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java的迷宫代码 迷宫编程代码

请帮忙用数据结构(java版)的知识解决这道迷宫问题的程序代码。

我这是用c写的。你可以看看,希望能帮助到你。

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#include"stdlib.h"

#include"stdio.h"

#define N 50

#define M 50

int X;

int maze[N+2][M+2];

struct point{

int row,col,predecessor;

}queue[512];

int head=0,tail=0;

void shoudong_maze(int m,int n){

int i,j;

printf("\n\n");

printf("请按行输入迷宫,0表示通路,1表示障碍:\n\n");

for(i=0;im;i++)

for(j=0;jn;j++)

scanf("%d",maze[i][j]);

}

void zidong_maze(int m,int n){

int i,j;

printf("\n迷宫生成中……\n\n");

system("pause");

for(i=0;im;i++)

for(j=0;jn;j++)

maze[i][j]=rand()%2;

//由于rand()产生的随机数是从0到RAND_MAX

//RAND_MAX是定义在stdlib.h中的,其值至少为32767)

//要产生从X到Y的数,只需要这样写:k=rand()%(Y-X+1)+X;

}

void print_maze(int m,int n){

int i,j;

printf("\n迷宫生成结果如下:\n\n");

printf("迷宫入口\n");

printf("↓");

for(i=0;im;i++)

{printf("\n");

for(j=0;jn;j++)

{if(maze[i][j]==0) printf("□");

if(maze[i][j]==1) printf("■");}

}

printf("→迷宫出口\n");

}

void result_maze(int m,int n)

{ int i,j;

printf("迷宫通路(用☆表示)如下所示:\n\t");

for(i=0;im;i++)

{ printf("\n");

for(j=0;jn;j++)

{if(maze[i][j]==0||maze[i][j]==2) printf("□");

if(maze[i][j]==1) printf("■");

if(maze[i][j]==3) printf("☆");

}

}

}

void enqueue(struct point p)

{ queue[tail]=p;

tail++;

}

struct point dequeue()

{ head++;

return queue[head-1];

}

int is_empty()

{ return head==tail;

}

void visit(int row,int col,int maze[52][52])

{ struct point visit_point={row,col,head-1};

maze[row][col]=2;

enqueue(visit_point);

}

int mgpath(int maze[52][52],int m,int n)

{ X=1;

struct point p={0,0,-1};

if(maze[p.row][p.col]==1)

{ printf("\n===============================================\n");

printf("此迷宫无解\n\n");X=0;return 0;}

maze[p.row][p.col]=2;

enqueue(p);

while(!is_empty())

{p=dequeue();

if((p.row==m-1)(p.col==n-1)) break;

if((p.col+1n)(maze[p.row][p.col+1]==0)) visit(p.row,p.col+1,maze);

if((p.row+1m)(maze[p.row+1][p.col]==0)) visit(p.row+1,p.col,maze);

if((p.col-1=0)(maze[p.row][p.col-1]==0)) visit(p.row,p.col-1,maze);

if((p.row-1=0)(maze[p.row-1][p.col]==0)) visit(p.row-1,p.col,maze);

}

if(p.row==m-1p.col==n-1)

{printf("\n==================================================================\n");

printf("迷宫路径为:\n");

printf("(%d,%d)\n",p.row,p.col);

maze[p.row][p.col]=3;

while(p.predecessor!=-1)

{p=queue[p.predecessor];

printf("(%d,%d)\n",p.row,p.col);

maze[p.row][p.col]=3;

}

}

else {printf("\n=============================================================\n");

printf("此迷宫无解!\n\n");X=0;}

return 0;

}

int main()

{int i,m,n,cycle=0;

while(cycle!=(-1))

{

printf("********************************************************************************\n");

printf(" ☆欢迎进入迷宫求解系统☆\n");

printf(" 设计者:尹旭 林静波(信息2班)\n");

printf("********************************************************************************\n");

printf(" 手动生成迷宫 请按:1\n");

printf(" 自动生成迷宫 请按:2\n");

printf(" 退出 请按:3\n\n");

printf("********************************************************************************\n");

printf("\n");

printf("请选择你的操作:\n");

scanf("%d",i);

switch(i)

{case 1:printf("\n请输入行数:");

scanf("%d",m);

printf("\n");

printf("请输入列数:");

scanf("%d",n);

while((m=0||m50)||(n=0||n50))

{ printf("\n抱歉,你输入的行列数超出预设范围(0-50,0-50),请重新输入:\n\n");

printf("请输入行数:");

scanf("%d",m);

printf("\n");

printf("请输入列数:");

scanf("%d",n);

}

shoudong_maze(m,n);

print_maze(m,n);

mgpath(maze,m,n);

if(X!=0)

result_maze(m,n);

printf("\n\nPress Enter Contiue!\n");

getchar();

while(getchar()!='\n');

break;

case 2:printf("\n请输入行数:");

scanf("%d",m);

printf("\n");

printf("请输入列数:");

scanf("%d",n);

while((m=0||m50)||(n=0||n50))

{printf("\n抱歉,你输入的行列数超出预设范围(0-50,0-50),请重新输入:\n\n");

printf("请输入行数:");

scanf("%d",m);

printf("\n");

printf("请输入列数:");

scanf("%d",n);

}

zidong_maze(m,n);

print_maze(m,n);

mgpath(maze,m,n);

if(X!=0)

result_maze(m,n);

printf("\n\nPress Enter Contiue!\n");getchar();while(getchar()!='\n');break;

case 3:cycle=(-1);

break;

default:printf("\n");

printf("你的输入有误!\n");

printf("\nPress Enter Contiue!\n");

getchar();

while(getchar()!='\n');break;

}

}

}

关于Java走迷宫的问题。我已经有相关代码了,但是我看不懂。麻烦高手帮忙注释一下,然后再修改点儿。

package 走迷宫;

import java.awt.BorderLayout;

import java.awt.Color;

import java.awt.GridLayout;

import java.awt.event.ActionEvent;

import java.awt.event.ActionListener;

import java.util.ArrayList;

import java.util.LinkedList;

import java.util.List;

import java.util.TimerTask;

import javax.swing.JButton;

import javax.swing.JFrame;

import javax.swing.JOptionPane;

import javax.swing.JPanel;

// 迷宫

public class Maze extends JFrame implements ActionListener {

private JPanel panel;

private JPanel northPanel;

private JPanel centerPanel;

private MazeGrid grid[][];

private JButton restart;

private JButton dostart;

private int rows;// rows 和cols目前暂定只能是奇数

private int cols;

private ListString willVisit;

private ListString visited;

private LinkedListString comed;

private long startTime;

private long endTime;

public Maze() {

rows = 25;

cols = 25;

willVisit = new ArrayListString();

visited = new ArrayListString();

comed = new LinkedListString();

init();

this.setTitle("回溯法--走迷宫");

this.add(panel);

this.pack();

this.setVisible(true);

this.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);

}

public void init() {

panel = new JPanel();

northPanel = new JPanel();

centerPanel = new JPanel();

panel.setLayout(new BorderLayout());

restart = new JButton("重新生成迷宫");

dostart = new JButton("开始走迷宫");

grid = new MazeGrid[rows][cols];

centerPanel.setLayout(new GridLayout(rows, cols, 1, 1));

centerPanel.setBackground(new Color(0, 0, 0));

northPanel.add(restart);

northPanel.add(dostart);

dostart.addActionListener(this);

restart.addActionListener(this);

for (int i = 0; i grid.length; i++)

for (int j = 0; j grid[i].length; j++) {

if (j % 2 == 0 i % 2 == 0)

grid[i][j] = new MazeGrid(true, 20, 20);

else

grid[i][j] = new MazeGrid(false, 20, 20);

}

grid[0][0].setVisited(true);

grid[0][0].setPersonCome(true);

grid[0][0].setStart(true);

visited.add("0#0");

grid[rows - 1][cols - 1].setEnd(true);

grid = createMap(grid, 0, 0);

for (int i = 0; i grid.length; i++)

for (int j = 0; j grid[i].length; j++) {

grid[i][j].repaint();

centerPanel.add(grid[i][j]);

}

panel.add(northPanel, BorderLayout.NORTH);

panel.add(centerPanel, BorderLayout.CENTER);

}

/**

* 生成迷宫

*

* @param mazeGrid

* @param x

* @param y

* @return

*/

public MazeGrid[][] createMap(MazeGrid mazeGrid[][], int x, int y) {

int visitX = 0;

int visitY = 0;

if (x - 2 = 0) {

if (!mazeGrid[x - 2][y].isVisited()) {

willVisit.add((x - 2) + "#" + y);

}

}

if (x + 2 cols) {

if (!mazeGrid[x + 2][y].isVisited()) {

willVisit.add((x + 2) + "#" + y);

}

}

if (y - 2 = 0) {

if (!mazeGrid[x][y - 2].isVisited()) {

willVisit.add(x + "#" + (y - 2));

}

}

if (y + 2 rows) {

if (!mazeGrid[x][y + 2].isVisited()) {

willVisit.add(x + "#" + (y + 2));

}

}

if (!willVisit.isEmpty()) {

int visit = (int) (Math.random() * willVisit.size());

String id = willVisit.get(visit);

visitX = Integer.parseInt(id.split("#")[0]);

visitY = Integer.parseInt(id.split("#")[1]);

mazeGrid[(visitX + x) / 2][(visitY + y) / 2].setMark(true);

mazeGrid[visitX][visitY].setVisited(true);

if (!visited.contains(id)) {// 将这个点加到已访问中去

visited.add(id);

}

willVisit.clear();

createMap(mazeGrid, visitX, visitY);

} else {

if (!visited.isEmpty()) {

String id = visited.remove(visited.size() - 1);// 取出最后一个元素

visitX = Integer.parseInt(id.split("#")[0]);

visitY = Integer.parseInt(id.split("#")[1]);

mazeGrid[visitX][visitY].setVisited(true);

createMap(mazeGrid, visitX, visitY);

}

}

return mazeGrid;

}

/**

* 走迷宫

*

* @param mazeGrid

* @param x

* @param y

*/

public String goMaze(MazeGrid mazeGrid[][], int x, int y) {

int comeX = 0;

int comeY = 0;

// left

if (x - 1 = 0) {

if (mazeGrid[x - 1][y].isMark()) {

if (!comed.contains((x - 1) + "#" + y))

willVisit.add((x - 1) + "#" + y);

}

}

// right

if (x + 1 cols) {

if (mazeGrid[x + 1][y].isMark()) {

if (!comed.contains((x + 1) + "#" + y))

willVisit.add((x + 1) + "#" + y);

}

}

// up

if (y - 1 = 0) {

if (mazeGrid[x][y - 1].isMark()) {

if (!comed.contains(x + "#" + (y - 1)))

willVisit.add(x + "#" + (y - 1));

}

}

// down

if (y + 1 rows) {

if (mazeGrid[x][y + 1].isMark()) {

if (!comed.contains(x + "#" + (y + 1)))

willVisit.add(x + "#" + (y + 1));

}

}

if (!willVisit.isEmpty()) {

int visit = (int) (Math.random() * willVisit.size());

String id = willVisit.get(visit);

comeX = Integer.parseInt(id.split("#")[0]);

comeY = Integer.parseInt(id.split("#")[1]);

mazeGrid[x][y].setPersonCome(false);

mazeGrid[comeX][comeY].setPersonCome(true);

mazeGrid[x][y].repaint();

mazeGrid[comeX][comeY].repaint();

willVisit.clear();

comed.add(x + "#" + y);

} else {

if (!comed.isEmpty()) {

String id = comed.removeLast();

comeX = Integer.parseInt(id.split("#")[0]);

comeY = Integer.parseInt(id.split("#")[1]);

mazeGrid[x][y].setPersonCome(false);

mazeGrid[comeX][comeY].setPersonCome(true);

mazeGrid[x][y].repaint();

mazeGrid[comeX][comeY].repaint();

comed.addFirst(x + "#" + y);

}

}

return comeX + "#" + comeY;

}

int comeX = 0;

int comeY = 0;

public void actionPerformed(ActionEvent e) {

if (e.getActionCommand().equals("重新生成迷宫")) {

refreshMap(grid);

} else if (e.getActionCommand().equals("开始走迷宫")) {

startTime = System.currentTimeMillis();

dostart.setVisible(false);

restart.setText("禁止刷新");

int delay = 1000;

int period = 500;// 循环间隔

java.util.Timer timer = new java.util.Timer();

timer.scheduleAtFixedRate(new TimerTask() {

public void run() {

if (grid[rows - 1][cols - 1].isPersonCome()) {

endTime = System.currentTimeMillis();

JOptionPane.showMessageDialog(null, "已经走出迷宫,耗时"

+ (endTime - startTime) / 1000 + "秒", "消息提示",

JOptionPane.ERROR_MESSAGE);

this.cancel();

restart.setText("重新生成迷宫");

} else {

String id = goMaze(grid, comeX, comeY);

comeX = Integer.parseInt(id.split("#")[0]);

comeY = Integer.parseInt(id.split("#")[1]);

}

}

}, delay, period);

}

}

/**

* 刷新地图

*/

public void refreshMap(MazeGrid mazeGrid[][]) {

comeX = 0;

comeY = 0;

willVisit.clear();

visited.clear();

comed.clear();

this.remove(panel);

init();

this.add(panel);

this.pack();

this.setVisible(true);

}

public static void main(String args[]) {

long start = System.currentTimeMillis();

new Maze();

long end = System.currentTimeMillis();

System.out.println("使用ArrayList生成迷宫耗时:" + (end - start) + "毫秒");

}

}

java老鼠迷宫代码难吗

非常难。思路:

1、设老鼠的行进路线都是优先选择下-右-上-左。

2、设老鼠很聪明,走过的路线走撒泡尿,表示鼠大爷到此一游,我们可以把数组的值改为3,表示走过,但走不通。

3、这是一个int[8][8]的二位数组,那么开始位置下标是1,1,结束位置是6,6。行和列分别用、j表示。

4、实际路线我们可以设置2表示,我们可以使用递归,让老鼠不断测试路线。

5、最后打印数组,看老鼠的实际路线。

急需一java高手帮忙写一迷宫程序

给你代码,你给出的那两个类,不能满足,我的需要,我就没有使用。

你看一下吧。

----------------------------------------

package stackpackage;

import java.io.BufferedReader;

import java.io.FileReader;

import java.util.ArrayList;

import java.util.List;

import java.util.Scanner;

public class Maze {

// 上

private static Point directionTop = new Point(-1, 0);

// 下

private static Point directionBottom = new Point(1, 0);

// 左

private static Point directionLeft = new Point(0, -1);

// 右

private static Point directionRight = new Point(0, 1);

private static Point[] directions = { directionTop, directionRight,

directionBottom, directionLeft };

private static boolean isStop = false;

private static int row = 0;

private static int col = 0;

private static Point startPoint = new Point();

public static void main(String[] args) throws Exception {

FileReader fr = new FileReader("data.txt");

BufferedReader br = new BufferedReader(fr);

int rowIndex = 1;

int[][] maze = null;

while (br.ready()) {

String line = br.readLine();

Scanner sc = new Scanner(line);

if (rowIndex == 1) {

row = sc.nextInt();

col = sc.nextInt();

maze = new int[row][col];

} else {

if (rowIndex row + 2) {

for (int i = 0; i col; i++) {

maze[rowIndex - 2][i] = sc.nextInt();

}

} else {

startPoint.x = sc.nextInt();

startPoint.y = sc.nextInt();

}

}

rowIndex++;

}

ListPoint route = new ArrayListPoint();

route.add(startPoint);

findNext(startPoint);

puzzle(maze, startPoint, route);

System.out.println(route);

}

private static void puzzle(int[][] maze, Point p, ListPoint route) {

if (isStop) {

return;

}

Point[] nextDirections = p.nextDirections;

for (int i = 0; i nextDirections.length; i++) {

if (isStop) {

return;

}

Point direction = nextDirections[i];

Point newP = new Point(p.x + direction.x, p.y + direction.y);

if (newP.isEffective() maze[newP.x][newP.y] == 0

!route.contains(newP)) {

newP.before = p;

findNext(newP);

route.add(newP);

if (isExit(newP)) {

isStop = true;

break;

}

puzzle(maze, newP, route);

}

}

if (isStop) {

return;

}

route.remove(route.size() - 1);

}

private static void findNext(Point p) {

int index = 0;

Point[] nextDirections = new Point[3];

for (int i = 0; i nextDirections.length; i++) {

nextDirections[i] = new Point(0, 0);

}

for (int i = 0; i directions.length; i++) {

Point direction = directions[i];

Point newP = new Point(p.x + direction.x, p.y + direction.y);

if (newP.isEffective() !newP.equals(p.before) newP.x row

newP.y col) {

nextDirections[index++] = direction;

}

}

p.nextDirections = nextDirections;

}

private static boolean isExit(Point p) {

if (startPoint.equals(p)) {

return false;

}

for (int i = 0; i directions.length; i++) {

Point direction = directions[i];

Point newP = new Point(p.x + direction.x, p.y + direction.y);

if (!newP.equals(p.before)

(newP.x = row || newP.y = col || newP.x 0 || newP.y 0)) {

return true;

}

}

return false;

}

}

class Point {

int x = 0;

int y = 0;

Point[] nextDirections = null;

Point before = null;

public Point() {

}

public Point(int x, int y) {

this.x = x;

this.y = y;

}

public String toString() {

return "" + x + "," + y + "";

}

public boolean isEffective() {

return x = 0 y = 0;

}

public boolean equals(Object obj) {

return equals((Point) obj);

}

public boolean equals(Point p) {

if (p == null) {

return false;

}

return this.x == p.x this.y == p.y;

}

}

Java迷宫算法问题(用栈实现)有算法简述

import java.io.File;

import java.io.FileNotFoundException;

import java.util.HashSet;

import java.util.LinkedList;

import java.util.List;

import java.util.Scanner;

public class Test {

public static void main(String[] args) throws FileNotFoundException {

Scanner input = new Scanner(new File("Maze2tong.txt"));

int row = 0;

char[][] Mazemap = new char[12][58];

while (input.hasNext()) {

String line = input.nextLine();

for (int column = 0; column = line.length() - 1; column++) {

char c = line.charAt(column);

Mazemap[row][column] = c;

}

row++;

}

for (int i = 0; i  12; i++) {

for (int j = 0; j  58; j++) {

System.out.print(Mazemap[i][j]);

}

System.out.print("\n");

}

LinkedListTwoTupleInteger, Integer trace = new LinkedListTwoTupleInteger, Integer();

System.out.println(maze(Mazemap, trace));

System.out.println(trace);

}

public static boolean maze(char[][] maze,

ListTwoTupleInteger, Integer trace) {

LinkedListTwoTupleInteger, Integer path = new LinkedListTwoTupleInteger, Integer();

HashSetTwoTupleInteger, Integer traverse = new HashSetTwoTupleInteger, Integer();

for (int i = 0; i  maze.length; i++) {

for (int j = 0; j  maze[i].length; j++) {

if (maze[i][j] == 'S') {

path.add(new TwoTupleInteger, Integer(i, j));

}

}

}

while (!path.isEmpty()) {

TwoTupleInteger, Integer temp = path.pop();

if (traverse.contains(temp)) {

continue;

} else if (maze[temp.first][temp.second] == 'F') {

trace.add(temp);

return true;

} else if (!traverse.contains(temp)) {

if (temp.second + 1  maze[temp.first].length

 maze[temp.first][temp.second + 1] != 'W')

path.add(new TwoTupleInteger, Integer(temp.first,

temp.second + 1));

if (temp.second - 1  0

 maze[temp.first][temp.second - 1] != 'W')

path.add(new TwoTupleInteger, Integer(temp.first,

temp.second - 1));

if (temp.first + 1  maze.length

 maze[temp.first + 1][temp.second] != 'W')

path.add(new TwoTupleInteger, Integer(temp.first + 1,

temp.second));

if (temp.first - 1  0

 maze[temp.first - 1][temp.second] != 'W')

path.add(new TwoTupleInteger, Integer(temp.first - 1,

temp.second));

traverse.add(temp);

trace.add(temp);

}

}

trace.clear();

return false;

}

}

class TwoTupleA, B {

public final A first;

public final B second;

public TwoTuple(A a, B b) {

first = a;

second = b;

}

@Override

public int hashCode() {

return first.hashCode() + second.hashCode();

}

@Override

public boolean equals(Object obj) {

if (!(obj instanceof TwoTuple)) {

}

return obj instanceof TwoTuple  first.equals(((TwoTuple) obj).first)

 second.equals(((TwoTuple) obj).second);

}

public String toString() {

return "(" + first + ", " + second + ")";

}

} // /:-

import java.io.File;

import java.io.FileNotFoundException;

import java.util.LinkedList;

import java.util.Scanner;

class MyPoint

{

public boolean visited=false;

public int parentRow=-1;

public int parentColumn=-1;

public final char content;

public int x;

public int y;

public MyPoint(char c,int x,int y)

{

this.content = c;

this.x = x;

this.y = y;

}

}

public class Maze

{

public static MyPoint[][] getMazeArray(){

Scanner input = null;

MyPoint[][] mazemap = new MyPoint[12][58];

try {

input = new Scanner(new File("Maze2tong.txt"));

int row = 0;

while (input.hasNext()) {

String line = input.nextLine();

for (int column = 0; column = line.length() - 1; column++) {

char c = line.charAt(column);

MyPoint point = new MyPoint(c,row,column);

mazemap[row][column] = point;

}

row++;

}

input.close();

} catch (FileNotFoundException e) {

e.printStackTrace();

}

return mazemap;

}

public static boolean tomRun(MyPoint[][] maze,MyPoint end)

{

int x = maze.length;

int y = maze[0].length;

LinkedListMyPoint stack=new LinkedListMyPoint();

for (int i = 0; i  maze.length; i++) {

for (int j = 0; j  maze[i].length; j++) {

if (maze[i][j].content == 'S') {

stack.push(maze[i][j]);

maze[i][j].visited=true;

}

}

}

boolean result=false;

while(!stack.isEmpty())

{

MyPoint t=stack.pop();

//System.out.println("pop point:"+t.x+" "+t.y+" value:"+maze[t.x][t.y]);

if(t.content == 'F')

{

result=true;

end.x = t.x;

end.y = t.y;

break;

}

if(t.x-1  0  maze[t.x-1][t.y].visited==false  maze[t.x-1][t.y].content != 'W')

{

stack.push(maze[t.x-1][t.y]);

maze[t.x-1][t.y].parentRow=t.x;

maze[t.x-1][t.y].parentColumn=t.y;

maze[t.x-1][t.y].visited=true;

}

if(t.x + 1  x  maze[t.x+1][t.y].visited==false  maze[t.x+1][t.y].content != 'W')

{

stack.push(maze[t.x+1][t.y]);

maze[t.x+1][t.y].parentRow=t.x;

maze[t.x+1][t.y].parentColumn=t.y;

maze[t.x+1][t.y].visited=true;

}

if(t.y - 1  0  maze[t.x][t.y - 1].visited==false  maze[t.x][t.y-1].content != 'W')

{

stack.push(maze[t.x][t.y-1]);

maze[t.x][t.y-1].parentRow=t.x;

maze[t.x][t.y-1].parentColumn=t.y;

maze[t.x][t.y-1].visited=true;

}

if( t.y + 1  y  maze[t.x][t.y + 1].visited==false  maze[t.x][t.y+1].content != 'W')

{

stack.push(maze[t.x][t.y+1]);

maze[t.x][t.y+1].parentRow=t.x;

maze[t.x][t.y+1].parentColumn=t.y;

maze[t.x][t.y+1].visited=true;

}

}

return result;

}

public static void show(int x,int y,MyPoint[][] visited)

{

if(visited[x][y].parentRow==-1)

{

System.out.println("["+x+","+y+"]");

return;

}

show(visited[x][y].parentRow,visited[x][y].parentColumn,visited);

System.out.println("-"+"["+x+","+y+"]");

}

public static void main(String[] args)

{

MyPoint[][] maze = getMazeArray();

MyPoint point = new MyPoint('c',1,1);

if(tomRun(maze,point))

{

System.out.println("逃生路径如下:");

show(point.x,point.y,maze);

}

else

System.out.println("无法走出迷宫!");

}

}

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