// // -*- C++ -*- //============================================================================= /** * @file Hash_Map_Manager_T.h * * @author Douglas C. Schmidt */ //============================================================================= #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_Category.h" #include ACE_BEGIN_VERSIONED_NAMESPACE_DECL /** * @class ACE_Hash_Map_Entry * * @brief Define an entry in the hash table. */ template class ACE_Hash_Map_Entry { public: /// Constructor. ACE_Hash_Map_Entry (const EXT_ID &ext_id, const INT_ID &int_id, ACE_Hash_Map_Entry *next = 0, ACE_Hash_Map_Entry *prev = 0); /// Constructor. ACE_Hash_Map_Entry (ACE_Hash_Map_Entry *next, ACE_Hash_Map_Entry *prev); /// Destructor. ~ACE_Hash_Map_Entry (); /// Key accessor. EXT_ID& key (); /// Read-only key accessor. const EXT_ID& key () const; /// Item accessor. INT_ID& item (); /// Read-only item accessor. const INT_ID& item () 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 *next_; /// Pointer to the prev item in the bucket of overflow nodes. ACE_Hash_Map_Entry *prev_; /// Dump the state of an object. void dump () const; }; // Forward decl. template class ACE_Hash_Map_Iterator_Base_Ex; // Forward decl. template class ACE_Hash_Map_Const_Iterator_Base_Ex; // Forward decl. template class ACE_Hash_Map_Iterator_Ex; // Forward decl. template class ACE_Hash_Map_Const_Iterator_Ex; // Forward decl. template class ACE_Hash_Map_Reverse_Iterator_Ex; // Forward decl. template class ACE_Hash_Map_Const_Reverse_Iterator_Ex; // Forward decl. template 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 ACE_Hash_Map_Manager_Ex { public: friend class ACE_Hash_Map_Iterator_Base_Ex; friend class ACE_Hash_Map_Iterator_Ex; friend class ACE_Hash_Map_Const_Iterator_Base_Ex; friend class ACE_Hash_Map_Const_Iterator_Ex; friend class ACE_Hash_Map_Reverse_Iterator_Ex; friend class ACE_Hash_Map_Const_Reverse_Iterator_Ex; friend class ACE_Hash_Map_Bucket_Iterator; typedef EXT_ID KEY; typedef INT_ID VALUE; typedef ACE_LOCK lock_type; typedef ACE_Hash_Map_Entry ENTRY; // = ACE-style iterator typedefs. typedef ACE_Hash_Map_Iterator_Ex ITERATOR; typedef ACE_Hash_Map_Const_Iterator_Ex CONST_ITERATOR; typedef ACE_Hash_Map_Reverse_Iterator_Ex REVERSE_ITERATOR; typedef ACE_Hash_Map_Const_Reverse_Iterator_Ex CONST_REVERSE_ITERATOR; // = STL-style iterator typedefs. typedef ACE_Hash_Map_Iterator_Ex iterator; typedef ACE_Hash_Map_Const_Iterator_Ex const_iterator; typedef ACE_Hash_Map_Reverse_Iterator_Ex reverse_iterator; typedef ACE_Hash_Map_Const_Reverse_Iterator_Ex const_reverse_iterator; // = STL-style typedefs/traits. typedef EXT_ID key_type; typedef INT_ID data_type; typedef ACE_Hash_Map_Entry 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; /** * 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). * 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) 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). * 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) 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). * 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) 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 (); /// Removes all the entries in the ACE_Hash_Map_Manager_Ex. int unbind_all (); /// Cleanup the ACE_Hash_Map_Manager_Ex. ~ACE_Hash_Map_Manager_Ex (); /** * 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 *&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 *&entry); /** * Reassociate @a ext_id with @a int_id. If @a ext_id is not in the * map then behaves just like . 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 *&entry); /** * Associate @a ext_id with @a int_id. If @a ext_id is not in the map * then behaves just like . 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 *&entry); /** * Associate @a ext_id with @a int_id. If @a ext_id is not in the map * then behaves just like . 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 *&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 *&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 *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 () 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 () const; /** * Returns a reference to the underlying . 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 , but HP/C++ will choke on that! */ ACE_LOCK &mutex (); /// Dump the state of an object. void dump () const; // = STL styled iterator factory functions. /// Return forward iterator. iterator begin (); iterator end (); const_iterator begin () const; const_iterator end () const; /// Return reverse iterator. reverse_iterator rbegin (); reverse_iterator rend (); const_reverse_iterator rbegin () const; const_reverse_iterator rend () const; /// Declare the dynamic allocation hooks. ACE_ALLOC_HOOK_DECLARE; protected: // = The following methods do the actual work. /// Returns 1 if == , 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 *&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 *&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 *&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 *&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 *&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 *&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 *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 . Must be called with /// locks held. int close_i (); /// Removes all the entries in . Must be called with /// locks held. int unbind_all_i (); /// Pointer to a memory allocator used for table_, so it should /// supply size*sizeof (ACE_Hash_Map_Entry), ACE_Allocator *table_allocator_; /// Addidtional allocator for entries, so it should be able to /// allocate 'size' / chunks of sizeof(ACE_Hash_Map_Entry) 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 *&entry, size_t &loc); /// Accessor of the underlying table ACE_Hash_Map_Entry *table (); 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 s that hash to that bucket. */ ACE_Hash_Map_Entry *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 due to the /// bucket chaining). size_t cur_size_; // = Disallow these operations. void operator= (const ACE_Hash_Map_Manager_Ex &) = delete; ACE_Hash_Map_Manager_Ex (const ACE_Hash_Map_Manager_Ex &) = delete; }; /** * @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 ACE_Hash_Map_Iterator_Base_Ex { public: // = STL-style typedefs/traits. typedef ACE_Hash_Map_Manager_Ex 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; /// Constructor. /** * 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 &mm, bool head); /// Constructor. /** * This constructor positions the iterator to the given @a entry. */ ACE_Hash_Map_Iterator_Base_Ex ( ACE_Hash_Map_Manager_Ex & mm, ACE_Hash_Map_Entry * entry, size_t index); // = ITERATION methods. /// Pass back the next that hasn't been seen in the Set. /// Returns 0 when all items have been seen, else 1. int next (ACE_Hash_Map_Entry *&next_entry) const; /// Returns 1 when all items have been seen, else 0. int done () const; /// Returns a reference to the interal element @c this is pointing to. ACE_Hash_Map_Entry& operator* () const; /// Returns a pointer to the interal element @c this is pointing to. ACE_Hash_Map_Entry* operator-> () const; /// Returns reference the Hash_Map_Manager_Ex that is being iterated /// over. ACE_Hash_Map_Manager_Ex& map (); /// Check if two iterators point to the same position bool operator== (const ACE_Hash_Map_Iterator_Base_Ex &) const; bool operator!= (const ACE_Hash_Map_Iterator_Base_Ex &) 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 (); /// 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 (); /// Dump the state of an object. void dump_i () const; /// Map we are iterating over. ACE_Hash_Map_Manager_Ex *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 *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 ACE_Hash_Map_Const_Iterator_Base_Ex { public: // = STL-style typedefs/traits. typedef ACE_Hash_Map_Manager_Ex 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; /// Constructor. 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 &mm, bool head); // = ITERATION methods. /// Pass back the next that hasn't been seen in the Set. /// Returns 0 when all items have been seen, else 1. int next (ACE_Hash_Map_Entry *&next_entry) const; /// Returns 1 when all items have been seen, else 0. int done () const; /// Returns a reference to the interal element @c this is pointing to. ACE_Hash_Map_Entry& operator* () const; /// Returns a pointer to the interal element @c this is pointing to. ACE_Hash_Map_Entry* operator-> () const; /// Returns reference the Hash_Map_Manager_Ex that is being iterated /// over. const ACE_Hash_Map_Manager_Ex& map (); /// Check if two iterators point to the same position bool operator== (const ACE_Hash_Map_Const_Iterator_Base_Ex &) const; bool operator!= (const ACE_Hash_Map_Const_Iterator_Base_Ex &) 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 (); /// 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 (); /// Dump the state of an object. void dump_i () const; /// Map we are iterating over. const ACE_Hash_Map_Manager_Ex *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 *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 ACE_Hash_Map_Iterator_Ex : public ACE_Hash_Map_Iterator_Base_Ex { public: // = STL-style traits/typedefs typedef typename ACE_Hash_Map_Iterator_Base_Ex::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; ACE_Hash_Map_Iterator_Ex (ACE_Hash_Map_Manager_Ex &mm, int tail = 0); /// Constructor. /** * This constructor positions the iterator to the given @a entry. */ ACE_Hash_Map_Iterator_Ex ( ACE_Hash_Map_Manager_Ex & mm, ACE_Hash_Map_Entry * 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 (); /// Dump the state of an object. void dump () const; // = STL styled iteration, compare, and reference functions. /// Prefix advance. ACE_Hash_Map_Iterator_Ex &operator++ (); /// Postfix advance. ACE_Hash_Map_Iterator_Ex operator++ (int); /// Prefix reverse. ACE_Hash_Map_Iterator_Ex &operator-- (); /// Postfix reverse. ACE_Hash_Map_Iterator_Ex 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 ACE_Hash_Map_Const_Iterator_Ex : public ACE_Hash_Map_Const_Iterator_Base_Ex { public: // = STL-style traits/typedefs typedef typename ACE_Hash_Map_Const_Iterator_Base_Ex::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; ACE_Hash_Map_Const_Iterator_Ex (const ACE_Hash_Map_Manager_Ex &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 (); /// Dump the state of an object. void dump () const; // = STL styled iteration, compare, and reference functions. /// Prefix advance. ACE_Hash_Map_Const_Iterator_Ex &operator++ (); /// Postfix advance. ACE_Hash_Map_Const_Iterator_Ex operator++ (int); /// Prefix reverse. ACE_Hash_Map_Const_Iterator_Ex &operator-- (); /// Postfix reverse. ACE_Hash_Map_Const_Iterator_Ex 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 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 ACE_Hash_Map_Bucket_Iterator { public: // = STL-style traits/typedefs typedef ACE_Hash_Map_Manager_Ex 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; ACE_Hash_Map_Bucket_Iterator (ACE_Hash_Map_Manager_Ex &mm, const EXT_ID &ext_id, int tail = 0); // = STL styled iteration, compare, and reference functions. /// Prefix advance. ACE_Hash_Map_Bucket_Iterator &operator++ (); /// Postfix advance. ACE_Hash_Map_Bucket_Iterator operator++ (int); /// Prefix reverse. ACE_Hash_Map_Bucket_Iterator &operator-- (); /// Postfix reverse. ACE_Hash_Map_Bucket_Iterator operator-- (int); /// Returns a reference to the interal element @c this is pointing to. ACE_Hash_Map_Entry& operator* () const; /// Returns a pointer to the interal element @c this is pointing to. ACE_Hash_Map_Entry* operator-> () const; /// Returns reference the Hash_Map_Manager_Ex that is being iterated /// over. ACE_Hash_Map_Manager_Ex& map (); /// Check if two iterators point to the same position bool operator== (const ACE_Hash_Map_Bucket_Iterator &) const; bool operator!= (const ACE_Hash_Map_Bucket_Iterator &) 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 (); /// 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 (); /// Map we are iterating over. ACE_Hash_Map_Manager_Ex *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 *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 ACE_Hash_Map_Reverse_Iterator_Ex : public ACE_Hash_Map_Iterator_Base_Ex { public: // = STL-style traits/typedefs typedef typename ACE_Hash_Map_Iterator_Base_Ex::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 &mm, bool head = false); /// Move forward by one element in the set. Returns 0 when all the /// items in the set have been seen, else 1. int advance (); /// Dump the state of an object. void dump () const; // = STL styled iteration, compare, and reference functions. /// Prefix reverse. ACE_Hash_Map_Reverse_Iterator_Ex &operator++ (); /// Postfix reverse. ACE_Hash_Map_Reverse_Iterator_Ex operator++ (int); /// Prefix advance. ACE_Hash_Map_Reverse_Iterator_Ex &operator-- (); /// Postfix advance. ACE_Hash_Map_Reverse_Iterator_Ex 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 method. */ template class ACE_Hash_Map_Const_Reverse_Iterator_Ex : public ACE_Hash_Map_Const_Iterator_Base_Ex { public: // = STL-style traits/typedefs typedef typename ACE_Hash_Map_Const_Iterator_Base_Ex::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 &mm, bool head = false); /// Move forward by one element in the set. Returns 0 when all the /// items in the set have been seen, else 1. int advance (); /// Dump the state of an object. void dump () const; // = STL styled iteration, compare, and reference functions. /// Prefix reverse. ACE_Hash_Map_Const_Reverse_Iterator_Ex &operator++ (); /// Postfix reverse. ACE_Hash_Map_Const_Reverse_Iterator_Ex operator++ (int); /// Prefix advance. ACE_Hash_Map_Const_Reverse_Iterator_Ex &operator-- (); /// Postfix advance. ACE_Hash_Map_Const_Reverse_Iterator_Ex 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 contains a method called . * In addition, the must support . Both of * these constraints can be alleviated via template * specialization, as shown in the $ACE_ROOT/tests/Conn_Test.cpp * test. * * Requirements and Performance Characteristics * - 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 ACE_Hash_Map_Manager : public ACE_Hash_Map_Manager_Ex, ACE_Equal_To, 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). * @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) 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). * @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) 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 ACE_Hash_Map_Iterator : public ACE_Hash_Map_Iterator_Ex, ACE_Equal_To, ACE_LOCK> { public: // = STL-style traits/typedefs typedef typename ACE_Hash_Map_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::container_type container_type; typedef typename ACE_Hash_Map_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::iterator_category iterator_category; typedef typename ACE_Hash_Map_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::value_type value_type; typedef typename ACE_Hash_Map_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::reference reference; typedef typename ACE_Hash_Map_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::pointer pointer; typedef typename ACE_Hash_Map_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::difference_type difference_type; /// Construct from map ACE_Hash_Map_Iterator (ACE_Hash_Map_Manager &mm, int tail = 0); /// Construct from base ACE_Hash_Map_Iterator (const ACE_Hash_Map_Iterator_Ex, ACE_Equal_To, ACE_LOCK> &base); /// Assignment from base ACE_Hash_Map_Iterator & operator= (const ACE_Hash_Map_Iterator_Ex, ACE_Equal_To, ACE_LOCK> &base); }; /** * @class ACE_Hash_Map_Const_Iterator * * @brief Wrapper for backward compatibility. */ template class ACE_Hash_Map_Const_Iterator : public ACE_Hash_Map_Const_Iterator_Ex, ACE_Equal_To, ACE_LOCK> { public: // = STL-style traits/typedefs typedef typename ACE_Hash_Map_Const_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::container_type container_type; // = std::iterator_traits typedefs typedef typename ACE_Hash_Map_Const_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::iterator_category iterator_category; typedef typename ACE_Hash_Map_Const_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::value_type value_type; typedef typename ACE_Hash_Map_Const_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::reference reference; typedef typename ACE_Hash_Map_Const_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::pointer pointer; typedef typename ACE_Hash_Map_Const_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::difference_type difference_type; /// Construct from map ACE_Hash_Map_Const_Iterator (const ACE_Hash_Map_Manager &mm, int tail = 0); /// Construct from base ACE_Hash_Map_Const_Iterator (const ACE_Hash_Map_Const_Iterator_Ex, ACE_Equal_To, ACE_LOCK> &base); /// Assignment from base ACE_Hash_Map_Const_Iterator & operator= (const ACE_Hash_Map_Const_Iterator_Ex, ACE_Equal_To, ACE_LOCK> &base); }; /** * @class ACE_Hash_Map_Reverse_Iterator * * @brief Wrapper for backward compatibility. */ template class ACE_Hash_Map_Reverse_Iterator : public ACE_Hash_Map_Reverse_Iterator_Ex, ACE_Equal_To, ACE_LOCK> { public: // = STL-style traits/typedefs typedef typename ACE_Hash_Map_Reverse_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::container_type container_type; // = std::iterator_traits typedefs typedef typename ACE_Hash_Map_Reverse_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::iterator_category iterator_category; typedef typename ACE_Hash_Map_Reverse_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::value_type value_type; typedef typename ACE_Hash_Map_Reverse_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::reference reference; typedef typename ACE_Hash_Map_Reverse_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::pointer pointer; typedef typename ACE_Hash_Map_Reverse_Iterator_Ex, ACE_Equal_To, ACE_LOCK>::difference_type difference_type; ACE_Hash_Map_Reverse_Iterator (ACE_Hash_Map_Manager &mm, bool head = false); /// Construct from base ACE_Hash_Map_Reverse_Iterator (const ACE_Hash_Map_Reverse_Iterator_Ex, ACE_Equal_To, ACE_LOCK> &base); /// Assignment from base ACE_Hash_Map_Reverse_Iterator & operator= (const ACE_Hash_Map_Reverse_Iterator_Ex, ACE_Equal_To, ACE_LOCK> &base); }; ACE_END_VERSIONED_NAMESPACE_DECL #if defined (__ACE_INLINE__) # include "ace/Hash_Map_Manager_T.inl" #endif /* __ACE_INLINE__ */ #include "ace/Hash_Map_Manager_T.cpp" #include /**/ "ace/post.h" #endif /* ACE_HASH_MAP_MANAGER_T_H */