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import java.util.Arrays;
import java.util.Collections;
import java.util.List;
public class DFS {
static int[][] directions = new int[][]{
{+0, +1}, // Right.
{+1, +0}, // Down.
{+0, -1}, // Left.
{-1, +0}, // Up.
};
static void traverse(int x, int y, char[][] maze, boolean[][] visited) {
// Move in random direction.
List<Integer> l = Arrays.asList(new Integer[]{0, 1, 2, 3});
Collections.shuffle(l);
for (int i: l) {
int curx = x + directions[i][0];
int cury = y + directions[i][1];
// Out of bounds check.
if (curx < 0 || cury < 0
|| curx > maze.length - 1 || cury > maze[0].length - 1)
continue;
// Marker cells.
if (maze[curx][cury] == '$')
System.out.print("|");
else if (maze[curx][cury] == '#')
System.out.print("!");
// Print the maze on every iteration.
for(int j = 0; j < maze.length; j++)
for(int k = 0; k < maze[j].length; k++)
if (j == curx && k == cury)
System.out.print("@");
else
System.out.print(visited[j][k] ? "-" : maze[j][k]);
System.out.println();
// Found a solution, exiting.
// if (maze[curx][cury] == '$')
// System.exit(0);
if (visited[curx][cury]) {
continue;
} else if (maze[curx][cury] == '.') {
visited[curx][cury] = true;
traverse(curx, cury, maze, visited);
visited[curx][cury] = false;
}
}
}
public static void main(String[] args) {
char[][] maze = {
{'.', '#', '.'},
{'.', '.', '.'},
{'.', '#', '.'},
{'.', '.', '.'},
{'.', '.', '#'},
{'.', '#', '.'},
{'.', '.', '$'},
};
boolean[][] visited = new boolean[maze.length][maze[0].length];
for (int i = 0; i < maze.length; i++)
for (int j = 0; j < maze[i].length; j++)
visited[i][j] = false;
System.out.println(String.format("rows:%d cols:%d", maze.length, maze[0].length));
// Print the maze.
for(int j = 0; j < maze.length; j++)
for(int k = 0; k < maze[j].length; k++)
System.out.print(maze[j][k]);
System.out.println();
// Start at 0,0.
visited[0][0] = true;
traverse(0, 0, maze, visited);
}
}
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