public void Scale(gpPnt P, double S) { gp_Circ_ScaleF0D1E3E6(Instance, P.Instance, S); }
public gpCirc Scaled(gpPnt P, double S) { return(new gpCirc(gp_Circ_ScaledF0D1E3E6(Instance, P.Instance, S))); }
public void Mirror(gpPnt P) { gp_Circ_Mirror9EAECD5B(Instance, P.Instance); }
public gpCirc Mirrored(gpPnt P) { return(new gpCirc(gp_Circ_Mirrored9EAECD5B(Instance, P.Instance))); }
public double SquareDistance(gpPnt P) { return(gp_Circ_SquareDistance9EAECD5B(Instance, P.Instance)); }
public bool Contains(gpPnt P, double LinearTolerance) { return(gp_Circ_ContainsF0D1E3E6(Instance, P.Instance, LinearTolerance)); }
public void Translate(gpPnt P1, gpPnt P2) { gp_Circ_Translate5C63477E(Instance, P1.Instance, P2.Instance); }
public gpCirc Translated(gpPnt P1, gpPnt P2) { return(new gpCirc(gp_Circ_Translated5C63477E(Instance, P1.Instance, P2.Instance))); }
public gpVec(gpPnt P1, gpPnt P2) : base(gp_Vec_Ctor5C63477E(P1.Instance, P2.Instance)) { }
public gpParab Scaled(gpPnt P, double S) { return(new gpParab(gp_Parab_ScaledF0D1E3E6(Instance, P.Instance, S))); }
public gpParab Mirrored(gpPnt P) { return(new gpParab(gp_Parab_Mirrored9EAECD5B(Instance, P.Instance))); }
public gpParab(gpAx1 D, gpPnt F) : base(gp_Parab_Ctor3B6CEA26(D.Instance, F.Instance)) { }
public gpParab Translated(gpPnt P1, gpPnt P2) { return(new gpParab(gp_Parab_Translated5C63477E(Instance, P1.Instance, P2.Instance))); }