# What is the purpose of Double.IsNaN(double d)? [closed]

In .Net the type `Double` has a static method `IsNan()` which accepts one parameter, a `double` and returns a `bool`.

Surely, this means that the method will always return true as it can only accept a double? Can someone explain the point of this method and when it might return false? Purely curious and wanting to be educated.

Edit: My apologies for a very poorly asked question. You are all right, I should have read the documentation. And, yes I did mean "the method will always return false".

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## closed as not a real question by Anthony Pegram, leppie, Yuriy Rozhovetskiy, Digbyswift, GravitonNov 2 '11 at 8:31

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Have you read the documentation? Have you tried it? What values make it return `true`? –  Gabe Nov 1 '11 at 13:27
I think you misunderstand what NaN means. (Hint: Not a Number) –  Dark Falcon Nov 1 '11 at 13:28

`double` and `float` have "Not A Number" values that they use to represent error quantities. A NaN has the unfortunate property that it always compares false to everything, including itself. Thus you call a special method to tell you if a given double is a NaN. (Since NaNs are the only values that have the property that they do not equal themselves, you can also tell if a value is a NaN by comparing it to itself! But `x != x` looks weird in the code; it is much more idiomatic to simply call `IsNaN(x)`.)

Is there something about the documentation that was so unclear that it prompted you to ask a question here? If you can explain what you found unclear I can pass that feedback on to the documentation manager.

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It is not unfortunate. Several bit patterns indicate a NaN, hence some NaN's may be different from other NaN's. In term of value equality. If IEEE only defined a single bit pattern for NaN, then it would work. –  leppie Nov 1 '11 at 13:31
@leppie: It is unfortunate for many reasons, including the fact that it makes the `<` relation on doubles into one that can cause crashes or infinite loops when used in common sort algorithms. One has the reasonable expectation that `<` produces a total order, which it does not. –  Eric Lippert Nov 1 '11 at 13:33
A bit off topic, but why does .NET not support negative zero floating point values? –  leppie Nov 1 '11 at 13:34
@leppie: I cannot answer the question because it is based on a false premise. What makes you think .NET doesn't allow representation of negative zero? .NET uses IEEE floats; if you make a negative zero, it'll be treated as an IEEE negative zero. –  Eric Lippert Nov 1 '11 at 13:37
also it makes the double.Equals behaviour disagree with == operator. see stackoverflow.com/questions/4933769/… –  ShuggyCoUk Nov 1 '11 at 15:00

No, it will only return true if the value is a "not a number" value (e.g. due to a division by zero). From the docs:

Returns a value indicating whether the specified number evaluates to a value that is not a number (NaN).

and

Floating-point operations return NaN to signal that that result of the operation is undefined. For example, dividing 0.0 by 0.0 results in NaN.

Note that you can't just do:

``````if (x == double.NaN)
``````

as that comparison will always return `false`. That's why there's a special method to determine "NaN-ness". (As noted in comments, you could actually detect it by using `x != x`, which will only be true for "not a number" values - but that's not as clear as using a dedicated method.)

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Well, you don't really need a special method. You could just use `x != x` to determine Nan-ness. The actual implementation is done this way ("CS1718: comparison to same variable" is disabled for this call). –  Brian Nov 1 '11 at 14:01
@Brian: True. It's a bit nasty though. I'll edit with that information. –  Jon Skeet Nov 1 '11 at 14:04

Return true if double passed evaluates to NaN; otherwise, false.

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The NaN (Not a Number) value is defined in here. This function basically checks given double number if it equals to NaN value returns true if that's the case. This can be needed during a debugging or making sure that an arithmetic operation works the way you want and does not return any ambiguous results.

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Just like doubles have `consts` representing `MinValue` and `MaxValue`, they also have a `const` representing `NaN`. One example of when a double operation will return `NaN` is when diving 0 by 0.

Floating-point operations return NaN to signal that that result of the operation is undefined. For example, dividing 0.0 by 0.0 results in NaN.

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Double represents a floating point number in C#. These numbers represent fractional numbers but because of the limited bitwidth of the available storage, it can't represent all numbers.

Thus, the standard specifies a special value (actually a couple of those) which are called "not a number" or NaN for short. These special values are different from all other values and are handles specially.