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I am stuck trying to find out why these two operations return different values:

  1. Double.NaN == Double.NaN returns false
  2. Double.NaN.Equals(Double.NaN) returns true

I have the answer to the first part but not the second and not to "why are these two comparisons returning different values"

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Might be a stupid comment, but I would say that in case 1, you are comparing values. And in case 2 you are comparing references. –  jbl Jan 22 '13 at 12:50
@jbl No, you’re comparing values in both cases – doubles aren’t references and you’re not even boxing since System.Double.Equals is overloaded. –  Konrad Rudolph Jan 22 '13 at 12:52
@spender OMFG I should read the question better! Thanks! –  RB. Jan 22 '13 at 12:53
@RB. Actually, I suspect that this might still be the correct reason. I would have guessed the same thing. –  Konrad Rudolph Jan 22 '13 at 12:54
@RB I imagine the issues are broadly similar though. –  spender Jan 22 '13 at 12:54

4 Answers 4

up vote 28 down vote accepted

The reason for the difference is simple, if not obvious.

If you use the equality operator ==, then you're using the IEEE test for equality.

If you're using the Equals(object) method, then you have to maintain the contract of object.Equals(object). When you implement this method (and the corresponding GetHashCode method), you have to maintain that contract, which is different from the IEEE behaviour.

If the Equals contract was not upheld, then the behaviour of hash tables would break.

var map = new Dictionary<double,string>();
map[double.NaN] = "NaN";
var s = map[double.NaN];

If !double.NaN.Equals(double.NaN), you'd never get your value out of the dictionary!

If the previous sentence does not make sense, then understand that the mechanics of hashing (used in Dictionary<T,U>, HashSet<T>, etc) use both the object.Equals(object) and object.GetHashCode() methods extensively, and rely upon guarantees of their behaviour.

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Ah. Finally. :-) (I’d like very much to get a proper reference for the claim here but I believe this is the correct answer (the contract part definitely is), so +1). –  Konrad Rudolph Jan 22 '13 at 13:02
Yes I should point out that I don't have a reference. It's just the only reason that makes sense to me. –  Drew Noakes Jan 22 '13 at 13:04
+1. Can you please provide a ref to IEEE test for equality? I couldn't find it anywhere –  GETah Jan 22 '13 at 13:22
For completeness, this is given in a note in ECMA-335 I. "Equality is implemented on System.Object via the Equals method. [Note: Although two floating point NaNs are defined by IEC 60559:1989 to always compare as unequal, the contract for System.Object.Equals requires that overrides must satisfy the requirements for an equivalence operator. Therefore, System.Double.Equals and System.Single.Equals return True when comparing two NaNs, while the equality operator returns False in that case, as required by the IEC standard. end note]" –  R. Martinho Fernandes Jan 22 '13 at 13:44
Excellent reasoning. We don't link to references here, we create them. –  Hans Passant Jan 22 '13 at 13:47

At the very bottom of the remarks section of Double.Equals, you will find:

If two Double.NaN values are tested for equality by calling the Equals method, the method returns true. However, if two NaN values are tested for equality by using the equality operator, the operator returns false. When you want to determine whether the value of a Double is not a number (NaN), an alternative is to call the IsNaN method.

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I wonder if there's a reason beyond the docs say so :) –  Drew Noakes Jan 22 '13 at 12:50
Good find. +1 .. –  spender Jan 22 '13 at 12:50
Thanks for the quick answer. Do you know why this difference? –  GETah Jan 22 '13 at 12:51
This doesn't answer the "why" part of the question. –  ken2k Jan 22 '13 at 12:55
may be because as IsNan is a function it is a reference, and then the two references to the same funtion are Equals –  tschmit007 Jan 22 '13 at 12:55

Well, Oded's answer is great but I want to say something;

When I decompile Double.Equals() method, it seems like this;

public bool Equals(double obj)
    return ((obj == this) || (IsNaN(obj) && IsNaN(this)));

So since we have this = Double.NaN and obj = Double.NaN

(IsNaN(obj)) and (IsNaN(this)) returns `true`.

So basicly it is could return ((obj == this) || true

which is equvalent to

return ((obj == this) is true.

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+1. I am getting more confused now :p –  GETah Jan 22 '13 at 13:00
And again this is merely begging the question. We already knew that Double.Equals has special treatment for NaN, the question is why. –  Konrad Rudolph Jan 22 '13 at 13:02
@KonradRudolph, I explain why in my answer. It's because of the semantic contract that must be upheld. –  Drew Noakes Jan 22 '13 at 13:02
@Drew Yes, and that’s why yours is the only real answer here. –  Konrad Rudolph Jan 22 '13 at 13:04

if you inspect Double.NaN;

    // Summary:
    //     Represents a value that is not a number (NaN). This field is constant.
    public const double NaN = 0.0 / 0.0;

the first one returns false as NaN is not representing any number.

A method or operator returns NaN when the result of an operation is undefined. For example, the result of dividing zero by zero is NaN

The second one returns true as NaN equality is implemented explicitly in the overloaded equals method.

from msdn double.equals:

If two Double.NaN values are tested for equality by calling the Equals method, the method returns true. However, if two NaN values are tested for equality by using the equality operator, the operator returns false. When you want to determine whether the value of a Double is not a number (NaN), an alternative is to call the IsNaN method.

This is done delibaretly to conform with IEC 60559:1989;

According to IEC 60559:1989, two floating point numbers with values of NaN are never equal.However, according to the specification for the System.Object::Equals method, it's desirable to override this method to provide value equality semantics. Since System.ValueType provides this functionality through the use of Reflection, the description for Object.Equals specifically says that value types should consider overriding the default ValueType implementation to gain a performance increase. In fact from looking at the source of System.ValueType::Equals (line 36 of clr\src\BCL\System\ValueType.cs in the SSCLI), there's even a comment from the CLR Perf team to the effect of System.ValueType::Equals not being fast.

refer to: http://blogs.msdn.com/b/shawnfa/archive/2004/07/19/187792.aspx

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The question was why the two methods yield different results. You didn’t answer that. –  Konrad Rudolph Jan 22 '13 at 12:55
I do believe I have answered; NaN is not defined, does not represent any number, it is undefined. Talking about equality is not possible; but equals method defines an equality between two NaN values. –  daryal Jan 22 '13 at 12:58
Why is Equals defined like this? You are simply begging the question. –  Konrad Rudolph Jan 22 '13 at 13:00
have you read the further updates? if you have further questions I can answer. read the link I have posted in the end please before. –  daryal Jan 22 '13 at 13:03
The linked article indeed contains the explanation. However, the quote you’ve pulled out isn’t relevant. –  Konrad Rudolph Jan 22 '13 at 13:07

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