// File: GeomConvert_BSplineCurveToBezierCurve.cxx // Created: Tue Mar 12 17:14:53 1996 // Author: Bruno DUMORTIER // #include #include #include //======================================================================= //function : GeomConvert_BSplineCurveToBezierCurve //purpose : //======================================================================= GeomConvert_BSplineCurveToBezierCurve::GeomConvert_BSplineCurveToBezierCurve (const Handle(Geom_BSplineCurve)& BasisCurve) { myCurve = Handle(Geom_BSplineCurve)::DownCast(BasisCurve->Copy()); Standard_Real Uf = myCurve->FirstParameter(); Standard_Real Ul = myCurve->LastParameter(); myCurve->Segment(Uf,Ul); myCurve->IncreaseMultiplicity(myCurve->FirstUKnotIndex(), myCurve->LastUKnotIndex(), myCurve->Degree()); } //======================================================================= //function : GeomConvert_BSplineCurveToBezierCurve //purpose : // 01/12/1997 PMN: On elimine d'eventuelles micro-courbe PRO11516 //=======================================================================Real I GeomConvert_BSplineCurveToBezierCurve::GeomConvert_BSplineCurveToBezierCurve (const Handle(Geom_BSplineCurve)& BasisCurve, const Standard_Real U1, const Standard_Real U2, const Standard_Real ParametricTolerance) { if (U2 - U1 < ParametricTolerance) Standard_DomainError::Raise("GeomConvert_BSplineCurveToBezierSurface"); Standard_Real Uf = U1, Ul = U2; Standard_Real PTol = ParametricTolerance/2 ; Standard_Integer I1, I2; myCurve = Handle(Geom_BSplineCurve)::DownCast(BasisCurve->Copy()); myCurve->LocateU(U1, PTol, I1, I2); if (I1==I2) { // On est sur le noeud if ( myCurve->Knot(I1) > U1) Uf = myCurve->Knot(I1); } myCurve->LocateU(U2, PTol, I1, I2); if (I1==I2) { // On est sur le noeud if ( myCurve->Knot(I1) < U2) Ul = myCurve->Knot(I1); } myCurve->Segment(Uf,Ul); myCurve->IncreaseMultiplicity(myCurve->FirstUKnotIndex(), myCurve->LastUKnotIndex(), myCurve->Degree()); } //======================================================================= //function : Arc //purpose : //======================================================================= Handle(Geom_BezierCurve) GeomConvert_BSplineCurveToBezierCurve::Arc (const Standard_Integer Index) { if ( Index < 1 || Index > myCurve->NbKnots()-1) { Standard_OutOfRange::Raise("GeomConvert_BSplineCurveToBezierCurve"); } Standard_Integer Deg = myCurve->Degree(); TColgp_Array1OfPnt Poles(1,Deg+1); Handle(Geom_BezierCurve) C; if ( myCurve->IsRational()) { TColStd_Array1OfReal Weights(1,Deg+1); for ( Standard_Integer i = 1; i <= Deg+1; i++) { Poles(i) = myCurve->Pole(i+Deg*(Index-1)); Weights(i) = myCurve->Weight(i+Deg*(Index-1)); } C = new Geom_BezierCurve(Poles,Weights); } else { for ( Standard_Integer i = 1; i <= Deg+1; i++) { Poles(i) = myCurve->Pole(i+Deg*(Index-1)); } C = new Geom_BezierCurve(Poles); } return C; } //======================================================================= //function : Arcs //purpose : //======================================================================= void GeomConvert_BSplineCurveToBezierCurve::Arcs (TColGeom_Array1OfBezierCurve& Curves) { Standard_Integer n = NbArcs(); for ( Standard_Integer i = 1; i <= n; i++) { Curves(i) = Arc(i); } } //======================================================================= //function : Knots //purpose : //======================================================================= void GeomConvert_BSplineCurveToBezierCurve::Knots (TColStd_Array1OfReal& TKnots) const { Standard_Integer ii, kk; for (ii = 1, kk = TKnots.Lower(); ii <=myCurve->NbKnots(); ii++, kk++) TKnots(kk) = myCurve->Knot(ii); } //======================================================================= //function : NbArcs //purpose : //======================================================================= Standard_Integer GeomConvert_BSplineCurveToBezierCurve::NbArcs() const { return (myCurve->NbKnots()-1); }