I'm trying to learn how to use QThreads in a PyQt Gui application. I have stuff that runs for a while, with (usually) points where I could update a Gui, but I would like to split the main work out to its own thread (sometimes stuff gets stuck, and it would be nice to eventually have a cancel/try again button, which obviously doesn't work if the Gui is frozen because the Main Loop is blocked).

I've read https://mayaposch.wordpress.com/2011/11/01/how-to-really-truly-use-qthreads-the-full-explanation/. That page says that re-implementing the run method is not the way to do it. The problem I am having is finding a PyQt example that has a main thread doing the Gui and a worker thread that does not do it that way. The blog post is for C++, so while it's examples do help, I'm still a little lost. Can someone please point me to an example of the right way to do it in Python?

  • 4
    This looks like a dup of Background thread with QThread in PyQt. The second example in the accepted answer looks like a straightforward translation of the C++ code from the blog you linked. – abarnert Jun 2 '13 at 6:06
  • Also, have you written any native Python threading code (with threading.Thread, etc.)? If not, you may want to work through some examples of that first. (Also see Threading in a PyQt application: Use Qt threads or Python threads to see if you even need QThread here.) – abarnert Jun 2 '13 at 6:08
  • @abarnert Thanks, I think that link was just what I was looking for. I had seen the second link, and decided that I should use QThreads because I wanted to be able to send slots/signals between threads. I was aware that threading.Thread exists, but have not used it before. I did a lot of searching, and even saw the first link, skimmed it, saw def run and moved on, not realizing the showed both ways! – Azendale Jun 2 '13 at 14:38

Here is a working example of a separate worker thread which can send and receive signals to allow it to communicate with a GUI.

I made two simple buttons, one which starts a long calculation in a separate thread, and one which immediately terminates the calculation and resets the worker thread.

Forcibly terminating a thread as is done here is not generally the best way to do things, but there are situations in which always gracefully exiting is not an option.

from PyQt4 import QtGui, QtCore
import sys
import random

class Example(QtCore.QObject):

    signalStatus = QtCore.pyqtSignal(str)

    def __init__(self, parent=None):
        super(self.__class__, self).__init__(parent)

        # Create a gui object.
        self.gui = Window()

        # Create a new worker thread.

        # Make any cross object connections.


    def _connectSignals(self):

    def createWorkerThread(self):

        # Setup the worker object and the worker_thread.
        self.worker = WorkerObject()
        self.worker_thread = QtCore.QThread()

        # Connect any worker signals

    def forceWorkerReset(self):      
        if self.worker_thread.isRunning():
            print('Terminating thread.')

            print('Waiting for thread termination.')


            print('building new working object.')

    def forceWorkerQuit(self):
        if self.worker_thread.isRunning():

class WorkerObject(QtCore.QObject):

    signalStatus = QtCore.pyqtSignal(str)

    def __init__(self, parent=None):
        super(self.__class__, self).__init__(parent)

    def startWork(self):
        for ii in range(7):
            number = random.randint(0,5000**ii)
            self.signalStatus.emit('Iteration: {}, Factoring: {}'.format(ii, number))
            factors = self.primeFactors(number)
            print('Number: ', number, 'Factors: ', factors)

    def primeFactors(self, n):
        i = 2
        factors = []
        while i * i <= n:
            if n % i:
                i += 1
                n //= i
        if n > 1:
        return factors

class Window(QtGui.QWidget):

    def __init__(self):
        self.button_start = QtGui.QPushButton('Start', self)
        self.button_cancel = QtGui.QPushButton('Cancel', self)
        self.label_status = QtGui.QLabel('', self)

        layout = QtGui.QVBoxLayout(self)

        self.setFixedSize(400, 200)

    def updateStatus(self, status):

if __name__=='__main__':
    app = QtGui.QApplication(sys.argv)
    example = Example(app)
  • When I run this, I get. Qt has caught an exception thrown from an event handler. Throwing exceptions from an event handler is not supported in Qt. You must reimplement QApplication::notify() and catch all exceptions there. – Jens Munk Nov 10 '16 at 0:37
  • Any idea what the exception was? I tested this snippet using PyQt4 with Python 2.7 on OS X without any errors. When I try to use this with Python 3.4, I occasionally get segmentation faults. I am not sure if this issue is with the code as written or the specific (version specific) implementation. – amicitas Nov 24 '16 at 0:10
  • I haven't investigated what is throwing but apparently you have something which occasionally throws an exception into a message loop, which must never happen. – Jens Munk Nov 24 '16 at 0:14
  • Important to note if you're trying to copy this example: be sure to store both the QThread and the Worker if you create them in a function. Otherwise, at the end of the function, the garbage collector will dump both and the Worker won't run – jpyams Aug 10 '17 at 18:44
  • I found that there was a problem with my example in that I was attempting to reuse the thread and worker objects after a forced termination. This appears to be what was leading to the segmentation faults I was seeing. This no longer segfaults, but occasionally the thread is not terminated after the cancel button is pressed and the application hangs. – amicitas Jun 25 '18 at 16:42

You are right that it is a good thing to have a worker thread doing the processing while main thread is doing the GUI. Also, PyQt is providing thread instrumentation with a signal/slot mechanism that is thread safe.

This may sound of interest. In their example, they build a GUI

import sys, time
from PyQt4 import QtCore, QtGui

class MyApp(QtGui.QWidget):
 def __init__(self, parent=None):
  QtGui.QWidget.__init__(self, parent)

  self.setGeometry(300, 300, 280, 600)

  self.layout = QtGui.QVBoxLayout(self)

  self.testButton = QtGui.QPushButton("test")
  self.connect(self.testButton, QtCore.SIGNAL("released()"), self.test)
  self.listwidget = QtGui.QListWidget(self)


 def add(self, text):
  """ Add item to list widget """
  print "Add: " + text

 def addBatch(self,text="test",iters=6,delay=0.3):
  """ Add several items to list widget """
  for i in range(iters):
   time.sleep(delay) # artificial time delay
   self.add(text+" "+str(i))

 def test(self):
  # adding entries just from main application: locks ui

(simple ui containing a list widget which we will add some items to by clicking a button)

You may then create our own thread class, one example is

class WorkThread(QtCore.QThread):
 def __init__(self):

 def __del__(self):

 def run(self):
  for i in range(6):
   time.sleep(0.3) # artificial time delay
   self.emit( QtCore.SIGNAL('update(QString)'), "from work thread " + str(i) )


You do redefine the run() method. You may find an alternative to terminate(), see the tutorial.

  • 10
    The OP specifically said he wants to use the moveToThread mechanism, rather than the QThread.run mechanism. I'm not sure if he has a good reason for that, but still, you're not answering his question. – abarnert Jun 2 '13 at 6:41
  • 2
    The OP is right: you should not subclass QThread. See blog.qt.io/blog/2010/06/17/youre-doing-it-wrong – blokeley Feb 8 '15 at 14:23
  • The Qt docs on threading do mention subclassing QThread though ... – Thibaud Ruelle Mar 4 '16 at 11:05
  • 2
    And this blog explains why the one mentioned by @blokeley was partially wrong. – Thibaud Ruelle Mar 4 '16 at 11:12
  • I recommend wrapping run() code in a try/catch block. That's because (at least on Windows and py3.7) any exception raisec from run method and not catched leads to application silently closing, without any message in console. – MarSoft Sep 18 at 20:24

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