package rtree // Item is an rtree item type Item interface { Rect() (minX, minY, minZ, maxX, maxY, maxZ float64) } // Rect is a rectangle type Rect struct { MinX, MinY, MinZ, MaxX, MaxY, MaxZ float64 } // Rect returns the rectangle func (item *Rect) Rect() (minX, minY, minZ, maxX, maxY, maxZ float64) { return item.MinX, item.MinY, item.MinZ, item.MaxX, item.MaxY, item.MaxZ } // RTree is an implementation of an rtree type RTree struct { tr *d3RTree } // New creates a new RTree func New() *RTree { return &RTree{ tr: d3New(), } } // Insert inserts item into rtree func (tr *RTree) Insert(item Item) { minX, minY, minZ, maxX, maxY, maxZ := item.Rect() tr.tr.Insert([3]float64{minX, minY, minZ}, [3]float64{maxX, maxY, maxZ}, item) } // Remove removes item from rtree func (tr *RTree) Remove(item Item) { minX, minY, minZ, maxX, maxY, maxZ := item.Rect() tr.tr.Remove([3]float64{minX, minY, minZ}, [3]float64{maxX, maxY, maxZ}, item) } // Search finds all items in bounding box. func (tr *RTree) Search(minX, minY, minZ, maxX, maxY, maxZ float64, iterator func(item Item) bool) { tr.tr.Search([3]float64{minX, minY, minZ}, [3]float64{maxX, maxY, maxZ}, func(data interface{}) bool { return iterator(data.(Item)) }) } // Count return the number of items in rtree. func (tr *RTree) Count() int { return tr.tr.Count() } // RemoveAll removes all items from rtree. func (tr *RTree) RemoveAll() { tr.tr.RemoveAll() } func (tr *RTree) Bounds() (minX, minY, minZ, maxX, maxY, maxZ float64) { var rect d3rectT if tr.tr.root != nil { if tr.tr.root.count > 0 { rect = tr.tr.root.branch[0].rect for i := 1; i < tr.tr.root.count; i++ { rect2 := tr.tr.root.branch[i].rect rect = d3combineRect(&rect, &rect2) } } } minX, minY, minZ, maxX, maxY, maxZ = rect.min[0], rect.min[1], rect.min[2], rect.max[0], rect.max[1], rect.max[2] return }