Open CASCADE Technology 7.8.2.dev
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Implements the torus primitive. More...
#include <BRepPrim_Torus.hxx>
Public Member Functions | |
BRepPrim_Torus (const gp_Ax2 &Position, const Standard_Real Major, const Standard_Real Minor) | |
the STEP definition Position : center and axes Major, Minor : Radii | |
BRepPrim_Torus (const Standard_Real Major, const Standard_Real Minor) | |
Torus centered at origin. | |
BRepPrim_Torus (const gp_Pnt &Center, const Standard_Real Major, const Standard_Real Minor) | |
Torus at Center. | |
virtual TopoDS_Face | MakeEmptyLateralFace () const override |
The surface normal should be directed towards the outside. | |
Public Member Functions inherited from BRepPrim_Revolution | |
BRepPrim_Revolution (const gp_Ax2 &A, const Standard_Real VMin, const Standard_Real VMax, const Handle< Geom_Curve > &M, const Handle< Geom2d_Curve > &PM) | |
Create a revolution body <M> is the meridian nd must be in the XZ plane of . <PM> is the meridian in the XZ plane. | |
virtual TopoDS_Edge | MakeEmptyMeridianEdge (const Standard_Real Ang) const |
Returns an edge with a 3D curve made from the meridian in the XZ plane rotated by <Ang> around the Z-axis. Ang may be 0 or myAngle. | |
virtual gp_Pnt2d | MeridianValue (const Standard_Real V) const |
Returns the meridian point at parameter <V> in the plane XZ. | |
virtual void | SetMeridianPCurve (TopoDS_Edge &E, const TopoDS_Face &F) const |
Sets the parametric urve of the edge <E> in the face <F> to be the 2d representation of the meridian. | |
Public Member Functions inherited from BRepPrim_OneAxis | |
void | SetMeridianOffset (const Standard_Real MeridianOffset=0) |
The MeridianOffset is added to the parameters on the meridian curve and to the V values of the pcurves. This is used for the sphere for example, to give a range on the meridian edge which is not VMin, VMax. | |
const gp_Ax2 & | Axes () const |
Returns the Ax2 from <me>. | |
void | Axes (const gp_Ax2 &A) |
Standard_Real | Angle () const |
void | Angle (const Standard_Real A) |
Standard_Real | VMin () const |
void | VMin (const Standard_Real V) |
Standard_Real | VMax () const |
void | VMax (const Standard_Real V) |
virtual Standard_Boolean | MeridianOnAxis (const Standard_Real V) const |
Returns True if the point of parameter <V> on the meridian is on the Axis. Default implementation is Abs(MeridianValue(V).X()) < Precision::Confusion() | |
virtual Standard_Boolean | MeridianClosed () const |
Returns True if the meridian is closed. Default implementation is MeridianValue(VMin).IsEqual(MeridianValue(VMax), Precision::Confusion()) | |
virtual Standard_Boolean | VMaxInfinite () const |
Returns True if VMax is infinite. Default Precision::IsPositiveInfinite(VMax);. | |
virtual Standard_Boolean | VMinInfinite () const |
Returns True if VMin is infinite. Default Precision::IsNegativeInfinite(VMax);. | |
virtual Standard_Boolean | HasTop () const |
Returns True if there is a top face. | |
virtual Standard_Boolean | HasBottom () const |
Returns True if there is a bottom face. | |
virtual Standard_Boolean | HasSides () const |
Returns True if there are Start and End faces. | |
const TopoDS_Shell & | Shell () |
Returns the Shell containing all the Faces of the primitive. | |
const TopoDS_Face & | LateralFace () |
Returns the lateral Face. It is oriented toward the outside of the primitive. | |
const TopoDS_Face & | TopFace () |
Returns the top planar Face. It is Oriented toward the +Z axis (outside). | |
const TopoDS_Face & | BottomFace () |
Returns the Bottom planar Face. It is Oriented toward the -Z axis (outside). | |
const TopoDS_Face & | StartFace () |
Returns the Face starting the slice, it is oriented toward the exterior of the primitive. | |
const TopoDS_Face & | EndFace () |
Returns the Face ending the slice, it is oriented toward the exterior of the primitive. | |
const TopoDS_Wire & | LateralWire () |
Returns the wire in the lateral face. | |
const TopoDS_Wire & | LateralStartWire () |
Returns the wire in the lateral face with the start edge. | |
const TopoDS_Wire & | LateralEndWire () |
Returns the wire with in lateral face with the end edge. | |
const TopoDS_Wire & | TopWire () |
Returns the wire in the top face. | |
const TopoDS_Wire & | BottomWire () |
Returns the wire in the bottom face. | |
const TopoDS_Wire & | StartWire () |
Returns the wire in the start face. | |
const TopoDS_Wire & | AxisStartWire () |
Returns the wire in the start face with the AxisEdge. | |
const TopoDS_Wire & | EndWire () |
Returns the Wire in the end face. | |
const TopoDS_Wire & | AxisEndWire () |
Returns the Wire in the end face with the AxisEdge. | |
const TopoDS_Edge & | AxisEdge () |
Returns the Edge built along the Axis and oriented on +Z of the Axis. | |
const TopoDS_Edge & | StartEdge () |
Returns the Edge at angle 0. | |
const TopoDS_Edge & | EndEdge () |
Returns the Edge at angle Angle. If !HasSides() the StartEdge and the EndEdge are the same edge. | |
const TopoDS_Edge & | StartTopEdge () |
Returns the linear Edge between start Face and top Face. | |
const TopoDS_Edge & | StartBottomEdge () |
Returns the linear Edge between start Face and bottom Face. | |
const TopoDS_Edge & | EndTopEdge () |
Returns the linear Edge between end Face and top Face. | |
const TopoDS_Edge & | EndBottomEdge () |
Returns the linear Edge between end Face and bottom Face. | |
const TopoDS_Edge & | TopEdge () |
Returns the edge at VMax. If MeridianClosed() the TopEdge and the BottomEdge are the same edge. | |
const TopoDS_Edge & | BottomEdge () |
Returns the edge at VMin. If MeridianClosed() the TopEdge and the BottomEdge are the same edge. | |
const TopoDS_Vertex & | AxisTopVertex () |
Returns the Vertex at the Top altitude on the axis. | |
const TopoDS_Vertex & | AxisBottomVertex () |
Returns the Vertex at the Bottom altitude on the axis. | |
const TopoDS_Vertex & | TopStartVertex () |
Returns the vertex (0,VMax) | |
const TopoDS_Vertex & | TopEndVertex () |
Returns the vertex (angle,VMax) | |
const TopoDS_Vertex & | BottomStartVertex () |
Returns the vertex (0,VMin) | |
const TopoDS_Vertex & | BottomEndVertex () |
Returns the vertex (angle,VMax) | |
virtual | ~BRepPrim_OneAxis () |
Additional Inherited Members | |
Protected Member Functions inherited from BRepPrim_Revolution | |
BRepPrim_Revolution (const gp_Ax2 &A, const Standard_Real VMin, const Standard_Real VMax) | |
Create a revolution body. The meridian is set later. Reserved for derivated classes. | |
void | Meridian (const Handle< Geom_Curve > &M, const Handle< Geom2d_Curve > &PM) |
Protected Member Functions inherited from BRepPrim_OneAxis | |
BRepPrim_OneAxis (const BRepPrim_Builder &B, const gp_Ax2 &A, const Standard_Real VMin, const Standard_Real VMax) | |
Creates a OneAxis algorithm. is used to build the Topology. The angle defaults to 2*PI. | |
Protected Attributes inherited from BRepPrim_OneAxis | |
BRepPrim_Builder | myBuilder |
Implements the torus primitive.
BRepPrim_Torus::BRepPrim_Torus | ( | const gp_Ax2 & | Position, |
const Standard_Real | Major, | ||
const Standard_Real | Minor ) |
the STEP definition Position : center and axes Major, Minor : Radii
Errors : Major < Resolution Minor < Resolution
BRepPrim_Torus::BRepPrim_Torus | ( | const Standard_Real | Major, |
const Standard_Real | Minor ) |
Torus centered at origin.
BRepPrim_Torus::BRepPrim_Torus | ( | const gp_Pnt & | Center, |
const Standard_Real | Major, | ||
const Standard_Real | Minor ) |
Torus at Center.
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overridevirtual |
The surface normal should be directed towards the outside.
Reimplemented from BRepPrim_Revolution.