QDeadlineTimer#
The QDeadlineTimer
class marks a deadline in the future. More…
Synopsis#
Functions#
def
_q_data
()def
deadline
()def
deadlineNSecs
()def
hasExpired
()def
isForever
()def
__ne__
(d2)def
__add__
(msecs)def
__iadd__
(msecs)def
__sub__
(dt2)def
__sub__
(msecs)def
__isub__
(msecs)def
__lt__
(d2)def
__le__
(d2)def
__eq__
(d2)def
__gt__
(d2)def
__ge__
(d2)def
remainingTime
()def
remainingTimeNSecs
()def
setDeadline
(msecs[, timerType=Qt.CoarseTimer])def
setPreciseDeadline
(secs[, nsecs=0[, type=Qt.CoarseTimer]])def
setPreciseRemainingTime
(secs[, nsecs=0[, type=Qt.CoarseTimer]])def
setRemainingTime
(msecs[, type=Qt.CoarseTimer])def
setTimerType
(type)def
swap
(other)def
timerType
()
Static functions#
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 QDeadlineTimer
class is usually used to calculate future deadlines and verify whether the deadline has expired. QDeadlineTimer
can also be used for deadlines without expiration (“forever”). It forms a counterpart to QElapsedTimer
, which calculates how much time has elapsed since start()
was called.
QDeadlineTimer
provides a more convenient API compared to hasExpired()
.
The typical use-case for the class is to create a QDeadlineTimer
before the operation in question is started, and then use remainingTime()
or hasExpired()
to determine whether to continue trying the operation. QDeadlineTimer
objects can be passed to functions being called to execute this operation so they know how long to still operate.
def executeOperation(msecs): deadline = QDeadlineTimer(msecs) do { if readFromDevice(deadline.remainingTime()): break waitForReadyRead(deadline) } while (not deadline.hasExpired())
Many QDeadlineTimer
functions deal with time out values, which all are measured in milliseconds. There are two special values, the same as many other Qt functions named waitFor
or similar:
0: no time left, expired
-1: infinite time left, timer never expires
Reference Clocks#
QDeadlineTimer
will use the same clock as QElapsedTimer
(see clockType()
and isMonotonic()
).
Timer types#
Like QTimer
, QDeadlineTimer
can select among different levels of coarseness on the timers. You can select precise timing by passing PreciseTimer
to the functions that set of change the timer, or you can select coarse timing by passing CoarseTimer
. VeryCoarseTimer
is currently interpreted the same way as CoarseTimer
.
This feature is dependent on support from the operating system: if the OS does not support a coarse timer functionality, then QDeadlineTimer
will behave like PreciseTimer
was passed.
QDeadlineTimer
defaults to CoarseTimer
because on operating systems that do support coarse timing, making timing calls to that clock source is often much more efficient. The level of coarseness depends on the operating system, but should be in the order of a couple of milliseconds.
`` std::chrono``
Compatibility#
QDeadlineTimer
is compatible with the std::chrono
API from C++11 and can be constructed from or compared to both std::chrono::duration
and std::chrono::time_point
objects. In addition, it is fully compatible with the time literals from C++14, which allow one to write code as:
namespace = using() namespace = using() deadline = QDeadlineTimer(30s) device.waitForReadyRead(deadline) if deadline.remainingTime<nanoseconds>() > 300ms: cleanup()
As can be seen in the example above, QDeadlineTimer
offers a templated version of remainingTime()
and deadline()
that can be used to return std::chrono
objects.
Note that comparing to time_point
is not as efficient as comparing to duration
, since QDeadlineTimer
may need to convert from its own internal clock source to the clock source used by the time_point
object. Also note that, due to this conversion, the deadlines will not be precise, so the following code is not expected to compare equally:
namespace = using() namespace = using() now = steady_clock::now() deadline = QDeadlineTimer(now + 1s) Q_ASSERT(deadline == now + 1s)See also
QTime
QTimer
QDeadlineTimer
TimerType
- class PySide6.QtCore.QDeadlineTimer(arg__1[, type_=Qt.CoarseTimer])#
PySide6.QtCore.QDeadlineTimer([type_=Qt.CoarseTimer])
PySide6.QtCore.QDeadlineTimer(msecs[, type=Qt.CoarseTimer])
- Parameters:
arg__1 –
ForeverConstant
msecs – int
type –
TimerType
type –
TimerType
QDeadlineTimer
objects created with ForeverConstant
never expire. For such objects, remainingTime()
will return -1, deadline()
will return the maximum value, and isForever()
will return true.
The timer type timerType
may be ignored, since the timer will never expire.
See also
ForeverConstant
hasExpired()
isForever()
remainingTime()
timerType()
Constructs an expired QDeadlineTimer
object. For this object, remainingTime()
will return 0.
The timer type timerType
may be ignored, since the timer is already expired. Similarly, for optimization purposes, this function will not attempt to obtain the current time and will use a value known to be in the past. Therefore, deadline()
may return an unexpected value and this object cannot be used in calculation of how long it is overdue. If that functionality is required, use current()
.
See also
hasExpired()
remainingTime()
TimerType
current()
Constructs a QDeadlineTimer
object with an expiry time of msecs
msecs from the moment of the creation of this object, if msecs is positive. If msecs
is zero, this QDeadlineTimer
will be marked as expired, causing remainingTime()
to return zero and deadline()
to return an indeterminate time point in the past. If msecs
is -1, the timer will be set to never expire, causing remainingTime()
to return -1 and deadline()
to return the maximum value.
The QDeadlineTimer
object will be constructed with the specified timer type
.
For optimization purposes, if msecs
is zero, this function may skip obtaining the current time and may instead use a value known to be in the past. If that happens, deadline()
may return an unexpected value and this object cannot be used in calculation of how long it is overdue. If that functionality is required, use current()
and add time to it.
- PySide6.QtCore.QDeadlineTimer.ForeverConstant#
Constant
Description
QDeadlineTimer.Forever
Used when creating a
QDeadlineTimer
to indicate the deadline should not expire
- PySide6.QtCore.QDeadlineTimer._q_data()#
- Return type:
- static PySide6.QtCore.QDeadlineTimer.addNSecs(dt, nsecs)#
- Parameters:
nsecs – int
- Return type:
Returns a QDeadlineTimer
object whose deadline is extended from dt
's deadline by nsecs
nanoseconds. If dt
was set to never expire, this function returns a QDeadlineTimer
that will not expire either.
Note
if dt
was created as expired, its deadline is indeterminate and adding an amount of time may or may not cause it to become unexpired.
- static PySide6.QtCore.QDeadlineTimer.current([timerType=Qt.CoarseTimer])#
- Parameters:
timerType –
TimerType
- Return type:
Returns a QDeadlineTimer
that is expired but is guaranteed to contain the current time. Objects created by this function can participate in the calculation of how long a timer is overdue, using the deadline()
function.
The QDeadlineTimer
object will be constructed with the specified timerType
.
- PySide6.QtCore.QDeadlineTimer.deadline()#
- Return type:
int
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
Returns the absolute time point for the deadline stored in QDeadlineTimer
object, calculated in milliseconds relative to the reference clock, the same as msecsSinceReference()
. The value will be in the past if this QDeadlineTimer
has expired.
If this QDeadlineTimer
never expires, this function returns std::numeric_limits<qint64>::max()
.
This function can be used to calculate the amount of time a timer is overdue, by subtracting current()
or msecsSinceReference()
, as in the following example:
realTimeLeft = deadline.deadline() if realTimeLeft != (std.numeric_limits<qint64>.max)(): realTimeLeft -= QDeadlineTimer.current().deadline() # or: #QElapsedTimer timer #timer.start() #realTimeLeft -= timer.msecsSinceReference()
Note
Timers that were created as expired have an indetermine time point in the past as their deadline, so the above calculation may not work.
See also
- PySide6.QtCore.QDeadlineTimer.deadlineNSecs()#
- Return type:
int
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
Returns the absolute time point for the deadline stored in QDeadlineTimer
object, calculated in nanoseconds relative to the reference clock, the same as msecsSinceReference()
. The value will be in the past if this QDeadlineTimer
has expired.
If this QDeadlineTimer
never expires or the number of nanoseconds until the deadline can’t be accommodated in the return type, this function returns std::numeric_limits<qint64>::max()
.
This function can be used to calculate the amount of time a timer is overdue, by subtracting current()
, as in the following example:
realTimeLeft = deadline.deadlineNSecs() if realTimeLeft != std.numeric_limits<qint64>.max(): realTimeLeft -= QDeadlineTimer.current().deadlineNSecs()
Note
Timers that were created as expired have an indetermine time point in the past as their deadline, so the above calculation may not work.
See also
- PySide6.QtCore.QDeadlineTimer.hasExpired()#
- Return type:
bool
Returns true if this QDeadlineTimer
object has expired, false if there remains time left. For objects that have expired, remainingTime()
will return zero and deadline()
will return a time point in the past.
QDeadlineTimer
objects created with the ForeverConstant
never expire and this function always returns false for them.
See also
- PySide6.QtCore.QDeadlineTimer.isForever()#
- Return type:
bool
Returns true if this QDeadlineTimer
object never expires, false otherwise. For timers that never expire, remainingTime()
always returns -1 and deadline()
returns the maximum value.
See also
ForeverConstant
hasExpired()
remainingTime()
- PySide6.QtCore.QDeadlineTimer.__ne__(d2)#
- Parameters:
- Return type:
bool
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
Returns true if the deadline on d1
and the deadline in d2
are different, false otherwise. The timer type used to create the two deadlines is ignored. This function is equivalent to:
return d1.deadlineNSecs() != d2.deadlineNSecs()
Note
comparing QDeadlineTimer
objects with different timer types is not supported and may result in unpredictable behavior.
- PySide6.QtCore.QDeadlineTimer.__add__(msecs)#
- Parameters:
msecs – int
- Return type:
Returns a QDeadlineTimer
object whose deadline is msecs
later than the deadline stored in dt
. If dt
is set to never expire, this function returns a QDeadlineTimer
that does not expire either.
To add times of precision greater than 1 millisecond, use addNSecs()
.
- PySide6.QtCore.QDeadlineTimer.__iadd__(msecs)#
- Parameters:
msecs – int
- Return type:
Extends this QDeadlineTimer
object by msecs
milliseconds and returns itself. If this object is set to never expire, this function does nothing.
To add times of precision greater than 1 millisecond, use addNSecs()
.
- PySide6.QtCore.QDeadlineTimer.__sub__(dt2)#
- Parameters:
- Return type:
int
- PySide6.QtCore.QDeadlineTimer.__sub__(msecs)
- Parameters:
msecs – int
- Return type:
Returns a QDeadlineTimer
object whose deadline is msecs
before the deadline stored in dt
. If dt
is set to never expire, this function returns a QDeadlineTimer
that does not expire either.
To subtract times of precision greater than 1 millisecond, use addNSecs()
.
- PySide6.QtCore.QDeadlineTimer.__isub__(msecs)#
- Parameters:
msecs – int
- Return type:
Shortens this QDeadlineTimer
object by msecs
milliseconds and returns itself. If this object is set to never expire, this function does nothing.
To subtract times of precision greater than 1 millisecond, use addNSecs()
.
- PySide6.QtCore.QDeadlineTimer.__lt__(d2)#
- Parameters:
- Return type:
bool
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
Returns true if the deadline on d1
is earlier than the deadline in d2
, false otherwise. The timer type used to create the two deadlines is ignored. This function is equivalent to:
return d1.deadlineNSecs() < d2.deadlineNSecs()
Note
comparing QDeadlineTimer
objects with different timer types is not supported and may result in unpredictable behavior.
- PySide6.QtCore.QDeadlineTimer.__le__(d2)#
- Parameters:
- Return type:
bool
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
Returns true if the deadline on d1
is earlier than or the same as the deadline in d2
, false otherwise. The timer type used to create the two deadlines is ignored. This function is equivalent to:
return d1.deadlineNSecs() <= d2.deadlineNSecs()
Note
comparing QDeadlineTimer
objects with different timer types is not supported and may result in unpredictable behavior.
- PySide6.QtCore.QDeadlineTimer.__eq__(d2)#
- Parameters:
- Return type:
bool
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
Returns true if the deadline on d1
and the deadline in d2
are the same, false otherwise. The timer type used to create the two deadlines is ignored. This function is equivalent to:
return d1.deadlineNSecs() == d2.deadlineNSecs()
Note
comparing QDeadlineTimer
objects with different timer types is not supported and may result in unpredictable behavior.
- PySide6.QtCore.QDeadlineTimer.__gt__(d2)#
- Parameters:
- Return type:
bool
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
Returns true if the deadline on d1
is later than the deadline in d2
, false otherwise. The timer type used to create the two deadlines is ignored. This function is equivalent to:
return d1.deadlineNSecs() > d2.deadlineNSecs()
Note
comparing QDeadlineTimer
objects with different timer types is not supported and may result in unpredictable behavior.
- PySide6.QtCore.QDeadlineTimer.__ge__(d2)#
- Parameters:
- Return type:
bool
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
Returns true if the deadline on d1
is later than or the same as the deadline in d2
, false otherwise. The timer type used to create the two deadlines is ignored. This function is equivalent to:
return d1.deadlineNSecs() >= d2.deadlineNSecs()
Note
comparing QDeadlineTimer
objects with different timer types is not supported and may result in unpredictable behavior.
- PySide6.QtCore.QDeadlineTimer.remainingTime()#
- Return type:
int
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
Returns the remaining time in this QDeadlineTimer
object in milliseconds. If the timer has already expired, this function will return zero and it is not possible to obtain the amount of time overdue with this function (to do that, see deadline()
). If the timer was set to never expire, this function returns -1.
This function is suitable for use in Qt APIs that take a millisecond timeout, such as the many QIODevice
waitFor
functions or the timed lock functions in QMutex
, QWaitCondition
, QSemaphore
, or QReadWriteLock
. For example:
mutex.tryLock(deadline.remainingTime())
- PySide6.QtCore.QDeadlineTimer.remainingTimeNSecs()#
- Return type:
int
Returns the remaining time in this QDeadlineTimer
object in nanoseconds. If the timer has already expired, this function will return zero and it is not possible to obtain the amount of time overdue with this function. If the timer was set to never expire, this function returns -1.
See also
- PySide6.QtCore.QDeadlineTimer.setDeadline(msecs[, timerType=Qt.CoarseTimer])#
- Parameters:
msecs – int
timerType –
TimerType
Sets the deadline for this QDeadlineTimer
object to be the msecs
absolute time point, counted in milliseconds since the reference clock (the same as msecsSinceReference()
), and the timer type to timerType
. If the value is in the past, this QDeadlineTimer
will be marked as expired.
If msecs
is std::numeric_limits<qint64>::max()
or the deadline is beyond a representable point in the future, this QDeadlineTimer
will be set to never expire.
- PySide6.QtCore.QDeadlineTimer.setPreciseDeadline(secs[, nsecs=0[, type=Qt.CoarseTimer]])#
- Parameters:
secs – int
nsecs – int
type –
TimerType
Sets the deadline for this QDeadlineTimer
object to be secs
seconds and nsecs
nanoseconds since the reference clock epoch (the same as msecsSinceReference()
), and the timer type to timerType
. If the value is in the past, this QDeadlineTimer
will be marked as expired.
If secs
or nsecs
is std::numeric_limits<qint64>::max()
, this QDeadlineTimer
will be set to never expire. If nsecs
is more than 1 billion nanoseconds (1 second), then secs
will be adjusted accordingly.
- PySide6.QtCore.QDeadlineTimer.setPreciseRemainingTime(secs[, nsecs=0[, type=Qt.CoarseTimer]])#
- Parameters:
secs – int
nsecs – int
type –
TimerType
Sets the remaining time for this QDeadlineTimer
object to secs
seconds plus nsecs
nanoseconds from now, if secs
has a positive value. If secs
is -1, this QDeadlineTimer
will be set it to never expire. If both parameters are zero, this QDeadlineTimer
will be marked as expired.
The timer type for this QDeadlineTimer
object will be set to the specified timerType
.
- PySide6.QtCore.QDeadlineTimer.setRemainingTime(msecs[, type=Qt.CoarseTimer])#
- Parameters:
msecs – int
type –
TimerType
Sets the remaining time for this QDeadlineTimer
object to msecs
milliseconds from now, if msecs
has a positive value. If msecs
is zero, this QDeadlineTimer
object will be marked as expired, whereas a value of -1 will set it to never expire.
The timer type for this QDeadlineTimer
object will be set to the specified timerType
.
Changes the timer type for this object to timerType
.
The behavior for each possible value of timerType
is operating-system dependent. PreciseTimer
will use the most precise timer that Qt can find, with resolution of 1 millisecond or better, whereas QDeadlineTimer
will try to use a more coarse timer for CoarseTimer
and VeryCoarseTimer
.
See also
timerType()
TimerType
- PySide6.QtCore.QDeadlineTimer.swap(other)#
- Parameters:
other –
PySide6.QtCore.QDeadlineTimer
Swaps this deadline timer with the other
deadline timer.
Returns the timer type is active for this object.
See also