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I have a function X() declared as PURE VIRTUAL in base class:

class Base 
    virtual HRESULT X()=0; // Now it's pure virtual. 

class Derived_1 : public Base  
    HRESULT X()   
    // body of function X() ; full definition given here as per Derived_1's context. SHOULD WE MAKE THIS VIRTUAL?                                                     



class Derived_2 :public Base             
    HRESULT X()            
        // body of function X() ; full definition given here Derived_2's context.  SHOULD WE MAKE THIS VIRTUAL?

If our intention is to call the function X() generically using a base class pointer, so the decision wheather Derived_1's or Derived_2's definition of X() is called, then is it necessary to make the X() in Derived classes Virtual too.

Base * bPtr;
bPtr = new Derived_1(); OR bPtr = new Derived_2(); (Dynamic decision)

I feel there is no need to attach the virtual keyword to the definition in Derived classes. Am I right?

Thanks in advance.

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You can write virtual there or not, it doesn't matter. It is implicit (as long as the function really is the same, i.e. has the same signature, as the virtual one in the base class). – BoBTFish Mar 26 '12 at 14:42
Yes added the public access specifier :) Thanks. I missed it – codeLover Mar 26 '12 at 14:50
@Cornstalks: No. – Sebastian Mach Mar 26 '12 at 14:55
@phresnel: Thank you, comment rescinded. By the way, I thought I recognized your name from GameDev.net... – Cornstalks Mar 26 '12 at 15:03
up vote 3 down vote accepted

The functions in the derived classes will automatically be virtual if the signature of the function (the type of the arguments and return value, identifiers such as const and virtual) in the derived class is identical to the one in your base class. It doesn't matter whether it is virtual or pure virtual.

So in your example it is not necessary to add virtual for the derived classes.

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Does it make any difference if base class's X() is PURE virtual or VIRTUAL. ? – codeLover Mar 26 '12 at 14:47
No, it doesn't. – BertR Mar 26 '12 at 14:48
Because here the base class's X() is PURE virtual and NOT just VIRTUAL :) – codeLover Mar 26 '12 at 14:48
Yes, I saw that, and as already mentioned the behavior is identical. :-) – BertR Mar 26 '12 at 14:51
Also 1 more doubt,as you mentioned X() will remain virtual even if I dont attcah Virtual keyword to it in Derived classes, BUT I am getting an error like "cannot instantiate abstract class" if I try to instantiate an object of Derived_1 class. So does it mean the PURE virtual nature of X() has been inherited to Derived class too. ? – codeLover Mar 26 '12 at 14:58

C++ has a rule about this: once virtual, always virtual. Whether or not you say "virtual" in the derived classes doesn't change the fact that X() will be virtual. You can say it or not; X() will be virtual in the derived classes anyway.

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Once the function is declared virtual in a base class it is not required to declare virtual in the derived class. Sometimes people will declare virtual in the derived class because they feel it's more clear, but it's not a requirement.

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The function is declared as PURE virtual in base class. – codeLover Mar 26 '12 at 14:42
@codeLover: yes it doesn't matter. – Kevin Mar 26 '12 at 14:46

A function declared virtual in Base class is virtual in derived class as long as it has the same prototype and not explicitly declared virtual.

You don't need to add a virtual to your derived class function.

Reference: C++03 10.3 Virtual functions Para 3

[Note: a virtual member function does not have to be visible to be overridden, for example,

struct B {
    virtual void f();
struct D : B {
    void f(int);
struct D2 : D {
    void f();

the functionf(int) in classD hides the virtual functionf() in its base classB; D::f(int) is not a virtual function. However,f() declared in classD2 has the same name and the same parameter list asB::f(), and therefore is a virtual function that overrides the function B::f() even though B::f() is not visible in classD2. ]

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Technically it is not necessary to write virtual.

Practically it documents that the function is virtual: which means that when inheriting I don't have to check all the way down to the base class to see whether or not it is a virtual function. It also underlines the usual caveats: ie call from constructor or destructor at your peril.

In C++11 there is a better alternative to document "inherited virtuality", the override keyword.

class Base { public: virtual void method() = 0; };

class Derived: public Base { public: void method() override; };

The override keyword means that the message shall override a base class method (base being transitive here). If there is no base class method overriden, then the code is erroneous and the compiler will yield an error.

Therefore, the presence of the override actually makes the difference between a base method (first defining a new virtual method in the class) and an overriding method. And it is statically checked by the compiler.

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