POJ 2488 A Knight's Journey
A Knight's Journey
Time Limit: 1000MS | Memory Limit: 65536K | |
Total Submissions: 44532 | Accepted: 15139 |
Description
Background
The knight is getting bored of seeing the same black and white squares again and again and has decided to make a journey
around the world. Whenever a knight moves, it is two squares in one direction and one square perpendicular to this. The world of a knight is the chessboard he is living on. Our knight lives on a chessboard that has a smaller area than a regular 8 * 8 board, but it is still rectangular. Can you help this adventurous knight to make travel plans?
Problem
Find a path such that the knight visits every square once. The knight can start and end on any square of the board.
The knight is getting bored of seeing the same black and white squares again and again and has decided to make a journey
around the world. Whenever a knight moves, it is two squares in one direction and one square perpendicular to this. The world of a knight is the chessboard he is living on. Our knight lives on a chessboard that has a smaller area than a regular 8 * 8 board, but it is still rectangular. Can you help this adventurous knight to make travel plans?
Problem
Find a path such that the knight visits every square once. The knight can start and end on any square of the board.
Input
The input begins with a positive integer n in the first line. The following lines contain n test cases. Each test case consists of a single line with two positive integers p and q, such that 1 <= p * q <= 26. This represents a p * q chessboard, where p describes how many different square numbers 1, . . . , p exist, q describes how many different square letters exist. These are the first q letters of the Latin alphabet: A, . . .
Output
The output for every scenario begins with a line containing "Scenario #i:", where i is the number of the scenario starting at 1. Then print a single line containing the lexicographically first path that visits all squares of the chessboard with knight moves followed by an empty line. The path should be given on a single line by concatenating the names of the visited squares. Each square name consists of a capital letter followed by a number.
If no such path exist, you should output impossible on a single line.
If no such path exist, you should output impossible on a single line.
Sample Input
3 1 1 2 3 4 3
Sample Output
Scenario #1: A1 Scenario #2: impossible Scenario #3: A1B3C1A2B4C2A3B1C3A4B2C4
分析:
朝8个方向进行的DFS搜索,主要的是要记录 路径,考虑到深搜的性质,故采用结构体,最后一次更新完成的路径即使最终的路径
这个表示位置的坐标的时候还有字母,字母表示位置是相当不方便的。所以先都采用数字 ,输出的时候再化为字母。
代码如下
#include <cstdio> #include <iostream> #include <cstring > using namespace std; #define INF 0x7fffffff typedef long long ll; int dir[8][2]={-2,-1,-2,1,-1,-2,-1,2,1,-2,1,2,2,-1,2,1}; int p,q; int map1[100][100]; int f,step; int vis[100][100]; int check(int x,int y) { if(x>=0&&x<p&&y>=0&&y<q&&!vis[x][y]) return 1; return 0; } struct node { int x; int y; }path[1000]; void dfs(int x,int y) { if(f==1) return ; path[step].x=x; path[step].y=y; if(step==p*q-1) { f=1; } int next_x; int next_y; for(int i=0;i<8;i++) { next_x=path[step].x+dir[i][1]; next_y=path[step].y+dir[i][0]; if(check(next_x,next_y)) { vis[next_x][next_y]=1; step++; dfs(next_x,next_y); step--; vis[next_x][next_y]=0; } } } int main() { int t; cin>>t; for(int k=1;k<=t;k++) { f=0; step=0; memset(map1,0,sizeof(map1)); cin>>p>>q; { std::ios::sync_with_stdio(false); } dfs(0,0); vis[0][0]=1; printf("Scenario #%d:\n",k); if(f==0)cout<<"impossible"; else { for(int i=0;i<p*q;i++) { printf("%c",'A'+path[i].y); printf("%d",path[i].x+1); } } cout<<endl; cout<<endl; } return 0; }