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#ifndef ADHOCUTIL_CACHE_IMPL_H
#define ADHOCUTIL_CACHE_IMPL_H

#include "cache.h"
#include <boost/lambda/lambda.hpp>
#include "lockHelpers.h"
#include <shared_mutex>

namespace AdHoc {

/// @cond
template<typename T, typename K>
Cacheable<T, K>::Cacheable(const K & k, time_t vu) :
	key(k),
	validUntil(vu)
{
}

template<typename T, typename K>
ObjectCacheable<T, K>::ObjectCacheable(const T & t, const K & k, time_t vu) :
	Cacheable<T, K>(k, vu),
	value(new T(t))
{
}

template<typename T, typename K>
ObjectCacheable<T, K>::ObjectCacheable(typename Cacheable<T, K>::Value & t, const K & k, time_t vu) :
	Cacheable<T, K>(k, vu),
	value(t)
{
}

template<typename T, typename K>
typename Cacheable<T, K>::Value
ObjectCacheable<T, K>::item() const
{
	return value;
}

template<typename T, typename K>
CallCacheable<T, K>::CallCacheable(const Factory & t, const K & k, time_t vu) :
	Cacheable<T, K>(k, vu),
	value(t)
{
}

template<typename T, typename K>
typename Cacheable<T, K>::Value
CallCacheable<T, K>::item() const
{
	Lock(lock);
	if (auto t = std::get_if<0>(&value)) {
		return *t;
	}
	const Factory & f = std::get<Factory>(value);
	value = std::make_shared<T>(f());
	return std::get<0>(value);
}


template<typename T, typename K>
PointerCallCacheable<T, K>::PointerCallCacheable(const Factory & t, const K & k, time_t vu) :
	Cacheable<T, K>(k, vu),
	value(t)
{
}

template<typename T, typename K>
typename Cacheable<T, K>::Value
PointerCallCacheable<T, K>::item() const
{
	Lock(lock);
	if (auto t = std::get_if<0>(&value)) {
		return *t;
	}
	const Factory & f = std::get<Factory>(value);
	value = f();
	return std::get<0>(value);
}


template<typename T, typename K>
Cache<T, K>::Cache() :
	lastPruneTime(time(NULL))
{
}

template<typename T, typename K>
void
Cache<T, K>::add(const K & k, const T & t, time_t validUntil)
{
	Lock(lock);
	cached.insert(Element(new ObjectCacheable<T, K>(t, k, validUntil)));
}

template<typename T, typename K>
void
Cache<T, K>::addPointer(const K & k, Value & t, time_t validUntil)
{
	Lock(lock);
	cached.insert(Element(new ObjectCacheable<T, K>(t, k, validUntil)));
}

template<typename T, typename K>
void
Cache<T, K>::addFactory(const K & k, const Factory & tf, time_t validUntil)
{
	Lock(lock);
	cached.insert(Element(new CallCacheable<T, K>(tf, k, validUntil)));
}

template<typename T, typename K>
void
Cache<T, K>::addPointerFactory(const K & k, const PointerFactory & tf, time_t validUntil)
{
	Lock(lock);
	cached.insert(Element(new PointerCallCacheable<T, K>(tf, k, validUntil)));
}

template<typename T, typename K>
typename Cache<T, K>::Element
Cache<T, K>::getItem(const K & k) const
{
	{
		SharedLock(lock);
		auto & collection = cached.template get<byKey>();
		auto i = collection.find(k);
		if (i == collection.end()) {
			return Element();
		}
		if ((*i)->validUntil > time(NULL)) {
			return (*i);
		}
	}
	prune();
	return Element();
}

template<typename T, typename K>
typename Cache<T, K>::Value
Cache<T, K>::get(const K & k) const
{
	auto i = getItem(k);
	if (i) {
		return i->item();
	}
	return nullptr;
}

template<typename T, typename K>
size_t
Cache<T, K>::size() const
{
	return cached.size();
}

template<typename T, typename K>
void
Cache<T, K>::remove(const K & k)
{
	Lock(lock);
	cached.template get<byKey>().erase(k);
}

template<typename T, typename K>
void
Cache<T, K>::clear()
{
	Lock(lock);
	cached.clear();
}

template<typename T, typename K>
void
Cache<T, K>::prune() const
{
	auto now = time(NULL);
	if (lastPruneTime < now) {
		Lock(lock);
		auto & collection = cached.template get<byValidity>();
		auto range = collection.range(boost::multi_index::unbounded, boost::lambda::_1 < now);
		collection.erase(range.first, range.second);
		lastPruneTime = now;
	}
}
/// @endcond

}

#endif