The Intersector computes 2D intersections of the projections of 3D curves. More...

#include <HLRBRep_Intersector.hxx>

Public Member Functions
	HLRBRep_Intersector ()

void	Perform (const Standard_Address A1, const Standard_Real da1, const Standard_Real db1)
	Performs the auto intersection of an edge. The edge domain is cutted at start with da1(b-a) and at end with db1(b-a). More...

void	Perform (const Standard_Integer nA, const Standard_Address A1, const Standard_Real da1, const Standard_Real db1, const Standard_Integer nB, const Standard_Address A2, const Standard_Real da2, const Standard_Real db2, const Standard_Boolean NoBound)
	Performs the intersection between the two edges. The edges domains are cutted at start with da(b-a) and at end with db(b-a). More...

void	SimulateOnePoint (const Standard_Address A1, const Standard_Real U, const Standard_Address A2, const Standard_Real V)
	Create a single IntersectionPoint (U on A1) (V on A2) The point is middle on both curves. More...

void	Load (Standard_Address &A)

void	Perform (const gp_Lin &L, const Standard_Real P)

Standard_Boolean	IsDone () const

Standard_Integer	NbPoints () const

const IntRes2d_IntersectionPoint &	Point (const Standard_Integer N) const

const IntCurveSurface_IntersectionPoint &	CSPoint (const Standard_Integer N) const

Standard_Integer	NbSegments () const

const IntRes2d_IntersectionSegment &	Segment (const Standard_Integer N) const

const IntCurveSurface_IntersectionSegment &	CSSegment (const Standard_Integer N) const

void	Destroy ()

	~HLRBRep_Intersector ()

Detailed Description

The Intersector computes 2D intersections of the projections of 3D curves.

It can also computes the intersection of a 3D line and a surface.

Constructor & Destructor Documentation

HLRBRep_Intersector::HLRBRep_Intersector ( )

HLRBRep_Intersector::~HLRBRep_Intersector ( )

inline

const IntCurveSurface_IntersectionPoint& HLRBRep_Intersector::CSPoint ( const Standard_Integer N ) const

const IntCurveSurface_IntersectionSegment& HLRBRep_Intersector::CSSegment ( const Standard_Integer N ) const

void HLRBRep_Intersector::Destroy ( )

Standard_Boolean HLRBRep_Intersector::IsDone ( ) const

void HLRBRep_Intersector::Load ( Standard_Address & A )

Standard_Integer HLRBRep_Intersector::NbPoints ( ) const

Standard_Integer HLRBRep_Intersector::NbSegments ( ) const

void HLRBRep_Intersector::Perform	(	const Standard_Address	A1,
		const Standard_Real	da1,
		const Standard_Real	db1
	)

Performs the auto intersection of an edge. The edge domain is cutted at start with da1*(b-a) and at end with db1*(b-a).

void HLRBRep_Intersector::Perform	(	const Standard_Integer	nA,
		const Standard_Address	A1,
		const Standard_Real	da1,
		const Standard_Real	db1,
		const Standard_Integer	nB,
		const Standard_Address	A2,
		const Standard_Real	da2,
		const Standard_Real	db2,
		const Standard_Boolean	NoBound
	)

Performs the intersection between the two edges. The edges domains are cutted at start with da*(b-a) and at end with db*(b-a).

void HLRBRep_Intersector::Perform	(	const gp_Lin &	L,
		const Standard_Real	P
	)

const IntRes2d_IntersectionPoint& HLRBRep_Intersector::Point ( const Standard_Integer N ) const

const IntRes2d_IntersectionSegment& HLRBRep_Intersector::Segment ( const Standard_Integer N ) const

void HLRBRep_Intersector::SimulateOnePoint	(	const Standard_Address	A1,
		const Standard_Real	U,
		const Standard_Address	A2,
		const Standard_Real	V
	)

Create a single IntersectionPoint (U on A1) (V on A2) The point is middle on both curves.

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