# Power precision in Java

I'm trying to perform a power calculation in Java for exponent that is less than 1, for example: (2^0.333) but when i calculate that in Java, i got a result with less precision than if i do the same calculation on a normal calculator.

in Java

``````double f = Math.pow(2.0,0.333);
System.out.println(f);

//output
//1.2596299799473993
``````

in a normal calculator i got

``````//output
//1.2596299799473993502546921425703
``````

how can I get the same result in java without losing precision?

any help is appreciated

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what is a normal calculator? how do we know that your calculator is not abnormal? =) – Juvanis Oct 25 '12 at 0:22
i mean by normal calculator = Windows Calculator – shamary Oct 25 '12 at 0:27
Maybe you should try looking into: stackoverflow.com/questions/277309/… – Artem Shitov Oct 25 '12 at 0:27
I think ApfloatMath is the app I'm looking for, thanks Artem – shamary Oct 25 '12 at 2:18

Built-in floating point arithmetic in Java is of limited precision. The built-in `BigDecimal` class doesn't provide the operations that you need (real exponentiation, or even logs). You can use a third-party app such as Apfloat (see the `ApfloatMath` class) or JScience, both of which can do the exponentiation calculation to arbitrary precision.

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thanks Ted, ApfloatMath solved the problem – shamary Oct 25 '12 at 2:19

A more precise value cannot be acquired with primitive doubles alone. Instead, use BigDecimal, which is used to represent arbitrarily precise floating-point values.

Note that you will need a custom `pow` function to handle BigDecimal. One implementation can be found in this SO answer.

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This isn't very useful. How would you propose doing exponentiation of two `BigDecimal` quantities? – Ted Hopp Oct 25 '12 at 0:33
@TedHopp I actually began writing a method `pow(BigDecimal val, double exponent, int precision)` before realizing that wouldn't work. I'm researching how to do so reasonably. EDIT: Found one. – Vulcan Oct 25 '12 at 0:34

A double-precision floating point value, like the one you're using in your Java code, can only accurately represent 15 to 17 significant digits. Unless the Windows calculator app you're using is using a higher-precision data type internally (which is unlikely), those digits are likely to be meaningless.

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