Pocket Cube
题目连接:
http://acm.hdu.edu.cn/showproblem.php?pid=5292
Description
Pocket Cube is the 2×2×2 equivalent of a Rubik’s Cube(3×3×3). The cube consists of 8 pieces, all corners. (from wiki)
It was a Pocket Cube. Unfortunately, the Cube fell to the ground and broke. It took you some time to explore the construction of the Cube. Then you assembled the Pocket Cube. Unfortunately, you didn’t assembled it in the right way. So here is the question. You want to know whether it can return to the right position.
The right position means four blocks in each face has the same color. You can only rotate the Cube to return it to the right position.
A Cube is given in its layout.
The right position rotates in red face clockwisely.
You can get more details from input case.
w represents white , y represents yellow , o represents orange , r represents red , g represents green , b represents blue. In the right position, white and yellow , orange and red , green and blue are in the opposite face.
Input
The first line of input contains only one integer T(<=10000), the number of test cases.
Each case contains a Pocket Cube described above. After each case , there is a blacnk line. It guarantees that the corners of the Cube is right.
Output
Each case contains only one line. Each line should start with “Case #i: ”,with i implying the case number, followed by “YES” or “NO”,”YES” means you can return it to the right position, otherwise “NO”.
Sample Input
2
g y
g y
o o w g r r
o o w g r r
b w
b w
y b
y b
r w
g b
b y o w o r
y g y o g b
r w
o y
b r
w g
Sample Output
Case #1: YES
Case #2: NO
Hint
题意
给你一个二阶魔方,然后问你是否能够还原。
题解:
(黄色,白色),(绿色,蓝色),(红色,橙色)为对面色。每个角块为这三个集合中各取出一种颜色的组合。共8种。如图(1)所示,为每个方格附上权值。当该方格为黄色或白色时(其他对色组也可),加上方格上的权值。总和为3的倍数时可还原,否则不可以。必要性:从一个已经还原好的魔方出发,初始权值和为三的倍数。在旋转一个面的时候,权值和mod3不会发生变化。充分性:局部调整法。对于相邻的角块,可进行图(2)和图(3)不改变其他角块的变化。还原7个块后,mod3不变,第8块也已还原。
不要问我为什么,直接看题解……
代码
#include<bits/stdc++.h>
using namespace std;
string s;
int a[]={1,-1,-1,1,-1,1,0,0,-1,1,1,-1,0,0,1,-1,1,-1,-1,1,0,0};
int main()
{
int t;scanf("%d",&t);
for(int cas=1;cas<=t;cas++)
{
int ans = 0;
for(int i=0;i<24;i++)
{
cin>>s;
if(s[0]=='w'||s[0]=='y')
ans+=a[i];
}
printf("Case #%d: ",cas);
if(ans%3==0)printf("YES\n");
else printf("NO\n");
}
}