If I have a code like this:
struct A {
virtual void f(int) {}
virtual void f(void*) {}
};
struct B : public A {
void f(int) {}
};
struct C : public B {
void f(void*) {}
};
int main() {
C c;
c.f(1);
return 0;
}
I get an error that says that I am trying to do an invalid conversion from int to void*. Why can't compiler figure out that he has to call B::f, since both functions are declared as virtual?
After reading jalf's answer I went and reduced it even further. This one does not work as well. Not very intuitive.
struct A {
virtual void f(int) {}
};
struct B : public A {
void f(void*) {}
};
int main() {
B b;
b.f(1);
return 0;
}
The short answer is "because that's how overload resolution works in C++".
The compiler searches for functions F inside the C class, and if it finds any, it stops the search, and tries to pick a candidate among those. It only looks inside base classes if no matching functions were found in the derived class.
However, you can explicitly introduce the base class functions into the derived class' namespace:
struct C : public B {
void f(void*) {}
using B::f; // Add B's f function to C's namespace, allowing it to participate in overload resolution
};