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I want to try writing my own BigInt Class so I am wondering what would be the most efficient way to find the last digit of a number in C, especially for an input that would be an extremely large int.

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Will value & 0xF work? – Matt S Jun 8 '10 at 21:54
I guess he meant base 10, Matt ;) – schnaader Jun 8 '10 at 21:56
Depends on the base of the representation you use. – fredoverflow Jun 8 '10 at 21:57
It should all boil down to base 2 at the end of the day which bitwise operations work with. The resulting value will have to be converted back to whatever base you started with. – Matt S Jun 8 '10 at 22:01
lastDigit = number % 10;
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Of course, this is implementation-defined with negative numbers. – rlbond Jun 8 '10 at 21:58
@rlbond, I think it will be fixed to being negative for negative numbers in C++0x. @marndt, you misread the question: number here is a bigint and the % operator is to be defined. – avakar Jun 8 '10 at 22:25
-1 because it doesn't really answer his question, he wants to know the best way to implement it for a custom class he's writing, otherwise you're spot on. If you're implementing a Int256 class (as opposed to Int16, Int32, Int64) how do you implement % for said class? You can't use the inherit one because it's only defined for the .NET predefined types. – jcolebrand Jun 8 '10 at 22:53
@drachenstern: where did the .NET come from? It's a C++ question, and there you can't inherit a predefined one - it's an operator, not a member function. – MSalters Jun 9 '10 at 9:07
In general, this is unlikely to be the most efficient way. BigInt::operator% needs to accept any input, but %10 is a special case that allows specific optimizations. – MSalters Jun 9 '10 at 9:09

I'm assuming that your BigInt uses a base-256 implementation, but this would work equally well for base-65536 or even bigger bases.

Start with a simple example: BigInt(2828) would be stored as 11*256 + 12. Now BigInt(2828) % 10 = (11*256+12) % 10 = ((11 % 10)*(256 % 10) + 12 % 10)) % 10 = (256 % 10 + 2) % 10 = (6+2) % 10 = 8.

The two basic rules that you'll be applying are (a+b)%10 = (a%10 + b%10) % 10, and (a*b)%10 = (a%10 * b%10) % 10. As it happens, not only is 256 % 10 == 6, but (256^N) % 10 = (6^N) % 10 = 6. This enormously simplifies your LastDigit() function.

So, again assuming a BigInt B represented as a sequence d_N..d_0 with base 256. Then B % 10 is (6*sum(d_i % 10) - 5 * (d_0 % 10)) % 10. Each term in the summation is at most 9, obviously. Hence you can trivially sum (ULONG_MAX/6) base-256 digits without overflowing, and the same still applies to base-65536 and base-4294967296

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Since you're dealing with input, the easiest thing to do would be to read it as a string, and convert the last character to a digit value by subtracting '0'.

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