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Using gcc 4.7:

$ gcc --version
gcc (GCC) 4.7.0 20120505 (prerelease)

Code listing (test.c):

#include <stdint.h>

struct test {
    int before;

    char start[0];
    unsigned int v1;
    unsigned int v2;
    unsigned int v3;
    char end[0];

    int after;

int main(int argc, char **argv)
  int x, y;

  x = ((uintptr_t)(&((struct test*)0)->end)) - ((uintptr_t)(&((struct test*)0)->start));
  y = ((&((struct test*)0)->end)) - ((&((struct test*)0)->start));

  return x + y;

Compile & execute

$ gcc -Wall -o test test.c && ./test
Floating point exception

The SIGFPE is caused by the second assignment (y = ...). In the assembly listing, there is a division on this line? Note that the only difference between x= and y= is casting to (uintptr_t).

share|improve this question
GCC explorer output: preview.tinyurl.com/8ah2fa7 – Wade Sep 25 '12 at 21:54
char start[0]; means you're out of the territory defined by the standard. What happens beyond that, is it really so interesting? – Daniel Fischer Sep 25 '12 at 21:57
up vote 8 down vote accepted

Disregarding the undefined behaviour due to violation of constarints in the standard, what gcc does here is to calculate the difference between two pointers to char[0] - &(((struct test*)0)->start) and &(((struct test*)0)->end), and divide that difference by the size of a char[0], which of course is 0, so you get a division by 0.

share|improve this answer
And for historical reasons in UNIX an integer division by 0 yields a Floating point exception (SIGFPE signal) – ouah Sep 25 '12 at 22:09
Is that a UNIX (and derivatives) speciality? I thought it was an x86 thing. – Daniel Fischer Sep 25 '12 at 22:09
Good question I know it is the case for x86 on UNIX but I'm not sure it is the case for other systems. – ouah Sep 25 '12 at 22:11
If anybody definitely knows, please ping @ouah too. I'd be interested to know for sure. – Daniel Fischer Sep 25 '12 at 22:13
Tested integer division by 0 on a Linux armv6l, it also gives a Floating point exception. – ouah Sep 25 '12 at 22:26

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