If I understand correctly, slots will always occur in the main thread.
So what is the difference between using the signal-slot system and
Your understanding is incorrect.
Each thread has its own event queue, so when a signal is emitted, if the connection is queued (not direct), it will be added to the event queue matching the thread affinity of the object.
For example: -
Let's assume that we have 2 objects; object1 running on the main thread and object2, which has been moved to a new thread.
connect(object1, &SomeObject::signal1, object2, &SomeOtherObject::signal2);
When object1 emits signal1, an event is posted to the new thread; the thread to which object2 was moved.
When the new thread processes its event loop and the event for signal1 it will execute object2's slot, signal2. This is not on the main thread.
QObject tree can be assigned to a specified thread.
moveToThread means move tree of objects (for given root object) to that thread.
That doesn't mean that that all code of the
QObject is assigned to that thread. It means that any slot invoked by queued connection (not direct connection) will be invoked in given thread. Read carefully documentation of QObject::connect and Qt::ConnectionType.
Qt::DirectConnection, all connections use the owning thread of the receiving object to deliver the signal. All arguments are packed and sent to the receiver's event queue. When the receiving thread's event loop gains control it will unpack the arguments and invoke the slot.
Note that I wrote above about a tree of objects. You can't move an object to a different thread if it has a parent. And you can't reparent an object to one that belongs in a different thread.
By default objects are assigned to thread which created them (if they do not have a parent). So it doesn't have to be main thread.
Thread a,b,c; a created b, b created c; connect(a, &QThread::finished, a, &QObject::deleteLater); connect(b, &QThread::finished, b, &QObject::deleteLater); connect(c, &QThread::finished, c, &QObject::deleteLater);
I do some experiment, found that if b had finished faster than c, c would not be deleted; But can do that: b->moveObject(a); //then b would be deleted again.