mirror of
https://github.com/jkriege2/JKQtPlotter.git
synced 2024-12-25 10:01:38 +08:00
193 lines
8.2 KiB
C++
193 lines
8.2 KiB
C++
/*
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Copyright (c) 2008-2024 Jan W. Krieger (<jan@jkrieger.de>)
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last modification: $LastChangedDate$ (revision $Rev$)
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This software is free software: you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License (LGPL) as published by
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the Free Software Foundation, either version 2.1 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU Lesser General Public License (LGPL) for more details.
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You should have received a copy of the GNU Lesser General Public License (LGPL)
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef JKQTPCACHINGTOOLS_H
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#define JKQTPCACHINGTOOLS_H
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#include "jkqtcommon/jkqtcommon_imexport.h"
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#include "jkqtcommon/jkqtpmathtools.h"
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#include <QReadWriteLock>
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#include <QReadLocker>
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#include <QWriteLocker>
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#include <functional>
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#include <chrono>
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#include <atomic>
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#include <algorithm>
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#include <memory>
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#include <vector>
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#include <unordered_map>
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/** \brief tag type to configure JKQTPDataCache for thread-safety
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* \ingroup jkqtptools_concurrency
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*/
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struct JKQTPDataCacheThreadSafe {};
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/** \brief tag type to configure JKQTPDataCache for non thread-safety
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* \ingroup jkqtptools_concurrency
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*/
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struct JKQTPDataCacheNotThreadSafe {};
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/** \brief this class can be used to implement a general cache for values
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* \ingroup jkqtptools_concurrency
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*
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* It is typically used to generate a static (ThreadSafe=true) of thread_local (ThreadSafe=false) cache inside a function.
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*
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* The class is parametrized by a key (TKeay) and value (TData) data type and receives (in the constructor) a functor that
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* calculates the data for a key. An additional template parameter ThreadSafe indicates (true|false) whether the class
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* is implemented in a thread-safe way (for static instances) or not (then it should be used as thread_local instances in a
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* multi-threaded environment or in a single-thread environment).
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*
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* The class member function get(key) returns a value for a given key, which is either taken from the internal cache,
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* or generated using the functor provided to the constructor. In the latter case the generated value is stored in the internal cache.
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*
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* Internally the cache maps TKey to TData, but the signature of the get()-function and the generator functor actually uses TKeyInSignature,
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* which may differ from TKey. The only limitation is that TKeyInSignature can be converted/assigned to a TKey
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*
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* The cache has a maximmum size m_maxEntries.
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* When you try to add a new object, after which the size would grow beyond this, a fraction 1-m_retainFraction of elements are
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* deleted from the cache. The delete strategy is least-recently used (LRU). In order to immplement this, the cache keeps track of
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* the last use timestamp of each entry.
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*
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* You can deactivate the cleaning by setting m_maxEntries<0, but the the cache may grow indefinitely and there is possibly undefined behaviour
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* when add one too many items!
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*/
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template <class TData, class TKey, typename ThreadSafe=JKQTPDataCacheThreadSafe, class TKeyInSignature=TKey>
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struct JKQTPDataCache {
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template <typename FF>
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inline JKQTPDataCache(FF generateData, int maxEntries=10000, double retainFraction=0.8):
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m_maxEntries(maxEntries), m_retainFraction(retainFraction), m_generateData(std::forward<FF>(generateData))
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{
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}
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JKQTPDataCache()=delete;
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JKQTPDataCache(const JKQTPDataCache&)=delete;
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JKQTPDataCache& operator=(const JKQTPDataCache&)=delete;
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JKQTPDataCache(JKQTPDataCache&&)=default;
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JKQTPDataCache& operator=(JKQTPDataCache&&)=default;
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template<class... Args>
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inline TData get_inline(Args... args) {
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return get(TKeyInSignature(args...));
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}
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template <typename TSS=ThreadSafe>
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inline TData get(const typename std::enable_if<std::is_same<JKQTPDataCacheThreadSafe, TSS>::value, TKeyInSignature>::type& key) {
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const TKey cacheKey=key;
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QReadLocker lockR(&m_mutex);
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auto it=m_cache.find(cacheKey);
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if (m_cache.end()!=it) {
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m_cacheLastUseTimestamps[cacheKey]->exchange(currenTimestamp());
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return it->second;
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}
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lockR.unlock();
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QWriteLocker lockW(&m_mutex);
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it=m_cache.find(cacheKey);
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if (m_cache.end()!=it) {
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m_cacheLastUseTimestamps.at(cacheKey)->exchange(currenTimestamp());
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return it->second;
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}
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if (m_maxEntries>0 && m_cache.size()>=static_cast<size_t>(m_maxEntries)) cleanCache_notThreadSafe();
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m_cacheLastUseTimestamps.emplace(cacheKey, std::make_shared<std::atomic<int64_t> >(currenTimestamp()));
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const auto newData=m_generateData(key);
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m_cache.emplace(cacheKey,newData);
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return newData;
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}
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template <typename TSS=ThreadSafe>
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inline TData get(const typename std::enable_if<std::is_same<JKQTPDataCacheNotThreadSafe, TSS>::value, TKeyInSignature>::type& key) {
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const TKey cacheKey=key;
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auto it=m_cache.find(cacheKey);
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if (m_cache.end()!=it) {
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m_cacheLastUseTimestamps[cacheKey]->exchange(currenTimestamp());
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return it->second;
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}
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if (m_maxEntries>0 && m_cache.size()>=static_cast<size_t>(m_maxEntries)) cleanCache_notThreadSafe();
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const auto newData=m_generateData(key);
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m_cache.emplace(cacheKey,newData);
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m_cacheLastUseTimestamps.emplace(cacheKey, std::make_shared<std::atomic<int64_t> >(currenTimestamp()));
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return newData;
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}
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template <typename TSS=ThreadSafe>
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inline bool contains(const typename std::enable_if<std::is_same<JKQTPDataCacheThreadSafe, TSS>::value, TKeyInSignature>::type& key) const {
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const TKey cacheKey=key;
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QReadLocker lockR(&m_mutex);
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return m_cache.find(cacheKey)!=m_cache.end();
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}
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template <typename TSS=ThreadSafe>
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inline bool contains(const typename std::enable_if<std::is_same<JKQTPDataCacheNotThreadSafe, TSS>::value, TKeyInSignature>::type& key) const {
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const TKey cacheKey=key;
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return m_cache.find(cacheKey)!=m_cache.end();
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}
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inline int size() const {
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return size_impl<ThreadSafe>();
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}
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private:
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template <typename TSS>
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inline typename std::enable_if<std::is_same<JKQTPDataCacheThreadSafe, TSS>::value, int>::type size_impl() const {
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QReadLocker lockR(&m_mutex);
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return m_cache.size();
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}
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template <typename TSS>
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inline typename std::enable_if<std::is_same<JKQTPDataCacheNotThreadSafe, TSS>::value, int>::type size_impl() const {
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return m_cache.size();
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}
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/** \brief generate a timestamp */
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static inline int64_t currenTimestamp() {
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static auto firstTime=std::chrono::steady_clock::now();
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return std::chrono::duration_cast<std::chrono::milliseconds>(std::chrono::steady_clock::now()-firstTime).count();
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}
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/** \brief clean the cache, so at m_retainFraction*m_maxEntries entries remain. */
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inline void cleanCache_notThreadSafe() {
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if (m_maxEntries<0 || m_cache.size()<static_cast<size_t>(m_maxEntries)) return;
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const int deleteItems=jkqtp_boundedRoundTo<int>(1, (1.0-m_retainFraction)*static_cast<double>(m_cache.size()), m_cache.size());
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std::vector<QPair<TKey,int64_t> > allItems;
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allItems.reserve(m_cacheLastUseTimestamps.size());
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for (auto it=m_cacheLastUseTimestamps.begin(); it!=m_cacheLastUseTimestamps.end(); ++it) {
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allItems.emplace_back(it->first, it->second->load());
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}
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std::sort(allItems.begin(), allItems.end(), [](const QPair<TKey,int64_t>&a, const QPair<TKey,int64_t>&b) {return a.second>b.second;});
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for (int i=0; i<deleteItems; i++) {
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m_cache.erase(allItems[i].first);
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m_cacheLastUseTimestamps.erase(allItems[i].first);
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}
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}
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const int m_maxEntries;
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const double m_retainFraction;
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std::unordered_map<TKey, TData> m_cache;
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std::unordered_map<TKey, std::shared_ptr<std::atomic<int64_t> > > m_cacheLastUseTimestamps;
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mutable QReadWriteLock m_mutex;
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const std::function<TData(TKeyInSignature)> m_generateData;
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};
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#endif // JKQTPCACHINGTOOLS_H
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