/usr/include/oce/ElCLib.hxx is in liboce-foundation-dev 0.17.1-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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// Please do not edit this file; modify original file instead.
// The copyright and license terms as defined for the original file apply to
// this header file considered to be the "object code" form of the original source.
#ifndef _ElCLib_HeaderFile
#define _ElCLib_HeaderFile
#include <Standard.hxx>
#include <Standard_DefineAlloc.hxx>
#include <Standard_Macro.hxx>
#include <Standard_Real.hxx>
#include <gp_Pnt.hxx>
#include <Standard_Integer.hxx>
#include <gp_Vec.hxx>
#include <gp_Pnt2d.hxx>
#include <gp_Vec2d.hxx>
class gp_Pnt;
class gp_Lin;
class gp_Circ;
class gp_Elips;
class gp_Hypr;
class gp_Parab;
class gp_Vec;
class gp_Lin2d;
class gp_Circ2d;
class gp_Elips2d;
class gp_Hypr2d;
class gp_Parab2d;
class gp_Pnt2d;
class gp_Vec2d;
class gp_Ax1;
class gp_Ax2;
class gp_Ax2d;
class gp_Ax22d;
class gp_Dir;
class gp_Dir2d;
//! Provides functions for basic geometric computations on
//! elementary curves such as conics and lines in 2D and 3D space.
//! This includes:
//! - calculation of a point or derived vector on a 2D or
//! 3D curve where:
//! - the curve is provided by the gp package, or
//! defined in reference form (as in the gp package),
//! and
//! - the point is defined by a parameter,
//! - evaluation of the parameter corresponding to a point
//! on a 2D or 3D curve from gp,
//! - various elementary computations which allow you to
//! position parameterized values within the period of a curve.
//! Notes:
//! - ElCLib stands for Elementary Curves Library.
//! - If the curves provided by the gp package are not
//! explicitly parameterized, they still have an implicit
//! parameterization, analogous to that which they infer
//! for the equivalent Geom or Geom2d curves.
class ElCLib
{
public:
DEFINE_STANDARD_ALLOC
//! Return a value in the range <UFirst, ULast> by
//! adding or removing the period <ULast - UFirst> to
//! <U>.
Standard_EXPORT static Standard_Real InPeriod (const Standard_Real U, const Standard_Real UFirst, const Standard_Real ULast) ;
//! Adjust U1 and U2 in the parametric range UFirst
//! Ulast of a periodic curve, where ULast -
//! UFirst is its period. To do this, this function:
//! - sets U1 in the range [ UFirst, ULast ] by
//! adding/removing the period to/from the value U1, then
//! - sets U2 in the range [ U1, U1 + period ] by
//! adding/removing the period to/from the value U2.
//! Precision is used to test the equalities.
Standard_EXPORT static void AdjustPeriodic (const Standard_Real UFirst, const Standard_Real ULast, const Standard_Real Precision, Standard_Real& U1, Standard_Real& U2) ;
//! For elementary curves (lines, circles and conics) from
//! the gp package, computes the point of parameter U.
//! The result is either:
//! - a gp_Pnt point for a curve in 3D space, or
//! - a gp_Pnt2d point for a curve in 2D space.
Standard_EXPORT static gp_Pnt Value (const Standard_Real U, const gp_Lin& L) ;
static gp_Pnt Value (const Standard_Real U, const gp_Circ& C) ;
static gp_Pnt Value (const Standard_Real U, const gp_Elips& E) ;
static gp_Pnt Value (const Standard_Real U, const gp_Hypr& H) ;
static gp_Pnt Value (const Standard_Real U, const gp_Parab& Prb) ;
//! For elementary curves (lines, circles and conics) from the
//! gp package, computes:
//! - the point P of parameter U, and
//! - the first derivative vector V1 at this point.
//! The results P and V1 are either:
//! - a gp_Pnt point and a gp_Vec vector, for a curve in 3D space, or
//! - a gp_Pnt2d point and a gp_Vec2d vector, for a curve in 2D space.
Standard_EXPORT static void D1 (const Standard_Real U, const gp_Lin& L, gp_Pnt& P, gp_Vec& V1) ;
static void D1 (const Standard_Real U, const gp_Circ& C, gp_Pnt& P, gp_Vec& V1) ;
static void D1 (const Standard_Real U, const gp_Elips& E, gp_Pnt& P, gp_Vec& V1) ;
static void D1 (const Standard_Real U, const gp_Hypr& H, gp_Pnt& P, gp_Vec& V1) ;
static void D1 (const Standard_Real U, const gp_Parab& Prb, gp_Pnt& P, gp_Vec& V1) ;
//! For elementary curves (circles and conics) from the gp
//! package, computes:
//! - the point P of parameter U, and
//! - the first and second derivative vectors V1 and V2 at this point.
//! The results, P, V1 and V2, are either:
//! - a gp_Pnt point and two gp_Vec vectors, for a curve in 3D space, or
//! - a gp_Pnt2d point and two gp_Vec2d vectors, for a curve in 2D space.
Standard_EXPORT static void D2 (const Standard_Real U, const gp_Circ& C, gp_Pnt& P, gp_Vec& V1, gp_Vec& V2) ;
static void D2 (const Standard_Real U, const gp_Elips& E, gp_Pnt& P, gp_Vec& V1, gp_Vec& V2) ;
static void D2 (const Standard_Real U, const gp_Hypr& H, gp_Pnt& P, gp_Vec& V1, gp_Vec& V2) ;
static void D2 (const Standard_Real U, const gp_Parab& Prb, gp_Pnt& P, gp_Vec& V1, gp_Vec& V2) ;
//! For elementary curves (circles, ellipses and hyperbolae)
//! from the gp package, computes:
//! - the point P of parameter U, and
//! - the first, second and third derivative vectors V1, V2
//! and V3 at this point.
//! The results, P, V1, V2 and V3, are either:
//! - a gp_Pnt point and three gp_Vec vectors, for a curve in 3D space, or
//! - a gp_Pnt2d point and three gp_Vec2d vectors, for a curve in 2D space.
Standard_EXPORT static void D3 (const Standard_Real U, const gp_Circ& C, gp_Pnt& P, gp_Vec& V1, gp_Vec& V2, gp_Vec& V3) ;
static void D3 (const Standard_Real U, const gp_Elips& E, gp_Pnt& P, gp_Vec& V1, gp_Vec& V2, gp_Vec& V3) ;
Standard_EXPORT static void D3 (const Standard_Real U, const gp_Hypr& H, gp_Pnt& P, gp_Vec& V1, gp_Vec& V2, gp_Vec& V3) ;
//! For elementary curves (lines, circles and conics) from
//! the gp package, computes the vector corresponding to
//! the Nth derivative at the point of parameter U. The result is either:
//! - a gp_Vec vector for a curve in 3D space, or
//! - a gp_Vec2d vector for a curve in 2D space.
//! In the following functions N is the order of derivation
//! and should be greater than 0
Standard_EXPORT static gp_Vec DN (const Standard_Real U, const gp_Lin& L, const Standard_Integer N) ;
static gp_Vec DN (const Standard_Real U, const gp_Circ& C, const Standard_Integer N) ;
static gp_Vec DN (const Standard_Real U, const gp_Elips& E, const Standard_Integer N) ;
static gp_Vec DN (const Standard_Real U, const gp_Hypr& H, const Standard_Integer N) ;
static gp_Vec DN (const Standard_Real U, const gp_Parab& Prb, const Standard_Integer N) ;
static gp_Pnt2d Value (const Standard_Real U, const gp_Lin2d& L) ;
static gp_Pnt2d Value (const Standard_Real U, const gp_Circ2d& C) ;
static gp_Pnt2d Value (const Standard_Real U, const gp_Elips2d& E) ;
static gp_Pnt2d Value (const Standard_Real U, const gp_Hypr2d& H) ;
static gp_Pnt2d Value (const Standard_Real U, const gp_Parab2d& Prb) ;
static void D1 (const Standard_Real U, const gp_Lin2d& L, gp_Pnt2d& P, gp_Vec2d& V1) ;
static void D1 (const Standard_Real U, const gp_Circ2d& C, gp_Pnt2d& P, gp_Vec2d& V1) ;
static void D1 (const Standard_Real U, const gp_Elips2d& E, gp_Pnt2d& P, gp_Vec2d& V1) ;
static void D1 (const Standard_Real U, const gp_Hypr2d& H, gp_Pnt2d& P, gp_Vec2d& V1) ;
static void D1 (const Standard_Real U, const gp_Parab2d& Prb, gp_Pnt2d& P, gp_Vec2d& V1) ;
static void D2 (const Standard_Real U, const gp_Circ2d& C, gp_Pnt2d& P, gp_Vec2d& V1, gp_Vec2d& V2) ;
static void D2 (const Standard_Real U, const gp_Elips2d& E, gp_Pnt2d& P, gp_Vec2d& V1, gp_Vec2d& V2) ;
static void D2 (const Standard_Real U, const gp_Hypr2d& H, gp_Pnt2d& P, gp_Vec2d& V1, gp_Vec2d& V2) ;
static void D2 (const Standard_Real U, const gp_Parab2d& Prb, gp_Pnt2d& P, gp_Vec2d& V1, gp_Vec2d& V2) ;
static void D3 (const Standard_Real U, const gp_Circ2d& C, gp_Pnt2d& P, gp_Vec2d& V1, gp_Vec2d& V2, gp_Vec2d& V3) ;
static void D3 (const Standard_Real U, const gp_Elips2d& E, gp_Pnt2d& P, gp_Vec2d& V1, gp_Vec2d& V2, gp_Vec2d& V3) ;
//! In the following functions N is the order of derivation
//! and should be greater than 0
static void D3 (const Standard_Real U, const gp_Hypr2d& H, gp_Pnt2d& P, gp_Vec2d& V1, gp_Vec2d& V2, gp_Vec2d& V3) ;
static gp_Vec2d DN (const Standard_Real U, const gp_Lin2d& L, const Standard_Integer N) ;
static gp_Vec2d DN (const Standard_Real U, const gp_Circ2d& C, const Standard_Integer N) ;
static gp_Vec2d DN (const Standard_Real U, const gp_Elips2d& E, const Standard_Integer N) ;
static gp_Vec2d DN (const Standard_Real U, const gp_Hypr2d& H, const Standard_Integer N) ;
static gp_Vec2d DN (const Standard_Real U, const gp_Parab2d& Prb, const Standard_Integer N) ;
//! Curve evaluation
//! The following basis functions compute the derivatives on
//! elementary curves defined by their geometric characteristics.
//! These functions can be called without constructing a conic
//! from package gp. They are called by the previous functions.
//! Example :
//! A circle is defined by its position and its radius.
Standard_EXPORT static gp_Pnt LineValue (const Standard_Real U, const gp_Ax1& Pos) ;
Standard_EXPORT static gp_Pnt CircleValue (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real Radius) ;
Standard_EXPORT static gp_Pnt EllipseValue (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius) ;
Standard_EXPORT static gp_Pnt HyperbolaValue (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius) ;
Standard_EXPORT static gp_Pnt ParabolaValue (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real Focal) ;
Standard_EXPORT static void LineD1 (const Standard_Real U, const gp_Ax1& Pos, gp_Pnt& P, gp_Vec& V1) ;
Standard_EXPORT static void CircleD1 (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real Radius, gp_Pnt& P, gp_Vec& V1) ;
Standard_EXPORT static void EllipseD1 (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, gp_Pnt& P, gp_Vec& V1) ;
Standard_EXPORT static void HyperbolaD1 (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, gp_Pnt& P, gp_Vec& V1) ;
Standard_EXPORT static void ParabolaD1 (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real Focal, gp_Pnt& P, gp_Vec& V1) ;
Standard_EXPORT static void CircleD2 (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real Radius, gp_Pnt& P, gp_Vec& V1, gp_Vec& V2) ;
Standard_EXPORT static void EllipseD2 (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, gp_Pnt& P, gp_Vec& V1, gp_Vec& V2) ;
Standard_EXPORT static void HyperbolaD2 (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, gp_Pnt& P, gp_Vec& V1, gp_Vec& V2) ;
Standard_EXPORT static void ParabolaD2 (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real Focal, gp_Pnt& P, gp_Vec& V1, gp_Vec& V2) ;
Standard_EXPORT static void CircleD3 (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real Radius, gp_Pnt& P, gp_Vec& V1, gp_Vec& V2, gp_Vec& V3) ;
Standard_EXPORT static void EllipseD3 (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, gp_Pnt& P, gp_Vec& V1, gp_Vec& V2, gp_Vec& V3) ;
Standard_EXPORT static void HyperbolaD3 (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, gp_Pnt& P, gp_Vec& V1, gp_Vec& V2, gp_Vec& V3) ;
//! In the following functions N is the order of derivation
//! and should be greater than 0
Standard_EXPORT static gp_Vec LineDN (const Standard_Real U, const gp_Ax1& Pos, const Standard_Integer N) ;
Standard_EXPORT static gp_Vec CircleDN (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real Radius, const Standard_Integer N) ;
Standard_EXPORT static gp_Vec EllipseDN (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, const Standard_Integer N) ;
Standard_EXPORT static gp_Vec HyperbolaDN (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, const Standard_Integer N) ;
Standard_EXPORT static gp_Vec ParabolaDN (const Standard_Real U, const gp_Ax2& Pos, const Standard_Real Focal, const Standard_Integer N) ;
Standard_EXPORT static gp_Pnt2d LineValue (const Standard_Real U, const gp_Ax2d& Pos) ;
Standard_EXPORT static gp_Pnt2d CircleValue (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real Radius) ;
Standard_EXPORT static gp_Pnt2d EllipseValue (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius) ;
Standard_EXPORT static gp_Pnt2d HyperbolaValue (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius) ;
Standard_EXPORT static gp_Pnt2d ParabolaValue (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real Focal) ;
Standard_EXPORT static void LineD1 (const Standard_Real U, const gp_Ax2d& Pos, gp_Pnt2d& P, gp_Vec2d& V1) ;
Standard_EXPORT static void CircleD1 (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real Radius, gp_Pnt2d& P, gp_Vec2d& V1) ;
Standard_EXPORT static void EllipseD1 (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, gp_Pnt2d& P, gp_Vec2d& V1) ;
Standard_EXPORT static void HyperbolaD1 (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, gp_Pnt2d& P, gp_Vec2d& V1) ;
Standard_EXPORT static void ParabolaD1 (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real Focal, gp_Pnt2d& P, gp_Vec2d& V1) ;
Standard_EXPORT static void CircleD2 (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real Radius, gp_Pnt2d& P, gp_Vec2d& V1, gp_Vec2d& V2) ;
Standard_EXPORT static void EllipseD2 (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, gp_Pnt2d& P, gp_Vec2d& V1, gp_Vec2d& V2) ;
Standard_EXPORT static void HyperbolaD2 (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, gp_Pnt2d& P, gp_Vec2d& V1, gp_Vec2d& V2) ;
Standard_EXPORT static void ParabolaD2 (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real Focal, gp_Pnt2d& P, gp_Vec2d& V1, gp_Vec2d& V2) ;
Standard_EXPORT static void CircleD3 (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real Radius, gp_Pnt2d& P, gp_Vec2d& V1, gp_Vec2d& V2, gp_Vec2d& V3) ;
Standard_EXPORT static void EllipseD3 (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, gp_Pnt2d& P, gp_Vec2d& V1, gp_Vec2d& V2, gp_Vec2d& V3) ;
//! In the following functions N is the order of derivation
//! and should be greater than 0
Standard_EXPORT static void HyperbolaD3 (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, gp_Pnt2d& P, gp_Vec2d& V1, gp_Vec2d& V2, gp_Vec2d& V3) ;
Standard_EXPORT static gp_Vec2d LineDN (const Standard_Real U, const gp_Ax2d& Pos, const Standard_Integer N) ;
Standard_EXPORT static gp_Vec2d CircleDN (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real Radius, const Standard_Integer N) ;
Standard_EXPORT static gp_Vec2d EllipseDN (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, const Standard_Integer N) ;
Standard_EXPORT static gp_Vec2d HyperbolaDN (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, const Standard_Integer N) ;
//! The following functions compute the parametric value corresponding
//! to a given point on a elementary curve. The point should be on the
//! curve.
Standard_EXPORT static gp_Vec2d ParabolaDN (const Standard_Real U, const gp_Ax22d& Pos, const Standard_Real Focal, const Standard_Integer N) ;
//! Computes the parameter value of the point P on the given curve.
//! Note: In its local coordinate system, the parametric
//! equation of the curve is given by the following:
//! - for the line L: P(U) = Po + U*Vo
//! where Po is the origin and Vo the unit vector of its positioning axis.
//! - for the circle C: X(U) = Radius*Cos(U), Y(U) = Radius*Sin(U)
//! - for the ellipse E: X(U) = MajorRadius*Cos(U). Y(U) = MinorRadius*Sin(U)
//! - for the hyperbola H: X(U) = MajorRadius*Ch(U), Y(U) = MinorRadius*Sh(U)
//! - for the parabola Prb:
//! X(U) = U**2 / (2*p)
//! Y(U) = U
//! where p is the distance between the focus and the directrix.
//! Warning
//! The point P must be on the curve. These functions are
//! not protected, however, and if point P is not on the
//! curve, an exception may be raised.
Standard_EXPORT static Standard_Real Parameter (const gp_Lin& L, const gp_Pnt& P) ;
//! parametrization
//! P (U) = L.Location() + U * L.Direction()
static Standard_Real Parameter (const gp_Lin2d& L, const gp_Pnt2d& P) ;
static Standard_Real Parameter (const gp_Circ& C, const gp_Pnt& P) ;
//! parametrization
//! In the local coordinate system of the circle
//! X (U) = Radius * Cos (U)
//! Y (U) = Radius * Sin (U)
static Standard_Real Parameter (const gp_Circ2d& C, const gp_Pnt2d& P) ;
static Standard_Real Parameter (const gp_Elips& E, const gp_Pnt& P) ;
//! parametrization
//! In the local coordinate system of the Ellipse
//! X (U) = MajorRadius * Cos (U)
//! Y (U) = MinorRadius * Sin (U)
static Standard_Real Parameter (const gp_Elips2d& E, const gp_Pnt2d& P) ;
static Standard_Real Parameter (const gp_Hypr& H, const gp_Pnt& P) ;
//! parametrization
//! In the local coordinate system of the Hyperbola
//! X (U) = MajorRadius * Ch (U)
//! Y (U) = MinorRadius * Sh (U)
static Standard_Real Parameter (const gp_Hypr2d& H, const gp_Pnt2d& P) ;
static Standard_Real Parameter (const gp_Parab& Prb, const gp_Pnt& P) ;
//! parametrization
//! In the local coordinate system of the parabola
//! Y**2 = (2*P) * X where P is the distance between the focus
//! and the directrix.
static Standard_Real Parameter (const gp_Parab2d& Prb, const gp_Pnt2d& P) ;
Standard_EXPORT static Standard_Real LineParameter (const gp_Ax1& Pos, const gp_Pnt& P) ;
//! parametrization
//! P (U) = L.Location() + U * L.Direction()
Standard_EXPORT static Standard_Real LineParameter (const gp_Ax2d& Pos, const gp_Pnt2d& P) ;
Standard_EXPORT static Standard_Real CircleParameter (const gp_Ax2& Pos, const gp_Pnt& P) ;
//! Pos is the Axis of the Circle
//! parametrization
//! In the local coordinate system of the circle
//! X (U) = Radius * Cos (U)
//! Y (U) = Radius * Sin (U)
Standard_EXPORT static Standard_Real CircleParameter (const gp_Ax22d& Pos, const gp_Pnt2d& P) ;
Standard_EXPORT static Standard_Real EllipseParameter (const gp_Ax2& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, const gp_Pnt& P) ;
//! Pos is the Axis of the Ellipse
//! parametrization
//! In the local coordinate system of the Ellipse
//! X (U) = MajorRadius * Cos (U)
//! Y (U) = MinorRadius * Sin (U)
Standard_EXPORT static Standard_Real EllipseParameter (const gp_Ax22d& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, const gp_Pnt2d& P) ;
Standard_EXPORT static Standard_Real HyperbolaParameter (const gp_Ax2& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, const gp_Pnt& P) ;
//! Pos is the Axis of the Hyperbola
//! parametrization
//! In the local coordinate system of the Hyperbola
//! X (U) = MajorRadius * Ch (U)
//! Y (U) = MinorRadius * Sh (U)
Standard_EXPORT static Standard_Real HyperbolaParameter (const gp_Ax22d& Pos, const Standard_Real MajorRadius, const Standard_Real MinorRadius, const gp_Pnt2d& P) ;
Standard_EXPORT static Standard_Real ParabolaParameter (const gp_Ax2& Pos, const gp_Pnt& P) ;
//! Pos is the mirror axis of the parabola
//! parametrization
//! In the local coordinate system of the parabola
//! Y**2 = (2*P) * X where P is the distance between the focus
//! and the directrix.
//! The following functions build a 3d curve from a
//! 2d curve at a given position defined with an Ax2.
Standard_EXPORT static Standard_Real ParabolaParameter (const gp_Ax22d& Pos, const gp_Pnt2d& P) ;
Standard_EXPORT static gp_Pnt To3d (const gp_Ax2& Pos, const gp_Pnt2d& P) ;
Standard_EXPORT static gp_Vec To3d (const gp_Ax2& Pos, const gp_Vec2d& V) ;
Standard_EXPORT static gp_Dir To3d (const gp_Ax2& Pos, const gp_Dir2d& V) ;
Standard_EXPORT static gp_Ax1 To3d (const gp_Ax2& Pos, const gp_Ax2d& A) ;
Standard_EXPORT static gp_Ax2 To3d (const gp_Ax2& Pos, const gp_Ax22d& A) ;
Standard_EXPORT static gp_Lin To3d (const gp_Ax2& Pos, const gp_Lin2d& L) ;
Standard_EXPORT static gp_Circ To3d (const gp_Ax2& Pos, const gp_Circ2d& C) ;
Standard_EXPORT static gp_Elips To3d (const gp_Ax2& Pos, const gp_Elips2d& E) ;
Standard_EXPORT static gp_Hypr To3d (const gp_Ax2& Pos, const gp_Hypr2d& H) ;
//! These functions build a 3D geometric entity from a 2D geometric entity.
//! The "X Axis" and the "Y Axis" of the global coordinate
//! system (i.e. 2D space) are lined up respectively with the
//! "X Axis" and "Y Axis" of the 3D coordinate system, Pos.
Standard_EXPORT static gp_Parab To3d (const gp_Ax2& Pos, const gp_Parab2d& Prb) ;
protected:
private:
};
#include <ElCLib.lxx>
#endif // _ElCLib_HeaderFile
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