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I have a question about pure virtual functions. I am not clear about how it works and when we need to use pure virtual functions. This is the example that I do not understand:


class A
public :

            virtual void func1(void) = 0;
            virtual UINT32 func2(void) = 0;
            UINT32 initialize(void) = 0;


UINT32 A:initialize (void)
            return (result);

Can anyone explain in detail what this example actually does and what the result is? I really appreciate your help and knowledge. Thank you very much.

share|improve this question
This will not compile. Are you sure you did't mean UINT32 result = func2(); instead of just func2(); in the middle of the A:initialize function? – Lalaland Jun 12 '12 at 3:16
Yes, I think that is a mistake. You are correct. Thank you..:) – Siti Haslina Mohd Zulkafli Jun 12 '12 at 6:42
possible duplicate of pure virtual function with implementation – Niet the Dark Absol Jun 12 '12 at 16:03
up vote 1 down vote accepted

(Note, the declaration for initialize() should not be virtual, and the implementation of initialize() should return func2() probably. As this is an example, it doesn't really matter what initialize() does, but it should compile correctly.)

The primary purpose of virtual functions is to achieve polymorphism.

Class A defines two pure virtual methods, and initialize calls them. This allows code in the program to initialize something of type A without being aware of the subclass. There may be many subclasses of A, and each may do something slightly differently within func1() and func2(). Since the code that only knows about A is sometimes initializing objects of different types through A, A can be referred to as a polymorphic type.

class B : public A {
    void func1 () { std::cout << "B::func1" << std::endl; }
    UINT32 func2 () { return 1; }

class C : public A {
    void func1 () { std::cout << "C::func1" << std::endl; }
    UINT32 func2 () { return 2; }

void call_initialize (A *a) {
    std::cout << a->initialize()  << std::endl;

B b;
C c;

Results in the output:


This is an example of polymorphic behavior, because the output is different depending on if A was subclassed by B or by C.

share|improve this answer
Thanks for your explanation. Your example is really helpful!!..Thank you very much..:) – Siti Haslina Mohd Zulkafli Jun 12 '12 at 6:29
@SitiHaslinaMohdZulkafli: You're welcome. +1 on your question. – jxh Jun 12 '12 at 6:33

The functions func1 & func2 are not implemented in A (as per the code shown).
If they are implemented, then they are called. If there is a derived class for A and if the object for the derived class is created polymorphically, i.e.

class B : public A

A* obj = new B();


Then func1() and func2() of B's version are called if B implemented them.

As mentioned in the comment by Ethan, you are not taking the result from func2().
So you need either write

UINT32 result = func2(); 


return func2();
share|improve this answer mean, there is a mistake in this code right?..I just realize..Yes, maybe its typo error..I am not so sure but your help is really appreciated. Thank you..:) – Siti Haslina Mohd Zulkafli Jun 12 '12 at 6:31
Neither A::func1 nor A::func2 will be called here, even if they are implemented, since they are pure virtual. Only derived classes that override them can be instantiated, and those overrides will be called instead. – Mike Seymour Jun 12 '12 at 6:42

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