// -*- C++ -*- //============================================================================= /** * @file Caching_Utility_T.h * * $Id$ * * @author Kirthika Parameswaran */ //============================================================================= #ifndef ACE_CACHING_UTILITY_H #define ACE_CACHING_UTILITY_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/Global_Macros.h" #include "ace/Cleanup_Strategies_T.h" // For linkers that cant grok long names. #define ACE_Pair_Caching_Utility APUTIL /** * @class ACE_Pair_Caching_Utility * * @brief Defines a helper class for the Caching Strategies. * * This class defines the methods commonly used by the different * caching strategies. For instance: method which * decides and purges the entry from the container. Note: This * class helps in the caching_strategies using a container * containing entries of > * kind. The attributes helps in deciding the entries to be * purged. The Cleanup_Strategy is the callback class to which the * entries to be cleaned up will be delegated. */ template class ACE_Pair_Caching_Utility { public: typedef ACE_Cleanup_Strategy CLEANUP_STRATEGY; /// Constructor. ACE_Pair_Caching_Utility (ACE_Cleanup_Strategy *cleanup_strategy = 0, int delete_cleanup_strategy = 0); /// Destructor. ~ACE_Pair_Caching_Utility (void); /** * Purge entries from the . The Cleanup_Strategy will do the actual * job of cleanup once the entries to be cleaned up are decided. */ int clear_cache (CONTAINER &container, double purge_percent); protected: /// Find the entry with minimum caching attributes. void minimum (CONTAINER &container, KEY *&key_to_remove, VALUE *&value_to_remove); /// The cleanup strategy which can be used to destroy the entries of /// the container. CLEANUP_STRATEGY *cleanup_strategy_; /// Whether the cleanup_strategy should be destroyed or not. int delete_cleanup_strategy_; ACE_UNIMPLEMENTED_FUNC (void operator= (const ACE_Pair_Caching_Utility &)) ACE_UNIMPLEMENTED_FUNC (ACE_Pair_Caching_Utility (const ACE_Pair_Caching_Utility &)) }; //////////////////////////////////////////////////////////////////////////////// #define ACE_Recyclable_Handler_Caching_Utility ARHUTIL /** * @class ACE_Recyclable_Handler_Caching_Utility * * @brief Defines a helper class for the Caching Strategies. * * This class defines the methods commonly used by the different * caching strategies. For instance: method which * decides and purges the entry from the container. Note: This * class helps in the caching_strategies using a container * containing entries of kind. The attributes * helps in deciding the entries to be purged. The * Cleanup_Strategy is the callback class to which the entries to * be cleaned up will be delegated. */ template class ACE_Recyclable_Handler_Caching_Utility { public: typedef ACE_Recyclable_Handler_Cleanup_Strategy CLEANUP_STRATEGY; typedef ACE_Cleanup_Strategy CLEANUP_STRATEGY_BASE; /// Constructor. ACE_Recyclable_Handler_Caching_Utility (ACE_Cleanup_Strategy *cleanup_strategy = 0, int delete_cleanup_strategy = 0); /// Destructor. ~ACE_Recyclable_Handler_Caching_Utility (void); /** * Purge entries from the . The Cleanup_Strategy will do * the actual job of cleanup once the entries to be cleaned up are * decided. */ int clear_cache (CONTAINER &container, double purge_percent); protected: /// Find the entry with minimum caching attributes. void minimum (CONTAINER &container, KEY *&key_to_remove, VALUE *&value_to_remove); /// This is the default Cleanup Strategy for this utility. CLEANUP_STRATEGY_BASE *cleanup_strategy_; /// Whether the cleanup_strategy should be destroyed or not. int delete_cleanup_strategy_; private: ACE_UNIMPLEMENTED_FUNC (void operator= (const ACE_Recyclable_Handler_Caching_Utility &)) ACE_UNIMPLEMENTED_FUNC (ACE_Recyclable_Handler_Caching_Utility (const ACE_Recyclable_Handler_Caching_Utility &)) }; /////////////////////////////////////////////////////////////////////////// #define ACE_Refcounted_Recyclable_Handler_Caching_Utility ARRHUTIL /** * @class ACE_Refcounted_Recyclable_Handler_Caching_Utility * * @brief Defines a helper class for the Caching Strategies. * * This class defines the methods commonly used by the different * caching strategies. For instance: clear_cache () method which * decides and purges the entry from the container. Note: This * class helps in the caching_strategies using a container * containing entries of kind. The attributes helps in * deciding the entries to be purged. The Cleanup_Strategy is the * callback class to which the entries to be cleaned up will be * delegated. */ template class ACE_Refcounted_Recyclable_Handler_Caching_Utility { public: typedef ACE_Refcounted_Recyclable_Handler_Cleanup_Strategy CLEANUP_STRATEGY; typedef ACE_Cleanup_Strategy CLEANUP_STRATEGY_BASE; /// Constructor. ACE_Refcounted_Recyclable_Handler_Caching_Utility (ACE_Cleanup_Strategy *cleanup_strategy = 0, int delete_cleanup_strategy = 0); /// Destructor. ~ACE_Refcounted_Recyclable_Handler_Caching_Utility (void); /** * Purge entries from the . The Cleanup_Strategy will do * the actual job of cleanup once the entries to be cleaned up are * decided. */ int clear_cache (CONTAINER &container, double purge_percent); protected: /// Find the entry with minimum caching attributes. void minimum (CONTAINER &container, KEY *&key_to_remove, VALUE *&value_to_remove); /// This is the default Cleanup Strategy for this utility. CLEANUP_STRATEGY_BASE *cleanup_strategy_; /// Whether the cleanup_strategy should be destroyed or not. int delete_cleanup_strategy_; /** * This figure denotes the number of entries are there in the * container which have been marked as closed already but might * not have been unbound from the container. */ size_t marked_as_closed_entries_; private: ACE_UNIMPLEMENTED_FUNC (void operator= (const ACE_Refcounted_Recyclable_Handler_Caching_Utility &)) ACE_UNIMPLEMENTED_FUNC (ACE_Refcounted_Recyclable_Handler_Caching_Utility (const ACE_Refcounted_Recyclable_Handler_Caching_Utility &)) }; //////////////////////////////////////////////////////////////////////////////////////// /** * @class ACE_Handler_Caching_Utility * * @brief Defines a helper class for the Caching Strategies. * * This class defines the methods commonly used by the different * caching strategies. For instance: method which * decides and purges the entry from the container. Note: This * class helps in the caching_strategies using a container * containing entries of kind where the HANDLER * contains the caching attributes which help in deciding the * entries to be purged. The Cleanup_Strategy is the callback * class to which the entries to be cleaned up will be delegated. */ template class ACE_Handler_Caching_Utility { public: typedef ACE_Handler_Cleanup_Strategy CLEANUP_STRATEGY; typedef ACE_Cleanup_Strategy CLEANUP_STRATEGY_BASE; /// Constructor. ACE_Handler_Caching_Utility (ACE_Cleanup_Strategy *cleanup_strategy = 0, int delete_cleanup_strategy = 0); /// Destructor. ~ACE_Handler_Caching_Utility (void); /** * Purge entries from the . The Cleanup_Strategy will do * the actual job of cleanup once the entries to be cleaned up are * decided. */ int clear_cache (CONTAINER &container, double purge_percent); protected: /** * Find the entry with minimum caching attributes. This is handler * specific since this utility is to be used very specifically for * handler who have caching_attributes for server side acched * connection management. */ void minimum (CONTAINER &container, KEY *&key_to_remove, VALUE *&value_to_remove); /// The cleanup strategy which can be used to destroy the entries of /// the container. CLEANUP_STRATEGY_BASE *cleanup_strategy_; /// Whether the cleanup_strategy should be destroyed or not. int delete_cleanup_strategy_; private: ACE_UNIMPLEMENTED_FUNC (void operator= (const ACE_Handler_Caching_Utility &)) ACE_UNIMPLEMENTED_FUNC (ACE_Handler_Caching_Utility (const ACE_Handler_Caching_Utility &)) }; /////////////////////////////////////////////////////////////////////////// #define ACE_Null_Caching_Utility ANUTIL /** * @class ACE_Null_Caching_Utility * * @brief Defines a dummy helper class for the Caching Strategies. * * This class defines the methods commonly used by the different * caching strategies. For instance: method which * decides and purges the entry from the container. Note: This * class is be used with the Null_Caching_Strategy. The * Cleanup_Strategy is the callback class to which the entries to * be cleaned up will be delegated. */ template class ACE_Null_Caching_Utility { public: typedef ACE_Null_Cleanup_Strategy CLEANUP_STRATEGY; typedef ACE_Cleanup_Strategy CLEANUP_STRATEGY_BASE; /// Constructor. ACE_Null_Caching_Utility (ACE_Cleanup_Strategy *cleanup_strategy = 0, int delete_cleanup_strategy = 0); /// Destructor. ~ACE_Null_Caching_Utility (void); /** * Purge entries from the . The Cleanup_Strategy will do * the actual job of cleanup once the entries to be cleaned up are * decided. Note: Here it is a no-op. */ int clear_cache (CONTAINER &container, double purge_percent); protected: /** * Find the entry with minimum caching attributes. This is handler * specific since this utility is to be used very specifically for * handler who have caching_attributes for server side acched * connection management.Note: Here it is a no-op. */ void minimum (CONTAINER &container, KEY *&key_to_remove, VALUE *&value_to_remove); /// The cleanup strategy which can be used to destroy the entries of /// the container. CLEANUP_STRATEGY_BASE *cleanup_strategy_; /// Whether the cleanup_strategy should be destroyed or not. int delete_cleanup_strategy_; private: ACE_UNIMPLEMENTED_FUNC (void operator= (const ACE_Null_Caching_Utility &)) ACE_UNIMPLEMENTED_FUNC (ACE_Null_Caching_Utility (const ACE_Null_Caching_Utility &)) }; #if defined (ACE_TEMPLATES_REQUIRE_SOURCE) #include "ace/Caching_Utility_T.cpp" #endif /* ACE_TEMPLATES_REQUIRE_SOURCE */ #if defined (ACE_TEMPLATES_REQUIRE_PRAGMA) #pragma implementation ("Caching_Utility_T.cpp") #endif /* ACE_TEMPLATES_REQUIRE_PRAGMA */ #include "ace/post.h" #endif /* ACE_CACHING_UTILITY_H */