It shouldn't be a great deal different from a signal/slot connection. Let's take a look at underlying mechanism of signals/slots. There is an event queue in each thread which maintains signals (events) that have been emitted but not processed yet. So whenever the execution returns to the event loop the queue is processed. Event loop itself doesn't handle the events. Rather it delivers them to the objects so they can handle it. In this special case, I suppose that the object would emit another signal which would be inserted in the queue. When the execution returns to event loop the new signal is handled by the object again. Here is a test which proves the above argument.
If you run the codes attached, the output would be:
which means defining a signal-signal connection type as queued between threads have the expected queued behaviour, that rejects the argument which it is always immediate. If you define it as direct, the output would be:
as expected. it doesn't generate any errors or warnings, and program doesn't crash as well.Yet this simple example doesn't prove it works for a large and complex one as well.
int main(int argc, char *argv)
QApplication a(argc, argv);
TestSignalSignalConnection * t = new TestSignalSignalConnection();
class TestSignalSignalConnection : public QThread
explicit TestSignalSignalConnection(QObject *parent = 0);
#endif // TESTSSCONNECTION_H
TestSignalSignalConnection::TestSignalSignalConnection(QObject *parent) :
TestSignalSignalConnection *t = new TestSignalSignalConnection();
t->connect(t,SIGNAL(signal2()), t,SLOT(slot()), Qt::DirectConnection);
qDebug() << "before signal()";
qDebug() << "after signal()";
qDebug() << "slot() called";