dust3d/thirdparty/cgal/CGAL-4.13/include/CGAL/squared_distance_3_0.h

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// Copyright (c) 1998
// Utrecht University (The Netherlands),
// ETH Zurich (Switzerland),
// INRIA Sophia-Antipolis (France),
// Max-Planck-Institute Saarbruecken (Germany),
// 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; either version 3 of the License,
// or (at your option) any later version.
//
// 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.
//
// $URL$
// $Id$
// SPDX-License-Identifier: LGPL-3.0+
//
//
// Author(s) : Geert-Jan Giezeman, Andreas Fabri
#ifndef CGAL_DISTANCE_3_0_H
#define CGAL_DISTANCE_3_0_H
#include <CGAL/kernel_assertions.h>
#include <CGAL/enum.h>
#include <CGAL/wmult.h>
#include <CGAL/Point_3.h>
#include <CGAL/Weighted_point_3.h>
#include <CGAL/Vector_3.h>
#include <CGAL/number_utils.h>
namespace CGAL {
namespace internal {
template <class K>
bool is_null(const typename K::Vector_3 &v, const K&)
{
typedef typename K::RT RT;
return v.hx()==RT(0) && v.hy()==RT(0) && v.hz()==RT(0);
}
template <class K>
typename K::RT
wdot(const typename K::Vector_3 &u,
const typename K::Vector_3 &v,
const K&)
{
return (u.hx()*v.hx() + u.hy()*v.hy() + u.hz()*v.hz());
}
template <class K>
typename K::RT
wdot_tag(const typename K::Point_3 &p,
const typename K::Point_3 &q,
const typename K::Point_3 &r,
const K&,
const Cartesian_tag&)
{
return ( (p.x() - q.x()) * (r.x()- q.x())
+ (p.y()- q.y())* (r.y()- q.y())
+ (p.z()- q.z()) * (r.z() - q.z()) );
}
template <class K>
typename K::RT
wdot_tag(const typename K::Point_3 &p,
const typename K::Point_3 &q,
const typename K::Point_3 &r,
const K&,
const Homogeneous_tag&)
{
return ( (p.hx() * q.hw() - q.hx() * p.hw())
* (r.hx() * q.hw() - q.hx() * r.hw())
+ (p.hy() * q.hw() - q.hy() * p.hw())
* (r.hy() * q.hw() - q.hy() * r.hw())
+ (p.hz() * q.hw() - q.hz() * p.hw())
* (r.hz() * q.hw() - q.hz() * r.hw()));
}
template <class K>
inline
typename K::RT
wdot(const typename K::Point_3 &p,
const typename K::Point_3 &q,
const typename K::Point_3 &r,
const K& k)
{
typedef typename K::Kernel_tag Tag;
Tag tag;
return wdot_tag(p, q, r, k, tag);
}
template <class K>
typename K::Vector_3
wcross(const typename K::Vector_3 &u,
const typename K::Vector_3 &v,
const K&)
{
typedef typename K::Vector_3 Vector_3;
return Vector_3(
u.hy()*v.hz() - u.hz()*v.hy(),
u.hz()*v.hx() - u.hx()*v.hz(),
u.hx()*v.hy() - u.hy()*v.hx());
}
template <class K>
inline
bool
is_acute_angle(const typename K::Vector_3 &u,
const typename K::Vector_3 &v,
const K& k)
{
typedef typename K::RT RT;
return RT(wdot(u, v, k)) > RT(0) ;
}
template <class K>
inline
bool
is_straight_angle(const typename K::Vector_3 &u,
const typename K::Vector_3 &v,
const K& k)
{
typedef typename K::RT RT;
return RT(wdot(u, v, k)) == RT(0) ;
}
template <class K>
inline
bool
is_obtuse_angle(const typename K::Vector_3 &u,
const typename K::Vector_3 &v,
const K& k)
{
typedef typename K::RT RT;
return RT(wdot(u, v, k)) < RT(0) ;
}
template <class K>
inline
bool
is_acute_angle(const typename K::Point_3 &p,
const typename K::Point_3 &q,
const typename K::Point_3 &r,
const K& k)
{
typedef typename K::RT RT;
return RT(wdot(p, q, r, k)) > RT(0) ;
}
template <class K>
inline
bool
is_straight_angle(const typename K::Point_3 &p,
const typename K::Point_3 &q,
const typename K::Point_3 &r,
const K& k)
{
typedef typename K::RT RT;
return RT(wdot(p, q, r, k)) == RT(0) ;
}
template <class K>
inline
bool
is_obtuse_angle(const typename K::Point_3 &p,
const typename K::Point_3 &q,
const typename K::Point_3 &r,
const K& k)
{
typedef typename K::RT RT;
return RT(wdot(p, q, r, k)) < RT(0) ;
}
template <class K>
inline
typename K::FT
squared_distance(const typename K::Point_3 & pt1,
const typename K::Point_3 & pt2,
const K& k)
{
return k.compute_squared_distance_3_object()(pt1, pt2);
}
template <class K>
typename K::FT
squared_distance_to_plane(const typename K::Vector_3 & normal,
const typename K::Vector_3 & diff,
const K& k)
{
typedef typename K::RT RT;
typedef typename K::FT FT;
RT dot, squared_length;
dot = wdot(normal, diff, k);
squared_length = wdot(normal, normal, k);
return FT(dot*dot) /
FT(wmult((K*)0, squared_length, diff.hw(), diff.hw()));
}
template <class K>
typename K::FT
squared_distance_to_line(const typename K::Vector_3 & dir,
const typename K::Vector_3 & diff,
const K& k)
{
typedef typename K::Vector_3 Vector_3;
typedef typename K::RT RT;
typedef typename K::FT FT;
Vector_3 wcr = wcross(dir, diff, k);
return FT(wcr*wcr)/FT(wmult(
(K*)0, RT(wdot(dir, dir, k)), diff.hw(), diff.hw()));
}
template <class K>
inline
bool
same_direction_tag(const typename K::Vector_3 &u,
const typename K::Vector_3 &v,
const K&,
const Cartesian_tag&)
{
typedef typename K::FT FT;
const FT& ux = u.x();
const FT& uy = u.y();
const FT& uz = u.z();
if (CGAL_NTS abs(ux) > CGAL_NTS abs(uy)) {
if (CGAL_NTS abs(ux) > CGAL_NTS abs(uz)) {
return CGAL_NTS sign(ux) == CGAL_NTS sign(v.x());
} else {
return CGAL_NTS sign(uz) == CGAL_NTS sign(v.z());
}
} else {
if (CGAL_NTS abs(uy) > CGAL_NTS abs(uz)) {
return CGAL_NTS sign(uy) == CGAL_NTS sign(v.y());
} else {
return CGAL_NTS sign(uz) == CGAL_NTS sign(v.z());
}
}
}
template <class K>
inline
bool
same_direction_tag(const typename K::Vector_3 &u,
const typename K::Vector_3 &v,
const K&,
const Homogeneous_tag&)
{
typedef typename K::RT RT;
const RT& uhx = u.hx();
const RT& uhy = u.hy();
const RT& uhz = u.hz();
if (CGAL_NTS abs(uhx) > CGAL_NTS abs(uhy)) {
if (CGAL_NTS abs(uhx) > CGAL_NTS abs(uhz)) {
return CGAL_NTS sign(uhx) == CGAL_NTS sign(v.hx());
} else {
return CGAL_NTS sign(uhz) == CGAL_NTS sign(v.hz());
}
} else {
if (CGAL_NTS abs(uhy) > CGAL_NTS abs(uhz)) {
return CGAL_NTS sign(uhy) == CGAL_NTS sign(v.hy());
} else {
return CGAL_NTS sign(uhz) == CGAL_NTS sign(v.hz());
}
}
}
template <class K>
inline
bool
same_direction(const typename K::Vector_3 &u,
const typename K::Vector_3 &v,
const K& k)
{
typedef typename K::Kernel_tag Tag;
Tag tag;
return same_direction_tag(u, v, k, tag);
}
} // namespace internal
template <class K>
inline
typename K::FT
squared_distance(const Point_3<K> & pt1,
const Point_3<K> & pt2)
{
return internal::squared_distance(pt1,pt2, K());
}
template <class K>
inline
typename K::FT
squared_distance(const Weighted_point_3<K> & pt1,
const Weighted_point_3<K> & pt2)
{
return internal::squared_distance(pt1.point(),pt2.point(), K());
}
template <class K>
inline
typename K::FT
squared_distance(const Weighted_point_3<K> & pt1,
const Point_3<K> & pt2)
{
return internal::squared_distance(pt1.point(),pt2, K());
}
template <class K>
inline
typename K::FT
squared_distance(const Point_3<K> & pt1,
const Weighted_point_3<K> & pt2)
{
return internal::squared_distance(pt1,pt2.point(), K());
}
template <class K>
inline
typename K::FT
squared_distance_to_plane(const Vector_3<K> & normal,
const Vector_3<K> & diff)
{
return internal::squared_distance_to_plane(normal, diff, K());
}
template <class K>
inline
typename K::FT
squared_distance_to_line(const Vector_3<K> & dir,
const Vector_3<K> & diff)
{
return internal::squared_distance_to_line(dir, diff, K());
}
} //namespace CGAL
#endif