# correct way to compare double in equals()-method [duplicate]

I have double types within my class and have to override equals()/hashCode(). So I need to compare double values.

Which is the correct way?

Version 1:

``````boolean isEqual(double a, double b){
return Double.doubleToLongBits(a) == Double.doubleToLongBits(b);}
``````

Version 2:

``````boolean isEqual(double a, double b){
final double THRESHOLD = .0001;
return Math.abs(a - b) < THRESHOLD;
}
``````

Or should I avoid primitive `double` at all and use its wrapper type `Double` ? With this I can use `Objects.equals(a,b)`, if `a` and `b` are Double.

• Do you want to require the doubles to be exactly equal, or nearly equal? Bearing in mind that "nearly equal" is not compatible with using the double as part of a hash code. – khelwood Sep 30 at 11:05
• @khelwood I want to use this method within my overriden hashCode()/equals()-method of the class.. – nimo23 Sep 30 at 11:06
• @nimo23 If you have two doubles that are nearly the same but not exactly, would you like them to show as equal or not equal? – khelwood Sep 30 at 11:07
• @nimo23 That does not answer khelwood's question. What do you consider "equal"? Floating Point values are prone to tiny errors which will make them unequal even though they should be. – Fildor Sep 30 at 11:08
• Your first version checks if the values are precisely the same. The second version checks if they are within `.0001` of each other. Which (if either) of those is appropriate depends on what you use it for. If you use the second you'll have to omit the double from the calculation of your hash code. – khelwood Sep 30 at 11:11

The recommended way for use in equals/hashcode methods[citation needed] is to use `Double.doubleToLongBits()` and `Double.hashcode()` respectively.

This is because the contract of equals requires the two inputs to evaluate to 'different' if the hash codes are different. The other way around has no restriction.

(Note: It turns out that `Double.compare()` internally uses `doubleToLongBits()` but this is not specified by the API. As such I won't recommend it. On the other hand, `hashCode()` does specify that it uses `doubleToLongBits()`.)

Practical example:

``````@Override
public boolean equals(Object obj) {
if (obj == null || getClass() != obj.getClass())
return false;

Vector2d other = (Vector2d)obj;
return Double.doubleToLongBits(x) == Double.doubleToLongBits(other.x) &&
Double.doubleToLongBits(y) == Double.doubleToLongBits(other.y);
}

@Override
public int hashCode() {
int hash = 0x811C9DC5;
hash ^= Double.hashCode(x);
hash *= 0x01000193;
hash ^= Double.hashCode(y);
hash *= 0x01000193;
return hash;
}
``````
• You have to use return `Double.compare(a, b) == 1`; – nimo23 Sep 30 at 11:44
• Almost correct, but good point. – Mark Jeronimus Sep 30 at 11:44
• @nimo23 `Double.equals` uses `doubleToLongBits`(-0.0 and +0.0 differ) but has the "advantage" that NaN's are considered equal. All in all float and double are the incorrrigible drunk types. – Joop Eggen Sep 30 at 11:53
• I tested it before and it's not. When you want to treat them equally, you should 'normalize' the double values, either as a class restraint or in these methods themseves. Normalizing is as simple as `x+0` which as expected converts -0.0 to 0.0. – Mark Jeronimus Sep 30 at 12:17
• No. For `doubleToLongBits` all NaN are equal and for `doubleToRawLongBits` only identical NaN are equal. Note: Any NaN other than Double.NaN is never generated as a result of an expression, only when you use `Double.longBitsToDouble()`. – Mark Jeronimus Sep 30 at 12:38

`double` values should not be used as a component to establish object equality and therefore its hashcode.

It comes from the fact that there is inherent imprecision in floating point numbers and double saturates artificially at `+/-Infinity`

To illustrate this problem:

``````System.out.println(Double.compare(0.1d + 0.2d, 0.3d));
System.out.println(Double.compare(Math.pow(3e27d, 127d), 17e256d / 7e-128d));
``````

prints:

``````1
0
``````

... which translates to the following 2 false statements:

0.1 + 0.2 > 0.3

(3 * 1027)127 == 17 * 10256 / (7 * 10-128)

So your software will make you act on 2 equal numbers being unequal, or 2 very large or very small unequal numbers being equal.

• thanks, good point. I will think about it.. – nimo23 Sep 30 at 12:31