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I have a class 'base' with a virtual destructor and thus a VTable and corresponding VTPR in it, and a class derived from it:

class base {
    virtual ~base() {}

class der : base {};


    int a = sizeof(base); // = 4 , fine !

    int b = sizeof(der);  // = 4 too ?

Now as derived class too is virtual, it'll have a VPTR of its own, but since it also has a subobject of the base class with a VPTR in it, shouldn't the size of the class 'der' be 8 bytes i.e. the size of the VPTR of the class 'der' + size of VPTR of the subobject of class 'base'? (when sizeof(void*) = 4 bytes ).

So basically my question is : When the subobject of class 'base' is made in 'der' does it have a seperate new VPTR ? And if it is so then why its size is not getting added while calculating the size of 'der'?

Can somebody please clarify this.

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Duplicating the vptr in the derived classes would completely defeat the purpose of vptrs: when manipulating a der instance with a base pointer, how would the implementation know that it is supposed to fetch the vptr in the derived part of the object? However, it is interesting to note that an object can have multiple vptrs if it inherits from multiple polymorphic base classes: struct A { virtual ~A() {} }; struct B { virtual ~B() {} }; struct C : A, B {};. On some (most?) implementations, C will have two vptrs, one in the A subobject and one in the B subobject. – Luc Touraille Jun 5 '12 at 15:06
the struct C above will surely have two VPTRs but shouldn't these VPTRs be in the class C itself instead of being in the subobjects (as u stated), because it was not so, then how would the implementation know that it is supposed to fetch the vptr in the derived part of the object? – cirronimbo Jun 5 '12 at 15:39

2 Answers 2

up vote 4 down vote accepted

This is all implementation-specific. But in practice, there will only be one vptr in the derived class; there is no need for two. The whole point of the vptr is it's what gets used to dynamically call the correct override of the virtual function; der objects will simply have a different pointer value to base objects.

[Note: Your example is probably confused by the fact that you are (unintentionally?) using private inheritance, rather than the more typical public inheritance...]

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I didn't use public inheritance because (as far as I know) it made no difference to the thing I'm asking. And sorry, I couldn't get your answer. What I was asking is about VPTR in the sub object of 'base'. – cirronimbo Jun 5 '12 at 15:00
cirronimmplo: Wwhat he's saying is that the derived class has no need of the virtual ptr to the base class, and so the vptr for the derived class overwrites it. – Mooing Duck Jun 5 '12 at 15:07
@cirronimbo: If you have a base object, then the vptr points at the vtable for base. If you have a der object, then the vptr points at the vtable for der. – Oliver Charlesworth Jun 5 '12 at 15:12
Ok. Got it now. Thanks :) But what happens in case of multiple (non-virtual) inheritance, inheriting from two base classes. Does it lead to formation of two VPTRs in the derived class ? – cirronimbo Jun 5 '12 at 15:24
@cirronimbo: Multiple inheritance in C++ has all sorts of intricacies (especially when you get inheritance diamonds). But in a nutshell, yes, there is one vptr per inheritance path. – Oliver Charlesworth Jun 5 '12 at 15:26

I think you're confusing vtables and vptrs. Each class will have a vtable, and each object will store a pointer to its vtable as the vptr. The vtable is like a static global, it is shared between all instances of the class and thus doesn't take any space in the object.

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