Signals and slots were one of the distinguishing features that made Qt an exciting and innovative tool back in time. But sometimes you can teach new tricks to an old dog, and QObjects
gained a new way to connect between signals and slots in Qt5, plus some extra features to connect to other functions which are not slots. Let’s review how to get the most of that feature. This assumes you are already moderately familiar with signals and slots.
One simple thought about the basics
Slots is not necessary in Qt5. Qt updated the connect syntax to allow for connecting a signal to an arbitrary function, including lambdas. Because of this, slots is not necessary. However, the slots keyword still affects the way that an object's QMetaObject is built.moc (aka, the 'meta-object compiler') won't recognize a method as a slot unless it is within the slots: section of a class. Signals and slots were one of the distinguishing features that made Qt an exciting and innovative tool back in time. The new syntax allows to call not just a member function declared as slot in the header with public slots: (or with protected or private instead of public), but any kind of function (more on that in the next section).
I am not going to bore you with repeating basic knowledge you already have, but I want you to look at signals and slots from a certain angle, so it will be easier to understand the design of the feature I will cover next. What’s the purpose of signals and slots? It’s a way in which “one object” makes sure that when “something happened”, then “other object” “reacts to something happened”. As simple as that. That can be expressed in pseudocode like this:
Notice that the four phrases that are into quotes in the previous paragraph are the four arguments of the function call in the pseudocode. Notice also that one typical way to write the connect statement is aligning the arguments like this, because then the first column (first and third arguments) are object instances that answer “where?” and the second column (second and fourth arguments) are functions that answer “what?”.
In C++ instead of pseudocode, and using real life objects and classes, this would look like this in Qt4 or earlier:
That could be a typical statement from a “Hello World” tutorial, where a button is created and shown, and when it’s pressed the whole window closes and the application terminates.
Now to the main point that I want you to notice here. This has a very subtle advantage over a typical mechanism used in standard C or C++ 11 like callbacks with function pointers and lambda functions wrapped in std::function, and is subtle only because is so nice we often forget about it when we have used signals and slots for a while. If the sender object is destroyed, it obviously can not emit any signal because it is a member function of its class. But for the sender to call the receiver, it needs a pointer to it, and you as a user, don’t need to worry at all about the receiver being destroyed and becoming invalid (that is done automatically by the library), so you very rarely need to call QObject::disconnect
.
So signals and slots are very safe by default, and in an automatic way.
The new versus the old way to use connect
The previous example shows one way that works across old versions of Qt published so far (Qt 1 to 5). Recently a blog post about porting a tutorial application from Qt 1 to Qt 5.11 has been published, and no porting was needed at all for signals, slots, or the connections! That doesn’t mean the feature is perfect, since a new way to make connections was added, keeping all the previous functionality.
The main problem with the example above is that (as you probably knew, or guessed from being all uppercase) is that SIGNAL
and SLOT
are macros, and what those macros do is convert to a string the argument passed. This is a problem because any typo in what gets passed to those means that the call to connect would fail and return false. So since Qt 5.0, a new overload to QObject::connect
exists, and supports passing as second and fourth arguments a function pointer to specify which member function should be called. Ported to the new syntax, the above example is:
Now any typo in the name will produce a compile time error. If you misspelled “click” with “clik” in the first example, that would only fail printing a warning in the console when that function gets called. If you did that in some dialog of an application you would have to navigate to that dialog to confirm that it worked! And it would be even more annoying if you were connecting to some error handling, and is not that easy to trigger said error. But if you did the same typo in the last example, it would be a compile time error, which is clearly much better.
This example is usually said to be using the “new syntax”, and the previous example the “old syntax”. Just remember that the old is still valid, but the new is preferred in most situations.
Since this is an exciting new feature added to a new major version, which has received some extra polishing during the minor releases, many blog posts from other members of the Qt community have been published about it (for example covering implementation details or the issues that could arise when there are arguments involved). I won’t cover those topics again, and instead I will focus on the details that in my experience would be most beneficial for people to read on.
No need to declare members as slots anymore (or almost)
The new syntax allows to call not just a member function declared as slot in the header with public slots:
(or with protected
or private
instead of public
), but any kind of function (more on that in the next section). There is still one use case where you would want to declare functions as slots, and that is if you want to make that function usable by any feature that happens at run time. That could be QML, for example.
Connecting to anything callable
Now we can connect to any “callable”, which could be a free standing function, a lambda function or a member function of an object that doesn’t derive from QObject
. That looks in code like the following:
Public Slots
But wait, where is that nice symmetry with 2 rows and two columns now?
When you connect to a lambda, there is a receiver object, the lambda itself, but there is no signature to specify since it’s the function call operator (the same would happen to a function object or “functor”, by the way). And when there is a free standing function there is a signature, but there is no instance, so the third and the fourth arguments of the first two calls are somewhat merged. Note that the arguments are still checked at compile time: the signal has no arguments, and the lambda has no arguments either. Both sender and receiver are in agreement.
The example using std::bind requires a bit more explanation if you are not familiar with it. In this case we have the two objects and the two function pointers, which is to be expected for what is wanted. We don’t often think about it like this, but we always need a pointer to call a member function (unless it is static). When it is not used, it is because this
is implicit, and this->call()
can be shortened to call()
. So what std::bind
does here is create a callable object that glues together the particular instance that we want with one member function. We could do the same with a lambda:
Note that std::bind
is actually much more powerful, and can be very useful when the number of arguments differ. But we will leave that topic to another article.
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One common use of the above pattern with std::bind is when you have a class implemented through a data pointer (private implementation or pimpl idiom). If you need a button or a timer to call a member function of the private class that is not going to be a QObject
, you can write something like this:
Recovering symmetry, safety and convenience
With the previous examples that nice balance of the four arguments is gone. But we are missing something more important.
What would happen if the lambda of the previous examples would use an invalid pointer? In the very first C++ example we showed a button wanting to close the application. Imagine that the button required to close a dialog, or stop some network request, etc. If the object is destroyed because said dialog is already closed or the request finished long ago, we want to manage that automatically so we don’t use an invalid pointer.
An example. For some reason you show some widget and you need to do some last minute update after it has been shown. It needs to happen soon but not immediately, so you use a timer with a short timeout. And you write
That works, but has a subtle problem. It could be that the widget gets shown and immediately closed. The timer under the scenes doesn’t know that, and it will happily call you, and crash the application. If you made the timer connect to a slot of the widget, that won’t happen: as soon as the dialog goes away, the connection gets broken.
Since Qt 5.2 we can have the best of both worlds, and recover that nice warm feeling of having a well balanced connect statement with two objects and two functions. 🙂
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In that Qt version an additional overload was added to QObject::connect
, and now there is the possibility to pass as third argument a so called “context object”, and as fourth argument the same variety of callables shown previously. Then the context object serves the purpose of automatically breaking the connection when the context is destroyed. That warranties the problem mentioned is now gone. You can easily handle that there are no longer invalid captures on a lambda.
The previous example is almost as the previous:
Now it is as if the lambda were a slot in your class, because to the timer, the context of the connection is the same.
The only requirement is that said context object has to be a QObject. This is not usually a problem, since you can create and ad-hoc QObject instance and even do simple but useful tricks with it. For example, say that you want to run a lambda only on the first click:
This will delete the ad-hoc QObject
guard on the first invocation, and the connection will be automatically broken. The object also has the button as a parent, so it won’t be leaked if the button is never clicked and goes away (it will be deleted as well). You can use any QObject
as context object, but the most common case will be to shut down timers, processes, requests, or anything related to what your user interface is doing when some dialog, window or panel closes.
Tip: There are utility classes in Qt to handle the lifetime of QObjects
automatically, like QScopedPointer
and QObjectCleanupHandler
. If you have some part of the application using Qt classes but no UI tightly related to that, you can surely find a way to leverage those as members of a class not based on QObject
. It is often stated as a criticism to Qt, that you can’t put QObject
s in containers or smart pointers. Often the alternatives do exist and can be as good, if not better (but admittedly this is a matter of taste).
Bonus point: thread safety by thread affinity
The above section is the main goal of this article. The context object can save you crashes, and having to manually disconnect. But there is one additional important use of it: making the signal be delivered in the thread that you prefer, so you can save from tedious and error prone locking.
Qt Slots Public Or Private
Again, there is one killer feature of signals and slots that we often ignore because it happens automatically. When one QObject
instance is the receiver of a signal, its thread affinity is checked, and by default the signal is delivered directly as a function call when is the same thread affinity of the sender. But if the thread affinity differs, it will be delivered posting an event to the object. The internals of Qt will convert that event to a function call that will happen in the next run of the event loop of the receiver, so it will be in the “normal” thread for that object, and you often can forget about locks entirely. The locks are inside Qt, because QCoreApplication::postEvent
(the function used to add the event to the queue) is thread-safe. In case of need, you can force a direct call from different threads, or a queued call from the same thread. Check the fifth argument in the QObject::connect
documentation (it’s an argument which defaults to Qt::AutoConection
).
Let’s see it in a very typical example.
This shows a class that derives from QRunnable
to reimplement the run()
function, and that derives from QObject
to provide the finished()
signal. An instance is created after the user activates a button, and then we show some progress bar and run the task. But we want to notify the user when the task is done (show some message, hide some progress bar, etc.).
Qt Public Slots
In the above example, the third argument (context object) might be forgotten, and the code will compile and run, but it would be a serious bug. It would mean that you would attempt to call into the UI thread from the thread where the task was run (which is a helper thread pool, not the UI thread). This is wrong, and in some cases Qt will nicely warn you that you are using some function from the wrong thread, but if you are not lucky, you will have a mysterious crash.
Wrap up
C++ Private Slots
Comic 8 casino kings 480p. Hopefully now you’ve understood why that odd point was made in the introduction section. You don’t have to agree that it is aesthetically pleasing to write the arguments to connect in two rows and two columns, but if you understood the importance of using a context object as a rule of thumb, you probably will find your preferred way to remember if that third argument is needed when you write (or review other’s) code using connect.