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unordered/include/boost/unordered_set.hpp
Daniel James 15666285fa Refactor the hash table implementation a little bit. Some of the changes are to 
make implementing emplace easier.

Merged revisions 44458-44460,44463-44465 via svnmerge from 
https://svn.boost.org/svn/boost/branches/unordered/trunk

........
  r44458 | danieljames | 2008-04-16 18:31:35 +0100 (Wed, 16 Apr 2008) | 2 lines
  
  Pull out the buffered functions.
........
  r44459 | danieljames | 2008-04-16 18:31:45 +0100 (Wed, 16 Apr 2008) | 4 lines
  
  Inline construct_node and create_node into copy_group - these used to be used
  in the implementation of insert but aren't now because of insert's exception
  requirements, so keeping them around was just confusing.
........
  r44460 | danieljames | 2008-04-16 18:31:54 +0100 (Wed, 16 Apr 2008) | 4 lines
  
  Change link_node so that it takes a node_constructor containing a constructed
  node instead of a node - this makes the code a little cleaner and also
  simplifies exception safety.
........
  r44463 | danieljames | 2008-04-16 18:35:11 +0100 (Wed, 16 Apr 2008) | 2 lines
  
  Explicitly name the different insert overloads.
........
  r44464 | danieljames | 2008-04-16 18:35:22 +0100 (Wed, 16 Apr 2008) | 2 lines
  
  Explicitly name the different erase overloads.
........
  r44465 | danieljames | 2008-04-16 18:35:33 +0100 (Wed, 16 Apr 2008) | 2 lines
  
  Call the erase methods in hash_table_data directly.
........


[SVN r44489]
2008-04-17 07:45:20 +00:00

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// Copyright (C) 2003-2004 Jeremy B. Maitin-Shepard.
// Copyright (C) 2005-2008 Daniel James.
// 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/unordered for documentation
#ifndef BOOST_UNORDERED_SET_HPP_INCLUDED
#define BOOST_UNORDERED_SET_HPP_INCLUDED
#if defined(_MSC_VER) && (_MSC_VER >= 1020)
# pragma once
#endif
#include <boost/config.hpp>
#include <functional>
#include <memory>
#include <boost/unordered/detail/hash_table.hpp>
#include <boost/functional/hash.hpp>
#if !defined(BOOST_HAS_RVALUE_REFS)
#include <boost/unordered/detail/move.hpp>
#endif
namespace boost
{
template <class Value,
class Hash = hash<Value>,
class Pred = std::equal_to<Value>,
class Alloc = std::allocator<Value> >
class unordered_set
{
typedef boost::unordered_detail::hash_types_unique_keys<
Value, Value, Hash, Pred, Alloc
> implementation;
BOOST_DEDUCED_TYPENAME implementation::hash_table base;
public:
// types
typedef Value key_type;
typedef Value value_type;
typedef Hash hasher;
typedef Pred key_equal;
typedef Alloc allocator_type;
typedef BOOST_DEDUCED_TYPENAME allocator_type::pointer pointer;
typedef BOOST_DEDUCED_TYPENAME allocator_type::const_pointer const_pointer;
typedef BOOST_DEDUCED_TYPENAME allocator_type::reference reference;
typedef BOOST_DEDUCED_TYPENAME allocator_type::const_reference const_reference;
typedef BOOST_DEDUCED_TYPENAME implementation::size_type size_type;
typedef BOOST_DEDUCED_TYPENAME implementation::difference_type difference_type;
typedef BOOST_DEDUCED_TYPENAME implementation::const_iterator iterator;
typedef BOOST_DEDUCED_TYPENAME implementation::const_iterator const_iterator;
typedef BOOST_DEDUCED_TYPENAME implementation::const_local_iterator local_iterator;
typedef BOOST_DEDUCED_TYPENAME implementation::const_local_iterator const_local_iterator;
// construct/destroy/copy
explicit unordered_set(
size_type n = boost::unordered_detail::default_initial_bucket_count,
const hasher &hf = hasher(),
const key_equal &eql = key_equal(),
const allocator_type &a = allocator_type())
: base(n, hf, eql, a)
{
}
// TODO: Should this be explicit?
unordered_set(allocator_type const& a)
: base(boost::unordered_detail::default_initial_bucket_count,
hasher(), key_equal(), a)
{
}
unordered_set(unordered_set const& other, allocator_type const& a)
: base(other.base, a)
{
}
template <class InputIterator>
unordered_set(InputIterator f, InputIterator l)
: base(f, l, boost::unordered_detail::default_initial_bucket_count,
hasher(), key_equal(), allocator_type())
{
}
template <class InputIterator>
unordered_set(InputIterator f, InputIterator l, size_type n,
const hasher &hf = hasher(),
const key_equal &eql = key_equal(),
const allocator_type &a = allocator_type())
: base(f, l, n, hf, eql, a)
{
}
#if defined(BOOST_HAS_RVALUE_REFS)
unordered_set(unordered_set&& other)
: base(other.base, boost::unordered_detail::move_tag())
{
}
unordered_set(unordered_set&& other, allocator_type const& a)
: base(other.base, a, boost::unordered_detail::move_tag())
{
}
unordered_set& operator=(unordered_set&& x)
{
base.move(x.base);
return *this;
}
#else
unordered_set(boost::unordered_detail::move_from<unordered_set> other)
: base(other.base, boost::unordered_detail::move_tag())
{
}
unordered_set& operator=(unordered_set x)
{
base.move(x.base);
return *this;
}
#endif
private:
BOOST_DEDUCED_TYPENAME implementation::iterator_base const&
get(const_iterator const& it)
{
return boost::unordered_detail::iterator_access::get(it);
}
public:
allocator_type get_allocator() const
{
return base.get_allocator();
}
// size and capacity
bool empty() const
{
return base.empty();
}
size_type size() const
{
return base.size();
}
size_type max_size() const
{
return base.max_size();
}
// iterators
iterator begin()
{
return iterator(base.data_.begin());
}
const_iterator begin() const
{
return const_iterator(base.data_.begin());
}
iterator end()
{
return iterator(base.data_.end());
}
const_iterator end() const
{
return const_iterator(base.data_.end());
}
const_iterator cbegin() const
{
return const_iterator(base.data_.begin());
}
const_iterator cend() const
{
return const_iterator(base.data_.end());
}
// modifiers
std::pair<iterator, bool> insert(const value_type& obj)
{
return boost::unordered_detail::pair_cast<iterator, bool>(
base.insert(obj));
}
iterator insert(const_iterator hint, const value_type& obj)
{
return iterator(base.insert_hint(get(hint), obj));
}
template <class InputIterator>
void insert(InputIterator first, InputIterator last)
{
base.insert_range(first, last);
}
iterator erase(const_iterator position)
{
return iterator(base.data_.erase(get(position)));
}
size_type erase(const key_type& k)
{
return base.erase_key(k);
}
iterator erase(const_iterator first, const_iterator last)
{
return iterator(base.data_.erase_range(get(first), get(last)));
}
void clear()
{
base.data_.clear();
}
void swap(unordered_set& other)
{
base.swap(other.base);
}
// observers
hasher hash_function() const
{
return base.hash_function();
}
key_equal key_eq() const
{
return base.key_eq();
}
// lookup
const_iterator find(const key_type& k) const
{
return const_iterator(base.find(k));
}
size_type count(const key_type& k) const
{
return base.count(k);
}
std::pair<const_iterator, const_iterator>
equal_range(const key_type& k) const
{
return boost::unordered_detail::pair_cast<const_iterator, const_iterator>(
base.equal_range(k));
}
// bucket interface
size_type bucket_count() const
{
return base.bucket_count();
}
size_type max_bucket_count() const
{
return base.max_bucket_count();
}
size_type bucket_size(size_type n) const
{
return base.data_.bucket_size(n);
}
size_type bucket(const key_type& k) const
{
return base.bucket(k);
}
local_iterator begin(size_type n)
{
return local_iterator(base.data_.begin(n));
}
const_local_iterator begin(size_type n) const
{
return const_local_iterator(base.data_.begin(n));
}
local_iterator end(size_type n)
{
return local_iterator(base.data_.end(n));
}
const_local_iterator end(size_type n) const
{
return const_local_iterator(base.data_.end(n));
}
const_local_iterator cbegin(size_type n) const
{
return const_local_iterator(base.data_.begin(n));
}
const_local_iterator cend(size_type n) const
{
return const_local_iterator(base.data_.end(n));
}
// hash policy
float load_factor() const
{
return base.load_factor();
}
float max_load_factor() const
{
return base.max_load_factor();
}
void max_load_factor(float m)
{
base.max_load_factor(m);
}
void rehash(size_type n)
{
base.rehash(n);
}
}; // class template unordered_set
template <class T, class H, class P, class A>
void swap(unordered_set<T, H, P, A> &m1,
unordered_set<T, H, P, A> &m2)
{
m1.swap(m2);
}
template <class Value,
class Hash = hash<Value>,
class Pred = std::equal_to<Value>,
class Alloc = std::allocator<Value> >
class unordered_multiset
{
typedef boost::unordered_detail::hash_types_equivalent_keys<
Value, Value, Hash, Pred, Alloc
> implementation;
BOOST_DEDUCED_TYPENAME implementation::hash_table base;
public:
//types
typedef Value key_type;
typedef Value value_type;
typedef Hash hasher;
typedef Pred key_equal;
typedef Alloc allocator_type;
typedef BOOST_DEDUCED_TYPENAME allocator_type::pointer pointer;
typedef BOOST_DEDUCED_TYPENAME allocator_type::const_pointer const_pointer;
typedef BOOST_DEDUCED_TYPENAME allocator_type::reference reference;
typedef BOOST_DEDUCED_TYPENAME allocator_type::const_reference const_reference;
typedef BOOST_DEDUCED_TYPENAME implementation::size_type size_type;
typedef BOOST_DEDUCED_TYPENAME implementation::difference_type difference_type;
typedef BOOST_DEDUCED_TYPENAME implementation::const_iterator iterator;
typedef BOOST_DEDUCED_TYPENAME implementation::const_iterator const_iterator;
typedef BOOST_DEDUCED_TYPENAME implementation::const_local_iterator local_iterator;
typedef BOOST_DEDUCED_TYPENAME implementation::const_local_iterator const_local_iterator;
// construct/destroy/copy
explicit unordered_multiset(
size_type n = boost::unordered_detail::default_initial_bucket_count,
const hasher &hf = hasher(),
const key_equal &eql = key_equal(),
const allocator_type &a = allocator_type())
: base(n, hf, eql, a)
{
}
// TODO: Should this be explicit?
unordered_multiset(allocator_type const& a)
: base(boost::unordered_detail::default_initial_bucket_count,
hasher(), key_equal(), a)
{
}
unordered_multiset(unordered_multiset const& other, allocator_type const& a)
: base(other.base, a)
{
}
template <class InputIterator>
unordered_multiset(InputIterator f, InputIterator l)
: base(f, l, boost::unordered_detail::default_initial_bucket_count,
hasher(), key_equal(), allocator_type())
{
}
template <class InputIterator>
unordered_multiset(InputIterator f, InputIterator l, size_type n,
const hasher &hf = hasher(),
const key_equal &eql = key_equal(),
const allocator_type &a = allocator_type())
: base(f, l, n, hf, eql, a)
{
}
#if defined(BOOST_HAS_RVALUE_REFS)
unordered_multiset(unordered_multiset&& other)
: base(other.base, boost::unordered_detail::move_tag())
{
}
unordered_multiset(unordered_multiset&& other, allocator_type const& a)
: base(other.base, a, boost::unordered_detail::move_tag())
{
}
unordered_multiset& operator=(unordered_multiset&& x)
{
base.move(x.base);
return *this;
}
#else
unordered_multiset(boost::unordered_detail::move_from<unordered_multiset> other)
: base(other.base, boost::unordered_detail::move_tag())
{
}
unordered_multiset& operator=(unordered_multiset x)
{
base.move(x.base);
return *this;
}
#endif
private:
BOOST_DEDUCED_TYPENAME implementation::iterator_base const&
get(const_iterator const& it)
{
return boost::unordered_detail::iterator_access::get(it);
}
public:
allocator_type get_allocator() const
{
return base.get_allocator();
}
// size and capacity
bool empty() const
{
return base.empty();
}
size_type size() const
{
return base.size();
}
size_type max_size() const
{
return base.max_size();
}
// iterators
iterator begin()
{
return iterator(base.data_.begin());
}
const_iterator begin() const
{
return const_iterator(base.data_.begin());
}
iterator end()
{
return iterator(base.data_.end());
}
const_iterator end() const
{
return const_iterator(base.data_.end());
}
const_iterator cbegin() const
{
return const_iterator(base.data_.begin());
}
const_iterator cend() const
{
return const_iterator(base.data_.end());
}
// modifiers
iterator insert(const value_type& obj)
{
return iterator(base.insert(obj));
}
iterator insert(const_iterator hint, const value_type& obj)
{
return iterator(base.insert_hint(get(hint), obj));
}
template <class InputIterator>
void insert(InputIterator first, InputIterator last)
{
base.insert_range(first, last);
}
iterator erase(const_iterator position)
{
return iterator(base.data_.erase(get(position)));
}
size_type erase(const key_type& k)
{
return base.erase_key(k);
}
iterator erase(const_iterator first, const_iterator last)
{
return iterator(base.data_.erase_range(get(first), get(last)));
}
void clear()
{
base.data_.clear();
}
void swap(unordered_multiset& other)
{
base.swap(other.base);
}
// observers
hasher hash_function() const
{
return base.hash_function();
}
key_equal key_eq() const
{
return base.key_eq();
}
// lookup
const_iterator find(const key_type& k) const
{
return const_iterator(base.find(k));
}
size_type count(const key_type& k) const
{
return base.count(k);
}
std::pair<const_iterator, const_iterator>
equal_range(const key_type& k) const
{
return boost::unordered_detail::pair_cast<const_iterator, const_iterator>(
base.equal_range(k));
}
// bucket interface
size_type bucket_count() const
{
return base.bucket_count();
}
size_type max_bucket_count() const
{
return base.max_bucket_count();
}
size_type bucket_size(size_type n) const
{
return base.data_.bucket_size(n);
}
size_type bucket(const key_type& k) const
{
return base.bucket(k);
}
local_iterator begin(size_type n)
{
return local_iterator(base.data_.begin(n));
}
const_local_iterator begin(size_type n) const
{
return const_local_iterator(base.data_.begin(n));
}
local_iterator end(size_type n)
{
return local_iterator(base.data_.end(n));
}
const_local_iterator end(size_type n) const
{
return const_local_iterator(base.data_.end(n));
}
const_local_iterator cbegin(size_type n) const
{
return const_local_iterator(base.data_.begin(n));
}
const_local_iterator cend(size_type n) const
{
return const_local_iterator(base.data_.end(n));
}
// hash policy
float load_factor() const
{
return base.load_factor();
}
float max_load_factor() const
{
return base.max_load_factor();
}
void max_load_factor(float m)
{
base.max_load_factor(m);
}
void rehash(size_type n)
{
base.rehash(n);
}
}; // class template unordered_multiset
template <class T, class H, class P, class A>
void swap(unordered_multiset<T, H, P, A> &m1,
unordered_multiset<T, H, P, A> &m2)
{
m1.swap(m2);
}
} // namespace boost
#endif // BOOST_UNORDERED_SET_HPP_INCLUDED
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