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I have the following program:

#include <iostream>

struct X
    int a;
    float b;
} x[10], *p1, *p2;

int main(int argc, char *argv[])
    p1 = &x[1];
    p2 = &x[5];

    int i = p2 - p1;

    std::cout << i << std::endl;

I can visualize X's layout in memory, 10 boxes containing an int and a float, p1 will point at the beginning of the second box (x[1]) and p2 pointing at the beginning of the 6th box (x[5]):

   X   0   1  2  3  4  5  6  7  8  9
    b  |__|__|__|__|__|__|__|__|__|__|
    a  |__|__|__|__|__|__|__|__|__|__|
          |           |    
          |           | 
          p1          p2

Is my drawing correct ? If so why is the result of i 4 ?
Having some difficulties understanding subtraction of two addresses ?

share|improve this question
You tagged this question c, but you use cout in your example, which is C++ instead. Which are you using? –  Daniel Pryden Dec 2 '11 at 13:40
Yeah, I guess its a C question, but I used cout for simplicity I guess. –  vBx Dec 2 '11 at 13:43
@DanielPryden It won't make a difference in the answer, will it? –  Szabolcs Dec 2 '11 at 13:43
@DanielPryden: It seems like code is written in MSVS. Sadly, people starting from there usually think that they program in "Visual C++" language. I've added C++ tag, but left C tag as well, because I feel like memory layout of structures covered in question applies to both. –  user405725 Dec 2 '11 at 13:44
pointer arithmetic is done in units of the pointer type, not in units of bytes (so in this case there's 4 ints between the 2 addresses) –  nos Dec 2 '11 at 22:55

1 Answer 1

up vote 21 down vote accepted

This is how pointer arithmetic works. Consider:

p1 = (x*)100;   // invalid memory address, just an example!
p2 = p1 + 1; 

At this point, p2 will not have the value 101, but rather 100 + sizeof(x) (which let's say is 8, so 108). It has been incremented not by one, but by one multiple of sizeof(x)! Conversely, subtracting an integer from a pointer actually subtracts multiples of sizeof(the pointed to type).

So now if you do int diff = p2 - p1, you would certainly expect to get 1 back, not 8! Otherwise, subtracting the number you just added would not yield the original value. Therefore, subtracting one pointer from another yields not the difference in memory addresses but the number of elements between the two pointers.

Moreover, the standard mandates that pointer subtraction is meaningless unless the two pointers point to elements in the same array (more correctly, it's undefined behavior and you are also allowed to use a pointer to "one past the last element" even if there is no such object there).

Finally, what if the compiler does not know the size of the pointed to type (i.e. the pointers are void*)? In this case, pointer arithmetic is not allowed at all. For example:

void* p = 100;
void* x = p + 1; // does not compile¹

¹ Some compilers may provide pointer arithmetic on void* as an extension to the language specification. In this case this statement can indeed compile and the result would depend on the specification of said extension (e.g. gcc would end up with the value 101).

share|improve this answer
+1 Nice explanation –  vBx Dec 2 '11 at 13:51
Nice explanation, but your example will compile, albeit with warnings as-is. What I believe is specifically prohibited is adding two pointers, i.e. if you tried to add p and x after that. –  Dan Fego Dec 2 '11 at 13:54
@DanFego: Thank you for catching this and allowing me to learn something new (I am not very experienced in C, as in "some of the finer points of where C and C++ differ"). I have updated the answer with an explanation of what happens here. –  Jon Dec 2 '11 at 14:10
Actually, pointer substraction is meaningless unless the two pointers point to elements in the same declared object, that need not be an array. They can also be, for example, pointers to elements to the same structure. –  rodrigo Dec 2 '11 at 15:05
pointer arithmetic on void* is a gcc extension. It is not allowed in either C89 or C99. –  pmg Dec 2 '11 at 15:18

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