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pineappleEA
2022-11-05 15:35:56 +01:00
parent 4e4fc25ce3
commit b601909c6d
35519 changed files with 5996896 additions and 860 deletions
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169
externals/vcpkg/packages/boost-container_x64-windows/include/boost/container/detail/adaptive_node_pool.hpp vendored Executable file
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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_ADAPTIVE_NODE_POOL_HPP
#define BOOST_CONTAINER_DETAIL_ADAPTIVE_NODE_POOL_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/intrusive/set.hpp>
#include <boost/container/detail/multiallocation_chain.hpp>
#include <boost/container/detail/pool_common_alloc.hpp>
#include <boost/container/detail/mutex.hpp>
#include <boost/container/detail/adaptive_node_pool_impl.hpp>
#include <boost/container/detail/multiallocation_chain.hpp>
#include <boost/container/detail/type_traits.hpp>
#include <cstddef>
#include <cmath>
#include <cassert>
namespace boost {
namespace container {
namespace dtl {
//!Pooled memory allocator using an smart adaptive pool. Includes
//!a reference count but the class does not delete itself, this is
//!responsibility of user classes. Node size (NodeSize) and the number of
//!nodes allocated per block (NodesPerBlock) are known at compile time.
template< std::size_t NodeSize
, std::size_t NodesPerBlock
, std::size_t MaxFreeBlocks
, std::size_t OverheadPercent
>
class private_adaptive_node_pool
: public private_adaptive_node_pool_impl_ct
< fake_segment_manager
, MaxFreeBlocks
, NodeSize
, NodesPerBlock
, OverheadPercent
, unsigned(OverheadPercent == 0)*::boost::container::adaptive_pool_flag::align_only
| ::boost::container::adaptive_pool_flag::size_ordered
| ::boost::container::adaptive_pool_flag::address_ordered
>
{
typedef private_adaptive_node_pool_impl_ct
< fake_segment_manager
, MaxFreeBlocks
, NodeSize
, NodesPerBlock
, OverheadPercent
, unsigned(OverheadPercent == 0)*::boost::container::adaptive_pool_flag::align_only
| ::boost::container::adaptive_pool_flag::size_ordered
| ::boost::container::adaptive_pool_flag::address_ordered
> base_t;
//Non-copyable
private_adaptive_node_pool(const private_adaptive_node_pool &);
private_adaptive_node_pool &operator=(const private_adaptive_node_pool &);
public:
static const std::size_t nodes_per_block = NodesPerBlock;
//!Constructor. Never throws
private_adaptive_node_pool()
: base_t(0)
{}
};
//!Pooled memory allocator using adaptive pool. Includes
//!a reference count but the class does not delete itself, this is
//!responsibility of user classes. Node size (NodeSize) and the number of
//!nodes allocated per block (NodesPerBlock) are known at compile time
template< std::size_t NodeSize
, std::size_t NodesPerBlock
, std::size_t MaxFreeBlocks
, std::size_t OverheadPercent
>
class shared_adaptive_node_pool
: public private_adaptive_node_pool
<NodeSize, NodesPerBlock, MaxFreeBlocks, OverheadPercent>
{
private:
typedef private_adaptive_node_pool
<NodeSize, NodesPerBlock, MaxFreeBlocks, OverheadPercent> private_node_allocator_t;
public:
typedef typename private_node_allocator_t::multiallocation_chain multiallocation_chain;
//!Constructor. Never throws
shared_adaptive_node_pool()
: private_node_allocator_t(){}
//!Destructor. Deallocates all allocated blocks. Never throws
~shared_adaptive_node_pool()
{}
//!Allocates array of count elements. Can throw bad_alloc
void *allocate_node()
{
//-----------------------
scoped_lock<default_mutex> guard(mutex_);
//-----------------------
return private_node_allocator_t::allocate_node();
}
//!Deallocates an array pointed by ptr. Never throws
void deallocate_node(void *ptr)
{
//-----------------------
scoped_lock<default_mutex> guard(mutex_);
//-----------------------
private_node_allocator_t::deallocate_node(ptr);
}
//!Allocates a singly linked list of n nodes ending in null pointer.
//!can throw bad_alloc
void allocate_nodes(const std::size_t n, multiallocation_chain &chain)
{
//-----------------------
scoped_lock<default_mutex> guard(mutex_);
//-----------------------
return private_node_allocator_t::allocate_nodes(n, chain);
}
void deallocate_nodes(multiallocation_chain &chain)
{
//-----------------------
scoped_lock<default_mutex> guard(mutex_);
//-----------------------
private_node_allocator_t::deallocate_nodes(chain);
}
//!Deallocates all the free blocks of memory. Never throws
void deallocate_free_blocks()
{
//-----------------------
scoped_lock<default_mutex> guard(mutex_);
//-----------------------
private_node_allocator_t::deallocate_free_blocks();
}
private:
default_mutex mutex_;
};
} //namespace dtl {
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //#ifndef BOOST_CONTAINER_DETAIL_ADAPTIVE_NODE_POOL_HPP

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externals/vcpkg/packages/boost-container_x64-windows/include/boost/container/detail/adaptive_node_pool_impl.hpp vendored Executable file
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externals/vcpkg/packages/boost-container_x64-windows/include/boost/container/detail/addressof.hpp vendored Executable file
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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2014-2015. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_ADDRESSOF_HPP
#define BOOST_CONTAINER_DETAIL_ADDRESSOF_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/move/detail/addressof.hpp>
namespace boost {
namespace container {
namespace dtl {
using boost::move_detail::addressof;
} //namespace dtl {
} //namespace container {
} //namespace boost {
#endif //#ifndef BOOST_CONTAINER_DETAIL_ADDRESSOF_HPP

558
externals/vcpkg/packages/boost-container_x64-windows/include/boost/container/detail/advanced_insert_int.hpp vendored Executable file
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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2008-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_ADVANCED_INSERT_INT_HPP
#define BOOST_CONTAINER_ADVANCED_INSERT_INT_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
// container
#include <boost/container/allocator_traits.hpp>
// container/detail
#include <boost/container/detail/copy_move_algo.hpp>
#include <boost/container/detail/destroyers.hpp>
#include <boost/container/detail/mpl.hpp>
#include <boost/container/detail/type_traits.hpp>
#include <boost/container/detail/iterator.hpp>
#include <boost/container/detail/iterators.hpp>
#include <boost/move/detail/iterator_to_raw_pointer.hpp>
#if defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
#include <boost/move/detail/fwd_macros.hpp>
#endif
// move
#include <boost/move/utility_core.hpp>
#include <boost/move/detail/force_ptr.hpp>
// other
#include <boost/assert.hpp>
#include <boost/core/no_exceptions_support.hpp>
namespace boost { namespace container { namespace dtl {
template<class Allocator, class FwdIt, class Iterator>
struct move_insert_range_proxy
{
typedef typename allocator_traits<Allocator>::value_type value_type;
BOOST_CONTAINER_FORCEINLINE explicit move_insert_range_proxy(FwdIt first)
: first_(first)
{}
BOOST_CONTAINER_FORCEINLINE void uninitialized_copy_n_and_update(Allocator &a, Iterator p, std::size_t n)
{
this->first_ = ::boost::container::uninitialized_move_alloc_n_source
(a, this->first_, n, p);
}
BOOST_CONTAINER_FORCEINLINE void copy_n_and_update(Allocator &, Iterator p, std::size_t n)
{
this->first_ = ::boost::container::move_n_source(this->first_, n, p);
}
FwdIt first_;
};
template<class Allocator, class FwdIt, class Iterator>
struct insert_range_proxy
{
typedef typename allocator_traits<Allocator>::value_type value_type;
BOOST_CONTAINER_FORCEINLINE explicit insert_range_proxy(FwdIt first)
: first_(first)
{}
BOOST_CONTAINER_FORCEINLINE void uninitialized_copy_n_and_update(Allocator &a, Iterator p, std::size_t n)
{
this->first_ = ::boost::container::uninitialized_copy_alloc_n_source(a, this->first_, n, p);
}
BOOST_CONTAINER_FORCEINLINE void copy_n_and_update(Allocator &, Iterator p, std::size_t n)
{
this->first_ = ::boost::container::copy_n_source(this->first_, n, p);
}
FwdIt first_;
};
template<class Allocator, class Iterator>
struct insert_n_copies_proxy
{
typedef typename allocator_traits<Allocator>::value_type value_type;
BOOST_CONTAINER_FORCEINLINE explicit insert_n_copies_proxy(const value_type &v)
: v_(v)
{}
BOOST_CONTAINER_FORCEINLINE void uninitialized_copy_n_and_update(Allocator &a, Iterator p, std::size_t n) const
{ boost::container::uninitialized_fill_alloc_n(a, v_, n, p); }
BOOST_CONTAINER_FORCEINLINE void copy_n_and_update(Allocator &, Iterator p, std::size_t n) const
{
while (n){
--n;
*p = v_;
++p;
}
}
const value_type &v_;
};
template<class Allocator, class Iterator>
struct insert_value_initialized_n_proxy
{
typedef ::boost::container::allocator_traits<Allocator> alloc_traits;
typedef typename allocator_traits<Allocator>::value_type value_type;
typedef typename dtl::aligned_storage<sizeof(value_type), dtl::alignment_of<value_type>::value>::type storage_t;
BOOST_CONTAINER_FORCEINLINE void uninitialized_copy_n_and_update(Allocator &a, Iterator p, std::size_t n) const
{ boost::container::uninitialized_value_init_alloc_n(a, n, p); }
void copy_n_and_update(Allocator &a, Iterator p, std::size_t n) const
{
while (n){
--n;
storage_t v;
alloc_traits::construct(a, move_detail::force_ptr<value_type *>(&v));
value_type *vp = move_detail::force_ptr<value_type *>(&v);
value_destructor<Allocator> on_exit(a, *vp); (void)on_exit;
*p = ::boost::move(*vp);
++p;
}
}
};
template<class Allocator, class Iterator>
struct insert_default_initialized_n_proxy
{
typedef ::boost::container::allocator_traits<Allocator> alloc_traits;
typedef typename allocator_traits<Allocator>::value_type value_type;
typedef typename dtl::aligned_storage<sizeof(value_type), dtl::alignment_of<value_type>::value>::type storage_t;
BOOST_CONTAINER_FORCEINLINE void uninitialized_copy_n_and_update(Allocator &a, Iterator p, std::size_t n) const
{ boost::container::uninitialized_default_init_alloc_n(a, n, p); }
void copy_n_and_update(Allocator &a, Iterator p, std::size_t n) const
{
if(!is_pod<value_type>::value){
while (n){
--n;
typename dtl::aligned_storage<sizeof(value_type), dtl::alignment_of<value_type>::value>::type v;
alloc_traits::construct(a, move_detail::force_ptr<value_type *>(&v), default_init);
value_type *vp = move_detail::force_ptr<value_type *>(&v);
value_destructor<Allocator> on_exit(a, *vp); (void)on_exit;
*p = ::boost::move(*vp);
++p;
}
}
}
};
template<class Allocator, class Iterator>
struct insert_copy_proxy
{
typedef boost::container::allocator_traits<Allocator> alloc_traits;
typedef typename alloc_traits::value_type value_type;
static const bool single_value = true;
BOOST_CONTAINER_FORCEINLINE explicit insert_copy_proxy(const value_type &v)
: v_(v)
{}
BOOST_CONTAINER_FORCEINLINE void uninitialized_copy_n_and_update(Allocator &a, Iterator p, std::size_t n) const
{
BOOST_ASSERT(n == 1); (void)n;
alloc_traits::construct( a, boost::movelib::iterator_to_raw_pointer(p), v_);
}
BOOST_CONTAINER_FORCEINLINE void copy_n_and_update(Allocator &, Iterator p, std::size_t n) const
{
BOOST_ASSERT(n == 1); (void)n;
*p = v_;
}
const value_type &v_;
};
template<class Allocator, class Iterator>
struct insert_move_proxy
{
typedef boost::container::allocator_traits<Allocator> alloc_traits;
typedef typename alloc_traits::value_type value_type;
static const bool single_value = true;
BOOST_CONTAINER_FORCEINLINE explicit insert_move_proxy(value_type &v)
: v_(v)
{}
BOOST_CONTAINER_FORCEINLINE void uninitialized_copy_n_and_update(Allocator &a, Iterator p, std::size_t n) const
{
BOOST_ASSERT(n == 1); (void)n;
alloc_traits::construct( a, boost::movelib::iterator_to_raw_pointer(p), ::boost::move(v_) );
}
BOOST_CONTAINER_FORCEINLINE void copy_n_and_update(Allocator &, Iterator p, std::size_t n) const
{
BOOST_ASSERT(n == 1); (void)n;
*p = ::boost::move(v_);
}
value_type &v_;
};
template<class It, class Allocator>
BOOST_CONTAINER_FORCEINLINE insert_move_proxy<Allocator, It> get_insert_value_proxy(BOOST_RV_REF(typename boost::container::iterator_traits<It>::value_type) v)
{
return insert_move_proxy<Allocator, It>(v);
}
template<class It, class Allocator>
BOOST_CONTAINER_FORCEINLINE insert_copy_proxy<Allocator, It> get_insert_value_proxy(const typename boost::container::iterator_traits<It>::value_type &v)
{
return insert_copy_proxy<Allocator, It>(v);
}
}}} //namespace boost { namespace container { namespace dtl {
#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
#include <boost/container/detail/variadic_templates_tools.hpp>
#include <boost/move/utility_core.hpp>
namespace boost {
namespace container {
namespace dtl {
template<class Allocator, class Iterator, class ...Args>
struct insert_nonmovable_emplace_proxy
{
typedef boost::container::allocator_traits<Allocator> alloc_traits;
typedef typename alloc_traits::value_type value_type;
typedef typename build_number_seq<sizeof...(Args)>::type index_tuple_t;
static const bool single_value = true;
BOOST_CONTAINER_FORCEINLINE explicit insert_nonmovable_emplace_proxy(BOOST_FWD_REF(Args)... args)
: args_(args...)
{}
BOOST_CONTAINER_FORCEINLINE void uninitialized_copy_n_and_update(Allocator &a, Iterator p, std::size_t n)
{ this->priv_uninitialized_copy_some_and_update(a, index_tuple_t(), p, n); }
private:
template<std::size_t ...IdxPack>
BOOST_CONTAINER_FORCEINLINE void priv_uninitialized_copy_some_and_update(Allocator &a, const index_tuple<IdxPack...>&, Iterator p, std::size_t n)
{
BOOST_ASSERT(n == 1); (void)n;
alloc_traits::construct( a, boost::movelib::iterator_to_raw_pointer(p), ::boost::forward<Args>(get<IdxPack>(this->args_))... );
}
protected:
tuple<Args&...> args_;
};
template<class Allocator, class Iterator, class ...Args>
struct insert_emplace_proxy
: public insert_nonmovable_emplace_proxy<Allocator, Iterator, Args...>
{
typedef insert_nonmovable_emplace_proxy<Allocator, Iterator, Args...> base_t;
typedef boost::container::allocator_traits<Allocator> alloc_traits;
typedef typename base_t::value_type value_type;
typedef typename base_t::index_tuple_t index_tuple_t;
static const bool single_value = true;
BOOST_CONTAINER_FORCEINLINE explicit insert_emplace_proxy(BOOST_FWD_REF(Args)... args)
: base_t(::boost::forward<Args>(args)...)
{}
BOOST_CONTAINER_FORCEINLINE void copy_n_and_update(Allocator &a, Iterator p, std::size_t n)
{ this->priv_copy_some_and_update(a, index_tuple_t(), p, n); }
private:
template<std::size_t ...IdxPack>
BOOST_CONTAINER_FORCEINLINE void priv_copy_some_and_update(Allocator &a, const index_tuple<IdxPack...>&, Iterator p, std::size_t n)
{
BOOST_ASSERT(n ==1); (void)n;
typename dtl::aligned_storage<sizeof(value_type), dtl::alignment_of<value_type>::value>::type v;
alloc_traits::construct(a, move_detail::force_ptr<value_type *>(&v), ::boost::forward<Args>(get<IdxPack>(this->args_))...);
value_type *vp = move_detail::force_ptr<value_type *>(&v);
BOOST_TRY{
*p = ::boost::move(*vp);
}
BOOST_CATCH(...){
alloc_traits::destroy(a, vp);
BOOST_RETHROW
}
BOOST_CATCH_END
alloc_traits::destroy(a, vp);
}
};
//Specializations to avoid an unneeded temporary when emplacing from a single argument o type value_type
template<class Allocator, class Iterator>
struct insert_emplace_proxy<Allocator, Iterator, typename boost::container::allocator_traits<Allocator>::value_type>
: public insert_move_proxy<Allocator, Iterator>
{
static const bool single_value = true;
BOOST_CONTAINER_FORCEINLINE explicit insert_emplace_proxy(typename boost::container::allocator_traits<Allocator>::value_type &&v)
: insert_move_proxy<Allocator, Iterator>(v)
{}
};
//We use "add_const" here as adding "const" only confuses MSVC12(and maybe later) provoking
//compiler error C2752 ("more than one partial specialization matches").
//Any problem is solvable with an extra layer of indirection? ;-)
template<class Allocator, class Iterator>
struct insert_emplace_proxy<Allocator, Iterator
, typename boost::container::dtl::add_const<typename boost::container::allocator_traits<Allocator>::value_type>::type
>
: public insert_copy_proxy<Allocator, Iterator>
{
static const bool single_value = true;
BOOST_CONTAINER_FORCEINLINE explicit insert_emplace_proxy(const typename boost::container::allocator_traits<Allocator>::value_type &v)
: insert_copy_proxy<Allocator, Iterator>(v)
{}
};
template<class Allocator, class Iterator>
struct insert_emplace_proxy<Allocator, Iterator, typename boost::container::allocator_traits<Allocator>::value_type &>
: public insert_copy_proxy<Allocator, Iterator>
{
static const bool single_value = true;
BOOST_CONTAINER_FORCEINLINE explicit insert_emplace_proxy(const typename boost::container::allocator_traits<Allocator>::value_type &v)
: insert_copy_proxy<Allocator, Iterator>(v)
{}
};
template<class Allocator, class Iterator>
struct insert_emplace_proxy<Allocator, Iterator
, typename boost::container::dtl::add_const<typename boost::container::allocator_traits<Allocator>::value_type>::type &
>
: public insert_copy_proxy<Allocator, Iterator>
{
static const bool single_value = true;
BOOST_CONTAINER_FORCEINLINE explicit insert_emplace_proxy(const typename boost::container::allocator_traits<Allocator>::value_type &v)
: insert_copy_proxy<Allocator, Iterator>(v)
{}
};
}}} //namespace boost { namespace container { namespace dtl {
#else // !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
#include <boost/container/detail/value_init.hpp>
namespace boost {
namespace container {
namespace dtl {
#define BOOST_CONTAINER_ADVANCED_INSERT_INT_CODE(N) \
template< class Allocator, class Iterator BOOST_MOVE_I##N BOOST_MOVE_CLASS##N >\
struct insert_nonmovable_emplace_proxy##N\
{\
typedef boost::container::allocator_traits<Allocator> alloc_traits;\
typedef typename alloc_traits::value_type value_type;\
\
static const bool single_value = true;\
\
BOOST_CONTAINER_FORCEINLINE explicit insert_nonmovable_emplace_proxy##N(BOOST_MOVE_UREF##N)\
BOOST_MOVE_COLON##N BOOST_MOVE_FWD_INIT##N {}\
\
BOOST_CONTAINER_FORCEINLINE void uninitialized_copy_n_and_update(Allocator &a, Iterator p, std::size_t n)\
{\
BOOST_ASSERT(n == 1); (void)n;\
alloc_traits::construct(a, boost::movelib::iterator_to_raw_pointer(p) BOOST_MOVE_I##N BOOST_MOVE_MFWD##N);\
}\
\
BOOST_CONTAINER_FORCEINLINE void copy_n_and_update(Allocator &, Iterator, std::size_t)\
{ BOOST_ASSERT(false); }\
\
protected:\
BOOST_MOVE_MREF##N\
};\
\
template< class Allocator, class Iterator BOOST_MOVE_I##N BOOST_MOVE_CLASS##N >\
struct insert_emplace_proxy_arg##N\
: insert_nonmovable_emplace_proxy##N< Allocator, Iterator BOOST_MOVE_I##N BOOST_MOVE_TARG##N >\
{\
typedef insert_nonmovable_emplace_proxy##N\
< Allocator, Iterator BOOST_MOVE_I##N BOOST_MOVE_TARG##N > base_t;\
typedef typename base_t::value_type value_type;\
typedef boost::container::allocator_traits<Allocator> alloc_traits;\
\
static const bool single_value = true;\
\
BOOST_CONTAINER_FORCEINLINE explicit insert_emplace_proxy_arg##N(BOOST_MOVE_UREF##N)\
: base_t(BOOST_MOVE_FWD##N){}\
\
BOOST_CONTAINER_FORCEINLINE void copy_n_and_update(Allocator &a, Iterator p, std::size_t n)\
{\
BOOST_ASSERT(n == 1); (void)n;\
typename dtl::aligned_storage<sizeof(value_type), dtl::alignment_of<value_type>::value>::type v;\
alloc_traits::construct(a, move_detail::force_ptr<value_type *>(&v) BOOST_MOVE_I##N BOOST_MOVE_MFWD##N);\
value_type *vp = move_detail::force_ptr<value_type *>(&v);\
BOOST_TRY{\
*p = ::boost::move(*vp);\
}\
BOOST_CATCH(...){\
alloc_traits::destroy(a, vp);\
BOOST_RETHROW\
}\
BOOST_CATCH_END\
alloc_traits::destroy(a, vp);\
}\
};\
//
BOOST_MOVE_ITERATE_0TO9(BOOST_CONTAINER_ADVANCED_INSERT_INT_CODE)
#undef BOOST_CONTAINER_ADVANCED_INSERT_INT_CODE
#if defined(BOOST_NO_CXX11_RVALUE_REFERENCES)
//Specializations to avoid an unneeded temporary when emplacing from a single argument o type value_type
template<class Allocator, class Iterator>
struct insert_emplace_proxy_arg1<Allocator, Iterator, ::boost::rv<typename boost::container::allocator_traits<Allocator>::value_type> >
: public insert_move_proxy<Allocator, Iterator>
{
static const bool single_value = true;
BOOST_CONTAINER_FORCEINLINE explicit insert_emplace_proxy_arg1(typename boost::container::allocator_traits<Allocator>::value_type &v)
: insert_move_proxy<Allocator, Iterator>(v)
{}
};
template<class Allocator, class Iterator>
struct insert_emplace_proxy_arg1<Allocator, Iterator, typename boost::container::allocator_traits<Allocator>::value_type>
: public insert_copy_proxy<Allocator, Iterator>
{
static const bool single_value = true;
BOOST_CONTAINER_FORCEINLINE explicit insert_emplace_proxy_arg1(const typename boost::container::allocator_traits<Allocator>::value_type &v)
: insert_copy_proxy<Allocator, Iterator>(v)
{}
};
#else //e.g. MSVC10 & MSVC11
//Specializations to avoid an unneeded temporary when emplacing from a single argument o type value_type
template<class Allocator, class Iterator>
struct insert_emplace_proxy_arg1<Allocator, Iterator, typename boost::container::allocator_traits<Allocator>::value_type>
: public insert_move_proxy<Allocator, Iterator>
{
static const bool single_value = true;
BOOST_CONTAINER_FORCEINLINE explicit insert_emplace_proxy_arg1(typename boost::container::allocator_traits<Allocator>::value_type &&v)
: insert_move_proxy<Allocator, Iterator>(v)
{}
};
//We use "add_const" here as adding "const" only confuses MSVC10&11 provoking
//compiler error C2752 ("more than one partial specialization matches").
//Any problem is solvable with an extra layer of indirection? ;-)
template<class Allocator, class Iterator>
struct insert_emplace_proxy_arg1<Allocator, Iterator
, typename boost::container::dtl::add_const<typename boost::container::allocator_traits<Allocator>::value_type>::type
>
: public insert_copy_proxy<Allocator, Iterator>
{
static const bool single_value = true;
BOOST_CONTAINER_FORCEINLINE explicit insert_emplace_proxy_arg1(const typename boost::container::allocator_traits<Allocator>::value_type &v)
: insert_copy_proxy<Allocator, Iterator>(v)
{}
};
template<class Allocator, class Iterator>
struct insert_emplace_proxy_arg1<Allocator, Iterator, typename boost::container::allocator_traits<Allocator>::value_type &>
: public insert_copy_proxy<Allocator, Iterator>
{
static const bool single_value = true;
BOOST_CONTAINER_FORCEINLINE explicit insert_emplace_proxy_arg1(const typename boost::container::allocator_traits<Allocator>::value_type &v)
: insert_copy_proxy<Allocator, Iterator>(v)
{}
};
template<class Allocator, class Iterator>
struct insert_emplace_proxy_arg1<Allocator, Iterator
, typename boost::container::dtl::add_const<typename boost::container::allocator_traits<Allocator>::value_type>::type &
>
: public insert_copy_proxy<Allocator, Iterator>
{
static const bool single_value = true;
BOOST_CONTAINER_FORCEINLINE explicit insert_emplace_proxy_arg1(const typename boost::container::allocator_traits<Allocator>::value_type &v)
: insert_copy_proxy<Allocator, Iterator>(v)
{}
};
#endif
}}} //namespace boost { namespace container { namespace dtl {
#endif // !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
namespace boost { namespace container { namespace dtl {
template <class T>
struct has_single_value
{
private:
struct two {char array_[2];};
template<bool Arg> struct wrapper;
template <class U> static two test(int, ...);
template <class U> static char test(int, const wrapper<U::single_value>*);
public:
static const bool value = sizeof(test<T>(0, 0)) == 1;
void dummy(){}
};
template<class InsertionProxy, bool = has_single_value<InsertionProxy>::value>
struct is_single_value_proxy_impl
{
static const bool value = InsertionProxy::single_value;
};
template<class InsertionProxy>
struct is_single_value_proxy_impl<InsertionProxy, false>
{
static const bool value = false;
};
template<class InsertionProxy>
struct is_single_value_proxy
: is_single_value_proxy_impl<InsertionProxy>
{};
}}} //namespace boost { namespace container { namespace dtl {
#include <boost/container/detail/config_end.hpp>
#endif //#ifndef BOOST_CONTAINER_ADVANCED_INSERT_INT_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2014-2014.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_ALGORITHM_HPP
#define BOOST_CONTAINER_DETAIL_ALGORITHM_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/intrusive/detail/algorithm.hpp>
namespace boost {
namespace container {
using boost::intrusive::algo_equal;
using boost::intrusive::algo_lexicographical_compare;
template<class Func>
class binder1st
{
public:
typedef typename Func::second_argument_type argument_type;
typedef typename Func::result_type result_type;
binder1st(const Func& func, const typename Func::first_argument_type& arg)
: op(func), value(arg)
{}
result_type operator()(const argument_type& arg) const
{ return op(value, arg); }
result_type operator()(argument_type& arg) const
{ return op(value, arg); }
private:
Func op;
typename Func::first_argument_type value;
};
template<class Func, class T>
inline binder1st<Func> bind1st(const Func& func, const T& arg)
{ return boost::container::binder1st<Func>(func, arg); }
template<class Func>
class binder2nd
{
public:
typedef typename Func::first_argument_type argument_type;
typedef typename Func::result_type result_type;
binder2nd(const Func& func, const typename Func::second_argument_type& arg)
: op(func), value(arg)
{}
result_type operator()(const argument_type& arg) const
{ return op(arg, value); }
result_type operator()(argument_type& arg) const
{ return op(arg, value); }
private:
Func op;
typename Func::second_argument_type value;
};
template<class Func, class T>
inline binder2nd<Func> bind2nd(const Func& func, const T& arg)
{
return (boost::container::binder2nd<Func>(func, arg));
}
template<class Func>
class unary_negate
{
public:
typedef typename Func::argument_type argument_type;
typedef typename Func::result_type result_type;
explicit unary_negate(const Func& func)
: m_func(func)
{}
bool operator()(const typename Func::argument_type& arg) const
{ return !m_func(arg); }
private:
Func m_func;
};
template<class Func> inline
unary_negate<Func> not1(const Func& func)
{
return boost::container::unary_negate<Func>(func);
}
template<class InputIt, class UnaryPredicate>
InputIt find_if(InputIt first, InputIt last, UnaryPredicate p)
{
for (; first != last; ++first) {
if (p(*first)) {
return first;
}
}
return last;
}
template<class ForwardIt1, class ForwardIt2, class BinaryPredicate>
ForwardIt1 find_end (ForwardIt1 first1, ForwardIt1 last1
,ForwardIt2 first2, ForwardIt2 last2
,BinaryPredicate p)
{
if (first2==last2)
return last1; // specified in C++11
ForwardIt1 ret = last1;
while (first1!=last1)
{
ForwardIt1 it1 = first1;
ForwardIt2 it2 = first2;
while ( p(*it1, *it2) ) {
++it1; ++it2;
if (it2==last2) {
ret=first1;
break;
}
if (it1==last1)
return ret;
}
++first1;
}
return ret;
}
template<class InputIt, class ForwardIt, class BinaryPredicate>
InputIt find_first_of(InputIt first1, InputIt last1, ForwardIt first2, ForwardIt last2, BinaryPredicate p)
{
for (; first1 != last1; ++first1) {
for (ForwardIt it = first2; it != last2; ++it) {
if (p(*first1, *it)) {
return first1;
}
}
}
return last1;
}
template<class ForwardIt1, class ForwardIt2, class BinaryPredicate>
ForwardIt1 search(ForwardIt1 first1, ForwardIt1 last1,
ForwardIt2 first2, ForwardIt2 last2, BinaryPredicate p)
{
for (; ; ++first1) {
ForwardIt1 it = first1;
for (ForwardIt2 it2 = first2; ; ++it, ++it2) {
if (it2 == last2) {
return first1;
}
if (it == last1) {
return last1;
}
if (!p(*it, *it2)) {
break;
}
}
}
}
} //namespace container {
} //namespace boost {
#endif //#ifndef BOOST_CONTAINER_DETAIL_ALGORITHM_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2014-2015. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_ALLOC_TRAITS_HPP
#define BOOST_CONTAINER_DETAIL_ALLOC_TRAITS_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
// move
#include <boost/move/adl_move_swap.hpp>
#include <boost/move/utility_core.hpp>
namespace boost {
namespace container {
namespace dtl {
template<class AllocatorType>
BOOST_CONTAINER_FORCEINLINE void swap_alloc(AllocatorType &, AllocatorType &, dtl::false_type)
BOOST_NOEXCEPT_OR_NOTHROW
{}
template<class AllocatorType>
BOOST_CONTAINER_FORCEINLINE void swap_alloc(AllocatorType &l, AllocatorType &r, dtl::true_type)
{ boost::adl_move_swap(l, r); }
template<class AllocatorType>
BOOST_CONTAINER_FORCEINLINE void assign_alloc(AllocatorType &, const AllocatorType &, dtl::false_type)
BOOST_NOEXCEPT_OR_NOTHROW
{}
template<class AllocatorType>
BOOST_CONTAINER_FORCEINLINE void assign_alloc(AllocatorType &l, const AllocatorType &r, dtl::true_type)
{ l = r; }
template<class AllocatorType>
BOOST_CONTAINER_FORCEINLINE void move_alloc(AllocatorType &, AllocatorType &, dtl::false_type)
BOOST_NOEXCEPT_OR_NOTHROW
{}
template<class AllocatorType>
BOOST_CONTAINER_FORCEINLINE void move_alloc(AllocatorType &l, AllocatorType &r, dtl::true_type)
{ l = ::boost::move(r); }
} //namespace dtl {
} //namespace container {
} //namespace boost {
#endif //#ifndef BOOST_CONTAINER_DETAIL_ALLOC_TRAITS_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_ALLOC_LIB_EXT_H
#define BOOST_CONTAINER_ALLOC_LIB_EXT_H
#include <stddef.h>
#ifdef _MSC_VER
#pragma warning (push)
#pragma warning (disable : 4127)
#endif
#ifdef __cplusplus
extern "C" {
#endif
/*!An forward iterator to traverse the elements of a memory chain container.*/
typedef struct multialloc_node_impl
{
struct multialloc_node_impl *next_node_ptr;
} boost_cont_memchain_node;
/*!An forward iterator to traverse the elements of a memory chain container.*/
typedef struct multialloc_it_impl
{
boost_cont_memchain_node *node_ptr;
} boost_cont_memchain_it;
/*!Memory chain: A container holding memory portions allocated by boost_cont_multialloc_nodes
and boost_cont_multialloc_arrays functions.*/
typedef struct boost_cont_memchain_impl
{
size_t num_mem;
boost_cont_memchain_node root_node;
boost_cont_memchain_node *last_node_ptr;
} boost_cont_memchain;
/*!Advances the iterator one position so that it points to the next element in the memory chain*/
#define BOOST_CONTAINER_MEMIT_NEXT(IT) (IT.node_ptr = IT.node_ptr->next_node_ptr)
/*!Returns the address of the memory chain currently pointed by the iterator*/
#define BOOST_CONTAINER_MEMIT_ADDR(IT) ((void*)IT.node_ptr)
/*!Initializer for an iterator pointing to the position before the first element*/
#define BOOST_CONTAINER_MEMCHAIN_BEFORE_BEGIN_IT(PMEMCHAIN) { &((PMEMCHAIN)->root_node) }
/*!Initializer for an iterator pointing to the first element*/
#define BOOST_CONTAINER_MEMCHAIN_BEGIN_IT(PMEMCHAIN) {(PMEMCHAIN)->root_node.next_node_ptr }
/*!Initializer for an iterator pointing to the last element*/
#define BOOST_CONTAINER_MEMCHAIN_LAST_IT(PMEMCHAIN) {(PMEMCHAIN)->last_node_ptr }
/*!Initializer for an iterator pointing to one past the last element (end iterator)*/
#define BOOST_CONTAINER_MEMCHAIN_END_IT(PMEMCHAIN) {(boost_cont_memchain_node *)0 }
/*!True if IT is the end iterator, false otherwise*/
#define BOOST_CONTAINER_MEMCHAIN_IS_END_IT(PMEMCHAIN, IT) (!(IT).node_ptr)
/*!The address of the first memory portion hold by the memory chain*/
#define BOOST_CONTAINER_MEMCHAIN_FIRSTMEM(PMEMCHAIN)((void*)((PMEMCHAIN)->root_node.next_node_ptr))
/*!The address of the last memory portion hold by the memory chain*/
#define BOOST_CONTAINER_MEMCHAIN_LASTMEM(PMEMCHAIN) ((void*)((PMEMCHAIN)->last_node_ptr))
/*!The number of memory portions hold by the memory chain*/
#define BOOST_CONTAINER_MEMCHAIN_SIZE(PMEMCHAIN) ((PMEMCHAIN)->num_mem)
/*!Initializes the memory chain from the first memory portion, the last memory
portion and number of portions obtained from another memory chain*/
#define BOOST_CONTAINER_MEMCHAIN_INIT_FROM(PMEMCHAIN, FIRST, LAST, NUM)\
(PMEMCHAIN)->last_node_ptr = (boost_cont_memchain_node *)(LAST), \
(PMEMCHAIN)->root_node.next_node_ptr = (boost_cont_memchain_node *)(FIRST), \
(PMEMCHAIN)->num_mem = (NUM);\
/**/
/*!Default initializes a memory chain. Postconditions: begin iterator is end iterator,
the number of portions is zero.*/
#define BOOST_CONTAINER_MEMCHAIN_INIT(PMEMCHAIN)\
((PMEMCHAIN)->root_node.next_node_ptr = 0, (PMEMCHAIN)->last_node_ptr = &((PMEMCHAIN)->root_node), (PMEMCHAIN)->num_mem = 0)\
/**/
/*!True if the memory chain is empty (holds no memory portions*/
#define BOOST_CONTAINER_MEMCHAIN_EMPTY(PMEMCHAIN)\
((PMEMCHAIN)->num_mem == 0)\
/**/
/*!Inserts a new memory portions in the front of the chain*/
#define BOOST_CONTAINER_MEMCHAIN_PUSH_BACK(PMEMCHAIN, MEM)\
do{\
boost_cont_memchain *____chain____ = (PMEMCHAIN);\
boost_cont_memchain_node *____tmp_mem____ = (boost_cont_memchain_node *)(MEM);\
____chain____->last_node_ptr->next_node_ptr = ____tmp_mem____;\
____tmp_mem____->next_node_ptr = 0;\
____chain____->last_node_ptr = ____tmp_mem____;\
++____chain____->num_mem;\
}while(0)\
/**/
/*!Inserts a new memory portions in the back of the chain*/
#define BOOST_CONTAINER_MEMCHAIN_PUSH_FRONT(PMEMCHAIN, MEM)\
do{\
boost_cont_memchain *____chain____ = (PMEMCHAIN);\
boost_cont_memchain_node *____tmp_mem____ = (boost_cont_memchain_node *)(MEM);\
boost_cont_memchain *____root____ = &((PMEMCHAIN)->root_node);\
if(!____chain____->root_node.next_node_ptr){\
____chain____->last_node_ptr = ____tmp_mem____;\
}\
boost_cont_memchain_node *____old_first____ = ____root____->next_node_ptr;\
____tmp_mem____->next_node_ptr = ____old_first____;\
____root____->next_node_ptr = ____tmp_mem____;\
++____chain____->num_mem;\
}while(0)\
/**/
/*!Erases the memory portion after the portion pointed by BEFORE_IT from the memory chain*/
/*!Precondition: BEFORE_IT must be a valid iterator of the memory chain and it can't be the end iterator*/
#define BOOST_CONTAINER_MEMCHAIN_ERASE_AFTER(PMEMCHAIN, BEFORE_IT)\
do{\
boost_cont_memchain *____chain____ = (PMEMCHAIN);\
boost_cont_memchain_node *____prev_node____ = (BEFORE_IT).node_ptr;\
boost_cont_memchain_node *____erase_node____ = ____prev_node____->next_node_ptr;\
if(____chain____->last_node_ptr == ____erase_node____){\
____chain____->last_node_ptr = &____chain____->root_node;\
}\
____prev_node____->next_node_ptr = ____erase_node____->next_node_ptr;\
--____chain____->num_mem;\
}while(0)\
/**/
/*!Erases the first portion from the memory chain.
Precondition: the memory chain must not be empty*/
#define BOOST_CONTAINER_MEMCHAIN_POP_FRONT(PMEMCHAIN)\
do{\
boost_cont_memchain *____chain____ = (PMEMCHAIN);\
boost_cont_memchain_node *____prev_node____ = &____chain____->root_node;\
boost_cont_memchain_node *____erase_node____ = ____prev_node____->next_node_ptr;\
if(____chain____->last_node_ptr == ____erase_node____){\
____chain____->last_node_ptr = &____chain____->root_node;\
}\
____prev_node____->next_node_ptr = ____erase_node____->next_node_ptr;\
--____chain____->num_mem;\
}while(0)\
/**/
/*!Joins two memory chains inserting the portions of the second chain at the back of the first chain*/
/*
#define BOOST_CONTAINER_MEMCHAIN_SPLICE_BACK(PMEMCHAIN, PMEMCHAIN2)\
do{\
boost_cont_memchain *____chain____ = (PMEMCHAIN);\
boost_cont_memchain *____chain2____ = (PMEMCHAIN2);\
if(!____chain2____->root_node.next_node_ptr){\
break;\
}\
else if(!____chain____->first_mem){\
____chain____->first_mem = ____chain2____->first_mem;\
____chain____->last_node_ptr = ____chain2____->last_node_ptr;\
____chain____->num_mem = ____chain2____->num_mem;\
BOOST_CONTAINER_MEMCHAIN_INIT(*____chain2____);\
}\
else{\
____chain____->last_node_ptr->next_node_ptr = ____chain2____->first_mem;\
____chain____->last_node_ptr = ____chain2____->last_node_ptr;\
____chain____->num_mem += ____chain2____->num_mem;\
}\
}while(0)\*/
/**/
/*!Joins two memory chains inserting the portions of the second chain at the back of the first chain*/
#define BOOST_CONTAINER_MEMCHAIN_INCORPORATE_AFTER(PMEMCHAIN, BEFORE_IT, FIRST, BEFORELAST, NUM)\
do{\
boost_cont_memchain *____chain____ = (PMEMCHAIN);\
boost_cont_memchain_node *____pnode____ = (BEFORE_IT).node_ptr;\
boost_cont_memchain_node *____next____ = ____pnode____->next_node_ptr;\
boost_cont_memchain_node *____first____ = (boost_cont_memchain_node *)(FIRST);\
boost_cont_memchain_node *____blast____ = (boost_cont_memchain_node *)(BEFORELAST);\
size_t ____num____ = (NUM);\
if(!____num____){\
break;\
}\
if(____pnode____ == ____chain____->last_node_ptr){\
____chain____->last_node_ptr = ____blast____;\
}\
____pnode____->next_node_ptr = ____first____;\
____blast____->next_node_ptr = ____next____;\
____chain____->num_mem += ____num____;\
}while(0)\
/**/
/*!Indicates the all elements allocated by boost_cont_multialloc_nodes or boost_cont_multialloc_arrays
must be contiguous.*/
#define BOOST_CONTAINER_DL_MULTIALLOC_ALL_CONTIGUOUS ((size_t)(-1))
/*!Indicates the number of contiguous elements allocated by boost_cont_multialloc_nodes or boost_cont_multialloc_arrays
should be selected by those functions.*/
#define BOOST_CONTAINER_DL_MULTIALLOC_DEFAULT_CONTIGUOUS ((size_t)(0))
typedef struct boost_cont_malloc_stats_impl
{
size_t max_system_bytes;
size_t system_bytes;
size_t in_use_bytes;
} boost_cont_malloc_stats_t;
typedef unsigned int allocation_type;
enum
{
// constants for allocation commands
BOOST_CONTAINER_ALLOCATE_NEW = 0X01,
BOOST_CONTAINER_EXPAND_FWD = 0X02,
BOOST_CONTAINER_EXPAND_BWD = 0X04,
BOOST_CONTAINER_SHRINK_IN_PLACE = 0X08,
BOOST_CONTAINER_NOTHROW_ALLOCATION = 0X10,
// BOOST_CONTAINER_ZERO_MEMORY = 0X20,
BOOST_CONTAINER_TRY_SHRINK_IN_PLACE = 0X40,
BOOST_CONTAINER_EXPAND_BOTH = BOOST_CONTAINER_EXPAND_FWD | BOOST_CONTAINER_EXPAND_BWD,
BOOST_CONTAINER_EXPAND_OR_NEW = BOOST_CONTAINER_ALLOCATE_NEW | BOOST_CONTAINER_EXPAND_BOTH
};
//#define BOOST_CONTAINER_DLMALLOC_FOOTERS
#ifndef BOOST_CONTAINER_DLMALLOC_FOOTERS
enum { BOOST_CONTAINER_ALLOCATION_PAYLOAD = sizeof(size_t) };
#else
enum { BOOST_CONTAINER_ALLOCATION_PAYLOAD = sizeof(size_t)*2 };
#endif
typedef struct boost_cont_command_ret_impl
{
void *first;
int second;
}boost_cont_command_ret_t;
size_t boost_cont_size(const void *p);
void* boost_cont_malloc(size_t bytes);
void boost_cont_free(void* mem);
void* boost_cont_memalign(size_t bytes, size_t alignment);
int boost_cont_multialloc_nodes
(size_t n_elements, size_t elem_size, size_t contiguous_elements, boost_cont_memchain *pchain);
int boost_cont_multialloc_arrays
(size_t n_elements, const size_t *sizes, size_t sizeof_element, size_t contiguous_elements, boost_cont_memchain *pchain);
void boost_cont_multidealloc(boost_cont_memchain *pchain);
size_t boost_cont_footprint();
size_t boost_cont_allocated_memory();
size_t boost_cont_chunksize(const void *p);
int boost_cont_all_deallocated();
boost_cont_malloc_stats_t boost_cont_malloc_stats();
size_t boost_cont_in_use_memory();
int boost_cont_trim(size_t pad);
int boost_cont_mallopt(int parameter_number, int parameter_value);
int boost_cont_grow
(void* oldmem, size_t minbytes, size_t maxbytes, size_t *received);
int boost_cont_shrink
(void* oldmem, size_t minbytes, size_t maxbytes, size_t *received, int do_commit);
void* boost_cont_alloc
(size_t minbytes, size_t preferred_bytes, size_t *received_bytes);
int boost_cont_malloc_check();
boost_cont_command_ret_t boost_cont_allocation_command
( allocation_type command
, size_t sizeof_object
, size_t limit_objects
, size_t preferred_objects
, size_t *received_objects
, void *reuse_ptr
);
void *boost_cont_sync_create();
void boost_cont_sync_destroy(void *sync);
int boost_cont_sync_lock(void *sync);
void boost_cont_sync_unlock(void *sync);
int boost_cont_global_sync_lock();
void boost_cont_global_sync_unlock();
#ifdef __cplusplus
} //extern "C" {
#endif
#ifdef _MSC_VER
#pragma warning (pop)
#endif
#endif //#define BOOST_CONTAINERDLMALLOC__EXT_H

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///////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
///////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_ALLOCATION_TYPE_HPP
#define BOOST_CONTAINER_ALLOCATION_TYPE_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
namespace boost {
namespace container {
#ifndef BOOST_CONTAINER_DOXYGEN_INVOKED
enum allocation_type_v
{
// constants for allocation commands
allocate_new_v = 0x01,
expand_fwd_v = 0x02,
expand_bwd_v = 0x04,
// expand_both = expand_fwd | expand_bwd,
// expand_or_new = allocate_new | expand_both,
shrink_in_place_v = 0x08,
nothrow_allocation_v = 0x10,
zero_memory_v = 0x20,
try_shrink_in_place_v = 0x40
};
typedef unsigned int allocation_type;
#endif //#ifndef BOOST_CONTAINER_DOXYGEN_INVOKED
static const allocation_type allocate_new = (allocation_type)allocate_new_v;
static const allocation_type expand_fwd = (allocation_type)expand_fwd_v;
static const allocation_type expand_bwd = (allocation_type)expand_bwd_v;
static const allocation_type shrink_in_place = (allocation_type)shrink_in_place_v;
static const allocation_type try_shrink_in_place= (allocation_type)try_shrink_in_place_v;
static const allocation_type nothrow_allocation = (allocation_type)nothrow_allocation_v;
static const allocation_type zero_memory = (allocation_type)zero_memory_v;
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //BOOST_CONTAINER_ALLOCATION_TYPE_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2012-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_ALLOCATOR_VERSION_TRAITS_HPP
#define BOOST_CONTAINER_DETAIL_ALLOCATOR_VERSION_TRAITS_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/container/allocator_traits.hpp> //allocator_traits
#include <boost/container/throw_exception.hpp>
#include <boost/container/detail/multiallocation_chain.hpp> //multiallocation_chain
#include <boost/container/detail/version_type.hpp> //version_type
#include <boost/container/detail/allocation_type.hpp> //allocation_type
#include <boost/container/detail/mpl.hpp> //integral_constant
#include <boost/intrusive/pointer_traits.hpp> //pointer_traits
#include <boost/core/no_exceptions_support.hpp> //BOOST_TRY
namespace boost {
namespace container {
namespace dtl {
template<class Allocator, unsigned Version = boost::container::dtl::version<Allocator>::value>
struct allocator_version_traits
{
typedef ::boost::container::dtl::integral_constant
<unsigned, Version> alloc_version;
typedef typename Allocator::multiallocation_chain multiallocation_chain;
typedef typename boost::container::allocator_traits<Allocator>::pointer pointer;
typedef typename boost::container::allocator_traits<Allocator>::size_type size_type;
//Node allocation interface
static pointer allocate_one(Allocator &a)
{ return a.allocate_one(); }
static void deallocate_one(Allocator &a, const pointer &p)
{ a.deallocate_one(p); }
static void allocate_individual(Allocator &a, size_type n, multiallocation_chain &m)
{ return a.allocate_individual(n, m); }
static void deallocate_individual(Allocator &a, multiallocation_chain &holder)
{ a.deallocate_individual(holder); }
static pointer allocation_command(Allocator &a, allocation_type command,
size_type limit_size, size_type &prefer_in_recvd_out_size, pointer &reuse)
{ return a.allocation_command(command, limit_size, prefer_in_recvd_out_size, reuse); }
};
template<class Allocator>
struct allocator_version_traits<Allocator, 1>
{
typedef ::boost::container::dtl::integral_constant
<unsigned, 1> alloc_version;
typedef typename boost::container::allocator_traits<Allocator>::pointer pointer;
typedef typename boost::container::allocator_traits<Allocator>::size_type size_type;
typedef typename boost::container::allocator_traits<Allocator>::value_type value_type;
typedef typename boost::intrusive::pointer_traits<pointer>::
template rebind_pointer<void>::type void_ptr;
typedef dtl::basic_multiallocation_chain
<void_ptr> multialloc_cached_counted;
typedef boost::container::dtl::
transform_multiallocation_chain
< multialloc_cached_counted, value_type> multiallocation_chain;
//Node allocation interface
static pointer allocate_one(Allocator &a)
{ return a.allocate(1); }
static void deallocate_one(Allocator &a, const pointer &p)
{ a.deallocate(p, 1); }
static void deallocate_individual(Allocator &a, multiallocation_chain &holder)
{
size_type n = holder.size();
typename multiallocation_chain::iterator it = holder.begin();
while(n){
--n;
pointer p = boost::intrusive::pointer_traits<pointer>::pointer_to(*it);
++it;
a.deallocate(p, 1);
}
}
struct allocate_individual_rollback
{
allocate_individual_rollback(Allocator &a, multiallocation_chain &chain)
: mr_a(a), mp_chain(&chain)
{}
~allocate_individual_rollback()
{
if(mp_chain)
allocator_version_traits::deallocate_individual(mr_a, *mp_chain);
}
void release()
{
mp_chain = 0;
}
Allocator &mr_a;
multiallocation_chain * mp_chain;
};
static void allocate_individual(Allocator &a, size_type n, multiallocation_chain &m)
{
allocate_individual_rollback rollback(a, m);
while(n--){
m.push_front(a.allocate(1));
}
rollback.release();
}
static pointer allocation_command(Allocator &a, allocation_type command,
size_type, size_type &prefer_in_recvd_out_size, pointer &reuse)
{
pointer ret = pointer();
if(BOOST_UNLIKELY(!(command & allocate_new) && !(command & nothrow_allocation))){
throw_logic_error("version 1 allocator without allocate_new flag");
}
else{
BOOST_TRY{
ret = a.allocate(prefer_in_recvd_out_size);
}
BOOST_CATCH(...){
if(!(command & nothrow_allocation)){
BOOST_RETHROW
}
}
BOOST_CATCH_END
reuse = pointer();
}
return ret;
}
};
} //namespace dtl {
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif // ! defined(BOOST_CONTAINER_DETAIL_ALLOCATOR_VERSION_TRAITS_HPP)

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2007-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_AUTO_LINK_HPP_INCLUDED
#define BOOST_CONTAINER_DETAIL_AUTO_LINK_HPP_INCLUDED
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
//Define BOOST_CONTAINER_DYNAMIC_LINKING which is independent from BOOST_*_NO_LIB
//and is needed is some tests that need to disable some checks (like operator new replacements)
//that don't work across DLL boundaries
#if defined(BOOST_ALL_DYN_LINK) || defined(BOOST_CONTAINER_DYN_LINK)
# define BOOST_CONTAINER_DYNAMIC_LINKING
#endif
//
// Automatically link to the correct build variant where possible.
//
#if !defined(BOOST_ALL_NO_LIB) && !defined(BOOST_CONTAINER_NO_LIB) && !defined(BOOST_CONTAINER_SOURCE)
//
// Set the name of our library, this will get undef'ed by auto_link.hpp
// once it's done with it:
//
#define BOOST_LIB_NAME boost_container
//
// If we're importing code from a dll, then tell auto_link.hpp about it:
//
#if defined(BOOST_CONTAINER_DYNAMIC_LINKING)
# define BOOST_DYN_LINK
#endif
//
// And include the header that does the work:
//
#include <boost/config/auto_link.hpp>
#endif // auto-linking disabled
#endif //#ifndef BOOST_CONTAINER_DETAIL_AUTO_LINK_HPP_INCLUDED

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2015-2015. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_BLOCK_LIST_HEADER
#define BOOST_CONTAINER_DETAIL_BLOCK_LIST_HEADER
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/container/container_fwd.hpp>
#include <boost/container/pmr/memory_resource.hpp>
#include <boost/container/throw_exception.hpp>
#include <boost/intrusive/circular_list_algorithms.hpp>
#include <boost/move/detail/type_traits.hpp>
#include <boost/assert.hpp>
#include <boost/container/detail/placement_new.hpp>
#include <cstddef>
namespace boost {
namespace container {
namespace pmr {
struct list_node
{
list_node *next;
list_node *previous;
};
struct list_node_traits
{
typedef list_node node;
typedef list_node* node_ptr;
typedef const list_node* const_node_ptr;
static node_ptr get_next(const_node_ptr n)
{ return n->next; }
static node_ptr get_previous(const_node_ptr n)
{ return n->previous; }
static void set_next(const node_ptr & n, const node_ptr & next)
{ n->next = next; }
static void set_previous(const node_ptr & n, const node_ptr & previous)
{ n->previous = previous; }
};
struct block_list_header
: public list_node
{
std::size_t size;
};
typedef bi::circular_list_algorithms<list_node_traits> list_algo;
template<class DerivedFromBlockListHeader = block_list_header>
class block_list_base
{
list_node m_list;
static const std::size_t MaxAlignMinus1 = memory_resource::max_align-1u;
public:
static const std::size_t header_size = std::size_t(sizeof(DerivedFromBlockListHeader) + MaxAlignMinus1) & std::size_t(~MaxAlignMinus1);
explicit block_list_base()
{ list_algo::init_header(&m_list); }
#if !defined(BOOST_NO_CXX11_DELETED_FUNCTIONS) || defined(BOOST_CONTAINER_DOXYGEN_INVOKED)
block_list_base(const block_list_base&) = delete;
block_list_base operator=(const block_list_base&) = delete;
#else
private:
block_list_base (const block_list_base&);
block_list_base operator=(const block_list_base&);
public:
#endif
~block_list_base()
{}
void *allocate(std::size_t size, memory_resource &mr)
{
if((size_t(-1) - header_size) < size)
throw_bad_alloc();
void *p = mr.allocate(size+header_size);
block_list_header &mb = *::new((void*)p, boost_container_new_t()) DerivedFromBlockListHeader;
mb.size = size+header_size;
list_algo::link_after(&m_list, &mb);
return (char *)p + header_size;
}
void deallocate(void *p, memory_resource &mr) BOOST_NOEXCEPT
{
DerivedFromBlockListHeader *pheader = static_cast<DerivedFromBlockListHeader*>
(static_cast<void*>((char*)p - header_size));
list_algo::unlink(pheader);
const std::size_t size = pheader->size;
static_cast<DerivedFromBlockListHeader*>(pheader)->~DerivedFromBlockListHeader();
mr.deallocate(pheader, size, memory_resource::max_align);
}
void release(memory_resource &mr) BOOST_NOEXCEPT
{
list_node *n = list_algo::node_traits::get_next(&m_list);
while(n != &m_list){
DerivedFromBlockListHeader &d = static_cast<DerivedFromBlockListHeader&>(*n);
n = list_algo::node_traits::get_next(n);
std::size_t size = d.size;
d.~DerivedFromBlockListHeader();
mr.deallocate(reinterpret_cast<char*>(&d), size, memory_resource::max_align);
}
list_algo::init_header(&m_list);
}
};
} //namespace pmr {
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //BOOST_CONTAINER_DETAIL_BLOCK_LIST_HEADER

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2015-2015. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_BLOCK_SLIST_HEADER
#define BOOST_CONTAINER_DETAIL_BLOCK_SLIST_HEADER
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/container/container_fwd.hpp>
#include <boost/container/pmr/memory_resource.hpp>
#include <boost/container/throw_exception.hpp>
#include <boost/container/detail/placement_new.hpp>
#include <boost/move/detail/type_traits.hpp>
#include <boost/intrusive/linear_slist_algorithms.hpp>
#include <boost/assert.hpp>
#include <cstddef>
namespace boost {
namespace container {
namespace pmr {
struct slist_node
{
slist_node *next;
};
struct slist_node_traits
{
typedef slist_node node;
typedef slist_node* node_ptr;
typedef const slist_node* const_node_ptr;
static node_ptr get_next(const_node_ptr n)
{ return n->next; }
static void set_next(const node_ptr & n, const node_ptr & next)
{ n->next = next; }
};
struct block_slist_header
: public slist_node
{
std::size_t size;
};
typedef bi::linear_slist_algorithms<slist_node_traits> slist_algo;
template<class DerivedFromBlockSlistHeader = block_slist_header>
class block_slist_base
{
slist_node m_slist;
static const std::size_t MaxAlignMinus1 = memory_resource::max_align-1u;
public:
static const std::size_t header_size = std::size_t(sizeof(DerivedFromBlockSlistHeader) + MaxAlignMinus1) & std::size_t(~MaxAlignMinus1);
explicit block_slist_base()
{ slist_algo::init_header(&m_slist); }
#if !defined(BOOST_NO_CXX11_DELETED_FUNCTIONS) || defined(BOOST_CONTAINER_DOXYGEN_INVOKED)
block_slist_base(const block_slist_base&) = delete;
block_slist_base operator=(const block_slist_base&) = delete;
#else
private:
block_slist_base (const block_slist_base&);
block_slist_base operator=(const block_slist_base&);
public:
#endif
~block_slist_base()
{}
void *allocate(std::size_t size, memory_resource &mr)
{
if((size_t(-1) - header_size) < size)
throw_bad_alloc();
void *p = mr.allocate(size+header_size);
block_slist_header &mb = *::new((void*)p, boost_container_new_t()) DerivedFromBlockSlistHeader;
mb.size = size+header_size;
slist_algo::link_after(&m_slist, &mb);
return (char *)p + header_size;
}
void release(memory_resource &mr) BOOST_NOEXCEPT
{
slist_node *n = slist_algo::node_traits::get_next(&m_slist);
while(n){
DerivedFromBlockSlistHeader &d = static_cast<DerivedFromBlockSlistHeader&>(*n);
n = slist_algo::node_traits::get_next(n);
std::size_t size = d.block_slist_header::size;
d.~DerivedFromBlockSlistHeader();
mr.deallocate(reinterpret_cast<char*>(&d), size, memory_resource::max_align);
}
slist_algo::init_header(&m_slist);
}
};
class block_slist
: public block_slist_base<>
{
memory_resource &m_upstream_rsrc;
public:
explicit block_slist(memory_resource &upstream_rsrc)
: block_slist_base<>(), m_upstream_rsrc(upstream_rsrc)
{}
#if !defined(BOOST_NO_CXX11_DELETED_FUNCTIONS) || defined(BOOST_CONTAINER_DOXYGEN_INVOKED)
block_slist(const block_slist&) = delete;
block_slist operator=(const block_slist&) = delete;
#else
private:
block_slist (const block_slist&);
block_slist operator=(const block_slist&);
public:
#endif
~block_slist()
{ this->release(); }
void *allocate(std::size_t size)
{ return this->block_slist_base<>::allocate(size, m_upstream_rsrc); }
void release() BOOST_NOEXCEPT
{ return this->block_slist_base<>::release(m_upstream_rsrc); }
memory_resource& upstream_resource() const BOOST_NOEXCEPT
{ return m_upstream_rsrc; }
};
} //namespace pmr {
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //BOOST_CONTAINER_DETAIL_BLOCK_SLIST_HEADER

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///////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2014-2014. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
///////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_COMPARE_FUNCTORS_HPP
#define BOOST_CONTAINER_DETAIL_COMPARE_FUNCTORS_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/intrusive/detail/ebo_functor_holder.hpp>
#include <boost/container/detail/workaround.hpp>
namespace boost {
namespace container {
template<class ValueType>
class equal_to_value
{
typedef ValueType value_type;
const value_type &t_;
public:
explicit equal_to_value(const value_type &t)
: t_(t)
{}
bool operator()(const value_type &t)const
{ return t_ == t; }
};
template<class Node, class Pred, class Ret = bool>
struct value_to_node_compare
: Pred
{
typedef Pred predicate_type;
typedef Node node_type;
value_to_node_compare()
: Pred()
{}
explicit value_to_node_compare(Pred pred)
: Pred(pred)
{}
Ret operator()(const Node &a, const Node &b) const
{ return static_cast<const Pred&>(*this)(a.get_data(), b.get_data()); }
Ret operator()(const Node &a) const
{ return static_cast<const Pred&>(*this)(a.get_data()); }
Ret operator()(const Node &a, const Node &b)
{ return static_cast<Pred&>(*this)(a.get_data(), b.get_data()); }
Ret operator()(const Node &a)
{ return static_cast<Pred&>(*this)(a.get_data()); }
predicate_type & predicate() { return static_cast<predicate_type&>(*this); }
const predicate_type & predicate() const { return static_cast<predicate_type&>(*this); }
};
template<class KeyPred, class KeyOfValue, class Node, class Ret = bool>
struct key_node_pred
: public boost::intrusive::detail::ebo_functor_holder<KeyPred>
{
BOOST_CONTAINER_FORCEINLINE explicit key_node_pred(const KeyPred &comp)
: base_t(comp)
{}
typedef boost::intrusive::detail::ebo_functor_holder<KeyPred> base_t;
typedef KeyPred key_predicate;
typedef KeyOfValue key_of_value;
typedef typename KeyOfValue::type key_type;
BOOST_CONTAINER_FORCEINLINE static const key_type &key_from(const Node &n)
{
return key_of_value()(n.get_data());
}
template <class T>
BOOST_CONTAINER_FORCEINLINE static const T &
key_from(const T &t)
{ return t; }
BOOST_CONTAINER_FORCEINLINE const key_predicate &key_pred() const
{ return static_cast<const key_predicate &>(*this); }
BOOST_CONTAINER_FORCEINLINE key_predicate &key_pred()
{ return static_cast<key_predicate &>(*this); }
BOOST_CONTAINER_FORCEINLINE Ret operator()(const key_type &key) const
{ return this->key_pred()(key); }
template<class U>
BOOST_CONTAINER_FORCEINLINE Ret operator()(const U &nonkey) const
{ return this->key_pred()(this->key_from(nonkey)); }
BOOST_CONTAINER_FORCEINLINE bool operator()(const key_type &key1, const key_type &key2) const
{ return this->key_pred()(key1, key2); }
template<class U>
BOOST_CONTAINER_FORCEINLINE bool operator()(const key_type &key1, const U &nonkey2) const
{ return this->key_pred()(key1, this->key_from(nonkey2)); }
template<class U>
BOOST_CONTAINER_FORCEINLINE bool operator()(const U &nonkey1, const key_type &key2) const
{ return this->key_pred()(this->key_from(nonkey1), key2); }
template<class U, class V>
BOOST_CONTAINER_FORCEINLINE bool operator()(const U &nonkey1, const V &nonkey2) const
{ return this->key_pred()(this->key_from(nonkey1), this->key_from(nonkey2)); }
};
} //namespace container {
} //namespace boost {
#endif //BOOST_CONTAINER_DETAIL_COMPARE_FUNCTORS_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_CONTAINER_DETAIL_CONFIG_INCLUDED
#define BOOST_CONTAINER_CONTAINER_DETAIL_CONFIG_INCLUDED
#ifndef BOOST_CONFIG_HPP
#include <boost/config.hpp>
#endif
#endif //BOOST_CONTAINER_CONTAINER_DETAIL_CONFIG_INCLUDED
#ifdef BOOST_MSVC
#pragma warning (push)
#pragma warning (disable : 4127) // conditional expression is constant
#pragma warning (disable : 4146) // unary minus operator applied to unsigned type, result still unsigned
#pragma warning (disable : 4197) // top-level volatile in cast is ignored
#pragma warning (disable : 4251) // "identifier" : class "type" needs to have dll-interface to be used by clients of class "type2"
#pragma warning (disable : 4275) // non DLL-interface classkey "identifier" used as base for DLL-interface classkey "identifier"
#pragma warning (disable : 4284) // odd return type for operator->
#pragma warning (disable : 4290) // C++ exception specification ignored except to indicate a function is not __declspec(nothrow)
#pragma warning (disable : 4324) // structure was padded due to __declspec(align(
#pragma warning (disable : 4345) // behavior change: an object of POD type constructed with an initializer of the form () will be default-initialized
#pragma warning (disable : 4355) // "this" : used in base member initializer list
#pragma warning (disable : 4503) // "identifier" : decorated name length exceeded, name was truncated
#pragma warning (disable : 4510) // default constructor could not be generated
#pragma warning (disable : 4511) // copy constructor could not be generated
#pragma warning (disable : 4512) // assignment operator could not be generated
#pragma warning (disable : 4514) // unreferenced inline removed
#pragma warning (disable : 4521) // Disable "multiple copy constructors specified"
#pragma warning (disable : 4522) // "class" : multiple assignment operators specified
#pragma warning (disable : 4541) // 'typeid' used on polymorphic type '' with /GR-; unpredictable behavior may result
#pragma warning (disable : 4584) // X is already a base-class of Y
#pragma warning (disable : 4610) // struct can never be instantiated - user defined constructor required
#pragma warning (disable : 4671) // the copy constructor is inaccessible
#pragma warning (disable : 4673) // throwing '' the following types will not be considered at the catch site
#pragma warning (disable : 4675) // "method" should be declared "static" and have exactly one parameter
#pragma warning (disable : 4706) // assignment within conditional expression
#pragma warning (disable : 4710) // function not inlined
#pragma warning (disable : 4714) // "function": marked as __forceinline not inlined
#pragma warning (disable : 4711) // function selected for automatic inline expansion
#pragma warning (disable : 4786) // identifier truncated in debug info
#pragma warning (disable : 4996) // "function": was declared deprecated
#endif //BOOST_MSVC

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#if defined BOOST_MSVC
#pragma warning (pop)
#endif

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2014-2014.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_CONSTRUCT_IN_PLACE_HPP
#define BOOST_CONTAINER_DETAIL_CONSTRUCT_IN_PLACE_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/allocator_traits.hpp>
#include <boost/container/detail/iterators.hpp>
#include <boost/container/detail/value_init.hpp>
namespace boost {
namespace container {
//In place construction
struct iterator_arg_t{};
template<class Allocator, class T, class InpIt>
BOOST_CONTAINER_FORCEINLINE void construct_in_place(Allocator &a, T* dest, InpIt source)
{ boost::container::allocator_traits<Allocator>::construct(a, dest, *source); }
template<class Allocator, class T, class U>
BOOST_CONTAINER_FORCEINLINE void construct_in_place(Allocator &a, T *dest, value_init_construct_iterator<U>)
{
boost::container::allocator_traits<Allocator>::construct(a, dest);
}
template <class T>
class default_init_construct_iterator;
template<class Allocator, class T, class U>
BOOST_CONTAINER_FORCEINLINE void construct_in_place(Allocator &a, T *dest, default_init_construct_iterator<U>)
{
boost::container::allocator_traits<Allocator>::construct(a, dest, default_init);
}
template <class T, class EmplaceFunctor>
class emplace_iterator;
template<class Allocator, class T, class U, class EF>
BOOST_CONTAINER_FORCEINLINE void construct_in_place(Allocator &a, T *dest, emplace_iterator<U, EF> ei)
{
ei.construct_in_place(a, dest);
}
//Assignment
template<class DstIt, class InpIt>
BOOST_CONTAINER_FORCEINLINE void assign_in_place(DstIt dest, InpIt source)
{ *dest = *source; }
template<class DstIt, class U>
BOOST_CONTAINER_FORCEINLINE void assign_in_place(DstIt dest, value_init_construct_iterator<U>)
{
dtl::value_init<U> val;
*dest = boost::move(val.get());
}
template <class DstIt>
class default_init_construct_iterator;
template<class DstIt, class U, class D>
BOOST_CONTAINER_FORCEINLINE void assign_in_place(DstIt dest, default_init_construct_iterator<U>)
{
U u;
*dest = boost::move(u);
}
template <class T, class EmplaceFunctor>
class emplace_iterator;
template<class DstIt, class U, class EF>
BOOST_CONTAINER_FORCEINLINE void assign_in_place(DstIt dest, emplace_iterator<U, EF> ei)
{
ei.assign_in_place(dest);
}
} //namespace container {
} //namespace boost {
#endif //#ifndef BOOST_CONTAINER_DETAIL_CONSTRUCT_IN_PLACE_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2017-2017. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_CONTAINER_OR_ALLOCATOR_REBIND_HPP
#define BOOST_CONTAINER_DETAIL_CONTAINER_OR_ALLOCATOR_REBIND_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/allocator_traits.hpp>
#include <boost/container/detail/container_rebind.hpp>
#include <boost/container/detail/is_container.hpp>
namespace boost {
namespace container {
namespace dtl {
template<class AllocatorOrContainer, class ToType, bool = is_container<AllocatorOrContainer>::value>
struct container_or_allocator_rebind_impl
: container_rebind<AllocatorOrContainer, ToType>
{};
template<class AllocatorOrContainer, class ToType>
struct container_or_allocator_rebind_impl<AllocatorOrContainer, ToType, false>
: allocator_traits<AllocatorOrContainer>::template portable_rebind_alloc<ToType>
{};
template<class ToType>
struct container_or_allocator_rebind_impl<void, ToType, false>
: real_allocator<ToType, void>
{};
template<class AllocatorOrContainer, class ToType>
struct container_or_allocator_rebind
: container_or_allocator_rebind_impl<AllocatorOrContainer, ToType>
{};
} //namespace dtl {
} //namespace container {
} //namespace boost {
#endif //#ifndef BOOST_CONTAINER_DETAIL_CONTAINER_OR_ALLOCATOR_REBIND_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2017-2017. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_CONTAINER_REBIND_HPP
#define BOOST_CONTAINER_DETAIL_CONTAINER_REBIND_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/allocator_traits.hpp>
#include <boost/container/container_fwd.hpp>
namespace boost {
namespace container {
namespace dtl {
template <class Cont, class U>
struct container_rebind;
#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
template <template <class, class, class...> class Cont, typename V, typename A, class... An, class U>
struct container_rebind<Cont<V, A, An...>, U>
{
typedef Cont<U, typename allocator_traits<typename real_allocator<V, A>::type>::template portable_rebind_alloc<U>::type, An...> type;
};
//Needed for non-conforming compilers like GCC 4.3
template <template <class, class> class Cont, typename V, typename A, class U>
struct container_rebind<Cont<V, A>, U>
{
typedef Cont<U, typename allocator_traits<typename real_allocator<V, A>::type>::template portable_rebind_alloc<U>::type> type;
};
template <template <class> class Cont, typename V, class U>
struct container_rebind<Cont<V>, U>
{
typedef Cont<U> type;
};
#else //C++03 compilers
template <template <class> class Cont //0arg
, typename V
, class U>
struct container_rebind<Cont<V>, U>
{
typedef Cont<U> type;
};
template <template <class, class> class Cont //0arg
, typename V, typename A
, class U>
struct container_rebind<Cont<V, A>, U>
{
typedef Cont<U, typename allocator_traits<typename real_allocator<V, A>::type>::template portable_rebind_alloc<U>::type> type;
};
template <template <class, class, class> class Cont //1arg
, typename V, typename A, class P0
, class U>
struct container_rebind<Cont<V, A, P0>, U>
{
typedef Cont<U, typename allocator_traits<typename real_allocator<V, A>::type>::template portable_rebind_alloc<U>::type, P0> type;
};
template <template <class, class, class, class> class Cont //2arg
, typename V, typename A, class P0, class P1
, class U>
struct container_rebind<Cont<V, A, P0, P1>, U>
{
typedef Cont<U, typename allocator_traits<typename real_allocator<V, A>::type>::template portable_rebind_alloc<U>::type, P0, P1> type;
};
template <template <class, class, class, class, class> class Cont //3arg
, typename V, typename A, class P0, class P1, class P2
, class U>
struct container_rebind<Cont<V, A, P0, P1, P2>, U>
{
typedef Cont<U, typename allocator_traits<typename real_allocator<V, A>::type>::template portable_rebind_alloc<U>::type, P0, P1, P2> type;
};
template <template <class, class, class, class, class, class> class Cont //4arg
, typename V, typename A, class P0, class P1, class P2, class P3
, class U>
struct container_rebind<Cont<V, A, P0, P1, P2, P3>, U>
{
typedef Cont<U, typename allocator_traits<typename real_allocator<V, A>::type>::template portable_rebind_alloc<U>::type, P0, P1, P2, P3> type;
};
template <template <class, class, class, class, class, class, class> class Cont //5arg
, typename V, typename A, class P0, class P1, class P2, class P3, class P4
, class U>
struct container_rebind<Cont<V, A, P0, P1, P2, P3, P4>, U>
{
typedef Cont<U, typename allocator_traits<typename real_allocator<V, A>::type>::template portable_rebind_alloc<U>::type, P0, P1, P2, P3, P4> type;
};
template <template <class, class, class, class, class, class, class, class> class Cont //6arg
, typename V, typename A, class P0, class P1, class P2, class P3, class P4, class P5
, class U>
struct container_rebind<Cont<V, A, P0, P1, P2, P3, P4, P5>, U>
{
typedef Cont<U, typename allocator_traits<typename real_allocator<V, A>::type>::template portable_rebind_alloc<U>::type, P0, P1, P2, P3, P4, P5> type;
};
template <template <class, class, class, class, class, class, class, class, class> class Cont //7arg
, typename V, typename A, class P0, class P1, class P2, class P3, class P4, class P5, class P6
, class U>
struct container_rebind<Cont<V, A, P0, P1, P2, P3, P4, P5, P6>, U>
{
typedef Cont<U, typename allocator_traits<typename real_allocator<V, A>::type>::template portable_rebind_alloc<U>::type, P0, P1, P2, P3, P4, P5, P6> type;
};
template <template <class, class, class, class, class, class, class, class, class, class> class Cont //8arg
, typename V, typename A, class P0, class P1, class P2, class P3, class P4, class P5, class P6, class P7
, class U>
struct container_rebind<Cont<V, A, P0, P1, P2, P3, P4, P5, P6, P7>, U>
{
typedef Cont<U, typename allocator_traits<typename real_allocator<V, A>::type>::template portable_rebind_alloc<U>::type, P0, P1, P2, P3, P4, P5, P6, P7> type;
};
template <template <class, class, class, class, class, class, class, class, class, class, class> class Cont //9arg
, typename V, typename A, class P0, class P1, class P2, class P3, class P4, class P5, class P6, class P7, class P8
, class U>
struct container_rebind<Cont<V, A, P0, P1, P2, P3, P4, P5, P6, P7, P8>, U>
{
typedef Cont<U, typename allocator_traits<typename real_allocator<V, A>::type>::template portable_rebind_alloc<U>::type, P0, P1, P2, P3, P4, P5, P6, P7, P8> type;
};
#endif //!defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
//for small_vector,static_vector
template <typename V, std::size_t N, typename A, typename O, class U>
struct container_rebind<small_vector<V, N, A, O>, U>
{
typedef small_vector<U, N, typename allocator_traits<typename real_allocator<V, A>::type>::template portable_rebind_alloc<U>::type, O> type;
};
template <typename V, std::size_t N, typename O, class U>
struct container_rebind<static_vector<V, N, O>, U>
{
typedef static_vector<U, N, O> type;
};
} //namespace dtl {
} //namespace container {
} //namespace boost {
#endif //#ifndef BOOST_CONTAINER_DETAIL_CONTAINER_REBIND_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DESTROYERS_HPP
#define BOOST_CONTAINER_DESTROYERS_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/container/allocator_traits.hpp>
#include <boost/move/detail/to_raw_pointer.hpp>
#include <boost/container/detail/version_type.hpp>
namespace boost {
namespace container {
namespace dtl {
//!A deleter for scoped_ptr that deallocates the memory
//!allocated for an object using a STL allocator.
template <class Allocator>
struct scoped_deallocator
{
typedef allocator_traits<Allocator> allocator_traits_type;
typedef typename allocator_traits_type::pointer pointer;
typedef dtl::integral_constant<unsigned,
boost::container::dtl::
version<Allocator>::value> alloc_version;
private:
void priv_deallocate(version_1)
{ m_alloc.deallocate(m_ptr, 1); }
void priv_deallocate(version_2)
{ m_alloc.deallocate_one(m_ptr); }
BOOST_MOVABLE_BUT_NOT_COPYABLE(scoped_deallocator)
public:
pointer m_ptr;
Allocator& m_alloc;
scoped_deallocator(pointer p, Allocator& a)
: m_ptr(p), m_alloc(a)
{}
~scoped_deallocator()
{ if (m_ptr)priv_deallocate(alloc_version()); }
scoped_deallocator(BOOST_RV_REF(scoped_deallocator) o)
: m_ptr(o.m_ptr), m_alloc(o.m_alloc)
{ o.release(); }
pointer get() const
{ return m_ptr; }
void set(const pointer &p)
{ m_ptr = p; }
void release()
{ m_ptr = 0; }
};
template <class Allocator>
struct null_scoped_deallocator
{
typedef boost::container::allocator_traits<Allocator> AllocTraits;
typedef typename AllocTraits::pointer pointer;
null_scoped_deallocator(pointer, Allocator&, std::size_t)
{}
void release()
{}
pointer get() const
{ return pointer(); }
void set(const pointer &)
{}
};
//!A deleter for scoped_ptr that deallocates the memory
//!allocated for an array of objects using a STL allocator.
template <class Allocator>
struct scoped_array_deallocator
{
typedef boost::container::allocator_traits<Allocator> AllocTraits;
typedef typename AllocTraits::pointer pointer;
typedef typename AllocTraits::size_type size_type;
scoped_array_deallocator(pointer p, Allocator& a, std::size_t length)
: m_ptr(p), m_alloc(a), m_length(length) {}
~scoped_array_deallocator()
{ if (m_ptr) m_alloc.deallocate(m_ptr, size_type(m_length)); }
void release()
{ m_ptr = 0; }
private:
pointer m_ptr;
Allocator& m_alloc;
std::size_t m_length;
};
template <class Allocator>
struct null_scoped_array_deallocator
{
typedef boost::container::allocator_traits<Allocator> AllocTraits;
typedef typename AllocTraits::pointer pointer;
null_scoped_array_deallocator(pointer, Allocator&, std::size_t)
{}
void release()
{}
};
template <class Allocator>
struct scoped_node_destroy_deallocator
{
typedef boost::container::allocator_traits<Allocator> AllocTraits;
typedef typename AllocTraits::pointer pointer;
typedef dtl::integral_constant<unsigned,
boost::container::dtl::
version<Allocator>::value> alloc_version;
scoped_node_destroy_deallocator(pointer p, Allocator& a)
: m_ptr(p), m_alloc(a) {}
~scoped_node_destroy_deallocator()
{
if(m_ptr){
boost::movelib::to_raw_pointer(m_ptr)->destructor(m_alloc);
priv_deallocate(m_ptr, alloc_version());
}
}
void release()
{ m_ptr = 0; }
private:
void priv_deallocate(const pointer &p, version_1)
{ AllocTraits::deallocate(m_alloc, p, 1); }
void priv_deallocate(const pointer &p, version_2)
{ m_alloc.deallocate_one(p); }
pointer m_ptr;
Allocator& m_alloc;
};
//!A deleter for scoped_ptr that destroys
//!an object using a STL allocator.
template <class Allocator>
struct scoped_destructor_n
{
typedef boost::container::allocator_traits<Allocator> AllocTraits;
typedef typename AllocTraits::pointer pointer;
typedef typename AllocTraits::value_type value_type;
BOOST_CONTAINER_FORCEINLINE scoped_destructor_n(pointer p, Allocator& a, std::size_t n)
: m_p(p), m_a(a), m_n(n)
{}
BOOST_CONTAINER_FORCEINLINE void release()
{ m_p = 0; m_n = 0; }
BOOST_CONTAINER_FORCEINLINE void increment_size(std::size_t inc)
{ m_n += inc; }
BOOST_CONTAINER_FORCEINLINE void increment_size_backwards(std::size_t inc)
{ m_n += inc; m_p -= std::ptrdiff_t(inc); }
BOOST_CONTAINER_FORCEINLINE void shrink_forward(std::size_t inc)
{ m_n -= inc; m_p += std::ptrdiff_t(inc); }
~scoped_destructor_n()
{
if(m_n){
value_type *raw_ptr = boost::movelib::to_raw_pointer(m_p);
do {
--m_n;
AllocTraits::destroy(m_a, raw_ptr);
++raw_ptr;
} while(m_n);
}
}
private:
pointer m_p;
Allocator & m_a;
std::size_t m_n;
};
//!A deleter for scoped_ptr that destroys
//!an object using a STL allocator.
template <class Allocator>
struct null_scoped_destructor_n
{
typedef boost::container::allocator_traits<Allocator> AllocTraits;
typedef typename AllocTraits::pointer pointer;
BOOST_CONTAINER_FORCEINLINE null_scoped_destructor_n(pointer, Allocator&, std::size_t)
{}
BOOST_CONTAINER_FORCEINLINE void increment_size(std::size_t)
{}
BOOST_CONTAINER_FORCEINLINE void increment_size_backwards(std::size_t)
{}
BOOST_CONTAINER_FORCEINLINE void shrink_forward(std::size_t)
{}
BOOST_CONTAINER_FORCEINLINE void release()
{}
};
//!A deleter for scoped_ptr that destroys
//!an object using a STL allocator.
template <class Allocator>
struct scoped_destructor_range
{
typedef boost::container::allocator_traits<Allocator> AllocTraits;
typedef typename AllocTraits::pointer pointer;
typedef typename AllocTraits::value_type value_type;
BOOST_CONTAINER_FORCEINLINE scoped_destructor_range(pointer p, pointer e, Allocator& a)
: m_p(p), m_e(e), m_a(a)
{}
BOOST_CONTAINER_FORCEINLINE void release()
{ m_p = pointer(); m_e = pointer(); }
BOOST_CONTAINER_FORCEINLINE void set_end(pointer e)
{ m_e = e; }
BOOST_CONTAINER_FORCEINLINE void set_begin(pointer b)
{ m_p = b; }
BOOST_CONTAINER_FORCEINLINE void set_range(pointer b, pointer e)
{ m_p = b; m_e = e; }
~scoped_destructor_range()
{
while(m_p != m_e){
value_type *raw_ptr = boost::movelib::to_raw_pointer(m_p);
AllocTraits::destroy(m_a, raw_ptr);
++m_p;
}
}
private:
pointer m_p;
pointer m_e;
Allocator & m_a;
};
//!A deleter for scoped_ptr that destroys
//!an object using a STL allocator.
template <class Allocator>
struct null_scoped_destructor_range
{
typedef boost::container::allocator_traits<Allocator> AllocTraits;
typedef typename AllocTraits::pointer pointer;
BOOST_CONTAINER_FORCEINLINE null_scoped_destructor_range(pointer, pointer, Allocator&)
{}
BOOST_CONTAINER_FORCEINLINE void release()
{}
BOOST_CONTAINER_FORCEINLINE void set_end(pointer)
{}
BOOST_CONTAINER_FORCEINLINE void set_begin(pointer)
{}
BOOST_CONTAINER_FORCEINLINE void set_range(pointer, pointer)
{}
};
template<class Allocator>
class scoped_destructor
{
typedef boost::container::allocator_traits<Allocator> AllocTraits;
public:
typedef typename Allocator::value_type value_type;
BOOST_CONTAINER_FORCEINLINE scoped_destructor(Allocator &a, value_type *pv)
: pv_(pv), a_(a)
{}
BOOST_CONTAINER_FORCEINLINE ~scoped_destructor()
{
if(pv_){
AllocTraits::destroy(a_, pv_);
}
}
BOOST_CONTAINER_FORCEINLINE void release()
{ pv_ = 0; }
BOOST_CONTAINER_FORCEINLINE void set(value_type *ptr) { pv_ = ptr; }
BOOST_CONTAINER_FORCEINLINE value_type *get() const { return pv_; }
private:
value_type *pv_;
Allocator &a_;
};
template<class Allocator, class Value = typename Allocator::value_type>
class value_destructor
{
typedef boost::container::allocator_traits<Allocator> AllocTraits;
public:
typedef Value value_type;
BOOST_CONTAINER_FORCEINLINE value_destructor(Allocator &a, value_type &rv)
: rv_(rv), a_(a)
{}
BOOST_CONTAINER_FORCEINLINE ~value_destructor()
{
AllocTraits::destroy(a_, &rv_);
}
private:
value_type &rv_;
Allocator &a_;
};
template <class Allocator>
class allocator_node_destroyer
{
typedef boost::container::allocator_traits<Allocator> AllocTraits;
typedef typename AllocTraits::value_type value_type;
typedef typename AllocTraits::pointer pointer;
typedef dtl::integral_constant<unsigned,
boost::container::dtl::
version<Allocator>::value> alloc_version;
private:
Allocator & a_;
private:
BOOST_CONTAINER_FORCEINLINE void priv_deallocate(const pointer &p, version_1)
{ AllocTraits::deallocate(a_,p, 1); }
BOOST_CONTAINER_FORCEINLINE void priv_deallocate(const pointer &p, version_2)
{ a_.deallocate_one(p); }
public:
BOOST_CONTAINER_FORCEINLINE explicit allocator_node_destroyer(Allocator &a)
: a_(a)
{}
BOOST_CONTAINER_FORCEINLINE void operator()(const pointer &p)
{
boost::movelib::to_raw_pointer(p)->destructor(a_);
this->priv_deallocate(p, alloc_version());
}
};
template<class Allocator>
class scoped_node_destructor
{
typedef boost::container::allocator_traits<Allocator> AllocTraits;
public:
typedef typename Allocator::value_type value_type;
BOOST_CONTAINER_FORCEINLINE scoped_node_destructor(Allocator &a, value_type *pv)
: pv_(pv), a_(a)
{}
BOOST_CONTAINER_FORCEINLINE ~scoped_node_destructor()
{
if(pv_){
pv_->destructor(a_);
}
}
BOOST_CONTAINER_FORCEINLINE void release()
{ pv_ = 0; }
BOOST_CONTAINER_FORCEINLINE void set(value_type *ptr) { pv_ = ptr; }
BOOST_CONTAINER_FORCEINLINE value_type *get() const { return pv_; }
private:
value_type *pv_;
Allocator &a_;
};
template <class Allocator>
class allocator_node_destroyer_and_chain_builder
{
typedef allocator_traits<Allocator> allocator_traits_type;
typedef typename allocator_traits_type::value_type value_type;
typedef typename Allocator::multiallocation_chain multiallocation_chain;
Allocator & a_;
multiallocation_chain &c_;
public:
BOOST_CONTAINER_FORCEINLINE allocator_node_destroyer_and_chain_builder(Allocator &a, multiallocation_chain &c)
: a_(a), c_(c)
{}
BOOST_CONTAINER_FORCEINLINE void operator()(const typename Allocator::pointer &p)
{
boost::movelib::to_raw_pointer(p)->destructor(a_);
c_.push_back(p);
}
};
template <class Allocator>
class allocator_multialloc_chain_node_deallocator
{
typedef allocator_traits<Allocator> allocator_traits_type;
typedef typename allocator_traits_type::value_type value_type;
typedef typename Allocator::multiallocation_chain multiallocation_chain;
typedef allocator_node_destroyer_and_chain_builder<Allocator> chain_builder;
Allocator & a_;
multiallocation_chain c_;
public:
BOOST_CONTAINER_FORCEINLINE allocator_multialloc_chain_node_deallocator(Allocator &a)
: a_(a), c_()
{}
BOOST_CONTAINER_FORCEINLINE chain_builder get_chain_builder()
{ return chain_builder(a_, c_); }
BOOST_CONTAINER_FORCEINLINE ~allocator_multialloc_chain_node_deallocator()
{
a_.deallocate_individual(c_);
}
};
} //namespace dtl {
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //#ifndef BOOST_CONTAINER_DESTROYERS_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2015-2015. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DISPATCH_USES_ALLOCATOR_HPP
#define BOOST_CONTAINER_DISPATCH_USES_ALLOCATOR_HPP
#if defined (_MSC_VER)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/container/allocator_traits.hpp>
#include <boost/container/uses_allocator.hpp>
#include <boost/container/detail/addressof.hpp>
#include <boost/container/detail/mpl.hpp>
#include <boost/container/detail/is_pair.hpp>
#include <boost/container/detail/type_traits.hpp>
#if defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
#include <boost/move/detail/fwd_macros.hpp>
#else
#include <boost/container/detail/variadic_templates_tools.hpp>
#endif
#include <boost/move/utility_core.hpp>
#include <boost/core/no_exceptions_support.hpp>
namespace boost { namespace container {
namespace dtl {
// Check if we can detect is_convertible using advanced SFINAE expressions
#if !defined(BOOST_NO_CXX11_DECLTYPE) && !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
//! Code inspired by Mathias Gaunard's is_convertible.cpp found in the Boost mailing list
//! http://boost.2283326.n4.nabble.com/type-traits-is-constructible-when-decltype-is-supported-td3575452.html
//! Thanks Mathias!
//With variadic templates, we need a single class to implement the trait
template<class T, class ...Args>
struct is_constructible
{
typedef char yes_type;
struct no_type
{ char padding[2]; };
template<std::size_t N>
struct dummy;
template<class X>
static decltype(X(boost::move_detail::declval<Args>()...), true_type()) test(int);
template<class X>
static no_type test(...);
static const bool value = sizeof(test<T>(0)) == sizeof(yes_type);
};
template <class T, class InnerAlloc, class ...Args>
struct is_constructible_with_allocator_prefix
: is_constructible<T, allocator_arg_t, InnerAlloc, Args...>
{};
#else // #if !defined(BOOST_NO_SFINAE_EXPR) && !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
//Without advanced SFINAE expressions, we can't use is_constructible
//so backup to constructible_with_allocator_xxx
#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
template <class T, class InnerAlloc, class ...Args>
struct is_constructible_with_allocator_prefix
: constructible_with_allocator_prefix<T>
{};
template <class T, class InnerAlloc, class ...Args>
struct is_constructible_with_allocator_suffix
: constructible_with_allocator_suffix<T>
{};
#else // #if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
template <class T, class InnerAlloc, BOOST_MOVE_CLASSDFLT9>
struct is_constructible_with_allocator_prefix
: constructible_with_allocator_prefix<T>
{};
template <class T, class InnerAlloc, BOOST_MOVE_CLASSDFLT9>
struct is_constructible_with_allocator_suffix
: constructible_with_allocator_suffix<T>
{};
#endif // #if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
#endif // #if !defined(BOOST_NO_SFINAE_EXPR)
#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
template < typename ConstructAlloc
, typename ArgAlloc
, typename T
, class ...Args
>
BOOST_CONTAINER_FORCEINLINE typename dtl::enable_if_and
< void
, dtl::is_not_pair<T>
, dtl::not_< uses_allocator<T, typename remove_cvref<ArgAlloc>::type > >
>::type dispatch_uses_allocator
( ConstructAlloc & construct_alloc, BOOST_FWD_REF(ArgAlloc) arg_alloc, T* p, BOOST_FWD_REF(Args)...args)
{
(void)arg_alloc;
allocator_traits<ConstructAlloc>::construct(construct_alloc, p, ::boost::forward<Args>(args)...);
}
// allocator_arg_t
template < typename ConstructAlloc
, typename ArgAlloc
, typename T
, class ...Args
>
BOOST_CONTAINER_FORCEINLINE typename dtl::enable_if_and
< void
, dtl::is_not_pair<T>
, uses_allocator<T, typename remove_cvref<ArgAlloc>::type>
, is_constructible_with_allocator_prefix<T, ArgAlloc, Args...>
>::type dispatch_uses_allocator
( ConstructAlloc& construct_alloc, BOOST_FWD_REF(ArgAlloc) arg_alloc, T* p, BOOST_FWD_REF(Args) ...args)
{
allocator_traits<ConstructAlloc>::construct
( construct_alloc, p, allocator_arg
, ::boost::forward<ArgAlloc>(arg_alloc), ::boost::forward<Args>(args)...);
}
// allocator suffix
template < typename ConstructAlloc
, typename ArgAlloc
, typename T
, class ...Args
>
BOOST_CONTAINER_FORCEINLINE typename dtl::enable_if_and
< void
, dtl::is_not_pair<T>
, uses_allocator<T, typename remove_cvref<ArgAlloc>::type>
, dtl::not_<is_constructible_with_allocator_prefix<T, ArgAlloc, Args...> >
>::type dispatch_uses_allocator
( ConstructAlloc& construct_alloc, BOOST_FWD_REF(ArgAlloc) arg_alloc, T* p, BOOST_FWD_REF(Args)...args)
{
allocator_traits<ConstructAlloc>::construct
(construct_alloc, p, ::boost::forward<Args>(args)..., ::boost::forward<ArgAlloc>(arg_alloc));
}
#else //#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
#define BOOST_CONTAINER_SCOPED_ALLOCATOR_DISPATCH_USES_ALLOCATOR_CODE(N) \
template <typename ConstructAlloc, typename ArgAlloc, typename T BOOST_MOVE_I##N BOOST_MOVE_CLASS##N >\
BOOST_CONTAINER_FORCEINLINE typename dtl::enable_if_and\
< void\
, dtl::is_not_pair<T>\
, dtl::not_<uses_allocator<T, typename remove_cvref<ArgAlloc>::type> >\
>::type\
dispatch_uses_allocator\
(ConstructAlloc &construct_alloc, BOOST_FWD_REF(ArgAlloc) arg_alloc, T* p BOOST_MOVE_I##N BOOST_MOVE_UREF##N)\
{\
(void)arg_alloc;\
allocator_traits<ConstructAlloc>::construct(construct_alloc, p BOOST_MOVE_I##N BOOST_MOVE_FWD##N);\
}\
//
BOOST_MOVE_ITERATE_0TO9(BOOST_CONTAINER_SCOPED_ALLOCATOR_DISPATCH_USES_ALLOCATOR_CODE)
#undef BOOST_CONTAINER_SCOPED_ALLOCATOR_DISPATCH_USES_ALLOCATOR_CODE
#define BOOST_CONTAINER_SCOPED_ALLOCATOR_DISPATCH_USES_ALLOCATOR_CODE(N) \
template < typename ConstructAlloc, typename ArgAlloc, typename T BOOST_MOVE_I##N BOOST_MOVE_CLASS##N >\
BOOST_CONTAINER_FORCEINLINE typename dtl::enable_if_and\
< void\
, dtl::is_not_pair<T>\
, uses_allocator<T, typename remove_cvref<ArgAlloc>::type>\
, is_constructible_with_allocator_prefix<T, ArgAlloc BOOST_MOVE_I##N BOOST_MOVE_TARG##N>\
>::type\
dispatch_uses_allocator\
(ConstructAlloc& construct_alloc, BOOST_FWD_REF(ArgAlloc) arg_alloc, T* p BOOST_MOVE_I##N BOOST_MOVE_UREF##N)\
{\
allocator_traits<ConstructAlloc>::construct\
(construct_alloc, p, allocator_arg, ::boost::forward<ArgAlloc>(arg_alloc) BOOST_MOVE_I##N BOOST_MOVE_FWD##N);\
}\
//
BOOST_MOVE_ITERATE_0TO9(BOOST_CONTAINER_SCOPED_ALLOCATOR_DISPATCH_USES_ALLOCATOR_CODE)
#undef BOOST_CONTAINER_SCOPED_ALLOCATOR_DISPATCH_USES_ALLOCATOR_CODE
#define BOOST_CONTAINER_SCOPED_ALLOCATOR_DISPATCH_USES_ALLOCATOR_CODE(N) \
template < typename ConstructAlloc, typename ArgAlloc, typename T BOOST_MOVE_I##N BOOST_MOVE_CLASS##N >\
BOOST_CONTAINER_FORCEINLINE typename dtl::enable_if_and\
< void\
, dtl::is_not_pair<T>\
, uses_allocator<T, typename remove_cvref<ArgAlloc>::type>\
, dtl::not_<is_constructible_with_allocator_prefix<T, ArgAlloc BOOST_MOVE_I##N BOOST_MOVE_TARG##N> >\
>::type\
dispatch_uses_allocator\
(ConstructAlloc& construct_alloc, BOOST_FWD_REF(ArgAlloc) arg_alloc, T* p BOOST_MOVE_I##N BOOST_MOVE_UREF##N)\
{\
allocator_traits<ConstructAlloc>::construct\
(construct_alloc, p BOOST_MOVE_I##N BOOST_MOVE_FWD##N, ::boost::forward<ArgAlloc>(arg_alloc));\
}\
//
BOOST_MOVE_ITERATE_0TO9(BOOST_CONTAINER_SCOPED_ALLOCATOR_DISPATCH_USES_ALLOCATOR_CODE)
#undef BOOST_CONTAINER_SCOPED_ALLOCATOR_DISPATCH_USES_ALLOCATOR_CODE
#endif //#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
template < typename ConstructAlloc
, typename ArgAlloc
, typename Pair
> inline
BOOST_CONTAINER_DOC1ST(void, typename dtl::enable_if<dtl::is_pair<Pair> BOOST_MOVE_I void >::type)
dispatch_uses_allocator
( ConstructAlloc & construct_alloc
, BOOST_FWD_REF(ArgAlloc) arg_alloc
, Pair* p)
{
dispatch_uses_allocator(construct_alloc, arg_alloc, dtl::addressof(p->first));
BOOST_TRY{
dispatch_uses_allocator(construct_alloc, arg_alloc, dtl::addressof(p->second));
}
BOOST_CATCH(...) {
allocator_traits<ConstructAlloc>::destroy(construct_alloc, dtl::addressof(p->first));
BOOST_RETHROW
}
BOOST_CATCH_END
}
template < typename ConstructAlloc
, typename ArgAlloc
, class Pair, class U, class V>
BOOST_CONTAINER_DOC1ST(void, typename dtl::enable_if<dtl::is_pair<Pair> BOOST_MOVE_I void>::type)
dispatch_uses_allocator
( ConstructAlloc & construct_alloc
, BOOST_FWD_REF(ArgAlloc) arg_alloc
, Pair* p, BOOST_FWD_REF(U) x, BOOST_FWD_REF(V) y)
{
dispatch_uses_allocator(construct_alloc, arg_alloc, dtl::addressof(p->first), ::boost::forward<U>(x));
BOOST_TRY{
dispatch_uses_allocator(construct_alloc, arg_alloc, dtl::addressof(p->second), ::boost::forward<V>(y));
}
BOOST_CATCH(...){
allocator_traits<ConstructAlloc>::destroy(construct_alloc, dtl::addressof(p->first));
BOOST_RETHROW
}
BOOST_CATCH_END
}
template < typename ConstructAlloc
, typename ArgAlloc
, class Pair, class Pair2>
BOOST_CONTAINER_DOC1ST(void, typename dtl::enable_if< dtl::is_pair<Pair> BOOST_MOVE_I void >::type)
dispatch_uses_allocator
(ConstructAlloc & construct_alloc
, BOOST_FWD_REF(ArgAlloc) arg_alloc
, Pair* p, Pair2& x)
{ dispatch_uses_allocator(construct_alloc, arg_alloc, p, x.first, x.second); }
template < typename ConstructAlloc
, typename ArgAlloc
, class Pair, class Pair2>
typename dtl::enable_if_and
< void
, dtl::is_pair<Pair>
, dtl::not_<boost::move_detail::is_reference<Pair2> > >::type //This is needed for MSVC10 and ambiguous overloads
dispatch_uses_allocator
(ConstructAlloc & construct_alloc
, BOOST_FWD_REF(ArgAlloc) arg_alloc
, Pair* p, BOOST_RV_REF_BEG Pair2 BOOST_RV_REF_END x)
{ dispatch_uses_allocator(construct_alloc, arg_alloc, p, ::boost::move(x.first), ::boost::move(x.second)); }
//piecewise construction from boost::tuple
#define BOOST_DISPATCH_USES_ALLOCATOR_PIECEWISE_CONSTRUCT_BOOST_TUPLE_CODE(N,M)\
template< typename ConstructAlloc, typename ArgAlloc, class Pair \
, template<class, class, class, class, class, class, class, class, class, class> class BoostTuple \
BOOST_MOVE_I_IF(BOOST_MOVE_OR(N,M)) BOOST_MOVE_CLASS##N BOOST_MOVE_I_IF(BOOST_MOVE_AND(N,M)) BOOST_MOVE_CLASSQ##M > \
typename dtl::enable_if< dtl::is_pair<Pair> BOOST_MOVE_I void>::type\
dispatch_uses_allocator( ConstructAlloc & construct_alloc, BOOST_FWD_REF(ArgAlloc) arg_alloc, Pair* pair, piecewise_construct_t\
, BoostTuple<BOOST_MOVE_TARG##N BOOST_MOVE_I##N BOOST_MOVE_REPEAT(BOOST_MOVE_SUB(10,N),::boost::tuples::null_type)> p\
, BoostTuple<BOOST_MOVE_TARGQ##M BOOST_MOVE_I##M BOOST_MOVE_REPEAT(BOOST_MOVE_SUB(10,M),::boost::tuples::null_type)> q)\
{\
(void)p; (void)q;\
dispatch_uses_allocator\
(construct_alloc, arg_alloc, dtl::addressof(pair->first) BOOST_MOVE_I_IF(N) BOOST_MOVE_TMPL_GET##N);\
BOOST_TRY{\
dispatch_uses_allocator\
(construct_alloc, arg_alloc, dtl::addressof(pair->second) BOOST_MOVE_I_IF(M) BOOST_MOVE_TMPL_GETQ##M);\
}\
BOOST_CATCH(...) {\
allocator_traits<ConstructAlloc>::destroy(construct_alloc, dtl::addressof(pair->first));\
BOOST_RETHROW\
}\
BOOST_CATCH_END\
}\
//
BOOST_MOVE_ITER2D_0TOMAX(9, BOOST_DISPATCH_USES_ALLOCATOR_PIECEWISE_CONSTRUCT_BOOST_TUPLE_CODE)
#undef BOOST_DISPATCH_USES_ALLOCATOR_PIECEWISE_CONSTRUCT_BOOST_TUPLE_CODE
//piecewise construction from Std Tuple
#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
template< typename ConstructAlloc, typename ArgAlloc, class Pair
, template<class ...> class Tuple, class... Args1, class... Args2, size_t... Indexes1, size_t... Indexes2>
void dispatch_uses_allocator_index( ConstructAlloc & construct_alloc, BOOST_FWD_REF(ArgAlloc) arg_alloc, Pair* pair
, Tuple<Args1...>& t1, Tuple<Args2...>& t2, index_tuple<Indexes1...>, index_tuple<Indexes2...>)
{
(void)t1; (void)t2;
dispatch_uses_allocator(construct_alloc, arg_alloc, dtl::addressof(pair->first), ::boost::forward<Args1>(get<Indexes1>(t1))...);
BOOST_TRY{
dispatch_uses_allocator(construct_alloc, arg_alloc, dtl::addressof(pair->second), ::boost::forward<Args2>(get<Indexes2>(t2))...);
}
BOOST_CATCH(...){
allocator_traits<ConstructAlloc>::destroy(construct_alloc, dtl::addressof(pair->first));
BOOST_RETHROW
}
BOOST_CATCH_END
}
template< typename ConstructAlloc, typename ArgAlloc, class Pair
, template<class ...> class Tuple, class... Args1, class... Args2>
typename dtl::enable_if< dtl::is_pair<Pair>, void >::type
dispatch_uses_allocator( ConstructAlloc & construct_alloc, BOOST_FWD_REF(ArgAlloc) arg_alloc, Pair* pair, piecewise_construct_t
, Tuple<Args1...> t1, Tuple<Args2...> t2)
{
(dispatch_uses_allocator_index)( construct_alloc, arg_alloc, pair, t1, t2
, typename build_number_seq<sizeof...(Args1)>::type()
, typename build_number_seq<sizeof...(Args2)>::type());
}
#elif defined(BOOST_MSVC) && (_CPPLIB_VER == 520)
//MSVC 2010 tuple implementation
#define BOOST_DISPATCH_USES_ALLOCATOR_PIECEWISE_CONSTRUCT_MSVC2010_TUPLE_CODE(N,M)\
template< typename ConstructAlloc, typename ArgAlloc, class Pair\
, template<class, class, class, class, class, class, class, class, class, class> class StdTuple\
BOOST_MOVE_I_IF(BOOST_MOVE_OR(N,M)) BOOST_MOVE_CLASS##N BOOST_MOVE_I_IF(BOOST_MOVE_AND(N,M)) BOOST_MOVE_CLASSQ##M > \
typename dtl::enable_if< dtl::is_pair<Pair> BOOST_MOVE_I void>::type\
dispatch_uses_allocator(ConstructAlloc & construct_alloc, BOOST_FWD_REF(ArgAlloc) arg_alloc, Pair* pair, piecewise_construct_t\
, StdTuple<BOOST_MOVE_TARG##N BOOST_MOVE_I##N BOOST_MOVE_REPEAT(BOOST_MOVE_SUB(10,N),::std::tr1::_Nil)> p\
, StdTuple<BOOST_MOVE_TARGQ##M BOOST_MOVE_I##M BOOST_MOVE_REPEAT(BOOST_MOVE_SUB(10,M),::std::tr1::_Nil)> q)\
{\
(void)p; (void)q;\
dispatch_uses_allocator\
(construct_alloc, arg_alloc, dtl::addressof(pair->first) BOOST_MOVE_I_IF(N) BOOST_MOVE_GET_IDX##N);\
BOOST_TRY{\
dispatch_uses_allocator\
(construct_alloc, arg_alloc, dtl::addressof(pair->second) BOOST_MOVE_I_IF(M) BOOST_MOVE_GET_IDXQ##M);\
}\
BOOST_CATCH(...) {\
allocator_traits<ConstructAlloc>::destroy(construct_alloc, dtl::addressof(pair->first));\
BOOST_RETHROW\
}\
BOOST_CATCH_END\
}\
//
BOOST_MOVE_ITER2D_0TOMAX(9, BOOST_DISPATCH_USES_ALLOCATOR_PIECEWISE_CONSTRUCT_MSVC2010_TUPLE_CODE)
#undef BOOST_DISPATCH_USES_ALLOCATOR_PIECEWISE_CONSTRUCT_MSVC2010_TUPLE_CODE
#elif defined(BOOST_MSVC) && (_CPPLIB_VER == 540)
#if _VARIADIC_MAX >= 9
#define BOOST_DISPATCH_USES_ALLOCATOR_PIECEWISE_CONSTRUCT_MSVC2012_TUPLE_MAX_IT 9
#else
#define BOOST_DISPATCH_USES_ALLOCATOR_PIECEWISE_CONSTRUCT_MSVC2012_TUPLE_MAX_IT BOOST_MOVE_ADD(_VARIADIC_MAX, 1)
#endif
//MSVC 2012 tuple implementation
#define BOOST_DISPATCH_USES_ALLOCATOR_PIECEWISE_CONSTRUCT_MSVC2012_TUPLE_CODE(N,M)\
template< typename ConstructAlloc, typename ArgAlloc, class Pair\
, template<BOOST_MOVE_REPEAT(_VARIADIC_MAX, class), class, class, class> class StdTuple \
BOOST_MOVE_I_IF(BOOST_MOVE_OR(N,M)) BOOST_MOVE_CLASS##N BOOST_MOVE_I_IF(BOOST_MOVE_AND(N,M)) BOOST_MOVE_CLASSQ##M > \
typename dtl::enable_if< dtl::is_pair<Pair> BOOST_MOVE_I void>::type\
dispatch_uses_allocator\
( ConstructAlloc & construct_alloc, BOOST_FWD_REF(ArgAlloc) arg_alloc, Pair* pair, piecewise_construct_t\
, StdTuple<BOOST_MOVE_TARG##N BOOST_MOVE_I##N BOOST_MOVE_REPEAT(BOOST_MOVE_SUB(BOOST_MOVE_ADD(_VARIADIC_MAX, 3),N),::std::_Nil) > p\
, StdTuple<BOOST_MOVE_TARGQ##M BOOST_MOVE_I##M BOOST_MOVE_REPEAT(BOOST_MOVE_SUB(BOOST_MOVE_ADD(_VARIADIC_MAX, 3),M),::std::_Nil) > q)\
{\
(void)p; (void)q;\
dispatch_uses_allocator\
(construct_alloc, arg_alloc, dtl::addressof(pair->first) BOOST_MOVE_I_IF(N) BOOST_MOVE_GET_IDX##N);\
BOOST_TRY{\
dispatch_uses_allocator\
(construct_alloc, arg_alloc, dtl::addressof(pair->second) BOOST_MOVE_I_IF(M) BOOST_MOVE_GET_IDXQ##M);\
}\
BOOST_CATCH(...) {\
allocator_traits<ConstructAlloc>::destroy(construct_alloc, dtl::addressof(pair->first));\
BOOST_RETHROW\
}\
BOOST_CATCH_END\
}\
//
BOOST_MOVE_ITER2D_0TOMAX(BOOST_DISPATCH_USES_ALLOCATOR_PIECEWISE_CONSTRUCT_MSVC2012_TUPLE_MAX_IT, BOOST_DISPATCH_USES_ALLOCATOR_PIECEWISE_CONSTRUCT_MSVC2012_TUPLE_CODE)
#undef BOOST_DISPATCH_USES_ALLOCATOR_PIECEWISE_CONSTRUCT_MSVC2010_TUPLE_CODE
#undef BOOST_DISPATCH_USES_ALLOCATOR_PIECEWISE_CONSTRUCT_MSVC2012_TUPLE_MAX_IT
#endif //!defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
template < typename ConstructAlloc
, typename ArgAlloc
, class Pair, class KeyType, class ... Args>
typename dtl::enable_if< dtl::is_pair<Pair>, void >::type
dispatch_uses_allocator
(ConstructAlloc & construct_alloc, BOOST_FWD_REF(ArgAlloc) arg_alloc, Pair* p, try_emplace_t, BOOST_FWD_REF(KeyType) k, BOOST_FWD_REF(Args) ...args)
{
dispatch_uses_allocator(construct_alloc, arg_alloc, dtl::addressof(p->first), ::boost::forward<KeyType>(k));
BOOST_TRY{
dispatch_uses_allocator(construct_alloc, arg_alloc, dtl::addressof(p->second), ::boost::forward<Args>(args)...);
}
BOOST_CATCH(...) {
allocator_traits<ConstructAlloc>::destroy(construct_alloc, dtl::addressof(p->first));
BOOST_RETHROW
}
BOOST_CATCH_END
}
#else
#define BOOST_CONTAINER_DISPATCH_USES_ALLOCATOR_PAIR_TRY_EMPLACE_CODE(N) \
template <typename ConstructAlloc, typename ArgAlloc, class Pair, class KeyType BOOST_MOVE_I##N BOOST_MOVE_CLASS##N >\
inline typename dtl::enable_if\
< dtl::is_pair<Pair> BOOST_MOVE_I void >::type\
dispatch_uses_allocator\
(ConstructAlloc &construct_alloc, BOOST_FWD_REF(ArgAlloc) arg_alloc, Pair* p, try_emplace_t, \
BOOST_FWD_REF(KeyType) k BOOST_MOVE_I##N BOOST_MOVE_UREF##N)\
{\
dispatch_uses_allocator(construct_alloc, arg_alloc, dtl::addressof(p->first), ::boost::forward<KeyType>(k));\
BOOST_TRY{\
dispatch_uses_allocator(construct_alloc, arg_alloc, dtl::addressof(p->second) BOOST_MOVE_I##N BOOST_MOVE_FWD##N);\
}\
BOOST_CATCH(...) {\
allocator_traits<ConstructAlloc>::destroy(construct_alloc, dtl::addressof(p->first));\
BOOST_RETHROW\
}\
BOOST_CATCH_END\
}\
//
BOOST_MOVE_ITERATE_0TO9(BOOST_CONTAINER_DISPATCH_USES_ALLOCATOR_PAIR_TRY_EMPLACE_CODE)
#undef BOOST_CONTAINER_DISPATCH_USES_ALLOCATOR_PAIR_TRY_EMPLACE_CODE
#endif //!defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
} //namespace dtl
}} // namespace boost { namespace container {
#include <boost/container/detail/config_end.hpp>
#endif // BOOST_CONTAINER_DISPATCH_USES_ALLOCATOR_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2015-2015. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_ALLOC_LIB_HPP
#define BOOST_CONTAINER_DETAIL_ALLOC_LIB_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/container/detail/auto_link.hpp>
#include <boost/container/detail/alloc_lib.h>
namespace boost{
namespace container{
typedef boost_cont_command_ret_t dlmalloc_command_ret_t;
typedef boost_cont_memchain dlmalloc_memchain;
typedef boost_cont_memchain_it dlmalloc_memchain_it;
typedef boost_cont_malloc_stats_t dlmalloc_malloc_stats_t;
BOOST_CONTAINER_DECL size_t dlmalloc_size(const void *p);
BOOST_CONTAINER_DECL void* dlmalloc_malloc(size_t bytes);
BOOST_CONTAINER_DECL void dlmalloc_free(void* mem);
BOOST_CONTAINER_DECL void* dlmalloc_memalign(size_t bytes, size_t alignment);
BOOST_CONTAINER_DECL int dlmalloc_multialloc_nodes
(size_t n_elements, size_t elem_size, size_t contiguous_elements, boost_cont_memchain *pchain);
BOOST_CONTAINER_DECL int dlmalloc_multialloc_arrays
(size_t n_elements, const size_t *sizes, size_t sizeof_element, size_t contiguous_elements, boost_cont_memchain *pchain);
BOOST_CONTAINER_DECL void dlmalloc_multidealloc(boost_cont_memchain *pchain);
BOOST_CONTAINER_DECL size_t dlmalloc_footprint();
BOOST_CONTAINER_DECL size_t dlmalloc_allocated_memory();
BOOST_CONTAINER_DECL size_t dlmalloc_chunksize(const void *p);
BOOST_CONTAINER_DECL int dlmalloc_all_deallocated();
BOOST_CONTAINER_DECL boost_cont_malloc_stats_t dlmalloc_malloc_stats();
BOOST_CONTAINER_DECL size_t dlmalloc_in_use_memory();
BOOST_CONTAINER_DECL int dlmalloc_trim(size_t pad);
BOOST_CONTAINER_DECL int dlmalloc_mallopt(int parameter_number, int parameter_value);
BOOST_CONTAINER_DECL int dlmalloc_grow(void* oldmem, size_t minbytes, size_t maxbytes, size_t *received);
BOOST_CONTAINER_DECL int dlmalloc_shrink(void* oldmem, size_t minbytes, size_t maxbytes, size_t *received, int do_commit);
BOOST_CONTAINER_DECL void* dlmalloc_alloc(size_t minbytes, size_t preferred_bytes, size_t *received_bytes);
BOOST_CONTAINER_DECL int dlmalloc_malloc_check();
BOOST_CONTAINER_DECL boost_cont_command_ret_t dlmalloc_allocation_command
( allocation_type command
, size_t sizeof_object
, size_t limit_objects
, size_t preferred_objects
, size_t *received_objects
, void *reuse_ptr
);
BOOST_CONTAINER_DECL int dlmalloc_mallopt(int param_number, int value);
BOOST_CONTAINER_DECL void *dlmalloc_sync_create();
BOOST_CONTAINER_DECL void dlmalloc_sync_destroy(void *sync);
BOOST_CONTAINER_DECL bool dlmalloc_sync_lock(void *sync);
BOOST_CONTAINER_DECL void dlmalloc_sync_unlock(void *sync);
BOOST_CONTAINER_DECL bool dlmalloc_global_sync_lock();
BOOST_CONTAINER_DECL void dlmalloc_global_sync_unlock();
} //namespace container{
} //namespace boost{
#include <boost/container/detail/config_end.hpp>
#endif //BOOST_CONTAINER_DETAIL_ALLOC_LIB_HPP

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externals/vcpkg/packages/boost-container_x64-windows/include/boost/container/detail/function_detector.hpp vendored Executable file
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/////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2009-2013.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
/////////////////////////////////////////////////////////////////////////////
// This code was modified from the code posted by Alexandre Courpron in his
// article "Interface Detection" in The Code Project:
// http://www.codeproject.com/KB/architecture/Detector.aspx
///////////////////////////////////////////////////////////////////////////////
// Copyright 2007 Alexandre Courpron
//
// Permission to use, copy, modify, redistribute and sell this software,
// provided that this copyright notice appears on all copies of the software.
///////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_FUNCTION_DETECTOR_HPP
#define BOOST_CONTAINER_DETAIL_FUNCTION_DETECTOR_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
namespace boost {
namespace container {
namespace function_detector {
typedef char NotFoundType;
struct StaticFunctionType { NotFoundType x [2]; };
struct NonStaticFunctionType { NotFoundType x [3]; };
enum
{ NotFound = 0,
StaticFunction = sizeof( StaticFunctionType ) - sizeof( NotFoundType ),
NonStaticFunction = sizeof( NonStaticFunctionType ) - sizeof( NotFoundType )
};
} //namespace boost {
} //namespace container {
} //namespace function_detector {
#define BOOST_CONTAINER_CREATE_FUNCTION_DETECTOR(Identifier, InstantiationKey) \
namespace boost { \
namespace container { \
namespace function_detector { \
template < class T, \
class NonStaticType, \
class NonStaticConstType, \
class StaticType > \
class DetectMember_##InstantiationKey_##Identifier { \
template < NonStaticType > \
struct TestNonStaticNonConst ; \
\
template < NonStaticConstType > \
struct TestNonStaticConst ; \
\
template < StaticType > \
struct TestStatic ; \
\
template <class U > \
static NonStaticFunctionType Test( TestNonStaticNonConst<&U::Identifier>*, int ); \
\
template <class U > \
static NonStaticFunctionType Test( TestNonStaticConst<&U::Identifier>*, int ); \
\
template <class U> \
static StaticFunctionType Test( TestStatic<&U::Identifier>*, int ); \
\
template <class U> \
static NotFoundType Test( ... ); \
public : \
static const int check = NotFound + (sizeof(Test<T>(0, 0)) - sizeof(NotFoundType));\
};\
}}} //namespace boost::container::function_detector {
#define BOOST_CONTAINER_DETECT_FUNCTION(Class, InstantiationKey, ReturnType, Identifier, Params) \
::boost::container::function_detector::DetectMember_##InstantiationKey_##Identifier< Class,\
ReturnType (Class::*)Params,\
ReturnType (Class::*)Params const,\
ReturnType (*)Params \
>::check
#include <boost/container/detail/config_end.hpp>
#endif //@ifndef BOOST_CONTAINER_DETAIL_FUNCTION_DETECTOR_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Benedek Thaler 2015-2016
// (C) Copyright Ion Gaztanaga 2019-2020. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://erenon.hu/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_GUARDS_HPP
#define BOOST_CONTAINER_DETAIL_GUARDS_HPP
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/move/core.hpp> // BOOST_MOVABLE_BUT_NOT_COPYABLE
// move/detail
#if defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
#include <boost/move/detail/fwd_macros.hpp>
#endif
#include <boost/container/allocator_traits.hpp>
namespace boost {
namespace container {
namespace detail {
class null_construction_guard
{
public:
#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES) || defined(BOOST_CONTAINER_DOXYGEN_INVOKED)
template <typename... Args>
null_construction_guard(Args&&...) {}
#else
#define NULL_CONSTRUCTION_GUARD_CODE(N) \
BOOST_MOVE_TMPL_LT##N BOOST_MOVE_CLASS##N BOOST_MOVE_GT##N \
BOOST_CONTAINER_FORCEINLINE null_construction_guard(BOOST_MOVE_UREFANON##N)\
{}\
//
BOOST_MOVE_ITERATE_0TO9(NULL_CONSTRUCTION_GUARD_CODE)
#undef NULL_CONSTRUCTION_GUARD_CODE
#endif
void release() {}
void extend() {}
};
template <typename Allocator>
class construction_guard
{
typedef typename boost::container::allocator_traits<Allocator>::pointer pointer;
typedef typename boost::container::allocator_traits<Allocator>::size_type size_type;
BOOST_MOVABLE_BUT_NOT_COPYABLE(construction_guard)
public:
construction_guard()
: _alloc_ptr()
, _elem_count()
, _allocator()
{}
construction_guard(pointer alloc_ptr, Allocator& allocator)
:_alloc_ptr(alloc_ptr)
, _elem_count(0)
, _allocator(&allocator)
{}
construction_guard(BOOST_RV_REF(construction_guard) rhs)
:_alloc_ptr(rhs._alloc_ptr)
, _elem_count(rhs._elem_count)
, _allocator(rhs._allocator)
{
rhs._elem_count = 0;
}
~construction_guard()
{
while (_elem_count) {
--_elem_count;
boost::container::allocator_traits<Allocator>::destroy(*_allocator, _alloc_ptr++);
}
}
void release()
{
_elem_count = 0;
}
void extend()
{
++_elem_count;
}
private:
pointer _alloc_ptr;
size_type _elem_count;
Allocator* _allocator;
};
/**
* Has two ranges
*
* On success, destroys the first range (src),
* on failure, destroys the second range (dst).
*
* Can be used when copying/moving a range
*/
template <class Allocator>
class nand_construction_guard
{
typedef typename boost::container::allocator_traits<Allocator>::pointer pointer;
typedef typename boost::container::allocator_traits<Allocator>::size_type size_type;
construction_guard<Allocator> _src;
construction_guard<Allocator> _dst;
bool _dst_released;
public:
nand_construction_guard()
: _src()
, _dst()
, _dst_released(false)
{}
nand_construction_guard( pointer src, Allocator& src_alloc
, pointer dst, Allocator& dst_alloc)
:_src(src, src_alloc),
_dst(dst, dst_alloc),
_dst_released(false)
{}
void extend()
{
_src.extend();
_dst.extend();
}
void release() // on success
{
_dst.release();
_dst_released = true;
}
~nand_construction_guard()
{
if (! _dst_released) { _src.release(); }
}
};
template <typename Allocator>
class allocation_guard
{
typedef typename boost::container::allocator_traits<Allocator>::pointer pointer;
typedef typename boost::container::allocator_traits<Allocator>::size_type size_type;
BOOST_MOVABLE_BUT_NOT_COPYABLE(allocation_guard)
public:
allocation_guard(pointer alloc_ptr, size_type alloc_size, Allocator& allocator)
:_alloc_ptr(alloc_ptr),
_alloc_size(alloc_size),
_allocator(allocator)
{}
~allocation_guard()
{
if (_alloc_ptr)
{
boost::container::allocator_traits<Allocator>::deallocate(_allocator, _alloc_ptr, _alloc_size);
}
}
void release()
{
_alloc_ptr = 0;
}
private:
pointer _alloc_ptr;
size_type _alloc_size;
Allocator& _allocator;
};
}}} // namespace boost::container::detail
#include <boost/container/detail/config_end.hpp>
#endif // BOOST_CONTAINER_DETAIL_GUARDS_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2017-2017. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_IS_CONTAINER_HPP
#define BOOST_CONTAINER_DETAIL_IS_CONTAINER_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#if defined(BOOST_GCC) && (BOOST_GCC >= 40600)
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-result"
#endif
//empty
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_FUNCNAME empty
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_NS_BEG namespace boost { namespace container { namespace is_container_detail {
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_NS_END }}}
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_MIN 0
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_MAX 0
#include <boost/intrusive/detail/has_member_function_callable_with.hpp>
//size
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_FUNCNAME size
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_NS_BEG namespace boost { namespace container { namespace is_container_detail {
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_NS_END }}}
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_MIN 0
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_MAX 0
#include <boost/intrusive/detail/has_member_function_callable_with.hpp>
//#pragma GCC diagnostic ignored "-Wunused-result"
#if defined(BOOST_GCC) && (BOOST_GCC >= 40600)
#pragma GCC diagnostic pop
#endif
namespace boost {
namespace container {
namespace dtl {
template <class Container>
struct is_container
{
static const bool value =
boost::container::is_container_detail::
has_member_function_callable_with_size <const Container>::value &&
boost::container::is_container_detail::
has_member_function_callable_with_empty<const Container>::value;
};
template <>
struct is_container<void>
{
static const bool value = false;
};
} //namespace dtl {
} //namespace container {
} //namespace boost {
#endif //#ifndef BOOST_CONTAINER_DETAIL_IS_CONTAINER_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2017-2017. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_IS_CONTIGUOUS_CONTAINER_HPP
#define BOOST_CONTAINER_DETAIL_IS_CONTIGUOUS_CONTAINER_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#if defined(BOOST_GCC) && (BOOST_GCC >= 40600)
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-result"
#endif
//data
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_FUNCNAME data
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_NS_BEG namespace boost { namespace container { namespace is_contiguous_container_detail {
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_NS_END }}}
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_MIN 0
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_MAX 0
#include <boost/intrusive/detail/has_member_function_callable_with.hpp>
//back_free_capacity
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_FUNCNAME back_free_capacity
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_NS_BEG namespace boost { namespace container { namespace back_free_capacity_detail {
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_NS_END }}}
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_MIN 0
#define BOOST_INTRUSIVE_HAS_MEMBER_FUNCTION_CALLABLE_WITH_MAX 0
#include <boost/intrusive/detail/has_member_function_callable_with.hpp>
//#pragma GCC diagnostic ignored "-Wunused-result"
#if defined(BOOST_GCC) && (BOOST_GCC >= 40600)
#pragma GCC diagnostic pop
#endif
namespace boost {
namespace container {
namespace dtl {
template <class Container>
struct is_contiguous_container
{
static const bool value =
boost::container::is_contiguous_container_detail::
has_member_function_callable_with_data<Container>::value &&
boost::container::is_contiguous_container_detail::
has_member_function_callable_with_data<const Container>::value;
};
template < class Container
, bool = boost::container::back_free_capacity_detail::
has_member_function_callable_with_back_free_capacity<const Container>::value>
struct back_free_capacity
{
static typename Container::size_type get(const Container &c)
{ return c.back_free_capacity(); }
};
template < class Container>
struct back_free_capacity<Container, false>
{
static typename Container::size_type get(const Container &c)
{ return c.capacity() - c.size(); }
};
} //namespace dtl {
} //namespace container {
} //namespace boost {
#endif //#ifndef BOOST_CONTAINER_DETAIL_IS_CONTIGUOUS_CONTAINER_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_CONTAINER_DETAIL_IS_PAIR_HPP
#define BOOST_CONTAINER_CONTAINER_DETAIL_IS_PAIR_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/container/detail/std_fwd.hpp>
#if defined(BOOST_MSVC) && (_CPPLIB_VER == 520)
//MSVC 2010 tuple marker
namespace std { namespace tr1 { struct _Nil; }}
#elif defined(BOOST_MSVC) && (_CPPLIB_VER == 540)
//MSVC 2012 tuple marker
namespace std { struct _Nil; }
#endif
namespace boost {
namespace tuples {
struct null_type;
template <
class T0, class T1, class T2,
class T3, class T4, class T5,
class T6, class T7, class T8,
class T9>
class tuple;
} //namespace tuples {
} //namespace boost {
namespace boost {
namespace container {
struct try_emplace_t{};
namespace dtl {
template <class T1, class T2>
struct pair;
template <class T>
struct is_pair
{
static const bool value = false;
};
template <class T1, class T2>
struct is_pair< pair<T1, T2> >
{
static const bool value = true;
};
template <class T1, class T2>
struct is_pair< std::pair<T1, T2> >
{
static const bool value = true;
};
template <class T>
struct is_not_pair
{
static const bool value = !is_pair<T>::value;
};
} //namespace dtl {
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //#ifndef BOOST_CONTAINER_CONTAINER_DETAIL_IS_PAIR_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2016-2016. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_IS_SORTED_HPP
#define BOOST_CONTAINER_DETAIL_IS_SORTED_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
namespace boost {
namespace container {
namespace dtl {
template <class ForwardIterator, class Pred>
bool is_sorted (ForwardIterator first, ForwardIterator last, Pred pred)
{
if(first != last){
ForwardIterator next = first;
while (++next != last){
if(pred(*next, *first))
return false;
++first;
}
}
return true;
}
template <class ForwardIterator, class Pred>
bool is_sorted_and_unique (ForwardIterator first, ForwardIterator last, Pred pred)
{
if(first != last){
ForwardIterator next = first;
while (++next != last){
if(!pred(*first, *next))
return false;
++first;
}
}
return true;
}
} //namespace dtl {
} //namespace container {
} //namespace boost {
#endif //#ifndef BOOST_CONTAINER_DETAIL_IS_SORTED_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2014-2014.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_ITERATOR_HPP
#define BOOST_CONTAINER_DETAIL_ITERATOR_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/intrusive/detail/iterator.hpp>
#include <boost/move/utility_core.hpp>
#include <boost/container/detail/mpl.hpp>
namespace boost {
namespace container {
using ::boost::intrusive::iterator_traits;
using ::boost::intrusive::iter_difference;
using ::boost::intrusive::iter_category;
using ::boost::intrusive::iter_value;
using ::boost::intrusive::iter_size;
using ::boost::intrusive::iterator_distance;
using ::boost::intrusive::iterator_udistance;
using ::boost::intrusive::iterator_advance;
using ::boost::intrusive::iterator_uadvance;
using ::boost::intrusive::iterator;
using ::boost::intrusive::iterator_enable_if_tag;
using ::boost::intrusive::iterator_disable_if_tag;
using ::boost::intrusive::iterator_arrow_result;
template <class Container>
class back_emplacer
{
private:
Container& container;
public:
typedef std::output_iterator_tag iterator_category;
typedef void value_type;
typedef void difference_type;
typedef void pointer;
typedef void reference;
back_emplacer(Container& x)
: container(x)
{}
template<class U>
back_emplacer& operator=(BOOST_FWD_REF(U) value)
{
container.emplace_back(boost::forward<U>(value));
return *this;
}
back_emplacer& operator*() { return *this; }
back_emplacer& operator++() { return *this; }
back_emplacer& operator++(int){ return *this; }
};
#ifndef BOOST_CONTAINER_NO_CXX17_CTAD
template<class InputIterator>
using it_based_non_const_first_type_t = typename dtl::remove_const<typename iterator_traits<InputIterator>::value_type::first_type>::type;
template<class InputIterator>
using it_based_const_first_type_t = const typename dtl::remove_const<typename iterator_traits<InputIterator>::value_type::first_type>::type;
template<class InputIterator>
using it_based_second_type_t = typename iterator_traits<InputIterator>::value_type::second_type;
template<class InputIterator>
using it_based_value_type_t = typename iterator_traits<InputIterator>::value_type;
#endif
} //namespace container {
} //namespace boost {
#endif //#ifndef BOOST_CONTAINER_DETAIL_ITERATORS_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2014-2015. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_ITERATOR_TO_RAW_POINTER_HPP
#define BOOST_CONTAINER_DETAIL_ITERATOR_TO_RAW_POINTER_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/move/detail/iterator_to_raw_pointer.hpp>
namespace boost {
namespace container {
namespace dtl {
using ::boost::movelib::iterator_to_raw_pointer;
} //namespace dtl {
} //namespace container {
} //namespace boost {
#endif //#ifndef BOOST_CONTAINER_DETAIL_ITERATOR_TO_RAW_POINTER_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013.
// (C) Copyright Gennaro Prota 2003 - 2004.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_ITERATORS_HPP
#define BOOST_CONTAINER_DETAIL_ITERATORS_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/container/allocator_traits.hpp>
#include <boost/container/detail/type_traits.hpp>
#include <boost/container/detail/value_init.hpp>
#include <boost/static_assert.hpp>
#include <boost/move/utility_core.hpp>
#include <boost/intrusive/detail/reverse_iterator.hpp>
#if defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
#include <boost/move/detail/fwd_macros.hpp>
#else
#include <boost/container/detail/variadic_templates_tools.hpp>
#endif
#include <boost/container/detail/iterator.hpp>
namespace boost {
namespace container {
template <class T>
class constant_iterator
: public ::boost::container::iterator
<std::random_access_iterator_tag, T, std::ptrdiff_t, const T*, const T &>
{
typedef constant_iterator<T> this_type;
public:
BOOST_CONTAINER_FORCEINLINE explicit constant_iterator(const T &ref, std::size_t range_size)
: m_ptr(&ref), m_num(range_size){}
//Constructors
BOOST_CONTAINER_FORCEINLINE constant_iterator()
: m_ptr(0), m_num(0){}
BOOST_CONTAINER_FORCEINLINE constant_iterator& operator++()
{ increment(); return *this; }
BOOST_CONTAINER_FORCEINLINE constant_iterator operator++(int)
{
constant_iterator result (*this);
increment();
return result;
}
BOOST_CONTAINER_FORCEINLINE constant_iterator& operator--()
{ decrement(); return *this; }
BOOST_CONTAINER_FORCEINLINE constant_iterator operator--(int)
{
constant_iterator result (*this);
decrement();
return result;
}
BOOST_CONTAINER_FORCEINLINE friend bool operator== (const constant_iterator& i, const constant_iterator& i2)
{ return i.equal(i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator!= (const constant_iterator& i, const constant_iterator& i2)
{ return !(i == i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator< (const constant_iterator& i, const constant_iterator& i2)
{ return i.less(i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator> (const constant_iterator& i, const constant_iterator& i2)
{ return i2 < i; }
BOOST_CONTAINER_FORCEINLINE friend bool operator<= (const constant_iterator& i, const constant_iterator& i2)
{ return !(i > i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator>= (const constant_iterator& i, const constant_iterator& i2)
{ return !(i < i2); }
BOOST_CONTAINER_FORCEINLINE friend std::ptrdiff_t operator- (const constant_iterator& i, const constant_iterator& i2)
{ return i2.distance_to(i); }
//Arithmetic signed
BOOST_CONTAINER_FORCEINLINE constant_iterator& operator+=(std::ptrdiff_t off)
{ this->advance(off); return *this; }
BOOST_CONTAINER_FORCEINLINE constant_iterator operator+(std::ptrdiff_t off) const
{
constant_iterator other(*this);
other.advance(off);
return other;
}
BOOST_CONTAINER_FORCEINLINE friend constant_iterator operator+(std::ptrdiff_t off, const constant_iterator& right)
{ return right + off; }
BOOST_CONTAINER_FORCEINLINE constant_iterator& operator-=(std::ptrdiff_t off)
{ this->advance(-off); return *this; }
BOOST_CONTAINER_FORCEINLINE constant_iterator operator-(std::ptrdiff_t off) const
{ return *this + (-off); }
BOOST_CONTAINER_FORCEINLINE const T& operator[] (std::ptrdiff_t ) const
{ return dereference(); }
BOOST_CONTAINER_FORCEINLINE const T& operator*() const
{ return dereference(); }
BOOST_CONTAINER_FORCEINLINE const T* operator->() const
{ return &(dereference()); }
//Arithmetic unsigned
BOOST_CONTAINER_FORCEINLINE constant_iterator& operator+=(std::size_t off)
{ return *this += std::ptrdiff_t(off); }
BOOST_CONTAINER_FORCEINLINE constant_iterator operator+(std::size_t off) const
{ return *this + std::ptrdiff_t(off); }
BOOST_CONTAINER_FORCEINLINE friend constant_iterator operator+(std::size_t off, const constant_iterator& right)
{ return std::ptrdiff_t(off) + right; }
BOOST_CONTAINER_FORCEINLINE constant_iterator& operator-=(std::size_t off)
{ return *this -= std::ptrdiff_t(off); }
BOOST_CONTAINER_FORCEINLINE constant_iterator operator-(std::size_t off) const
{ return *this - std::ptrdiff_t(off); }
BOOST_CONTAINER_FORCEINLINE const T& operator[] (std::size_t off) const
{ return (*this)[std::ptrdiff_t(off)]; }
private:
const T * m_ptr;
std::size_t m_num;
BOOST_CONTAINER_FORCEINLINE void increment()
{ --m_num; }
BOOST_CONTAINER_FORCEINLINE void decrement()
{ ++m_num; }
BOOST_CONTAINER_FORCEINLINE bool equal(const this_type &other) const
{ return m_num == other.m_num; }
BOOST_CONTAINER_FORCEINLINE bool less(const this_type &other) const
{ return other.m_num < m_num; }
BOOST_CONTAINER_FORCEINLINE const T & dereference() const
{ return *m_ptr; }
BOOST_CONTAINER_FORCEINLINE void advance(std::ptrdiff_t n)
{ m_num = std::size_t(std::ptrdiff_t(m_num) - n); }
BOOST_CONTAINER_FORCEINLINE std::ptrdiff_t distance_to(const this_type &other)const
{ return std::ptrdiff_t(m_num - other.m_num); }
};
template <class T>
class value_init_construct_iterator
: public ::boost::container::iterator
<std::random_access_iterator_tag, T, std::ptrdiff_t, const T*, const T &>
{
typedef value_init_construct_iterator<T> this_type;
public:
BOOST_CONTAINER_FORCEINLINE explicit value_init_construct_iterator(std::size_t range_size)
: m_num(range_size){}
//Constructors
BOOST_CONTAINER_FORCEINLINE value_init_construct_iterator()
: m_num(0){}
BOOST_CONTAINER_FORCEINLINE value_init_construct_iterator& operator++()
{ increment(); return *this; }
BOOST_CONTAINER_FORCEINLINE value_init_construct_iterator operator++(int)
{
value_init_construct_iterator result (*this);
increment();
return result;
}
BOOST_CONTAINER_FORCEINLINE value_init_construct_iterator& operator--()
{ decrement(); return *this; }
BOOST_CONTAINER_FORCEINLINE value_init_construct_iterator operator--(int)
{
value_init_construct_iterator result (*this);
decrement();
return result;
}
BOOST_CONTAINER_FORCEINLINE friend bool operator== (const value_init_construct_iterator& i, const value_init_construct_iterator& i2)
{ return i.equal(i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator!= (const value_init_construct_iterator& i, const value_init_construct_iterator& i2)
{ return !(i == i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator< (const value_init_construct_iterator& i, const value_init_construct_iterator& i2)
{ return i.less(i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator> (const value_init_construct_iterator& i, const value_init_construct_iterator& i2)
{ return i2 < i; }
BOOST_CONTAINER_FORCEINLINE friend bool operator<= (const value_init_construct_iterator& i, const value_init_construct_iterator& i2)
{ return !(i > i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator>= (const value_init_construct_iterator& i, const value_init_construct_iterator& i2)
{ return !(i < i2); }
BOOST_CONTAINER_FORCEINLINE friend std::ptrdiff_t operator- (const value_init_construct_iterator& i, const value_init_construct_iterator& i2)
{ return i2.distance_to(i); }
//Arithmetic
BOOST_CONTAINER_FORCEINLINE value_init_construct_iterator& operator+=(std::ptrdiff_t off)
{ this->advance(off); return *this; }
BOOST_CONTAINER_FORCEINLINE value_init_construct_iterator operator+(std::ptrdiff_t off) const
{
value_init_construct_iterator other(*this);
other.advance(off);
return other;
}
BOOST_CONTAINER_FORCEINLINE friend value_init_construct_iterator operator+(std::ptrdiff_t off, const value_init_construct_iterator& right)
{ return right + off; }
BOOST_CONTAINER_FORCEINLINE value_init_construct_iterator& operator-=(std::ptrdiff_t off)
{ this->advance(-off); return *this; }
BOOST_CONTAINER_FORCEINLINE value_init_construct_iterator operator-(std::ptrdiff_t off) const
{ return *this + (-off); }
//This pseudo-iterator's dereference operations have no sense since value is not
//constructed until ::boost::container::construct_in_place is called.
//So comment them to catch bad uses
//const T& operator*() const;
//const T& operator[](difference_type) const;
//const T* operator->() const;
private:
std::size_t m_num;
BOOST_CONTAINER_FORCEINLINE void increment()
{ --m_num; }
BOOST_CONTAINER_FORCEINLINE void decrement()
{ ++m_num; }
BOOST_CONTAINER_FORCEINLINE bool equal(const this_type &other) const
{ return m_num == other.m_num; }
BOOST_CONTAINER_FORCEINLINE bool less(const this_type &other) const
{ return other.m_num < m_num; }
BOOST_CONTAINER_FORCEINLINE const T & dereference() const
{
static T dummy;
return dummy;
}
BOOST_CONTAINER_FORCEINLINE void advance(std::ptrdiff_t n)
{ m_num = std::size_t(std::ptrdiff_t(m_num) - n); }
BOOST_CONTAINER_FORCEINLINE std::ptrdiff_t distance_to(const this_type &other)const
{ return std::ptrdiff_t(m_num - other.m_num); }
};
template <class T>
class default_init_construct_iterator
: public ::boost::container::iterator
<std::random_access_iterator_tag, T, std::ptrdiff_t, const T*, const T &>
{
typedef default_init_construct_iterator<T> this_type;
public:
BOOST_CONTAINER_FORCEINLINE explicit default_init_construct_iterator(std::size_t range_size)
: m_num(range_size){}
//Constructors
BOOST_CONTAINER_FORCEINLINE default_init_construct_iterator()
: m_num(0){}
BOOST_CONTAINER_FORCEINLINE default_init_construct_iterator& operator++()
{ increment(); return *this; }
BOOST_CONTAINER_FORCEINLINE default_init_construct_iterator operator++(int)
{
default_init_construct_iterator result (*this);
increment();
return result;
}
BOOST_CONTAINER_FORCEINLINE default_init_construct_iterator& operator--()
{ decrement(); return *this; }
BOOST_CONTAINER_FORCEINLINE default_init_construct_iterator operator--(int)
{
default_init_construct_iterator result (*this);
decrement();
return result;
}
BOOST_CONTAINER_FORCEINLINE friend bool operator== (const default_init_construct_iterator& i, const default_init_construct_iterator& i2)
{ return i.equal(i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator!= (const default_init_construct_iterator& i, const default_init_construct_iterator& i2)
{ return !(i == i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator< (const default_init_construct_iterator& i, const default_init_construct_iterator& i2)
{ return i.less(i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator> (const default_init_construct_iterator& i, const default_init_construct_iterator& i2)
{ return i2 < i; }
BOOST_CONTAINER_FORCEINLINE friend bool operator<= (const default_init_construct_iterator& i, const default_init_construct_iterator& i2)
{ return !(i > i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator>= (const default_init_construct_iterator& i, const default_init_construct_iterator& i2)
{ return !(i < i2); }
BOOST_CONTAINER_FORCEINLINE friend std::ptrdiff_t operator- (const default_init_construct_iterator& i, const default_init_construct_iterator& i2)
{ return i2.distance_to(i); }
//Arithmetic
BOOST_CONTAINER_FORCEINLINE default_init_construct_iterator& operator+=(std::ptrdiff_t off)
{ this->advance(off); return *this; }
BOOST_CONTAINER_FORCEINLINE default_init_construct_iterator operator+(std::ptrdiff_t off) const
{
default_init_construct_iterator other(*this);
other.advance(off);
return other;
}
BOOST_CONTAINER_FORCEINLINE friend default_init_construct_iterator operator+(std::ptrdiff_t off, const default_init_construct_iterator& right)
{ return right + off; }
BOOST_CONTAINER_FORCEINLINE default_init_construct_iterator& operator-=(std::ptrdiff_t off)
{ this->advance(-off); return *this; }
BOOST_CONTAINER_FORCEINLINE default_init_construct_iterator operator-(std::ptrdiff_t off) const
{ return *this + (-off); }
//This pseudo-iterator's dereference operations have no sense since value is not
//constructed until ::boost::container::construct_in_place is called.
//So comment them to catch bad uses
//const T& operator*() const;
//const T& operator[](difference_type) const;
//const T* operator->() const;
private:
std::size_t m_num;
BOOST_CONTAINER_FORCEINLINE void increment()
{ --m_num; }
BOOST_CONTAINER_FORCEINLINE void decrement()
{ ++m_num; }
BOOST_CONTAINER_FORCEINLINE bool equal(const this_type &other) const
{ return m_num == other.m_num; }
BOOST_CONTAINER_FORCEINLINE bool less(const this_type &other) const
{ return other.m_num < m_num; }
BOOST_CONTAINER_FORCEINLINE const T & dereference() const
{
static T dummy;
return dummy;
}
BOOST_CONTAINER_FORCEINLINE void advance(std::ptrdiff_t n)
{ m_num = std::size_t(std::ptrdiff_t(m_num) - n); }
BOOST_CONTAINER_FORCEINLINE std::ptrdiff_t distance_to(const this_type &other) const
{ return std::ptrdiff_t(m_num - other.m_num); }
};
template <class T>
class repeat_iterator
: public ::boost::container::iterator
<std::random_access_iterator_tag, T, std::ptrdiff_t, T*, T&>
{
typedef repeat_iterator<T> this_type;
public:
BOOST_CONTAINER_FORCEINLINE explicit repeat_iterator(T &ref, std::size_t range_size)
: m_ptr(&ref), m_num(range_size){}
//Constructors
BOOST_CONTAINER_FORCEINLINE repeat_iterator()
: m_ptr(0), m_num(0){}
BOOST_CONTAINER_FORCEINLINE this_type& operator++()
{ increment(); return *this; }
BOOST_CONTAINER_FORCEINLINE this_type operator++(int)
{
this_type result (*this);
increment();
return result;
}
BOOST_CONTAINER_FORCEINLINE this_type& operator--()
{ increment(); return *this; }
BOOST_CONTAINER_FORCEINLINE this_type operator--(int)
{
this_type result (*this);
increment();
return result;
}
BOOST_CONTAINER_FORCEINLINE friend bool operator== (const this_type& i, const this_type& i2)
{ return i.equal(i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator!= (const this_type& i, const this_type& i2)
{ return !(i == i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator< (const this_type& i, const this_type& i2)
{ return i.less(i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator> (const this_type& i, const this_type& i2)
{ return i2 < i; }
BOOST_CONTAINER_FORCEINLINE friend bool operator<= (const this_type& i, const this_type& i2)
{ return !(i > i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator>= (const this_type& i, const this_type& i2)
{ return !(i < i2); }
BOOST_CONTAINER_FORCEINLINE friend std::ptrdiff_t operator- (const this_type& i, const this_type& i2)
{ return i2.distance_to(i); }
//Arithmetic
BOOST_CONTAINER_FORCEINLINE this_type& operator+=(std::ptrdiff_t off)
{ this->advance(off); return *this; }
BOOST_CONTAINER_FORCEINLINE this_type operator+(std::ptrdiff_t off) const
{
this_type other(*this);
other.advance(off);
return other;
}
BOOST_CONTAINER_FORCEINLINE friend this_type operator+(std::ptrdiff_t off, const this_type& right)
{ return right + off; }
BOOST_CONTAINER_FORCEINLINE this_type& operator-=(std::ptrdiff_t off)
{ this->advance(-off); return *this; }
BOOST_CONTAINER_FORCEINLINE this_type operator-(std::ptrdiff_t off) const
{ return *this + (-off); }
BOOST_CONTAINER_FORCEINLINE T& operator*() const
{ return dereference(); }
BOOST_CONTAINER_FORCEINLINE T& operator[] (std::ptrdiff_t ) const
{ return dereference(); }
BOOST_CONTAINER_FORCEINLINE T *operator->() const
{ return &(dereference()); }
private:
T * m_ptr;
std::size_t m_num;
BOOST_CONTAINER_FORCEINLINE void increment()
{ --m_num; }
BOOST_CONTAINER_FORCEINLINE void decrement()
{ ++m_num; }
BOOST_CONTAINER_FORCEINLINE bool equal(const this_type &other) const
{ return m_num == other.m_num; }
BOOST_CONTAINER_FORCEINLINE bool less(const this_type &other) const
{ return other.m_num < m_num; }
BOOST_CONTAINER_FORCEINLINE T & dereference() const
{ return *m_ptr; }
BOOST_CONTAINER_FORCEINLINE void advance(std::ptrdiff_t n)
{ m_num = std::size_t(std::ptrdiff_t(m_num - n)); }
BOOST_CONTAINER_FORCEINLINE std::ptrdiff_t distance_to(const this_type &other)const
{ return std::ptrdiff_t(m_num - other.m_num); }
};
template <class T, class EmplaceFunctor>
class emplace_iterator
: public ::boost::container::iterator
<std::random_access_iterator_tag, T, std::ptrdiff_t, const T*, const T &>
{
typedef emplace_iterator this_type;
public:
typedef std::ptrdiff_t difference_type;
BOOST_CONTAINER_FORCEINLINE explicit emplace_iterator(EmplaceFunctor&e)
: m_num(1), m_pe(&e){}
BOOST_CONTAINER_FORCEINLINE emplace_iterator()
: m_num(0), m_pe(0){}
BOOST_CONTAINER_FORCEINLINE this_type& operator++()
{ increment(); return *this; }
BOOST_CONTAINER_FORCEINLINE this_type operator++(int)
{
this_type result (*this);
increment();
return result;
}
BOOST_CONTAINER_FORCEINLINE this_type& operator--()
{ decrement(); return *this; }
BOOST_CONTAINER_FORCEINLINE this_type operator--(int)
{
this_type result (*this);
decrement();
return result;
}
BOOST_CONTAINER_FORCEINLINE friend bool operator== (const this_type& i, const this_type& i2)
{ return i.equal(i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator!= (const this_type& i, const this_type& i2)
{ return !(i == i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator< (const this_type& i, const this_type& i2)
{ return i.less(i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator> (const this_type& i, const this_type& i2)
{ return i2 < i; }
BOOST_CONTAINER_FORCEINLINE friend bool operator<= (const this_type& i, const this_type& i2)
{ return !(i > i2); }
BOOST_CONTAINER_FORCEINLINE friend bool operator>= (const this_type& i, const this_type& i2)
{ return !(i < i2); }
BOOST_CONTAINER_FORCEINLINE friend difference_type operator- (const this_type& i, const this_type& i2)
{ return i2.distance_to(i); }
//Arithmetic
BOOST_CONTAINER_FORCEINLINE this_type& operator+=(difference_type off)
{ this->advance(off); return *this; }
BOOST_CONTAINER_FORCEINLINE this_type operator+(difference_type off) const
{
this_type other(*this);
other.advance(off);
return other;
}
BOOST_CONTAINER_FORCEINLINE friend this_type operator+(difference_type off, const this_type& right)
{ return right + off; }
BOOST_CONTAINER_FORCEINLINE this_type& operator-=(difference_type off)
{ this->advance(-off); return *this; }
BOOST_CONTAINER_FORCEINLINE this_type operator-(difference_type off) const
{ return *this + (-off); }
private:
//This pseudo-iterator's dereference operations have no sense since value is not
//constructed until ::boost::container::construct_in_place is called.
//So comment them to catch bad uses
const T& operator*() const;
const T& operator[](difference_type) const;
const T* operator->() const;
public:
template<class Allocator>
BOOST_CONTAINER_FORCEINLINE void construct_in_place(Allocator &a, T* ptr)
{ (*m_pe)(a, ptr); }
template<class DestIt>
BOOST_CONTAINER_FORCEINLINE void assign_in_place(DestIt dest)
{ (*m_pe)(dest); }
private:
std::size_t m_num;
EmplaceFunctor * m_pe;
BOOST_CONTAINER_FORCEINLINE void increment()
{ --m_num; }
BOOST_CONTAINER_FORCEINLINE void decrement()
{ ++m_num; }
BOOST_CONTAINER_FORCEINLINE bool equal(const this_type &other) const
{ return m_num == other.m_num; }
BOOST_CONTAINER_FORCEINLINE bool less(const this_type &other) const
{ return other.m_num < m_num; }
BOOST_CONTAINER_FORCEINLINE const T & dereference() const
{
static T dummy;
return dummy;
}
BOOST_CONTAINER_FORCEINLINE void advance(difference_type n)
{ m_num -= n; }
BOOST_CONTAINER_FORCEINLINE difference_type distance_to(const this_type &other)const
{ return difference_type(m_num - other.m_num); }
};
#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
template<class ...Args>
struct emplace_functor
{
typedef typename dtl::build_number_seq<sizeof...(Args)>::type index_tuple_t;
BOOST_CONTAINER_FORCEINLINE emplace_functor(BOOST_FWD_REF(Args)... args)
: args_(args...)
{}
template<class Allocator, class T>
BOOST_CONTAINER_FORCEINLINE void operator()(Allocator &a, T *ptr)
{ emplace_functor::inplace_impl(a, ptr, index_tuple_t()); }
template<class DestIt>
BOOST_CONTAINER_FORCEINLINE void operator()(DestIt dest)
{ emplace_functor::inplace_impl(dest, index_tuple_t()); }
private:
template<class Allocator, class T, std::size_t ...IdxPack>
BOOST_CONTAINER_FORCEINLINE void inplace_impl(Allocator &a, T* ptr, const dtl::index_tuple<IdxPack...>&)
{
allocator_traits<Allocator>::construct
(a, ptr, ::boost::forward<Args>(dtl::get<IdxPack>(args_))...);
}
template<class DestIt, std::size_t ...IdxPack>
BOOST_CONTAINER_FORCEINLINE void inplace_impl(DestIt dest, const dtl::index_tuple<IdxPack...>&)
{
typedef typename boost::container::iterator_traits<DestIt>::value_type value_type;
value_type && tmp= value_type(::boost::forward<Args>(dtl::get<IdxPack>(args_))...);
*dest = ::boost::move(tmp);
}
dtl::tuple<Args&...> args_;
};
template<class ...Args>
struct emplace_functor_type
{
typedef emplace_functor<Args...> type;
};
#else // !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
//Partial specializations cannot match argument list for primary template, so add an extra argument
template <BOOST_MOVE_CLASSDFLT9, class Dummy = void>
struct emplace_functor_type;
#define BOOST_MOVE_ITERATOR_EMPLACE_FUNCTOR_CODE(N) \
BOOST_MOVE_TMPL_LT##N BOOST_MOVE_CLASS##N BOOST_MOVE_GT##N \
struct emplace_functor##N\
{\
BOOST_CONTAINER_FORCEINLINE explicit emplace_functor##N( BOOST_MOVE_UREF##N )\
BOOST_MOVE_COLON##N BOOST_MOVE_FWD_INIT##N{}\
\
template<class Allocator, class T>\
BOOST_CONTAINER_FORCEINLINE void operator()(Allocator &a, T *ptr)\
{ allocator_traits<Allocator>::construct(a, ptr BOOST_MOVE_I##N BOOST_MOVE_MFWD##N); }\
\
template<class DestIt>\
BOOST_CONTAINER_FORCEINLINE void operator()(DestIt dest)\
{\
typedef typename boost::container::iterator_traits<DestIt>::value_type value_type;\
BOOST_MOVE_IF(N, value_type tmp(BOOST_MOVE_MFWD##N), dtl::value_init<value_type> tmp) ;\
*dest = ::boost::move(const_cast<value_type &>(BOOST_MOVE_IF(N, tmp, tmp.get())));\
}\
\
BOOST_MOVE_MREF##N\
};\
\
template <BOOST_MOVE_CLASS##N>\
struct emplace_functor_type<BOOST_MOVE_TARG##N>\
{\
typedef emplace_functor##N BOOST_MOVE_LT##N BOOST_MOVE_TARG##N BOOST_MOVE_GT##N type;\
};\
//
BOOST_MOVE_ITERATE_0TO9(BOOST_MOVE_ITERATOR_EMPLACE_FUNCTOR_CODE)
#undef BOOST_MOVE_ITERATOR_EMPLACE_FUNCTOR_CODE
#endif
namespace dtl {
template<class T>
struct has_iterator_category
{
struct two { char _[2]; };
template <typename X>
static char test(int, typename X::iterator_category*);
template <typename X>
static two test(int, ...);
static const bool value = (1 == sizeof(test<T>(0, 0)));
};
template<class T, bool = has_iterator_category<T>::value >
struct is_input_iterator
{
static const bool value = is_same<typename T::iterator_category, std::input_iterator_tag>::value;
};
template<class T>
struct is_input_iterator<T, false>
{
static const bool value = false;
};
template<class T>
struct is_not_input_iterator
{
static const bool value = !is_input_iterator<T>::value;
};
template<class T, bool = has_iterator_category<T>::value >
struct is_forward_iterator
{
static const bool value = is_same<typename T::iterator_category, std::forward_iterator_tag>::value;
};
template<class T>
struct is_forward_iterator<T, false>
{
static const bool value = false;
};
template<class T, bool = has_iterator_category<T>::value >
struct is_bidirectional_iterator
{
static const bool value = is_same<typename T::iterator_category, std::bidirectional_iterator_tag>::value;
};
template<class T>
struct is_bidirectional_iterator<T, false>
{
static const bool value = false;
};
template<class IINodeType>
struct iiterator_node_value_type {
typedef typename IINodeType::value_type type;
};
template<class IIterator>
struct iiterator_types
{
typedef typename IIterator::value_type it_value_type;
typedef typename iiterator_node_value_type<it_value_type>::type value_type;
typedef typename boost::container::iterator_traits<IIterator>::pointer it_pointer;
typedef typename boost::container::iterator_traits<IIterator>::difference_type difference_type;
typedef typename ::boost::intrusive::pointer_traits<it_pointer>::
template rebind_pointer<value_type>::type pointer;
typedef typename ::boost::intrusive::pointer_traits<it_pointer>::
template rebind_pointer<const value_type>::type const_pointer;
typedef typename ::boost::intrusive::
pointer_traits<pointer>::reference reference;
typedef typename ::boost::intrusive::
pointer_traits<const_pointer>::reference const_reference;
typedef typename IIterator::iterator_category iterator_category;
};
template<class IIterator, bool IsConst>
struct iterator_types
{
typedef typename ::boost::container::iterator
< typename iiterator_types<IIterator>::iterator_category
, typename iiterator_types<IIterator>::value_type
, typename iiterator_types<IIterator>::difference_type
, typename iiterator_types<IIterator>::const_pointer
, typename iiterator_types<IIterator>::const_reference> type;
};
template<class IIterator>
struct iterator_types<IIterator, false>
{
typedef typename ::boost::container::iterator
< typename iiterator_types<IIterator>::iterator_category
, typename iiterator_types<IIterator>::value_type
, typename iiterator_types<IIterator>::difference_type
, typename iiterator_types<IIterator>::pointer
, typename iiterator_types<IIterator>::reference> type;
};
template<class IIterator, bool IsConst>
class iterator_from_iiterator
{
typedef typename iterator_types<IIterator, IsConst>::type types_t;
class nat
{
public:
IIterator get() const
{ return IIterator(); }
};
typedef typename dtl::if_c< IsConst
, iterator_from_iiterator<IIterator, false>
, nat>::type nonconst_iterator;
public:
typedef typename types_t::pointer pointer;
typedef typename types_t::reference reference;
typedef typename types_t::difference_type difference_type;
typedef typename types_t::iterator_category iterator_category;
typedef typename types_t::value_type value_type;
BOOST_CONTAINER_FORCEINLINE iterator_from_iiterator()
: m_iit()
{}
BOOST_CONTAINER_FORCEINLINE explicit iterator_from_iiterator(IIterator iit) BOOST_NOEXCEPT_OR_NOTHROW
: m_iit(iit)
{}
BOOST_CONTAINER_FORCEINLINE iterator_from_iiterator(const iterator_from_iiterator& other) BOOST_NOEXCEPT_OR_NOTHROW
: m_iit(other.get())
{}
BOOST_CONTAINER_FORCEINLINE iterator_from_iiterator(const nonconst_iterator& other) BOOST_NOEXCEPT_OR_NOTHROW
: m_iit(other.get())
{}
BOOST_CONTAINER_FORCEINLINE iterator_from_iiterator& operator=(const iterator_from_iiterator& other) BOOST_NOEXCEPT_OR_NOTHROW
{ m_iit = other.get(); return *this; }
BOOST_CONTAINER_FORCEINLINE iterator_from_iiterator& operator++() BOOST_NOEXCEPT_OR_NOTHROW
{ ++this->m_iit; return *this; }
BOOST_CONTAINER_FORCEINLINE iterator_from_iiterator operator++(int) BOOST_NOEXCEPT_OR_NOTHROW
{
iterator_from_iiterator result (*this);
++this->m_iit;
return result;
}
BOOST_CONTAINER_FORCEINLINE iterator_from_iiterator& operator--() BOOST_NOEXCEPT_OR_NOTHROW
{
//If the iterator_from_iiterator is not a bidirectional iterator, operator-- should not exist
BOOST_STATIC_ASSERT((is_bidirectional_iterator<iterator_from_iiterator>::value));
--this->m_iit; return *this;
}
BOOST_CONTAINER_FORCEINLINE iterator_from_iiterator operator--(int) BOOST_NOEXCEPT_OR_NOTHROW
{
iterator_from_iiterator result (*this);
--this->m_iit;
return result;
}
BOOST_CONTAINER_FORCEINLINE friend bool operator== (const iterator_from_iiterator& l, const iterator_from_iiterator& r) BOOST_NOEXCEPT_OR_NOTHROW
{ return l.m_iit == r.m_iit; }
BOOST_CONTAINER_FORCEINLINE friend bool operator!= (const iterator_from_iiterator& l, const iterator_from_iiterator& r) BOOST_NOEXCEPT_OR_NOTHROW
{ return !(l == r); }
BOOST_CONTAINER_FORCEINLINE reference operator*() const BOOST_NOEXCEPT_OR_NOTHROW
{ return this->m_iit->get_data(); }
BOOST_CONTAINER_FORCEINLINE pointer operator->() const BOOST_NOEXCEPT_OR_NOTHROW
{ return ::boost::intrusive::pointer_traits<pointer>::pointer_to(this->operator*()); }
BOOST_CONTAINER_FORCEINLINE const IIterator &get() const BOOST_NOEXCEPT_OR_NOTHROW
{ return this->m_iit; }
private:
IIterator m_iit;
};
} //namespace dtl {
using ::boost::intrusive::reverse_iterator;
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //#ifndef BOOST_CONTAINER_DETAIL_ITERATORS_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Stephen Cleary 2000.
// (C) Copyright Ion Gaztanaga 2007-2013.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
// This file is a slightly modified file from Boost.Pool
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_MATH_FUNCTIONS_HPP
#define BOOST_CONTAINER_DETAIL_MATH_FUNCTIONS_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <climits>
#include <boost/static_assert.hpp>
namespace boost {
namespace container {
namespace dtl {
// Greatest common divisor and least common multiple
//
// gcd is an algorithm that calculates the greatest common divisor of two
// integers, using Euclid's algorithm.
//
// Pre: A > 0 && B > 0
// Recommended: A > B
template <typename Integer>
inline Integer gcd(Integer A, Integer B)
{
do
{
const Integer tmp(B);
B = A % B;
A = tmp;
} while (B != 0);
return A;
}
//
// lcm is an algorithm that calculates the least common multiple of two
// integers.
//
// Pre: A > 0 && B > 0
// Recommended: A > B
template <typename Integer>
inline Integer lcm(const Integer & A, const Integer & B)
{
Integer ret = A;
ret /= gcd(A, B);
ret *= B;
return ret;
}
template <typename Integer>
inline Integer log2_ceil(const Integer & A)
{
Integer i = 0;
Integer power_of_2 = 1;
while(power_of_2 < A){
power_of_2 <<= 1;
++i;
}
return i;
}
template <typename Integer>
inline Integer upper_power_of_2(const Integer & A)
{
Integer power_of_2 = 1;
while(power_of_2 < A){
power_of_2 <<= 1;
}
return power_of_2;
}
template <typename Integer, bool Loop = true>
struct upper_power_of_2_loop_ct
{
template <Integer I, Integer P>
struct apply
{
static const Integer value =
upper_power_of_2_loop_ct<Integer, (I > P*2)>::template apply<I, P*2>::value;
};
};
template <typename Integer>
struct upper_power_of_2_loop_ct<Integer, false>
{
template <Integer I, Integer P>
struct apply
{
static const Integer value = P;
};
};
template <typename Integer, Integer I>
struct upper_power_of_2_ct
{
static const Integer value = upper_power_of_2_loop_ct<Integer, (I > 1)>::template apply<I, 2>::value;
};
//This function uses binary search to discover the
//highest set bit of the integer
inline std::size_t floor_log2 (std::size_t x)
{
const std::size_t Bits = sizeof(std::size_t)*CHAR_BIT;
const bool Size_t_Bits_Power_2= !(Bits & (Bits-1));
BOOST_STATIC_ASSERT(((Size_t_Bits_Power_2)== true));
std::size_t n = x;
std::size_t log2 = 0;
for(std::size_t shift = Bits >> 1; shift; shift >>= 1){
std::size_t tmp = n >> shift;
if (tmp)
log2 += shift, n = tmp;
}
return log2;
}
template<std::size_t I1, std::size_t I2>
struct gcd_ct
{
static const std::size_t Max = I1 > I2 ? I1 : I2;
static const std::size_t Min = I1 < I2 ? I1 : I2;
static const std::size_t value = gcd_ct<Min, Max % Min>::value;
};
template<std::size_t I1>
struct gcd_ct<I1, 0>
{
static const std::size_t value = I1;
};
template<std::size_t I1>
struct gcd_ct<0, I1>
{
static const std::size_t value = I1;
};
template<std::size_t I1, std::size_t I2>
struct lcm_ct
{
static const std::size_t value = I1 * I2 / gcd_ct<I1, I2>::value;
};
} // namespace dtl
} // namespace container
} // namespace boost
#include <boost/container/detail/config_end.hpp>
#endif

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_MIN_MAX_HPP
#define BOOST_CONTAINER_DETAIL_MIN_MAX_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
namespace boost {
namespace container {
namespace dtl {
template<class T>
const T &max_value(const T &a, const T &b)
{ return a > b ? a : b; }
template<class T>
const T &min_value(const T &a, const T &b)
{ return a < b ? a : b; }
} //namespace dtl {
} //namespace container {
} //namespace boost {
#endif //#ifndef BOOST_CONTAINER_DETAIL_MIN_MAX_HPP

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/////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2014-2015
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
/////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_MINIMAL_CHAR_TRAITS_HEADER_HPP
#define BOOST_CONTAINER_DETAIL_MINIMAL_CHAR_TRAITS_HEADER_HPP
#
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#
#//Try to avoid including <string>, as it's quite big
#if defined(_MSC_VER) && defined(BOOST_DINKUMWARE_STDLIB)
#include <iosfwd> //Dinkum libraries for MSVC define std::char_traits there
#elif defined(BOOST_GNU_STDLIB)
#include <bits/char_traits.h>
#else
#include <string> //Fallback
#endif
#endif //BOOST_CONTAINER_DETAIL_MINIMAL_CHAR_TRAITS_HEADER_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_CONTAINER_DETAIL_MPL_HPP
#define BOOST_CONTAINER_CONTAINER_DETAIL_MPL_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/move/detail/type_traits.hpp>
#include <boost/intrusive/detail/mpl.hpp>
#include <cstddef>
namespace boost {
namespace container {
namespace dtl {
using boost::move_detail::integral_constant;
using boost::move_detail::true_type;
using boost::move_detail::false_type;
using boost::move_detail::enable_if_c;
using boost::move_detail::enable_if;
using boost::move_detail::enable_if_convertible;
using boost::move_detail::disable_if_c;
using boost::move_detail::disable_if;
using boost::move_detail::disable_if_convertible;
using boost::move_detail::is_convertible;
using boost::move_detail::if_c;
using boost::move_detail::if_;
using boost::move_detail::identity;
using boost::move_detail::bool_;
using boost::move_detail::true_;
using boost::move_detail::false_;
using boost::move_detail::yes_type;
using boost::move_detail::no_type;
using boost::move_detail::bool_;
using boost::move_detail::true_;
using boost::move_detail::false_;
using boost::move_detail::unvoid_ref;
using boost::move_detail::and_;
using boost::move_detail::or_;
using boost::move_detail::not_;
using boost::move_detail::enable_if_and;
using boost::move_detail::disable_if_and;
using boost::move_detail::enable_if_or;
using boost::move_detail::disable_if_or;
using boost::move_detail::remove_const;
template <class FirstType>
struct select1st
{
typedef FirstType type;
template<class T>
BOOST_CONTAINER_FORCEINLINE const type& operator()(const T& x) const
{ return x.first; }
template<class T>
BOOST_CONTAINER_FORCEINLINE type& operator()(T& x)
{ return const_cast<type&>(x.first); }
};
template<typename T>
struct void_t { typedef void type; };
template <class T, class=void>
struct is_transparent_base
{
static const bool value = false;
};
template <class T>
struct is_transparent_base<T, typename void_t<typename T::is_transparent>::type>
{
static const bool value = true;
};
template <class T>
struct is_transparent
: is_transparent_base<T>
{};
template <typename C, class /*Dummy*/, typename R>
struct enable_if_transparent
: boost::move_detail::enable_if_c<dtl::is_transparent<C>::value, R>
{};
#ifndef BOOST_CONTAINER_NO_CXX17_CTAD
// void_t (void_t for C++11)
template<typename...> using variadic_void_t = void;
// Trait to detect Allocator-like types.
template<typename Allocator, typename = void>
struct is_allocator
{
static const bool value = false;
};
template <typename T>
T&& ctad_declval();
template<typename Allocator>
struct is_allocator < Allocator,
variadic_void_t< typename Allocator::value_type
, decltype(ctad_declval<Allocator&>().allocate(size_t{})) >>
{
static const bool value = true;
};
template<class T>
using require_allocator_t = typename enable_if_c<is_allocator<T>::value, T>::type;
template<class T>
using require_nonallocator_t = typename enable_if_c<!is_allocator<T>::value, T>::type;
#endif
} //namespace dtl {
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //#ifndef BOOST_CONTAINER_CONTAINER_DETAIL_MPL_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_MULTIALLOCATION_CHAIN_HPP
#define BOOST_CONTAINER_DETAIL_MULTIALLOCATION_CHAIN_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
// container
#include <boost/container/container_fwd.hpp>
// container/detail
#include <boost/move/detail/to_raw_pointer.hpp>
#include <boost/container/detail/transform_iterator.hpp>
#include <boost/container/detail/type_traits.hpp>
#include <boost/container/detail/placement_new.hpp>
// intrusive
#include <boost/intrusive/slist.hpp>
#include <boost/intrusive/pointer_traits.hpp>
#include <boost/intrusive/detail/twin.hpp>
// move
#include <boost/move/utility_core.hpp>
namespace boost {
namespace container {
namespace dtl {
template<class VoidPointer>
class basic_multiallocation_chain
{
private:
typedef bi::slist_base_hook<bi::void_pointer<VoidPointer>
,bi::link_mode<bi::normal_link>
> node;
typedef typename boost::intrusive::pointer_traits
<VoidPointer>::template rebind_pointer<char>::type char_ptr;
typedef typename boost::intrusive::
pointer_traits<char_ptr>::difference_type difference_type;
typedef bi::slist< node
, bi::linear<true>
, bi::cache_last<true>
, bi::size_type<typename boost::container::dtl::make_unsigned<difference_type>::type>
> slist_impl_t;
slist_impl_t slist_impl_;
typedef typename boost::intrusive::pointer_traits
<VoidPointer>::template rebind_pointer<node>::type node_ptr;
typedef typename boost::intrusive::
pointer_traits<node_ptr> node_ptr_traits;
static node & to_node(const VoidPointer &p)
{ return *static_cast<node*>(static_cast<void*>(boost::movelib::to_raw_pointer(p))); }
static VoidPointer from_node(node &n)
{ return node_ptr_traits::pointer_to(n); }
static node_ptr to_node_ptr(const VoidPointer &p)
{ return node_ptr_traits::static_cast_from(p); }
BOOST_MOVABLE_BUT_NOT_COPYABLE(basic_multiallocation_chain)
public:
typedef VoidPointer void_pointer;
typedef typename slist_impl_t::iterator iterator;
typedef typename slist_impl_t::size_type size_type;
typedef boost::intrusive::twin<void_pointer> pointer_pair;
basic_multiallocation_chain()
: slist_impl_()
{}
basic_multiallocation_chain(const void_pointer &b, const void_pointer &before_e, size_type n)
: slist_impl_(to_node_ptr(b), to_node_ptr(before_e), n)
{}
basic_multiallocation_chain(BOOST_RV_REF(basic_multiallocation_chain) other)
: slist_impl_(::boost::move(other.slist_impl_))
{}
basic_multiallocation_chain& operator=(BOOST_RV_REF(basic_multiallocation_chain) other)
{
slist_impl_ = ::boost::move(other.slist_impl_);
return *this;
}
bool empty() const
{ return slist_impl_.empty(); }
size_type size() const
{ return slist_impl_.size(); }
iterator before_begin()
{ return slist_impl_.before_begin(); }
iterator begin()
{ return slist_impl_.begin(); }
iterator end()
{ return slist_impl_.end(); }
iterator last()
{ return slist_impl_.last(); }
void clear()
{ slist_impl_.clear(); }
iterator insert_after(iterator it, void_pointer m)
{ return slist_impl_.insert_after(it, to_node(m)); }
void push_front(const void_pointer &m)
{ return slist_impl_.push_front(to_node(m)); }
void push_back(const void_pointer &m)
{ return slist_impl_.push_back(to_node(m)); }
void_pointer pop_front()
{
node & n = slist_impl_.front();
void_pointer ret = from_node(n);
slist_impl_.pop_front();
return ret;
}
void splice_after(iterator after_this, basic_multiallocation_chain &x, iterator before_b, iterator before_e, size_type n)
{ slist_impl_.splice_after(after_this, x.slist_impl_, before_b, before_e, n); }
void splice_after(iterator after_this, basic_multiallocation_chain &x)
{ slist_impl_.splice_after(after_this, x.slist_impl_); }
void erase_after(iterator before_b, iterator e, size_type n)
{ slist_impl_.erase_after(before_b, e, n); }
void_pointer incorporate_after(iterator after_this, const void_pointer &b, size_type unit_bytes, size_type num_units)
{
typedef typename boost::intrusive::pointer_traits<char_ptr> char_pointer_traits;
char_ptr elem = char_pointer_traits::static_cast_from(b);
if(num_units){
char_ptr prev_elem = elem;
elem += difference_type(unit_bytes);
for(size_type i = 0; i != num_units-1u; ++i, elem += difference_type(unit_bytes)){
::new (boost::movelib::to_raw_pointer(prev_elem), boost_container_new_t()) void_pointer(elem);
prev_elem = elem;
}
slist_impl_.incorporate_after(after_this, to_node_ptr(b), to_node_ptr(prev_elem), num_units);
}
return elem;
}
void incorporate_after(iterator after_this, void_pointer b, void_pointer before_e, size_type n)
{ slist_impl_.incorporate_after(after_this, to_node_ptr(b), to_node_ptr(before_e), n); }
void swap(basic_multiallocation_chain &x)
{ slist_impl_.swap(x.slist_impl_); }
static iterator iterator_to(const void_pointer &p)
{ return slist_impl_t::s_iterator_to(to_node(p)); }
pointer_pair extract_data()
{
if(BOOST_LIKELY(!slist_impl_.empty())){
pointer_pair ret
(slist_impl_.begin().operator->()
,slist_impl_.last().operator->());
slist_impl_.clear();
return ret;
}
else {
return pointer_pair();
}
}
};
template<class T>
struct cast_functor
{
typedef typename dtl::add_reference<T>::type result_type;
template<class U>
result_type operator()(U &ptr) const
{ return *static_cast<T*>(static_cast<void*>(&ptr)); }
};
template<class MultiallocationChain, class T>
class transform_multiallocation_chain
: public MultiallocationChain
{
private:
BOOST_MOVABLE_BUT_NOT_COPYABLE(transform_multiallocation_chain)
//transform_multiallocation_chain(const transform_multiallocation_chain &);
//transform_multiallocation_chain & operator=(const transform_multiallocation_chain &);
typedef typename MultiallocationChain::void_pointer void_pointer;
typedef typename boost::intrusive::pointer_traits
<void_pointer> void_pointer_traits;
typedef typename void_pointer_traits::template
rebind_pointer<T>::type pointer;
typedef typename boost::intrusive::pointer_traits
<pointer> pointer_traits;
static pointer cast(const void_pointer &p)
{ return pointer_traits::static_cast_from(p); }
public:
typedef transform_iterator
< typename MultiallocationChain::iterator
, dtl::cast_functor <T> > iterator;
typedef typename MultiallocationChain::size_type size_type;
typedef boost::intrusive::twin<pointer> pointer_pair;
transform_multiallocation_chain()
: MultiallocationChain()
{}
transform_multiallocation_chain(BOOST_RV_REF(transform_multiallocation_chain) other)
: MultiallocationChain(::boost::move(static_cast<MultiallocationChain&>(other)))
{}
transform_multiallocation_chain(BOOST_RV_REF(MultiallocationChain) other)
: MultiallocationChain(::boost::move(static_cast<MultiallocationChain&>(other)))
{}
transform_multiallocation_chain& operator=(BOOST_RV_REF(transform_multiallocation_chain) other)
{
return static_cast<MultiallocationChain&>
(this->MultiallocationChain::operator=(::boost::move(static_cast<MultiallocationChain&>(other))));
}
void push_front(const pointer &mem)
{ this->MultiallocationChain::push_front(mem); }
void push_back(const pointer &mem)
{ return this->MultiallocationChain::push_back(mem); }
void swap(transform_multiallocation_chain &other_chain)
{ this->MultiallocationChain::swap(other_chain); }
void splice_after(iterator after_this, transform_multiallocation_chain &x, iterator before_b, iterator before_e, size_type n)
{ this->MultiallocationChain::splice_after(after_this.base(), x, before_b.base(), before_e.base(), n); }
void incorporate_after(iterator after_this, pointer b, pointer before_e, size_type n)
{ this->MultiallocationChain::incorporate_after(after_this.base(), b, before_e, n); }
pointer pop_front()
{ return cast(this->MultiallocationChain::pop_front()); }
bool empty() const
{ return this->MultiallocationChain::empty(); }
iterator before_begin()
{ return iterator(this->MultiallocationChain::before_begin()); }
iterator begin()
{ return iterator(this->MultiallocationChain::begin()); }
iterator last()
{ return iterator(this->MultiallocationChain::last()); }
iterator end()
{ return iterator(this->MultiallocationChain::end()); }
size_type size() const
{ return this->MultiallocationChain::size(); }
void clear()
{ this->MultiallocationChain::clear(); }
iterator insert_after(iterator it, pointer m)
{ return iterator(this->MultiallocationChain::insert_after(it.base(), m)); }
static iterator iterator_to(const pointer &p)
{ return iterator(MultiallocationChain::iterator_to(p)); }
pointer_pair extract_data()
{
typename MultiallocationChain::pointer_pair data(this->MultiallocationChain::extract_data());
return pointer_pair(cast(data.first), cast(data.second));
}
/*
MultiallocationChain &extract_multiallocation_chain()
{ return holder_; }*/
};
}}}
// namespace dtl {
// namespace container {
// namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //BOOST_CONTAINER_DETAIL_MULTIALLOCATION_CHAIN_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Stephen Cleary 2000
// (C) Copyright Ion Gaztanaga 2015-2017.
//
// Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_MUTEX_HPP
#define BOOST_CONTAINER_MUTEX_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
//#define BOOST_CONTAINER_NO_MT
//#define BOOST_CONTAINER_NO_SPINLOCKS
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
// Extremely Light-Weight wrapper classes for OS thread synchronization
#define BOOST_MUTEX_HELPER_NONE 0
#define BOOST_MUTEX_HELPER_WIN32 1
#define BOOST_MUTEX_HELPER_PTHREAD 2
#define BOOST_MUTEX_HELPER_SPINLOCKS 3
#if !defined(BOOST_HAS_THREADS) && !defined(BOOST_NO_MT)
# define BOOST_NO_MT
#endif
#if defined(BOOST_NO_MT) || defined(BOOST_CONTAINER_NO_MT)
// No multithreading -> make locks into no-ops
#define BOOST_MUTEX_HELPER BOOST_MUTEX_HELPER_NONE
#else
//Taken from dlmalloc
#if !defined(BOOST_CONTAINER_NO_SPINLOCKS) && \
((defined(__GNUC__) && \
((__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 1)) || \
defined(__i386__) || defined(__x86_64__))) || \
(defined(_MSC_VER) && _MSC_VER>=1310))
#define BOOST_MUTEX_HELPER BOOST_MUTEX_HELPER_SPINLOCKS
#endif
#if defined(BOOST_WINDOWS)
#include <boost/winapi/critical_section.hpp>
#include <boost/winapi/thread.hpp>
#ifndef BOOST_MUTEX_HELPER
#define BOOST_MUTEX_HELPER BOOST_MUTEX_HELPER_WIN32
#endif
#elif defined(BOOST_HAS_UNISTD_H)
#include <unistd.h>
#if !defined(BOOST_MUTEX_HELPER) && (defined(_POSIX_THREADS) || defined(BOOST_HAS_PTHREADS))
#define BOOST_MUTEX_HELPER BOOST_MUTEX_HELPER_PTHREAD
#endif
#endif
#endif
#ifndef BOOST_MUTEX_HELPER
#error Unable to determine platform mutex type; #define BOOST_NO_MT to assume single-threaded
#endif
#if BOOST_MUTEX_HELPER == BOOST_MUTEX_HELPER_NONE
//...
#elif BOOST_MUTEX_HELPER == BOOST_MUTEX_HELPER_SPINLOCKS
#if defined(_MSC_VER)
#include <boost/detail/interlocked.hpp>
#define interlockedcompareexchange _InterlockedCompareExchange
#define interlockedexchange _InterlockedExchange
#elif defined(WIN32) && defined(__GNUC__)
#define interlockedcompareexchange(a, b, c) __sync_val_compare_and_swap(a, c, b)
#define interlockedexchange __sync_lock_test_and_set
#endif /* Win32 */
/* First, define CAS_LOCK and CLEAR_LOCK on ints */
/* Note CAS_LOCK defined to return 0 on success */
#if defined(__GNUC__)&& (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 1))
#define BOOST_CONTAINER_CAS_LOCK(sl) __sync_lock_test_and_set(sl, 1)
#define BOOST_CONTAINER_CLEAR_LOCK(sl) __sync_lock_release(sl)
#elif (defined(__GNUC__) && (defined(__i386__) || defined(__x86_64__)))
/* Custom spin locks for older gcc on x86 */
static inline int boost_container_x86_cas_lock(int *sl) {
int ret;
int val = 1;
int cmp = 0;
__asm__ __volatile__ ("lock; cmpxchgl %1, %2"
: "=a" (ret)
: "r" (val), "m" (*(sl)), "0"(cmp)
: "memory", "cc");
return ret;
}
static inline void boost_container_x86_clear_lock(int* sl) {
assert(*sl != 0);
int prev = 0;
int ret;
__asm__ __volatile__ ("lock; xchgl %0, %1"
: "=r" (ret)
: "m" (*(sl)), "0"(prev)
: "memory");
}
#define BOOST_CONTAINER_CAS_LOCK(sl) boost_container_x86_cas_lock(sl)
#define BOOST_CONTAINER_CLEAR_LOCK(sl) boost_container_x86_clear_lock(sl)
#else /* Win32 MSC */
#define BOOST_CONTAINER_CAS_LOCK(sl) interlockedexchange((long volatile*)sl, (long)1)
#define BOOST_CONTAINER_CLEAR_LOCK(sl) interlockedexchange((long volatile*)sl, (long)0)
#endif
/* How to yield for a spin lock */
#define SPINS_PER_YIELD 63
#if defined(_WIN32) || defined(__WIN32__) || defined(WIN32)
#define SLEEP_EX_DURATION 50 /* delay for yield/sleep */
#define SPIN_LOCK_YIELD boost::winapi::SleepEx(SLEEP_EX_DURATION, 0)
#elif defined (__SVR4) && defined (__sun) /* solaris */
#include <thread.h>
#define SPIN_LOCK_YIELD thr_yield();
#elif !defined(LACKS_SCHED_H)
#include <sched.h>
#define SPIN_LOCK_YIELD sched_yield();
#else
#define SPIN_LOCK_YIELD
#endif /* ... yield ... */
#define BOOST_CONTAINER_SPINS_PER_YIELD 63
inline int boost_interprocess_spin_acquire_lock(int *sl) {
int spins = 0;
while (*(volatile int *)sl != 0 ||
BOOST_CONTAINER_CAS_LOCK(sl)) {
if ((++spins & BOOST_CONTAINER_SPINS_PER_YIELD) == 0) {
SPIN_LOCK_YIELD;
}
}
return 0;
}
#define BOOST_CONTAINER_MLOCK_T int
#define BOOST_CONTAINER_TRY_LOCK(sl) !BOOST_CONTAINER_CAS_LOCK(sl)
#define BOOST_CONTAINER_RELEASE_LOCK(sl) BOOST_CONTAINER_CLEAR_LOCK(sl)
#define BOOST_CONTAINER_ACQUIRE_LOCK(sl) (BOOST_CONTAINER_CAS_LOCK(sl)? boost_interprocess_spin_acquire_lock(sl) : 0)
#define BOOST_MOVE_INITIAL_LOCK(sl) (*sl = 0)
#define BOOST_CONTAINER_DESTROY_LOCK(sl) (0)
#elif BOOST_MUTEX_HELPER == BOOST_MUTEX_HELPER_WIN32
//
#elif BOOST_MUTEX_HELPER == BOOST_MUTEX_HELPER_PTHREAD
#include <pthread.h>
#endif
namespace boost {
namespace container {
namespace dtl {
#if BOOST_MUTEX_HELPER == BOOST_MUTEX_HELPER_NONE
class null_mutex
{
private:
null_mutex(const null_mutex &);
void operator=(const null_mutex &);
public:
null_mutex() { }
static void lock() { }
static void unlock() { }
};
typedef null_mutex default_mutex;
#elif BOOST_MUTEX_HELPER == BOOST_MUTEX_HELPER_SPINLOCKS
class spin_mutex
{
private:
BOOST_CONTAINER_MLOCK_T sl;
spin_mutex(const spin_mutex &);
void operator=(const spin_mutex &);
public:
spin_mutex() { BOOST_MOVE_INITIAL_LOCK(&sl); }
void lock() { BOOST_CONTAINER_ACQUIRE_LOCK(&sl); }
void unlock() { BOOST_CONTAINER_RELEASE_LOCK(&sl); }
};
typedef spin_mutex default_mutex;
#elif BOOST_MUTEX_HELPER == BOOST_MUTEX_HELPER_WIN32
class mutex
{
private:
CRITICAL_SECTION mtx;
mutex(const mutex &);
void operator=(const mutex &);
public:
mutex()
{ InitializeCriticalSection(&mtx); }
~mutex()
{ DeleteCriticalSection(&mtx); }
void lock()
{ EnterCriticalSection(&mtx); }
void unlock()
{ LeaveCriticalSection(&mtx); }
};
typedef mutex default_mutex;
#elif BOOST_MUTEX_HELPER == BOOST_MUTEX_HELPER_PTHREAD
class mutex
{
private:
pthread_mutex_t mtx;
mutex(const mutex &);
void operator=(const mutex &);
public:
mutex()
{ pthread_mutex_init(&mtx, 0); }
~mutex()
{ pthread_mutex_destroy(&mtx); }
void lock()
{ pthread_mutex_lock(&mtx); }
void unlock()
{ pthread_mutex_unlock(&mtx); }
};
typedef mutex default_mutex;
#endif
template<class Mutex>
class scoped_lock
{
public:
scoped_lock(Mutex &m)
: m_(m)
{ m_.lock(); }
~scoped_lock()
{ m_.unlock(); }
private:
Mutex &m_;
};
} // namespace dtl
} // namespace container
} // namespace boost
#undef BOOST_MUTEX_HELPER_WIN32
#undef BOOST_MUTEX_HELPER_PTHREAD
#undef BOOST_MUTEX_HELPER_NONE
#undef BOOST_MUTEX_HELPER
#undef BOOST_MUTEX_HELPER_SPINLOCKS
#include <boost/container/detail/config_end.hpp>
#endif

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externals/vcpkg/packages/boost-container_x64-windows/include/boost/container/detail/next_capacity.hpp vendored Executable file
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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2014-2015. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_NEXT_CAPACITY_HPP
#define BOOST_CONTAINER_DETAIL_NEXT_CAPACITY_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
// container
#include <boost/container/throw_exception.hpp>
// container/detail
#include <boost/container/detail/min_max.hpp>
#include <boost/static_assert.hpp>
namespace boost {
namespace container {
namespace dtl {
template<unsigned Minimum, unsigned Numerator, unsigned Denominator>
struct grow_factor_ratio
{
BOOST_STATIC_ASSERT(Numerator > Denominator);
BOOST_STATIC_ASSERT(Numerator < 100);
BOOST_STATIC_ASSERT(Denominator < 100);
BOOST_STATIC_ASSERT(Denominator == 1 || (0 != Numerator % Denominator));
template<class SizeType>
SizeType operator()(const SizeType cur_cap, const SizeType add_min_cap, const SizeType max_cap) const
{
const SizeType overflow_limit = ((SizeType)-1) / Numerator;
SizeType new_cap = 0;
if(cur_cap <= overflow_limit){
new_cap = SizeType(cur_cap * Numerator / Denominator);
}
else if(Denominator == 1 || (SizeType(new_cap = cur_cap) / Denominator) > overflow_limit){
new_cap = (SizeType)-1;
}
else{
new_cap = SizeType(new_cap*Numerator);
}
return max_value<SizeType>
( SizeType(Minimum)
, max_value<SizeType>
( SizeType(cur_cap+add_min_cap)
, min_value<SizeType>(max_cap, new_cap))
);
}
};
} //namespace dtl {
struct growth_factor_50
: dtl::grow_factor_ratio<0, 3, 2>
{};
struct growth_factor_60
: dtl::grow_factor_ratio<0, 8, 5>
{};
struct growth_factor_100
: dtl::grow_factor_ratio<0, 2, 1>
{};
template<class SizeType>
BOOST_CONTAINER_FORCEINLINE void clamp_by_stored_size_type(SizeType &, SizeType)
{}
template<class SizeType, class SomeStoredSizeType>
BOOST_CONTAINER_FORCEINLINE void clamp_by_stored_size_type(SizeType &s, SomeStoredSizeType)
{
if (s >= SomeStoredSizeType(-1) )
s = SomeStoredSizeType(-1);
}
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //#ifndef BOOST_CONTAINER_DETAIL_NEXT_CAPACITY_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_NODE_ALLOC_HPP_
#define BOOST_CONTAINER_DETAIL_NODE_ALLOC_HPP_
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
// container
#include <boost/container/allocator_traits.hpp>
// container/detail
#include <boost/container/detail/addressof.hpp>
#include <boost/container/detail/alloc_helpers.hpp>
#include <boost/container/detail/allocator_version_traits.hpp>
#include <boost/container/detail/construct_in_place.hpp>
#include <boost/container/detail/destroyers.hpp>
#include <boost/move/detail/iterator_to_raw_pointer.hpp>
#include <boost/container/detail/mpl.hpp>
#include <boost/container/detail/placement_new.hpp>
#include <boost/move/detail/to_raw_pointer.hpp>
#include <boost/container/detail/type_traits.hpp>
#include <boost/container/detail/version_type.hpp>
#include <boost/container/detail/is_pair.hpp>
// intrusive
#include <boost/intrusive/detail/mpl.hpp>
#include <boost/intrusive/options.hpp>
// move
#include <boost/move/utility_core.hpp>
#if defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
#include <boost/move/detail/fwd_macros.hpp>
#endif
// other
#include <boost/core/no_exceptions_support.hpp>
namespace boost {
namespace container {
//This trait is used to type-pun std::pair because in C++03
//compilers std::pair is useless for C++11 features
template<class T, bool = dtl::is_pair<T>::value >
struct node_internal_data_type
{
typedef T type;
};
template<class T>
struct node_internal_data_type< T, true>
{
typedef dtl::pair< typename dtl::remove_const<typename T::first_type>::type
, typename T::second_type>
type;
};
template <class T, class HookDefiner>
struct base_node
: public HookDefiner::type
{
public:
typedef T value_type;
typedef typename node_internal_data_type<T>::type internal_type;
typedef typename HookDefiner::type hook_type;
typedef typename dtl::aligned_storage<sizeof(T), dtl::alignment_of<T>::value>::type storage_t;
storage_t m_storage;
#if defined(BOOST_GCC) && (BOOST_GCC >= 40600) && (BOOST_GCC < 80000)
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wstrict-aliasing"
#define BOOST_CONTAINER_DISABLE_ALIASING_WARNING
# endif
public:
#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
template<class Alloc, class ...Args>
explicit base_node(Alloc &a, Args &&...args)
: hook_type()
{
::boost::container::allocator_traits<Alloc>::construct
(a, &this->get_real_data(), ::boost::forward<Args>(args)...);
}
#else //defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
#define BOOST_CONTAINER_BASE_NODE_CONSTRUCT_IMPL(N) \
template< class Alloc BOOST_MOVE_I##N BOOST_MOVE_CLASS##N > \
explicit base_node(Alloc &a BOOST_MOVE_I##N BOOST_MOVE_UREF##N)\
: hook_type()\
{\
::boost::container::allocator_traits<Alloc>::construct\
(a, &this->get_real_data() BOOST_MOVE_I##N BOOST_MOVE_FWD##N);\
}\
//
BOOST_MOVE_ITERATE_0TO9(BOOST_CONTAINER_BASE_NODE_CONSTRUCT_IMPL)
#undef BOOST_CONTAINER_BASE_NODE_CONSTRUCT_IMPL
#endif // !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
template<class Alloc, class It>
explicit base_node(iterator_arg_t, Alloc &a, It it)
: hook_type()
{
::boost::container::construct_in_place(a, &this->get_real_data(), it);
}
BOOST_CONTAINER_FORCEINLINE T &get_data()
{ return *move_detail::force_ptr<T*>(this->m_storage.data); }
BOOST_CONTAINER_FORCEINLINE const T &get_data() const
{ return *move_detail::force_ptr<const T*>(this->m_storage.data); }
BOOST_CONTAINER_FORCEINLINE internal_type &get_real_data()
{ return *move_detail::force_ptr<internal_type*>(this->m_storage.data); }
BOOST_CONTAINER_FORCEINLINE const internal_type &get_real_data() const
{ return *move_detail::force_ptr<const internal_type*>(this->m_storage.data); }
#if defined(BOOST_CONTAINER_DISABLE_ALIASING_WARNING)
#pragma GCC diagnostic pop
#undef BOOST_CONTAINER_DISABLE_ALIASING_WARNING
# endif
template<class Alloc>
void destructor(Alloc &a) BOOST_NOEXCEPT
{
allocator_traits<Alloc>::destroy
(a, &this->get_real_data());
this->~base_node();
}
template<class Pair>
BOOST_CONTAINER_FORCEINLINE
typename dtl::enable_if< dtl::is_pair<Pair>, void >::type
do_assign(const Pair &p)
{
typedef typename Pair::first_type first_type;
const_cast<typename dtl::remove_const<first_type>::type &>(this->get_real_data().first) = p.first;
this->get_real_data().second = p.second;
}
template<class V>
BOOST_CONTAINER_FORCEINLINE
typename dtl::disable_if< dtl::is_pair<V>, void >::type
do_assign(const V &v)
{ this->get_real_data() = v; }
template<class Pair>
BOOST_CONTAINER_FORCEINLINE
typename dtl::enable_if< dtl::is_pair<Pair>, void >::type
do_move_assign(Pair &p)
{
typedef typename Pair::first_type first_type;
const_cast<first_type&>(this->get_real_data().first) = ::boost::move(p.first);
this->get_real_data().second = ::boost::move(p.second);
}
template<class V>
BOOST_CONTAINER_FORCEINLINE
typename dtl::disable_if< dtl::is_pair<V>, void >::type
do_move_assign(V &v)
{ this->get_real_data() = ::boost::move(v); }
private:
base_node();
BOOST_CONTAINER_FORCEINLINE ~base_node()
{ }
};
namespace dtl {
BOOST_INTRUSIVE_INSTANTIATE_DEFAULT_TYPE_TMPLT(key_compare)
BOOST_INTRUSIVE_INSTANTIATE_DEFAULT_TYPE_TMPLT(key_equal)
BOOST_INTRUSIVE_INSTANTIATE_DEFAULT_TYPE_TMPLT(hasher)
BOOST_INTRUSIVE_INSTANTIATE_DEFAULT_TYPE_TMPLT(predicate_type)
template<class Allocator, class ICont>
struct node_alloc_holder
: public allocator_traits<Allocator>::template
portable_rebind_alloc<typename ICont::value_type>::type //NodeAlloc
{
//If the intrusive container is an associative container, obtain the predicate, which will
//be of type node_compare<>. If not an associative container val_compare will be a "nat" type.
typedef BOOST_INTRUSIVE_OBTAIN_TYPE_WITH_DEFAULT
( boost::container::dtl::
, ICont, key_compare, dtl::nat) intrusive_val_compare;
//In that case obtain the value predicate from the node predicate via predicate_type
//if intrusive_val_compare is node_compare<>, nat otherwise
typedef BOOST_INTRUSIVE_OBTAIN_TYPE_WITH_DEFAULT
( boost::container::dtl::
, intrusive_val_compare
, predicate_type, dtl::nat) val_compare;
//If the intrusive container is a hash container, obtain the predicate, which will
//be of type node_compare<>. If not an associative container val_equal will be a "nat" type.
typedef BOOST_INTRUSIVE_OBTAIN_TYPE_WITH_DEFAULT
(boost::container::dtl::
, ICont, key_equal, dtl::nat2) intrusive_val_equal;
typedef BOOST_INTRUSIVE_OBTAIN_TYPE_WITH_DEFAULT
(boost::container::dtl::
, ICont, hasher, dtl::nat3) intrusive_val_hasher;
//In that case obtain the value predicate from the node predicate via predicate_type
//if intrusive_val_compare is node_compare<>, nat otherwise
typedef BOOST_INTRUSIVE_OBTAIN_TYPE_WITH_DEFAULT
(boost::container::dtl::
, intrusive_val_equal
, predicate_type, dtl::nat2) val_equal;
typedef BOOST_INTRUSIVE_OBTAIN_TYPE_WITH_DEFAULT
(boost::container::dtl::
, intrusive_val_hasher
, predicate_type, dtl::nat3) val_hasher;
typedef allocator_traits<Allocator> allocator_traits_type;
typedef typename allocator_traits_type::value_type val_type;
typedef ICont intrusive_container;
typedef typename ICont::value_type Node;
typedef typename allocator_traits_type::template
portable_rebind_alloc<Node>::type NodeAlloc;
typedef allocator_traits<NodeAlloc> node_allocator_traits_type;
typedef dtl::allocator_version_traits<NodeAlloc> node_allocator_version_traits_type;
typedef Allocator ValAlloc;
typedef typename node_allocator_traits_type::pointer NodePtr;
typedef dtl::scoped_deallocator<NodeAlloc> Deallocator;
typedef typename node_allocator_traits_type::size_type size_type;
typedef typename node_allocator_traits_type::difference_type difference_type;
typedef dtl::integral_constant<unsigned,
boost::container::dtl::
version<NodeAlloc>::value> alloc_version;
typedef typename ICont::iterator icont_iterator;
typedef typename ICont::const_iterator icont_citerator;
typedef allocator_node_destroyer<NodeAlloc> Destroyer;
typedef allocator_traits<NodeAlloc> NodeAllocTraits;
typedef allocator_version_traits<NodeAlloc> AllocVersionTraits;
private:
BOOST_COPYABLE_AND_MOVABLE(node_alloc_holder)
public:
//Constructors for sequence containers
node_alloc_holder()
{}
explicit node_alloc_holder(const ValAlloc &a)
: NodeAlloc(a)
{}
//Constructors for associative containers
node_alloc_holder(const val_compare &c, const ValAlloc &a)
: NodeAlloc(a), m_icont(typename ICont::key_compare(c))
{}
node_alloc_holder(const val_hasher &hf, const val_equal &eql, const ValAlloc &a)
: NodeAlloc(a)
, m_icont(typename ICont::bucket_traits()
, typename ICont::hasher(hf)
, typename ICont::key_equal(eql))
{}
node_alloc_holder(const val_hasher &hf, const ValAlloc &a)
: NodeAlloc(a)
, m_icont(typename ICont::bucket_traits()
, typename ICont::hasher(hf)
, typename ICont::key_equal())
{}
node_alloc_holder(const val_hasher &hf)
: m_icont(typename ICont::bucket_traits()
, typename ICont::hasher(hf)
, typename ICont::key_equal())
{}
explicit node_alloc_holder(const node_alloc_holder &x)
: NodeAlloc(NodeAllocTraits::select_on_container_copy_construction(x.node_alloc()))
{}
node_alloc_holder(const node_alloc_holder &x, const val_compare &c)
: NodeAlloc(NodeAllocTraits::select_on_container_copy_construction(x.node_alloc()))
, m_icont(typename ICont::key_compare(c))
{}
node_alloc_holder(const node_alloc_holder &x, const val_hasher &hf, const val_equal &eql)
: NodeAlloc(NodeAllocTraits::select_on_container_copy_construction(x.node_alloc()))
, m_icont( typename ICont::bucket_traits()
, typename ICont::hasher(hf)
, typename ICont::key_equal(eql))
{}
node_alloc_holder(const val_hasher &hf, const val_equal &eql)
: m_icont(typename ICont::bucket_traits()
, typename ICont::hasher(hf)
, typename ICont::key_equal(eql))
{}
explicit node_alloc_holder(BOOST_RV_REF(node_alloc_holder) x)
: NodeAlloc(boost::move(BOOST_MOVE_TO_LV(x).node_alloc()))
{ this->icont().swap(x.icont()); }
explicit node_alloc_holder(const val_compare &c)
: m_icont(typename ICont::key_compare(c))
{}
//helpers for move assignments
explicit node_alloc_holder(BOOST_RV_REF(node_alloc_holder) x, const val_compare &c)
: NodeAlloc(boost::move(BOOST_MOVE_TO_LV(x).node_alloc())), m_icont(typename ICont::key_compare(c))
{ this->icont().swap(x.icont()); }
explicit node_alloc_holder(BOOST_RV_REF(node_alloc_holder) x, const val_hasher &hf, const val_equal &eql)
: NodeAlloc(boost::move(BOOST_MOVE_TO_LV(x).node_alloc()))
, m_icont( typename ICont::bucket_traits()
, typename ICont::hasher(hf)
, typename ICont::key_equal(eql))
{ this->icont().swap(BOOST_MOVE_TO_LV(x).icont()); }
void copy_assign_alloc(const node_alloc_holder &x)
{
dtl::bool_<allocator_traits_type::propagate_on_container_copy_assignment::value> flag;
dtl::assign_alloc( static_cast<NodeAlloc &>(*this)
, static_cast<const NodeAlloc &>(x), flag);
}
void move_assign_alloc( node_alloc_holder &x)
{
dtl::bool_<allocator_traits_type::propagate_on_container_move_assignment::value> flag;
dtl::move_alloc( static_cast<NodeAlloc &>(*this)
, static_cast<NodeAlloc &>(x), flag);
}
~node_alloc_holder()
{ this->clear(alloc_version()); }
size_type max_size() const
{ return allocator_traits_type::max_size(this->node_alloc()); }
NodePtr allocate_one()
{ return AllocVersionTraits::allocate_one(this->node_alloc()); }
void deallocate_one(const NodePtr &p)
{ AllocVersionTraits::deallocate_one(this->node_alloc(), p); }
#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
template<class ...Args>
NodePtr create_node(Args &&...args)
{
NodePtr p = this->allocate_one();
NodeAlloc &nalloc = this->node_alloc();
Deallocator node_deallocator(p, nalloc);
::new(boost::movelib::iterator_to_raw_pointer(p), boost_container_new_t())
Node(nalloc, boost::forward<Args>(args)...);
node_deallocator.release();
return (p);
}
#else //defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
#define BOOST_CONTAINER_NODE_ALLOC_HOLDER_CONSTRUCT_IMPL(N) \
BOOST_MOVE_TMPL_LT##N BOOST_MOVE_CLASS##N BOOST_MOVE_GT##N \
NodePtr create_node(BOOST_MOVE_UREF##N)\
{\
NodePtr p = this->allocate_one();\
NodeAlloc &nalloc = this->node_alloc();\
Deallocator node_deallocator(p, nalloc);\
::new(boost::movelib::iterator_to_raw_pointer(p), boost_container_new_t())\
Node(nalloc BOOST_MOVE_I##N BOOST_MOVE_FWD##N);\
node_deallocator.release();\
return (p);\
}\
//
BOOST_MOVE_ITERATE_0TO9(BOOST_CONTAINER_NODE_ALLOC_HOLDER_CONSTRUCT_IMPL)
#undef BOOST_CONTAINER_NODE_ALLOC_HOLDER_CONSTRUCT_IMPL
#endif // !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
template<class It>
NodePtr create_node_from_it(const It &it)
{
NodePtr p = this->allocate_one();
NodeAlloc &nalloc = this->node_alloc();
Deallocator node_deallocator(p, nalloc);
::new(boost::movelib::iterator_to_raw_pointer(p), boost_container_new_t())
Node(iterator_arg_t(), nalloc, it);
node_deallocator.release();
return (p);
}
template<class KeyConvertible>
NodePtr create_node_from_key(BOOST_FWD_REF(KeyConvertible) key)
{
NodePtr p = this->allocate_one();
BOOST_TRY{
::new(boost::movelib::iterator_to_raw_pointer(p), boost_container_new_t()) Node;
NodeAlloc &na = this->node_alloc();
node_allocator_traits_type::construct
(na, dtl::addressof(p->get_real_data().first), boost::forward<KeyConvertible>(key));
BOOST_TRY{
node_allocator_traits_type::construct(na, dtl::addressof(p->get_real_data().second));
}
BOOST_CATCH(...){
node_allocator_traits_type::destroy(na, dtl::addressof(p->get_real_data().first));
BOOST_RETHROW;
}
BOOST_CATCH_END
}
BOOST_CATCH(...) {
p->destroy_header();
this->node_alloc().deallocate(p, 1);
BOOST_RETHROW
}
BOOST_CATCH_END
return (p);
}
void destroy_node(const NodePtr &nodep)
{
boost::movelib::to_raw_pointer(nodep)->destructor(this->node_alloc());
this->deallocate_one(nodep);
}
void swap(node_alloc_holder &x)
{
this->icont().swap(x.icont());
dtl::bool_<allocator_traits_type::propagate_on_container_swap::value> flag;
dtl::swap_alloc(this->node_alloc(), x.node_alloc(), flag);
}
template<class FwdIterator, class Inserter>
void allocate_many_and_construct
(FwdIterator beg, size_type n, Inserter inserter)
{
if(n){
typedef typename node_allocator_version_traits_type::multiallocation_chain multiallocation_chain_t;
//Try to allocate memory in a single block
typedef typename multiallocation_chain_t::iterator multialloc_iterator_t;
multiallocation_chain_t chain;
NodeAlloc &nalloc = this->node_alloc();
node_allocator_version_traits_type::allocate_individual(nalloc, n, chain);
multialloc_iterator_t itbeg = chain.begin();
multialloc_iterator_t itlast = chain.last();
chain.clear();
Node *p = 0;
BOOST_TRY{
Deallocator node_deallocator(NodePtr(), nalloc);
dtl::scoped_node_destructor<NodeAlloc> sdestructor(nalloc, 0);
while(n){
--n;
p = boost::movelib::iterator_to_raw_pointer(itbeg);
++itbeg; //Increment iterator before overwriting pointed memory
//This does not throw
::new(boost::movelib::iterator_to_raw_pointer(p), boost_container_new_t())
Node(iterator_arg_t(), nalloc, beg);
sdestructor.set(p);
++beg;
//This can throw in some containers (predicate might throw).
//(sdestructor will destruct the node and node_deallocator will deallocate it in case of exception)
inserter(*p);
sdestructor.release();
}
sdestructor.release();
node_deallocator.release();
}
BOOST_CATCH(...){
chain.incorporate_after(chain.last(), &*itbeg, &*itlast, n);
node_allocator_version_traits_type::deallocate_individual(this->node_alloc(), chain);
BOOST_RETHROW
}
BOOST_CATCH_END
}
}
void clear(version_1)
{ this->icont().clear_and_dispose(Destroyer(this->node_alloc())); }
void clear(version_2)
{
typename NodeAlloc::multiallocation_chain chain;
allocator_node_destroyer_and_chain_builder<NodeAlloc> builder(this->node_alloc(), chain);
this->icont().clear_and_dispose(builder);
//BOOST_STATIC_ASSERT((::boost::has_move_emulation_enabled<typename NodeAlloc::multiallocation_chain>::value == true));
if(!chain.empty())
this->node_alloc().deallocate_individual(chain);
}
icont_iterator erase_range(const icont_iterator &first, const icont_iterator &last, version_1)
{ return this->icont().erase_and_dispose(first, last, Destroyer(this->node_alloc())); }
icont_iterator erase_range(const icont_iterator &first, const icont_iterator &last, version_2)
{
NodeAlloc & nalloc = this->node_alloc();
typename NodeAlloc::multiallocation_chain chain;
allocator_node_destroyer_and_chain_builder<NodeAlloc> chain_builder(nalloc, chain);
icont_iterator ret_it = this->icont().erase_and_dispose(first, last, chain_builder);
nalloc.deallocate_individual(chain);
return ret_it;
}
template<class Key, class Comparator>
size_type erase_key(const Key& k, const Comparator &comp, version_1)
{ return this->icont().erase_and_dispose(k, comp, Destroyer(this->node_alloc())); }
template<class Key, class Comparator>
size_type erase_key(const Key& k, const Comparator &comp, version_2)
{
allocator_multialloc_chain_node_deallocator<NodeAlloc> chain_holder(this->node_alloc());
return this->icont().erase_and_dispose(k, comp, chain_holder.get_chain_builder());
}
protected:
struct cloner
{
explicit cloner(node_alloc_holder &holder)
: m_holder(holder)
{}
NodePtr operator()(const Node &other) const
{ return m_holder.create_node(other.get_real_data()); }
node_alloc_holder &m_holder;
};
struct move_cloner
{
move_cloner(node_alloc_holder &holder)
: m_holder(holder)
{}
NodePtr operator()(Node &other)
{ //Use get_real_data() instead of get_real_data to allow moving const key in [multi]map
return m_holder.create_node(::boost::move(other.get_real_data()));
}
node_alloc_holder &m_holder;
};
ICont &non_const_icont() const
{ return const_cast<ICont&>(this->m_icont); }
NodeAlloc &node_alloc()
{ return static_cast<NodeAlloc &>(*this); }
const NodeAlloc &node_alloc() const
{ return static_cast<const NodeAlloc &>(*this); }
public:
ICont &icont()
{ return this->m_icont; }
const ICont &icont() const
{ return this->m_icont; }
private:
//The intrusive container
ICont m_icont;
};
} //namespace dtl {
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif // BOOST_CONTAINER_DETAIL_NODE_ALLOC_HPP_

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_NODE_POOL_HPP
#define BOOST_CONTAINER_DETAIL_NODE_POOL_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/container/detail/mutex.hpp>
#include <boost/container/detail/pool_common_alloc.hpp>
#include <boost/container/detail/node_pool_impl.hpp>
#include <boost/container/detail/mutex.hpp>
#include <boost/move/utility_core.hpp>
#include <cstddef>
#include <cassert>
namespace boost {
namespace container {
namespace dtl {
//!Pooled memory allocator using single segregated storage. Includes
//!a reference count but the class does not delete itself, this is
//!responsibility of user classes. Node size (NodeSize) and the number of
//!nodes allocated per block (NodesPerBlock) are known at compile time
template< std::size_t NodeSize, std::size_t NodesPerBlock >
class private_node_pool
//Inherit from the implementation to avoid template bloat
: public boost::container::dtl::
private_node_pool_impl<fake_segment_manager>
{
typedef boost::container::dtl::
private_node_pool_impl<fake_segment_manager> base_t;
//Non-copyable
private_node_pool(const private_node_pool &);
private_node_pool &operator=(const private_node_pool &);
public:
typedef typename base_t::multiallocation_chain multiallocation_chain;
static const std::size_t nodes_per_block = NodesPerBlock;
//!Constructor from a segment manager. Never throws
private_node_pool()
: base_t(0, NodeSize, NodesPerBlock)
{}
};
template< std::size_t NodeSize
, std::size_t NodesPerBlock
>
class shared_node_pool
: public private_node_pool<NodeSize, NodesPerBlock>
{
private:
typedef private_node_pool<NodeSize, NodesPerBlock> private_node_allocator_t;
public:
typedef typename private_node_allocator_t::free_nodes_t free_nodes_t;
typedef typename private_node_allocator_t::multiallocation_chain multiallocation_chain;
//!Constructor from a segment manager. Never throws
shared_node_pool()
: private_node_allocator_t(){}
//!Destructor. Deallocates all allocated blocks. Never throws
~shared_node_pool()
{}
//!Allocates array of count elements. Can throw bad_alloc
void *allocate_node()
{
//-----------------------
scoped_lock<default_mutex> guard(mutex_);
//-----------------------
return private_node_allocator_t::allocate_node();
}
//!Deallocates an array pointed by ptr. Never throws
void deallocate_node(void *ptr)
{
//-----------------------
scoped_lock<default_mutex> guard(mutex_);
//-----------------------
private_node_allocator_t::deallocate_node(ptr);
}
//!Allocates a singly linked list of n nodes ending in null pointer.
//!can throw bad_alloc
void allocate_nodes(const std::size_t n, multiallocation_chain &chain)
{
//-----------------------
scoped_lock<default_mutex> guard(mutex_);
//-----------------------
return private_node_allocator_t::allocate_nodes(n, chain);
}
void deallocate_nodes(multiallocation_chain &chain)
{
//-----------------------
scoped_lock<default_mutex> guard(mutex_);
//-----------------------
private_node_allocator_t::deallocate_nodes(chain);
}
//!Deallocates all the free blocks of memory. Never throws
void deallocate_free_blocks()
{
//-----------------------
scoped_lock<default_mutex> guard(mutex_);
//-----------------------
private_node_allocator_t::deallocate_free_blocks();
}
//!Deallocates all blocks. Never throws
void purge_blocks()
{
//-----------------------
scoped_lock<default_mutex> guard(mutex_);
//-----------------------
private_node_allocator_t::purge_blocks();
}
std::size_t num_free_nodes()
{
//-----------------------
scoped_lock<default_mutex> guard(mutex_);
//-----------------------
return private_node_allocator_t::num_free_nodes();
}
private:
default_mutex mutex_;
};
} //namespace dtl {
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //#ifndef BOOST_CONTAINER_DETAIL_NODE_POOL_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_NODE_POOL_IMPL_HPP
#define BOOST_CONTAINER_DETAIL_NODE_POOL_IMPL_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/container/container_fwd.hpp>
#include <boost/container/detail/math_functions.hpp>
#include <boost/container/detail/mpl.hpp>
#include <boost/container/detail/pool_common.hpp>
#include <boost/move/detail/to_raw_pointer.hpp>
#include <boost/move/detail/force_ptr.hpp>
#include <boost/container/detail/type_traits.hpp>
#include <boost/intrusive/pointer_traits.hpp>
#include <boost/intrusive/set.hpp>
#include <boost/intrusive/slist.hpp>
#include <boost/core/no_exceptions_support.hpp>
#include <boost/assert.hpp>
#include <cstddef>
namespace boost {
namespace container {
namespace dtl {
template<class SegmentManagerBase>
class private_node_pool_impl
{
//Non-copyable
private_node_pool_impl();
private_node_pool_impl(const private_node_pool_impl &);
private_node_pool_impl &operator=(const private_node_pool_impl &);
//A node object will hold node_t when it's not allocated
public:
typedef typename SegmentManagerBase::void_pointer void_pointer;
typedef typename node_slist<void_pointer>::slist_hook_t slist_hook_t;
typedef typename node_slist<void_pointer>::node_t node_t;
typedef typename node_slist<void_pointer>::node_slist_t free_nodes_t;
typedef typename SegmentManagerBase::multiallocation_chain multiallocation_chain;
typedef typename SegmentManagerBase::size_type size_type;
private:
typedef typename bi::make_slist
< node_t, bi::base_hook<slist_hook_t>
, bi::linear<true>
, bi::constant_time_size<false> >::type blockslist_t;
static size_type get_rounded_size(size_type orig_size, size_type round_to)
{ return ((orig_size-1)/round_to+1)*round_to; }
public:
//!Segment manager typedef
typedef SegmentManagerBase segment_manager_base_type;
//!Constructor from a segment manager. Never throws
private_node_pool_impl(segment_manager_base_type *segment_mngr_base, size_type node_size, size_type nodes_per_block)
: m_nodes_per_block(nodes_per_block)
, m_real_node_size(lcm(node_size, size_type(alignment_of<node_t>::value)))
//General purpose allocator
, mp_segment_mngr_base(segment_mngr_base)
, m_blocklist()
, m_freelist()
//Debug node count
, m_allocated(0)
{}
//!Destructor. Deallocates all allocated blocks. Never throws
~private_node_pool_impl()
{ this->purge_blocks(); }
size_type get_real_num_node() const
{ return m_nodes_per_block; }
//!Returns the segment manager. Never throws
segment_manager_base_type* get_segment_manager_base()const
{ return boost::movelib::to_raw_pointer(mp_segment_mngr_base); }
void *allocate_node()
{ return this->priv_alloc_node(); }
//!Deallocates an array pointed by ptr. Never throws
void deallocate_node(void *ptr)
{ this->priv_dealloc_node(ptr); }
//!Allocates a singly linked list of n nodes ending in null pointer.
void allocate_nodes(const size_type n, multiallocation_chain &chain)
{
//Preallocate all needed blocks to fulfill the request
size_type cur_nodes = m_freelist.size();
if(cur_nodes < n){
this->priv_alloc_block(((n - cur_nodes) - 1)/m_nodes_per_block + 1);
}
//We just iterate the needed nodes to get the last we'll erase
typedef typename free_nodes_t::iterator free_iterator;
free_iterator before_last_new_it = m_freelist.before_begin();
for(size_type j = 0; j != n; ++j){
++before_last_new_it;
}
//Cache the first node of the allocated range before erasing
free_iterator first_node(m_freelist.begin());
free_iterator last_node (before_last_new_it);
//Erase the range. Since we already have the distance, this is O(1)
m_freelist.erase_after( m_freelist.before_begin()
, ++free_iterator(before_last_new_it)
, n);
//Now take the last erased node and just splice it in the end
//of the intrusive list that will be traversed by the multialloc iterator.
chain.incorporate_after(chain.before_begin(), &*first_node, &*last_node, n);
m_allocated += n;
}
void deallocate_nodes(multiallocation_chain &chain)
{
typedef typename multiallocation_chain::iterator iterator;
iterator it(chain.begin()), itend(chain.end());
while(it != itend){
void *pElem = &*it;
++it;
this->priv_dealloc_node(pElem);
}
}
//!Deallocates all the free blocks of memory. Never throws
void deallocate_free_blocks()
{
typedef typename free_nodes_t::iterator nodelist_iterator;
typename blockslist_t::iterator bit(m_blocklist.before_begin()),
it(m_blocklist.begin()),
itend(m_blocklist.end());
free_nodes_t backup_list;
nodelist_iterator backup_list_last = backup_list.before_begin();
//Execute the algorithm and get an iterator to the last value
size_type blocksize = (get_rounded_size)
(m_real_node_size*m_nodes_per_block, (size_type) alignment_of<node_t>::value);
while(it != itend){
//Collect all the nodes from the block pointed by it
//and push them in the list
free_nodes_t free_nodes;
nodelist_iterator last_it = free_nodes.before_begin();
const void *addr = get_block_from_hook(&*it, blocksize);
m_freelist.remove_and_dispose_if
(is_between(addr, blocksize), push_in_list(free_nodes, last_it));
//If the number of nodes is equal to m_nodes_per_block
//this means that the block can be deallocated
if(free_nodes.size() == m_nodes_per_block){
//Unlink the nodes
free_nodes.clear();
it = m_blocklist.erase_after(bit);
mp_segment_mngr_base->deallocate((void*)addr);
}
//Otherwise, insert them in the backup list, since the
//next "remove_if" does not need to check them again.
else{
//Assign the iterator to the last value if necessary
if(backup_list.empty() && !m_freelist.empty()){
backup_list_last = last_it;
}
//Transfer nodes. This is constant time.
backup_list.splice_after
( backup_list.before_begin()
, free_nodes
, free_nodes.before_begin()
, last_it
, free_nodes.size());
bit = it;
++it;
}
}
//We should have removed all the nodes from the free list
BOOST_ASSERT(m_freelist.empty());
//Now pass all the node to the free list again
m_freelist.splice_after
( m_freelist.before_begin()
, backup_list
, backup_list.before_begin()
, backup_list_last
, backup_list.size());
}
size_type num_free_nodes()
{ return m_freelist.size(); }
//!Deallocates all used memory. Precondition: all nodes allocated from this pool should
//!already be deallocated. Otherwise, undefined behaviour. Never throws
void purge_blocks()
{
//check for memory leaks
BOOST_ASSERT(m_allocated==0);
size_type blocksize = (get_rounded_size)
(m_real_node_size*m_nodes_per_block, (size_type)alignment_of<node_t>::value);
//We iterate though the NodeBlock list to free the memory
while(!m_blocklist.empty()){
void *addr = get_block_from_hook(&m_blocklist.front(), blocksize);
m_blocklist.pop_front();
mp_segment_mngr_base->deallocate((void*)addr);
}
//Just clear free node list
m_freelist.clear();
}
void swap(private_node_pool_impl &other)
{
BOOST_ASSERT(m_nodes_per_block == other.m_nodes_per_block);
BOOST_ASSERT(m_real_node_size == other.m_real_node_size);
std::swap(mp_segment_mngr_base, other.mp_segment_mngr_base);
m_blocklist.swap(other.m_blocklist);
m_freelist.swap(other.m_freelist);
std::swap(m_allocated, other.m_allocated);
}
private:
struct push_in_list
{
push_in_list(free_nodes_t &l, typename free_nodes_t::iterator &it)
: slist_(l), last_it_(it)
{}
void operator()(typename free_nodes_t::pointer p) const
{
slist_.push_front(*p);
if(slist_.size() == 1){ //Cache last element
++last_it_ = slist_.begin();
}
}
private:
free_nodes_t &slist_;
typename free_nodes_t::iterator &last_it_;
};
struct is_between
{
typedef typename free_nodes_t::value_type argument_type;
typedef bool result_type;
is_between(const void *addr, std::size_t size)
: beg_(static_cast<const char *>(addr)), end_(beg_+size)
{}
bool operator()(typename free_nodes_t::const_reference v) const
{
return (beg_ <= reinterpret_cast<const char *>(&v) &&
end_ > reinterpret_cast<const char *>(&v));
}
private:
const char * beg_;
const char * end_;
};
//!Allocates one node, using single segregated storage algorithm.
//!Never throws
node_t *priv_alloc_node()
{
//If there are no free nodes we allocate a new block
if (m_freelist.empty())
this->priv_alloc_block(1);
//We take the first free node
node_t *n = (node_t*)&m_freelist.front();
m_freelist.pop_front();
++m_allocated;
return n;
}
//!Deallocates one node, using single segregated storage algorithm.
//!Never throws
void priv_dealloc_node(void *pElem)
{
//We put the node at the beginning of the free node list
node_t * to_deallocate = static_cast<node_t*>(pElem);
m_freelist.push_front(*to_deallocate);
BOOST_ASSERT(m_allocated>0);
--m_allocated;
}
//!Allocates several blocks of nodes. Can throw
void priv_alloc_block(size_type num_blocks)
{
BOOST_ASSERT(num_blocks > 0);
size_type blocksize =
(get_rounded_size)(m_real_node_size*m_nodes_per_block, (size_type)alignment_of<node_t>::value);
BOOST_TRY{
for(size_type i = 0; i != num_blocks; ++i){
//We allocate a new NodeBlock and put it as first
//element in the free Node list
char *pNode = reinterpret_cast<char*>
(mp_segment_mngr_base->allocate(blocksize + sizeof(node_t)));
char *pBlock = pNode;
m_blocklist.push_front(get_block_hook(pBlock, blocksize));
//We initialize all Nodes in Node Block to insert
//them in the free Node list
for(size_type j = 0; j < m_nodes_per_block; ++j, pNode += m_real_node_size){
m_freelist.push_front(*new (pNode) node_t);
}
}
}
BOOST_CATCH(...){
//to-do: if possible, an efficient way to deallocate allocated blocks
BOOST_RETHROW
}
BOOST_CATCH_END
}
//!Deprecated, use deallocate_free_blocks
void deallocate_free_chunks()
{ this->deallocate_free_blocks(); }
//!Deprecated, use purge_blocks
void purge_chunks()
{ this->purge_blocks(); }
private:
//!Returns a reference to the block hook placed in the end of the block
static node_t & get_block_hook (void *block, size_type blocksize)
{
return *move_detail::force_ptr<node_t*>(reinterpret_cast<char*>(block) + blocksize);
}
//!Returns the starting address of the block reference to the block hook placed in the end of the block
void *get_block_from_hook (node_t *hook, size_type blocksize)
{
return (reinterpret_cast<char*>(hook) - blocksize);
}
private:
typedef typename boost::intrusive::pointer_traits
<void_pointer>::template rebind_pointer<segment_manager_base_type>::type segment_mngr_base_ptr_t;
const size_type m_nodes_per_block;
const size_type m_real_node_size;
segment_mngr_base_ptr_t mp_segment_mngr_base; //Segment manager
blockslist_t m_blocklist; //Intrusive container of blocks
free_nodes_t m_freelist; //Intrusive container of free nods
size_type m_allocated; //Used nodes for debugging
};
} //namespace dtl {
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //#ifndef BOOST_CONTAINER_DETAIL_ADAPTIVE_NODE_POOL_IMPL_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_CONTAINER_DETAIL_PAIR_HPP
#define BOOST_CONTAINER_CONTAINER_DETAIL_PAIR_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/container_fwd.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/static_assert.hpp>
#include <boost/container/detail/mpl.hpp>
#include <boost/container/detail/type_traits.hpp>
#include <boost/container/detail/mpl.hpp>
#include <boost/container/detail/std_fwd.hpp>
#include <boost/container/detail/is_pair.hpp>
#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
# include <boost/container/detail/variadic_templates_tools.hpp>
#endif
#include <boost/move/adl_move_swap.hpp> //swap
#include <boost/intrusive/detail/minimal_pair_header.hpp> //pair
#include <boost/move/utility_core.hpp>
#include <boost/move/detail/fwd_macros.hpp>
namespace boost {
namespace container {
namespace pair_impl {
template <class TupleClass>
struct is_boost_tuple
{
static const bool value = false;
};
template <
class T0, class T1, class T2,
class T3, class T4, class T5,
class T6, class T7, class T8,
class T9>
struct is_boost_tuple< boost::tuples::tuple<T0, T1, T2, T3, T4, T5, T6, T7, T8, T9> >
{
static const bool value = true;
};
template<class Tuple>
struct disable_if_boost_tuple
: boost::container::dtl::disable_if< is_boost_tuple<Tuple> >
{};
template<class T>
struct is_tuple_null
{
static const bool value = false;
};
template<>
struct is_tuple_null<boost::tuples::null_type>
{
static const bool value = true;
};
} //namespace detail {
#ifndef BOOST_CONTAINER_DOXYGEN_INVOKED
template <int Dummy = 0>
struct std_piecewise_construct_holder
{
static ::std::piecewise_construct_t *dummy;
};
template <int Dummy>
::std::piecewise_construct_t *std_piecewise_construct_holder<Dummy>::dummy =
reinterpret_cast< ::std::piecewise_construct_t *>(0x01234); //Avoid sanitizer errors on references to null pointers
#else
//! The piecewise_construct_t struct is an empty structure type used as a unique type to
//! disambiguate used to disambiguate between different functions that take two tuple arguments.
typedef unspecified piecewise_construct_t;
#endif //#ifndef BOOST_CONTAINER_DOXYGEN_INVOKED
//! A instance of type
//! piecewise_construct_t
static piecewise_construct_t piecewise_construct = BOOST_CONTAINER_DOC1ST(unspecified, *std_piecewise_construct_holder<>::dummy);
///@cond
namespace dtl {
struct piecewise_construct_use
{
//Avoid warnings of unused "piecewise_construct"
piecewise_construct_use()
{ (void)&::boost::container::piecewise_construct; }
};
struct pair_nat;
template<typename T, typename U, typename V>
void get(T); //to enable ADL
///@endcond
#ifdef _LIBCPP_DEPRECATED_ABI_DISABLE_PAIR_TRIVIAL_COPY_CTOR
//Libc++, in some versions, has an ABI breakage that needs some
//padding in dtl::pair, as "std::pair::first" is not at offset zero.
//See: https://reviews.llvm.org/D56357 for more information.
//
template <class T1, class T2, std::size_t N>
struct pair_padding
{
char padding[N];
};
template <class T1, class T2>
struct pair_padding<T1, T2, 0>
{
};
template <class T1, class T2>
struct simple_pair
{
T1 first;
T2 second;
};
#endif
template <class T1, class T2>
struct pair
#ifdef _LIBCPP_DEPRECATED_ABI_DISABLE_PAIR_TRIVIAL_COPY_CTOR
: pair_padding<T1, T2, sizeof(std::pair<T1, T2>) - sizeof(simple_pair<T1, T2>)>
#endif
{
private:
BOOST_COPYABLE_AND_MOVABLE(pair)
public:
typedef T1 first_type;
typedef T2 second_type;
T1 first;
T2 second;
//Default constructor
pair()
: first(), second()
{
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));
}
//pair copy assignment
pair(const pair& x)
: first(x.first), second(x.second)
{
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));
}
//pair move constructor
pair(BOOST_RV_REF(pair) p)
: first(::boost::move(BOOST_MOVE_TO_LV(p).first)), second(::boost::move(BOOST_MOVE_TO_LV(p).second))
{
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));
}
template <class D, class S>
pair(const pair<D, S> &p)
: first(p.first), second(p.second)
{
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));
}
template <class D, class S>
pair(BOOST_RV_REF_BEG pair<D, S> BOOST_RV_REF_END p)
: first(::boost::move(BOOST_MOVE_TO_LV(p).first)), second(::boost::move(BOOST_MOVE_TO_LV(p).second))
{
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));
}
//pair from two values
pair(const T1 &t1, const T2 &t2)
: first(t1)
, second(t2)
{
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));
}
template<class U, class V>
pair(BOOST_FWD_REF(U) u, BOOST_FWD_REF(V) v)
: first(::boost::forward<U>(u))
, second(::boost::forward<V>(v))
{
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));
}
//And now compatibility with std::pair
pair(const std::pair<T1, T2>& x)
: first(x.first), second(x.second)
{
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));
}
template <class D, class S>
pair(const std::pair<D, S>& p)
: first(p.first), second(p.second)
{
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));
}
pair(BOOST_RV_REF_BEG std::pair<T1, T2> BOOST_RV_REF_END p)
: first(::boost::move(BOOST_MOVE_TO_LV(p).first)), second(::boost::move(BOOST_MOVE_TO_LV(p).second))
{
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));
}
template <class D, class S>
pair(BOOST_RV_REF_BEG std::pair<D, S> BOOST_RV_REF_END p)
: first(::boost::move(BOOST_MOVE_TO_LV(p).first)), second(::boost::move(BOOST_MOVE_TO_LV(p).second))
{
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));
}
#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
template< class KeyType, class ...Args>
pair(try_emplace_t, BOOST_FWD_REF(KeyType) k, Args && ...args)
: first(boost::forward<KeyType>(k)), second(::boost::forward<Args>(args)...)\
{
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));
}
#else
//piecewise construction from boost::tuple
#define BOOST_PAIR_TRY_EMPLACE_CONSTRUCT_CODE(N)\
template< class KeyType BOOST_MOVE_I##N BOOST_MOVE_CLASS##N > \
pair( try_emplace_t, BOOST_FWD_REF(KeyType) k BOOST_MOVE_I##N BOOST_MOVE_UREF##N )\
: first(boost::forward<KeyType>(k)), second(BOOST_MOVE_FWD##N)\
{\
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));\
}\
//
BOOST_MOVE_ITERATE_0TO9(BOOST_PAIR_TRY_EMPLACE_CONSTRUCT_CODE)
#undef BOOST_PAIR_TRY_EMPLACE_CONSTRUCT_CODE
#endif //BOOST_NO_CXX11_VARIADIC_TEMPLATES
//piecewise construction from boost::tuple
#define BOOST_PAIR_PIECEWISE_CONSTRUCT_BOOST_TUPLE_CODE(N,M)\
template< template<class, class, class, class, class, class, class, class, class, class> class BoostTuple \
BOOST_MOVE_I_IF(BOOST_MOVE_OR(N,M)) BOOST_MOVE_CLASS##N BOOST_MOVE_I_IF(BOOST_MOVE_AND(N,M)) BOOST_MOVE_CLASSQ##M > \
pair( piecewise_construct_t\
, BoostTuple<BOOST_MOVE_TARG##N BOOST_MOVE_I##N BOOST_MOVE_REPEAT(BOOST_MOVE_SUB(10,N),::boost::tuples::null_type)> p\
, BoostTuple<BOOST_MOVE_TARGQ##M BOOST_MOVE_I##M BOOST_MOVE_REPEAT(BOOST_MOVE_SUB(10,M),::boost::tuples::null_type)> q\
, typename dtl::enable_if_c\
< pair_impl::is_boost_tuple< BoostTuple<BOOST_MOVE_TARG##N BOOST_MOVE_I##N BOOST_MOVE_REPEAT(BOOST_MOVE_SUB(10,N),::boost::tuples::null_type)> >::value &&\
!(pair_impl::is_tuple_null<BOOST_MOVE_LAST_TARG##N>::value || pair_impl::is_tuple_null<BOOST_MOVE_LAST_TARGQ##M>::value) \
>::type* = 0\
)\
: first(BOOST_MOVE_TMPL_GET##N), second(BOOST_MOVE_TMPL_GETQ##M)\
{ (void)p; (void)q;\
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));\
}\
//
BOOST_MOVE_ITER2D_0TOMAX(9, BOOST_PAIR_PIECEWISE_CONSTRUCT_BOOST_TUPLE_CODE)
#undef BOOST_PAIR_PIECEWISE_CONSTRUCT_BOOST_TUPLE_CODE
//piecewise construction from variadic tuple (with delegating constructors)
#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)
# if !defined(BOOST_CONTAINER_NO_CXX11_DELEGATING_CONSTRUCTORS)
private:
template<template<class ...> class Tuple, class... Args1, class... Args2, size_t... Indexes1, size_t... Indexes2>
pair(Tuple<Args1...>& t1, Tuple<Args2...>& t2, index_tuple<Indexes1...>, index_tuple<Indexes2...>)
: first (::boost::forward<Args1>(get<Indexes1>(t1))...)
, second(::boost::forward<Args2>(get<Indexes2>(t2))...)
{ (void) t1; (void)t2; }
public:
template< template<class ...> class Tuple, class... Args1, class... Args2
, class = typename pair_impl::disable_if_boost_tuple< Tuple<Args1...> >::type>
pair(piecewise_construct_t, Tuple<Args1...> t1, Tuple<Args2...> t2)
: pair(t1, t2, typename build_number_seq<sizeof...(Args1)>::type(), typename build_number_seq<sizeof...(Args2)>::type())
{
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));
}
# else
//piecewise construction from variadic tuple (suboptimal, without delegating constructors)
private:
template<typename T, template<class ...> class Tuple, typename... Args>
static T build_from_args(Tuple<Args...>&& t)
{ return do_build_from_args<T>(::boost::move(t), typename build_number_seq<sizeof...(Args)>::type()); }
template<typename T, template<class ...> class Tuple, typename... Args, std::size_t... Indexes>
static T do_build_from_args(Tuple<Args...> && t, const index_tuple<Indexes...>&)
{ (void)t; return T(::boost::forward<Args>(get<Indexes>(t))...); }
public:
template< template<class ...> class Tuple, class... Args1, class... Args2
, class = typename pair_impl::disable_if_boost_tuple< Tuple<Args1...> >::type>
pair(piecewise_construct_t, Tuple<Args1...> t1, Tuple<Args2...> t2)
: first (build_from_args<first_type> (::boost::move(t1)))
, second (build_from_args<second_type>(::boost::move(t2)))
{
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));
}
# endif //BOOST_NO_CXX11_VARIADIC_TEMPLATES
#elif defined(BOOST_MSVC) && (_CPPLIB_VER == 520)
//MSVC 2010 tuple implementation
#define BOOST_PAIR_PIECEWISE_CONSTRUCT_MSVC2010_TUPLE_CODE(N,M)\
template< template<class, class, class, class, class, class, class, class, class, class> class StdTuple \
BOOST_MOVE_I_IF(BOOST_MOVE_OR(N,M)) BOOST_MOVE_CLASS##N BOOST_MOVE_I_IF(BOOST_MOVE_AND(N,M)) BOOST_MOVE_CLASSQ##M > \
pair( piecewise_construct_t\
, StdTuple<BOOST_MOVE_TARG##N BOOST_MOVE_I##N BOOST_MOVE_REPEAT(BOOST_MOVE_SUB(10,N),::std::tr1::_Nil)> p\
, StdTuple<BOOST_MOVE_TARGQ##M BOOST_MOVE_I##M BOOST_MOVE_REPEAT(BOOST_MOVE_SUB(10,M),::std::tr1::_Nil)> q)\
: first(BOOST_MOVE_GET_IDX##N), second(BOOST_MOVE_GET_IDXQ##M)\
{ (void)p; (void)q;\
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));\
}\
//
BOOST_MOVE_ITER2D_0TOMAX(9, BOOST_PAIR_PIECEWISE_CONSTRUCT_MSVC2010_TUPLE_CODE)
#undef BOOST_PAIR_PIECEWISE_CONSTRUCT_MSVC2010_TUPLE_CODE
#elif defined(BOOST_MSVC) && (_CPPLIB_VER == 540)
#if _VARIADIC_MAX >= 9
#define BOOST_PAIR_PIECEWISE_CONSTRUCT_MSVC2012_TUPLE_MAX_IT 9
#else
#define BOOST_PAIR_PIECEWISE_CONSTRUCT_MSVC2012_TUPLE_MAX_IT BOOST_MOVE_ADD(_VARIADIC_MAX, 1)
#endif
//MSVC 2012 tuple implementation
#define BOOST_PAIR_PIECEWISE_CONSTRUCT_MSVC2012_TUPLE_CODE(N,M)\
template< template<BOOST_MOVE_REPEAT(_VARIADIC_MAX, class), class, class, class> class StdTuple \
BOOST_MOVE_I_IF(BOOST_MOVE_OR(N,M)) BOOST_MOVE_CLASS##N BOOST_MOVE_I_IF(BOOST_MOVE_AND(N,M)) BOOST_MOVE_CLASSQ##M > \
pair( piecewise_construct_t\
, StdTuple<BOOST_MOVE_TARG##N BOOST_MOVE_I##N BOOST_MOVE_REPEAT(BOOST_MOVE_SUB(BOOST_MOVE_ADD(_VARIADIC_MAX, 3),N),::std::_Nil) > p\
, StdTuple<BOOST_MOVE_TARGQ##M BOOST_MOVE_I##M BOOST_MOVE_REPEAT(BOOST_MOVE_SUB(BOOST_MOVE_ADD(_VARIADIC_MAX, 3),M),::std::_Nil) > q)\
: first(BOOST_MOVE_GET_IDX##N), second(BOOST_MOVE_GET_IDXQ##M)\
{ (void)p; (void)q;\
BOOST_STATIC_ASSERT((sizeof(std::pair<T1, T2>) == sizeof(pair<T1, T2>)));\
}\
//
BOOST_MOVE_ITER2D_0TOMAX(BOOST_PAIR_PIECEWISE_CONSTRUCT_MSVC2012_TUPLE_MAX_IT, BOOST_PAIR_PIECEWISE_CONSTRUCT_MSVC2012_TUPLE_CODE)
#undef BOOST_PAIR_PIECEWISE_CONSTRUCT_MSVC2010_TUPLE_CODE
#undef BOOST_PAIR_PIECEWISE_CONSTRUCT_MSVC2012_TUPLE_MAX_IT
#endif
//pair copy assignment
pair& operator=(BOOST_COPY_ASSIGN_REF(pair) p)
{
first = p.first;
second = p.second;
return *this;
}
//pair move assignment
pair& operator=(BOOST_RV_REF(pair) p)
{
first = ::boost::move(BOOST_MOVE_TO_LV(p).first);
second = ::boost::move(BOOST_MOVE_TO_LV(p).second);
return *this;
}
template <class D, class S>
typename ::boost::container::dtl::disable_if_or
< pair &
, ::boost::container::dtl::is_same<T1, D>
, ::boost::container::dtl::is_same<T2, S>
>::type
operator=(const pair<D, S>&p)
{
first = p.first;
second = p.second;
return *this;
}
template <class D, class S>
typename ::boost::container::dtl::disable_if_or
< pair &
, ::boost::container::dtl::is_same<T1, D>
, ::boost::container::dtl::is_same<T2, S>
>::type
operator=(BOOST_RV_REF_BEG pair<D, S> BOOST_RV_REF_END p)
{
first = ::boost::move(BOOST_MOVE_TO_LV(p).first);
second = ::boost::move(BOOST_MOVE_TO_LV(p).second);
return *this;
}
//std::pair copy assignment
pair& operator=(const std::pair<T1, T2> &p)
{
first = p.first;
second = p.second;
return *this;
}
template <class D, class S>
pair& operator=(const std::pair<D, S> &p)
{
first = ::boost::move(p.first);
second = ::boost::move(p.second);
return *this;
}
//std::pair move assignment
pair& operator=(BOOST_RV_REF_BEG std::pair<T1, T2> BOOST_RV_REF_END p)
{
first = ::boost::move(BOOST_MOVE_TO_LV(p).first);
second = ::boost::move(BOOST_MOVE_TO_LV(p).second);
return *this;
}
template <class D, class S>
pair& operator=(BOOST_RV_REF_BEG std::pair<D, S> BOOST_RV_REF_END p)
{
first = ::boost::move(BOOST_MOVE_TO_LV(p).first);
second = ::boost::move(BOOST_MOVE_TO_LV(p).second);
return *this;
}
//swap
void swap(pair& p)
{
::boost::adl_move_swap(this->first, p.first);
::boost::adl_move_swap(this->second, p.second);
}
};
template <class T1, class T2>
inline bool operator==(const pair<T1,T2>& x, const pair<T1,T2>& y)
{ return static_cast<bool>(x.first == y.first && x.second == y.second); }
template <class T1, class T2>
inline bool operator< (const pair<T1,T2>& x, const pair<T1,T2>& y)
{ return static_cast<bool>(x.first < y.first ||
(!(y.first < x.first) && x.second < y.second)); }
template <class T1, class T2>
inline bool operator!=(const pair<T1,T2>& x, const pair<T1,T2>& y)
{ return static_cast<bool>(!(x == y)); }
template <class T1, class T2>
inline bool operator> (const pair<T1,T2>& x, const pair<T1,T2>& y)
{ return y < x; }
template <class T1, class T2>
inline bool operator>=(const pair<T1,T2>& x, const pair<T1,T2>& y)
{ return static_cast<bool>(!(x < y)); }
template <class T1, class T2>
inline bool operator<=(const pair<T1,T2>& x, const pair<T1,T2>& y)
{ return static_cast<bool>(!(y < x)); }
template <class T1, class T2>
inline pair<T1, T2> make_pair(T1 x, T2 y)
{ return pair<T1, T2>(x, y); }
template <class T1, class T2>
inline void swap(pair<T1, T2>& x, pair<T1, T2>& y)
{ x.swap(y); }
} //namespace dtl {
} //namespace container {
#ifdef BOOST_NO_CXX11_RVALUE_REFERENCES
template<class T1, class T2>
struct has_move_emulation_enabled< ::boost::container::dtl::pair<T1, T2> >
{
static const bool value = true;
};
#endif
namespace move_detail{
template<class T>
struct is_class_or_union;
template <class T1, class T2>
struct is_class_or_union< ::boost::container::dtl::pair<T1, T2> >
//This specialization is needed to avoid instantiation of pair in
//is_class, and allow recursive maps.
{
static const bool value = true;
};
template <class T1, class T2>
struct is_class_or_union< std::pair<T1, T2> >
//This specialization is needed to avoid instantiation of pair in
//is_class, and allow recursive maps.
{
static const bool value = true;
};
template<class T>
struct is_union;
template <class T1, class T2>
struct is_union< ::boost::container::dtl::pair<T1, T2> >
//This specialization is needed to avoid instantiation of pair in
//is_class, and allow recursive maps.
{
static const bool value = false;
};
template <class T1, class T2>
struct is_union< std::pair<T1, T2> >
//This specialization is needed to avoid instantiation of pair in
//is_class, and allow recursive maps.
{
static const bool value = false;
};
template<class T>
struct is_class;
template <class T1, class T2>
struct is_class< ::boost::container::dtl::pair<T1, T2> >
//This specialization is needed to avoid instantiation of pair in
//is_class, and allow recursive maps.
{
static const bool value = true;
};
template <class T1, class T2>
struct is_class< std::pair<T1, T2> >
//This specialization is needed to avoid instantiation of pair in
//is_class, and allow recursive maps.
{
static const bool value = true;
};
//Triviality of pair
template<class T>
struct is_trivially_copy_constructible;
template<class A, class B>
struct is_trivially_copy_assignable
<boost::container::dtl::pair<A,B> >
{
static const bool value = boost::move_detail::is_trivially_copy_assignable<A>::value &&
boost::move_detail::is_trivially_copy_assignable<B>::value ;
};
template<class T>
struct is_trivially_move_constructible;
template<class A, class B>
struct is_trivially_move_assignable
<boost::container::dtl::pair<A,B> >
{
static const bool value = boost::move_detail::is_trivially_move_assignable<A>::value &&
boost::move_detail::is_trivially_move_assignable<B>::value ;
};
template<class T>
struct is_trivially_copy_assignable;
template<class A, class B>
struct is_trivially_copy_constructible<boost::container::dtl::pair<A,B> >
{
static const bool value = boost::move_detail::is_trivially_copy_constructible<A>::value &&
boost::move_detail::is_trivially_copy_constructible<B>::value ;
};
template<class T>
struct is_trivially_move_assignable;
template<class A, class B>
struct is_trivially_move_constructible<boost::container::dtl::pair<A,B> >
{
static const bool value = boost::move_detail::is_trivially_move_constructible<A>::value &&
boost::move_detail::is_trivially_move_constructible<B>::value ;
};
template<class T>
struct is_trivially_destructible;
template<class A, class B>
struct is_trivially_destructible<boost::container::dtl::pair<A,B> >
{
static const bool value = boost::move_detail::is_trivially_destructible<A>::value &&
boost::move_detail::is_trivially_destructible<B>::value ;
};
} //namespace move_detail{
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //#ifndef BOOST_CONTAINER_DETAIL_PAIR_HPP

55
externals/vcpkg/packages/boost-container_x64-windows/include/boost/container/detail/pair_key_mapped_of_value.hpp vendored Executable file
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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_PAIR_KEY_MAPPED_OF_VALUE_HPP
#define BOOST_CONTAINER_PAIR_KEY_MAPPED_OF_VALUE_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
namespace boost {
namespace container {
template<class Key, class Mapped>
struct pair_key_mapped_of_value
{
typedef Key key_type;
typedef Mapped mapped_type;
template<class Pair>
const key_type & key_of_value(const Pair &p) const
{ return p.first; }
template<class Pair>
const mapped_type & mapped_of_value(const Pair &p) const
{ return p.second; }
template<class Pair>
key_type & key_of_value(Pair &p) const
{ return const_cast<key_type&>(p.first); }
template<class Pair>
mapped_type & mapped_of_value(Pair &p) const
{ return p.second; }
};
}}
#include <boost/container/detail/config_end.hpp>
#endif // BOOST_CONTAINER_PAIR_KEY_MAPPED_OF_VALUE_HPP

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externals/vcpkg/packages/boost-container_x64-windows/include/boost/container/detail/placement_new.hpp vendored Executable file
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#ifndef BOOST_CONTAINER_DETAIL_PLACEMENT_NEW_HPP
#define BOOST_CONTAINER_DETAIL_PLACEMENT_NEW_HPP
///////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2014-2015. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
///////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
struct boost_container_new_t{};
//avoid including <new>
inline void *operator new(std::size_t, void *p, boost_container_new_t)
{ return p; }
inline void operator delete(void *, void *, boost_container_new_t)
{}
#endif //BOOST_CONTAINER_DETAIL_PLACEMENT_NEW_HPP

57
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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_POOL_COMMON_HPP
#define BOOST_CONTAINER_DETAIL_POOL_COMMON_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/intrusive/slist.hpp>
namespace boost {
namespace container {
namespace dtl {
template<class VoidPointer>
struct node_slist
{
//This hook will be used to chain the individual nodes
typedef typename bi::make_slist_base_hook
<bi::void_pointer<VoidPointer>, bi::link_mode<bi::normal_link> >::type slist_hook_t;
//A node object will hold node_t when it's not allocated
typedef slist_hook_t node_t;
typedef typename bi::make_slist
<node_t, bi::linear<true>, bi::cache_last<true>, bi::base_hook<slist_hook_t> >::type node_slist_t;
};
template<class T>
struct is_stateless_segment_manager
{
static const bool value = false;
};
} //namespace dtl {
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //#ifndef BOOST_CONTAINER_DETAIL_ADAPTIVE_NODE_POOL_IMPL_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_POOL_COMMON_ALLOC_HPP
#define BOOST_CONTAINER_DETAIL_POOL_COMMON_ALLOC_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/container/throw_exception.hpp>
#include <boost/intrusive/slist.hpp>
#include <boost/container/detail/pool_common.hpp>
#include <boost/container/detail/dlmalloc.hpp>
#include <cstddef>
namespace boost{
namespace container{
namespace dtl{
struct node_slist_helper
: public boost::container::dtl::node_slist<void*>
{};
struct fake_segment_manager
{
typedef void * void_pointer;
static const std::size_t PayloadPerAllocation = BOOST_CONTAINER_ALLOCATION_PAYLOAD;
typedef boost::container::dtl::
basic_multiallocation_chain<void*> multiallocation_chain;
static void deallocate(void_pointer p)
{ dlmalloc_free(p); }
static void deallocate_many(multiallocation_chain &chain)
{
std::size_t size = chain.size();
multiallocation_chain::pointer_pair ptrs = chain.extract_data();
dlmalloc_memchain dlchain;
BOOST_CONTAINER_MEMCHAIN_INIT_FROM(&dlchain, ptrs.first, ptrs.second, size);
dlmalloc_multidealloc(&dlchain);
}
typedef std::ptrdiff_t difference_type;
typedef std::size_t size_type;
static void *allocate_aligned(std::size_t nbytes, std::size_t alignment)
{
void *ret = dlmalloc_memalign(nbytes, alignment);
if(!ret)
boost::container::throw_bad_alloc();
return ret;
}
static void *allocate(std::size_t nbytes)
{
void *ret = dlmalloc_malloc(nbytes);
if(!ret)
boost::container::throw_bad_alloc();
return ret;
}
};
} //namespace boost{
} //namespace container{
} //namespace dtl{
namespace boost {
namespace container {
namespace dtl {
template<class T>
struct is_stateless_segment_manager;
template<>
struct is_stateless_segment_manager
<boost::container::dtl::fake_segment_manager>
{
static const bool value = true;
};
} //namespace dtl {
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //BOOST_CONTAINER_DETAIL_POOL_COMMON_ALLOC_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2015-2015. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_POOL_RESOURCE_HPP
#define BOOST_CONTAINER_POOL_RESOURCE_HPP
#if defined (_MSC_VER)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/container/pmr/memory_resource.hpp>
#include <boost/container/detail/block_list.hpp>
#include <boost/container/pmr/pool_options.hpp>
#include <cstddef>
namespace boost {
namespace container {
namespace pmr {
#if !defined(BOOST_CONTAINER_DOXYGEN_INVOKED)
class pool_data_t;
static const std::size_t pool_options_minimum_max_blocks_per_chunk = 1u;
static const std::size_t pool_options_default_max_blocks_per_chunk = 32u;
static const std::size_t pool_options_minimum_largest_required_pool_block =
memory_resource::max_align > 2*sizeof(void*) ? memory_resource::max_align : 2*sizeof(void*);
static const std::size_t pool_options_default_largest_required_pool_block =
pool_options_minimum_largest_required_pool_block > 4096u
? pool_options_minimum_largest_required_pool_block : 4096u;
#endif //BOOST_CONTAINER_DOXYGEN_INVOKED
class pool_resource
{
typedef block_list_base<> block_list_base_t;
pool_options m_options;
memory_resource& m_upstream;
block_list_base_t m_oversized_list;
pool_data_t *m_pool_data;
std::size_t m_pool_count;
static void priv_limit_option(std::size_t &val, std::size_t min, std::size_t max);
static std::size_t priv_pool_index(std::size_t block_size);
static std::size_t priv_pool_block(std::size_t index);
void priv_fix_options();
void priv_init_pools();
void priv_constructor_body();
public:
//! <b>Requires</b>: `upstream` is the address of a valid memory resource.
//!
//! <b>Effects</b>: Constructs a pool resource object that will obtain memory
//! from upstream whenever the pool resource is unable to satisfy a memory
//! request from its own internal data structures. The resulting object will hold
//! a copy of upstream, but will not own the resource to which upstream points.
//! [ Note: The intention is that calls to upstream->allocate() will be
//! substantially fewer than calls to this->allocate() in most cases. - end note
//! The behavior of the pooling mechanism is tuned according to the value of
//! the opts argument.
//!
//! <b>Throws</b>: Nothing unless upstream->allocate() throws. It is unspecified if
//! or under what conditions this constructor calls upstream->allocate().
pool_resource(const pool_options& opts, memory_resource* upstream) BOOST_NOEXCEPT;
//! <b>Effects</b>: Same as
//! `pool_resource(pool_options(), get_default_resource())`.
pool_resource() BOOST_NOEXCEPT;
//! <b>Effects</b>: Same as
//! `pool_resource(pool_options(), upstream)`.
explicit pool_resource(memory_resource* upstream) BOOST_NOEXCEPT;
//! <b>Effects</b>: Same as
//! `pool_resource(opts, get_default_resource())`.
explicit pool_resource(const pool_options& opts) BOOST_NOEXCEPT;
#if !defined(BOOST_NO_CXX11_DELETED_FUNCTIONS) || defined(BOOST_CONTAINER_DOXYGEN_INVOKED)
pool_resource(const pool_resource&) = delete;
pool_resource operator=(const pool_resource&) = delete;
#else
private:
pool_resource (const pool_resource&);
pool_resource operator=(const pool_resource&);
public:
#endif
//! <b>Effects</b>: Calls
//! `this->release()`.
~pool_resource();
//! <b>Effects</b>: Calls Calls `upstream_resource()->deallocate()` as necessary
//! to release all allocated memory. [ Note: memory is released back to
//! `upstream_resource()` even if deallocate has not been called for some
//! of the allocated blocks. - end note ]
void release();
//! <b>Returns</b>: The value of the upstream argument provided to the
//! constructor of this object.
memory_resource* upstream_resource() const;
//! <b>Returns</b>: The options that control the pooling behavior of this resource.
//! The values in the returned struct may differ from those supplied to the pool
//! resource constructor in that values of zero will be replaced with
//! implementation-defined defaults and sizes may be rounded to unspecified granularity.
pool_options options() const;
public: //public so that [un]synchronized_pool_resource can use them
//! <b>Returns</b>: A pointer to allocated storage with a size of at least `bytes`.
//! The size and alignment of the allocated memory shall meet the requirements for
//! a class derived from `memory_resource`.
//!
//! <b>Effects</b>: If the pool selected for a block of size bytes is unable to
//! satisfy the memory request from its own internal data structures, it will call
//! `upstream_resource()->allocate()` to obtain more memory. If `bytes` is larger
//! than that which the largest pool can handle, then memory will be allocated
//! using `upstream_resource()->allocate()`.
//!
//! <b>Throws</b>: Nothing unless `upstream_resource()->allocate()` throws.
void* do_allocate(std::size_t bytes, std::size_t alignment);
//! <b>Effects</b>: Return the memory at p to the pool. It is unspecified if or under
//! what circumstances this operation will result in a call to
//! `upstream_resource()->deallocate()`.
//!
//! <b>Throws</b>: Nothing.
void do_deallocate(void* p, std::size_t bytes, std::size_t alignment);
//Non-standard observers
public:
//! <b>Returns</b>: The number of pools that will be used in the pool resource.
//!
//! <b>Note</b>: Non-standard extension.
std::size_t pool_count() const;
//! <b>Returns</b>: The index of the pool that will be used to serve the allocation of `bytes`.
//! from the pool specified by `pool_index`. Returns `pool_count()` if `bytes` is bigger
//! than `options().largest_required_pool_block` (no pool will be used to serve this).
//!
//! <b>Note</b>: Non-standard extension.
std::size_t pool_index(std::size_t bytes) const;
//! <b>Requires</b>: `pool_idx < pool_index()`
//!
//! <b>Returns</b>: The number blocks that will be allocated in the next chunk
//! from the pool specified by `pool_idx`.
//!
//! <b>Note</b>: Non-standard extension.
std::size_t pool_next_blocks_per_chunk(std::size_t pool_idx) const;
//! <b>Requires</b>: `pool_idx < pool_index()`
//!
//! <b>Returns</b>: The number of bytes of the block that the specified `pool_idx` pool manages.
//!
//! <b>Note</b>: Non-standard extension.
std::size_t pool_block(std::size_t pool_idx) const;
//! <b>Requires</b>: `pool_idx < pool_index()`
//!
//! <b>Returns</b>: The number of blocks that the specified `pool_idx` pool has cached
//! and will be served without calling the upstream_allocator.
//!
//! <b>Note</b>: Non-standard extension.
std::size_t pool_cached_blocks(std::size_t pool_idx) const;
};
} //namespace pmr {
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //BOOST_CONTAINER_POOL_RESOURCE_HPP

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// Copyright (C) 2000 Stephen Cleary
// Copyright (C) 2008 Ion Gaztanaga
//
// Distributed under the Boost Software License, Version 1.0. (See
// accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org for updates, documentation, and revision history.
//
// This file is a modified file from Boost.Pool
//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2007-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_SINGLETON_DETAIL_HPP
#define BOOST_CONTAINER_DETAIL_SINGLETON_DETAIL_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
//
// The following helper classes are placeholders for a generic "singleton"
// class. The classes below support usage of singletons, including use in
// program startup/shutdown code, AS LONG AS there is only one thread
// running before main() begins, and only one thread running after main()
// exits.
//
// This class is also limited in that it can only provide singleton usage for
// classes with default constructors.
//
// The design of this class is somewhat twisted, but can be followed by the
// calling inheritance. Let us assume that there is some user code that
// calls "singleton_default<T>::instance()". The following (convoluted)
// sequence ensures that the same function will be called before main():
// instance() contains a call to create_object.do_nothing()
// Thus, object_creator is implicitly instantiated, and create_object
// must exist.
// Since create_object is a static member, its constructor must be
// called before main().
// The constructor contains a call to instance(), thus ensuring that
// instance() will be called before main().
// The first time instance() is called (i.e., before main()) is the
// latest point in program execution where the object of type T
// can be created.
// Thus, any call to instance() will auto-magically result in a call to
// instance() before main(), unless already present.
// Furthermore, since the instance() function contains the object, instead
// of the singleton_default class containing a static instance of the
// object, that object is guaranteed to be constructed (at the latest) in
// the first call to instance(). This permits calls to instance() from
// static code, even if that code is called before the file-scope objects
// in this file have been initialized.
namespace boost {
namespace container {
namespace dtl {
// T must be: no-throw default constructible and no-throw destructible
template <typename T>
struct singleton_default
{
private:
struct object_creator
{
// This constructor does nothing more than ensure that instance()
// is called before main() begins, thus creating the static
// T object before multithreading race issues can come up.
object_creator() { singleton_default<T>::instance(); }
inline void do_nothing() const { }
};
static object_creator create_object;
singleton_default();
public:
typedef T object_type;
// If, at any point (in user code), singleton_default<T>::instance()
// is called, then the following function is instantiated.
static object_type & instance()
{
// This is the object that we return a reference to.
// It is guaranteed to be created before main() begins because of
// the next line.
static object_type obj;
// The following line does nothing else than force the instantiation
// of singleton_default<T>::create_object, whose constructor is
// called before main() begins.
create_object.do_nothing();
return obj;
}
};
template <typename T>
typename singleton_default<T>::object_creator
singleton_default<T>::create_object;
} // namespace dtl
} // namespace container
} // namespace boost
#include <boost/container/detail/config_end.hpp>
#endif //BOOST_CONTAINER_DETAIL_SINGLETON_DETAIL_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2014-2014. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_STD_FWD_HPP
#define BOOST_CONTAINER_DETAIL_STD_FWD_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
//////////////////////////////////////////////////////////////////////////////
// Standard predeclarations
//////////////////////////////////////////////////////////////////////////////
#include <boost/move/detail/std_ns_begin.hpp>
BOOST_MOVE_STD_NS_BEG
template<class T>
class allocator;
template<class T>
struct less;
template<class T>
struct equal_to;
template<class T1, class T2>
struct pair;
template<class T>
struct char_traits;
struct input_iterator_tag;
struct forward_iterator_tag;
struct bidirectional_iterator_tag;
struct random_access_iterator_tag;
template<class Container>
class insert_iterator;
struct allocator_arg_t;
struct piecewise_construct_t;
template <class Ptr>
struct pointer_traits;
BOOST_MOVE_STD_NS_END
#include <boost/move/detail/std_ns_end.hpp>
#endif //#ifndef BOOST_CONTAINER_DETAIL_STD_FWD_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2018-2018. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/interprocess for documentation.
//
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
//
// This code is partially based on the lightweight mutex implemented
// by Boost.SmartPtr:
//
// Copyright (c) 2002, 2003 Peter Dimov
// Copyright (c) Microsoft Corporation 2014
//
// Distributed under the Boost Software License, Version 1.0. (See
// accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#ifndef BOOST_CONTAINER_DETAIL_THREAD_MUTEX_HPP
#define BOOST_CONTAINER_DETAIL_THREAD_MUTEX_HPP
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#if defined(BOOST_HAS_PTHREADS)
#include <pthread.h>
#include <boost/assert.hpp>
namespace boost{
namespace container {
namespace dtl {
class thread_mutex
{
public:
thread_mutex()
{
BOOST_VERIFY(pthread_mutex_init(&m_mut, 0) == 0);
}
~thread_mutex()
{
BOOST_VERIFY(pthread_mutex_destroy(&m_mut) == 0);
}
void lock()
{
BOOST_VERIFY(pthread_mutex_lock( &m_mut) == 0);
}
void unlock()
{
BOOST_VERIFY(pthread_mutex_unlock(&m_mut) == 0);
}
private:
thread_mutex(thread_mutex const &);
thread_mutex & operator=(thread_mutex const &);
pthread_mutex_t m_mut;
};
} // namespace dtl {
} // namespace container {
} // namespace boost {
#else //!BOOST_HAS_PTHREADS (Windows implementation)
#ifdef BOOST_USE_WINDOWS_H
#include <windows.h>
namespace boost{
namespace container {
namespace dtl {
typedef ::CRITICAL_SECTION win_critical_section;
} // namespace dtl {
} // namespace container {
} // namespace boost {
#else //! BOOST_USE_WINDOWS_H
struct _RTL_CRITICAL_SECTION_DEBUG;
struct _RTL_CRITICAL_SECTION;
namespace boost{
namespace container {
namespace dtl {
#ifdef BOOST_PLAT_WINDOWS_UWP
extern "C" __declspec(dllimport) int __stdcall InitializeCriticalSectionEx(::_RTL_CRITICAL_SECTION *, unsigned long, unsigned long);
#else
extern "C" __declspec(dllimport) void __stdcall InitializeCriticalSection(::_RTL_CRITICAL_SECTION *);
#endif
extern "C" __declspec(dllimport) void __stdcall EnterCriticalSection(::_RTL_CRITICAL_SECTION *);
extern "C" __declspec(dllimport) void __stdcall LeaveCriticalSection(::_RTL_CRITICAL_SECTION *);
extern "C" __declspec(dllimport) void __stdcall DeleteCriticalSection(::_RTL_CRITICAL_SECTION *);
struct win_critical_section
{
struct _RTL_CRITICAL_SECTION_DEBUG * DebugInfo;
long LockCount;
long RecursionCount;
void * OwningThread;
void * LockSemaphore;
#if defined(_WIN64)
unsigned __int64 SpinCount;
#else
unsigned long SpinCount;
#endif
};
} // namespace dtl {
} // namespace container {
} // namespace boost {
#endif //BOOST_USE_WINDOWS_H
namespace boost{
namespace container {
namespace dtl {
class thread_mutex
{
public:
thread_mutex()
{
#ifdef BOOST_PLAT_WINDOWS_UWP
(InitializeCriticalSectionEx)(reinterpret_cast< ::_RTL_CRITICAL_SECTION* >(&m_crit_sect), 4000, 0);
#else
(InitializeCriticalSection)(reinterpret_cast< ::_RTL_CRITICAL_SECTION* >(&m_crit_sect));
#endif
}
void lock()
{
(EnterCriticalSection)(reinterpret_cast< ::_RTL_CRITICAL_SECTION* >(&m_crit_sect));
}
void unlock()
{
(LeaveCriticalSection)(reinterpret_cast< ::_RTL_CRITICAL_SECTION* >(&m_crit_sect));
}
~thread_mutex()
{
(DeleteCriticalSection)(reinterpret_cast< ::_RTL_CRITICAL_SECTION* >(&m_crit_sect));
}
private:
thread_mutex(thread_mutex const &);
thread_mutex & operator=(thread_mutex const &);
win_critical_section m_crit_sect;
};
} // namespace dtl {
} // namespace container {
} // namespace boost {
#endif //BOOST_HAS_PTHREADS
#include <boost/container/detail/config_end.hpp>
#endif // #ifndef BOOST_CONTAINER_DETAIL_THREAD_MUTEX_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013.
// (C) Copyright Gennaro Prota 2003 - 2004.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_TRANSFORM_ITERATORS_HPP
#define BOOST_CONTAINER_DETAIL_TRANSFORM_ITERATORS_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/container/detail/type_traits.hpp>
#include <boost/container/detail/iterator.hpp>
namespace boost {
namespace container {
template <class PseudoReference>
struct operator_arrow_proxy
{
operator_arrow_proxy(const PseudoReference &px)
: m_value(px)
{}
typedef PseudoReference element_type;
PseudoReference* operator->() const { return &m_value; }
mutable PseudoReference m_value;
};
template <class T>
struct operator_arrow_proxy<T&>
{
operator_arrow_proxy(T &px)
: m_value(px)
{}
typedef T element_type;
T* operator->() const { return const_cast<T*>(&m_value); }
T &m_value;
};
template <class Iterator, class UnaryFunction>
class transform_iterator
: public UnaryFunction
, public boost::container::iterator
< typename Iterator::iterator_category
, typename dtl::remove_reference<typename UnaryFunction::result_type>::type
, typename Iterator::difference_type
, operator_arrow_proxy<typename UnaryFunction::result_type>
, typename UnaryFunction::result_type>
{
public:
explicit transform_iterator(const Iterator &it, const UnaryFunction &f = UnaryFunction())
: UnaryFunction(f), m_it(it)
{}
explicit transform_iterator()
: UnaryFunction(), m_it()
{}
//Constructors
transform_iterator& operator++()
{ increment(); return *this; }
transform_iterator operator++(int)
{
transform_iterator result (*this);
increment();
return result;
}
friend bool operator== (const transform_iterator& i, const transform_iterator& i2)
{ return i.equal(i2); }
friend bool operator!= (const transform_iterator& i, const transform_iterator& i2)
{ return !(i == i2); }
/*
friend bool operator> (const transform_iterator& i, const transform_iterator& i2)
{ return i2 < i; }
friend bool operator<= (const transform_iterator& i, const transform_iterator& i2)
{ return !(i > i2); }
friend bool operator>= (const transform_iterator& i, const transform_iterator& i2)
{ return !(i < i2); }
*/
friend typename Iterator::difference_type operator- (const transform_iterator& i, const transform_iterator& i2)
{ return i2.distance_to(i); }
//Arithmetic
transform_iterator& operator+=(typename Iterator::difference_type off)
{ this->advance(off); return *this; }
transform_iterator operator+(typename Iterator::difference_type off) const
{
transform_iterator other(*this);
other.advance(off);
return other;
}
friend transform_iterator operator+(typename Iterator::difference_type off, const transform_iterator& right)
{ return right + off; }
transform_iterator& operator-=(typename Iterator::difference_type off)
{ this->advance(-off); return *this; }
transform_iterator operator-(typename Iterator::difference_type off) const
{ return *this + (-off); }
typename UnaryFunction::result_type operator*() const
{ return dereference(); }
operator_arrow_proxy<typename UnaryFunction::result_type>
operator->() const
{ return operator_arrow_proxy<typename UnaryFunction::result_type>(dereference()); }
Iterator & base()
{ return m_it; }
const Iterator & base() const
{ return m_it; }
private:
Iterator m_it;
void increment()
{ ++m_it; }
void decrement()
{ --m_it; }
bool equal(const transform_iterator &other) const
{ return m_it == other.m_it; }
bool less(const transform_iterator &other) const
{ return other.m_it < m_it; }
typename UnaryFunction::result_type dereference() const
{ return UnaryFunction::operator()(*m_it); }
void advance(typename Iterator::difference_type n)
{ boost::container::iterator_advance(m_it, n); }
typename Iterator::difference_type distance_to(const transform_iterator &other)const
{ return boost::container::iterator_distance(other.m_it, m_it); }
};
template <class Iterator, class UnaryFunc>
transform_iterator<Iterator, UnaryFunc>
make_transform_iterator(Iterator it, UnaryFunc fun)
{
return transform_iterator<Iterator, UnaryFunc>(it, fun);
}
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //#ifndef BOOST_CONTAINER_DETAIL_TRANSFORM_ITERATORS_HPP

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//////////////////////////////////////////////////////////////////////////////
// (C) Copyright John Maddock 2000.
// (C) Copyright Ion Gaztanaga 2005-2015.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
// The alignment and Type traits implementation comes from
// John Maddock's TypeTraits library.
//
// Some other tricks come from Howard Hinnant's papers and StackOverflow replies
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_CONTAINER_DETAIL_TYPE_TRAITS_HPP
#define BOOST_CONTAINER_CONTAINER_DETAIL_TYPE_TRAITS_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/move/detail/type_traits.hpp>
namespace boost {
namespace container {
namespace dtl {
using ::boost::move_detail::enable_if;
using ::boost::move_detail::enable_if_and;
using ::boost::move_detail::is_same;
using ::boost::move_detail::is_different;
using ::boost::move_detail::is_pointer;
using ::boost::move_detail::add_reference;
using ::boost::move_detail::add_const;
using ::boost::move_detail::add_const_reference;
using ::boost::move_detail::remove_const;
using ::boost::move_detail::remove_reference;
using ::boost::move_detail::remove_cvref;
using ::boost::move_detail::make_unsigned;
using ::boost::move_detail::is_floating_point;
using ::boost::move_detail::is_integral;
using ::boost::move_detail::is_enum;
using ::boost::move_detail::is_pod;
using ::boost::move_detail::is_empty;
using ::boost::move_detail::is_trivially_destructible;
using ::boost::move_detail::is_trivially_default_constructible;
using ::boost::move_detail::is_trivially_copy_constructible;
using ::boost::move_detail::is_trivially_move_constructible;
using ::boost::move_detail::is_trivially_copy_assignable;
using ::boost::move_detail::is_trivially_move_assignable;
using ::boost::move_detail::is_nothrow_default_constructible;
using ::boost::move_detail::is_nothrow_copy_constructible;
using ::boost::move_detail::is_nothrow_move_constructible;
using ::boost::move_detail::is_nothrow_copy_assignable;
using ::boost::move_detail::is_nothrow_move_assignable;
using ::boost::move_detail::is_nothrow_swappable;
using ::boost::move_detail::alignment_of;
using ::boost::move_detail::aligned_storage;
using ::boost::move_detail::nat;
using ::boost::move_detail::nat2;
using ::boost::move_detail::nat3;
using ::boost::move_detail::max_align_t;
using ::boost::move_detail::is_convertible;
} //namespace dtl {
} //namespace container {
} //namespace boost {
#endif //#ifndef BOOST_CONTAINER_CONTAINER_DETAIL_TYPE_TRAITS_HPP

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#ifndef BOOST_CONTAINER_DETAIL_VALUE_FUNCTORS_HPP
#define BOOST_CONTAINER_DETAIL_VALUE_FUNCTORS_HPP
///////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2017-2017. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
///////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/intrusive/detail/value_functors.hpp>
namespace boost {
namespace container {
using ::boost::intrusive::value_less;
using ::boost::intrusive::value_equal;
} //namespace container {
} //namespace boost {
#endif //BOOST_CONTAINER_DETAIL_VALUE_FUNCTORS_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013.
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_VALUE_INIT_HPP
#define BOOST_CONTAINER_DETAIL_VALUE_INIT_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
namespace boost {
namespace container {
namespace dtl {
template<class T>
struct value_init
{
value_init()
: m_t()
{}
operator T &() { return m_t; }
T &get() { return m_t; }
T m_t;
};
} //namespace dtl {
} //namespace container {
} //namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //#ifndef BOOST_CONTAINER_DETAIL_VALUE_INIT_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2008-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_VARIADIC_TEMPLATES_TOOLS_HPP
#define BOOST_CONTAINER_DETAIL_VARIADIC_TEMPLATES_TOOLS_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/move/utility_core.hpp>
#include <boost/container/detail/type_traits.hpp>
#include <cstddef> //std::size_t
namespace boost {
namespace container {
namespace dtl {
template<typename... Values>
class tuple;
template<> class tuple<>
{};
template<typename Head, typename... Tail>
class tuple<Head, Tail...>
: private tuple<Tail...>
{
typedef tuple<Tail...> inherited;
public:
tuple()
: inherited(), m_head()
{}
template<class U, class ...Args>
tuple(U &&u, Args && ...args)
: inherited(::boost::forward<Args>(args)...), m_head(::boost::forward<U>(u))
{}
// Construct tuple from another tuple.
template<typename... VValues>
tuple(const tuple<VValues...>& other)
: inherited(other.tail()), m_head(other.head())
{}
template<typename... VValues>
tuple& operator=(const tuple<VValues...>& other)
{
m_head = other.head();
tail() = other.tail();
return this;
}
typename add_reference<Head>::type head() { return m_head; }
typename add_reference<const Head>::type head() const { return m_head; }
inherited& tail() { return *this; }
const inherited& tail() const { return *this; }
protected:
Head m_head;
};
template<typename... Values>
tuple<Values&&...> forward_as_tuple_impl(Values&&... values)
{ return tuple<Values&&...>(::boost::forward<Values>(values)...); }
template<int I, typename Tuple>
struct tuple_element;
template<int I, typename Head, typename... Tail>
struct tuple_element<I, tuple<Head, Tail...> >
{
typedef typename tuple_element<I-1, tuple<Tail...> >::type type;
};
template<typename Head, typename... Tail>
struct tuple_element<0, tuple<Head, Tail...> >
{
typedef Head type;
};
template<int I, typename Tuple>
class get_impl;
template<int I, typename Head, typename... Values>
class get_impl<I, tuple<Head, Values...> >
{
typedef typename tuple_element<I-1, tuple<Values...> >::type Element;
typedef get_impl<I-1, tuple<Values...> > Next;
public:
typedef typename add_reference<Element>::type type;
typedef typename add_const_reference<Element>::type const_type;
static type get(tuple<Head, Values...>& t) { return Next::get(t.tail()); }
static const_type get(const tuple<Head, Values...>& t) { return Next::get(t.tail()); }
};
template<typename Head, typename... Values>
class get_impl<0, tuple<Head, Values...> >
{
public:
typedef typename add_reference<Head>::type type;
typedef typename add_const_reference<Head>::type const_type;
static type get(tuple<Head, Values...>& t) { return t.head(); }
static const_type get(const tuple<Head, Values...>& t){ return t.head(); }
};
template<int I, typename... Values>
typename get_impl<I, tuple<Values...> >::type get(tuple<Values...>& t)
{ return get_impl<I, tuple<Values...> >::get(t); }
template<int I, typename... Values>
typename get_impl<I, tuple<Values...> >::const_type get(const tuple<Values...>& t)
{ return get_impl<I, tuple<Values...> >::get(t); }
////////////////////////////////////////////////////
// Builds an index_tuple<0, 1, 2, ..., Num-1>, that will
// be used to "unpack" into comma-separated values
// in a function call.
////////////////////////////////////////////////////
template<std::size_t...> struct index_tuple{ typedef index_tuple type; };
template<class S1, class S2> struct concat_index_tuple;
template<std::size_t... I1, std::size_t... I2>
struct concat_index_tuple<index_tuple<I1...>, index_tuple<I2...>>
: index_tuple<I1..., (sizeof...(I1)+I2)...>{};
template<std::size_t N> struct build_number_seq;
template<std::size_t N>
struct build_number_seq
: concat_index_tuple<typename build_number_seq<N/2>::type
,typename build_number_seq<N - N/2 >::type
>::type
{};
template<> struct build_number_seq<0> : index_tuple<>{};
template<> struct build_number_seq<1> : index_tuple<0>{};
}}} //namespace boost { namespace container { namespace dtl {
#include <boost/container/detail/config_end.hpp>
#endif //#ifndef BOOST_CONTAINER_DETAIL_VARIADIC_TEMPLATES_TOOLS_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
//
// This code comes from N1953 document by Howard E. Hinnant
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_VERSION_TYPE_HPP
#define BOOST_CONTAINER_DETAIL_VERSION_TYPE_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/detail/workaround.hpp>
#include <boost/container/detail/mpl.hpp>
#include <boost/container/detail/type_traits.hpp>
namespace boost{
namespace container {
namespace dtl {
template <class T, unsigned V>
struct version_type
: public dtl::integral_constant<unsigned, V>
{
typedef T type;
};
namespace impl{
template <class T>
struct extract_version
{
typedef typename T::version type;
};
template <class T>
struct has_version
{
private:
struct two {char _[2];};
template <class U> static two test(...);
template <class U> static char test(const typename U::version*);
public:
static const bool value = sizeof(test<T>(0)) == 1;
void dummy(){}
};
template <class T, bool = has_version<T>::value>
struct version
{
static const unsigned value = 1;
};
template <class T>
struct version<T, true>
{
static const unsigned value = extract_version<T>::type::value;
};
} //namespace impl
template <class T>
struct version
: public dtl::integral_constant<unsigned, impl::version<T>::value>
{};
template<class T, unsigned N>
struct is_version
{
static const bool value =
is_same< typename version<T>::type, integral_constant<unsigned, N> >::value;
};
} //namespace dtl {
typedef dtl::integral_constant<unsigned, 0> version_0;
typedef dtl::integral_constant<unsigned, 1> version_1;
typedef dtl::integral_constant<unsigned, 2> version_2;
} //namespace container {
} //namespace boost{
#include <boost/container/detail/config_end.hpp>
#endif //#define BOOST_CONTAINER_DETAIL_VERSION_TYPE_HPP

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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2013. Distributed under the Boost
// Software License, Version 1.0. (See accompanying file
// LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
// See http://www.boost.org/libs/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_CONTAINER_DETAIL_WORKAROUND_HPP
#define BOOST_CONTAINER_DETAIL_WORKAROUND_HPP
#ifndef BOOST_CONFIG_HPP
# include <boost/config.hpp>
#endif
#if defined(BOOST_HAS_PRAGMA_ONCE)
# pragma once
#endif
#if !defined(BOOST_NO_CXX11_RVALUE_REFERENCES) && !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES)\
&& !defined(BOOST_INTERPROCESS_DISABLE_VARIADIC_TMPL)
#define BOOST_CONTAINER_PERFECT_FORWARDING
#endif
#if !defined(BOOST_NO_CXX11_VARIADIC_TEMPLATES) && defined(__GXX_EXPERIMENTAL_CXX0X__)\
&& (__GNUC__*10000 + __GNUC_MINOR__*100 + __GNUC_PATCHLEVEL__ < 40700)
#define BOOST_CONTAINER_UNIMPLEMENTED_PACK_EXPANSION_TO_FIXED_LIST
#endif
#if defined(BOOST_GCC_VERSION)
# if (BOOST_GCC_VERSION < 40700) || !defined(BOOST_GCC_CXX11)
# define BOOST_CONTAINER_NO_CXX11_DELEGATING_CONSTRUCTORS
# endif
#elif defined(BOOST_MSVC)
# if _MSC_FULL_VER < 180020827
# define BOOST_CONTAINER_NO_CXX11_DELEGATING_CONSTRUCTORS
# endif
#elif defined(BOOST_CLANG)
# if !__has_feature(cxx_delegating_constructors)
# define BOOST_CONTAINER_NO_CXX11_DELEGATING_CONSTRUCTORS
# endif
#endif
#if defined(BOOST_MSVC) && (_MSC_VER < 1400)
#define BOOST_CONTAINER_TEMPLATED_CONVERSION_OPERATOR_BROKEN
#endif
#if !defined(BOOST_NO_CXX11_HDR_TUPLE) || (defined(BOOST_MSVC) && (BOOST_MSVC == 1700 || BOOST_MSVC == 1600))
#define BOOST_CONTAINER_PAIR_TEST_HAS_HEADER_TUPLE
#endif
//Macros for documentation purposes. For code, expands to the argument
#define BOOST_CONTAINER_IMPDEF(TYPE) TYPE
#define BOOST_CONTAINER_SEEDOC(TYPE) TYPE
//Macros for memset optimization. In most platforms
//memsetting pointers and floatings is safe and faster.
//
//If your platform does not offer these guarantees
//define these to value zero.
#ifndef BOOST_CONTAINER_MEMZEROED_FLOATING_POINT_IS_NOT_ZERO
#define BOOST_CONTAINER_MEMZEROED_FLOATING_POINT_IS_ZERO 1
#endif
#ifndef BOOST_CONTAINER_MEMZEROED_POINTER_IS_NOT_NULL
#define BOOST_CONTAINER_MEMZEROED_POINTER_IS_NULL
#endif
#define BOOST_CONTAINER_DOC1ST(TYPE1, TYPE2) TYPE2
#define BOOST_CONTAINER_I ,
#define BOOST_CONTAINER_DOCIGN(T) T
#define BOOST_CONTAINER_DOCONLY(T)
/*
we need to import/export our code only if the user has specifically
asked for it by defining either BOOST_ALL_DYN_LINK if they want all boost
libraries to be dynamically linked, or BOOST_CONTAINER_DYN_LINK
if they want just this one to be dynamically liked:
*/
#if defined(BOOST_ALL_DYN_LINK) || defined(BOOST_CONTAINER_DYN_LINK)
/* export if this is our own source, otherwise import: */
#ifdef BOOST_CONTAINER_SOURCE
# define BOOST_CONTAINER_DECL BOOST_SYMBOL_EXPORT
#else
# define BOOST_CONTAINER_DECL BOOST_SYMBOL_IMPORT
#endif /* BOOST_CONTAINER_SOURCE */
#else
#define BOOST_CONTAINER_DECL
#endif /* DYN_LINK */
//#define BOOST_CONTAINER_DISABLE_FORCEINLINE
#if defined(BOOST_CONTAINER_DISABLE_FORCEINLINE)
#define BOOST_CONTAINER_FORCEINLINE inline
#elif defined(BOOST_CONTAINER_FORCEINLINE_IS_BOOST_FORCELINE)
#define BOOST_CONTAINER_FORCEINLINE BOOST_FORCEINLINE
#elif defined(BOOST_MSVC) && (_MSC_VER < 1900 || defined(_DEBUG))
//"__forceinline" and MSVC seems to have some bugs in old versions and in debug mode
#define BOOST_CONTAINER_FORCEINLINE inline
//#elif defined(__GNUC__) && ((__GNUC__ < 4) || (__GNUC__ == 4 && (__GNUC_MINOR__ < 5)))
#elif defined(__GNUC__) && (__GNUC__ <= 5)
//Older GCCs have problems with forceinline
#define BOOST_CONTAINER_FORCEINLINE inline
#else
#define BOOST_CONTAINER_FORCEINLINE BOOST_FORCEINLINE
#endif
//#define BOOST_CONTAINER_DISABLE_NOINLINE
#if defined(BOOST_CONTAINER_DISABLE_NOINLINE)
#define BOOST_CONTAINER_NOINLINE
#else
#define BOOST_CONTAINER_NOINLINE BOOST_NOINLINE
#endif
#if !defined(__has_feature)
#define BOOST_CONTAINER_HAS_FEATURE(feature) 0
#else
#define BOOST_CONTAINER_HAS_FEATURE(feature) __has_feature(feature)
#endif
//Detect address sanitizer
#if defined(__SANITIZE_ADDRESS__) || BOOST_CONTAINER_HAS_FEATURE(address_sanitizer)
#define BOOST_CONTAINER_ASAN
#endif
#if (BOOST_CXX_VERSION < 201703L) || !defined(__cpp_deduction_guides)
#define BOOST_CONTAINER_NO_CXX17_CTAD
#endif
#if defined(BOOST_CONTAINER_DISABLE_ATTRIBUTE_NODISCARD)
#define BOOST_CONTAINER_ATTRIBUTE_NODISCARD
#else
#if defined(BOOST_GCC) && ((BOOST_GCC < 100000) || (__cplusplus < 201703L))
//Avoid using it in C++ < 17 and GCC < 10 because it warns in SFINAE contexts
//(see https://gcc.gnu.org/bugzilla/show_bug.cgi?id=89070)
#define BOOST_CONTAINER_ATTRIBUTE_NODISCARD
#else
#define BOOST_CONTAINER_ATTRIBUTE_NODISCARD BOOST_ATTRIBUTE_NODISCARD
#endif
#endif
//Configuration options:
//Define this to use std exception types instead of boost::container's own exception types
//#define BOOST_CONTAINER_USE_STD_EXCEPTIONS
#endif //#ifndef BOOST_CONTAINER_DETAIL_WORKAROUND_HPP