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The following recursive backtracking algorithm implementation in Java produces erratic and unsolvable mazes. I lack the skill and time to debug this correctly. Below is the code, and an image of the produced maze.

Maze.java, the class controlling the generation logic.

public class Maze 
{
    public int xSize = 0;
    public int ySize = 0;
    public int totalDimensions = 0;

    Random randomGenerator = new Random(System.currentTimeMillis());

    public Cell[][] cellData;

    public Stack<Cell> cellStack = new Stack<Cell>();

    Cell tempCell; // Temporary variable used for maze generation

    // METHODS
    // RBT = 0 (default)
    // Prim = 1
    // Kruskal = 2
    public Maze(int xSize, int ySize, int method) 
    {
        cellData = new Cell[xSize][ySize];
        this.xSize = xSize;
        this.ySize = ySize;
        this.totalDimensions = this.xSize * this.ySize;
        //cellStack.setSize(xSize * ySize);

        // Initialize array objects
        for (int i = 0; i < this.xSize; i++) 
        {
            for (int j = 0; j < this.ySize; j++) 
            {
                cellData[i][j] = new Cell();
                // Initialize the walls of the cell
                cellData[i][j].hasNorthWall = true;
                cellData[i][j].hasSouthWall = true;
                cellData[i][j].hasEastWall = true;
                cellData[i][j].hasWestWall = true;
            }
        }

        // Assign x and y positions
        for (int i = 0; i < this.xSize; i++) 
        {
            for (int j = 0; j < this.ySize; j++) 
            {
                cellData[i][j].xPos = i;
                cellData[i][j].yPos = j;
            }
        }

        initBoundries();

        if (method == 0) 
        {
            generateMazeRBT();
        }
    }

    private void initBoundries() 
    {
        // Initialize the border cells as visited so we don't go out of bounds
        for (int i = 0; i < this.xSize; i++) 
        { 
            for (int j = 0; j < this.ySize; j++) 
            { 
                if (i == 0 || j == 0 || i == this.xSize - 1 || j == this.ySize - 1) 
                    cellData[i][j].hasBeenVisited = true;
            } 
        } 
    }

    private void generateMazeRBT(int x, int y) 
    {
        // Set current cell as visited
        cellData[x][y].hasBeenVisited = true;

        // While there are unvisited neighbors
        while (!cellData[x][y+1].hasBeenVisited || !cellData[x+1][y].hasBeenVisited || !cellData[x][y-1].hasBeenVisited || !cellData[x-1][y].hasBeenVisited) 
        {
            // Select a random neighbor
            while (true) 
            {
                int r = randomGenerator.nextInt(4);
                if (r == 0 && !cellData[x][y+1].hasBeenVisited) 
                {
                    cellStack.push(cellData[x][y]);
                    cellData[x][y].hasNorthWall = false;
                    cellData[x][y+1].hasSouthWall = false;
                    generateMazeRBT(x, y + 1);
                    break;
                }
                else if (r == 1 && !cellData[x+1][y].hasBeenVisited) 
                {
                    cellStack.push(cellData[x][y]);
                    cellData[x][y].hasEastWall = false;
                    cellData[x+1][y].hasWestWall = false;
                    generateMazeRBT(x+1, y);
                    break;
                }
                else if (r == 2 && !cellData[x][y-1].hasBeenVisited) 
                {
                    cellStack.push(cellData[x][y]);
                    cellData[x][y].hasSouthWall = false;
                    cellData[x][y-1].hasNorthWall = false;
                    generateMazeRBT(x, y-1);
                    break;
                }
                else if (r == 3 && !cellData[x-1][y].hasBeenVisited) 
                {
                    cellStack.push(cellData[x][y]);
                    cellData[x][y].hasWestWall = false;
                    cellData[x-1][y].hasEastWall = false;
                    generateMazeRBT(x-1, y);
                    break;
                }
            }
        }

        // There are no unvisited neighbors
        if (!cellStack.isEmpty()) 
        {
            tempCell = cellStack.pop();
            generateMazeRBT(tempCell.xPos, tempCell.yPos);
        }
    }
}

Cell.java:

public class Cell 
{
    public boolean isCurrentCell;
    public boolean hasBeenVisited;
    public boolean hasNorthWall;
    public boolean hasSouthWall;
    public boolean hasEastWall;
    public boolean hasWestWall;
    public int xPos;
    public int yPos;
}

I have a separate driver and GUI to visualize the maze:

enter image description here

As you can see, it is highly irregular and not solvable. What is going wrong?

  • @curiosa It would be right if the maze were solvable. As it is now, you cannot traverse the maze from the top left as intended. Oh and the code is all mine, I just used the algo description. – Michael Simanski Oct 17 at 21:12

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