Open CASCADE Technology 7.9.0
 
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Public Member Functions
Extrema_LocateExtPC Class Reference

#include <Extrema_LocateExtPC.hxx>

Public Member Functions

 Extrema_LocateExtPC ()
 
 Extrema_LocateExtPC (const gp_Pnt &P, const Adaptor3d_Curve &C, const Standard_Real U0, const Standard_Real TolF)
 Calculates the distance with a close point. The close point is defined by the parameter value U0. The function F(u)=distance(P,C(u)) has an extremum when g(u)=dF/du=0. The algorithm searches a zero near the close point. TolF is used to decide to stop the iterations. At the nth iteration, the criteria is: abs(Un - Un-1) < TolF.
 
 Extrema_LocateExtPC (const gp_Pnt &P, const Adaptor3d_Curve &C, const Standard_Real U0, const Standard_Real Umin, const Standard_Real Usup, const Standard_Real TolF)
 Calculates the distance with a close point. The close point is defined by the parameter value U0. The function F(u)=distance(P,C(u)) has an extremum when g(u)=dF/du=0. The algorithm searches a zero near the close point. Zeros are searched between Umin et Usup. TolF is used to decide to stop the iterations. At the nth iteration, the criteria is: abs(Un - Un-1) < TolF.
 
void Initialize (const Adaptor3d_Curve &C, const Standard_Real Umin, const Standard_Real Usup, const Standard_Real TolF)
 sets the fields of the algorithm.
 
void Perform (const gp_Pnt &P, const Standard_Real U0)
 
Standard_Boolean IsDone () const
 Returns True if the distance is found.
 
Standard_Real SquareDistance () const
 Returns the value of the extremum square distance.
 
Standard_Boolean IsMin () const
 Returns True if the extremum distance is a minimum.
 
const Extrema_POnCurvPoint () const
 Returns the point of the extremum distance.
 

Constructor & Destructor Documentation

◆ Extrema_LocateExtPC() [1/3]

Extrema_LocateExtPC::Extrema_LocateExtPC ( )

◆ Extrema_LocateExtPC() [2/3]

Extrema_LocateExtPC::Extrema_LocateExtPC ( const gp_Pnt & P,
const Adaptor3d_Curve & C,
const Standard_Real U0,
const Standard_Real TolF )

Calculates the distance with a close point. The close point is defined by the parameter value U0. The function F(u)=distance(P,C(u)) has an extremum when g(u)=dF/du=0. The algorithm searches a zero near the close point. TolF is used to decide to stop the iterations. At the nth iteration, the criteria is: abs(Un - Un-1) < TolF.

◆ Extrema_LocateExtPC() [3/3]

Extrema_LocateExtPC::Extrema_LocateExtPC ( const gp_Pnt & P,
const Adaptor3d_Curve & C,
const Standard_Real U0,
const Standard_Real Umin,
const Standard_Real Usup,
const Standard_Real TolF )

Calculates the distance with a close point. The close point is defined by the parameter value U0. The function F(u)=distance(P,C(u)) has an extremum when g(u)=dF/du=0. The algorithm searches a zero near the close point. Zeros are searched between Umin et Usup. TolF is used to decide to stop the iterations. At the nth iteration, the criteria is: abs(Un - Un-1) < TolF.

Member Function Documentation

◆ Initialize()

void Extrema_LocateExtPC::Initialize ( const Adaptor3d_Curve & C,
const Standard_Real Umin,
const Standard_Real Usup,
const Standard_Real TolF )

sets the fields of the algorithm.

◆ IsDone()

Standard_Boolean Extrema_LocateExtPC::IsDone ( ) const

Returns True if the distance is found.

◆ IsMin()

Standard_Boolean Extrema_LocateExtPC::IsMin ( ) const

Returns True if the extremum distance is a minimum.

◆ Perform()

void Extrema_LocateExtPC::Perform ( const gp_Pnt & P,
const Standard_Real U0 )

◆ Point()

const Extrema_POnCurv & Extrema_LocateExtPC::Point ( ) const

Returns the point of the extremum distance.

◆ SquareDistance()

Standard_Real Extrema_LocateExtPC::SquareDistance ( ) const

Returns the value of the extremum square distance.

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