// Copyright (c) 1999-2014 OPEN CASCADE SAS // // This file is part of Open CASCADE Technology software library. // // This library is free software; you can redistribute it and/or modify it under // the terms of the GNU Lesser General Public License version 2.1 as published // by the Free Software Foundation, with special exception defined in the file // OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT // distribution for complete text of the license and disclaimer of any warranty. // // Alternatively, this file may be used under the terms of Open CASCADE // commercial license or contractual agreement. #include #include #include #include #include IMPLEMENT_STANDARD_RTTIEXT(StepGeom_QuasiUniformCurveAndRationalBSplineCurve,StepGeom_BSplineCurve) StepGeom_QuasiUniformCurveAndRationalBSplineCurve::StepGeom_QuasiUniformCurveAndRationalBSplineCurve () {} void StepGeom_QuasiUniformCurveAndRationalBSplineCurve::Init( const Handle(TCollection_HAsciiString)& aName, const Standard_Integer aDegree, const Handle(StepGeom_HArray1OfCartesianPoint)& aControlPointsList, const StepGeom_BSplineCurveForm aCurveForm, const StepData_Logical aClosedCurve, const StepData_Logical aSelfIntersect, const Handle(StepGeom_QuasiUniformCurve)& aQuasiUniformCurve, const Handle(StepGeom_RationalBSplineCurve)& aRationalBSplineCurve) { // --- classe own fields --- quasiUniformCurve = aQuasiUniformCurve; rationalBSplineCurve = aRationalBSplineCurve; // --- classe inherited fields --- StepGeom_BSplineCurve::Init(aName, aDegree, aControlPointsList, aCurveForm, aClosedCurve, aSelfIntersect); } void StepGeom_QuasiUniformCurveAndRationalBSplineCurve::Init( const Handle(TCollection_HAsciiString)& aName, const Standard_Integer aDegree, const Handle(StepGeom_HArray1OfCartesianPoint)& aControlPointsList, const StepGeom_BSplineCurveForm aCurveForm, const StepData_Logical aClosedCurve, const StepData_Logical aSelfIntersect, const Handle(TColStd_HArray1OfReal)& aWeightsData) { // --- classe inherited fields --- StepGeom_BSplineCurve::Init(aName, aDegree, aControlPointsList, aCurveForm, aClosedCurve, aSelfIntersect); // --- ANDOR componant fields --- quasiUniformCurve = new StepGeom_QuasiUniformCurve(); quasiUniformCurve->Init(aName, aDegree, aControlPointsList, aCurveForm, aClosedCurve, aSelfIntersect); // --- ANDOR componant fields --- rationalBSplineCurve = new StepGeom_RationalBSplineCurve(); rationalBSplineCurve->Init(aName, aDegree, aControlPointsList, aCurveForm, aClosedCurve, aSelfIntersect, aWeightsData); } void StepGeom_QuasiUniformCurveAndRationalBSplineCurve::SetQuasiUniformCurve(const Handle(StepGeom_QuasiUniformCurve)& aQuasiUniformCurve) { quasiUniformCurve = aQuasiUniformCurve; } Handle(StepGeom_QuasiUniformCurve) StepGeom_QuasiUniformCurveAndRationalBSplineCurve::QuasiUniformCurve() const { return quasiUniformCurve; } void StepGeom_QuasiUniformCurveAndRationalBSplineCurve::SetRationalBSplineCurve(const Handle(StepGeom_RationalBSplineCurve)& aRationalBSplineCurve) { rationalBSplineCurve = aRationalBSplineCurve; } Handle(StepGeom_RationalBSplineCurve) StepGeom_QuasiUniformCurveAndRationalBSplineCurve::RationalBSplineCurve() const { return rationalBSplineCurve; } //--- Specific Methods for AND classe field access --- //--- Specific Methods for AND classe field access --- void StepGeom_QuasiUniformCurveAndRationalBSplineCurve::SetWeightsData(const Handle(TColStd_HArray1OfReal)& aWeightsData) { rationalBSplineCurve->SetWeightsData(aWeightsData); } Handle(TColStd_HArray1OfReal) StepGeom_QuasiUniformCurveAndRationalBSplineCurve::WeightsData() const { return rationalBSplineCurve->WeightsData(); } Standard_Real StepGeom_QuasiUniformCurveAndRationalBSplineCurve::WeightsDataValue(const Standard_Integer num) const { return rationalBSplineCurve->WeightsDataValue(num); } Standard_Integer StepGeom_QuasiUniformCurveAndRationalBSplineCurve::NbWeightsData () const { return rationalBSplineCurve->NbWeightsData(); }