Concerning the signals and slots, the
Q_OBJECT macro adds a virtual function
qt_metacall() declaration into the class’s declaration which is to be defined later by the the
moc. (It also adds some declarations for conversion but that’s not too important here.)
moc then reads the header file and when it sees the macro, it generates another
.cpp file named
moc_headerfilename.cpp with the definitions to the virtual functions and – you might have asked yourself why you can get away with mentioning the
signals: in your header file without a proper definition – of the signals.
So, when a signal is called, the definition from the mocfile is executed and
QMetaObject::activate() is called with the signal’s name and the signal’s arguments.
activate() function then figures out which connections have been established and fetches the names for the appropriate slots.
Then it calls
qt_metacall with the slot names and the arguments given to the signal and the metacall function delegates this with the help of a large
case statement to the real slots.
As there is no real runtime information possible in C++ concerning the actual names for the signals and slots, as has already been noticed, these will be encoded by the
SLOT macros to simple
const char*s (with either "1" or "2" added to the name to distinguish signals from slots).
As is defined in
#define SLOT(a) "1"#a
#define SIGNAL(a) "2"#a
The other thing the
Q_OBJECT macro does is defining the
tr() functions inside your object which can be used to translate your application.
As you asked what the
qt_metacast is doing. It checks whether an object belongs to certain class and if it does returns the pointer to it. If it doesn’t, it returns 0.
Widget* w = new Widget();
Q_ASSERT(w->qt_metacast("Widget") != 0);
Q_ASSERT(w->qt_metacast("QWidget") != 0);
Q_ASSERT(w->qt_metacast("QObject") != 0);
Q_ASSERT(w->qt_metacast("UnrelatedClass") == 0);
This is needed to provide some runtime reflection which is not possible otherwise. The function is called in
QObject::inherits(const char *) for example and simply checks for inheritance.