// P'(u) = p'(u) + (Offset / R**2) * (DNdir/DU * R - Ndir * (DR/R))
-
-#ifdef DEB
- GeomAbs_Shape Continuity = basisCurve->Continuity();
-#else
- basisCurve->Continuity();
-#endif
Vec2d V2;
basisCurve->D2 (U, P, V1, V2);
Standard_Integer Index = 2;
// P"(u) = p"(u) + (Offset / R) * (D2Ndir/DU - DNdir * (2.0 * Dr/ R**2) +
// Ndir * ( (3.0 * Dr**2 / R**4) - (D2r / R**2)))
-#ifdef DEB
- GeomAbs_Shape Continuity = basisCurve->Continuity();
-#else
- basisCurve->Continuity();
-#endif
Vec2d V3;
basisCurve->D3 (U, P, V1, V2, V3);
Standard_Integer Index = 2;
// P'(u) = p'(u) + (Offset / R**2) * (DNdir/DU * R - Ndir * (DR/R))
-#ifdef DEB
- GeomAbs_Shape Continuity = basisCurve->Continuity();
-#else
- basisCurve->Continuity();
-#endif
-
basisCurve->D2 (U, Pbasis, V1basis, V2basis);
V1 = V1basis;
Vec2d V2 = V2basis;
// P"(u) = p"(u) + (Offset / R) * (D2Ndir/DU - DNdir * (2.0 * Dr/ R**2) +
// Ndir * ( (3.0 * Dr**2 / R**4) - (D2r / R**2)))
-#ifdef DEB
- GeomAbs_Shape Continuity = basisCurve->Continuity();
-#else
- basisCurve->Continuity();
-#endif
-
basisCurve->D3 (U, Pbasis, V1basis, V2basis, V3basis);
Standard_Integer Index = 2;
V1 = V1basis;