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given this maze a template:

############
#...#......#
..#.#.####.#
###.#....#.#
#....###.#..
####.#.#.#.#
#..#.#.#.#.#
##.#.#.#.#.#
#........#.#
######.###.#
#......#...#
############

where periods are open spaces and pound sign are walls.

My recursive algorithm is returning FALSE 100% of the time for every maze I test it on. I know for a fact that it should of return True for this maze... if my logic is in order, since you can actually do this by hand a draw a line from the entrance to the exit...

can someone see where and why it is constantly returning False? Why is the base case is never reached.

public class MazeSolver
{
int step = 0;
int r = 0;
int c = 0;

 public boolean solver(char maze[][], int start, int exit)
{
    Maze print = new Maze();

    //within the boundary of the maze
    if(r < maze[0].length && r > 0)
    {
        if(c < maze.length && c > 0)
        {
        //is it at the exit?
            if(r == exit && c == maze[0].length)//exit = exit row
            {
                print.printMaze(maze);
                return true;
            }
            //move right
            else if(maze[r][c+1] == '.')
            {
                step++;
                maze[r][c+1] = 'X';
                return solver(maze, r, c+1);
            }

            //move up
            else if(maze[r+1][c] == '.')
            {
                step++;
                maze[r+1][c] = 'X';
                return solver(maze, r+1, c);
            }

            //move left
            else if(maze[r][c-1] == '.')
            {
                step++;
                maze[r][c-1] = 'X';
                return solver(maze, r, c-1);
            }
            //move down
            else if(maze[r-1][c] == '.')
            {
                step++;
                maze[r-1][c] = 'X';
                return solver(maze, r-1, c);
            }

            //backtrack right
            else if(maze[r][c+1] == 'X')
            {
                step--;
                return solver(maze, r, c+1);
            }

            //backtrack upwards
            else if(maze[r+1][c] == 'X')
            {
                step--;
                return solver(maze, r+1, c);
            }
            //backtrack downwards
            else if(maze[c-1][r] == 'X')
            {
                step--;
                return solver(maze, r-1, c);
            }

            //move left
            else if(maze[c][r-1] == 'X')
            {
                step--;
                return solver(maze, r, c-1);
            }
        }
    }
    //if it arrive back at the entrence
    print.printMaze(maze);
        return false;
}

}
share|improve this question
    
My suggestion - debug or create a visualizer, similar to this (code). –  Dukeling Feb 18 '13 at 5:37
    
Your variables r and c, who are initialized at 0, are never updated in the code you gave us. How can c be ever equals to maze[0].length (except trivial case)? It's not possible and it's in your condition for returning true, so it will never return true. Are r and c updated anywhere else you are not showing us? –  Cyrille Ka Feb 18 '13 at 5:42
    
you should probably be doing something with start and exit. Right now you are only using exit to see if you are there. Usually recursion does something with it's parameters like: recurse(x,y){if(basecase) return 0; else return recurse(change(x),change(y)) where change(x) and change(y) change the parameters to the next function call(ie x+1). –  Raufio Feb 18 '13 at 5:52

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