BlendFunc_ConstThroatWithPenetration Class Reference

Class for a function used to compute a chamfer with constant throat: the section of chamfer is right-angled triangle, the first of two surfaces (where is the top of the chamfer) is virtually moved inside the solid by offset operation, the apex of the section is on the intersection curve between moved surface and second surface, right angle is at the top of the chamfer, the length of the leg from apex to top is constant - it is throat. More...

#include <BlendFunc_ConstThroatWithPenetration.hxx>

Inheritance diagram for BlendFunc_ConstThroatWithPenetration:

Public Member Functions
	BlendFunc_ConstThroatWithPenetration (const occ::handle< Adaptor3d_Surface > &S1, const occ::handle< Adaptor3d_Surface > &S2, const occ::handle< Adaptor3d_Curve > &C)
bool	Value (const math_Vector &X, math_Vector &F) override
	computes the values <F> of the Functions for the variable <X>. Returns True if the computation was done successfully, False otherwise.
bool	Derivatives (const math_Vector &X, math_Matrix &D) override
	returns the values <D> of the derivatives for the variable <X>. Returns True if the computation was done successfully, False otherwise.
bool	IsSolution (const math_Vector &Sol, const double Tol) override
	Returns true if Sol is a zero of the function. Tol is the tolerance used in 3d space. The computation is made at the current value of the parameter on the guide line.
const gp_Vec &	TangentOnS1 () const override
	Returns the tangent vector at PointOnS1, in 3d space.
const gp_Vec2d &	Tangent2dOnS1 () const override
	Returns the tangent vector at PointOnS1, in the parametric space of the first surface.
const gp_Vec &	TangentOnS2 () const override
	Returns the tangent vector at PointOnS2, in 3d space.
const gp_Vec2d &	Tangent2dOnS2 () const override
	Returns the tangent vector at PointOnS2, in the parametric space of the second surface.
double	GetSectionSize () const override
	Returns the tangent vector at the section, at the beginning and the end of the section, and returns the normal (of the surfaces) at these points.
Public Member Functions inherited from BlendFunc_ConstThroat
	BlendFunc_ConstThroat (const occ::handle< Adaptor3d_Surface > &S1, const occ::handle< Adaptor3d_Surface > &S2, const occ::handle< Adaptor3d_Curve > &C)
void	Set (const double Param) override
	Sets the value of the parameter along the guide line. This determines the plane in which the solution has to be found.
const gp_Pnt &	PointOnS1 () const override
	Returns the point on the first surface, at parameter Sol(1),Sol(2) (Sol is the vector used in the call of IsSolution.
const gp_Pnt &	PointOnS2 () const override
	Returns the point on the second surface, at parameter Sol(3),Sol(4) (Sol is the vector used in the call of IsSolution.
bool	IsTangencyPoint () const override
	Returns True when it is not possible to compute the tangent vectors at PointOnS1 and/or PointOnS2.
void	Tangent (const double U1, const double V1, const double U2, const double V2, gp_Vec &TgFirst, gp_Vec &TgLast, gp_Vec &NormFirst, gp_Vec &NormLast) const override
	Returns the tangent vector at the section, at the beginning and the end of the section, and returns the normal (of the surfaces) at these points.
void	Set (const double aThroat, const double, const int Choix) override
	Sets the throat and the "quadrant".
Public Member Functions inherited from BlendFunc_GenChamfer
	BlendFunc_GenChamfer (const occ::handle< Adaptor3d_Surface > &S1, const occ::handle< Adaptor3d_Surface > &S2, const occ::handle< Adaptor3d_Curve > &CG)
int	NbEquations () const override
	returns the number of equations of the function.
bool	Values (const math_Vector &X, math_Vector &F, math_Matrix &D) override
	returns the values <F> of the functions and the derivatives <D> for the variable <X>. Returns True if the computation was done successfully, False otherwise.
void	Set (const double First, const double Last) override
	Sets the bounds of the parametric interval on the guide line. This determines the derivatives in these values if the function is not Cn.
void	GetTolerance (math_Vector &Tolerance, const double Tol) const override
	Returns in the vector Tolerance the parametric tolerance for each of the 4 variables; Tol is the tolerance used in 3d space.
void	GetBounds (math_Vector &InfBound, math_Vector &SupBound) const override
	Returns in the vector InfBound the lowest values allowed for each of the 4 variables. Returns in the vector SupBound the greatest values allowed for each of the 4 variables.
double	GetMinimalDistance () const override
	Returns the minimal Distance between two extremities of calculated sections.
bool	IsRational () const override
	Returns False.
void	GetMinimalWeight (NCollection_Array1< double > &Weigths) const override
	Compute the minimal value of weight for each poles of all sections.
int	NbIntervals (const GeomAbs_Shape S) const override
	Returns the number of intervals for continuity . May be one if Continuity(me) >=
void	Intervals (NCollection_Array1< double > &T, const GeomAbs_Shape S) const override
	Stores in <T> the parameters bounding the intervals of continuity .
void	GetShape (int &NbPoles, int &NbKnots, int &Degree, int &NbPoles2d) override
void	GetTolerance (const double BoundTol, const double SurfTol, const double AngleTol, math_Vector &Tol3d, math_Vector &Tol1D) const override
	Returns the tolerance to reach in approximation to respect BoundTol error at the Boundary AngleTol tangent error at the Boundary SurfTol error inside the surface.
void	Knots (NCollection_Array1< double > &TKnots) override
void	Mults (NCollection_Array1< int > &TMults) override
void	Section (const double Param, const double U1, const double V1, const double U2, const double V2, double &Pdeb, double &Pfin, gp_Lin &C)
	Obsolete method.
bool	Section (const Blend_Point &P, NCollection_Array1< gp_Pnt > &Poles, NCollection_Array1< gp_Vec > &DPoles, NCollection_Array1< gp_Vec > &D2Poles, NCollection_Array1< gp_Pnt2d > &Poles2d, NCollection_Array1< gp_Vec2d > &DPoles2d, NCollection_Array1< gp_Vec2d > &D2Poles2d, NCollection_Array1< double > &Weigths, NCollection_Array1< double > &DWeigths, NCollection_Array1< double > &D2Weigths) override
	Used for the first and last section.
bool	Section (const Blend_Point &P, NCollection_Array1< gp_Pnt > &Poles, NCollection_Array1< gp_Vec > &DPoles, NCollection_Array1< gp_Pnt2d > &Poles2d, NCollection_Array1< gp_Vec2d > &DPoles2d, NCollection_Array1< double > &Weigths, NCollection_Array1< double > &DWeigths) override
	Used for the first and last section.
void	Section (const Blend_Point &P, NCollection_Array1< gp_Pnt > &Poles, NCollection_Array1< gp_Pnt2d > &Poles2d, NCollection_Array1< double > &Weigths) override
void	Resolution (const int IC2d, const double Tol, double &TolU, double &TolV) const override
Public Member Functions inherited from Blend_Function
int	NbVariables () const override
	Returns 4.
const gp_Pnt &	Pnt1 () const override
	Returns the point on the first support.
const gp_Pnt &	Pnt2 () const override
	Returns the point on the second support.
virtual bool	TwistOnS1 () const
virtual bool	TwistOnS2 () const
Public Member Functions inherited from Blend_AppFunction
double	Parameter (const Blend_Point &P) const
	Returns the parameter of the point P. Used to impose the parameters in the approximation.
Public Member Functions inherited from math_FunctionSet
virtual int	GetStateNumber ()
	Returns the state of the function corresponding to the latestcall of any methods associated with the function. This function is called by each of the algorithms described later which define the function Integer Algorithm::StateNumber(). The algorithm has the responsibility to call this function when it has found a solution (i.e. a root or a minimum) and has to maintain the association between the solution found and this StateNumber. Byu default, this method returns 0 (which means for the algorithm: no state has been saved). It is the responsibility of the programmer to decide if he needs to save the current state of the function and to return an Integer that allows retrieval of the state.
virtual	~math_FunctionSet ()

Additional Inherited Members
Protected Attributes inherited from BlendFunc_ConstThroat
gp_Pnt	pts1
gp_Pnt	pts2
gp_Vec	d1u1
gp_Vec	d1v1
gp_Vec	d1u2
gp_Vec	d1v2
bool	istangent
gp_Vec	tg1
gp_Vec2d	tg12d
gp_Vec	tg2
gp_Vec2d	tg22d
double	param
double	Throat
gp_Pnt	ptgui
gp_Vec	nplan
double	normtg
double	theD
gp_Vec	d1gui
gp_Vec	d2gui
Protected Attributes inherited from BlendFunc_GenChamfer
occ::handle< Adaptor3d_Surface >	surf1
occ::handle< Adaptor3d_Surface >	surf2
occ::handle< Adaptor3d_Curve >	curv
int	choix
double	tol
double	distmin

Detailed Description

Class for a function used to compute a chamfer with constant throat: the section of chamfer is right-angled triangle, the first of two surfaces (where is the top of the chamfer) is virtually moved inside the solid by offset operation, the apex of the section is on the intersection curve between moved surface and second surface, right angle is at the top of the chamfer, the length of the leg from apex to top is constant - it is throat.

Constructor & Destructor Documentation

BlendFunc_ConstThroatWithPenetration()

BlendFunc_ConstThroatWithPenetration::BlendFunc_ConstThroatWithPenetration	(	const occ::handle< Adaptor3d_Surface > &	S1,
		const occ::handle< Adaptor3d_Surface > &	S2,
		const occ::handle< Adaptor3d_Curve > &	C )

Member Function Documentation

Derivatives()

bool BlendFunc_ConstThroatWithPenetration::Derivatives ( const math_Vector & X, math_Matrix & D )

overridevirtual

returns the values <D> of the derivatives for the variable <X>. Returns True if the computation was done successfully, False otherwise.

Reimplemented from BlendFunc_ConstThroat.

GetSectionSize()

double BlendFunc_ConstThroatWithPenetration::GetSectionSize ( ) const

overridevirtual

Returns the tangent vector at the section, at the beginning and the end of the section, and returns the normal (of the surfaces) at these points.

Sets the throat and the "quadrant". Returns the length of the maximum section

Reimplemented from BlendFunc_ConstThroat.

IsSolution()

bool BlendFunc_ConstThroatWithPenetration::IsSolution ( const math_Vector & Sol, const double Tol )

overridevirtual

Returns true if Sol is a zero of the function. Tol is the tolerance used in 3d space. The computation is made at the current value of the parameter on the guide line.

Reimplemented from BlendFunc_ConstThroat.

Tangent2dOnS1()

const gp_Vec2d & BlendFunc_ConstThroatWithPenetration::Tangent2dOnS1 ( ) const

overridevirtual

Returns the tangent vector at PointOnS1, in the parametric space of the first surface.

Reimplemented from BlendFunc_ConstThroat.

Tangent2dOnS2()

const gp_Vec2d & BlendFunc_ConstThroatWithPenetration::Tangent2dOnS2 ( ) const

overridevirtual

Returns the tangent vector at PointOnS2, in the parametric space of the second surface.

Reimplemented from BlendFunc_ConstThroat.

TangentOnS1()

const gp_Vec & BlendFunc_ConstThroatWithPenetration::TangentOnS1 ( ) const

overridevirtual

Returns the tangent vector at PointOnS1, in 3d space.

Reimplemented from BlendFunc_ConstThroat.

TangentOnS2()

const gp_Vec & BlendFunc_ConstThroatWithPenetration::TangentOnS2 ( ) const

overridevirtual

Returns the tangent vector at PointOnS2, in 3d space.

Reimplemented from BlendFunc_ConstThroat.

Value()

bool BlendFunc_ConstThroatWithPenetration::Value ( const math_Vector & X, math_Vector & F )

overridevirtual

computes the values <F> of the Functions for the variable <X>. Returns True if the computation was done successfully, False otherwise.

Reimplemented from BlendFunc_ConstThroat.

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The documentation for this class was generated from the following file:

• BlendFunc_ConstThroatWithPenetration.hxx