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362 lines
11 KiB
C++
362 lines
11 KiB
C++
//
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// AbstractCache.h
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//
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// Library: Foundation
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// Package: Cache
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// Module: AbstractCache
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//
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// Definition of the AbstractCache class.
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//
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// Copyright (c) 2006, Applied Informatics Software Engineering GmbH.
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// and Contributors.
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//
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// SPDX-License-Identifier: BSL-1.0
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//
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#ifndef Foundation_AbstractCache_INCLUDED
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#define Foundation_AbstractCache_INCLUDED
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#include <cstddef>
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#include <map>
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#include <set>
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#include "Poco/Delegate.h"
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#include "Poco/EventArgs.h"
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#include "Poco/Exception.h"
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#include "Poco/FIFOEvent.h"
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#include "Poco/KeyValueArgs.h"
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#include "Poco/Mutex.h"
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#include "Poco/SharedPtr.h"
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#include "Poco/ValidArgs.h"
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namespace Poco
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{
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template <class TKey, class TValue, class TStrategy, class TMutex = FastMutex, class TEventMutex = FastMutex>
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class AbstractCache
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/// An AbstractCache is the interface of all caches.
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{
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public:
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FIFOEvent<const KeyValueArgs<TKey, TValue>, TEventMutex> Add;
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FIFOEvent<const KeyValueArgs<TKey, TValue>, TEventMutex> Update;
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FIFOEvent<const TKey, TEventMutex> Remove;
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FIFOEvent<const TKey, TEventMutex> Get;
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FIFOEvent<const EventArgs, TEventMutex> Clear;
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typedef std::map<TKey, SharedPtr<TValue>> DataHolder;
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typedef typename DataHolder::iterator Iterator;
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typedef typename DataHolder::const_iterator ConstIterator;
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typedef std::set<TKey> KeySet;
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AbstractCache() { initialize(); }
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AbstractCache(const TStrategy & strategy) : _strategy(strategy) { initialize(); }
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virtual ~AbstractCache()
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{
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try
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{
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uninitialize();
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}
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catch (...)
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{
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poco_unexpected();
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}
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}
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void add(const TKey & key, const TValue & val)
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/// Adds the key value pair to the cache.
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/// If for the key already an entry exists, it will be overwritten.
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{
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typename TMutex::ScopedLock lock(_mutex);
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doAdd(key, val);
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}
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void update(const TKey & key, const TValue & val)
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/// Adds the key value pair to the cache. Note that adding a NULL SharedPtr will fail!
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/// If for the key already an entry exists, it will be overwritten.
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/// The difference to add is that no remove or add events are thrown in this case,
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/// just a simply silent update is performed
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/// If the key does not exist the behavior is equal to add, ie. an add event is thrown
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{
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typename TMutex::ScopedLock lock(_mutex);
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doUpdate(key, val);
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}
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void add(const TKey & key, SharedPtr<TValue> val)
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/// Adds the key value pair to the cache. Note that adding a NULL SharedPtr will fail!
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/// If for the key already an entry exists, it will be overwritten, ie. first a remove event
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/// is thrown, then a add event
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{
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typename TMutex::ScopedLock lock(_mutex);
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doAdd(key, val);
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}
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void update(const TKey & key, SharedPtr<TValue> val)
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/// Adds the key value pair to the cache. Note that adding a NULL SharedPtr will fail!
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/// If for the key already an entry exists, it will be overwritten.
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/// The difference to add is that no remove or add events are thrown in this case,
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/// just an Update is thrown
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/// If the key does not exist the behavior is equal to add, ie. an add event is thrown
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{
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typename TMutex::ScopedLock lock(_mutex);
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doUpdate(key, val);
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}
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void remove(const TKey & key)
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/// Removes an entry from the cache. If the entry is not found,
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/// the remove is ignored.
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{
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typename TMutex::ScopedLock lock(_mutex);
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Iterator it = _data.find(key);
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doRemove(it);
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}
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bool has(const TKey & key) const
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/// Returns true if the cache contains a value for the key.
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{
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typename TMutex::ScopedLock lock(_mutex);
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return doHas(key);
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}
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SharedPtr<TValue> get(const TKey & key)
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/// Returns a SharedPtr of the value. The SharedPointer will remain valid
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/// even when cache replacement removes the element.
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/// If for the key no value exists, an empty SharedPtr is returned.
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{
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typename TMutex::ScopedLock lock(_mutex);
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return doGet(key);
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}
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void clear()
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/// Removes all elements from the cache.
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{
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typename TMutex::ScopedLock lock(_mutex);
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doClear();
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}
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std::size_t size()
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/// Returns the number of cached elements
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{
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typename TMutex::ScopedLock lock(_mutex);
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doReplace();
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return _data.size();
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}
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void forceReplace()
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/// Forces cache replacement. Note that Poco's cache strategy use for efficiency reason no background thread
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/// which periodically triggers cache replacement. Cache Replacement is only started when the cache is modified
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/// from outside, i.e. add is called, or when a user tries to access an cache element via get.
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/// In some cases, i.e. expire based caching where for a long time no access to the cache happens,
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/// it might be desirable to be able to trigger cache replacement manually.
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{
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typename TMutex::ScopedLock lock(_mutex);
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doReplace();
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}
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std::set<TKey> getAllKeys()
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/// Returns a copy of all keys stored in the cache
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{
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typename TMutex::ScopedLock lock(_mutex);
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doReplace();
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ConstIterator it = _data.begin();
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ConstIterator itEnd = _data.end();
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std::set<TKey> result;
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for (; it != itEnd; ++it)
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result.insert(it->first);
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return result;
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}
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protected:
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mutable FIFOEvent<ValidArgs<TKey>> IsValid;
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mutable FIFOEvent<KeySet> Replace;
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void initialize()
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/// Sets up event registration.
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{
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Add += Delegate<TStrategy, const KeyValueArgs<TKey, TValue>>(&_strategy, &TStrategy::onAdd);
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Update += Delegate<TStrategy, const KeyValueArgs<TKey, TValue>>(&_strategy, &TStrategy::onUpdate);
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Remove += Delegate<TStrategy, const TKey>(&_strategy, &TStrategy::onRemove);
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Get += Delegate<TStrategy, const TKey>(&_strategy, &TStrategy::onGet);
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Clear += Delegate<TStrategy, const EventArgs>(&_strategy, &TStrategy::onClear);
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IsValid += Delegate<TStrategy, ValidArgs<TKey>>(&_strategy, &TStrategy::onIsValid);
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Replace += Delegate<TStrategy, KeySet>(&_strategy, &TStrategy::onReplace);
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}
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void uninitialize()
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/// Reverts event registration.
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{
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Add -= Delegate<TStrategy, const KeyValueArgs<TKey, TValue>>(&_strategy, &TStrategy::onAdd);
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Update -= Delegate<TStrategy, const KeyValueArgs<TKey, TValue>>(&_strategy, &TStrategy::onUpdate);
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Remove -= Delegate<TStrategy, const TKey>(&_strategy, &TStrategy::onRemove);
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Get -= Delegate<TStrategy, const TKey>(&_strategy, &TStrategy::onGet);
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Clear -= Delegate<TStrategy, const EventArgs>(&_strategy, &TStrategy::onClear);
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IsValid -= Delegate<TStrategy, ValidArgs<TKey>>(&_strategy, &TStrategy::onIsValid);
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Replace -= Delegate<TStrategy, KeySet>(&_strategy, &TStrategy::onReplace);
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}
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void doAdd(const TKey & key, const TValue & val)
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/// Adds the key value pair to the cache.
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/// If for the key already an entry exists, it will be overwritten.
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{
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Iterator it = _data.find(key);
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doRemove(it);
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KeyValueArgs<TKey, TValue> args(key, val);
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Add.notify(this, args);
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_data.insert(std::make_pair(key, SharedPtr<TValue>(new TValue(val))));
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doReplace();
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}
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void doAdd(const TKey & key, SharedPtr<TValue> & val)
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/// Adds the key value pair to the cache.
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/// If for the key already an entry exists, it will be overwritten.
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{
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Iterator it = _data.find(key);
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doRemove(it);
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KeyValueArgs<TKey, TValue> args(key, *val);
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Add.notify(this, args);
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_data.insert(std::make_pair(key, val));
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doReplace();
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}
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void doUpdate(const TKey & key, const TValue & val)
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/// Adds the key value pair to the cache.
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/// If for the key already an entry exists, it will be overwritten.
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{
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KeyValueArgs<TKey, TValue> args(key, val);
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Iterator it = _data.find(key);
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if (it == _data.end())
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{
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Add.notify(this, args);
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_data.insert(std::make_pair(key, SharedPtr<TValue>(new TValue(val))));
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}
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else
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{
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Update.notify(this, args);
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it->second = SharedPtr<TValue>(new TValue(val));
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}
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doReplace();
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}
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void doUpdate(const TKey & key, SharedPtr<TValue> & val)
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/// Adds the key value pair to the cache.
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/// If for the key already an entry exists, it will be overwritten.
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{
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KeyValueArgs<TKey, TValue> args(key, *val);
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Iterator it = _data.find(key);
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if (it == _data.end())
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{
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Add.notify(this, args);
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_data.insert(std::make_pair(key, val));
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}
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else
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{
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Update.notify(this, args);
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it->second = val;
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}
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doReplace();
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}
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void doRemove(Iterator it)
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/// Removes an entry from the cache. If the entry is not found
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/// the remove is ignored.
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{
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if (it != _data.end())
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{
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Remove.notify(this, it->first);
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_data.erase(it);
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}
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}
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bool doHas(const TKey & key) const
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/// Returns true if the cache contains a value for the key
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{
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// ask the strategy if the key is valid
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ConstIterator it = _data.find(key);
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bool result = false;
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if (it != _data.end())
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{
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ValidArgs<TKey> args(key);
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IsValid.notify(this, args);
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result = args.isValid();
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}
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return result;
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}
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SharedPtr<TValue> doGet(const TKey & key)
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/// Returns a SharedPtr of the cache entry, returns 0 if for
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/// the key no value was found
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{
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Iterator it = _data.find(key);
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SharedPtr<TValue> result;
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if (it != _data.end())
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{
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// inform all strategies that a read-access to an element happens
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Get.notify(this, key);
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// ask all strategies if the key is valid
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ValidArgs<TKey> args(key);
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IsValid.notify(this, args);
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if (!args.isValid())
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{
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doRemove(it);
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}
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else
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{
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result = it->second;
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}
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}
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return result;
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}
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void doClear()
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{
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static EventArgs _emptyArgs;
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Clear.notify(this, _emptyArgs);
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_data.clear();
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}
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void doReplace()
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{
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std::set<TKey> delMe;
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Replace.notify(this, delMe);
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// delMe contains the to be removed elements
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typename std::set<TKey>::const_iterator it = delMe.begin();
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typename std::set<TKey>::const_iterator endIt = delMe.end();
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for (; it != endIt; ++it)
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{
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Iterator itH = _data.find(*it);
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doRemove(itH);
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}
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}
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TStrategy _strategy;
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mutable DataHolder _data;
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mutable TMutex _mutex;
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private:
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AbstractCache(const AbstractCache & aCache);
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AbstractCache & operator=(const AbstractCache & aCache);
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};
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} // namespace Poco
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#endif // Foundation_AbstractCache_INCLUDED
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