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Can someone explain this to me? In C# double.NaN is not equal to double.NaN

bool huh = double.NaN == double.NaN; // huh = false
bool huh2 = double.NaN >= 0; // huh2 = false
bool huh3 = double.NaN <= 0; // huh3 = false

What constant can I compare to a double.NaN and get true?

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8  
Just to explain your huhs : NaN is equal to nothing, not even itself. This is by definition. en.wikipedia.org/wiki/NaN –  Falaina Jul 17 '09 at 20:15
2  
What I think is unfortunate is that the context is lost. If we had two doubles, and both were assigned a value of NaN in order to represent the actual value 1/0. They should be equal, but since the context is lost, they're treated as not equal –  Michael Meadows Jul 17 '09 at 20:57
    
You are right, an extra line of code should have to be implemented for that particular case. –  Carlo Jul 17 '09 at 21:03
7  
mathematically correct. Why would one think one nan would be equal to another? sqrt( -1 ) != 1/0 –  Gordon Gustafson Jul 18 '09 at 0:20
1  
It is just like NULL in SQL –  AnimalsAreNotOursToEat Aug 29 '13 at 7:10

10 Answers 10

up vote 91 down vote accepted

If you are curious, this is what Double.IsNaN looks like:

public static bool IsNaN(double d)
{
    return (d != d);
}

Funky, huh?

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1  
Very funky! Also very clever when you think about it. –  Colin Mackay Jul 17 '09 at 20:17
    
Interesting. I wasn't aware of that. Makes sense, once you see it though, due to the definition of NaN... –  Noldorin Jul 17 '09 at 20:18
6  
That is weird allright. But then again, so is the declaration of NaN: public const double NaN = (double) 1.0 / (double) 0.0; –  Fredrik Mörk Jul 17 '09 at 20:18
    
very clever, indeed. –  Erich Mirabal Jul 17 '09 at 20:18
5  
@Fredik, @Erich: Division by Zero will give inf (or, +inf, -inf based on the operands), 0 / 0 (among others) results in a NaN. There's a nice table with special operations/results at steve.hollasch.net/cgindex/coding/ieeefloat.html –  Torsten Marek Jul 17 '09 at 20:32

Use Double.IsNaN.

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bool isNaN = Double.IsNaN(yourNumber)
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The behavior is on purpose. The reason being NaN represents something that is not a number and so that is sort of a catch-all for many things.

The proper way to compare something to being NaN is to use the IsNaN function.

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Use Double.IsNan() to test for equality here. The reason is that NaN is not a number.

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There's a specialized function for this:

double.IsNan(huh);
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Use the method "Double.IsNaN( value )" to check for this condition.

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Actually, you already found the way to check if a IEEE-754 floating point number is NaN: it is the only floating point value (or range of values, because there are several NaNs) that evaluates to False if compared to itself, i.e. :

bool isNaN(double v) {
    return v != v;
}

Under the hood, the Double.IsNaN method might actually do the same thing. You should still use it, because the behavior is quite surprising to anybody who does not know about the FP standard.

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The only thing that we know about NaN is that it's "Not a Number." That doesn't mean that it has a value that is associable with its state. For example:

∞ + (-∞) = NaN

0/0 = NaN

(∞ + (-∞)) <> (0/0)

Here's some C# to demonstrate

var infinity = 100d / 0;
var negInfinity = -100d / 0;

var notANumber = infinity + negInfinity;
Console.WriteLine("Negative Infinity plus Infinity is NaN: {0}", double.IsNaN(notANumber));

var notANumber2 = 0d / 0d;
Console.WriteLine("Zero divided by Zero is NaN: {0}", double.IsNaN(notANumber2));

Console.WriteLine("These two are not equal: {0}", notANumber == notANumber2);
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100/0 is not NaN, it is Infinity! docs.sun.com/source/806-3568/ncg_goldberg.html#918 –  Torsten Marek Jul 17 '09 at 21:41
    
You're right. I'm revising. –  Michael Meadows Aug 31 '09 at 19:44

The reason of Double.NaN != Double.NaN is simple:

Do you expect 0/0 to be the same as Math.Sqrt(-3)? And same as Math.Sqrt(-7)?

There is a bug in C# in my opinion where Equals() is not overridden for NaN.

Assert.IsTrue(Double.NaN != Double.NaN);
Assert.IsTrue(Double.NaN.Equals(Double.NaN));

At the same time

Assert.IsTrue(Double.PositiveInfinity == Double.NegativeInfinity);
Assert.IsTrue(Double.PositiveInfinity.Equals(Double.PositiveInfinity));
// same for Double.NegativeInfinity and Single

Use static functions for Double and Single, e.g.

Double.IsNaN(value) && Double.IsInfinity(value);

Or more specific:

Double.IsPositiveInfinity(value);
Double.IsNegativeInfinity(value);
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