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#include <stdio.h>
int main(void)
    printf("%d", sizeof(signed int) > -1);
    return 0;

the result is 0 (FALSE). how can it be? Im using 64bit ubuntu linux so the result should be (4 > -1) => 1 => True.

marked as duplicate by phuclv, Maxpm, Bowdzone, Umair, SHR Jul 16 '18 at 12:43

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  • as far as I know signed int and int are the same size of 4. Sizeof also depends on the compiler you use but you shouldn't be having a problem... hmmm. – Serguei Fedorov Apr 15 '12 at 19:30
  • 1
    signed int, int, and unsigned int are always the same size, but that size is not necessarily 4. However, the type of the result of sizeof is size_t. All sane ABIs make size_t the same size as unsigned long, which may or may not be the same size as unsigned int (it cannot be smaller, but it may well be bigger). – zwol Apr 15 '12 at 20:01

sizeof(signed int) has type size_t, which is an unsigned type. When you make a comparison between a signed and an unsigned value [and the unsigned value's type is at least as large as the signed value's type], the signed value is converted to unsigned before the comparison. This conversion causes -1 to become the largest possible value of the unsigned type. In other words, it is as if you wrote

#include <limits.h>
/* ... */
printf("%d", sizeof(signed int) > SIZE_MAX);

You can make gcc warn when you make this mistake, but it's not on by default or even in -Wall: you need -Wextra or more specifically -Wsign-compare. (This warning can produce a great many false positives, but I think it's useful to turn on for new code.)

  • 2
    It has nothing to do with two's complement. (size_t)-1 == SIZE_MAX. – Alok Singhal Apr 15 '12 at 19:46
  • 2
    Technically, it isn't actually true that signed is always promoted to unsigned even when one operand is unsigned, see (1) where this happens only if the signed type was not also larger and able to represent all the possible values of a (possibly smaller) unsigned operand. – DigitalRoss Apr 15 '12 at 19:50
  • @DigitalRoss Quite right, corrected. – zwol Apr 15 '12 at 19:54
  • @Alok ... I coulda sworn signed-to-unsigned conversion theoretically didn't behave the same way on ones-complement or sign-and-magnitude machines, but you're right. (C99 Not that it matters anymore, considering how long it's been since anyone's manufactured a CPU that wasn't twos-complement for integers. – zwol Apr 15 '12 at 19:58
  • @Zack, you're right. I just wanted to be nit-picky. – Alok Singhal Apr 15 '12 at 20:08

Thing is the sizeof operator returns an unsigned quantity (size_t). So the comparison promotes -1 to unsigned, which makes it looks like a really big number.

You can try:

printf("%d", ((int)sizeof(signed int)) > -1);

The Integer Promotions

There are many implicit conversions in C, and it's helpful specifically to understand what are called the "usual arithmetic conversions", which include what are called the integer promotions.1

The actual rules are a bit complex, but, simplified, all scalar types are automatically converted when an operator has operands of different types. The conversion first takes the operand of lower rank and converts it to the type of the higher rank. Then, if only one operand is signed it is converted to unsigned unless the operand with signed type was larger and could have represented all of the unsigned type's values. That's not the case with your example because size_t is almost always as large or larger than int.

Finally, on almost all machines, -1 has all the bits set, making it a very large number when taken as unsigned.

1. ISO/IEC 9899:1999 ("C99") 6.3 Conversions

  • Last paragraph is irrelevant. Promotions (and all conversions in C) are value conversions, not reinterpretations of the representation. -1 converted to an unsigned type is always the largest value in that type, irrespective of the machine. – R.. Apr 15 '12 at 20:32
  • Technically true, C99, but that's a change from dmr and K&R that happens to be exactly equivalent to reinterpretation, for two's complement machines. One wonders what an oddball machine would actually do. – DigitalRoss Apr 15 '12 at 20:50
  • The "change" (from dealing with representations to values) happened when C was first standardized, but I believe the only change was in the way it was specified, not the behavior. As far as I know, there never were any pre-standardization, non-twos-complement C implementations, and the whole idea of allowing non-twos-complement was a nonsensical invention of the committee... – R.. Apr 15 '12 at 21:13
  • Heh, well put... – DigitalRoss Apr 15 '12 at 21:15

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