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Okay, so I know there are a lot of polymorphism threads flying around but I have yet to encounter this situation.

class Base {
    virtual void method1() {
        cout << "BaseMethod1" << endl;

    void method2() {
        cout << "BaseMethod2" << endl;

class Derive: public Base {
    void method1() {
        cout << "DeriveMethod1" << endl;

    void method2() {
        cout << "DeriveMethod2" << endl;

int main() {
    Base* p = new Derive();

What's tripping me up is method1 in the derived class calls a method2. So which method2 would it be since the method2 in the Base class wasn't declared as virtual?

Thanks ahead of time!

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Did you try it? –  Pubby Mar 1 '13 at 4:55
method2() parenthesis are missing if I am not wrong –  Grijesh Chauhan Mar 1 '13 at 4:55
@Pubby trying things won't necessarily lead to enlightenment in C++. In fact it can lead to a dangerous false sense of security in the case of undefined behavior that happens to work. –  Antimony Mar 1 '13 at 4:56
The key phrase you want to look up to answer this question is "name hiding". –  In silico Mar 1 '13 at 4:56
@Antimony well if you prefer to read the standard then have it your way. All I care is that people do a little research before asking questions. –  Pubby Mar 1 '13 at 4:59

3 Answers 3

The code in question will not compile because Base::method1() is declared private. It needs to be public to be able to be called from main.

Derived::method1() is implicitly virtual even if not marked as virtual. So the this in Derived::method1() points to a Dervied object and in this scope compiler can only see Derived::method2(). Hence Derived::method2() will be called. The method in derived class hides the same named method in Base class.

Good Read:

What's the meaning of, Warning: Derived::f(char) hides Base::f(double)?

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The main reason you do not see this pattern very often is that it is in fact an anti-pattern.

The Derived method will be invoked because you are calling it with a Derived object reference (this). If you were calling it with a Base class reference you will get the Base method.

If you redeclare a non-virtual method you are hiding the base method and breaking polymorphism.

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+1 for several good points (especially significance of this), but regarding "redeclare a non-virtual method [is] breaking polymorphism" - that's a bit melodramatic: the object may continue to work polymorphically through a Base class reference/pointer perfectly well - as per Liskov Substitution Principle - or it may even be necessary not to have some functions virtual to avoid breaking the principle (e.g. a Derived class serialisation method that wasn't reparsable as per Base method documentation). Not broken, but fragile (e.g. harder to switch to compile-time polymorphism). –  Tony D Mar 1 '13 at 5:59
Good point. There are almost always exceptions to the rule. I tend to stick with this particular rule pretty heavily as it reduces the likelihood of error in large code bases. This is a contradiction to what one would expect. I guess you could say it inflates polymorphism because now you are making an object that takes many forms based on how you refer to it :P. –  Matthew Sanders Mar 1 '13 at 6:23

It will use Derive::method2() as name look-up (in body of Derive::method1()) starts from the class itself.

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