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I need an algorithm for A mod B with

  1. A is a very big integer and it contains digit 1 only (ex: 1111, 1111111111111111)
  2. B is a very big integer (ex: 1231, 1231231823127312918923)

Big, I mean 1000 digits.

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Is this homework??? – Richard J. Ross III Oct 22 '10 at 17:14
Nope, I'm pass school age :D. I'm ask for my friend. – complez Oct 22 '10 at 17:18
Is it your friend's homework? – nmichaels Oct 22 '10 at 17:23
I don't know. I guess not because we are same age lol – complez Oct 22 '10 at 17:26
Is it your friend's friend's homework? We can probably generate an algorithm for the comments on this question... – Dan J Oct 22 '10 at 22:48
up vote 5 down vote accepted

1000 digits isn't really big, use any big integer library to get rather fast results.

If you really worry about performance, A can be written as 1111...1=(10n-1)/9 for some n, so computing A mod B can be reduced to computing ((10^n-1) mod (9*B)) / 9, and you can do that faster.

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To compute a number mod n, given a function to get quotient and remainder when dividing by (n+1), start by adding one to the number. Then, as long as the number is bigger than 'n', iterate:

number = (number div (n+1)) + (number mod (n+1))
Finally at the end, subtract one. An alternative to adding one at the beginning and subtracting one at the end is checking whether the result equals n and returning zero if so.

For example, given a function to divide by ten, one can compute 12345678 mod 9 thusly:

12345679 -> 1234567 + 9
 1234576 -> 123457 + 6
  123463 -> 12346 + 3
   12349 -> 1234 + 9
    1243 -> 124 + 3
     127 -> 12 + 7
      19 -> 1 + 9
      10 -> 1

Subtract 1, and the result is zero.

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Well, that doesn't really help us to divide by 111111111111, does it? (Unless we already have number written in base 111111111112) – Nikita Rybak Oct 22 '10 at 20:42
@Nikita Rybak: You didn't specify your numeric base; since 1111 is a special case in binary, but not decimal, I thought maybe your number was in binary. – supercat Oct 22 '10 at 22:01
It's not my number, it's given by OP :) Also, from his original post it follows that 1111 is a dividend and not a divisor. You provide an interesting observation, it just doesn't seem applicable to the task. – Nikita Rybak Oct 22 '10 at 22:08

1) Just find a language or package that does arbitrary precision arithmetic - in my case I'd try java.math.BigDecimal.

2) If you are doing this yourself, you can avoid having to do division by using doubling and subtraction. E.g. 10 mod 3 = 10 - 3 - 3 - 3 = 1 (repeatedly subtracting 3 until you can't any more) - which is incredibly slow, so double 3 until it is just smaller than 10 (e.g. to 6), subtract to leave 4, and repeat.

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Try Montgomery reduction on how to find modulo on large numbers -

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