boost/intrusive/detail/hashtable_node.hpp
/////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2007-2008
//
// 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/intrusive for documentation.
//
/////////////////////////////////////////////////////////////////////////////
#ifndef BOOST_INTRUSIVE_HASHTABLE_NODE_HPP
#define BOOST_INTRUSIVE_HASHTABLE_NODE_HPP
#include <boost/intrusive/detail/config_begin.hpp>
#include <iterator>
#include <boost/intrusive/detail/assert.hpp>
#include <boost/intrusive/detail/pointer_to_other.hpp>
#include <boost/intrusive/circular_list_algorithms.hpp>
#include <boost/intrusive/detail/mpl.hpp>
#include <boost/intrusive/detail/utilities.hpp>
#include <boost/intrusive/detail/slist_node.hpp> //remove-me
#include <cstddef>
namespace boost {
namespace intrusive {
namespace detail {
template<int Dummy = 0>
struct prime_list_holder
{
static const std::size_t prime_list[];
static const std::size_t prime_list_size;
};
template<int Dummy>
const std::size_t prime_list_holder<Dummy>::prime_list[] = {
53ul, 97ul, 193ul, 389ul, 769ul,
1543ul, 3079ul, 6151ul, 12289ul, 24593ul,
49157ul, 98317ul, 196613ul, 393241ul, 786433ul,
1572869ul, 3145739ul, 6291469ul, 12582917ul, 25165843ul,
50331653ul, 100663319ul, 201326611ul, 402653189ul, 805306457ul,
1610612741ul, 3221225473ul, 4294967291ul };
template<int Dummy>
const std::size_t prime_list_holder<Dummy>::prime_list_size
= sizeof(prime_list)/sizeof(std::size_t);
template <class Slist>
struct bucket_impl : public Slist
{
typedef Slist slist_type;
bucket_impl()
{}
bucket_impl(const bucket_impl &)
{}
~bucket_impl()
{
//This bucket is still being used!
BOOST_INTRUSIVE_INVARIANT_ASSERT(Slist::empty());
}
bucket_impl &operator=(const bucket_impl&)
{
//This bucket is still in use!
BOOST_INTRUSIVE_INVARIANT_ASSERT(Slist::empty());
//Slist::clear();
return *this;
}
};
template<class Slist>
struct bucket_traits_impl
{
/// @cond
typedef typename boost::pointer_to_other
< typename Slist::pointer, bucket_impl<Slist> >::type bucket_ptr;
typedef typename Slist::size_type size_type;
/// @endcond
bucket_traits_impl(bucket_ptr buckets, size_type len)
: buckets_(buckets), buckets_len_(len)
{}
bucket_ptr bucket_begin() const
{ return buckets_; }
size_type bucket_count() const
{ return buckets_len_; }
private:
bucket_ptr buckets_;
size_type buckets_len_;
};
template<class Container, bool IsConst>
class hashtable_iterator
: public std::iterator
< std::forward_iterator_tag
, typename detail::add_const_if_c
<typename Container::value_type, IsConst>::type
>
{
typedef typename Container::real_value_traits real_value_traits;
typedef typename Container::siterator siterator;
typedef typename Container::const_siterator const_siterator;
typedef typename Container::bucket_type bucket_type;
typedef typename boost::pointer_to_other
< typename Container::pointer, const Container>::type const_cont_ptr;
typedef typename Container::size_type size_type;
static typename Container::node_ptr downcast_bucket(typename bucket_type::node_ptr p)
{ return typename Container::node_ptr(&static_cast<typename Container::node&>(*p)); }
public:
typedef typename detail::add_const_if_c
<typename Container::value_type, IsConst>::type value_type;
hashtable_iterator ()
{}
explicit hashtable_iterator(siterator ptr, const Container *cont)
: slist_it_ (ptr), cont_ (cont)
{}
hashtable_iterator(const hashtable_iterator<Container, false> &other)
: slist_it_(other.slist_it()), cont_(other.get_container())
{}
const siterator &slist_it() const
{ return slist_it_; }
public:
hashtable_iterator& operator++()
{ this->increment(); return *this; }
hashtable_iterator operator++(int)
{
hashtable_iterator result (*this);
this->increment();
return result;
}
friend bool operator== (const hashtable_iterator& i, const hashtable_iterator& i2)
{ return i.slist_it_ == i2.slist_it_; }
friend bool operator!= (const hashtable_iterator& i, const hashtable_iterator& i2)
{ return !(i == i2); }
value_type& operator*() const
{ return *this->operator ->(); }
value_type* operator->() const
{ return detail::get_pointer(this->get_real_value_traits()->to_value_ptr(downcast_bucket(slist_it_.pointed_node()))); }
const Container *get_container() const
{ return detail::get_pointer(cont_); }
const real_value_traits *get_real_value_traits() const
{ return &this->get_container()->get_real_value_traits(); }
private:
void increment()
{
const Container *cont = detail::get_pointer(cont_);
bucket_type* buckets = detail::get_pointer(cont->bucket_pointer());
size_type buckets_len = cont->bucket_count();
++slist_it_;
if(buckets[0].cend().pointed_node() <= slist_it_.pointed_node() &&
slist_it_.pointed_node()<= buckets[buckets_len].cend().pointed_node() ){
//Now get the bucket_impl from the iterator
const bucket_type &b = static_cast<const bucket_type&>
(bucket_type::slist_type::container_from_end_iterator(slist_it_));
//Now just calculate the index b has in the bucket array
size_type n_bucket = static_cast<size_type>(&b - &buckets[0]);
do{
if (++n_bucket == buckets_len){
slist_it_ = (&buckets[0] + buckets_len)->end();
break;
}
slist_it_ = buckets[n_bucket].begin();
}
while (slist_it_ == buckets[n_bucket].end());
}
}
siterator slist_it_;
const_cont_ptr cont_;
};
} //namespace detail {
} //namespace intrusive {
} //namespace boost {
#endif