In the Qt world what is the difference of events and signal/slots?
Does one replace the other? Are events an abstraction of signal/slots?
The Qt Documentation probably explains it best
So events and signal/slots are two parallel mechanisms accomplishing the same things, in general an event will be generated by an outside entity (e.g. Keyboard, Mouswheel) and will be delivered through the event loop in QApplication. In general unless you set up the code you will not be generating events. You might filter them through
Signals and Slots are much easier to generate and receive and you can connect any two QObject subclasses. They are handled through the Metaclass (have a look at your moc_classname.cpp file for more) but most of the interclass communication that you will produce will probably use signals and slots. Signals can get delivers immediately or deferred via a queue (if you are using threads) A signal can be generated
In Qt, signals and events are both implementations of the Observer pattern. They are used in different situations because they have different strengths and weaknesses.
First of all let's define what we mean by 'Qt event' exactly: a virtual function in a Qt class, which you're expected to reimplement in a base class of yours if you want to handle the event. It's related to the Template Method pattern.
Note how I used the word "handle". Indeed, here's a basic difference between the intent of signals and events:
The difference is that when you "handle" the event, you take on the responsibility to "respond" with a behavior that is useful outside the class. For example, consider an app that has a button with a number on it. The app needs to let the user focus the button and change the number by pressing the "up" and "down" keyboard keys. Otherwise the button should function like a normal QPushButton (it can be clicked, etc). In Qt this is done by creating your own little reusable "component" (subclass of QPushButton), which reimplements QWidget::keyPressEvent. Pseudocode:
See? This code presents a new abstraction: a widget that acts like a button, but with some extra functionality. We added this functionality very conveniently:
The design of Qt is well thought out - they made us fall into the pit of success by making it easy to do the right thing and hard to do the wrong thing (by making keyPressEvent an event).
On the other hand, consider the simplest usage of QPushButton - just instantiating it and getting notified when it's clicked:
This is clearly meant to be done by the user of the class:
Note that one of the places QPushButton emits
So signals and events have different purposes (but are related in that both let you "subscribe" to a notification of something happening).
I don’t like the answers so far. – Let me concentrate on this part of the question:
Are events an abstraction of signal/slots?
Short answer: no. The long answer raises a “better” question: How are signals and events related?
An idle main loop (Qt’s for example) is usually “stuck” in a select() call of the operating system. That call makes the application “sleep”, while it passes a bunch of sockets or files or whatever to the kernel asking for: if something changes on these, let the select() call return. – And the kernel, as the master of the world, knows when that happens.
The result of that select() call could be: new data on the socket connect to X11, a packet to a UDP port we listen on came in, etc. – That stuff is neither a Qt signal, nor a Qt event, and the Qt main loop decides itself if it turns the fresh data into the one, the other or ignores it.
Qt could call a method (or several) like keyPressEvent(), effectively turning it into a Qt event. Or Qt emits a signal, which in effect looks up all functions registered for that signal, and calls them one after the other.
One difference of those two concepts is visible here: a slot has no vote on whether other slots registered to that signal will get called or not. – Events are more like a chain, and the event handler decides if it interrupts that chain or not. Signals look like a star or tree in this respect.
An event can trigger or be entirely turned into a signal (just emit one, and don’t call “super()”). A signal can be turned into an event (call an event handler).
What abstracts what depends on the case: the clicked()-signal abstracts mouse events (a button goes down and up again without too much moving around). Keyboard events are abstractions from lower levels (things like 果 or é are several key strokes on my system).
Maybe the focusInEvent() is an example of the opposite: it could use (and thus abstract) the clicked() signal, but I don’t know if it actually does.
Events are dispatched by event loop. Each GUI program need event loop, whatever you write it Windows or Linux, using Qt, WinApi or any other GUI library. As well each thread has it's own event loop. In Qt "GUI Event Loop" (witch is main loop of all Qt applications) is hidden, but you start it calling:
Messages OS and other applications send to your program are dispatched as events.
Signals and slots are Qt mechanism, in process of compilations using moc (meta-object compiler), it is changed to callback functions.
Event should have one receiver, witch should dispatch it. No one else should get that event.
All slots connected to emitted signal will be executed.
You shouldn't think of Signals as events, because as you can read in Qt doc:
When you send an event, it must wait for time when event loop dispatch all events that came earlier. Because of this, execution of the cod after sending event or signal is different. Cod fallowing sending event will be run immediately. With signals and slots mechanism it depend on connection type. Normally it will be executed after all slots. Using Qt::QueuedConnection, it will be executed immediately, just like events. Check all connections type at Qt Doc
Events (in a general sense of user/network interaction) are typically handled in Qt with signals/slots, but signals/slots can do plenty of other things.
QEvent and its subclasses are basically just little standardized data packages for the framework to communicate with your code. If you want to pay attention to the mouse in some way, you only have to look at the QMouseEvent API, and the library designers don't have to reinvent the wheel every time you need to figure out what the mouse did in some corner of the Qt API.
It is true that if you're waiting for events (again in the general case) of some sort, your slot will almost certainly accept a QEvent subclass as an argument.
With that said, signals and slots can certainly be used without QEvents, although you'll find that the original impetus for activating a signal will often be some kind of user interaction or other asynchronous activity. Sometimes, however, your code will just reach a point where firing off a certain signal will be the right thing to do. For example, firing off a signal connected to a progress bar during a long process doesn't involve a QEvent up to that point.
There is an article that discusses event processing in some detail: http://www.packtpub.com/article/events-and-signals
It discussions the difference between events and signals here:
This seems to be a common way of talking about it, as the accepted answer uses some of the same phrases.
Note, please see helpful comments below on this answer from Kuba Ober, that make me wonder if it might be a bit simplistic.
Another minor pragmatic consideration: emitting or receiving signals requires inheriting QObject whereas an object of any inheritance can post or send an event (since you invoke QCoreApplication.sendEvent() or postEvent().) This is usually not an issue but: to use signals PyQt strangely requires QObject to be the first super class, and you might not want to rearrange your inheritance order just to be able to send signals.)
TL;DR: Signals and slots are indirect method calls. Events are data structures. So they are quite different animals.
The only time when they come together is when slot calls are made across thread boundaries. The slot call arguments are packed up in a data structure and get sent as an event to the receiving thread's event queue. In the receiving thread, the
If we're willing to generalize to oblivion, one could think of events as as a way of invoking the target object's