# Android A* path finding looping infinitely?

I took a bold step in trying to learn this algorithm and implementing it in my game and "understanding" it was the easy part. In trying to implement it, I keep getting an infinite loop that does not quit. I've been through my code over and over again but I must be missing something or not understanding a part of it. Any help would be appreciated.

``````public class PathFinder {

public PathFinder() {
}

private List<Node> buildPath(Node node) {
while (node.parentNode != null) {
node = node.parentNode;
}
return path;
}

public List<Node> findPath(int sx, int sy, int dx, int dy) {
Node startNode = new Node(sx, sy);
Node endNode = new Node(dx, dy);
startNode.costG = 0;
startNode.costH = startNode.getManhattanCost(endNode);
startNode.parentNode = null;

while (!openList.isEmpty()) {
Node currentNode = (Node) openList.removeFirst();
if (currentNode == endNode) {
Log.d("android", "found path");
return buildPath(endNode);
} else {
currentNode.createNeighbors();
List<Node> neighbors = currentNode.getNeighbors();
for (int i = 0; i < neighbors.size(); i++) {
Node neighborNode = neighbors.get(i);
neighborNode.costG += currentNode.costG;
neighborNode.costH = neighborNode.getManhattanCost(endNode);
neighborNode.costF = neighborNode.costG + neighborNode.costH;
boolean isInOpen = openList.contains(neighborNode);
boolean isInClosed = closedList.contains(neighborNode);

if ((!isInOpen && !isInClosed) || neighborNode.costG < currentNode.costG) {
neighborNode.parentNode = currentNode;
neighborNode.costG += currentNode.costG;
neighborNode.costF = neighborNode.costG + neighborNode.costH;
if (isInClosed) {
closedList.remove(neighborNode);
}
if (!isInOpen) {
}
}
}
}
}
openList.clear();
closedList.clear();
return null;
}
``````

}

``````public class Node {
public Node parentNode;
public List<Node> neighbors;
public int x;
public int y;
public int costG;
public int costH;
public int costF;

public Node(int x, int y) {
this.x = x;
this.y = y;
neighbors = new ArrayList<Node>();
costG = 10;
}

public void createNeighbors() {
}

public int getManhattanCost(Node node) {
int i = (int) Math.abs(x - node.x);
int j = (int) Math.abs(y - node.y);
costH = i + j;
return costH;
}

public int getTotalCost() {
return costG + costH;
}

public List<Node> getNeighbors() {
return neighbors;
}
``````

}

The sx, sy, dx, and dy are starting position and goal position in a 2d array. I passed int fixed numbers for testing purposes sx = 1, sy = 1, dx = 5, dy = 5. In other words, character is at (1, 1) and the touch point is at (5, 5).

-

one thing you're missing is having your openList ordered by costF.

Also, you're comparing 2 Node objects with ==, when you should be comparing with equals. Maybe thats why you never reach the goal point ...

-
Do you mean using currentNode.equals(endNode)? –  semajhan Jul 13 '11 at 16:25
yes, and Override equals method on your Node class to compare the X and Y. In equals method you can use x == other.x && y == other.y since x and y are int's. –  Diogo Jul 13 '11 at 17:04
Problem solved, kind of. That was the problem except it only works when I set the values from (1, 1) to (3, 3). If I try going from (1, 1) to (10, 10) it loops infinitely. Now I'm really stuck. –  semajhan Jul 13 '11 at 20:49
I suggest debuging it step by step and see why it doesnt follow the supposed path and why it is looping forever. You can also check wikipedia (search for a* pathfinding) for a pseudocode (i implemented mine from there and it works) –  Diogo Jul 14 '11 at 8:44

This looks like a pretty good tutorial and it's in java, maybe compare you implementation and see if anything pops out Pathfinding for games

-
I have reviewed the implementation from that site and it is really confusing. I have also reviewed an android specific implementation: esupersun.blogspot.com/2010/12/… which I later found was almost a direct copy from a book: brackeen.com/javagamebook which is where mine comes from. –  semajhan Jul 13 '11 at 4:22
That's new. Will look at it. –  semajhan Jul 13 '11 at 4:38

This looks like a bug to me: you are adding the costG to the neighbournode twice Once when you first create the node and once in the 'if' statement ?

``````                neighborNode.costG += currentNode.costG;
``````

Not really sure if that would cause your infinite loop, but it does look like a bug

-
To my understanding, I am adding the current node's G cost (which is 0 since currentNode = startNode and startNode.costG = 0) to the neighborNode. This way the G cost is incremented by 10 the further away it gets from the start node. Am I mistaken? –  semajhan Jul 13 '11 at 4:48

Solved with much effort: after setting the currentNode, clear the openList.

-
I have been facing the same problem. Infinite execution for 8-puzzle problem. Could you please help me out with this - stackoverflow.com/questions/13053455/… –  Ashwin Oct 25 '12 at 12:34

namespace Intraweb.Dentry { public class SQLDentry : Dentry, IDentry { private string strConnection;

``````    # region "Functions"

# region "Get Single Values"

public object GetValue(string SQL, ValueDataType VluType)
{
SqlConnection con = new SqlConnection(strConnection);
SqlCommand SqlCMD = new SqlCommand(SQL, con);

try
{
object RtVlu;
con.Open();
RtVlu = SqlCMD.ExecuteScalar();
return Convert_Value(RtVlu, VluType);
}
catch (Exception e)
{
throw new Exception("Error occurred :-" + e.Message);
}
finally
{
SqlCMD.Dispose();
con.Close();
con.Dispose();
}
}

public object GetValue(string SQL, ValueDataType VluType, SqlTransaction SqlTrn, SqlConnection con)
{
SqlCommand SqlCMD = new SqlCommand(SQL, con);

try
{
SqlCMD.Transaction = SqlTrn;
object RtVlu;
RtVlu = SqlCMD.ExecuteScalar();
return Convert_Value(RtVlu, VluType);
}
catch (Exception e)
{
throw new Exception("Error occurred :-" + e.Message, e);
}
finally
{
SqlCMD.Dispose();
con.Close();
}
}

#endregion

# region "Execute Commands"

public bool RunCommand(string strSQL, SqlTransaction SqlTrn, SqlConnection con)
{
SqlCommand Sqlcmd = new SqlCommand();

try
{
Sqlcmd.CommandType = CommandType.Text;
Sqlcmd.Connection = con;
Sqlcmd.Transaction = SqlTrn;

Sqlcmd.CommandText = strSQL;
Sqlcmd.ExecuteNonQuery();
return true;
}
catch (Exception e)
{
con.Close();
SqlTrn.Rollback();
throw new Exception("Error Occured :-" + e.Message, e);
}
finally
{
Sqlcmd.Dispose();
}
}

public bool RunCommand(string strSQL)
{
SqlCommand Sqlcmd = new SqlCommand();
SqlConnection con = new SqlConnection(strConnection);

try
{
Sqlcmd.CommandType = CommandType.Text;
Sqlcmd.Connection = con;

Sqlcmd.CommandText = strSQL;
con.Open();
Sqlcmd.ExecuteNonQuery();
return true;
}
catch (Exception e)
{
throw new Exception("Error Occured :-" + e.Message, e);
}
finally
{
Sqlcmd.Dispose();
con.Close();
con.Dispose();
}
}

# endregion

# region "Fill Tables with Normal Sql Queries"

public DataTable GetDataTable(string strSQL)
{
SqlConnection con = new SqlConnection(strConnection);
SqlCommand SqlCmd = new SqlCommand(strSQL, con);

try
{
DataTable dt = new DataTable();
con.Open();
return dt;
}
catch (Exception e)
{
throw new Exception("Error occurred :-" + e.Message);
}
finally
{
con.Close();
SqlCmd.Dispose();
con.Dispose();
}
}

public DataSet GetDataSet(string strSQL)
{
SqlConnection con = new SqlConnection(strConnection);

try
{
DataSet dt = new DataSet();
con.Open();
da.Fill(dt);
return dt;
}
catch (Exception e)
{
throw new Exception("Error occurred :-" + e.Message);
}
finally
{
con.Close();
da.Dispose();
con.Dispose();
}
}

{
SqlCommand SqlCmd = new SqlCommand();

try
{
SqlCmd.CommandType = CommandType.Text;
SqlCmd.Connection = con;
SqlCmd.CommandText = strSQL;
return dr;
}
catch (Exception e)
{
dr.Close();
con.Close();
throw new Exception("Error occurred :-" + e.Message);
}
finally
{
SqlCmd.Dispose();
}
}

{
SqlCommand SqlCmd = new SqlCommand();

try
{
SqlCmd.CommandType = CommandType.Text;
SqlCmd.Connection = con;
SqlCmd.CommandText = strSQL;
return dr;
}
catch (Exception e)
{
dr.Close();
con.Close();
SqlTrn.Rollback();
throw new Exception("Error occurred :-" + e.Message);
}
finally
{
SqlCmd.Dispose();
}

}
# endregion

# endregion

# region "Constructors"

public SQLDentry(string ConnectionString):base(true, ConnectionString)
{
strConnection = ConnectionString;
}

#endregion

}
``````

}

-