I am looking for a Java library that can handle truly huge numbers or suggestions as to how to implement this myself. We are talking way beyond `BigInteger`

. How about **2^39614081257132168796771974655+1** for example.

Clearly I could, theoretically, make use of a `TreeSet<BigInteger>`

, one entry per bit and do all the math old-school but I am looking for something that can actually do some real maths with these numbers using built-in math hardware. I don't expect anything truly fast but I would very much like to get close.

It is likely that the number of set bits may be quite small - I am representing G2 polynomials.

Does anyone know of anything out there?

I suspect a feature of the package must be a `setBit(BigInteger i)`

.

**Added**

Thanks for the suggestion of Apfloat. Sadly the following is not possible. It complains that the second parameter must be a `long`

.

```
Apint two = new Apint(2);
Apint big = new Apint("39614081257132168796771974655");
ApintMath.pow(two, big);
```

Please note that I am also open to suggestions as to how to do this myself.

**Added** - to attempt a reopen.

Please see user2246674's post reminding us how staggeringly enormous these numbers are - I can assure you we are not talking about some ordinary math library here, we are talking some serious `Math.pow(age-of-the-universe,atoms-in_the_galaxy)`

kind of numbers - we are **certainly** not looking for mere *opinionated answers*.

or suggestions as to how to implement this myself. – OldCurmudgeon Jun 17 '13 at 23:34cannotbe feasibly represented in standard integer encodings. So, while it may be a "shopping question", it is also asking for avery focused library or approach. – user2246674 Jun 17 '13 at 23:34