// Copyright (c) 2004 Max-Planck-Institute Saarbruecken (Germany). // 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 // 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: GPL-3.0+ // // // Author(s) : Lutz Kettner // Andreas Meyer #ifndef CGAL_BOX_INTERSECTION_D_H #define CGAL_BOX_INTERSECTION_D_H #include #include #include #include #include #include #include #include #include namespace CGAL { // Generic call with custom predicate traits parameter. template< class RandomAccessIter1, class RandomAccessIter2, class Callback, class BoxPredicateTraits > void box_intersection_custom_predicates_d( RandomAccessIter1 begin1, RandomAccessIter1 end1, RandomAccessIter2 begin2, RandomAccessIter2 end2, Callback callback, BoxPredicateTraits traits, std::ptrdiff_t cutoff = 10, Box_intersection_d::Setting setting = Box_intersection_d::BIPARTITE) { typedef BoxPredicateTraits Traits; typedef typename Traits::NT NT; CGAL_assertion( Traits::dimension() > 0 ); const int dim = Traits::dimension() - 1; const NT inf = Box_intersection_d::box_limits::inf(); const NT sup = Box_intersection_d::box_limits::sup(); Box_intersection_d::segment_tree(begin1, end1, begin2, end2, inf, sup, callback, traits, cutoff, dim, true); if(setting == Box_intersection_d::BIPARTITE) Box_intersection_d::segment_tree(begin2, end2, begin1, end1, inf, sup, callback, traits, cutoff, dim, false); } // Generic call with box traits parameter. // - make all default parameters explicit overloads (workaround) template< class RandomAccessIter1, class RandomAccessIter2, class Callback, class BoxTraits > void box_intersection_d( RandomAccessIter1 begin1, RandomAccessIter1 end1, RandomAccessIter2 begin2, RandomAccessIter2 end2, Callback callback, BoxTraits, std::ptrdiff_t cutoff, Box_intersection_d::Topology topology, Box_intersection_d::Setting setting) { if (topology == Box_intersection_d::CLOSED) { typedef Box_intersection_d::Predicate_traits_d Traits; box_intersection_custom_predicates_d(begin1, end1, begin2, end2, callback, Traits(), cutoff, setting); } else { typedef Box_intersection_d::Predicate_traits_d Traits; box_intersection_custom_predicates_d(begin1, end1, begin2, end2, callback, Traits(), cutoff, setting); } } template< class RandomAccessIter1, class RandomAccessIter2, class Callback, class BoxTraits > void box_intersection_d( RandomAccessIter1 begin1, RandomAccessIter1 end1, RandomAccessIter2 begin2, RandomAccessIter2 end2, Callback callback, BoxTraits box_traits, std::ptrdiff_t cutoff, Box_intersection_d::Topology topology) { box_intersection_d( begin1, end1, begin2, end2, callback, box_traits, cutoff, topology, Box_intersection_d::BIPARTITE); } template< class RandomAccessIter1, class RandomAccessIter2, class Callback, class BoxTraits > void box_intersection_d( RandomAccessIter1 begin1, RandomAccessIter1 end1, RandomAccessIter2 begin2, RandomAccessIter2 end2, Callback callback, BoxTraits box_traits, std::ptrdiff_t cutoff) { box_intersection_d( begin1, end1, begin2, end2, callback, box_traits, cutoff, Box_intersection_d::CLOSED, Box_intersection_d::BIPARTITE); } template< class RandomAccessIter1, class RandomAccessIter2, class Callback, class BoxTraits > void box_intersection_d( RandomAccessIter1 begin1, RandomAccessIter1 end1, RandomAccessIter2 begin2, RandomAccessIter2 end2, Callback callback, BoxTraits box_traits) { box_intersection_d( begin1, end1, begin2, end2, callback, box_traits, 10, Box_intersection_d::CLOSED, Box_intersection_d::BIPARTITE); } // Specialized call with default box traits. // - make all default parameters explicit overloads (workaround) template< class RandomAccessIter1, class RandomAccessIter2, class Callback > void box_intersection_d( RandomAccessIter1 begin1, RandomAccessIter1 end1, RandomAccessIter2 begin2, RandomAccessIter2 end2, Callback callback, std::ptrdiff_t cutoff, Box_intersection_d::Topology topology, Box_intersection_d::Setting setting) { typedef typename std::iterator_traits::value_type val_t; typedef Box_intersection_d::Box_traits_d< val_t> Box_traits; box_intersection_d( begin1, end1, begin2, end2, callback, Box_traits(), cutoff, topology, setting); } template< class RandomAccessIter1, class RandomAccessIter2, class Callback > void box_intersection_d( RandomAccessIter1 begin1, RandomAccessIter1 end1, RandomAccessIter2 begin2, RandomAccessIter2 end2, Callback callback, std::ptrdiff_t cutoff, Box_intersection_d::Topology topology) { typedef typename std::iterator_traits::value_type val_t; typedef Box_intersection_d::Box_traits_d< val_t> Box_traits; box_intersection_d( begin1, end1, begin2, end2, callback, Box_traits(), cutoff, topology, Box_intersection_d::BIPARTITE); } template< class RandomAccessIter1, class RandomAccessIter2, class Callback > void box_intersection_d( RandomAccessIter1 begin1, RandomAccessIter1 end1, RandomAccessIter2 begin2, RandomAccessIter2 end2, Callback callback, std::ptrdiff_t cutoff) { typedef typename std::iterator_traits::value_type val_t; typedef Box_intersection_d::Box_traits_d< val_t> Box_traits; box_intersection_d( begin1, end1, begin2, end2, callback, Box_traits(), cutoff, Box_intersection_d::CLOSED, Box_intersection_d::BIPARTITE); } template< class RandomAccessIter1, class RandomAccessIter2, class Callback > void box_intersection_d( RandomAccessIter1 begin1, RandomAccessIter1 end1, RandomAccessIter2 begin2, RandomAccessIter2 end2, Callback callback) { typedef typename std::iterator_traits::value_type val_t; typedef Box_intersection_d::Box_traits_d< val_t> Box_traits; box_intersection_d( begin1, end1, begin2, end2, callback, Box_traits(), 10, Box_intersection_d::CLOSED, Box_intersection_d::BIPARTITE); } // Generic call with box traits parameter, specialized for self-intersection. // - make all default parameters explicit overloads (workaround) template< class RandomAccessIter, class Callback, class BoxTraits > void box_self_intersection_d( RandomAccessIter begin, RandomAccessIter end, Callback callback, BoxTraits box_traits, std::ptrdiff_t cutoff, Box_intersection_d::Topology topology) { // Copying rather than calling 'box_intersection_d(begin, end, begin, end, ...' // is necessary because the 'std::partition' and range splits on the first range // would be messed up by sorts on the second range otherwise. typedef typename std::iterator_traits::value_type val_t; std::vector< val_t> i( begin, end); box_intersection_d( begin, end, i.begin(), i.end(), callback, box_traits, cutoff, topology, Box_intersection_d::COMPLETE); } template< class RandomAccessIter, class Callback, class BoxTraits > void box_self_intersection_d( RandomAccessIter begin, RandomAccessIter end, Callback callback, BoxTraits box_traits, std::ptrdiff_t cutoff) { return box_self_intersection_d(begin, end, callback, box_traits, cutoff, Box_intersection_d::CLOSED); } template< class RandomAccessIter, class Callback, class BoxTraits > void box_self_intersection_d( RandomAccessIter begin, RandomAccessIter end, Callback callback, BoxTraits box_traits) { return box_self_intersection_d(begin, end, callback, box_traits, 10); } // Specialized call with default box traits, specialized for self-intersection. // - make all default parameters explicit overloads (workaround) template< class RandomAccessIter, class Callback > void box_self_intersection_d( RandomAccessIter begin, RandomAccessIter end, Callback callback) { typedef typename std::iterator_traits::value_type val_t; typedef Box_intersection_d::Box_traits_d< val_t> Box_traits; box_self_intersection_d(begin, end, callback, Box_traits()); } template< class RandomAccessIter, class Callback > void box_self_intersection_d( RandomAccessIter begin, RandomAccessIter end, Callback callback, std::ptrdiff_t cutoff) { typedef typename std::iterator_traits::value_type val_t; typedef Box_intersection_d::Box_traits_d< val_t> Box_traits; box_self_intersection_d(begin, end, callback, Box_traits(), cutoff); } template< class RandomAccessIter, class Callback > void box_self_intersection_d( RandomAccessIter begin, RandomAccessIter end, Callback callback, std::ptrdiff_t cutoff, Box_intersection_d::Topology topology) { typedef typename std::iterator_traits::value_type val_t; typedef Box_intersection_d::Box_traits_d< val_t> Box_traits; box_self_intersection_d(begin, end, callback, Box_traits(), cutoff, topology ); } // Generic call for trivial all-pairs algorithm with box traits parameter. // - make all default parameters explicit overloads (workaround) template< class ForwardIter1, class ForwardIter2, class Callback, class BoxTraits > void box_intersection_all_pairs_d( ForwardIter1 begin1, ForwardIter1 end1, ForwardIter2 begin2, ForwardIter2 end2, Callback callback, BoxTraits) { typedef Box_intersection_d::Predicate_traits_d Traits; Box_intersection_d::all_pairs( begin1, end1, begin2, end2, callback, Traits()); } template< class ForwardIter1, class ForwardIter2, class Callback, class BoxTraits > void box_intersection_all_pairs_d( ForwardIter1 begin1, ForwardIter1 end1, ForwardIter2 begin2, ForwardIter2 end2, Callback callback, BoxTraits, Box_intersection_d::Topology topology, Box_intersection_d::Setting setting) { bool complete_case = (setting != Box_intersection_d::BIPARTITE); if (topology == Box_intersection_d::CLOSED) { typedef Box_intersection_d::Predicate_traits_d Traits; Box_intersection_d::all_pairs( begin1, end1, begin2, end2, callback, Traits(), complete_case); } else { typedef Box_intersection_d::Predicate_traits_d Traits; Box_intersection_d::all_pairs( begin1, end1, begin2, end2, callback, Traits(), complete_case); } } template< class ForwardIter1, class ForwardIter2, class Callback, class BoxTraits > void box_intersection_all_pairs_d( ForwardIter1 begin1, ForwardIter1 end1, ForwardIter2 begin2, ForwardIter2 end2, Callback callback, BoxTraits traits, Box_intersection_d::Topology topology) { box_intersection_all_pairs_d( begin1, end1, begin2, end2, callback, traits, topology, Box_intersection_d::BIPARTITE); } // Specialized call for trivial all-pairs algorithm with default box traits. // - make all default parameters explicit overloads (workaround) template< class ForwardIter1, class ForwardIter2, class Callback > void box_intersection_all_pairs_d( ForwardIter1 begin1, ForwardIter1 end1, ForwardIter2 begin2, ForwardIter2 end2, Callback callback) { typedef typename std::iterator_traits::value_type val_t; typedef Box_intersection_d::Box_traits_d< val_t> Box_traits; box_intersection_all_pairs_d( begin1, end1, begin2, end2, callback, Box_traits(), Box_intersection_d::CLOSED ); } template< class ForwardIter1, class ForwardIter2, class Callback > void box_intersection_all_pairs_d( ForwardIter1 begin1, ForwardIter1 end1, ForwardIter2 begin2, ForwardIter2 end2, Callback callback, Box_intersection_d::Topology topology) { typedef typename std::iterator_traits::value_type val_t; typedef Box_intersection_d::Box_traits_d< val_t> Box_traits; box_intersection_all_pairs_d( begin1, end1, begin2, end2, callback, Box_traits(), topology); } template< class ForwardIter1, class ForwardIter2, class Callback > void box_intersection_all_pairs_d( ForwardIter1 begin1, ForwardIter1 end1, ForwardIter2 begin2, ForwardIter2 end2, Callback callback, Box_intersection_d::Topology topology, Box_intersection_d::Setting setting) { typedef typename std::iterator_traits::value_type val_t; typedef Box_intersection_d::Box_traits_d< val_t> Box_traits; box_intersection_all_pairs_d( begin1, end1, begin2, end2, callback, Box_traits(), topology, setting); } // Generic call for trivial all-pairs algorithm with box traits parameter // specialized for self-intersection test. // - make all default parameters explicit overloads (workaround) template< class ForwardIter, class Callback, class BoxTraits > void box_self_intersection_all_pairs_d( ForwardIter begin1, ForwardIter end1, Callback callback, BoxTraits /* traits */) { typedef Box_intersection_d::Predicate_traits_d Traits; Box_intersection_d::all_pairs( begin1, end1, callback, Traits()); } template< class ForwardIter, class Callback, class BoxTraits > void box_self_intersection_all_pairs_d( ForwardIter begin1, ForwardIter end1, Callback callback, BoxTraits, Box_intersection_d::Topology topology) { if (topology == Box_intersection_d::CLOSED) { typedef Box_intersection_d::Predicate_traits_d Traits; Box_intersection_d::all_pairs( begin1, end1, callback, Traits()); } else { typedef Box_intersection_d::Predicate_traits_d Traits; Box_intersection_d::all_pairs( begin1, end1, callback, Traits()); } } // Specialized call for trivial all-pairs algorithm with default box traits. // specialized for self-intersection test. // - make all default parameters explicit overloads (workaround) template< class ForwardIter, class Callback > void box_self_intersection_all_pairs_d( ForwardIter begin1, ForwardIter end1, Callback callback) { typedef typename std::iterator_traits::value_type val_t; typedef Box_intersection_d::Box_traits_d< val_t> Box_traits; box_self_intersection_all_pairs_d( begin1, end1, callback, Box_traits(), Box_intersection_d::CLOSED ); } template< class ForwardIter, class Callback > void box_self_intersection_all_pairs_d( ForwardIter begin1, ForwardIter end1, Callback callback, Box_intersection_d::Topology topology) { typedef typename std::iterator_traits::value_type val_t; typedef Box_intersection_d::Box_traits_d< val_t> Box_traits; box_self_intersection_all_pairs_d( begin1, end1, callback, Box_traits(), topology); } } //namespace CGAL #include #endif