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Using bitwise operators and I suppose addition and subtraction, how can I check if a signed integer is positive (specifically, not negative and not zero)? I'm sure the answer to this is very simple, but it's just not coming to me.

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Just a thought - the answers below are good, but I think that you shouldn't use these in practice because on a modern CPU, a comparison like "> 0" is just 1 instruction, and any of the below answers are going to be multiple instructions, possibly not making use of separate pipelines or cores. They're useful if you are making your own circuit for special comparison and need to reduce logic path delay. –  Phil Sep 16 '10 at 23:02
This might be a homework question specifically limiting the use of such comparisons :) –  Alex Sep 16 '10 at 23:09
it's related to a larger homework problem, this is just one part that i can't get a grasp of –  Rowhawn Sep 16 '10 at 23:12
Please don't forget to add the homework tag so people who avoid homework questions can avoid such questions. –  Matti Virkkunen Sep 16 '10 at 23:16

5 Answers 5

up vote 4 down vote accepted

If you really want an "is strictly positive" predicate for int n without using conditionals (assuming 2's complement):

  • -n will have the sign (top) bit set if n was strictly positive, and clear in all other cases except n == INT_MIN;
  • ~n will have the sign bit set if n was strictly positive, or 0, and clear in all other cases including n == INT_MIN;
  • ...so -n & ~n will have the sign bit set if n was strictly positive, and clear in all other cases.

Apply an unsigned shift to turn this into a 0 / 1 answer:

int strictly_positive = (unsigned)(-n & ~n) >> ((sizeof(int) * CHAR_BIT) - 1);

EDIT: as caf points out in the comments, -n causes an overflow when n == INT_MIN (still assuming 2's complement). The C standard allows the program to fail in this case (for example, you can enable traps for signed overflow using GCC with the-ftrapv option). Casting n to unsigned fixes the problem (unsigned arithmetic does not cause overflows). So an improvement would be:

unsigned u = (unsigned)n;
int strictly_positive = (-u & ~u) >> ((sizeof(int) * CHAR_BIT) - 1);
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thanks, this really helped me get at what i wanted –  Rowhawn Sep 16 '10 at 23:28
-n may overflow in the case of n == INT_MIN. –  caf Sep 16 '10 at 23:52
Strictly, that only works on 2's complement arithmetic (which are, I grant you, the practically significant systems). With a negative zero (1's complement or sign-magnitude), your assertions are not valid. –  Jonathan Leffler Sep 17 '10 at 0:04
@Jonathan: if you cast to unsigned before applying the ~ operator, then it works for all systems. –  R.. Sep 17 '10 at 0:22
@caf: Updated, thanks (forgot that signed overflow can trap). –  Matthew Slattery Sep 17 '10 at 1:18

Check the most significant bit. 0 is positive, 1 is negative.

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This fails for zero, which is neither positive nor negative. –  caf Sep 16 '10 at 22:57
But if the most significant bit is 0 and all the other bits are zero, it returns 'positive' but zero is supposed to be excluded. –  Jonathan Leffler Sep 16 '10 at 22:58
You are right, though he could check for someInt == 0; –  Alex Sep 16 '10 at 23:05

If you can't use the obvious comparison operators, then you have to work harder:

int i = anyValue;
if (i && !(i & (1U << (sizeof(int) * CHAR_BIT - 1))))
    /* I'm almost positive it is positive */

The first term checks that the value is not zero; the second checks that the value does not have the leading bit set. That should work for 2's-complement, 1's-complement or sign-magnitude integers.

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Unfortunately, it has undefined behaviour ;) - 2 raised to the power of (sizeof(int) * CHAR_BIT - 1) is certainly not representable in int. –  caf Sep 16 '10 at 23:05
@caf: that can be addressed by converting the 1 that is shifted to unsigned int with a U suffix...which means that i will be converted to unsigned int too. Bit-shifting should normally be done on unsigned quantities anyway. –  Jonathan Leffler Sep 16 '10 at 23:58
Yep, that fixes the UB - now you just have to worry about the (even more theoretical!) case where int and unsigned int have the same number of value bits... –  caf Sep 17 '10 at 0:13
@caf: I don't think the standard allows that. –  R.. Sep 17 '10 at 0:22
@R: It does, unfortunately - in "if there are M value bits in the signed type and N in the unsigned type, then M <= N" - implying that you could have (for example) int with range -131072 to 131071 and unsigned int with range 0 to 131071. –  caf Sep 17 '10 at 0:29

Consider how the signedness is represented. Often it's done with two's-complement or with a simple sign bit - I think both of these could be checked with a simple logical and.

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Check that is not 0 and the most significant bit is 0, something like:

int positive(int x) {
   return x && (x & 0x80000000);
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Assuming sizeof(int) == 4... –  Jonathan Leffler Sep 16 '10 at 22:57
What about return x && (x & MIN_INT) ? –  Ssancho Sep 17 '10 at 17:19

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