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How do you write an NaN floating-point literal in C?

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@David: Oh really?! That's weird. I'm using GCC, but knowing an answer for Visual C++ would be helpful later too. – Mehrdad Apr 19 '11 at 9:17
Actually, I mis-spoke. The standard does talk about NaN, but it is optional. – David Heffernan Apr 19 '11 at 9:20
possible duplicate of How to use nan and inf in C? – David Heffernan Apr 19 '11 at 9:22
there's lots of good stuff at the duplicate Q – David Heffernan Apr 19 '11 at 9:23
@David: Ah okay... I did a search but everything was on C++; thanks! – Mehrdad Apr 19 '11 at 14:12
up vote 14 down vote accepted

In C99's <math.h>

  7.12  Mathematics <math.h>
   [#5] The macro


   is defined if and only if the implementation supports  quiet
   NaNs   for  the  float  type.   It  expands  to  a  constant
   expression of type float representing a quiet NaN.           |
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floating types may be able to contain other kinds of floating-point numbers, such as ... infinities and NaNs. A NaN is an encoding signifying Not-a-Number. A quiet NaN propagates through almost every arithmetic operation without raising a floating-point exception; a signaling NaN generally raises a floating-point exception when occurring as an arithmetic operand.

7.12/5 (math.h):

The macro NAN is defined if and only if the implementation supports quiet NaNs for the float type. It expands to a constant expression of type float representing a quiet NaN.

So you can get a value if your implementation supports NaNs at all, and if some or all of those NaNs are quiet. Failing that you're into implementation-defined territory.

There's also a slight worry with some of these floating-point macros that the compiler front-end might not know whether it supports the feature or not, because it produces code that can run on multiple versions of an architecture where support varies. I don't know whether that applies to this macro, but it's another situation where you're into implementation-defined territory - the preprocessor might conservatively claim that it doesn't support the feature when actually the implementation as a whole, as you're using it, does.

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Using NAN is better, but if you're on a system that has NaNs, 0.0/0.0 is an easy way to get one...

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In C you can write a NaN floating point literal in the following way.

const unsigned long dNAN[2] = {0x00000000, 0x7ff80000};
const double LITERAL_NAN = *( double* )dNAN;

Please note that, this is not a standard way. On Microsoft C, it works fine.

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I like your style, but in general, it is recommended to use unions instead of *(T*) casts to do sneaky stuff like this. It might be more portable to do union { uint64_t i; double d;} nan = { 0x7ff8000000000000}; and then use nan.d as NaN. Better to use the math.h header for portability. – Mark Lakata Jun 26 '15 at 5:49
Use of union does make sense. I think its a matter of style. The constant LITERAL_NAN can be used in code without the member access operator dot. When the definition style is concerned you suggestion is more meaningful. – MNS Jun 26 '15 at 10:00
Does this work on 64 bit systems too? – cmeeren Sep 23 '15 at 13:52
@cmeeren I haven't tried it on x64 but it should work on x64 because IEEE 754 double precision is always 64 bits on both 32 bit and 64 bit OS. – MNS Sep 24 '15 at 12:58

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