public IntersectionCache(MetroGraphData metroGraphData, BundlingSettings bundlingSettings, CostCalculator costCalculator, Cdt cdt) {
     Debug.Assert(cdt!=null);
     this.metroGraphData = metroGraphData;
     this.bundlingSettings = bundlingSettings;
     this.costCalculator = costCalculator;
     this.cdt = cdt;
 }
        static internal void ShowHubs(MetroGraphData mgd, BundlingSettings bundlingSettings, bool withIdeal) {
            if (!withIdeal) return;

            foreach (var v in mgd.Stations) {
                ShowHubs(mgd, bundlingSettings, v);
            }
        }
 public Intersections(MetroGraphData metroGraphData, BundlingSettings bundlingSettings,
     RectangleNode<Polyline> obstacleTree, Func<Station, Set<Polyline>> obstaclesToIgnore) {
     this.metroGraphData = metroGraphData;
     this.obstaclesToIgnore = obstaclesToIgnore;
     this.bundlingSettings = bundlingSettings;
     this.obstacleTree = obstacleTree;
 }
 static internal void ShowHubs(MetroGraphData mgd, BundlingSettings bundlingSettings, params ICurve[] iCurves
     ) {
     HubDebugger hd = new HubDebugger(mgd, bundlingSettings);
     if (iCurves != null) {
         var dc = hd.CreateDebugCurves(iCurves);
         LayoutAlgorithmSettings.ShowDebugCurvesEnumeration(dc);
     }
 }
        static internal void ShowHubs(MetroGraphData mgd, BundlingSettings bundlingSettings, Station highlightedNode) {
            HubDebugger hd = new HubDebugger(mgd, bundlingSettings);
            List<DebugCurve> debugCurves = hd.CreateDebugCurves();
            debugCurves.Add(new DebugCurve(100,1, "magenta", CurveFactory.CreateCircle(3, highlightedNode.Position)));
            debugCurves.Add(new DebugCurve(100, 0.1, "green", highlightedNode.BoundaryCurve));

            Console.WriteLine(highlightedNode.SerialNumber);
            LayoutAlgorithmSettings.ShowDebugCurvesEnumeration(debugCurves);
        }
Esempio n. 6
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        static internal void ShowHubs(MetroGraphData metroGraphData, IMetroMapOrderingAlgorithm metroMapOrdering, Station station)
        {
            var ttt = GetAllDebugCurves(metroMapOrdering, metroGraphData);

            if (station != null)
            {
                ttt = ttt.Concat(new[] { new DebugCurve(255, 3, "pink", CurveFactory.CreateDiamond(20, 20, station.Position)) });
            }
            LayoutAlgorithmSettings.ShowDebugCurvesEnumeration(ttt);
        }
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        static Point FindCurveEnd(MetroGraphData metroGraphData, IMetroMapOrderingAlgorithm metroOrdering, Metroline metroline)
        {
            Station u = metroGraphData.PointToStations[metroline.Polyline.EndPoint.Prev.Point];
            Station v = metroGraphData.PointToStations[metroline.Polyline.EndPoint.Point];

            BundleBase bb    = v.BundleBases[u];
            int        index = (!bb.IsParent ? metroOrdering.GetLineIndexInOrder(u, v, metroline) : metroOrdering.GetLineIndexInOrder(v, u, metroline));

            return(bb.Points[index]);
        }
        static internal void ShowHubs(MetroGraphData mgd, BundlingSettings bundlingSettings, params ICurve[] iCurves
                                      )
        {
            HubDebugger hd = new HubDebugger(mgd, bundlingSettings);

            if (iCurves != null)
            {
                var dc = hd.CreateDebugCurves(iCurves);
                LayoutAlgorithmSettings.ShowDebugCurvesEnumeration(dc);
            }
        }
        static internal void ShowHubs(MetroGraphData mgd, BundlingSettings bundlingSettings, Station highlightedNode)
        {
            HubDebugger       hd          = new HubDebugger(mgd, bundlingSettings);
            List <DebugCurve> debugCurves = hd.CreateDebugCurves();

            debugCurves.Add(new DebugCurve(100, 1, "magenta", CurveFactory.CreateCircle(3, highlightedNode.Position)));
            debugCurves.Add(new DebugCurve(100, 0.1, "green", highlightedNode.BoundaryCurve));

            Console.WriteLine(highlightedNode.SerialNumber);
            LayoutAlgorithmSettings.ShowDebugCurvesEnumeration(debugCurves);
        }
Esempio n. 10
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        /// <summary>
        /// Returns the ideal radius of the hub
        /// </summary>
        static double CalculateIdealHubRadiusWithAdjacentEdges(MetroGraphData metroGraphData, BundlingSettings bundlingSettings, Station node)
        {
            double r = bundlingSettings.MaxHubRadius;

            foreach (var adj in node.Neighbors)
            {
                r = Math.Min(r, (node.Position - adj.Position).Length / 2);
            }

            return(r);
        }
        /// <summary>
        /// apply a number of heuristics to improve current routing
        /// </summary>
        internal static void FixRouting(MetroGraphData metroGraphData, BundlingSettings bundlingSettings)
        {
#if DEBUG && TEST_MSAGL
            Debug.Assert(metroGraphData.looseIntersections.HubPositionsAreOK());
#endif
            //TimeMeasurer.DebugOutput("Initial cost = " + CostCalculator.Cost(metroGraphData, bundlingSettings));
            //TimeMeasurer.DebugOutput("Initial cost of forces: " + CostCalculator.CostOfForces(metroGraphData, bundlingSettings));

            var adjuster = new NodePositionsAdjuster(metroGraphData, bundlingSettings);
            adjuster.GlueConflictingNodes();
            adjuster.UnglueEdgesFromBundleToSaveInk(true);

            var step     = 0;
            int MaxSteps = 10;
            while (++step < MaxSteps)
            {
/*#if DEBUG && TEST_MSAGL
 *              Debug.Assert(metroGraphData.looseIntersections.HubPositionsAreOK());
 #endif*/
                //heuristics to improve routing

                bool progress = adjuster.GlueConflictingNodes();

                progress |= adjuster.RelaxConstrainedEdges();

                progress |= (step <= 3 && adjuster.UnglueEdgesFromBundleToSaveInk(false));


                progress |= adjuster.GlueCollinearNeighbors(step);

                progress |= (step == 3 && adjuster.RemoveDoublePathCrossings());

                if (!progress)
                {
                    break;
                }
            }

            //one SA has to be executed with bundle forces
            metroGraphData.cdtIntersections.ComputeForcesForBundles = true;
            adjuster.RemoveDoublePathCrossings();
            adjuster.UnglueEdgesFromBundleToSaveInk(true);
            while (adjuster.GlueConflictingNodes())
            {
            }
            metroGraphData.Initialize(true); //this time initialize the tight enterables also

//            HubDebugger.ShowHubs(metroGraphData, bundlingSettings);
            //TimeMeasurer.DebugOutput("NodePositionsAdjuster stopped after " + step + " steps");
            //HubDebugger.ShowHubs(metroGraphData, bundlingSettings, true);

            //TimeMeasurer.DebugOutput("Final cost: " + CostCalculator.Cost(metroGraphData, bundlingSettings));
            //TimeMeasurer.DebugOutput("Final cost of forces: " + CostCalculator.CostOfForces(metroGraphData, bundlingSettings));
        }
        static internal void ShowHubs(MetroGraphData mgd, BundlingSettings bundlingSettings, bool withIdeal)
        {
            if (!withIdeal)
            {
                return;
            }

            foreach (var v in mgd.Stations)
            {
                ShowHubs(mgd, bundlingSettings, v);
            }
        }
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        /// <summary>
        /// Returns the ideal radius of the hub
        /// </summary>
        static double CalculateIdealHubRadius(MetroGraphData metroGraphData, BundlingSettings bundlingSettings, Station node)
        {
            double r = 1.0;

            foreach (Station adj in node.Neighbors)
            {
                double width = metroGraphData.GetWidth(adj, node, bundlingSettings.EdgeSeparation);
                double nr    = width / 2.0 + bundlingSettings.EdgeSeparation;
                r = Math.Max(r, nr);
            }

            r = Math.Min(r, 2 * bundlingSettings.MaxHubRadius);
            return(r);
        }
        /// <summary>
        /// Cost of the whole graph
        /// </summary>
        static internal double Cost(MetroGraphData metroGraphData, BundlingSettings bundlingSettings) {
            double cost = 0;

            //ink
            cost += bundlingSettings.InkImportance * metroGraphData.Ink;

            //path lengths
            foreach (var metroline in metroGraphData.Metrolines) {
                cost += bundlingSettings.PathLengthImportance * metroline.Length / metroline.IdealLength;
            }

            cost += CostOfForces(metroGraphData, bundlingSettings);

            return cost;
        }
        /// <summary>
        /// apply a number of heuristics to improve current routing
        /// </summary>
        internal static void FixRouting(MetroGraphData metroGraphData, BundlingSettings bundlingSettings) {
#if DEBUG && TEST_MSAGL
            Debug.Assert(metroGraphData.looseIntersections.HubPositionsAreOK());
#endif
            //TimeMeasurer.DebugOutput("Initial cost = " + CostCalculator.Cost(metroGraphData, bundlingSettings));
            //TimeMeasurer.DebugOutput("Initial cost of forces: " + CostCalculator.CostOfForces(metroGraphData, bundlingSettings));

            var adjuster = new NodePositionsAdjuster(metroGraphData, bundlingSettings);
            adjuster.GlueConflictingNodes();
            adjuster.UnglueEdgesFromBundleToSaveInk(true);

            var step = 0;
            int MaxSteps = 10;
            while (++step < MaxSteps) {
/*#if DEBUG && TEST_MSAGL
                Debug.Assert(metroGraphData.looseIntersections.HubPositionsAreOK());
#endif*/
                //heuristics to improve routing
                
                bool progress = adjuster.GlueConflictingNodes();

                progress |= adjuster.RelaxConstrainedEdges();

                progress |= (step <= 3 && adjuster.UnglueEdgesFromBundleToSaveInk(false));


                progress |= adjuster.GlueCollinearNeighbors(step);

                progress |= (step == 3 && adjuster.RemoveDoublePathCrossings());

                if (!progress) break;
            }

            //one SA has to be executed with bundle forces
            metroGraphData.cdtIntersections.ComputeForcesForBundles = true;
            adjuster.RemoveDoublePathCrossings();
            adjuster.UnglueEdgesFromBundleToSaveInk(true);
            while (adjuster.GlueConflictingNodes()) { }
            metroGraphData.Initialize(true); //this time initialize the tight enterables also

//            HubDebugger.ShowHubs(metroGraphData, bundlingSettings);
            //TimeMeasurer.DebugOutput("NodePositionsAdjuster stopped after " + step + " steps");
            //HubDebugger.ShowHubs(metroGraphData, bundlingSettings, true);

            //TimeMeasurer.DebugOutput("Final cost: " + CostCalculator.Cost(metroGraphData, bundlingSettings));
            //TimeMeasurer.DebugOutput("Final cost of forces: " + CostCalculator.CostOfForces(metroGraphData, bundlingSettings));
        }
        /// <summary>
        /// Cost of the whole graph (hubs and bundles)
        /// </summary>
        static internal double CostOfForces(MetroGraphData metroGraphData, BundlingSettings bundlingSettings) {
            double cost = 0;

            //hubs
            foreach (var v in metroGraphData.VirtualNodes()) {
                cost += v.cachedRadiusCost;
            }

            //bundles
            foreach (var edge in metroGraphData.VirtualEdges()) {
                var v = edge.Item1;
                var u = edge.Item2;
                cost += metroGraphData.GetIjInfo(v, u).cachedBundleCost;
            }

            return cost;
        }
Esempio n. 17
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        static ICurve SegOnLineVertex(MetroGraphData metroGraphData, IMetroMapOrderingAlgorithm metroOrdering, Metroline line, PolylinePoint i)
        {
            Station    u  = metroGraphData.PointToStations[i.Prev.Point];
            Station    v  = metroGraphData.PointToStations[i.Point];
            BundleBase h0 = v.BundleBases[u];
            int        j0 = metroOrdering.GetLineIndexInOrder(u, v, line);

            if (h0.OrientedHubSegments[j0] == null || h0.OrientedHubSegments[j0].Segment == null)
            {
                var w         = metroGraphData.PointToStations[i.Next.Point];
                var otherBase = v.BundleBases[w];
                var j1        = metroOrdering.GetLineIndexInOrder(w, v, line);
                return(new LineSegment(h0.Points[j0], otherBase.Points[j1]));
            }

            return(h0.OrientedHubSegments[j0].Segment);
        }
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        static IEnumerable <DebugCurve> DebugHubBases(MetroGraphData metroGraphData)
        {
            List <DebugCurve> dc = new List <DebugCurve>();

            foreach (var s in metroGraphData.Stations)
            {
                foreach (var h in s.BundleBases.Values)
                {
                    dc.Add(new DebugCurve(100, 1, "red", new LineSegment(h.LeftPoint, h.RightPoint)));
                }
            }

            return(dc);
            //return
            //    metroGraphData.Stations.SelectMany(s => s.BundleBases.Values).Select(
            //        h => new DebugCurve(100, 0.01, "red", new LineSegment(h.Points[0], h.Points.Last())));
        }
Esempio n. 19
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        /// <summary>
        /// Cost of the whole graph
        /// </summary>
        static internal double Cost(MetroGraphData metroGraphData, BundlingSettings bundlingSettings)
        {
            double cost = 0;

            //ink
            cost += bundlingSettings.InkImportance * metroGraphData.Ink;

            //path lengths
            foreach (var metroline in metroGraphData.Metrolines)
            {
                cost += bundlingSettings.PathLengthImportance * metroline.Length / metroline.IdealLength;
            }

            cost += CostOfForces(metroGraphData, bundlingSettings);

            return(cost);
        }
Esempio n. 20
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        /// <summary>
        /// Returns the ideal radius of the hub
        /// </summary>
        internal static double CalculateIdealHubRadiusWithNeighbors(MetroGraphData metroGraphData, BundlingSettings bundlingSettings, Station node, Point newPosition)
        {
            double r = CalculateIdealHubRadius(metroGraphData, bundlingSettings, node);

            if (node.Neighbors.Count() > 1)
            {
                Station[] adjNodes = node.Neighbors;
                //there must be enough space between neighbor bundles
                for (int i = 0; i < adjNodes.Length; i++)
                {
                    Station adj     = adjNodes[i];
                    Station nextAdj = adjNodes[(i + 1) % adjNodes.Length];
                    r = Math.Max(r, GetMinRadiusForTwoAdjacentBundles(r, node, newPosition, adj, nextAdj, metroGraphData, bundlingSettings));
                }
            }
            r = Math.Min(r, 2 * bundlingSettings.MaxHubRadius);
            return(r);
        }
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        static List <Tuple <Point, Point> > GetInterestingSegs(MetroGraphData metroGraphData, IMetroMapOrderingAlgorithm metroMapOrdering, Metroline line)
        {
            var   ret       = new List <Tuple <Point, Point> >();
            Point start     = FindCurveStart(metroGraphData, metroMapOrdering, line);
            var   cubicSegs = HubSegsOfLine(metroGraphData, metroMapOrdering, line);

            foreach (var seg in cubicSegs)
            {
                if (seg == null)
                {
                    continue;
                }
                ret.Add(new Tuple <Point, Point>(start, seg.Start));
                start = seg.End;
            }
            ret.Add(new Tuple <Point, Point>(start, FindCurveEnd(metroGraphData, metroMapOrdering, line)));

            return(ret);
        }
Esempio n. 22
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        /// <summary>
        /// Cost of the whole graph (hubs and bundles)
        /// </summary>
        static internal double CostOfForces(MetroGraphData metroGraphData, BundlingSettings bundlingSettings)
        {
            double cost = 0;

            //hubs
            foreach (var v in metroGraphData.VirtualNodes())
            {
                cost += v.cachedRadiusCost;
            }

            //bundles
            foreach (var edge in metroGraphData.VirtualEdges())
            {
                var v = edge.Item1;
                var u = edge.Item2;
                cost += metroGraphData.GetIjInfo(v, u).cachedBundleCost;
            }

            return(cost);
        }
Esempio n. 23
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        /// <summary>
        /// Radius we need to draw two adjacent bundles ab and ac
        /// </summary>
        internal static double GetMinRadiusForTwoAdjacentBundlesOld(double r, Point a, Point b, Point c, double widthAB, double widthAC,
                                                                    MetroGraphData metroGraphData, BundlingSettings bundlingSettings)
        {
            if (widthAB < ApproximateComparer.DistanceEpsilon || widthAC < ApproximateComparer.DistanceEpsilon)
            {
                return(r);
            }

            double angle = Point.Angle(b, a, c);

            angle = Math.Min(angle, Math.PI * 2 - angle);
            if (angle < ApproximateComparer.DistanceEpsilon)
            {
                return(2 * bundlingSettings.MaxHubRadius);
            }

            //binary search
            //TODO: solve the equation
            double L = r;
            double R = 2 * bundlingSettings.MaxHubRadius;

            while (Math.Abs(R - L) > 0.1)
            {
                double C = (L + R) / 2;

                double alpha0 = Math.Asin(widthAB / (2 * C));
                double alpha1 = Math.Asin(widthAC / (2 * C));
                if (alpha0 + alpha1 <= angle)
                {
                    R = C;
                }
                else
                {
                    L = C;
                }
            }

            return(L);
        }
Esempio n. 24
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        /// <summary>
        /// edge routing with Ordered Bundles:
        /// 1. route edges with bundling
        /// 2. nudge bundles and hubs
        /// 3. order paths
        /// </summary>
        protected override void RunInternal()
        {
            //TimeMeasurer.DebugOutput("edge bundling started");
            if (ThereAreOverlaps(TightHierarchy))
            {
                /*
                 * LayoutAlgorithmSettings.ShowDebugCurves(
                 *  TightHierarchy.GetAllLeaves().Select(p => new DebugCurve(100, 1, "black", p)).ToArray());*/
                Status = BundlingStatus.Overlaps;
                TimeMeasurer.DebugOutput("overlaps in edge bundling");
                return;
            }

            FixLocationsForHookAnywherePorts(geometryGraph.Edges);
            if (!RoutePathsWithSteinerDijkstra())
            {
                Status = BundlingStatus.EdgeSeparationIsTooLarge;
                return;
            }
            FixChildParentEdges();
            if (!bundlingSettings.StopAfterShortestPaths)
            {
                var metroGraphData = new MetroGraphData(regularEdges.Select(e => e.EdgeGeometry).ToArray(),
                                                        LooseHierarchy,
                                                        TightHierarchy,
                                                        bundlingSettings,
                                                        shortestPathRouter.Cdt,
                                                        EdgeLooseEnterable,
                                                        EdgeTightEnterable,
                                                        loosePolylineOfPort);
                NodePositionsAdjuster.FixRouting(metroGraphData, bundlingSettings);
                new EdgeNudger(metroGraphData, bundlingSettings).Run();
                //TimeMeasurer.DebugOutput("edge bundling ended");
            }
            RouteSelfEdges();
            FixArrowheads();
        }
Esempio n. 25
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 /// <summary>
 /// Constructor
 /// </summary>
 internal EdgeNudger(MetroGraphData metroGraphData, BundlingSettings bundlingSettings)
 {
     this.metroGraphData   = metroGraphData;
     this.bundlingSettings = bundlingSettings;
 }
        static Point FindCurveStart(MetroGraphData metroGraphData, IMetroMapOrderingAlgorithm metroOrdering, Metroline metroline) {
            Station u = metroGraphData.PointToStations[metroline.Polyline.StartPoint.Point];
            Station v = metroGraphData.PointToStations[metroline.Polyline.StartPoint.Next.Point];

            BundleBase bb = u.BundleBases[v];
            int index = (!bb.IsParent ? metroOrdering.GetLineIndexInOrder(v, u, metroline) : metroOrdering.GetLineIndexInOrder(u, v, metroline));
            return bb.Points[index];
        }
 /// <summary>
 /// Constructor
 /// </summary>
 internal EdgeNudger(MetroGraphData metroGraphData, BundlingSettings bundlingSettings) {
     this.metroGraphData = metroGraphData;
     this.bundlingSettings = bundlingSettings;
 }
Esempio n. 28
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 static IEnumerable <DebugCurve> VertexDebugCurves(IMetroMapOrderingAlgorithm metroMapOrdering, MetroGraphData metroGraphData)
 {
     return(DebugCircles(metroGraphData).Concat(DebugHubBases(metroGraphData)).
            Concat(DebugSegs(metroGraphData, metroMapOrdering)).
            Concat(BetweenHubs(metroMapOrdering, metroGraphData)));
 }
 SimulatedAnnealing(MetroGraphData metroGraphData, BundlingSettings bundlingSettings) {
     this.metroGraphData = metroGraphData;
     this.bundlingSettings = bundlingSettings;
     costCalculator = new CostCalculator(metroGraphData, bundlingSettings);
     cache = new IntersectionCache(metroGraphData, bundlingSettings, costCalculator, metroGraphData.Cdt);
 }
 /// <summary>
 /// fix routing by simulated annealing algorithm
 /// </summary>
 internal static bool FixRouting(MetroGraphData metroGraphData, BundlingSettings bundlingSettings) {
     return FixRouting(metroGraphData, bundlingSettings, null);
 }
 internal CostCalculator(MetroGraphData metroGraphData, BundlingSettings bundlingSettings) {
     this.metroGraphData = metroGraphData;
     this.bundlingSettings = bundlingSettings;
 }
        static ICurve SegOnLineVertex(MetroGraphData metroGraphData, IMetroMapOrderingAlgorithm metroOrdering, Metroline line, PolylinePoint i) {
            Station u = metroGraphData.PointToStations[i.Prev.Point];
            Station v = metroGraphData.PointToStations[i.Point];
            BundleBase h0 = v.BundleBases[u];
            int j0 = metroOrdering.GetLineIndexInOrder(u, v, line);
            if (h0.OrientedHubSegments[j0] == null || h0.OrientedHubSegments[j0].Segment == null) {
                var w = metroGraphData.PointToStations[i.Next.Point];
                var otherBase = v.BundleBases[w];
                var j1 = metroOrdering.GetLineIndexInOrder(w, v, line);
                return new LineSegment(h0.Points[j0], otherBase.Points[j1]);
            }

            return h0.OrientedHubSegments[j0].Segment;
        }
Esempio n. 33
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 internal BundleBasesCalculator(IMetroMapOrderingAlgorithm metroOrdering, MetroGraphData metroGraphData, BundlingSettings bundlingSettings)
 {
     this.metroOrdering    = metroOrdering;
     this.metroGraphData   = metroGraphData;
     this.bundlingSettings = bundlingSettings;
 }
 internal FlipSwitcher(MetroGraphData metroGraphData) {
     this.metroGraphData = metroGraphData;
 }
        /// <summary>
        /// edge routing with Ordered Bundles:
        /// 1. route edges with bundling
        /// 2. nudge bundles and hubs
        /// 3. order paths
        /// </summary>
        protected override void RunInternal() {
            //TimeMeasurer.DebugOutput("edge bundling started");
            if (ThereAreOverlaps(TightHierarchy)) {
                /*
                LayoutAlgorithmSettings.ShowDebugCurves(
                    TightHierarchy.GetAllLeaves().Select(p => new DebugCurve(100, 1, "black", p)).ToArray());*/
                Status = BundlingStatus.Overlaps;
                TimeMeasurer.DebugOutput("overlaps in edge bundling");
                return;
            }

            FixLocationsForHookAnywherePorts(geometryGraph.Edges);
            if (!RoutePathsWithSteinerDijkstra()) {
                Status = BundlingStatus.EdgeSeparationIsTooLarge;
                return;
            }
            FixChildParentEdges();
            if (!bundlingSettings.StopAfterShortestPaths) {

                var metroGraphData = new MetroGraphData(regularEdges.Select(e => e.EdgeGeometry).ToArray(),
                                                        LooseHierarchy,
                                                        TightHierarchy,
                                                        bundlingSettings,
                                                        shortestPathRouter.Cdt,
                                                        EdgeLooseEnterable,
                                                        EdgeTightEnterable,
                                                        loosePolylineOfPort);
                NodePositionsAdjuster.FixRouting(metroGraphData, bundlingSettings);
                new EdgeNudger(metroGraphData, bundlingSettings).Run();
                //TimeMeasurer.DebugOutput("edge bundling ended");
            }
            RouteSelfEdges();
            FixArrowheads();
        }
 internal HubDebugger(MetroGraphData mgd, BundlingSettings bundlingSettings)
 {
     this.mgd = mgd;
     this.bundlingSettings = bundlingSettings;
 }
Esempio n. 37
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 internal FlipSwitcher(MetroGraphData metroGraphData)
 {
     this.metroGraphData = metroGraphData;
 }
 static internal IEnumerable<DebugCurve> GetAllDebugCurves(IMetroMapOrderingAlgorithm metroMapOrdering, MetroGraphData metroGraphData) {
     return GraphNodes(metroGraphData).Concat(VertexDebugCurves(metroMapOrdering, metroGraphData)).Concat(DebugEdges(metroGraphData));
 }
Esempio n. 39
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 internal CostCalculator(MetroGraphData metroGraphData, BundlingSettings bundlingSettings)
 {
     this.metroGraphData   = metroGraphData;
     this.bundlingSettings = bundlingSettings;
 }
 static IEnumerable<DebugCurve> VertexDebugCurves(IMetroMapOrderingAlgorithm metroMapOrdering, MetroGraphData metroGraphData) {
     return DebugCircles(metroGraphData).Concat(DebugHubBases(metroGraphData)).
         Concat(DebugSegs(metroGraphData, metroMapOrdering)).
         Concat(BetweenHubs(metroMapOrdering, metroGraphData));
 }
 internal FlipCollapser(MetroGraphData metroGraphData, BundlingSettings bundlingSettings, Cdt cdt) {
     this.metroGraphData = metroGraphData;
     this.bundlingSettings = bundlingSettings;
     this.cdt = cdt;
 }
        static List<Tuple<Point, Point>> GetInterestingSegs(MetroGraphData metroGraphData, IMetroMapOrderingAlgorithm metroMapOrdering, Metroline line) {
            var ret = new List<Tuple<Point, Point>>();
            Point start = FindCurveStart(metroGraphData, metroMapOrdering, line);
            var cubicSegs = HubSegsOfLine(metroGraphData, metroMapOrdering, line);
            foreach (var seg in cubicSegs) {
                if (seg == null) continue;
                ret.Add(new Tuple<Point, Point>(start, seg.Start));
                start = seg.End;
            }
            ret.Add(new Tuple<Point, Point>(start, FindCurveEnd(metroGraphData, metroMapOrdering, line)));

            return ret;
        }
 internal static bool FixRouting(MetroGraphData metroGraphData, BundlingSettings bundlingSettings, HashSet<Point> changedPoints) {
     return new SimulatedAnnealing(metroGraphData, bundlingSettings).FixRouting(changedPoints);
 }
 static IEnumerable<DebugCurve> DebugCircles(MetroGraphData metroGraphData) {
     return
         metroGraphData.Stations.Select(
             station => new DebugCurve(100, 0.1, "blue", CurveFactory.CreateCircle(station.Radius, station.Position)));
 }
 static IEnumerable<ICurve> HubSegsOfLine(MetroGraphData metroGraphData, IMetroMapOrderingAlgorithm metroOrdering, Metroline line) {
     for (PolylinePoint i = line.Polyline.StartPoint.Next; i.Next != null; i = i.Next)
         yield return SegOnLineVertex(metroGraphData, metroOrdering, line, i);
 }
Esempio n. 46
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 static IEnumerable <DebugCurve> BetweenHubs(IMetroMapOrderingAlgorithm metroMapOrdering, MetroGraphData metroGraphData)
 {
     foreach (Metroline ml in metroGraphData.Metrolines)
     {
         List <Tuple <Point, Point> > segs = GetInterestingSegs(metroGraphData, metroMapOrdering, ml);
         string color = GetMonotoneColor(ml.Polyline.Start, ml.Polyline.End, segs);
         foreach (var seg in segs)
         {
             yield return(new DebugCurve(100, ml.Width, color, new LineSegment(seg.Item1, seg.Item2)));
         }
     }
 }
 static internal void ShowHubs(MetroGraphData metroGraphData, IMetroMapOrderingAlgorithm metroMapOrdering, Station station) {
     var ttt = GetAllDebugCurves(metroMapOrdering, metroGraphData);
     if (station != null)
         ttt = ttt.Concat(new[] { new DebugCurve(255, 3, "pink", CurveFactory.CreateDiamond(20, 20, station.Position)) });
     LayoutAlgorithmSettings.ShowDebugCurvesEnumeration(ttt);
 }
Esempio n. 48
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 public CdtIntersections(MetroGraphData metroGraphData, BundlingSettings bundlingSettings)
 {
     this.metroGraphData   = metroGraphData;
     this.bundlingSettings = bundlingSettings;
 }
 static IEnumerable<DebugCurve> DebugEdges(MetroGraphData metroGraphData1) {
     return metroGraphData1.Edges.Select(e => new DebugCurve(40, 0.1, "gray", e.Curve));
 }
 /// <summary>
 /// fix routing by simulated annealing algorithm
 /// </summary>
 internal static bool FixRouting(MetroGraphData metroGraphData, BundlingSettings bundlingSettings)
 {
     return(FixRouting(metroGraphData, bundlingSettings, null));
 }
 static IEnumerable<DebugCurve> BetweenHubs(IMetroMapOrderingAlgorithm metroMapOrdering, MetroGraphData metroGraphData) {
     foreach (Metroline ml in metroGraphData.Metrolines) {
         List<Tuple<Point, Point>> segs = GetInterestingSegs(metroGraphData, metroMapOrdering, ml);
         string color = GetMonotoneColor(ml.Polyline.Start, ml.Polyline.End, segs);
         foreach (var seg in segs)
             yield return new DebugCurve(100, ml.Width, color, new LineSegment(seg.Item1, seg.Item2));
     }
 }
 internal static bool FixRouting(MetroGraphData metroGraphData, BundlingSettings bundlingSettings, HashSet <Point> changedPoints)
 {
     return(new SimulatedAnnealing(metroGraphData, bundlingSettings).FixRouting(changedPoints));
 }
        static IEnumerable<DebugCurve> DebugHubBases(MetroGraphData metroGraphData) {
            List<DebugCurve> dc = new List<DebugCurve>();
            foreach (var s in metroGraphData.Stations)
                foreach (var h in s.BundleBases.Values) {
                    dc.Add(new DebugCurve(100, 1, "red", new LineSegment(h.LeftPoint, h.RightPoint)));
                }

            return dc;
            //return
            //    metroGraphData.Stations.SelectMany(s => s.BundleBases.Values).Select(
            //        h => new DebugCurve(100, 0.01, "red", new LineSegment(h.Points[0], h.Points.Last())));
        }
 NodePositionsAdjuster(MetroGraphData metroGraphData, BundlingSettings bundlingSettings)
 {
     this.metroGraphData   = metroGraphData;
     this.bundlingSettings = bundlingSettings;
 }
        static IEnumerable<DebugCurve> DebugSegs(MetroGraphData metroGraphData, IMetroMapOrderingAlgorithm metroMapOrdering) {

            var ls = new List<ICurve>();
            foreach (var s in metroGraphData.VirtualNodes()) {
                foreach (var b in s.BundleBases.Values) {
                    foreach (var h in b.OrientedHubSegments) {
                        if (h == null) continue;
                        if (h.Segment == null) {
                            var uBase = h.Other.BundleBase;
                            var i = h.Index;
                            var j = h.Other.Index;
                            ls.Add(new LineSegment(b.Points[i], uBase.Points[j]));
                        }
                        else {
                            ls.Add(h.Segment);
                        }
                    }
                }
            }

            return ls.Select(s => new DebugCurve(100, 0.01, "green", s));
        }
Esempio n. 56
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 public PathFixer(MetroGraphData metroGraphData, Func <Metroline, Point, bool> polylineAcceptsPoint)
 {
     this.metroGraphData       = metroGraphData;
     this.polylineAcceptsPoint = polylineAcceptsPoint;
 }
 static IEnumerable<DebugCurve> GraphNodes(MetroGraphData metroGraphData) {
     var nodes =
         new Set<ICurve>(
             metroGraphData.Edges.Select(e => e.SourcePort.Curve).Concat(
                 metroGraphData.Edges.Select(e => e.TargetPort.Curve)));
     return nodes.Select(n => new DebugCurve(40, 1, "black", n));
 }
 internal BundleBasesCalculator(IMetroMapOrderingAlgorithm metroOrdering, MetroGraphData metroGraphData, BundlingSettings bundlingSettings) {
     this.metroOrdering = metroOrdering;
     this.metroGraphData = metroGraphData;
     this.bundlingSettings = bundlingSettings;
 }
 internal FlipCollapser(MetroGraphData metroGraphData, BundlingSettings bundlingSettings, Cdt cdt)
 {
     this.metroGraphData   = metroGraphData;
     this.bundlingSettings = bundlingSettings;
     this.cdt = cdt;
 }
Esempio n. 60
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 static IEnumerable <DebugCurve> DebugCircles(MetroGraphData metroGraphData)
 {
     return
         (metroGraphData.Stations.Select(
              station => new DebugCurve(100, 0.1, "blue", CurveFactory.CreateCircle(station.Radius, station.Position))));
 }