Let's say I have a variable i
that comes from external sources:
int i = get_i();
Assuming i
is INT_MIN
and two's complement representation, is -i
undefined?
Let's say I have a variable i
that comes from external sources:
int i = get_i();
Assuming i
is INT_MIN
and two's complement representation, is -i
undefined?
It depends on the platform. C supports three representations for negative numbers (see section 6.2.6.2 of the C99 standard):
With one's complement and sign and magnitude, -INT_MIN
is defined (and equal to INT_MAX
). With two's complement, it depends on whether the value with sign bit 1 and all value bits zero is a trap representation or a normal value. If it's a normal value, -INT_MIN
overflows, resulting in undefined behavior (see section 6.5 of the C99 standard). If it's a trap representation, -INT_MIN
equals INT_MAX
.
That said, most modern platforms use two's complement without trap representations, so -INT_MIN
typically results in undefined behavior.
INT_MIN == -INT_MAX
then -INT_MIN == INT_MAX
, otherwise -INT_MIN
is undefined behaviour
INT_MIN == -INT_MAX
and that this condition can even be true on a two's complement platform (at least theoretically).
Commented
May 19, 2016 at 0:35
-INT_MIN
is undefined behavior. I did eventually find it (I think), in item 6.5-5, which says "If an exceptional condition occurs during the evaluation of an expression (that is, if the result is not mathematically defined or not in the range of representable values for its type), the behavior is undefined."
-INT_MIN
falls outside the range of values an integer can represent. If you're using sign-magnitude or ones-complement, -INT_MIN
is within the range of values an integer can represent, so -INT_MIN
is perfectly fine. Of course, it's undefined behaviour if it overflows, as it would with twos-complement.
Commented
Apr 11, 2019 at 22:18
Platforms may choose to define the behavior, but the C Standard does not require that they guarantee anything about it. While historically microcomputer compilers have relatively consistently behaved as though -INT_MIN would yield INT_MIN or in some cases a number that behaves like a value one larger than INT_MAX, it has become more fashionable to instead have it retroactively change the value of whatever was being negated. Thus, given:
int wowzers(int x)
{
if (x != INT_MIN) printf("Not int min!");
return -x;
}
a hyper-modern compiler may use the expression -x to determine that x can't have been equal to INT_MIN when the previous comparison was performed, and may thus perform the printf unconditionally.
Incidentally, gcc 8.2 will use the UB-ness of negating INT_MIN to "optimize" the following
int qq,rr;
void test(unsigned short q)
{
for (int i=0; i<=q; i++)
{
qq=-2147483647-i;
rr=qq;
rr=-rr;
}
}
into code that unconditionally stores -2147483647 to qq
and 2147483647 to rr
. Removing the rr=-rr
line will make the code store -2147483647 or -2147483648 into both qq
and rr
, depending upon whether q
is zero.
INT_MIN
in gcc 8.2 will affect the stored value of another object.
q
is changed to -2147483646-i
. The generated code ends up being less efficient than if the rr=-rr
line were replaced with rr=-(unsigned)rr
, so the compiler's treatment of UB doesn't even improve code efficiency.
Is negating INT_MIN undefined behaviour?
Yes, when INT_MIN < -INT_MAX
- which is very common (2's complement). It is integer overflow.
int i = get_i();
#if INT_MIN < -INT_MAX
if (i == INT_MIN) {
fprintf(stderr, "Houston, we have a problem\n");
// Maybe return or exit here.
}
#endif
int j = -i;