// Copyright (c) 2014 // INRIA Saclay-Ile de France (France) // // 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) : Marc Glisse #ifndef CGAL_KERNEL_D_LAZY_CARTESIAN_H #define CGAL_KERNEL_D_LAZY_CARTESIAN_H #include #include #include #include #include #include #include namespace CGAL { template struct Nth_iterator_element : private Store_kernel { Nth_iterator_element(){} Nth_iterator_element(K const&k):Store_kernel(k){} typedef typename Get_type::value_tag>::type result_type; template result_type operator()(CGAL_FORWARDABLE(U) u, int i) const { typename Get_functor >::type ci(this->kernel()); return *cpp0x::next(ci(CGAL_FORWARD(U,u),Begin_tag()),i); } }; //typedef typename Functor::nth_element>::type nth_elem; template::has_nth_element> struct Select_nth_element_functor { typedef Nth_iterator_element type; }; template struct Select_nth_element_functor : Get_functor::nth_element> {}; namespace internal { template struct Lazy_construction_maybe_nt { typedef Lazy_construction type; }; template struct Lazy_construction_maybe_nt { typedef Lazy_construction_nt type; }; } template struct Lazy_cartesian_types { typedef typename typeset_intersection< typename AK_::Object_list, typename EK_::Object_list >::type Object_list; typedef typename typeset_intersection< typename AK_::Iterator_list, typename EK_::Iterator_list >::type Iterator_list; template ::type> struct Type {}; template struct Type { typedef Lazy< typename Get_type::type, typename Get_type::type, typename Get_type::type, E2A_> type; }; template struct Type { typedef CGAL::Lazy_exact_nt::type> type; }; template struct Iterator { typedef typename iterator_tag_traits::value_tag Vt; typedef typename Type::type V; typedef typename Select_nth_element_functor::type AF; typedef typename Select_nth_element_functor::type EF; typedef typename internal::Lazy_construction_maybe_nt< Kernel_, AF, EF, is_NT_tag::value >::type nth_elem; typedef Iterator_from_indices< const typename Type::container>::type, const V, V, nth_elem > type; }; }; template struct Lazy_cartesian : Dimension_base, Lazy_cartesian_types > { //CGAL_CONSTEXPR Lazy_cartesian(){} //CGAL_CONSTEXPR Lazy_cartesian(int d):Base_(d){} //TODO: Do we want to store an AK and an EK? Or just references? //FIXME: references would be better I guess. //TODO: In any case, make sure that we don't end up storing this kernel for //nothing (it is not empty but references empty kernels or something) AK_ ak; EK_ ek; AK_ const& approximate_kernel()const{return ak;} EK_ const& exact_kernel()const{return ek;} typedef Lazy_cartesian Self; typedef Lazy_cartesian_types Base; //typedef typename Default::Get::type Kernel; typedef Self Kernel; typedef AK_ Approximate_kernel; typedef EK_ Exact_kernel; typedef E2A_ E2A; typedef Approx_converter C2A; typedef Exact_converter C2E; typedef typename Exact_kernel::Rep_tag Rep_tag; typedef typename Exact_kernel::Kernel_tag Kernel_tag; typedef typename Exact_kernel::Default_ambient_dimension Default_ambient_dimension; typedef typename Exact_kernel::Max_ambient_dimension Max_ambient_dimension; //typedef typename Exact_kernel::Flat_orientation Flat_orientation; // Check that Approximate_kernel agrees with all that... template::type> struct Functor { typedef Null_functor type; }; //FIXME: what do we do with D here? template struct Functor { typedef typename Get_functor::type FA; typedef typename Get_functor::type FE; typedef Filtered_predicate2 type; }; template struct Functor { typedef typename Get_functor::type FA; typedef typename Get_functor::type FE; typedef Lazy_construction_nt type; }; template struct Functor { typedef typename Get_functor::type FA; typedef typename Get_functor::type FE; typedef Lazy_construction type; }; //typedef typename Iterator::type Point_cartesian_const_iterator; //typedef typename Iterator::type Vector_cartesian_const_iterator; template struct Construct_iter : private Store_kernel { Construct_iter(){} Construct_iter(Kernel const&k):Store_kernel(k){} //FIXME: pass the kernel to the functor in the iterator typedef U result_type; template result_type operator()(T const& t,Begin_tag)const{ return result_type(t,0,this->kernel()); } template result_type operator()(T const& t,End_tag)const{ return result_type(t,Self().dimension(),this->kernel()); } }; template struct Functor { typedef Construct_iter::type>::type> type; }; //TODO: what about other functors of the Misc category? // for Point_dimension, we should apply it to the approximate point // for printing, we should??? just not do printing this way? }; } //namespace CGAL #endif // CGAL_KERNEL_D_LAZY_CARTESIAN_H