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#include <stdio.h>
void main(void)
    char array[4] = {0, 1, 2, 3};
    float *fpek;
    int i;
        fprintf(stderr,"i = %d ", i);
        fpek = (float *)(&array[i]);
        fprintf(stderr, "fpek = %lx ", (unsigned long) fpek);
        *fpek = (float) i + 10;
        fprintf(stderr, "*fpek = %.2f\n", *fpek);

$ cc alignment.c
$ a.out
i = 0 fpek = effff0fc *fpek = 10.00
i = 1 fpek = effff0fd Bus error

The code above was found in C programming practice material. I understand the statements per se but I don't really see what the author is trying to illustrate. Why is there a bus error?

share|improve this question
What version of gcc are you using? when using 4.6.3 I don't get a bus error. – cdbitesky Jan 12 '13 at 19:42
What happens if you increase the size of array to 8 (but still loop from [0, 4))? &array[1] gives you a pointer where the next three bytes are valid to access, the the fourth byte is out of the range of array, so *fpek will be accessing invalid memory for all but the first iteration. – Cornstalks Jan 12 '13 at 19:56
In addition to dereferencing unaligned pointers as if they were floats, your code also assumes sizeof(float) is 1. Make array an array of floats and you should be OK. – asveikau Jan 12 '13 at 20:26
up vote 4 down vote accepted

Aligned or not, this is just plain wrong:

    fpek = (float *)(&array[i]); // invalid for i>0, questionable for i==0
    fprintf(stderr, "fpek = %lx ", (unsigned long) fpek);
    *fpek = (float) i + 10;

Since array is at-best four chars wide, even if your system-float is 4 bytes you're immediately addressing (likely unaligned) data i bytes out of range of your array when assigning with i>0. As soon as you dereference that pointer you're either going to bus-error due to misalignment or, on the off-chance your architecture has no alignment restrictions for float (and most do) you'll start stomping on stack variables with the assignment that follows.

To highlight the error the author is probably trying to get across (that alignment can be important) without introducing undefined behavior aside from that, consider something like this instead:

#include <stdlib.h>
#include <stdio.h>

int main()
    /* note: defined to hold enough bytes for *two* floats. */
    float *fpek = NULL;
    char array[2*sizeof(*fpek)];
    int i;

    /* fill with incrementing values */
    for (i=0; i<sizeof(array)/sizeof(array[0]);++i)
        array[i] = (i+1);

    // now walk the array, one char at a time,
    //  casting the address of the current element
    //  to a float pointer and try to read/write it.
    fprintf(stderr, "array = %p, size=%lu\n", array, sizeof(array));
        fprintf(stderr,"i = %d, ", i);
        fpek = (void*)(array+i);
        fprintf(stderr, "fpek = %p, ", fpek);
        *fpek = i+10;
        fprintf(stderr, "*fpek = %.2f\n", *fpek);

    return 0;

No matter how wide/narrow a float is on your system, this will work without introducing undefined behavior specific to walking past the end of your char array. It will quite possibly still bus-error, but at least the UB for exceeding your array subscript is solved.

Running this on my Mac Air (Intel 64bit CPU) produces no bus error:

array = 0x7fff5fbff868, size=8
i = 0, fpek = 0x7fff5fbff868, *fpek = 10.00
i = 1, fpek = 0x7fff5fbff869, *fpek = 11.00
i = 2, fpek = 0x7fff5fbff86a, *fpek = 12.00
i = 3, fpek = 0x7fff5fbff86b, *fpek = 13.00

As you can see, my platform is not particularly finicky about float alignment. your results can (and judging by your prior output, likely will) vary.

Note: the (void*) cast of fpek = (void*)(array+i); may look odd, but this is C, so I can get away with it. The reason I did it was to allow you to demonstrate the other floating point types and see if they have alignment restrictions. As-written you can change just the declaration of fpek at the top of the function to double:

double *fpek = NULL;

Then rerun the program. On my system this produces:

array = 0x7fff5fbff860, size=16
i = 0, fpek = 0x7fff5fbff860, *fpek = 10.00
i = 1, fpek = 0x7fff5fbff861, *fpek = 11.00
i = 2, fpek = 0x7fff5fbff862, *fpek = 12.00
i = 3, fpek = 0x7fff5fbff863, *fpek = 13.00
i = 4, fpek = 0x7fff5fbff864, *fpek = 14.00
i = 5, fpek = 0x7fff5fbff865, *fpek = 15.00
i = 6, fpek = 0x7fff5fbff866, *fpek = 16.00
i = 7, fpek = 0x7fff5fbff867, *fpek = 17.00
share|improve this answer
just tell him how to make char array big enough for this example to highlight bus error. – Agent_L Jan 12 '13 at 21:05

Not all systems can do unaligned access to memory, for example the old Motorola M68000 could not do it. The typical error when that happened would be a bus error. Those systems are getting uncommon today though, and modern (and not so modern) compilers should be able to handle it properly.

share|improve this answer

The problem is that you create a char array (the memory allocated is 4 bites) and you point float pointer to the beginning of the array. You are trying to read after add 10 to the pointer (because the pointer is from the type float it increments with sizeof(float)*10 and this is already outside of the array. Therefore it is expected to generate error.

Try removing this line *fpek = (float) i + 10;. And try it.

Another thing to change could be fprintf(stderr, "*fpek = %.2f\n", *fpek); to fprintf(stderr, "*fpek = %c\n", *fpek);

share|improve this answer
*fpek = (float) i + 10; doesn't do pointer arithmetic. It assigns the value 10.0f/11.0f/12.0f/13.0f (depending on the iteration) to the memory location pointed to by fpek. 10 is never added to any pointer. – Cornstalks Jan 12 '13 at 20:03
Oh yes you are right. I was very confused. – Teodor Boyadzhiev Jan 12 '13 at 21:34

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