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given the next simple example,

#include <iostream>
using namespace std;

class A {
    public :
    void print() {
        cout<<"A print"<<endl;

class B : public A {
    void virtual print() {
        cout<<"B print"<<endl;


int main() {
    A* aPointerB=new B();
    return 0;

the output is : A Print

from my understanding :

new B()

creates an object on the heap with a virtual table that contains one method and that's B::print(); i have two ideas to why this is happening,

  1. when casting the pointer to A is the virtual table entry for B::print() removed.
  2. in runtime the program doesn't check the vtable entry for print() because we are of type A and print() is not virtual in A, therefor it runs A::print().

which one is it ?


it seems that my question wasn't clear, i know that A::print() is running because print() isn't virtual in A, my question is which of the 2 options is it for the reason print is running in A understanding the considering the way vtables and casting work.

thanks !

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3 Answers

up vote 2 down vote accepted

It happens because you didn't define print as virtual in A. That means that when calling on A objects, the lookup is not virtual.

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that i understand, it was intentional, i am trying to understand how casting effects inheritance, what does it mean the lookup is not virtual ? –  Matan Jan 21 '11 at 16:37
@james t: It doesn't. If you have a pointer to A, and the function was declared virtual, then a virtual lookup is used, else it isn't. It doesn't matter what inherited from A or defined what as virtual or anything like that. A virtual lookup decides the function to be called at run-time. –  DeadMG Jan 21 '11 at 16:39
@james Your second hypothesis above is the correct one. The vtable entry isn't removed. –  chrisaycock Jan 21 '11 at 16:40
@james: It means that aPointerB->print() is resolved at compile-time, not run-time. i.e. it always calls A::print(). –  Oli Charlesworth Jan 21 '11 at 16:40
ok.. thanks a lot, i understand –  Matan Jan 21 '11 at 16:41
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A's vtable doesn't contain any print function, since it's not virtual. For this reason if you call print on an object of type A the vtable isn't checked, and A::print (which is not virtual) gets called.

This means the code generated by the compiler just calls A::print, without even accessing the vtable.

Between your two ideas the second is the right one; the first one makes no sense: vtables are never modified at runtime.

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The print() in A needs to be declared as virtual, not the one in B as you have it.

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