From c0cdb2ad99a1e2a6ade5ce76c91177a79258e669 Mon Sep 17 00:00:00 2001 From: Daniel Wilhelm Date: Fri, 18 Apr 2014 17:10:11 +0200 Subject: 3.14 --- shared/loki/CachedFactory.h | 2002 ++++++++++++++++++++++--------------------- 1 file changed, 1007 insertions(+), 995 deletions(-) (limited to 'shared/loki/CachedFactory.h') diff --git a/shared/loki/CachedFactory.h b/shared/loki/CachedFactory.h index 15c9a801..567b035c 100644 --- a/shared/loki/CachedFactory.h +++ b/shared/loki/CachedFactory.h @@ -4,16 +4,16 @@ // // Code covered by the MIT License // -// Permission to use, copy, modify, distribute and sell this software for any -// purpose is hereby granted without fee, provided that the above copyright -// notice appear in all copies and that both that copyright notice and this +// Permission to use, copy, modify, distribute and sell this software for any +// purpose is hereby granted without fee, provided that the above copyright +// notice appear in all copies and that both that copyright notice and this // permission notice appear in supporting documentation. // // The authors make no representations about the suitability of this software // for any purpose. It is provided "as is" without express or implied warranty. // // This code DOES NOT accompany the book: -// Alexandrescu, Andrei. "Modern C++ Design: Generic Programming and Design +// Alexandrescu, Andrei. "Modern C++ Design: Generic Programming and Design // Patterns Applied". Copyright (c) 2001. Addison-Wesley. // //////////////////////////////////////////////////////////////////////////////// @@ -32,9 +32,9 @@ #include #ifdef DO_EXTRA_LOKI_TESTS - #define D( x ) x +#define D( x ) x #else - #define D( x ) ; +#define D( x ) ; #endif #if defined(_MSC_VER) || defined(__CYGWIN__) @@ -47,7 +47,7 @@ * \ingroup FactoriesGroup * \brief CachedFactory provides an extension of a Factory with caching * support. - * + * * Once used objects are returned to the CachedFactory that manages its * destruction. * If your code uses lots of "long to construct/destruct objects" using the @@ -60,231 +60,231 @@ namespace Loki * \ingroup CachedFactoryGroup * \brief Defines how the object is returned to the client */ - /** - * \class SimplePointer - * \ingroup EncapsulationPolicyCachedFactoryGroup - * \brief No encaspulation : returns the pointer - * - * This implementation does not make any encapsulation. - * It simply returns the object's pointer. - */ - template - class SimplePointer - { - protected: - typedef AbstractProduct* ProductReturn; - ProductReturn encapsulate(AbstractProduct* pProduct) - { - return pProduct; - } - - AbstractProduct* release(ProductReturn &pProduct) - { - AbstractProduct* pPointer(pProduct); - pProduct=NULL; - return pPointer; - } - const char* name(){return "pointer";} - }; +/** + * \class SimplePointer + * \ingroup EncapsulationPolicyCachedFactoryGroup + * \brief No encaspulation : returns the pointer + * + * This implementation does not make any encapsulation. + * It simply returns the object's pointer. + */ +template +class SimplePointer +{ +protected: + typedef AbstractProduct* ProductReturn; + ProductReturn encapsulate(AbstractProduct* pProduct) + { + return pProduct; + } + + AbstractProduct* release(ProductReturn& pProduct) + { + AbstractProduct* pPointer(pProduct); + pProduct=NULL; + return pPointer; + } + const char* name() {return "pointer";} +}; /** * \defgroup CreationPolicyCachedFactoryGroup Creation policies * \ingroup CachedFactoryGroup * \brief Defines a way to limit the creation operation. - * + * * For instance one may want to be alerted (Exception) when * - Cache has created a more than X object within the last x seconds * - Cache creation rate has increased dramatically * . * which may result from bad caching strategy, or critical overload */ - /** - * \class NeverCreate - * \ingroup CreationPolicyCachedFactoryGroup - * \brief Never allows creation. Testing purposes only. - * - * Using this policy will throw an exception. - */ - class NeverCreate - { - protected: - struct Exception : public std::exception - { - const char* what() const throw() { return "NeverFetch Policy : No Fetching allowed"; } - }; - - bool canCreate() - { - throw Exception(); - } - - void onCreate(){} - void onDestroy(){} - const char* name(){return "never";} - }; - - /** - * \class AlwaysCreate - * \ingroup CreationPolicyCachedFactoryGroup - * \brief Always allows creation. - * - * Doesn't limit the creation in any way - */ - class AlwaysCreate - { - protected: - bool canCreate() - { - return true; - } +/** + * \class NeverCreate + * \ingroup CreationPolicyCachedFactoryGroup + * \brief Never allows creation. Testing purposes only. + * + * Using this policy will throw an exception. + */ +class NeverCreate +{ +protected: + struct Exception : public std::exception + { + const char* what() const throw() { return "NeverFetch Policy : No Fetching allowed"; } + }; - void onCreate(){} - void onDestroy(){} - const char* name(){return "always";} - }; + bool canCreate() + { + throw Exception(); + } + void onCreate() {} + void onDestroy() {} + const char* name() {return "never";} +}; - /** - * \class RateLimitedCreation - * \ingroup CreationPolicyCachedFactoryGroup - * \brief Limit in rate. - * - * This implementation will prevent from Creating more than maxCreation objects - * within byTime ms by throwing an exception. - * Could be usefull to detect prevent loads (http connection for instance). - * Use the setRate method to set the rate parameters. - * default is 10 objects in a second. - */ - // !! CAUTION !! - // The std::clock() function is not quite precise - // under linux this policy might not work. - // TODO : get a better implementation (platform dependant) - class RateLimitedCreation - { - private: - typedef std::vector< clock_t > Vector; - Vector m_vTimes; - unsigned maxCreation; - clock_t timeValidity; - clock_t lastUpdate; - - void cleanVector() - { - using namespace std; - clock_t currentTime = clock(); - D( cout << "currentTime = " << currentTime<< endl; ) - D( cout << "currentTime - lastUpdate = " << currentTime - lastUpdate<< endl; ) - if(currentTime - lastUpdate > timeValidity) - { - m_vTimes.clear(); - D( cout << " is less than time validity " << timeValidity; ) - D( cout << " so clearing vector" << endl; ) - } - else - { - D( cout << "Cleaning time less than " << currentTime - timeValidity << endl; ) - D( displayVector(); ) - Vector::iterator newEnd = remove_if(m_vTimes.begin(), m_vTimes.end(), bind2nd(less(), currentTime - timeValidity)); - // this rearrangement might be costly, consider optimization - // by calling cleanVector in less used onCreate function - // ... although it may not be correct - m_vTimes.erase(newEnd, m_vTimes.end()); - D( displayVector(); ) - } - lastUpdate = currentTime; - } -#ifdef DO_EXTRA_LOKI_TESTS - void displayVector() - { - std::cout << "Vector : "; - copy(m_vTimes.begin(), m_vTimes.end(), std::ostream_iterator(std::cout, " ")); - std::cout << std::endl; - } +/** + * \class AlwaysCreate + * \ingroup CreationPolicyCachedFactoryGroup + * \brief Always allows creation. + * + * Doesn't limit the creation in any way + */ +class AlwaysCreate +{ +protected: + bool canCreate() + { + return true; + } + + void onCreate() {} + void onDestroy() {} + const char* name() {return "always";} +}; + + +/** + * \class RateLimitedCreation + * \ingroup CreationPolicyCachedFactoryGroup + * \brief Limit in rate. + * + * This implementation will prevent from Creating more than maxCreation objects + * within byTime ms by throwing an exception. + * Could be usefull to detect prevent loads (http connection for instance). + * Use the setRate method to set the rate parameters. + * default is 10 objects in a second. + */ +// !! CAUTION !! +// The std::clock() function is not quite precise +// under linux this policy might not work. +// TODO : get a better implementation (platform dependant) +class RateLimitedCreation +{ +private: + typedef std::vector< clock_t > Vector; + Vector m_vTimes; + unsigned maxCreation; + clock_t timeValidity; + clock_t lastUpdate; + + void cleanVector() + { + using namespace std; + clock_t currentTime = clock(); + D( cout << "currentTime = " << currentTime<< endl; ) + D( cout << "currentTime - lastUpdate = " << currentTime - lastUpdate<< endl; ) + if(currentTime - lastUpdate > timeValidity) + { + m_vTimes.clear(); + D( cout << " is less than time validity " << timeValidity; ) + D( cout << " so clearing vector" << endl; ) + } + else + { + D( cout << "Cleaning time less than " << currentTime - timeValidity << endl; ) + D( displayVector(); ) + Vector::iterator newEnd = remove_if(m_vTimes.begin(), m_vTimes.end(), bind2nd(less(), currentTime - timeValidity)); + // this rearrangement might be costly, consider optimization + // by calling cleanVector in less used onCreate function + // ... although it may not be correct + m_vTimes.erase(newEnd, m_vTimes.end()); + D( displayVector(); ) + } + lastUpdate = currentTime; + } +#ifdef DO_EXTRA_LOKI_TESTS + void displayVector() + { + std::cout << "Vector : "; + copy(m_vTimes.begin(), m_vTimes.end(), std::ostream_iterator(std::cout, " ")); + std::cout << std::endl; + } #endif - protected: - RateLimitedCreation() : maxCreation(10), timeValidity(CLOCKS_PER_SEC), lastUpdate(clock()) - {} - - struct Exception : public std::exception - { - const char* what() const throw() { return "RateLimitedCreation Policy : Exceeded the authorized creation rate"; } - }; - - bool canCreate() - { - cleanVector(); - if(m_vTimes.size()>maxCreation) - throw Exception(); - else - return true; - } +protected: + RateLimitedCreation() : maxCreation(10), timeValidity(CLOCKS_PER_SEC), lastUpdate(clock()) + {} - void onCreate() - { - m_vTimes.push_back(clock()); - } - - void onDestroy() - { - } - const char* name(){return "rate limited";} - public: - // set the creation rate - // No more than maxCreation within byTime milliseconds - void setRate(unsigned maxCreation, unsigned byTime) - { - assert(byTime>0); - this->maxCreation = maxCreation; - this->timeValidity = static_cast(byTime * CLOCKS_PER_SEC / 1000); - D( std::cout << "Setting no more than "<< maxCreation <<" creation within " << this->timeValidity <<" ms"<< std::endl; ) - } - }; - - /** - * \class AmountLimitedCreation - * \ingroup CreationPolicyCachedFactoryGroup - * \brief Limit by number of objects - * - * This implementation will prevent from Creating more than maxCreation objects - * within byTime ms by calling eviction policy. - * Use the setRate method to set the rate parameters. - * default is 10 objects. - */ - class AmountLimitedCreation - { - private: - unsigned maxCreation; - unsigned created; - - protected: - AmountLimitedCreation() : maxCreation(10), created(0) - {} - - bool canCreate() - { - return !(created>=maxCreation); - } + struct Exception : public std::exception + { + const char* what() const throw() { return "RateLimitedCreation Policy : Exceeded the authorized creation rate"; } + }; + + bool canCreate() + { + cleanVector(); + if(m_vTimes.size()>maxCreation) + throw Exception(); + else + return true; + } + + void onCreate() + { + m_vTimes.push_back(clock()); + } + + void onDestroy() + { + } + const char* name() {return "rate limited";} +public: + // set the creation rate + // No more than maxCreation within byTime milliseconds + void setRate(unsigned maxCreation, unsigned byTime) + { + assert(byTime>0); + this->maxCreation = maxCreation; + this->timeValidity = static_cast(byTime * CLOCKS_PER_SEC / 1000); + D( std::cout << "Setting no more than "<< maxCreation <<" creation within " << this->timeValidity <<" ms"<< std::endl; ) + } +}; + +/** + * \class AmountLimitedCreation + * \ingroup CreationPolicyCachedFactoryGroup + * \brief Limit by number of objects + * + * This implementation will prevent from Creating more than maxCreation objects + * within byTime ms by calling eviction policy. + * Use the setRate method to set the rate parameters. + * default is 10 objects. + */ +class AmountLimitedCreation +{ +private: + unsigned maxCreation; + unsigned created; + +protected: + AmountLimitedCreation() : maxCreation(10), created(0) + {} + + bool canCreate() + { + return !(created>=maxCreation); + } + + void onCreate() + { + ++created; + } + + void onDestroy() + { + --created; + } + const char* name() {return "amount limited";} +public: + // set the creation max amount + void setMaxCreation(unsigned maxCreation) + { + assert(maxCreation>0); + this->maxCreation = maxCreation; + D( std::cout << "Setting no more than " << maxCreation <<" creation" << std::endl; ) + } +}; - void onCreate() - { - ++created; - } - - void onDestroy() - { - --created; - } - const char* name(){return "amount limited";} - public: - // set the creation max amount - void setMaxCreation(unsigned maxCreation) - { - assert(maxCreation>0); - this->maxCreation = maxCreation; - D( std::cout << "Setting no more than " << maxCreation <<" creation" << std::endl; ) - } - }; - /** * \defgroup EvictionPolicyCachedFactoryGroup Eviction policies * \ingroup CachedFactoryGroup @@ -292,875 +292,887 @@ namespace Loki * candidate for eviction. */ - class EvictionException : public std::exception +class EvictionException : public std::exception +{ +public: + const char* what() const throw() { return "Eviction Policy : trying to make room but no objects are available"; } +}; + +// The following class is intented to provide helpers to sort +// the container that will hold an eviction score +template +< +typename ST, // Score type + typename DT // Data type + > +class EvictionHelper +{ +protected: + typedef typename std::map< DT, ST > HitMap; + typedef typename HitMap::iterator HitMapItr; +private: + typedef std::pair< ST, DT > SwappedPair; + typedef std::multimap< ST, DT > SwappedHitMap; + typedef typename SwappedHitMap::iterator SwappedHitMapItr; +protected: + HitMap m_mHitCount; + + // This function sorts the map according to the score + // and returns the lower bound of the sorted container + DT& getLowerBound() { - public: - const char* what() const throw() { return "Eviction Policy : trying to make room but no objects are available"; } - }; + assert(!m_mHitCount.empty()); + // inserting the swapped pair into a multimap + SwappedHitMap copyMap; + for(HitMapItr itr = m_mHitCount.begin(); itr != m_mHitCount.end(); ++itr) + copyMap.insert(SwappedPair((*itr).second, (*itr).first)); + if((*copyMap.rbegin()).first == 0) // the higher score is 0 ... + throw EvictionException(); // there is no key evict + return (*copyMap.begin()).second; + } +}; - // The following class is intented to provide helpers to sort - // the container that will hold an eviction score - template - < - typename ST, // Score type - typename DT // Data type - > - class EvictionHelper - { - protected: - typedef typename std::map< DT, ST > HitMap; - typedef typename HitMap::iterator HitMapItr; - private: - typedef std::pair< ST, DT > SwappedPair; - typedef std::multimap< ST, DT > SwappedHitMap; - typedef typename SwappedHitMap::iterator SwappedHitMapItr; - protected: - HitMap m_mHitCount; - - // This function sorts the map according to the score - // and returns the lower bound of the sorted container - DT& getLowerBound(){ - assert(!m_mHitCount.empty()); - // inserting the swapped pair into a multimap - SwappedHitMap copyMap; - for(HitMapItr itr = m_mHitCount.begin(); itr != m_mHitCount.end(); ++itr) - copyMap.insert(SwappedPair((*itr).second, (*itr).first)); - if((*copyMap.rbegin()).first == 0) // the higher score is 0 ... - throw EvictionException(); // there is no key evict - return (*copyMap.begin()).second; - } - }; - - /** - * \class EvictLRU - * \ingroup EvictionPolicyCachedFactoryGroup - * \brief Evicts least accessed objects first. - * - * Implementation of the Least recent used algorithm as - * described in http://en.wikipedia.org/wiki/Page_replacement_algorithms . - * - * WARNING : If an object is heavily fetched - * (more than ULONG_MAX = UINT_MAX = 4294967295U) - * it could unfortunately be removed from the cache. - */ - template - < - typename DT, // Data Type (AbstractProduct*) - typename ST = unsigned // default data type to use as Score Type - > - class EvictLRU : public EvictionHelper< ST , DT > +/** + * \class EvictLRU + * \ingroup EvictionPolicyCachedFactoryGroup + * \brief Evicts least accessed objects first. + * + * Implementation of the Least recent used algorithm as + * described in http://en.wikipedia.org/wiki/Page_replacement_algorithms . + * + * WARNING : If an object is heavily fetched + * (more than ULONG_MAX = UINT_MAX = 4294967295U) + * it could unfortunately be removed from the cache. + */ +template +< +typename DT, // Data Type (AbstractProduct*) + typename ST = unsigned // default data type to use as Score Type + > +class EvictLRU : public EvictionHelper< ST , DT > +{ +private: + typedef EvictionHelper< ST , DT > EH; +protected: + + virtual ~EvictLRU() {} + + // OnStore initialize the counter for the new key + // If the key already exists, the counter is reseted + void onCreate(const DT& key) { - private: - typedef EvictionHelper< ST , DT > EH; - protected: - - virtual ~EvictLRU(){} - - // OnStore initialize the counter for the new key - // If the key already exists, the counter is reseted - void onCreate(const DT& key) - { - EH::m_mHitCount[key] = 0; - } - - void onFetch(const DT&) - { - } - - // onRelease increments the hit counter associated with the object - void onRelease(const DT& key) - { - ++(EH::m_mHitCount[key]); - } + EH::m_mHitCount[key] = 0; + } - void onDestroy(const DT& key) - { - EH::m_mHitCount.erase(key); - } - - // this function is implemented in Cache and redirected - // to the Storage Policy - virtual void remove(DT const key)=0; - - // LRU Eviction policy - void evict() - { - remove(EH::getLowerBound()); - } - const char* name(){return "LRU";} - }; - - /** - * \class EvictAging - * \ingroup EvictionPolicyCachedFactoryGroup - * \brief LRU aware of the time span of use - * - * Implementation of the Aging algorithm as - * described in http://en.wikipedia.org/wiki/Page_replacement_algorithms . - * - * This method is much more costly than evict LRU so - * if you need extreme performance consider switching to EvictLRU - */ - template - < - typename DT, // Data Type (AbstractProduct*) - typename ST = unsigned // default data type to use as Score Type - > - class EvictAging : public EvictionHelper< ST, DT > + void onFetch(const DT&) { - private: - EvictAging(const EvictAging&); - EvictAging& operator=(const EvictAging&); - typedef EvictionHelper< ST, DT > EH; - typedef typename EH::HitMap HitMap; - typedef typename EH::HitMapItr HitMapItr; - - // update the counter - template struct updateCounter : public std::unary_function - { - updateCounter(const DT& key): key_(key){} - void operator()(T x) - { - x.second = (x.first == key_ ? (x.second >> 1) | ( 1 << ((sizeof(ST)-1)*8) ) : x.second >> 1); - D( std::cout << x.second << std::endl; ) - } - const DT &key_; - updateCounter(const updateCounter& rhs) : key_(rhs.key_){} - private: - updateCounter& operator=(const updateCounter& rhs); - }; - protected: - EvictAging(){} - virtual ~EvictAging(){} - - // OnStore initialize the counter for the new key - // If the key already exists, the counter is reseted - void onCreate(const DT& key){ - EH::m_mHitCount[key] = 0; - } - - void onFetch(const DT&){} - - // onRelease increments the hit counter associated with the object - // Updating every counters by iterating over the map - // If the key is the key of the fetched object : - // the counter is shifted to the right and it's MSB is set to 1 - // else - // the counter is shifted to the left - void onRelease(const DT& key) - { - std::for_each(EH::m_mHitCount.begin(), EH::m_mHitCount.end(), updateCounter< typename HitMap::value_type >(key)); - } - - void onDestroy(const DT& key) - { - EH::m_mHitCount.erase(key); - } + } - // this function is implemented in Cache and redirected - // to the Storage Policy - virtual void remove(DT const key)=0; + // onRelease increments the hit counter associated with the object + void onRelease(const DT& key) + { + ++(EH::m_mHitCount[key]); + } - // LRU with Aging Eviction policy - void evict() - { - remove(EH::getLowerBound()); - } - const char* name(){return "LRU with aging";} - }; - - /** - * \class EvictRandom - * \ingroup EvictionPolicyCachedFactoryGroup - * \brief Evicts a random object - * - * Implementation of the Random algorithm as - * described in http://en.wikipedia.org/wiki/Page_replacement_algorithms . - */ - template - < - typename DT, // Data Type (AbstractProduct*) - typename ST = void // Score Type not used by this policy - > - class EvictRandom + void onDestroy(const DT& key) + { + EH::m_mHitCount.erase(key); + } + + // this function is implemented in Cache and redirected + // to the Storage Policy + virtual void remove(DT const key)=0; + + // LRU Eviction policy + void evict() { + remove(EH::getLowerBound()); + } + const char* name() {return "LRU";} +}; + +/** + * \class EvictAging + * \ingroup EvictionPolicyCachedFactoryGroup + * \brief LRU aware of the time span of use + * + * Implementation of the Aging algorithm as + * described in http://en.wikipedia.org/wiki/Page_replacement_algorithms . + * + * This method is much more costly than evict LRU so + * if you need extreme performance consider switching to EvictLRU + */ +template +< +typename DT, // Data Type (AbstractProduct*) + typename ST = unsigned // default data type to use as Score Type + > +class EvictAging : public EvictionHelper< ST, DT > +{ +private: + EvictAging(const EvictAging&); + EvictAging& operator=(const EvictAging&); + typedef EvictionHelper< ST, DT > EH; + typedef typename EH::HitMap HitMap; + typedef typename EH::HitMapItr HitMapItr; + + // update the counter + template struct updateCounter : public std::unary_function + { + updateCounter(const DT& key): key_(key) {} + void operator()(T x) + { + x.second = (x.first == key_ ? (x.second >> 1) | ( 1 << ((sizeof(ST)-1)*8) ) : x.second >> 1); + D( std::cout << x.second << std::endl; ) + } + const DT& key_; + updateCounter(const updateCounter& rhs) : key_(rhs.key_) {} private: - std::vector< DT > m_vKeys; - typedef typename std::vector< DT >::size_type size_type; - typedef typename std::vector< DT >::iterator iterator; - - protected: - - virtual ~EvictRandom(){} - - void onCreate(const DT&){ - } - - void onFetch(const DT& ){ - } - - void onRelease(const DT& key){ - m_vKeys.push_back(key); - } - - void onDestroy(const DT& key){ - using namespace std; - m_vKeys.erase(remove_if(m_vKeys.begin(), m_vKeys.end(), bind2nd(equal_to< DT >(), key)), m_vKeys.end()); - } - - // Implemented in Cache and redirected to the Storage Policy - virtual void remove(DT const key)=0; - - // Random Eviction policy - void evict() - { - if(m_vKeys.empty()) - throw EvictionException(); - size_type random = static_cast((m_vKeys.size()*rand())/(static_cast(RAND_MAX) + 1)); - remove(*(m_vKeys.begin()+random)); - } - const char* name(){return "random";} + updateCounter& operator=(const updateCounter& rhs); }; +protected: + EvictAging() {} + virtual ~EvictAging() {} + + // OnStore initialize the counter for the new key + // If the key already exists, the counter is reseted + void onCreate(const DT& key) + { + EH::m_mHitCount[key] = 0; + } + + void onFetch(const DT&) {} + + // onRelease increments the hit counter associated with the object + // Updating every counters by iterating over the map + // If the key is the key of the fetched object : + // the counter is shifted to the right and it's MSB is set to 1 + // else + // the counter is shifted to the left + void onRelease(const DT& key) + { + std::for_each(EH::m_mHitCount.begin(), EH::m_mHitCount.end(), updateCounter< typename HitMap::value_type >(key)); + } + + void onDestroy(const DT& key) + { + EH::m_mHitCount.erase(key); + } + + // this function is implemented in Cache and redirected + // to the Storage Policy + virtual void remove(DT const key)=0; + + // LRU with Aging Eviction policy + void evict() + { + remove(EH::getLowerBound()); + } + const char* name() {return "LRU with aging";} +}; + +/** + * \class EvictRandom + * \ingroup EvictionPolicyCachedFactoryGroup + * \brief Evicts a random object + * + * Implementation of the Random algorithm as + * described in http://en.wikipedia.org/wiki/Page_replacement_algorithms . + */ +template +< +typename DT, // Data Type (AbstractProduct*) + typename ST = void // Score Type not used by this policy + > +class EvictRandom +{ +private: + std::vector< DT > m_vKeys; + typedef typename std::vector< DT >::size_type size_type; + typedef typename std::vector< DT >::iterator iterator; + +protected: + + virtual ~EvictRandom() {} + + void onCreate(const DT&) + { + } + + void onFetch(const DT& ) + { + } + + void onRelease(const DT& key) + { + m_vKeys.push_back(key); + } + + void onDestroy(const DT& key) + { + using namespace std; + m_vKeys.erase(remove_if(m_vKeys.begin(), m_vKeys.end(), bind2nd(equal_to< DT >(), key)), m_vKeys.end()); + } + + // Implemented in Cache and redirected to the Storage Policy + virtual void remove(DT const key)=0; + + // Random Eviction policy + void evict() + { + if(m_vKeys.empty()) + throw EvictionException(); + size_type random = static_cast((m_vKeys.size()*rand())/(static_cast(RAND_MAX) + 1)); + remove(*(m_vKeys.begin()+random)); + } + const char* name() {return "random";} +}; /** * \defgroup StatisticPolicyCachedFactoryGroup Statistic policies * \ingroup CachedFactoryGroup * \brief Gathers information about the cache. - * + * * For debugging purpose this policy proposes to gather informations * about the cache. This could be useful to determine whether the cache is * mandatory or if the policies are well suited to the application. */ - /** - * \class NoStatisticPolicy - * \ingroup StatisticPolicyCachedFactoryGroup - * \brief Do nothing - * - * Should be used in release code for better performances - */ - class NoStatisticPolicy - { - protected: - void onDebug(){} - void onFetch(){} - void onRelease(){} - void onCreate(){} - void onDestroy(){} - const char* name(){return "no";} - }; - - /** - * \class SimpleStatisticPolicy - * \ingroup StatisticPolicyCachedFactoryGroup - * \brief Simple statistics - * - * Provides the following informations about the cache : - * - Created objects - * - Fetched objects - * - Destroyed objects - * - Cache hit - * - Cache miss - * - Currently allocated - * - Currently out - * - Cache overall efficiency - */ - class SimpleStatisticPolicy +/** + * \class NoStatisticPolicy + * \ingroup StatisticPolicyCachedFactoryGroup + * \brief Do nothing + * + * Should be used in release code for better performances + */ +class NoStatisticPolicy +{ +protected: + void onDebug() {} + void onFetch() {} + void onRelease() {} + void onCreate() {} + void onDestroy() {} + const char* name() {return "no";} +}; + +/** + * \class SimpleStatisticPolicy + * \ingroup StatisticPolicyCachedFactoryGroup + * \brief Simple statistics + * + * Provides the following informations about the cache : + * - Created objects + * - Fetched objects + * - Destroyed objects + * - Cache hit + * - Cache miss + * - Currently allocated + * - Currently out + * - Cache overall efficiency + */ +class SimpleStatisticPolicy +{ +private: + unsigned allocated, created, hit, out, fetched; +protected: + SimpleStatisticPolicy() : allocated(0), created(0), hit(0), out(0), fetched(0) { - private: - unsigned allocated, created, hit, out, fetched; - protected: - SimpleStatisticPolicy() : allocated(0), created(0), hit(0), out(0), fetched(0) - { - } - - void onDebug() + } + + void onDebug() + { + using namespace std; + cout << "############################" << endl; + cout << "## About this cache " << this << endl; + cout << "## + Created objects : " << created << endl; + cout << "## + Fetched objects : " << fetched << endl; + cout << "## + Destroyed objects : " << created - allocated << endl; + cout << "## + Cache hit : " << hit << endl; + cout << "## + Cache miss : " << fetched - hit << endl; + cout << "## + Currently allocated : " << allocated << endl; + cout << "## + Currently out : " << out << endl; + cout << "############################" << endl; + if(fetched!=0) { - using namespace std; - cout << "############################" << endl; - cout << "## About this cache " << this << endl; - cout << "## + Created objects : " << created << endl; - cout << "## + Fetched objects : " << fetched << endl; - cout << "## + Destroyed objects : " << created - allocated << endl; - cout << "## + Cache hit : " << hit << endl; - cout << "## + Cache miss : " << fetched - hit << endl; - cout << "## + Currently allocated : " << allocated << endl; - cout << "## + Currently out : " << out << endl; + cout << "## Overall efficiency " << 100*double(hit)/fetched <<"%"<< endl; cout << "############################" << endl; - if(fetched!=0){ - cout << "## Overall efficiency " << 100*double(hit)/fetched <<"%"<< endl; - cout << "############################" << endl; - } - cout << endl; } - - void onFetch() - { - ++fetched; - ++out; - ++hit; - } - void onRelease() - { - --out; - } - void onCreate() + cout << endl; + } + + void onFetch() + { + ++fetched; + ++out; + ++hit; + } + void onRelease() + { + --out; + } + void onCreate() + { + ++created; + ++allocated; + --hit; + } + void onDestroy() + { + --allocated; + } + + const char* name() {return "simple";} +public: + unsigned getCreated() {return created;} + unsigned getFetched() {return fetched;} + unsigned getHit() {return hit;} + unsigned getMissed() {return fetched - hit;} + unsigned getAllocated() {return allocated;} + unsigned getOut() {return out;} + unsigned getDestroyed() {return created-allocated;} +}; + +/////////////////////////////////////////////////////////////////////////// +// Cache Factory definition +/////////////////////////////////////////////////////////////////////////// +class CacheException : public std::exception +{ +public: + const char* what() const throw() { return "Internal Cache Error"; } +}; + +/** + * \class CachedFactory + * \ingroup CachedFactoryGroup + * \brief Factory with caching support + * + * This class acts as a Factory (it creates objects) + * but also keeps the already created objects to prevent + * long constructions time. + * + * Note this implementation do not retain ownership. + */ +template +< +class AbstractProduct, + typename IdentifierType, + typename CreatorParmTList = NullType, + template class EncapsulationPolicy = SimplePointer, + class CreationPolicy = AlwaysCreate, + template class EvictionPolicy = EvictRandom, + class StatisticPolicy = NoStatisticPolicy, + template class FactoryErrorPolicy = DefaultFactoryError, + class ObjVector = std::vector + > +class CachedFactory : + protected EncapsulationPolicy, + public CreationPolicy, public StatisticPolicy, EvictionPolicy< AbstractProduct* , unsigned > +{ +private: + typedef Factory< AbstractProduct, IdentifierType, CreatorParmTList, FactoryErrorPolicy> MyFactory; + typedef FactoryImpl< AbstractProduct, IdentifierType, CreatorParmTList > Impl; + typedef Functor< AbstractProduct* , CreatorParmTList > ProductCreator; + typedef EncapsulationPolicy NP; + typedef CreationPolicy CP; + typedef StatisticPolicy SP; + typedef EvictionPolicy< AbstractProduct* , unsigned > EP; + + typedef typename Impl::Parm1 Parm1; + typedef typename Impl::Parm2 Parm2; + typedef typename Impl::Parm3 Parm3; + typedef typename Impl::Parm4 Parm4; + typedef typename Impl::Parm5 Parm5; + typedef typename Impl::Parm6 Parm6; + typedef typename Impl::Parm7 Parm7; + typedef typename Impl::Parm8 Parm8; + typedef typename Impl::Parm9 Parm9; + typedef typename Impl::Parm10 Parm10; + typedef typename Impl::Parm11 Parm11; + typedef typename Impl::Parm12 Parm12; + typedef typename Impl::Parm13 Parm13; + typedef typename Impl::Parm14 Parm14; + typedef typename Impl::Parm15 Parm15; + +public: + typedef typename NP::ProductReturn ProductReturn; +private: + typedef Key< Impl, IdentifierType > MyKey; + typedef std::map< MyKey, ObjVector > KeyToObjVectorMap; + typedef std::map< AbstractProduct*, MyKey > FetchedObjToKeyMap; + + MyFactory factory; + KeyToObjVectorMap fromKeyToObjVector; + FetchedObjToKeyMap providedObjects; + unsigned outObjects; + + ObjVector& getContainerFromKey(MyKey key) + { + return fromKeyToObjVector[key]; + } + + AbstractProduct* const getPointerToObjectInContainer(ObjVector& entry) + { + if(entry.empty()) // No object available { - ++created; - ++allocated; - --hit; + // the object will be created in the calling function. + // It has to be created in the calling function because of + // the variable number of parameters for CreateObject(...) method + return NULL; } - void onDestroy() + else { - --allocated; + // returning the found object + AbstractProduct* pObject(entry.back()); + assert(pObject!=NULL); + entry.pop_back(); + return pObject; } + } + + bool shouldCreateObject(AbstractProduct* const pProduct) + { + if(pProduct!=NULL) // object already exists + return false; + if(CP::canCreate()==false) // Are we allowed to Create ? + EP::evict(); // calling Eviction Policy to clean up + return true; + } + + void ReleaseObjectFromContainer(ObjVector& entry, AbstractProduct* const object) + { + entry.push_back(object); + } + + void onFetch(AbstractProduct* const pProduct) + { + SP::onFetch(); + EP::onFetch(pProduct); + ++outObjects; + } + + void onRelease(AbstractProduct* const pProduct) + { + SP::onRelease(); + EP::onRelease(pProduct); + --outObjects; + } + + void onCreate(AbstractProduct* const pProduct) + { + CP::onCreate(); + SP::onCreate(); + EP::onCreate(pProduct); + } - const char* name(){return "simple";} - public: - unsigned getCreated(){return created;} - unsigned getFetched(){return fetched;} - unsigned getHit(){return hit;} - unsigned getMissed(){return fetched - hit;} - unsigned getAllocated(){return allocated;} - unsigned getOut(){return out;} - unsigned getDestroyed(){return created-allocated;} - }; - - /////////////////////////////////////////////////////////////////////////// - // Cache Factory definition - /////////////////////////////////////////////////////////////////////////// - class CacheException : public std::exception - { - public: - const char* what() const throw() { return "Internal Cache Error"; } + void onDestroy(AbstractProduct* const pProduct) + { + CP::onDestroy(); + SP::onDestroy(); + EP::onDestroy(pProduct); + } + + // delete the object + template struct deleteObject : public std::unary_function + { + void operator()(T x) { delete x; } }; - - /** - * \class CachedFactory - * \ingroup CachedFactoryGroup - * \brief Factory with caching support - * - * This class acts as a Factory (it creates objects) - * but also keeps the already created objects to prevent - * long constructions time. - * - * Note this implementation do not retain ownership. - */ - template - < - class AbstractProduct, - typename IdentifierType, - typename CreatorParmTList = NullType, - template class EncapsulationPolicy = SimplePointer, - class CreationPolicy = AlwaysCreate, - template class EvictionPolicy = EvictRandom, - class StatisticPolicy = NoStatisticPolicy, - template class FactoryErrorPolicy = DefaultFactoryError, - class ObjVector = std::vector - > - class CachedFactory : - protected EncapsulationPolicy, - public CreationPolicy, public StatisticPolicy, EvictionPolicy< AbstractProduct * , unsigned > - { - private: - typedef Factory< AbstractProduct, IdentifierType, CreatorParmTList, FactoryErrorPolicy> MyFactory; - typedef FactoryImpl< AbstractProduct, IdentifierType, CreatorParmTList > Impl; - typedef Functor< AbstractProduct* , CreatorParmTList > ProductCreator; - typedef EncapsulationPolicy NP; - typedef CreationPolicy CP; - typedef StatisticPolicy SP; - typedef EvictionPolicy< AbstractProduct* , unsigned > EP; - - typedef typename Impl::Parm1 Parm1; - typedef typename Impl::Parm2 Parm2; - typedef typename Impl::Parm3 Parm3; - typedef typename Impl::Parm4 Parm4; - typedef typename Impl::Parm5 Parm5; - typedef typename Impl::Parm6 Parm6; - typedef typename Impl::Parm7 Parm7; - typedef typename Impl::Parm8 Parm8; - typedef typename Impl::Parm9 Parm9; - typedef typename Impl::Parm10 Parm10; - typedef typename Impl::Parm11 Parm11; - typedef typename Impl::Parm12 Parm12; - typedef typename Impl::Parm13 Parm13; - typedef typename Impl::Parm14 Parm14; - typedef typename Impl::Parm15 Parm15; - - public: - typedef typename NP::ProductReturn ProductReturn; - private: - typedef Key< Impl, IdentifierType > MyKey; - typedef std::map< MyKey, ObjVector > KeyToObjVectorMap; - typedef std::map< AbstractProduct*, MyKey > FetchedObjToKeyMap; - - MyFactory factory; - KeyToObjVectorMap fromKeyToObjVector; - FetchedObjToKeyMap providedObjects; - unsigned outObjects; - - ObjVector& getContainerFromKey(MyKey key){ - return fromKeyToObjVector[key]; - } - AbstractProduct* const getPointerToObjectInContainer(ObjVector &entry) - { - if(entry.empty()) // No object available - { // the object will be created in the calling function. - // It has to be created in the calling function because of - // the variable number of parameters for CreateObject(...) method - return NULL; - } - else - { // returning the found object - AbstractProduct* pObject(entry.back()); - assert(pObject!=NULL); - entry.pop_back(); - return pObject; - } - } - - bool shouldCreateObject(AbstractProduct * const pProduct){ - if(pProduct!=NULL) // object already exists - return false; - if(CP::canCreate()==false) // Are we allowed to Create ? - EP::evict(); // calling Eviction Policy to clean up - return true; - } - - void ReleaseObjectFromContainer(ObjVector &entry, AbstractProduct * const object) - { - entry.push_back(object); - } - - void onFetch(AbstractProduct * const pProduct) - { - SP::onFetch(); - EP::onFetch(pProduct); - ++outObjects; - } - - void onRelease(AbstractProduct * const pProduct) - { - SP::onRelease(); - EP::onRelease(pProduct); - --outObjects; - } - - void onCreate(AbstractProduct * const pProduct) - { - CP::onCreate(); - SP::onCreate(); - EP::onCreate(pProduct); - } - - void onDestroy(AbstractProduct * const pProduct) + // delete the objects in the vector + template struct deleteVectorObjects : public std::unary_function + { + void operator()(T x) { - CP::onDestroy(); - SP::onDestroy(); - EP::onDestroy(pProduct); + ObjVector& vec(x.second); + std::for_each(vec.begin(), vec.end(), deleteObject< typename ObjVector::value_type>()); } - - // delete the object - template struct deleteObject : public std::unary_function - { - void operator()(T x){ delete x; } - }; - - // delete the objects in the vector - template struct deleteVectorObjects : public std::unary_function - { - void operator()(T x){ - ObjVector &vec(x.second); - std::for_each(vec.begin(), vec.end(), deleteObject< typename ObjVector::value_type>()); - } - }; - - // delete the keys of the map - template struct deleteMapKeys : public std::unary_function - { - void operator()(T x){ delete x.first; } - }; - - protected: - virtual void remove(AbstractProduct * const pProduct) + }; + + // delete the keys of the map + template struct deleteMapKeys : public std::unary_function + { + void operator()(T x) { delete x.first; } + }; + +protected: + virtual void remove(AbstractProduct* const pProduct) + { + typename FetchedObjToKeyMap::iterator fetchedItr = providedObjects.find(pProduct); + if(fetchedItr!=providedObjects.end()) // object is unreleased. + throw CacheException(); + bool productRemoved = false; + typename KeyToObjVectorMap::iterator objVectorItr; + typename ObjVector::iterator objItr; + for(objVectorItr=fromKeyToObjVector.begin(); objVectorItr!=fromKeyToObjVector.end(); ++objVectorItr) { - typename FetchedObjToKeyMap::iterator fetchedItr = providedObjects.find(pProduct); - if(fetchedItr!=providedObjects.end()) // object is unreleased. - throw CacheException(); - bool productRemoved = false; - typename KeyToObjVectorMap::iterator objVectorItr; - typename ObjVector::iterator objItr; - for(objVectorItr=fromKeyToObjVector.begin();objVectorItr!=fromKeyToObjVector.end();++objVectorItr) + ObjVector& v((*objVectorItr).second); + objItr = remove_if(v.begin(), v.end(), std::bind2nd(std::equal_to(), pProduct)); + if(objItr != v.end()) // we found the vector containing pProduct and removed it { - ObjVector &v((*objVectorItr).second); - objItr = remove_if(v.begin(), v.end(), std::bind2nd(std::equal_to(), pProduct)); - if(objItr != v.end()) // we found the vector containing pProduct and removed it - { - onDestroy(pProduct); // warning policies we are about to destroy an object - v.erase(objItr, v.end()); // real removing - productRemoved = true; - break; - } + onDestroy(pProduct); // warning policies we are about to destroy an object + v.erase(objItr, v.end()); // real removing + productRemoved = true; + break; } - if(productRemoved==false) - throw CacheException(); // the product is not in the cache ?! - delete pProduct; // deleting it } + if(productRemoved==false) + throw CacheException(); // the product is not in the cache ?! + delete pProduct; // deleting it + } - public: - CachedFactory() : factory(), fromKeyToObjVector(), providedObjects(), outObjects(0) - { - } +public: + CachedFactory() : factory(), fromKeyToObjVector(), providedObjects(), outObjects(0) + { + } - ~CachedFactory() - { - using namespace std; - // debug information - SP::onDebug(); - // cleaning the Cache - for_each(fromKeyToObjVector.begin(), fromKeyToObjVector.end(), - deleteVectorObjects< typename KeyToObjVectorMap::value_type >() - ); - if(!providedObjects.empty()) - { - // The factory is responsible for the creation and destruction of objects. - // If objects are out during the destruction of the Factory : deleting anyway. - // This might not be a good idea. But throwing an exception in a destructor is - // considered as a bad pratice and asserting might be too much. - // What to do ? Leaking memory or corrupting in use pointers ? hmm... - D( cout << "====>> Cache destructor : deleting "<< providedObjects.size()<<" in use objects <<====" << endl << endl; ) - for_each(providedObjects.begin(), providedObjects.end(), - deleteMapKeys< typename FetchedObjToKeyMap::value_type >() + ~CachedFactory() + { + using namespace std; + // debug information + SP::onDebug(); + // cleaning the Cache + for_each(fromKeyToObjVector.begin(), fromKeyToObjVector.end(), + deleteVectorObjects< typename KeyToObjVectorMap::value_type >() ); - } - } - - /////////////////////////////////// - // Acts as the proxy pattern and // - // forwards factory methods // - /////////////////////////////////// - - bool Register(const IdentifierType& id, ProductCreator creator) + if(!providedObjects.empty()) { - return factory.Register(id, creator); - } - - template - bool Register(const IdentifierType& id, const PtrObj& p, CreaFn fn) - { - return factory.Register(id, p, fn); - } - - bool Unregister(const IdentifierType& id) - { - return factory.Unregister(id); + // The factory is responsible for the creation and destruction of objects. + // If objects are out during the destruction of the Factory : deleting anyway. + // This might not be a good idea. But throwing an exception in a destructor is + // considered as a bad pratice and asserting might be too much. + // What to do ? Leaking memory or corrupting in use pointers ? hmm... + D( cout << "====>> Cache destructor : deleting "<< providedObjects.size()<<" in use objects <<====" << endl << endl; ) + for_each(providedObjects.begin(), providedObjects.end(), + deleteMapKeys< typename FetchedObjToKeyMap::value_type >() + ); } + } - /// Return the registered ID in this Factory - std::vector& RegisteredIds() - { - return factory.RegisteredIds(); - } + /////////////////////////////////// + // Acts as the proxy pattern and // + // forwards factory methods // + /////////////////////////////////// - ProductReturn CreateObject(const IdentifierType& id) - { - MyKey key(id); - AbstractProduct *pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); - if(shouldCreateObject(pProduct)) - { - pProduct = factory.CreateObject(key.id); - onCreate(pProduct); - } - onFetch(pProduct); - providedObjects[pProduct] = key; - return NP::encapsulate(pProduct); - } - - ProductReturn CreateObject(const IdentifierType& id, - Parm1 p1) - { - MyKey key(id,p1); - AbstractProduct *pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); - if(shouldCreateObject(pProduct)) - { - pProduct = factory.CreateObject(key.id,key.p1); - onCreate(pProduct); - } - onFetch(pProduct); - providedObjects[pProduct] = key; - return NP::encapsulate(pProduct); - } + bool Register(const IdentifierType& id, ProductCreator creator) + { + return factory.Register(id, creator); + } + + template + bool Register(const IdentifierType& id, const PtrObj& p, CreaFn fn) + { + return factory.Register(id, p, fn); + } + + bool Unregister(const IdentifierType& id) + { + return factory.Unregister(id); + } - ProductReturn CreateObject(const IdentifierType& id, - Parm1 p1, Parm2 p2) + /// Return the registered ID in this Factory + std::vector& RegisteredIds() + { + return factory.RegisteredIds(); + } + + ProductReturn CreateObject(const IdentifierType& id) + { + MyKey key(id); + AbstractProduct* pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); + if(shouldCreateObject(pProduct)) { - MyKey key(id,p1,p2); - AbstractProduct *pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); - if(shouldCreateObject(pProduct)) - { - pProduct = factory.CreateObject(key.id,key.p1,key.p2); - onCreate(pProduct); - } - onFetch(pProduct); - providedObjects[pProduct] = key; - return NP::encapsulate(pProduct); + pProduct = factory.CreateObject(key.id); + onCreate(pProduct); } + onFetch(pProduct); + providedObjects[pProduct] = key; + return NP::encapsulate(pProduct); + } - ProductReturn CreateObject(const IdentifierType& id, - Parm1 p1, Parm2 p2, Parm3 p3) + ProductReturn CreateObject(const IdentifierType& id, + Parm1 p1) + { + MyKey key(id,p1); + AbstractProduct* pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); + if(shouldCreateObject(pProduct)) { - MyKey key(id,p1,p2,p3); - AbstractProduct *pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); - if(shouldCreateObject(pProduct)) - { - pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3); - onCreate(pProduct); - } - onFetch(pProduct); - providedObjects[pProduct] = key; - return NP::encapsulate(pProduct); + pProduct = factory.CreateObject(key.id,key.p1); + onCreate(pProduct); } + onFetch(pProduct); + providedObjects[pProduct] = key; + return NP::encapsulate(pProduct); + } - ProductReturn CreateObject(const IdentifierType& id, - Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4) + ProductReturn CreateObject(const IdentifierType& id, + Parm1 p1, Parm2 p2) + { + MyKey key(id,p1,p2); + AbstractProduct* pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); + if(shouldCreateObject(pProduct)) { - MyKey key(id,p1,p2,p3,p4); - AbstractProduct *pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); - if(shouldCreateObject(pProduct)) - { - pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 - ,key.p4); - onCreate(pProduct); - } - onFetch(pProduct); - providedObjects[pProduct] = key; - return NP::encapsulate(pProduct); + pProduct = factory.CreateObject(key.id,key.p1,key.p2); + onCreate(pProduct); } + onFetch(pProduct); + providedObjects[pProduct] = key; + return NP::encapsulate(pProduct); + } - ProductReturn CreateObject(const IdentifierType& id, - Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5) + ProductReturn CreateObject(const IdentifierType& id, + Parm1 p1, Parm2 p2, Parm3 p3) + { + MyKey key(id,p1,p2,p3); + AbstractProduct* pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); + if(shouldCreateObject(pProduct)) { - MyKey key(id,p1,p2,p3,p4,p5); - AbstractProduct *pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); - if(shouldCreateObject(pProduct)) - { - pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 - ,key.p4,key.p5); - onCreate(pProduct); - } - onFetch(pProduct); - providedObjects[pProduct] = key; - return NP::encapsulate(pProduct); + pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3); + onCreate(pProduct); } + onFetch(pProduct); + providedObjects[pProduct] = key; + return NP::encapsulate(pProduct); + } - ProductReturn CreateObject(const IdentifierType& id, - Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, - Parm6 p6) + ProductReturn CreateObject(const IdentifierType& id, + Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4) + { + MyKey key(id,p1,p2,p3,p4); + AbstractProduct* pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); + if(shouldCreateObject(pProduct)) { - MyKey key(id,p1,p2,p3,p4,p5,p6); - AbstractProduct *pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); - if(shouldCreateObject(pProduct)) - { - pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 - ,key.p4,key.p5,key.p6); - onCreate(pProduct); - } - onFetch(pProduct); - providedObjects[pProduct] = key; - return NP::encapsulate(pProduct); + pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 + ,key.p4); + onCreate(pProduct); } + onFetch(pProduct); + providedObjects[pProduct] = key; + return NP::encapsulate(pProduct); + } - ProductReturn CreateObject(const IdentifierType& id, - Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, - Parm6 p6, Parm7 p7 ) + ProductReturn CreateObject(const IdentifierType& id, + Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5) + { + MyKey key(id,p1,p2,p3,p4,p5); + AbstractProduct* pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); + if(shouldCreateObject(pProduct)) { - MyKey key(id,p1,p2,p3,p4,p5,p6,p7); - AbstractProduct *pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); - if(shouldCreateObject(pProduct)) - { - pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 - ,key.p4,key.p5,key.p6,key.p7); - onCreate(pProduct); - } - onFetch(pProduct); - providedObjects[pProduct] = key; - return NP::encapsulate(pProduct); + pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 + ,key.p4,key.p5); + onCreate(pProduct); } + onFetch(pProduct); + providedObjects[pProduct] = key; + return NP::encapsulate(pProduct); + } - ProductReturn CreateObject(const IdentifierType& id, - Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, - Parm6 p6, Parm7 p7, Parm8 p8) + ProductReturn CreateObject(const IdentifierType& id, + Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, + Parm6 p6) + { + MyKey key(id,p1,p2,p3,p4,p5,p6); + AbstractProduct* pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); + if(shouldCreateObject(pProduct)) { - MyKey key(id,p1,p2,p3,p4,p5,p6,p7,p8); - AbstractProduct *pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); - if(shouldCreateObject(pProduct)) - { - pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 - ,key.p4,key.p5,key.p6,key.p7,key.p8); - onCreate(pProduct); - } - onFetch(pProduct); - providedObjects[pProduct] = key; - return NP::encapsulate(pProduct); + pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 + ,key.p4,key.p5,key.p6); + onCreate(pProduct); } + onFetch(pProduct); + providedObjects[pProduct] = key; + return NP::encapsulate(pProduct); + } - ProductReturn CreateObject(const IdentifierType& id, - Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, - Parm6 p6, Parm7 p7, Parm8 p8, Parm9 p9) + ProductReturn CreateObject(const IdentifierType& id, + Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, + Parm6 p6, Parm7 p7 ) + { + MyKey key(id,p1,p2,p3,p4,p5,p6,p7); + AbstractProduct* pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); + if(shouldCreateObject(pProduct)) { - MyKey key(id,p1,p2,p3,p4,p5,p6,p7,p8,p9); - AbstractProduct *pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); - if(shouldCreateObject(pProduct)) - { - pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 - ,key.p4,key.p5,key.p6,key.p7,key.p8,key.p9); - onCreate(pProduct); - } - onFetch(pProduct); - providedObjects[pProduct] = key; - return NP::encapsulate(pProduct); + pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 + ,key.p4,key.p5,key.p6,key.p7); + onCreate(pProduct); } - - ProductReturn CreateObject(const IdentifierType& id, - Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, - Parm6 p6, Parm7 p7, Parm8 p8, Parm9 p9,Parm10 p10) + onFetch(pProduct); + providedObjects[pProduct] = key; + return NP::encapsulate(pProduct); + } + + ProductReturn CreateObject(const IdentifierType& id, + Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, + Parm6 p6, Parm7 p7, Parm8 p8) + { + MyKey key(id,p1,p2,p3,p4,p5,p6,p7,p8); + AbstractProduct* pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); + if(shouldCreateObject(pProduct)) { - MyKey key(id,p1,p2,p3,p4,p5,p6,p7,p8,p9,p10); - AbstractProduct *pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); - if(shouldCreateObject(pProduct)) - { - pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 - ,key.p4,key.p5,key.p6,key.p7,key.p8,key.p9,key.p10); - onCreate(pProduct); - } - onFetch(pProduct); - providedObjects[pProduct] = key; - return NP::encapsulate(pProduct); + pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 + ,key.p4,key.p5,key.p6,key.p7,key.p8); + onCreate(pProduct); } + onFetch(pProduct); + providedObjects[pProduct] = key; + return NP::encapsulate(pProduct); + } - ProductReturn CreateObject(const IdentifierType& id, - Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, - Parm6 p6, Parm7 p7, Parm8 p8, Parm9 p9, Parm10 p10, - Parm11 p11) + ProductReturn CreateObject(const IdentifierType& id, + Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, + Parm6 p6, Parm7 p7, Parm8 p8, Parm9 p9) + { + MyKey key(id,p1,p2,p3,p4,p5,p6,p7,p8,p9); + AbstractProduct* pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); + if(shouldCreateObject(pProduct)) { - MyKey key(id,p1,p2,p3,p4,p5,p6,p7,p8,p9,p10,p11); - AbstractProduct *pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); - if(shouldCreateObject(pProduct)) - { - pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 - ,key.p4,key.p5,key.p6,key.p7,key.p8,key.p9,key.p10,key.p11); - onCreate(pProduct); - } - onFetch(pProduct); - providedObjects[pProduct] = key; - return NP::encapsulate(pProduct); + pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 + ,key.p4,key.p5,key.p6,key.p7,key.p8,key.p9); + onCreate(pProduct); } + onFetch(pProduct); + providedObjects[pProduct] = key; + return NP::encapsulate(pProduct); + } - ProductReturn CreateObject(const IdentifierType& id, - Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, - Parm6 p6, Parm7 p7, Parm8 p8, Parm9 p9, Parm10 p10, - Parm11 p11, Parm12 p12) + ProductReturn CreateObject(const IdentifierType& id, + Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, + Parm6 p6, Parm7 p7, Parm8 p8, Parm9 p9,Parm10 p10) + { + MyKey key(id,p1,p2,p3,p4,p5,p6,p7,p8,p9,p10); + AbstractProduct* pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); + if(shouldCreateObject(pProduct)) { - MyKey key(id,p1,p2,p3,p4,p5,p6,p7,p8,p9,p10,p11,p12); - AbstractProduct *pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); - if(shouldCreateObject(pProduct)) - { - pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 - ,key.p4,key.p5,key.p6,key.p7,key.p8,key.p9,key.p10,key.p11,key.p12); - onCreate(pProduct); - } - onFetch(pProduct); - providedObjects[pProduct] = key; - return NP::encapsulate(pProduct); + pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 + ,key.p4,key.p5,key.p6,key.p7,key.p8,key.p9,key.p10); + onCreate(pProduct); } + onFetch(pProduct); + providedObjects[pProduct] = key; + return NP::encapsulate(pProduct); + } - ProductReturn CreateObject(const IdentifierType& id, - Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, - Parm6 p6, Parm7 p7, Parm8 p8, Parm9 p9, Parm10 p10, - Parm11 p11, Parm12 p12, Parm13 p13) + ProductReturn CreateObject(const IdentifierType& id, + Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, + Parm6 p6, Parm7 p7, Parm8 p8, Parm9 p9, Parm10 p10, + Parm11 p11) + { + MyKey key(id,p1,p2,p3,p4,p5,p6,p7,p8,p9,p10,p11); + AbstractProduct* pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); + if(shouldCreateObject(pProduct)) { - MyKey key(id,p1,p2,p3,p4,p5,p6,p7,p8,p9,p10,p11,p12,p13); - AbstractProduct *pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); - if(shouldCreateObject(pProduct)) - { - pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 - ,key.p4,key.p5,key.p6,key.p7,key.p8,key.p9,key.p10,key.p11,key.p12 - ,key.p13); - onCreate(pProduct); - } - onFetch(pProduct); - providedObjects[pProduct] = key; - return NP::encapsulate(pProduct); + pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 + ,key.p4,key.p5,key.p6,key.p7,key.p8,key.p9,key.p10,key.p11); + onCreate(pProduct); } + onFetch(pProduct); + providedObjects[pProduct] = key; + return NP::encapsulate(pProduct); + } - ProductReturn CreateObject(const IdentifierType& id, - Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, - Parm6 p6, Parm7 p7, Parm8 p8, Parm9 p9, Parm10 p10, - Parm11 p11, Parm12 p12, Parm13 p13, Parm14 p14) + ProductReturn CreateObject(const IdentifierType& id, + Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, + Parm6 p6, Parm7 p7, Parm8 p8, Parm9 p9, Parm10 p10, + Parm11 p11, Parm12 p12) + { + MyKey key(id,p1,p2,p3,p4,p5,p6,p7,p8,p9,p10,p11,p12); + AbstractProduct* pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); + if(shouldCreateObject(pProduct)) { - MyKey key(id,p1,p2,p3,p4,p5,p6,p7,p8,p9,p10,p11,p12,p13,p14); - AbstractProduct *pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); - if(shouldCreateObject(pProduct)) - { - pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 - ,key.p4,key.p5,key.p6,key.p7,key.p8,key.p9,key.p10,key.p11,key.p12 - ,key.p13,key.p14); - onCreate(pProduct); - } - onFetch(pProduct); - providedObjects[pProduct] = key; - return NP::encapsulate(pProduct); + pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 + ,key.p4,key.p5,key.p6,key.p7,key.p8,key.p9,key.p10,key.p11,key.p12); + onCreate(pProduct); } + onFetch(pProduct); + providedObjects[pProduct] = key; + return NP::encapsulate(pProduct); + } - ProductReturn CreateObject(const IdentifierType& id, - Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, - Parm6 p6, Parm7 p7, Parm8 p8, Parm9 p9, Parm10 p10, - Parm11 p11, Parm12 p12, Parm13 p13, Parm14 p14, Parm15 p15) + ProductReturn CreateObject(const IdentifierType& id, + Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, + Parm6 p6, Parm7 p7, Parm8 p8, Parm9 p9, Parm10 p10, + Parm11 p11, Parm12 p12, Parm13 p13) + { + MyKey key(id,p1,p2,p3,p4,p5,p6,p7,p8,p9,p10,p11,p12,p13); + AbstractProduct* pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); + if(shouldCreateObject(pProduct)) { - MyKey key(id,p1,p2,p3,p4,p5,p6,p7,p8,p9,p10,p11,p12,p13,p14,p15); - AbstractProduct *pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); - if(shouldCreateObject(pProduct)) - { - pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 - ,key.p4,key.p5,key.p6,key.p7,key.p8,key.p9,key.p10,key.p11,key.p12 - ,key.p13,key.p14,key.p15); - onCreate(pProduct); - } - onFetch(pProduct); - providedObjects[pProduct] = key; - return NP::encapsulate(pProduct); + pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 + ,key.p4,key.p5,key.p6,key.p7,key.p8,key.p9,key.p10,key.p11,key.p12 + ,key.p13); + onCreate(pProduct); } + onFetch(pProduct); + providedObjects[pProduct] = key; + return NP::encapsulate(pProduct); + } - /// Use this function to release the object - /** - * if execution brakes in this function then you tried - * to release an object that wasn't provided by this Cache - * ... which is bad :-) - */ - void ReleaseObject(ProductReturn &object) + ProductReturn CreateObject(const IdentifierType& id, + Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, + Parm6 p6, Parm7 p7, Parm8 p8, Parm9 p9, Parm10 p10, + Parm11 p11, Parm12 p12, Parm13 p13, Parm14 p14) + { + MyKey key(id,p1,p2,p3,p4,p5,p6,p7,p8,p9,p10,p11,p12,p13,p14); + AbstractProduct* pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); + if(shouldCreateObject(pProduct)) { - AbstractProduct* pProduct(NP::release(object)); - typename FetchedObjToKeyMap::iterator itr = providedObjects.find(pProduct); - if(itr == providedObjects.end()) - throw CacheException(); - onRelease(pProduct); - ReleaseObjectFromContainer(getContainerFromKey((*itr).second), pProduct); - providedObjects.erase(itr); + pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 + ,key.p4,key.p5,key.p6,key.p7,key.p8,key.p9,key.p10,key.p11,key.p12 + ,key.p13,key.p14); + onCreate(pProduct); } - - /// display the cache configuration - void displayCacheType() + onFetch(pProduct); + providedObjects[pProduct] = key; + return NP::encapsulate(pProduct); + } + + ProductReturn CreateObject(const IdentifierType& id, + Parm1 p1, Parm2 p2, Parm3 p3, Parm4 p4, Parm5 p5, + Parm6 p6, Parm7 p7, Parm8 p8, Parm9 p9, Parm10 p10, + Parm11 p11, Parm12 p12, Parm13 p13, Parm14 p14, Parm15 p15) + { + MyKey key(id,p1,p2,p3,p4,p5,p6,p7,p8,p9,p10,p11,p12,p13,p14,p15); + AbstractProduct* pProduct(getPointerToObjectInContainer(getContainerFromKey(key))); + if(shouldCreateObject(pProduct)) { - using namespace std; - cout << "############################" << endl; - cout << "## Cache configuration" << endl; - cout << "## + Encapsulation " << NP::name() << endl; - cout << "## + Creating " << CP::name() << endl; - cout << "## + Eviction " << EP::name() << endl; - cout << "## + Statistics " << SP::name() << endl; - cout << "############################" << endl; + pProduct = factory.CreateObject(key.id,key.p1,key.p2,key.p3 + ,key.p4,key.p5,key.p6,key.p7,key.p8,key.p9,key.p10,key.p11,key.p12 + ,key.p13,key.p14,key.p15); + onCreate(pProduct); } - }; + onFetch(pProduct); + providedObjects[pProduct] = key; + return NP::encapsulate(pProduct); + } + + /// Use this function to release the object + /** + * if execution brakes in this function then you tried + * to release an object that wasn't provided by this Cache + * ... which is bad :-) + */ + void ReleaseObject(ProductReturn& object) + { + AbstractProduct* pProduct(NP::release(object)); + typename FetchedObjToKeyMap::iterator itr = providedObjects.find(pProduct); + if(itr == providedObjects.end()) + throw CacheException(); + onRelease(pProduct); + ReleaseObjectFromContainer(getContainerFromKey((*itr).second), pProduct); + providedObjects.erase(itr); + } + + /// display the cache configuration + void displayCacheType() + { + using namespace std; + cout << "############################" << endl; + cout << "## Cache configuration" << endl; + cout << "## + Encapsulation " << NP::name() << endl; + cout << "## + Creating " << CP::name() << endl; + cout << "## + Eviction " << EP::name() << endl; + cout << "## + Statistics " << SP::name() << endl; + cout << "############################" << endl; + } +}; } // namespace Loki #endif // end file guardian -- cgit