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Is it possible that for two positive integers i and j, (-i)/j is not equal to -(i/j) ? I can't figure out if this is possible...i thought it would be something regarding bits, or overflow of a char type or something but i can't find it. Any ideas?

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It could be me, but in (-i)/j, i looks suspiciously not-positive. –  WhozCraig Feb 14 '13 at 5:26
If using signed integers, this wont happen with positive integers. The only funny bit could be when using INT_MIN (least negative integer) and negating on that. –  leppie Feb 14 '13 at 5:26
@WhozCraig The positive integers are i and j. In the example i is negated. –  Hunter McMillen Feb 14 '13 at 5:26
@HunterMcMillen Yeah, I know. it was the immediate irony of the presentation which I was mulling. And I concur with leppie. This falls on its face when i = INT_MIN, but outside of that, I can't see it ever happening, or I'm just not far enough out of the box. –  WhozCraig Feb 14 '13 at 5:32
Could be a problem with integers that don't fit into signed type. For example with i = 1 << 31 and j = 2 I get different results. –  aragaer Feb 14 '13 at 6:32

2 Answers 2

up vote 10 down vote accepted

Pre-C99, it's possible because division of negative operands is implementation-defined; it can be algebraic division or round-towards-zero. C99 defines it to round-towards-zero.

For example, C89 allows (-1)/2 == -1, while C99 requires (-1)/2 == 0. In all cases, -(1/2) == 0.

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+1 (and I wish I could up-vote this more than once) I had no idea it was implementation defined prior to C99) –  WhozCraig Feb 14 '13 at 6:43
Thanks, i actually found this independently but this confirms it. appreciate the responses gentlemen. –  salamisalem Feb 14 '13 at 20:24
@user1909464: why did you not select this answer? I would encourage you in general to select answers when you get a reply that solves the issue. –  lpapp Dec 31 '13 at 1:43
whoops wasn't aware, gotcha –  salamisalem Dec 31 '13 at 6:13

It is indeed possible when using unsigned integers to represent i and j (you said positive integers, right? :P).

For instance, the output of the following program is (-i)/j 2147483647 -(i/j) 0 in my Intel 64bit OSX machine (unsigned ints are 32 bits long)

#include <stdio.h>

int main()
  unsigned int i = 1;
  unsigned int j = 2;
  printf("(-i)/j %u -(i/j) %u\n", (-i)/j, -(i/j));

  return 0;

Looking at the assembler, the negl intel instruction is used to compute the the negation. negl performs a twos complement. The twos complement result, when interpreted as an unsigned value, causes the mismatch. But don't simply take my word for it, here's an example:

For instance, assuming 8bit words, and for i=1 and j=2

In binary form: i=00000001 j=00000010

-(i/j) = twos_complement(00000001/00000010) = twos_complement(00000000) = 00000000

-(i)/j = twos_complement(00000001)/00000010 = 11111111 / 00000001 = 1111111 (127 in decimal)

The mismatch triggered by an unsigned representation even happens when using a C99 compiler. As @R states, another mismatch could also happen in a pre-c99 compiler since the division by a negative number was implementation defined.

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Use of the phrase "twos complement" is a bit misleading since unary negation of an unsigned argument is not "twos complement", just reduction modulo UINT_MAX+1. But nice catch. I hadn't considered the case that OP might be concerned about unsigned types. –  R.. Feb 14 '13 at 7:03

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