本文深入探讨了古代围棋游戏的规则及其与现代围棋的区别,重点介绍了如何通过宽度优先搜索(BFS)算法来判断当前局面是否有机会杀死对方棋子。详细分析了两种不同棋盘状态下的策略,提供了具体实例来说明如何识别并利用对手的棋子布局进行有效的杀棋操作。通过此教程,玩家能够掌握古代围棋中关键的战术技巧,提升游戏水平。
Time Limit: 3000/1000MS (Java/Others) Memory Limit: 65535/65535KB (Java/Others)
Yu Zhou likes to play Go with
Su Lu. From the historical research, we found that there are much difference on the rules between ancient go and modern go.
Here is the rules for ancient go they were playing:
- The game is played on a 8×8 cell board, the chess can be put on the intersection of the board lines, so there are 9×9 different positions to put the chess.
- Yu Zhou always takes the black and Su Lu the white. They put the chess onto the game board alternately.
- The chess of the same color makes connected components(connected by the board lines), for each of the components, if it's not connected with any of the empty cells, this component dies and will be removed from the game board.
- When one of the player makes his move, check the opponent's components first. After removing the dead opponent's components, check with the player's components and remove the dead components.
One day, Yu Zhou was playing ancient go with Su Lu at home. It's Yu Zhou's move now. But they had to go for an emergency military action. Little Qiao looked at the game board and would like to know whether Yu Zhou has a move to kill at least one of Su Lu's chess.
Input
The first line of the input gives the number of test cases, T(1≤T≤100). T test
cases follow. Test cases are separated by an empty line. Each test case consist of 9 lines
represent the game board. Each line consists of 9 characters.
Each character represents a cell on the game board. . represents
an empty cell. x represents a cell with black chess which
owned by Yu Zhou. o represents a cell with white chess
which owned by Su Lu.
Output
For each test case, output one line containing Case
#x: y, where x is
the test case number (starting from 1)
and y is Can
kill in one move!!! if Yu Zhou has a move to kill at least one of Su Lu's components. Can
not kill in one move!!! otherwise.
Sample input and output
| Sample Input | Sample Output |
|---|---|
2 .......xo ......... ......... ..x...... .xox....x .o.o...xo ..o...... .....xxxo ....xooo. ......ox. .......o. ...o..... ..o.o.... ...o..... ......... .......o. ...x..... ........o |
Case #1: Can kill in one move!!! Case #2: Can not kill in one move!!! |
Hint
In the first test case, Yu Zhou has 4 different ways to kill Su Lu's component.
In the second test case, there is no way to kill Su Lu's component.
Source
#include<iostream>
#include<stdio.h>
#include<stdlib.h>
#include<string.h>
#include<math.h>
#include<vector>
#include<map>
#include<set>
#include<queue>
#include<stack>
#include<string>
#include<algorithm>
using namespace std;
typedef long long ll;
#define inf 0x7fffffff
#define maxn 12
char s[maxn][maxn];
int vis[maxn][maxn];
int tab[4][2]={0,1,-1,0,0,-1,1,0};
int bfs(int x1,int y1)
{
int i,j,xx,yy,front,rear,flag=1,x,y;
int q[1111][2];
front=rear=1;
q[front][0]=x1;q[front][1]=y1;
while(front<=rear){
x=q[front][0];
y=q[front][1];
front++;
for(i=0;i<4;i++){
xx=x+tab[i][0];
yy=y+tab[i][1];
if(xx>=1 && xx<=9 && yy>=1 && yy<=9 && !vis[xx][yy] && s[xx][yy]!='x'){
if(s[xx][yy]=='.'){
flag=0;
}
else{
vis[xx][yy]=1;
rear++;
q[rear][0]=xx;q[rear][1]=yy;
}
}
}
}
return flag;
}
int check()
{
int i,j,flag;
memset(vis,0,sizeof(vis));
flag=0;
for(i=1;i<=9;i++){
for(j=1;j<=9;j++){
if(s[i][j]=='o' && !vis[i][j]){
vis[i][j]=1;
flag=bfs(i,j);
if(flag)break;
}
}
if(flag)break;
}
return flag;
}
int main()
{
int i,j,T,k,h,flag,cas=0;
scanf("%d",&T);
while(T--)
{
for(i=1;i<=9;i++){
scanf("%s",s[i]+1);
}
flag=0;
for(i=1;i<=9;i++){
for(j=1;j<=9;j++){
if(s[i][j]=='.'){
s[i][j]='x';
flag=check();
if(flag){
break;
}
else{
s[i][j]='.';
}
}
}
if(flag)break;
}
cas++;
if(flag){
printf("Case #%d: Can kill in one move!!!\n",cas);
}
else{
printf("Case #%d: Can not kill in one move!!!\n",cas);
}
}
return 0;
}
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