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I'm working in an environment with a mostly absent double/Math library (NETMF). I wrote this class to make things easier:

public struct DoubleEx
{
    public const double NaN = 0.0d / 0.0d;
    public static bool IsNaN(double x)
    {
        return x != x;
    }
    ...
}

Seems like it should work, right?

Well, when I run this code:

Debug.Print("Method call: " + DoubleEx.IsNaN(DoubleEx.NaN));
Debug.Print("Method call: " + DoubleEx.NaN != DoubleEx.NaN);

I get this output:

False
True

Somehow, the act of putting it in a function breaks it! Is there some kind of optimization going on here? Or is the hardware misinterpreting the instructions?

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3 Answers

up vote 3 down vote accepted

The following is based on the IEEE Standard 754:

// @struct IEEE_DOUBLEREP | allows bit access to 8 byte floats
//[StructLayout(LayoutKind.Sequential)]
//public struct ieee_doublerep
//{
//    ulong low_mantissa;       // @field low 16 bits of mantissa
//    ushort mid_mantissa;  // @field mid 16 bits of mantissa
//    uint high_mantissa:4;     // @field high 4 bits of mantissa
//    uint exponent:11;         // @field exponent of floating point number
//    uint sign:1;              // @field sign of floating point number
//};

public struct DoubleEx
{
    public const long NANMASK = 0x7FF0000000000000;
    public const long INFINITYMASK = 0x000FFFFFFFFFFFFF;

    public const double NaN = 0.0f / 0.0f;
    public const double NegativeInfinity = -1.0f / 0.0f;
    public const double PositiveInfinity = 1.0f / 0.0f;
    public static bool IsNaNBad(double x)
    {
        return x != x;
    }

    public unsafe static bool IsNaN(double value)        
    {
        long rep = *((long*)&value);
        return ((rep & NANMASK) == NANMASK &&
                ((rep & INFINITYMASK) != 0));
    }

    public unsafe static bool IsPositiveInfinity(double value)
    {
        double negInf = DoubleEx.PositiveInfinity;
        return *((long*)&value) == *((long*)&negInf);
    }

    public unsafe static bool IsNegativeInfinity(double value)
    {
        double posInf = DoubleEx.PositiveInfinity;
        return *((long*)&value) == *((long*)&posInf);
    }

    public unsafe static bool IsInfinite(double x)
    {
        long rep = *((long*)&x);
        return ((rep & NANMASK) == NANMASK &&
                ((rep & INFINITYMASK) == 0));
    }
}
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It works! [ ](google.com) –  Eric Jul 2 '11 at 15:43
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You have an operator precedence problem, and putting it inside a function changes the expression.

Try:

Debug.Print("Method call: " + (DoubleEx.NaN != DoubleEx.NaN));

And what about:

static bool DoubleInequal(double a, double b) { return a != b; }
static bool IsNaN(double x) { return DoubleInequal(x, x + 0.0); }
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Typo. My actual code has those parenthesis. –  Eric Jul 2 '11 at 13:57
    
@Eric: What processor are you using? Does it have IEEE floating-point, or is .NETMF emulating floating-point operations in software, and may not even have logic for NaN at all? –  Ben Voigt Jul 2 '11 at 13:59
    
A FEZ Panda II. I've asked WTF is going on on their forums here. I'm on a very tight deadline, and would appreciate knowing what's going on. –  Eric Jul 2 '11 at 14:02
2  
@Eric: Ok, found the specs for that board, and the processor turns out to be an ARM7TDMI. This other question indicates that ARM7 has to emulate operations on doubles, I suppose that NaN is not emulated properly. –  Ben Voigt Jul 2 '11 at 14:07
    
Great. Does the same apply to floats? –  Eric Jul 2 '11 at 14:10
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Have you tried return x == NaN? It doesn't seem like good practice to me to assume x != x is synonymous with "IsNaN".

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By definition, NaN == x returns false for all values of x. However, if I do add this to my code, I get the even more alarming result that Double.IsNaN(0) is true! –  Eric Jul 2 '11 at 13:52
    
This will fail. –  Jason Jul 2 '11 at 13:53
    
@Jason: Alarmingly, it does detect NaN. What it also does is thing 0 is NaN! –  Eric Jul 2 '11 at 13:55
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