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This question already has an answer here:

I have a class A:

class A
        virtual double getValue() = 0;

And a class B:

class B : public A
        virtual double getValue() { return 0.0; }

And then in main() I do:

A * var;
var = new B[100];
std::cout << var[0].getValue(); //This works fine
std::cout << var[1].getValue(); //This, or any other index besides 0, causes the program to quit

If instead I do:

B * var;
var = new B[100];
std::cout << var[0].getValue(); //This works fine
std::cout << var[1].getValue(); //Everything else works fine too

Everything compiles fine, but it seems as though there is something wrong with my polymorphism perhaps? I'm puzzled.

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marked as duplicate by legends2k, mkaes, Walter, Aperçu, Laf Sep 3 '14 at 18:12

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.

up vote 11 down vote accepted

You can't treat arrays polymorphically, so while new B[100] creates an array of B objects and returns a pointer to the array - or equivalently the first element of the array - and while it is valid to assign this pointer to a pointer to a base class, it is not valid to treat this as a pointer into an array of A objects.

The principal reason that you can't is that (typically) derived objects are a different size to their base classes, so attempting to access the array as an array of base class objects will not use the correct offset to get a pointer to the next base class subobject of the next member of the derived class array.

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@Charles I'm assuming if he changes his array to A ** var then this restriction won't apply (and properly initialises it by new'ing all 100 items) – Glen Sep 11 '09 at 16:18
Ahh, I see. So I'd want to create an array of 100 pointers to A instead, right? – Stewart Sep 11 '09 at 16:20
@Glen: Not quite sure what your driving at. You'd have an array of pointers and not an array of objects. Because pointers don't derive from other pointers the problem doesn't arise. – Charles Bailey Sep 11 '09 at 16:21
@Charles. If he had an array of pointers to A, then he could do var[i] = new B(); Then call var[i]->getValue() and B::getValue() would be called correctly – Glen Sep 11 '09 at 16:23
@Glen: Well, yes, it works but now he has to manually allocate 100 objects and, at some point, deallocate them. Personally, I'd go for the array of objects (or more likely I'd use a std::vector<B>). – Charles Bailey Sep 11 '09 at 16:27

There is no problem with the polymrphism but with the way you are dealing with memory. The [] operator will advance you through the array by the sizeof(A) bytes in the first case and the sizeof(B) bytes in the second case. Because the objects are of type B the A* is not pointing to the correct location in memory.

Here is another way of looking at it

char * var;
var = (char*) new B[100];
std::cout << ((A*)var[0]).getValue(); //This works fine
std::cout << ((A*)var[1]).getValue(); //This will fail
std::cout << ((A*)var[sizeof(B)]).getValue(); // should work
share|improve this answer

You didn't allocate the objects in the array:

for (int i=0;i<100;i++)
  var[i] = new B;

(although I may be mixing up C++ and C#)

share|improve this answer
Don't think that's correct. It's an array of B objects, not an array of pointers to B objects. – Glen Sep 11 '09 at 16:14
var is a pointer variable and not a pointer to a pointer so var[i] = new B isn't valid (unless there's an unusually defined assignment operator taking a pointer). – Charles Bailey Sep 11 '09 at 16:14
That's incorrect. char * c = new char[100]; for(...) c[i] = foo; works – Paul Nathan Sep 11 '09 at 16:15
No, you got it right. Most OO languages (that I've used) work the same way for creating arrays of objects. – user106596 Sep 11 '09 at 16:15
That would require var to be an array of pointers. B ** var; – Alan Sep 11 '09 at 16:17