private Halfedge Init(Edge edge, LR lr) { this.edge = edge; leftRight = lr; nextInPriorityQueue = null; vertex = null; return this; }
public void ReallyDispose() { edgeListLeftNeighbor = null; edgeListRightNeighbor = null; nextInPriorityQueue = null; edge = null; leftRight = null; vertex = null; pool.Enqueue(this); }
public void Dispose() { if (edgeListLeftNeighbor != null || edgeListRightNeighbor != null) { // still in EdgeList return; } if (nextInPriorityQueue != null) { // still in PriorityQueue return; } edge = null; leftRight = null; vertex = null; pool.Enqueue(this); }
public void Dispose() { leftVertex = null; rightVertex = null; if (clippedVertices != null) { clippedVertices.Clear(); clippedVertices = null; } sites.Clear(); sites = null; pool.Enqueue(this); }
public void SetVertex(LR leftRight, Vertex v) { if (leftRight == LR.LEFT) { leftVertex = v; } else { rightVertex = v; } }
private void FortunesAlgorithm() { Site newSite, bottomSite, topSite, tempSite; Vertex v, vertex; Vector2f newIntStar = Vector2f.zero; LR leftRight; Halfedge lbnd, rbnd, llbnd, rrbnd, bisector; Edge edge; Rectf dataBounds = sites.GetSitesBounds(); int sqrtSitesNb = (int)Math.Sqrt(sites.Count() + 4); HalfedgePriorityQueue heap = new HalfedgePriorityQueue(dataBounds.y, dataBounds.height, sqrtSitesNb); EdgeList edgeList = new EdgeList(dataBounds.x, dataBounds.width, sqrtSitesNb); List <Halfedge> halfEdges = new List <Halfedge>(); List <Vertex> vertices = new List <Vertex>(); Site bottomMostSite = sites.Next(); newSite = sites.Next(); while (true) { if (!heap.Empty()) { newIntStar = heap.Min(); } if (newSite != null && (heap.Empty() || CompareByYThenX(newSite, newIntStar) < 0)) { // New site is smallest //Debug.Log("smallest: new site " + newSite); // Step 8: lbnd = edgeList.EdgeListLeftNeighbor(newSite.Coord); // The halfedge just to the left of newSite //UnityEngine.Debug.Log("lbnd: " + lbnd); rbnd = lbnd.edgeListRightNeighbor; // The halfedge just to the right //UnityEngine.Debug.Log("rbnd: " + rbnd); bottomSite = RightRegion(lbnd, bottomMostSite); // This is the same as leftRegion(rbnd) // This Site determines the region containing the new site //UnityEngine.Debug.Log("new Site is in region of existing site: " + bottomSite); // Step 9 edge = Edge.CreateBisectingEdge(bottomSite, newSite); //UnityEngine.Debug.Log("new edge: " + edge); Edges.Add(edge); bisector = Halfedge.Create(edge, LR.LEFT); halfEdges.Add(bisector); // Inserting two halfedges into edgelist constitutes Step 10: // Insert bisector to the right of lbnd: edgeList.Insert(lbnd, bisector); // First half of Step 11: if ((vertex = Vertex.Intersect(lbnd, bisector)) != null) { vertices.Add(vertex); heap.Remove(lbnd); lbnd.vertex = vertex; lbnd.ystar = vertex.y + newSite.Dist(vertex); heap.Insert(lbnd); } lbnd = bisector; bisector = Halfedge.Create(edge, LR.RIGHT); halfEdges.Add(bisector); // Second halfedge for Step 10:: // Insert bisector to the right of lbnd: edgeList.Insert(lbnd, bisector); // Second half of Step 11: if ((vertex = Vertex.Intersect(bisector, rbnd)) != null) { vertices.Add(vertex); bisector.vertex = vertex; bisector.ystar = vertex.y + newSite.Dist(vertex); heap.Insert(bisector); } newSite = sites.Next(); } else if (!heap.Empty()) { // Intersection is smallest lbnd = heap.ExtractMin(); llbnd = lbnd.edgeListLeftNeighbor; rbnd = lbnd.edgeListRightNeighbor; rrbnd = rbnd.edgeListRightNeighbor; bottomSite = LeftRegion(lbnd, bottomMostSite); topSite = RightRegion(rbnd, bottomMostSite); // These three sites define a Delaunay triangle // (not actually using these for anything...) // triangles.Add(new Triangle(bottomSite, topSite, RightRegion(lbnd, bottomMostSite))); v = lbnd.vertex; v.SetIndex(); lbnd.edge.SetVertex(lbnd.leftRight, v); rbnd.edge.SetVertex(rbnd.leftRight, v); edgeList.Remove(lbnd); heap.Remove(rbnd); edgeList.Remove(rbnd); leftRight = LR.LEFT; if (bottomSite.Y > topSite.Y) { tempSite = bottomSite; bottomSite = topSite; topSite = tempSite; leftRight = LR.RIGHT; } edge = Edge.CreateBisectingEdge(bottomSite, topSite); Edges.Add(edge); bisector = Halfedge.Create(edge, leftRight); halfEdges.Add(bisector); edgeList.Insert(llbnd, bisector); edge.SetVertex(LR.Other(leftRight), v); if ((vertex = Vertex.Intersect(llbnd, bisector)) != null) { vertices.Add(vertex); heap.Remove(llbnd); llbnd.vertex = vertex; llbnd.ystar = vertex.y + bottomSite.Dist(vertex); heap.Insert(llbnd); } if ((vertex = Vertex.Intersect(bisector, rrbnd)) != null) { vertices.Add(vertex); bisector.vertex = vertex; bisector.ystar = vertex.y + bottomSite.Dist(vertex); heap.Insert(bisector); } } else { break; } } // Heap should be empty now heap.Dispose(); edgeList.Dispose(); foreach (Halfedge halfedge in halfEdges) { halfedge.ReallyDispose(); } halfEdges.Clear(); // we need the vertices to clip the edges foreach (Edge e in Edges) { e.ClipVertices(plotBounds); } // But we don't actually ever use them again! foreach (Vertex ve in vertices) { ve.Dispose(); } vertices.Clear(); }
public void SetVertex(byte leftRight, Vertex v) { if (leftRight == LR.Left) { leftVertex = v; } else { rightVertex = v; } }