// Copyright (c) 2003-2008 INRIA Sophia-Antipolis (France). // All rights reserved. // // This file is part of CGAL (www.cgal.org); you may redistribute it under // the terms of the Q Public License version 1.0. // See the file LICENSE.QPL 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. // // $URL$ // $Id$ // // Author(s) : Monique Teillaud, Sylvain Pion, Pedro Machado // Partially supported by the IST Programme of the EU as a Shared-cost // RTD (FET Open) Project under Contract No IST-2000-26473 // (ECG - Effective Computational Geometry for Curves and Surfaces) // and a STREP (FET Open) Project under Contract No IST-006413 // (ACS -- Algorithms for Complex Shapes) #ifndef CGAL_CIRCULAR_ARC_POINT_2_H #define CGAL_CIRCULAR_ARC_POINT_2_H CGAL_BEGIN_NAMESPACE template < typename CircularKernel > class Circular_arc_point_2 : public CircularKernel::Kernel_base::Circular_arc_point_2 { typedef typename CircularKernel::Kernel_base::Circular_arc_point_2 RCircular_arc_point_2; typedef typename CircularKernel::Point_2 Point_2; typedef typename CircularKernel::Circle_2 Circle_2; typedef typename CircularKernel::Root_of_2 Root_of_2; public: typedef typename CircularKernel::Root_for_circles_2_2 Root_for_circles_2_2; typedef CircularKernel R; typedef RCircular_arc_point_2 Rep; const Rep& rep() const { return *this; } Rep& rep() { return *this; } Circular_arc_point_2() : RCircular_arc_point_2(typename R::Construct_circular_arc_point_2()()) {} Circular_arc_point_2(const Root_for_circles_2_2 & np) : RCircular_arc_point_2(typename R::Construct_circular_arc_point_2()(np)) {} Circular_arc_point_2(const RCircular_arc_point_2 & p) : RCircular_arc_point_2(p) {} Circular_arc_point_2(const Point_2 & p) : RCircular_arc_point_2(typename R::Construct_circular_arc_point_2()(p)) {} typename Qualified_result_of ::type //const Root_of_2 & x() const { return typename R::Compute_circular_x_2()(*this); } typename Qualified_result_of ::type //const Root_of_2 & y() const { return typename R::Compute_circular_y_2()(*this); } Bbox_2 bbox() const { return typename R::Construct_bbox_2()(*this); } }; template < typename CircularKernel > inline bool operator==(const Circular_arc_point_2 &p, const Circular_arc_point_2 &q) { return CircularKernel().equal_2_object()(p, q); } template < typename CircularKernel > inline bool operator!=(const Circular_arc_point_2 &p, const Circular_arc_point_2 &q) { return ! (p == q); } template < typename CircularKernel > inline bool operator<(const Circular_arc_point_2 &p, const Circular_arc_point_2 &q) { return CircularKernel().compare_xy_2_object()(p, q) == CGAL::SMALLER; } template < typename CircularKernel > inline bool operator>(const Circular_arc_point_2 &p, const Circular_arc_point_2 &q) { return CircularKernel().compare_xy_2_object()(p, q) == CGAL::LARGER; } template < typename CircularKernel > inline bool operator<=(const Circular_arc_point_2 &p, const Circular_arc_point_2 &q) { CGAL::Comparison_result c = CircularKernel().compare_xy_2_object()(p, q); return (c == CGAL::SMALLER) || (c == CGAL::EQUAL); } template < typename CircularKernel > inline bool operator>=(const Circular_arc_point_2 &p, const Circular_arc_point_2 &q) { CGAL::Comparison_result c = CircularKernel().compare_xy_2_object()(p, q); return (c == CGAL::LARGER) || (c == CGAL::EQUAL); } template < typename CK > std::istream & operator>>(std::istream & is, Circular_arc_point_2 &p) { typedef typename CK::Root_of_2 Root_of_2; typedef typename CK::Root_for_circles_2_2 Root_for_circles_2_2; Root_for_circles_2_2 r; is >> r; if(is) p = Circular_arc_point_2(r); return is; } template < class CK > std::ostream& operator<<(std::ostream &os, const Circular_arc_point_2 &p) { return os << p.x() << " " << p.y() << " "; } template < class CK > struct Filtered_bbox_circular_kernel_2; template < typename CK > class Circular_arc_point_2 < Filtered_bbox_circular_kernel_2 < CK > > { typedef Filtered_bbox_circular_kernel_2 < CK > BK; typedef typename CK::FT FT; typedef typename CK::RT RT; typedef typename BK::Point_2 Point_2; typedef typename CK::Line_2 Line_2; typedef typename CK::Circle_2 Circle_2; typedef typename CK::Circular_arc_point_2 Rcircular_arc_point_2; typedef typename CK::Circular_arc_2 Circular_arc_2; typedef typename CK::Root_of_2 Root_of_2; public: typedef typename Rcircular_arc_point_2::Root_for_circles_2_2 Root_for_circles_2_2; typedef CK R; ////Construction///// Circular_arc_point_2() : P_point(),bb(NULL) {} Circular_arc_point_2(const Root_for_circles_2_2 & np) : P_point(np), bb(NULL) {} Circular_arc_point_2(const Point_2 & p) : P_point(p), bb(NULL) {} Circular_arc_point_2(const Rcircular_arc_point_2 & p) : P_point(p),bb(NULL) {} Circular_arc_point_2(const Circular_arc_point_2 &c) : P_point(c.P_point) { if(c.bb) bb = new Bbox_2(*(c.bb)); else bb = NULL; } ~Circular_arc_point_2() { if(bb) delete bb; } ////Accesors//// const Rcircular_arc_point_2& point() const {return P_point;} typename Qualified_result_of::type x() const { return P_point.x();} typename Qualified_result_of::type y() const { return P_point.y();} ////Bbox related accessors//// bool has_no_bbox() const { return (bb==NULL);} Bbox_2 bbox() const { if(this->has_no_bbox()) bb= new Bbox_2(P_point.bbox()); return *bb; } private: Rcircular_arc_point_2 P_point; mutable Bbox_2 *bb; }; CGAL_END_NAMESPACE #endif // CGAL_CIRCULAR_ARC_POINT_2_H