#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // Each Module is attached to a Protocol : it must interprete Case Numbers // (arguments of various methods) in accordance to values returned by // the method TypeNumber from this Protocol IGESGeom_SpecificModule::IGESGeom_SpecificModule() { } void IGESGeom_SpecificModule::OwnDump (const Standard_Integer CN, const Handle(IGESData_IGESEntity)& ent, const IGESData_IGESDumper& dumper, const Handle(Message_Messenger)& S, const Standard_Integer own) const { switch (CN) { case 1 : { DeclareAndCast(IGESGeom_BSplineCurve,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolBSplineCurve tool; tool.OwnDump(anent,dumper,S,own); } break; case 2 : { DeclareAndCast(IGESGeom_BSplineSurface,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolBSplineSurface tool; tool.OwnDump(anent,dumper,S,own); } break; case 3 : { DeclareAndCast(IGESGeom_Boundary,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolBoundary tool; tool.OwnDump(anent,dumper,S,own); } break; case 4 : { DeclareAndCast(IGESGeom_BoundedSurface,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolBoundedSurface tool; tool.OwnDump(anent,dumper,S,own); } break; case 5 : { DeclareAndCast(IGESGeom_CircularArc,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolCircularArc tool; tool.OwnDump(anent,dumper,S,own); } break; case 6 : { DeclareAndCast(IGESGeom_CompositeCurve,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolCompositeCurve tool; tool.OwnDump(anent,dumper,S,own); } break; case 7 : { DeclareAndCast(IGESGeom_ConicArc,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolConicArc tool; tool.OwnDump(anent,dumper,S,own); } break; case 8 : { DeclareAndCast(IGESGeom_CopiousData,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolCopiousData tool; tool.OwnDump(anent,dumper,S,own); } break; case 9 : { DeclareAndCast(IGESGeom_CurveOnSurface,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolCurveOnSurface tool; tool.OwnDump(anent,dumper,S,own); } break; case 10 : { DeclareAndCast(IGESGeom_Direction,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolDirection tool; tool.OwnDump(anent,dumper,S,own); } break; case 11 : { DeclareAndCast(IGESGeom_Flash,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolFlash tool; tool.OwnDump(anent,dumper,S,own); } break; case 12 : { DeclareAndCast(IGESGeom_Line,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolLine tool; tool.OwnDump(anent,dumper,S,own); } break; case 13 : { DeclareAndCast(IGESGeom_OffsetCurve,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolOffsetCurve tool; tool.OwnDump(anent,dumper,S,own); } break; case 14 : { DeclareAndCast(IGESGeom_OffsetSurface,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolOffsetSurface tool; tool.OwnDump(anent,dumper,S,own); } break; case 15 : { DeclareAndCast(IGESGeom_Plane,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolPlane tool; tool.OwnDump(anent,dumper,S,own); } break; case 16 : { DeclareAndCast(IGESGeom_Point,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolPoint tool; tool.OwnDump(anent,dumper,S,own); } break; case 17 : { DeclareAndCast(IGESGeom_RuledSurface,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolRuledSurface tool; tool.OwnDump(anent,dumper,S,own); } break; case 18 : { DeclareAndCast(IGESGeom_SplineCurve,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolSplineCurve tool; tool.OwnDump(anent,dumper,S,own); } break; case 19 : { DeclareAndCast(IGESGeom_SplineSurface,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolSplineSurface tool; tool.OwnDump(anent,dumper,S,own); } break; case 20 : { DeclareAndCast(IGESGeom_SurfaceOfRevolution,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolSurfaceOfRevolution tool; tool.OwnDump(anent,dumper,S,own); } break; case 21 : { DeclareAndCast(IGESGeom_TabulatedCylinder,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolTabulatedCylinder tool; tool.OwnDump(anent,dumper,S,own); } break; case 22 : { DeclareAndCast(IGESGeom_TransformationMatrix,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolTransformationMatrix tool; tool.OwnDump(anent,dumper,S,own); } break; case 23 : { DeclareAndCast(IGESGeom_TrimmedSurface,anent,ent); if (anent.IsNull()) return; IGESGeom_ToolTrimmedSurface tool; tool.OwnDump(anent,dumper,S,own); } break; default : break; } } Standard_Boolean IGESGeom_SpecificModule::OwnCorrect (const Standard_Integer CN, const Handle(IGESData_IGESEntity)& ent) const { // Applies only on some types switch (CN) { case 3 : { DeclareAndCast(IGESGeom_Boundary,anent,ent); if (anent.IsNull()) break; IGESGeom_ToolBoundary tool; return tool.OwnCorrect(anent); } case 7 : { DeclareAndCast(IGESGeom_ConicArc,anent,ent); if (anent.IsNull()) break; IGESGeom_ToolConicArc tool; return tool.OwnCorrect(anent); } case 9 : { DeclareAndCast(IGESGeom_Boundary,anent,ent); if (anent.IsNull()) break; IGESGeom_ToolBoundary tool; return tool.OwnCorrect(anent); } case 11 : { DeclareAndCast(IGESGeom_Flash,anent,ent); if (anent.IsNull()) break; IGESGeom_ToolFlash tool; return tool.OwnCorrect(anent); } case 13 : { DeclareAndCast(IGESGeom_OffsetCurve,anent,ent); if (anent.IsNull()) break; IGESGeom_ToolOffsetCurve tool; return tool.OwnCorrect(anent); } case 22 : { DeclareAndCast(IGESGeom_TransformationMatrix,anent,ent); if (anent.IsNull()) break; IGESGeom_ToolTransformationMatrix tool; return tool.OwnCorrect(anent); } default : break; } return Standard_False; }