595 lines
17 KiB
C++
Executable File
595 lines
17 KiB
C++
Executable File
// Copyright (c) 1997-2001
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// ETH Zurich (Switzerland). All rights reserved.
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//
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// This file is part of CGAL (www.cgal.org).
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// You can redistribute it and/or modify it under the terms of the GNU
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// General Public License as published by the Free Software Foundation,
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// either version 3 of the License, 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: GPL-3.0+
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//
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//
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// Author(s) : Sven Schoenherr <sven@inf.ethz.ch>, Bernd Gaertner
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#ifndef CGAL_MIN_CIRCLE_2_H
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#define CGAL_MIN_CIRCLE_2_H
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#include <CGAL/license/Bounding_volumes.h>
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// includes
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# include <CGAL/Optimisation/basic.h>
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# include <CGAL/Random.h>
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# include <CGAL/algorithm.h>
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# include <list>
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# include <vector>
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# include <algorithm>
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# include <iostream>
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namespace CGAL {
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// Class declaration
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// =================
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template < class Traits_ >
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class Min_circle_2;
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// Class interface
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// ===============
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template < class Traits_ >
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class Min_circle_2 {
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public:
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// types
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typedef Traits_ Traits;
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typedef typename Traits_::Point Point;
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typedef typename Traits_::Circle Circle;
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typedef typename std::list<Point>::const_iterator Point_iterator;
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typedef const Point * Support_point_iterator;
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/**************************************************************************
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WORKAROUND: Some compilers are unable to match member functions defined
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outside the class template. Therefore, all member functions are implemented
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in the class interface.
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// creation
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template < class InputIterator >
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Min_circle_2( InputIterator first,
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InputIterator last,
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bool randomize = false,
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Random& random = get_default_random(),
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const Traits& traits = Traits());
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Min_circle_2( const Traits& traits = Traits());
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Min_circle_2( const Point& p,
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const Traits& traits = Traits());
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Min_circle_2( Point p, Point q,
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const Traits& traits = Traits());
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Min_circle_2( const Point& p1, const Point& p2, const Point& p3,
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const Traits& traits = Traits());
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~Min_circle_2( );
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// access functions
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int number_of_points ( ) const;
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int number_of_support_points( ) const;
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Point_iterator points_begin( ) const;
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Point_iterator points_end ( ) const;
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Support_point_iterator support_points_begin( ) const;
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Support_point_iterator support_points_end ( ) const;
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const Point& support_point( int i) const;
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const Circle& circle( ) const;
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// predicates
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Bounded_side bounded_side( const Point& p) const;
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bool has_on_bounded_side ( const Point& p) const;
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bool has_on_boundary ( const Point& p) const;
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bool has_on_unbounded_side ( const Point& p) const;
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bool is_empty ( ) const;
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bool is_degenerate( ) const;
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// modifiers
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void insert( const Point& p);
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void insert( const Point* first,
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const Point* last );
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void insert( std::list<Point>::const_iterator first,
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std::list<Point>::const_iterator last );
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void insert( std::istream_iterator<Point,std::ptrdiff_t> first,
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std::istream_iterator<Point,std::ptrdiff_t> last );
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void clear( );
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// validity check
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bool is_valid( bool verbose = false, int level = 0) const;
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// miscellaneous
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const Traits& traits( ) const;
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**************************************************************************/
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private:
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// private data members
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Traits tco; // traits class object
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std::list<Point> points; // doubly linked list of points
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std::size_t n_support_points; // number of support points
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Point* support_points; // array of support points
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// copying and assignment not allowed!
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Min_circle_2( const Min_circle_2<Traits_>&);
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Min_circle_2<Traits_>&
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operator = ( const Min_circle_2<Traits_>&);
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// ============================================================================
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// Class implementation
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// ====================
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public:
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// Access functions and predicates
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// -------------------------------
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// #points and #support points
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inline
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std::size_t
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number_of_points( ) const
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{
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return( points.size());
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}
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inline
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std::size_t
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number_of_support_points( ) const
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{
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return( n_support_points);
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}
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// is_... predicates
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inline
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bool
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is_empty( ) const
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{
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return( number_of_support_points() == 0);
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}
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inline
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bool
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is_degenerate( ) const
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{
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return( number_of_support_points() < 2);
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}
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// access to points and support points
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inline
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Point_iterator
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points_begin( ) const
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{
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return( points.begin());
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}
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inline
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Point_iterator
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points_end( ) const
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{
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return( points.end());
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}
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inline
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Support_point_iterator
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support_points_begin( ) const
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{
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return( support_points);
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}
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inline
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Support_point_iterator
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support_points_end( ) const
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{
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return( support_points+n_support_points);
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}
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// random access for support points
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inline
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const Point&
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support_point( std::size_t i) const
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{
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CGAL_optimisation_precondition(i < number_of_support_points());
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return( support_points[ i]);
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}
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// circle
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inline
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const Circle&
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circle( ) const
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{
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return( tco.circle);
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}
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// in-circle test predicates
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inline
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CGAL::Bounded_side
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bounded_side( const Point& p) const
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{
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return( tco.circle.bounded_side( p));
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}
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inline
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bool
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has_on_bounded_side( const Point& p) const
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{
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return( tco.circle.has_on_bounded_side( p));
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}
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inline
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bool
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has_on_boundary( const Point& p) const
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{
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return( tco.circle.has_on_boundary( p));
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}
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inline
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bool
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has_on_unbounded_side( const Point& p) const
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{
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return( tco.circle.has_on_unbounded_side( p));
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}
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private:
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// Private member functions
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// ------------------------
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// compute_circle
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inline
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void
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compute_circle( )
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{
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switch ( n_support_points) {
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case 3:
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tco.circle.set( support_points[ 0],
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support_points[ 1],
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support_points[ 2]);
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break;
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case 2:
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tco.circle.set( support_points[ 0], support_points[ 1]);
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break;
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case 1:
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tco.circle.set( support_points[ 0]);
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break;
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case 0:
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tco.circle.set( );
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break;
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default:
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CGAL_optimisation_assertion( n_support_points <= 3 ); }
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}
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void
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mc( const Point_iterator& last, std::size_t n_sp)
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{
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// compute circle through support points
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n_support_points = n_sp;
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compute_circle();
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if ( n_sp == 3) return;
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// test first n points
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typename std::list<Point>::iterator point_iter = points.begin();
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for ( ; last != point_iter; ) {
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const Point& p = *point_iter;
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// p not in current circle?
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if ( has_on_unbounded_side( p)) {
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// recursive call with p as additional support point
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support_points[ n_sp] = p;
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mc( point_iter, n_sp+1);
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// move current point to front
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points.splice( points.begin(), points, point_iter++); }
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else
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++point_iter; }
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}
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public:
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// Constructors
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// ------------
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// STL-like constructor (member template)
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template < class InputIterator >
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Min_circle_2( InputIterator first,
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InputIterator last,
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bool randomize
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#if !defined(_MSC_VER) || _MSC_VER > 1300
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= false
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#endif
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,
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Random& random = get_default_random(),
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const Traits& traits = Traits())
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: tco( traits)
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{
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// allocate support points' array
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support_points = new Point[ 3];
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// range of points not empty?
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if ( first != last) {
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// store points
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if ( randomize) {
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// shuffle points at random
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std::vector<Point> v( first, last);
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CGAL::cpp98::random_shuffle( v.begin(), v.end(), random);
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std::copy( v.begin(), v.end(),
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std::back_inserter( points)); }
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else
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std::copy( first, last, std::back_inserter( points)); }
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// compute mc
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mc( points.end(), 0);
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}
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// default constructor
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inline
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Min_circle_2( const Traits& traits = Traits())
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: tco( traits), n_support_points( 0)
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{
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// allocate support points' array
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support_points = new Point[ 3];
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// initialize circle
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tco.circle.set();
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CGAL_optimisation_postcondition( is_empty());
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}
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// constructor for one point
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inline
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Min_circle_2( const Point& p, const Traits& traits = Traits())
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: tco( traits), points( 1, p), n_support_points( 1)
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{
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// allocate support points' array
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support_points = new Point[ 3];
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// initialize circle
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support_points[ 0] = p;
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tco.circle.set( p);
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CGAL_optimisation_postcondition( is_degenerate());
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}
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// constructor for two points
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// This was const Point& but then Intel 7.0/.net2003 messes it up
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// with the constructor taking an iterator range
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inline
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Min_circle_2( Point p1, Point p2,
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const Traits& traits = Traits())
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: tco( traits)
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{
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// allocate support points' array
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support_points = new Point[ 3];
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// store points
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points.push_back( p1);
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points.push_back( p2);
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// compute mc
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mc( points.end(), 0);
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}
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// constructor for three points
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inline
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Min_circle_2( const Point& p1, const Point& p2, const Point& p3,
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const Traits& traits = Traits())
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: tco( traits)
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{
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// allocate support points' array
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support_points = new Point[ 3];
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// store points
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points.push_back( p1);
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points.push_back( p2);
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points.push_back( p3);
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// compute mc
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mc( points.end(), 0);
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}
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// Destructor
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// ----------
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inline
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~Min_circle_2( )
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{
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// free support points' array
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delete[] support_points;
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}
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// Modifiers
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// ---------
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void
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insert( const Point& p)
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{
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// p not in current circle?
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if ( has_on_unbounded_side( p)) {
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// p new support point
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support_points[ 0] = p;
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// recompute mc
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mc( points.end(), 1);
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// store p as the first point in list
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points.push_front( p); }
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else
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// append p to the end of the list
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points.push_back( p);
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}
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template < class InputIterator >
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void
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insert( InputIterator first, InputIterator last)
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{
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for ( ; first != last; ++first)
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insert( *first);
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}
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void
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clear( )
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{
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points.erase( points.begin(), points.end());
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n_support_points = 0;
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tco.circle.set();
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}
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// Validity check
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// --------------
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bool
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is_valid( bool verbose = false, int level = 0) const
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{
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using namespace std;
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CGAL::Verbose_ostream verr( verbose);
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verr << endl;
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verr << "CGAL::Min_circle_2<Traits>::" << endl;
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verr << "is_valid( true, " << level << "):" << endl;
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verr << " |P| = " << number_of_points()
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<< ", |S| = " << number_of_support_points() << endl;
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// containment check (a)
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verr << " a) containment check..." << flush;
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Point_iterator point_iter;
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for ( point_iter = points_begin();
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point_iter != points_end();
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++point_iter)
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if ( has_on_unbounded_side( *point_iter))
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return( CGAL::_optimisation_is_valid_fail( verr,
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"circle does not contain all points"));
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verr << "passed." << endl;
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// support set checks (b)+(c)
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verr << " b)+c) support set checks..." << flush;
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switch( number_of_support_points()) {
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case 0:
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if ( ! is_empty())
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return( CGAL::_optimisation_is_valid_fail( verr,
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"P is nonempty, \
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but there are no support points."));
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break;
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case 1:
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if ( ( circle().center() != support_point( 0) ) ||
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( ! CGAL_NTS is_zero( circle().squared_radius())) )
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return( CGAL::_optimisation_is_valid_fail( verr,
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"circle differs from the circle \
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spanned by its single support point."));
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break;
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case 2: {
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const Point& p = support_point( 0),
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q = support_point( 1);
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// p equals q?
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if ( p == q)
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return( CGAL::_optimisation_is_valid_fail( verr,
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"the two support points are equal."));
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// segment(p,q) is not diameter?
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if ( ( ! has_on_boundary( p) ) ||
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( ! has_on_boundary( q) ) ||
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( tco.orientation( p, q,
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circle().center()) != CGAL::COLLINEAR) )
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return( CGAL::_optimisation_is_valid_fail( verr,
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"circle does not have its \
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two support points as diameter.")); }
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break;
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case 3: {
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const Point& p = support_point( 0),
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q = support_point( 1),
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r = support_point( 2);
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// p, q, r not pairwise distinct?
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if ( ( p == q) || ( q == r) || ( r == p))
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return( CGAL::_optimisation_is_valid_fail( verr,
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"at least two of the three \
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support points are equal."));
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// p, q, r collinear?
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if ( tco.orientation( p, q, r) == CGAL::COLLINEAR)
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return( CGAL::_optimisation_is_valid_fail( verr,
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"the three support points are collinear."));
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// current circle not equal the unique circle through p,q,r ?
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Circle c = circle();
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c.set( p, q, r);
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if ( circle() != c)
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return( CGAL::_optimisation_is_valid_fail( verr,
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"circle is not the unique circle \
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through its three support points."));
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// circle's center on boundary of triangle(p,q,r)?
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const Point& center = circle().center();
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CGAL::Orientation o_pqz = tco.orientation( p, q, center);
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CGAL::Orientation o_qrz = tco.orientation( q, r, center);
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CGAL::Orientation o_rpz = tco.orientation( r, p, center);
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if ( ( o_pqz == CGAL::COLLINEAR) ||
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( o_qrz == CGAL::COLLINEAR) ||
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( o_rpz == CGAL::COLLINEAR) )
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return( CGAL::_optimisation_is_valid_fail( verr,
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"one of the three support points is redundant."));
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// circle's center not inside triangle(p,q,r)?
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if ( ( o_pqz != o_qrz) || ( o_qrz != o_rpz) || ( o_rpz != o_pqz))
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return( CGAL::_optimisation_is_valid_fail( verr,
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"circle's center is not in the \
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convex hull of its three support points.")); }
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break;
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default:
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return( CGAL::_optimisation_is_valid_fail( verr,
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"illegal number of support points, \
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not between 0 and 3."));
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};
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verr << "passed." << endl;
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verr << " object is valid!" << endl;
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return( true);
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}
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// Miscellaneous
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// -------------
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inline
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const Traits&
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traits( ) const
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{
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return( tco);
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}
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};
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// Function declarations
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// =====================
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// I/O
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// ---
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template < class Traits_ >
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std::ostream&
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operator << ( std::ostream& os, const Min_circle_2<Traits_>& mc);
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template < class Traits_ >
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std::istream&
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operator >> ( std::istream& is, Min_circle_2<Traits_>& mc);
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} //namespace CGAL
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#include <CGAL/Min_circle_2/Min_circle_2_impl.h>
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#endif // CGAL_MIN_CIRCLE_2_H
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// ===== EOF ==================================================================
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