget #expand
setWidgetExpand :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “expand
” property.
When overloading is enabled, this is equivalent to
set
widget [ #expand:=
value ]
focusOnClick
Whether the widget should grab focus when it is clicked with the mouse.
This property is only relevant for widgets that can take focus.
Before 3.20, several widgets (GtkButton, GtkFileChooserButton, GtkComboBox) implemented this property individually.
Since: 3.20
constructWidgetFocusOnClick :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “focus-on-click
” property. This is rarely needed directly, but it is used by new
.
getWidgetFocusOnClick :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “focus-on-click
” property.
When overloading is enabled, this is equivalent to
get
widget #focusOnClick
setWidgetFocusOnClick :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “focus-on-click
” property.
When overloading is enabled, this is equivalent to
set
widget [ #focusOnClick:=
value ]
halign
How to distribute horizontal space if widget gets extra space, see Align
Since: 3.0
constructWidgetHalign :: IsWidget o => Align -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “halign
” property. This is rarely needed directly, but it is used by new
.
getWidgetHalign :: (MonadIO m, IsWidget o) => o -> m Align Source #
Get the value of the “halign
” property.
When overloading is enabled, this is equivalent to
get
widget #halign
setWidgetHalign :: (MonadIO m, IsWidget o) => o -> Align -> m () Source #
Set the value of the “halign
” property.
When overloading is enabled, this is equivalent to
set
widget [ #halign:=
value ]
hasDefault
No description available in the introspection data.
constructWidgetHasDefault :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “has-default
” property. This is rarely needed directly, but it is used by new
.
getWidgetHasDefault :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “has-default
” property.
When overloading is enabled, this is equivalent to
get
widget #hasDefault
setWidgetHasDefault :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “has-default
” property.
When overloading is enabled, this is equivalent to
set
widget [ #hasDefault:=
value ]
hasFocus
No description available in the introspection data.
constructWidgetHasFocus :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “has-focus
” property. This is rarely needed directly, but it is used by new
.
getWidgetHasFocus :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “has-focus
” property.
When overloading is enabled, this is equivalent to
get
widget #hasFocus
setWidgetHasFocus :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “has-focus
” property.
When overloading is enabled, this is equivalent to
set
widget [ #hasFocus:=
value ]
hasTooltip
Enables or disables the emission of Widget
::query-tooltip
on widget
.
A value of True
indicates that widget
can have a tooltip, in this case
the widget will be queried using Widget
::query-tooltip
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 GdkWindows 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.
Since: 2.12
constructWidgetHasTooltip :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “has-tooltip
” property. This is rarely needed directly, but it is used by new
.
getWidgetHasTooltip :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “has-tooltip
” property.
When overloading is enabled, this is equivalent to
get
widget #hasTooltip
setWidgetHasTooltip :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “has-tooltip
” property.
When overloading is enabled, this is equivalent to
set
widget [ #hasTooltip:=
value ]
heightRequest
No description available in the introspection data.
constructWidgetHeightRequest :: IsWidget o => Int32 -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “height-request
” property. This is rarely needed directly, but it is used by new
.
getWidgetHeightRequest :: (MonadIO m, IsWidget o) => o -> m Int32 Source #
Get the value of the “height-request
” property.
When overloading is enabled, this is equivalent to
get
widget #heightRequest
setWidgetHeightRequest :: (MonadIO m, IsWidget o) => o -> Int32 -> m () Source #
Set the value of the “height-request
” property.
When overloading is enabled, this is equivalent to
set
widget [ #heightRequest:=
value ]
hexpand
Whether to expand horizontally. See widgetSetHexpand
.
Since: 3.0
constructWidgetHexpand :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “hexpand
” property. This is rarely needed directly, but it is used by new
.
getWidgetHexpand :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “hexpand
” property.
When overloading is enabled, this is equivalent to
get
widget #hexpand
setWidgetHexpand :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “hexpand
” property.
When overloading is enabled, this is equivalent to
set
widget [ #hexpand:=
value ]
hexpandSet
Whether to use the Widget
:hexpand
property. See widgetGetHexpandSet
.
Since: 3.0
constructWidgetHexpandSet :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “hexpand-set
” property. This is rarely needed directly, but it is used by new
.
getWidgetHexpandSet :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “hexpand-set
” property.
When overloading is enabled, this is equivalent to
get
widget #hexpandSet
setWidgetHexpandSet :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “hexpand-set
” property.
When overloading is enabled, this is equivalent to
set
widget [ #hexpandSet:=
value ]
isFocus
No description available in the introspection data.
constructWidgetIsFocus :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “is-focus
” property. This is rarely needed directly, but it is used by new
.
getWidgetIsFocus :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “is-focus
” property.
When overloading is enabled, this is equivalent to
get
widget #isFocus
setWidgetIsFocus :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “is-focus
” property.
When overloading is enabled, this is equivalent to
set
widget [ #isFocus:=
value ]
margin
Sets all four sides' margin at once. If read, returns max margin on any side.
Since: 3.0
constructWidgetMargin :: IsWidget o => Int32 -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “margin
” property. This is rarely needed directly, but it is used by new
.
getWidgetMargin :: (MonadIO m, IsWidget o) => o -> m Int32 Source #
Get the value of the “margin
” property.
When overloading is enabled, this is equivalent to
get
widget #margin
setWidgetMargin :: (MonadIO m, IsWidget o) => o -> Int32 -> m () Source #
Set the value of the “margin
” property.
When overloading is enabled, this is equivalent to
set
widget [ #margin:=
value ]
marginBottom
Margin on bottom side of widget.
This property adds margin outside of the widget's normal size
request, the margin will be added in addition to the size from
widgetSetSizeRequest
for example.
Since: 3.0
constructWidgetMarginBottom :: IsWidget o => Int32 -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “margin-bottom
” property. This is rarely needed directly, but it is used by new
.
getWidgetMarginBottom :: (MonadIO m, IsWidget o) => o -> m Int32 Source #
Get the value of the “margin-bottom
” property.
When overloading is enabled, this is equivalent to
get
widget #marginBottom
setWidgetMarginBottom :: (MonadIO m, IsWidget o) => o -> Int32 -> m () Source #
Set the value of the “margin-bottom
” property.
When overloading is enabled, this is equivalent to
set
widget [ #marginBottom:=
value ]
marginEnd
Margin on end of widget, horizontally. This property supports left-to-right and right-to-left text directions.
This property adds margin outside of the widget's normal size
request, the margin will be added in addition to the size from
widgetSetSizeRequest
for example.
Since: 3.12
constructWidgetMarginEnd :: IsWidget o => Int32 -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “margin-end
” property. This is rarely needed directly, but it is used by new
.
getWidgetMarginEnd :: (MonadIO m, IsWidget o) => o -> m Int32 Source #
Get the value of the “margin-end
” property.
When overloading is enabled, this is equivalent to
get
widget #marginEnd
setWidgetMarginEnd :: (MonadIO m, IsWidget o) => o -> Int32 -> m () Source #
Set the value of the “margin-end
” property.
When overloading is enabled, this is equivalent to
set
widget [ #marginEnd:=
value ]
marginLeft
Margin on left side of widget.
This property adds margin outside of the widget's normal size
request, the margin will be added in addition to the size from
widgetSetSizeRequest
for example.
Since: 3.0
constructWidgetMarginLeft :: IsWidget o => Int32 -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “margin-left
” property. This is rarely needed directly, but it is used by new
.
getWidgetMarginLeft :: (MonadIO m, IsWidget o) => o -> m Int32 Source #
Get the value of the “margin-left
” property.
When overloading is enabled, this is equivalent to
get
widget #marginLeft
setWidgetMarginLeft :: (MonadIO m, IsWidget o) => o -> Int32 -> m () Source #
Set the value of the “margin-left
” property.
When overloading is enabled, this is equivalent to
set
widget [ #marginLeft:=
value ]
marginRight
Margin on right side of widget.
This property adds margin outside of the widget's normal size
request, the margin will be added in addition to the size from
widgetSetSizeRequest
for example.
Since: 3.0
constructWidgetMarginRight :: IsWidget o => Int32 -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “margin-right
” property. This is rarely needed directly, but it is used by new
.
getWidgetMarginRight :: (MonadIO m, IsWidget o) => o -> m Int32 Source #
Get the value of the “margin-right
” property.
When overloading is enabled, this is equivalent to
get
widget #marginRight
setWidgetMarginRight :: (MonadIO m, IsWidget o) => o -> Int32 -> m () Source #
Set the value of the “margin-right
” property.
When overloading is enabled, this is equivalent to
set
widget [ #marginRight:=
value ]
marginStart
Margin on start of widget, horizontally. This property supports left-to-right and right-to-left text directions.
This property adds margin outside of the widget's normal size
request, the margin will be added in addition to the size from
widgetSetSizeRequest
for example.
Since: 3.12
constructWidgetMarginStart :: IsWidget o => Int32 -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “margin-start
” property. This is rarely needed directly, but it is used by new
.
getWidgetMarginStart :: (MonadIO m, IsWidget o) => o -> m Int32 Source #
Get the value of the “margin-start
” property.
When overloading is enabled, this is equivalent to
get
widget #marginStart
setWidgetMarginStart :: (MonadIO m, IsWidget o) => o -> Int32 -> m () Source #
Set the value of the “margin-start
” property.
When overloading is enabled, this is equivalent to
set
widget [ #marginStart:=
value ]
marginTop
Margin on top side of widget.
This property adds margin outside of the widget's normal size
request, the margin will be added in addition to the size from
widgetSetSizeRequest
for example.
Since: 3.0
constructWidgetMarginTop :: IsWidget o => Int32 -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “margin-top
” property. This is rarely needed directly, but it is used by new
.
getWidgetMarginTop :: (MonadIO m, IsWidget o) => o -> m Int32 Source #
Get the value of the “margin-top
” property.
When overloading is enabled, this is equivalent to
get
widget #marginTop
setWidgetMarginTop :: (MonadIO m, IsWidget o) => o -> Int32 -> m () Source #
Set the value of the “margin-top
” property.
When overloading is enabled, this is equivalent to
set
widget [ #marginTop:=
value ]
name
No description available in the introspection data.
constructWidgetName :: IsWidget o => Text -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “name
” property. This is rarely needed directly, but it is used by new
.
getWidgetName :: (MonadIO m, IsWidget o) => o -> m Text Source #
Get the value of the “name
” property.
When overloading is enabled, this is equivalent to
get
widget #name
setWidgetName :: (MonadIO m, IsWidget o) => o -> Text -> m () Source #
Set the value of the “name
” property.
When overloading is enabled, this is equivalent to
set
widget [ #name:=
value ]
noShowAll
No description available in the introspection data.
constructWidgetNoShowAll :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “no-show-all
” property. This is rarely needed directly, but it is used by new
.
getWidgetNoShowAll :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “no-show-all
” property.
When overloading is enabled, this is equivalent to
get
widget #noShowAll
setWidgetNoShowAll :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “no-show-all
” property.
When overloading is enabled, this is equivalent to
set
widget [ #noShowAll:=
value ]
opacity
The requested opacity of the widget. See widgetSetOpacity
for
more details about window opacity.
Before 3.8 this was only available in GtkWindow
Since: 3.8
constructWidgetOpacity :: IsWidget o => Double -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “opacity
” property. This is rarely needed directly, but it is used by new
.
getWidgetOpacity :: (MonadIO m, IsWidget o) => o -> m Double Source #
Get the value of the “opacity
” property.
When overloading is enabled, this is equivalent to
get
widget #opacity
setWidgetOpacity :: (MonadIO m, IsWidget o) => o -> Double -> m () Source #
Set the value of the “opacity
” property.
When overloading is enabled, this is equivalent to
set
widget [ #opacity:=
value ]
parent
No description available in the introspection data.
clearWidgetParent :: (MonadIO m, IsWidget o) => o -> m () Source #
Set the value of the “parent
” property to Nothing
.
When overloading is enabled, this is equivalent to
clear
#parent
constructWidgetParent :: (IsWidget o, IsContainer a) => a -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “parent
” property. This is rarely needed directly, but it is used by new
.
getWidgetParent :: (MonadIO m, IsWidget o) => o -> m (Maybe Container) Source #
Get the value of the “parent
” property.
When overloading is enabled, this is equivalent to
get
widget #parent
setWidgetParent :: (MonadIO m, IsWidget o, IsContainer a) => o -> a -> m () Source #
Set the value of the “parent
” property.
When overloading is enabled, this is equivalent to
set
widget [ #parent:=
value ]
receivesDefault
No description available in the introspection data.
constructWidgetReceivesDefault :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “receives-default
” property. This is rarely needed directly, but it is used by new
.
getWidgetReceivesDefault :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “receives-default
” property.
When overloading is enabled, this is equivalent to
get
widget #receivesDefault
setWidgetReceivesDefault :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “receives-default
” property.
When overloading is enabled, this is equivalent to
set
widget [ #receivesDefault:=
value ]
scaleFactor
The scale factor of the widget. See widgetGetScaleFactor
for
more details about widget scaling.
Since: 3.10
getWidgetScaleFactor :: (MonadIO m, IsWidget o) => o -> m Int32 Source #
Get the value of the “scale-factor
” property.
When overloading is enabled, this is equivalent to
get
widget #scaleFactor
sensitive
No description available in the introspection data.
constructWidgetSensitive :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “sensitive
” property. This is rarely needed directly, but it is used by new
.
getWidgetSensitive :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “sensitive
” property.
When overloading is enabled, this is equivalent to
get
widget #sensitive
setWidgetSensitive :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “sensitive
” property.
When overloading is enabled, this is equivalent to
set
widget [ #sensitive:=
value ]
style
The style of the widget, which contains information about how it will look (colors, etc).
clearWidgetStyle :: (MonadIO m, IsWidget o) => o -> m () Source #
Set the value of the “style
” property to Nothing
.
When overloading is enabled, this is equivalent to
clear
#style
constructWidgetStyle :: (IsWidget o, IsStyle a) => a -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “style
” property. This is rarely needed directly, but it is used by new
.
getWidgetStyle :: (MonadIO m, IsWidget o) => o -> m Style Source #
Get the value of the “style
” property.
When overloading is enabled, this is equivalent to
get
widget #style
setWidgetStyle :: (MonadIO m, IsWidget o, IsStyle a) => o -> a -> m () Source #
Set the value of the “style
” property.
When overloading is enabled, this is equivalent to
set
widget [ #style:=
value ]
tooltipMarkup
Sets the text of tooltip to be the given string, which is marked up
with the [Pango text markup language][PangoMarkupFormat].
Also see tooltipSetMarkup
.
This is a convenience property which will take care of getting the
tooltip shown if the given string is not Nothing
: Widget
:has-tooltip
will automatically be set to True
and there will be taken care of
Widget
::query-tooltip
in the default signal handler.
Note that if both Widget
:tooltip-text
and Widget
:tooltip-markup
are set, the last one wins.
Since: 2.12
clearWidgetTooltipMarkup :: (MonadIO m, IsWidget o) => o -> m () Source #
Set the value of the “tooltip-markup
” property to Nothing
.
When overloading is enabled, this is equivalent to
clear
#tooltipMarkup
constructWidgetTooltipMarkup :: IsWidget o => Text -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “tooltip-markup
” property. This is rarely needed directly, but it is used by new
.
getWidgetTooltipMarkup :: (MonadIO m, IsWidget o) => o -> m (Maybe Text) Source #
Get the value of the “tooltip-markup
” property.
When overloading is enabled, this is equivalent to
get
widget #tooltipMarkup
setWidgetTooltipMarkup :: (MonadIO m, IsWidget o) => o -> Text -> m () Source #
Set the value of the “tooltip-markup
” property.
When overloading is enabled, this is equivalent to
set
widget [ #tooltipMarkup:=
value ]
tooltipText
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 Nothing
: Widget
:has-tooltip
will automatically be set to True
and there will be taken care of
Widget
::query-tooltip
in the default signal handler.
Note that if both Widget
:tooltip-text
and Widget
:tooltip-markup
are set, the last one wins.
Since: 2.12
clearWidgetTooltipText :: (MonadIO m, IsWidget o) => o -> m () Source #
Set the value of the “tooltip-text
” property to Nothing
.
When overloading is enabled, this is equivalent to
clear
#tooltipText
constructWidgetTooltipText :: IsWidget o => Text -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “tooltip-text
” property. This is rarely needed directly, but it is used by new
.
getWidgetTooltipText :: (MonadIO m, IsWidget o) => o -> m (Maybe Text) Source #
Get the value of the “tooltip-text
” property.
When overloading is enabled, this is equivalent to
get
widget #tooltipText
setWidgetTooltipText :: (MonadIO m, IsWidget o) => o -> Text -> m () Source #
Set the value of the “tooltip-text
” property.
When overloading is enabled, this is equivalent to
set
widget [ #tooltipText:=
value ]
valign
How to distribute vertical space if widget gets extra space, see Align
Since: 3.0
constructWidgetValign :: IsWidget o => Align -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “valign
” property. This is rarely needed directly, but it is used by new
.
getWidgetValign :: (MonadIO m, IsWidget o) => o -> m Align Source #
Get the value of the “valign
” property.
When overloading is enabled, this is equivalent to
get
widget #valign
setWidgetValign :: (MonadIO m, IsWidget o) => o -> Align -> m () Source #
Set the value of the “valign
” property.
When overloading is enabled, this is equivalent to
set
widget [ #valign:=
value ]
vexpand
Whether to expand vertically. See widgetSetVexpand
.
Since: 3.0
constructWidgetVexpand :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “vexpand
” property. This is rarely needed directly, but it is used by new
.
getWidgetVexpand :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “vexpand
” property.
When overloading is enabled, this is equivalent to
get
widget #vexpand
setWidgetVexpand :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “vexpand
” property.
When overloading is enabled, this is equivalent to
set
widget [ #vexpand:=
value ]
vexpandSet
Whether to use the Widget
:vexpand
property. See widgetGetVexpandSet
.
Since: 3.0
constructWidgetVexpandSet :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “vexpand-set
” property. This is rarely needed directly, but it is used by new
.
getWidgetVexpandSet :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “vexpand-set
” property.
When overloading is enabled, this is equivalent to
get
widget #vexpandSet
setWidgetVexpandSet :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “vexpand-set
” property.
When overloading is enabled, this is equivalent to
set
widget [ #vexpandSet:=
value ]
visible
No description available in the introspection data.
constructWidgetVisible :: IsWidget o => Bool -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “visible
” property. This is rarely needed directly, but it is used by new
.
getWidgetVisible :: (MonadIO m, IsWidget o) => o -> m Bool Source #
Get the value of the “visible
” property.
When overloading is enabled, this is equivalent to
get
widget #visible
setWidgetVisible :: (MonadIO m, IsWidget o) => o -> Bool -> m () Source #
Set the value of the “visible
” property.
When overloading is enabled, this is equivalent to
set
widget [ #visible:=
value ]
widthRequest
No description available in the introspection data.
constructWidgetWidthRequest :: IsWidget o => Int32 -> IO (GValueConstruct o) Source #
Construct a GValueConstruct
with valid value for the “width-request
” property. This is rarely needed directly, but it is used by new
.
getWidgetWidthRequest :: (MonadIO m, IsWidget o) => o -> m Int32 Source #
Get the value of the “width-request
” property.
When overloading is enabled, this is equivalent to
get
widget #widthRequest
setWidgetWidthRequest :: (MonadIO m, IsWidget o) => o -> Int32 -> m () Source #
Set the value of the “width-request
” property.
When overloading is enabled, this is equivalent to
set
widget [ #widthRequest:=
value ]
window
The widget's window if it is realized, Nothing
otherwise.
Since: 2.14
getWidgetWindow :: (MonadIO m, IsWidget o) => o -> m (Maybe Window) Source #
Get the value of the “window
” property.
When overloading is enabled, this is equivalent to
get
widget #window
Signals
accelClosuresChanged
type C_WidgetAccelClosuresChangedCallback = Ptr () -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetAccelClosuresChangedCallback = IO () Source #
No description available in the introspection data.
afterWidgetAccelClosuresChanged :: (IsWidget a, MonadIO m) => a -> WidgetAccelClosuresChangedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “accel-closures-changed
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #accelClosuresChanged callback
genClosure_WidgetAccelClosuresChanged :: WidgetAccelClosuresChangedCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetAccelClosuresChangedCallback :: C_WidgetAccelClosuresChangedCallback -> IO (FunPtr C_WidgetAccelClosuresChangedCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetAccelClosuresChangedCallback
.
noWidgetAccelClosuresChangedCallback :: Maybe WidgetAccelClosuresChangedCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetAccelClosuresChangedCallback
onWidgetAccelClosuresChanged :: (IsWidget a, MonadIO m) => a -> WidgetAccelClosuresChangedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “accel-closures-changed
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #accelClosuresChanged callback
wrap_WidgetAccelClosuresChangedCallback :: WidgetAccelClosuresChangedCallback -> C_WidgetAccelClosuresChangedCallback Source #
buttonPressEvent
type C_WidgetButtonPressEventCallback = Ptr () -> Ptr EventButton -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetButtonPressEventCallback Source #
= EventButton |
|
-> IO Bool | Returns: |
The ::button-press-event signal will be emitted when a button (typically from a mouse) is pressed.
To receive this signal, the Window
associated to the
widget needs to enable the GDK_BUTTON_PRESS_MASK
mask.
This signal will be sent to the grab widget if there is one.
afterWidgetButtonPressEvent :: (IsWidget a, MonadIO m) => a -> WidgetButtonPressEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “button-press-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #buttonPressEvent callback
genClosure_WidgetButtonPressEvent :: WidgetButtonPressEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetButtonPressEventCallback :: C_WidgetButtonPressEventCallback -> IO (FunPtr C_WidgetButtonPressEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetButtonPressEventCallback
.
noWidgetButtonPressEventCallback :: Maybe WidgetButtonPressEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetButtonPressEventCallback
onWidgetButtonPressEvent :: (IsWidget a, MonadIO m) => a -> WidgetButtonPressEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “button-press-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #buttonPressEvent callback
wrap_WidgetButtonPressEventCallback :: WidgetButtonPressEventCallback -> C_WidgetButtonPressEventCallback Source #
Wrap a WidgetButtonPressEventCallback
into a C_WidgetButtonPressEventCallback
.
buttonReleaseEvent
type C_WidgetButtonReleaseEventCallback = Ptr () -> Ptr EventButton -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetButtonReleaseEventCallback Source #
= EventButton |
|
-> IO Bool | Returns: |
The ::button-release-event signal will be emitted when a button (typically from a mouse) is released.
To receive this signal, the Window
associated to the
widget needs to enable the GDK_BUTTON_RELEASE_MASK
mask.
This signal will be sent to the grab widget if there is one.
afterWidgetButtonReleaseEvent :: (IsWidget a, MonadIO m) => a -> WidgetButtonReleaseEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “button-release-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #buttonReleaseEvent callback
genClosure_WidgetButtonReleaseEvent :: WidgetButtonReleaseEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetButtonReleaseEventCallback :: C_WidgetButtonReleaseEventCallback -> IO (FunPtr C_WidgetButtonReleaseEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetButtonReleaseEventCallback
.
noWidgetButtonReleaseEventCallback :: Maybe WidgetButtonReleaseEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetButtonReleaseEventCallback
onWidgetButtonReleaseEvent :: (IsWidget a, MonadIO m) => a -> WidgetButtonReleaseEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “button-release-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #buttonReleaseEvent callback
wrap_WidgetButtonReleaseEventCallback :: WidgetButtonReleaseEventCallback -> C_WidgetButtonReleaseEventCallback Source #
canActivateAccel
type C_WidgetCanActivateAccelCallback = Ptr () -> Word32 -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetCanActivateAccelCallback Source #
= Word32 |
|
-> IO Bool | Returns: |
Determines whether an accelerator that activates the signal
identified by signalId
can currently be activated.
This signal is present to allow applications and derived
widgets to override the default Widget
handling
for determining whether an accelerator can be activated.
afterWidgetCanActivateAccel :: (IsWidget a, MonadIO m) => a -> WidgetCanActivateAccelCallback -> m SignalHandlerId Source #
Connect a signal handler for the “can-activate-accel
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #canActivateAccel callback
genClosure_WidgetCanActivateAccel :: WidgetCanActivateAccelCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetCanActivateAccelCallback :: C_WidgetCanActivateAccelCallback -> IO (FunPtr C_WidgetCanActivateAccelCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetCanActivateAccelCallback
.
noWidgetCanActivateAccelCallback :: Maybe WidgetCanActivateAccelCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetCanActivateAccelCallback
onWidgetCanActivateAccel :: (IsWidget a, MonadIO m) => a -> WidgetCanActivateAccelCallback -> m SignalHandlerId Source #
Connect a signal handler for the “can-activate-accel
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #canActivateAccel callback
wrap_WidgetCanActivateAccelCallback :: WidgetCanActivateAccelCallback -> C_WidgetCanActivateAccelCallback Source #
Wrap a WidgetCanActivateAccelCallback
into a C_WidgetCanActivateAccelCallback
.
childNotify
type C_WidgetChildNotifyCallback = Ptr () -> Ptr GParamSpec -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetChildNotifyCallback Source #
= GParamSpec |
|
-> IO () |
The ::child-notify signal is emitted for each [child property][child-properties] that has changed on an object. The signal's detail holds the property name.
afterWidgetChildNotify :: (IsWidget a, MonadIO m) => a -> WidgetChildNotifyCallback -> m SignalHandlerId Source #
Connect a signal handler for the “child-notify
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #childNotify callback
genClosure_WidgetChildNotify :: WidgetChildNotifyCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetChildNotifyCallback :: C_WidgetChildNotifyCallback -> IO (FunPtr C_WidgetChildNotifyCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetChildNotifyCallback
.
noWidgetChildNotifyCallback :: Maybe WidgetChildNotifyCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetChildNotifyCallback
onWidgetChildNotify :: (IsWidget a, MonadIO m) => a -> WidgetChildNotifyCallback -> m SignalHandlerId Source #
Connect a signal handler for the “child-notify
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #childNotify callback
wrap_WidgetChildNotifyCallback :: WidgetChildNotifyCallback -> C_WidgetChildNotifyCallback Source #
Wrap a WidgetChildNotifyCallback
into a C_WidgetChildNotifyCallback
.
compositedChanged
type C_WidgetCompositedChangedCallback = Ptr () -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetCompositedChangedCallback = IO () Source #
Deprecated: (Since version 3.22)Use GdkScreen::composited-changed instead.
The ::composited-changed signal is emitted when the composited
status of widgets
screen changes.
See screenIsComposited
.
afterWidgetCompositedChanged :: (IsWidget a, MonadIO m) => a -> WidgetCompositedChangedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “composited-changed
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #compositedChanged callback
genClosure_WidgetCompositedChanged :: WidgetCompositedChangedCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetCompositedChangedCallback :: C_WidgetCompositedChangedCallback -> IO (FunPtr C_WidgetCompositedChangedCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetCompositedChangedCallback
.
noWidgetCompositedChangedCallback :: Maybe WidgetCompositedChangedCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetCompositedChangedCallback
onWidgetCompositedChanged :: (IsWidget a, MonadIO m) => a -> WidgetCompositedChangedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “composited-changed
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #compositedChanged callback
wrap_WidgetCompositedChangedCallback :: WidgetCompositedChangedCallback -> C_WidgetCompositedChangedCallback Source #
Wrap a WidgetCompositedChangedCallback
into a C_WidgetCompositedChangedCallback
.
configureEvent
type C_WidgetConfigureEventCallback = Ptr () -> Ptr EventConfigure -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetConfigureEventCallback Source #
= EventConfigure |
|
-> IO Bool | Returns: |
The ::configure-event signal will be emitted when the size, position or
stacking of the widget
's window has changed.
To receive this signal, the Window
associated to the widget needs
to enable the GDK_STRUCTURE_MASK
mask. GDK will enable this mask
automatically for all new windows.
afterWidgetConfigureEvent :: (IsWidget a, MonadIO m) => a -> WidgetConfigureEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “configure-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #configureEvent callback
genClosure_WidgetConfigureEvent :: WidgetConfigureEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetConfigureEventCallback :: C_WidgetConfigureEventCallback -> IO (FunPtr C_WidgetConfigureEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetConfigureEventCallback
.
noWidgetConfigureEventCallback :: Maybe WidgetConfigureEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetConfigureEventCallback
onWidgetConfigureEvent :: (IsWidget a, MonadIO m) => a -> WidgetConfigureEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “configure-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #configureEvent callback
wrap_WidgetConfigureEventCallback :: WidgetConfigureEventCallback -> C_WidgetConfigureEventCallback Source #
Wrap a WidgetConfigureEventCallback
into a C_WidgetConfigureEventCallback
.
damageEvent
type C_WidgetDamageEventCallback = Ptr () -> Ptr EventExpose -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetDamageEventCallback Source #
= EventExpose |
|
-> IO Bool | Returns: |
Emitted when a redirected window belonging to widget
gets drawn into.
The region/area members of the event shows what area of the redirected
drawable was drawn into.
Since: 2.14
afterWidgetDamageEvent :: (IsWidget a, MonadIO m) => a -> WidgetDamageEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “damage-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #damageEvent callback
genClosure_WidgetDamageEvent :: WidgetDamageEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetDamageEventCallback :: C_WidgetDamageEventCallback -> IO (FunPtr C_WidgetDamageEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetDamageEventCallback
.
noWidgetDamageEventCallback :: Maybe WidgetDamageEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetDamageEventCallback
onWidgetDamageEvent :: (IsWidget a, MonadIO m) => a -> WidgetDamageEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “damage-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #damageEvent callback
wrap_WidgetDamageEventCallback :: WidgetDamageEventCallback -> C_WidgetDamageEventCallback Source #
Wrap a WidgetDamageEventCallback
into a C_WidgetDamageEventCallback
.
deleteEvent
type C_WidgetDeleteEventCallback = Ptr () -> Ptr Event -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetDeleteEventCallback Source #
= Event |
|
-> IO Bool | Returns: |
The ::delete-event signal is emitted if a user requests that
a toplevel window is closed. The default handler for this signal
destroys the window. Connecting widgetHideOnDelete
to
this signal will cause the window to be hidden instead, so that
it can later be shown again without reconstructing it.
afterWidgetDeleteEvent :: (IsWidget a, MonadIO m) => a -> WidgetDeleteEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “delete-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #deleteEvent callback
genClosure_WidgetDeleteEvent :: WidgetDeleteEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetDeleteEventCallback :: C_WidgetDeleteEventCallback -> IO (FunPtr C_WidgetDeleteEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetDeleteEventCallback
.
noWidgetDeleteEventCallback :: Maybe WidgetDeleteEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetDeleteEventCallback
onWidgetDeleteEvent :: (IsWidget a, MonadIO m) => a -> WidgetDeleteEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “delete-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #deleteEvent callback
wrap_WidgetDeleteEventCallback :: WidgetDeleteEventCallback -> C_WidgetDeleteEventCallback Source #
Wrap a WidgetDeleteEventCallback
into a C_WidgetDeleteEventCallback
.
destroy
type C_WidgetDestroyCallback = Ptr () -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetDestroyCallback = IO () Source #
Signals that all holders of a reference to the widget should release the reference that they hold. May result in finalization of the widget if all references are released.
This signal is not suitable for saving widget state.
afterWidgetDestroy :: (IsWidget a, MonadIO m) => a -> WidgetDestroyCallback -> m SignalHandlerId Source #
Connect a signal handler for the “destroy
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #destroy callback
genClosure_WidgetDestroy :: WidgetDestroyCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetDestroyCallback :: C_WidgetDestroyCallback -> IO (FunPtr C_WidgetDestroyCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetDestroyCallback
.
noWidgetDestroyCallback :: Maybe WidgetDestroyCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetDestroyCallback
onWidgetDestroy :: (IsWidget a, MonadIO m) => a -> WidgetDestroyCallback -> m SignalHandlerId Source #
Connect a signal handler for the “destroy
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #destroy callback
wrap_WidgetDestroyCallback :: WidgetDestroyCallback -> C_WidgetDestroyCallback Source #
Wrap a WidgetDestroyCallback
into a C_WidgetDestroyCallback
.
destroyEvent
type C_WidgetDestroyEventCallback = Ptr () -> Ptr Event -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetDestroyEventCallback Source #
= Event |
|
-> IO Bool | Returns: |
The ::destroy-event signal is emitted when a Window
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.
To receive this signal, the Window
associated to the widget needs
to enable the GDK_STRUCTURE_MASK
mask. GDK will enable this mask
automatically for all new windows.
afterWidgetDestroyEvent :: (IsWidget a, MonadIO m) => a -> WidgetDestroyEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “destroy-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #destroyEvent callback
genClosure_WidgetDestroyEvent :: WidgetDestroyEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetDestroyEventCallback :: C_WidgetDestroyEventCallback -> IO (FunPtr C_WidgetDestroyEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetDestroyEventCallback
.
noWidgetDestroyEventCallback :: Maybe WidgetDestroyEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetDestroyEventCallback
onWidgetDestroyEvent :: (IsWidget a, MonadIO m) => a -> WidgetDestroyEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “destroy-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #destroyEvent callback
wrap_WidgetDestroyEventCallback :: WidgetDestroyEventCallback -> C_WidgetDestroyEventCallback Source #
Wrap a WidgetDestroyEventCallback
into a C_WidgetDestroyEventCallback
.
directionChanged
type C_WidgetDirectionChangedCallback = Ptr () -> CUInt -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetDirectionChangedCallback Source #
= TextDirection |
|
-> IO () |
The ::direction-changed signal is emitted when the text direction of a widget changes.
afterWidgetDirectionChanged :: (IsWidget a, MonadIO m) => a -> WidgetDirectionChangedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “direction-changed
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #directionChanged callback
genClosure_WidgetDirectionChanged :: WidgetDirectionChangedCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetDirectionChangedCallback :: C_WidgetDirectionChangedCallback -> IO (FunPtr C_WidgetDirectionChangedCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetDirectionChangedCallback
.
noWidgetDirectionChangedCallback :: Maybe WidgetDirectionChangedCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetDirectionChangedCallback
onWidgetDirectionChanged :: (IsWidget a, MonadIO m) => a -> WidgetDirectionChangedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “direction-changed
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #directionChanged callback
wrap_WidgetDirectionChangedCallback :: WidgetDirectionChangedCallback -> C_WidgetDirectionChangedCallback Source #
Wrap a WidgetDirectionChangedCallback
into a C_WidgetDirectionChangedCallback
.
dragBegin
type C_WidgetDragBeginCallback = Ptr () -> Ptr DragContext -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetDragBeginCallback Source #
= DragContext |
|
-> IO () |
The ::drag-begin signal is emitted on the drag source when a drag is
started. A typical reason to connect to this signal is to set up a
custom drag icon with e.g. widgetDragSourceSetIconPixbuf
.
Note that some widgets set up a drag icon in the default handler of
this signal, so you may have to use g_signal_connect_after()
to
override what the default handler did.
afterWidgetDragBegin :: (IsWidget a, MonadIO m) => a -> WidgetDragBeginCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-begin
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #dragBegin callback
genClosure_WidgetDragBegin :: WidgetDragBeginCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetDragBeginCallback :: C_WidgetDragBeginCallback -> IO (FunPtr C_WidgetDragBeginCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetDragBeginCallback
.
noWidgetDragBeginCallback :: Maybe WidgetDragBeginCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetDragBeginCallback
onWidgetDragBegin :: (IsWidget a, MonadIO m) => a -> WidgetDragBeginCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-begin
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #dragBegin callback
wrap_WidgetDragBeginCallback :: WidgetDragBeginCallback -> C_WidgetDragBeginCallback Source #
Wrap a WidgetDragBeginCallback
into a C_WidgetDragBeginCallback
.
dragDataDelete
type C_WidgetDragDataDeleteCallback = Ptr () -> Ptr DragContext -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetDragDataDeleteCallback Source #
= DragContext |
|
-> IO () |
The ::drag-data-delete signal is emitted on the drag source when a drag
with the action DragActionMove
is successfully completed. The signal
handler is responsible for deleting the data that has been dropped. What
"delete" means depends on the context of the drag operation.
afterWidgetDragDataDelete :: (IsWidget a, MonadIO m) => a -> WidgetDragDataDeleteCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-data-delete
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #dragDataDelete callback
genClosure_WidgetDragDataDelete :: WidgetDragDataDeleteCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetDragDataDeleteCallback :: C_WidgetDragDataDeleteCallback -> IO (FunPtr C_WidgetDragDataDeleteCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetDragDataDeleteCallback
.
noWidgetDragDataDeleteCallback :: Maybe WidgetDragDataDeleteCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetDragDataDeleteCallback
onWidgetDragDataDelete :: (IsWidget a, MonadIO m) => a -> WidgetDragDataDeleteCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-data-delete
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #dragDataDelete callback
wrap_WidgetDragDataDeleteCallback :: WidgetDragDataDeleteCallback -> C_WidgetDragDataDeleteCallback Source #
Wrap a WidgetDragDataDeleteCallback
into a C_WidgetDragDataDeleteCallback
.
dragDataGet
type C_WidgetDragDataGetCallback = Ptr () -> Ptr DragContext -> Ptr SelectionData -> Word32 -> Word32 -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetDragDataGetCallback Source #
= DragContext |
|
-> SelectionData |
|
-> Word32 |
|
-> Word32 |
|
-> IO () |
The ::drag-data-get signal is emitted on the drag source when the drop
site requests the data which is dragged. It is the responsibility of
the signal handler to fill data
with the data in the format which
is indicated by info
. See selectionDataSet
and
selectionDataSetText
.
afterWidgetDragDataGet :: (IsWidget a, MonadIO m) => a -> WidgetDragDataGetCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-data-get
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #dragDataGet callback
genClosure_WidgetDragDataGet :: WidgetDragDataGetCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetDragDataGetCallback :: C_WidgetDragDataGetCallback -> IO (FunPtr C_WidgetDragDataGetCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetDragDataGetCallback
.
noWidgetDragDataGetCallback :: Maybe WidgetDragDataGetCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetDragDataGetCallback
onWidgetDragDataGet :: (IsWidget a, MonadIO m) => a -> WidgetDragDataGetCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-data-get
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #dragDataGet callback
wrap_WidgetDragDataGetCallback :: WidgetDragDataGetCallback -> C_WidgetDragDataGetCallback Source #
Wrap a WidgetDragDataGetCallback
into a C_WidgetDragDataGetCallback
.
dragDataReceived
type C_WidgetDragDataReceivedCallback = Ptr () -> Ptr DragContext -> Int32 -> Int32 -> Ptr SelectionData -> Word32 -> Word32 -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetDragDataReceivedCallback Source #
= DragContext |
|
-> Int32 |
|
-> Int32 |
|
-> SelectionData |
|
-> Word32 |
|
-> Word32 |
|
-> IO () |
The ::drag-data-received signal is emitted on the drop site when the
dragged data has been received. If the data was received in order to
determine whether the drop will be accepted, the handler is expected
to call dragStatus
and not finish the drag.
If the data was received in response to a Widget
::drag-drop
signal
(and this is the last target to be received), the handler for this
signal is expected to process the received data and then call
dragFinish
, setting the success
parameter depending on
whether the data was processed successfully.
Applications must create some means to determine why the signal was emitted
and therefore whether to call dragStatus
or dragFinish
.
The handler may inspect the selected action with
dragContextGetSelectedAction
before calling
dragFinish
, e.g. to implement DragActionAsk
as
shown in the following example:
C code
void drag_data_received (GtkWidget *widget, GdkDragContext *context, gint x, gint y, GtkSelectionData *data, guint info, guint time) { if ((data->length >= 0) && (data->format == 8)) { GdkDragAction action; // handle data here action = gdk_drag_context_get_selected_action (context); if (action == GDK_ACTION_ASK) { GtkWidget *dialog; gint response; dialog = gtk_message_dialog_new (NULL, GTK_DIALOG_MODAL | GTK_DIALOG_DESTROY_WITH_PARENT, GTK_MESSAGE_INFO, GTK_BUTTONS_YES_NO, "Move the data ?\n"); response = gtk_dialog_run (GTK_DIALOG (dialog)); gtk_widget_destroy (dialog); if (response == GTK_RESPONSE_YES) action = GDK_ACTION_MOVE; else action = GDK_ACTION_COPY; } gtk_drag_finish (context, TRUE, action == GDK_ACTION_MOVE, time); } else gtk_drag_finish (context, FALSE, FALSE, time); }
afterWidgetDragDataReceived :: (IsWidget a, MonadIO m) => a -> WidgetDragDataReceivedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-data-received
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #dragDataReceived callback
genClosure_WidgetDragDataReceived :: WidgetDragDataReceivedCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetDragDataReceivedCallback :: C_WidgetDragDataReceivedCallback -> IO (FunPtr C_WidgetDragDataReceivedCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetDragDataReceivedCallback
.
noWidgetDragDataReceivedCallback :: Maybe WidgetDragDataReceivedCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetDragDataReceivedCallback
onWidgetDragDataReceived :: (IsWidget a, MonadIO m) => a -> WidgetDragDataReceivedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-data-received
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #dragDataReceived callback
wrap_WidgetDragDataReceivedCallback :: WidgetDragDataReceivedCallback -> C_WidgetDragDataReceivedCallback Source #
Wrap a WidgetDragDataReceivedCallback
into a C_WidgetDragDataReceivedCallback
.
dragDrop
type C_WidgetDragDropCallback = Ptr () -> Ptr DragContext -> Int32 -> Int32 -> Word32 -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetDragDropCallback Source #
= DragContext |
|
-> Int32 |
|
-> Int32 |
|
-> Word32 |
|
-> IO Bool | Returns: whether the cursor position is in a drop zone |
The ::drag-drop signal is emitted on the drop site when the user drops
the data onto the widget. The signal handler must determine whether
the cursor position is in a drop zone or not. If it is not in a drop
zone, it returns False
and no further processing is necessary.
Otherwise, the handler returns True
. In this case, the handler must
ensure that dragFinish
is called to let the source know that
the drop is done. The call to dragFinish
can be done either
directly or in a Widget
::drag-data-received
handler which gets
triggered by calling widgetDragGetData
to receive the data for one
or more of the supported targets.
afterWidgetDragDrop :: (IsWidget a, MonadIO m) => a -> WidgetDragDropCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-drop
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #dragDrop callback
genClosure_WidgetDragDrop :: WidgetDragDropCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetDragDropCallback :: C_WidgetDragDropCallback -> IO (FunPtr C_WidgetDragDropCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetDragDropCallback
.
noWidgetDragDropCallback :: Maybe WidgetDragDropCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetDragDropCallback
onWidgetDragDrop :: (IsWidget a, MonadIO m) => a -> WidgetDragDropCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-drop
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #dragDrop callback
wrap_WidgetDragDropCallback :: WidgetDragDropCallback -> C_WidgetDragDropCallback Source #
Wrap a WidgetDragDropCallback
into a C_WidgetDragDropCallback
.
dragEnd
type C_WidgetDragEndCallback = Ptr () -> Ptr DragContext -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetDragEndCallback Source #
= DragContext |
|
-> IO () |
The ::drag-end signal is emitted on the drag source when a drag is
finished. A typical reason to connect to this signal is to undo
things done in Widget
::drag-begin
.
afterWidgetDragEnd :: (IsWidget a, MonadIO m) => a -> WidgetDragEndCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-end
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #dragEnd callback
genClosure_WidgetDragEnd :: WidgetDragEndCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetDragEndCallback :: C_WidgetDragEndCallback -> IO (FunPtr C_WidgetDragEndCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetDragEndCallback
.
noWidgetDragEndCallback :: Maybe WidgetDragEndCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetDragEndCallback
onWidgetDragEnd :: (IsWidget a, MonadIO m) => a -> WidgetDragEndCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-end
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #dragEnd callback
wrap_WidgetDragEndCallback :: WidgetDragEndCallback -> C_WidgetDragEndCallback Source #
Wrap a WidgetDragEndCallback
into a C_WidgetDragEndCallback
.
dragFailed
type C_WidgetDragFailedCallback = Ptr () -> Ptr DragContext -> CUInt -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetDragFailedCallback Source #
= DragContext |
|
-> DragResult |
|
-> IO Bool | Returns: |
The ::drag-failed signal is emitted on the drag source when a drag has
failed. The signal handler may hook custom code to handle a failed DnD
operation based on the type of error, it returns True
is the failure has
been already handled (not showing the default "drag operation failed"
animation), otherwise it returns False
.
Since: 2.12
afterWidgetDragFailed :: (IsWidget a, MonadIO m) => a -> WidgetDragFailedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-failed
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #dragFailed callback
genClosure_WidgetDragFailed :: WidgetDragFailedCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetDragFailedCallback :: C_WidgetDragFailedCallback -> IO (FunPtr C_WidgetDragFailedCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetDragFailedCallback
.
noWidgetDragFailedCallback :: Maybe WidgetDragFailedCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetDragFailedCallback
onWidgetDragFailed :: (IsWidget a, MonadIO m) => a -> WidgetDragFailedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-failed
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #dragFailed callback
wrap_WidgetDragFailedCallback :: WidgetDragFailedCallback -> C_WidgetDragFailedCallback Source #
Wrap a WidgetDragFailedCallback
into a C_WidgetDragFailedCallback
.
dragLeave
type C_WidgetDragLeaveCallback = Ptr () -> Ptr DragContext -> Word32 -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetDragLeaveCallback Source #
= DragContext |
|
-> Word32 |
|
-> IO () |
The ::drag-leave signal is emitted on the drop site when the cursor
leaves the widget. A typical reason to connect to this signal is to
undo things done in Widget
::drag-motion
, e.g. undo highlighting
with widgetDragUnhighlight
.
Likewise, the Widget
::drag-leave
signal is also emitted before the
::drag-drop signal, for instance to allow cleaning up of a preview item
created in the Widget
::drag-motion
signal handler.
afterWidgetDragLeave :: (IsWidget a, MonadIO m) => a -> WidgetDragLeaveCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-leave
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #dragLeave callback
genClosure_WidgetDragLeave :: WidgetDragLeaveCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetDragLeaveCallback :: C_WidgetDragLeaveCallback -> IO (FunPtr C_WidgetDragLeaveCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetDragLeaveCallback
.
noWidgetDragLeaveCallback :: Maybe WidgetDragLeaveCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetDragLeaveCallback
onWidgetDragLeave :: (IsWidget a, MonadIO m) => a -> WidgetDragLeaveCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-leave
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #dragLeave callback
wrap_WidgetDragLeaveCallback :: WidgetDragLeaveCallback -> C_WidgetDragLeaveCallback Source #
Wrap a WidgetDragLeaveCallback
into a C_WidgetDragLeaveCallback
.
dragMotion
type C_WidgetDragMotionCallback = Ptr () -> Ptr DragContext -> Int32 -> Int32 -> Word32 -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetDragMotionCallback Source #
= DragContext |
|
-> Int32 |
|
-> Int32 |
|
-> Word32 |
|
-> IO Bool | Returns: whether the cursor position is in a drop zone |
The ::drag-motion signal is emitted on the drop site when the user
moves the cursor over the widget during a drag. The signal handler
must determine whether the cursor position is in a drop zone or not.
If it is not in a drop zone, it returns False
and no further processing
is necessary. Otherwise, the handler returns True
. In this case, the
handler is responsible for providing the necessary information for
displaying feedback to the user, by calling dragStatus
.
If the decision whether the drop will be accepted or rejected can't be
made based solely on the cursor position and the type of the data, the
handler may inspect the dragged data by calling widgetDragGetData
and
defer the dragStatus
call to the Widget
::drag-data-received
handler. Note that you must pass GTK_DEST_DEFAULT_DROP
,
GTK_DEST_DEFAULT_MOTION
or GTK_DEST_DEFAULT_ALL
to widgetDragDestSet
when using the drag-motion signal that way.
Also note that there is no drag-enter signal. The drag receiver has to
keep track of whether he has received any drag-motion signals since the
last Widget
::drag-leave
and if not, treat the drag-motion signal as
an "enter" signal. Upon an "enter", the handler will typically highlight
the drop site with widgetDragHighlight
.
C code
static void drag_motion (GtkWidget *widget, GdkDragContext *context, gint x, gint y, guint time) { GdkAtom target; PrivateData *private_data = GET_PRIVATE_DATA (widget); if (!private_data->drag_highlight) { private_data->drag_highlight = 1; gtk_drag_highlight (widget); } target = gtk_drag_dest_find_target (widget, context, NULL); if (target == GDK_NONE) gdk_drag_status (context, 0, time); else { private_data->pending_status = gdk_drag_context_get_suggested_action (context); gtk_drag_get_data (widget, context, target, time); } return TRUE; } static void drag_data_received (GtkWidget *widget, GdkDragContext *context, gint x, gint y, GtkSelectionData *selection_data, guint info, guint time) { PrivateData *private_data = GET_PRIVATE_DATA (widget); if (private_data->suggested_action) { private_data->suggested_action = 0; // We are getting this data due to a request in drag_motion, // rather than due to a request in drag_drop, so we are just // supposed to call gdk_drag_status(), not actually paste in // the data. str = gtk_selection_data_get_text (selection_data); if (!data_is_acceptable (str)) gdk_drag_status (context, 0, time); else gdk_drag_status (context, private_data->suggested_action, time); } else { // accept the drop } }
afterWidgetDragMotion :: (IsWidget a, MonadIO m) => a -> WidgetDragMotionCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-motion
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #dragMotion callback
genClosure_WidgetDragMotion :: WidgetDragMotionCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetDragMotionCallback :: C_WidgetDragMotionCallback -> IO (FunPtr C_WidgetDragMotionCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetDragMotionCallback
.
noWidgetDragMotionCallback :: Maybe WidgetDragMotionCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetDragMotionCallback
onWidgetDragMotion :: (IsWidget a, MonadIO m) => a -> WidgetDragMotionCallback -> m SignalHandlerId Source #
Connect a signal handler for the “drag-motion
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #dragMotion callback
wrap_WidgetDragMotionCallback :: WidgetDragMotionCallback -> C_WidgetDragMotionCallback Source #
Wrap a WidgetDragMotionCallback
into a C_WidgetDragMotionCallback
.
draw
type C_WidgetDrawCallback = Ptr () -> Ptr Context -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetDrawCallback Source #
= Context |
|
-> IO Bool | Returns: |
This signal is emitted when a widget is supposed to render itself.
The widget
's top left corner must be painted at the origin of
the passed in context and be sized to the values returned by
widgetGetAllocatedWidth
and
widgetGetAllocatedHeight
.
Signal handlers connected to this signal can modify the cairo
context passed as cr
in any way they like and don't need to
restore it. The signal emission takes care of calling cairo_save()
before and cairo_restore()
after invoking the handler.
The signal handler will get a cr
with a clip region already set to the
widget's dirty region, i.e. to the area that needs repainting. Complicated
widgets that want to avoid redrawing themselves completely can get the full
extents of the clip region with cairoGetClipRectangle
, or they can
get a finer-grained representation of the dirty region with
cairo_copy_clip_rectangle_list()
.
Since: 3.0
afterWidgetDraw :: (IsWidget a, MonadIO m) => a -> WidgetDrawCallback -> m SignalHandlerId Source #
Connect a signal handler for the “draw
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #draw callback
genClosure_WidgetDraw :: WidgetDrawCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetDrawCallback :: C_WidgetDrawCallback -> IO (FunPtr C_WidgetDrawCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetDrawCallback
.
noWidgetDrawCallback :: Maybe WidgetDrawCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetDrawCallback
onWidgetDraw :: (IsWidget a, MonadIO m) => a -> WidgetDrawCallback -> m SignalHandlerId Source #
Connect a signal handler for the “draw
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #draw callback
wrap_WidgetDrawCallback :: WidgetDrawCallback -> C_WidgetDrawCallback Source #
Wrap a WidgetDrawCallback
into a C_WidgetDrawCallback
.
enterNotifyEvent
type C_WidgetEnterNotifyEventCallback = Ptr () -> Ptr EventCrossing -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetEnterNotifyEventCallback Source #
= EventCrossing |
|
-> IO Bool | Returns: |
The ::enter-notify-event will be emitted when the pointer enters
the widget
's window.
To receive this signal, the Window
associated to the widget needs
to enable the GDK_ENTER_NOTIFY_MASK
mask.
This signal will be sent to the grab widget if there is one.
afterWidgetEnterNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetEnterNotifyEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “enter-notify-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #enterNotifyEvent callback
genClosure_WidgetEnterNotifyEvent :: WidgetEnterNotifyEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetEnterNotifyEventCallback :: C_WidgetEnterNotifyEventCallback -> IO (FunPtr C_WidgetEnterNotifyEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetEnterNotifyEventCallback
.
noWidgetEnterNotifyEventCallback :: Maybe WidgetEnterNotifyEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetEnterNotifyEventCallback
onWidgetEnterNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetEnterNotifyEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “enter-notify-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #enterNotifyEvent callback
wrap_WidgetEnterNotifyEventCallback :: WidgetEnterNotifyEventCallback -> C_WidgetEnterNotifyEventCallback Source #
Wrap a WidgetEnterNotifyEventCallback
into a C_WidgetEnterNotifyEventCallback
.
event
type C_WidgetEventCallback = Ptr () -> Ptr Event -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetEventCallback Source #
= Event |
|
-> IO Bool | Returns: |
afterWidgetEvent :: (IsWidget a, MonadIO m) => a -> WidgetEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #event callback
genClosure_WidgetEvent :: WidgetEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetEventCallback :: C_WidgetEventCallback -> IO (FunPtr C_WidgetEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetEventCallback
.
noWidgetEventCallback :: Maybe WidgetEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetEventCallback
onWidgetEvent :: (IsWidget a, MonadIO m) => a -> WidgetEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #event callback
wrap_WidgetEventCallback :: WidgetEventCallback -> C_WidgetEventCallback Source #
Wrap a WidgetEventCallback
into a C_WidgetEventCallback
.
eventAfter
type C_WidgetEventAfterCallback = Ptr () -> Ptr Event -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetEventAfterCallback Source #
After the emission of the Widget
::event
signal and (optionally)
the second more specific signal, ::event-after will be emitted
regardless of the previous two signals handlers return values.
afterWidgetEventAfter :: (IsWidget a, MonadIO m) => a -> WidgetEventAfterCallback -> m SignalHandlerId Source #
Connect a signal handler for the “event-after
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #eventAfter callback
genClosure_WidgetEventAfter :: WidgetEventAfterCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetEventAfterCallback :: C_WidgetEventAfterCallback -> IO (FunPtr C_WidgetEventAfterCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetEventAfterCallback
.
noWidgetEventAfterCallback :: Maybe WidgetEventAfterCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetEventAfterCallback
onWidgetEventAfter :: (IsWidget a, MonadIO m) => a -> WidgetEventAfterCallback -> m SignalHandlerId Source #
Connect a signal handler for the “event-after
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #eventAfter callback
wrap_WidgetEventAfterCallback :: WidgetEventAfterCallback -> C_WidgetEventAfterCallback Source #
Wrap a WidgetEventAfterCallback
into a C_WidgetEventAfterCallback
.
focus
type C_WidgetFocusCallback = Ptr () -> CUInt -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetFocusCallback Source #
= DirectionType | |
-> IO Bool | Returns: |
No description available in the introspection data.
afterWidgetFocus :: (IsWidget a, MonadIO m) => a -> WidgetFocusCallback -> m SignalHandlerId Source #
Connect a signal handler for the “focus
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #focus callback
genClosure_WidgetFocus :: WidgetFocusCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetFocusCallback :: C_WidgetFocusCallback -> IO (FunPtr C_WidgetFocusCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetFocusCallback
.
noWidgetFocusCallback :: Maybe WidgetFocusCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetFocusCallback
onWidgetFocus :: (IsWidget a, MonadIO m) => a -> WidgetFocusCallback -> m SignalHandlerId Source #
Connect a signal handler for the “focus
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #focus callback
wrap_WidgetFocusCallback :: WidgetFocusCallback -> C_WidgetFocusCallback Source #
Wrap a WidgetFocusCallback
into a C_WidgetFocusCallback
.
focusInEvent
type C_WidgetFocusInEventCallback = Ptr () -> Ptr EventFocus -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetFocusInEventCallback Source #
= EventFocus |
|
-> IO Bool | Returns: |
The ::focus-in-event signal will be emitted when the keyboard focus
enters the widget
's window.
To receive this signal, the Window
associated to the widget needs
to enable the GDK_FOCUS_CHANGE_MASK
mask.
afterWidgetFocusInEvent :: (IsWidget a, MonadIO m) => a -> WidgetFocusInEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “focus-in-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #focusInEvent callback
genClosure_WidgetFocusInEvent :: WidgetFocusInEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetFocusInEventCallback :: C_WidgetFocusInEventCallback -> IO (FunPtr C_WidgetFocusInEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetFocusInEventCallback
.
noWidgetFocusInEventCallback :: Maybe WidgetFocusInEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetFocusInEventCallback
onWidgetFocusInEvent :: (IsWidget a, MonadIO m) => a -> WidgetFocusInEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “focus-in-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #focusInEvent callback
wrap_WidgetFocusInEventCallback :: WidgetFocusInEventCallback -> C_WidgetFocusInEventCallback Source #
Wrap a WidgetFocusInEventCallback
into a C_WidgetFocusInEventCallback
.
focusOutEvent
type C_WidgetFocusOutEventCallback = Ptr () -> Ptr EventFocus -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetFocusOutEventCallback Source #
= EventFocus |
|
-> IO Bool | Returns: |
The ::focus-out-event signal will be emitted when the keyboard focus
leaves the widget
's window.
To receive this signal, the Window
associated to the widget needs
to enable the GDK_FOCUS_CHANGE_MASK
mask.
afterWidgetFocusOutEvent :: (IsWidget a, MonadIO m) => a -> WidgetFocusOutEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “focus-out-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #focusOutEvent callback
genClosure_WidgetFocusOutEvent :: WidgetFocusOutEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetFocusOutEventCallback :: C_WidgetFocusOutEventCallback -> IO (FunPtr C_WidgetFocusOutEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetFocusOutEventCallback
.
noWidgetFocusOutEventCallback :: Maybe WidgetFocusOutEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetFocusOutEventCallback
onWidgetFocusOutEvent :: (IsWidget a, MonadIO m) => a -> WidgetFocusOutEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “focus-out-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #focusOutEvent callback
wrap_WidgetFocusOutEventCallback :: WidgetFocusOutEventCallback -> C_WidgetFocusOutEventCallback Source #
Wrap a WidgetFocusOutEventCallback
into a C_WidgetFocusOutEventCallback
.
grabBrokenEvent
type C_WidgetGrabBrokenEventCallback = Ptr () -> Ptr EventGrabBroken -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetGrabBrokenEventCallback Source #
= EventGrabBroken |
|
-> IO Bool | Returns: |
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.
Since: 2.8
afterWidgetGrabBrokenEvent :: (IsWidget a, MonadIO m) => a -> WidgetGrabBrokenEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “grab-broken-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #grabBrokenEvent callback
genClosure_WidgetGrabBrokenEvent :: WidgetGrabBrokenEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetGrabBrokenEventCallback :: C_WidgetGrabBrokenEventCallback -> IO (FunPtr C_WidgetGrabBrokenEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetGrabBrokenEventCallback
.
noWidgetGrabBrokenEventCallback :: Maybe WidgetGrabBrokenEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetGrabBrokenEventCallback
onWidgetGrabBrokenEvent :: (IsWidget a, MonadIO m) => a -> WidgetGrabBrokenEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “grab-broken-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #grabBrokenEvent callback
wrap_WidgetGrabBrokenEventCallback :: WidgetGrabBrokenEventCallback -> C_WidgetGrabBrokenEventCallback Source #
Wrap a WidgetGrabBrokenEventCallback
into a C_WidgetGrabBrokenEventCallback
.
grabFocus
type C_WidgetGrabFocusCallback = Ptr () -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetGrabFocusCallback = IO () Source #
No description available in the introspection data.
afterWidgetGrabFocus :: (IsWidget a, MonadIO m) => a -> WidgetGrabFocusCallback -> m SignalHandlerId Source #
Connect a signal handler for the “grab-focus
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #grabFocus callback
genClosure_WidgetGrabFocus :: WidgetGrabFocusCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetGrabFocusCallback :: C_WidgetGrabFocusCallback -> IO (FunPtr C_WidgetGrabFocusCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetGrabFocusCallback
.
noWidgetGrabFocusCallback :: Maybe WidgetGrabFocusCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetGrabFocusCallback
onWidgetGrabFocus :: (IsWidget a, MonadIO m) => a -> WidgetGrabFocusCallback -> m SignalHandlerId Source #
Connect a signal handler for the “grab-focus
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #grabFocus callback
wrap_WidgetGrabFocusCallback :: WidgetGrabFocusCallback -> C_WidgetGrabFocusCallback Source #
Wrap a WidgetGrabFocusCallback
into a C_WidgetGrabFocusCallback
.
grabNotify
type C_WidgetGrabNotifyCallback = Ptr () -> CInt -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetGrabNotifyCallback Source #
The ::grab-notify 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 widgetGrabAdd
when the topmost
grab widget in the grab stack of its window group is not
its ancestor.
afterWidgetGrabNotify :: (IsWidget a, MonadIO m) => a -> WidgetGrabNotifyCallback -> m SignalHandlerId Source #
Connect a signal handler for the “grab-notify
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #grabNotify callback
genClosure_WidgetGrabNotify :: WidgetGrabNotifyCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetGrabNotifyCallback :: C_WidgetGrabNotifyCallback -> IO (FunPtr C_WidgetGrabNotifyCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetGrabNotifyCallback
.
noWidgetGrabNotifyCallback :: Maybe WidgetGrabNotifyCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetGrabNotifyCallback
onWidgetGrabNotify :: (IsWidget a, MonadIO m) => a -> WidgetGrabNotifyCallback -> m SignalHandlerId Source #
Connect a signal handler for the “grab-notify
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #grabNotify callback
wrap_WidgetGrabNotifyCallback :: WidgetGrabNotifyCallback -> C_WidgetGrabNotifyCallback Source #
Wrap a WidgetGrabNotifyCallback
into a C_WidgetGrabNotifyCallback
.
hide
type C_WidgetHideCallback = Ptr () -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetHideCallback = IO () Source #
The ::hide signal is emitted when widget
is hidden, for example with
widgetHide
.
afterWidgetHide :: (IsWidget a, MonadIO m) => a -> WidgetHideCallback -> m SignalHandlerId Source #
Connect a signal handler for the “hide
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #hide callback
genClosure_WidgetHide :: WidgetHideCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetHideCallback :: C_WidgetHideCallback -> IO (FunPtr C_WidgetHideCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetHideCallback
.
noWidgetHideCallback :: Maybe WidgetHideCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetHideCallback
onWidgetHide :: (IsWidget a, MonadIO m) => a -> WidgetHideCallback -> m SignalHandlerId Source #
Connect a signal handler for the “hide
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #hide callback
wrap_WidgetHideCallback :: WidgetHideCallback -> C_WidgetHideCallback Source #
Wrap a WidgetHideCallback
into a C_WidgetHideCallback
.
hierarchyChanged
type C_WidgetHierarchyChangedCallback = Ptr () -> Ptr Widget -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetHierarchyChangedCallback Source #
= Maybe Widget |
|
-> IO () |
The ::hierarchy-changed signal is emitted when the
anchored state of a widget changes. 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.
afterWidgetHierarchyChanged :: (IsWidget a, MonadIO m) => a -> WidgetHierarchyChangedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “hierarchy-changed
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #hierarchyChanged callback
genClosure_WidgetHierarchyChanged :: WidgetHierarchyChangedCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetHierarchyChangedCallback :: C_WidgetHierarchyChangedCallback -> IO (FunPtr C_WidgetHierarchyChangedCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetHierarchyChangedCallback
.
noWidgetHierarchyChangedCallback :: Maybe WidgetHierarchyChangedCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetHierarchyChangedCallback
onWidgetHierarchyChanged :: (IsWidget a, MonadIO m) => a -> WidgetHierarchyChangedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “hierarchy-changed
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #hierarchyChanged callback
wrap_WidgetHierarchyChangedCallback :: WidgetHierarchyChangedCallback -> C_WidgetHierarchyChangedCallback Source #
Wrap a WidgetHierarchyChangedCallback
into a C_WidgetHierarchyChangedCallback
.
keyPressEvent
type C_WidgetKeyPressEventCallback = Ptr () -> Ptr EventKey -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetKeyPressEventCallback Source #
= EventKey |
|
-> IO Bool | Returns: |
The ::key-press-event signal is emitted when a key is pressed. The signal emission will reoccur at the key-repeat rate when the key is kept pressed.
To receive this signal, the Window
associated to the widget needs
to enable the GDK_KEY_PRESS_MASK
mask.
This signal will be sent to the grab widget if there is one.
afterWidgetKeyPressEvent :: (IsWidget a, MonadIO m) => a -> WidgetKeyPressEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “key-press-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #keyPressEvent callback
genClosure_WidgetKeyPressEvent :: WidgetKeyPressEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetKeyPressEventCallback :: C_WidgetKeyPressEventCallback -> IO (FunPtr C_WidgetKeyPressEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetKeyPressEventCallback
.
noWidgetKeyPressEventCallback :: Maybe WidgetKeyPressEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetKeyPressEventCallback
onWidgetKeyPressEvent :: (IsWidget a, MonadIO m) => a -> WidgetKeyPressEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “key-press-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #keyPressEvent callback
wrap_WidgetKeyPressEventCallback :: WidgetKeyPressEventCallback -> C_WidgetKeyPressEventCallback Source #
Wrap a WidgetKeyPressEventCallback
into a C_WidgetKeyPressEventCallback
.
keyReleaseEvent
type C_WidgetKeyReleaseEventCallback = Ptr () -> Ptr EventKey -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetKeyReleaseEventCallback Source #
= EventKey |
|
-> IO Bool | Returns: |
The ::key-release-event signal is emitted when a key is released.
To receive this signal, the Window
associated to the widget needs
to enable the GDK_KEY_RELEASE_MASK
mask.
This signal will be sent to the grab widget if there is one.
afterWidgetKeyReleaseEvent :: (IsWidget a, MonadIO m) => a -> WidgetKeyReleaseEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “key-release-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #keyReleaseEvent callback
genClosure_WidgetKeyReleaseEvent :: WidgetKeyReleaseEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetKeyReleaseEventCallback :: C_WidgetKeyReleaseEventCallback -> IO (FunPtr C_WidgetKeyReleaseEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetKeyReleaseEventCallback
.
noWidgetKeyReleaseEventCallback :: Maybe WidgetKeyReleaseEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetKeyReleaseEventCallback
onWidgetKeyReleaseEvent :: (IsWidget a, MonadIO m) => a -> WidgetKeyReleaseEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “key-release-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #keyReleaseEvent callback
wrap_WidgetKeyReleaseEventCallback :: WidgetKeyReleaseEventCallback -> C_WidgetKeyReleaseEventCallback Source #
Wrap a WidgetKeyReleaseEventCallback
into a C_WidgetKeyReleaseEventCallback
.
keynavFailed
type C_WidgetKeynavFailedCallback = Ptr () -> CUInt -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetKeynavFailedCallback Source #
= DirectionType |
|
-> IO Bool | Returns: |
Gets emitted if keyboard navigation fails.
See widgetKeynavFailed
for details.
Since: 2.12
afterWidgetKeynavFailed :: (IsWidget a, MonadIO m) => a -> WidgetKeynavFailedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “keynav-failed
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #keynavFailed callback
genClosure_WidgetKeynavFailed :: WidgetKeynavFailedCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetKeynavFailedCallback :: C_WidgetKeynavFailedCallback -> IO (FunPtr C_WidgetKeynavFailedCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetKeynavFailedCallback
.
noWidgetKeynavFailedCallback :: Maybe WidgetKeynavFailedCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetKeynavFailedCallback
onWidgetKeynavFailed :: (IsWidget a, MonadIO m) => a -> WidgetKeynavFailedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “keynav-failed
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #keynavFailed callback
wrap_WidgetKeynavFailedCallback :: WidgetKeynavFailedCallback -> C_WidgetKeynavFailedCallback Source #
Wrap a WidgetKeynavFailedCallback
into a C_WidgetKeynavFailedCallback
.
leaveNotifyEvent
type C_WidgetLeaveNotifyEventCallback = Ptr () -> Ptr EventCrossing -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetLeaveNotifyEventCallback Source #
= EventCrossing |
|
-> IO Bool | Returns: |
The ::leave-notify-event will be emitted when the pointer leaves
the widget
's window.
To receive this signal, the Window
associated to the widget needs
to enable the GDK_LEAVE_NOTIFY_MASK
mask.
This signal will be sent to the grab widget if there is one.
afterWidgetLeaveNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetLeaveNotifyEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “leave-notify-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #leaveNotifyEvent callback
genClosure_WidgetLeaveNotifyEvent :: WidgetLeaveNotifyEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetLeaveNotifyEventCallback :: C_WidgetLeaveNotifyEventCallback -> IO (FunPtr C_WidgetLeaveNotifyEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetLeaveNotifyEventCallback
.
noWidgetLeaveNotifyEventCallback :: Maybe WidgetLeaveNotifyEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetLeaveNotifyEventCallback
onWidgetLeaveNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetLeaveNotifyEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “leave-notify-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #leaveNotifyEvent callback
wrap_WidgetLeaveNotifyEventCallback :: WidgetLeaveNotifyEventCallback -> C_WidgetLeaveNotifyEventCallback Source #
Wrap a WidgetLeaveNotifyEventCallback
into a C_WidgetLeaveNotifyEventCallback
.
map
type C_WidgetMapCallback = Ptr () -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetMapCallback = IO () Source #
The ::map signal is emitted when widget
is going to be mapped, that is
when the widget is visible (which is controlled with
widgetSetVisible
) and all its parents up to the toplevel widget
are also visible. Once the map has occurred, Widget
::map-event
will
be emitted.
The ::map signal can be used to determine whether a widget will be drawn,
for instance it can resume an animation that was stopped during the
emission of Widget
::unmap
.
afterWidgetMap :: (IsWidget a, MonadIO m) => a -> WidgetMapCallback -> m SignalHandlerId Source #
Connect a signal handler for the “map
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #map callback
genClosure_WidgetMap :: WidgetMapCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetMapCallback :: C_WidgetMapCallback -> IO (FunPtr C_WidgetMapCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetMapCallback
.
noWidgetMapCallback :: Maybe WidgetMapCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetMapCallback
onWidgetMap :: (IsWidget a, MonadIO m) => a -> WidgetMapCallback -> m SignalHandlerId Source #
Connect a signal handler for the “map
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #map callback
wrap_WidgetMapCallback :: WidgetMapCallback -> C_WidgetMapCallback Source #
Wrap a WidgetMapCallback
into a C_WidgetMapCallback
.
mapEvent
type C_WidgetMapEventCallback = Ptr () -> Ptr EventAny -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetMapEventCallback Source #
= EventAny |
|
-> IO Bool | Returns: |
The ::map-event signal will be emitted when the widget
's window is
mapped. A window is mapped when it becomes visible on the screen.
To receive this signal, the Window
associated to the widget needs
to enable the GDK_STRUCTURE_MASK
mask. GDK will enable this mask
automatically for all new windows.
afterWidgetMapEvent :: (IsWidget a, MonadIO m) => a -> WidgetMapEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “map-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #mapEvent callback
genClosure_WidgetMapEvent :: WidgetMapEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetMapEventCallback :: C_WidgetMapEventCallback -> IO (FunPtr C_WidgetMapEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetMapEventCallback
.
noWidgetMapEventCallback :: Maybe WidgetMapEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetMapEventCallback
onWidgetMapEvent :: (IsWidget a, MonadIO m) => a -> WidgetMapEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “map-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #mapEvent callback
wrap_WidgetMapEventCallback :: WidgetMapEventCallback -> C_WidgetMapEventCallback Source #
Wrap a WidgetMapEventCallback
into a C_WidgetMapEventCallback
.
mnemonicActivate
type C_WidgetMnemonicActivateCallback = Ptr () -> CInt -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
afterWidgetMnemonicActivate :: (IsWidget a, MonadIO m) => a -> WidgetMnemonicActivateCallback -> m SignalHandlerId Source #
Connect a signal handler for the “mnemonic-activate
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #mnemonicActivate callback
genClosure_WidgetMnemonicActivate :: WidgetMnemonicActivateCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetMnemonicActivateCallback :: C_WidgetMnemonicActivateCallback -> IO (FunPtr C_WidgetMnemonicActivateCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetMnemonicActivateCallback
.
noWidgetMnemonicActivateCallback :: Maybe WidgetMnemonicActivateCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetMnemonicActivateCallback
onWidgetMnemonicActivate :: (IsWidget a, MonadIO m) => a -> WidgetMnemonicActivateCallback -> m SignalHandlerId Source #
Connect a signal handler for the “mnemonic-activate
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #mnemonicActivate callback
wrap_WidgetMnemonicActivateCallback :: WidgetMnemonicActivateCallback -> C_WidgetMnemonicActivateCallback Source #
Wrap a WidgetMnemonicActivateCallback
into a C_WidgetMnemonicActivateCallback
.
motionNotifyEvent
type C_WidgetMotionNotifyEventCallback = Ptr () -> Ptr EventMotion -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetMotionNotifyEventCallback Source #
= EventMotion |
|
-> IO Bool | Returns: |
afterWidgetMotionNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetMotionNotifyEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “motion-notify-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #motionNotifyEvent callback
genClosure_WidgetMotionNotifyEvent :: WidgetMotionNotifyEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetMotionNotifyEventCallback :: C_WidgetMotionNotifyEventCallback -> IO (FunPtr C_WidgetMotionNotifyEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetMotionNotifyEventCallback
.
noWidgetMotionNotifyEventCallback :: Maybe WidgetMotionNotifyEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetMotionNotifyEventCallback
onWidgetMotionNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetMotionNotifyEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “motion-notify-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #motionNotifyEvent callback
wrap_WidgetMotionNotifyEventCallback :: WidgetMotionNotifyEventCallback -> C_WidgetMotionNotifyEventCallback Source #
Wrap a WidgetMotionNotifyEventCallback
into a C_WidgetMotionNotifyEventCallback
.
moveFocus
type C_WidgetMoveFocusCallback = Ptr () -> CUInt -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetMoveFocusCallback = DirectionType -> IO () Source #
No description available in the introspection data.
afterWidgetMoveFocus :: (IsWidget a, MonadIO m) => a -> WidgetMoveFocusCallback -> m SignalHandlerId Source #
Connect a signal handler for the “move-focus
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #moveFocus callback
genClosure_WidgetMoveFocus :: WidgetMoveFocusCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetMoveFocusCallback :: C_WidgetMoveFocusCallback -> IO (FunPtr C_WidgetMoveFocusCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetMoveFocusCallback
.
noWidgetMoveFocusCallback :: Maybe WidgetMoveFocusCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetMoveFocusCallback
onWidgetMoveFocus :: (IsWidget a, MonadIO m) => a -> WidgetMoveFocusCallback -> m SignalHandlerId Source #
Connect a signal handler for the “move-focus
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #moveFocus callback
wrap_WidgetMoveFocusCallback :: WidgetMoveFocusCallback -> C_WidgetMoveFocusCallback Source #
Wrap a WidgetMoveFocusCallback
into a C_WidgetMoveFocusCallback
.
parentSet
type C_WidgetParentSetCallback = Ptr () -> Ptr Widget -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetParentSetCallback Source #
= Maybe Widget |
|
-> IO () |
The ::parent-set signal is emitted when a new parent has been set on a widget.
afterWidgetParentSet :: (IsWidget a, MonadIO m) => a -> WidgetParentSetCallback -> m SignalHandlerId Source #
Connect a signal handler for the “parent-set
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #parentSet callback
genClosure_WidgetParentSet :: WidgetParentSetCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetParentSetCallback :: C_WidgetParentSetCallback -> IO (FunPtr C_WidgetParentSetCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetParentSetCallback
.
noWidgetParentSetCallback :: Maybe WidgetParentSetCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetParentSetCallback
onWidgetParentSet :: (IsWidget a, MonadIO m) => a -> WidgetParentSetCallback -> m SignalHandlerId Source #
Connect a signal handler for the “parent-set
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #parentSet callback
wrap_WidgetParentSetCallback :: WidgetParentSetCallback -> C_WidgetParentSetCallback Source #
Wrap a WidgetParentSetCallback
into a C_WidgetParentSetCallback
.
popupMenu
type C_WidgetPopupMenuCallback = Ptr () -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetPopupMenuCallback Source #
This signal gets emitted whenever a widget should pop up a context
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. See the
[Popup Menu Migration Checklist][checklist-popup-menu]
for an example of how to use this signal.
afterWidgetPopupMenu :: (IsWidget a, MonadIO m) => a -> WidgetPopupMenuCallback -> m SignalHandlerId Source #
Connect a signal handler for the “popup-menu
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #popupMenu callback
genClosure_WidgetPopupMenu :: WidgetPopupMenuCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetPopupMenuCallback :: C_WidgetPopupMenuCallback -> IO (FunPtr C_WidgetPopupMenuCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetPopupMenuCallback
.
noWidgetPopupMenuCallback :: Maybe WidgetPopupMenuCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetPopupMenuCallback
onWidgetPopupMenu :: (IsWidget a, MonadIO m) => a -> WidgetPopupMenuCallback -> m SignalHandlerId Source #
Connect a signal handler for the “popup-menu
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #popupMenu callback
wrap_WidgetPopupMenuCallback :: WidgetPopupMenuCallback -> C_WidgetPopupMenuCallback Source #
Wrap a WidgetPopupMenuCallback
into a C_WidgetPopupMenuCallback
.
propertyNotifyEvent
type C_WidgetPropertyNotifyEventCallback = Ptr () -> Ptr EventProperty -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetPropertyNotifyEventCallback Source #
= EventProperty |
|
-> IO Bool | Returns: |
The ::property-notify-event signal will be emitted when a property on
the widget
's window has been changed or deleted.
To receive this signal, the Window
associated to the widget needs
to enable the GDK_PROPERTY_CHANGE_MASK
mask.
afterWidgetPropertyNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetPropertyNotifyEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “property-notify-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #propertyNotifyEvent callback
genClosure_WidgetPropertyNotifyEvent :: WidgetPropertyNotifyEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetPropertyNotifyEventCallback :: C_WidgetPropertyNotifyEventCallback -> IO (FunPtr C_WidgetPropertyNotifyEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetPropertyNotifyEventCallback
.
noWidgetPropertyNotifyEventCallback :: Maybe WidgetPropertyNotifyEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetPropertyNotifyEventCallback
onWidgetPropertyNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetPropertyNotifyEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “property-notify-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #propertyNotifyEvent callback
wrap_WidgetPropertyNotifyEventCallback :: WidgetPropertyNotifyEventCallback -> C_WidgetPropertyNotifyEventCallback Source #
proximityInEvent
type C_WidgetProximityInEventCallback = Ptr () -> Ptr EventProximity -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetProximityInEventCallback Source #
= EventProximity |
|
-> IO Bool | Returns: |
To receive this signal the Window
associated to the widget needs
to enable the GDK_PROXIMITY_IN_MASK
mask.
This signal will be sent to the grab widget if there is one.
afterWidgetProximityInEvent :: (IsWidget a, MonadIO m) => a -> WidgetProximityInEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “proximity-in-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #proximityInEvent callback
genClosure_WidgetProximityInEvent :: WidgetProximityInEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetProximityInEventCallback :: C_WidgetProximityInEventCallback -> IO (FunPtr C_WidgetProximityInEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetProximityInEventCallback
.
noWidgetProximityInEventCallback :: Maybe WidgetProximityInEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetProximityInEventCallback
onWidgetProximityInEvent :: (IsWidget a, MonadIO m) => a -> WidgetProximityInEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “proximity-in-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #proximityInEvent callback
wrap_WidgetProximityInEventCallback :: WidgetProximityInEventCallback -> C_WidgetProximityInEventCallback Source #
Wrap a WidgetProximityInEventCallback
into a C_WidgetProximityInEventCallback
.
proximityOutEvent
type C_WidgetProximityOutEventCallback = Ptr () -> Ptr EventProximity -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetProximityOutEventCallback Source #
= EventProximity |
|
-> IO Bool | Returns: |
To receive this signal the Window
associated to the widget needs
to enable the GDK_PROXIMITY_OUT_MASK
mask.
This signal will be sent to the grab widget if there is one.
afterWidgetProximityOutEvent :: (IsWidget a, MonadIO m) => a -> WidgetProximityOutEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “proximity-out-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #proximityOutEvent callback
genClosure_WidgetProximityOutEvent :: WidgetProximityOutEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetProximityOutEventCallback :: C_WidgetProximityOutEventCallback -> IO (FunPtr C_WidgetProximityOutEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetProximityOutEventCallback
.
noWidgetProximityOutEventCallback :: Maybe WidgetProximityOutEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetProximityOutEventCallback
onWidgetProximityOutEvent :: (IsWidget a, MonadIO m) => a -> WidgetProximityOutEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “proximity-out-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #proximityOutEvent callback
wrap_WidgetProximityOutEventCallback :: WidgetProximityOutEventCallback -> C_WidgetProximityOutEventCallback Source #
Wrap a WidgetProximityOutEventCallback
into a C_WidgetProximityOutEventCallback
.
queryTooltip
type C_WidgetQueryTooltipCallback = Ptr () -> Int32 -> Int32 -> CInt -> Ptr Tooltip -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetQueryTooltipCallback Source #
= Int32 |
|
-> Int32 |
|
-> Bool |
|
-> Tooltip |
|
-> IO Bool | Returns: |
Emitted when Widget
:has-tooltip
is True
and the hover timeout
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 that if
keyboardMode
is True
, the values of x
and y
are undefined and
should not be used.
The signal handler is free to manipulate tooltip
with the therefore
destined function calls.
Since: 2.12
afterWidgetQueryTooltip :: (IsWidget a, MonadIO m) => a -> WidgetQueryTooltipCallback -> m SignalHandlerId Source #
Connect a signal handler for the “query-tooltip
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #queryTooltip callback
genClosure_WidgetQueryTooltip :: WidgetQueryTooltipCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetQueryTooltipCallback :: C_WidgetQueryTooltipCallback -> IO (FunPtr C_WidgetQueryTooltipCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetQueryTooltipCallback
.
noWidgetQueryTooltipCallback :: Maybe WidgetQueryTooltipCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetQueryTooltipCallback
onWidgetQueryTooltip :: (IsWidget a, MonadIO m) => a -> WidgetQueryTooltipCallback -> m SignalHandlerId Source #
Connect a signal handler for the “query-tooltip
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #queryTooltip callback
wrap_WidgetQueryTooltipCallback :: WidgetQueryTooltipCallback -> C_WidgetQueryTooltipCallback Source #
Wrap a WidgetQueryTooltipCallback
into a C_WidgetQueryTooltipCallback
.
realize
type C_WidgetRealizeCallback = Ptr () -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetRealizeCallback = IO () Source #
The ::realize signal is emitted when widget
is associated with a
Window
, which means that widgetRealize
has been called or the
widget has been mapped (that is, it is going to be drawn).
afterWidgetRealize :: (IsWidget a, MonadIO m) => a -> WidgetRealizeCallback -> m SignalHandlerId Source #
Connect a signal handler for the “realize
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #realize callback
genClosure_WidgetRealize :: WidgetRealizeCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetRealizeCallback :: C_WidgetRealizeCallback -> IO (FunPtr C_WidgetRealizeCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetRealizeCallback
.
noWidgetRealizeCallback :: Maybe WidgetRealizeCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetRealizeCallback
onWidgetRealize :: (IsWidget a, MonadIO m) => a -> WidgetRealizeCallback -> m SignalHandlerId Source #
Connect a signal handler for the “realize
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #realize callback
wrap_WidgetRealizeCallback :: WidgetRealizeCallback -> C_WidgetRealizeCallback Source #
Wrap a WidgetRealizeCallback
into a C_WidgetRealizeCallback
.
screenChanged
type C_WidgetScreenChangedCallback = Ptr () -> Ptr Screen -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetScreenChangedCallback Source #
= Maybe Screen |
|
-> IO () |
The ::screen-changed signal gets emitted when the screen of a widget has changed.
afterWidgetScreenChanged :: (IsWidget a, MonadIO m) => a -> WidgetScreenChangedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “screen-changed
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #screenChanged callback
genClosure_WidgetScreenChanged :: WidgetScreenChangedCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetScreenChangedCallback :: C_WidgetScreenChangedCallback -> IO (FunPtr C_WidgetScreenChangedCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetScreenChangedCallback
.
noWidgetScreenChangedCallback :: Maybe WidgetScreenChangedCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetScreenChangedCallback
onWidgetScreenChanged :: (IsWidget a, MonadIO m) => a -> WidgetScreenChangedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “screen-changed
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #screenChanged callback
wrap_WidgetScreenChangedCallback :: WidgetScreenChangedCallback -> C_WidgetScreenChangedCallback Source #
Wrap a WidgetScreenChangedCallback
into a C_WidgetScreenChangedCallback
.
scrollEvent
type C_WidgetScrollEventCallback = Ptr () -> Ptr EventScroll -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetScrollEventCallback Source #
= EventScroll |
|
-> IO Bool | Returns: |
The ::scroll-event signal is emitted when a button in the 4 to 7 range is pressed. Wheel mice are usually configured to generate button press events for buttons 4 and 5 when the wheel is turned.
To receive this signal, the Window
associated to the widget needs
to enable the GDK_SCROLL_MASK
mask.
This signal will be sent to the grab widget if there is one.
afterWidgetScrollEvent :: (IsWidget a, MonadIO m) => a -> WidgetScrollEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “scroll-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #scrollEvent callback
genClosure_WidgetScrollEvent :: WidgetScrollEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetScrollEventCallback :: C_WidgetScrollEventCallback -> IO (FunPtr C_WidgetScrollEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetScrollEventCallback
.
noWidgetScrollEventCallback :: Maybe WidgetScrollEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetScrollEventCallback
onWidgetScrollEvent :: (IsWidget a, MonadIO m) => a -> WidgetScrollEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “scroll-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #scrollEvent callback
wrap_WidgetScrollEventCallback :: WidgetScrollEventCallback -> C_WidgetScrollEventCallback Source #
Wrap a WidgetScrollEventCallback
into a C_WidgetScrollEventCallback
.
selectionClearEvent
type C_WidgetSelectionClearEventCallback = Ptr () -> Ptr EventSelection -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetSelectionClearEventCallback Source #
= EventSelection |
|
-> IO Bool | Returns: |
The ::selection-clear-event signal will be emitted when the
the widget
's window has lost ownership of a selection.
afterWidgetSelectionClearEvent :: (IsWidget a, MonadIO m) => a -> WidgetSelectionClearEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “selection-clear-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #selectionClearEvent callback
genClosure_WidgetSelectionClearEvent :: WidgetSelectionClearEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetSelectionClearEventCallback :: C_WidgetSelectionClearEventCallback -> IO (FunPtr C_WidgetSelectionClearEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetSelectionClearEventCallback
.
noWidgetSelectionClearEventCallback :: Maybe WidgetSelectionClearEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetSelectionClearEventCallback
onWidgetSelectionClearEvent :: (IsWidget a, MonadIO m) => a -> WidgetSelectionClearEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “selection-clear-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #selectionClearEvent callback
wrap_WidgetSelectionClearEventCallback :: WidgetSelectionClearEventCallback -> C_WidgetSelectionClearEventCallback Source #
selectionGet
type C_WidgetSelectionGetCallback = Ptr () -> Ptr SelectionData -> Word32 -> Word32 -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetSelectionGetCallback = SelectionData -> Word32 -> Word32 -> IO () Source #
No description available in the introspection data.
afterWidgetSelectionGet :: (IsWidget a, MonadIO m) => a -> WidgetSelectionGetCallback -> m SignalHandlerId Source #
Connect a signal handler for the “selection-get
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #selectionGet callback
genClosure_WidgetSelectionGet :: WidgetSelectionGetCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetSelectionGetCallback :: C_WidgetSelectionGetCallback -> IO (FunPtr C_WidgetSelectionGetCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetSelectionGetCallback
.
noWidgetSelectionGetCallback :: Maybe WidgetSelectionGetCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetSelectionGetCallback
onWidgetSelectionGet :: (IsWidget a, MonadIO m) => a -> WidgetSelectionGetCallback -> m SignalHandlerId Source #
Connect a signal handler for the “selection-get
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #selectionGet callback
wrap_WidgetSelectionGetCallback :: WidgetSelectionGetCallback -> C_WidgetSelectionGetCallback Source #
Wrap a WidgetSelectionGetCallback
into a C_WidgetSelectionGetCallback
.
selectionNotifyEvent
type C_WidgetSelectionNotifyEventCallback = Ptr () -> Ptr EventSelection -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetSelectionNotifyEventCallback Source #
= EventSelection | |
-> IO Bool | Returns: |
No description available in the introspection data.
afterWidgetSelectionNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetSelectionNotifyEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “selection-notify-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #selectionNotifyEvent callback
genClosure_WidgetSelectionNotifyEvent :: WidgetSelectionNotifyEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetSelectionNotifyEventCallback :: C_WidgetSelectionNotifyEventCallback -> IO (FunPtr C_WidgetSelectionNotifyEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetSelectionNotifyEventCallback
.
noWidgetSelectionNotifyEventCallback :: Maybe WidgetSelectionNotifyEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetSelectionNotifyEventCallback
onWidgetSelectionNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetSelectionNotifyEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “selection-notify-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #selectionNotifyEvent callback
wrap_WidgetSelectionNotifyEventCallback :: WidgetSelectionNotifyEventCallback -> C_WidgetSelectionNotifyEventCallback Source #
selectionReceived
type C_WidgetSelectionReceivedCallback = Ptr () -> Ptr SelectionData -> Word32 -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetSelectionReceivedCallback = SelectionData -> Word32 -> IO () Source #
No description available in the introspection data.
afterWidgetSelectionReceived :: (IsWidget a, MonadIO m) => a -> WidgetSelectionReceivedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “selection-received
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #selectionReceived callback
genClosure_WidgetSelectionReceived :: WidgetSelectionReceivedCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetSelectionReceivedCallback :: C_WidgetSelectionReceivedCallback -> IO (FunPtr C_WidgetSelectionReceivedCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetSelectionReceivedCallback
.
noWidgetSelectionReceivedCallback :: Maybe WidgetSelectionReceivedCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetSelectionReceivedCallback
onWidgetSelectionReceived :: (IsWidget a, MonadIO m) => a -> WidgetSelectionReceivedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “selection-received
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #selectionReceived callback
wrap_WidgetSelectionReceivedCallback :: WidgetSelectionReceivedCallback -> C_WidgetSelectionReceivedCallback Source #
Wrap a WidgetSelectionReceivedCallback
into a C_WidgetSelectionReceivedCallback
.
selectionRequestEvent
type C_WidgetSelectionRequestEventCallback = Ptr () -> Ptr EventSelection -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetSelectionRequestEventCallback Source #
= EventSelection |
|
-> IO Bool | Returns: |
The ::selection-request-event signal will be emitted when
another client requests ownership of the selection owned by
the widget
's window.
afterWidgetSelectionRequestEvent :: (IsWidget a, MonadIO m) => a -> WidgetSelectionRequestEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “selection-request-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #selectionRequestEvent callback
genClosure_WidgetSelectionRequestEvent :: WidgetSelectionRequestEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetSelectionRequestEventCallback :: C_WidgetSelectionRequestEventCallback -> IO (FunPtr C_WidgetSelectionRequestEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetSelectionRequestEventCallback
.
noWidgetSelectionRequestEventCallback :: Maybe WidgetSelectionRequestEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetSelectionRequestEventCallback
onWidgetSelectionRequestEvent :: (IsWidget a, MonadIO m) => a -> WidgetSelectionRequestEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “selection-request-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #selectionRequestEvent callback
wrap_WidgetSelectionRequestEventCallback :: WidgetSelectionRequestEventCallback -> C_WidgetSelectionRequestEventCallback Source #
show
type C_WidgetShowCallback = Ptr () -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetShowCallback = IO () Source #
The ::show signal is emitted when widget
is shown, for example with
widgetShow
.
afterWidgetShow :: (IsWidget a, MonadIO m) => a -> WidgetShowCallback -> m SignalHandlerId Source #
Connect a signal handler for the “show
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #show callback
genClosure_WidgetShow :: WidgetShowCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetShowCallback :: C_WidgetShowCallback -> IO (FunPtr C_WidgetShowCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetShowCallback
.
noWidgetShowCallback :: Maybe WidgetShowCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetShowCallback
onWidgetShow :: (IsWidget a, MonadIO m) => a -> WidgetShowCallback -> m SignalHandlerId Source #
Connect a signal handler for the “show
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #show callback
wrap_WidgetShowCallback :: WidgetShowCallback -> C_WidgetShowCallback Source #
Wrap a WidgetShowCallback
into a C_WidgetShowCallback
.
showHelp
type C_WidgetShowHelpCallback = Ptr () -> CUInt -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetShowHelpCallback Source #
= WidgetHelpType | |
-> IO Bool | Returns: |
No description available in the introspection data.
afterWidgetShowHelp :: (IsWidget a, MonadIO m) => a -> WidgetShowHelpCallback -> m SignalHandlerId Source #
Connect a signal handler for the “show-help
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #showHelp callback
genClosure_WidgetShowHelp :: WidgetShowHelpCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetShowHelpCallback :: C_WidgetShowHelpCallback -> IO (FunPtr C_WidgetShowHelpCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetShowHelpCallback
.
noWidgetShowHelpCallback :: Maybe WidgetShowHelpCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetShowHelpCallback
onWidgetShowHelp :: (IsWidget a, MonadIO m) => a -> WidgetShowHelpCallback -> m SignalHandlerId Source #
Connect a signal handler for the “show-help
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #showHelp callback
wrap_WidgetShowHelpCallback :: WidgetShowHelpCallback -> C_WidgetShowHelpCallback Source #
Wrap a WidgetShowHelpCallback
into a C_WidgetShowHelpCallback
.
sizeAllocate
type C_WidgetSizeAllocateCallback = Ptr () -> Ptr Rectangle -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetSizeAllocateCallback Source #
No description available in the introspection data.
afterWidgetSizeAllocate :: (IsWidget a, MonadIO m) => a -> WidgetSizeAllocateCallback -> m SignalHandlerId Source #
Connect a signal handler for the “size-allocate
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #sizeAllocate callback
genClosure_WidgetSizeAllocate :: WidgetSizeAllocateCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetSizeAllocateCallback :: C_WidgetSizeAllocateCallback -> IO (FunPtr C_WidgetSizeAllocateCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetSizeAllocateCallback
.
noWidgetSizeAllocateCallback :: Maybe WidgetSizeAllocateCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetSizeAllocateCallback
onWidgetSizeAllocate :: (IsWidget a, MonadIO m) => a -> WidgetSizeAllocateCallback -> m SignalHandlerId Source #
Connect a signal handler for the “size-allocate
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #sizeAllocate callback
wrap_WidgetSizeAllocateCallback :: WidgetSizeAllocateCallback -> C_WidgetSizeAllocateCallback Source #
Wrap a WidgetSizeAllocateCallback
into a C_WidgetSizeAllocateCallback
.
stateChanged
type C_WidgetStateChangedCallback = Ptr () -> CUInt -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetStateChangedCallback Source #
Deprecated: (Since version 3.0)Use Widget
::state-flags-changed
instead.
The ::state-changed signal is emitted when the widget state changes.
See widgetGetState
.
afterWidgetStateChanged :: (IsWidget a, MonadIO m) => a -> WidgetStateChangedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “state-changed
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #stateChanged callback
genClosure_WidgetStateChanged :: WidgetStateChangedCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetStateChangedCallback :: C_WidgetStateChangedCallback -> IO (FunPtr C_WidgetStateChangedCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetStateChangedCallback
.
noWidgetStateChangedCallback :: Maybe WidgetStateChangedCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetStateChangedCallback
onWidgetStateChanged :: (IsWidget a, MonadIO m) => a -> WidgetStateChangedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “state-changed
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #stateChanged callback
wrap_WidgetStateChangedCallback :: WidgetStateChangedCallback -> C_WidgetStateChangedCallback Source #
Wrap a WidgetStateChangedCallback
into a C_WidgetStateChangedCallback
.
stateFlagsChanged
type C_WidgetStateFlagsChangedCallback = Ptr () -> CUInt -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetStateFlagsChangedCallback Source #
= [StateFlags] |
|
-> IO () |
The ::state-flags-changed signal is emitted when the widget state
changes, see widgetGetStateFlags
.
Since: 3.0
afterWidgetStateFlagsChanged :: (IsWidget a, MonadIO m) => a -> WidgetStateFlagsChangedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “state-flags-changed
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #stateFlagsChanged callback
genClosure_WidgetStateFlagsChanged :: WidgetStateFlagsChangedCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetStateFlagsChangedCallback :: C_WidgetStateFlagsChangedCallback -> IO (FunPtr C_WidgetStateFlagsChangedCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetStateFlagsChangedCallback
.
noWidgetStateFlagsChangedCallback :: Maybe WidgetStateFlagsChangedCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetStateFlagsChangedCallback
onWidgetStateFlagsChanged :: (IsWidget a, MonadIO m) => a -> WidgetStateFlagsChangedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “state-flags-changed
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #stateFlagsChanged callback
wrap_WidgetStateFlagsChangedCallback :: WidgetStateFlagsChangedCallback -> C_WidgetStateFlagsChangedCallback Source #
Wrap a WidgetStateFlagsChangedCallback
into a C_WidgetStateFlagsChangedCallback
.
styleSet
type C_WidgetStyleSetCallback = Ptr () -> Ptr Style -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetStyleSetCallback Source #
= Maybe Style |
|
-> IO () |
Deprecated: (Since version 3.0)Use the Widget
::style-updated
signal
The ::style-set 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.
Note that this signal is emitted for changes to the deprecated
Style
. To track changes to the StyleContext
associated
with a widget, use the Widget
::style-updated
signal.
afterWidgetStyleSet :: (IsWidget a, MonadIO m) => a -> WidgetStyleSetCallback -> m SignalHandlerId Source #
Connect a signal handler for the “style-set
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #styleSet callback
genClosure_WidgetStyleSet :: WidgetStyleSetCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetStyleSetCallback :: C_WidgetStyleSetCallback -> IO (FunPtr C_WidgetStyleSetCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetStyleSetCallback
.
noWidgetStyleSetCallback :: Maybe WidgetStyleSetCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetStyleSetCallback
onWidgetStyleSet :: (IsWidget a, MonadIO m) => a -> WidgetStyleSetCallback -> m SignalHandlerId Source #
Connect a signal handler for the “style-set
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #styleSet callback
wrap_WidgetStyleSetCallback :: WidgetStyleSetCallback -> C_WidgetStyleSetCallback Source #
Wrap a WidgetStyleSetCallback
into a C_WidgetStyleSetCallback
.
styleUpdated
type C_WidgetStyleUpdatedCallback = Ptr () -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetStyleUpdatedCallback = IO () Source #
The ::style-updated signal is a convenience signal that is emitted when the
StyleContext
::changed
signal is emitted on the widget
's associated
StyleContext
as returned by widgetGetStyleContext
.
Note that style-modifying functions like widgetOverrideColor
also
cause this signal to be emitted.
Since: 3.0
afterWidgetStyleUpdated :: (IsWidget a, MonadIO m) => a -> WidgetStyleUpdatedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “style-updated
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #styleUpdated callback
genClosure_WidgetStyleUpdated :: WidgetStyleUpdatedCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetStyleUpdatedCallback :: C_WidgetStyleUpdatedCallback -> IO (FunPtr C_WidgetStyleUpdatedCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetStyleUpdatedCallback
.
noWidgetStyleUpdatedCallback :: Maybe WidgetStyleUpdatedCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetStyleUpdatedCallback
onWidgetStyleUpdated :: (IsWidget a, MonadIO m) => a -> WidgetStyleUpdatedCallback -> m SignalHandlerId Source #
Connect a signal handler for the “style-updated
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #styleUpdated callback
wrap_WidgetStyleUpdatedCallback :: WidgetStyleUpdatedCallback -> C_WidgetStyleUpdatedCallback Source #
Wrap a WidgetStyleUpdatedCallback
into a C_WidgetStyleUpdatedCallback
.
touchEvent
type C_WidgetTouchEventCallback = Ptr () -> Ptr Event -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetTouchEventCallback = Event -> IO Bool Source #
No description available in the introspection data.
afterWidgetTouchEvent :: (IsWidget a, MonadIO m) => a -> WidgetTouchEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “touch-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #touchEvent callback
genClosure_WidgetTouchEvent :: WidgetTouchEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetTouchEventCallback :: C_WidgetTouchEventCallback -> IO (FunPtr C_WidgetTouchEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetTouchEventCallback
.
noWidgetTouchEventCallback :: Maybe WidgetTouchEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetTouchEventCallback
onWidgetTouchEvent :: (IsWidget a, MonadIO m) => a -> WidgetTouchEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “touch-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #touchEvent callback
wrap_WidgetTouchEventCallback :: WidgetTouchEventCallback -> C_WidgetTouchEventCallback Source #
Wrap a WidgetTouchEventCallback
into a C_WidgetTouchEventCallback
.
unmap
type C_WidgetUnmapCallback = Ptr () -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetUnmapCallback = IO () Source #
The ::unmap signal is emitted when widget
is going to be unmapped, which
means that either it or any of its parents up to the toplevel widget have
been set as hidden.
As ::unmap indicates that a widget will not be shown any longer, it can be used to, for example, stop an animation on the widget.
afterWidgetUnmap :: (IsWidget a, MonadIO m) => a -> WidgetUnmapCallback -> m SignalHandlerId Source #
Connect a signal handler for the “unmap
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #unmap callback
genClosure_WidgetUnmap :: WidgetUnmapCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetUnmapCallback :: C_WidgetUnmapCallback -> IO (FunPtr C_WidgetUnmapCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetUnmapCallback
.
noWidgetUnmapCallback :: Maybe WidgetUnmapCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetUnmapCallback
onWidgetUnmap :: (IsWidget a, MonadIO m) => a -> WidgetUnmapCallback -> m SignalHandlerId Source #
Connect a signal handler for the “unmap
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #unmap callback
wrap_WidgetUnmapCallback :: WidgetUnmapCallback -> C_WidgetUnmapCallback Source #
Wrap a WidgetUnmapCallback
into a C_WidgetUnmapCallback
.
unmapEvent
type C_WidgetUnmapEventCallback = Ptr () -> Ptr EventAny -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetUnmapEventCallback Source #
= EventAny |
|
-> IO Bool | Returns: |
The ::unmap-event signal will be emitted when the widget
's window is
unmapped. A window is unmapped when it becomes invisible on the screen.
To receive this signal, the Window
associated to the widget needs
to enable the GDK_STRUCTURE_MASK
mask. GDK will enable this mask
automatically for all new windows.
afterWidgetUnmapEvent :: (IsWidget a, MonadIO m) => a -> WidgetUnmapEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “unmap-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #unmapEvent callback
genClosure_WidgetUnmapEvent :: WidgetUnmapEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetUnmapEventCallback :: C_WidgetUnmapEventCallback -> IO (FunPtr C_WidgetUnmapEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetUnmapEventCallback
.
noWidgetUnmapEventCallback :: Maybe WidgetUnmapEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetUnmapEventCallback
onWidgetUnmapEvent :: (IsWidget a, MonadIO m) => a -> WidgetUnmapEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “unmap-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #unmapEvent callback
wrap_WidgetUnmapEventCallback :: WidgetUnmapEventCallback -> C_WidgetUnmapEventCallback Source #
Wrap a WidgetUnmapEventCallback
into a C_WidgetUnmapEventCallback
.
unrealize
type C_WidgetUnrealizeCallback = Ptr () -> Ptr () -> IO () Source #
Type for the callback on the (unwrapped) C side.
type WidgetUnrealizeCallback = IO () Source #
The ::unrealize signal is emitted when the Window
associated with
widget
is destroyed, which means that widgetUnrealize
has been
called or the widget has been unmapped (that is, it is going to be
hidden).
afterWidgetUnrealize :: (IsWidget a, MonadIO m) => a -> WidgetUnrealizeCallback -> m SignalHandlerId Source #
Connect a signal handler for the “unrealize
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #unrealize callback
genClosure_WidgetUnrealize :: WidgetUnrealizeCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetUnrealizeCallback :: C_WidgetUnrealizeCallback -> IO (FunPtr C_WidgetUnrealizeCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetUnrealizeCallback
.
noWidgetUnrealizeCallback :: Maybe WidgetUnrealizeCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetUnrealizeCallback
onWidgetUnrealize :: (IsWidget a, MonadIO m) => a -> WidgetUnrealizeCallback -> m SignalHandlerId Source #
Connect a signal handler for the “unrealize
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #unrealize callback
wrap_WidgetUnrealizeCallback :: WidgetUnrealizeCallback -> C_WidgetUnrealizeCallback Source #
Wrap a WidgetUnrealizeCallback
into a C_WidgetUnrealizeCallback
.
visibilityNotifyEvent
type C_WidgetVisibilityNotifyEventCallback = Ptr () -> Ptr EventVisibility -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetVisibilityNotifyEventCallback Source #
= EventVisibility |
|
-> IO Bool | Returns: |
Deprecated: (Since version 3.12)Modern composited windowing systems with pervasive transparency make it impossible to track the visibility of a window reliably, so this signal can not be guaranteed to provide useful information.
The ::visibility-notify-event will be emitted when the widget
's
window is obscured or unobscured.
To receive this signal the Window
associated to the widget needs
to enable the GDK_VISIBILITY_NOTIFY_MASK
mask.
afterWidgetVisibilityNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetVisibilityNotifyEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “visibility-notify-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #visibilityNotifyEvent callback
genClosure_WidgetVisibilityNotifyEvent :: WidgetVisibilityNotifyEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetVisibilityNotifyEventCallback :: C_WidgetVisibilityNotifyEventCallback -> IO (FunPtr C_WidgetVisibilityNotifyEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetVisibilityNotifyEventCallback
.
noWidgetVisibilityNotifyEventCallback :: Maybe WidgetVisibilityNotifyEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetVisibilityNotifyEventCallback
onWidgetVisibilityNotifyEvent :: (IsWidget a, MonadIO m) => a -> WidgetVisibilityNotifyEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “visibility-notify-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #visibilityNotifyEvent callback
wrap_WidgetVisibilityNotifyEventCallback :: WidgetVisibilityNotifyEventCallback -> C_WidgetVisibilityNotifyEventCallback Source #
windowStateEvent
type C_WidgetWindowStateEventCallback = Ptr () -> Ptr EventWindowState -> Ptr () -> IO CInt Source #
Type for the callback on the (unwrapped) C side.
type WidgetWindowStateEventCallback Source #
= EventWindowState |
|
-> IO Bool | Returns: |
The ::window-state-event will be emitted when the state of the
toplevel window associated to the widget
changes.
To receive this signal the Window
associated to the widget
needs to enable the GDK_STRUCTURE_MASK
mask. GDK will enable
this mask automatically for all new windows.
afterWidgetWindowStateEvent :: (IsWidget a, MonadIO m) => a -> WidgetWindowStateEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “window-state-event
” signal, to be run after the default handler.
When overloading is enabled, this is equivalent to
after
widget #windowStateEvent callback
genClosure_WidgetWindowStateEvent :: WidgetWindowStateEventCallback -> IO Closure Source #
Wrap the callback into a Closure
.
mk_WidgetWindowStateEventCallback :: C_WidgetWindowStateEventCallback -> IO (FunPtr C_WidgetWindowStateEventCallback) Source #
Generate a function pointer callable from C code, from a C_WidgetWindowStateEventCallback
.
noWidgetWindowStateEventCallback :: Maybe WidgetWindowStateEventCallback Source #
A convenience synonym for
.Nothing
:: Maybe
WidgetWindowStateEventCallback
onWidgetWindowStateEvent :: (IsWidget a, MonadIO m) => a -> WidgetWindowStateEventCallback -> m SignalHandlerId Source #
Connect a signal handler for the “window-state-event
” signal, to be run before the default handler.
When overloading is enabled, this is equivalent to
on
widget #windowStateEvent callback