void GeomPlate_Surface::UReverse()
{
- //Standard_Failure::Raise("UReverse");
+ //throw Standard_Failure("UReverse");
}
//=======================================================================
Standard_Real GeomPlate_Surface::UReversedParameter(const Standard_Real U) const
-{ //Standard_Failure::Raise("UReversedParameter");
+{ //throw Standard_Failure("UReversedParameter");
return (-U);
}
//=======================================================================
void GeomPlate_Surface::VReverse()
-{ //Standard_Failure::Raise("VReverse");
+{ //throw Standard_Failure("VReverse");
}
//=======================================================================
Standard_Real GeomPlate_Surface::VReversedParameter(const Standard_Real V) const
-{ //Standard_Failure::Raise("VReversedParameter");
+{ //throw Standard_Failure("VReversedParameter");
return (-V);
}
//void GeomPlate_Surface::TransformParameters(Standard_Real& U, Standard_Real& V, const gp_Trsf& T) const
void GeomPlate_Surface::TransformParameters(Standard_Real& , Standard_Real& , const gp_Trsf& ) const
-{//Standard_Failure::Raise("TransformParameters");
+{//throw Standard_Failure("TransformParameters");
}
//gp_GTrsf2d GeomPlate_Surface::ParametricTransformation(const gp_Trsf& T) const
gp_GTrsf2d GeomPlate_Surface::ParametricTransformation(const gp_Trsf& ) const
-{//Standard_Failure::Raise("ParametricTransformation");
+{//throw Standard_Failure("ParametricTransformation");
return gp_GTrsf2d();
}
//=======================================================================
Standard_Boolean GeomPlate_Surface::IsUClosed() const
-{ //Standard_Failure::Raise("IsUClosed(");
+{ //throw Standard_Failure("IsUClosed(");
//return 1;
return 0;
}
//=======================================================================
Standard_Boolean GeomPlate_Surface::IsVClosed() const
-{ //Standard_Failure::Raise("IsVClosed(");
+{ //throw Standard_Failure("IsVClosed(");
//return 1;
return 0;
}
//Handle(Geom_Curve) GeomPlate_Surface::UIso(const Standard_Real U) const
Handle(Geom_Curve) GeomPlate_Surface::UIso(const Standard_Real ) const
-{ //Standard_Failure::Raise("UIso");
+{ //throw Standard_Failure("UIso");
return Handle(Geom_Curve)();
}
//Handle(Geom_Curve) GeomPlate_Surface::VIso(const Standard_Real V) const
Handle(Geom_Curve) GeomPlate_Surface::VIso(const Standard_Real ) const
-{ //Standard_Failure::Raise("VIso");
+{ //throw Standard_Failure("VIso");
return Handle(Geom_Curve)();
}
//=======================================================================
GeomAbs_Shape GeomPlate_Surface::Continuity() const
-{ //Standard_Failure::Raise("Continuity()");
+{ //throw Standard_Failure("Continuity()");
return GeomAbs_Shape();
}
//Standard_Boolean GeomPlate_Surface::IsCNu(const Standard_Integer N) const
Standard_Boolean GeomPlate_Surface::IsCNu(const Standard_Integer ) const
-{ Standard_Failure::Raise("IsCNu");
- return 1;
+{
+ throw Standard_Failure("IsCNu");
}
//Standard_Boolean GeomPlate_Surface::IsCNv(const Standard_Integer N) const
Standard_Boolean GeomPlate_Surface::IsCNv(const Standard_Integer ) const
-{ Standard_Failure::Raise("IsCNv");
- return 1;
+{
+ throw Standard_Failure("IsCNv");
}
//void GeomPlate_Surface::D3(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) const
void GeomPlate_Surface::D3(const Standard_Real , const Standard_Real , gp_Pnt& , gp_Vec& , gp_Vec& , gp_Vec& , gp_Vec& , gp_Vec& , gp_Vec& , gp_Vec& , gp_Vec& , gp_Vec& ) const
-{ Standard_Failure::Raise("D3");
+{ throw Standard_Failure("D3");
}
//gp_Vec GeomPlate_Surface::DN(const Standard_Real U, const Standard_Real V, const Standard_Integer Nu, const Standard_Integer Nv) const
gp_Vec GeomPlate_Surface::DN(const Standard_Real , const Standard_Real , const Standard_Integer , const Standard_Integer ) const
-{ Standard_Failure::Raise("DN");
- return gp_Vec();
+{
+ throw Standard_Failure("DN");
}
//void GeomPlate_Surface::Transform(const gp_Trsf& T)
void GeomPlate_Surface::Transform(const gp_Trsf& )
-{ //Standard_Failure::Raise("Transform");
+{ //throw Standard_Failure("Transform");
}
//=======================================================================
void GeomPlate_Surface::SetBounds(const Standard_Real Umin, const Standard_Real Umax, const Standard_Real Vmin, const Standard_Real Vmax)
{
- if ((Umin>Umax) || (Vmin>Vmax)) Standard_Failure::Raise("Bounds haven't the good sense");
- if ((Umin==Umax) || (Vmin==Vmax)) Standard_Failure::Raise("Bounds are equal");
+ if ((Umin>Umax) || (Vmin>Vmax)) throw Standard_Failure("Bounds haven't the good sense");
+ if ((Umin==Umax) || (Vmin==Vmax)) throw Standard_Failure("Bounds are equal");
myUmin=Umin;myUmax=Umax;myVmin=Vmin;myVmax=Vmax;
}