public List <SpatialObj <T> > WindowQuery(Rectangle window)
{
// Finds objects within a Rectangular range (window)
List <SpatialObj <T> > answer = new List <SpatialObj <T> >();
Queue <CoverNode <T> > searching_nodes = new Queue <CoverNode <T> >();
searching_nodes.Enqueue(rootNode);
while (searching_nodes.Count > 0)
{
CoverNode <T> current_node = searching_nodes.Dequeue();
if (current_node.IntersectsWith(window))
{
answer.AddRange(current_node.GetRangeQueryObj(window));
if (current_node.HasChildren())
{
foreach (CoverNode <T> child in current_node.GetChildren())
{
if (!searching_nodes.Contains(child))
{
searching_nodes.Enqueue(child);
}
}
}
}
}
return(answer);
}
public Tuple <CoverNode <T>, SpatialObj <T> > IncrementalNNFindNext()
{
if (incrNN_queue is null)
{
return(null);
}
while (incrNN_queue.Count > 0)
{
NodeOrObj current_element = incrNN_queue.Dequeue();
while (incrNN_queue.Count > 0 && incrNN_queue.First().Equals(current_element))
{
incrNN_queue.Dequeue();
}
if (current_element.IsObj())
{
return(Tuple.Create(current_element.GetNode(), current_element.GetObj()));
}
else
{
CoverNode <T> current_node = current_element.GetNode();
double current_dist = current_node.GetDistanceToPointSq(incrNN_origin);
if (!current_node.IsEmpty())
{
foreach (SpatialObj <T> obj in current_node.GetAllObjects())
{
double distance = obj.boundingBox.GetDistanceSqToPoint(incrNN_origin);
if (distance >= current_dist)
{
NodeOrObj obj_nodeOrObj = new NodeOrObj();
obj_nodeOrObj.SetNode(current_node);
obj_nodeOrObj.SetObj(obj);
incrNN_queue.Enqueue(obj_nodeOrObj, (float)distance);
}
}
}
if (current_node.HasChildren())
{
foreach (CoverNode <T> child_node in current_node.GetChildren())
{
double distance = child_node.GetDistanceToPointSq(incrNN_origin);
if (distance >= current_dist)
{
NodeOrObj node_nodeOrObj = new NodeOrObj();
node_nodeOrObj.SetNode(child_node);
incrNN_queue.Enqueue(node_nodeOrObj, (float)distance);
}
}
}
}
}
return(null);
}
private Dictionary <CoverNode <T>, SpatialObj <T> > FindNearestRectToPoint(Point p, CoverNode <T> node)
{
Dictionary <CoverNode <T>, SpatialObj <T> > answer_dict = new Dictionary <CoverNode <T>, SpatialObj <T> >();
SimplePriorityQueue <CoverNode <T> > searching_nodes = new SimplePriorityQueue <CoverNode <T> >();
searching_nodes.Enqueue(node, 0);
SpatialObj <T> answer = default(SpatialObj <T>);
CoverNode <T> answer_node = null;
bool used = false;
double min_distance_sq = rootNode.GetMaxDistance();
while (searching_nodes.Count > 0)
{
CoverNode <T> current_node = searching_nodes.Dequeue();
Dictionary <SpatialObj <T>, double> nearest_rect = current_node.GetNearestRectangle(p);
if (nearest_rect.Count > 0)
{
foreach (KeyValuePair <SpatialObj <T>, double> entry in nearest_rect)
{
if (entry.Value <= min_distance_sq || entry.Value < Statics.EPSILON)
{
min_distance_sq = entry.Value;
answer = entry.Key;
answer_node = current_node;
used = false;
if (min_distance_sq < Statics.EPSILON)
{
answer_dict.Add(answer_node, answer);
used = true;
}
}
}
}
if (current_node.HasChildren())
{
foreach (CoverNode <T> child in current_node.GetChildren())
{
double field_dist = child.GetDistanceToPointSq(p);
if (field_dist <= min_distance_sq)
{
searching_nodes.Enqueue(child, (float)field_dist);
}
}
}
}
if (!used)
{
answer_dict.Add(answer_node, answer);
}
return(answer_dict);
}
public CoverNode <T> FindContainingField(SpatialObj <T> rect, CoverNode <T> starting_node)
{
if (starting_node.IsPointInNode(rect.boundingBox.Center))
{
bool contained_in_node = starting_node.IsObjectInNode(rect);
if (contained_in_node && !starting_node.CanSink(rect))
{
return(starting_node);
}
foreach (CoverNode <T> child in starting_node.GetChildren())
{
var potential_node = FindContainingField(rect, child);
if (potential_node != null)
{
return(potential_node);
}
}
if (contained_in_node)
{
return(starting_node);
}
}
return(null);
}
private void ReorganizeNode(CoverNode <T> node)
{
// After adding objects and creating new partitions, checks to see if any of the upper level objects can go deeper into the tree.
Queue <CoverNode <T> > all_nodes = new Queue <CoverNode <T> >();
all_nodes.Enqueue(node);
while (all_nodes.Count > 0)
{
List <SpatialObj <T> > rects_removed = new List <SpatialObj <T> >();
CoverNode <T> current_node = all_nodes.Dequeue();
foreach (SpatialObj <T> rect in current_node.GetOverflowObjs())
{
CoverNode <T> deepest_field = FindContainingField(rect, current_node);
if (!deepest_field.Equals(current_node))
{
bool overflown = deepest_field.StoreRectangle(rect);
rects_removed.Add(rect);
}
}
if (rects_removed.Count > 0)
{
current_node.DeleteRectangles(rects_removed, true);
}
if (current_node.HasChildren())
{
foreach (CoverNode <T> child in current_node.GetChildren())
{
all_nodes.Enqueue(child);
}
}
}
}