public static VCircleEvent CircleCheckDataNode(VDataNode n, double ys)
        {
            VDataNode l = VNode.LeftDataNode(n);
            VDataNode r = VNode.RightDataNode(n);

            if (l == null || r == null || l.DataPoint == r.DataPoint || l.DataPoint == n.DataPoint || n.DataPoint == r.DataPoint)
            {
                return(null);
            }
            if (MathTools.ccw(l.DataPoint[0], l.DataPoint[1], n.DataPoint[0], n.DataPoint[1], r.DataPoint[0], r.DataPoint[1], false) <= 0)
            {
                return(null);
            }
            Vector       Center = Fortune.CircumCircleCenter(l.DataPoint, n.DataPoint, r.DataPoint);
            VCircleEvent VC     = new VCircleEvent();

            VC.NodeN  = n;
            VC.NodeL  = l;
            VC.NodeR  = r;
            VC.Center = Center;
            VC.Valid  = true;
            if (VC.Y > ys || Math.Abs(VC.Y - ys) < 1e-10)
            {
                return(VC);
            }
            return(null);
        }
Beispiel #2
0
        public static VoronoiGraph ComputeVoronoiGraph(IEnumerable Datapoints)
        {
            BinaryPriorityQueue PQ             = new BinaryPriorityQueue();
            Hashtable           CurrentCircles = new Hashtable();
            VoronoiGraph        VG             = new VoronoiGraph();
            VNode RootNode = null;

            foreach (Vector V in Datapoints)
            {
                PQ.Push(new VDataEvent(V));
            }
            while (PQ.Count > 0)
            {
                VEvent      VE = PQ.Pop() as VEvent;
                VDataNode[] CircleCheckList;
                if (VE is VDataEvent)
                {
                    RootNode = VNode.ProcessDataEvent(VE as VDataEvent, RootNode, VG, VE.Y, out CircleCheckList);
                }
                else if (VE is VCircleEvent)
                {
                    CurrentCircles.Remove(((VCircleEvent)VE).NodeN);
                    if (!((VCircleEvent)VE).Valid)
                    {
                        continue;
                    }
                    RootNode = VNode.ProcessCircleEvent(VE as VCircleEvent, RootNode, VG, VE.Y, out CircleCheckList);
                }
                else
                {
                    throw new Exception("Got event of type " + VE.GetType().ToString() + "!");
                }
                foreach (VDataNode VD in CircleCheckList)
                {
                    if (CurrentCircles.ContainsKey(VD))
                    {
                        ((VCircleEvent)CurrentCircles[VD]).Valid = false;
                        CurrentCircles.Remove(VD);
                    }
                    VCircleEvent VCE = VNode.CircleCheckDataNode(VD, VE.Y);
                    if (VCE != null)
                    {
                        PQ.Push(VCE);
                        CurrentCircles[VD] = VCE;
                    }
                }
                if (VE is VDataEvent)
                {
                    Vector DP = ((VDataEvent)VE).DataPoint;
                    foreach (VCircleEvent VCE in CurrentCircles.Values)
                    {
                        if (MathTools.Dist(DP[0], DP[1], VCE.Center[0], VCE.Center[1]) < VCE.Y - VCE.Center[1] && Math.Abs(MathTools.Dist(DP[0], DP[1], VCE.Center[0], VCE.Center[1]) - (VCE.Y - VCE.Center[1])) > 1e-10)
                        {
                            VCE.Valid = false;
                        }
                    }
                }
            }
            return(VG);
        }
        public static VoronoiGraph ComputeVoronoiGraph(IEnumerable Datapoints)
        {
            BinaryPriorityQueue PQ             = new BinaryPriorityQueue();
            Hashtable           CurrentCircles = new Hashtable();
            VoronoiGraph        VG             = new VoronoiGraph();
            VNode RootNode = null;

            foreach (Vector V in Datapoints)
            {
                PQ.Push(new VDataEvent(V));
            }
            while (PQ.Count > 0)
            {
                VEvent      VE = PQ.Pop() as VEvent;
                VDataNode[] CircleCheckList;
                if (VE is VDataEvent)
                {
                    RootNode = VNode.ProcessDataEvent(VE as VDataEvent, RootNode, VG, VE.Y, out CircleCheckList);
                }
                else if (VE is VCircleEvent)
                {
                    CurrentCircles.Remove(((VCircleEvent)VE).NodeN);
                    if (!((VCircleEvent)VE).Valid)
                    {
                        continue;
                    }
                    RootNode = VNode.ProcessCircleEvent(VE as VCircleEvent, RootNode, VG, VE.Y, out CircleCheckList);
                }
                else
                {
                    throw new Exception("Got event of type " + VE.GetType().ToString() + "!");
                }
                foreach (VDataNode VD in CircleCheckList)
                {
                    if (CurrentCircles.ContainsKey(VD))
                    {
                        ((VCircleEvent)CurrentCircles[VD]).Valid = false;
                        CurrentCircles.Remove(VD);
                    }
                    VCircleEvent VCE = VNode.CircleCheckDataNode(VD, VE.Y);
                    if (VCE != null)
                    {
                        PQ.Push(VCE);
                        CurrentCircles[VD] = VCE;
                    }
                }
                if (VE is VDataEvent)
                {
                    Vector DP = ((VDataEvent)VE).DataPoint;
                    foreach (VCircleEvent VCE in CurrentCircles.Values)
                    {
                        if (MathTools.Dist(DP[0], DP[1], VCE.Center[0], VCE.Center[1]) < VCE.Y - VCE.Center[1] && Math.Abs(MathTools.Dist(DP[0], DP[1], VCE.Center[0], VCE.Center[1]) - (VCE.Y - VCE.Center[1])) > 1e-10)
                        {
                            VCE.Valid = false;
                        }
                    }
                }
            }
            VNode.CleanUpTree(RootNode);
            foreach (VoronoiEdge VE in VG.Edges)
            {
                if (VE.Done)
                {
                    continue;
                }
                if (VE.VVertexB == Fortune.VVUnkown)
                {
                    VE.AddVertex(Fortune.VVInfinite);
                    if (Math.Abs(VE.LeftData[1] - VE.RightData[1]) < 1e-10 && VE.LeftData[0] < VE.RightData[0])
                    {
                        Vector T = VE.LeftData;
                        VE.LeftData  = VE.RightData;
                        VE.RightData = T;
                    }
                }
            }

            ArrayList MinuteEdges = new ArrayList();

            foreach (VoronoiEdge VE in VG.Edges)
            {
                if (!VE.IsPartlyInfinite && VE.VVertexA.Equals(VE.VVertexB))
                {
                    MinuteEdges.Add(VE);
                    // prevent rounding errors from expanding to holes
                    foreach (VoronoiEdge VE2 in VG.Edges)
                    {
                        if (VE2.VVertexA.Equals(VE.VVertexA))
                        {
                            VE2.VVertexA = VE.VVertexA;
                        }
                        if (VE2.VVertexB.Equals(VE.VVertexA))
                        {
                            VE2.VVertexB = VE.VVertexA;
                        }
                    }
                }
            }
            foreach (VoronoiEdge VE in MinuteEdges)
            {
                VG.Edges.Remove(VE);
            }

            return(VG);
        }
        public static VNode ProcessCircleEvent(VCircleEvent e, VNode Root, VoronoiGraph VG, double ys, out VDataNode[] CircleCheckList)
        {
            VDataNode a, b, c;
            VEdgeNode eu, eo;

            b = e.NodeN;
            a = VNode.LeftDataNode(b);
            c = VNode.RightDataNode(b);
            if (a == null || b.Parent == null || c == null || !a.DataPoint.Equals(e.NodeL.DataPoint) || !c.DataPoint.Equals(e.NodeR.DataPoint))
            {
                CircleCheckList = new VDataNode[] {};
                return(Root);                // Abbruch da sich der Graph verändert hat
            }
            eu = (VEdgeNode)b.Parent;
            CircleCheckList = new VDataNode[] { a, c };
            //1. Create the new Vertex
            Vector VNew = new Vector(e.Center[0], e.Center[1]);

//			VNew[0] = Fortune.ParabolicCut(a.DataPoint[0],a.DataPoint[1],c.DataPoint[0],c.DataPoint[1],ys);
//			VNew[1] = (ys + a.DataPoint[1])/2 - 1/(2*(ys-a.DataPoint[1]))*(VNew[0]-a.DataPoint[0])*(VNew[0]-a.DataPoint[0]);
            VG.Vertices.Add(VNew);
            //2. Find out if a or c are in a distand part of the tree (the other is then b's sibling) and assign the new vertex
            if (eu.Left == b)          // c is sibling
            {
                eo = VNode.EdgeToRightDataNode(a);

                // replace eu by eu's Right
                eu.Parent.Replace(eu, eu.Right);
            }
            else             // a is sibling
            {
                eo = VNode.EdgeToRightDataNode(b);

                // replace eu by eu's Left
                eu.Parent.Replace(eu, eu.Left);
            }
            eu.Edge.AddVertex(VNew);
//			///////////////////// uncertain
//			if(eo==eu)
//				return Root;
//			/////////////////////

            //complete & cleanup eo
            eo.Edge.AddVertex(VNew);
            //while(eo.Edge.VVertexB == Fortune.VVUnkown)
            //{
            //    eo.Flipped = !eo.Flipped;
            //    eo.Edge.AddVertex(Fortune.VVInfinite);
            //}
            //if(eo.Flipped)
            //{
            //    Vector T = eo.Edge.LeftData;
            //    eo.Edge.LeftData = eo.Edge.RightData;
            //    eo.Edge.RightData = T;
            //}


            //2. Replace eo by new Edge
            VoronoiEdge VE = new VoronoiEdge();

            VE.LeftData  = a.DataPoint;
            VE.RightData = c.DataPoint;
            VE.AddVertex(VNew);
            VG.Edges.Add(VE);

            VEdgeNode VEN = new VEdgeNode(VE, false);

            VEN.Left  = eo.Left;
            VEN.Right = eo.Right;
            if (eo.Parent == null)
            {
                return(VEN);
            }
            eo.Parent.Replace(eo, VEN);
            return(Root);
        }
		public static VCircleEvent CircleCheckDataNode(VDataNode n, double ys)
		{
			VDataNode l = VNode.LeftDataNode(n);
			VDataNode r = VNode.RightDataNode(n);
			if(l==null || r==null || l.DataPoint==r.DataPoint || l.DataPoint==n.DataPoint || n.DataPoint==r.DataPoint)
				return null;
			if(MathTools.ccw(l.DataPoint[0],l.DataPoint[1],n.DataPoint[0],n.DataPoint[1],r.DataPoint[0],r.DataPoint[1],false)<=0)
				return null;
			Vector Center = Fortune.CircumCircleCenter(l.DataPoint,n.DataPoint,r.DataPoint);
			VCircleEvent VC = new VCircleEvent();
			VC.NodeN = n;
			VC.NodeL = l;
			VC.NodeR = r;
			VC.Center = Center;
			VC.Valid = true;
			if(VC.Y>ys || Math.Abs(VC.Y - ys) < 1e-10)
				return VC;
			return null;
		}
		public static VNode ProcessCircleEvent(VCircleEvent e, VNode Root, VoronoiGraph VG, double ys, out VDataNode[] CircleCheckList)
		{
			VDataNode a,b,c;
			VEdgeNode eu,eo;
			b = e.NodeN;
			a = VNode.LeftDataNode(b);
			c = VNode.RightDataNode(b);
			if(a==null || b.Parent==null || c==null || !a.DataPoint.Equals(e.NodeL.DataPoint) || !c.DataPoint.Equals(e.NodeR.DataPoint))
			{
				CircleCheckList = new VDataNode[]{};
				return Root; // Abbruch da sich der Graph verändert hat
			}
			eu = (VEdgeNode)b.Parent;
			CircleCheckList = new VDataNode[] {a,c};
			//1. Create the new Vertex
			Vector VNew = new Vector(e.Center[0],e.Center[1]);
//			VNew[0] = Fortune.ParabolicCut(a.DataPoint[0],a.DataPoint[1],c.DataPoint[0],c.DataPoint[1],ys);
//			VNew[1] = (ys + a.DataPoint[1])/2 - 1/(2*(ys-a.DataPoint[1]))*(VNew[0]-a.DataPoint[0])*(VNew[0]-a.DataPoint[0]);
			VG.Vertizes.Add(VNew);
			//2. Find out if a or c are in a distand part of the tree (the other is then b's sibling) and assign the new vertex
			if(eu.Left==b) // c is sibling
			{
				eo = VNode.EdgeToRightDataNode(a);

				// replace eu by eu's Right
				eu.Parent.Replace(eu,eu.Right);
			}
			else // a is sibling
			{
				eo = VNode.EdgeToRightDataNode(b);

				// replace eu by eu's Left
				eu.Parent.Replace(eu,eu.Left);
			}
			eu.Edge.AddVertex(VNew);
//			///////////////////// uncertain
//			if(eo==eu)
//				return Root;
//			/////////////////////
			
			//complete & cleanup eo
			eo.Edge.AddVertex(VNew);
			//while(eo.Edge.VVertexB == Fortune.VVUnkown)
			//{
			//    eo.Flipped = !eo.Flipped;
			//    eo.Edge.AddVertex(Fortune.VVInfinite);
			//}
			//if(eo.Flipped)
			//{
			//    Vector T = eo.Edge.LeftData;
			//    eo.Edge.LeftData = eo.Edge.RightData;
			//    eo.Edge.RightData = T;
			//}


			//2. Replace eo by new Edge
			VoronoiEdge VE = new VoronoiEdge();
			VE.LeftData = a.DataPoint;
			VE.RightData = c.DataPoint;
			VE.AddVertex(VNew);
			VG.Edges.Add(VE);

			VEdgeNode VEN = new VEdgeNode(VE, false);
			VEN.Left = eo.Left;
			VEN.Right = eo.Right;
			if(eo.Parent == null)
				return VEN;
			eo.Parent.Replace(eo,VEN);
			return Root;
		}
Beispiel #7
0
        public static VoronoiGraph ComputeVoronoiGraph(IEnumerable Datapoints)
        {
            BinaryPriorityQueue PQ             = new BinaryPriorityQueue();
            Hashtable           CurrentCircles = new Hashtable();
            VoronoiGraph        VG             = new VoronoiGraph();
            VNode RootNode = null;

            foreach (Vector V in Datapoints)
            {
                PQ.Push(new VDataEvent(V));
            }
            while (PQ.Count > 0)
            {
                VEvent      VE = PQ.Pop() as VEvent;
                VDataNode[] CircleCheckList;
                if (VE is VDataEvent)
                {
                    RootNode = VNode.ProcessDataEvent(VE as VDataEvent, RootNode, VG, VE.Y, out CircleCheckList);
                }
                else if (VE is VCircleEvent)
                {
                    CurrentCircles.Remove(((VCircleEvent)VE).NodeN);
                    if (!((VCircleEvent)VE).Valid)
                    {
                        continue;
                    }
                    RootNode = VNode.ProcessCircleEvent(VE as VCircleEvent, RootNode, VG, VE.Y, out CircleCheckList);
                }
                else
                {
                    throw new Exception("Got event of type " + VE.GetType().ToString() + "!");
                }
                foreach (VDataNode VD in CircleCheckList)
                {
                    if (CurrentCircles.ContainsKey(VD))
                    {
                        ((VCircleEvent)CurrentCircles[VD]).Valid = false;
                        CurrentCircles.Remove(VD);
                    }
                    VCircleEvent VCE = VNode.CircleCheckDataNode(VD, VE.Y);
                    if (VCE != null)
                    {
                        PQ.Push(VCE);
                        CurrentCircles[VD] = VCE;
                    }
                }
                if (VE is VDataEvent)
                {
                    Vector DP = ((VDataEvent)VE).DataPoint;
                    foreach (VCircleEvent VCE in CurrentCircles.Values)
                    {
                        if (MathTools.Dist(DP[0], DP[1], VCE.Center[0], VCE.Center[1]) < VCE.Y - VCE.Center[1] && Math.Abs(MathTools.Dist(DP[0], DP[1], VCE.Center[0], VCE.Center[1]) - (VCE.Y - VCE.Center[1])) > 1e-10)
                        {
                            VCE.Valid = false;
                        }
                    }
                }
            }

            VG.Regions = new Dictionary <Vector, VoronoiRegion>();

            foreach (VoronoiEdge e in VG.Edges)
            {
                if (e.VVertexA == VVUnkown || e.VVertexB == VVUnkown)
                {
                    continue;
                }

                for (int i = 0; i < 2; ++i)
                {
                    VoronoiRegion r;
                    Vector        key   = i == 0 ? e.LeftData : e.RightData;
                    bool          exist = VG.Regions.TryGetValue(key, out r);

                    if (exist)
                    {
                    }
                    else
                    {
                        r = new VoronoiRegion();
                    }
                    if (r.Coners.IndexOf(e.VVertexA) == -1)
                    {
                        r.Coners.Add(e.VVertexA);
                    }
                    if (r.Coners.IndexOf(e.VVertexB) == -1)
                    {
                        r.Coners.Add(e.VVertexB);
                    }

                    r.Edges.Add(e);

                    if (exist)
                    {
                    }
                    else
                    {
                        VG.Regions.Add(key, r);
                    }
                }
            }

            return(VG);
        }