I've recently began learning about QThreads and I've a program which runs a 4 hours long loop in a separate thread (so that I may continue to use the GUI). What I am after is, something that will pause/suspend the thread when the user clicks pause qpushbutton, and when the user clicks the resume qpushbutton, the program should resume. How may I achieve this?

I was thinking of sending signals from my main class; however, I'm not sure how I can handle them in the thread. Is it possible to handle signals sent from the main class in a thread? Currently, I have the thread emitting signals to the main class, and that works fine, but I'm not sure how to go about sending threads from the main class, and receiving them in the thread.

  • Does your thread work with Qt event loop, or it has it's own "working loop"? – Kamil Klimek Jan 31 '12 at 10:32
  • It has its own working loop. – Jean-Luc Jan 31 '12 at 10:38

Ok, so I suggest you make internal thread variable that will be checked in each step of your loop + QWaitCondition to resume it.

  1. Create pause method where you will switch on "pause field" (bool?), don't forget to synchronize it
  2. In your own loop use QWaitCondition (see Qt docs) to pause thread execution
  3. Create resume method where you will switch off "pause field" and wake QWaitCondition

    class MyWorker: public QThread
        QMutex sync;
        QWaitCondition pauseCond;
        bool pause;
        MyWorker(...): pause(false) {}
        void resume()
            pause = false;
        void pause()
            pause = true;
        void run()
            while(someCondition) // gues it's your loop
                     pauseCond.wait(&sync); // in this place, your thread will stop to execute until someone calls resume
                 // do your operation
  • Thanks for the suggestion. I will certainly look into QWaitConditon. Will you suggestion allow me to resume the thread when a button is clicked? Because at this stage, I'm not sure how I would change the bool value in a different thread to my GUI. Thanks again. – Jean-Luc Jan 31 '12 at 11:10
  • Use QMutex to lock member in your thread, change its value and unlock mutex. In your working thread lock mutex (same mutex as when changing value), check value, if it is true, wait on this mutex with your QWaitCondition. Same applies to "resume" method. Lock mutex, change value, unlock mutex, wake the QWaitCondition. Your other thread will continue running – Kamil Klimek Jan 31 '12 at 11:15
  • check my edited answer – Kamil Klimek Jan 31 '12 at 11:22
  • Fantastic! After your example and some DOC reading, I think I understand. Lastly, I'll mention that I read that is was 'bad' to inherit QThread, so I inherit QObject and use moveToThread to put the work in the new thread. Nonetheless, Im sure what you've suggested will work fine! – Jean-Luc Jan 31 '12 at 23:15
  • Whole "QThread - you're doing it wrong" is about understanding QObject thread affinity and how signals are delivered to QObjects. It is not bad to inherit QThread if you know what you're doing and understand how things work in Qt – Kamil Klimek Jan 31 '12 at 23:28

To suspend a working thread I used the following approach.

Here is a part of my GUI.h file:

    QAtomicInt check;   //it has to be public to be reachable from a
                        //working thread; we’ll use it as a pause flag
    int receiver;       //internal flag
    QThread *thread;    //we will use thread, won’t we?
    Worker *worker;     //here is where all the work is done
    void begin();       //we will also need a signal

Here is a part of my GUI.cpp file:

    receiver = 0;
    check = QAtomicInt(1);    //you may use any number, even 42
    pb = new QPushButton("Start");    //I used a button to start, 
                                    //suspend and resume a working thread
    connect(pb, SIGNAL(clicked()), this, SLOT(start()));
    thread = new QThread;    //who did not read Maya Posch’s blog?
    worker = new Worker(this);    //we need a pointer to this to reach
              //our check flag, remember?
    connect(this, SIGNAL(begin()), worker, SLOT(compute()));
    connect(worker, SIGNAL(over()), this, SLOT(ovr()));

void Widget::start() {
    if ( receiver == 0 ) {    //just to remember where we are
        receiver = 1;
        emit begin();    //here we start our heavy job
    } else if ( receiver == 1 ) {    //here we pause it
        receiver = 2;
        while ( !(check.testAndSetOrdered(2, 3))) {}

//this is where all the magic is done testAndSetOrdered 
//may fail so we repeat it until it succeeds

    } else {
        receiver = 1;
        while ( !(check.testAndSetOrdered(3, 1))) {}

//first we have to restore check to its normal value. 
//This time we can almost never fail, but just in case 
//I leave the while block here

        emit begin();    //here we resume our job

Here is my worker.h file:

class Worker : public QObject {    //do not ask why I did not inherit from QThread, 
                                   //just read Maya Posch
public slots:
    void compute();    //the only slot here that does it all
    void over();       //we have to inform the GUI thread that we are over
    int limit, counter;    //it is important to declare counter
    Widget *parent;

Here is a part of my worker.cpp file:

Worker::Worker(Widget* par) {
    parent = par;    //store a pointer to the GUI thread
    counter = 1;     //it is important to initialize counter HERE
    limit = 100000000;

void Worker::compute() {
    while ( counter < limit ) {
        if ( parent->check.testAndSetOrdered(1, 2) ) {  //THERE

//testAndSetOrdered may fail, if check was set to another value in the GUI thread.
//If this is the case, we return and DO NOTHING. Compared to techniques with wait() 
//and QMutex and QWaitCondition, this approach is easier on CPU.

            //do your calculations HERE
            counter += 1;
            parent->check.testAndSetOrdered(2, 1);    

//before the next iteration we have to restore
//check to 1, and we don’t care if we fail here

        } else {

//now we get ready for yet another round of calculations and inform the GUI 
//thread that we are over with this round.

    counter = 1;
    emit over();

The basic idea is to use QAtomicInt special features. In the worker thread we check if CHECK is unchanged. If it was changed we return and do nothing. To change it we have to compete with the worker thread for access to CHECK from the GUI thread. That is why we need while block. We put while block in the resume section, though in most cases it will succeed with the first attempt. But we are dealing with multi-threading, remember?

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