def GetPolylineCurve(rhObj): try: geo = rhObj.Geometry if geo.ToString() == "Rhino.Geometry.PolylineCurve": return rhCurveToPolyCurve(geo) except: pass
def GetGeometry(rhObj): try: geo = rhObj.Geometry if geo.ToString() == "Rhino.Geometry.LineCurve": return rhLineToLine(geo) elif geo.ToString() == "Rhino.Geometry.ArcCurve" and geo.IsArc(): return rhArcToArc(geo) elif geo.ToString() == "Rhino.Geometry.Point": return rhPointToPoint(geo) elif geo.ToString( ) == "Rhino.Geometry.NurbsCurve" and geo.IsClosed and geo.IsRational: return rhEllipseToEllipse(geo) elif geo.ToString() == "Rhino.Geometry.PolyCurve": return rhPolyCurveToPolyCurve(geo) elif geo.ToString() == "Rhino.Geometry.NurbsCurve": return rhSingleSpanNurbsCurveToCurve(geo) elif geo.ToString() == "Rhino.Geometry.Extrusion": brep = geo.ToBrep() return rhBrepToPolySurface(brep) elif geo.ToString() == "Rhino.Geometry.PolylineCurve": return rhCurveToPolyCurve(geo) elif geo.ToString() == "Rhino.Geometry.Mesh": return rhMeshToMesh(geo) except: try: geo = rhObj.Geometry if geo.ToString() == "Rhino.Geometry.Brep": brepFaces = geo.Faces faceList = [] for i in range(0, brepFaces.Count, 1): rhSurface = brepFaces.Item[i].UnderlyingSurface() if rhSurface.ToString() == "Rhino.Geometry.NurbsSurface": faceList.append(rhNurbsSurfaceToSurface(rhSurface)) elif rhSurface.ToString() == "Rhino.Geometry.RevSurface": faceList.append( rhNurbsSurfaceToSurface( rhSurface.ToNurbsSurface())) return faceList elif geo.ToString() == "Rhino.Geometry.ArcCurve" and geo.IsCircle( ): return rhCircleToCircle(geo) except: try: geo = rhObj.Geometry if geo.ToString() == "Rhino.Geometry.Brep": return rhBrepToPolySurface(geo) except: pass
def GetGeometry(rhObj): try: geo = rhObj.Geometry if geo.ToString() == "Rhino.Geometry.LineCurve": return rhLineToLine(geo) elif geo.ToString() == "Rhino.Geometry.ArcCurve" and geo.IsArc(): return rhArcToArc(geo) elif geo.ToString() == "Rhino.Geometry.Point": return rhPointToPoint(geo) elif geo.ToString() == "Rhino.Geometry.NurbsCurve" and geo.IsClosed and geo.IsRational: return rhEllipseToEllipse(geo) elif geo.ToString() == "Rhino.Geometry.PolyCurve": return rhPolyCurveToPolyCurve(geo) elif geo.ToString() == "Rhino.Geometry.NurbsCurve": return rhSingleSpanNurbsCurveToCurve(geo) elif geo.ToString() == "Rhino.Geometry.Extrusion": brep = geo.ToBrep() return rhBrepToPolySurface(brep) elif geo.ToString() == "Rhino.Geometry.PolylineCurve": return rhCurveToPolyCurve(geo) elif geo.ToString() == "Rhino.Geometry.Mesh": return rhMeshToMesh(geo) except: try: geo = rhObj.Geometry if geo.ToString() == "Rhino.Geometry.Brep": brepFaces = geo.Faces faceList = [] for i in range(0, brepFaces.Count, 1): rhSurface = brepFaces.Item[i].UnderlyingSurface() if rhSurface.ToString() == "Rhino.Geometry.NurbsSurface": faceList.append(rhNurbsSurfaceToSurface(rhSurface)) elif rhSurface.ToString() == "Rhino.Geometry.RevSurface": faceList.append(rhNurbsSurfaceToSurface(rhSurface.ToNurbsSurface())) return faceList elif geo.ToString() == "Rhino.Geometry.ArcCurve" and geo.IsCircle(): return rhCircleToCircle(geo) except: try: geo = rhObj.Geometry if geo.ToString() == "Rhino.Geometry.Brep": return rhBrepToPolySurface(geo) except: pass