# c++: understanding dynamic arrays

I am trying to understang a dynamic array. In this case - an array of pointers.

This program is Ok to me - it is working, everything is fine.

What troubles me is how the array is organized in the heap.

Let us launch it, that will be our example:

``````pn 00456878
pn[0] 003AFB90
pn[1] 003AFB80
pn[2] 003AFB70
``````

Will you be so kind as to help me understand three matters:

1) Why the address of pn[0] is higher than that of pn[2]? I seemed to have assigned pn[0] before pn[1] and pn[2]?

2) I allocated memory in the heap for 3 elements of sizeof(POINT). sizeof(POINT) = 8. 003AFB70 + 8 = 3AFB78. Why the next element is 003AFB80?

3) I have formed an opinion that an array in the heap looks as follows:

``````pn->pn[0]
pn[1]
pn[2]
``````

pn is a base address. The address of pn[0] = base address + 0. Judging from what I can see here we can conclude that there is a gap between a base address and the first element. Is it for some auxiliarry data or what is it for?

My code is:

``````#include "stdafx.h"
#include <iostream>
using namespace std;
struct POINT
{
int x;
int y;
};

POINT ** pn;
POINT ** tmp;

int _tmain(int argc, _TCHAR* argv[])
{
int counter = 3;
POINT p_tmp;
cout << "sizeof(POINT): " << sizeof(POINT) << endl;
pn = new POINT * [counter];

POINT a = {0, 0};
POINT b = {1, 1};
POINT c = {2, 2};

pn[0] = &a;
pn[1] = &b;
pn[2] = &c;
cout << "pn "<< pn << endl;

cout << "pn[0] "<< pn[0] << endl;
cout << "pn[1] "<< pn[1] << endl;
cout << "pn[2] "<< pn[2] << endl;
cin.get();

POINT m = * pn[0];
POINT n = * pn[1];
POINT k = * pn[2];

cout << m.x << ","<<m.y<< endl;
cout << n.x << ","<<n.y<< endl;
cout << k.x << ","<<k.y<< endl;
cin.get();

tmp = new POINT * [counter];
memcpy(tmp, pn, (counter  * sizeof(POINT)));
for (int i = 0; i < counter; i++)
{
cout << "tmp[" << i << "] "<< tmp[i] << endl;
}
cin.get();
delete[] pn;
pn = tmp;

m = * pn[0];
n = * pn[1];
k = * pn[2];

cout << m.x << ","<<m.y<< endl;
cout << n.x << ","<<n.y<< endl;
cout << k.x << ","<<k.y<< endl;
cin.get();
return 0;
}
``````
-
You are not printing the address of `pn[0]`. You are printing its value. To get the address, use `&pn[0]`. –  n.m. Jan 13 '13 at 10:16
The confusion stems from you using an array of pointers, printing the actual pointers instead of the addresses of the pointers. –  larsmans Jan 13 '13 at 10:17
For bonus points, @Pepperwork, what is the type of `pn`? What about `pn[0]`? It looks like this is where you are getting confused. –  Alex Chamberlain Jan 13 '13 at 10:18

Your confusion arises from the fact that your array contains `POINT*`s and not `POINT`s.

Why the address of pn[0] is higher than that of pn[2]? I seemed to have assigned pn[0] before pn[1] and pn[2]?

It's not the address of `pn[0]` that you are printing, it's its value. The address of `pn[0]` is denoted by `&pn[0]`.

``````POINT a = {0, 0};
POINT b = {1, 1};
POINT c = {2, 2};

pn[0] = &a;
pn[1] = &b;
pn[2] = &c;
``````

Here you put in `pn` the addresses of `a`, `b` and `c`, which are `POINTS` you declared on the stack. The stack grows from upper addresses to lower addresses, therefore `&a` > `&b` > `&c`.

I allocated memory in the heap for 3 elements of sizeof(POINT). sizeof(POINT) = 8. 003AFB70 + 8 = 3AFB78. Why the next element is 003AFB80?

No, you allocated memory in the heap for 3 elements of `sizeof(POINT*)` (pointer to `POINT`, which happen to also be 8 bytes). You allocated an array of three pointers on the heap, but the pointees are on the stack.

In the end, your array looks like this:

``````(some address) pn-> (00456878) pn[0]-> (003AFB90) a
(00456880) pn[1]-> (003AFB80) b
(00456888) pn[2]-> (003AFB70) c
``````

The pointer `pn` is static memory, but points to 3 pointers on the heap that point back to 3 elements on the stack.

If you wanted to have everything on the heap, you'd do it like this:

``````Point **pn = new POINT*[counter];

for (int i = 0; i < counter; ++i)
pn[i] = new POINT;
``````

In this layout, the pointer `pn` is in static memory, but points to 3 pointers on the heap that point to 3 elements on the heap.

-
the heap is organized similarly? –  Pepperwork Jan 13 '13 at 10:17
@Pepperwork Similarly to stack? No. It's a very different beast. Take a look a Doug Lea's malloc. –  Branko Dimitrijevic Jan 13 '13 at 10:22
There, I added a few details. I hope that helps. –  Gregor McGregor Jan 13 '13 at 10:26
I'm trying to digest all this information. I seem to be completely ignorant of what the things really are like. –  Pepperwork Jan 13 '13 at 10:49
@NolwennLeGuen, well, a local pointer is really kept on the stack. But I read that a dynamic pointer is kept on the heap. Maybe this could help me? Anyway, how could I alter my code so that the picture should be integral (that is all pointers point at the heap, no gaps between elements). –  Pepperwork Jan 13 '13 at 10:59