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 (MathF.ccw(l.DataPoint.X, l.DataPoint.Y, n.DataPoint.X, n.DataPoint.Y, r.DataPoint.X, r.DataPoint.Y, false) <= 0)
{
return(null);
}
Point 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);
}
/// <summary>
/// Build a new vector from a string
/// </summary>
/// <param name="S">A string, as produced by ToString</param>
public Vector(string S)
{
if (S[0] != '(' || S[S.Length - 1] != ')')
{
throw new Exception("Formatfehler!");
}
string[] P = MathF.HighLevelSplit(S.Substring(1, S.Length - 2), ';');
data = new double[P.Length];
int i;
for (i = 0; i < data.Length; i++)
{
data[i] = Convert.ToDouble(P[i]);
}
}
public static VoronoiGraph ComputeVoronoiGraph(Dictionary <Point, VoronoiCell> cells)
{
BinaryPriorityQueue PQ = new BinaryPriorityQueue();
Hashtable CurrentCircles = new Hashtable();
VoronoiGraph VG = new VoronoiGraph();
VNode RootNode = null;
foreach (Point V in cells.Keys)
{
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)
{
Point DP = ((VDataEvent)VE).DataPoint;
foreach (VCircleEvent VCE in CurrentCircles.Values)
{
if (MathF.Dist(DP.X, DP.Y, VCE.Center.X, VCE.Center.Y) < VCE.Y - VCE.Center.Y && Math.Abs(MathF.Dist(DP.X, DP.Y, VCE.Center.X, VCE.Center.Y) - (VCE.Y - VCE.Center.Y)) > 1e-10)
{
VCE.Valid = false;
}
}
}
}
VNode.CleanUpTree(RootNode);
foreach (VoronoiEdge VE in VG.Edges)
{
if (VE.Done)
{
continue;
}
if (VE.VVertexB.IsUndefined)
{
VE.AddVertex(Fortune.VVInfinite);
if (Math.Abs(VE.LeftData.Y - VE.RightData.Y) < 1e-10 && VE.LeftData.X < VE.RightData.X)
{
Point T = VE.LeftData;
VE.LeftData = VE.RightData;
VE.RightData = T;
}
}
}
ArrayList MinuteEdges = new ArrayList();
foreach (var edge in VG.Edges)
{
double ax = Math.Round(edge.VVertexA.X, Vector.Precision), ay = Math.Round(edge.VVertexA.Y, Vector.Precision),
bx = Math.Round(edge.VVertexB.X, Vector.Precision), by = Math.Round(edge.VVertexB.Y, Vector.Precision);
if (ax == bx && ay == by)
{
MinuteEdges.Add(edge);
continue;
}
edge.VVertexA = new Point(ax, ay);
edge.VVertexB = new Point(bx, by);
}
foreach (VoronoiEdge VE in MinuteEdges)
{
VG.Edges.Remove(VE);
}
foreach (var edge in VG.Edges)
{
VoronoiCell rightCell = cells[edge.RightData], leftCell = cells[edge.LeftData];
if (!rightCell.Edges.Contains(edge))
{
rightCell.Edges.Add(edge);
}
if (!leftCell.Edges.Contains(edge))
{
leftCell.Edges.Add(edge);
}
}
VG.Cells = cells;
return(VG);
}
