YouCompleteMe/cpp/BoostParts/boost/container/detail/multiallocation_chain.hpp
2013-03-16 11:00:13 -07:00

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9.6 KiB
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//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2005-2012. 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
#include "config_begin.hpp"
#include <boost/container/container_fwd.hpp>
#include <boost/container/detail/utilities.hpp>
#include <boost/container/detail/type_traits.hpp>
#include <boost/container/detail/transform_iterator.hpp>
#include <boost/intrusive/slist.hpp>
#include <boost/intrusive/pointer_traits.hpp>
#include <boost/type_traits/make_unsigned.hpp>
#include <boost/move/utility.hpp>
namespace boost {
namespace container {
namespace container_detail {
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::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*>(container_detail::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;
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 += unit_bytes;
for(size_type i = 0; i != num_units-1; ++i, elem += unit_bytes){
::new (container_detail::to_raw_pointer(prev_elem)) 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)); }
std::pair<void_pointer, void_pointer> extract_data()
{
std::pair<void_pointer, void_pointer> ret
(slist_impl_.begin().operator->()
,slist_impl_.last().operator->());
slist_impl_.clear();
return ret;
}
};
template<class T>
struct cast_functor
{
typedef typename container_detail::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
, container_detail::cast_functor <T> > iterator;
typedef typename MultiallocationChain::size_type size_type;
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)
{ holder_.push_front(mem); }
void push_back(const pointer &mem)
{ return holder_.push_back(mem); }
void swap(transform_multiallocation_chain &other_chain)
{ holder_.swap(other_chain.holder_); }
void splice_after(iterator after_this, transform_multiallocation_chain &x, iterator before_b, iterator before_e, size_type n)
{ holder_.splice_after(after_this.base(), x.holder_, before_b.base(), before_e.base(), n); }
void incorporate_after(iterator after_this, pointer b, pointer before_e, size_type n)
{ holder_.incorporate_after(after_this.base(), b, before_e, n); }
*/
pointer pop_front()
{ return cast(this->MultiallocationChain::pop_front()); }
/*
bool empty() const
{ return holder_.empty(); }
iterator before_begin()
{ return iterator(holder_.before_begin()); }
iterator begin()
{ return iterator(holder_.begin()); }
iterator end()
{ return iterator(holder_.end()); }
iterator last()
{ return iterator(holder_.last()); }
size_type size() const
{ return holder_.size(); }
void clear()
{ holder_.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)); }
std::pair<pointer, pointer> extract_data()
{
std::pair<void_pointer, void_pointer> data(this->MultiallocationChain::extract_data());
return std::pair<pointer, pointer>(cast(data.first), cast(data.second));
}
/*
MultiallocationChain &extract_multiallocation_chain()
{ return holder_; }*/
};
}}}
// namespace container_detail {
// namespace container {
// namespace boost {
#include <boost/container/detail/config_end.hpp>
#endif //BOOST_CONTAINER_DETAIL_MULTIALLOCATION_CHAIN_HPP