/// <summary>
/// direction to push a bundle away from obstacle
/// </summary>
Point BuildForceForBundle(Station node)
{
var direction = new Point();
foreach (var adj in node.Neighbors)
{
double idealWidth = metroGraphData.GetWidth(node, adj, bundlingSettings.EdgeSeparation);
List <Tuple <Point, Point> > closestPoints;
bool res = metroGraphData.cdtIntersections.BundleAvoidsObstacles(node, adj, node.Position, adj.Position, idealWidth / 2, out closestPoints);
if (!res)
{
#if DEBUG && TEST_MSAGL
HubDebugger.ShowHubs(metroGraphData, bundlingSettings, new LineSegment(node.Position, adj.Position));
#endif
}
//Debug.Assert(res); //todo : still unsolved
foreach (var d in closestPoints)
{
double dist = (d.Item1 - d.Item2).Length;
Debug.Assert(ApproximateComparer.LessOrEqual(dist, idealWidth / 2));
double lforce = 2.0 * (1.0 - dist / (idealWidth / 2));
Point dir = -(d.Item1 - d.Item2).Normalize();
direction += dir * lforce;
}
}
//derivative
Point force = direction * bundlingSettings.BundleRepulsionImportance;
return(force);
}
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));
LayoutAlgorithmSettings.ShowDebugCurvesEnumeration(debugCurves);
}
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);
}
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);
}
}
/// <summary>
/// check the validness of the drawing:
/// 1. hubs are not inside loose obstacles
/// 2. bundles do not cross loose obstacles
/// </summary>
internal bool HubPositionsAreOK()
{
//check polylines
foreach (var line in metroGraphData.Metrolines)
{
var poly = line.Polyline;
foreach (var p in poly.PolylinePoints)
{
Debug.Assert(metroGraphData.PointToStations.ContainsKey(p.Point));
}
}
foreach (var station in metroGraphData.Stations)
{
if (!station.IsRealNode && !HubAvoidsObstacles(station.Position, 0, obstaclesToIgnore(station)))
{
if (LayoutAlgorithmSettings.ShowDebugCurvesEnumeration != null)
{
HubDebugger.ShowHubsWithHighligtedStation(metroGraphData, bundlingSettings, station);
ShowStationWithObstaclesToIgnore(station, obstacleTree.AllHitItems(station.Position));
}
return(false);
}
//bundles
foreach (var adj in station.Neighbors)
{
if (ApproximateComparer.Close(adj.Position, station.Position))
{
return(false);
}
if (!EdgeIsLegal(station, adj, station.Position, adj.Position))
{
if (LayoutAlgorithmSettings.ShowDebugCurvesEnumeration != null)
{
//debug visualization
var l = new List <DebugCurve>();
//foreach (var st in metroGraphData.Stations) {
// l.Add(new DebugCurve(100, 0.5, "grey", st.BoundaryCurve));
//}
foreach (var poly in obstaclesToIgnore(station))
{
l.Add(new DebugCurve(100, 5, "green", poly));
}
foreach (var obstacle in obstacleTree.GetAllLeaves())
{
l.Add(new DebugCurve(100, 1, "red", obstacle));
}
l.Add(new DebugCurve(1, "blue", station.BoundaryCurve));
l.Add(new DebugCurve(1, "blue", adj.BoundaryCurve));
l.Add(new DebugCurve(1, "blue", new LineSegment(adj.Position, adj.Neighbors.First().Position)));
l.Add(new DebugCurve(1, "blue", new LineSegment(station.Position, adj.Position)));
LayoutAlgorithmSettings.ShowDebugCurvesEnumeration(l);
//end debug visualization
return(false);
}
}
}
}
return(true);
}
