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I'm working on an application developed with Qt 4.6.

I want to create a custom timer that counts in a separate thread. However, I want this timer to be able to send signals to the main thread.

I subclassed QThread but it doesn't seem to work.

Here is Timer.h:

#ifndef TIMER_H
#define TIMER_H

#include <QtCore/QObject>
#include <QtCore/QThread>
#include <QtCore/QTimer>

class Timer : public QThread
    explicit Timer(QObject *parent = 0);

    // true if the timer is active
    bool isCounting();

    // start the timer with a number of seconds
    void startCounting(int value = 300);
    void stopCounting();

    // the number of seconds to reach
    int maximum();

    // the current value of the timer
    int value();

    // elapsed time since the timer has started
    int elapsedTime();

    // sent when the timer finishes to count
    void timeout();
    // an event is emited at each second when the timer is active
    void top(int remainingSeconds);

    // launch the thread
    //virtual void run();

private slots:
    // decrements the remaining time at each second and emits top()
    void timerEvent();

    QTimer* _timer;
    // remaining time
    int _left;
    // number of seconds at timer startup
    int _maximum;

#endif // TIMER_H

And Timer.cpp:

#include "Timer.h"

Timer::Timer(QObject *parent) :
    _timer = new QTimer(this);
    _maximum = 0;
    _left = 0;
    connect(_timer, SIGNAL(timeout()), this, SLOT(timerEvent()));

    delete _timer;

bool Timer::isCounting()
    // test if timer still active
    return _timer->isActive();

void Timer::startCounting(int value)
    qDebug() << QString("Start timer for %1 secs").arg(QString::number(value));
    if(_left != 0 || _timer->isActive())

    _maximum = value;
    _left = value;

    // emit the first top
    emit top(_left);

    // start the timer: 1000 msecs

    // start the thread

void Timer::stopCounting()
    qDebug() << QString("Stopping timer at %1 secs => %2 secs remaining.").arg(QString::number(elapsedTime()), QString::number(_left));
    // stop timer
    _left = 0;
    _maximum = 0;
    // kill thread

int Timer::maximum()
    return _maximum;

int Timer::value()
    return _left;

void Timer::timerEvent()
    qDebug() << "Timer event";
    if(--_left == 0)
        // stop timer
        // emit end of timer
        emit timeout();
        // stop thread
        // emit a signal at each second
        emit top(_left);

int Timer::elapsedTime()
    return (_maximum - _left);


I realized the object I tried to move to another thread was actually a singleton. It could lead to a problem (see here).

share|improve this question
What problem/issue you are facing ? –  Murtuza Kabul Apr 5 '13 at 13:38
timerEvent() is never triggered. –  Maxbester Apr 5 '13 at 13:52
How would it without a running event loop on the thread it lives in? –  ddriver Apr 5 '13 at 14:07

3 Answers 3

up vote 10 down vote accepted

You don't need to subclass QThread in this particular case. And in general, abstain from subclassing QThread unless you are sure it is what you need.

Here is a quick example how to setup a worker and timer in a thread and launch it:

the worker class:

class Worker : public QObject
    explicit Worker(QObject *parent = 0) : QObject(parent) {}

    void doSomething();

public slots:
    void trigger() {
        emit doSomething();


int main(int argc, char *argv[])
    QCoreApplication a(argc, argv);

    MainThreadObject o;

    QThread *thread = new QThread;
    Worker w;
    QTimer timer;


    QObject::connect(thread, SIGNAL(started()), &timer, SLOT(start()));
    QObject::connect(&w, SIGNAL(doSomething()), &o, SLOT(doSomething()));
    QObject::connect(&timer, SIGNAL(timeout()), &w, SLOT(trigger()));


    return a.exec();

So, we have the MainThreadObject which represents a QObject derived living in the main thread. We create the timer and Worker object, which is just used to wrap a signal and slot to avoid the need of subclassing QThread. The timer is setup and it and the worker are moved to the new thread, the thread started() signal is connected to the timer start() slot, the worker doSomething() signal is connected to the main thread object doSomething() slot, and finally the timer timeout() signal is connected to the worker trigger() slot. Then the thread is started which initiates the entire chain in the event loop.

As a result, the MainThreadObject::doSomething() is called every second, with the signal emitted from the secondary thread.

share|improve this answer
I wanted to create a generic timer I can reuse. My application is quite complex. It sends ActiveX requests to a specific hardware. Then the application has to wait either a signal from the hardware or the end of the timer. I am not sure your solution would work in my case. –  Maxbester Apr 5 '13 at 14:03
It will work, don't worry. It saves you the subclassing, you can keep all your custom stuff in the Worker object instance. You could move the timer inside the worker class. –  ddriver Apr 5 '13 at 14:05
I didn't want the timer and the worker to be in the same thread. The worker can be blocked sometimes. Will the timer still be able to count? –  Maxbester Apr 5 '13 at 14:11
If the timer is in the same thread as the worker and the worker does something heavy, it will block the event loop, so no. But if you have a heavy workload, you can use the same design pattern to create a new thread and new worker object, send it to do the work and then only inform the Worker that it is done to redirect to the main thread. –  ddriver Apr 5 '13 at 14:13
Note that you can do this all in the main thread, the timer itself does no heavy work so it doesn't need to be in a new thread as long as you don't block the main thread. I just did this example to show you how to put the timer in a new thread in case that is what you need, since that is what you asked for. –  ddriver Apr 5 '13 at 14:16

First, if you subclass from QThread, you have to implement run() method, if not, there is no point of doing that, you can inherit from QObject instead.

Second, your QTimer has to reside in a thread that runs an event loop. Without an event loop no Qt queued signals can be transmitted. You can launch an event loop by calling exec() in thread's run method:

void Timer::run() {
share|improve this answer
Yes you're right, I forgot to implement run(). I tried the run method you provided but it doesn't work. It looks like the thread is never created because the timer counts once the main thread is free. –  Maxbester Apr 5 '13 at 13:57
Actually, you do not need to reimplement run(), because its default implementation just runs exec() as shown. And you can simply make a QThread instance like ddriver does in his answer. My point was, that there is no need inherit from QThread in this case :) –  Archie Apr 5 '13 at 14:47

Probable reason can be, your timer object is not in a thread with event loop. Event loop is required to trigger the signals.

However, I would suggest that you should not go with this approach. Timers use different mechanism on different platform and your code might not behave as expected on different platform.

share|improve this answer

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