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I want to be able to access the sign bit of a number in C++. My current code looks something like this:

int sign bit = number >> 31;

That appears to work, giving me 0 for positive numbers and -1 for negative numbers. However, I don't see how I get -1 for negative numbers: if 12 is

0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 1100

then -12 is

1111 1111 1111 1111 1111 1111 1111 1111 1111 1111 1111 0011

and shifting it 31 bits would make

0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0001

which is 1, not -1, so why do I get -1 when I shift it?

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possible duplicate of Absolute Beginner's Guide to Bit Shifting? – msw Jun 8 '10 at 22:07
int sign_bit = (int)(number > 0); – aviraldg Jun 8 '10 at 22:08
For two's complement (which most modern systems use), your -12 is wrong. It should end 0100. – Matthew Flaschen Jun 8 '10 at 22:13
up vote 10 down vote accepted

The result of right-shifting a negative number in C++ is implementation-defined. So, no one knows what right-shifting your -12 should get on your specific platform. You think it should make the above (1), while I say that it can easily produce all-ones pattern, which is -1. The latter is called sign-extended shifting. In sign-extended shifting the sign bit is copied to the right, but never shifted out of its place.

If all you are interested in is the value of the sign bit, then stop wasting time trying to use bitwise operations, like shifts etc. Just compare your number to 0 and see whether it is negative or not.

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This is a really old post but I just saw this while looking for something else. I generally agree with what you are saying here. But there are some assumptions that he made in his question that might have contributed to outcome of his code. This can be done arch independently using bit shifting or just using a bit-mask to check the sign bit. – Arsham Dec 24 '14 at 2:13
This doesn't distinguish -0.0 from +0.0. You need to access the sign bit for that. See John's answer. – Neil G May 9 at 23:58
@NeilG Based on the text in the question, it seems to me to be asking about integers . – M.M May 10 at 1:35
@m.m Oh!! I got fooled by the other answers and didn't read carefully. – Neil G May 10 at 1:36

What about this?

int sign = number < 0;

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Because you are shifting signed integer. Cast the integer to unsigned:

int sign_bit = ((unsigned int)number) >> 31;
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For integers, test number < 0.

For floating point numbers, you may also want take into account the fact that zero has a sign. That is, there exists a -0.0 which is distinct from +0.0. To distinguish the two, you want to use std::signbit.

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The >> operator is performing an arithmetic shift, which retains the sign of the number.

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No. What kind of shift is performed by >> operator is implementation-defined. Could be any kind of shift. – AnT Jun 8 '10 at 22:10
@AndreyT: I said "the >> operator is performing an arithmetic shift", and that's exactly what it is doing in this case, judging by the OP's description. Notice that I did not say "the >> operator always performs an arithmetic shift" or anything like that. Perhaps I should have been more explicit, but either way, I don't think my answer deserves a downvote. – LukeH Jun 9 '10 at 1:01
@Downvoters: Please justify yourselves. I explained exactly what the OP's problem is. I didn't make any broad claims like "the >> operator always performs an arithmetic shift"; I explained exactly what the >> operator is doing in this particular case. – LukeH Nov 17 '11 at 9:42

You can use cmath library

#include <cmath>

and use it like

std::cout << std::signbit(num);

This function get a float value as input and a bool value as output.

true for negative
false for positive

for instance

std::cout << std::signbit(1);

will give you a 0 as output (false)

but while using this function you have to be careful about zero

std::cout << std::signbit(-0.0);  // 512 (true)
std::cout << std::signbit(+0.0);  // 0   (false)

The output of this lines are not the same.

To remove this problem you can use:

float x = +0.01;
std::cout << (x >= 0 ? (x == 0 ? 0 : 1) : -1);

which give:

 0 for 0
 1 for positive
-1 for negative
share|improve this answer
bool signbit(double x)
    return 1.0/x != 1.0/fabs(x);

My solution that supports +/-0.

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bool signbit(double x)
    return (__int64)x & 0x8000000000000000LL != 0LL;

bool signbit(float x)
    return (__int32)x & 0x80000000 != 0;
share|improve this answer
causes undefined behaviour if x is out of range of __int64 – M.M May 10 at 1:34

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