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gcc generates floating code that raises SIGFPE for the following code:

#include <limits.h>
int x = -1;
int main()
    return INT_MIN % x;

However I can find no statement in the standard that this code invokes undefined or implementation-defined behavior. As far as I can tell, it's required to return 0. Is this a bug in gcc or am I missing some special exception the standard makes?

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Note that the global variable is to prevent gcc from optimizing out the computation. –  R.. May 8 '11 at 1:22
What would you expect as a result trying to getting the modulo of a negative number? –  Joce May 8 '11 at 1:45
"When either a or n are negative, this naive definition breaks down and programming languages differ in how these values are defined". en.wikipedia.org/wiki/Modulo_operation –  Joce May 8 '11 at 1:47
I would expect the remainder of INT_MIN divided by -1, which, regardless of whether you define your remainder to be positive or negative in this case, is zero, since -1 divides anything evenly. –  R.. May 8 '11 at 1:48
C defines them in this case, and in any case, when the denominator is 1 or -1, there is no ambiguity of definition because the remainder is inherently zero. –  R.. May 8 '11 at 1:49

5 Answers 5

up vote 13 down vote accepted

You are probably right that this can be considered as a bug in the actual standard. The current draft addresses this problem:

If the quotient a/b is representable, the expression (a/b)*b + a%b shall equal a; otherwise, the behavior of both a/b and a%b is undefined.

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Accepted; this answer addresses the bug and the fix adopted by the committee. Sorry it took so long. –  R.. Oct 21 '11 at 2:12
Is this language likely to be included in a TC to C99? –  caf Nov 30 '11 at 0:16
@caf, my guess would be that there will be no TC to C99, because C1x is intended to replace it. –  Jens Gustedt Nov 30 '11 at 7:52

Looking at the assembly code generated by gcc (x is defined as -1 earlier in the assembly):

movl    x, %ecx
movl    $-2147483648, %eax
movl    %eax, %edx
sarl    $31, %edx
idivl   %ecx

The first computational instruction, sarl, right shifts -2147483648 31 bits. This results in -1 which is put in %edx.

Next idivl is executed. This is a signed operation. Let me quote the description:

Divides the contents of the double-word contained in the combined %edx:%eax registers by the value in the register or memory location specified.

So -1:-2147483648 / -1 is the division that happens. -1:-2147483648 interpreted as a double word equals -2147483648 (on a two's complement machine). Now -2147483648 / -1 happens which returns 2147483648. BOOM! That's one more then INT_MAX.

About the why question, is this a bug in gcc or am I missing some special exception the standard makes?

In the C99 standard this is implicit UB (§6.5.5/6):

…the result of the / operator is the algebraic quotient with any fractional part discarded.88) If the quotient a/b is representable, the expression (a/b)*b + a%b shall equal a.

INT_MIN / -1 cannot be represented, thus this is UB.

In C89 however the % operator is implementation defined and whether this is a compiler bug or not can be debated. The issue is listed at gcc however: http://gcc.gnu.org/bugzilla/show_bug.cgi?id=30484

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Your information about how the SIGFPE is happening is correct. My concern though is whether this is correct. I never asked the compiler to compute INT_MIN/-1 (which would clearly result in UB since it overflows), just to compute INT_MIN%-1, and I can find no statement in the standard that the latter invokes UB. Still, an informative answer. –  R.. May 8 '11 at 1:55
Regarding your citation of 6.5.5/6: in the previous paragraph (5), it reads "the result of the % operator is the remainder". Paragraph 6 clarifies that when "the remainder" could be ambiguous, but "the remainder" is not ambiguous when a is a whole multiple of b; in this case the unique remainder is 0. –  R.. May 8 '11 at 2:11
@R.: Hmm, wait a sec, the standard states "If the quotient a/b is representable", which is not the case in INT_MIN % -1. It doesn't state what should happen when this happens, thus it's UB. –  orlp May 8 '11 at 2:19
It already stated in paragraph 5 that the result of % is "the remainder". As written, paragraph 6 merely clarifies which "the remainder" it's talking about. I think you may be right that the intent was not to define any behavior for INT_MAX%-1, but I don't see how the present language would accomplish that since it already defined it above... –  R.. May 8 '11 at 3:54
The standard says "if the quotient a/b is representable in the type of the result, (a/b)*b + a%b is equal to a." This statement does not restrict the behavior in situations when the quotient is not representable, which means that the previous statements remain in effect. The previous statements state that % produces the remainder. And the remainder in this case is 0. –  AndreyT May 8 '11 at 16:13

The same question is asked here as a Defect Report


Unfortunately I don't see it stated explicitly in the resolution part that it should produce UB. The division would indeed produce UB, but for the % operator it is not obvious.

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The result of the modulus operation with negative operands is left implementation-defined in C89, and defined in C99 by §6.5.5/6:

…the result of the / operator is the algebraic quotient with any fractional part discarded.88) If the quotient a/b is representable, the expression (a/b)*b + a%b shall equal a.

88) This is often called "truncation toward zero".

For a two's-complement representation, INT_MIN / -1 is equal to INT_MAX + 1, so it's not representable as an int without wrapping, and I guess the implementation elects to leave it explosive.

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The / operator does not appear in my program, however. And regardless of how you define the result with negative operands ("rounding" towards 0 or down), -1 evenly divides anything and thus the only possible remainder is zero, mathematically. –  R.. May 8 '11 at 1:56
@R..: I was just citing a reference for the behaviour with respect to negative operands. The computation fails as GCC implements it, so it's basically a bug, if you need me to say it in so many words. –  Jon Purdy May 8 '11 at 2:59
@R..: To put it another way, % is defined only when / is defined, and since / is here undefined, % is also undefined, even though it probably shouldn't be. –  Jon Purdy May 8 '11 at 8:09

It's the CPU's fault.

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Thanks for the informative link. At least it looks like people are mostly in agreement that it's a bug, but the "leave it broken by default and require a special option to fix it" approach sounds ridiculous... –  R.. May 8 '11 at 1:59
Is there any simple bitwise/arithmetic expression that evaluates to x if x!=-1 and 1 if x==1? If so, the compiler could apply this to the denominator before performing % with a variable denominator when / is not also being performed with the same denominator. –  R.. May 8 '11 at 2:03
@R..: "off by default but on in standard-conforming modes" sounds alright, though, and that's what's suggested on the bug. gcc is not a conforming implementation, nor does it claim to be. gcc -std=c99 isn't entirely conforming either, but it does attempt to be... –  Steve Jessop May 8 '11 at 9:03

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