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cgal/Old_Packages/S2/include/CGAL/SimpleCartesian/Iso_rectangleS2.h

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// ======================================================================
//
// Copyright (c) 1999 The CGAL Consortium
//
// This software and related documentation is part of an INTERNAL release
// of the Computational Geometry Algorithms Library (CGAL). It is not
// intended for general use.
//
// ----------------------------------------------------------------------
// release :
// release_date : 2000, August 16
//
// source : webS2/S2.lw
// file : include/CGAL/SimpleCartesian/Iso_rectangleS2.h
// package : S2 (1.7)
// maintainer : Stefan Schirra <stschirr@mpi-sb.mpg.de>
// revision : 1.6
// revision_date : 27 Jun 2000
// author(s) : Stefan Schirra
// based on code by
// Andreas Fabri and
// Herve Brönnimann
//
// coordinator : MPI, Saarbrücken
// ======================================================================
#ifndef CGAL_ISO_RECTANGLES2_H
#define CGAL_ISO_RECTANGLES2_H
#include <CGAL/SimpleCartesian/PointS2.h>
CGAL_BEGIN_NAMESPACE
template <class FT>
class Iso_rectangleS2
{
public:
Iso_rectangleS2() {}
Iso_rectangleS2(const PointS2<FT>& p, const PointS2<FT>& q);
bool operator==(const Iso_rectangleS2<FT>& s) const;
bool operator!=(const Iso_rectangleS2<FT>& s) const;
int id() const;
const PointS2<FT>& min() const;
const PointS2<FT>& max() const;
PointS2<FT> vertex(int i) const;
PointS2<FT> operator[](int i) const;
Iso_rectangleS2<FT> transform(const Aff_transformationS2<FT>& t) const;
Bounded_side bounded_side(const PointS2<FT>& p) const;
bool has_on_boundary(const PointS2<FT>& p) const;
bool has_on_bounded_side(const PointS2<FT>& p) const;
bool has_on_unbounded_side(const PointS2<FT>& p) const;
bool is_degenerate() const;
Bbox_2 bbox() const;
FT xmin() const;
FT ymin() const;
FT xmax() const;
FT ymax() const;
// private:
PointS2<FT> e0;
PointS2<FT> e1;
};
template < class FT >
inline
Iso_rectangleS2<FT>::Iso_rectangleS2(const PointS2<FT>& p,
const PointS2<FT>& q)
{
FT vx0 = p.x();
FT vy0 = p.y();
FT vx1 = q.x();
FT vy1 = q.y();
bool b1 = false,
b2 = false;
if ( (b1 = (vx0 > vx1)) || (b2 = (vy0 > vy1)) )
{
if (b1 && b2)
{ e0 = q; e1 = p; }
else
{
if (vx0 > vx1)
{
FT z = vx1;
vx1 = vx0;
vx0 = z;
}
if (vy0 > vy1)
{
FT z = vy1;
vy1 = vy0;
vy0 = z;
}
e0 = PointS2<FT>(vx0,vy0);
e1 = PointS2<FT>(vx1,vy1);
}
}
else
{ e0 = p; e1 = q; }
}
template < class FT >
inline
bool
Iso_rectangleS2<FT>::operator==(const Iso_rectangleS2<FT>& r) const
{ return vertex(0) == r.vertex(0) && vertex(2) == r.vertex(2); }
template < class FT >
inline
bool
Iso_rectangleS2<FT>::operator!=(const Iso_rectangleS2<FT>& r) const
{ return !(*this == r); }
template < class FT >
inline
const PointS2<FT>&
Iso_rectangleS2<FT>::min() const
{ return e0; }
template < class FT >
inline
const PointS2<FT>&
Iso_rectangleS2<FT>::max() const
{ return e1; }
template < class FT >
inline
FT
Iso_rectangleS2<FT>::xmin() const
{ return min().x(); }
template < class FT >
inline
FT
Iso_rectangleS2<FT>::ymin() const
{ return min().y(); }
template < class FT >
inline
FT
Iso_rectangleS2<FT>::xmax() const
{ return max().x(); }
template < class FT >
inline
FT
Iso_rectangleS2<FT>::ymax() const
{ return max().y(); }
template < class FT >
PointS2<FT>
Iso_rectangleS2<FT>::vertex(int i) const
{
switch (i%4) {
case 0: return min();
case 1: return PointS2<FT>(xmax(), ymin());
case 2: return max();
default: return PointS2<FT>(xmin(), ymax());
}
}
template < class FT >
inline
PointS2<FT>
Iso_rectangleS2<FT>::operator[](int i) const
{ return vertex(i); }
template < class FT >
CGAL_KERNEL_MEDIUM_INLINE
Bounded_side Iso_rectangleS2<FT>::bounded_side(const PointS2<FT>& p) const
{
bool x_incr = (xmin() < p.x()) && (p.x() < xmax()),
y_incr = (ymin() < p.y()) && (p.y() < ymax());
if( x_incr )
{
if( y_incr )
{
return ON_BOUNDED_SIDE;
}
if( (p.y() == ymin()) || (ymax() == p.y()) )
{
return ON_BOUNDARY;
}
}
if( (p.x() == xmin()) || (xmax() == p.x()) )
{
if( y_incr || (p.y() == ymin()) || (ymax() == p.y()) )
{
return ON_BOUNDARY;
}
}
return ON_UNBOUNDED_SIDE;
}
template < class FT >
inline
bool
Iso_rectangleS2<FT>::has_on_boundary(const PointS2<FT>& p) const
{ return bounded_side(p) == ON_BOUNDARY; }
template < class FT >
inline bool Iso_rectangleS2<FT>::has_on_bounded_side(
const PointS2<FT>& p) const
{ return bounded_side(p) == ON_BOUNDED_SIDE; }
template < class FT >
inline bool Iso_rectangleS2<FT>::has_on_unbounded_side(
const PointS2<FT>& p) const
{ return bounded_side(p) == ON_UNBOUNDED_SIDE; }
template < class FT >
bool Iso_rectangleS2<FT>::is_degenerate() const
{ return (xmin() == xmax()) || (ymin() ==ymax()); }
template < class FT >
inline
Bbox_2 Iso_rectangleS2<FT>::bbox() const
{
return Bbox_2(CGAL::to_double(xmin()), CGAL::to_double(ymin()),
CGAL::to_double(xmax()), CGAL::to_double(ymax()));
}
template < class FT >
inline
Iso_rectangleS2<FT>
Iso_rectangleS2<FT>::transform(const Aff_transformationS2<FT>& t) const
{
return Iso_rectangleS2<FT>(t.transform(vertex(0)),
t.transform(vertex(2)));
}
#ifndef CGAL_NO_OSTREAM_INSERT_ISO_RECTANGLES2
template < class FT >
std::ostream&
operator<<(std::ostream& os, const Iso_rectangleS2<FT> &r)
{
switch(os.iword(IO::mode)) {
case IO::ASCII :
return os << r[0] << ' ' << r[2];
case IO::BINARY :
return os << r[0] << r[2];
default:
return os << "Iso_rectangleS2(" << r[0] << ", " << r[2] << ")";
}
}
#endif // CGAL_NO_OSTREAM_INSERT_ISO_RECTANGLES2
#ifndef CGAL_NO_ISTREAM_EXTRACT_ISO_RECTANGLES2
template < class FT >
CGAL_KERNEL_MEDIUM_INLINE
std::istream&
operator>>(std::istream& is, Iso_rectangleS2<FT> &r)
{
PointS2<FT> p, q;
is >> p >> q;
r = Iso_rectangleS2<FT>(p, q);
return is;
}
#endif // CGAL_NO_ISTREAM_EXTRACT_ISO_RECTANGLES2
CGAL_END_NAMESPACE
#endif
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