In the Fibonacci integer sequence, F₀ = 0, F₁ = 1, and F_n = F_{n − 1} + F_{n − 2} for n ≥ 2. For example, the first ten terms of the Fibonacci sequence are:

0, 1, 1, 2, 3, 5, 8, 13, 21, 34, …

An alternative formula for the Fibonacci sequence is

.

Given an integer n, your goal is to compute the last 4 digits of F_n.

The input test file will contain multiple test cases. Each test case consists of a single line containing n (where 0 ≤ n ≤ 1,000,000,000). The end-of-file is denoted by a single line containing the number −1.

For each test case, print the last four digits of F_n. If the last four digits of F_n are all zeros, print ‘0’; otherwise, omit any leading zeros (i.e., print F_n mod 10000).

As a reminder, matrix multiplication is associative, and the product of two 2 × 2 matrices is given by

.

Also, note that raising any 2 × 2 matrix to the 0th power gives the identity matrix:

.

代码：

#include<stdio.h>

#include<string.h>

#define MOD 10000

struct node

{

    int m[][];

}a, b;

node cheng(node x, node y)

{

    int i, j, k;

    node c;

    for(i=; i<; i++)

    for(j=; j<; j++)

    {

        c.m[i][j] = ;

        for(k=; k<; k++)

            c.m[i][j] = (c.m[i][j] + x.m[i][k]*y.m[k][j])%MOD;

    }

    return c;

}

int Fast_MOD(int n)

{

    a.m[][] = a.m[][] = a.m[][] = ;

    a.m[][] = ;

    b.m[][] = b.m[][] = ;  /// b 初始化为单位矩阵

    b.m[][] = b.m[][] = ;

    while(n)

    {

        if(n&) /// n是奇数

            b = cheng(b, a);

        a = cheng(a, a);

        n >>= ;

    }

    return b.m[][];

}

int main()

{

    int n;

    while(scanf("%d", &n), n!=-)

    {

        printf("%d\n", Fast_MOD(n));

    }

    return ;

}