# Sign check for NaN value

My program during calculation can generate `nan` or `-nan` values. I check if the values are `nan`/`-nan` using `isnan` method.

I also have to distinguish if the nan value is positive or negative (`nan` or `-nan`). How can I do this?

Added:I need crossplatform solution for WIN and for Unix/Linux

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If it isn't a number ... does it make sense determining "its" sign? ???? – pmg Jan 8 '12 at 20:43
@pmg - thre is a diff between nan and -nan – Yakov Jan 8 '12 at 20:45
@Yakov Please tell us the difference. What arithmetic operation ascribes meaning to the sign of the NaN value that it returns? – David Heffernan Jan 8 '12 at 20:47
@David Heffernan: catan(inf + iNAN) => π/2 + i0; catan(inf - iNAN) => π/2 - i0; – cleong Apr 10 '14 at 16:18

Try `signbit` from `<math.h>`:

Description

signbit() is a generic macro which can work on all real floating-point types. It returns a nonzero value if the value of x has its sign bit set.

...

NaNs and infinities have a sign bit.

It's apparently part of C99 and POSIX.1-2001, but you could write a macro/function yourself if you don't want to use/conform to either of the two.

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I need it for cross platform system.How can I make it work for Visual Studio? – Yakov Jan 8 '12 at 21:10
@Yakov: Sorry for the late reply. Microsoft might have their own macro/function similar to `signbit`, or you could look up the source to a `signbit` implementation. One example is here with an associated header here. – AusCBloke Jan 8 '12 at 22:15

You could use the `copysign` function (C99, in `<math.h>`);

``````double sign = copysign(1.0, your_nan);
``````

From C99 §7.12.11.1:

### Description

The copysign functions produce a value with the magnitude of x and the sign of y. They produce a NaN (with the sign of y) if x is a NaN. On implementations that represent a signed zero but do not treat negative zero consistently in arithmetic operations, the copysign functions regard the sign of zero as positive.

### Returns

The copysign functions return a value with the magnitude of x and the sign of y.

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Nearly all systems today use either IEEE single or double precision floating-point. So in that case you could (bitwise) convert it to an integer and read the sign-bit.

Here's one approach that uses unions. Although it's not fully standard-compliant, it should still work on nearly all systems.

``````union{
double f;
uint64_t i;
} x;

x.f = ... //  Your floating-point value (can be NaN)

//  Check the sign bit.
if ((x.i & 0x8000000000000000ull) == 0){
//  positive
}else{
//  negative
}
``````
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