Summary: Is there a way to do that? Here's what I mean: suppose I have an unsigned int number. Then I multiply it several times(and there's overflow, which is expected). Then is it possible to "revert" the original value back?
It's all about Rabin-Karp rolling hash. What I need to do is: I have the hash of a long string - for example: "abcd". Then I have the hash for a shorter substring - for example "cd". How to calculate the "ab" hash with O(1), using the two given hashes?
What I have now as an algorithm:
- substract the "cd" hash from "abcd" hash (remove the last elements from the polynomial)
- devide the "abcd" hash by
p ^ len( "cd" ), where
pis the base (prime number).
So this is:
a * p ^ 3 + b * p ^ 2 + c * p ^ 1 + d * p ^ 0 - abcd
c * p ^ 1 + d * p ^ 0 - cd
( ( a * p ^ 3 + b * p ^ 2 + c * p ^ 1 + d * p ^ 0 ) - ( c * p ^ 1 + d * p ^ 0 ) ) / ( p ^ 2 ) = a * p ^ 1 + b * p ^ 0
And this works, if I don't have an overflow (if
p is small number). But if it's not - it's not working.
Is there any trick or something?
c++ tag is because of the number's overflow, as it is specific (and different from python, scheme or sth)