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I'm trying to understand the function of the "virtual" keyword in C++ - consider this example:

struct a {
  virtual void say_hi() { std::cout << "hello from a" << std::endl; }
struct a {
  void say_hi() { std::cout << "hello from a" << std::endl; }

struct b : public a {
  void say_hi() { std::cout << "hello from b" << std::endl; }

int main( int argc, char** argc )
  a a_obj;
  b b_obj;

This program outputs:

hello from a
hello from b

regardless of whether or not a::say_hi is declared as virtual or not. Since the function gets correctly overridden even when say_hi is not declared virtual, then what is the function of declaring it as virtual?

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1 Answer 1

up vote 5 down vote accepted

You aren't using polymorphism. Polymorphic behaviour only affects pointers and references to base classes, like so:

class A; class B1 : A; class B2 : A;

B1 x;
B2 y;
A  z;

A & a1 = x;  // static type A&, dynamic type B1&
A & a2 = y;  // static type A&, dynamic type B2&
A & a3 = z;  // static and dynamic type A&

Now accessing member functions of a1, a2, a3 is subject to polymorphism and virtual dispatch.

However, you must declare the first function at the top of the inheritance hierarchy virtual, i.e. in A! In your example, without virtual, there's no polymorphism and you always call the member function of the corresponding static type of the object. To test this, add another few lines:

a & bref = b_obj;
bref.say_hi();       // call b::say_hi() if virtual, a::say_hi if not
bref.a::say_hi();    // always call a::say_hi()
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Interesting... I was (erroneously, obviously) expecting the compiler to complain if I tried to override a non-virtual function, like C#. Thanks for clearing that up for me. –  Chris Vig Aug 28 '11 at 3:09
That's because you're not overriding, you're hiding the base function. That's permissible, so the compiler assumes you know what you're doing (indeed, this isn't C# :-)). In C++11 you can add the override keyword to declare your intent explicitly, in which case you'll even get a nice compiler error. –  Kerrek SB Aug 28 '11 at 3:11
Hah, OK. I obviously need to head back to my C++ textbook. Thanks! –  Chris Vig Aug 28 '11 at 3:13
@Chris: Well, everything (sort of) is a reference in C#, so you're always eligible for dynamic dispatch. But all the same polymorphism is only interesting if you refer to a derived object through a reference to a base object. In your example, reference or not, and virtual or not, you would always get the same output that you have. –  Kerrek SB Aug 28 '11 at 3:20

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