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I've got two signed integers, and i'd like to subtract them. I need to know if it overflowed.

int one;
int two;
int result = two-one;

if (OVERFLOW) {
    printf("overflow");
} else {
    printf("no overflow");
}

Something like that. Is there a good way to do this?

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3 Answers

vote up 7 vote down check

Firstly, overflow in signed calculations causes undefined behavior in C.

Secondly, forgetting about UB for a second and sticking to the typical overflow behavior of a 2's complement machine: overflow is revealed by the fact that result "moves" in the "wrong direction" from the first operand, i.e when the result ends up greater than the first operand with positive second operand (or smaller than the first operand with negative second operand).

In your case

int one, two;

int result = two - one;
if ((result < two) != (one > 0))
  printf("overflow");
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If int result = two - one; overflows (or underflows) you're in Undefined Behaviour land and anything can happen. – pmg Oct 27 at 21:49
Which is what stated explicitly in the very first sentence of my response. (Although the term "underflow" in its traditional meaning is not applicable here.) – AndreyT Oct 27 at 21:53
I like this answer but as you noted - undefined behaviour. If is safe to assume that the result will 'move' in the 'wrong direction'? – Kirk Broadhurst Oct 27 at 21:56
My point is that your if is not reliable. After the operation on the line before, if there was overflow, the result of the comparison is meaningless. – pmg Oct 27 at 22:06
1  
@pmg: Think of it as a solution specifically intended for implementations that extend C language specification by defining the signed integer overflow behavior in the way implied in my answer. – AndreyT Oct 27 at 22:12
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vote up 2 vote down

You need to catch the overlow (or underflow) before it happens. Once it happens you're in Undefined Behaviour land and all bets are off.

#include <limits.h>
#include <stdio.h>

int sum_invokes_UB(int a, int b) {
  int ub = 0;
  if ((b < 0) && (a < INT_MIN - b)) ub = 1;
  if ((b > 0) && (a > INT_MAX - b)) ub = 1;
  return ub;
}

int main(void) {
  printf("(INT_MAX-10) + 8: %d\n", sum_invokes_UB(INT_MAX - 10, 8));
  printf("(INT_MAX-10) + 100: %d\n", sum_invokes_UB(INT_MAX - 10, 100));
  printf("(INT_MAX-10) + INT_MIN: %d\n", sum_invokes_UB(INT_MAX - 10, INT_MIN));
  printf("100 + INT_MIN: %d\n", sum_invokes_UB(100, INT_MIN));
  printf("-100 + INT_MIN: %d\n", sum_invokes_UB(-100, INT_MIN));
  printf("INT_MIN - 100: %d\n", sum_invokes_UB(INT_MIN, -100));
  return 0;
}
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vote up 0 vote down

You can do it with higher precision and compare. Say you have 32-bit integers. You can promote them to 64-bit integers, subtract, then compare that result with itself cast to 32-bit and then up again to 64 bits.

I wouldn't do it this way with int, because the language doesn't give you guarantees on sizes... Maybe int32_t and int64_t from <inttypes.h> (from C99).

If you're on Windows use can use ULongSub() etc, which returns an error code on overflow.

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If I do this case in 32 bit: 0x7fffffff - 0x80000000 = 0xffffffff In 64 bit I get 0xffffffffffffffff and thus i see no overflow (it should be, though. that's the wrong answer). – Murph Oct 27 at 21:09
forgot to mention that this only really works using unsigned quantities... – asveikau Oct 28 at 1:38

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