int main(int argc, char** argv)
{
        NotificationQueue queue;

        // create some worker threads
        Worker worker1("Worker 1", queue);
        Worker worker2("Worker 2", queue);
        Worker worker3("Worker 3", queue);
        MyProducer producer1("Producer1", queue);
        Thread tWorker1, tWorker2, tWorker3, tProducer1;
        tWorker1.start(worker1);
        tWorker2.start(worker2);
        tWorker3.start(worker3);
        
        //Thread::sleep(3000);
        tProducer1.start(producer1);
        tProducer1.join();
        Thread::sleep(20000);

        // stop all worker threads
        queue.wakeUpAll();
        

        return 0;
}
Exemplo n.º 2
0
void QNetworkReplyImplPrivate::handleNotifications()
{
    if (notificationHandlingPaused)
        return;

    NotificationQueue current = pendingNotifications;
    pendingNotifications.clear();

    if (state != Working)
        return;

    while (state == Working && !current.isEmpty()) {
        InternalNotifications notification = current.dequeue();
        switch (notification) {
        case NotifyDownstreamReadyWrite:
            if (copyDevice)
                _q_copyReadyRead();
            else
                backend->downstreamReadyWrite();
            break;

        case NotifyCloseDownstreamChannel:
            backend->closeDownstreamChannel();
            break;

        case NotifyCopyFinished: {
            QIODevice *dev = copyDevice;
            copyDevice = 0;
            backend->copyFinished(dev);
            break;
        }
        }
    }
}
Exemplo n.º 3
0
int main(int argc, char** argv)
{
	NotificationQueue queue;
	
	// create some worker threads
	Worker worker1("Worker 1", queue);
	Worker worker2("Worker 2", queue);
	Worker worker3("Worker 3", queue);

	// start worker threads
	ThreadPool::defaultPool().start(worker1);
	ThreadPool::defaultPool().start(worker2);
	ThreadPool::defaultPool().start(worker3);

	// distribute some work
	for (int i = 0; i < 50; ++i)
	{
		queue.enqueueNotification(new WorkNotification(i));
	}
	
	// wait until queue is empty and all threads are 
	// waiting for new work.
	while (!queue.empty()) Thread::sleep(200);
	Thread::sleep(500);
	
	// stop all worker threads
	queue.wakeUpAll();
	ThreadPool::defaultPool().joinAll();
	
	return 0;
}
Exemplo n.º 4
0
void DatabaseTracker::notifyDatabasesChanged()
{
    // Note that if DatabaseTracker ever becomes non-singleton, we'll have to amend this notification
    // mechanism to include which tracker the notification goes out on as well.
    DatabaseTracker& theTracker(tracker());

    NotificationQueue notifications;
    {
        LockHolder locker(notificationMutex());

        notifications.swap(notificationQueue());

        notificationScheduled = false;
    }

    if (!theTracker.m_client)
        return;

    for (unsigned i = 0; i < notifications.size(); ++i)
        theTracker.m_client->dispatchDidModifyDatabase(notifications[i].first.get(), notifications[i].second);
}
Exemplo n.º 5
0
void NotificationQueueTest::testQueueDequeueUrgent()
{
	NotificationQueue queue;	
	queue.enqueueNotification(new QTestNotification("first"));
	queue.enqueueNotification(new QTestNotification("second"));
	queue.enqueueUrgentNotification(new QTestNotification("third"));
	assert (!queue.empty());
	assert (queue.size() == 3);
	QTestNotification* pTNf = dynamic_cast<QTestNotification*>(queue.dequeueNotification());
	assertNotNullPtr(pTNf);
	assert (pTNf->data() == "third");
	pTNf->release();
	assert (!queue.empty());
	assert (queue.size() == 2);
	pTNf = dynamic_cast<QTestNotification*>(queue.dequeueNotification());
	assert (pTNf->data() == "first");
	pTNf->release();
	assert (!queue.empty());
	assert (queue.size() == 1);
	pTNf = dynamic_cast<QTestNotification*>(queue.dequeueNotification());
	assertNotNullPtr(pTNf);
	assert (pTNf->data() == "second");
	pTNf->release();
	assert (queue.empty());
	assert (queue.size() == 0);

	Notification* pNf = queue.dequeueNotification();
	assertNullPtr(pNf);
}
Exemplo n.º 6
0
void NotificationQueueTest::testQueueRemove()
{
	NotificationQueue queue;
	Notification::Ptr frontNotification = new QTestNotification("front");
	Notification::Ptr middleNotification = new QTestNotification("middle");
	Notification::Ptr backNotification = new QTestNotification("back");
	queue.enqueueNotification(frontNotification);
	queue.enqueueNotification(new QTestNotification("dummy"));
	queue.enqueueNotification(middleNotification);
	queue.enqueueNotification(new QTestNotification("dummy"));
	queue.enqueueNotification(backNotification);
	assert (queue.size() == 5);
	assert (queue.remove(frontNotification));
	assert (queue.size() == 4);
	assert (queue.remove(middleNotification));
	assert (queue.size() == 3);
	assert (queue.remove(backNotification));
	assert (queue.size() == 2);
	assert (!queue.remove(backNotification));
	assert (queue.size() == 2);
}
Exemplo n.º 7
0
void NotificationQueueTest::testWaitDequeue()
{
	NotificationQueue queue;
	queue.enqueueNotification(new QTestNotification("third"));
	queue.enqueueNotification(new QTestNotification("fourth"));
	assert (!queue.empty());
	assert (queue.size() == 2);
	QTestNotification* pTNf = dynamic_cast<QTestNotification*>(queue.waitDequeueNotification(10));
	assertNotNullPtr(pTNf);
	assert (pTNf->data() == "third");
	pTNf->release();
	assert (!queue.empty());
	assert (queue.size() == 1);
	pTNf = dynamic_cast<QTestNotification*>(queue.waitDequeueNotification(10));
	assertNotNullPtr(pTNf);
	assert (pTNf->data() == "fourth");
	pTNf->release();
	assert (queue.empty());
	assert (queue.size() == 0);

	Notification* pNf = queue.waitDequeueNotification(10);
	assertNullPtr(pNf);
}