//////////////////////////////////////////////////////////////////////////////// // The Loki Library // Copyright (c) 2001 by Andrei Alexandrescu // This code accompanies the book: // Alexandrescu, Andrei. "Modern C++ Design: Generic Programming and Design // Patterns Applied". Copyright (c) 2001. Addison-Wesley. // 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 author or Addison-Welsey Longman make no representations about the // suitability of this software for any purpose. It is provided "as is" // without express or implied warranty. //////////////////////////////////////////////////////////////////////////////// // Last update: June 20, 2001 #ifndef SINGLETON_INC_ #define SINGLETON_INC_ #include "Threads.h" #include #include #include #include #include namespace Loki { namespace Private { //////////////////////////////////////////////////////////////////////////////// // class LifetimeTracker // Helper class for SetLongevity //////////////////////////////////////////////////////////////////////////////// class LifetimeTracker { public: LifetimeTracker(unsigned int x) : longevity_(x) {} virtual ~LifetimeTracker() = 0; static bool Compare(const LifetimeTracker* lhs, const LifetimeTracker* rhs) { return rhs->longevity_ > lhs->longevity_; } private: unsigned int longevity_; }; // Definition required inline LifetimeTracker::~LifetimeTracker() {} // Helper data typedef LifetimeTracker** TrackerArray; extern TrackerArray pTrackerArray; extern unsigned int elements; // Helper destroyer function template struct Deleter { static void Delete(T* pObj) { delete pObj; } }; // Concrete lifetime tracker for objects of type T template class ConcreteLifetimeTracker : public LifetimeTracker { public: ConcreteLifetimeTracker(T* p,unsigned int longevity, Destroyer d) : LifetimeTracker(longevity) , pTracked_(p) , destroyer_(d) {} ~ConcreteLifetimeTracker() { destroyer_(pTracked_); } private: T* pTracked_; Destroyer destroyer_; }; void AtExitFn(); // declaration needed below } // namespace Private //////////////////////////////////////////////////////////////////////////////// // function template SetLongevity // Assigns an object a longevity; ensures ordered destructions of objects // registered thusly during the exit sequence of the application //////////////////////////////////////////////////////////////////////////////// template void SetLongevity(T* pDynObject, unsigned int longevity, Destroyer d = Private::Deleter::Delete) { using namespace Private; TrackerArray pNewArray = static_cast( std::realloc(pTrackerArray, elements + 1)); if (!pNewArray) throw std::bad_alloc(); LifetimeTracker* p = new ConcreteLifetimeTracker( pDynObject, longevity, d); // Delayed assignment for exception safety pTrackerArray = pNewArray; // Insert a pointer to the object into the queue TrackerArray pos = std::upper_bound( pTrackerArray, pTrackerArray + elements, p, LifetimeTracker::Compare); std::copy_backward( pos, pTrackerArray + elements, pTrackerArray + elements + 1); *pos = p; ++elements; // Register a call to AtExitFn std::atexit(Private::AtExitFn); } //////////////////////////////////////////////////////////////////////////////// // class template CreateUsingNew // Implementation of the CreationPolicy used by SingletonHolder // Creates objects using a straight call to the new operator //////////////////////////////////////////////////////////////////////////////// template struct CreateUsingNew { static T* Create() { return new T; } static void Destroy(T* p) { delete p; } }; //////////////////////////////////////////////////////////////////////////////// // class template CreateUsingNew // Implementation of the CreationPolicy used by SingletonHolder // Creates objects using a call to std::malloc, followed by a call to the // placement new operator //////////////////////////////////////////////////////////////////////////////// template struct CreateUsingMalloc { static T* Create() { void* p = std::malloc(sizeof(T)); if (!p) return 0; return new(p) T; } static void Destroy(T* p) { p->~T(); std::free(p); } }; //////////////////////////////////////////////////////////////////////////////// // class template CreateStatic // Implementation of the CreationPolicy used by SingletonHolder // Creates an object in static memory // Implementation is slightly nonportable because it uses the MaxAlign trick // (an union of all types to ensure proper memory alignment). This trick is // nonportable in theory but highly portable in practice. //////////////////////////////////////////////////////////////////////////////// template struct CreateStatic { union MaxAlign { char t_[sizeof(T)]; short int shortInt_; int int_; long int longInt_; float float_; double double_; long double longDouble_; struct Test; int Test::* pMember_; int (Test::*pMemberFn_)(int); }; static T* Create() { static MaxAlign staticMemory_; return new(&staticMemory_) T; } static void Destroy(T* p) { p->~T(); } }; //////////////////////////////////////////////////////////////////////////////// // class template DefaultLifetime // Implementation of the LifetimePolicy used by SingletonHolder // Schedules an object's destruction as per C++ rules // Forwards to std::atexit //////////////////////////////////////////////////////////////////////////////// template struct DefaultLifetime { static void ScheduleDestruction(T*, void (*pFun)()) { std::atexit(pFun); } static void OnDeadReference() { throw std::logic_error("Dead Reference Detected"); } }; //////////////////////////////////////////////////////////////////////////////// // class template PhoenixSingleton // Implementation of the LifetimePolicy used by SingletonHolder // Schedules an object's destruction as per C++ rules, and it allows object // recreation by not throwing an exception from OnDeadReference //////////////////////////////////////////////////////////////////////////////// template class PhoenixSingleton { public: static void ScheduleDestruction(T*, void (*pFun)()) { #ifndef ATEXIT_FIXED if (!destroyedOnce_) #endif std::atexit(pFun); } static void OnDeadReference() { #ifndef ATEXIT_FIXED destroyedOnce_ = true; #endif } private: #ifndef ATEXIT_FIXED static bool destroyedOnce_; #endif }; #ifndef ATEXIT_FIXED template bool PhoenixSingleton::destroyedOnce_ = false; #endif //////////////////////////////////////////////////////////////////////////////// // class template Adapter // Helper for SingletonWithLongevity below //////////////////////////////////////////////////////////////////////////////// namespace Private { template struct Adapter { void operator()(T*) { return pFun_(); } void (*pFun_)(); }; } //////////////////////////////////////////////////////////////////////////////// // class template SingletonWithLongevity // Implementation of the LifetimePolicy used by SingletonHolder // Schedules an object's destruction in order of their longevities // Assumes a visible function GetLongevity(T*) that returns the longevity of the // object //////////////////////////////////////////////////////////////////////////////// template class SingletonWithLongevity { public: static void ScheduleDestruction(T* pObj, void (*pFun)()) { Private::Adapter adapter = { pFun }; SetLongevity(pObj, GetLongevity(pObj), adapter); } static void OnDeadReference() { throw std::logic_error("Dead Reference Detected"); } }; //////////////////////////////////////////////////////////////////////////////// // class template NoDestroy // Implementation of the LifetimePolicy used by SingletonHolder // Never destroys the object //////////////////////////////////////////////////////////////////////////////// template struct NoDestroy { static void ScheduleDestruction(T*, void (*)()) {} static void OnDeadReference() {} }; //////////////////////////////////////////////////////////////////////////////// // class template SingletonHolder // Provides Singleton amenities for a type T // To protect that type from spurious instantiations, you have to protect it // yourself. //////////////////////////////////////////////////////////////////////////////// template < typename T, template class CreationPolicy = CreateUsingNew, template class LifetimePolicy = DefaultLifetime, template class ThreadingModel = SingleThreaded > class SingletonHolder { public: static T& Instance(); private: // Helpers static void MakeInstance(); static void DestroySingleton(); // Protection SingletonHolder(); // Data typedef typename ThreadingModel::VolatileType PtrInstanceType; static PtrInstanceType pInstance_; static bool destroyed_; }; //////////////////////////////////////////////////////////////////////////////// // SingletonHolder's data //////////////////////////////////////////////////////////////////////////////// template < class T, template class C, template class L, template class M > typename SingletonHolder::PtrInstanceType SingletonHolder::pInstance_; template < class T, template class C, template class L, template class M > bool SingletonHolder::destroyed_; //////////////////////////////////////////////////////////////////////////////// // SingletonHolder::Instance //////////////////////////////////////////////////////////////////////////////// template < class T, template class CreationPolicy, template class LifetimePolicy, template class ThreadingModel > inline T& SingletonHolder::Instance() { if (!pInstance_) { MakeInstance(); } return *pInstance_; } //////////////////////////////////////////////////////////////////////////////// // SingletonHolder::MakeInstance (helper for Instance) //////////////////////////////////////////////////////////////////////////////// template < class T, template class CreationPolicy, template class LifetimePolicy, template class ThreadingModel > void SingletonHolder::MakeInstance() { typename ThreadingModel::Lock guard; (void)guard; if (!pInstance_) { if (destroyed_) { LifetimePolicy::OnDeadReference(); destroyed_ = false; } pInstance_ = CreationPolicy::Create(); LifetimePolicy::ScheduleDestruction(pInstance_, &DestroySingleton); } } template < class T, template class CreationPolicy, template class L, template class M > void SingletonHolder::DestroySingleton() { assert(!destroyed_); CreationPolicy::Destroy(pInstance_); pInstance_ = 0; destroyed_ = true; } } // namespace Loki //////////////////////////////////////////////////////////////////////////////// // Change log: // May 21, 2001: Correct the volatile qualifier - credit due to Darin Adler // June 20, 2001: ported by Nick Thurn to gcc 2.95.3. Kudos, Nick!!! //////////////////////////////////////////////////////////////////////////////// #endif // SINGLETON_INC_