# Equals operator for zeros (BigDecimal / Double) in Java

A few interesting observations w.r.t equals operator on 0 and 0.0

1. `new Double(0.0).equals(0)` returns false, while `new Double(0.0).equals(0.0)` returns true.

2. `BigDecimal.ZERO.equals(BigDecimal.valueOf(0.0))` returns false, while `BigDecimal.ZERO.equals(BigDecimal.valueOf(0))` returns true.

Looks like the string comparison is being done in both the cases. Could anyone throw some light on this.

Thanks.

-

BigDecimal 'equals' compares the value and the scale. If you only want to compare values (0 == 0.0) you should use compareTo:

``````BigDecimal.ZERO.compareTo(BigDecimal.valueOf(0.0)) == 0 //true
BigDecimal.ZERO.compareTo(BigDecimal.valueOf(0)) == 0 //true
``````

As for the Double comparison, as explained by other answers, you are comparing a Double with an Integer in `new Double(0.0).equals(0)`, which returns `false` because the objects have different types. For reference, the code for the equals method in JDK 7 is:

``````public boolean equals(Object obj) {
return (obj instanceof Double)
&& (doubleToLongBits(((Double)obj).value) ==
doubleToLongBits(value));
}
``````

In your case, `(obj instanceof Double)` is false.

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``````new Double(0.0).equals(0); //false
``````

as the argument you passed is integer. and the equels() in Double class checks whether the argument is od instance Double or not using instance of operator.

The Double's equals() method.

``````if (!(argument instanceof Double))
return false;
``````

The argument you passed is integer, which is not instance of Double, so it returns false.

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1. The 0 in your first expression is interpreted as an `int`, which may be autoboxed into an `Integer`, but not to a `Double`. So the type of the two is different, hence they are not equal. OTOH `0.0` is a `double`, which is autoboxed into a `Double`, so the two operands are deemed equal.

2. BigDecimals also contain a scale (i.e. number of digits to the right of the decimal separator dot). `BigDecimal.ZERO` has the value of "0", so its scale is 0. Hence it is not equal to "0.0", whose scale is 1.
If you want to compare values, use `BigDecimal.compareTo`:

``````BigDecimal.ZERO.compareTo(BigDecimal.valueOf(0.0)) == 0
BigDecimal.ZERO.compareTo(BigDecimal.valueOf(0)) == 0
``````
-

new Double(0.0).equals(0) is actually boxed as something like this:

``````new Double(0.0).equals(Integer.valueOf(0))
``````

Double.equals(...) will never return true unless given another Double instance.

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@LukasEder Thanks, updated. –  Adam Apr 3 '12 at 11:16
``````new Double(0.0).equals(0)
``````

This line compares a double value of 0 (which is not exact zero) with integer of 0.

``````BigDecimal.ZERO.equals(BigDecimal.valueOf(0.0))
``````

BigDecimal will compare the scale length in the equals operation.

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For performance considerations BigDecimal, BigInteger caches small values 0 to 15 in case of BigDecimal (without fractions)

BigDecimal.ZERO will be new BigDecimal(BigInteger.ZERO, 0, 0, 1) & valueOf method typically picks up from cache for 0 to 15 :)

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``````please try doublevalue instead of compareto if you feel is not as beautiful and readable as or simply need an alternative like below:

BigDecimal a = new BigDecimal("0.00");
BigDecimal b = new BigDecimal("0.0");
BigDecimal c = new BigDecimal("0");

if(a.doubleValue()==BigDecimal.ZERO.doubleValue()) {
System.out.println("a equals");
}

if(b.doubleValue()==BigDecimal.ZERO.doubleValue()) {
System.out.println("b equals");
}

if(c.doubleValue()==BigDecimal.ZERO.doubleValue()) {
System.out.println("c equals");
}
``````
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Transforming a BigDecimal to a double might result in loss of precision and a non-zero but close to zero BigDecimal turned into a Double might become 0. You should compare using the `compareTo` method in BigDecimal –  Mosty Mostacho Oct 12 '13 at 18:34