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#define TOTAL_ELEMENTS (sizeof(array) / sizeof(array[0]))
int array[] = {23, 34, 12, 17, 204, 99, 16};

int main() {
    int d;

    for (d = -1; d <= (TOTAL_ELEMENTS - 2); d++)
        printf("%d\n", array[d + 1]);

    return 0;

Why is the for loop not run even once?

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So, the best practice here is not to use #define statements in this way. –  BobbyShaftoe Nov 5 '09 at 20:46
@Bobby - What what? –  Chris Lutz Nov 5 '09 at 20:47
@Bobby - That is an opinion. Not everybody would agree. –  Heath Hunnicutt Nov 5 '09 at 20:48
@Bobby - Best practice that isn't opinion: Never use gets() as it can never be used safely. –  Chris Lutz Nov 5 '09 at 22:20
@Bobby - Yes I definitely think not only is this a fine use of #define, this very macro is an extremely common use of #define. Most people name it "dimensionof()", but it's the same macro. How would you implement the same precise mechanism without a macro? In C, not C++ -- I do realize there is a template solution. –  Heath Hunnicutt Nov 6 '09 at 17:27

5 Answers 5

up vote 18 down vote accepted

The issue is that sizeof() returns size_t which is unsigned. Comparison of -1 with TOTAL_ELEMENTS - 2 should result in a warning indicating you have compared unsigned with signed. When this comparison happens, the -1 is converted to an unsigned value which is MAX_UINT. On a 32-bit platform, both -1 and MAX_UINT are 0xFFFFFFFF.

Your TOTAL_ELEMENTS() macro could incorporate a cast to (int) but that isn't technically correct because size_t has a larger value range than int. Best to change your loop variable so that it is declare as size_t and never becomes negative.

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Metaphysical +1 because I'm out of upvotes. –  Chris Lutz Nov 5 '09 at 20:48
OK, I'll do it for you. Damn, where will I put MY upvote now? :) –  schnaader Nov 5 '09 at 20:49
Thank you both and Chris you and I crossed up-vote streams on this question as I also gave you one. ;) Good running into you here again. –  Heath Hunnicutt Nov 5 '09 at 20:51
@Heath Hunnicutt thanks. –  Moeb Nov 6 '09 at 17:19

You're mixing signed and unsigned arithmetic. sizeof yields a size_t (an unsigned type). When you do the d <= (TOTAL_ELEMENTS -2) the d gets converted to unsigned, and then compared. Since -1 becomes the largest value in the target type when converted to unsigned, your condition becomes something like 0xffffffff <= 5, which is always false so the loop never executes.

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Because TOTAL_ELEMENTS is an unsigned value (type size_t) and d is a signed value (type int, which is most likely signed on your platform, and you're certainly assuming it is even if it isn't). The compiler in this case is converting d to an unsigned value, and converting -1 to an unsigned value usually results in SIZE_MAX or something similar, which is certainly greater than TOTAL_ELEMENTS - 2. To do this correctly, cast the unsigned value to a signed value: (int)(TOTAL_ELEMENTS - 2).

Out of curiosity, why are you starting your index at -1 and then adding 1 to it in the loop? Why not just do this:

unsigned i;
for(i = 0; i < (TOTAL_ELEMENTS); i++)
    printf("%d\n", array[i]);

It would be much clearer than what you have.

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You could

#define TOTAL_ELEMENTS ((int)(sizeof(array) / sizeof(array[0])))

assuming array will always be small enough. After all, you are using an integer to walk through the elements of the array.

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I'm not sure. Does sizeof do what you think it does here? It's been a while but I think you might be computing the size of an int* when you call sizeof (array), which would be 1 (1 byte). Dividing that by the size of an int, which is usually 4 bytes, would certainly mean your loop never runs.

edit: it seems more likely that d is being converted to an unsigned type. The other posters may be correct.

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No, this idiom (sizeof(array)/sizeof(array[0]) is very common. –  Heath Hunnicutt Nov 5 '09 at 20:49
See c-faq.com/aryptr/arraynels.html –  Sinan Ünür Nov 5 '09 at 20:52
-1: sizeof(array) does not return the size of a int* but the size of the full array and when you divide by sizeof(array[0]) you divide with the size of one element. There is an issue only if array is a pointer (passed through a function or from data on the heap). –  Marcel Gosselin Nov 5 '09 at 20:57
+1 for answering. –  Heath Hunnicutt Nov 5 '09 at 21:01
-1: Misinformation is worse than not answering at all (which implies you should delete your answer). –  Brian Nov 5 '09 at 21:37

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