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What algorithms does Java's BigInteger class employ for multiplication and division, and what are their respective time complexities?

What primitive type does Java's BigInteger class use - byte, short, int, etc. - and why?

How does Java's BigInteger class handle the fact that its primitive type is signed? If the answer is it just does it and it's really messy, that's all I need/want to know. What I'm really getting at is does it cheat in the same way some python libraries cheat in that they're not written in python?

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I looked at the source code to BigInteger here. Here's what I found.

BigInteger does not "cheat". In Java "cheating" is accomplished through the use of what are known as "native" functions. See java.lang.Math for a rather extensive list of these.

BigInteger uses int to represent its data.

private transient int[] words;

And yes, it is pretty messy. Lot's of bit crunching at the like.

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Oracle's java.math.BigInteger class has undergone some extensive improvements from Java 7 to Java 8. See for yourself by examining the source on grepcode.com. It doesn't cheat, it's all pure java.

Internally, it uses a sign-magnitude representation of the integer, using an array of int values to store the magnitude. Recall that a java int is a 32-bit value. All 32-bits are used without regard to the sign. This size is also convenient since the product of two ints fits into a java long.

Beginning in Java 8 the BigInteger class added some advanced algorithms such as Karatsuba and Toom-Cook multiplication to improve the performance for integers of thousands of bits.

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  • "used without regard to the sign" - How? By using bit-wise operators instead of arithmetic operators?
    – M.J. Rayburn
    Mar 2, 2015 at 5:07
  • The operands are converted to long before arithmetic is per performed. You should examine the code to learn more, for example the add method.
    – President James K. Polk
    Mar 2, 2015 at 13:34
  • Thanks ... in retrospect that should have been easily deducible from your answer.
    – M.J. Rayburn
    Mar 2, 2015 at 17:08
  • "The operands are converted to long before arithmetic is per performed." and "This size is also convenient since the product of two ints fits into a java long." The product of two numbers in the range [0, 2^32) doesn't fit into a long.
    – M.J. Rayburn
    May 7, 2015 at 1:34
  • @M.J.Rayburn: A java long is 64-bits. The product of two 32-bit integers is an integer whose magnitude is < 2*64, therefore it fits in a long.
    – President James K. Polk
    May 7, 2015 at 1:43
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It uses int.

Reason: It's the fastest for most platforms.

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  • If two ints are faster than a long why do longs exist?
    – M.J. Rayburn
    Mar 1, 2015 at 20:02
  • @M.J.Rayburn A long is essentially just two ints (double the size in bits). Of course a single variable is faster than two variables. 32 bits is the natural size for many PC architectures, that's why Java uses that size for it's ints.
    – Emil Laine
    Mar 1, 2015 at 20:07
  • When I said "why do longs exist" I meant "why do processors have built in support for longs". Are you saying I'm wrong about that, and ints are the biggest integral types with native support?
    – M.J. Rayburn
    Mar 2, 2015 at 0:37
  • Longs exist to allow representation of 64-bit wide integers with a single variable. Most systems have good native support for them, and it's a good feature, there are many cases when 32 bits just aren't enough.
    – Emil Laine
    Mar 2, 2015 at 1:10
  • You misunderstand. If it's more time efficient to represent a 64 bit BigInt as two ints instead of one long, why do most processors have built in support for longs - it would be faster to implement them in software.
    – M.J. Rayburn
    Mar 2, 2015 at 4:26

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