Going through this question, one answer said the object created are destroyed outside their scope, To get this concept clearly I wrote the following code:

#include <iostream>

using namespace std;

struct Node{
    int val;
    Node *next;
    Node(int x) : val(x) , next(NULL){}

int main(){
    for(int i=0;i<10;i++){
        int someval = rand()%100;
        Node somenode = Node(someval);
        printf("Address for object %d is %p \n",i+1, &somenode);

I got the following output:

Address for object 1 is 0x7ffc32ff26b0 
Address for object 2 is 0x7ffc32ff26b0 
Address for object 3 is 0x7ffc32ff26b0 
Address for object 4 is 0x7ffc32ff26b0 
Address for object 5 is 0x7ffc32ff26b0 
Address for object 6 is 0x7ffc32ff26b0 
Address for object 7 is 0x7ffc32ff26b0 
Address for object 8 is 0x7ffc32ff26b0 
Address for object 9 is 0x7ffc32ff26b0 
Address for object 10 is 0x7ffc32ff26b0 

I understand that each object is destroyed every time the loop iterates and a new object is created; but why do all of them have the same address. This problem occurred to me when I was creating a linked list and I did not use the new operator to create the object instead just used the same code, and the list always pointed to the same node and I ran into an infinite loop. Why is the same address allocated to each object?

  • 4
    Why not? Why should the compiler not reuse the memory? – Baum mit Augen Jun 5 '17 at 0:04
  • 3
    "but why all of them have the same address." - why would they not? The compiler is just resusing memory sensibly. – user2100815 Jun 5 '17 at 0:04
  • 1
    @user It;s not guaranteed to happen, but for any sensible compiler it will. – user2100815 Jun 5 '17 at 0:05
  • 2
    This is very compiler implementation dependent but it looks like simple reuse of the stack. Your objects are created on the stack, not the heap so the stack just goes up and down over the same addresses – AdrianRK Jun 5 '17 at 0:17
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    Re, "I have a follow-up question." You should ask it as a new Question on StackExchange. – Solomon Slow Jun 5 '17 at 3:42

You keep creating the object on the top of the stack, and then removing it (the object goes out of scope at the end of each loop iteration, and is deconstructed before the next iteration). Thus, the address of the top of the stack is the same everytime you allocate space for the object.

If you remove the loop and allocate multiple Nodes in a row, you'll see different addresses for each as the stack grows.

  • That is not guaranteed to happen, a possible implementation could perfectly well keep adding the structure to the stack and delete all of them after the final execution of the for loop. – Makogan Jun 5 '17 at 0:20
  • Thank you. According to you explanation, I understand always the address allocated will be same. Can the objects have different addresses? – hulk_baba Jun 5 '17 at 0:24
  • 1
    @Makogan Not likely for stack allocation because stack space is quite limited. Such a strategy would lead to many, um, stack overflow errors in all but the 'shortest' loops. It's also worth noting that for any variable scoped within a loop: a trivial optimisation (regardless of where the compiler decides to store the object), would be to not even re-allocate the object. I.e. simply allocate once before loop, and re-initialise the object for reuse on each iteration. – Disillusioned Jun 5 '17 at 0:35
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    @Makogan I'm not contradicting your point that the memory location of the object is not guaranteed. I'm pointing out that your suggestion of "implementation could perfectly well keep adding the structure to the stack and delete all of them after the final execution" would be very bad, and that any such implementation would be extremely unlikely to gain much traction due to the severe shortcomings I mentioned in my previous comment. Your point that the location is not guaranteed is perfectly correct. But the absurdity of your alt implementation weakens the credibility of that fact. – Disillusioned Jun 5 '17 at 2:03
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    @Makogan That technique is referred to as a "straw-man argument"; it is generally considered a weak form of argument. So ironically what you did with the stated purpose "to put the point across" is likely to have the exact opposite effect on people who notice the straw-man nature of your comment. Fortunately, your answer handles this much better by making the same point without degenerating into absurdity. That said, this thread is getting way Off Topic.... ;) – Disillusioned Jun 5 '17 at 2:21

This has to do with local variables and scope. Since the variable somenode is declared inside of the {} brackets of the for loop, it's scope is local to that for loop. That is to say, it exists during a single iteration of the for loop and then it goes out of scope before the beginning of the next iteration.

Compilers as a general try to be efficient. After the first iteration of the for loop the address 0x7ffc32ff26b0 points to a location in memory that is big enough to store a Node structure. The compiler also knows that this memory is unused (it went out of scope) so it figures it can just re-use the same memory location. In other words, although the structures occupy the same RAM memory, they are all independent and unrelated to each other.

This behaviour is not guaranteed and you should not rely on it, it's simply an attempt from the compiler to keep the final assembled code as simple and efficient as possible.

  • Thank you, I think I understood it. – hulk_baba Jun 5 '17 at 0:22
  • After I read the answers to this question, I have a follow-up question, is there any other way to create multiple objects(I want those objects outside the loop as well) in that loop without using the "new" operator(just by using stack memory)? – hulk_baba Jun 5 '17 at 3:55
  • you could malloc, bu that uses heap memory I think – Makogan Jun 5 '17 at 5:02

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