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can any one please explain the scope of the objects created in cpp

#include <iostream>
using namespace std;

class box
        int i;
        box* doubled ();

box* box::doubled ()
    box *temp = new box;
    temp->i = 2*this->i;
    return temp;

int main ()
    box *obj1 = new box;
    obj1->i = 5;

    box *obj2;
    obj2 = obj1->doubled();
    delete obj1;
    cout << "i = " << obj2->i << endl;
    return 0;

In the above sample code obj2 is a pointer holding the memory created by the function Doubled. The scope of the temp should be valid only to the function doubled, but it was accessible in the main function also.

So can any one explain why this was happening. I guess this is a small doubt but just not able to figure it.

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And just a comment : this-> is unnecessary. –  Bartek Banachewicz Sep 6 '12 at 14:23

3 Answers 3

You didn't delete the object dynamically created in function doubled, so of course the pointer to it is still valid. Operator new allocates the objects dynamically, and they stay in memory until explicitly destroyed. Only the pointer pointing at the memory address (the temp variable) was destroyed, but since you returned it's value (the address), the memory still belongs to a program. Actually not deleting it creates a memory leak.

You should use std::unique_ptr if you want your object to be deleted after end of a scope.

Here's a quick example without dynamic allocation:

T* foo ()
    T T_instance;
    return &T_instance;

It shouldn't even compile, with message similar to returning address of local variable or temporary, indicating, that the T_instance will be destroyed after program exits foo().

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When you do this:

box *temp = new box;

you create a dynamically allocated box object that lives beyond all scopes, and a box* called temp which lives in the local scope. You have to deallocate the dynamically allocated object yourself by calling delete on a pointer to it, for example, like this:

delete temp;

The only thing that respects scope in the line of code above is the actual pointer temp, which points to that object.

   box *temp = new box; // local box* points to dynamically allocated object
// temp is out of scope, but the object it pointed to is still alive (and unreachable)
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The return value of doubled is a pointer allocated by new. The value of this pointer is the address of a box object on the heap and so although temp was a temporary, its value was stored in obj2 on this line

obj2 = obj1->doubled(); 

and so when you access data through obj2 it is still valid.

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