Qt Slot Function Thread

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Slots, and functions or methods, are not assigned to any thread. A thread, in simple terms, is a function that is the root of the call stack and any function can be called from one thread or another. The function can't know beforehand what thread it will be called from, as it's up to you to actually call it. Like with a QueuedConnection, an event is posted to the other thread's event loop. A pointer to a QSemaphore. The thread that delivers the event will release the semaphore right after the slot has been called. Meanwhile, the thread that called the signal will acquire the semaphore in order to wait until the event is processed.

This page describes the use of signals and slots in Qt for Python.The emphasis is on illustrating the use of so-called new-style signals and slots, although the traditional syntax is also given as a reference.

The main goal of this new-style is to provide a more Pythonic syntax to Python programmers.

Using signals and slots to communicate between threads is thread-safe by intent and design as the long as the connection type is appropriate (something Qt will establish for itself if you use the default value of Qt.AutoConnection). This wrapper provides the signals, slots and methods to easily use the thread object within a Qt project. To use it, prepare a QObject subclass with all your desired functionality in it. Then create a new QThread instance, push the QObject onto it using moveToThread(QThread.) of the QObject instance and call start on the QThread instance.

Slots
  • 2New syntax: Signal() and Slot()

Traditional syntax: SIGNAL () and SLOT()

Qt Slot Function Thread

QtCore.SIGNAL() and QtCore.SLOT() macros allow Python to interface with Qt signal and slot delivery mechanisms.This is the old way of using signals and slots.

The example below uses the well known clicked signal from a QPushButton.The connect method has a non python-friendly syntax.It is necessary to inform the object, its signal (via macro) and a slot to be connected to.

New syntax: Signal() and Slot()

The new-style uses a different syntax to create and to connect signals and slots.The previous example could be rewritten as:

Using QtCore.Signal()

Signals can be defined using the QtCore.Signal() class.Python types and C types can be passed as parameters to it.If you need to overload it just pass the types as tuples or lists.

In addition to that, it can receive also a named argument name that defines the signal name.If nothing is passed as name then the new signal will have the same name as the variable that it is being assigned to.

The Examples section below has a collection of examples on the use of QtCore.Signal().

Note: Signals should be defined only within classes inheriting from QObject.This way the signal information is added to the class QMetaObject structure.

Using QtCore.Slot()

Slots are assigned and overloaded using the decorator QtCore.Slot().Again, to define a signature just pass the types like the QtCore.Signal() class.Unlike the Signal() class, to overload a function, you don't pass every variation as tuple or list.Instead, you have to define a new decorator for every different signature.The examples section below will make it clearer.

Another difference is about its keywords.Slot() accepts a name and a result.The result keyword defines the type that will be returned and can be a C or Python type.name behaves the same way as in Signal().If nothing is passed as name then the new slot will have the same name as the function that is being decorated.

Qt signals slots threads

Examples

The examples below illustrate how to define and connect signals and slots in PySide2.Both basic connections and more complex examples are given.

  • Hello World example: the basic example, showing how to connect a signal to a slot without any parameters.
  • Next, some arguments are added. This is a modified Hello World version. Some arguments are added to the slot and a new signal is created.
  • Add some overloads. A small modification of the previous example, now with overloaded decorators.
  • An example with slot overloads and more complicated signal connections and emissions (note that when passing arguments to a signal you use '[]'):
  • An example of an object method emitting a signal:
  • An example of a signal emitted from another QThread:
  • Signals are runtime objects owned by instances, they are not class attributes:
Retrieved from 'https://wiki.qt.io/index.php?title=Qt_for_Python_Signals_and_Slots&oldid=35927'

A short history

Qt Slot Function Thread

Qt Slot Parameter

Long long ago, subclass QThread and reimplement its run() function is the only recommended way of using QThread. This is rather intuitive and easy to used. But when SLOTS and Qt event loop are used in the worker thread, some users do it wrong. So Bradley T. Hughes, one of the Qt core developers, recommend that use worker objects by moving them to the thread using QObject::moveToThread . Unfortunately, some users went on a crusade against the former usage. So Olivier Goffart, one of the former Qt core developers, tell the subclass users: You were not doing so wrong. Finally, we can find both usages in the documentation of QThread.

QThread::run() is the thread entry point

From the Qt Documentation, we can see that

Qt Signals And Slots Between Threads

A QThread instance represents a thread and provides the means to start() a thread, which will then execute the reimplementation of QThread::run(). The run() implementation is for a thread what the main() entry point is for the application.

As QThread::run() is the thread entry point, it is rather intuitive to use the Usage 1.

Usage 1-0

To run some code in a new thread, subclass QThread and reimplement its run() function.

For example

The output more or less look like:

Usage 1-1

As QThread::run() is the thread entry point, so it easy to undersand that, all the codes that are not get called in the run() function directly won't be executed in the worker thread.

In the following example, the member variable m_stop will be accessed by both stop() and run(). Consider that the former will be executed in main thread while the latter is executed in worker thread, mutex or other facility is needed.

The output is more or less like

You can see that the Thread::stop() is executed in the main thread.

Usage 1-2 (Wrong Usage)

Though above examples are easy to understand, but it's not so intuitive when event system(or queued-connection) is introduced in worker thread.

Qt Signal Slot Multithreading

For example, what should we do if we want to do something periodly in the worker thread?

  • Create a QTimer in the Thread::run()
  • Connect the timeout signal to the slot of Thread

At first glance, the code seems fine. When the thread starts executing, we setup a QTimer thats going to run in the current thread's event queue. We connect the onTimeout() to the timeout signal. Then we except it works in the worker thread?

But, the result of the example is

Oh, No!!! They get called in the main thread instead of the work thread.

Very interesting, isn't it? (We will discuss what happened behined this in next blog)

How to solve this problem

In order to make the this SLOT works in the worker thread, some one pass the Qt::DirectConnection to the connect() function,

and some other add following line to the thread constructor.

Both of them work as expected. But ...

The second usage is wrong,

Even though this seems to work, it’s confusing, and not how QThread was designed to be used(all of the functions in QThread were written and intended to be called from the creating thread, not the thread that QThread starts)

In fact, according to above statements, the first workaround is wrong too. As onTimeout() which is a member of our Thread object, get called from the creating thread too.

Both of them are bad uasge?! what should we do?

Usage 1-3

As none of the member of QThread object are designed to be called from the worker thread. So we must create an independent worker object if we want to use SLOTS.

The result of the application is

Qt Thread Example

Problem solved now!

Though this works perfect, but you may have notice that, when event loop QThread::exec() is used in the worker thread, the code in the QThread::run() seems has nothing to do with QThread itself.

So can we move the object creation out of the QThread::run(), and at the same time, the slots of they will still be called by the QThread::run()?

Usage 2-0

If we only want to make use of QThread::exec(), which has been called by QThread::run() by default, there will be no need to subclass the QThread any more.

  • Create a Worker object
  • Do signal and slot connections
  • Move the Worker object to a sub-thread
  • Start thread

The result is:

As expected, the slot doesn't run in the main thread.

In this example, both of the QTimer and Worker are moved to the sub-thread. In fact, moving QTimer to sub-thread is not required.

Simply remove the line timer.moveToThread(&t); from above example will work as expected too.

The difference is that:

In last example,

Qt Slot Thread

  • The signal timeout() is emitted from sub-thread
  • As timer and worker live in the same thread, their connection type is direct connection.
  • The slot get called in the same thead in which signal get emitted.

While in this example,

  • The signal timeout() emitted from main thread,
  • As timer and worker live in different threads, their connection type is queued connection.
  • The slot get called in its living thread, which is the sub-thread.

Thanks to a mechanism called queued connections, it is safe to connect signals and slots across different threads. If all the across threads communication are done though queued connections, the usual multithreading precautions such as QMutex will no longer need to be taken.

Qt Move To Thread

In short

  • Subclass QThread and reimplement its run() function is intuitive and there are still many perfectly valid reasons to subclass QThread, but when event loop is used in worker thread, it's not easy to do it in the right way.
  • Use worker objects by moving them to the thread is easy to use when event loop exists, as it has hidden the details of event loop and queued connection.

Reference

  • http://blog.qt.digia.com/blog/2010/06/17/youre-doing-it-wrong/
  • http://woboq.com/blog/qthread-you-were-not-doing-so-wrong.html
  • http://ilearnstuff.blogspot.com/2012/08/when-qthread-isnt-thread.html