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comparison DEPENDENCIES/generic/include/boost/geometry/index/detail/serialization.hpp @ 16:2665513ce2d3

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Add boost headers
author Chris Cannam
date Tue, 05 Aug 2014 11:11:38 +0100
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15:663ca0da4350 16:2665513ce2d3
1 // Boost.Geometry Index
2 //
3 // Copyright (c) 2011-2013 Adam Wulkiewicz, Lodz, Poland.
4 //
5 // Use, modification and distribution is subject to the Boost Software License,
6 // Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
7 // http://www.boost.org/LICENSE_1_0.txt)
8
9 #ifndef BOOST_GEOMETRY_INDEX_DETAIL_SERIALIZATION_HPP
10 #define BOOST_GEOMETRY_INDEX_DETAIL_SERIALIZATION_HPP
11
12 //#include <boost/serialization/serialization.hpp>
13 #include <boost/serialization/split_member.hpp>
14 #include <boost/serialization/version.hpp>
15 //#include <boost/serialization/nvp.hpp>
16
17 // TODO
18 // how about using the unsigned type capable of storing Max in compile-time versions?
19
20 // TODO
21 // - add wrappers for Point and Box and implement serialize for those wrappers instead of
22 // raw geometries
23 // PROBLEM: after implementing this, how Values would be set?
24 // - store the name of the parameters to know how to load and detect errors
25 // - in the header, once store info about the Indexable and Bounds types (geometry type, point CS, Dim, etc.)
26 // each geometry save without this info
27
28 // TODO - move to index/detail/serialization.hpp
29 namespace boost { namespace geometry { namespace index { namespace detail {
30
31 // TODO - use boost::move?
32 template<typename T>
33 class serialization_storage
34 {
35 public:
36 template <typename Archive>
37 serialization_storage(Archive & ar, unsigned int version)
38 {
39 boost::serialization::load_construct_data_adl(ar, this->address(), version);
40 }
41 ~serialization_storage()
42 {
43 this->address()->~T();
44 }
45 T * address()
46 {
47 return static_cast<T*>(m_storage.address());
48 }
49 private:
50 boost::aligned_storage<sizeof(T), boost::alignment_of<T>::value> m_storage;
51 };
52
53 // TODO - save and load item_version? see: collections_load_imp and collections_save_imp
54 // this should be done once for the whole container
55 // versions of all used types should be stored
56
57 template <typename T, typename Archive> inline
58 T serialization_load(const char * name, Archive & ar)
59 {
60 namespace bs = boost::serialization;
61 serialization_storage<T> storage(ar, bs::version<T>::value); // load_construct_data
62 ar >> boost::serialization::make_nvp(name, *storage.address()); // serialize
63 //ar >> *storage.address(); // serialize
64 return *storage.address();
65 }
66
67 template <typename T, typename Archive> inline
68 void serialization_save(T const& t, const char * name, Archive & ar)
69 {
70 namespace bs = boost::serialization;
71 bs::save_construct_data_adl(ar, boost::addressof(t), bs::version<T>::value); // save_construct_data
72 ar << boost::serialization::make_nvp(name, t); // serialize
73 //ar << t; // serialize
74 }
75
76 }}}}
77
78 // TODO - move to index/serialization/rtree.hpp
79 namespace boost { namespace serialization {
80
81 // boost::geometry::index::linear
82
83 template<class Archive, size_t Max, size_t Min>
84 void save_construct_data(Archive & ar, const boost::geometry::index::linear<Max, Min> * params, unsigned int )
85 {
86 size_t max = params->get_max_elements(), min = params->get_min_elements();
87 ar << boost::serialization::make_nvp("max", max);
88 ar << boost::serialization::make_nvp("min", min);
89 }
90 template<class Archive, size_t Max, size_t Min>
91 void load_construct_data(Archive & ar, boost::geometry::index::linear<Max, Min> * params, unsigned int )
92 {
93 size_t max, min;
94 ar >> boost::serialization::make_nvp("max", max);
95 ar >> boost::serialization::make_nvp("min", min);
96 if ( max != params->get_max_elements() || min != params->get_min_elements() )
97 // TODO change exception type
98 BOOST_THROW_EXCEPTION(std::runtime_error("parameters not compatible"));
99 // the constructor musn't be called for this type
100 //::new(params)boost::geometry::index::linear<Max, Min>();
101 }
102 template<class Archive, size_t Max, size_t Min> void serialize(Archive &, boost::geometry::index::linear<Max, Min> &, unsigned int) {}
103
104 // boost::geometry::index::quadratic
105
106 template<class Archive, size_t Max, size_t Min>
107 void save_construct_data(Archive & ar, const boost::geometry::index::quadratic<Max, Min> * params, unsigned int )
108 {
109 size_t max = params->get_max_elements(), min = params->get_min_elements();
110 ar << boost::serialization::make_nvp("max", max);
111 ar << boost::serialization::make_nvp("min", min);
112 }
113 template<class Archive, size_t Max, size_t Min>
114 void load_construct_data(Archive & ar, boost::geometry::index::quadratic<Max, Min> * params, unsigned int )
115 {
116 size_t max, min;
117 ar >> boost::serialization::make_nvp("max", max);
118 ar >> boost::serialization::make_nvp("min", min);
119 if ( max != params->get_max_elements() || min != params->get_min_elements() )
120 // TODO change exception type
121 BOOST_THROW_EXCEPTION(std::runtime_error("parameters not compatible"));
122 // the constructor musn't be called for this type
123 //::new(params)boost::geometry::index::quadratic<Max, Min>();
124 }
125 template<class Archive, size_t Max, size_t Min> void serialize(Archive &, boost::geometry::index::quadratic<Max, Min> &, unsigned int) {}
126
127 // boost::geometry::index::rstar
128
129 template<class Archive, size_t Max, size_t Min, size_t RE, size_t OCT>
130 void save_construct_data(Archive & ar, const boost::geometry::index::rstar<Max, Min, RE, OCT> * params, unsigned int )
131 {
132 size_t max = params->get_max_elements()
133 , min = params->get_min_elements()
134 , re = params->get_reinserted_elements()
135 , oct = params->get_overlap_cost_threshold();
136 ar << boost::serialization::make_nvp("max", max);
137 ar << boost::serialization::make_nvp("min", min);
138 ar << boost::serialization::make_nvp("re", re);
139 ar << boost::serialization::make_nvp("oct", oct);
140 }
141 template<class Archive, size_t Max, size_t Min, size_t RE, size_t OCT>
142 void load_construct_data(Archive & ar, boost::geometry::index::rstar<Max, Min, RE, OCT> * params, unsigned int )
143 {
144 size_t max, min, re, oct;
145 ar >> boost::serialization::make_nvp("max", max);
146 ar >> boost::serialization::make_nvp("min", min);
147 ar >> boost::serialization::make_nvp("re", re);
148 ar >> boost::serialization::make_nvp("oct", oct);
149 if ( max != params->get_max_elements() || min != params->get_min_elements() ||
150 re != params->get_reinserted_elements() || oct != params->get_overlap_cost_threshold() )
151 // TODO change exception type
152 BOOST_THROW_EXCEPTION(std::runtime_error("parameters not compatible"));
153 // the constructor musn't be called for this type
154 //::new(params)boost::geometry::index::rstar<Max, Min, RE, OCT>();
155 }
156 template<class Archive, size_t Max, size_t Min, size_t RE, size_t OCT>
157 void serialize(Archive &, boost::geometry::index::rstar<Max, Min, RE, OCT> &, unsigned int) {}
158
159 // boost::geometry::index::dynamic_linear
160
161 template<class Archive>
162 inline void save_construct_data(Archive & ar, const boost::geometry::index::dynamic_linear * params, unsigned int )
163 {
164 size_t max = params->get_max_elements(), min = params->get_min_elements();
165 ar << boost::serialization::make_nvp("max", max);
166 ar << boost::serialization::make_nvp("min", min);
167 }
168 template<class Archive>
169 inline void load_construct_data(Archive & ar, boost::geometry::index::dynamic_linear * params, unsigned int )
170 {
171 size_t max, min;
172 ar >> boost::serialization::make_nvp("max", max);
173 ar >> boost::serialization::make_nvp("min", min);
174 ::new(params)boost::geometry::index::dynamic_linear(max, min);
175 }
176 template<class Archive> void serialize(Archive &, boost::geometry::index::dynamic_linear &, unsigned int) {}
177
178 // boost::geometry::index::dynamic_quadratic
179
180 template<class Archive>
181 inline void save_construct_data(Archive & ar, const boost::geometry::index::dynamic_quadratic * params, unsigned int )
182 {
183 size_t max = params->get_max_elements(), min = params->get_min_elements();
184 ar << boost::serialization::make_nvp("max", max);
185 ar << boost::serialization::make_nvp("min", min);
186 }
187 template<class Archive>
188 inline void load_construct_data(Archive & ar, boost::geometry::index::dynamic_quadratic * params, unsigned int )
189 {
190 size_t max, min;
191 ar >> boost::serialization::make_nvp("max", max);
192 ar >> boost::serialization::make_nvp("min", min);
193 ::new(params)boost::geometry::index::dynamic_quadratic(max, min);
194 }
195 template<class Archive> void serialize(Archive &, boost::geometry::index::dynamic_quadratic &, unsigned int) {}
196
197 // boost::geometry::index::dynamic_rstar
198
199 template<class Archive>
200 inline void save_construct_data(Archive & ar, const boost::geometry::index::dynamic_rstar * params, unsigned int )
201 {
202 size_t max = params->get_max_elements()
203 , min = params->get_min_elements()
204 , re = params->get_reinserted_elements()
205 , oct = params->get_overlap_cost_threshold();
206 ar << boost::serialization::make_nvp("max", max);
207 ar << boost::serialization::make_nvp("min", min);
208 ar << boost::serialization::make_nvp("re", re);
209 ar << boost::serialization::make_nvp("oct", oct);
210 }
211 template<class Archive>
212 inline void load_construct_data(Archive & ar, boost::geometry::index::dynamic_rstar * params, unsigned int )
213 {
214 size_t max, min, re, oct;
215 ar >> boost::serialization::make_nvp("max", max);
216 ar >> boost::serialization::make_nvp("min", min);
217 ar >> boost::serialization::make_nvp("re", re);
218 ar >> boost::serialization::make_nvp("oct", oct);
219 ::new(params)boost::geometry::index::dynamic_rstar(max, min, re, oct);
220 }
221 template<class Archive> void serialize(Archive &, boost::geometry::index::dynamic_rstar &, unsigned int) {}
222
223 }} // boost::serialization
224
225 // TODO - move to index/detail/serialization.hpp or maybe geometry/serialization.hpp
226 namespace boost { namespace geometry { namespace index { namespace detail {
227
228 template <typename P, size_t I = 0, size_t D = traits::dimension<P>::value>
229 struct serialize_point
230 {
231 template <typename Archive>
232 static inline void save(Archive & ar, P const& p, unsigned int version)
233 {
234 typename coordinate_type<P>::type c = get<I>(p);
235 ar << boost::serialization::make_nvp("c", c);
236 serialize_point<P, I+1, D>::save(ar, p, version);
237 }
238
239 template <typename Archive>
240 static inline void load(Archive & ar, P & p, unsigned int version)
241 {
242 typename traits::coordinate_type<P>::type c;
243 ar >> boost::serialization::make_nvp("c", c);
244 set<I>(p, c);
245 serialize_point<P, I+1, D>::load(ar, p, version);
246 }
247 };
248
249 template <typename P, size_t D>
250 struct serialize_point<P, D, D>
251 {
252 template <typename Archive> static inline void save(Archive &, P const&, unsigned int) {}
253 template <typename Archive> static inline void load(Archive &, P &, unsigned int) {}
254 };
255
256 }}}}
257
258 // TODO - move to index/detail/serialization.hpp or maybe geometry/serialization.hpp
259 namespace boost { namespace serialization {
260
261 template<class Archive, typename T, size_t D, typename C>
262 void save(Archive & ar, boost::geometry::model::point<T, D, C> const& p, unsigned int version)
263 {
264 boost::geometry::index::detail::serialize_point< boost::geometry::model::point<T, D, C> >::save(ar, p, version);
265 }
266 template<class Archive, typename T, size_t D, typename C>
267 void load(Archive & ar, boost::geometry::model::point<T, D, C> & p, unsigned int version)
268 {
269 boost::geometry::index::detail::serialize_point< boost::geometry::model::point<T, D, C> >::load(ar, p, version);
270 }
271 template<class Archive, typename T, size_t D, typename C>
272 inline void serialize(Archive & ar, boost::geometry::model::point<T, D, C> & o, const unsigned int version) { split_free(ar, o, version); }
273
274 template<class Archive, typename P>
275 inline void serialize(Archive & ar, boost::geometry::model::box<P> & b, const unsigned int)
276 {
277 ar & boost::serialization::make_nvp("min", b.min_corner());
278 ar & boost::serialization::make_nvp("max", b.max_corner());
279 }
280
281 }} // boost::serialization
282
283 // TODO - move to index/detail/rtree/visitors/save.hpp
284 namespace boost { namespace geometry { namespace index { namespace detail { namespace rtree { namespace visitors {
285
286 // TODO move saving and loading of the rtree outside the rtree, this will require adding some kind of members_view
287
288 template <typename Archive, typename Value, typename Options, typename Translator, typename Box, typename Allocators>
289 class save
290 : public rtree::visitor<Value, typename Options::parameters_type, Box, Allocators, typename Options::node_tag, true>::type
291 {
292 public:
293 typedef typename rtree::node<Value, typename Options::parameters_type, Box, Allocators, typename Options::node_tag>::type node;
294 typedef typename rtree::internal_node<Value, typename Options::parameters_type, Box, Allocators, typename Options::node_tag>::type internal_node;
295 typedef typename rtree::leaf<Value, typename Options::parameters_type, Box, Allocators, typename Options::node_tag>::type leaf;
296
297 save(Archive & archive, unsigned int version)
298 : m_archive(archive), m_version(version)
299 {}
300
301 inline void operator()(internal_node const& n)
302 {
303 typedef typename rtree::elements_type<internal_node>::type elements_type;
304 elements_type const& elements = rtree::elements(n);
305
306 // change to elements_type::size_type or size_type?
307 size_t s = elements.size();
308 m_archive << boost::serialization::make_nvp("s", s);
309
310 for (typename elements_type::const_iterator it = elements.begin() ; it != elements.end() ; ++it)
311 {
312 serialization_save(it->first, "b", m_archive);
313
314 rtree::apply_visitor(*this, *it->second);
315 }
316 }
317
318 inline void operator()(leaf const& l)
319 {
320 typedef typename rtree::elements_type<leaf>::type elements_type;
321 typedef typename elements_type::size_type elements_size;
322 elements_type const& elements = rtree::elements(l);
323
324 // change to elements_type::size_type or size_type?
325 size_t s = elements.size();
326 m_archive << boost::serialization::make_nvp("s", s);
327
328 for (typename elements_type::const_iterator it = elements.begin() ; it != elements.end() ; ++it)
329 {
330 serialization_save(*it, "v", m_archive);
331 }
332 }
333
334 private:
335 Archive & m_archive;
336 unsigned int m_version;
337 };
338
339 }}}}}} // boost::geometry::index::detail::rtree::visitors
340
341 // TODO - move to index/detail/rtree/load.hpp
342 namespace boost { namespace geometry { namespace index { namespace detail { namespace rtree {
343
344 template <typename Value, typename Options, typename Translator, typename Box, typename Allocators>
345 class load
346 {
347 typedef typename rtree::node<Value, typename Options::parameters_type, Box, Allocators, typename Options::node_tag>::type node;
348 typedef typename rtree::internal_node<Value, typename Options::parameters_type, Box, Allocators, typename Options::node_tag>::type internal_node;
349 typedef typename rtree::leaf<Value, typename Options::parameters_type, Box, Allocators, typename Options::node_tag>::type leaf;
350
351 typedef typename Options::parameters_type parameters_type;
352
353 typedef typename Allocators::node_pointer node_pointer;
354 typedef rtree::node_auto_ptr<Value, Options, Translator, Box, Allocators> node_auto_ptr;
355 typedef typename Allocators::size_type size_type;
356
357 public:
358 template <typename Archive> inline static
359 node_pointer apply(Archive & ar, unsigned int version, size_type leafs_level, size_type & values_count, parameters_type const& parameters, Translator const& translator, Allocators & allocators)
360 {
361 values_count = 0;
362 return raw_apply(ar, version, leafs_level, values_count, parameters, translator, allocators);
363 }
364
365 private:
366 template <typename Archive> inline static
367 node_pointer raw_apply(Archive & ar, unsigned int version, size_type leafs_level, size_type & values_count, parameters_type const& parameters, Translator const& translator, Allocators & allocators, size_type current_level = 0)
368 {
369 //BOOST_GEOMETRY_INDEX_ASSERT(current_level <= leafs_level, "invalid parameter");
370
371 // change to elements_type::size_type or size_type?
372 size_t elements_count;
373 ar >> boost::serialization::make_nvp("s", elements_count);
374
375 if ( elements_count < parameters.get_min_elements() || parameters.get_max_elements() < elements_count )
376 BOOST_THROW_EXCEPTION(std::runtime_error("rtree loading error"));
377
378 if ( current_level < leafs_level )
379 {
380 node_pointer n = rtree::create_node<Allocators, internal_node>::apply(allocators); // MAY THROW (A)
381 node_auto_ptr auto_remover(n, allocators);
382 internal_node & in = rtree::get<internal_node>(*n);
383
384 typedef typename rtree::elements_type<internal_node>::type elements_type;
385 typedef typename elements_type::value_type element_type;
386 typedef typename elements_type::size_type elements_size;
387 elements_type & elements = rtree::elements(in);
388
389 elements.reserve(elements_count); // MAY THROW (A)
390
391 for ( size_t i = 0 ; i < elements_count ; ++i )
392 {
393 typedef typename elements_type::value_type::first_type box_type;
394 box_type b = serialization_load<box_type>("b", ar);
395 node_pointer n = raw_apply(ar, version, leafs_level, values_count, parameters, translator, allocators, current_level+1); // recursive call
396 elements.push_back(element_type(b, n));
397 }
398
399 auto_remover.release();
400 return n;
401 }
402 else
403 {
404 BOOST_GEOMETRY_INDEX_ASSERT(current_level == leafs_level, "unexpected value");
405
406 node_pointer n = rtree::create_node<Allocators, leaf>::apply(allocators); // MAY THROW (A)
407 node_auto_ptr auto_remover(n, allocators);
408 leaf & l = rtree::get<leaf>(*n);
409
410 typedef typename rtree::elements_type<leaf>::type elements_type;
411 typedef typename elements_type::value_type element_type;
412 elements_type & elements = rtree::elements(l);
413
414 values_count += elements_count;
415
416 elements.reserve(elements_count); // MAY THROW (A)
417
418 for ( size_t i = 0 ; i < elements_count ; ++i )
419 {
420 element_type el = serialization_load<element_type>("v", ar); // MAY THROW (C)
421 elements.push_back(el); // MAY THROW (C)
422 }
423
424 auto_remover.release();
425 return n;
426 }
427 }
428 };
429
430 }}}}} // boost::geometry::index::detail::rtree
431
432 // TODO - move to index/detail/rtree/private_view.hpp
433 namespace boost { namespace geometry { namespace index { namespace detail { namespace rtree {
434
435 template <typename Rtree>
436 class const_private_view
437 {
438 public:
439 typedef typename Rtree::size_type size_type;
440
441 typedef typename Rtree::translator_type translator_type;
442 typedef typename Rtree::value_type value_type;
443 typedef typename Rtree::options_type options_type;
444 typedef typename Rtree::box_type box_type;
445 typedef typename Rtree::allocators_type allocators_type;
446
447 const_private_view(Rtree const& rt) : m_rtree(rt) {}
448
449 typedef typename Rtree::members_holder members_holder;
450
451 members_holder const& members() const { return m_rtree.m_members; }
452
453 private:
454 const_private_view(const_private_view const&);
455 const_private_view & operator=(const_private_view const&);
456
457 Rtree const& m_rtree;
458 };
459
460 template <typename Rtree>
461 class private_view
462 {
463 public:
464 typedef typename Rtree::size_type size_type;
465
466 typedef typename Rtree::translator_type translator_type;
467 typedef typename Rtree::value_type value_type;
468 typedef typename Rtree::options_type options_type;
469 typedef typename Rtree::box_type box_type;
470 typedef typename Rtree::allocators_type allocators_type;
471
472 private_view(Rtree & rt) : m_rtree(rt) {}
473
474 typedef typename Rtree::members_holder members_holder;
475
476 members_holder & members() { return m_rtree.m_members; }
477 members_holder const& members() const { return m_rtree.m_members; }
478
479 private:
480 private_view(private_view const&);
481 private_view & operator=(private_view const&);
482
483 Rtree & m_rtree;
484 };
485
486 }}}}} // namespace boost::geometry::index::detail::rtree
487
488 // TODO - move to index/serialization/rtree.hpp
489 namespace boost { namespace serialization {
490
491 template<class Archive, typename V, typename P, typename I, typename E, typename A>
492 void save(Archive & ar, boost::geometry::index::rtree<V, P, I, E, A> const& rt, unsigned int version)
493 {
494 namespace detail = boost::geometry::index::detail;
495
496 typedef boost::geometry::index::rtree<V, P, I, E, A> rtree;
497 typedef detail::rtree::const_private_view<rtree> view;
498 typedef typename view::translator_type translator_type;
499 typedef typename view::value_type value_type;
500 typedef typename view::options_type options_type;
501 typedef typename view::box_type box_type;
502 typedef typename view::allocators_type allocators_type;
503
504 view tree(rt);
505
506 detail::serialization_save(tree.members().parameters(), "parameters", ar);
507
508 ar << boost::serialization::make_nvp("values_count", tree.members().values_count);
509 ar << boost::serialization::make_nvp("leafs_level", tree.members().leafs_level);
510
511 if ( tree.members().values_count )
512 {
513 BOOST_GEOMETRY_INDEX_ASSERT(tree.members().root, "root shouldn't be null_ptr");
514
515 detail::rtree::visitors::save<Archive, value_type, options_type, translator_type, box_type, allocators_type> save_v(ar, version);
516 detail::rtree::apply_visitor(save_v, *tree.members().root);
517 }
518 }
519
520 template<class Archive, typename V, typename P, typename I, typename E, typename A>
521 void load(Archive & ar, boost::geometry::index::rtree<V, P, I, E, A> & rt, unsigned int version)
522 {
523 namespace detail = boost::geometry::index::detail;
524
525 typedef boost::geometry::index::rtree<V, P, I, E, A> rtree;
526 typedef detail::rtree::private_view<rtree> view;
527 typedef typename view::size_type size_type;
528 typedef typename view::translator_type translator_type;
529 typedef typename view::value_type value_type;
530 typedef typename view::options_type options_type;
531 typedef typename view::box_type box_type;
532 typedef typename view::allocators_type allocators_type;
533
534 typedef typename options_type::parameters_type parameters_type;
535 typedef typename allocators_type::node_pointer node_pointer;
536 typedef detail::rtree::node_auto_ptr<value_type, options_type, translator_type, box_type, allocators_type> node_auto_ptr;
537
538 view tree(rt);
539
540 parameters_type params = detail::serialization_load<parameters_type>("parameters", ar);
541
542 size_type values_count, leafs_level;
543 ar >> boost::serialization::make_nvp("values_count", values_count);
544 ar >> boost::serialization::make_nvp("leafs_level", leafs_level);
545
546 node_pointer n(0);
547 if ( 0 < values_count )
548 {
549 size_type loaded_values_count = 0;
550 n = detail::rtree::load<value_type, options_type, translator_type, box_type, allocators_type>
551 ::apply(ar, version, leafs_level, loaded_values_count, params, tree.members().translator(), tree.members().allocators()); // MAY THROW
552
553 node_auto_ptr remover(n, tree.members().allocators());
554 if ( loaded_values_count != values_count )
555 BOOST_THROW_EXCEPTION(std::runtime_error("unexpected number of values")); // TODO change exception type
556 remover.release();
557 }
558
559 tree.members().parameters() = params;
560 tree.members().values_count = values_count;
561 tree.members().leafs_level = leafs_level;
562
563 node_auto_ptr remover(tree.members().root, tree.members().allocators());
564 tree.members().root = n;
565 }
566
567 template<class Archive, typename V, typename P, typename I, typename E, typename A> inline
568 void serialize(Archive & ar, boost::geometry::index::rtree<V, P, I, E, A> & rt, unsigned int version)
569 {
570 split_free(ar, rt, version);
571 }
572
573 template<class Archive, typename V, typename P, typename I, typename E, typename A> inline
574 void serialize(Archive & ar, boost::geometry::index::rtree<V, P, I, E, A> const& rt, unsigned int version)
575 {
576 split_free(ar, rt, version);
577 }
578
579 }} // boost::serialization
580
581 #endif // BOOST_GEOMETRY_INDEX_DETAIL_SERIALIZATION_HPP