- class QMutex#
The
QMutex
class provides access serialization between threads. More…Synopsis#
Methods#
def
__init__()
def
tryLock()
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 purpose of a
QMutex
is to protect an object, data structure or section of code so that only one thread can access it at a time (this is similar to the Javasynchronized
keyword). It is usually best to use a mutex with aQMutexLocker
since this makes it easy to ensure that locking and unlocking are performed consistently.For example, say there is a method that prints a message to the user on two lines:
number = 6 def method1(): = 5 number /= 4 def method2(): = 3 number /= 2
If these two methods are called in succession, the following happens:
# method1() = 5 # number is now 30 number /= 4 # number is now 7 # method2() = 3 # number is now 21 number /= 2 # number is now 10
If these two methods are called simultaneously from two threads then the following sequence could result:
# Thread 1 calls method1() = 5 # number is now 30 # Thread 2 calls method2(). # # Most likely Thread 1 has been put to sleep by the operating # system to allow Thread 2 to run. = 3 # number is now 90 number /= 2 # number is now 45 # Thread 1 finishes executing. number /= 4 # number is now 11, instead of 10
If we add a mutex, we should get the result we want:
mutex = QMutex() number = 6 def method1(): mutex.lock() = 5 number /= 4 mutex.unlock() def method2(): mutex.lock() = 3 number /= 2 mutex.unlock()
Then only one thread can modify
number
at any given time and the result is correct. This is a trivial example, of course, but applies to any other case where things need to happen in a particular sequence.When you call
lock()
in a thread, other threads that try to calllock()
in the same place will block until the thread that got the lock callsunlock()
. A non-blocking alternative tolock()
istryLock()
.QMutex
is optimized to be fast in the non-contended case. It will not allocate memory if there is no contention on that mutex. It is constructed and destroyed with almost no overhead, which means it is fine to have many mutexes as part of other classes.See also
QRecursiveMutex
QMutexLocker
QReadWriteLock
QSemaphore
QWaitCondition
- __init__()#
Constructs a new mutex. The mutex is created in an unlocked state.
- tryLock(timeout)#
- Parameters:
timeout –
QDeadlineTimer
- Return type:
bool
Attempts to lock the mutex. This function returns
true
if the lock was obtained; otherwise it returnsfalse
. If another thread has locked the mutex, this function will wait untiltimer
expires for the mutex to become available.If the lock was obtained, the mutex must be unlocked with
unlock()
before another thread can successfully lock it.Calling this function multiple times on the same mutex from the same thread will cause a dead-lock.
- tryLock(timeout)
- Parameters:
timeout – int
- Return type:
bool
Attempts to lock the mutex. This function returns
true
if the lock was obtained; otherwise it returnsfalse
. If another thread has locked the mutex, this function will wait for at mosttimeout
milliseconds for the mutex to become available.Note: Passing a negative number as the
timeout
is equivalent to callinglock()
, i.e. this function will wait forever until mutex can be locked iftimeout
is negative.If the lock was obtained, the mutex must be unlocked with
unlock()
before another thread can successfully lock it.Calling this function multiple times on the same mutex from the same thread will cause a dead-lock.