CGAL 5.4 - 2D Intersection of Curves
2D Intersection of Curves Reference

Curve_intersections_2.png
Baruch Zukerman, Ron Wein, and Efi Fogel
This package provides three free functions implemented based on the sweep-line paradigm: given a collection of input curves, compute all intersection points, compute the set of subcurves that are pairwise interior-disjoint induced by them, and check whether there is at least one pair of curves among them that intersect in their interior.
Introduced in: CGAL 2.4
Depends on: 2D Arrangements
BibTeX: cgal:wfz-ic2-21b
License: GPL

This chapter describes three functions implemented using the sweep-line algorithm: given a collection \( {\mathcal C}\) of planar curves, compute all intersection points among them, obtain the set of maximal pairwise interior-disjoint subcurves of the curves in \( {\mathcal C}\), or check whether there is at least one pair of curves in \( {\mathcal C}\) that intersect in their interior.

The first two operations are performed in an output-sensitive manner.

Classified Reference Pages

Functions

Functions

template<class InputIterator , class OutputIterator >
OutputIterator CGAL::compute_intersection_points (InputIterator curves_begin, InputIterator curves_end, OutputIterator points, bool report_endpoints=false)
 Given a range of curves, compute all intersection points between two (or more) input curves. More...
 
template<class InputIterator , class OutputIterator , class Traits >
OutputIterator CGAL::compute_intersection_points (InputIterator curves_begin, InputIterator curves_end, OutputIterator points, bool report_endpoints=false, Traits traits)
 Given a range of curves, compute all intersection points between two (or more) input curves. More...
 
template<class InputIterator , class OutputIterator >
OutputIterator CGAL::compute_subcurves (InputIterator curves_begin, InputIterator curves_end, OutputIterator subcurves, bool multiple_overlaps=false)
 Given a range of curves, compute all \( x\)-monotone subcurves that are pairwise disjoint in their interior, as induced by the input curves. More...
 
template<class InputIterator , class OutputIterator , class Traits >
OutputIterator CGAL::compute_subcurves (InputIterator curves_begin, InputIterator curves_end, OutputIterator subcurves, bool multiple_overlaps=false, Traits traits=Default_traits())
 Given a range of curves, compute all \( x\)-monotone subcurves that are pairwise disjoint in their interior, as induced by the input curves. More...
 
template<class InputIterator >
bool CGAL::do_curves_intersect (InputIterator curves_begin, InputIterator curves_end)
 Given a range of curves, check whether there is at least one pair of curves that intersect in their interior. More...
 
template<class InputIterator , class Traits >
bool CGAL::do_curves_intersect (InputIterator curves_begin, InputIterator curves_end, Traits traits=Default_traits())
 Given a range of curves, check whether there is at least one pair of curves that intersect in their interior. More...
 

Function Documentation

◆ compute_intersection_points() [1/2]

template<class InputIterator , class OutputIterator >
OutputIterator CGAL::compute_intersection_points ( InputIterator  curves_begin,
InputIterator  curves_end,
OutputIterator  points,
bool  report_endpoints = false 
)

#include <CGAL/Surface_sweep_2_algorithms.h>

Given a range of curves, compute all intersection points between two (or more) input curves.

When the flag report_endpoints is true, this function reports all the curve endpoints as well. If a curve endpoint is also an intersection point, it is reported once (regardless of the value of the report_endpoints flag). The value-type of InputIterator is a curve type and the value-type of OutputIterator is a point type. The output points are reported in an increasing \(xy\)-lexicographical order.

Examples:
Surface_sweep_2/plane_sweep.cpp.

◆ compute_intersection_points() [2/2]

template<class InputIterator , class OutputIterator , class Traits >
OutputIterator CGAL::compute_intersection_points ( InputIterator  curves_begin,
InputIterator  curves_end,
OutputIterator  points,
bool  report_endpoints = false,
Traits  traits 
)

#include <CGAL/Surface_sweep_2_algorithms.h>

Given a range of curves, compute all intersection points between two (or more) input curves.

When the flag report_endpoints is true, this function reports all the curve endpoints as well. If a curve endpoint is also an intersection point, it is reported once (regardless of the value of the report_endpoints flag). The Traits type must be a model of the ArrangementTraits_2 concept, such that the value-type of InputIterator is Traits::Curve_2, and the value-type of OutputIterator is Traits::Point_2. The output points are reported in an increasing \( xy\)-lexicographical order.

◆ compute_subcurves() [1/2]

template<class InputIterator , class OutputIterator >
OutputIterator CGAL::compute_subcurves ( InputIterator  curves_begin,
InputIterator  curves_end,
OutputIterator  subcurves,
bool  multiple_overlaps = false 
)

#include <CGAL/Surface_sweep_2_algorithms.h>

Given a range of curves, compute all \( x\)-monotone subcurves that are pairwise disjoint in their interior, as induced by the input curves.

If the flag multiple_overlaps is true, then a subcurve that represents an overlap of \( k\) input curves is reported \( k\) times; otherwise, each subcurve is reported only once. The value-type of InputIterator is a curve type, and the value-type of OutputIterator is an \(x\)-monotone curve type.

Examples:
Surface_sweep_2/plane_sweep.cpp.

◆ compute_subcurves() [2/2]

template<class InputIterator , class OutputIterator , class Traits >
OutputIterator CGAL::compute_subcurves ( InputIterator  curves_begin,
InputIterator  curves_end,
OutputIterator  subcurves,
bool  multiple_overlaps = false,
Traits  traits = Default_traits() 
)

#include <CGAL/Surface_sweep_2_algorithms.h>

Given a range of curves, compute all \( x\)-monotone subcurves that are pairwise disjoint in their interior, as induced by the input curves.

If the flag multiple_overlaps is true, then a subcurve that represents an overlap of \( k\) input curves is reported \( k\) times; otherwise, each subcurve is reported only once. The Traits type must be a model of the ArrangementTraits_2 concept, such that the value-type of InputIterator is Traits::Curve_2, and the value-type of OutputIterator is Traits::X_monotone_curve_2.

◆ do_curves_intersect() [1/2]

template<class InputIterator >
bool CGAL::do_curves_intersect ( InputIterator  curves_begin,
InputIterator  curves_end 
)

#include <CGAL/Surface_sweep_2_algorithms.h>

Given a range of curves, check whether there is at least one pair of curves that intersect in their interior.

The function returns true if such a pair is found, and false if all curves are pairwise disjoint in their interior. The value-type of InputIterator is a curve type.

Examples:
Surface_sweep_2/plane_sweep.cpp.

◆ do_curves_intersect() [2/2]

template<class InputIterator , class Traits >
bool CGAL::do_curves_intersect ( InputIterator  curves_begin,
InputIterator  curves_end,
Traits  traits = Default_traits() 
)

#include <CGAL/Surface_sweep_2_algorithms.h>

Given a range of curves, check whether there is at least one pair of curves that intersect in their interior.

The function returns true if such a pair is found, and false if all curves are pairwise disjoint in their interior. The Traits type must be a model of the ArrangementTraits_2 concept, such that the value-type of InputIterator is Traits::Curve_2.