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I have a question:

class B : public class A {
  vector<int*> vec; 

class A  {

vector<A*> vec_a;
vector<B*> vec_b;

if I push back an object of class B into both vectors.

B* b = new B;

then after that, I change something inside the object of class B,

such as:

int* i = ....

Does the vec_a change?

I am confused with that since I have checked that when vector push_back, it will only create a copy. But when I checked with the above codes, it changes. Are the two vectors hold a shared memory of object b?


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vec_a doesn't change, vec inside B object does. –  jrok Aug 23 '12 at 6:48

5 Answers 5

up vote 1 down vote accepted

Your vectors contain pointers to a common object. Therefore anything you change inside that object via a derefence of one of those pointers is reflected in the object that they are pointing to. Adding the pointers to the vectors creates a copy of the pointers themselves, not the object they point to. Had you added a common instance of class B to both vectors, each vector would contain a separate copy of that object. Adding pointers results copies of your original pointer being added to each vector - but both copies will have the same value and that is the memory address of the object they point to.

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I agreed with you , you make me clear now. But It seems that the above guys have different options. –  David Alex Aug 23 '12 at 7:52
@forester2012 Maybe you have misunderstood my answer. All the answers here say the same thing, just in slightly different ways. –  mathematician1975 Aug 23 '12 at 8:07

Yes, when pushing to a vector a copy is created. However in your case it's a copy of a pointer, not a copy of the actual object.

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You're putting a pointer to the same object in both vectors so any change to the object, pointed from an element in vec_a will affect the element in vec_b, too.

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I agree with you , and test show that it was right. Now I am more clear now with these theories. –  David Alex Aug 23 '12 at 7:53

Yes. You create only one object, after all. You push pointers. So std::vector copy pointers, but you change memory they point to. That's why you get your results. I suggest you read a bit more about pointers.

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yeah, I will read pointers more. Actually I want vec_b because in that I can easily refer to my things using [] but vec_a has a lot of other kinds of objects. Thats why my problem comes. –  David Alex Aug 23 '12 at 8:04

The vector push_back method indeed does create a copy. But since you have specified vector of pointers (to vec_a and vec_b), copying those pointer does not actually change the original object. You would get what you originally expected if you used

vector<A> vec_a;
vector<B> vec_b;

instead, filling those vectors with

B b;

would actually copy the content of b into the vectors. Changing one will not affect the other.

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