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:

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