/***************************************************************************** * * Copyright (C) 1997-2020 by Dimitri van Heesch. * * Permission to use, copy, modify, and distribute this software and its * documentation under the terms of the GNU General Public License is hereby * granted. No representations are made about the suitability of this software * for any purpose. It is provided "as is" without express or implied warranty. * See the GNU General Public License for more details. * * Documents produced by Doxygen are derivative works derived from the * input used in their production; they are not affected by this license. * */ #ifndef CACHE_H #define CACHE_H #include #include #include #include /*! Fixed size cache for value type V using keys of type K. * * When the maximum capacity has reached, the least recently used value is removed from the cache * (LRU strategy). */ template class Cache { public: using kv_pair = std::pair; using iterator = typename std::list::iterator; using const_iterator = typename std::list::const_iterator; //! creates a cache that can hold \a capacity elements Cache(size_t capacity) : m_capacity(capacity) { } //! Inserts \a value under \a key in the cache V *insert(const K &key,V &&value) { // remove item if it already exists remove(key); // store new item m_cacheItemList.push_front(kv_pair(key,std::move(value))); V *result = &m_cacheItemList.front().second; m_cacheItemMap[key] = m_cacheItemList.begin(); // remove least recently used item if cache is full resize(); return result; } //! Inserts \a value under \a key in the cache V *insert(const K &key,const V &value) { // remove item if it already exists remove(key); // store new item m_cacheItemList.push_front(kv_pair(key,value)); V *result = &m_cacheItemList.front().second; m_cacheItemMap[key] = m_cacheItemList.begin(); // remove least recently used item if cache is full resize(); return result; } //! Removes entry \a key from the cache. //! \note this invalidates any iterators void remove(const K &key) { // remove item if it already exists auto it = m_cacheItemMap.find(key); if (it != m_cacheItemMap.end()) { m_cacheItemList.erase(it->second); m_cacheItemMap.erase(it); } } //! Finds a value in the cache given the corresponding \a key. //! @returns a pointer to the value or nullptr if the key is not found in the cache //! @note The hit and miss counters are updated, see hits() and misses(). V *find(const K &key) { auto it = m_cacheItemMap.find(key); if (it != m_cacheItemMap.end()) { // move the item to the front of the list m_cacheItemList.splice(m_cacheItemList.begin(), m_cacheItemList, it->second); m_hits++; // return the value return &it->second->second; } else { m_misses++; } return nullptr; } //! Returns the number of values stored in the cache. size_t size() const { return m_cacheItemMap.size(); } //! Returns the maximum number of values that can be stored in the cache. size_t capacity() const { return m_capacity; } //! Returns how many of the find() calls did find a value in the cache. uint64_t hits() const { return m_hits; } //! Returns how many of the find() calls did not found a value in the cache. uint64_t misses() const { return m_misses; } //! Clears all values in the cache. void clear() { m_cacheItemMap.clear(); m_cacheItemList.clear(); } iterator begin() { return m_cacheItemList.begin(); } iterator end() { return m_cacheItemList.end(); } const_iterator begin() const { return m_cacheItemList.cbegin(); } const_iterator end() const { return m_cacheItemList.cend(); } private: void resize() { if (m_cacheItemMap.size() > m_capacity) { auto last_it = m_cacheItemList.end(); --last_it; m_cacheItemMap.erase(last_it->first); m_cacheItemList.pop_back(); } } size_t m_capacity; // list of items in the cache, sorted by most to least recently used. std::list m_cacheItemList; // mapping for each key to a place in the list where item is found std::unordered_map m_cacheItemMap; uint64_t m_hits=0; uint64_t m_misses=0; }; #endif