/////////////////////////////////////////////////////////////////////////////// // Copyright (C) 2002-2025, Open Design Alliance (the "Alliance"). // All rights reserved. // // This software and its documentation and related materials are owned by // the Alliance. The software may only be incorporated into application // programs owned by members of the Alliance, subject to a signed // Membership Agreement and Supplemental Software License Agreement with the // Alliance. The structure and organization of this software are the valuable // trade secrets of the Alliance and its suppliers. The software is also // protected by copyright law and international treaty provisions. Application // programs incorporating this software must include the following statement // with their copyright notices: // // This application incorporates Open Design Alliance software pursuant to a license // agreement with Open Design Alliance. // Open Design Alliance Copyright (C) 2002-2025 by Open Design Alliance. // All rights reserved. // // By use of this software, its documentation or related materials, you // acknowledge and accept the above terms. /////////////////////////////////////////////////////////////////////////////// #ifndef OdConstrainedEllipseImpl_INCLUDED #define OdConstrainedEllipseImpl_INCLUDED #include "OdConstrainedCurveImpl.h" #include "Ge/GeEllipArc3d.h" #include "TD_PackPush.h" /** \details This class represents custom implementation of the constrained ellipse node in the owning constraint group. Library: Source code provided. */ class DBCONSTRAINTS_EXPORT OdConstrainedEllipseImpl: public OdConstrainedCurveImpl { public: /** \details Constructor creates an instance of this class. */ OdConstrainedEllipseImpl(); /** \details Initializes this constrained ellipse object. */ virtual OdResult init(OdDbObjectId depId) ODRX_OVERRIDE; /** \details Checks whether the constrained ellipse is bounded and returns True when the it is bounded, or False otherwise. */ virtual bool isBounded() const; /** \details Returns the direction vector of this constrained ellipse. */ OdGeVector3d direction() const; /** \details Returns the major radius of this constrained ellipse. */ double majorRadius() const; /** \details Returns the minor radius of this constrained ellipse. */ double minorRadius() const; /** \details Returns the center point of this constrained ellipse. */ OdGePoint3d centerPoint() const; /** \details Reads the .dwg file data of this object. \param pFiler [in] Filer object from which data are read. \remarks Returns the filer status. */ virtual OdResult dwgInFields(OdDbDwgFiler* pFiler); /** \details Writes the .dwg file data of this object. \param pFiler [in] Pointer to the filer to which data are written. */ virtual void dwgOutFields(OdDbDwgFiler* pFiler) const; /** \details Reads the .dxf file data of this object. \param pFiler [in] Filer object from which data are read. \remarks Returns the filer status. */ virtual OdResult dxfInFields(OdDbDxfFiler* pFiler); /** \details Writes the .dxf file data of this object. \param pFiler [in] Pointer to the filer to which data are written. */ virtual void dxfOutFields(OdDbDxfFiler* pFiler) const; /** \details Sets the direction vector for this constrained ellipse. */ OdResult setDirection(const OdGeVector3d& val); /** \details Sets the major radius for this constrained ellipse. */ OdResult setMajorRadius(const double val); /** \details Sets the minor radius for this constrained ellipse. */ OdResult setMinorRadius(const double val); /** \details Sets the center point for this constrained ellipse. */ OdResult setCenterPoint(const OdGePoint3d& val); /** \details Compares two constrained ellipses on equality. */ virtual bool operator==(const OdConstrainedGeometryImpl& geom) const; /** \details Compares two constrained ellipses on unequality. */ virtual bool operator!=(const OdConstrainedGeometryImpl& geom) const; /** \details Sets data from a given geometry dependency using transformation matrix. */ virtual OdResult setDataFromGeomDependency(const OdDbObjectId geomDependencyId, const OdGeMatrix3d& matrFromWrd); /** \details Updates the database object. */ virtual OdResult updateDbObject(OdDbObject *pObj, OdDbAssocGeomDependency* pDep, const OdGeMatrix3d& matrToWrd); /** \details Gets the three-dimesional point for the specified implicit point through argument. */ virtual OdResult point(const OdConstrainedImplicitPointImpl* pImplicitPoint, OdGePoint3d& res) const; /** \details Sets the specified implicit point using a three-dimesional point passed through argument. */ virtual OdResult setPoint(const OdConstrainedImplicitPointImpl* pImplicitPoint, const OdGePoint3d& val); /** \details Gets the three-dimesional original point for the specified implicit point through argument. */ virtual OdResult getOriginalPoint(const OdConstrainedImplicitPointImpl* pImplicitPoint, OdGePoint3d& res) const; /** \details Gets the three-dimensional elliptical arc as Ge-object. */ virtual const OdGeEllipArc3d getOdGeEllipArc3d() const; /** \details Gets the original three-dimensional elliptical arc as Ge-object. */ virtual const OdGeEllipArc3d getOriginalOdGeEllipArc3d() const; /** \details Sets the center point, direction vector, major radius and minor radius for this constrained ellipse. */ OdResult set(const OdGePoint3d centerPt, const OdGeVector3d dir, const double majorRad, const double minorRad); /** \\details Restores original geometry. */ virtual void restoreOriginalGeometry(); protected: /*!DOM*/ OdGeEllipArc3d m_geArc; /*!DOM*/ OdGeEllipArc3d m_originGeArc; }; #include "TD_PackPop.h" #endif