// Created on: 1993-07-21 // Created by: Remi LEQUETTE // Copyright (c) 1993-1999 Matra Datavision // 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. #ifndef _BRepPrimAPI_MakeTorus_HeaderFile #define _BRepPrimAPI_MakeTorus_HeaderFile #include #include #include #include #include #include #include class Standard_DomainError; class gp_Ax2; class BRepPrim_Torus; //! Describes functions to build tori or portions of tori. //! A MakeTorus object provides a framework for: //! - defining the construction of a torus, //! - implementing the construction algorithm, and //! - consulting the result. class BRepPrimAPI_MakeTorus : public BRepPrimAPI_MakeOneAxis { public: DEFINE_STANDARD_ALLOC //! Make a torus of radii R1 R2. Standard_EXPORT BRepPrimAPI_MakeTorus(const Standard_Real R1, const Standard_Real R2); //! Make a section of a torus of radii R1 R2. Standard_EXPORT BRepPrimAPI_MakeTorus(const Standard_Real R1, const Standard_Real R2, const Standard_Real angle); //! Make a torus of radii R2, R2 with angles on the //! small circle. Standard_EXPORT BRepPrimAPI_MakeTorus(const Standard_Real R1, const Standard_Real R2, const Standard_Real angle1, const Standard_Real angle2); //! Make a torus of radii R2, R2 with angles on the //! small circle. Standard_EXPORT BRepPrimAPI_MakeTorus(const Standard_Real R1, const Standard_Real R2, const Standard_Real angle1, const Standard_Real angle2, const Standard_Real angle); //! Make a torus of radii R1 R2. Standard_EXPORT BRepPrimAPI_MakeTorus(const gp_Ax2& Axes, const Standard_Real R1, const Standard_Real R2); //! Make a section of a torus of radii R1 R2. Standard_EXPORT BRepPrimAPI_MakeTorus(const gp_Ax2& Axes, const Standard_Real R1, const Standard_Real R2, const Standard_Real angle); //! Make a torus of radii R1 R2. Standard_EXPORT BRepPrimAPI_MakeTorus(const gp_Ax2& Axes, const Standard_Real R1, const Standard_Real R2, const Standard_Real angle1, const Standard_Real angle2); //! Make a section of a torus of radii R1 R2. //! For all algorithms The resulting shape is composed of //! - a lateral toroidal face, //! - two conical faces (defined by the equation v = angle1 and //! v = angle2) if the sphere is truncated in the v parametric //! direction (they may be cylindrical faces in some //! particular conditions), and in case of a portion //! of torus, two planar faces to close the shape.(in the planes //! u = 0 and u = angle). //! Notes: //! - The u parameter corresponds to a rotation angle around the Z axis. //! - The circle whose radius is equal to the minor radius, //! located in the plane defined by the X axis and the Z axis, //! centered on the X axis, on its positive side, and positioned //! at a distance from the origin equal to the major radius, is //! the reference circle of the torus. The rotation around an //! axis parallel to the Y axis and passing through the center //! of the reference circle gives the v parameter on the //! reference circle. The X axis gives the origin of the v //! parameter. Near 0, as v increases, the Z coordinate decreases. Standard_EXPORT BRepPrimAPI_MakeTorus(const gp_Ax2& Axes, const Standard_Real R1, const Standard_Real R2, const Standard_Real angle1, const Standard_Real angle2, const Standard_Real angle); //! Returns the algorithm. Standard_EXPORT Standard_Address OneAxis(); //! Returns the algorithm. Standard_EXPORT BRepPrim_Torus& Torus(); protected: private: BRepPrim_Torus myTorus; }; #endif // _BRepPrimAPI_MakeTorus_HeaderFile