9

I have the memory address of one int *:0xbfde61e0. I also have another memory address (that is also int *. How can I calculate the difference between the two to use as an offset between the two locations?

7
  • you should search for "pointing arithmetic" Oct 11, 2012 at 22:40
  • Although the answers you're getting are likely to work in practice, you should be aware that if the two input pointers do not point to elements in the same array, the result of subtracting them is undefined. If they are both pointers into an int array, the result of the subtraction will be in units of sizeof(int), not bytes.
    – Jim Lewis
    Oct 11, 2012 at 22:41
  • basically: don't do that. If you want to detect the size of an array with that, please: do yourself a favour and pass the size separately.
    – stefan
    Oct 11, 2012 at 22:43
  • @JimLewis, ??? If both have memory addresses, subtracting them will work just fine. The result is not guaranteed to be useful in any way shape or form, but the operation should work just fine
    – riwalk
    Oct 11, 2012 at 22:43
  • @Stargazer: The standard calls this out as "undefined behavior", which means that a conforming implementation may yield the result you're expecting, or dump core, or send nasty email to your boss. As I said, it's likely to work in practice, but it's good to be aware of the potential problems.
    – Jim Lewis
    Oct 11, 2012 at 22:49

3 Answers 3

8

Its as easy as it sounds.

int a = 5;
int b = 7;

int *p_a = &a;
int *p_b = &b;

int difference = p_b - p_a;

Keep in mind that this will give the difference as a multiple of sizeof(int). If you want the difference in bytes, do this:

int differenceInBytes = (p_b - p_a) * sizeof(int);

Without specific code or a specific application, I can't get more detailed than that.

4
  • Pointer difference is of type ptrdiff_t. Casting it to int may get one into trouble. Oct 12, 2012 at 5:49
  • We are talking about security hacking. The part I am currently working on is to print the stack and the values at the locations in the stack from a certain point in memory to another point. Since the addresses of these locations in memory can change each time a program is executed, we were instructed to use an offset because that will always stay the same no matter what computer it is run on. I mentioned one address in the original post and another in the comment on the previous answer. Oct 12, 2012 at 13:03
  • Actually, those are not the correct addresses. The addresses are: 0xbfa00be4 and 0xbfa00b50. Oct 12, 2012 at 13:13
  • Worth noting, on some systems, this will return a negative value as the stack 'grows' towards 0x0. If the value is negative, (obviously) reverse the subtraction (p_a - p_b). This is valid, as p_a was placed on the stack first, so will have a higher address.
    – s3dev
    Jan 17 at 8:26
7

I'd really like more details about how you're using this information. That could make for a much more concise answer.

Anyway. normally what happens:

int a = 1;
int b = 2;
int * w = &a; //0xbfdfa900 - These are right next to each other on the stack since
int * x = &b; //0xbfdfa904   they were declared together
int y = (int)w;
int z = (int)x;

int diff = w - x; // There's a 4 byte difference in memory, but I'd get diff = 1
                  // here because the compiler knows they're ints so I'm getting
                  // diff/sizeof(int)

int pdiff = y - z; // Now I'm going to get the number of bytes difference, so 
                   // pdiff = 4 as this is due to using the address as a raw value

There's how to get the two different offsets between two pointers. Now obviously, if your pointers aren't next to each other on the stack, the values start to change:

int a = 1;
int arr[5] = {0};
int b = 2;
int * w = &a; //0xbfdfa900 - These are right off by 24 bytes (6 * sizeof(int))
int * x = &b; //0xbfdfa918   because we have 5 more ints there

The more distance and different types between the two the more we lose any obvious "offset" between two variables, in other words this starts to become pointless. This is why pointer arithmetic really only works on arrays (because they are known contiguous memory of a particular type). So as in your case:

int * one = &somenum;      // 0xbfde61e0
int * two = &someothernum; // 0xbfbf69e0
printf("%d\n", (int)two-(int)one);
2029568 bytes

These are a good distance away. So you can subtract them, but I'm not sure why you'd do this.

1
  • This code might fail miserably on 64 bit system where an int is 4 bytes only. Use uintprt_t or intptr_t for y and z instead of int.
    – alk
    Jun 17, 2018 at 18:01
0

I think this gets the offset.

int *a = &somevar;
int *b = &anotherintvar;
int offset = b - a;
3
  • doesnt that give the offset in units of sizeof(int) as opposed to bytes (maybe thats what he wants)
    – pm100
    Oct 11, 2012 at 22:40
  • The two addresses in question are the one mentioned above, and this: 0xbfbf69e0. When performing the calculation and printing it I get -63936. This doesn't seem like the proper value. I subtract the one mentioned in this comment from the one listed above. Oct 11, 2012 at 22:42
  • I figured out my issue. Silly mistake on my part. I ran the programs separately so the addresses were not in the same array. Oct 12, 2012 at 13:17

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