Consider the following C++ code:
class A
{
public:
virtual void f()=0;
};
int main()
{
void (A::*f)()=&A::f;
}
If I'd have to guess, I'd say that &A::f in this context would mean "the address of A's implementation of f()", since there is no explicit seperation between pointers to regular member functions and virtual member functions. And since A doesn't implement f(), that would be a compile error. However, it isn't.
And not only that. The following code:
void (A::*f)()=&A::f;
A *a=new B; // B is a subclass of A, which implements f()
(a->*f)();
will actually call B::f.
How does it happen?
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