# Java - computing large mathematical expressions

Im facing a scenario where in ill have to compute some huge math expressions. The expressions in themselves are simple, ie have just the conventional BODMAS fundamental but the numbers that occur as operands are very large, to the tune of 1000 digit numbers. I do know of the BigInteger class of the java.math module but am looking for a different way so that the computation can occur also in a speedy manner. Im a guy still finding his feet in Java, so any pointers or advice in gthis regard would be of great help.

Regards p1nG

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somewhat related: stackoverflow.com/questions/1653131/… – jldupont Dec 23 '09 at 14:37
how do you know BigInteger isn't "speedy" ? – Jason S Dec 23 '09 at 14:42
@ping: speedy manner is not a measurable requirement (e.g do you need the computation done in less then 1 ms) did you try BigInteger and decided it so slow ? – Alon Dec 23 '09 at 14:58

Try it with BigInteger, profile the results with some test calculations, and see if it will work for you, before you look for something more optimized.

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Since you say you are new to Java, I would have to suggest you use BigInteger and BigDecimal unless you want to write your own arbitrarily large number handlers. BigInteger and BigDecimal are fast enough for most uses of them. The only time I've had speed issues with them is when dealing with numbers on the order of a million digits.

That is unless you have a specific need for not using BigInteger.

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@all: Thank you for all the replies. I did try BigInteger and the problem that i faced was that when i try computing a string like "7+3" and then storing the result in BigInteger, it throws a NumberFormat exception. Any pointers on how this can worked on? – ping Dec 24 '09 at 16:24
What you want is BigInteger("7").add(BigInteger("3")) – Chinmay Kanchi Jan 3 '10 at 23:00

First write the program correctly (using BigFoo) and then determine if optimization is appropriate.

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BigInteger/BigFloat will be the most optimized implementation of generalized math that you will possibly get.

If you want it faster, you MIGHT be able to write assembly to use bit-shifting patters for specialized math (well, like divide by 2 tends to be a simple right shift), but if you are doing more than a few different types of equations, that will be very impractical.

BigInteger is only slow in comparison to int, but it will probably be the best you are going to possibly get for operations on numbers of more than 64 bits or so without going to another language--and even then you probably won't get much of an improvement unless that other language is assembly...

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I am surprised that equations with 1000 digits have a practical application (except perhaps encryption) Could you could explain what you are doing and what your speed requirements are?

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