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annotate DEPENDENCIES/generic/include/boost/container/detail/flat_tree.hpp @ 125:34e428693f5d vext

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Vext -> Repoint
author Chris Cannam
date Thu, 14 Jun 2018 11:15:39 +0100
parents c530137014c0
children
rev   line source
Chris@16 1 ////////////////////////////////////////////////////////////////////////////////
Chris@16 2 //
Chris@101 3 // (C) Copyright Ion Gaztanaga 2005-2013. Distributed under the Boost
Chris@16 4 // Software License, Version 1.0. (See accompanying file
Chris@16 5 // LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
Chris@16 6 //
Chris@16 7 // See http://www.boost.org/libs/container for documentation.
Chris@16 8 //
Chris@16 9 ////////////////////////////////////////////////////////////////////////////////
Chris@16 10
Chris@16 11 #ifndef BOOST_CONTAINER_FLAT_TREE_HPP
Chris@16 12 #define BOOST_CONTAINER_FLAT_TREE_HPP
Chris@16 13
Chris@101 14 #ifndef BOOST_CONFIG_HPP
Chris@101 15 # include <boost/config.hpp>
Chris@101 16 #endif
Chris@101 17
Chris@101 18 #if defined(BOOST_HAS_PRAGMA_ONCE)
Chris@16 19 # pragma once
Chris@16 20 #endif
Chris@16 21
Chris@101 22 #include <boost/container/detail/config_begin.hpp>
Chris@16 23 #include <boost/container/detail/workaround.hpp>
Chris@16 24
Chris@16 25 #include <boost/container/container_fwd.hpp>
Chris@16 26
Chris@101 27 #include <boost/move/utility_core.hpp>
Chris@16 28
Chris@16 29 #include <boost/container/detail/pair.hpp>
Chris@16 30 #include <boost/container/vector.hpp>
Chris@16 31 #include <boost/container/detail/value_init.hpp>
Chris@16 32 #include <boost/container/detail/destroyers.hpp>
Chris@101 33 #include <boost/container/detail/algorithm.hpp> //algo_equal(), algo_lexicographical_compare
Chris@101 34 #include <boost/container/detail/iterator.hpp>
Chris@16 35 #include <boost/container/allocator_traits.hpp>
Chris@16 36 #ifdef BOOST_CONTAINER_VECTOR_ITERATOR_IS_POINTER
Chris@16 37 #include <boost/intrusive/pointer_traits.hpp>
Chris@16 38 #endif
Chris@101 39 #include <boost/container/detail/type_traits.hpp>
Chris@101 40 #include <boost/move/make_unique.hpp>
Chris@101 41 #include <boost/move/adl_move_swap.hpp>
Chris@101 42 #if defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
Chris@101 43 #include <boost/move/detail/fwd_macros.hpp>
Chris@101 44 #endif
Chris@101 45
Chris@101 46 #include <boost/intrusive/detail/minimal_pair_header.hpp> //pair
Chris@16 47
Chris@16 48 namespace boost {
Chris@16 49 namespace container {
Chris@16 50 namespace container_detail {
Chris@16 51
Chris@16 52 template<class Compare, class Value, class KeyOfValue>
Chris@16 53 class flat_tree_value_compare
Chris@16 54 : private Compare
Chris@16 55 {
Chris@16 56 typedef Value first_argument_type;
Chris@16 57 typedef Value second_argument_type;
Chris@16 58 typedef bool return_type;
Chris@101 59 public:
Chris@16 60 flat_tree_value_compare()
Chris@16 61 : Compare()
Chris@16 62 {}
Chris@16 63
Chris@16 64 flat_tree_value_compare(const Compare &pred)
Chris@16 65 : Compare(pred)
Chris@16 66 {}
Chris@16 67
Chris@16 68 bool operator()(const Value& lhs, const Value& rhs) const
Chris@16 69 {
Chris@16 70 KeyOfValue key_extract;
Chris@16 71 return Compare::operator()(key_extract(lhs), key_extract(rhs));
Chris@16 72 }
Chris@16 73
Chris@16 74 const Compare &get_comp() const
Chris@16 75 { return *this; }
Chris@101 76
Chris@16 77 Compare &get_comp()
Chris@16 78 { return *this; }
Chris@16 79 };
Chris@16 80
Chris@16 81 template<class Pointer>
Chris@16 82 struct get_flat_tree_iterators
Chris@16 83 {
Chris@16 84 #ifdef BOOST_CONTAINER_VECTOR_ITERATOR_IS_POINTER
Chris@101 85 typedef Pointer iterator;
Chris@16 86 typedef typename boost::intrusive::
Chris@101 87 pointer_traits<Pointer>::element_type iterator_element_type;
Chris@16 88 typedef typename boost::intrusive::
Chris@16 89 pointer_traits<Pointer>:: template
Chris@101 90 rebind_pointer<const iterator_element_type>::type const_iterator;
Chris@16 91 #else //BOOST_CONTAINER_VECTOR_ITERATOR_IS_POINTER
Chris@101 92 typedef typename boost::container::container_detail::
Chris@101 93 vec_iterator<Pointer, false> iterator;
Chris@101 94 typedef typename boost::container::container_detail::
Chris@101 95 vec_iterator<Pointer, true > const_iterator;
Chris@16 96 #endif //BOOST_CONTAINER_VECTOR_ITERATOR_IS_POINTER
Chris@101 97 typedef boost::container::reverse_iterator<iterator> reverse_iterator;
Chris@101 98 typedef boost::container::reverse_iterator<const_iterator> const_reverse_iterator;
Chris@16 99 };
Chris@16 100
Chris@16 101 template <class Key, class Value, class KeyOfValue,
Chris@101 102 class Compare, class Allocator>
Chris@16 103 class flat_tree
Chris@16 104 {
Chris@101 105 typedef boost::container::vector<Value, Allocator> vector_t;
Chris@101 106 typedef Allocator allocator_t;
Chris@101 107 typedef allocator_traits<Allocator> allocator_traits_type;
Chris@16 108
Chris@16 109 public:
Chris@16 110 typedef flat_tree_value_compare<Compare, Value, KeyOfValue> value_compare;
Chris@16 111
Chris@16 112 private:
Chris@16 113 struct Data
Chris@16 114 //Inherit from value_compare to do EBO
Chris@16 115 : public value_compare
Chris@16 116 {
Chris@16 117 BOOST_COPYABLE_AND_MOVABLE(Data)
Chris@16 118
Chris@16 119 public:
Chris@16 120 Data()
Chris@16 121 : value_compare(), m_vect()
Chris@16 122 {}
Chris@16 123
Chris@16 124 explicit Data(const Data &d)
Chris@16 125 : value_compare(static_cast<const value_compare&>(d)), m_vect(d.m_vect)
Chris@16 126 {}
Chris@16 127
Chris@16 128 Data(BOOST_RV_REF(Data) d)
Chris@16 129 : value_compare(boost::move(static_cast<value_compare&>(d))), m_vect(boost::move(d.m_vect))
Chris@16 130 {}
Chris@16 131
Chris@101 132 Data(const Data &d, const Allocator &a)
Chris@16 133 : value_compare(static_cast<const value_compare&>(d)), m_vect(d.m_vect, a)
Chris@16 134 {}
Chris@16 135
Chris@101 136 Data(BOOST_RV_REF(Data) d, const Allocator &a)
Chris@16 137 : value_compare(boost::move(static_cast<value_compare&>(d))), m_vect(boost::move(d.m_vect), a)
Chris@16 138 {}
Chris@16 139
Chris@16 140 explicit Data(const Compare &comp)
Chris@16 141 : value_compare(comp), m_vect()
Chris@16 142 {}
Chris@16 143
Chris@16 144 Data(const Compare &comp, const allocator_t &alloc)
Chris@16 145 : value_compare(comp), m_vect(alloc)
Chris@16 146 {}
Chris@16 147
Chris@16 148 explicit Data(const allocator_t &alloc)
Chris@16 149 : value_compare(), m_vect(alloc)
Chris@16 150 {}
Chris@16 151
Chris@16 152 Data& operator=(BOOST_COPY_ASSIGN_REF(Data) d)
Chris@16 153 {
Chris@16 154 this->value_compare::operator=(d);
Chris@16 155 m_vect = d.m_vect;
Chris@16 156 return *this;
Chris@16 157 }
Chris@16 158
Chris@16 159 Data& operator=(BOOST_RV_REF(Data) d)
Chris@16 160 {
Chris@16 161 this->value_compare::operator=(boost::move(static_cast<value_compare &>(d)));
Chris@16 162 m_vect = boost::move(d.m_vect);
Chris@16 163 return *this;
Chris@16 164 }
Chris@16 165
Chris@16 166 void swap(Data &d)
Chris@16 167 {
Chris@16 168 value_compare& mycomp = *this, & othercomp = d;
Chris@101 169 boost::adl_move_swap(mycomp, othercomp);
Chris@16 170 this->m_vect.swap(d.m_vect);
Chris@16 171 }
Chris@16 172
Chris@16 173 vector_t m_vect;
Chris@16 174 };
Chris@16 175
Chris@16 176 Data m_data;
Chris@16 177 BOOST_COPYABLE_AND_MOVABLE(flat_tree)
Chris@16 178
Chris@16 179 public:
Chris@16 180
Chris@16 181 typedef typename vector_t::value_type value_type;
Chris@16 182 typedef typename vector_t::pointer pointer;
Chris@16 183 typedef typename vector_t::const_pointer const_pointer;
Chris@16 184 typedef typename vector_t::reference reference;
Chris@16 185 typedef typename vector_t::const_reference const_reference;
Chris@16 186 typedef Key key_type;
Chris@16 187 typedef Compare key_compare;
Chris@16 188 typedef typename vector_t::allocator_type allocator_type;
Chris@16 189 typedef typename vector_t::size_type size_type;
Chris@16 190 typedef typename vector_t::difference_type difference_type;
Chris@16 191 typedef typename vector_t::iterator iterator;
Chris@16 192 typedef typename vector_t::const_iterator const_iterator;
Chris@16 193 typedef typename vector_t::reverse_iterator reverse_iterator;
Chris@16 194 typedef typename vector_t::const_reverse_iterator const_reverse_iterator;
Chris@16 195
Chris@16 196 //!Standard extension
Chris@16 197 typedef allocator_type stored_allocator_type;
Chris@16 198
Chris@16 199 private:
Chris@16 200 typedef allocator_traits<stored_allocator_type> stored_allocator_traits;
Chris@16 201
Chris@16 202 public:
Chris@16 203 flat_tree()
Chris@16 204 : m_data()
Chris@16 205 { }
Chris@16 206
Chris@16 207 explicit flat_tree(const Compare& comp)
Chris@16 208 : m_data(comp)
Chris@16 209 { }
Chris@16 210
Chris@16 211 flat_tree(const Compare& comp, const allocator_type& a)
Chris@16 212 : m_data(comp, a)
Chris@16 213 { }
Chris@16 214
Chris@16 215 explicit flat_tree(const allocator_type& a)
Chris@16 216 : m_data(a)
Chris@16 217 { }
Chris@16 218
Chris@16 219 flat_tree(const flat_tree& x)
Chris@16 220 : m_data(x.m_data)
Chris@16 221 { }
Chris@16 222
Chris@16 223 flat_tree(BOOST_RV_REF(flat_tree) x)
Chris@16 224 : m_data(boost::move(x.m_data))
Chris@16 225 { }
Chris@16 226
Chris@16 227 flat_tree(const flat_tree& x, const allocator_type &a)
Chris@16 228 : m_data(x.m_data, a)
Chris@16 229 { }
Chris@16 230
Chris@16 231 flat_tree(BOOST_RV_REF(flat_tree) x, const allocator_type &a)
Chris@16 232 : m_data(boost::move(x.m_data), a)
Chris@16 233 { }
Chris@16 234
Chris@16 235 template <class InputIterator>
Chris@16 236 flat_tree( ordered_range_t, InputIterator first, InputIterator last
Chris@16 237 , const Compare& comp = Compare()
Chris@16 238 , const allocator_type& a = allocator_type())
Chris@16 239 : m_data(comp, a)
Chris@16 240 { this->m_data.m_vect.insert(this->m_data.m_vect.end(), first, last); }
Chris@16 241
Chris@16 242 template <class InputIterator>
Chris@16 243 flat_tree( bool unique_insertion
Chris@16 244 , InputIterator first, InputIterator last
Chris@16 245 , const Compare& comp = Compare()
Chris@16 246 , const allocator_type& a = allocator_type())
Chris@16 247 : m_data(comp, a)
Chris@16 248 {
Chris@16 249 //Use cend() as hint to achieve linear time for
Chris@16 250 //ordered ranges as required by the standard
Chris@16 251 //for the constructor
Chris@16 252 //Call end() every iteration as reallocation might have invalidated iterators
Chris@16 253 if(unique_insertion){
Chris@16 254 for ( ; first != last; ++first){
Chris@16 255 this->insert_unique(this->cend(), *first);
Chris@16 256 }
Chris@16 257 }
Chris@16 258 else{
Chris@16 259 for ( ; first != last; ++first){
Chris@16 260 this->insert_equal(this->cend(), *first);
Chris@16 261 }
Chris@16 262 }
Chris@16 263 }
Chris@16 264
Chris@16 265 ~flat_tree()
Chris@16 266 {}
Chris@16 267
Chris@16 268 flat_tree& operator=(BOOST_COPY_ASSIGN_REF(flat_tree) x)
Chris@16 269 { m_data = x.m_data; return *this; }
Chris@16 270
Chris@101 271 flat_tree& operator=(BOOST_RV_REF(flat_tree) x)
Chris@101 272 BOOST_NOEXCEPT_IF( allocator_traits_type::is_always_equal::value
Chris@101 273 && boost::container::container_detail::is_nothrow_move_assignable<Compare>::value )
Chris@101 274 { m_data = boost::move(x.m_data); return *this; }
Chris@16 275
Chris@101 276 public:
Chris@16 277 // accessors:
Chris@16 278 Compare key_comp() const
Chris@16 279 { return this->m_data.get_comp(); }
Chris@16 280
Chris@101 281 value_compare value_comp() const
Chris@101 282 { return this->m_data; }
Chris@101 283
Chris@16 284 allocator_type get_allocator() const
Chris@16 285 { return this->m_data.m_vect.get_allocator(); }
Chris@16 286
Chris@16 287 const stored_allocator_type &get_stored_allocator() const
Chris@16 288 { return this->m_data.m_vect.get_stored_allocator(); }
Chris@16 289
Chris@16 290 stored_allocator_type &get_stored_allocator()
Chris@16 291 { return this->m_data.m_vect.get_stored_allocator(); }
Chris@16 292
Chris@16 293 iterator begin()
Chris@16 294 { return this->m_data.m_vect.begin(); }
Chris@16 295
Chris@16 296 const_iterator begin() const
Chris@16 297 { return this->cbegin(); }
Chris@16 298
Chris@16 299 const_iterator cbegin() const
Chris@16 300 { return this->m_data.m_vect.begin(); }
Chris@16 301
Chris@16 302 iterator end()
Chris@16 303 { return this->m_data.m_vect.end(); }
Chris@16 304
Chris@16 305 const_iterator end() const
Chris@16 306 { return this->cend(); }
Chris@16 307
Chris@16 308 const_iterator cend() const
Chris@16 309 { return this->m_data.m_vect.end(); }
Chris@16 310
Chris@16 311 reverse_iterator rbegin()
Chris@16 312 { return reverse_iterator(this->end()); }
Chris@16 313
Chris@16 314 const_reverse_iterator rbegin() const
Chris@16 315 { return this->crbegin(); }
Chris@16 316
Chris@16 317 const_reverse_iterator crbegin() const
Chris@16 318 { return const_reverse_iterator(this->cend()); }
Chris@16 319
Chris@16 320 reverse_iterator rend()
Chris@16 321 { return reverse_iterator(this->begin()); }
Chris@16 322
Chris@16 323 const_reverse_iterator rend() const
Chris@16 324 { return this->crend(); }
Chris@16 325
Chris@16 326 const_reverse_iterator crend() const
Chris@16 327 { return const_reverse_iterator(this->cbegin()); }
Chris@16 328
Chris@16 329 bool empty() const
Chris@16 330 { return this->m_data.m_vect.empty(); }
Chris@16 331
Chris@16 332 size_type size() const
Chris@16 333 { return this->m_data.m_vect.size(); }
Chris@16 334
Chris@16 335 size_type max_size() const
Chris@16 336 { return this->m_data.m_vect.max_size(); }
Chris@16 337
Chris@16 338 void swap(flat_tree& other)
Chris@101 339 BOOST_NOEXCEPT_IF( allocator_traits_type::is_always_equal::value
Chris@101 340 && boost::container::container_detail::is_nothrow_swappable<Compare>::value )
Chris@16 341 { this->m_data.swap(other.m_data); }
Chris@16 342
Chris@16 343 public:
Chris@16 344 // insert/erase
Chris@16 345 std::pair<iterator,bool> insert_unique(const value_type& val)
Chris@16 346 {
Chris@16 347 std::pair<iterator,bool> ret;
Chris@16 348 insert_commit_data data;
Chris@16 349 ret.second = this->priv_insert_unique_prepare(val, data);
Chris@16 350 ret.first = ret.second ? this->priv_insert_commit(data, val)
Chris@16 351 : iterator(vector_iterator_get_ptr(data.position));
Chris@16 352 return ret;
Chris@16 353 }
Chris@16 354
Chris@16 355 std::pair<iterator,bool> insert_unique(BOOST_RV_REF(value_type) val)
Chris@16 356 {
Chris@16 357 std::pair<iterator,bool> ret;
Chris@16 358 insert_commit_data data;
Chris@16 359 ret.second = this->priv_insert_unique_prepare(val, data);
Chris@16 360 ret.first = ret.second ? this->priv_insert_commit(data, boost::move(val))
Chris@16 361 : iterator(vector_iterator_get_ptr(data.position));
Chris@16 362 return ret;
Chris@16 363 }
Chris@16 364
Chris@16 365 iterator insert_equal(const value_type& val)
Chris@16 366 {
Chris@16 367 iterator i = this->upper_bound(KeyOfValue()(val));
Chris@16 368 i = this->m_data.m_vect.insert(i, val);
Chris@16 369 return i;
Chris@16 370 }
Chris@16 371
Chris@16 372 iterator insert_equal(BOOST_RV_REF(value_type) mval)
Chris@16 373 {
Chris@16 374 iterator i = this->upper_bound(KeyOfValue()(mval));
Chris@16 375 i = this->m_data.m_vect.insert(i, boost::move(mval));
Chris@16 376 return i;
Chris@16 377 }
Chris@16 378
Chris@16 379 iterator insert_unique(const_iterator pos, const value_type& val)
Chris@16 380 {
Chris@16 381 std::pair<iterator,bool> ret;
Chris@16 382 insert_commit_data data;
Chris@16 383 return this->priv_insert_unique_prepare(pos, val, data)
Chris@16 384 ? this->priv_insert_commit(data, val)
Chris@16 385 : iterator(vector_iterator_get_ptr(data.position));
Chris@16 386 }
Chris@16 387
Chris@16 388 iterator insert_unique(const_iterator pos, BOOST_RV_REF(value_type) val)
Chris@16 389 {
Chris@16 390 std::pair<iterator,bool> ret;
Chris@16 391 insert_commit_data data;
Chris@16 392 return this->priv_insert_unique_prepare(pos, val, data)
Chris@16 393 ? this->priv_insert_commit(data, boost::move(val))
Chris@16 394 : iterator(vector_iterator_get_ptr(data.position));
Chris@16 395 }
Chris@16 396
Chris@16 397 iterator insert_equal(const_iterator pos, const value_type& val)
Chris@16 398 {
Chris@16 399 insert_commit_data data;
Chris@16 400 this->priv_insert_equal_prepare(pos, val, data);
Chris@16 401 return this->priv_insert_commit(data, val);
Chris@16 402 }
Chris@16 403
Chris@16 404 iterator insert_equal(const_iterator pos, BOOST_RV_REF(value_type) mval)
Chris@16 405 {
Chris@16 406 insert_commit_data data;
Chris@16 407 this->priv_insert_equal_prepare(pos, mval, data);
Chris@16 408 return this->priv_insert_commit(data, boost::move(mval));
Chris@16 409 }
Chris@16 410
Chris@16 411 template <class InIt>
Chris@16 412 void insert_unique(InIt first, InIt last)
Chris@16 413 {
Chris@16 414 for ( ; first != last; ++first){
Chris@16 415 this->insert_unique(*first);
Chris@16 416 }
Chris@16 417 }
Chris@16 418
Chris@16 419 template <class InIt>
Chris@16 420 void insert_equal(InIt first, InIt last
Chris@16 421 #if !defined(BOOST_CONTAINER_DOXYGEN_INVOKED)
Chris@16 422 , typename container_detail::enable_if_c
Chris@16 423 < container_detail::is_input_iterator<InIt>::value
Chris@16 424 >::type * = 0
Chris@16 425 #endif
Chris@16 426 )
Chris@16 427 { this->priv_insert_equal_loop(first, last); }
Chris@16 428
Chris@16 429 template <class InIt>
Chris@16 430 void insert_equal(InIt first, InIt last
Chris@16 431 #if !defined(BOOST_CONTAINER_DOXYGEN_INVOKED)
Chris@16 432 , typename container_detail::enable_if_c
Chris@16 433 < !container_detail::is_input_iterator<InIt>::value
Chris@16 434 >::type * = 0
Chris@16 435 #endif
Chris@16 436 )
Chris@16 437 {
Chris@101 438 const size_type len = static_cast<size_type>(boost::container::iterator_distance(first, last));
Chris@16 439 this->reserve(this->size()+len);
Chris@16 440 this->priv_insert_equal_loop(first, last);
Chris@16 441 }
Chris@16 442
Chris@16 443 //Ordered
Chris@16 444
Chris@16 445 template <class InIt>
Chris@16 446 void insert_equal(ordered_range_t, InIt first, InIt last
Chris@16 447 #if !defined(BOOST_CONTAINER_DOXYGEN_INVOKED)
Chris@16 448 , typename container_detail::enable_if_c
Chris@16 449 < container_detail::is_input_iterator<InIt>::value
Chris@16 450 >::type * = 0
Chris@16 451 #endif
Chris@16 452 )
Chris@16 453 { this->priv_insert_equal_loop_ordered(first, last); }
Chris@16 454
Chris@16 455 template <class FwdIt>
Chris@16 456 void insert_equal(ordered_range_t, FwdIt first, FwdIt last
Chris@16 457 #if !defined(BOOST_CONTAINER_DOXYGEN_INVOKED)
Chris@16 458 , typename container_detail::enable_if_c
Chris@16 459 < !container_detail::is_input_iterator<FwdIt>::value &&
Chris@101 460 container_detail::is_forward_iterator<FwdIt>::value
Chris@16 461 >::type * = 0
Chris@16 462 #endif
Chris@16 463 )
Chris@16 464 {
Chris@101 465 const size_type len = static_cast<size_type>(boost::container::iterator_distance(first, last));
Chris@16 466 this->reserve(this->size()+len);
Chris@16 467 this->priv_insert_equal_loop_ordered(first, last);
Chris@16 468 }
Chris@16 469
Chris@16 470 template <class BidirIt>
Chris@16 471 void insert_equal(ordered_range_t, BidirIt first, BidirIt last
Chris@16 472 #if !defined(BOOST_CONTAINER_DOXYGEN_INVOKED)
Chris@16 473 , typename container_detail::enable_if_c
Chris@16 474 < !container_detail::is_input_iterator<BidirIt>::value &&
Chris@16 475 !container_detail::is_forward_iterator<BidirIt>::value
Chris@16 476 >::type * = 0
Chris@16 477 #endif
Chris@16 478 )
Chris@101 479 { this->priv_insert_ordered_range(false, first, last); }
Chris@16 480
Chris@16 481 template <class InIt>
Chris@16 482 void insert_unique(ordered_unique_range_t, InIt first, InIt last
Chris@16 483 #if !defined(BOOST_CONTAINER_DOXYGEN_INVOKED)
Chris@16 484 , typename container_detail::enable_if_c
Chris@16 485 < container_detail::is_input_iterator<InIt>::value ||
Chris@16 486 container_detail::is_forward_iterator<InIt>::value
Chris@16 487 >::type * = 0
Chris@16 488 #endif
Chris@16 489 )
Chris@16 490 {
Chris@16 491 const_iterator pos(this->cend());
Chris@16 492 for ( ; first != last; ++first){
Chris@16 493 pos = this->insert_unique(pos, *first);
Chris@16 494 ++pos;
Chris@16 495 }
Chris@16 496 }
Chris@16 497
Chris@16 498 template <class BidirIt>
Chris@16 499 void insert_unique(ordered_unique_range_t, BidirIt first, BidirIt last
Chris@16 500 #if !defined(BOOST_CONTAINER_DOXYGEN_INVOKED)
Chris@16 501 , typename container_detail::enable_if_c
Chris@16 502 < !(container_detail::is_input_iterator<BidirIt>::value ||
Chris@16 503 container_detail::is_forward_iterator<BidirIt>::value)
Chris@16 504 >::type * = 0
Chris@16 505 #endif
Chris@16 506 )
Chris@101 507 { this->priv_insert_ordered_range(true, first, last); }
Chris@16 508
Chris@101 509 #if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
Chris@16 510
Chris@16 511 template <class... Args>
Chris@101 512 std::pair<iterator, bool> emplace_unique(BOOST_FWD_REF(Args)... args)
Chris@16 513 {
Chris@101 514 typename aligned_storage<sizeof(value_type), alignment_of<value_type>::value>::type v;
Chris@16 515 value_type &val = *static_cast<value_type *>(static_cast<void *>(&v));
Chris@16 516 stored_allocator_type &a = this->get_stored_allocator();
Chris@16 517 stored_allocator_traits::construct(a, &val, ::boost::forward<Args>(args)... );
Chris@16 518 value_destructor<stored_allocator_type> d(a, val);
Chris@16 519 return this->insert_unique(::boost::move(val));
Chris@16 520 }
Chris@16 521
Chris@16 522 template <class... Args>
Chris@101 523 iterator emplace_hint_unique(const_iterator hint, BOOST_FWD_REF(Args)... args)
Chris@16 524 {
Chris@101 525 typename aligned_storage<sizeof(value_type), alignment_of<value_type>::value>::type v;
Chris@16 526 value_type &val = *static_cast<value_type *>(static_cast<void *>(&v));
Chris@16 527 stored_allocator_type &a = this->get_stored_allocator();
Chris@16 528 stored_allocator_traits::construct(a, &val, ::boost::forward<Args>(args)... );
Chris@16 529 value_destructor<stored_allocator_type> d(a, val);
Chris@16 530 return this->insert_unique(hint, ::boost::move(val));
Chris@16 531 }
Chris@16 532
Chris@16 533 template <class... Args>
Chris@101 534 iterator emplace_equal(BOOST_FWD_REF(Args)... args)
Chris@16 535 {
Chris@101 536 typename aligned_storage<sizeof(value_type), alignment_of<value_type>::value>::type v;
Chris@16 537 value_type &val = *static_cast<value_type *>(static_cast<void *>(&v));
Chris@16 538 stored_allocator_type &a = this->get_stored_allocator();
Chris@16 539 stored_allocator_traits::construct(a, &val, ::boost::forward<Args>(args)... );
Chris@16 540 value_destructor<stored_allocator_type> d(a, val);
Chris@16 541 return this->insert_equal(::boost::move(val));
Chris@16 542 }
Chris@16 543
Chris@16 544 template <class... Args>
Chris@101 545 iterator emplace_hint_equal(const_iterator hint, BOOST_FWD_REF(Args)... args)
Chris@16 546 {
Chris@101 547 typename aligned_storage<sizeof(value_type), alignment_of<value_type>::value>::type v;
Chris@16 548 value_type &val = *static_cast<value_type *>(static_cast<void *>(&v));
Chris@16 549 stored_allocator_type &a = this->get_stored_allocator();
Chris@16 550 stored_allocator_traits::construct(a, &val, ::boost::forward<Args>(args)... );
Chris@16 551 value_destructor<stored_allocator_type> d(a, val);
Chris@16 552 return this->insert_equal(hint, ::boost::move(val));
Chris@16 553 }
Chris@16 554
Chris@101 555 #else // !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
Chris@16 556
Chris@101 557 #define BOOST_CONTAINER_FLAT_TREE_EMPLACE_CODE(N) \
Chris@101 558 BOOST_MOVE_TMPL_LT##N BOOST_MOVE_CLASS##N BOOST_MOVE_GT##N \
Chris@101 559 std::pair<iterator, bool> emplace_unique(BOOST_MOVE_UREF##N)\
Chris@101 560 {\
Chris@101 561 typename aligned_storage<sizeof(value_type), alignment_of<value_type>::value>::type v;\
Chris@101 562 value_type &val = *static_cast<value_type *>(static_cast<void *>(&v));\
Chris@101 563 stored_allocator_type &a = this->get_stored_allocator();\
Chris@101 564 stored_allocator_traits::construct(a, &val BOOST_MOVE_I##N BOOST_MOVE_FWD##N);\
Chris@101 565 value_destructor<stored_allocator_type> d(a, val);\
Chris@101 566 return this->insert_unique(::boost::move(val));\
Chris@101 567 }\
Chris@101 568 \
Chris@101 569 BOOST_MOVE_TMPL_LT##N BOOST_MOVE_CLASS##N BOOST_MOVE_GT##N \
Chris@101 570 iterator emplace_hint_unique(const_iterator hint BOOST_MOVE_I##N BOOST_MOVE_UREF##N)\
Chris@101 571 {\
Chris@101 572 typename aligned_storage<sizeof(value_type), alignment_of<value_type>::value>::type v;\
Chris@101 573 value_type &val = *static_cast<value_type *>(static_cast<void *>(&v));\
Chris@101 574 stored_allocator_type &a = this->get_stored_allocator();\
Chris@101 575 stored_allocator_traits::construct(a, &val BOOST_MOVE_I##N BOOST_MOVE_FWD##N);\
Chris@101 576 value_destructor<stored_allocator_type> d(a, val);\
Chris@101 577 return this->insert_unique(hint, ::boost::move(val));\
Chris@101 578 }\
Chris@101 579 \
Chris@101 580 BOOST_MOVE_TMPL_LT##N BOOST_MOVE_CLASS##N BOOST_MOVE_GT##N \
Chris@101 581 iterator emplace_equal(BOOST_MOVE_UREF##N)\
Chris@101 582 {\
Chris@101 583 typename aligned_storage<sizeof(value_type), alignment_of<value_type>::value>::type v;\
Chris@101 584 value_type &val = *static_cast<value_type *>(static_cast<void *>(&v));\
Chris@101 585 stored_allocator_type &a = this->get_stored_allocator();\
Chris@101 586 stored_allocator_traits::construct(a, &val BOOST_MOVE_I##N BOOST_MOVE_FWD##N);\
Chris@101 587 value_destructor<stored_allocator_type> d(a, val);\
Chris@101 588 return this->insert_equal(::boost::move(val));\
Chris@101 589 }\
Chris@101 590 \
Chris@101 591 BOOST_MOVE_TMPL_LT##N BOOST_MOVE_CLASS##N BOOST_MOVE_GT##N \
Chris@101 592 iterator emplace_hint_equal(const_iterator hint BOOST_MOVE_I##N BOOST_MOVE_UREF##N)\
Chris@101 593 {\
Chris@101 594 typename aligned_storage <sizeof(value_type), alignment_of<value_type>::value>::type v;\
Chris@101 595 value_type &val = *static_cast<value_type *>(static_cast<void *>(&v));\
Chris@101 596 stored_allocator_type &a = this->get_stored_allocator();\
Chris@101 597 stored_allocator_traits::construct(a, &val BOOST_MOVE_I##N BOOST_MOVE_FWD##N);\
Chris@101 598 value_destructor<stored_allocator_type> d(a, val);\
Chris@101 599 return this->insert_equal(hint, ::boost::move(val));\
Chris@101 600 }\
Chris@101 601 //
Chris@101 602 BOOST_MOVE_ITERATE_0TO9(BOOST_CONTAINER_FLAT_TREE_EMPLACE_CODE)
Chris@101 603 #undef BOOST_CONTAINER_FLAT_TREE_EMPLACE_CODE
Chris@16 604
Chris@101 605 #endif // !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
Chris@16 606
Chris@16 607 iterator erase(const_iterator position)
Chris@16 608 { return this->m_data.m_vect.erase(position); }
Chris@16 609
Chris@16 610 size_type erase(const key_type& k)
Chris@16 611 {
Chris@16 612 std::pair<iterator,iterator > itp = this->equal_range(k);
Chris@16 613 size_type ret = static_cast<size_type>(itp.second-itp.first);
Chris@16 614 if (ret){
Chris@16 615 this->m_data.m_vect.erase(itp.first, itp.second);
Chris@16 616 }
Chris@16 617 return ret;
Chris@16 618 }
Chris@16 619
Chris@16 620 iterator erase(const_iterator first, const_iterator last)
Chris@16 621 { return this->m_data.m_vect.erase(first, last); }
Chris@16 622
Chris@16 623 void clear()
Chris@16 624 { this->m_data.m_vect.clear(); }
Chris@16 625
Chris@16 626 //! <b>Effects</b>: Tries to deallocate the excess of memory created
Chris@16 627 // with previous allocations. The size of the vector is unchanged
Chris@16 628 //!
Chris@16 629 //! <b>Throws</b>: If memory allocation throws, or T's copy constructor throws.
Chris@16 630 //!
Chris@16 631 //! <b>Complexity</b>: Linear to size().
Chris@16 632 void shrink_to_fit()
Chris@16 633 { this->m_data.m_vect.shrink_to_fit(); }
Chris@16 634
Chris@101 635 iterator nth(size_type n) BOOST_NOEXCEPT_OR_NOTHROW
Chris@101 636 { return this->m_data.m_vect.nth(n); }
Chris@101 637
Chris@101 638 const_iterator nth(size_type n) const BOOST_NOEXCEPT_OR_NOTHROW
Chris@101 639 { return this->m_data.m_vect.nth(n); }
Chris@101 640
Chris@101 641 size_type index_of(iterator p) BOOST_NOEXCEPT_OR_NOTHROW
Chris@101 642 { return this->m_data.m_vect.index_of(p); }
Chris@101 643
Chris@101 644 size_type index_of(const_iterator p) const BOOST_NOEXCEPT_OR_NOTHROW
Chris@101 645 { return this->m_data.m_vect.index_of(p); }
Chris@101 646
Chris@16 647 // set operations:
Chris@16 648 iterator find(const key_type& k)
Chris@16 649 {
Chris@16 650 iterator i = this->lower_bound(k);
Chris@16 651 iterator end_it = this->end();
Chris@101 652 if (i != end_it && this->m_data.get_comp()(k, KeyOfValue()(*i))){
Chris@101 653 i = end_it;
Chris@16 654 }
Chris@16 655 return i;
Chris@16 656 }
Chris@16 657
Chris@16 658 const_iterator find(const key_type& k) const
Chris@16 659 {
Chris@16 660 const_iterator i = this->lower_bound(k);
Chris@16 661
Chris@16 662 const_iterator end_it = this->cend();
Chris@101 663 if (i != end_it && this->m_data.get_comp()(k, KeyOfValue()(*i))){
Chris@16 664 i = end_it;
Chris@16 665 }
Chris@16 666 return i;
Chris@16 667 }
Chris@16 668
Chris@101 669 // set operations:
Chris@16 670 size_type count(const key_type& k) const
Chris@16 671 {
Chris@16 672 std::pair<const_iterator, const_iterator> p = this->equal_range(k);
Chris@16 673 size_type n = p.second - p.first;
Chris@16 674 return n;
Chris@16 675 }
Chris@16 676
Chris@16 677 iterator lower_bound(const key_type& k)
Chris@16 678 { return this->priv_lower_bound(this->begin(), this->end(), k); }
Chris@16 679
Chris@16 680 const_iterator lower_bound(const key_type& k) const
Chris@16 681 { return this->priv_lower_bound(this->cbegin(), this->cend(), k); }
Chris@16 682
Chris@16 683 iterator upper_bound(const key_type& k)
Chris@16 684 { return this->priv_upper_bound(this->begin(), this->end(), k); }
Chris@16 685
Chris@16 686 const_iterator upper_bound(const key_type& k) const
Chris@16 687 { return this->priv_upper_bound(this->cbegin(), this->cend(), k); }
Chris@16 688
Chris@16 689 std::pair<iterator,iterator> equal_range(const key_type& k)
Chris@16 690 { return this->priv_equal_range(this->begin(), this->end(), k); }
Chris@16 691
Chris@16 692 std::pair<const_iterator, const_iterator> equal_range(const key_type& k) const
Chris@16 693 { return this->priv_equal_range(this->cbegin(), this->cend(), k); }
Chris@16 694
Chris@101 695 std::pair<iterator, iterator> lower_bound_range(const key_type& k)
Chris@101 696 { return this->priv_lower_bound_range(this->begin(), this->end(), k); }
Chris@101 697
Chris@101 698 std::pair<const_iterator, const_iterator> lower_bound_range(const key_type& k) const
Chris@101 699 { return this->priv_lower_bound_range(this->cbegin(), this->cend(), k); }
Chris@101 700
Chris@101 701 size_type capacity() const
Chris@16 702 { return this->m_data.m_vect.capacity(); }
Chris@16 703
Chris@101 704 void reserve(size_type cnt)
Chris@16 705 { this->m_data.m_vect.reserve(cnt); }
Chris@16 706
Chris@101 707 friend bool operator==(const flat_tree& x, const flat_tree& y)
Chris@101 708 {
Chris@101 709 return x.size() == y.size() && ::boost::container::algo_equal(x.begin(), x.end(), y.begin());
Chris@101 710 }
Chris@101 711
Chris@101 712 friend bool operator<(const flat_tree& x, const flat_tree& y)
Chris@101 713 {
Chris@101 714 return ::boost::container::algo_lexicographical_compare(x.begin(), x.end(), y.begin(), y.end());
Chris@101 715 }
Chris@101 716
Chris@101 717 friend bool operator!=(const flat_tree& x, const flat_tree& y)
Chris@101 718 { return !(x == y); }
Chris@101 719
Chris@101 720 friend bool operator>(const flat_tree& x, const flat_tree& y)
Chris@101 721 { return y < x; }
Chris@101 722
Chris@101 723 friend bool operator<=(const flat_tree& x, const flat_tree& y)
Chris@101 724 { return !(y < x); }
Chris@101 725
Chris@101 726 friend bool operator>=(const flat_tree& x, const flat_tree& y)
Chris@101 727 { return !(x < y); }
Chris@101 728
Chris@101 729 friend void swap(flat_tree& x, flat_tree& y)
Chris@101 730 { x.swap(y); }
Chris@101 731
Chris@16 732 private:
Chris@16 733 struct insert_commit_data
Chris@16 734 {
Chris@16 735 const_iterator position;
Chris@16 736 };
Chris@16 737
Chris@16 738 // insert/erase
Chris@16 739 void priv_insert_equal_prepare
Chris@16 740 (const_iterator pos, const value_type& val, insert_commit_data &data)
Chris@16 741 {
Chris@16 742 // N1780
Chris@16 743 // To insert val at pos:
Chris@16 744 // if pos == end || val <= *pos
Chris@16 745 // if pos == begin || val >= *(pos-1)
Chris@16 746 // insert val before pos
Chris@16 747 // else
Chris@16 748 // insert val before upper_bound(val)
Chris@16 749 // else
Chris@16 750 // insert val before lower_bound(val)
Chris@101 751 const value_compare &val_cmp = this->m_data;
Chris@16 752
Chris@101 753 if(pos == this->cend() || !val_cmp(*pos, val)){
Chris@101 754 if (pos == this->cbegin() || !val_cmp(val, pos[-1])){
Chris@16 755 data.position = pos;
Chris@16 756 }
Chris@16 757 else{
Chris@16 758 data.position =
Chris@16 759 this->priv_upper_bound(this->cbegin(), pos, KeyOfValue()(val));
Chris@16 760 }
Chris@16 761 }
Chris@16 762 else{
Chris@16 763 data.position =
Chris@16 764 this->priv_lower_bound(pos, this->cend(), KeyOfValue()(val));
Chris@16 765 }
Chris@16 766 }
Chris@16 767
Chris@16 768 bool priv_insert_unique_prepare
Chris@16 769 (const_iterator b, const_iterator e, const value_type& val, insert_commit_data &commit_data)
Chris@16 770 {
Chris@101 771 const value_compare &val_cmp = this->m_data;
Chris@16 772 commit_data.position = this->priv_lower_bound(b, e, KeyOfValue()(val));
Chris@101 773 return commit_data.position == e || val_cmp(val, *commit_data.position);
Chris@16 774 }
Chris@16 775
Chris@16 776 bool priv_insert_unique_prepare
Chris@16 777 (const value_type& val, insert_commit_data &commit_data)
Chris@16 778 { return this->priv_insert_unique_prepare(this->cbegin(), this->cend(), val, commit_data); }
Chris@16 779
Chris@16 780 bool priv_insert_unique_prepare
Chris@16 781 (const_iterator pos, const value_type& val, insert_commit_data &commit_data)
Chris@16 782 {
Chris@16 783 //N1780. Props to Howard Hinnant!
Chris@16 784 //To insert val at pos:
Chris@16 785 //if pos == end || val <= *pos
Chris@16 786 // if pos == begin || val >= *(pos-1)
Chris@16 787 // insert val before pos
Chris@16 788 // else
Chris@16 789 // insert val before upper_bound(val)
Chris@16 790 //else if pos+1 == end || val <= *(pos+1)
Chris@16 791 // insert val after pos
Chris@16 792 //else
Chris@16 793 // insert val before lower_bound(val)
Chris@101 794 const value_compare &val_cmp = this->m_data;
Chris@16 795 const const_iterator cend_it = this->cend();
Chris@101 796 if(pos == cend_it || val_cmp(val, *pos)){ //Check if val should go before end
Chris@16 797 const const_iterator cbeg = this->cbegin();
Chris@16 798 commit_data.position = pos;
Chris@16 799 if(pos == cbeg){ //If container is empty then insert it in the beginning
Chris@16 800 return true;
Chris@16 801 }
Chris@16 802 const_iterator prev(pos);
Chris@16 803 --prev;
Chris@101 804 if(val_cmp(*prev, val)){ //If previous element was less, then it should go between prev and pos
Chris@16 805 return true;
Chris@16 806 }
Chris@101 807 else if(!val_cmp(val, *prev)){ //If previous was equal then insertion should fail
Chris@16 808 commit_data.position = prev;
Chris@16 809 return false;
Chris@16 810 }
Chris@16 811 else{ //Previous was bigger so insertion hint was pointless, dispatch to hintless insertion
Chris@16 812 //but reduce the search between beg and prev as prev is bigger than val
Chris@16 813 return this->priv_insert_unique_prepare(cbeg, prev, val, commit_data);
Chris@16 814 }
Chris@16 815 }
Chris@16 816 else{
Chris@16 817 //The hint is before the insertion position, so insert it
Chris@16 818 //in the remaining range [pos, end)
Chris@16 819 return this->priv_insert_unique_prepare(pos, cend_it, val, commit_data);
Chris@16 820 }
Chris@16 821 }
Chris@16 822
Chris@16 823 template<class Convertible>
Chris@16 824 iterator priv_insert_commit
Chris@16 825 (insert_commit_data &commit_data, BOOST_FWD_REF(Convertible) convertible)
Chris@16 826 {
Chris@16 827 return this->m_data.m_vect.insert
Chris@16 828 ( commit_data.position
Chris@16 829 , boost::forward<Convertible>(convertible));
Chris@16 830 }
Chris@16 831
Chris@16 832 template <class RanIt>
Chris@101 833 RanIt priv_lower_bound(RanIt first, const RanIt last,
Chris@16 834 const key_type & key) const
Chris@16 835 {
Chris@16 836 const Compare &key_cmp = this->m_data.get_comp();
Chris@16 837 KeyOfValue key_extract;
Chris@16 838 size_type len = static_cast<size_type>(last - first);
Chris@16 839 RanIt middle;
Chris@16 840
Chris@16 841 while (len) {
Chris@101 842 size_type step = len >> 1;
Chris@16 843 middle = first;
Chris@101 844 middle += step;
Chris@16 845
Chris@16 846 if (key_cmp(key_extract(*middle), key)) {
Chris@101 847 first = ++middle;
Chris@101 848 len -= step + 1;
Chris@16 849 }
Chris@101 850 else{
Chris@101 851 len = step;
Chris@101 852 }
Chris@16 853 }
Chris@16 854 return first;
Chris@16 855 }
Chris@16 856
Chris@16 857 template <class RanIt>
Chris@101 858 RanIt priv_upper_bound(RanIt first, const RanIt last,
Chris@16 859 const key_type & key) const
Chris@16 860 {
Chris@16 861 const Compare &key_cmp = this->m_data.get_comp();
Chris@16 862 KeyOfValue key_extract;
Chris@16 863 size_type len = static_cast<size_type>(last - first);
Chris@16 864 RanIt middle;
Chris@16 865
Chris@16 866 while (len) {
Chris@101 867 size_type step = len >> 1;
Chris@16 868 middle = first;
Chris@101 869 middle += step;
Chris@16 870
Chris@16 871 if (key_cmp(key, key_extract(*middle))) {
Chris@101 872 len = step;
Chris@16 873 }
Chris@16 874 else{
Chris@16 875 first = ++middle;
Chris@101 876 len -= step + 1;
Chris@16 877 }
Chris@16 878 }
Chris@16 879 return first;
Chris@16 880 }
Chris@16 881
Chris@16 882 template <class RanIt>
Chris@16 883 std::pair<RanIt, RanIt>
Chris@16 884 priv_equal_range(RanIt first, RanIt last, const key_type& key) const
Chris@16 885 {
Chris@16 886 const Compare &key_cmp = this->m_data.get_comp();
Chris@16 887 KeyOfValue key_extract;
Chris@16 888 size_type len = static_cast<size_type>(last - first);
Chris@16 889 RanIt middle;
Chris@16 890
Chris@16 891 while (len) {
Chris@101 892 size_type step = len >> 1;
Chris@16 893 middle = first;
Chris@101 894 middle += step;
Chris@16 895
Chris@16 896 if (key_cmp(key_extract(*middle), key)){
Chris@101 897 first = ++middle;
Chris@101 898 len -= step + 1;
Chris@16 899 }
Chris@16 900 else if (key_cmp(key, key_extract(*middle))){
Chris@101 901 len = step;
Chris@16 902 }
Chris@16 903 else {
Chris@16 904 //Middle is equal to key
Chris@16 905 last = first;
Chris@16 906 last += len;
Chris@101 907 return std::pair<RanIt, RanIt>
Chris@101 908 ( this->priv_lower_bound(first, middle, key)
Chris@101 909 , this->priv_upper_bound(++middle, last, key));
Chris@16 910 }
Chris@16 911 }
Chris@16 912 return std::pair<RanIt, RanIt>(first, first);
Chris@16 913 }
Chris@16 914
Chris@101 915 template<class RanIt>
Chris@101 916 std::pair<RanIt, RanIt> priv_lower_bound_range(RanIt first, RanIt last, const key_type& k) const
Chris@101 917 {
Chris@101 918 const Compare &key_cmp = this->m_data.get_comp();
Chris@101 919 KeyOfValue key_extract;
Chris@101 920 RanIt lb(this->priv_lower_bound(first, last, k)), ub(lb);
Chris@101 921 if(lb != last && static_cast<difference_type>(!key_cmp(k, key_extract(*lb)))){
Chris@101 922 ++ub;
Chris@101 923 }
Chris@101 924 return std::pair<RanIt, RanIt>(lb, ub);
Chris@101 925 }
Chris@101 926
Chris@16 927 template<class InIt>
Chris@16 928 void priv_insert_equal_loop(InIt first, InIt last)
Chris@16 929 {
Chris@16 930 for ( ; first != last; ++first){
Chris@16 931 this->insert_equal(*first);
Chris@16 932 }
Chris@16 933 }
Chris@16 934
Chris@16 935 template<class InIt>
Chris@16 936 void priv_insert_equal_loop_ordered(InIt first, InIt last)
Chris@16 937 {
Chris@16 938 const_iterator pos(this->cend());
Chris@16 939 for ( ; first != last; ++first){
Chris@16 940 //If ordered, then try hint version
Chris@16 941 //to achieve constant-time complexity per insertion
Chris@16 942 pos = this->insert_equal(pos, *first);
Chris@16 943 ++pos;
Chris@16 944 }
Chris@16 945 }
Chris@101 946
Chris@101 947 template <class BidirIt>
Chris@101 948 void priv_insert_ordered_range(const bool unique_values, BidirIt first, BidirIt last)
Chris@101 949 {
Chris@101 950 size_type len = static_cast<size_type>(boost::container::iterator_distance(first, last));
Chris@101 951 //Prereserve all memory so that iterators are not invalidated
Chris@101 952 this->reserve(this->size()+len);
Chris@101 953 //Auxiliary data for insertion positions.
Chris@101 954 const size_type BurstSize = len;
Chris@101 955 const ::boost::movelib::unique_ptr<size_type[]> positions =
Chris@101 956 ::boost::movelib::make_unique_definit<size_type[]>(BurstSize);
Chris@101 957
Chris@101 958 const const_iterator b(this->cbegin());
Chris@101 959 const const_iterator ce(this->cend());
Chris@101 960 const_iterator pos(b);
Chris@101 961 const value_compare &val_cmp = this->m_data;
Chris@101 962 //Loop in burst sizes
Chris@101 963 bool back_insert = false;
Chris@101 964 while(len && !back_insert){
Chris@101 965 const size_type burst = len < BurstSize ? len : BurstSize;
Chris@101 966 size_type unique_burst = 0u;
Chris@101 967 size_type checked = 0;
Chris@101 968 for(; checked != burst; ++checked){
Chris@101 969 //Get the insertion position for each key, use iterator_traits<BidirIt>::value_type
Chris@101 970 //because it can be different from container::value_type
Chris@101 971 //(e.g. conversion between std::pair<T1, T2> -> boost::container::pair<T1, T2>
Chris@101 972 const typename boost::container::iterator_traits<BidirIt>::value_type & val = *first;
Chris@101 973 pos = const_cast<const flat_tree&>(*this).priv_lower_bound(pos, ce, KeyOfValue()(val));
Chris@101 974 //Check if already present
Chris@101 975 if (pos != ce){
Chris@101 976 ++first;
Chris@101 977 --len;
Chris@101 978 positions[checked] = (unique_values && !val_cmp(val, *pos)) ?
Chris@101 979 size_type(-1) : (++unique_burst, static_cast<size_type>(pos - b));
Chris@101 980 }
Chris@101 981 else{ //this element and the remaining should be back inserted
Chris@101 982 back_insert = true;
Chris@101 983 break;
Chris@101 984 }
Chris@101 985 }
Chris@101 986 if(unique_burst){
Chris@101 987 //Insert all in a single step in the precalculated positions
Chris@101 988 this->m_data.m_vect.insert_ordered_at(unique_burst, positions.get() + checked, first);
Chris@101 989 //Next search position updated, iterator still valid because we've preserved the vector
Chris@101 990 pos += unique_burst;
Chris@101 991 }
Chris@101 992 }
Chris@101 993 //The remaining range should be back inserted
Chris@101 994 if(unique_values){
Chris@101 995 while(len--){
Chris@101 996 BidirIt next(first);
Chris@101 997 ++next;
Chris@101 998 //Use iterator_traits<BidirIt>::value_type
Chris@101 999 //because it can be different from container::value_type
Chris@101 1000 //(e.g. conversion between std::pair<T1, T2> -> boost::container::pair<T1, T2>
Chris@101 1001 const typename boost::container::iterator_traits<BidirIt>::value_type & val = *first;
Chris@101 1002 if (next == last || val_cmp(val, *next)){
Chris@101 1003 const bool room = this->m_data.m_vect.stable_emplace_back(*first);
Chris@101 1004 (void)room;
Chris@101 1005 BOOST_ASSERT(room);
Chris@101 1006 }
Chris@101 1007 first = next;
Chris@101 1008 }
Chris@101 1009 BOOST_ASSERT(first == last);
Chris@101 1010 }
Chris@101 1011 else{
Chris@101 1012 BOOST_ASSERT(size_type(boost::container::iterator_distance(first, last)) == len);
Chris@101 1013 if(len)
Chris@101 1014 this->m_data.m_vect.insert(this->m_data.m_vect.cend(), len, first, last);
Chris@101 1015 }
Chris@101 1016 }
Chris@16 1017 };
Chris@16 1018
Chris@16 1019 } //namespace container_detail {
Chris@16 1020
Chris@16 1021 } //namespace container {
Chris@101 1022
Chris@16 1023 //!has_trivial_destructor_after_move<> == true_type
Chris@16 1024 //!specialization for optimizations
Chris@101 1025 template <class Key, class T, class KeyOfValue,
Chris@101 1026 class Compare, class Allocator>
Chris@101 1027 struct has_trivial_destructor_after_move<boost::container::container_detail::flat_tree<Key, T, KeyOfValue, Compare, Allocator> >
Chris@16 1028 {
Chris@101 1029 typedef typename ::boost::container::allocator_traits<Allocator>::pointer pointer;
Chris@101 1030 static const bool value = ::boost::has_trivial_destructor_after_move<Allocator>::value &&
Chris@101 1031 ::boost::has_trivial_destructor_after_move<pointer>::value;
Chris@16 1032 };
Chris@101 1033
Chris@16 1034 } //namespace boost {
Chris@16 1035
Chris@16 1036 #include <boost/container/detail/config_end.hpp>
Chris@16 1037
Chris@16 1038 #endif // BOOST_CONTAINER_FLAT_TREE_HPP