QTimer#
The QTimer
class provides repetitive and single-shot timers. More…
Synopsis#
Properties#
interval
- The timeout interval in millisecondsremainingTime
- The remaining time in millisecondssingleShot
- Whether the timer is a single-shot timertimerType
- Controls the accuracy of the timer
Functions#
def
interval
()def
isActive
()def
isSingleShot
()def
remainingTime
()def
setInterval
(msec)def
setSingleShot
(singleShot)def
setTimerType
(atype)def
timerId
()def
timerType
()
Slots#
Signals#
def
timeout
()
Static functions#
def
singleShot
(msec, timerType, receiver, member)def
singleShot
(msec, receiver, member)def
singleShot
(msec, context, functor)def
singleShot
(arg__1, arg__2)
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#
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
The QTimer
class provides a high-level programming interface for timers. To use it, create a QTimer
, connect its timeout()
signal to the appropriate slots, and call start()
. From then on, it will emit the timeout()
signal at constant intervals.
Example for a one second (1000 millisecond) timer (from the Analog Clock example):
timer = QTimer(self) timer.timeout.connect(this, QOverload<>::of(&AnalogClock::update)) timer.start(1000)
From then on, the update()
slot is called every second.
You can set a timer to time out only once by calling setSingleShot
(true). You can also use the static singleShot()
function to call a slot after a specified interval:
QTimer::singleShot(200, self.updateCaption)
In multithreaded applications, you can use QTimer
in any thread that has an event loop. To start an event loop from a non-GUI thread, use exec()
. Qt uses the timer’s thread affinity
to determine which thread will emit the timeout()
signal. Because of this, you must start and stop the timer in its thread; it is not possible to start a timer from another thread.
As a special case, a QTimer
with a timeout of 0 will time out as soon as possible, though the ordering between zero timers and other sources of events is unspecified. Zero timers can be used to do some work while still providing a snappy user interface:
timer = QTimer(self) timer.timeout.connect(self.processOneThing) timer.start()
From then on, processOneThing()
will be called repeatedly. It should be written in such a way that it always returns quickly (typically after processing one data item) so that Qt can deliver events to the user interface and stop the timer as soon as it has done all its work. This is the traditional way of implementing heavy work in GUI applications, but as multithreading is nowadays becoming available on more and more platforms, we expect that zero-millisecond QTimer
objects will gradually be replaced by QThread
s.
Accuracy and Timer Resolution#
The accuracy of timers depends on the underlying operating system and hardware. Most platforms support a resolution of 1 millisecond, though the accuracy of the timer will not equal this resolution in many real-world situations.
The accuracy also depends on the timer type
. For PreciseTimer
, QTimer
will try to keep the accuracy at 1 millisecond. Precise timers will also never time out earlier than expected.
For CoarseTimer
and VeryCoarseTimer
types, QTimer
may wake up earlier than expected, within the margins for those types: 5% of the interval for CoarseTimer
and 500 ms for VeryCoarseTimer
.
All timer types may time out later than expected if the system is busy or unable to provide the requested accuracy. In such a case of timeout overrun, Qt will emit timeout()
only once, even if multiple timeouts have expired, and then will resume the original interval.
Alternatives to QTimer#
An alternative to using QTimer
is to call startTimer()
for your object and reimplement the timerEvent()
event handler in your class (which must inherit QObject
). The disadvantage is that timerEvent()
does not support such high-level features as single-shot timers or signals.
Another alternative is QBasicTimer
. It is typically less cumbersome than using startTimer()
directly. See Timers for an overview of all three approaches.
Some operating systems limit the number of timers that may be used; Qt tries to work around these limitations.
See also
QBasicTimer
QTimerEvent
timerEvent()
TimersAnalog Clock
- class PySide6.QtCore.QTimer([parent=None])#
- Parameters:
parent –
PySide6.QtCore.QObject
Constructs a timer with the given parent
.
Note
Properties can be used directly when from __feature__ import true_property
is used or via accessor functions otherwise.
- property PᅟySide6.QtCore.QTimer.active: bool#
This boolean property is true
if the timer is running; otherwise false.
- Access functions:
isActive
()
- property PᅟySide6.QtCore.QTimer.interval: int#
This property holds the timeout interval in milliseconds.
The default value for this property is 0. A QTimer
with a timeout interval of 0 will time out as soon as all the events in the window system’s event queue have been processed.
Setting the interval of an active timer changes its timerId()
.
See also
- Access functions:
interval
()setInterval
(msec)
- property PᅟySide6.QtCore.QTimer.remainingTime: int#
This property holds the remaining time in milliseconds.
Returns the timer’s remaining value in milliseconds left until the timeout. If the timer is inactive, the returned value will be -1. If the timer is overdue, the returned value will be 0.
See also
- Access functions:
- property PᅟySide6.QtCore.QTimer.singleShot: bool#
This property holds whether the timer is a single-shot timer.
A single-shot timer fires only once, non-single-shot timers fire every interval
milliseconds.
The default value for this property is false
.
See also
- Access functions:
isSingleShot
()setSingleShot
(singleShot)
- property PᅟySide6.QtCore.QTimer.timerType: TimerType#
This property holds controls the accuracy of the timer.
The default value for this property is Qt::CoarseTimer
.
See also
TimerType
- Access functions:
timerType
()setTimerType
(atype)
- PySide6.QtCore.QTimer.interval()#
- Return type:
int
See also
Getter of property interval
.
- PySide6.QtCore.QTimer.isActive()#
- Return type:
bool
Returns true
if the timer is running (pending); otherwise returns false.
Getter of property active
.
- PySide6.QtCore.QTimer.isSingleShot()#
- Return type:
bool
Getter of property singleShot
.
- PySide6.QtCore.QTimer.remainingTime()#
- Return type:
int
Getter of property remainingTime
.
- PySide6.QtCore.QTimer.setInterval(msec)#
- Parameters:
msec – int
See also
Setter of property interval
.
- PySide6.QtCore.QTimer.setSingleShot(singleShot)#
- Parameters:
singleShot – bool
See also
Setter of property singleShot
.
Setter of property timerType
.
- static PySide6.QtCore.QTimer.singleShot(msec, timerType, receiver, member)#
- Parameters:
msec – int
timerType –
TimerType
receiver –
PySide6.QtCore.QObject
member – str
This is an overloaded function.
This static function calls a slot after a given time interval.
It is very convenient to use this function because you do not need to bother with a timerEvent
or create a local QTimer
object.
The receiver
is the receiving object and the member
is the slot. The time interval is msec
milliseconds. The timerType
affects the accuracy of the timer.
See also
- static PySide6.QtCore.QTimer.singleShot(msec, receiver, member)
- Parameters:
msec – int
receiver –
PySide6.QtCore.QObject
member – str
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
This static function calls a slot after a given time interval.
It is very convenient to use this function because you do not need to bother with a timerEvent
or create a local QTimer
object.
Example:
from PySide6.QtWidgets import QApplication from PySide6.QtCore import QTimer if __name__ == "__main__": app = QApplication([]) QTimer.singleShot(600000, app, QCoreApplication.quit) ... sys.exit(app.exec())
This sample program automatically terminates after 10 minutes (600,000 milliseconds).
The receiver
is the receiving object and the member
is the slot. The time interval is msec
milliseconds.
See also
- static PySide6.QtCore.QTimer.singleShot(msec, context, functor)
- Parameters:
msec – int
context –
PySide6.QtCore.QObject
functor –
PyCallable
- static PySide6.QtCore.QTimer.singleShot(arg__1, arg__2)
- Parameters:
arg__1 – int
arg__2 –
PyCallable
- PySide6.QtCore.QTimer.start()#
This function overloads start().
Starts or restarts the timer with the timeout specified in interval
.
If the timer is already running, it will be stopped
and restarted.
If singleShot
is true, the timer will be activated only once.
- PySide6.QtCore.QTimer.start(msec)
- Parameters:
msec – int
Starts or restarts the timer with a timeout interval of msec
milliseconds.
If the timer is already running, it will be stopped
and restarted.
If singleShot
is true, the timer will be activated only once. This is equivalent to:
timer.setInterval(msec); timer.start();
Note
Keeping the event loop busy with a zero-timer is bound to cause trouble and highly erratic behavior of the UI.
- PySide6.QtCore.QTimer.stop()#
Stops the timer.
See also
- PySide6.QtCore.QTimer.timeout()#
This signal is emitted when the timer times out.
- PySide6.QtCore.QTimer.timerId()#
- Return type:
int
Returns the ID of the timer if the timer is running; otherwise returns -1.
- PySide6.QtCore.QTimer.timerType()#
- Return type:
See also
Getter of property timerType
.