题目链接：POJ 3641

Description

Fermat's theorem states that for any prime number p and for any integer a > 1, ap = a (mod p). That is, if we raise a to the pth power and divide by p, the remainder is a. Some (but not very many) non-prime values of p, known as base-a pseudoprimes, have this property for some a. (And some, known as Carmichael Numbers, are base-a pseudoprimes for all a.)

Given 2 < p ≤ 1000000000 and 1 < a < p, determine whether or not p is a base-a pseudoprime.

Input

Input contains several test cases followed by a line containing "0 0". Each test case consists of a line containing p and a.

Output

For each test case, output "yes" if p is a base-a pseudoprime; otherwise output "no".

Sample input

3 2

10 3

341 2

341 3

1105 2

1105 3

0 0

Sample output

no

no

yes

no

yes

yes

Solution

题意

给定 \(p\) 和 \(a\)，判断 \(p\) 是否为合数且满足 \(a^p\equiv a(mod\ p)\)。

题解

水题 快速幂 + 素数判断

Code

#include <iostream>

#include <cstdio>

using namespace std;

typedef long long ll;

bool is_prime(ll a) {

    for(ll i = 2; i <= a / i; ++i) {

        if(a % i == 0) return 0;

    }

    return 1;

}

ll qmod(ll a, ll b, ll p) {

    if(!b) return 1 % p;

    ll ans = 1;

    while(b) {

        if(b & 1) ans = (ans * a) % p;

        a = (a * a) % p;

        b >>= 1;

    }

    return ans;

}

int main() {

    ll a, p;

    while(~scanf("%lld%lld", &p, &a) && a + p) {

        if(is_prime(p) == 0 && qmod(a, p, p) == a) {

            printf("yes\n");

        } else {

            printf("no\n");

        }

    }

    return 0;

}