I am having issues with creating this recursive method. The method needs to add objects to a stack.
Notes: This is a path finder project.
getNextBird()
polls from a bird queue inside the bird object. If the queue is empty it will return null; if it is not empty it will return the next bird inside the queue.
I cannot use any loops at all. (It would have been easy if I could.) The last element in the stack has to be Bird "end". But if the code works fine it should be done recursively.
My issue is that there is a edge-case where the checks hit a wall where getNextBird
becomes null (in this instance the object bird), and I want to pop the newest object from the stack. I will get a StackOverflow error, or a EmptyCollection error.
private static boolean recurse(Stack<Bird> path, Bird current, Bird end)
{
Bird bird = null;
if (current != null) {
bird = current.getNextBird();
if (bird != null) {
path.push(current);
recurse(path, bird, end);
return true;
}
}
return false;
}
import java.util.Stack;
public class Solve2
{
public static void main(String [] args)
{
// create the maze to solve
Maze maze = new Maze();
// create a Stack of Bird objects named path here
Stack<Bird> path = new Stack<Bird>();
// call recursive method to solve the maze and print the path
recurse(path, maze.getStart(), maze.getEnd());
print(path);
}
private static boolean recurse(Stack<Bird> path, Bird current, Bird end)
{
Bird bird = null;
if (current != null) {
bird = current.getNextBird();
if (bird != null) {
path.push(current);
recurse(path, bird, end);
return true;
} else {
path.pop();
recurse(path, path.peek(), end);
return false;
}
}
return false;
}
private static void print(Stack<Bird> stack)
{
// write your code for recursively printing the stack here
System.out.println(stack.pop());
print(stack);
}
}
The Bird class:
public class Bird
{
public static final int N = 0;
public static final int NE = 1;
public static final int E = 2;
public static final int SE = 3;
public static final int S = 4;
public static final int SW = 5;
public static final int W = 6;
public static final int NW = 7;
private static final String [] directions = {"N ", "NE", "E ", "SE", "S ", "SW", "W ", "NW"};
private String name;
private int direction;
private Queue<Bird> queue;
public Bird(int row, int column, int direction)
{
this.name = "Row/Column [" + row + "][" + column + "]";
this.direction = direction;
}
public void setBirdQueue(Queue<Bird> queue)
{
this.queue = queue;
}
public String toString()
{
return "Location: " + name + ", Direction: " + directions[direction];
}
public int getDirection()
{
return this.direction;
}
public Bird getNextBird()
{
// write code to return the next Bird from the queue or null if no Birds left.
return queue.poll();
}
}
import java.util.LinkedList; import java.util.Queue;
public class Maze
{
private Bird start;
private Bird end;
public Maze()
{
// construct the diagrammed maze
int MAX_ROW = 5;
int MAX_COL = 7;
Bird [][] maze = new Bird[MAX_ROW][MAX_COL];
// row 0
maze[0][0] = new Bird(0, 0, Bird.S);
maze[0][1] = new Bird(0, 1, Bird.SW);
maze[0][2] = new Bird(0, 2, Bird.S);
maze[0][3] = new Bird(0, 3, Bird.SE);
maze[0][4] = new Bird(0, 4, Bird.SW);
maze[0][5] = new Bird(0, 5, Bird.SW);
maze[0][6] = new Bird(0, 6, Bird.SW);
// row 1
maze[1][0] = new Bird(1, 0, Bird.S);
maze[1][1] = new Bird(1, 1, Bird.W);
maze[1][2] = new Bird(1, 2, Bird.SW);
maze[1][3] = new Bird(1, 3, Bird.S);
maze[1][4] = new Bird(1, 4, Bird.N);
maze[1][5] = new Bird(1, 5, Bird.S);
maze[1][6] = new Bird(1, 6, Bird.W);
// row 2
maze[2][0] = new Bird(2, 0, Bird.NE);
maze[2][1] = new Bird(2, 1, Bird.NW);
maze[2][2] = new Bird(2, 2, Bird.N);
maze[2][3] = new Bird(2, 3, Bird.W);
maze[2][4] = new Bird(2, 4, Bird.SE);
maze[2][5] = new Bird(2, 5, Bird.NE);
maze[2][6] = new Bird(2, 6, Bird.E);
// row 3
maze[3][0] = new Bird(3, 0, Bird.SE);
maze[3][1] = new Bird(3, 1, Bird.NE);
maze[3][2] = new Bird(3, 2, Bird.E);
maze[3][3] = new Bird(3, 3, Bird.NW);
maze[3][4] = new Bird(3, 4, Bird.NW);
maze[3][5] = new Bird(3, 5, Bird.E);
maze[3][6] = new Bird(3, 6, Bird.W);
// row 4
maze[4][0] = new Bird(4, 0, Bird.N);
maze[4][1] = new Bird(4, 1, Bird.NE);
maze[4][2] = new Bird(4, 2, Bird.N);
maze[4][3] = new Bird(4, 3, Bird.N);
maze[4][4] = new Bird(4, 4, Bird.NE);
maze[4][5] = new Bird(4, 5, Bird.W);
maze[4][6] = new Bird(4, 6, Bird.N);
start = maze[2][0];
end = maze[2][6];
// write your code here
/*snipped the logic for adding the birds in the queue, but I do know that this part is 100% functional on my end*/
}
public Bird getStart()
{
return this.start;
}
public Bird getEnd()
{
return this.end;
}
}
stack
at the start?