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cgal/Cartesian_kernel/include/CGAL/Cartesian/Segment_3.h

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// Copyright (c) 2000 Utrecht University (The Netherlands),
// ETH Zurich (Switzerland), Freie Universitaet Berlin (Germany),
// INRIA Sophia-Antipolis (France), Martin-Luther-University Halle-Wittenberg
// (Germany), Max-Planck-Institute Saarbruecken (Germany), RISC Linz (Austria),
// and Tel-Aviv University (Israel). All rights reserved.
//
// This file is part of CGAL (www.cgal.org); you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public License as
// published by the Free Software Foundation; version 2.1 of the License.
// See the file LICENSE.LGPL distributed with CGAL.
//
// Licensees holding a valid commercial license may use this file in
// accordance with the commercial license agreement provided with the software.
//
// This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
// WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
//
// $Source$
// $Revision$ $Date$
// $Name$
//
// Author(s) : Andreas Fabri
#ifndef CGAL_CARTESIAN_SEGMENT_3_H
#define CGAL_CARTESIAN_SEGMENT_3_H
#include <CGAL/Twotuple.h>
CGAL_BEGIN_NAMESPACE
template < class R_ >
class SegmentC3
{
typedef typename R_::FT FT;
typedef typename R_::Point_3 Point_3;
typedef typename R_::Direction_3 Direction_3;
typedef typename R_::Vector_3 Vector_3;
typedef typename R_::Line_3 Line_3;
typedef typename R_::Segment_3 Segment_3;
typedef typename R_::Aff_transformation_3 Aff_transformation_3;
typedef Twotuple<Point_3> Rep;
typedef typename R_::template Handle<Rep>::type Base;
Base base;
public:
typedef R_ R;
SegmentC3() {}
SegmentC3(const Point_3 &sp, const Point_3 &ep)
: base(sp, ep) {}
bool has_on(const Point_3 &p) const;
bool collinear_has_on(const Point_3 &p) const;
bool operator==(const SegmentC3 &s) const;
bool operator!=(const SegmentC3 &s) const;
const Point_3 & source() const
{
return get(base).e0;
}
const Point_3 & target() const
{
return get(base).e1;
}
const Point_3 & start() const;
const Point_3 & end() const;
const Point_3 & min() const;
const Point_3 & max() const;
const Point_3 & vertex(int i) const;
const Point_3 & point(int i) const;
const Point_3 & operator[](int i) const;
FT squared_length() const;
Direction_3 direction() const;
Vector_3 to_vector() const;
Line_3 supporting_line() const;
Segment_3 opposite() const;
Segment_3 transform(const Aff_transformation_3 &t) const
{
return SegmentC3<R>(t.transform(source()), t.transform(target()));
}
bool is_degenerate() const;
Bbox_3 bbox() const;
};
template < class R >
inline
bool
SegmentC3<R>::operator==(const SegmentC3<R> &s) const
{
if (CGAL::identical(base, s.base))
return true;
return source() == s.source() && target() == s.target();
}
template < class R >
inline
bool
SegmentC3<R>::operator!=(const SegmentC3<R> &s) const
{
return !(*this == s);
}
template < class R >
const typename SegmentC3<R>::Point_3 &
SegmentC3<R>::start() const
{
return source();
}
template < class R >
const typename SegmentC3<R>::Point_3 &
SegmentC3<R>::end() const
{
return target();
}
template < class R >
inline
const typename SegmentC3<R>::Point_3 &
SegmentC3<R>::min() const
{
return lexicographically_xyz_smaller(source(),target()) ? source()
: target();
}
template < class R >
inline
const typename SegmentC3<R>::Point_3 &
SegmentC3<R>::max() const
{
return lexicographically_xyz_smaller(source(),target()) ? target()
: source();
}
template < class R >
inline
const typename SegmentC3<R>::Point_3 &
SegmentC3<R>::vertex(int i) const
{
return (i%2 == 0) ? source() : target();
}
template < class R >
inline
const typename SegmentC3<R>::Point_3 &
SegmentC3<R>::point(int i) const
{
return vertex(i);
}
template < class R >
inline
const typename SegmentC3<R>::Point_3 &
SegmentC3<R>::operator[](int i) const
{
return vertex(i);
}
template < class R >
inline
typename SegmentC3<R>::FT
SegmentC3<R>::squared_length() const
{
return squared_distance(target(), source());
}
template < class R >
inline
typename SegmentC3<R>::Vector_3
SegmentC3<R>::to_vector() const
{
return target() - source();
}
template < class R >
inline
typename SegmentC3<R>::Direction_3
SegmentC3<R>::direction() const
{
return Direction_3( target() - source() );
}
template < class R >
inline
typename SegmentC3<R>::Line_3
SegmentC3<R>::supporting_line() const
{
return Line_3(*this);
}
template < class R >
inline
typename SegmentC3<R>::Segment_3
SegmentC3<R>::opposite() const
{
return SegmentC3<R>(target(), source());
}
template < class R >
inline
bool
SegmentC3<R>::is_degenerate() const
{
return source() == target();
}
template < class R >
inline
Bbox_3
SegmentC3<R>::bbox() const
{
typename R::Construct_bbox_3 construct_bbox_3;
return construct_bbox_3(source()) + construct_bbox_3(target());
}
template < class R >
inline
bool
SegmentC3<R>::
has_on(const typename SegmentC3<R>::Point_3 &p) const
{
return are_ordered_along_line(source(), p, target());
}
template < class R >
inline
bool
SegmentC3<R>::
collinear_has_on(const typename SegmentC3<R>::Point_3 &p) const
{
return collinear_are_ordered_along_line(source(), p, target());
}
#ifndef CGAL_NO_OSTREAM_INSERT_SEGMENTC3
template < class R >
std::ostream &
operator<<(std::ostream &os, const SegmentC3<R> &s)
{
switch(os.iword(IO::mode)) {
case IO::ASCII :
return os << s.source() << ' ' << s.target();
case IO::BINARY :
return os << s.source() << s.target();
default:
return os << "SegmentC3(" << s.source() << ", " << s.target() << ")";
}
}
#endif // CGAL_NO_OSTREAM_INSERT_SEGMENTC3
#ifndef CGAL_NO_ISTREAM_EXTRACT_SEGMENTC3
template < class R >
std::istream &
operator>>(std::istream &is, SegmentC3<R> &s)
{
typename R::Point_3 p, q;
is >> p >> q;
if (is)
s = SegmentC3<R>(p, q);
return is;
}
#endif // CGAL_NO_ISTREAM_EXTRACT_SEGMENTC3
CGAL_END_NAMESPACE
#endif // CGAL_CARTESIAN_SEGMENT_3_H
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