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I am developing a mathematical parser which is able to evaluate String like '5+b*sqrt(c^2)'. I am using ANTLR for the parsing and make good progress. Now I fell over the Java class BigDecimal and thought: hey, why not thinking about precision here.

My problem is that the Java API does not provide trigonometric methods for BigDecimals like java.lang.Math. Do you know if there are any good math libraries like Apache Commons out there that deal with this problem?

The other questions is how to realize the power method so that I can calculate 4.9 ^ 1.4 with BigDecimals. Is this possible?

A book request about numerical computing is also appreciated.

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Why do you need BigDecimal for this? Aren't double good enough? –  Jonas Jan 31 '10 at 22:01
    
BigDecimal is typically used for precision currency calculations. Are you sure double won't get you where you need to go? –  Nick Jan 31 '10 at 22:05
    
If portability is important, then consider strictfp. (Might slow down the floating point arithmetic a bit though - I have never really benchmarked) –  Ustaman Sangat Dec 15 '11 at 18:57

4 Answers 4

up vote 5 down vote accepted

ApFloat is a library which contains arbitrary-precision approximations of trigometric functions and non-integer powers both; however, it uses its own internal representations, rather than BigDecimal and BigInteger. I haven't used it before, so I can't vouch for its correctness or performance characteristics, but the api seems fairly complete.

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Just found it myself and have seen that it supports pretty much everything I need. I will keep you posted if everything works –  Marco Feb 1 '10 at 21:34

BigDecimal does not provide these methods because BigDecimal models a rational number. Trigonometric functions, square roots and powers to non-integers (which I guess includes square roots) all generate irrational numbers.

These can be approximated with an arbitrary-precision number but the exact value can't be stored in a BigDecimal. It's not really what they're for. If you're approximating something anyway, you may as well just use a double.

Big Square Roots uses the Newton methods to approximate square roots on BigDecimals.

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You can always convert the BigDecimal value to other values like double and integer if you need to use the common java.lang.Math methods. You can't use this fairly simple on BigIntegers and BigDecimals due to it's natures. But you always can do this:

import java.math.BigDecimal


public class Main
{
    public static void main(String[] args)
    {
        BigDecimal rad = new BigDecimal(Math.PI / 2);
        BigDecimal degrees = Math.toDegrees(rad.doubleValue());

        System.out.println("My Degrees: " + degrees);
    }
}
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Pretty much the best book on Numerical Computing would be Numerical Recipes

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Only for some definitions of best. 'broadest' possibly, but always check the algorithms against other sources, and never use the implementations directly - at least if they haven't updated the 1 based indexing in the C version using undefined behaviour. –  Pete Kirkham Jan 31 '10 at 22:47

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