# Finding the first element with a specific distance

I'm trying to write a method, which will return the index of a point which is closest to another point in 3D space. The points are stored in a KD-tree and I'm comparing them with the point p which is a parameter of my method. Here is the method:

``````public int NearestPointWithDistance(KDnnTreeNode node, Point p, Double distance){
int index = -1;
if(node == null){
return -1;
}else{
double[] point_coordinates = data[node.eltIndex];
Point q = new Point(point_coordinates[0],point_coordinates[1], point_coordinates[2]);
if(KDnnTree.distance(p, q) == distance){
return index;
}

if(node.left != null){
final int left_child = NearestPointWithDistance(node.left, p, distance);
}
if(node.right != null){
final int right_child = NearestPointWithDistance(node.right, p, distance);
}
}
return index;
``````

}

The problem is, there could be multiple points with the same distance. The result I get is a list of indexes of points(see below), but I want only the first element of the list (in the example below, that would be the number 54510).

``````54510
54511
54512
54514
54518
54526
54543
54577
65355
76175
54482
54416
54278
21929
54001
74323
``````

I know this is not the way to search two closes points in a KD tree, but I would like to try this way first.

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You need to compare the result from left and right and take only one. – BobTheBuilder Apr 21 '13 at 9:15

Don't use `java.lang.Double` as argument. Use `double`.

The reason is that if your `KDNTree.distance()` would also return `Double` you will end up in comparing references of objects, not their values.

You have pretty inconvenient API. Anyway, make a helper function:

``````public Point getNodePoint(Node node)
{
double[] point_coordinates = data[node.eltIndex];
return new Point(point_coordinates[0],point_coordinates[1], point_coordinates[2]);
}
``````

Use the best distance availabale selections:

``````double result = KDnnTree.distance(p, q);
if (result == distance)
{
return node.eltIndex;
}
index = node.eltIndex; // assume given node is best
if (node.left !=  null)
{
final int left_child = NearestPointWithDistance(node.left, p, distance);
double left_distance = KDnnTree.distance(p, getNodePoint(left_child);

if (Math.abs(distance - result) > Math.abs(distance - left_distance))
{
// result given is closer to wanted point
result = left_distance;
index = left_child;
}
}
if (node.right !=  null)
{
final int right_child = NearestPointWithDistance(node.right, p, distance);
double right_distance = KDnnTree.distance(p, getNodePoint(right_child);

if (Math.abs(distance - result) > Math.abs(distance - right_distance))
{
// result given is closer to wanted point
result = right_distance;
index = right_child;
}
}
return index;
``````
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