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I have two integer x and y Let us say x= 10^5 and y = 10^8 Now I have to multiply the numbers and store them in a variable z. I need not have the exact value. z can have the answer modulo 100000009. How can I do this?

Thanks in advance

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Do you mean you want to calculate z = (x * y) mod 100000009? –  KennyTM Sep 2 '12 at 7:23
Depending on how large the numbers are, you could look into the GMP library. –  Joachim Pileborg Sep 2 '12 at 7:37

3 Answers 3

In general you should be relying on the relationship:

(a * b) % n = (a % n) * (b % n) % n

In this particular case it doesn't help much because your a and b are both smaller than n, but for larger a or b this guarantees that the largest multiplication you need to handle is of the order of n^2 and not a * b.

On a 64-bit system your current value of n^2 would fit inside a long. If you anticipate larger values then you'll need an arbitrary precision math library like GMP.

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#include <iostream>
#include <cmath>

int main() {
    typedef unsigned long long ull;
    ull x = std::pow(10,5);
    ull y = std::pow(10,8);
    ull z = (x*y) % 100000009;
    std::cout << z << std::endl;
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Won't 10^13 fit in a long? –  Mr Gray Sep 2 '12 at 7:32
@Monkieboy only on architectures with 64-bit long –  Alnitak Sep 2 '12 at 7:33
Sorry I was think double not long. –  Mr Gray Sep 2 '12 at 7:34
Thanks Alnitak. –  Mr Gray Sep 2 '12 at 7:35

You can use logarithms and exponents. Exponent is the function f(x)=e^x, where e is a mathmaticall constant equal to 2.71828182845... Logarithm (marked by ln) is the inverse of the exponent.

Since ln(a*b)=ln(a)+ln(b), a*b=e^(ln(a)+ln(b)).

the method was wןdely used before the computers.

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