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even i think that question is stupid. but i've a little experience.

i have a base class that has such method:

class A{  virtual void func(int)=0 };

and inherited class

    class  B :public A
     //how should i write?
       virtual void func() {    implementation...}  

      void func() {implementation    } 
   //my target is to redefine a function of ansestor
 //i worry that variant b can  cover ansestor function and i will not redefine it
 //but what if i don't want that the function that was virtual in ansestor, will   be      virtual in subclass? 
i'm confused

i don't know that to do. if i don't need this virtual function complete

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do you have a book on C++? This kind of questions can be answered by reading through chapters devoted to "inheritance". –  akappa May 25 '11 at 22:33
What are you trying to achieve by making the redefined function non-virtual? –  dascandy May 25 '11 at 22:39
The virtual keyword is optional in the derived class, so you are defining the same function twice. –  rturrado May 25 '11 at 22:42
He's asking whether virtual is required when overriding the function. He's worried that omitting the keyword in the derived class might hide the ancestor function. But if it doesn't hide the function, then he wonders, what if he really did want to hide it with a non-virtual function? –  Rob Kennedy May 25 '11 at 22:50

4 Answers 4

up vote 4 down vote accepted

You ask, "what if i don't want that the function that was virtual in ansestor, will be virtual in subclass?"

Sorry, but every function that is declared virtual in a base class, is also virtual in all derived classes.

It actually doesn't matter whether you use the virtual keyword in the derived-class declaration. Options a and b are identical -- in both cases B::func is virtual.

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Yet, use virtual only if you intend to redefine this function in a derived class, it make your code more understandable. –  Errata May 25 '11 at 22:46

I suggest your write two small programs, one for each implementation to determine which suits your needs.

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Huh? It doesn't matter whether virtual is included on B::func. They're equivalent definitions. –  Rob Kennedy May 25 '11 at 22:39
If so, then wouldn't writing two test programs solve it? –  levis501 May 25 '11 at 22:58
I think it would just cause confusion because both programs would work the same. That would just prompt more questions for someone who's clearly already confused. –  Rob Kennedy May 25 '11 at 23:02
Well, I guess we can disagree. I think it would help in addition to what you say it just does. –  levis501 May 25 '11 at 23:14

In C++ the function signature consists of the function name and function arguments. In a class you cannot have two functions with same signature. So your second (non-virtual) function declaration will generate compiler errors.

In short:

virtual void func() { //implementation}


void func() { //implementation }

have the same signature and cannot be declared in the same class.

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I don't think he wanted to have both in the same class. "My target is to redefine a function of ansestor." He wanted to know which of those two ways was correct. –  Rob Kennedy May 25 '11 at 22:43
I guess you are right, He was not very clear in his description. –  user258808 May 25 '11 at 22:51

Virtual means that reimplementation is possible in inherited class(es). Virtual function will allways be virtual no matter the depth of inheritance.

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