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float f = (float)'a';
if(f < 0){ 
}   
else if(f == 0){ 
}   
else if(f > 0){ 
}   
else{
    printf("NaN\n");                                                          
}   

f won't be greater/equal/less than 0 if it's a NaN.

But how to produce such a f in the first place?

I tried various ways to produce a NaN,but none work..

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Can you use a little C++? C++ has the std::numeric_limits stuff which includes constants for both quiet and signalling NaN. Also, are you sure your system supports NaN correctly? Because I'm REALLY surprised when you say that 0.0/0.0 isn't NaN, and I start to suspect your library isn't setup the way you think it is. –  Michael Kohne Aug 27 '11 at 3:34
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4 Answers

up vote 8 down vote accepted

Using floating point numbers, 0.0 / 0.0 isn't a "divide by zero" error; it results in NaN.

This C program prints -nan:

#include <stdio.h>

int main()
{
    float x = 0.0 / 0.0;
    printf("%f\n", x);
    return 0;
}

In terms what NaN looks like to the computer, two "invalid" numbers are reserved for "signaling" and "quiet" NaN (similar to the two invalid numbers reserved for positive and negative infinity). The Wikipedia entry has more details about how NaN is represented as an IEE floating point number.

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Tried, NaN is not printed,so it's not working. –  Je Rog Aug 27 '11 at 3:27
    
@Je Rog: My bad, I've fixed my answer. –  Dan Cecile Aug 27 '11 at 3:29
    
@William ,it works! But how's NaN represented under the hood? It means that IEEE standard formats for single and double-precision values defines some invalid value,which may be used as NaN,right? –  Je Rog Aug 27 '11 at 3:30
    
@Je Rog en.wikipedia.org/wiki/NaN#Floating_point –  Matt Ball Aug 27 '11 at 3:32
1  
@Matt Ball,does it mean IEEE contains definition for less than 2^128 float point values? Only in that case there can be some special values used as NaN IMO –  Je Rog Aug 27 '11 at 3:38
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To produce a nan, there are a few ways:

1) generate it manually (read ieee754 to set up the bits properly)

2) use a macro. GCC exposes a macro NAN. It's defined in math.h

The general way to check for a nan is to check if (f == f) (which should fail for nan values)

For nan, the exponent bits in the float representation should all be set to 1 (float consists of a signed bit, a set of exponent bits and a set of mantissa bits)

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1  
You can also use isnan() to check for a NaN (requires C99 or (on unix systems) appropriate feature flags, see the manpage for details) –  bdonlan Aug 27 '11 at 3:36
1  
@bdonlan slightly OT but its actually strange that python didn't introduce isnan until 2.6 –  Foo Bah Aug 27 '11 at 3:49
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From the GNU GCC manual math.h defines macros that allow you to explicitly set a variable to infinity or NaN. Since this is a part of C99 you can use the following macros with other c99 compliant compilers i hope.

— Macro: float INFINITY An expression representing positive infinity. It is equal to the value produced by mathematical operations like 1.0 / 0.0. -INFINITY represents negative infinity.

You can test whether a floating-point value is infinite by comparing it to this macro. However, this is not recommended; you should use the isfinite macro instead. See Floating Point Classes.

This macro was introduced in the ISO C99 standard.

— Macro: float NAN An expression representing a value which is “not a number”. This macro is a GNU extension, available only on machines that support the “not a number” value—that is to say, on all machines that support IEEE floating point.

You can use ‘#ifdef NAN’ to test whether the machine supports NaN. (Of course, you must arrange for GNU extensions to be visible, such as by defining _GNU_SOURCE, and then you must include math.h.)

for further information you can see here: http://www.gnu.org/s/hello/manual/libc/Infinity-and-NaN.html

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This works for constants too (0/0 will give a compiler error on vs):

const unsigned maxU = ~0;
const float qNan =  *((float*)&maxU);
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