break;
#endif
}
- Standard_NotImplemented::Raise("calcul abscisse non traite ");
+ Standard_NotImplemented::Raise("calcul abscisse not processed");
return 0.;
}
#endif
else
ctyp = CSpine->CurrentElementarySpine(Iedge).GetType();
- // Recuperation des orientations.
+ // Return orientations.
TopAbs_Orientation OrFace1 = TopAbs_FORWARD, OrFace2 = TopAbs_FORWARD;
Handle(BRepAdaptor_HSurface) HS = Handle(BRepAdaptor_HSurface)::DownCast(S1);
if (!HS.IsNull()) OrFace1 = HS->ChangeSurface().Face().Orientation();
Wref,OrFace2,Standard_False);
}
else{
- Standard_NotImplemented::Raise("cas particulier non ecrit");
+ Standard_NotImplemented::Raise("particular case not written");
}
}
else if(!CSpine.IsNull()){
Wref,OrFace2,Standard_False);
}
else{
- Standard_NotImplemented::Raise("cas particulier non ecrit");
+ Standard_NotImplemented::Raise("particular case not written");
}
}
else if (CSpine->IsChamfer() == ChFiDS_TwoDist) {
Wref,OrFace2,Standard_False);
}
else{
- Standard_NotImplemented::Raise("cas particulier non ecrit");
+ Standard_NotImplemented::Raise("particular case not written");
}
}
else {
Wref,OrFace2,Standard_False, DisOnP);
}
else{
- Standard_NotImplemented::Raise("cas particulier non ecrit");
+ Standard_NotImplemented::Raise("particular case not written");
}
}
}
Standard_ConstructionError::Raise
("la face du conge torique doit etre plane");
}
- // On calcule comme ligne guide le cercle correspondant
- // a la section de S2, et divers elements de construction.
+ // The guideline is the circle corresponding
+ // to the section of S2, and other construction elements.
gp_Cylinder cyl;
gp_Circ circ;
typ1 != GeomAbs_Plane ||
typ2 != GeomAbs_Plane){
Standard_ConstructionError::Raise
- ("rotule torique seulement entre des plans");
+ ("torus joint only between the planes");
}
return ChFiKPart_MakeRotule(DStr,Data,S->Plane(),S1->Plane(),
S2->Plane(),OS,OS1,OS2,Radius,OfS);