# How do you test to see if a double is equal to NaN?

I have a double in Java and I want to check if it is `NaN`. What is the best way to do this?

## 6 Answers

Use the static `Double.isNaN(double)` method, or your `Double`'s `.isNaN()` method.

``````// 1. static method
if (Double.isNaN(doubleValue)) {
...
}
// 2. object's method
if (doubleObject.isNaN()) {
...
}
``````

Simply doing:

``````if (var == Double.NaN) {
...
}
``````

is not sufficient due to how the IEEE standard for NaN and floating point numbers is defined.

• Another way to do this would be v != v. Only NaN compares false with itself. Don't do that though, isNaN is a million times better. :) – Joren Sep 21 '09 at 20:15
• This did not work for me. Double.isNaN(var) worked though – fiacobelli May 23 '13 at 4:13
• @Joren, better late than never: 'isNaN' is indeed better to use than v != v for readability. But the source code of the isNaN method is exactly the same as saying v != v. Source: static public boolean isNaN(double v) { return (v != v); } – Rolf ツ Dec 10 '14 at 19:50
• `Double.isNaN should be (true) ` nice answer – Oliver Shaw Apr 24 '15 at 18:41
• Double.isNaN(yourVariable) work – Kiem Nguyen May 19 '15 at 18:29

Returns true if this Double value is a Not-a-Number (NaN), false otherwise.

Note that [`double.isNaN()`] will not work, because unboxed doubles do not have methods associated with them.

• I thought you couldn't call methods on primitive types in Java. It really needs to be `Double.isNan()` and not `double.IsNan()`, right? – Joren Sep 21 '09 at 20:41
• Joren, he's relying on autoboxing (double getting converted to Double by the compiler/runtime); new feature from 1.5 onwards. Little risk going this direction; going from Double to double creates risk of NullPointerExceptions. – M1EK Sep 21 '09 at 21:01
• I thought autoboxing only worked on using the double as an argument, adding it to a collection, and the like. Try declaring double x and then asking x to isNaN() - gives me a compiler error. – Carl Sep 22 '09 at 2:23
• Really, I suspect Andrew just missed the shift key typing the first "double". – Carl Sep 22 '09 at 2:25

You might want to consider also checking if a value is finite via `Double.isFinite(value)`. Since Java 8 there is a new method in `Double` class where you can check at once if a value is not NaN and infinity.

``````/**
* Returns {@code true} if the argument is a finite floating-point
* value; returns {@code false} otherwise (for NaN and infinity
* arguments).
*
* @param d the {@code double} value to be tested
* @return {@code true} if the argument is a finite
* floating-point value, {@code false} otherwise.
* @since 1.8
*/
public static boolean isFinite(double d)
``````

You can check for NaN by using `var != var`. `NaN` does not equal `NaN`.

EDIT: This is probably by far the worst method. It's confusing, terrible for readability, and overall bad practice.

• Can someone explain the downvote? I know, this way is very bad, and `isNan` is better for readability, but it works, right? And the `isNan` method uses this to check for `NaN`. – HyperNeutrino Oct 12 '15 at 19:20
• I'm guessing the downvote was because this way is very bad, and isNaN is better for readability. – Edward Falk Jan 22 '16 at 17:06
• I didn't downvote you, but I think additional comment would be useful here: if you compare wrappers like Float or Double you end up comparing references this way, not their values, which is definitely is not what you want. – Battle_Slug Mar 3 '16 at 3:30
• @Battle_Slug Thanks for the comment. I do know that this is a very bad idea, but I put it here for completeness. – HyperNeutrino Mar 4 '16 at 2:28
• `isNaN` does this under the hood, but how does it work? How does something not equal itself ?? – wilmol Jul 8 at 7:23

Beginners needs practical examples. so try the following code.

``````public class Not_a_Number {

public static void main(String[] args) {
// TODO Auto-generated method stub

String message = "0.0/0.0 is NaN.\nsimilarly Math.sqrt(-1) is NaN.";
String dottedLine = "------------------------------------------------";

Double numerator = -2.0;
Double denominator = -2.0;
while (denominator <= 1) {
Double x = numerator/denominator;
Double y = new Double (x);
boolean z = y.isNaN();
System.out.println("y =  " + y);
System.out.println("z =  " + z);
if (z == true){
System.out.println(message);
}
else {
System.out.println("Hi, everyone");
}
numerator = numerator + 1;
denominator = denominator +1;
System.out.println(dottedLine);
} // end of while

} // end of main

} // end of class
``````
• This example does too much, and it's not clear what you were trying to show. This is just a bunch of fragmented code. – Jared Hooper Sep 7 '15 at 14:56
• As the OP, who was a beginner when this question was asked back in '09, I can assure you that the accepted answer was far more helpful than this "practical" example would have been. – Eric Wilson Sep 28 '15 at 18:26
• Thank you @p.g.gajendra babu for posting this example code. – datnt Mar 26 '17 at 12:01

The below code snippet will help evaluate primitive type holding NaN.

```double dbl = Double.NaN; Double.valueOf(dbl).isNaN() ? true : false;```