A simple way of getting the fractional part of a `double`

is to use the modulo operator, `%`

. However, you'll have to take into account the fact that floating point arithmetic isn't precise. For example,

```
System.out.println(12.1 % 1); // outputs 0.09999999999999964
System.out.println(12.99 % 1); // outputs 0.9900000000000002
```

If you want to get two decimal digits as an `int`

, which is what I think you're asking, you can achieve this, glossing over the floating point issues, like so:

```
System.out.println(Math.round((12.1 % 1) * 100)); // outputs 10
System.out.println(Math.round((12.99 % 1) * 100)); // outputs 99
```

However, you should consider going further down the `BigDecimal`

path you started down, which uses arbitrary precision arithmetic. You could do something like this:

```
System.out.println(new BigDecimal("12.1").remainder(BigDecimal.ONE)); // outputs 0.1
System.out.println(new BigDecimal("12.99").remainder(BigDecimal.ONE)); // outputs 0.99
```

If, as before, you want two decimal digits from this, you can do this:

```
System.out.println(new BigDecimal("12.1").remainder(BigDecimal.ONE).multiply(new BigDecimal(100)).setScale(2, RoundingMode.HALF_UP).intValue()); // outputs 0.1
System.out.println(new BigDecimal("12.99").remainder(BigDecimal.ONE).multiply(new BigDecimal(100)).setScale(2, RoundingMode.HALF_UP).intValue()); // outputs 0.99
```

Note that there a couple of differences between these last two methods and the first two: they preserve the sign of the argument, so if you use the final example for -12.99, you'll get -99 back, and they treat the fractional part of an integer as 1, so if you use the final example for 12, you'll get 100 back.

`10`

is notalldigits of`12.1`

after the dot. What exactly is your requirment? – Andreas Dolk Mar 16 '13 at 16:16