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I am looking for some way to handle numbers that are in the tens of millions of digits and can do math at this level. I can use Java and a bit of Python. So a library for one of these would be handy, but a program that can handle these kind of numbers would also work. Does anyone have any suggestions?


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closed as not constructive by Martijn Pieters, Lev Levitsky, the Tin Man, 0x499602D2, BalusC Nov 22 '12 at 19:02

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What is wrong with BigInteger and BigDecimal to look for a library fo kinds of jabs java can do with this datatypes? – Uwe Plonus Nov 22 '12 at 15:27
Would playing with sys.maxint help? – inspectorG4dget Nov 22 '12 at 15:27
considered matlab ? – Inbar Rose Nov 22 '12 at 15:42
What's your problem domain? I struggle to think of practical applications that need both numbers of that magnitude and total accuracy. – AakashM Nov 22 '12 at 16:20
I'm guessing something cryptography .. :) – wim Nov 22 '12 at 16:23

For Java, take a look at the built-in classes BigInteger and BigDecimal. BigInteger numbers are limited in size by available memory. BigDecimal can represent arbitrarily large base-10 numbers with up to 232 digits to the right of the decimal point (in practical terms, also limited by available memory).

Both of these are limited to fairly elementary math operations. (Arithmetic, integer powers, etc. No roots, logs, etc.) If you need something more than this, consult the list of libraries at the Java Numerics page of NIST. (The Apfloat package supports arbitrary-precision transcendental functions and complex math.)

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Python can handle big numbers without needing any libraries.

>>> 100 ** 100

Though as suggested by others you may want to use gmpy if you want extra speed.

In Java you can use BigInteger.

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But this number isn't 10s of millions of digits long – inspectorG4dget Nov 22 '12 at 15:28
inspectorG4dget: Well of course I did try to post an example with tens of millions of digits first but then StackOverflow said the post was too long, so I did a shorter example instead. But I think you should be able to get the point. Use a bit of imagination, please. – Mark Byers Nov 22 '12 at 15:29
@RobW because 1e999 is parsed as a float, not an int – wim Nov 22 '12 at 15:32
There's also GMPY. GMP for Python. Might be faster. – Mikkel K. Nov 22 '12 at 15:36
@MarkByers: It seems it hangs on printing such huge numbers then. This question might be relevant then. – Junuxx Nov 22 '12 at 15:52

For Python, I recommend gmpy, a Python wrapper for the GNU Bignum library. While Python does in theory handle arbitrarily large integers (limited only by memory), and it's fine for numbers of a few thousand digits or so, it's not really that well suited to dealing with million-digit ints. It doesn't use state-of-the-art algorithms for fast multiplication, digit conversion and other standard operations. gmpy in contrast is designed to handle numbers of that sort of magnitude.

Here are some sample timings, showing that even for a few thousand digits gmpy is substantially faster than Python's builtin longs:

$ python -m timeit -s "from gmpy import mpz" "str(mpz(10)**10000)"
1000 loops, best of 3: 575 usec per loop
$ python -m timeit "str(10**10000)"
100 loops, best of 3: 11.8 msec per loop

An aside: at some point, one of the Python core developers tried replacing Python's long integer implementation with one that used GMP directly. It turned out that it actually slowed Python down for everyday non-huge-integer use cases. See http://bugs.python.org/issue1814 for the details.

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BigDecimal should be good enough. However, you can take a look at JScience

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What kind of math operations do you need?

Java already provides classes like java.math.BigDecimal or java.math.BigInteger you can use to do basic stuff (addition, multiplication, etc.)

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