2ffd6b016f
git-svn-id: svn://svn.code.sf.net/p/loki-lib/code/trunk@6 7ec92016-0320-0410-acc4-a06ded1c099a
421 lines
No EOL
13 KiB
C++
421 lines
No EOL
13 KiB
C++
////////////////////////////////////////////////////////////////////////////////
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// The Loki Library
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// Copyright (c) 2001 by Andrei Alexandrescu
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// This code accompanies the book:
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// Alexandrescu, Andrei. "Modern C++ Design: Generic Programming and Design
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// Patterns Applied". Copyright (c) 2001. Addison-Wesley.
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// Permission to use, copy, modify, distribute and sell this software for any
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// purpose is hereby granted without fee, provided that the above copyright
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// notice appear in all copies and that both that copyright notice and this
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// permission notice appear in supporting documentation.
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// The author or Addison-Welsey Longman make no representations about the
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// suitability of this software for any purpose. It is provided "as is"
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// without express or implied warranty.
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////////////////////////////////////////////////////////////////////////////////
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// Last update: February 19, 2001
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#ifndef SINGLETON_INC_
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#define SINGLETON_INC_
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#include "Threads.h"
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#include <cassert>
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#include <cstdlib>
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#include <new>
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namespace Loki
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{
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namespace Private
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{
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////////////////////////////////////////////////////////////////////////////////
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// class LifetimeTracker
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// Helper class for SetLongevity
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////////////////////////////////////////////////////////////////////////////////
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class LifetimeTracker
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{
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public:
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LifetimeTracker(unsigned int x) : longevity_(x)
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{}
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virtual ~LifetimeTracker() = 0;
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friend inline bool Compare(unsigned int longevity,
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const LifetimeTracker* p)
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{
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return p->longevity_ > longevity;
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}
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private:
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unsigned int longevity_;
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};
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// Definition required
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inline LifetimeTracker::~LifetimeTracker() {}
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// Helper data
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typedef LifetimeTracker** TrackerArray;
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extern TrackerArray pTrackerArray;
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extern unsigned int elements;
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// Helper destroyer function
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template <typename T>
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struct Deleter
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{
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static void Delete(T* pObj)
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{ delete pObj; }
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};
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// Concrete lifetime tracker for objects of type T
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template <typename T, typename Destroyer>
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class ConcreteLifetimeTracker : public LifetimeTracker
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{
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public:
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ConcreteLifetimeTracker(T* p,unsigned int longevity, Destroyer d)
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: LifetimeTracker(longevity)
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, pTracked_(p)
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, destroyer_(d)
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{}
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~ConcreteLifetimeTracker()
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{ destroyer_(pTracked_); }
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private:
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T* pTracked_;
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Destroyer destroyer_;
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};
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void AtExitFn(); // declaration needed below
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} // namespace Private
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////////////////////////////////////////////////////////////////////////////////
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// function template SetLongevity
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// Assigns an object a longevity; ensures ordered destructions of objects
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// registered thusly during the exit sequence of the application
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////////////////////////////////////////////////////////////////////////////////
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template <typename T, typename Destroyer>
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void SetLongevity(T* pDynObject, unsigned int longevity,
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Destroyer d = Private::Deleter<T>::Delete)
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{
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using namespace Private;
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TrackerArray pNewArray = static_cast<TrackerArray>(
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std::realloc(pTrackerArray, elements + 1));
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if (!pNewArray) throw std::bad_alloc();
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LifetimeTracker* p = new ConcreteLifetimeTracker<T, Destroyer>(
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pDynObject, longevity, d);
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// Delayed assignment for exception safety
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pTrackerArray = pNewArray;
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// Insert a pointer to the object into the queue
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TrackerArray pos = std::upper_bound(
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pTrackerArray, pTrackerArray + elements, longevity, Compare);
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std::copy_backward(pos, pTrackerArray + elements,
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pTrackerArray + elements + 1);
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*pos = p;
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++elements;
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// Register a call to AtExitFn
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std::atexit(AtExitFn);
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}
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////////////////////////////////////////////////////////////////////////////////
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// class template CreateUsingNew
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// Implementation of the CreationPolicy used by SingletonHolder
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// Creates objects using a straight call to the new operator
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////////////////////////////////////////////////////////////////////////////////
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template <class T> struct CreateUsingNew
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{
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static T* Create()
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{ return new T; }
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static void Destroy(T* p)
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{ delete p; }
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};
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////////////////////////////////////////////////////////////////////////////////
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// class template CreateUsingNew
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// Implementation of the CreationPolicy used by SingletonHolder
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// Creates objects using a call to std::malloc, followed by a call to the
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// placement new operator
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////////////////////////////////////////////////////////////////////////////////
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template <class T> struct CreateUsingMalloc
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{
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static T* Create()
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{
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void* p = std::malloc(sizeof(T));
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if (!p) return 0;
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return new(p) T;
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}
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static void Destroy(T* p)
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{
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p->~T();
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std::free(p);
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}
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};
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////////////////////////////////////////////////////////////////////////////////
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// class template CreateStatic
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// Implementation of the CreationPolicy used by SingletonHolder
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// Creates an object in static memory
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// Implementation is slightly nonportable because it uses the MaxAlign trick
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// (an union of all types to ensure proper memory alignment). This trick is
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// nonportable in theory but highly portable in practice.
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////////////////////////////////////////////////////////////////////////////////
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template <class T> struct CreateStatic
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{
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union MaxAlign
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{
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char t_[sizeof(T)];
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short int shortInt_;
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int int_;
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long int longInt_;
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float float_;
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double double_;
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long double longDouble_;
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struct Test;
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int Test::* pMember_;
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int (Test::*pMemberFn_)(int);
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};
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static T* Create()
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{
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static MaxAlign staticMemory_;
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return new(&staticMemory_) T;
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}
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static void Destroy(T* p)
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{
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p->~T();
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}
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};
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////////////////////////////////////////////////////////////////////////////////
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// class template DefaultLifetime
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// Implementation of the LifetimePolicy used by SingletonHolder
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// Schedules an object's destruction as per C++ rules
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// Forwards to std::atexit
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////////////////////////////////////////////////////////////////////////////////
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template <class T>
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struct DefaultLifetime
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{
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static void ScheduleDestruction(T*, void (*pFun)())
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{ std::atexit(pFun); }
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static void OnDeadReference()
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{ throw std::logic_error("Dead Reference Detected"); }
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};
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////////////////////////////////////////////////////////////////////////////////
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// class template PhoenixSingleton
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// Implementation of the LifetimePolicy used by SingletonHolder
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// Schedules an object's destruction as per C++ rules, and it allows object
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// recreation by not throwing an exception from OnDeadReference
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////////////////////////////////////////////////////////////////////////////////
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template <class T>
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class PhoenixSingleton
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{
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public:
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static void ScheduleDestruction(T*, void (*pFun)())
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{
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#ifndef ATEXIT_FIXED
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if (!destroyedOnce_)
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#endif
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std::atexit(pFun);
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}
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static void OnDeadReference()
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{
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#ifndef ATEXIT_FIXED
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destroyedOnce_ = true;
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#endif
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}
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private:
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#ifndef ATEXIT_FIXED
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static bool destroyedOnce_;
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#endif
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};
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#ifndef ATEXIT_FIXED
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template <class T> bool PhoenixSingleton<T>::destroyedOnce_ = false;
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#endif
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////////////////////////////////////////////////////////////////////////////////
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// class template SingletonWithLongevity
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// Implementation of the LifetimePolicy used by SingletonHolder
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// Schedules an object's destruction in order of their longevities
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// Assumes a visible function GetLongevity(T*) that returns the longevity of the
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// object
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////////////////////////////////////////////////////////////////////////////////
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template <class T>
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class SingletonWithLongevity
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{
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public:
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static void ScheduleDestruction(T* pObj, void (*pFun)())
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{
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struct Adapter
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{
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void operator()(T*) { return pFun_(); }
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void (*pFun_)();
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};
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Adapter adapter = { pFun };
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SetLongevity(pObj, GetLongevity(pObj), adapter);
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}
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static void OnDeadReference()
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{ throw std::logic_error("Dead Reference Detected"); }
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};
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////////////////////////////////////////////////////////////////////////////////
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// class template NoDestroy
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// Implementation of the LifetimePolicy used by SingletonHolder
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// Never destroys the object
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////////////////////////////////////////////////////////////////////////////////
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template <class T>
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struct NoDestroy
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{
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static void ScheduleDestruction(T*, void (*)())
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{}
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static void OnDeadReference()
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{}
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};
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////////////////////////////////////////////////////////////////////////////////
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// class template SingletonHolder
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// Provides Singleton amenities for a type T
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// To protect that type from spurious instantiations, you have to protect it
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// yourself.
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////////////////////////////////////////////////////////////////////////////////
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template
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<
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typename T,
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template <class> class CreationPolicy = CreateUsingNew,
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template <class> class LifetimePolicy = DefaultLifetime,
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template <class> class ThreadingModel = SingleThreaded
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>
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class SingletonHolder
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{
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public:
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static T& Instance();
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private:
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// Helpers
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static void MakeInstance();
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static void DestroySingleton();
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// Protection
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SingletonHolder();
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// Data
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typedef ThreadingModel<T>::VolatileType InstanceType;
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static InstanceType* pInstance_;
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static bool destroyed_;
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};
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////////////////////////////////////////////////////////////////////////////////
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// SingletonHolder's data
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////////////////////////////////////////////////////////////////////////////////
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template
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<
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class T,
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template <class> class C,
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template <class> class L,
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template <class> class M
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>
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typename SingletonHolder<T, C, L, M>::InstanceType*
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SingletonHolder<T, C, L, M>::pInstance_;
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template
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<
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class T,
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template <class> class C,
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template <class> class L,
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template <class> class M
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>
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bool SingletonHolder<T, C, L, M>::destroyed_;
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////////////////////////////////////////////////////////////////////////////////
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// SingletonHolder::Instance
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////////////////////////////////////////////////////////////////////////////////
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template
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<
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class T,
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template <class> class CreationPolicy,
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template <class> class LifetimePolicy,
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template <class> class ThreadingModel
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>
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inline T& SingletonHolder<T, CreationPolicy,
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LifetimePolicy, ThreadingModel>::Instance()
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{
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if (!pInstance_)
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{
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MakeInstance();
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}
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return *pInstance_;
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}
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////////////////////////////////////////////////////////////////////////////////
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// SingletonHolder::MakeInstance (helper for Instance)
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////////////////////////////////////////////////////////////////////////////////
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template
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<
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class T,
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template <class> class CreationPolicy,
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template <class> class LifetimePolicy,
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template <class> class ThreadingModel
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>
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void SingletonHolder<T, CreationPolicy,
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LifetimePolicy, ThreadingModel>::MakeInstance()
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{
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typename ThreadingModel<T>::Lock guard;
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guard;
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if (!pInstance_)
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{
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if (destroyed_)
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{
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LifetimePolicy<T>::OnDeadReference();
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destroyed_ = false;
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}
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pInstance_ = CreationPolicy<T>::Create();
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LifetimePolicy<T>::ScheduleDestruction(pInstance_,
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&DestroySingleton);
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}
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}
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template
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<
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class T,
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template <class> class CreationPolicy,
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template <class> class L,
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template <class> class M
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>
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void SingletonHolder<T, CreationPolicy, L, M>::DestroySingleton()
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{
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assert(!destroyed_);
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CreationPolicy<T>::Destroy(pInstance_);
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pInstance_ = 0;
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destroyed_ = true;
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}
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} // namespace Loki
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#endif // SINGLETON_INC_
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