private KdTreeNode <TKey, TValue>[] RadialSearch(TKey[] center, TKey radius, NearestNeighbourList <KdTreeNode <TKey, TValue>, TKey> nearestNeighbours) { AddNearestNeighbours( root, center, HyperRect <TKey> .Infinite(dimensions, typeMath), 0, nearestNeighbours, typeMath.Multiply(radius, radius)); var count = nearestNeighbours.Count; var neighbourArray = new KdTreeNode <TKey, TValue> [count]; for (var index = 0; index < count; index++) { neighbourArray[count - index - 1] = nearestNeighbours.RemoveFurtherest(); } return(neighbourArray); }
public KdTreeNode <TKey, TValue>[] GetNearestNeighbours(TKey[] point, int count) { if (count > Count) { count = Count; } if (count < 0) { throw new ArgumentException("Number of neighbors cannot be negative"); } if (count == 0) { return(new KdTreeNode <TKey, TValue> [0]); } var neighbours = new KdTreeNode <TKey, TValue> [count]; var nearestNeighbours = new NearestNeighbourList <KdTreeNode <TKey, TValue>, TKey>(count, typeMath); var rect = HyperRect <TKey> .Infinite(dimensions, typeMath); AddNearestNeighbours(root, point, rect, 0, nearestNeighbours, typeMath.MaxValue); count = nearestNeighbours.Count; var neighbourArray = new KdTreeNode <TKey, TValue> [count]; for (var index = 0; index < count; index++) { neighbourArray[count - index - 1] = nearestNeighbours.RemoveFurtherest(); } return(neighbourArray); }