// File: IGESToBRep_IGESBoundary.cxx // Created: Wed Dec 16 17:00:20 1998 // Author: Roman LYGIN // #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include //======================================================================= //function : IGESToBRep_IGESBoundary //purpose : //======================================================================= IGESToBRep_IGESBoundary::IGESToBRep_IGESBoundary() { } //======================================================================= //function : IGESToBRep_IGESBoundary //purpose : //======================================================================= IGESToBRep_IGESBoundary::IGESToBRep_IGESBoundary(const IGESToBRep_CurveAndSurface& CS) : myCS (CS) { } //======================================================================= //function : Init //purpose : //======================================================================= void IGESToBRep_IGESBoundary::Init(const IGESToBRep_CurveAndSurface& CS, const Handle(IGESData_IGESEntity)& entity, const TopoDS_Face& face, const gp_Trsf2d& trans, const Standard_Real uFact, const Standard_Integer filepreference) { myCS = CS; myentity = entity; myface = face; mytrsf = trans; myuFact = uFact; myfilepreference = filepreference; } //======================================================================= //function : Transfer //purpose : //======================================================================= Standard_Boolean IGESToBRep_IGESBoundary::Transfer(Standard_Boolean& okCurve, Standard_Boolean& okCurve3d, Standard_Boolean& okCurve2d, const Handle(IGESData_IGESEntity)& curve3d, const Standard_Boolean toreverse3d, const Handle(IGESData_HArray1OfIGESEntity)& curves2d, const Standard_Integer number) { Handle(ShapeExtend_WireData) scurve3d, lsewd; //temporary objects return Transfer (okCurve, okCurve3d, okCurve2d, curve3d, scurve3d, Standard_False, toreverse3d, curves2d, Standard_False, number, lsewd); } //======================================================================= //function : Transfer //purpose : //======================================================================= Standard_Boolean IGESToBRep_IGESBoundary::Transfer(Standard_Boolean& okCurve, Standard_Boolean& okCurve3d, Standard_Boolean& okCurve2d, const Handle(ShapeExtend_WireData)& curve3d, const Handle(IGESData_HArray1OfIGESEntity)& curves2d, const Standard_Boolean toreverse2d, const Standard_Integer number, Handle(ShapeExtend_WireData)& lsewd) { Handle(IGESData_IGESEntity) icurve3d; //temporary object return Transfer (okCurve, okCurve3d, okCurve2d, icurve3d, curve3d, Standard_True, Standard_False, curves2d, toreverse2d, number, lsewd); } //======================================================================= //function : Check //purpose : //======================================================================= void IGESToBRep_IGESBoundary::Check(const Standard_Boolean,const Standard_Boolean,const Standard_Boolean,const Standard_Boolean) { // Implemented in Advanced Data Exchange } //======================================================================= //function : Transfer //purpose : //======================================================================= Standard_Boolean IGESToBRep_IGESBoundary::Transfer(Standard_Boolean&, Standard_Boolean&, Standard_Boolean&, const Handle(IGESData_IGESEntity)& icurve3d, const Handle(ShapeExtend_WireData)& scurve3d, const Standard_Boolean usescurve, const Standard_Boolean toreverse3d, const Handle(IGESData_HArray1OfIGESEntity)& curves2d, const Standard_Boolean toreverse2d, const Standard_Integer number, Handle(ShapeExtend_WireData)& Gsewd) { Gsewd = new ShapeExtend_WireData;//local translation (for mysewd) Handle(ShapeExtend_WireData) Gsewd3d = new ShapeExtend_WireData;//local translation (for mysewd3d) Handle(ShapeExtend_WireData) Gsewd2d = new ShapeExtend_WireData;//local translation (for mysewd2d) Standard_Boolean GTranslate3d = Standard_True, GTranslate2d = Standard_True, Preferred3d = Standard_True, Preferred2d = Standard_True; Standard_Integer len3d = 0, len2d = 0; Handle(TColStd_HSequenceOfTransient) seq3d, seq2d; if (usescurve) len3d = scurve3d->NbEdges(); else { IGESToBRep::IGESCurveToSequenceOfIGESCurve (icurve3d, seq3d); len3d = seq3d->Length(); } if (!curves2d.IsNull()) { for (Standard_Integer i = 1; i <= curves2d->Length(); i++) IGESToBRep::IGESCurveToSequenceOfIGESCurve (curves2d->Value (i), seq2d); len2d = seq2d->Length(); } if (len3d == 0) GTranslate3d = Standard_False; else if (len2d == 0) GTranslate2d = Standard_False; if (GTranslate3d && GTranslate2d) { //Setting preference in the case of inconsitency between 3D and 2D if (myfilepreference == 2) Preferred3d = Standard_False; else if (myfilepreference == 3) Preferred2d = Standard_False; else Preferred3d = Standard_False; } if (GTranslate3d && GTranslate2d && len3d != len2d) { GTranslate3d = Preferred3d; GTranslate2d = Preferred2d; } IGESToBRep_TopoCurve TC (myCS); if (GTranslate3d && !GTranslate2d) { if (usescurve) Gsewd->Add (scurve3d->Wire()); else { TopoDS_Shape Sh = TC.TransferTopoCurve (icurve3d); if (!Sh.IsNull()) { Gsewd3d->Add (Sh); if (toreverse3d) { ReverseCurves3d (Gsewd3d); Gsewd->Add (Gsewd3d->Wire()); } else Gsewd->Add (Sh);//Gsewd = Gsewd3d is impossible to avoid sharing of sewd (UK1.igs entity 7) } } } else if (!GTranslate3d && GTranslate2d) { for (Standard_Integer i = curves2d->Lower(); i <= curves2d->Upper(); i++) { TopoDS_Shape Sh = TC.Transfer2dTopoCurve (Handle(IGESData_IGESEntity)::DownCast (curves2d->Value (i)), myface, mytrsf, myuFact); if (!Sh.IsNull()) Gsewd2d->Add (Sh); } if (toreverse2d) ReverseCurves2d (Gsewd2d, myface); Gsewd->Add (Gsewd2d->Wire()); } else if (GTranslate3d && GTranslate2d) { //Translate both curves 3D and 2D //Suppose that i-th segment in 2D curve corresponds to i-th segment in 3D curve for (Standard_Integer i = 1; i <= len3d; i++) { Standard_Boolean LTranslate3d = Standard_True, LTranslate2d = Standard_True; Handle(ShapeExtend_WireData) Lsewd3d = new ShapeExtend_WireData; TC.SetBadCase (Standard_False); //:27 if (usescurve) Lsewd3d->Add (scurve3d->Edge (i)); else { TopoDS_Shape shape3d = TC.TransferTopoCurve (Handle(IGESData_IGESEntity)::DownCast (seq3d->Value (i))); if (!shape3d.IsNull()) { Lsewd3d->Add (shape3d); if (toreverse3d) ReverseCurves3d (Lsewd3d); } else LTranslate3d = Standard_False; } Gsewd3d->Add (Lsewd3d->Wire()); Handle(ShapeExtend_WireData) Lsewd2d = new ShapeExtend_WireData; TopoDS_Shape shape2d = TC.Transfer2dTopoCurve (Handle(IGESData_IGESEntity)::DownCast (seq2d->Value (i)), myface, mytrsf, myuFact); if (!shape2d.IsNull()) { Lsewd2d->Add (shape2d); if (toreverse2d) ReverseCurves2d (Lsewd2d, myface); Gsewd2d->Add (Lsewd2d->Wire()); } else LTranslate2d = Standard_False; if (LTranslate3d && LTranslate2d && Lsewd3d->NbEdges() != Lsewd2d->NbEdges()) { LTranslate3d = Preferred3d; LTranslate2d = Preferred2d; } Handle(ShapeExtend_WireData) Lsewd;//Lsewd3d or Lsewd2d or Lsewd3d+pcurve if ( LTranslate3d && !LTranslate2d) Lsewd = Lsewd3d; else if (!LTranslate3d && LTranslate2d) Lsewd = Lsewd2d; else { Lsewd = Lsewd3d; //copying pcurve to edge with 3D curve for (Standard_Integer iedge = 1; iedge <= Lsewd3d->NbEdges(); iedge++) { TopoDS_Edge edge3d = Lsewd3d->Edge (iedge), edge2d = Lsewd2d->Edge (iedge); if (!IGESToBRep::TransferPCurve (edge2d, edge3d, myface)) continue; } } Gsewd->Add (Lsewd->Wire()); } } if (number > 1) { mysewd ->Add (Gsewd ->Wire()); mysewd3d->Add (Gsewd3d->Wire()); mysewd2d->Add (Gsewd2d->Wire()); } else { mysewd = Gsewd; mysewd3d = Gsewd3d; mysewd2d = Gsewd2d; } return Standard_True; } //======================================================================= //function : ReverseCurves3d //purpose : Reverses 3D curves of the edges in the wire and reverses // the order of edges in the wire. // Orientation of each edge is not changed //======================================================================= void IGESToBRep_IGESBoundary::ReverseCurves3d (const Handle(ShapeExtend_WireData)& sewd) { sewd->Reverse(); BRep_Builder B; TopoDS_Wire W; B.MakeWire(W); for (Standard_Integer i = 1; i <= sewd->NbEdges(); i++) { TopoDS_Edge oldedge = sewd->Edge (i), newedge; TopLoc_Location L; Standard_Real p1, p2; Handle(Geom_Curve) curve = BRep_Tool::Curve (oldedge, L, p1, p2); if (curve->IsPeriodic()) //#21 ShapeBuild_Edge().MakeEdge (newedge, curve->Reversed(), L, curve->ReversedParameter (p2), curve->ReversedParameter (p1)); else ShapeBuild_Edge().MakeEdge (newedge, curve->Reversed(), L, Max (curve->ReversedParameter(curve->LastParameter()), curve->ReversedParameter (p2)), Min (curve->ReversedParameter(curve->FirstParameter()), curve->ReversedParameter (p1))); newedge.Orientation(TopAbs::Reverse (oldedge.Orientation())); //sewd->Set (newedge, i); B.Add(W,newedge); } Handle(ShapeFix_Wire) sfw = new ShapeFix_Wire(); sfw->Load(W); sfw->FixConnected(); sewd->Init(sfw->Wire()); } //======================================================================= //function : ReverseCurves2d //purpose : Reverses pcurves of the edges in the wire and reverses // the order of edges in the wire. // Orientation of each edge is also changed //======================================================================= void IGESToBRep_IGESBoundary::ReverseCurves2d (const Handle(ShapeExtend_WireData)& sewd, const TopoDS_Face& face) { sewd->Reverse(face); for (Standard_Integer i = 1; i <= sewd->NbEdges(); i++) { TopoDS_Edge oldedge = sewd->Edge (i), newedge; Standard_Real p1, p2; Handle(Geom2d_Curve) curve = BRep_Tool::CurveOnSurface (oldedge, face, p1, p2); // skl 24.04.2002 for OCC314 if(curve->IsPeriodic()) ShapeBuild_Edge().MakeEdge (newedge, curve->Reversed(), face, curve->ReversedParameter (p2), curve->ReversedParameter (p1)); else ShapeBuild_Edge().MakeEdge (newedge, curve->Reversed(), face, Max (curve->FirstParameter(), curve->ReversedParameter (p2)),//BUC50001 entity 936 2DForced Min (curve->LastParameter(), curve->ReversedParameter (p1))); newedge.Orientation(oldedge.Orientation()); sewd->Set (newedge, i); } }