/// <summary>
/// Overrides <see cref="CADability.GeoObject.ISurfaceImpl.Intersect (ICurve, BoundingRect, out GeoPoint[], out GeoPoint2D[], out double[])"/>
/// </summary>
/// <param name="curve"></param>
/// <param name="uvExtent"></param>
/// <param name="ips"></param>
/// <param name="uvOnFaces"></param>
/// <param name="uOnCurve3Ds"></param>
public override void Intersect(ICurve curve, BoundingRect uvExtent, out GeoPoint[] ips, out GeoPoint2D[] uvOnFaces, out double[] uOnCurve3Ds)
{
if (curve is Line)
{
GeoPoint ip;
if (Plane.Intersect(curve.StartPoint, curve.StartDirection, out ip))
{
ips = new GeoPoint[] { ip };
uvOnFaces = new GeoPoint2D[] { PositionOf(ip) };
uOnCurve3Ds = new double[] { curve.PositionOf(ip) };
}
else
{
ips = new GeoPoint[0];
uvOnFaces = new GeoPoint2D[0];
uOnCurve3Ds = new double[0];
}
#if DEBUG
//GeoPoint[] ipsdbg;
//GeoPoint2D[] uvOnFacesdbg;
//double[] uOnCurve3Dsdbg;
//base.Intersect(curve, out ipsdbg, out uvOnFacesdbg, out uOnCurve3Dsdbg);
#endif
return;
}
//else if (curve is IExplicitPCurve3D)
//{
// ExplicitPCurve3D epc3d = (curve as IExplicitPCurve3D).GetExplicitPCurve3D();
// double [] res = epc3d.GetPlaneIntersection(Location, DirectionX, DirectionY);
// for (int i = 0; i < res.Length; i++)
// {
// double d = Plane.Distance(epc3d.PointAt(res[i]));
// if (i>0) d = Plane.Distance(epc3d.PointAt((res[i]+res[i-1])/2.0));
// }
// double dd = Plane.Distance(epc3d.PointAt(epc3d.knots[epc3d.knots.Length - 1]));
// for (int i = 0; i < res.Length; i++)
// {
// res[i] = (res[i] - epc3d.knots[0]) / (epc3d.knots[epc3d.knots.Length - 1] - epc3d.knots[0]);
// }
//}
else
{
if (curve.GetPlanarState() == PlanarState.Planar)
{
GeoPoint loc;
GeoVector dir;
Plane pln = curve.GetPlane();
if (Plane.Intersect(curve.GetPlane(), out loc, out dir))
{
ICurve2D c2d = curve.GetProjectedCurve(pln);
BoundingRect ext = c2d.GetExtent();
ext.Inflate(ext.Height + ext.Width); // sonst entstehen null-Linien
ICurve2D ll = new Line2D(pln.Project(loc), pln.Project(dir), ext);
#if DEBUG
DebuggerContainer dc = new DebuggerContainer();
dc.Add(c2d);
dc.Add(ll);
#endif
GeoPoint2DWithParameter[] gpp = ll.Intersect(c2d);
ips = new GeoPoint[gpp.Length];
uvOnFaces = new GeoPoint2D[gpp.Length];
uOnCurve3Ds = new double[gpp.Length];
for (int i = 0; i < gpp.Length; ++i)
{
ips[i] = pln.ToGlobal(gpp[i].p);
uvOnFaces[i] = PositionOf(ips[i]);
uOnCurve3Ds[i] = curve.PositionOf(ips[i]);
}
}
else
{
ips = new GeoPoint[0];
uvOnFaces = new GeoPoint2D[0];
uOnCurve3Ds = new double[0];
}
#if DEBUG
//GeoPoint[] ipsdbg;
//GeoPoint2D[] uvOnFacesdbg;
//double[] uOnCurve3Dsdbg;
//base.Intersect(curve, out ipsdbg, out uvOnFacesdbg, out uOnCurve3Dsdbg);
#endif
return;
}
}
TetraederHull th = new TetraederHull(curve);
// alle Kurven müssten eine gemeinsame basis habe, auf die man sich hier beziehen kann
// damit die TetraederHull nicht mehrfach berechnet werden muss
th.PlaneIntersection(this, out ips, out uvOnFaces, out uOnCurve3Ds);
// base.Intersect(curve, out ips, out uvOnFaces, out uOnCurve3Ds);
}
