363 lines
11 KiB
C++
Executable File
363 lines
11 KiB
C++
Executable File
// Copyright (c) 2000
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// Utrecht University (The Netherlands),
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// ETH Zurich (Switzerland),
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// INRIA Sophia-Antipolis (France),
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// Max-Planck-Institute Saarbruecken (Germany),
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// and Tel-Aviv University (Israel). All rights reserved.
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//
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// This file is part of CGAL (www.cgal.org); you can redistribute it and/or
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// modify it under the terms of the GNU Lesser General Public License as
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// published by the Free Software Foundation; either version 3 of the License,
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// or (at your option) any later version.
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//
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// Licensees holding a valid commercial license may use this file in
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// accordance with the commercial license agreement provided with the software.
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//
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// This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
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// WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
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//
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// $URL$
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// $Id$
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// SPDX-License-Identifier: LGPL-3.0+
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//
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//
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// Author(s) : Geert-Jan Giezeman
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#ifndef CGAL_STRAIGHT_2_H
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#define CGAL_STRAIGHT_2_H
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#include <CGAL/Line_2_Line_2_intersection.h>
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#include <CGAL/squared_distance_utils.h>
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#include <CGAL/Kernel/global_functions_internal_2.h>
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namespace CGAL {
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namespace internal {
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class Straight_2_base_ {
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public:
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enum states {EMPTY, POINT, SEGMENT, RAY, LINE};
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enum bound_states {NO_UNBOUNDED=0, MIN_UNBOUNDED=1, MAX_UNBOUNDED=2,
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BOTH_UNBOUNDED = 3, LINE_EMPTY = 4};
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protected:
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Straight_2_base_() ;
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int main_dir_; // support_ is x or y directed (0/1).
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int dir_sign_; // sign of main direction coord.
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unsigned int bound_state_; // 0, 1, 2, 3, 4.
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public:
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unsigned int bound_state() const {return bound_state_;}
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};
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template <class K>
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class Straight_2_: public Straight_2_base_ {
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public:
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Straight_2_() ;
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Straight_2_(typename K::Point_2 const &point) ;
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Straight_2_(typename K::Line_2 const &line) ;
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Straight_2_(typename K::Ray_2 const &ray) ;
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Straight_2_(typename K::Ray_2 const &ray,bool cooriented) ;
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Straight_2_(typename K::Segment_2 const &seg) ;
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void cut_right_off(typename K::Line_2 const & cutter) ;
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int collinear_order(typename K::Point_2 const & p1,
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typename K::Point_2 const &p2) const ;
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void current(typename K::Line_2 &line) const;
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void current(typename K::Ray_2 &ray) const;
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void current(typename K::Segment_2 &seg) const;
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void current(typename K::Point_2 &point) const;
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states current_state() const;
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bool operator==(const Straight_2_<K>&) const;
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bool operator!=(const Straight_2_<K>&other) const
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{ return !(*this == other);}
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protected:
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typename K::Line_2 support_; // The supporting line.
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typename K::Point_2 min_;
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typename K::Point_2 max_;
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};
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inline
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Straight_2_base_::
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Straight_2_base_()
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{
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bound_state_ = LINE_EMPTY;
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}
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template <class K>
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Straight_2_base_::states
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Straight_2_<K>::
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current_state() const
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{
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switch (bound_state_) {
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case BOTH_UNBOUNDED:
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return LINE;
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case MIN_UNBOUNDED:
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case MAX_UNBOUNDED:
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return RAY;
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case NO_UNBOUNDED:
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return (collinear_order(min_, max_) == 0) ? POINT : SEGMENT;
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case LINE_EMPTY:
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default:
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return EMPTY;
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}
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}
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template <class K>
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Straight_2_<K>::
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Straight_2_()
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{
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bound_state_ = LINE_EMPTY;
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}
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template <class K>
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Straight_2_<K>::
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Straight_2_(typename K::Line_2 const &line)
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{
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support_ = line;
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typename K::Vector_2 const &dir = support_.direction().to_vector();
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main_dir_ = (CGAL_NTS abs(dir.x()) > CGAL_NTS abs(dir.y()) ) ? 0 : 1;
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dir_sign_ =
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CGAL_NTS sign(support_.direction().to_vector().cartesian(main_dir_));
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bound_state_ = BOTH_UNBOUNDED;
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}
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template <class K>
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Straight_2_<K>::
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Straight_2_(typename K::Point_2 const &point)
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{
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typedef typename K::Direction_2 Direction_2;
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typedef typename K::Line_2 Line_2;
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support_ = Line_2(point, Direction_2(K::RT(1), K::RT(0)));
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main_dir_ = 0;
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dir_sign_ = 1;
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bound_state_ = NO_UNBOUNDED;
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min_ = point;
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max_ = point;
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}
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template <class K>
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Straight_2_<K>::
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Straight_2_(typename K::Ray_2 const &ray)
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{
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support_ = ray.supporting_line();
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typename K::Vector_2 const &dir = ray.direction().to_vector();
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main_dir_ = (CGAL_NTS abs(dir.x()) > CGAL_NTS abs(dir.y()) ) ? 0 : 1;
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dir_sign_ =
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CGAL_NTS sign(support_.direction().to_vector().cartesian(main_dir_));
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bound_state_ = MAX_UNBOUNDED;
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min_ = ray.source();
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}
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template <class K>
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Straight_2_<K>::
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Straight_2_(typename K::Ray_2 const &ray_,bool cooriented)
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{
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typename K::Ray_2 const &ray = cooriented ? ray_ : ray_.opposite();
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support_ = ray.supporting_line();
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/* the supporting line is cooriented with the input ray iff
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cooriented is true */
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typename K::Vector_2 const &dir = ray.direction().to_vector();
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main_dir_ = (CGAL_NTS abs(dir.x()) > CGAL_NTS abs(dir.y()) ) ? 0 : 1;
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dir_sign_ =
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CGAL_NTS sign(support_.direction().to_vector().cartesian(main_dir_));
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if (cooriented)
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{
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bound_state_ = MAX_UNBOUNDED;
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min_ = ray.source();
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}
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else
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{
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bound_state_ = MIN_UNBOUNDED;
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max_ = ray.source();
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}
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}
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template <class K>
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Straight_2_<K>::
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Straight_2_(typename K::Segment_2 const &seg)
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{
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support_ = seg.supporting_line();
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typename K::Vector_2 const &dir = support_.direction().to_vector();
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main_dir_ = (CGAL_NTS abs(dir.x()) > CGAL_NTS abs(dir.y()) ) ? 0 : 1;
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dir_sign_ =
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CGAL_NTS sign(support_.direction().to_vector().cartesian(main_dir_));
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bound_state_ = NO_UNBOUNDED;
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min_ = seg.source();
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max_ = seg.target();
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}
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template <class K>
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void
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Straight_2_<K>::
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current(typename K::Line_2 &line) const
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{
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CGAL_kernel_assertion(bound_state_ == BOTH_UNBOUNDED);
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line = support_;
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}
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template <class K>
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void
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Straight_2_<K>::
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current(typename K::Ray_2 &ray) const
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{
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typedef typename K::Ray_2 Ray_2;
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CGAL_kernel_assertion(bound_state_ == MIN_UNBOUNDED
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|| bound_state_ == MAX_UNBOUNDED);
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if (bound_state_ == MIN_UNBOUNDED) {
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ray = Ray_2(max_, -support_.direction());
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} else {
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ray = Ray_2(min_, support_.direction());
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}
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}
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template <class K>
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void
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Straight_2_<K>::
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current(typename K::Segment_2 &seg) const
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{
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typedef typename K::Segment_2 Segment_2;
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CGAL_kernel_assertion(bound_state_ == NO_UNBOUNDED
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&& collinear_order(min_, max_) != 0);
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seg = Segment_2(min_, max_);
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}
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template <class K>
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void
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Straight_2_<K>::
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current(typename K::Point_2 &pt) const
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{
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CGAL_kernel_assertion(bound_state_ == NO_UNBOUNDED
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&& collinear_order(min_, max_) == 0);
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pt = min_;
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}
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template <class K>
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bool Straight_2_<K>::operator==(const Straight_2_<K>& s) const
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{
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typedef Straight_2_<K> Straight_2;
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// enum bound_states {NO_UNBOUNDED=0, MIN_UNBOUNDED=1, MAX_UNBOUNDED=2,
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// BOTH_UNBOUNDED = 3, LINE_EMPTY = 4};
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if (bound_state_!=s.bound_state()) return false;
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if (bound_state_==Straight_2::LINE_EMPTY) return true; // empty
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if (support_!=s.support_)
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return false; // on different lines, even if both are points.
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switch (bound_state_)
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{
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case Straight_2::NO_UNBOUNDED:
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return min_==s.min_ && max_==s.max_;
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case Straight_2::MAX_UNBOUNDED:
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return min_==s.min_;
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case Straight_2::MIN_UNBOUNDED:
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return max_==s.max_;
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case Straight_2::BOTH_UNBOUNDED:
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return true;
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}
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return false;
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}
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template <class K>
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int
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sign_of_cross(typename K::Direction_2 const &dir1,
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typename K::Direction_2 const &dir2,
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const K&)
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{
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return static_cast<int>(internal::orientation(dir1.to_vector(),
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dir2.to_vector(), K()));
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}
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template <class K>
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void
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Straight_2_<K>::
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cut_right_off(typename K::Line_2 const & cutter)
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// cut off any part of this straight that is to the right of the cutter.
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{
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if (bound_state_ == LINE_EMPTY)
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return;
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Line_2_Line_2_pair<K> pair(&support_, &cutter);
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switch (pair.intersection_type()) {
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case Line_2_Line_2_pair<K>::NO_INTERSECTION:
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if (cutter.has_on_negative_side(support_.point()))
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bound_state_ = LINE_EMPTY;
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break;
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case Line_2_Line_2_pair<K>::LINE:
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break;
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case Line_2_Line_2_pair<K>::POINT:
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typename K::Point_2 ispoint = pair.intersection_point();
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bool new_point = false;
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switch (sign_of_cross(support_.direction(), cutter.direction(), K())) {
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case -1: // new minimum.
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if (bound_state_ & MIN_UNBOUNDED) {
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new_point = true;
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bound_state_ ^= MIN_UNBOUNDED; // exclusive or removes flag.
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} else {
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if (collinear_order(ispoint, min_) == -1)
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new_point = true;
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}
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if (new_point) {
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if (!(bound_state_ & MAX_UNBOUNDED)
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&& collinear_order(ispoint, max_) == -1)
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bound_state_ = LINE_EMPTY;
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else
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min_ = ispoint;
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}
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break;
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case 0: // should not happen
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CGAL_kernel_warning_msg(false, "Internal CGAL error.");
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break;
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case 1: // new maximum
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if (bound_state_ & MAX_UNBOUNDED) {
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new_point = true;
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bound_state_ ^= MAX_UNBOUNDED; // exclusive or removes flag.
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} else {
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if (collinear_order(ispoint, max_) == 1)
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new_point = true;
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}
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if (new_point) {
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if (!(bound_state_ & MIN_UNBOUNDED)
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&& collinear_order(ispoint, min_) == 1)
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bound_state_ = LINE_EMPTY;
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else
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max_ = ispoint;
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}
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break;
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}
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break;
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}
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}
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template <class K>
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int
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Straight_2_<K>::
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collinear_order(typename K::Point_2 const &pt1, typename K::Point_2 const & pt2) const
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// Compare two points on the support_ line.
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// If the second point lies in the direction of the direction vector from
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// the first point, the result is 1.
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// Other results are -1 (other side) and 0 (coincidence).
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{
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typename K::Construct_cartesian_const_iterator_2 construct_cccit;
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typename K::Cartesian_const_iterator_2 ccit1 = construct_cccit(pt1) + main_dir_;
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typename K::Cartesian_const_iterator_2 ccit2 = construct_cccit(pt2) + main_dir_;
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int diffsign;
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diffsign = CGAL_NTS sign(*ccit2 - *ccit1);
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if (diffsign == 0)
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return 0;
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return (diffsign == dir_sign_) ? 1 : -1;
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}
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} // namespace internal
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} //namespace CGAL
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#endif
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