Open CASCADE Technology
7.6.0
|
Definition of an intersection curve between two 2D curves. More...
#include <IntRes2d_IntersectionSegment.hxx>
Public Member Functions | |
IntRes2d_IntersectionSegment () | |
Empty constructor. More... | |
IntRes2d_IntersectionSegment (const IntRes2d_IntersectionPoint &P1, const IntRes2d_IntersectionPoint &P2, const Standard_Boolean Oppos, const Standard_Boolean ReverseFlag) | |
IntRes2d_IntersectionSegment (const IntRes2d_IntersectionPoint &P, const Standard_Boolean First, const Standard_Boolean Oppos, const Standard_Boolean ReverseFlag) | |
IntRes2d_IntersectionSegment (const Standard_Boolean Oppos) | |
Creates an infinite segment of intersection. More... | |
Standard_Boolean | IsOpposite () const |
Returns FALSE if the intersection segment has got the same orientation on both curves. More... | |
Standard_Boolean | HasFirstPoint () const |
Returns True if the segment is limited by a first point. This point defines the lowest parameter admitted on the first curve for the segment. If IsOpposite returns False, it defines the lowest parameter on the second curve, otherwise, it is the highest parameter on the second curve. More... | |
const IntRes2d_IntersectionPoint & | FirstPoint () const |
Returns the first point of the segment as an IntersectionPoint (with a transition). The exception DomainError is raised if HasFirstPoint returns False. More... | |
Standard_Boolean | HasLastPoint () const |
Returns True if the segment is limited by a last point. This point defines the highest parameter admitted on the first curve for the segment. If IsOpposite returns False, it defines the highest parameter on the second curve, otherwise, it is the lowest parameter on the second curve. More... | |
const IntRes2d_IntersectionPoint & | LastPoint () const |
Returns the last point of the segment as an IntersectionPoint (with a transition). The exception DomainError is raised if HasLastExtremity returns False. More... | |
Definition of an intersection curve between two 2D curves.
IntRes2d_IntersectionSegment::IntRes2d_IntersectionSegment | ( | ) |
Empty constructor.
IntRes2d_IntersectionSegment::IntRes2d_IntersectionSegment | ( | const IntRes2d_IntersectionPoint & | P1, |
const IntRes2d_IntersectionPoint & | P2, | ||
const Standard_Boolean | Oppos, | ||
const Standard_Boolean | ReverseFlag | ||
) |
IntRes2d_IntersectionSegment::IntRes2d_IntersectionSegment | ( | const IntRes2d_IntersectionPoint & | P, |
const Standard_Boolean | First, | ||
const Standard_Boolean | Oppos, | ||
const Standard_Boolean | ReverseFlag | ||
) |
IntRes2d_IntersectionSegment::IntRes2d_IntersectionSegment | ( | const Standard_Boolean | Oppos | ) |
Creates an infinite segment of intersection.
const IntRes2d_IntersectionPoint& IntRes2d_IntersectionSegment::FirstPoint | ( | ) | const |
Returns the first point of the segment as an IntersectionPoint (with a transition). The exception DomainError is raised if HasFirstPoint returns False.
Standard_Boolean IntRes2d_IntersectionSegment::HasFirstPoint | ( | ) | const |
Returns True if the segment is limited by a first point. This point defines the lowest parameter admitted on the first curve for the segment. If IsOpposite returns False, it defines the lowest parameter on the second curve, otherwise, it is the highest parameter on the second curve.
Standard_Boolean IntRes2d_IntersectionSegment::HasLastPoint | ( | ) | const |
Returns True if the segment is limited by a last point. This point defines the highest parameter admitted on the first curve for the segment. If IsOpposite returns False, it defines the highest parameter on the second curve, otherwise, it is the lowest parameter on the second curve.
Standard_Boolean IntRes2d_IntersectionSegment::IsOpposite | ( | ) | const |
Returns FALSE if the intersection segment has got the same orientation on both curves.
const IntRes2d_IntersectionPoint& IntRes2d_IntersectionSegment::LastPoint | ( | ) | const |
Returns the last point of the segment as an IntersectionPoint (with a transition). The exception DomainError is raised if HasLastExtremity returns False.