QThreadPool#

The QThreadPool class manages a collection of QThreads. More…

Synopsis#

Properties#

activeThreadCount - The number of active threads in the thread pool
expiryTimeout - The thread expiry timeout value in milliseconds
maxThreadCount - The maximum number of threads used by the thread pool. This property will default to the value of QThread::idealThreadCount() at the moment the QThreadPool object is created
stackSize - The stack size for the thread pool worker threads
threadPriority - The thread priority for new worker threads

Functions#

def activeThreadCount ()
def clear ()
def contains (thread)
def expiryTimeout ()
def maxThreadCount ()
def releaseThread ()
def reserveThread ()
def setExpiryTimeout (expiryTimeout)
def setMaxThreadCount (maxThreadCount)
def setStackSize (stackSize)
def setThreadPriority (priority)
def stackSize ()
def start (arg__1[, priority=0])
def start (runnable[, priority=0])
def startOnReservedThread (runnable)
def threadPriority ()
def tryStart (arg__1)
def tryStart (runnable)
def tryTake (runnable)
def waitForDone ([msecs=-1])

Static functions#

def globalInstance ()

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.

QThreadPool manages and recycles individual QThread objects to help reduce thread creation costs in programs that use threads. Each Qt application has one global QThreadPool object, which can be accessed by calling globalInstance() .

To use one of the QThreadPool threads, subclass QRunnable and implement the run() virtual function. Then create an object of that class and pass it to start() .

class HelloWorldTask(QRunnable):

    def run():

        print("Hello world from thread", QThread.currentThread())


hello = HelloWorldTask()
# QThreadPool takes ownership and deletes 'hello' automatically
QThreadPool.globalInstance().start(hello)

QThreadPool deletes the QRunnable automatically by default. Use setAutoDelete() to change the auto-deletion flag.

QThreadPool supports executing the same QRunnable more than once by calling tryStart (this) from within run() . If autoDelete is enabled the QRunnable will be deleted when the last thread exits the run function. Calling start() multiple times with the same QRunnable when autoDelete is enabled creates a race condition and is not recommended.

Threads that are unused for a certain amount of time will expire. The default expiry timeout is 30000 milliseconds (30 seconds). This can be changed using setExpiryTimeout() . Setting a negative expiry timeout disables the expiry mechanism.

Call maxThreadCount() to query the maximum number of threads to be used. If needed, you can change the limit with setMaxThreadCount() . The default maxThreadCount() is idealThreadCount() . The activeThreadCount() function returns the number of threads currently doing work.

The reserveThread() function reserves a thread for external use. Use releaseThread() when your are done with the thread, so that it may be reused. Essentially, these functions temporarily increase or reduce the active thread count and are useful when implementing time-consuming operations that are not visible to the QThreadPool .

Note that QThreadPool is a low-level class for managing threads, see the Qt Concurrent module for higher level alternatives.

See also

QRunnable

class PySide6.QtCore.QThreadPool([parent=None])#

Parameters:: parent – PySide6.QtCore.QObject

Constructs a thread pool 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.QThreadPool.activeThreadCount: int#

This property holds the number of active threads in the thread pool..

Note

It is possible for this function to return a value that is greater than maxThreadCount() . See reserveThread() for more details.

See also

reserveThread() releaseThread()

Access functions:

activeThreadCount ()

property PᅟySide6.QtCore.QThreadPool.expiryTimeout: int#

This property holds the thread expiry timeout value in milliseconds..

Threads that are unused for expiryTimeout milliseconds are considered to have expired and will exit. Such threads will be restarted as needed. The default expiryTimeout is 30000 milliseconds (30 seconds). If expiryTimeout is negative, newly created threads will not expire, e.g., they will not exit until the thread pool is destroyed.

Note that setting expiryTimeout has no effect on already running threads. Only newly created threads will use the new expiryTimeout. We recommend setting the expiryTimeout immediately after creating the thread pool, but before calling start() .

Access functions:

expiryTimeout ()
setExpiryTimeout (expiryTimeout)

property PᅟySide6.QtCore.QThreadPool.maxThreadCount: int#

This property holds the maximum number of threads used by the thread pool. This property will default to the value of idealThreadCount() at the moment the QThreadPool object is created..

Note

The thread pool will always use at least 1 thread, even if maxThreadCount limit is zero or negative.

The default maxThreadCount is idealThreadCount() .

Access functions:

maxThreadCount ()
setMaxThreadCount (maxThreadCount)

property PᅟySide6.QtCore.QThreadPool.stackSize: uint#

This property holds the stack size for the thread pool worker threads..

The value of the property is only used when the thread pool creates new threads. Changing it has no effect for already created or running threads.

The default value is 0, which makes QThread use the operating system default stack size.

Access functions:

stackSize ()
setStackSize (stackSize)

property PᅟySide6.QtCore.QThreadPool.threadPriority: Priority#

This property holds the thread priority for new worker threads..

The value of the property is only used when the thread pool starts new threads. Changing it has no effect for already running threads.

The default value is InheritPriority , which makes QThread use the same priority as the one the QThreadPool object lives in.

See also

Priority

Access functions:

threadPriority ()
setThreadPriority (priority)

PySide6.QtCore.QThreadPool.activeThreadCount()#

Return type:: int

Getter of property activeThreadCount .

PySide6.QtCore.QThreadPool.clear()#

Removes the runnables that are not yet started from the queue. The runnables for which runnable->autoDelete() returns true are deleted.

See also

start()

PySide6.QtCore.QThreadPool.contains(thread)#

Parameters:: thread – PySide6.QtCore.QThread
Return type:: bool

Returns true if thread is a thread managed by this thread pool.

PySide6.QtCore.QThreadPool.expiryTimeout()#

Return type:: int

See also

setExpiryTimeout()

Getter of property expiryTimeout .

static PySide6.QtCore.QThreadPool.globalInstance()#

Return type:: PySide6.QtCore.QThreadPool

Returns the global QThreadPool instance.

PySide6.QtCore.QThreadPool.maxThreadCount()#

Return type:: int

See also

setMaxThreadCount()

Getter of property maxThreadCount .

PySide6.QtCore.QThreadPool.releaseThread()#

Releases a thread previously reserved by a call to reserveThread() .

Note

Calling this function without previously reserving a thread temporarily increases maxThreadCount() . This is useful when a thread goes to sleep waiting for more work, allowing other threads to continue. Be sure to call reserveThread() when done waiting, so that the thread pool can correctly maintain the activeThreadCount() .

See also

reserveThread()

PySide6.QtCore.QThreadPool.reserveThread()#

Reserves one thread, disregarding activeThreadCount() and maxThreadCount() .

Once you are done with the thread, call releaseThread() to allow it to be reused.

Note

Even if reserving maxThreadCount() threads or more, the thread pool will still allow a minimum of one thread.

Note

This function will increase the reported number of active threads. This means that by using this function, it is possible for activeThreadCount() to return a value greater than maxThreadCount() .

See also

releaseThread()

PySide6.QtCore.QThreadPool.setExpiryTimeout(expiryTimeout)#

Parameters:: expiryTimeout – int

See also

expiryTimeout()

Setter of property expiryTimeout .

PySide6.QtCore.QThreadPool.setMaxThreadCount(maxThreadCount)#

Parameters:: maxThreadCount – int

See also

maxThreadCount()

Setter of property maxThreadCount .

PySide6.QtCore.QThreadPool.setStackSize(stackSize)#

Parameters:: stackSize – uint

See also

stackSize()

Setter of property stackSize .

PySide6.QtCore.QThreadPool.setThreadPriority(priority)#

Parameters:: priority – Priority

See also

threadPriority()

Setter of property threadPriority .

PySide6.QtCore.QThreadPool.stackSize()#

Return type:: uint

See also

setStackSize()

Getter of property stackSize .

PySide6.QtCore.QThreadPool.start(arg__1[, priority=0])#

Parameters:

arg__1 – PyCallable
priority – int

PySide6.QtCore.QThreadPool.start(runnable[, priority=0])

Parameters:

runnable – PySide6.QtCore.QRunnable
priority – int

Reserves a thread and uses it to run runnable, unless this thread will make the current thread count exceed maxThreadCount() . In that case, runnable is added to a run queue instead. The priority argument can be used to control the run queue’s order of execution.

Note that the thread pool takes ownership of the runnable if runnable->autoDelete() returns true, and the runnable will be deleted automatically by the thread pool after the runnable->run() returns. If runnable->autoDelete() returns false, ownership of runnable remains with the caller. Note that changing the auto-deletion on runnable after calling this functions results in undefined behavior.

PySide6.QtCore.QThreadPool.startOnReservedThread(runnable)#

Parameters:: runnable – PySide6.QtCore.QRunnable

Releases a thread previously reserved with reserveThread() and uses it to run runnable.

Note

Calling this when no threads are reserved results in undefined behavior.

See also

reserveThread() start()

PySide6.QtCore.QThreadPool.threadPriority()#

Return type:: Priority

See also

setThreadPriority()

Getter of property threadPriority .

PySide6.QtCore.QThreadPool.tryStart(arg__1)#

Parameters:: arg__1 – PyCallable
Return type:: bool

PySide6.QtCore.QThreadPool.tryStart(runnable)

Parameters:: runnable – PySide6.QtCore.QRunnable
Return type:: bool

Attempts to reserve a thread to run runnable.

If no threads are available at the time of calling, then this function does nothing and returns false. Otherwise, runnable is run immediately using one available thread and this function returns true.

Note that on success the thread pool takes ownership of the runnable if runnable->autoDelete() returns true, and the runnable will be deleted automatically by the thread pool after the runnable->run() returns. If runnable->autoDelete() returns false, ownership of runnable remains with the caller. Note that changing the auto-deletion on runnable after calling this function results in undefined behavior.

PySide6.QtCore.QThreadPool.tryTake(runnable)#

Parameters:: runnable – PySide6.QtCore.QRunnable
Return type:: bool

Attempts to remove the specified runnable from the queue if it is not yet started. If the runnable had not been started, returns true, and ownership of runnable is transferred to the caller (even when runnable->autoDelete() == true). Otherwise returns false.

Note

If runnable->autoDelete() == true, this function may remove the wrong runnable. This is known as the ABA problem : the original runnable may already have executed and has since been deleted. The memory is re-used for another runnable, which then gets removed instead of the intended one. For this reason, we recommend calling this function only for runnables that are not auto-deleting.

See also

start() autoDelete()

PySide6.QtCore.QThreadPool.waitForDone([msecs=-1])#

Parameters:: msecs – int
Return type:: bool

Waits up to msecs milliseconds for all threads to exit and removes all threads from the thread pool. Returns true if all threads were removed; otherwise it returns false. If msecs is -1 (the default), the timeout is ignored (waits for the last thread to exit).