POJ2488-A Knight's Journey(DFS+回溯)

时间:2021-08-08 22:35:06
POJ2488-A Knight's Journey(DFS+回溯)

题目链接:http://poj.org/problem?id=2488

A Knight's Journey
Time Limit: 1000MS   Memory Limit: 65536K
Total Submissions: 36695   Accepted: 12462

Description

POJ2488-A Knight's Journey(DFS+回溯)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.

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.

Sample Input

3

1 1

2 3

4 3

Sample Output

Scenario #1:

A1

Scenario #2:

impossible

Scenario #3:

A1B3C1A2B4C2A3B1C3A4B2C4



题目大意: 任选一个起点,按照国际象棋马的跳法,不重复的跳完整个棋盘,如果有多种路线则选择字典序最小的路线(路线是点的横纵坐标的集合,注意棋盘的横坐标的用大写字母,纵坐标是数字)


题目分析: 


1. 应该看到这个题就可以想到用DFS,当首先要明白这个题的意思是能否只走一遍(不回头不重复)将整个地图走完,而普通的深度优先搜索是一直走,走不通之后沿路返回到某处继续深搜。所以这个题要用到的回溯思想,如果不重复走一遍就走完了,做一个标记,算法停止;否则在某种DFS下走到某一步时按马跳的规则无路可走而棋盘还有为走到的点,这样我们就需要撤消这一步,进而尝试其他的路线(当然其他的路线也可能导致撤销),而所谓撤销这一步就是在递归深搜返回时重置该点,以便在当前路线走一遍行不通换另一种路线时,该点的状态是未访问过的,而不是像普通的DFS当作已经访问了。


2. 如果有多种方式可以不重复走一遍的走完,需要输出按字典序最小的路径,而注意到国际象棋的棋盘是列为字母,行为数字,如果能够不回头走一遍的走完,一定会经过A1点,所以我们应该从A1开始搜索,以确保之后得到的路径字典序是最小的(也就是说如果路径不以A1开始,该路径一定不是字典序最小路径),而且我们应该确保优先选择的方向是字典序最小的方向,这样我们最先得到的路径就是字典序最小的。


参考代码:




#include <cstdio>

#include <cstring>

using namespace std;

const int MAX_N = ;

//字典序最小的行走方向

const int dx[] = {-, , -, , -, , -, };

const int dy[] = {-, -, -, -, , , , };

bool visited[MAX_N][MAX_N];

struct Step{

    char x, y;

} path[MAX_N];

bool success;           //是否成功遍历的标记

int cases, p, q;

void DFS(int x, int y, int num);

int main()

{

    scanf("%d", &cases);

    for (int c = ; c <= cases; c++)

    {

        success = false;

        scanf("%d%d", &p, &q);

        memset(visited, false, sizeof(visited));

        visited[][] = true;    //起点

        DFS(, , );

        printf("Scenario #%d:\n", c);

        if (success)

        {

            for (int i = ; i <= p * q; i++)

                printf("%c%c", path[i].y, path[i].x);

            printf("\n");

        }

        else

            printf("impossible\n");

        if (c != cases)

            printf("\n");      //注意该题的换行

    }

    return ;

}

void DFS(int x, int y, int num)

{

    path[num].y = y + 'A' - ;   //int 转为 char

    path[num].x = x + '';

    if (num == p * q)

    {

        success = true;

        return;

    }

    for (int i = ; i < ; i++)

    {

        int nx = x + dx[i];

        int ny = y + dy[i];

        if ( < nx && nx <= p &&  < ny && ny <= q

            && !visited[nx][ny] && !success)

        {

            visited[nx][ny] = true;

            DFS(nx, ny, num+);

            visited[nx][ny] = false;    //撤销该步

        }

    }

}




 
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