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server/dep/ACE_wrappers/ace/Hash_Map_Manager_T.h
zerg b8d773091a [10874] Update ACE to v5.8.3 
(based on zergtmn's repo commit 3a8c259)
(based on zergtmn's repo commit 946c1a8)

Signed-off-by: VladimirMangos <vladimir@getmangos.com>
2010-12-14 17:37:42 +03:00

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// // -*- C++ -*-
//=============================================================================
/**
* @file Hash_Map_Manager_T.h
*
* $Id: Hash_Map_Manager_T.h 91626 2010-09-07 10:59:20Z johnnyw $
*
* @author Douglas C. Schmidt <schmidt@cs.wustl.edu>
*/
//=============================================================================
#ifndef ACE_HASH_MAP_MANAGER_T_H
#define ACE_HASH_MAP_MANAGER_T_H
#include /**/ "ace/pre.h"
#include /**/ "ace/config-all.h"
#if !defined (ACE_LACKS_PRAGMA_ONCE)
# pragma once
#endif /* ACE_LACKS_PRAGMA_ONCE */
#include "ace/Default_Constants.h"
#include "ace/Functor_T.h"
#include "ace/Log_Msg.h"
#include <iterator>
ACE_BEGIN_VERSIONED_NAMESPACE_DECL
/**
* @class ACE_Hash_Map_Entry
*
* @brief Define an entry in the hash table.
*/
template <class EXT_ID, class INT_ID>
class ACE_Hash_Map_Entry
{
public:
// = Initialization and termination methods.
/// Constructor.
ACE_Hash_Map_Entry (const EXT_ID &ext_id,
const INT_ID &int_id,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *next = 0,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *prev = 0);
/// Constructor.
ACE_Hash_Map_Entry (ACE_Hash_Map_Entry<EXT_ID, INT_ID> *next,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *prev);
/// Destructor.
~ACE_Hash_Map_Entry (void);
/// Key accessor.
EXT_ID& key (void);
/// Read-only key accessor.
const EXT_ID& key (void) const;
/// Item accessor.
INT_ID& item (void);
/// Read-only item accessor.
const INT_ID& item (void) const;
/// Key used to look up an entry.
/// @deprecated Use key()
EXT_ID ext_id_;
/// The contents of the entry itself.
/// @deprecated Use item()
INT_ID int_id_;
/// Pointer to the next item in the bucket of overflow nodes.
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *next_;
/// Pointer to the prev item in the bucket of overflow nodes.
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *prev_;
/// Dump the state of an object.
void dump (void) const;
};
// Forward decl.
template <class EXT_ID, class INT_ID, class HASH_KEY, class COMPARE_KEYS, class ACE_LOCK>
class ACE_Hash_Map_Iterator_Base_Ex;
// Forward decl.
template <class EXT_ID, class INT_ID, class HASH_KEY, class COMPARE_KEYS, class ACE_LOCK>
class ACE_Hash_Map_Const_Iterator_Base_Ex;
// Forward decl.
template <class EXT_ID, class INT_ID, class HASH_KEY, class COMPARE_KEYS, class ACE_LOCK>
class ACE_Hash_Map_Iterator_Ex;
// Forward decl.
template <class EXT_ID, class INT_ID, class HASH_KEY, class COMPARE_KEYS, class ACE_LOCK>
class ACE_Hash_Map_Const_Iterator_Ex;
// Forward decl.
template <class EXT_ID, class INT_ID, class HASH_KEY, class COMPARE_KEYS, class ACE_LOCK>
class ACE_Hash_Map_Reverse_Iterator_Ex;
// Forward decl.
template <class EXT_ID, class INT_ID, class HASH_KEY, class COMPARE_KEYS, class ACE_LOCK>
class ACE_Hash_Map_Const_Reverse_Iterator_Ex;
// Forward decl.
template <class EXT_ID, class INT_ID, class HASH_KEY, class COMPARE_KEYS, class ACE_LOCK>
class ACE_Hash_Map_Bucket_Iterator;
// Forward decl.
class ACE_Allocator;
/**
* @class ACE_Hash_Map_Manager_Ex
*
* @brief Define a map abstraction that efficiently associates
* @c EXT_ID type objects with @c INT_ID type objects.
*
* This implementation of a map uses a hash table. Key hashing
* is achieved through the @c HASH_KEY object and key comparison is
* achieved through the @c COMPARE_KEYS object.
* This class uses an ACE_Allocator to allocate memory. The
* user can make this a persistent class by providing an
* ACE_Allocator with a persistable memory pool.
*/
template <class EXT_ID, class INT_ID, class HASH_KEY, class COMPARE_KEYS, class ACE_LOCK>
class ACE_Hash_Map_Manager_Ex
{
public:
friend class ACE_Hash_Map_Iterator_Base_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>;
friend class ACE_Hash_Map_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>;
friend class ACE_Hash_Map_Const_Iterator_Base_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>;
friend class ACE_Hash_Map_Const_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>;
friend class ACE_Hash_Map_Reverse_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>;
friend class ACE_Hash_Map_Const_Reverse_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>;
friend class ACE_Hash_Map_Bucket_Iterator<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>;
typedef EXT_ID
KEY;
typedef INT_ID
VALUE;
typedef ACE_LOCK lock_type;
typedef ACE_Hash_Map_Entry<EXT_ID, INT_ID>
ENTRY;
// = ACE-style iterator typedefs.
typedef ACE_Hash_Map_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>
ITERATOR;
typedef ACE_Hash_Map_Const_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>
CONST_ITERATOR;
typedef ACE_Hash_Map_Reverse_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>
REVERSE_ITERATOR;
typedef ACE_Hash_Map_Const_Reverse_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>
CONST_REVERSE_ITERATOR;
// = STL-style iterator typedefs.
typedef ACE_Hash_Map_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>
iterator;
typedef ACE_Hash_Map_Const_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>
const_iterator;
typedef ACE_Hash_Map_Reverse_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>
reverse_iterator;
typedef ACE_Hash_Map_Const_Reverse_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>
const_reverse_iterator;
// = STL-style typedefs/traits.
typedef EXT_ID key_type;
typedef INT_ID data_type;
typedef ACE_Hash_Map_Entry<EXT_ID, INT_ID> value_type;
typedef value_type & reference;
typedef value_type const & const_reference;
typedef value_type * pointer;
typedef value_type const * const_pointer;
typedef ptrdiff_t difference_type;
typedef size_t size_type;
// = Initialization and termination methods.
/**
* Initialize an ACE_Hash_Map_Manager_Ex with a default number of elements.
*
* @param table_alloc is a pointer to a memory allocator used for
* table_, so it should supply size*sizeof (ACE_Hash_Map_Entry<EXT_ID, INT_ID>).
* If @a table_alloc is 0 it defaults to ACE_Allocator::instance().
* @param entry_alloc is a pointer to an additional allocator for
* entries, so it should be able to allocate 'size' / chunks
* of sizeof(ACE_Hash_Map_Entry<EXT_ID, INT_ID>) bytes each.
* If @a entry_alloc is 0 it defaults to the same allocator as
* @a table_alloc.
*/
ACE_Hash_Map_Manager_Ex (ACE_Allocator *table_alloc = 0,
ACE_Allocator *entry_alloc = 0);
/**
* Initialize an ACE_Hash_Map_Manager_Ex with @a size elements.
*
* @param table_alloc is a pointer to a memory allocator used for
* table_, so it should supply size*sizeof (ACE_Hash_Map_Entry<EXT_ID, INT_ID>).
* If @a table_alloc is 0 it defaults to ACE_Allocator::instance().
* @param entry_alloc is a pointer to an additional allocator for
* entries, so it should be able to allocate 'size' / chunks
* of sizeof(ACE_Hash_Map_Entry<EXT_ID, INT_ID>) bytes each.
* If @a entry_alloc is 0 it defaults to the same allocator as
* @a table_alloc.
*/
ACE_Hash_Map_Manager_Ex (size_t size,
ACE_Allocator *table_alloc = 0,
ACE_Allocator *entry_alloc = 0);
/**
* Initialize an ACE_Hash_Map_Manager_Ex with @a size elements.
* @param table_alloc is a pointer to a memory allocator used for
* table_, so it should supply size*sizeof (ACE_Hash_Map_Entry<EXT_ID, INT_ID>).
* If @a table_alloc is 0 it defaults to ACE_Allocator::instance().
* @param entry_alloc is a pointer to an additional allocator for
* entries, so it should be able to allocate 'size' / chunks
* of sizeof(ACE_Hash_Map_Entry<EXT_ID, INT_ID>) bytes each.
* If @a entry_alloc is 0 then it defaults to the same allocator as
* @a table_alloc.
* @return -1 on failure, 0 on success
*/
int open (size_t size = ACE_DEFAULT_MAP_SIZE,
ACE_Allocator *table_alloc = 0,
ACE_Allocator *entry_alloc = 0);
/// Close down the ACE_Hash_Map_Manager_Ex and release dynamically allocated
/// resources.
int close (void);
/// Removes all the entries in the ACE_Hash_Map_Manager_Ex.
int unbind_all (void);
/// Cleanup the ACE_Hash_Map_Manager_Ex.
~ACE_Hash_Map_Manager_Ex (void);
/**
* Associate @a item with @a int_id. If @a item is already in the
* map then the map is not changed.
*
* @retval 0 if a new entry is bound successfully.
* @retval 1 if an attempt is made to bind an existing entry.
* @retval -1 if a failure occurs; check @c errno for more information.
*/
int bind (const EXT_ID &item,
const INT_ID &int_id);
/**
* Same as a normal bind, except the map entry is also passed back
* to the caller. The entry in this case will either be the newly
* created entry, or the existing one.
*/
int bind (const EXT_ID &ext_id,
const INT_ID &int_id,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *&entry);
/**
* Associate @a ext_id with @a int_id if and only if @a ext_id is not
* in the map. If @a ext_id is already in the map then the @a int_id
* parameter is assigned the existing value in the map. Returns 0
* if a new entry is bound successfully, returns 1 if an attempt is
* made to bind an existing entry, and returns -1 if failures occur.
*/
int trybind (const EXT_ID &ext_id,
INT_ID &int_id);
/**
* Same as a normal trybind, except the map entry is also passed
* back to the caller. The entry in this case will either be the
* newly created entry, or the existing one.
*/
int trybind (const EXT_ID &ext_id,
INT_ID &int_id,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *&entry);
/**
* Reassociate @a ext_id with @a int_id. If @a ext_id is not in the
* map then behaves just like <bind>. Returns 0 if a new entry is
* bound successfully, returns 1 if an existing entry was rebound,
* and returns -1 if failures occur.
*/
int rebind (const EXT_ID &ext_id,
const INT_ID &int_id);
/**
* Same as a normal rebind, except the map entry is also passed back
* to the caller. The entry in this case will either be the newly
* created entry, or the existing one.
*/
int rebind (const EXT_ID &ext_id,
const INT_ID &int_id,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *&entry);
/**
* Associate @a ext_id with @a int_id. If @a ext_id is not in the map
* then behaves just like <bind>. Otherwise, store the old value of
* @a int_id into the "out" parameter and rebind the new parameters.
* Returns 0 if a new entry is bound successfully, returns 1 if an
* existing entry was rebound, and returns -1 if failures occur.
*/
int rebind (const EXT_ID &ext_id,
const INT_ID &int_id,
INT_ID &old_int_id);
/**
* Same as a normal rebind, except the map entry is also passed back
* to the caller. The entry in this case will either be the newly
* created entry, or the existing one.
*/
int rebind (const EXT_ID &ext_id,
const INT_ID &int_id,
INT_ID &old_int_id,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *&entry);
/**
* Associate @a ext_id with @a int_id. If @a ext_id is not in the map
* then behaves just like <bind>. Otherwise, store the old values
* of @a ext_id and @a int_id into the "out" parameters and rebind the
* new parameters. This is very useful if you need to have an
* atomic way of updating ACE_Hash_Map_Entrys and you also need
* full control over memory allocation. Returns 0 if a new entry is
* bound successfully, returns 1 if an existing entry was rebound,
* and returns -1 if failures occur.
*/
int rebind (const EXT_ID &ext_id,
const INT_ID &int_id,
EXT_ID &old_ext_id,
INT_ID &old_int_id);
/**
* Same as a normal rebind, except the map entry is also passed back
* to the caller. The entry in this case will either be the newly
* created entry, or the existing one.
*/
int rebind (const EXT_ID &ext_id,
const INT_ID &int_id,
EXT_ID &old_ext_id,
INT_ID &old_int_id,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *&entry);
/// Locate @a ext_id and pass out parameter via @a int_id.
/// Return 0 if found, returns -1 if not found.
int find (const EXT_ID &ext_id,
INT_ID &int_id) const;
/// Returns 0 if the @a ext_id is in the mapping, otherwise -1.
int find (const EXT_ID &ext_id) const;
/// Locate @a ext_id and pass out parameter via @a entry. If found,
/// return 0, returns -1 if not found.
int find (const EXT_ID &ext_id,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *&entry) const;
/// Locate @a ext_id and pass out an iterator that points to its
/// corresponding value.
/**
* @param pos @a pos will be set to @c end() if not found.
*/
void find (EXT_ID const & ext_id, iterator & pos) const;
/**
* Unbind (remove) the @a ext_id from the map. Don't return the
* @a int_id to the caller (this is useful for collections where the
* @a int_ids are *not* dynamically allocated...)
*/
int unbind (const EXT_ID &ext_id);
/// Break any association of @a ext_id. Returns the value of @a int_id
/// in case the caller needs to deallocate memory. Return 0 if the
/// unbind was successful, and returns -1 if failures occur.
int unbind (const EXT_ID &ext_id,
INT_ID &int_id);
/// Remove entry from map.
/**
* This unbind operation is fast relative to those that accept an
* external ID parameter since no map lookup is performed.
*
* @return 0 if the unbind was successful, and -1 if failures
* occur.
*/
int unbind (ACE_Hash_Map_Entry<EXT_ID, INT_ID> *entry);
/// Remove entry from map pointed to by @c iterator @a pos.
/**
* This unbind operation is fast relative to those that accept an
* external ID parameter since no map lookup is performed.
*
* @return 0 if the unbind was successful, and -1 if failures
* occur.
*/
int unbind (iterator pos);
/// Returns the current number of ACE_Hash_Map_Entry objects in the
/// hash table.
size_t current_size (void) const;
/// Return the size of the array that's used to point to the
/// linked lists of ACE_Hash_Map_Entry objects in the hash table.
size_t total_size (void) const;
/**
* Returns a reference to the underlying <ACE_LOCK>. This makes it
* possible to acquire the lock explicitly, which can be useful in
* some cases if you instantiate the ACE_Atomic_Op with an
* ACE_Recursive_Mutex or ACE_Process_Mutex, or if you need to
* guard the state of an iterator.
* @note The right name would be <lock>, but HP/C++ will choke on that!
*/
ACE_LOCK &mutex (void);
/// Dump the state of an object.
void dump (void) const;
// = STL styled iterator factory functions.
/// Return forward iterator.
iterator begin (void);
iterator end (void);
const_iterator begin (void) const;
const_iterator end (void) const;
/// Return reverse iterator.
reverse_iterator rbegin (void);
reverse_iterator rend (void);
const_reverse_iterator rbegin (void) const;
const_reverse_iterator rend (void) const;
protected:
// = The following methods do the actual work.
/// Returns 1 if <id1> == <id2>, else 0. This is defined as a
/// separate method to facilitate template specialization.
int equal (const EXT_ID &id1, const EXT_ID &id2);
/// Compute the hash value of the @a ext_id. This is defined as a
/// separate method to facilitate template specialization.
u_long hash (const EXT_ID &ext_id);
// = These methods assume locks are held by private methods.
/// Performs bind. Must be called with locks held.
int bind_i (const EXT_ID &ext_id,
const INT_ID &int_id);
/// Performs bind. Must be called with locks held.
int bind_i (const EXT_ID &ext_id,
const INT_ID &int_id,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *&entry);
/// Performs trybind. Must be called with locks held.
int trybind_i (const EXT_ID &ext_id,
INT_ID &int_id);
/// Performs trybind. Must be called with locks held.
int trybind_i (const EXT_ID &ext_id,
INT_ID &int_id,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *&entry);
/// Performs rebind. Must be called with locks held.
int rebind_i (const EXT_ID &ext_id,
const INT_ID &int_id);
/// Performs rebind. Must be called with locks held.
int rebind_i (const EXT_ID &ext_id,
const INT_ID &int_id,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *&entry);
/// Performs rebind. Must be called with locks held.
int rebind_i (const EXT_ID &ext_id,
const INT_ID &int_id,
INT_ID &old_int_id);
/// Performs rebind. Must be called with locks held.
int rebind_i (const EXT_ID &ext_id,
const INT_ID &int_id,
INT_ID &old_int_id,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *&entry);
/// Performs rebind. Must be called with locks held.
int rebind_i (const EXT_ID &ext_id,
const INT_ID &int_id,
EXT_ID &old_ext_id,
INT_ID &old_int_id);
/// Performs rebind. Must be called with locks held.
int rebind_i (const EXT_ID &ext_id,
const INT_ID &int_id,
EXT_ID &old_ext_id,
INT_ID &old_int_id,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *&entry);
/// Performs a find of @a int_id using @a ext_id as the key. Must be
/// called with locks held.
int find_i (const EXT_ID &ext_id,
INT_ID &int_id);
/// Performs a find using @a ext_id as the key. Must be called with
/// locks held.
int find_i (const EXT_ID &ext_id);
/// Performs a find using @a ext_id as the key. Must be called with
/// locks held.
int find_i (const EXT_ID &ext_id,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *&entry);
/// Performs unbind. Must be called with locks held.
int unbind_i (const EXT_ID &ext_id,
INT_ID &int_id);
/// Performs unbind. Must be called with locks held.
int unbind_i (const EXT_ID &ext_id);
/// Performs unbind. Must be called with locks held.
int unbind_i (ACE_Hash_Map_Entry<EXT_ID, INT_ID> *entry);
/**
* Resize the map. Must be called with locks held.
* @note This method should never be called more than once or else all the
* hashing will get screwed up as the size will change.
*/
int create_buckets (size_t size);
/// Close down a <Map_Manager_Ex>. Must be called with
/// locks held.
int close_i (void);
/// Removes all the entries in <Map_Manager_Ex>. Must be called with
/// locks held.
int unbind_all_i (void);
/// Pointer to a memory allocator used for table_, so it should
/// supply size*sizeof (ACE_Hash_Map_Entry<EXT_ID, INT_ID>),
ACE_Allocator *table_allocator_;
/// Addidtional allocator for entries, so it should be able to
/// allocate 'size' / chunks of sizeof(ACE_Hash_Map_Entry<EXT_ID,
/// INT_ID>) bytes each.
ACE_Allocator *entry_allocator_;
/// Synchronization variable for the MT_SAFE
/// @c ACE_Hash_Map_Manager_Ex.
mutable ACE_LOCK lock_;
/// Function object used for hashing keys.
HASH_KEY hash_key_;
/// Function object used for comparing keys.
COMPARE_KEYS compare_keys_;
protected:
/// Returns the ACE_Hash_Map_Entry that corresponds to @a ext_id.
int shared_find (const EXT_ID &ext_id,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *&entry,
size_t &loc);
/// Accessor of the underlying table
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *table (void);
private:
/**
* Array of ACE_Hash_Map_Entry *s, each of which points to an
* ACE_Hash_Map_Entry that serves as the beginning of a linked
* list of <EXT_ID>s that hash to that bucket.
*/
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *table_;
/// Total size of the hash table.
size_t total_size_;
/// Current number of entries in the table
/// @note That this can be larger than <total_size_> due to the
/// bucket chaining).
size_t cur_size_;
// = Disallow these operations.
ACE_UNIMPLEMENTED_FUNC (void operator= (const ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &))
ACE_UNIMPLEMENTED_FUNC (ACE_Hash_Map_Manager_Ex (const ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &))
};
/**
* @class ACE_Hash_Map_Iterator_Base_Ex
*
* @brief Base iterator for the ACE_Hash_Map_Manager_Ex
*
* This class factors out common code from its templatized
* subclasses.
*/
template <class EXT_ID, class INT_ID, class HASH_KEY, class COMPARE_KEYS, class ACE_LOCK>
class ACE_Hash_Map_Iterator_Base_Ex
{
public:
// = STL-style typedefs/traits.
typedef ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>
container_type;
// = std::iterator_traits typedefs/traits.
typedef typename container_type::value_type value_type;
typedef typename container_type::reference reference;
typedef typename container_type::pointer pointer;
typedef typename container_type::difference_type difference_type;
// = Initialization method.
/// Contructor.
/**
* If @a head != @c false, the iterator constructed is positioned
* at the head of the map. It is positioned at the end otherwise.
* @par
*/
ACE_Hash_Map_Iterator_Base_Ex (
ACE_Hash_Map_Manager_Ex<EXT_ID,
INT_ID,
HASH_KEY,
COMPARE_KEYS,
ACE_LOCK> &mm,
bool head);
/// Contructor.
/**
* This constructor positions the iterator to the given @a entry.
*/
ACE_Hash_Map_Iterator_Base_Ex (
ACE_Hash_Map_Manager_Ex<EXT_ID,
INT_ID,
HASH_KEY,
COMPARE_KEYS,
ACE_LOCK> & mm,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> * entry,
size_t index);
// = ITERATION methods.
/// Pass back the next <entry> that hasn't been seen in the Set.
/// Returns 0 when all items have been seen, else 1.
int next (ACE_Hash_Map_Entry<EXT_ID, INT_ID> *&next_entry) const;
/// Returns 1 when all items have been seen, else 0.
int done (void) const;
/// Returns a reference to the interal element @c this is pointing to.
ACE_Hash_Map_Entry<EXT_ID, INT_ID>& operator* (void) const;
/// Returns a pointer to the interal element @c this is pointing to.
ACE_Hash_Map_Entry<EXT_ID, INT_ID>* operator-> (void) const;
/// Returns reference the Hash_Map_Manager_Ex that is being iterated
/// over.
ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>& map (void);
/// Check if two iterators point to the same position
bool operator== (const ACE_Hash_Map_Iterator_Base_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &) const;
bool operator!= (const ACE_Hash_Map_Iterator_Base_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &) const;
/// Declare the dynamic allocation hooks.
ACE_ALLOC_HOOK_DECLARE;
protected:
/// Move forward by one element in the set. Returns 0 when there's
/// no more item in the set after the current items, else 1.
int forward_i (void);
/// Move backward by one element in the set. Returns 0 when there's
/// no more item in the set before the current item, else 1.
int reverse_i (void);
/// Dump the state of an object.
void dump_i (void) const;
/// Map we are iterating over.
ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> *map_man_;
/// Keeps track of how far we've advanced in the table.
ssize_t index_;
/// Keeps track of how far we've advanced in a linked list in each
/// table slot.
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *next_;
};
/**
* @class ACE_Hash_Map_Const_Iterator_Base_Ex
*
* @brief Base const iterator for the ACE_Hash_Map_Manager_Ex
*
* This class factors out common code from its templatized
* subclasses.
*/
template <class EXT_ID, class INT_ID, class HASH_KEY, class COMPARE_KEYS, class ACE_LOCK>
class ACE_Hash_Map_Const_Iterator_Base_Ex
{
public:
// = STL-style typedefs/traits.
typedef ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>
container_type;
// = std::iterator_traits typedefs/traits.
typedef typename container_type::value_type value_type;
typedef typename container_type::const_reference reference;
typedef typename container_type::const_pointer pointer;
typedef typename container_type::difference_type difference_type;
// = Initialization method.
/// Contructor. If head the iterator constructed is positioned
/// at the head of the map, it is positioned at the end otherwise.
ACE_Hash_Map_Const_Iterator_Base_Ex (const ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &mm,
bool head);
// = ITERATION methods.
/// Pass back the next <entry> that hasn't been seen in the Set.
/// Returns 0 when all items have been seen, else 1.
int next (ACE_Hash_Map_Entry<EXT_ID, INT_ID> *&next_entry) const;
/// Returns 1 when all items have been seen, else 0.
int done (void) const;
/// Returns a reference to the interal element @c this is pointing to.
ACE_Hash_Map_Entry<EXT_ID, INT_ID>& operator* (void) const;
/// Returns a pointer to the interal element @c this is pointing to.
ACE_Hash_Map_Entry<EXT_ID, INT_ID>* operator-> (void) const;
/// Returns reference the Hash_Map_Manager_Ex that is being iterated
/// over.
const ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>& map (void);
/// Check if two iterators point to the same position
bool operator== (const ACE_Hash_Map_Const_Iterator_Base_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &) const;
bool operator!= (const ACE_Hash_Map_Const_Iterator_Base_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &) const;
/// Declare the dynamic allocation hooks.
ACE_ALLOC_HOOK_DECLARE;
protected:
/// Move forward by one element in the set. Returns 0 when there's
/// no more item in the set after the current items, else 1.
int forward_i (void);
/// Move backward by one element in the set. Returns 0 when there's
/// no more item in the set before the current item, else 1.
int reverse_i (void);
/// Dump the state of an object.
void dump_i (void) const;
/// Map we are iterating over.
const ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> *map_man_;
/// Keeps track of how far we've advanced in the table.
ssize_t index_;
/// Keeps track of how far we've advanced in a linked list in each
/// table slot.
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *next_;
};
/**
* @class ACE_Hash_Map_Iterator_Ex
*
* @brief Forward iterator for the ACE_Hash_Map_Manager_Ex.
*
* This class does not perform any internal locking of the
* ACE_Hash_Map_Manager_Ex it is iterating upon since locking is
* inherently inefficient and/or error-prone within an STL-style
* iterator. If you require locking, you can explicitly use an
* ACE_GUARD or ACE_READ_GUARD on the ACE_Hash_Map_Manager_Ex's
* internal lock, which is accessible via its mutex() method.
*/
template <class EXT_ID, class INT_ID, class HASH_KEY, class COMPARE_KEYS, class ACE_LOCK>
class ACE_Hash_Map_Iterator_Ex : public ACE_Hash_Map_Iterator_Base_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>
{
public:
// = STL-style traits/typedefs
typedef typename ACE_Hash_Map_Iterator_Base_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>::container_type
container_type;
// = STL-style traits/typedefs
typedef std::bidirectional_iterator_tag iterator_category;
typedef typename container_type::value_type value_type;
typedef typename container_type::reference reference;
typedef typename container_type::pointer pointer;
typedef typename container_type::difference_type difference_type;
// = Initialization method.
ACE_Hash_Map_Iterator_Ex (ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &mm,
int tail = 0);
/// Contructor.
/**
* This constructor positions the iterator to the given @a entry.
*/
ACE_Hash_Map_Iterator_Ex (
ACE_Hash_Map_Manager_Ex<EXT_ID,
INT_ID,
HASH_KEY,
COMPARE_KEYS,
ACE_LOCK> & mm,
ACE_Hash_Map_Entry<EXT_ID, INT_ID> * entry,
size_t index);
// = Iteration methods.
/// Move forward by one element in the set. Returns 0 when all the
/// items in the set have been seen, else 1.
int advance (void);
/// Dump the state of an object.
void dump (void) const;
// = STL styled iteration, compare, and reference functions.
/// Prefix advance.
ACE_Hash_Map_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &operator++ (void);
/// Postfix advance.
ACE_Hash_Map_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> operator++ (int);
/// Prefix reverse.
ACE_Hash_Map_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &operator-- (void);
/// Postfix reverse.
ACE_Hash_Map_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> operator-- (int);
/// Declare the dynamic allocation hooks.
ACE_ALLOC_HOOK_DECLARE;
};
/**
* @class ACE_Hash_Map_Const_Iterator_Ex
*
* @brief Const forward iterator for the ACE_Hash_Map_Manager_Ex.
*
* This class does not perform any internal locking of the
* ACE_Hash_Map_Manager_Ex it is iterating upon since locking is
* inherently inefficient and/or error-prone within an STL-style
* iterator. If you require locking, you can explicitly use an
* ACE_GUARD or ACE_READ_GUARD on the ACE_Hash_Map_Manager_Ex's
* internal lock, which is accessible via its mutex() method.
*/
template <class EXT_ID, class INT_ID, class HASH_KEY, class COMPARE_KEYS, class ACE_LOCK>
class ACE_Hash_Map_Const_Iterator_Ex : public ACE_Hash_Map_Const_Iterator_Base_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>
{
public:
// = STL-style traits/typedefs
typedef typename ACE_Hash_Map_Const_Iterator_Base_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>::container_type
container_type;
// = std::iterator_trait traits/typedefs
typedef std::bidirectional_iterator_tag iterator_category;
typedef typename container_type::value_type value_type;
typedef typename container_type::reference reference;
typedef typename container_type::pointer pointer;
typedef typename container_type::difference_type difference_type;
// = Initialization method.
ACE_Hash_Map_Const_Iterator_Ex (const ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &mm,
int tail = 0);
// = Iteration methods.
/// Move forward by one element in the set. Returns 0 when all the
/// items in the set have been seen, else 1.
int advance (void);
/// Dump the state of an object.
void dump (void) const;
// = STL styled iteration, compare, and reference functions.
/// Prefix advance.
ACE_Hash_Map_Const_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &operator++ (void);
/// Postfix advance.
ACE_Hash_Map_Const_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> operator++ (int);
/// Prefix reverse.
ACE_Hash_Map_Const_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &operator-- (void);
/// Postfix reverse.
ACE_Hash_Map_Const_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> operator-- (int);
/// Declare the dynamic allocation hooks.
ACE_ALLOC_HOOK_DECLARE;
};
/**
* @class ACE_Hash_Map_Bucket_Iterator
*
* @brief Forward iterator for the ACE_Hash_Map_Manager_Ex which
* only traverses a particular bucket. The particular bucket is
* specified by the <EXT_ID> parameter specified in the constructor.
*
* This class does not perform any internal locking of the
* ACE_Hash_Map_Manager_Ex it is iterating upon since locking is
* inherently inefficient and/or error-prone within an STL-style
* iterator. If you require locking, you can explicitly use an
* ACE_GUARD or ACE_READ_GUARD on the ACE_Hash_Map_Manager_Ex's
* internal lock, which is accessible via its mutex() method.
*
* Note that a creation method for this new iterator cannot be added
* to the hash map, since this would require adding explicit template
* instantiations for bucket iterators on platforms with broken
* templates.
*/
template <class EXT_ID, class INT_ID, class HASH_KEY, class COMPARE_KEYS, class ACE_LOCK>
class ACE_Hash_Map_Bucket_Iterator
{
public:
// = STL-style traits/typedefs
typedef ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>
container_type;
// = std::iterator traits/typedefs
typedef std::bidirectional_iterator_tag iterator_category;
typedef typename container_type::value_type value_type;
typedef typename container_type::reference reference;
typedef typename container_type::pointer pointer;
typedef typename container_type::difference_type difference_type;
// = Initialization method.
ACE_Hash_Map_Bucket_Iterator (ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &mm,
const EXT_ID &ext_id,
int tail = 0);
// = STL styled iteration, compare, and reference functions.
/// Prefix advance.
ACE_Hash_Map_Bucket_Iterator<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &operator++ (void);
/// Postfix advance.
ACE_Hash_Map_Bucket_Iterator<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> operator++ (int);
/// Prefix reverse.
ACE_Hash_Map_Bucket_Iterator<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &operator-- (void);
/// Postfix reverse.
ACE_Hash_Map_Bucket_Iterator<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> operator-- (int);
/// Returns a reference to the interal element @c this is pointing to.
ACE_Hash_Map_Entry<EXT_ID, INT_ID>& operator* (void) const;
/// Returns a pointer to the interal element @c this is pointing to.
ACE_Hash_Map_Entry<EXT_ID, INT_ID>* operator-> (void) const;
/// Returns reference the Hash_Map_Manager_Ex that is being iterated
/// over.
ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>& map (void);
/// Check if two iterators point to the same position
bool operator== (const ACE_Hash_Map_Bucket_Iterator<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &) const;
bool operator!= (const ACE_Hash_Map_Bucket_Iterator<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &) const;
protected:
/// Move forward by one element in the set. Returns 0 when there's
/// no more item in the set after the current items, else 1.
int forward_i (void);
/// Move backward by one element in the set. Returns 0 when there's
/// no more item in the set before the current item, else 1.
int reverse_i (void);
/// Map we are iterating over.
ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> *map_man_;
/// Keeps track of how far we've advanced in the table.
ssize_t index_;
/// Keeps track of how far we've advanced in a linked list in each
/// table slot.
ACE_Hash_Map_Entry<EXT_ID, INT_ID> *next_;
};
/**
* @class ACE_Hash_Map_Reverse_Iterator_Ex
*
* @brief Reverse iterator for the ACE_Hash_Map_Manager_Ex.
*
* This class does not perform any internal locking of the
* ACE_Hash_Map_Manager_Ex it is iterating upon since locking is
* inherently inefficient and/or error-prone within an STL-style
* iterator. If you require locking, you can explicitly use an
* ACE_GUARD or ACE_READ_GUARD on the ACE_Hash_Map_Manager_Ex's
* internal lock, which is accessible via its mutex() method.
*/
template <class EXT_ID, class INT_ID, class HASH_KEY, class COMPARE_KEYS, class ACE_LOCK>
class ACE_Hash_Map_Reverse_Iterator_Ex : public ACE_Hash_Map_Iterator_Base_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>
{
public:
// = STL-style traits/typedefs
typedef typename ACE_Hash_Map_Iterator_Base_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>::container_type
container_type;
// = std::iterator_traits typedefs
typedef std::bidirectional_iterator_tag iterator_category;
typedef typename container_type::value_type value_type;
typedef typename container_type::reference reference;
typedef typename container_type::pointer pointer;
typedef typename container_type::difference_type difference_type;
// = Initialization method.
ACE_Hash_Map_Reverse_Iterator_Ex (ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &mm,
bool head = false);
// = Iteration methods.
/// Move forward by one element in the set. Returns 0 when all the
/// items in the set have been seen, else 1.
int advance (void);
/// Dump the state of an object.
void dump (void) const;
// = STL styled iteration, compare, and reference functions.
/// Prefix reverse.
ACE_Hash_Map_Reverse_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &operator++ (void);
/// Postfix reverse.
ACE_Hash_Map_Reverse_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> operator++ (int);
/// Prefix advance.
ACE_Hash_Map_Reverse_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &operator-- (void);
/// Postfix advance.
ACE_Hash_Map_Reverse_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> operator-- (int);
/// Declare the dynamic allocation hooks.
ACE_ALLOC_HOOK_DECLARE;
};
/**
* @class ACE_Hash_Map_Const_Reverse_Iterator_Ex
*
* @brief Const reverse iterator for the ACE_Hash_Map_Manager_Ex.
*
* This class does not perform any internal locking of the
* ACE_Hash_Map_Manager_Ex it is iterating upon since locking is
* inherently inefficient and/or error-prone within an STL-style
* iterator. If you require locking, you can explicitly use an
* ACE_GUARD or ACE_READ_GUARD on the ACE_Hash_Map_Manager_Ex's
* internal lock, which is accessible via its <mutex> method.
*/
template <class EXT_ID, class INT_ID, class HASH_KEY, class COMPARE_KEYS, class ACE_LOCK>
class ACE_Hash_Map_Const_Reverse_Iterator_Ex : public ACE_Hash_Map_Const_Iterator_Base_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>
{
public:
// = STL-style traits/typedefs
typedef typename ACE_Hash_Map_Const_Iterator_Base_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK>::container_type
container_type;
// = std::iterator_traits typedefs
typedef std::bidirectional_iterator_tag iterator_category;
typedef typename container_type::value_type value_type;
typedef typename container_type::reference reference;
typedef typename container_type::pointer pointer;
typedef typename container_type::difference_type difference_type;
// = Initialization method.
ACE_Hash_Map_Const_Reverse_Iterator_Ex (const ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &mm,
bool head = false);
// = Iteration methods.
/// Move forward by one element in the set. Returns 0 when all the
/// items in the set have been seen, else 1.
int advance (void);
/// Dump the state of an object.
void dump (void) const;
// = STL styled iteration, compare, and reference functions.
/// Prefix reverse.
ACE_Hash_Map_Const_Reverse_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &operator++ (void);
/// Postfix reverse.
ACE_Hash_Map_Const_Reverse_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> operator++ (int);
/// Prefix advance.
ACE_Hash_Map_Const_Reverse_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> &operator-- (void);
/// Postfix advance.
ACE_Hash_Map_Const_Reverse_Iterator_Ex<EXT_ID, INT_ID, HASH_KEY, COMPARE_KEYS, ACE_LOCK> operator-- (int);
/// Declare the dynamic allocation hooks.
ACE_ALLOC_HOOK_DECLARE;
};
/**
* @class ACE_Hash_Map_Manager
*
* @brief Wrapper for backward compatibility.
*
* This implementation of a map uses a hash table. This class
* expects that the <EXT_ID> contains a method called <hash>.
* In addition, the <EXT_ID> must support <operator==>. Both of
* these constraints can be alleviated via template
* specialization, as shown in the $ACE_ROOT/tests/Conn_Test.cpp
* test.
*
* <b> Requirements and Performance Characteristics</b>
* - Internal Structure
* Hash Table
* - Duplicates allowed?
* No
* - Random access allowed?
* Yes
* - Search speed
* O(1)
* - Insert/replace speed
* O(1), can be longer if the hash map has to resize
* - Iterator still valid after change to container?
* Yes
* - Frees memory for removed elements?
* Yes
* - Items inserted by
* Value
* - Requirements for key type
* -# Default constructor
* -# Copy constructor
* -# operator=
* -# operator==
* - Requirements for object type
* -# Default constructor
* -# Copy constructor
* -# operator=
* -# operator<
*/
template <class EXT_ID, class INT_ID, class ACE_LOCK>
class ACE_Hash_Map_Manager : public ACE_Hash_Map_Manager_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>
{
public:
/**
* Initialize a @c Hash_Map_Manager with default size elements.
* @param table_alloc is a pointer to a memory allocator used for
* table_, so it should supply size*sizeof (ACE_Hash_Map_Entry<EXT_ID, INT_ID>).
* @param entry_alloc is a pointer to an additional allocator for
* entries, so it should be able to allocate 'size' / chunks
* of sizeof(ACE_Hash_Map_Entry<EXT_ID, INT_ID>) bytes each.
* If @c table_alloc is 0 it defaults to @c ACE_Allocator::instance().
* If @c entry_alloc is 0 then it defaults to the same allocator as
* @c table_alloc.
*/
ACE_Hash_Map_Manager (ACE_Allocator *table_alloc = 0,
ACE_Allocator *entry_alloc = 0);
/**
* Initialize a @c Hash_Map_Manager with @c size elements.
* @param table_alloc is a pointer to a memory allocator used for
* table_, so it should supply size*sizeof (ACE_Hash_Map_Entry<EXT_ID, INT_ID>).
* @param entry_alloc is a pointer to an additional allocator for
* entries, so it should be able to allocate 'size' / chunks
* of sizeof(ACE_Hash_Map_Entry<EXT_ID, INT_ID>) bytes each.
* If @c table_alloc is 0 it defaults to @c ACE_Allocator::instance().
* If @c entry_alloc is 0 then it defaults to the same allocator as
* @c table_alloc.
*/
ACE_Hash_Map_Manager (size_t size,
ACE_Allocator *table_alloc = 0,
ACE_Allocator *entry_alloc = 0);
// = The following two are necessary for template specialization of
// ACE_Hash_Map_Manager to work.
int equal (const EXT_ID &id1, const EXT_ID &id2);
u_long hash (const EXT_ID &ext_id);
};
/**
* @class ACE_Hash_Map_Iterator
*
* @brief Wrapper for backward compatibility.
*/
template <class EXT_ID, class INT_ID, class ACE_LOCK>
class ACE_Hash_Map_Iterator : public ACE_Hash_Map_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>
{
public:
// = STL-style traits/typedefs
typedef typename ACE_Hash_Map_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::container_type
container_type;
typedef typename ACE_Hash_Map_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::iterator_category
iterator_category;
typedef typename ACE_Hash_Map_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::value_type
value_type;
typedef typename ACE_Hash_Map_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::reference
reference;
typedef typename ACE_Hash_Map_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::pointer
pointer;
typedef typename ACE_Hash_Map_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::difference_type
difference_type;
// = Initialization method.
/// Construct from map
ACE_Hash_Map_Iterator (ACE_Hash_Map_Manager<EXT_ID, INT_ID, ACE_LOCK> &mm,
int tail = 0);
/// Construct from base
ACE_Hash_Map_Iterator (const ACE_Hash_Map_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK> &base);
/// Assignment from base
ACE_Hash_Map_Iterator<EXT_ID, INT_ID, ACE_LOCK> &
operator= (const ACE_Hash_Map_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK> &base);
};
/**
* @class ACE_Hash_Map_Const_Iterator
*
* @brief Wrapper for backward compatibility.
*/
template <class EXT_ID, class INT_ID, class ACE_LOCK>
class ACE_Hash_Map_Const_Iterator : public ACE_Hash_Map_Const_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>
{
public:
// = STL-style traits/typedefs
typedef typename ACE_Hash_Map_Const_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::container_type
container_type;
// = std::iterator_traits typedefs
typedef typename ACE_Hash_Map_Const_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::iterator_category
iterator_category;
typedef typename ACE_Hash_Map_Const_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::value_type
value_type;
typedef typename ACE_Hash_Map_Const_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::reference
reference;
typedef typename ACE_Hash_Map_Const_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::pointer
pointer;
typedef typename ACE_Hash_Map_Const_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::difference_type
difference_type;
// = Initialization method.
/// Construct from map
ACE_Hash_Map_Const_Iterator (const ACE_Hash_Map_Manager<EXT_ID, INT_ID, ACE_LOCK> &mm,
int tail = 0);
/// Construct from base
ACE_Hash_Map_Const_Iterator (const ACE_Hash_Map_Const_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK> &base);
/// Assignment from base
ACE_Hash_Map_Const_Iterator<EXT_ID, INT_ID, ACE_LOCK> &
operator= (const ACE_Hash_Map_Const_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK> &base);
};
/**
* @class ACE_Hash_Map_Reverse_Iterator
*
* @brief Wrapper for backward compatibility.
*/
template <class EXT_ID, class INT_ID, class ACE_LOCK>
class ACE_Hash_Map_Reverse_Iterator : public ACE_Hash_Map_Reverse_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>
{
public:
// = STL-style traits/typedefs
typedef typename ACE_Hash_Map_Reverse_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::container_type
container_type;
// = std::iterator_traits typedefs
typedef typename ACE_Hash_Map_Reverse_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::iterator_category
iterator_category;
typedef typename ACE_Hash_Map_Reverse_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::value_type
value_type;
typedef typename ACE_Hash_Map_Reverse_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::reference
reference;
typedef typename ACE_Hash_Map_Reverse_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::pointer
pointer;
typedef typename ACE_Hash_Map_Reverse_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK>::difference_type
difference_type;
// = Initialization method.
ACE_Hash_Map_Reverse_Iterator (ACE_Hash_Map_Manager<EXT_ID, INT_ID, ACE_LOCK> &mm,
bool head = false);
/// Construct from base
ACE_Hash_Map_Reverse_Iterator (const ACE_Hash_Map_Reverse_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK> &base);
/// Assignment from base
ACE_Hash_Map_Reverse_Iterator<EXT_ID, INT_ID, ACE_LOCK> &
operator= (const ACE_Hash_Map_Reverse_Iterator_Ex<EXT_ID, INT_ID, ACE_Hash<EXT_ID>, ACE_Equal_To<EXT_ID>, ACE_LOCK> &base);
};
ACE_END_VERSIONED_NAMESPACE_DECL
#if defined (__ACE_INLINE__)
# include "ace/Hash_Map_Manager_T.inl"
#endif /* __ACE_INLINE__ */
#if defined (ACE_TEMPLATES_REQUIRE_SOURCE)
#include "ace/Hash_Map_Manager_T.cpp"
#endif /* ACE_TEMPLATES_REQUIRE_SOURCE */
#if defined (ACE_TEMPLATES_REQUIRE_PRAGMA)
#pragma implementation ("Hash_Map_Manager_T.cpp")
#endif /* ACE_TEMPLATES_REQUIRE_PRAGMA */
#include /**/ "ace/post.h"
#endif /* ACE_HASH_MAP_MANAGER_T_H */
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