Description

Imagine you are attending your math lesson at school. Once again, you are bored because your teacher tells things that you already mastered years ago (this time he‘s explaining that (a+b)²=a²+2ab+b²). So you decide to waste your time with drawing modern art instead.

Fortunately you have a piece of squared paper and you choose a rectangle of size n*m on the paper. Let‘s call this rectangle together with the lines it contains a grid. Starting at the lower left corner of the grid, you move your pencil to the upper right corner, taking care that it stays on the lines and moves only to the right or up. The result is shown on the left:

Really a masterpiece, isn‘t it? Repeating the procedure one more time, you arrive with the picture shown on the right. Now you wonder: how many different works of art can you produce?

Input

Output

Sample Input

5 41 10 0

Sample Output

1262

Source

题目大意：问从左下角走到右上角的方法数，只能向上或向右。

对于一条路径来说，一共有n+m部分，n个向上的，m个向右的，所以只要找出在这n+m个部分中，n或m的分布方式，就可以得到总数。

也就是结果就是C(n+m,m) ;

数据范围中的32位无符号整数。。。。sad。。就当是空气吧。。。。

#include <cstdio>#include <cstring>#include <algorithm>using namespace std ;#define LL __int64LL c[200][200] ;//void init()//{//    int i , j ;//    memset(c,0,sizeof(c)) ;//    for(i = 1 ; i < 200 ; i++)//    {//        c[i][0] = 1 ;//        for(j = 1 ; j < i ; j++)//            c[i][j] = c[i-1][j-1] + c[i-1][j] ;//        c[i][j] = 1 ;//    }//    return ;//}//LL dfs(LL n,LL m)//{//    if( n == m || m == 0 || n == 0 ) return 1 ;//    return dfs(n-1,m-1)+dfs(n-1,m) ;//}LL solve(LL n,LL m){    double ans = 1.0 ;    while( m )    {        ans *= (n*1.0)/m ;        n-- ;        m-- ;    }    LL k = ans + 0.5 ;    return k ;}int main(){    LL n , m , x , y ;    //init() ;    while( scanf("%I64d %I64d", &n, &m) != EOF )    {        if( n == 0 && m == 0 ) break ;        x = min(n,m) ;        printf("%I64d\n", solve(n+m,x) );    }    return 0;}

poj1942--Paths on a Grid(组合篇4)