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I got some trouble with Qt Threads and Connections. I found several tutorials and discussions on this topic, I followed this tutorial to create the thread. But I still got the problem, that calling wait() on the thread never returns and the UI freezes.

A similar question was asked here before (the second example): Qt connection type between threads: why does this work?

In the last edit of the question, the author mentions that he had created a deadlock. I assume, I do the same in my application. But I still do not understand, why this happens. Reading the suggested article did not help me understanding. I just got the point, that deadlocks can happen, but I don't know, what's causing it there or in my case.

I have also created an example that's reduced to the core problem. Find the code at the bottom of this question.

So my questions are: What exactly is the cause for the deadlock in my example? Is there a solution without making the connection a direct connection?

I'd really appreciate any hints.

Thanks!

EDIT:

Because of the comments I tried it to send the stop request via a signal and I added a QCoreApplication::processEvents() call in the thread loop. But the main problem is still the same.

EDIT2:

I found an acceptable solution, after thinking a bit more about event loops:

thread.requestStop();

// now instead of using wait(), we poll and keep the event loop alive
// polling is not nice, but if it does not take a very long time
// for the thread to finish, it is acceptable for me.
while (thread.isRunning())
{
    // This ensures that the finished() signal
    // will be processed by the thread object
    QCoreApplication::processEvents();        
}

This actually works and the worker itself controls how to stop working.

After coming up with this, I also have an explanation for the freezing issue: Calling wait seems to keep the main thread either busy or suspended so it does not process any events. Since the thread object lives in the main thread, the thread's finished() signal is enqued but never processed.

My implicit assumption, that thread.wait() would still keep the event loop working, was obviously wrong. But then, what's the QThread::wait() function good for?!?

This is just a theory, but maybe someone here can verify or falsify it...

EDIT 3 (final solution):

After reading this small article and implmenting a subclassing solution, I think that this is preferable for this particular proble. There is no need for an event loop and I'm fine with direct calls on a different thread and using mutex protection. It's less code, easier to understand and easier to debug.

I think I would use the non-subclassing strategy only, if there were more interaction with the thread than just start and pause.


My reduced Example

Maybe I should point out, that I do not delete the thread, because in my original application, I want to resume later, so stopping it actually means pausing it.

worker.h:

#ifndef WORKER_H
#define WORKER_H

#include <QObject>
#include <QMutex>

class Worker : public QObject
{
    Q_OBJECT

public:
    explicit Worker(QObject* parent = NULL);

public slots:
    void doWork();
    void requestStop();

signals:
    void finished();

private:

    bool stopRequested;
    QMutex mutex;
};

#endif // WORKER_H

worker.cpp:

#include "worker.h"

#include <QThread>
#include <iostream>

using namespace std;

Worker::Worker(QObject *parent)
    : stopRequested(false)
{
}

void Worker::doWork()
{
    static int cnt = 0;

    // local loop control variable
    // to make the usage of the mutex easier.
    bool stopRequesteLocal = false;

    while (!stopRequesteLocal)
    {
        cout << ++cnt << endl;
        QThread::msleep(100);

        mutex.lock();
        stopRequesteLocal = stopRequested;
        mutex.unlock();
    }

    cout << "Finishing soon..." << endl;

    QThread::sleep(2);
    emit finished();
}

void Worker::requestStop()
{
    mutex.lock();
    stopRequested = true;
    mutex.unlock();
}

main program:

#include <QCoreApplication>
#include <QThread>
#include <QtCore>
#include <iostream>

#include "worker.h"

using namespace std;

int main(int argc, char *argv[])
{
    QCoreApplication a(argc, argv);
    QThread thread;
    Worker worker;


    QObject::connect(&thread, SIGNAL(started()), &worker, SLOT(doWork()));

    // this does not work:
    QObject::connect(&worker, SIGNAL(finished()), &thread, SLOT(quit()));

    // this would work:
    //QObject::connect(&worker, SIGNAL(finished()), &thread, SLOT(quit()), Qt::DirectConnection);

    // relocating the moveToThread call does not change anything.
    worker.moveToThread(&thread);

    thread.start();

    QThread::sleep(2);

    worker.requestStop();
    cout << "Stop requested, wait for thread." << endl;
    thread.wait();
    cout << "Thread finished" << endl;

    // I do not know if this is correct, but it does not really matter, because
    // the program never gets here.
    QCoreApplication::exit(0);
}
share|improve this question
    
sleep is a protected in Qt, how can you call QThread::sleep(2);?? –  UmNyobe Dec 17 '13 at 17:24
    
I don't know. I just do it and it works. ;) –  Kanalpiroge Dec 17 '13 at 17:31
    
That is not possible :) Have you edited the Qt source? –  Cool_Coder Dec 17 '13 at 17:38
    
I did not. And by the way, the reference says, that QThread::sleep is public. See here. –  Kanalpiroge Dec 17 '13 at 18:04
    
Please take a look over here qt-project.org/doc/qt-4.8/qthread.html. QThread::sleep() is a protected function. You cannot call it without subclassing QThread. –  Cool_Coder Dec 18 '13 at 15:25
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3 Answers

The first issue I see is that you're not using signals and slots to communicate between the objects running on different threads; main and the new thread that hosts the worker object.

You move the worker object to the second thread, but call a function on the worker object from the main thread: -

thread.start();
QThread::sleep(2);
worker.requestStop(); // Aaahh, this is running on the new thread!!!

Considering that a thread has its own stack and registers I really don't see how this is safe.

If you use signals and slots, Qt handles a lot of threading issues. While you should be able to use a variable to control the 2nd thread, it would also be cleaner to use signals and slots.

Note that when a signal is emitted from one thread, a message is posted to the thread of the receiving object, if the sender and receiver are on separate threads.

Convert your code to use signals and slots for communicating between objects on different threads and your deadlock should disappear.

share|improve this answer
    
I'd think that the requestStop() function is threadsafe due to the mutex. And if this really were a point, it does not explain why a direct connection (which is supposed to be bad) works while a queued connection (which is what you should use) does not. –  Kanalpiroge Dec 17 '13 at 17:16
1  
The mutex protects the variable being altered in the function, but not the stack and registers that are being used in that function. By all means, use a shared variable with a mutex, but I suggest you call a slot on the worker object, rather than calling the function directly. As for the direct connection, I expect it's just luck and waiting to cause you problems later on. If anyone knows differently, I'd be interested in the explanation of how this can work. –  Merlin069 Dec 17 '13 at 17:21
1  
@Kanalpiroge Merlin is spot on, at least on this point. you need to make the request via a signal. –  UmNyobe Dec 17 '13 at 17:27
    
That's wyh I'm asking for a better solution. ;) I still doubt that a mutex is not sufficient here, but I will investigate this somewhat further. –  Kanalpiroge Dec 17 '13 at 17:27
    
One way is to stop thread, not the worker. thread.terminate(); thread.wait(); –  UmNyobe Dec 17 '13 at 17:31
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It doesn't look like you have read that article completely.

QThread* thread = new QThread;
Worker* worker = new Worker();
worker->moveToThread(thread);
connect(worker, SIGNAL(error(QString)), this, SLOT(errorString(QString)));
connect(thread, SIGNAL(started()), worker, SLOT(process()));
connect(worker, SIGNAL(finished()), thread, SLOT(quit()));
connect(worker, SIGNAL(finished()), worker, SLOT(deleteLater()));
connect(thread, SIGNAL(finished()), thread, SLOT(deleteLater()));
thread->start();

You have only implemented partially of what is suggested on the article.

QThread::wait() will wait until QThread::finished() is emitted from doWork(). Please emit this SIGNAL if you need to quit from this thread and return to the main thread. For this you need to keep a reference of the thread on which this object is moved to.

share|improve this answer
    
This does not seem to work for me. If I outcomment the line, the program still blocks at thread.wait(). –  Kanalpiroge Dec 17 '13 at 17:03
    
to your edit: Yep, because I do not want the objects to be deleted later. But I tried these things just to see if it makes any difference, but it does not. I also tried using pointers instead of creating the objects on the thread, but this does not change anything either. –  Kanalpiroge Dec 17 '13 at 17:20
    
The finished() signal is emitted in the end of doWork(), after the loop is finished. But nevertheless, wait() does not return. But I'm sure that the program leaves the loop, because "finishing soon..." appears on the console after invoking requestStop(). –  Kanalpiroge Dec 17 '13 at 18:35
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up vote 0 down vote accepted

I added my own answere to the question text as EDIT 3.

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