I have created a 2D maze, and I want to find the quickest path between the red->blue colored nodes. I'm an unsure how I would go about implementing a depth-first search. I know that an adjacency matrix or list could be used to represent the connections between nodes. Though, I am unsure of how to construct it.

**for brevity**: I need to return a list with the tiles coordinates searched (when looking for goal node), so i can depict the search on the maze. Or how would i construct an adjacency matrix for this? and the corresponding vertex list?

Depth first search general structure

- Visit node(cell) (change visited flag to true)
- Push to Stack
- get unvisited vertex (peek stack) if none (pop stack) - update maze model view

Repeat 1 - 3 until stack empty

Here is the current code for the maze class.

```
public class Maze {
//Tile ids
public static short OBSTICLE = 0;
public static short START_LOC_VALUE = -2;
public static short GOAL_LOC_VALUE = -3;
private int rows, cols;
private int numTiles;
private int[][] map;
private int[][] adjMatrix;
private Queue theQueue;
public Maze(int rows, int cols){
this.rows = rows;
this.cols = cols;
theQueue = new Queue();
numTiles = rows*cols;
map = new int[rows][cols];
adjMatrix = new int[rows][cols];
for (int i=0; i<rows; i++) {
for (int j=0; j<cols; j++) {
map[i][j] = 1;
}
}
}
/*
* Generate Maze
* @param numObstacles - number of obstacles
*/
public void generateMaze(int numObstacles){
for (int i = 0; i < numObstacles; i++)
setTile((int)(Math.random()*rows),(int)(Math.random()*cols), Maze.OBSTICLE);
//setTile((int)(Math.random()*rows),(int)(Math.random()*cols),Maze.START_LOC_VALUE);
//setTile((int)(Math.random()*rows),(int)(Math.random()*cols),Maze.GOAL_LOC_VALUE);
createAdjMatrix();
}
public void createAdjMatrix(){
for (int i=0; i<rows; i++) {
for (int j=0; j<cols; j++) {
if (map[i][j] == 1) {
addEdge(i,j);
}
}
}
}
/*
* Set Tile
* @param x - x cord
* @param y - y cord
* @param entity - OBSTICLE,START_LOC_VALUE or GOAL_LOC_VALUE ID
*/
public void setTile(int x, int y, short entity){
this.map[x][y] = entity;
}
public void addEdge(int start, int end) {//Start and end arguments index multidimensional array
adjMatrix[start][end] = 1;
adjMatrix[end][start] = 1;
}
public void bfs(int startDest, int goalDest) // breadth-first search
{
// begin at vertex 0
vertexList[startDest].wasVisited = true; // mark it
displayVertex(startDest); // display it
theQueue.enQueue(startDest); // insert at tail
int v2;
while (!theQueue.isEmpty()) // until queue empty,
{
int v1 = theQueue.deQueue(); // remove vertex at head
// until it has no unvisited neighbors
while ((v2 = getAdjUnvisitedVertex(v1)) != -1)
{ // get one,
vertexList[v2].wasVisited = true; // mark it
displayVertex(v2); // display it
theQueue.enQueue(v2); // insert it
} // end while(unvisited neighbors)
} // end while(queue not empty)
// queue is empty, so we’re done
for (int j = 0; j < nVerts; j++) // reset flags
vertexList[j].wasVisited = false;
}// end bfs()
/*
* Drawn Maze
* @param g - Graphics object
*/
public void draw(Graphics g){
for (int y = 0; y < cols; y++)
for (int x = 0; x < rows; x++) {
int val = map[x][y];
if (val==Maze.OBSTICLE) {
g.setColor(Color.BLACK);
g.fillRect(x*20, y*20, 20, 20);
}else if(val == Maze.START_LOC_VALUE){
g.setColor(Color.RED);
g.fillRect(x*20, y*20, 20, 20);
}else if(val==Maze.GOAL_LOC_VALUE){
g.setColor(Color.BLUE);
g.fillRect(x*20, y*20, 20, 20);
}else{
g.setColor(Color.BLACK);
g.drawRect(x*20, y*20, 20, 20);
}
}
}
}
```

current DFS code..

```
public void dfs(int vertexStart) // depth-first search
{
// begin at vertexStart
vertexList[vertexStart].wasVisited = true; // mark it
displayVertex(vertexStart); // display it
theStack.push(vertexStart); // push it
while (!theStack.isEmpty()) // until stack empty,
{
// get an unvisited vertex adjacent to stack top
int v = getAdjUnvisitedVertex(theStack.peek());
if (v == -1) // if no such vertex,
theStack.pop(); // pop a new one
else // if it exists,
{
vertexList[v].wasVisited = true; // mark it
displayVertex(v); // display it
theStack.push(v); // push it
}
} // end while
}
```

The following pictures depicts the maze structure, it has been generated pseudo randomly; the final maze implementation will be refined.

Thanks, I will be great full if you could guide me in the right direction...