Several ages ago Berland was a kingdom. The King of Berland adored math. That's why, when he first visited one of his many palaces, he first of all paid attention to the floor in one hall. The floor was tiled with hexagonal tiles.
The hall also turned out hexagonal in its shape. The King walked along the perimeter of the hall and concluded that each of the six sides has a, b, c, a, b and c adjacent tiles, correspondingly.
To better visualize the situation, look at the picture showing a similar hexagon for a = 2, b = 3 and c = 4.
According to the legend, as the King of Berland obtained the values a, b and c, he almost immediately calculated the total number of tiles on the hall floor. Can you do the same?
The first line contains three integers: a, b and c (2 ≤ a, b, c ≤ 1000).
Print a single number — the total number of tiles on the hall floor.
2 3 4
18
采用“补形”的方法,将六边形补全为平行四边形,如题中所示的例子,延长边a和c使之相交,要延长多少?答案是a-1。即将原六边形补全为一个(c + a - 1)× (b + a -1)的平行四边形,只要再减去多出的部分即可。
于是n = (b + a - 1) * (c + a - 1) - 2 * ((a - 1) + 1) * (a - 1) / 2 = (b + a - 1) * (c + a - 1) - a * (a - 1);
AC CODE:
#include <iostream>
using namespace std;
int main()
{
int a, b, c, n;
while(cin >> a >> b >> c)
{
n = (b + a - 1) * (c + a - 1) - a * (a - 1);
cout << n << endl;
}
return 0;
}