# BigDecimal multiply by zero

I am performing a simple multiplication with BigDecimal and I have found some strange behaviour when multiplying by zero (multiplying by zero is correct in this use-case).

Basic maths tells me that anything multiplied by zero will equal zero (see:Zero Product Property and Multiplication Properties)

However, the following code will consistently fail with the same error:

``````assertEquals(new BigDecimal(0), new BigDecimal(22.3).multiply(new BigDecimal(0)));
``````
``````java.lang.AssertionError:
Expected :0
Actual   :0E-48
``````

Is this an inaccuracy with BigDecimal or is there some niche branch of maths that I'm missing somewhere?

Notes: JDK 1.6.0_27 running in IntelliJ 11

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Yes look into numerical analysis and especially approximation and truncation error –  Martin Larsson Aug 14 '12 at 9:26
Or in `double` you could write `assertEquals(0, 23.3 * 0, 0);` ;) –  Peter Lawrey Aug 14 '12 at 9:29
And also look into `BigDecimal.ZERO`. –  EJP Aug 14 '12 at 10:41
@MartinLarsson The point of `BigDecimal` is that it doesn't suffer from approximation or truncation error (for non-recurring decimals). The problem is due to misuse of the interfaces, as described in the answers. –  OrangeDog Aug 14 '12 at 13:41
BigDecimal is a classic example in Java where the contract of compareTo is not consistent with equals and you seemed to have encountered that . –  Geek Aug 16 '12 at 7:50

You can't use the `equals()` method to compare `BigDecimals`, like this assertion does. That is because this equals function will compare the scale. If the scale is different, `equals()` will return false, even if they are the same number mathematically.

You can however use `compareTo()` to do what you want:

As @assylias points out, you should also use the `new BigDecimal("22.3")` constructor to avoid double precision issues.

``````BigDecimal expected = BigDecimal.ZERO;
BigDecimal actual = new BigDecimal("22.3").multiply(BigDecimal.ZERO);
assertEquals(0, expected.compareTo(actual));
``````

There is also a method called `signum()`, that returns -1, 0 or 1 for negative, zero, and positive. So you can also test for zero with

``````assertEquals(0, actual.signum());
``````
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There are 2 issues with your code:

• but you should also use the string constructor: `new BigDecimal("22.3")` instead of the double constructor `new BigDecimal(22.3)` to avoid double precision issues

In other words, the following code (which correctly uses compareTo) still returns false:

``````BigDecimal bd = new BigDecimal(0.1).multiply(new BigDecimal(10));
System.out.println(bd.compareTo(BigDecimal.ONE) == 0);
``````

because `0.1d * 10d != 1`

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Thanks for pointing out the constructor change –  Richard Aug 14 '12 at 9:40
@assylias "but you should also use the string constructor: new BigDecimal("22.3") instead of the double constructor new BigDecimal(22.3) to avoid double precision issues" . can you explain the double precision issue? –  Geek Aug 16 '12 at 7:49
@Geek try this `System.out.println(new BigDecimal("0.1"));` and this `System.out.println(new BigDecimal(0.1d));`. The first one (String constructor) prints `0.1`, whereas the second one (double constructor) prints `0.1000000000000000055511151231257827021181583404541015625`. This happens because a double can't exactly represent 0.1. More about it on this page for example. –  assylias Aug 16 '12 at 8:26
@assylias +1 for the clarification. –  Geek Aug 16 '12 at 13:08

`equals()` on `BigDecimal` checks the internal state of `BigDecimal` for comparison

Refer the code below

``````public boolean equals(Object x) {
if (!(x instanceof BigDecimal))
return false;
BigDecimal xDec = (BigDecimal) x;
if (x == this)
return true;
if (scale != xDec.scale)
return false;
long s = this.intCompact;
long xs = xDec.intCompact;
if (s != INFLATED) {
if (xs == INFLATED)
xs = compactValFor(xDec.intVal);
return xs == s;
} else if (xs != INFLATED)
return xs == compactValFor(this.intVal);

return this.inflate().equals(xDec.inflate());
}
``````

if you want to compare the values use `compareTo()`

``````assertEquals(0 , new BigDecimal(0).compareTo(new BigDecimal(22.3).multiply(new BigDecimal(0)));