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Very large integers are often stored as variable-length arrays of digits in memory, as opposed to a straightforward binary representation as is the case with most primitive 'int' or 'long' types, as in Java or C. With this in mind, I would be interested to know algorithm(s) that can compute:

  1. At what count an integer must reach before it becomes more efficient to store it as a BigInteger (or equivalent arbitrary-precision arithmetic construct) with a given radix for the integer's digits;

  2. Which radix would be most efficient to store the digits of this large integer.

I have mentioned 'efficiency'; by this, I mean I am mainly concerned with the amount of space such a BigInteger would consume, though I would also be interested to hear any comments on processing speed or time complexity.

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If you want space efficiency, the biggest radix that can be stored will do that. (Time is another thing entirely, though.) –  minitech Jan 19 '13 at 18:16

2 Answers 2

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An integer should consume the least space if stored in a raw binary format (unless maybe it is a small integer and data type is way too wide for it - to store 1 in 128 bit long long). Storing differently does not save any memory and is used to make the work with such integers easier.

If byte by byte, this translates into 256'ecimal radix - 256 possible values, as much as the byte can hold.

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I've seen suggestions to use sqrt(max_native_int) as base, to enable native multiplication of two digits without overflow. –  delnan Jan 19 '13 at 18:15
I've also just looked at CPython's long implementation, and it doesn't use full words for digits either (uses 30 bit in a 32 bit uint, or 15 in an 16 bit uint). –  delnan Jan 19 '13 at 18:20
One bit is required to encode the sign if you also need negative values! –  h22 Jan 19 '13 at 18:23
But it's one bit per number, not one bit per digit. –  delnan Jan 19 '13 at 18:25
@delnan: It is often desirable to use one bit less than sqrt(max_native_int) to do squaring efficiently. See the libTom PDF for a discussion on why. –  JamesKPolk Jan 19 '13 at 21:32
  1. BigInt is never more efficient than one of the integer types directly supported by hardware. If you can use what's supported directly, use it.
  2. What's supported by hardware most efficiently, likely a power of 2 or, often equivalently, binary.
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Re 2: Are you talking about using base 2^wordsize? –  delnan Jan 19 '13 at 18:15
@delnan Yes, I am. –  Alexey Frunze Jan 19 '13 at 18:16
Any reasoning for that? As I already wrote in a comment on the other answer, I'm familiar with other approaches. –  delnan Jan 19 '13 at 18:20

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