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What data-structure should I use to create my own “BigInteger” class?

Out of pure interest, I am trying to design a type that can hold an arbitrarily large integer. I want to support four basic operations [+, -, *, /] and optimise for speed of those operations.

I was thinking about some sort of a doubly-linked list and a bit flag to indicate positive or negative value. But I am not really sure how to add, for example, to large numbers of different sizes. Shall I walk to the last element of both numbers and then return back (using the second reverse pointer to the previous element).

 123456789     //one large number
+      123     //another large number with different size

Providing I can have an arbitrarily large memory, what is the best data structure for this task?

I would appreciate a small hint and any comments on worst-case complexity of the arithmetic operations. Thanks!

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marked as duplicate by casperOne Jul 10 '12 at 13:33

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You mean like a BigInteger or BigDecimal in Java? –  duffymo Jul 7 '12 at 22:22
    
if you're working in c (or c++, or just curious) then the book c interfaces and implementations develops a library like this - amazon.com/… –  andrew cooke Jul 7 '12 at 22:26
    
google.de/search?q=java+bigint . First link says: "Immutable arbitrary-precision integers". –  krlmlr Jul 7 '12 at 22:27
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What I can't understand is why someone would use a linked-list for this –  Alexander Jul 7 '12 at 22:35
    
To clarify - do you mean arbitrarily large numbers (numbers with no upper bound), or infinitely large numbers (as in set theory)? –  templatetypedef Jul 7 '12 at 23:00

1 Answer 1

up vote 3 down vote accepted

Usually one would go for an array/vector in this case, perhaps little-endian (lowest-significant word first). If you implement in-place operations, use a constant factor when growing the array, then amortized complexity for the reallocation remains O(1).

All operations should be doable in O(n) run time where n is the size of the input. EDIT: No, of course, multiplication and division will need more, this answer says it's at least O(N log N).

Just out of curiosity: Why are you reimplementing the wheel? Find here an implementation in Java. C# has one with .NET 4.0, too. While it might be a good exercise to implement this yourself (I remember myself doing it once), if you just need the functionality then it's there in many computing environments already.

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@oleksii Inside is basically an array of "digits" (and some bookkeeping info). –  Daniel Fischer Jul 7 '12 at 22:45

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