QTouchEvent#
The QTouchEvent
class contains parameters that describe a touch event. More…
New in version 4.6.
Synopsis#
Functions#
def
__repr__
()def
target
()def
touchPoints
()
Note
This documentation may contain snippets that were automatically translated from C++ to Python. We always welcome contributions to the snippet translation. If you see an issue with the translation, you can also let us know by creating a ticket on https:/bugreports.qt.io/projects/PYSIDE
Detailed Description#
Enabling Touch Events#
Touch events occur when pressing, releasing, or moving one or more touch points on a touch device (such as a touch-screen or track-pad). To receive touch events, widgets have to have the WA_AcceptTouchEvents
attribute set and graphics items need to have the acceptTouchEvents
attribute set to true.
When using QAbstractScrollArea
based widgets, you should enable the WA_AcceptTouchEvents
attribute on the scroll area’s viewport
.
Similarly to QMouseEvent
, Qt automatically grabs each touch point on the first press inside a widget, and the widget will receive all updates for the touch point until it is released. Note that it is possible for a widget to receive events for numerous touch points, and that multiple widgets may be receiving touch events at the same time.
Event Handling#
All touch events are of type TouchBegin
, TouchUpdate
, TouchEnd
or TouchCancel
. Reimplement event()
or viewportEvent()
for widgets and sceneEvent()
for items in a graphics view to receive touch events.
Unlike widgets, QWindows receive touch events always, there is no need to opt in. When working directly with a QWindow
, it is enough to reimplement touchEvent()
.
The TouchUpdate
and TouchEnd
events are sent to the widget or item that accepted the TouchBegin
event. If the TouchBegin
event is not accepted and not filtered by an event filter, then no further touch events are sent until the next TouchBegin
.
Some systems may send an event of type TouchCancel
. Upon receiving this event applications are requested to ignore the entire active touch sequence. For example in a composited system the compositor may decide to treat certain gestures as system-wide gestures. Whenever such a decision is made (the gesture is recognized), the clients will be notified with a TouchCancel
event so they can update their state accordingly.
The pointCount()
and point()
functions can be used to access and iterate individual touch points.
The points()
function returns a list of all touch points contained in the event. Note that this list may be empty, for example in case of a TouchCancel
event. Each point is an instance of the QEventPoint
class. The State
enum describes the different states that a touch point may have.
Note
The list of points()
will never be partial: A touch event will always contain a touch point for each existing physical touch contacts targeting the window or widget to which the event is sent. For instance, assuming that all touches target the same window or widget, an event with a condition of points()
.count()==2 is guaranteed to imply that the number of fingers touching the touchscreen or touchpad is exactly two.
Event Delivery and Propagation#
By default, QGuiApplication
translates the first touch point in a QTouchEvent
into a QMouseEvent
. This makes it possible to enable touch events on existing widgets that do not normally handle QTouchEvent
. See below for information on some special considerations needed when doing this.
TouchBegin
is the first touch event sent to a widget. The TouchBegin
event contains a special accept flag that indicates whether the receiver wants the event. By default, the event is accepted. You should call ignore()
if the touch event is not handled by your widget. The TouchBegin
event is propagated up the parent widget chain until a widget accepts it with accept()
, or an event filter consumes it. For QGraphicsItems, the TouchBegin
event is propagated to items under the mouse (similar to mouse event propagation for QGraphicsItems).
Touch Point Grouping#
As mentioned above, it is possible that several widgets can be receiving QTouchEvents at the same time. However, Qt makes sure to never send duplicate TouchBegin
events to the same widget, which could theoretically happen during propagation if, for example, the user touched 2 separate widgets in a QGroupBox
and both widgets ignored the TouchBegin
event.
To avoid this, Qt will group new touch points together using the following rules:
When the first touch point is detected, the destination widget is determined firstly by the location on screen and secondly by the propagation rules.
When additional touch points are detected, Qt first looks to see if there are any active touch points on any ancestor or descendent of the widget under the new touch point. If there are, the new touch point is grouped with the first, and the new touch point will be sent in a single
QTouchEvent
to the widget that handled the first touch point. (The widget under the new touch point will not receive an event).
This makes it possible for sibling widgets to handle touch events independently while making sure that the sequence of QTouchEvents is always correct.
Mouse Events and Touch Event Synthesizing#
QTouchEvent
delivery is independent from that of QMouseEvent
. The application flags AA_SynthesizeTouchForUnhandledMouseEvents
and AA_SynthesizeMouseForUnhandledTouchEvents
can be used to enable or disable automatic synthesizing of touch events to mouse events and mouse events to touch events.
Caveats#
As mentioned above, enabling touch events means multiple widgets can be receiving touch events simultaneously. Combined with the default
event()
handling for QTouchEvents, this gives you great flexibility in designing touch user interfaces. Be aware of the implications. For example, it is possible that the user is moving aQSlider
with one finger and pressing aQPushButton
with another. The signals emitted by these widgets will be interleaved.Recursion into the event loop using one of the exec() methods (e.g.,
exec()
orexec()
) in aQTouchEvent
event handler is not supported. Since there are multiple event recipients, recursion may cause problems, including but not limited to lost events and unexpected infinite recursion.QTouchEvents are not affected by a
mouse grab
or anactive pop-up widget
. The behavior of QTouchEvents is undefined when opening a pop-up or grabbing the mouse while there are more than one active touch points.See also
QEventPoint
State
WA_AcceptTouchEvents
acceptTouchEvents()
- class PySide6.QtGui.QTouchEvent(eventType[, device=None[, modifiers=Qt.NoModifier[, touchPoints={}]]])#
PySide6.QtGui.QTouchEvent(arg__1)
- Parameters:
arg__1 –
PySide6.QtGui.QTouchEvent
touchPoints –
eventType –
Type
modifiers –
KeyboardModifiers
device –
PySide6.QtGui.QPointingDevice
Use another constructor.
Constructs a QTouchEvent
with the given eventType
, device
, touchPoints
, and current keyboard modifiers
at the time of the event.
- PySide6.QtGui.QTouchEvent.__repr__()#
- Return type:
object
- PySide6.QtGui.QTouchEvent.target()#
- Return type:
Returns the target object within the window on which the event occurred. This is typically a QWidget
or a QQuickItem
. May be 0 when no specific target is available.
- PySide6.QtGui.QTouchEvent.touchPoints()#
- Return type:
Note
This function is deprecated.
Use points()
instead.
Returns a reference to the list of touch points contained in the touch event.
See also