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// This file is generated by WOK (CPPExt).
// Please do not edit this file; modify original file instead.
// The copyright and license terms as defined for the original file apply to 
// this header file considered to be the "object code" form of the original source.

#ifndef _gp_Torus_HeaderFile
#define _gp_Torus_HeaderFile

#ifndef _Standard_HeaderFile
#include <Standard.hxx>
#endif
#ifndef _Standard_Macro_HeaderFile
#include <Standard_Macro.hxx>
#endif

#ifndef _gp_Ax3_HeaderFile
#include <gp_Ax3.hxx>
#endif
#ifndef _Standard_Real_HeaderFile
#include <Standard_Real.hxx>
#endif
#ifndef _Standard_Storable_HeaderFile
#include <Standard_Storable.hxx>
#endif
#ifndef _Standard_Boolean_HeaderFile
#include <Standard_Boolean.hxx>
#endif
#ifndef _gp_Ax1_HeaderFile
#include <gp_Ax1.hxx>
#endif
#ifndef _Standard_PrimitiveTypes_HeaderFile
#include <Standard_PrimitiveTypes.hxx>
#endif
class Standard_ConstructionError;
class Standard_DimensionError;
class gp_Ax3;
class gp_Ax1;
class gp_Pnt;
class TColStd_Array1OfReal;
class gp_Ax2;
class gp_Trsf;
class gp_Vec;


Standard_EXPORT const Handle(Standard_Type)& STANDARD_TYPE(gp_Torus);


//!  Describes a torus. <br>
//! A torus is defined by its major and minor radii and <br>
//! positioned in space with a coordinate system (a gp_Ax3 <br>
//! object) as follows: <br>
//! -   The origin of the coordinate system is the center of the torus; <br>
//! -   The surface is obtained by rotating a circle of radius <br>
//!   equal to the minor radius of the torus about the "main <br>
//!   Direction" of the coordinate system. This circle is <br>
//!   located in the plane defined by the origin, the "X <br>
//!   Direction" and the "main Direction" of the coordinate <br>
//!   system. It is centered on the "X Axis" of this coordinate <br>
//!   system, and located at a distance, from the origin of <br>
//!   this coordinate system, equal to the major radius of the   torus; <br>
//! -   The "X Direction" and "Y Direction" define the <br>
//!   reference plane of the torus. <br>
//! The coordinate system described above is the "local <br>
//! coordinate system" of the torus. <br>
//! Note: when a gp_Torus torus is converted into a <br>
//! Geom_ToroidalSurface torus, some implicit properties <br>
//! of its local coordinate system are used explicitly: <br>
//! -   its origin, "X Direction", "Y Direction" and "main <br>
//!   Direction" are used directly to define the parametric <br>
//!   directions on the torus and the origin of the parameters, <br>
//! -   its implicit orientation (right-handed or left-handed) <br>
//!   gives the orientation (direct, indirect) to the <br>
//!   Geom_ToroidalSurface torus. <br>
//! See Also <br>
//! gce_MakeTorus which provides functions for more <br>
//! complex torus constructions <br>
//! Geom_ToroidalSurface which provides additional <br>
//! functions for constructing tori and works, in particular, <br>
//! with the parametric equations of tori. <br>
class gp_Torus  {

public:
  void* operator new(size_t,void* anAddress) 
  {
    return anAddress;
  }
  void* operator new(size_t size) 
  {
    return Standard::Allocate(size); 
  }
  void  operator delete(void *anAddress) 
  {
    if (anAddress) Standard::Free((Standard_Address&)anAddress); 
  }

  //! creates an indefinite Torus. <br>
      gp_Torus();
  
//! a torus centered on the origin of coordinate system <br>
//!   A3, with major radius MajorRadius and minor radius <br>
//!   MinorRadius, and with the reference plane defined <br>
//!   by the origin, the "X Direction" and the "Y Direction" of A3. <br>
//!  Warnings : <br>
//!  It is not forbidden to create a torus with <br>
//!  MajorRadius = MinorRadius = 0.0 <br>
//! Raises ConstructionError if MinorRadius < 0.0 or if MajorRadius < 0.0 <br>
      gp_Torus(const gp_Ax3& A3,const Standard_Real MajorRadius,const Standard_Real MinorRadius);
  //! Modifies this torus, by redefining its local coordinate <br>
//! system so that: <br>
//! -   its origin and "main Direction" become those of the <br>
//! axis A1 (the "X Direction" and "Y Direction" are then recomputed). <br>
//! Raises ConstructionError if the direction of A1 is parallel to the "XDirection" <br>
//!  of the coordinate system of the toroidal surface. <br>
        void SetAxis(const gp_Ax1& A1) ;
  //! Changes the location of the torus. <br>
        void SetLocation(const gp_Pnt& Loc) ;
  //! Assigns value to the major radius  of this torus. <br>
//! Raises ConstructionError if MajorRadius - MinorRadius <= Resolution() <br>
        void SetMajorRadius(const Standard_Real MajorRadius) ;
  //! Assigns value to the  minor radius of this torus. <br>
//! Raises ConstructionError if MinorRadius < 0.0 or if <br>
//!  MajorRadius - MinorRadius <= Resolution from gp. <br>
        void SetMinorRadius(const Standard_Real MinorRadius) ;
  //! Changes the local coordinate system of the surface. <br>
        void SetPosition(const gp_Ax3& A3) ;
  //! Computes the area of the torus. <br>
        Standard_Real Area() const;
  //! Reverses the   U   parametrization of   the  torus <br>
//!          reversing the YAxis. <br>
        void UReverse() ;
  //! Reverses the   V   parametrization of   the  torus <br>
//!          reversing the ZAxis. <br>
  Standard_EXPORT     void VReverse() ;
  //! returns true if the Ax3, the local coordinate system of this torus, is right handed. <br>
        Standard_Boolean Direct() const;
  //! returns the symmetry axis of the torus. <br>
       const gp_Ax1& Axis() const;
  
//!  Computes the coefficients of the implicit equation of the surface <br>
//!  in the absolute cartesian coordinate system : <br>
//! Coef(1) * X**4 + Coef(2) * Y**4 + Coef(3) * Z**4 + <br>
//! Coef(4) * X**3 * Y + Coef(5) * X**3 * Z + Coef(6) * Y**3 * X + <br>
//! Coef(7) * Y**3 * Z + Coef(8) * Z**3 * X + Coef(9) * Z**3 * Y + <br>
//! Coef(10) * X**2 * Y**2 + Coef(11) * X**2 * Z**2 + <br>
//! Coef(12) * Y**2 * Z**2 + Coef(13) * X**3 + Coef(14) * Y**3 + <br>
//! Coef(15) * Z**3 + Coef(16) * X**2 * Y + Coef(17) * X**2 * Z + <br>
//! Coef(18) * Y**2 * X + Coef(19) * Y**2 * Z + Coef(20) * Z**2 * X + <br>
//! Coef(21) * Z**2 * Y + Coef(22) * X**2 + Coef(23) * Y**2 + <br>
//! Coef(24) * Z**2 + Coef(25) * X * Y + Coef(26) * X * Z + <br>
//! Coef(27) * Y * Z + Coef(28) * X + Coef(29) * Y + Coef(30) *  Z + <br>
//! Coef(31) = 0.0 <br>
//! Raises DimensionError if the length of Coef is lower than 31. <br>
  Standard_EXPORT     void Coefficients(TColStd_Array1OfReal& Coef) const;
  //! Returns the Torus's location. <br>
       const gp_Pnt& Location() const;
  //! Returns the local coordinates system of the torus. <br>
       const gp_Ax3& Position() const;
  //! returns the major radius of the torus. <br>
        Standard_Real MajorRadius() const;
  //! returns the minor radius of the torus. <br>
        Standard_Real MinorRadius() const;
  //! Computes the volume of the torus. <br>
        Standard_Real Volume() const;
  //! returns the axis X of the torus. <br>
        gp_Ax1 XAxis() const;
  //! returns the axis Y of the torus. <br>
        gp_Ax1 YAxis() const;
  
  Standard_EXPORT     void Mirror(const gp_Pnt& P) ;
  
//!  Performs the symmetrical transformation of a torus <br>
//!  with respect to the point P which is the center of the <br>
//!  symmetry. <br>
  Standard_EXPORT     gp_Torus Mirrored(const gp_Pnt& P) const;
  
  Standard_EXPORT     void Mirror(const gp_Ax1& A1) ;
  
//!  Performs the symmetrical transformation of a torus with <br>
//!  respect to an axis placement which is the axis of the <br>
//!  symmetry. <br>
  Standard_EXPORT     gp_Torus Mirrored(const gp_Ax1& A1) const;
  
  Standard_EXPORT     void Mirror(const gp_Ax2& A2) ;
  
//!  Performs the symmetrical transformation of a torus with respect <br>
//!  to a plane. The axis placement A2 locates the plane of the <br>
//!  of the symmetry : (Location, XDirection, YDirection). <br>
  Standard_EXPORT     gp_Torus Mirrored(const gp_Ax2& A2) const;
  
        void Rotate(const gp_Ax1& A1,const Standard_Real Ang) ;
  
//!  Rotates a torus. A1 is the axis of the rotation. <br>
//!  Ang is the angular value of the rotation in radians. <br>
        gp_Torus Rotated(const gp_Ax1& A1,const Standard_Real Ang) const;
  
        void Scale(const gp_Pnt& P,const Standard_Real S) ;
  
//!  Scales a torus. S is the scaling value. <br>
//!  The absolute value of S is used to scale the torus <br>
        gp_Torus Scaled(const gp_Pnt& P,const Standard_Real S) const;
  
        void Transform(const gp_Trsf& T) ;
  
//!  Transforms a torus with the transformation T from class Trsf. <br>
        gp_Torus Transformed(const gp_Trsf& T) const;
  
        void Translate(const gp_Vec& V) ;
  
//!  Translates a torus in the direction of the vector V. <br>
//!  The magnitude of the translation is the vector's magnitude. <br>
        gp_Torus Translated(const gp_Vec& V) const;
  
        void Translate(const gp_Pnt& P1,const gp_Pnt& P2) ;
  
//!  Translates a torus from the point P1 to the point P2. <br>
        gp_Torus Translated(const gp_Pnt& P1,const gp_Pnt& P2) const;
    const gp_Ax3& _CSFDB_Getgp_Toruspos() const { return pos; }
    Standard_Real _CSFDB_Getgp_TorusmajorRadius() const { return majorRadius; }
    void _CSFDB_Setgp_TorusmajorRadius(const Standard_Real p) { majorRadius = p; }
    Standard_Real _CSFDB_Getgp_TorusminorRadius() const { return minorRadius; }
    void _CSFDB_Setgp_TorusminorRadius(const Standard_Real p) { minorRadius = p; }



protected:




private: 


gp_Ax3 pos;
Standard_Real majorRadius;
Standard_Real minorRadius;


};


#include <gp_Torus.lxx>



// other Inline functions and methods (like "C++: function call" methods)


#endif