Compute the 2d-curve. Try to solve the particular case if possible. Otherwize, an approximation is done. For approximation some parameters are used, including required tolerance of approximation. Tolerance is maximal possible value of 3d deviation of 3d projection of projected curve from "exact" 3d projection. Since algorithm searches 2d curve on surface, required 2d tolerance is computed from 3d tolerance with help of U,V resolutions of surface. 3d and 2d tolerances have sence only for curves on surface, it defines precision of projecting and approximation and have nothing to do with distance between the projected curve and the surface. More...
#include <ProjLib_ProjectedCurve.hxx>
Public Member Functions | |
| ProjLib_ProjectedCurve () | |
| Empty constructor, it only sets some initial values for class fields. More... | |
| ProjLib_ProjectedCurve (const Handle< Adaptor3d_HSurface > &S) | |
| Constructor with initialisation field mySurface. More... | |
| ProjLib_ProjectedCurve (const Handle< Adaptor3d_HSurface > &S, const Handle< Adaptor3d_HCurve > &C) | |
| Constructor, which performs projecting. If projecting uses approximation, default parameters are used, in particular, 3d tolerance of approximation is Precision::Confusion() More... | |
| ProjLib_ProjectedCurve (const Handle< Adaptor3d_HSurface > &S, const Handle< Adaptor3d_HCurve > &C, const Standard_Real Tol) | |
| Constructor, which performs projecting. If projecting uses approximation, 3d tolerance is Tol, default parameters are used,. More... | |
| void | Load (const Standard_Real Tolerance) |
| Changes the tolerance used to project the curve on the surface. More... | |
| void | Load (const Handle< Adaptor3d_HSurface > &S) |
| Changes the Surface. More... | |
| void | Perform (const Handle< Adaptor3d_HCurve > &C) |
| Performs projecting for given curve. If projecting uses approximation, approximation parameters can be set before by corresponding methods SetDegree(...), SetMaxSegmets(...), SetBndPnt(...), SetMaxDist(...) More... | |
| void | SetDegree (const Standard_Integer theDegMin, const Standard_Integer theDegMax) |
| Set min and max possible degree of result BSpline curve2d, which is got by approximation. If theDegMin/Max < 0, algorithm uses values that are chosen depending of types curve 3d and surface. More... | |
| void | SetMaxSegments (const Standard_Integer theMaxSegments) |
| Set the parameter, which defines maximal value of parametric intervals the projected curve can be cut for approximation. If theMaxSegments < 0, algorithm uses default value = 1000. More... | |
| void | SetBndPnt (const AppParCurves_Constraint theBndPnt) |
| Set the parameter, which defines type of boundary condition between segments during approximation. It can be AppParCurves_PassPoint or AppParCurves_TangencyPoint. Default value is AppParCurves_TangencyPoint;. More... | |
| void | SetMaxDist (const Standard_Real theMaxDist) |
| Set the parameter, which degines maximal possible distance between projected curve and surface. It uses only for projecting on not analytical surfaces. If theMaxDist < 0, algoritm uses default value 100.*Tolerance. If real distance between curve and surface more then theMaxDist, algorithm stops working. More... | |
| const Handle< Adaptor3d_HSurface > & | GetSurface () const |
| const Handle< Adaptor3d_HCurve > & | GetCurve () const |
| Standard_Real | GetTolerance () const |
| returns the tolerance reached if an approximation is Done. More... | |
| Standard_Real | FirstParameter () const override |
| Standard_Real | LastParameter () const override |
| GeomAbs_Shape | Continuity () const override |
| Standard_Integer | NbIntervals (const GeomAbs_Shape S) const override |
| If necessary, breaks the curve in intervals of continuity <S>. And returns the number of intervals. More... | |
| void | Intervals (TColStd_Array1OfReal &T, const GeomAbs_Shape S) const override |
| Stores in <T> the parameters bounding the intervals of continuity <S>. More... | |
| Handle< Adaptor2d_HCurve2d > | Trim (const Standard_Real First, const Standard_Real Last, const Standard_Real Tol) const override |
| Returns a curve equivalent of <me> between parameters <First> and <Last>. <Tol> is used to test for 3d points confusion. If <First> >= <Last> More... | |
| Standard_Boolean | IsClosed () const override |
| Standard_Boolean | IsPeriodic () const override |
| Standard_Real | Period () const override |
| gp_Pnt2d | Value (const Standard_Real U) const override |
| Computes the point of parameter U on the curve. More... | |
| void | D0 (const Standard_Real U, gp_Pnt2d &P) const override |
| Computes the point of parameter U on the curve. More... | |
| void | D1 (const Standard_Real U, gp_Pnt2d &P, gp_Vec2d &V) const override |
| Computes the point of parameter U on the curve with its first derivative. Raised if the continuity of the current interval is not C1. More... | |
| void | D2 (const Standard_Real U, gp_Pnt2d &P, gp_Vec2d &V1, gp_Vec2d &V2) const override |
| Returns the point P of parameter U, the first and second derivatives V1 and V2. Raised if the continuity of the current interval is not C2. More... | |
| void | D3 (const Standard_Real U, gp_Pnt2d &P, gp_Vec2d &V1, gp_Vec2d &V2, gp_Vec2d &V3) const override |
| Returns the point P of parameter U, the first, the second and the third derivative. Raised if the continuity of the current interval is not C3. More... | |
| gp_Vec2d | DN (const Standard_Real U, const Standard_Integer N) const override |
| The returned vector gives the value of the derivative for the order of derivation N. Raised if the continuity of the current interval is not CN. Raised if N < 1. More... | |
| Standard_Real | Resolution (const Standard_Real R3d) const override |
| Returns the parametric resolution corresponding to the real space resolution <R3d>. More... | |
| GeomAbs_CurveType | GetType () const override |
| Returns the type of the curve in the current interval : Line, Circle, Ellipse, Hyperbola, Parabola, BezierCurve, BSplineCurve, OtherCurve. More... | |
| gp_Lin2d | Line () const override |
| gp_Circ2d | Circle () const override |
| gp_Elips2d | Ellipse () const override |
| gp_Hypr2d | Hyperbola () const override |
| gp_Parab2d | Parabola () const override |
| Standard_Integer | Degree () const override |
| Standard_Boolean | IsRational () const override |
| Standard_Integer | NbPoles () const override |
| Standard_Integer | NbKnots () const override |
| Handle< Geom2d_BezierCurve > | Bezier () const override |
| Warning ! This will NOT make a copy of the – Bezier Curve - If you want to modify – the Curve please make a copy yourself – Also it will NOT trim the surface to – myFirst/Last. More... | |
| Handle< Geom2d_BSplineCurve > | BSpline () const override |
| Warning ! This will NOT make a copy of the BSpline Curve - If you want to modify the Curve please make a copy yourself Also it will NOT trim the surface to myFirst/Last. More... | |
 Public Member Functions inherited from Adaptor2d_Curve2d | |
| virtual Standard_Integer | NbSamples () const |
| virtual | ~Adaptor2d_Curve2d () |
Detailed Description
Compute the 2d-curve. Try to solve the particular case if possible. Otherwize, an approximation is done. For approximation some parameters are used, including required tolerance of approximation. Tolerance is maximal possible value of 3d deviation of 3d projection of projected curve from "exact" 3d projection. Since algorithm searches 2d curve on surface, required 2d tolerance is computed from 3d tolerance with help of U,V resolutions of surface. 3d and 2d tolerances have sence only for curves on surface, it defines precision of projecting and approximation and have nothing to do with distance between the projected curve and the surface.
Constructor & Destructor Documentation
◆ ProjLib_ProjectedCurve() [1/4]
| ProjLib_ProjectedCurve::ProjLib_ProjectedCurve | ( | ) |
Empty constructor, it only sets some initial values for class fields.
◆ ProjLib_ProjectedCurve() [2/4]
| ProjLib_ProjectedCurve::ProjLib_ProjectedCurve | ( | const Handle< Adaptor3d_HSurface > & | S | ) |
Constructor with initialisation field mySurface.
◆ ProjLib_ProjectedCurve() [3/4]
| ProjLib_ProjectedCurve::ProjLib_ProjectedCurve | ( | const Handle< Adaptor3d_HSurface > & | S, |
| const Handle< Adaptor3d_HCurve > & | C | ||
| ) |
Constructor, which performs projecting. If projecting uses approximation, default parameters are used, in particular, 3d tolerance of approximation is Precision::Confusion()
◆ ProjLib_ProjectedCurve() [4/4]
| ProjLib_ProjectedCurve::ProjLib_ProjectedCurve | ( | const Handle< Adaptor3d_HSurface > & | S, |
| const Handle< Adaptor3d_HCurve > & | C, | ||
| const Standard_Real | Tol | ||
| ) |
Constructor, which performs projecting. If projecting uses approximation, 3d tolerance is Tol, default parameters are used,.
Member Function Documentation
◆ Bezier()
|
overridevirtual |
Warning ! This will NOT make a copy of the – Bezier Curve - If you want to modify – the Curve please make a copy yourself – Also it will NOT trim the surface to – myFirst/Last.
Reimplemented from Adaptor2d_Curve2d.
◆ BSpline()
|
overridevirtual |
Warning ! This will NOT make a copy of the BSpline Curve - If you want to modify the Curve please make a copy yourself Also it will NOT trim the surface to myFirst/Last.
Reimplemented from Adaptor2d_Curve2d.
◆ Circle()
|
overridevirtual |
Reimplemented from Adaptor2d_Curve2d.
◆ Continuity()
|
overridevirtual |
Reimplemented from Adaptor2d_Curve2d.
◆ D0()
|
overridevirtual |
Computes the point of parameter U on the curve.
Reimplemented from Adaptor2d_Curve2d.
◆ D1()
|
overridevirtual |
Computes the point of parameter U on the curve with its first derivative. Raised if the continuity of the current interval is not C1.
Reimplemented from Adaptor2d_Curve2d.
◆ D2()
|
overridevirtual |
Returns the point P of parameter U, the first and second derivatives V1 and V2. Raised if the continuity of the current interval is not C2.
Reimplemented from Adaptor2d_Curve2d.
◆ D3()
|
overridevirtual |
Returns the point P of parameter U, the first, the second and the third derivative. Raised if the continuity of the current interval is not C3.
Reimplemented from Adaptor2d_Curve2d.
◆ Degree()
|
overridevirtual |
Reimplemented from Adaptor2d_Curve2d.
◆ DN()
|
overridevirtual |
The returned vector gives the value of the derivative for the order of derivation N. Raised if the continuity of the current interval is not CN. Raised if N < 1.
Reimplemented from Adaptor2d_Curve2d.
◆ Ellipse()
|
overridevirtual |
Reimplemented from Adaptor2d_Curve2d.
◆ FirstParameter()
|
overridevirtual |
Reimplemented from Adaptor2d_Curve2d.
◆ GetCurve()
| const Handle< Adaptor3d_HCurve >& ProjLib_ProjectedCurve::GetCurve | ( | ) | const |
◆ GetSurface()
| const Handle< Adaptor3d_HSurface >& ProjLib_ProjectedCurve::GetSurface | ( | ) | const |
◆ GetTolerance()
| Standard_Real ProjLib_ProjectedCurve::GetTolerance | ( | ) | const |
returns the tolerance reached if an approximation is Done.
◆ GetType()
|
overridevirtual |
Returns the type of the curve in the current interval : Line, Circle, Ellipse, Hyperbola, Parabola, BezierCurve, BSplineCurve, OtherCurve.
Reimplemented from Adaptor2d_Curve2d.
◆ Hyperbola()
|
overridevirtual |
Reimplemented from Adaptor2d_Curve2d.
◆ Intervals()
|
overridevirtual |
Stores in <T> the parameters bounding the intervals of continuity <S>.
The array must provide enough room to accomodate for the parameters. i.e. T.Length() > NbIntervals()
Reimplemented from Adaptor2d_Curve2d.
◆ IsClosed()
|
overridevirtual |
Reimplemented from Adaptor2d_Curve2d.
◆ IsPeriodic()
|
overridevirtual |
Reimplemented from Adaptor2d_Curve2d.
◆ IsRational()
|
overridevirtual |
Reimplemented from Adaptor2d_Curve2d.
◆ LastParameter()
|
overridevirtual |
Reimplemented from Adaptor2d_Curve2d.
◆ Line()
|
overridevirtual |
Reimplemented from Adaptor2d_Curve2d.
◆ Load() [1/2]
| void ProjLib_ProjectedCurve::Load | ( | const Standard_Real | Tolerance | ) |
Changes the tolerance used to project the curve on the surface.
◆ Load() [2/2]
| void ProjLib_ProjectedCurve::Load | ( | const Handle< Adaptor3d_HSurface > & | S | ) |
Changes the Surface.
◆ NbIntervals()
|
overridevirtual |
If necessary, breaks the curve in intervals of continuity <S>. And returns the number of intervals.
Reimplemented from Adaptor2d_Curve2d.
◆ NbKnots()
|
overridevirtual |
Reimplemented from Adaptor2d_Curve2d.
◆ NbPoles()
|
overridevirtual |
Reimplemented from Adaptor2d_Curve2d.
◆ Parabola()
|
overridevirtual |
Reimplemented from Adaptor2d_Curve2d.
◆ Perform()
| void ProjLib_ProjectedCurve::Perform | ( | const Handle< Adaptor3d_HCurve > & | C | ) |
Performs projecting for given curve. If projecting uses approximation, approximation parameters can be set before by corresponding methods SetDegree(...), SetMaxSegmets(...), SetBndPnt(...), SetMaxDist(...)
◆ Period()
|
overridevirtual |
Reimplemented from Adaptor2d_Curve2d.
◆ Resolution()
|
overridevirtual |
Returns the parametric resolution corresponding to the real space resolution <R3d>.
Reimplemented from Adaptor2d_Curve2d.
◆ SetBndPnt()
| void ProjLib_ProjectedCurve::SetBndPnt | ( | const AppParCurves_Constraint | theBndPnt | ) |
Set the parameter, which defines type of boundary condition between segments during approximation. It can be AppParCurves_PassPoint or AppParCurves_TangencyPoint. Default value is AppParCurves_TangencyPoint;.
◆ SetDegree()
| void ProjLib_ProjectedCurve::SetDegree | ( | const Standard_Integer | theDegMin, |
| const Standard_Integer | theDegMax | ||
| ) |
Set min and max possible degree of result BSpline curve2d, which is got by approximation. If theDegMin/Max < 0, algorithm uses values that are chosen depending of types curve 3d and surface.
◆ SetMaxDist()
| void ProjLib_ProjectedCurve::SetMaxDist | ( | const Standard_Real | theMaxDist | ) |
Set the parameter, which degines maximal possible distance between projected curve and surface. It uses only for projecting on not analytical surfaces. If theMaxDist < 0, algoritm uses default value 100.*Tolerance. If real distance between curve and surface more then theMaxDist, algorithm stops working.
◆ SetMaxSegments()
| void ProjLib_ProjectedCurve::SetMaxSegments | ( | const Standard_Integer | theMaxSegments | ) |
Set the parameter, which defines maximal value of parametric intervals the projected curve can be cut for approximation. If theMaxSegments < 0, algorithm uses default value = 1000.
◆ Trim()
|
overridevirtual |
Returns a curve equivalent of <me> between parameters <First> and <Last>. <Tol> is used to test for 3d points confusion. If <First> >= <Last>
Reimplemented from Adaptor2d_Curve2d.
◆ Value()
|
overridevirtual |
Computes the point of parameter U on the curve.
Reimplemented from Adaptor2d_Curve2d.
The documentation for this class was generated from the following file:
