I was going through this and am a bit confused. Suppose that I declare a class as:

class cls
    int x;
    cls(int _x):x(_x){}
    cls& operator=(cls& ob)
        x = ob.x;
        return *this;

And then create 2 objects and perform copy operation and then print the addresses of both the variables before and after the assignment operator is overloaded as:

cls o1 = 7;
cls o2 = cls(8);
cout<<&o1<<endl;    //0330F880
cout<<&o2<<endl;    //0330F874
o1 = o2;
cout<<&o1<<endl;    //0330F880
cout<<&o2<<endl;    //0330F874

Both the address group is same; this is understood as the assignment operator returns by reference.

But I notice that the same address group values are returned if I define my assignment operator to return by value.

In the link referred above, It is answered that a copy of the object will be returned if returned by value. Then why is it returning the same address values. Shouldn't they be different. Please help clear my concepts.


The return value is only relevant if you do something with it. For example:

(o1 = o2).do_something();

Or equivalently:


The do_something() method will run on the object returned - in your case the original instance of o1 since it was returning a reference. However, if you changed your code to return a value instead, then do_something() would be running on a copy of o1.

If you had a third object cls* o_ptr; and did the following:

cls o1 = 7;
cls o2 = cls(8);
cls* o_ptr = &(o1=o2);

If you displayed o_ptr you'd see it was the same as &o1 if you return a reference, but different if you returned a value.

  • As the addresses returned before and after call of assignment operator is same, doesn't it mean that is still points to the same object? – Saksham Jul 30 '13 at 19:05
  • Yes, it still points to the same object. You still have two objects and they are still allocated in the same spot in memory. By over-riding the operator, you are effectively doing o1.operator=(o2), which simply copies the value of o2 into o1. You will still have 2 objects. – Trenin Jul 30 '13 at 19:07
  • @Saksham: You're not storing pointers to cls objects. You're storing cls objects. The address of an object never changes through its lifetime. – Benjamin Lindley Jul 30 '13 at 19:08
  • @BenjaminLindley do you know any reference where I can get more detail of this? Or if you can elaborate a bit if possible – Saksham Jul 30 '13 at 19:10
  • @Saksham: (1) (2) – Benjamin Lindley Jul 30 '13 at 19:14

I think, that address is the same, because you are only overwriting inner content of structure, not its place in memory.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.