public override IGH_GeometricGoo Morph(SpaceMorph xmorph) { GH_Spring nc = this.DuplicateGeometry() as GH_Spring; if (nc.Value.IsACurve) { xmorph.Morph(nc.Value.CurveA); } else { xmorph.Morph(nc.Value.PointA); } return(nc); }
public override IGH_GeometricGoo Morph(SpaceMorph xmorph) { Mesh m = Value.DuplicateMesh(); xmorph.Morph(m); return(new ResultMesh(m, m_results)); }
public override IGH_GeometricGoo Morph(SpaceMorph xmorph) { if (Value == null) { return(null); } if (Value.PolyCurve == null) { return(null); } GsaMember1d mem = new GsaMember1d { Member = Value.Member }; List <Point3d> pts = Value.Topology; for (int i = 0; i < pts.Count; i++) { pts[i] = xmorph.MorphPoint(pts[i]); } mem.Topology = pts; if (Value.PolyCurve != null) { PolyCurve crv = Value.PolyCurve.DuplicatePolyCurve(); xmorph.Morph(crv); mem.PolyCurve = crv; } return(new GsaMember1dGoo(mem)); }
public override IGH_GeometricGoo Morph(SpaceMorph xmorph) { var dup = this.m_value.Duplicate(); xmorph.Morph(dup); return(new GH_PointCloud((PointCloud)dup)); }
public IOrientableCurve Morph(SpaceMorph xmorph) { var curve = Curve.DuplicateCurve(); xmorph.Morph(curve); return(Create(curve)); }
public override IGH_GeometricGoo Morph(SpaceMorph xmorph) { var copy = Value.Duplicate(); xmorph.Morph(copy.Geometry); return(new GH_DisplayGeometry(copy)); }
public IOrientableCurve Morph(SpaceMorph xmorph) { var surface = (Surface)Surface.Duplicate(); xmorph.Morph(surface); return(Create(surface, Curve)); }
public override IGH_GeometricGoo Morph(SpaceMorph xmorph) { var dup = this.DuplicateGeometry() as GS_PointLoad; xmorph.Morph(dup.Value); return(dup); }
public override IGH_GeometricGoo Morph(SpaceMorph xmorph) { var dup = this.DuplicateGeometry() as GS_StructuralArea; xmorph.Morph(dup.Value); return(dup); }
public override IGH_GeometricGoo Morph(SpaceMorph xmorph) { if (Value == null) { return(null); } if (Value.Halfedges.Count < 1) { return(null); } // TODO: cast to Rhino.Geometry.Mesh Rhino.Geometry.Mesh mesh; CastTo <Rhino.Geometry.Mesh>(out mesh); xmorph.Morph(mesh); return(new GH_Mesh(mesh)); }
public override IGH_GeometricGoo Morph(SpaceMorph xmorph) { if (Value == null) { return(null); } var copy = Value.Duplicate(); var pointCloud = new Rhino.Geometry.PointCloud(copy.ToPoint3dArray()); xmorph.Morph(pointCloud); for (int i = 0; i < Value.Nodes.Count; i++) { copy.Nodes[i].X = pointCloud[i].Location.X; copy.Nodes[i].Y = pointCloud[i].Location.Y; copy.Nodes[i].Z = pointCloud[i].Location.Z; } return(new MolecularGoo(copy)); }
public override IGH_GeometricGoo Morph(SpaceMorph xmorph) { if (Value == null) { return(null); } if (Value.Plane == null) { return(null); } GsaGridPlaneSurface dup = Value.Duplicate(); Plane pln = dup.Plane; xmorph.Morph(ref pln); GsaGridPlaneSurface gridplane = new GsaGridPlaneSurface(pln); return(new GsaGridPlaneSurfaceGoo(gridplane)); }
public override IGH_GeometricGoo Morph(SpaceMorph xmorph) { if (Value == null) { return(null); } if (Value.SolidMesh == null) { return(null); } GsaMember3d elem = Value.Duplicate(); Mesh xMs = elem.SolidMesh; xmorph.Morph(xMs); elem.SolidMesh = xMs; return(new GsaMember3dGoo(elem)); }
public override IGH_GeometricGoo Morph(SpaceMorph xmorph) { if (Value == null) { return(null); } if (Value.Line == null) { return(null); } GsaElement1d elem = Value.Duplicate(); LineCurve xLn = Value.Line; xmorph.Morph(xLn); elem.Line = xLn; return(new GsaElement1dGoo(elem)); }
public override IGH_GeometricGoo Morph(SpaceMorph xmorph) { if (Value == null) { return(null); } if (Value.NgonMesh == null) { return(null); } GsaElement3d elem = Value.Duplicate(); Mesh xMs = elem.NgonMesh; xmorph.Morph(xMs); elem.NgonMesh = xMs; elem.TopoInt = Value.TopoInt; elem.Topology = Value.Topology; return(new GsaElement3dGoo(elem)); }
/*******************************************/ public IGH_GeometricGoo Morph(SpaceMorph xmorph) { if (m_RhinoGeometry == null) { return(null); } else if (m_RhinoGeometry is Point3d) { Point3d morphed = xmorph.MorphPoint((Rhino.Geometry.Point3d)m_RhinoGeometry); return(new GH_IBHoMGeometry { Value = morphed.FromRhino() }); } else { GeometryBase geometry = ((GeometryBase)m_RhinoGeometry).Duplicate(); xmorph.Morph(geometry); return(new GH_IBHoMGeometry { Value = geometry?.IFromRhino() }); } }
public override IGH_GeometricGoo Morph(SpaceMorph xmorph) { if (Value == null) { return(null); } if (Value.Mesh == null) { return(null); } GsaElement2d elem = new GsaElement2d { Elements = Value.Elements }; Mesh xMs = Value.Mesh; xmorph.Morph(xMs); elem.Mesh = xMs; elem.TopoInt = Value.TopoInt; elem.Topology = Value.Topology; return(new GsaElement2dGoo(elem)); }
public override IGH_GeometricGoo Morph(SpaceMorph xmorph) { if (Value == null) { return(null); } if (Value.Brep == null & Value.PolyCurve == null) { return(null); } GsaMember2d mem = new GsaMember2d { Member = Value.Member }; List <Point3d> pts = Value.Topology; for (int i = 0; i < pts.Count; i++) { pts[i] = xmorph.MorphPoint(pts[i]); } mem.Topology = pts; if (Value.VoidTopology != null) { for (int i = 0; i < Value.VoidTopology.Count; i++) { pts = Value.VoidTopology[i]; for (int j = 0; j < pts.Count; j++) { pts[j] = xmorph.MorphPoint(pts[j]); } mem.VoidTopology.Add(pts); } mem.VoidTopologyType = Value.VoidTopologyType; } if (Value.InclusionLines != null) { for (int i = 0; i < Value.InclusionLines.Count; i++) { PolyCurve xLn = Value.InclusionLines[i]; xmorph.Morph(xLn); mem.InclusionLines.Add(xLn); } for (int i = 0; i < Value.IncLinesTopology.Count; i++) { pts = Value.IncLinesTopology[i]; for (int j = 0; j < pts.Count; j++) { pts[j] = xmorph.MorphPoint(pts[j]); } mem.IncLinesTopology.Add(pts); } mem.IncLinesTopologyType = Value.IncLinesTopologyType; } if (Value.InclusionPoints != null) { pts = Value.InclusionPoints; for (int i = 0; i < pts.Count; i++) { pts[i] = xmorph.MorphPoint(pts[i]); } mem.InclusionPoints = pts; } if (Value.Brep != null) { Brep brep = Value.Brep.DuplicateBrep(); xmorph.Morph(brep); mem.Brep = brep; } if (Value.PolyCurve != null) { PolyCurve crv = Value.PolyCurve.DuplicatePolyCurve(); xmorph.Morph(crv); mem.PolyCurve = crv; } return(new GsaMember2dGoo(mem)); }