# Why does this comparsion return false? [duplicate]

Possible Duplicate:
Why does Double.NaN==Double.NaN return false?

This is purely out of curiosity.

I did something like this:

``````public static void main(String args[]) throws Exception {
System.out.println(Double.NaN==Double.NaN);
}
``````

The output is `false`. Shouldn't this return `true`?

Why is it so?

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## marked as duplicate by Henry, Nikolay Kuznetsov, Xavi López, PermGenError, DrColossosJan 30 '13 at 13:00

From the Java Language Specifications:

Floating-point operators produce no exceptions (§11). An operation that overflows produces a signed infinity, an operation that underflows produces a denormalized value or a signed zero, and an operation that has no mathematically definite result produces NaN. All numeric operations with NaN as an operand produce NaN as a result. As has already been described, NaN is unordered, so a numeric comparison operation involving one or two NaNs returns false and any != comparison involving NaN returns true, including x!=x when x is NaN.

The important sentence here is:

so a numeric comparison operation involving one or two NaNs returns false

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and for not comparing floating point numbers for equality see stackoverflow.com/questions/3832592/… –  palindrom Jan 30 '13 at 12:55
Good explanation. To explain it further, NaN basically mean that this number does not exist (Not a Number). Something that does not exist is equal to nothing. In maths, for example, you DO NOT have 3/0 = 4/0 (this is Nan = Nan, basically). This does not make any sense. –  autra Jan 30 '13 at 12:55

For comparing two Doubles better use the `#compareTo(Double)` method, it is able to handle `NaN` and `XXX_INFINITY` in a separated way.

Compares two Double objects numerically. There are two ways in which comparisons performed by this method differ from those performed by the Java language numerical comparison operators (<, <=, ==, >=, >) when applied to primitive double values:

Double.NaN is considered by this method to be equal to itself and greater than all other double values (including Double.POSITIVE_INFINITY). 0.0d is considered by this method to be greater than -0.0d. This ensures that the natural ordering of Double objects imposed by this method is consistent with equals.

``````public static void main(String[] args) {
Double d = new Double(Double.NaN);
System.out.println(d.compareTo(Double.NaN) == 0);//returns true
}
``````
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