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UpdateThread is-a QThread That sets up a QTimer in UpdateThread::run() that calls slot UpdateThread::tick() every t ms. Now based upon some condition I need to Pause the Thread and after some time based upon another condition I need to wake it up.


  • Is the Way I am doing the QTimer thing is Okay ? or I should move the tick code to run and call the QThread::start() every t ms ?
  • How can I Pause and wake up the threads conditionally
  • Or I should just stop() the QTimer and start() it latter ?
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Who needs to start/stop the timer? The GUI thread or the thread that UpdateThread::run() executes in? –  Marc Mutz - mmutz Apr 30 '11 at 19:18
    
The GUI thread. –  Neel Basu May 1 '11 at 6:16

1 Answer 1

First of all, you shouldn't define slots on your QThread subclass and call them from within run() - the slots will be executed (by performing a cross-thread slot invocation) in the context of the thread that owns your UpdateThread instance (the same one that created it, unless you called moveToThread() on it), not in the context of the thread represented by UpdateThread. Remember this mnemonic:

In run(), QThread::thread() != this

Instead, define the slots on a QObject subclass that you create inside run().

Ok, with that out of the way, let's have a look at the timer. The QTimer documentation contains the following:

In multithreaded applications, you can use QTimer in any thread that has an event loop. To start an event loop from a non-GUI thread, use QThread::exec(). Qt uses the timer's thread affinity to determine which thread will emit the timeout() signal. Because of this, you must start and stop the timer in its thread; it is not possible to start a timer from another thread.

(emphasis mine) Take particular note of the last sentence.

The solution is to do a cross-thread call of QTimer::start() and QTimer::stop(). You might know about cross-thread signal/slot connections. This uses the same underlying mechanism, which is exposed in QMetaObject::invokeMethod():

class UpdateThread : public QThread {
    Q_OBJECT
private:
    QObject * m_timer; // just a QObject* so we're not tempted
                       // to call functions on it
    QMutext m_mutex; // protects 'm_timer'
public:
    explicit UpdateThread( QObject * parent=0 )
        : QThread( parent ), m_timer( 0 ) {}
    // ...
private:
    /* reimpl */ void run() {
        QTimer timer;
        // ...'timer' setup code goes here...
        {
            const QMutexLocker locker( &m_mutex );
            m_timer = &timer; // publish 'timer' through 'm_timer'
        }
        // main code of run()
        exec(); // start event loop so we get timer's timeout()s
                // and we can receive cross-thread method calls
        {
            const QMutexLocker locker( &m_mutex );
            m_timer = 0; // un-publish before we delete `timer`
        }
    }
public Q_SLOTS:
    void startTimer() {
        const QMutexLocker locker( &m_mutex );
        if ( !m_timer ) return;
        // perform cross-thread method call:
        QMetaObject::invokeMethod( m_timer, "start", Qt::QueuedConnection );
    }
    void stopTimer() {
        const QMutexLocker locker( &m_mutex );
        if ( !m_timer ) return;
        // perform cross-thread method call:
        QMetaObject::invokeMethod( m_timer, "stop", Qt::QueuedConnection );
    }
};

Now, this is how you start/stop the timer from the GUI thread. But you were also asking about alternatives.

  1. Move tick() code into run(), call UpdateThread::start() every t milliseconds.

    This is suboptimal, as it would create and destroy threads every t ms. Thread creation is still an expensive operation. Also, if UpdateThread::run() isn't done by the time you next call start(), you'll lose timer ticks.

  2. UpdateThread as outlined above.

    This isn't too bad, but it's not idiomatic multithreading, I'd say. It's a good solution if the timer fires so often that that alone would slow down the GUI thread somehow, though you might lose timer ticks this way, too.

  3. QThreadPool

    My favourite. Move the code that performs tick() into an implementation of QRunnable::run(), and queue a new runnable on a thread pool whenever the timer fires. In this case, the timer would most naturally live in the GUI thread, avoiding the need for cross-thead method calls as outlined above. Unless the GUI thread itself is overloaded, you won't miss any timer ticks. You also get for free scaling to the number of cores in the system (if you don't want that, don't use QThreadPool::globalInstance() but create your own instance and call setMaxThreadCount(1)).

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+1 Going through it Now. –  Neel Basu May 2 '11 at 17:07
    
Well I am making UpdateThread is a QRunnable (not a QThread). and Im moving QTimers out of it.I'll make an UpdateThreadPool that is a QThreadPool. all UpdateThread will have a DG::RectArea* which is owned by another thread. and the UpdateThread::run()s will report to it. and I think I should turn autoDelete off. as I've fixed 16 RectAreas and for them 16 fixed UpdateThreads. and keep the ownership of UpdateThread to the main thread. and RectArea is not a QObject. Is it Okay ? or something is wrong there already ? and Where should I put the Timer thing Here ? –  Neel Basu May 2 '11 at 19:49

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