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Why does an overridden function in the derived class hide other overloads of the base class?

Hi,

Let me explain my question with this example :

class A
{
    virtual ~A() = 0 { }

    A(const A&);
    virtual void operator =(const A&) = 0;
}

class B : public A
{
    ~B();

    B(const B&);
    void operator =(const B&);
}

void main(void)
{
    A* a = new B();
    delete a; // Is ~A() called, ~B() or both ?
}

This brings me to ask two questions :

  1. Which destructor is called when using delete on an abstract-base-class pointer ?
  2. Is it possible to make a copy of my object "a" with one of the copy methods above ?
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marked as duplicate by 0A0D, George Stocker Jul 20 '12 at 1:56

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

    
you want a pure virtual destructor? –  Mare Infinitus Jul 18 '12 at 19:24
    
I think the question does not make much sense. First of all, the object is of type B, and thanks to being virtual, the correct destructor of B will be called (no question about that, regardless of what type the pointer is). However, then the destructor of the base class A will be invoked as well according to standard object creation/destruction rules, and since it does not exist, the compiler will bail out. –  Damon Jul 18 '12 at 19:29
    
I agree with @Damon. Question 1. effectively asks how do virtual functions work. As for question 2. that's been asked before eg. here and here. –  Troubadour Jul 18 '12 at 20:00
    
@Damon: What do you mean by "does not exist" and "compiler will bail out"? The destructor obviously exists. It is defined by {} (even though the placement is non-standard). –  AndreyT Jul 18 '12 at 20:13
    
@MareInfinitus Yes –  Jack Jul 18 '12 at 21:10

4 Answers 4

up vote 2 down vote accepted
  1. Both are called.

    In delete a the derived class destructor ~B::B is found and called using the virtual dispatch mechanism. The implementation of ~B::B in turn implicitly calls the base class destructor ~A::A. However, this call is implemented as non-virtual ordinary call, meaning it is not affected by the fact that ~A::A is declared as pure.

    This is actually the reason why pure virtual destructors still have to be defined. Although the language specification does not permit in-class definitions for pure virtual functions. Even if you want it to be inline, you still have to define it out of class.

  2. It is not possible to copy a standalone object of type A simply because there can't be any standalone object of abstract type. Please, clarify your question. What do you want to copy and to where?

    If you want to do something like this

    B b1, b2;
    A *a1 = &b1, *a2 = &b2;
    
    *a1 = *a2;
    

    and expect the last assignment to behave as if b1 = b2 was performed... well, it can be done but it will take some effort and might/will result in pretty ugly code. I'd say that burdening the overloaded assignment operator with that sort of functionality is not a good idea.

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Yes that is what I would like to do, but obviously it is not as simple and clear as I expected. I will rather try to change a bit the behaviour of my classes. –  Jack Jul 18 '12 at 21:08
virtual ~A() = 0 { }

This is not going to compile. A pure virtual destructor will look like:

virtual ~A() = 0;

Even so, you will have to add an implementation, because all the destructors of the class heirarchy will be called when destructing an object. So, if you will not implement the body, this will cause UB (or it will not even compile as it doesn't for me with gcc 4.6.3).

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Incorrect; pure virtual destructors have to have an implementation. See stackoverflow.com/questions/1219607/… –  ecatmur Jul 18 '12 at 19:30
1  
@ecatmur, That's exactly what I said? –  SingerOfTheFall Jul 18 '12 at 19:31
    
ah, sorry. Yes, I see what you mean. –  ecatmur Jul 18 '12 at 19:35

1: ~B() is called through the virtual ~A() = 0; the implementation of ~A() is then called by ~B().

Also, virtual ~A() = 0 { } is incorrect syntax; you have to write virtual ~A() = 0; and then supply inline A::~A() { } outside the class definition.

2: Your code won't compile because B::operator=(const B&) is not an acceptable override for A::operator=(const A&) = 0; only function return types are allowed to be covariant for virtual methods.

There is no easy way to copy a polymorphic object through copy constructor or assignment operator, since such a member would have to use double dispatch (see virtual assignment operator C++). The usual method is to have a virtual A *clone() = 0 function, which is expected to return a new instance of the derived class.

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1) The destructor ~B() is called first, after the destructor ~A(), remember just that's:

Where the constructor have been call, the destructor will be call at reverse order.

2) yes, because it's pointer, the heritage can block the copy (contructor by recopy)

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