# number formatting [duplicate]

Possible Duplicate:
Why not use Double or Float to represent currency?

I'm learning Java so please bear with me for such a simple question. When given a calculation to calculate interest i have this code inputted:

`````` public double calculateTotal(double rate, int n)
{
amount = amount * Math.pow((1+rate), (n/12));
return amount;
}
``````

This returns the answers I'm looking for but keeps adding 0.000000000001 onto the end. How would i solve this? A friend advised something called number formatting but i couldn't find a solution.

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## marked as duplicate by Nambari, casperOne♦Jan 15 '13 at 15:04

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

If this is for monetary purpose, use `BigDecimal` instead. –  Swapnil Jan 11 '13 at 17:34
See here why it isn't a good idea to use a double for currency. –  Jonathan Jan 11 '13 at 17:34
`n/12` is a integer operation, so for `n = 1` it will be zero, and not `1/12`. Otherwise, `double` can never be 100% precise. You can use `DecimalFormat` to have a nice string representation of your number. –  jlordo Jan 11 '13 at 17:34

## 2 Answers

This problem is related to widely known floating point calculation issue.

One of the solutions could be use of `import java.math.BigDecimal`

EDIT

Java does not allow to override operators so the only way to add `BigDecimal`s together is by using `add` method e.g. (assuming your amount is `BigDecimal`. Bear in mind that BigDecimal is immutable so whatever is returned from `calculateTotal` needs to be assigned back to `ammount`

``````// you assign result to amount outside calculateTotal
amount.add(new BigDecimal(Math.pow((1+rate), (n/12))));
``````

or

``````// you assign sum to amount inside calculateTotal
amount = amount.add(new BigDecimal(Math.pow((1+rate), (n/12))));
``````
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I imported java.math.BigDecimal. no change. so i changed a couple of the data types to BigDecimal and now the compilers complaining of bad operator types not allowing BigDecimals to be added together. D= –  cbatothinkofname Jan 11 '13 at 18:12
@cbatothinkofname You should take a look at this question on SO. Addition for BigDecimal –  Smit Jan 11 '13 at 18:35
Inputted the latest feedback and now it's giving me a totally different answer which is wrong and still giving me long decimals afterwards. –  cbatothinkofname Jan 11 '13 at 19:09
ah, sorted that problem out... back to the correct answer. only still with long decimal place once again –  cbatothinkofname Jan 11 '13 at 19:18

As it was mentioned before `BigDecimal` is good option if you need better precision with doubles.

There is nice way to do rounding with `BigDecimal`s. Basically you have to specify scale of the `BigDecimal` instance. Take a look at this sample code:

``````BigDecimal decimalOne = new BigDecimal(0.1950);
BigDecimal decimalTwo = decimalOne.setScale(2, BigDecimal.ROUND_HALF_DOWN);
BigDecimal decimalThree = decimalOne.setScale(4, BigDecimal.ROUND_HALF_DOWN);

System.out.println("decimalOne: " + decimalOne);
System.out.println("decimalTwo: " + decimalTwo);
System.out.println("decimalThree: " + decimalThree);
``````

Java 7 would print something like this:

``````decimalOne: 0.195000000000000006661338147750939242541790008544921875
decimalTwo: 0.20
decimalThree: 0.1950
``````

Please note that `BigDecimal` instances are immutable and that's why you have to assign result of `setScale` to new instance (`decimalOne` will not be changed).

In many financial system `double`s are not used to store currency information; `long` type with specific precision is used instead e.g. for precision 2, value `100` would be `1.00`, `122` would be `1.22` etc. That approach simplifies and seeds up calculations but it is not good for all the systems. However for simplicity of that question I won't dive into that subject too much.

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