Java A* Pathfinding Implementation (Beginner)

I do realize that this question has been posted already but I have questions relating to my specific code and have already looked at those posts.

I have a node class that has a parent node, an x/y coordinate, the starting/ending node, and g, f, and h.

I think I have managed to code that class properly, but it might have some mistakes. My real questions are about the Pathfind class' solve method which has comments regarding the following a* pseudo-code:

``````create the open list of nodes, initially containing only our starting node
create the closed list of nodes, initially empty
while (we have not reached our goal) {
consider the best node in the open list (the node with the lowest f value)
if (this node is the goal) {
then we're done
}
else {
move the current node to the closed list and consider all of its neighbors
for (each neighbor) {
if (this neighbor is in the closed list and our current g value is lower) {
update the neighbor with the new, lower, g value
change the neighbor's parent to our current node
}
else if (this neighbor is in the open list and our current g value is lower) {
update the neighbor with the new, lower, g value
change the neighbor's parent to our current node
}
else this neighbor is not in either the open or closed list {
add the neighbor to the open list and set its g value
}
}
}
}
``````

Anyways, here are my two classes and I hope I made my question clear enough in the code comments.

``````public class Node
{
public Node parent;
public int x, y;
public Node start, end;
public int g, h, f;

public Node(Node parent, int x, int y, Node start, Node end)
{
this.parent = parent;
this.x = x;
this.y = y;
this.start = start;
this.end = end;

// Now find out the "G" or the cost
// to reach this node from the starting node
// The easiest way to do this is to take the G cost of its parent
// and then add 10 or 14 depending on horizontal, vertical, or diagonal
if(parent != null)
{
// if it is the starting node, no need to find g, h, and f
// and thus, we set the starting node's parent to null and check
// if parent != null
findG();
findH(); // using the algorithm from the above 2 sites
// Now find f, or just add up g and h
f = g + h;
}
}

public void findG()
{
int parentG = parent.g;
boolean isConnected = isDiagonallyConnectedToParent();
if(isConnected)
g = parentG + 14;
else
g = parentG + 10;
}

public void findH()
{
h = (int) Math.sqrt(Math.pow((x - end.x), 2) + Math.pow((y - end.y), 2));
}

public boolean isDiagonallyConnectedToParent()
{
int x2 = parent.x;
int y2 = parent.y;
int xdiff = Math.abs(x-x2);
int ydiff = Math.abs(y-y2);
if((xdiff == 1) && (ydiff == 1))
return true;
return false;
}
}
``````

And now the Pathfind class (where my main questions lie):

``````public class Pathfind
{
ArrayList<Node> open;
ArrayList<Node> closed;
Node[][] nodes;
Node currentNode;
Node startNode;
Node endNode;

public Pathfind()
{
open = new ArrayList<Node>();
closed = new ArrayList<Node>();
nodes = new Node[5][5];
startNode = new Node(null, 0, 0, this, null);
endNode = new Node(null, 4, 3, currentNode, this);
startNode.end = endNode;
nodes[0][0] = startNode;
nodes[4][3] = endNode;
}

public void solve()
{
while(currentNode != endNode)
{
int bestF = 10000;;
int indexOfBestF;
for(int i = 0; i < open.size(); i++)
{
Node temp = open.get(i);
if(temp.f < bestF)
{
bestF = f;
indexOfBestF = i;
}
}
Node bestNode = open.get(indexOfBestF);
if(bestNode == endNode)
{
// the algorithm says I am done at this point, but ... how do I backtrace? I assume it is using the parent field of the Node?
}
else
{
open.remove(indexOfBestF);
for(each neighbor using i and neighbors arraylist)
// I will fix this later so that it uses the 2d array to grab the neighbors
{
Node temp = neighbors.get(i);
if(closed.contains(temp) && currentNode.g < temp.g)
{
//update the neighbor with the new, lower, g value
//change the neighbor's parent to our current node
// what is that supposed to mean / what am I changing?
}
else if(open.contains(temp) && currentNode.g < temp.g)
{
// update the neighbor with the new, lower, g value
// change the neighbor's parent to our current node
// what is that supposed to mean / what am I changing?
}
else if(!open.contains(temp) && !closed.contains(temp))
{
//  add the neighbor to the open list and set its g value
// is this part correctly implemented because my node class auto sets the g value?
}
}
}
}
}

}
``````

EDIT

Looking back, I have realized that my version of the Node class is poorly done and that maybe I shouldn't have the parent be in the node's constructor so that I can initialize the nodes in the array in the constructor and then set up the parent of the nodes in the solve method?

-
It is difficult to tell what is being asked here. –  Barnabas Szabolcs Nov 29 '12 at 15:51
Never mind, I gave up and just decided to use a brute force approach :) Thanks anyways! –  Bucco Dec 1 '12 at 1:30