Chess Queen(数论,水题)

You probably know how the game of chess is played and how chess queen operates. Two chess queens
are in attacking position when they are on same row, column or diagonal of a chess board. Suppose
two such chess queens (one black and the other white) are placed on (2 × 2) chess board. They can be
in attacking positions in 12 ways, these are shown in the picture below:
Chess Queen(数论,水题)
Figure: in a (2 × 2) chessboard 2 queens can be in attacking position in 12 ways
Given an (N × M) board you will have to decide in how many ways 2 queens can be in attacking
position in that.
Input
Input file can contain up to 5000 lines of inputs. Each line contains two non-negative integers which
denote the value of M and N (0 < M, N ≤ 106
) respectively.
Input is terminated by a line containing two zeroes. These two zeroes need not be processed.
Output
For each line of input produce one line of output. This line contains an integer which denotes in how
many ways two queens can be in attacking position in an (M × N) board, where the values of M and
N came from the input. All output values will fit in 64-bit signed integer.
Sample Input
2 2
100 223
2300 1000
0 0
Sample Output
12
10907100
11514134000

水题,找规律就行

#include<bits/stdc++.h>
using namespace std;
typedef unsigned long long int ll;
ll comb2(ll x)
{
    return x*(x-1)/2;
}
int main()
{
    ll n,m;
    while(cin>>n>>m)
    {
        if(n==0&&m==0)break;
        if(n>m)
        {
            ll t;
            t=n;
            n=m;
            m=t;
        }
        ll num=m-n+1;
        ll ans=0;
        for(ll i=2;i<n;i++)
        {
            ans+=2*(2*2*comb2(i));
        }
        ans+=num*2*2*comb2(n);
        ans+=2*m*comb2(n);
        ans+=2*n*comb2(m);
        cout<<ans<<endl;
    }
}