Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.
#include <iostream>
using namespace std;

class Duck {
        virtual void quack() = 0;

class BigDuck : public Duck {
  //  void quack();   (uncommenting will make it compile)


void BigDuck::quack(){ cout << "BigDuckDuck::Quack\n"; }

int main() {
        BigDuck b;
        Duck *d = &b;


The code above doesn't compile. However, when I declare the virtual function in the subclass, then it compiles fine.

If the compiler already has the signature of the function that the subclass will override, then why is a redeclaration required?

Any insights?

share|improve this question
What compiler error do you get? –  Justin Ethier Jun 2 '10 at 13:18
Even though in this example we see an abstract base class, the question is valid in general, too. –  xtofl Jun 2 '10 at 13:28
@justin, you could just copy, paste and check :P –  sud03r Jun 2 '10 at 13:32
I could, although without knowing what compiler you are using I might not get the same (or any) error :) –  Justin Ethier Jun 2 '10 at 14:50
i am using g++ 4.4.3 ;) –  sud03r Jun 2 '10 at 16:08

7 Answers 7

up vote 14 down vote accepted

The redeclaration is needed because:

  • The standard says so.
  • It makes the compiler's work easier by not climbing up the hierarchy to check if such function exists.
  • You might want to declare it lower in the hierarchy.
  • In order to instantiate the class the compiler must know that this object is concrete.
share|improve this answer
Thanks! That makes sense. –  Matt Ellen Jun 2 '10 at 13:55
@Matt Ellen: No problem –  the_drow Jun 2 '10 at 14:31
The = 0; at the end of the declaration means you HAVE to define it in the derived class. Not that you might want to. –  Ben Burnett Jun 2 '10 at 16:54
@Ben: You might decide that you don't want to instantiate that class in a specific project :) But you are correct. What I meant that instead of implementing it one level below in the hierarchy you might want to implement it even lower –  the_drow Jun 3 '10 at 0:10

If you change:

virtual void quack() = 0;


virtual void quack();

It will compile without implementing quack() in HugeDuck.

the = 0; at the end of the function declaration is essentially saying that all BigDucks will quack, but that it has to be implemented by each derived duck. By removing the = 0; the BigDuck quack will get called unless you implement quack in HugeDuck.

EDIT: To clarify the = 0; is saying that the derived class will have the definition for the function. In your example it is expecting HugeDuck to define quack(), but as you have it commented it out it does not.

As a side note, since all ducks can quack perhaps your original Duck class that we can not see should implement quack() instead?

share|improve this answer

Because C++ separates 'declaration' from 'polymorphism': any function needs a declaration for the compiler, regardless if it's virtual or not.

Your example doesn't go far enough, it has the 'abstract class' problem: a BigDuck cannot be instantiated because it has no implementation of quack in it's interface.

Generalizing the problem, we can declare the base function not pure virtual:

class Duck { public: virtual void quack(){} };

class BigDuck : public Duck {}; 
void BigDuck::quack(){ cout << "QUACK!"; }//overrides, but doesn't declare

In here, the compiler will complain that it has a symbol BigDuck::quack that wasn't declared. This has nothing to do with abstract classes or anything.

(Note: gcc says: error: no 'void BigDuck::q()' member function declared in class 'BigDuck' )

share|improve this answer

The definition of Quack() in your base class is "abstract" - it has no implementation. This tells the compiler that your derived class must implement it. Failure to do so is a compilation error.

share|improve this answer
But surely the compiler knows to expect it in the implementation. What purpose does the extract declaration serve? –  Matt Ellen Jun 2 '10 at 13:22
@Matt Ellen: See my answer –  the_drow Jun 2 '10 at 13:24
@Matt The language standard says it is required - this hs nothing to do with abstract classes, all virtual functions (and indeed all functions) work that way. –  anon Jun 2 '10 at 13:25
It's been several years since I did anything with C++ "in anger", but I'm pretty sure that the code is not actually providing an implementation for quack() but instead is either being ignored (since the compiler doesn't expect a method implementation) or implementing a new method (hiding/overload rather than override). –  GalacticCowboy Jun 2 '10 at 13:31
@Galactic It is providing an implementation in the derived class. It certainly isn't being ignored! –  anon Jun 2 '10 at 13:33

BigDuck could be another abstract class and you might not want to implement quack until you get to the base class ReallyBigDuck.

share|improve this answer
Now that's a good argument for being able to not declare quack. But what's the argument for having to declare it? –  xtofl Jun 2 '10 at 13:31

Until you provide an implementation, ll classes that inherit from a class that contains PVF are abstract - they cannot be instantiated. In order to provide an such an implementation, you must declare the function in the class.

share|improve this answer

Declaring the methods in each classes will tell the compiler that class provides the different implementation for the method.

Also, in case you want to create the objects of BigDuck on stack then how will compiler should know the signature of quack().

BigDuck aDuck;
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.