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annotate DEPENDENCIES/generic/include/boost/ptr_container/ptr_sequence_adapter.hpp @ 125:34e428693f5d vext

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Vext -> Repoint
author Chris Cannam
date Thu, 14 Jun 2018 11:15:39 +0100
parents 2665513ce2d3
children
rev   line source
Chris@16 1 //
Chris@16 2 // Boost.Pointer Container
Chris@16 3 //
Chris@16 4 // Copyright Thorsten Ottosen 2003-2005. Use, modification and
Chris@16 5 // distribution is subject to the Boost Software License, Version
Chris@16 6 // 1.0. (See accompanying file LICENSE_1_0.txt or copy at
Chris@16 7 // http://www.boost.org/LICENSE_1_0.txt)
Chris@16 8 //
Chris@16 9 // For more information, see http://www.boost.org/libs/ptr_container/
Chris@16 10 //
Chris@16 11
Chris@16 12 #ifndef BOOST_PTR_CONTAINER_PTR_SEQUENCE_ADAPTER_HPP
Chris@16 13 #define BOOST_PTR_CONTAINER_PTR_SEQUENCE_ADAPTER_HPP
Chris@16 14
Chris@16 15 #if defined(_MSC_VER) && (_MSC_VER >= 1200)
Chris@16 16 # pragma once
Chris@16 17 #endif
Chris@16 18
Chris@16 19
Chris@16 20 #include <boost/ptr_container/detail/reversible_ptr_container.hpp>
Chris@16 21 #include <boost/ptr_container/indirect_fun.hpp>
Chris@16 22 #include <boost/ptr_container/detail/void_ptr_iterator.hpp>
Chris@16 23 #include <boost/type_traits/remove_pointer.hpp>
Chris@16 24 #include <boost/type_traits/is_same.hpp>
Chris@16 25
Chris@16 26
Chris@16 27 namespace boost
Chris@16 28 {
Chris@16 29 namespace ptr_container_detail
Chris@16 30 {
Chris@16 31 template
Chris@16 32 <
Chris@16 33 class T,
Chris@16 34 class VoidPtrSeq
Chris@16 35 >
Chris@16 36 struct sequence_config
Chris@16 37 {
Chris@16 38 typedef BOOST_DEDUCED_TYPENAME remove_nullable<T>::type
Chris@16 39 U;
Chris@16 40 typedef VoidPtrSeq
Chris@16 41 void_container_type;
Chris@16 42
Chris@16 43 typedef BOOST_DEDUCED_TYPENAME VoidPtrSeq::allocator_type
Chris@16 44 allocator_type;
Chris@16 45
Chris@16 46 typedef U value_type;
Chris@16 47
Chris@16 48 typedef void_ptr_iterator<
Chris@16 49 BOOST_DEDUCED_TYPENAME VoidPtrSeq::iterator, U >
Chris@16 50 iterator;
Chris@16 51
Chris@16 52 typedef void_ptr_iterator<
Chris@16 53 BOOST_DEDUCED_TYPENAME VoidPtrSeq::const_iterator, const U >
Chris@16 54 const_iterator;
Chris@16 55
Chris@16 56 #if defined(BOOST_NO_SFINAE) || defined(BOOST_NO_FUNCTION_TEMPLATE_ORDERING)
Chris@16 57
Chris@16 58 template< class Iter >
Chris@16 59 static U* get_pointer( Iter i )
Chris@16 60 {
Chris@16 61 return static_cast<U*>( *i.base() );
Chris@16 62 }
Chris@16 63
Chris@16 64 #else
Chris@16 65 template< class Iter >
Chris@16 66 static U* get_pointer( void_ptr_iterator<Iter,U> i )
Chris@16 67 {
Chris@16 68 return static_cast<U*>( *i.base() );
Chris@16 69 }
Chris@16 70
Chris@16 71 template< class Iter >
Chris@16 72 static U* get_pointer( Iter i )
Chris@16 73 {
Chris@16 74 return &*i;
Chris@16 75 }
Chris@16 76 #endif
Chris@16 77
Chris@16 78 #if defined(BOOST_NO_SFINAE) && !BOOST_WORKAROUND(__MWERKS__, <= 0x3003)
Chris@16 79
Chris@16 80 template< class Iter >
Chris@16 81 static const U* get_const_pointer( Iter i )
Chris@16 82 {
Chris@16 83 return static_cast<const U*>( *i.base() );
Chris@16 84 }
Chris@16 85
Chris@16 86 #else // BOOST_NO_SFINAE
Chris@16 87
Chris@16 88 #if BOOST_WORKAROUND(__MWERKS__, <= 0x3003)
Chris@16 89 template< class Iter >
Chris@16 90 static const U* get_const_pointer( void_ptr_iterator<Iter,U> i )
Chris@16 91 {
Chris@16 92 return static_cast<const U*>( *i.base() );
Chris@16 93 }
Chris@16 94 #else // BOOST_WORKAROUND
Chris@16 95 template< class Iter >
Chris@16 96 static const U* get_const_pointer( void_ptr_iterator<Iter,const U> i )
Chris@16 97 {
Chris@16 98 return static_cast<const U*>( *i.base() );
Chris@16 99 }
Chris@16 100 #endif // BOOST_WORKAROUND
Chris@16 101
Chris@16 102 template< class Iter >
Chris@16 103 static const U* get_const_pointer( Iter i )
Chris@16 104 {
Chris@16 105 return &*i;
Chris@16 106 }
Chris@16 107 #endif // BOOST_NO_SFINAE
Chris@16 108
Chris@16 109 BOOST_STATIC_CONSTANT(bool, allow_null = boost::is_nullable<T>::value );
Chris@16 110 };
Chris@16 111
Chris@16 112 } // ptr_container_detail
Chris@16 113
Chris@16 114
Chris@16 115 template< class Iterator, class T >
Chris@16 116 inline bool is_null( void_ptr_iterator<Iterator,T> i )
Chris@16 117 {
Chris@16 118 return *i.base() == 0;
Chris@16 119 }
Chris@16 120
Chris@16 121
Chris@16 122
Chris@16 123 template
Chris@16 124 <
Chris@16 125 class T,
Chris@16 126 class VoidPtrSeq,
Chris@16 127 class CloneAllocator = heap_clone_allocator
Chris@16 128 >
Chris@16 129 class ptr_sequence_adapter : public
Chris@16 130 ptr_container_detail::reversible_ptr_container< ptr_container_detail::sequence_config<T,VoidPtrSeq>,
Chris@16 131 CloneAllocator >
Chris@16 132 {
Chris@16 133 typedef ptr_container_detail::reversible_ptr_container< ptr_container_detail::sequence_config<T,VoidPtrSeq>,
Chris@16 134 CloneAllocator >
Chris@16 135 base_type;
Chris@16 136
Chris@16 137 typedef ptr_sequence_adapter<T,VoidPtrSeq,CloneAllocator>
Chris@16 138 this_type;
Chris@16 139
Chris@16 140 protected:
Chris@16 141 typedef BOOST_DEDUCED_TYPENAME base_type::scoped_deleter scoped_deleter;
Chris@16 142
Chris@16 143 public:
Chris@16 144 typedef BOOST_DEDUCED_TYPENAME base_type::value_type value_type;
Chris@16 145 typedef BOOST_DEDUCED_TYPENAME base_type::reference reference;
Chris@16 146 typedef BOOST_DEDUCED_TYPENAME base_type::const_reference
Chris@16 147 const_reference;
Chris@16 148 typedef BOOST_DEDUCED_TYPENAME base_type::auto_type auto_type;
Chris@16 149 typedef BOOST_DEDUCED_TYPENAME base_type::clone_allocator_type
Chris@16 150 clone_allocator_type;
Chris@16 151 typedef BOOST_DEDUCED_TYPENAME base_type::iterator iterator;
Chris@16 152 typedef BOOST_DEDUCED_TYPENAME base_type::size_type size_type;
Chris@16 153 typedef BOOST_DEDUCED_TYPENAME base_type::allocator_type
Chris@16 154 allocator_type;
Chris@16 155
Chris@16 156 ptr_sequence_adapter()
Chris@16 157 { }
Chris@16 158
Chris@16 159 template< class Allocator >
Chris@16 160 explicit ptr_sequence_adapter( const Allocator& a )
Chris@16 161 : base_type( a )
Chris@16 162 { }
Chris@16 163
Chris@16 164 template< class SizeType >
Chris@16 165 ptr_sequence_adapter( SizeType n,
Chris@16 166 ptr_container_detail::fixed_length_sequence_tag tag )
Chris@16 167 : base_type( n, tag )
Chris@16 168 { }
Chris@16 169
Chris@16 170 template< class SizeType, class Allocator >
Chris@16 171 ptr_sequence_adapter( SizeType n, const Allocator& a,
Chris@16 172 ptr_container_detail::fixed_length_sequence_tag tag )
Chris@16 173 : base_type( n, a, tag )
Chris@16 174 { }
Chris@16 175
Chris@16 176 template< class InputIterator >
Chris@16 177 ptr_sequence_adapter( InputIterator first, InputIterator last )
Chris@16 178 : base_type( first, last )
Chris@16 179 { }
Chris@16 180
Chris@16 181 template< class InputIterator, class Allocator >
Chris@16 182 ptr_sequence_adapter( InputIterator first, InputIterator last,
Chris@16 183 const Allocator& a )
Chris@16 184 : base_type( first, last, a )
Chris@16 185 { }
Chris@16 186
Chris@16 187 template< class ForwardIterator >
Chris@16 188 ptr_sequence_adapter( ForwardIterator first,
Chris@16 189 ForwardIterator last,
Chris@16 190 ptr_container_detail::fixed_length_sequence_tag tag )
Chris@16 191 : base_type( first, last, tag )
Chris@16 192 { }
Chris@16 193
Chris@16 194 template< class SizeType, class ForwardIterator >
Chris@16 195 ptr_sequence_adapter( SizeType n,
Chris@16 196 ForwardIterator first,
Chris@16 197 ForwardIterator last,
Chris@16 198 ptr_container_detail::fixed_length_sequence_tag tag )
Chris@16 199 : base_type( n, first, last, tag )
Chris@16 200 { }
Chris@16 201
Chris@16 202 ptr_sequence_adapter( const ptr_sequence_adapter& r )
Chris@16 203 : base_type( r )
Chris@16 204 { }
Chris@16 205
Chris@16 206 template< class U >
Chris@16 207 ptr_sequence_adapter( const ptr_sequence_adapter<U,VoidPtrSeq,CloneAllocator>& r )
Chris@16 208 : base_type( r )
Chris@16 209 { }
Chris@16 210
Chris@16 211 ptr_sequence_adapter( const ptr_sequence_adapter& r,
Chris@16 212 ptr_container_detail::fixed_length_sequence_tag tag )
Chris@16 213 : base_type( r, tag )
Chris@16 214 { }
Chris@16 215
Chris@16 216 template< class U >
Chris@16 217 ptr_sequence_adapter( const ptr_sequence_adapter<U,VoidPtrSeq,CloneAllocator>& r,
Chris@16 218 ptr_container_detail::fixed_length_sequence_tag tag )
Chris@16 219 : base_type( r, tag )
Chris@16 220 { }
Chris@16 221
Chris@16 222 template< class PtrContainer >
Chris@16 223 explicit ptr_sequence_adapter( std::auto_ptr<PtrContainer> clone )
Chris@16 224 : base_type( clone )
Chris@16 225 { }
Chris@16 226
Chris@16 227 ptr_sequence_adapter& operator=( const ptr_sequence_adapter r )
Chris@16 228 {
Chris@16 229 this->swap( r );
Chris@16 230 return *this;
Chris@16 231 }
Chris@16 232
Chris@16 233 template< class PtrContainer >
Chris@16 234 ptr_sequence_adapter& operator=( std::auto_ptr<PtrContainer> clone )
Chris@16 235 {
Chris@16 236 base_type::operator=( clone );
Chris@16 237 return *this;
Chris@16 238 }
Chris@16 239
Chris@16 240 /////////////////////////////////////////////////////////////
Chris@16 241 // modifiers
Chris@16 242 /////////////////////////////////////////////////////////////
Chris@16 243
Chris@16 244 void push_back( value_type x ) // strong
Chris@16 245 {
Chris@16 246 this->enforce_null_policy( x, "Null pointer in 'push_back()'" );
Chris@16 247
Chris@16 248 auto_type ptr( x ); // notrow
Chris@16 249 this->base().push_back( x ); // strong, commit
Chris@16 250 ptr.release(); // nothrow
Chris@16 251 }
Chris@16 252
Chris@16 253 template< class U >
Chris@16 254 void push_back( std::auto_ptr<U> x )
Chris@16 255 {
Chris@16 256 push_back( x.release() );
Chris@16 257 }
Chris@16 258
Chris@16 259 void push_front( value_type x )
Chris@16 260 {
Chris@16 261 this->enforce_null_policy( x, "Null pointer in 'push_front()'" );
Chris@16 262
Chris@16 263 auto_type ptr( x ); // nothrow
Chris@16 264 this->base().push_front( x ); // strong, commit
Chris@16 265 ptr.release(); // nothrow
Chris@16 266 }
Chris@16 267
Chris@16 268 template< class U >
Chris@16 269 void push_front( std::auto_ptr<U> x )
Chris@16 270 {
Chris@16 271 push_front( x.release() );
Chris@16 272 }
Chris@16 273
Chris@16 274 auto_type pop_back()
Chris@16 275 {
Chris@16 276 BOOST_ASSERT( !this->empty() &&
Chris@16 277 "'pop_back()' on empty container" );
Chris@16 278 auto_type ptr( static_cast<value_type>( this->base().back() ) );
Chris@16 279 // nothrow
Chris@16 280 this->base().pop_back(); // nothrow
Chris@16 281 return ptr_container_detail::move( ptr ); // nothrow
Chris@16 282 }
Chris@16 283
Chris@16 284 auto_type pop_front()
Chris@16 285 {
Chris@16 286 BOOST_ASSERT( !this->empty() &&
Chris@16 287 "'pop_front()' on empty container" );
Chris@16 288 auto_type ptr( static_cast<value_type>( this->base().front() ) );
Chris@16 289 // nothrow
Chris@16 290 this->base().pop_front(); // nothrow
Chris@16 291 return ptr_container_detail::move( ptr );
Chris@16 292 }
Chris@16 293
Chris@16 294 reference front()
Chris@16 295 {
Chris@16 296 BOOST_ASSERT( !this->empty() &&
Chris@16 297 "accessing 'front()' on empty container" );
Chris@16 298
Chris@16 299 BOOST_ASSERT( !::boost::is_null( this->begin() ) );
Chris@16 300 return *this->begin();
Chris@16 301 }
Chris@16 302
Chris@16 303 const_reference front() const
Chris@16 304 {
Chris@16 305 return const_cast<ptr_sequence_adapter*>(this)->front();
Chris@16 306 }
Chris@16 307
Chris@16 308 reference back()
Chris@16 309 {
Chris@16 310 BOOST_ASSERT( !this->empty() &&
Chris@16 311 "accessing 'back()' on empty container" );
Chris@16 312 BOOST_ASSERT( !::boost::is_null( --this->end() ) );
Chris@16 313 return *--this->end();
Chris@16 314 }
Chris@16 315
Chris@16 316 const_reference back() const
Chris@16 317 {
Chris@16 318 return const_cast<ptr_sequence_adapter*>(this)->back();
Chris@16 319 }
Chris@16 320
Chris@16 321 public: // deque/vector inerface
Chris@16 322
Chris@16 323 reference operator[]( size_type n ) // nothrow
Chris@16 324 {
Chris@16 325 BOOST_ASSERT( n < this->size() );
Chris@16 326 BOOST_ASSERT( !this->is_null( n ) );
Chris@16 327 return *static_cast<value_type>( this->base()[n] );
Chris@16 328 }
Chris@16 329
Chris@16 330 const_reference operator[]( size_type n ) const // nothrow
Chris@16 331 {
Chris@16 332 BOOST_ASSERT( n < this->size() );
Chris@16 333 BOOST_ASSERT( !this->is_null( n ) );
Chris@16 334 return *static_cast<value_type>( this->base()[n] );
Chris@16 335 }
Chris@16 336
Chris@16 337 reference at( size_type n )
Chris@16 338 {
Chris@16 339 BOOST_PTR_CONTAINER_THROW_EXCEPTION( n >= this->size(), bad_index,
Chris@16 340 "'at()' out of bounds" );
Chris@16 341 BOOST_ASSERT( !this->is_null( n ) );
Chris@16 342 return (*this)[n];
Chris@16 343 }
Chris@16 344
Chris@16 345 const_reference at( size_type n ) const
Chris@16 346 {
Chris@16 347 BOOST_PTR_CONTAINER_THROW_EXCEPTION( n >= this->size(), bad_index,
Chris@16 348 "'at()' out of bounds" );
Chris@16 349 BOOST_ASSERT( !this->is_null( n ) );
Chris@16 350 return (*this)[n];
Chris@16 351 }
Chris@16 352
Chris@16 353 public: // vector interface
Chris@16 354
Chris@16 355 size_type capacity() const
Chris@16 356 {
Chris@16 357 return this->base().capacity();
Chris@16 358 }
Chris@16 359
Chris@16 360 void reserve( size_type n )
Chris@16 361 {
Chris@16 362 this->base().reserve( n );
Chris@16 363 }
Chris@16 364
Chris@16 365 void reverse()
Chris@16 366 {
Chris@16 367 this->base().reverse();
Chris@16 368 }
Chris@16 369
Chris@16 370 public: // assign, insert, transfer
Chris@16 371
Chris@16 372 // overhead: 1 heap allocation (very cheap compared to cloning)
Chris@16 373 template< class InputIterator >
Chris@16 374 void assign( InputIterator first, InputIterator last ) // strong
Chris@16 375 {
Chris@16 376 base_type temp( first, last );
Chris@16 377 this->swap( temp );
Chris@16 378 }
Chris@16 379
Chris@16 380 template< class Range >
Chris@16 381 void assign( const Range& r ) // strong
Chris@16 382 {
Chris@16 383 assign( boost::begin(r), boost::end(r ) );
Chris@16 384 }
Chris@16 385
Chris@16 386 private:
Chris@16 387 template< class I >
Chris@16 388 void insert_impl( iterator before, I first, I last, std::input_iterator_tag ) // strong
Chris@16 389 {
Chris@16 390 ptr_sequence_adapter temp(first,last); // strong
Chris@16 391 transfer( before, temp ); // strong, commit
Chris@16 392 }
Chris@16 393
Chris@16 394 template< class I >
Chris@16 395 void insert_impl( iterator before, I first, I last, std::forward_iterator_tag ) // strong
Chris@16 396 {
Chris@16 397 if( first == last )
Chris@16 398 return;
Chris@16 399 scoped_deleter sd( first, last ); // strong
Chris@16 400 this->insert_clones_and_release( sd, before ); // strong, commit
Chris@16 401 }
Chris@16 402
Chris@16 403 public:
Chris@16 404
Chris@16 405 using base_type::insert;
Chris@16 406
Chris@16 407 template< class InputIterator >
Chris@16 408 void insert( iterator before, InputIterator first, InputIterator last ) // strong
Chris@16 409 {
Chris@16 410 insert_impl( before, first, last, BOOST_DEDUCED_TYPENAME
Chris@16 411 iterator_category<InputIterator>::type() );
Chris@16 412 }
Chris@16 413
Chris@16 414 #if defined(BOOST_NO_SFINAE) || defined(BOOST_NO_FUNCTION_TEMPLATE_ORDERING)
Chris@16 415 #else
Chris@16 416 template< class Range >
Chris@16 417 BOOST_DEDUCED_TYPENAME
Chris@16 418 boost::disable_if< ptr_container_detail::is_pointer_or_integral<Range> >::type
Chris@16 419 insert( iterator before, const Range& r )
Chris@16 420 {
Chris@16 421 insert( before, boost::begin(r), boost::end(r) );
Chris@16 422 }
Chris@16 423
Chris@16 424 #endif
Chris@16 425
Chris@16 426 template< class PtrSeqAdapter >
Chris@16 427 void transfer( iterator before,
Chris@16 428 BOOST_DEDUCED_TYPENAME PtrSeqAdapter::iterator first,
Chris@16 429 BOOST_DEDUCED_TYPENAME PtrSeqAdapter::iterator last,
Chris@16 430 PtrSeqAdapter& from ) // strong
Chris@16 431 {
Chris@16 432 BOOST_ASSERT( (void*)&from != (void*)this );
Chris@16 433 if( from.empty() )
Chris@16 434 return;
Chris@16 435 this->base().
Chris@16 436 insert( before.base(), first.base(), last.base() ); // strong
Chris@16 437 from.base().erase( first.base(), last.base() ); // nothrow
Chris@16 438 }
Chris@16 439
Chris@16 440 template< class PtrSeqAdapter >
Chris@16 441 void transfer( iterator before,
Chris@16 442 BOOST_DEDUCED_TYPENAME PtrSeqAdapter::iterator object,
Chris@16 443 PtrSeqAdapter& from ) // strong
Chris@16 444 {
Chris@16 445 BOOST_ASSERT( (void*)&from != (void*)this );
Chris@16 446 if( from.empty() )
Chris@16 447 return;
Chris@16 448 this->base().insert( before.base(), *object.base() ); // strong
Chris@16 449 from.base().erase( object.base() ); // nothrow
Chris@16 450 }
Chris@16 451
Chris@16 452 #if defined(BOOST_NO_SFINAE) || defined(BOOST_NO_FUNCTION_TEMPLATE_ORDERING)
Chris@16 453 #else
Chris@16 454
Chris@16 455 template< class PtrSeqAdapter, class Range >
Chris@16 456 BOOST_DEDUCED_TYPENAME boost::disable_if< boost::is_same< Range,
Chris@16 457 BOOST_DEDUCED_TYPENAME PtrSeqAdapter::iterator > >::type
Chris@16 458 transfer( iterator before, const Range& r, PtrSeqAdapter& from ) // strong
Chris@16 459 {
Chris@16 460 transfer( before, boost::begin(r), boost::end(r), from );
Chris@16 461 }
Chris@16 462
Chris@16 463 #endif
Chris@16 464 template< class PtrSeqAdapter >
Chris@16 465 void transfer( iterator before, PtrSeqAdapter& from ) // strong
Chris@16 466 {
Chris@16 467 BOOST_ASSERT( (void*)&from != (void*)this );
Chris@16 468 if( from.empty() )
Chris@16 469 return;
Chris@16 470 this->base().
Chris@16 471 insert( before.base(),
Chris@16 472 from.begin().base(), from.end().base() ); // strong
Chris@16 473 from.base().clear(); // nothrow
Chris@16 474 }
Chris@16 475
Chris@16 476 public: // C-array support
Chris@16 477
Chris@16 478 void transfer( iterator before, value_type* from,
Chris@16 479 size_type size, bool delete_from = true ) // strong
Chris@16 480 {
Chris@16 481 BOOST_ASSERT( from != 0 );
Chris@16 482 if( delete_from )
Chris@16 483 {
Chris@16 484 BOOST_DEDUCED_TYPENAME base_type::scoped_deleter
Chris@16 485 deleter( from, size ); // nothrow
Chris@16 486 this->base().insert( before.base(), from, from + size ); // strong
Chris@16 487 deleter.release(); // nothrow
Chris@16 488 }
Chris@16 489 else
Chris@16 490 {
Chris@16 491 this->base().insert( before.base(), from, from + size ); // strong
Chris@16 492 }
Chris@16 493 }
Chris@16 494
Chris@16 495 value_type* c_array() // nothrow
Chris@16 496 {
Chris@16 497 if( this->empty() )
Chris@16 498 return 0;
Chris@16 499 T** res = reinterpret_cast<T**>( &this->begin().base()[0] );
Chris@16 500 return res;
Chris@16 501 }
Chris@16 502
Chris@16 503 public: // null functions
Chris@16 504
Chris@16 505 bool is_null( size_type idx ) const
Chris@16 506 {
Chris@16 507 BOOST_ASSERT( idx < this->size() );
Chris@16 508 return this->base()[idx] == 0;
Chris@16 509 }
Chris@16 510
Chris@16 511 public: // resize
Chris@16 512
Chris@16 513 void resize( size_type size ) // basic
Chris@16 514 {
Chris@16 515 size_type old_size = this->size();
Chris@16 516 if( old_size > size )
Chris@16 517 {
Chris@16 518 this->erase( boost::next( this->begin(), size ), this->end() );
Chris@16 519 }
Chris@16 520 else if( size > old_size )
Chris@16 521 {
Chris@16 522 for( ; old_size != size; ++old_size )
Chris@16 523 this->push_back( new BOOST_DEDUCED_TYPENAME
Chris@16 524 boost::remove_pointer<value_type>::type() );
Chris@16 525 }
Chris@16 526
Chris@16 527 BOOST_ASSERT( this->size() == size );
Chris@16 528 }
Chris@16 529
Chris@16 530 void resize( size_type size, value_type to_clone ) // basic
Chris@16 531 {
Chris@16 532 size_type old_size = this->size();
Chris@16 533 if( old_size > size )
Chris@16 534 {
Chris@16 535 this->erase( boost::next( this->begin(), size ), this->end() );
Chris@16 536 }
Chris@16 537 else if( size > old_size )
Chris@16 538 {
Chris@16 539 for( ; old_size != size; ++old_size )
Chris@16 540 this->push_back( this->null_policy_allocate_clone( to_clone ) );
Chris@16 541 }
Chris@16 542
Chris@16 543 BOOST_ASSERT( this->size() == size );
Chris@16 544 }
Chris@16 545
Chris@16 546 void rresize( size_type size ) // basic
Chris@16 547 {
Chris@16 548 size_type old_size = this->size();
Chris@16 549 if( old_size > size )
Chris@16 550 {
Chris@16 551 this->erase( this->begin(),
Chris@16 552 boost::next( this->begin(), old_size - size ) );
Chris@16 553 }
Chris@16 554 else if( size > old_size )
Chris@16 555 {
Chris@16 556 for( ; old_size != size; ++old_size )
Chris@16 557 this->push_front( new BOOST_DEDUCED_TYPENAME
Chris@16 558 boost::remove_pointer<value_type>::type() );
Chris@16 559 }
Chris@16 560
Chris@16 561 BOOST_ASSERT( this->size() == size );
Chris@16 562 }
Chris@16 563
Chris@16 564 void rresize( size_type size, value_type to_clone ) // basic
Chris@16 565 {
Chris@16 566 size_type old_size = this->size();
Chris@16 567 if( old_size > size )
Chris@16 568 {
Chris@16 569 this->erase( this->begin(),
Chris@16 570 boost::next( this->begin(), old_size - size ) );
Chris@16 571 }
Chris@16 572 else if( size > old_size )
Chris@16 573 {
Chris@16 574 for( ; old_size != size; ++old_size )
Chris@16 575 this->push_front( this->null_policy_allocate_clone( to_clone ) );
Chris@16 576 }
Chris@16 577
Chris@16 578 BOOST_ASSERT( this->size() == size );
Chris@16 579 }
Chris@16 580
Chris@16 581 public: // algorithms
Chris@16 582
Chris@16 583 void sort( iterator first, iterator last )
Chris@16 584 {
Chris@16 585 sort( first, last, std::less<T>() );
Chris@16 586 }
Chris@16 587
Chris@16 588 void sort()
Chris@16 589 {
Chris@16 590 sort( this->begin(), this->end() );
Chris@16 591 }
Chris@16 592
Chris@16 593 template< class Compare >
Chris@16 594 void sort( iterator first, iterator last, Compare comp )
Chris@16 595 {
Chris@16 596 BOOST_ASSERT( first <= last && "out of range sort()" );
Chris@16 597 BOOST_ASSERT( this->begin() <= first && "out of range sort()" );
Chris@16 598 BOOST_ASSERT( last <= this->end() && "out of range sort()" );
Chris@16 599 // some static assert on the arguments of the comparison
Chris@16 600 std::sort( first.base(), last.base(),
Chris@16 601 void_ptr_indirect_fun<Compare,T>(comp) );
Chris@16 602 }
Chris@16 603
Chris@16 604 template< class Compare >
Chris@16 605 void sort( Compare comp )
Chris@16 606 {
Chris@16 607 sort( this->begin(), this->end(), comp );
Chris@16 608 }
Chris@16 609
Chris@16 610 void unique( iterator first, iterator last )
Chris@16 611 {
Chris@16 612 unique( first, last, std::equal_to<T>() );
Chris@16 613 }
Chris@16 614
Chris@16 615 void unique()
Chris@16 616 {
Chris@16 617 unique( this->begin(), this->end() );
Chris@16 618 }
Chris@16 619
Chris@16 620 private:
Chris@16 621 struct is_not_zero_ptr
Chris@16 622 {
Chris@16 623 template< class U >
Chris@16 624 bool operator()( const U* r ) const
Chris@16 625 {
Chris@16 626 return r != 0;
Chris@16 627 }
Chris@16 628 };
Chris@16 629
Chris@16 630 protected:
Chris@16 631 template< class Fun, class Arg1 >
Chris@16 632 class void_ptr_delete_if
Chris@16 633 {
Chris@16 634 Fun fun;
Chris@16 635 public:
Chris@16 636
Chris@16 637 void_ptr_delete_if() : fun(Fun())
Chris@16 638 { }
Chris@16 639
Chris@16 640 void_ptr_delete_if( Fun f ) : fun(f)
Chris@16 641 { }
Chris@16 642
Chris@16 643 bool operator()( void* r ) const
Chris@16 644 {
Chris@16 645 BOOST_ASSERT( r != 0 );
Chris@16 646 Arg1 arg1 = static_cast<Arg1>(r);
Chris@16 647 if( fun( *arg1 ) )
Chris@16 648 {
Chris@16 649 clone_allocator_type::deallocate_clone( arg1 );
Chris@16 650 return true;
Chris@16 651 }
Chris@16 652 return false;
Chris@16 653 }
Chris@16 654 };
Chris@16 655
Chris@16 656 private:
Chris@16 657 void compact_and_erase_nulls( iterator first, iterator last ) // nothrow
Chris@16 658 {
Chris@16 659 typename base_type::ptr_iterator p = std::stable_partition(
Chris@16 660 first.base(),
Chris@16 661 last.base(),
Chris@16 662 is_not_zero_ptr() );
Chris@16 663 this->base().erase( p, this->end().base() );
Chris@16 664
Chris@16 665 }
Chris@16 666
Chris@16 667 void range_check_impl( iterator first, iterator last,
Chris@16 668 std::bidirectional_iterator_tag )
Chris@16 669 { /* do nothing */ }
Chris@16 670
Chris@16 671 void range_check_impl( iterator first, iterator last,
Chris@16 672 std::random_access_iterator_tag )
Chris@16 673 {
Chris@16 674 BOOST_ASSERT( first <= last && "out of range unique()/erase_if()" );
Chris@16 675 BOOST_ASSERT( this->begin() <= first && "out of range unique()/erase_if()" );
Chris@16 676 BOOST_ASSERT( last <= this->end() && "out of range unique()/erase_if)(" );
Chris@16 677 }
Chris@16 678
Chris@16 679 void range_check( iterator first, iterator last )
Chris@16 680 {
Chris@16 681 range_check_impl( first, last,
Chris@16 682 BOOST_DEDUCED_TYPENAME iterator_category<iterator>::type() );
Chris@16 683 }
Chris@16 684
Chris@16 685 public:
Chris@16 686
Chris@16 687 template< class Compare >
Chris@16 688 void unique( iterator first, iterator last, Compare comp )
Chris@16 689 {
Chris@16 690 range_check(first,last);
Chris@16 691
Chris@16 692 iterator prev = first;
Chris@16 693 iterator next = first;
Chris@16 694 ++next;
Chris@16 695 for( ; next != last; ++next )
Chris@16 696 {
Chris@16 697 BOOST_ASSERT( !::boost::is_null(prev) );
Chris@16 698 BOOST_ASSERT( !::boost::is_null(next) );
Chris@16 699 if( comp( *prev, *next ) )
Chris@16 700 {
Chris@16 701 this->remove( next ); // delete object
Chris@16 702 *next.base() = 0; // mark pointer as deleted
Chris@16 703 }
Chris@16 704 else
Chris@16 705 {
Chris@16 706 prev = next;
Chris@16 707 }
Chris@16 708 // ++next
Chris@16 709 }
Chris@16 710
Chris@16 711 compact_and_erase_nulls( first, last );
Chris@16 712 }
Chris@16 713
Chris@16 714 template< class Compare >
Chris@16 715 void unique( Compare comp )
Chris@16 716 {
Chris@16 717 unique( this->begin(), this->end(), comp );
Chris@16 718 }
Chris@16 719
Chris@16 720 template< class Pred >
Chris@16 721 void erase_if( iterator first, iterator last, Pred pred )
Chris@16 722 {
Chris@16 723 range_check(first,last);
Chris@16 724 this->base().erase( std::remove_if( first.base(), last.base(),
Chris@16 725 void_ptr_delete_if<Pred,value_type>(pred) ),
Chris@16 726 last.base() );
Chris@16 727 }
Chris@16 728
Chris@16 729 template< class Pred >
Chris@16 730 void erase_if( Pred pred )
Chris@16 731 {
Chris@16 732 erase_if( this->begin(), this->end(), pred );
Chris@16 733 }
Chris@16 734
Chris@16 735
Chris@16 736 void merge( iterator first, iterator last,
Chris@16 737 ptr_sequence_adapter& from )
Chris@16 738 {
Chris@16 739 merge( first, last, from, std::less<T>() );
Chris@16 740 }
Chris@16 741
Chris@16 742 template< class BinPred >
Chris@16 743 void merge( iterator first, iterator last,
Chris@16 744 ptr_sequence_adapter& from, BinPred pred )
Chris@16 745 {
Chris@16 746 void_ptr_indirect_fun<BinPred,T> bin_pred(pred);
Chris@16 747 size_type current_size = this->size();
Chris@16 748 this->transfer( this->end(), first, last, from );
Chris@16 749 typename base_type::ptr_iterator middle = this->begin().base();
Chris@16 750 std::advance(middle,current_size);
Chris@16 751 std::inplace_merge( this->begin().base(),
Chris@16 752 middle,
Chris@16 753 this->end().base(),
Chris@16 754 bin_pred );
Chris@16 755 }
Chris@16 756
Chris@16 757 void merge( ptr_sequence_adapter& r )
Chris@16 758 {
Chris@16 759 merge( r, std::less<T>() );
Chris@16 760 BOOST_ASSERT( r.empty() );
Chris@16 761 }
Chris@16 762
Chris@16 763 template< class BinPred >
Chris@16 764 void merge( ptr_sequence_adapter& r, BinPred pred )
Chris@16 765 {
Chris@16 766 merge( r.begin(), r.end(), r, pred );
Chris@16 767 BOOST_ASSERT( r.empty() );
Chris@16 768 }
Chris@16 769
Chris@16 770 };
Chris@16 771
Chris@16 772
Chris@16 773 } // namespace 'boost'
Chris@16 774
Chris@16 775 #endif