std::_Hashtable< _Key, _Value, _Alloc, _ExtractKey, _Equal, _H1, _H2, _Hash, _RehashPolicy, _Traits > Class Template Reference

Inheritance diagram for std::_Hashtable< _Key, _Value, _Alloc, _ExtractKey, _Equal, _H1, _H2, _Hash, _RehashPolicy, _Traits >:

Public Types
typedef _Alloc	allocator_type
using	const_iterator = typename __hashtable_base::const_iterator
using	const_local_iterator = typename __hashtable_base::const_local_iterator
typedef __value_alloc_traits::const_pointer	const_pointer
typedef const value_type &	const_reference
using	difference_type = typename __hashtable_base::difference_type
using	iterator = typename __hashtable_base::iterator
typedef _Equal	key_equal
typedef _Key	key_type
using	local_iterator = typename __hashtable_base::local_iterator
typedef __value_alloc_traits::pointer	pointer
typedef value_type &	reference
using	size_type = typename __hashtable_base::size_type
typedef _Value	value_type

Public Member Functions
	_Hashtable (size_type __bucket_hint, const _H1 &, const _H2 &, const _Hash &, const _Equal &, const _ExtractKey &, const allocator_type &)
template<typename _InputIterator >
	_Hashtable (_InputIterator __first, _InputIterator __last, size_type __bucket_hint, const _H1 &, const _H2 &, const _Hash &, const _Equal &, const _ExtractKey &, const allocator_type &)
	_Hashtable (const _Hashtable &)
	_Hashtable (_Hashtable &&) noexcept
	_Hashtable (const _Hashtable &, const allocator_type &)
	_Hashtable (_Hashtable &&, const allocator_type &)
	_Hashtable (const allocator_type &__a)
	_Hashtable (size_type __n=10, const _H1 &__hf=_H1(), const key_equal &__eql=key_equal(), const allocator_type &__a=allocator_type())
template<typename _InputIterator >
	_Hashtable (_InputIterator __f, _InputIterator __l, size_type __n=0, const _H1 &__hf=_H1(), const key_equal &__eql=key_equal(), const allocator_type &__a=allocator_type())
	_Hashtable (initializer_list< value_type > __l, size_type __n=0, const _H1 &__hf=_H1(), const key_equal &__eql=key_equal(), const allocator_type &__a=allocator_type())
const _RehashPolicy &	__rehash_policy () const
void	__rehash_policy (const _RehashPolicy &)
template<typename... _Args>
std::pair< typename _Hashtable < _Key, _Value, _Alloc, _ExtractKey, _Equal, _H1, _H2, _Hash, _RehashPolicy, _Traits > ::iterator, bool >	_M_emplace (std::true_type, _Args &&...__args)
template<typename... _Args>
_Hashtable< _Key, _Value, _Alloc, _ExtractKey, _Equal, _H1, _H2, _Hash, _RehashPolicy, _Traits >::iterator	_M_emplace (const_iterator __hint, std::false_type, _Args &&...__args)
template<typename _Arg , typename _NodeGenerator >
std::pair< typename _Hashtable < _Key, _Value, _Alloc, _ExtractKey, _Equal, _H1, _H2, _Hash, _RehashPolicy, _Traits > ::iterator, bool >	_M_insert (_Arg &&__v, const _NodeGenerator &__node_gen, std::true_type)
template<typename _Arg , typename _NodeGenerator >
_Hashtable< _Key, _Value, _Alloc, _ExtractKey, _Equal, _H1, _H2, _Hash, _RehashPolicy, _Traits >::iterator	_M_insert (const_iterator __hint, _Arg &&__v, const _NodeGenerator &__node_gen, std::false_type)
iterator	begin () noexcept
const_iterator	begin () const noexcept
local_iterator	begin (size_type __n)
const_local_iterator	begin (size_type __n) const
size_type	bucket (const key_type &__k) const
size_type	bucket_count () const noexcept
size_type	bucket_size (size_type __n) const
const_iterator	cbegin () const noexcept
const_local_iterator	cbegin (size_type __n) const
const_iterator	cend () const noexcept
const_local_iterator	cend (size_type __n) const
void	clear () noexcept
size_type	count (const key_type &__k) const
template<typename... _Args>
__ireturn_type	emplace (_Args &&...__args)
template<typename... _Args>
iterator	emplace_hint (const_iterator __hint, _Args &&...__args)
bool	empty () const noexcept
iterator	end () noexcept
const_iterator	end () const noexcept
local_iterator	end (size_type __n)
const_local_iterator	end (size_type __n) const
std::pair< iterator, iterator >	equal_range (const key_type &__k)
std::pair< const_iterator, const_iterator >	equal_range (const key_type &__k) const
iterator	erase (const_iterator)
iterator	erase (iterator __it)
size_type	erase (const key_type &__k)
iterator	erase (const_iterator, const_iterator)
iterator	find (const key_type &__k)
const_iterator	find (const key_type &__k) const
allocator_type	get_allocator () const noexcept
key_equal	key_eq () const
float	load_factor () const noexcept
size_type	max_bucket_count () const noexcept
size_type	max_size () const noexcept
void	noexcept (__node_alloc_traits::_S_nothrow_swap())
_Hashtable &	operator= (const _Hashtable &__ht)
_Hashtable &	operator= (_Hashtable &&__ht)
_Hashtable &	operator= (initializer_list< value_type > __l)
void	rehash (size_type __n)
size_type	size () const noexcept

Protected Member Functions
size_type	_M_bucket_index (__node_type *__n) const noexcept
size_type	_M_bucket_index (const key_type &__k, __hash_code __c) const
template<typename... _Args>
std::pair< iterator, bool >	_M_emplace (std::true_type, _Args &&...__args)
template<typename... _Args>
iterator	_M_emplace (std::false_type __uk, _Args &&...__args)
template<typename... _Args>
iterator	_M_emplace (const_iterator, std::true_type __uk, _Args &&...__args)
template<typename... _Args>
iterator	_M_emplace (const_iterator, std::false_type, _Args &&...__args)
const _Equal &	_M_eq () const
_Equal &	_M_eq ()
bool	_M_equals (const _Key &__k, __hash_code __c, __node_type *__n) const
size_type	_M_erase (std::true_type, const key_type &)
size_type	_M_erase (std::false_type, const key_type &)
iterator	_M_erase (size_type __bkt, __node_base *__prev_n, __node_type *__n)
__node_base *	_M_find_before_node (size_type, const key_type &, __hash_code) const
__node_type *	_M_find_node (size_type __bkt, const key_type &__key, __hash_code __c) const
__node_base *	_M_get_previous_node (size_type __bkt, __node_base *__n)
template<typename _Arg , typename _NodeGenerator >
std::pair< iterator, bool >	_M_insert (_Arg &&, const _NodeGenerator &, std::true_type)
template<typename _Arg , typename _NodeGenerator >
iterator	_M_insert (_Arg &&__arg, const _NodeGenerator &__node_gen, std::false_type __uk)
template<typename _Arg , typename _NodeGenerator >
iterator	_M_insert (const_iterator, _Arg &&__arg, const _NodeGenerator &__node_gen, std::true_type __uk)
template<typename _Arg , typename _NodeGenerator >
iterator	_M_insert (const_iterator, _Arg &&, const _NodeGenerator &, std::false_type)
void	_M_insert_bucket_begin (size_type, __node_type *)
iterator	_M_insert_multi_node (__node_type *__hint, __hash_code __code, __node_type *__n)
iterator	_M_insert_unique_node (size_type __bkt, __hash_code __code, __node_type *__n)
void	_M_remove_bucket_begin (size_type __bkt, __node_type *__next_n, size_type __next_bkt)
void	_M_swap (_Hashtable_base &__x)

Private Types
using	__bucket_alloc_traits = std::allocator_traits< __bucket_alloc_type >
using	__bucket_alloc_type = typename __alloctr_rebind< __node_alloc_type, __bucket_type >::__type
using	__value_alloc_type = typename __alloctr_rebind< __node_alloc_type, __value_type >::__type
using	__value_type = typename __node_type::value_type

Private Member Functions
__bucket_type *	_M_allocate_buckets (std::size_t __n)
__node_type *	_M_allocate_node (_Args &&...__args)
void	_M_deallocate_buckets (__bucket_type *, std::size_t __n)
void	_M_deallocate_node (__node_type *__n)
void	_M_deallocate_nodes (__node_type *__n)
__node_alloc_type &	_M_node_allocator ()
const __node_alloc_type &	_M_node_allocator () const

Friends
template<typename _Keya , typename _Valuea , typename _Alloca , typename _ExtractKeya , typename _Equala , typename _H1a , typename _H2a , typename _Hasha , typename _RehashPolicya , typename _Traitsa , bool _Constant_iteratorsa, bool _Unique_keysa>
struct	__detail::_Insert
template<typename _Keya , typename _Valuea , typename _Alloca , typename _ExtractKeya , typename _Equala , typename _H1a , typename _H2a , typename _Hasha , typename _RehashPolicya , typename _Traitsa >
struct	__detail::_Insert_base
template<typename _Keya , typename _Valuea , typename _Alloca , typename _ExtractKeya , typename _Equala , typename _H1a , typename _H2a , typename _Hasha , typename _RehashPolicya , typename _Traitsa , bool _Unique_keysa>
struct	__detail::_Map_base

Detailed Description

template<typename _Key, typename _Value, typename _Alloc, typename _ExtractKey, typename _Equal, typename _H1, typename _H2, typename _Hash, typename _RehashPolicy, typename _Traits>
class std::_Hashtable< _Key, _Value, _Alloc, _ExtractKey, _Equal, _H1, _H2, _Hash, _RehashPolicy, _Traits >

Primary class template _Hashtable.

Template Parameters

_Value	CopyConstructible type.
_Key	CopyConstructible type.
_Alloc	An allocator type ([lib.allocator.requirements]) whose _Alloc::value_type is _Value. As a conforming extension, we allow for _Alloc::value_type != _Value.
_ExtractKey	Function object that takes an object of type _Value and returns a value of type _Key.
_Equal	Function object that takes two objects of type k and returns a bool-like value that is true if the two objects are considered equal.
_H1	The hash function. A unary function object with argument type _Key and result type size_t. Return values should be distributed over the entire range [0, numeric_limits<size_t>:max()].
_H2	The range-hashing function (in the terminology of Tavori and Dreizin). A binary function object whose argument types and result type are all size_t. Given arguments r and N, the return value is in the range [0, N).
_Hash	The ranged hash function (Tavori and Dreizin). A binary function whose argument types are _Key and size_t and whose result type is size_t. Given arguments k and N, the return value is in the range [0, N). Default: hash(k, N) = h2(h1(k), N). If _Hash is anything other than the default, _H1 and _H2 are ignored.
_RehashPolicy	Policy class with three members, all of which govern the bucket count. _M_next_bkt(n) returns a bucket count no smaller than n. _M_bkt_for_elements(n) returns a bucket count appropriate for an element count of n. _M_need_rehash(n_bkt, n_elt, n_ins) determines whether, if the current bucket count is n_bkt and the current element count is n_elt, we need to increase the bucket count. If so, returns make_pair(true, n), where n is the new bucket count. If not, returns make_pair(false, <anything>)
_Traits	Compile-time class with three boolean std::integral_constant members: __cache_hash_code, __constant_iterators, __unique_keys.

Each _Hashtable data structure has:

• _Bucket[] _M_buckets
• _Hash_node_base _M_before_begin
• size_type _M_bucket_count
• size_type _M_element_count

with _Bucket being _Hash_node* and _Hash_node containing:

• _Hash_node* _M_next
• Tp _M_value
• size_t _M_hash_code if cache_hash_code is true

In terms of Standard containers the hashtable is like the aggregation of:

• std::forward_list<_Node> containing the elements
• std::vector<std::forward_list<_Node>::iterator> representing the buckets

The non-empty buckets contain the node before the first node in the bucket. This design makes it possible to implement something like a std::forward_list::insert_after on container insertion and std::forward_list::erase_after on container erase calls. _M_before_begin is equivalent to std::forward_list::before_begin. Empty buckets contain nullptr. Note that one of the non-empty buckets contains &_M_before_begin which is not a dereferenceable node so the node pointer in a bucket shall never be dereferenced, only its next node can be.

Walking through a bucket's nodes requires a check on the hash code to see if each node is still in the bucket. Such a design assumes a quite efficient hash functor and is one of the reasons it is highly advisable to set __cache_hash_code to true.

The container iterators are simply built from nodes. This way incrementing the iterator is perfectly efficient independent of how many empty buckets there are in the container.

On insert we compute the element's hash code and use it to find the bucket index. If the element must be inserted in an empty bucket we add it at the beginning of the singly linked list and make the bucket point to _M_before_begin. The bucket that used to point to _M_before_begin, if any, is updated to point to its new before begin node.

On erase, the simple iterator design requires using the hash functor to get the index of the bucket to update. For this reason, when __cache_hash_code is set to false the hash functor must not throw and this is enforced by a static assertion.

Functionality is implemented by decomposition into base classes, where the derived _Hashtable class is used in _Map_base, _Insert, _Rehash_base, and _Equality base classes to access the "this" pointer. _Hashtable_base is used in the base classes as a non-recursive, fully-completed-type so that detailed nested type information, such as iterator type and node type, can be used. This is similar to the "Curiously Recurring Template Pattern" (CRTP) technique, but uses a reconstructed, not explicitly passed, template pattern.

Base class templates are:

• __detail::_Hashtable_base
• __detail::_Map_base
• __detail::_Insert
• __detail::_Rehash_base
• __detail::_Equality

Definition at line 174 of file bits/hashtable.h.

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The documentation for this class was generated from the following file:

• bits/hashtable.h