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//-- File : HLRBRep_SurfaceTool.lxx
//-- Created : Wed Jui 7 18:00:00 1993
//-- Author : Laurent BUCHARD
//-- <lbr@nonox>
//-- Copyright: Matra Datavision 1993
#include <gp_Pnt.hxx>
#include <gp_Vec.hxx>
#include <gp_Pln.hxx>
#include <gp_Cylinder.hxx>
#include <gp_Cone.hxx>
#include <gp_Torus.hxx>
#include <gp_Sphere.hxx>
#include <gp_Ax1.hxx>
#include <gp_Dir.hxx>
#include <Handle_Geom_BezierSurface.hxx>
#include <Handle_Geom_BSplineSurface.hxx>
#include <Handle_Adaptor3d_HSurface.hxx>
#include <Handle_Adaptor3d_HCurve.hxx>
#include <BRepAdaptor_Surface.hxx>
inline Standard_Real HLRBRep_SurfaceTool::FirstUParameter(const Standard_Address Surf){ return ((BRepAdaptor_Surface *)Surf)->FirstUParameter(); }
inline Standard_Real HLRBRep_SurfaceTool::FirstVParameter(const Standard_Address Surf){ return ((BRepAdaptor_Surface *)Surf)->FirstVParameter();}
inline Standard_Real HLRBRep_SurfaceTool::LastUParameter(const Standard_Address Surf){ return ((BRepAdaptor_Surface *)Surf)->LastUParameter();}
inline Standard_Real HLRBRep_SurfaceTool::LastVParameter(const Standard_Address Surf){ return ((BRepAdaptor_Surface *)Surf)->LastVParameter();}
inline Standard_Integer HLRBRep_SurfaceTool::NbUIntervals(const Standard_Address Surf,
const GeomAbs_Shape S){
return ((BRepAdaptor_Surface *)Surf)->NbUIntervals(S);
}
inline Standard_Integer HLRBRep_SurfaceTool::NbVIntervals(const Standard_Address Surf,
const GeomAbs_Shape S){
return ((BRepAdaptor_Surface *)Surf)->NbVIntervals(S);
}
inline void HLRBRep_SurfaceTool::UIntervals(const Standard_Address Surf,
TColStd_Array1OfReal& Tab,
const GeomAbs_Shape S){
((BRepAdaptor_Surface *)Surf)->UIntervals(Tab,S);
}
inline void HLRBRep_SurfaceTool::VIntervals(const Standard_Address Surf,
TColStd_Array1OfReal& Tab,
const GeomAbs_Shape S){
((BRepAdaptor_Surface *)Surf)->VIntervals(Tab,S);
}
inline Handle_Adaptor3d_HSurface HLRBRep_SurfaceTool::UTrim(const Standard_Address Surf,
const Standard_Real F,
const Standard_Real L,
const Standard_Real Tol) {
return ((BRepAdaptor_Surface *)Surf)->UTrim(F,L,Tol);
}
inline Handle_Adaptor3d_HSurface HLRBRep_SurfaceTool::VTrim(const Standard_Address Surf,
const Standard_Real F,
const Standard_Real L,
const Standard_Real Tol) {
return ((BRepAdaptor_Surface *)Surf)->VTrim(F,L,Tol);
}
inline Standard_Boolean HLRBRep_SurfaceTool::IsUClosed(const Standard_Address S)
{
return ((BRepAdaptor_Surface *)S)->IsUClosed();
}
inline Standard_Boolean HLRBRep_SurfaceTool::IsVClosed(const Standard_Address S)
{
return ((BRepAdaptor_Surface *)S)->IsVClosed();
}
inline Standard_Boolean HLRBRep_SurfaceTool::IsUPeriodic(const Standard_Address S)
{
return ((BRepAdaptor_Surface *)S)->IsUPeriodic();
}
inline Standard_Real HLRBRep_SurfaceTool::UPeriod(const Standard_Address S)
{
return ((BRepAdaptor_Surface *)S)->UPeriod();
}
inline Standard_Boolean HLRBRep_SurfaceTool::IsVPeriodic(const Standard_Address S)
{
return ((BRepAdaptor_Surface *)S)->IsVPeriodic();
}
inline Standard_Real HLRBRep_SurfaceTool::VPeriod(const Standard_Address S)
{
return ((BRepAdaptor_Surface *)S)->VPeriod();
}
inline gp_Pnt HLRBRep_SurfaceTool::Value(const Standard_Address S,
const Standard_Real U,
const Standard_Real V )
{
return ((BRepAdaptor_Surface *)S)->Value(U,V);
}
inline void HLRBRep_SurfaceTool::D0(const Standard_Address S,
const Standard_Real U,
const Standard_Real V,
gp_Pnt& P)
{
((BRepAdaptor_Surface *)S)->D0(U,V,P);
}
inline void HLRBRep_SurfaceTool::D1(const Standard_Address S,
const Standard_Real U,
const Standard_Real V,
gp_Pnt& P,
gp_Vec& D1U,
gp_Vec& D1V)
{
((BRepAdaptor_Surface *)S)->D1(U,V,P,D1U,D1V);
}
inline void HLRBRep_SurfaceTool::D2(const Standard_Address S,
const Standard_Real U,
const Standard_Real V,
gp_Pnt& P,
gp_Vec& D1U,
gp_Vec& D1V,
gp_Vec& D2U,
gp_Vec& D2V,
gp_Vec& D2UV)
{
((BRepAdaptor_Surface *)S)->D2(U,V,P,D1U,D1V,D2U,D2V,D2UV);
}
inline void HLRBRep_SurfaceTool::D3(const Standard_Address S,
const Standard_Real U,
const Standard_Real V,
gp_Pnt& P,
gp_Vec& D1U,
gp_Vec& D1V,
gp_Vec& D2U,
gp_Vec& D2V,
gp_Vec& D2UV,
gp_Vec& D3U,
gp_Vec& D3V,
gp_Vec& D3UUV,
gp_Vec& D3UVV)
{
((BRepAdaptor_Surface *)S)->D3(U,V,P,D1U,D1V,D2U,D2V,D2UV,D3U,D3V,D3UUV,D3UVV);
}
inline gp_Vec HLRBRep_SurfaceTool::DN(const Standard_Address S,
const Standard_Real U,
const Standard_Real V,
const Standard_Integer Nu,
const Standard_Integer Nv)
{
return ((BRepAdaptor_Surface *)S)->DN(U,V,Nu,Nv);
}
inline Standard_Real HLRBRep_SurfaceTool::UResolution(const Standard_Address S,
const Standard_Real R3d)
{
return ((BRepAdaptor_Surface *)S)->UResolution(R3d);
}
inline Standard_Real HLRBRep_SurfaceTool::VResolution(const Standard_Address S,
const Standard_Real R3d)
{
return ((BRepAdaptor_Surface *)S)->VResolution(R3d);
}
inline GeomAbs_SurfaceType HLRBRep_SurfaceTool::GetType(const Standard_Address S )
{
return ((BRepAdaptor_Surface *)S)->GetType();
}
inline gp_Pln HLRBRep_SurfaceTool::Plane(const Standard_Address S)
{
return ((BRepAdaptor_Surface *)S)->Plane();
}
inline gp_Cylinder HLRBRep_SurfaceTool::Cylinder(const Standard_Address S)
{
return ((BRepAdaptor_Surface *)S)->Cylinder();
}
inline gp_Cone HLRBRep_SurfaceTool::Cone(const Standard_Address S)
{
return ((BRepAdaptor_Surface *)S)->Cone();
}
inline gp_Sphere HLRBRep_SurfaceTool::Sphere(const Standard_Address S)
{
return ((BRepAdaptor_Surface *)S)->Sphere();
}
inline gp_Torus HLRBRep_SurfaceTool::Torus(const Standard_Address S)
{
return ((BRepAdaptor_Surface *)S)->Torus();
}
inline Handle(Geom_BezierSurface) HLRBRep_SurfaceTool::Bezier(const Standard_Address S) {
return(((BRepAdaptor_Surface *)S)->Bezier());
}
inline Handle(Geom_BSplineSurface) HLRBRep_SurfaceTool::BSpline(const Standard_Address S) {
return(((BRepAdaptor_Surface *)S)->BSpline());
}
inline gp_Ax1 HLRBRep_SurfaceTool::AxeOfRevolution(const Standard_Address S) {
return(((BRepAdaptor_Surface *)S)->AxeOfRevolution());
}
inline gp_Dir HLRBRep_SurfaceTool::Direction(const Standard_Address S) {
return(((BRepAdaptor_Surface *)S)->Direction());
}
inline Handle(Adaptor3d_HCurve) HLRBRep_SurfaceTool::BasisCurve(const Standard_Address S) {
return(((BRepAdaptor_Surface *)S)->BasisCurve());
}
inline Handle(Adaptor3d_HSurface) HLRBRep_SurfaceTool::BasisSurface(const Standard_Address S) {
return(((BRepAdaptor_Surface *)S)->BasisSurface());
}
inline Standard_Real HLRBRep_SurfaceTool::OffsetValue(const Standard_Address S) {
return(((BRepAdaptor_Surface *)S)->OffsetValue());
}
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