gcc/libstdc++-v3/include/tr1_impl/hashtable_policy.h - Issue 3050029: [gcc] GCC 4.5.0=>4.5.1

Unified Diff: gcc/libstdc++-v3/include/tr1_impl/hashtable_policy.h

Issue 3050029: [gcc] GCC 4.5.0=>4.5.1 (Closed) Base URL: ssh://git@gitrw.chromium.org:9222/nacl-toolchain.git

Patch Set: Created 10 years, 5 months ago

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Index: gcc/libstdc++-v3/include/tr1_impl/hashtable_policy.h

diff --git a/gcc/libstdc++-v3/include/tr1_impl/hashtable_policy.h b/gcc/libstdc++-v3/include/tr1_impl/hashtable_policy.h

deleted file mode 100644

index 8996d04d9891e00344698b2e947ea1cb47bfec3f..0000000000000000000000000000000000000000

--- a/gcc/libstdc++-v3/include/tr1_impl/hashtable_policy.h

+++ /dev/null

@@ -1,865 +0,0 @@

-// Internal policy header for TR1 unordered_set and unordered_map -*- C++ -*-

-//

-// This file is part of the GNU ISO C++ Library. This library is free

-// software; you can redistribute it and/or modify it under the

-// terms of the GNU General Public License as published by the

-// Free Software Foundation; either version 3, or (at your option)

-// any later version.

-// This library is distributed in the hope that it will be useful,

-// but WITHOUT ANY WARRANTY; without even the implied warranty of

-// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the

-// GNU General Public License for more details.

-// Under Section 7 of GPL version 3, you are granted additional

-// permissions described in the GCC Runtime Library Exception, version

-// 3.1, as published by the Free Software Foundation.

-// You should have received a copy of the GNU General Public License and

-// a copy of the GCC Runtime Library Exception along with this program;

-// see the files COPYING3 and COPYING.RUNTIME respectively. If not, see

-// <http://www.gnu.org/licenses/>.

-/** @file tr1_impl/hashtable_policy.h

- * This is an internal header file, included by other library headers.

- * You should not attempt to use it directly.

- */

-namespace std

-_GLIBCXX_BEGIN_NAMESPACE_TR1

-namespace __detail

- // Helper function: return distance(first, last) for forward

- // iterators, or 0 for input iterators.

- template<class _Iterator>

- inline typename std::iterator_traits<_Iterator>::difference_type

- __distance_fw(_Iterator __first, _Iterator __last,

- std::input_iterator_tag)

- { return 0; }

- template<class _Iterator>

- inline typename std::iterator_traits<_Iterator>::difference_type

- __distance_fw(_Iterator __first, _Iterator __last,

- std::forward_iterator_tag)

- { return std::distance(__first, __last); }

- template<class _Iterator>

- inline typename std::iterator_traits<_Iterator>::difference_type

- __distance_fw(_Iterator __first, _Iterator __last)

- {

- typedef typename std::iterator_traits<_Iterator>::iterator_category _Tag;

- return __distance_fw(__first, __last, _Tag());

- }

- template<typename _RAIter, typename _Tp>

- _RAIter

- __lower_bound(_RAIter __first, _RAIter __last, const _Tp& __val)

- {

- typedef typename std::iterator_traits<_RAIter>::difference_type _DType;

- _DType __len = __last - __first;

- while (__len > 0)

- {

- _DType __half = __len >> 1;

- _RAIter __middle = __first + __half;

- if (*__middle < __val)

- {

- __first = __middle;

- ++__first;

- __len = __len - __half - 1;

- }

- else

- __len = __half;

- }

- return __first;

- }

- // Auxiliary types used for all instantiations of _Hashtable: nodes

- // and iterators.

- // Nodes, used to wrap elements stored in the hash table. A policy

- // template parameter of class template _Hashtable controls whether

- // nodes also store a hash code. In some cases (e.g. strings) this

- // may be a performance win.

- template<typename _Value, bool __cache_hash_code>

- struct _Hash_node;

- template<typename _Value>

- struct _Hash_node<_Value, true>

- {

- _Value _M_v;

- std::size_t _M_hash_code;

- _Hash_node* _M_next;

-#ifdef _GLIBCXX_INCLUDE_AS_CXX0X

- template<typename... _Args>

- _Hash_node(_Args&&... __args)

- : _M_v(std::forward<_Args>(__args)...),

- _M_hash_code(), _M_next() { }

-#endif

- };

- template<typename _Value>

- struct _Hash_node<_Value, false>

- {

- _Value _M_v;

- _Hash_node* _M_next;

-#ifdef _GLIBCXX_INCLUDE_AS_CXX0X

- template<typename... _Args>

- _Hash_node(_Args&&... __args)

- : _M_v(std::forward<_Args>(__args)...),

- _M_next() { }

-#endif

- };

- // Local iterators, used to iterate within a bucket but not between

- // buckets.

- template<typename _Value, bool __cache>

- struct _Node_iterator_base

- {

- _Node_iterator_base(_Hash_node<_Value, __cache>* __p)

- : _M_cur(__p) { }

- void

- _M_incr()

- { _M_cur = _M_cur->_M_next; }

- _Hash_node<_Value, __cache>* _M_cur;

- };

- template<typename _Value, bool __cache>

- inline bool

- operator==(const _Node_iterator_base<_Value, __cache>& __x,

- const _Node_iterator_base<_Value, __cache>& __y)

- { return __x._M_cur == __y._M_cur; }

- template<typename _Value, bool __cache>

- inline bool

- operator!=(const _Node_iterator_base<_Value, __cache>& __x,

- const _Node_iterator_base<_Value, __cache>& __y)

- { return __x._M_cur != __y._M_cur; }

- template<typename _Value, bool __constant_iterators, bool __cache>

- struct _Node_iterator

- : public _Node_iterator_base<_Value, __cache>

- {

- typedef _Value value_type;

- typedef typename

- __gnu_cxx::__conditional_type<__constant_iterators,

- const _Value*, _Value*>::__type

- pointer;

- typedef typename

- __gnu_cxx::__conditional_type<__constant_iterators,

- const _Value&, _Value&>::__type

- reference;

- typedef std::ptrdiff_t difference_type;

- typedef std::forward_iterator_tag iterator_category;

- _Node_iterator()

- : _Node_iterator_base<_Value, __cache>(0) { }

- explicit

- _Node_iterator(_Hash_node<_Value, __cache>* __p)

- : _Node_iterator_base<_Value, __cache>(__p) { }

- reference

- operator*() const

- { return this->_M_cur->_M_v; }

- pointer

- operator->() const

- { return &this->_M_cur->_M_v; }

- _Node_iterator&

- operator++()

- {

- this->_M_incr();

- return *this;

- }

- _Node_iterator

- operator++(int)

- {

- _Node_iterator __tmp(*this);

- this->_M_incr();

- return __tmp;

- }

- };

- template<typename _Value, bool __constant_iterators, bool __cache>

- struct _Node_const_iterator

- : public _Node_iterator_base<_Value, __cache>

- {

- typedef _Value value_type;

- typedef const _Value* pointer;

- typedef const _Value& reference;

- typedef std::ptrdiff_t difference_type;

- typedef std::forward_iterator_tag iterator_category;

- _Node_const_iterator()

- : _Node_iterator_base<_Value, __cache>(0) { }

- explicit

- _Node_const_iterator(_Hash_node<_Value, __cache>* __p)

- : _Node_iterator_base<_Value, __cache>(__p) { }

- _Node_const_iterator(const _Node_iterator<_Value, __constant_iterators,

- __cache>& __x)

- : _Node_iterator_base<_Value, __cache>(__x._M_cur) { }

- reference

- operator*() const

- { return this->_M_cur->_M_v; }

- pointer

- operator->() const

- { return &this->_M_cur->_M_v; }

- _Node_const_iterator&

- operator++()

- {

- this->_M_incr();

- return *this;

- }

- _Node_const_iterator

- operator++(int)

- {

- _Node_const_iterator __tmp(*this);

- this->_M_incr();

- return __tmp;

- }

- };

- template<typename _Value, bool __cache>

- struct _Hashtable_iterator_base

- {

- _Hashtable_iterator_base(_Hash_node<_Value, __cache>* __node,

- _Hash_node<_Value, __cache>** __bucket)

- : _M_cur_node(__node), _M_cur_bucket(__bucket) { }

- void

- _M_incr()

- {

- _M_cur_node = _M_cur_node->_M_next;

- if (!_M_cur_node)

- _M_incr_bucket();

- }

- void

- _M_incr_bucket();

- _Hash_node<_Value, __cache>* _M_cur_node;

- _Hash_node<_Value, __cache>** _M_cur_bucket;

- };

- // Global iterators, used for arbitrary iteration within a hash

- // table. Larger and more expensive than local iterators.

- template<typename _Value, bool __cache>

- void

- _Hashtable_iterator_base<_Value, __cache>::

- _M_incr_bucket()

- {

- ++_M_cur_bucket;

- // This loop requires the bucket array to have a non-null sentinel.

- while (!*_M_cur_bucket)

- ++_M_cur_bucket;

- _M_cur_node = *_M_cur_bucket;

- }

- template<typename _Value, bool __cache>

- inline bool

- operator==(const _Hashtable_iterator_base<_Value, __cache>& __x,

- const _Hashtable_iterator_base<_Value, __cache>& __y)

- { return __x._M_cur_node == __y._M_cur_node; }

- template<typename _Value, bool __cache>

- inline bool

- operator!=(const _Hashtable_iterator_base<_Value, __cache>& __x,

- const _Hashtable_iterator_base<_Value, __cache>& __y)

- { return __x._M_cur_node != __y._M_cur_node; }

- template<typename _Value, bool __constant_iterators, bool __cache>

- struct _Hashtable_iterator

- : public _Hashtable_iterator_base<_Value, __cache>

- {

- typedef _Value value_type;

- typedef typename

- __gnu_cxx::__conditional_type<__constant_iterators,

- const _Value*, _Value*>::__type

- pointer;

- typedef typename

- __gnu_cxx::__conditional_type<__constant_iterators,

- const _Value&, _Value&>::__type

- reference;

- typedef std::ptrdiff_t difference_type;

- typedef std::forward_iterator_tag iterator_category;

- _Hashtable_iterator()

- : _Hashtable_iterator_base<_Value, __cache>(0, 0) { }

- _Hashtable_iterator(_Hash_node<_Value, __cache>* __p,

- _Hash_node<_Value, __cache>** __b)

- : _Hashtable_iterator_base<_Value, __cache>(__p, __b) { }

- explicit

- _Hashtable_iterator(_Hash_node<_Value, __cache>** __b)

- : _Hashtable_iterator_base<_Value, __cache>(*__b, __b) { }

- reference

- operator*() const

- { return this->_M_cur_node->_M_v; }

- pointer

- operator->() const

- { return &this->_M_cur_node->_M_v; }

- _Hashtable_iterator&

- operator++()

- {

- this->_M_incr();

- return *this;

- }

- _Hashtable_iterator

- operator++(int)

- {

- _Hashtable_iterator __tmp(*this);

- this->_M_incr();

- return __tmp;

- }

- };

- template<typename _Value, bool __constant_iterators, bool __cache>

- struct _Hashtable_const_iterator

- : public _Hashtable_iterator_base<_Value, __cache>

- {

- typedef _Value value_type;

- typedef const _Value* pointer;

- typedef const _Value& reference;

- typedef std::ptrdiff_t difference_type;

- typedef std::forward_iterator_tag iterator_category;

- _Hashtable_const_iterator()

- : _Hashtable_iterator_base<_Value, __cache>(0, 0) { }

- _Hashtable_const_iterator(_Hash_node<_Value, __cache>* __p,

- _Hash_node<_Value, __cache>** __b)

- : _Hashtable_iterator_base<_Value, __cache>(__p, __b) { }

- explicit

- _Hashtable_const_iterator(_Hash_node<_Value, __cache>** __b)

- : _Hashtable_iterator_base<_Value, __cache>(*__b, __b) { }

- _Hashtable_const_iterator(const _Hashtable_iterator<_Value,

- __constant_iterators, __cache>& __x)

- : _Hashtable_iterator_base<_Value, __cache>(__x._M_cur_node,

- __x._M_cur_bucket) { }

- reference

- operator*() const

- { return this->_M_cur_node->_M_v; }

- pointer

- operator->() const

- { return &this->_M_cur_node->_M_v; }

- _Hashtable_const_iterator&

- operator++()

- {

- this->_M_incr();

- return *this;

- }

- _Hashtable_const_iterator

- operator++(int)

- {

- _Hashtable_const_iterator __tmp(*this);

- this->_M_incr();

- return __tmp;

- }

- };

- // Many of class template _Hashtable's template parameters are policy

- // classes. These are defaults for the policies.

- // Default range hashing function: use division to fold a large number

- // into the range [0, N).

- struct _Mod_range_hashing

- {

- typedef std::size_t first_argument_type;

- typedef std::size_t second_argument_type;

- typedef std::size_t result_type;

- result_type

- operator()(first_argument_type __num, second_argument_type __den) const

- { return __num % __den; }

- };

- // Default ranged hash function H. In principle it should be a

- // function object composed from objects of type H1 and H2 such that

- // h(k, N) = h2(h1(k), N), but that would mean making extra copies of

- // h1 and h2. So instead we'll just use a tag to tell class template

- // hashtable to do that composition.

- struct _Default_ranged_hash { };

- // Default value for rehash policy. Bucket size is (usually) the

- // smallest prime that keeps the load factor small enough.

- struct _Prime_rehash_policy

- {

- _Prime_rehash_policy(float __z = 1.0)

- : _M_max_load_factor(__z), _M_growth_factor(2.f), _M_next_resize(0) { }

- float

- max_load_factor() const

- { return _M_max_load_factor; }

- // Return a bucket size no smaller than n.

- std::size_t

- _M_next_bkt(std::size_t __n) const;

- // Return a bucket count appropriate for n elements

- std::size_t

- _M_bkt_for_elements(std::size_t __n) const;

- // __n_bkt is current bucket count, __n_elt is current element count,

- // and __n_ins is number of elements to be inserted. Do we need to

- // increase bucket count? If so, return make_pair(true, n), where n

- // is the new bucket count. If not, return make_pair(false, 0).

- std::pair<bool, std::size_t>

- _M_need_rehash(std::size_t __n_bkt, std::size_t __n_elt,

- std::size_t __n_ins) const;

- enum { _S_n_primes = sizeof(unsigned long) != 8 ? 256 : 256 + 48 };

- float _M_max_load_factor;

- float _M_growth_factor;

- mutable std::size_t _M_next_resize;

- };

- extern const unsigned long __prime_list[];

- // XXX This is a hack. There's no good reason for any of

- // _Prime_rehash_policy's member functions to be inline.

- // Return a prime no smaller than n.

- inline std::size_t

- _Prime_rehash_policy::

- _M_next_bkt(std::size_t __n) const

- {

- const unsigned long* __p = __lower_bound(__prime_list, __prime_list

- + _S_n_primes, __n);

- _M_next_resize =

- static_cast<std::size_t>(__builtin_ceil(*__p * _M_max_load_factor));

- return *__p;

- }

- // Return the smallest prime p such that alpha p >= n, where alpha

- // is the load factor.

- inline std::size_t

- _Prime_rehash_policy::

- _M_bkt_for_elements(std::size_t __n) const

- {

- const float __min_bkts = __n / _M_max_load_factor;

- const unsigned long* __p = __lower_bound(__prime_list, __prime_list

- + _S_n_primes, __min_bkts);

- _M_next_resize =

- static_cast<std::size_t>(__builtin_ceil(*__p * _M_max_load_factor));

- return *__p;

- }

- // Finds the smallest prime p such that alpha p > __n_elt + __n_ins.

- // If p > __n_bkt, return make_pair(true, p); otherwise return

- // make_pair(false, 0). In principle this isn't very different from

- // _M_bkt_for_elements.

- // The only tricky part is that we're caching the element count at

- // which we need to rehash, so we don't have to do a floating-point

- // multiply for every insertion.

- inline std::pair<bool, std::size_t>

- _Prime_rehash_policy::

- _M_need_rehash(std::size_t __n_bkt, std::size_t __n_elt,

- std::size_t __n_ins) const

- {

- if (__n_elt + __n_ins > _M_next_resize)

- {

- float __min_bkts = ((float(__n_ins) + float(__n_elt))

- / _M_max_load_factor);

- if (__min_bkts > __n_bkt)

- {

- __min_bkts = std::max(__min_bkts, _M_growth_factor * __n_bkt);

- const unsigned long* __p =

- __lower_bound(__prime_list, __prime_list + _S_n_primes,

- __min_bkts);

- _M_next_resize = static_cast<std::size_t>

- (__builtin_ceil(*__p * _M_max_load_factor));

- return std::make_pair(true, *__p);

- }

- else

- {

- _M_next_resize = static_cast<std::size_t>

- (__builtin_ceil(__n_bkt * _M_max_load_factor));

- return std::make_pair(false, 0);

- }

- else

- return std::make_pair(false, 0);

- }

- // Base classes for std::tr1::_Hashtable. We define these base

- // classes because in some cases we want to do different things

- // depending on the value of a policy class. In some cases the

- // policy class affects which member functions and nested typedefs

- // are defined; we handle that by specializing base class templates.

- // Several of the base class templates need to access other members

- // of class template _Hashtable, so we use the "curiously recurring

- // template pattern" for them.

- // class template _Map_base. If the hashtable has a value type of the

- // form pair<T1, T2> and a key extraction policy that returns the

- // first part of the pair, the hashtable gets a mapped_type typedef.

- // If it satisfies those criteria and also has unique keys, then it

- // also gets an operator[].

- template<typename _Key, typename _Value, typename _Ex, bool __unique,

- typename _Hashtable>

- struct _Map_base { };

- template<typename _Key, typename _Pair, typename _Hashtable>

- struct _Map_base<_Key, _Pair, std::_Select1st<_Pair>, false, _Hashtable>

- {

- typedef typename _Pair::second_type mapped_type;

- };

- template<typename _Key, typename _Pair, typename _Hashtable>

- struct _Map_base<_Key, _Pair, std::_Select1st<_Pair>, true, _Hashtable>

- {

- typedef typename _Pair::second_type mapped_type;

- mapped_type&

- operator[](const _Key& __k);

-#ifdef _GLIBCXX_INCLUDE_AS_CXX0X

- // _GLIBCXX_RESOLVE_LIB_DEFECTS

- // DR 761. unordered_map needs an at() member function.

- mapped_type&

- at(const _Key& __k);

- const mapped_type&

- at(const _Key& __k) const;

-#endif

- };

- template<typename _Key, typename _Pair, typename _Hashtable>

- typename _Map_base<_Key, _Pair, std::_Select1st<_Pair>,

- true, _Hashtable>::mapped_type&

- _Map_base<_Key, _Pair, std::_Select1st<_Pair>, true, _Hashtable>::

- operator[](const _Key& __k)

- {

- _Hashtable* __h = static_cast<_Hashtable*>(this);

- typename _Hashtable::_Hash_code_type __code = __h->_M_hash_code(__k);

- std::size_t __n = __h->_M_bucket_index(__k, __code,

- __h->_M_bucket_count);

- typename _Hashtable::_Node* __p =

- __h->_M_find_node(__h->_M_buckets[__n], __k, __code);

- if (!__p)

- return __h->_M_insert_bucket(std::make_pair(__k, mapped_type()),

- __n, __code)->second;

- return (__p->_M_v).second;

- }

-#ifdef _GLIBCXX_INCLUDE_AS_CXX0X

- template<typename _Key, typename _Pair, typename _Hashtable>

- typename _Map_base<_Key, _Pair, std::_Select1st<_Pair>,

- true, _Hashtable>::mapped_type&

- _Map_base<_Key, _Pair, std::_Select1st<_Pair>, true, _Hashtable>::

- at(const _Key& __k)

- {

- _Hashtable* __h = static_cast<_Hashtable*>(this);

- typename _Hashtable::_Hash_code_type __code = __h->_M_hash_code(__k);

- std::size_t __n = __h->_M_bucket_index(__k, __code,

- __h->_M_bucket_count);

- typename _Hashtable::_Node* __p =

- __h->_M_find_node(__h->_M_buckets[__n], __k, __code);

- if (!__p)

- __throw_out_of_range(__N("_Map_base::at"));

- return (__p->_M_v).second;

- }

- template<typename _Key, typename _Pair, typename _Hashtable>

- const typename _Map_base<_Key, _Pair, std::_Select1st<_Pair>,

- true, _Hashtable>::mapped_type&

- _Map_base<_Key, _Pair, std::_Select1st<_Pair>, true, _Hashtable>::

- at(const _Key& __k) const

- {

- const _Hashtable* __h = static_cast<const _Hashtable*>(this);

- typename _Hashtable::_Hash_code_type __code = __h->_M_hash_code(__k);

- std::size_t __n = __h->_M_bucket_index(__k, __code,

- __h->_M_bucket_count);

- typename _Hashtable::_Node* __p =

- __h->_M_find_node(__h->_M_buckets[__n], __k, __code);

- if (!__p)

- __throw_out_of_range(__N("_Map_base::at"));

- return (__p->_M_v).second;

- }

-#endif

- // class template _Rehash_base. Give hashtable the max_load_factor

- // functions iff the rehash policy is _Prime_rehash_policy.

- template<typename _RehashPolicy, typename _Hashtable>

- struct _Rehash_base { };

- template<typename _Hashtable>

- struct _Rehash_base<_Prime_rehash_policy, _Hashtable>

- {

- float

- max_load_factor() const

- {

- const _Hashtable* __this = static_cast<const _Hashtable*>(this);

- return __this->__rehash_policy().max_load_factor();

- }

- void

- max_load_factor(float __z)

- {

- _Hashtable* __this = static_cast<_Hashtable*>(this);

- __this->__rehash_policy(_Prime_rehash_policy(__z));

- }

- };

- // Class template _Hash_code_base. Encapsulates two policy issues that

- // aren't quite orthogonal.

- // (1) the difference between using a ranged hash function and using

- // the combination of a hash function and a range-hashing function.

- // In the former case we don't have such things as hash codes, so

- // we have a dummy type as placeholder.

- // (2) Whether or not we cache hash codes. Caching hash codes is

- // meaningless if we have a ranged hash function.

- // We also put the key extraction and equality comparison function

- // objects here, for convenience.

- // Primary template: unused except as a hook for specializations.

- template<typename _Key, typename _Value,

- typename _ExtractKey, typename _Equal,

- typename _H1, typename _H2, typename _Hash,

- bool __cache_hash_code>

- struct _Hash_code_base;

- // Specialization: ranged hash function, no caching hash codes. H1

- // and H2 are provided but ignored. We define a dummy hash code type.

- template<typename _Key, typename _Value,

- typename _ExtractKey, typename _Equal,

- typename _H1, typename _H2, typename _Hash>

- struct _Hash_code_base<_Key, _Value, _ExtractKey, _Equal, _H1, _H2,

- _Hash, false>

- {

- protected:

- _Hash_code_base(const _ExtractKey& __ex, const _Equal& __eq,

- const _H1&, const _H2&, const _Hash& __h)

- : _M_extract(__ex), _M_eq(__eq), _M_ranged_hash(__h) { }

- typedef void* _Hash_code_type;

- _Hash_code_type

- _M_hash_code(const _Key& __key) const

- { return 0; }

- std::size_t

- _M_bucket_index(const _Key& __k, _Hash_code_type,

- std::size_t __n) const

- { return _M_ranged_hash(__k, __n); }

- std::size_t

- _M_bucket_index(const _Hash_node<_Value, false>* __p,

- std::size_t __n) const

- { return _M_ranged_hash(_M_extract(__p->_M_v), __n); }

- bool

- _M_compare(const _Key& __k, _Hash_code_type,

- _Hash_node<_Value, false>* __n) const

- { return _M_eq(__k, _M_extract(__n->_M_v)); }

- void

- _M_store_code(_Hash_node<_Value, false>*, _Hash_code_type) const

- { }

- void

- _M_copy_code(_Hash_node<_Value, false>*,

- const _Hash_node<_Value, false>*) const

- { }

- void

- _M_swap(_Hash_code_base& __x)

- {

- std::swap(_M_extract, __x._M_extract);

- std::swap(_M_eq, __x._M_eq);

- std::swap(_M_ranged_hash, __x._M_ranged_hash);

- }

- protected:

- _ExtractKey _M_extract;

- _Equal _M_eq;

- _Hash _M_ranged_hash;

- };

- // No specialization for ranged hash function while caching hash codes.

- // That combination is meaningless, and trying to do it is an error.

- // Specialization: ranged hash function, cache hash codes. This

- // combination is meaningless, so we provide only a declaration

- // and no definition.

- template<typename _Key, typename _Value,

- typename _ExtractKey, typename _Equal,

- typename _H1, typename _H2, typename _Hash>

- struct _Hash_code_base<_Key, _Value, _ExtractKey, _Equal, _H1, _H2,

- _Hash, true>;

- // Specialization: hash function and range-hashing function, no

- // caching of hash codes. H is provided but ignored. Provides

- // typedef and accessor required by TR1.

- template<typename _Key, typename _Value,

- typename _ExtractKey, typename _Equal,

- typename _H1, typename _H2>

- struct _Hash_code_base<_Key, _Value, _ExtractKey, _Equal, _H1, _H2,

- _Default_ranged_hash, false>

- {

- typedef _H1 hasher;

- hasher

- hash_function() const

- { return _M_h1; }

- protected:

- _Hash_code_base(const _ExtractKey& __ex, const _Equal& __eq,

- const _H1& __h1, const _H2& __h2,

- const _Default_ranged_hash&)

- : _M_extract(__ex), _M_eq(__eq), _M_h1(__h1), _M_h2(__h2) { }

- typedef std::size_t _Hash_code_type;

- _Hash_code_type

- _M_hash_code(const _Key& __k) const

- { return _M_h1(__k); }

- std::size_t

- _M_bucket_index(const _Key&, _Hash_code_type __c,

- std::size_t __n) const

- { return _M_h2(__c, __n); }

- std::size_t

- _M_bucket_index(const _Hash_node<_Value, false>* __p,

- std::size_t __n) const

- { return _M_h2(_M_h1(_M_extract(__p->_M_v)), __n); }

- bool

- _M_compare(const _Key& __k, _Hash_code_type,

- _Hash_node<_Value, false>* __n) const

- { return _M_eq(__k, _M_extract(__n->_M_v)); }

- void

- _M_store_code(_Hash_node<_Value, false>*, _Hash_code_type) const

- { }

- void

- _M_copy_code(_Hash_node<_Value, false>*,

- const _Hash_node<_Value, false>*) const

- { }

- void

- _M_swap(_Hash_code_base& __x)

- {

- std::swap(_M_extract, __x._M_extract);

- std::swap(_M_eq, __x._M_eq);

- std::swap(_M_h1, __x._M_h1);

- std::swap(_M_h2, __x._M_h2);

- }

- protected:

- _ExtractKey _M_extract;

- _Equal _M_eq;

- _H1 _M_h1;

- _H2 _M_h2;

- };

- // Specialization: hash function and range-hashing function,

- // caching hash codes. H is provided but ignored. Provides

- // typedef and accessor required by TR1.

- template<typename _Key, typename _Value,

- typename _ExtractKey, typename _Equal,

- typename _H1, typename _H2>

- struct _Hash_code_base<_Key, _Value, _ExtractKey, _Equal, _H1, _H2,

- _Default_ranged_hash, true>

- {

- typedef _H1 hasher;

- hasher

- hash_function() const

- { return _M_h1; }

- protected:

- _Hash_code_base(const _ExtractKey& __ex, const _Equal& __eq,

- const _H1& __h1, const _H2& __h2,

- const _Default_ranged_hash&)

- : _M_extract(__ex), _M_eq(__eq), _M_h1(__h1), _M_h2(__h2) { }

- typedef std::size_t _Hash_code_type;

- _Hash_code_type

- _M_hash_code(const _Key& __k) const

- { return _M_h1(__k); }

- std::size_t

- _M_bucket_index(const _Key&, _Hash_code_type __c,

- std::size_t __n) const

- { return _M_h2(__c, __n); }

- std::size_t

- _M_bucket_index(const _Hash_node<_Value, true>* __p,

- std::size_t __n) const

- { return _M_h2(__p->_M_hash_code, __n); }

- bool

- _M_compare(const _Key& __k, _Hash_code_type __c,

- _Hash_node<_Value, true>* __n) const

- { return __c == __n->_M_hash_code && _M_eq(__k, _M_extract(__n->_M_v)); }

- void

- _M_store_code(_Hash_node<_Value, true>* __n, _Hash_code_type __c) const

- { __n->_M_hash_code = __c; }

- void

- _M_copy_code(_Hash_node<_Value, true>* __to,

- const _Hash_node<_Value, true>* __from) const

- { __to->_M_hash_code = __from->_M_hash_code; }

- void

- _M_swap(_Hash_code_base& __x)

- {

- std::swap(_M_extract, __x._M_extract);

- std::swap(_M_eq, __x._M_eq);

- std::swap(_M_h1, __x._M_h1);

- std::swap(_M_h2, __x._M_h2);

- }

- protected:

- _ExtractKey _M_extract;

- _Equal _M_eq;

- _H1 _M_h1;

- _H2 _M_h2;

- };

-} // namespace __detail

-_GLIBCXX_END_NAMESPACE_TR1

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