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255 lines
8.5 KiB
C++
255 lines
8.5 KiB
C++
// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
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// Copyright (C) 2010 Winch Gate Property Limited
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//
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Affero General Public License as
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// published by the Free Software Foundation, either version 3 of the
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// License, or (at your option) any later version.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Affero General Public License for more details.
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//
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// You should have received a copy of the GNU Affero General Public License
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// along with this program. If not, see <http://www.gnu.org/licenses/>.
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#ifndef FACTORY_H
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#define FACTORY_H
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#include "types_nl.h"
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#include "debug.h"
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#include <map>
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namespace NLMISC
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{
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/** Interface class for object registered in the factory.
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* This is for factory internal use, you should not need to use this class directly.
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*/
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template <class BaseClass>
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class IFactoryRegister
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{
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public:
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virtual ~IFactoryRegister() {}
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/// This method is called to create an instance of the factored object.
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virtual BaseClass *createObject(const typename BaseClass::TCtorParam &ctorParam) = 0;
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};
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/** Factory implementation class.
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* the class take 2 template argument :
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* * BaseClass : the common base class for all factored object of one factory.
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* * KeyType : the type of the key that identify the factorable object (string by default).
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*
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* The factory conforms to singleton design pattern.
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*
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* BaseClass must provide a typedef for TCTorParam corresponding to the parameter
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* required by the constructor of factored object.
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*/
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template <class BaseClass, class KeyType = std::string>
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class CFactory
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{
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typedef std::map<KeyType, IFactoryRegister<BaseClass>*> TRegisterCont;
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public:
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/// Get the singleton instance reference.
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static CFactory &instance()
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{
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// Singleton instance pointer.
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static CFactory *instance = NULL;
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if (!instance)
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{
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instance = new CFactory();
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}
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return *instance;
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}
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/** Register a factorable object in the factory.
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* The method receive the key for this factorable object and
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* a pointer on the interface of a factory register object.
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*/
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void registerClass(const KeyType &key, IFactoryRegister<BaseClass> *factoryRegister)
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{
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nlassert(_FactoryRegisters.find(key) == _FactoryRegisters.end());
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_FactoryRegisters.insert(std::make_pair(key, factoryRegister));
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}
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/** Create a new instance of a factorable object.
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* \param key the identifier of the object to create.
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* \param ctorParam the parameter for the constructor.
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* \return a pointer on the newly created object.
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*/
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BaseClass *createObject(const KeyType &key, const typename BaseClass::TCtorParam &ctorParam)
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{
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typename TRegisterCont::iterator it (_FactoryRegisters.find(key));
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if (it == _FactoryRegisters.end())
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return NULL;
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else
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return it->second->createObject(ctorParam);
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}
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// Add some introspection
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void fillFactoryList(std::vector<KeyType> &classList)
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{
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typename TRegisterCont::iterator first(_FactoryRegisters.begin()), last(_FactoryRegisters.end());
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for (; first != last; ++first)
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{
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classList.push_back(first->first);
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}
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}
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protected:
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/// Singleton instance pointer.
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// static CFactory *_Instance;
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/// Container of all registered factorable object.
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TRegisterCont _FactoryRegisters;
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};
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/** This class is responsible for creating the factorable object and to register
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* them in the factory instance.
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* You must declare an instance of this class for each factorable object.
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**/
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template <class FactoryClass, class BaseClass, class FactoredClass, class KeyType>
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class CFactoryRegister : public IFactoryRegister<BaseClass>
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{
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public:
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/** Constructor.
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* Register the factorable object in the factory.
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* /param key The identifier for this factorable object.
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*/
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CFactoryRegister(const KeyType &key)
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{
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FactoryClass::instance().registerClass(key, this);
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}
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/** Create an instance of the factorable class.
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* Implements IFactoryRegister::createObject
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*/
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BaseClass *createObject(const typename BaseClass::TCtorParam &ctorParam)
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{
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return new FactoredClass(ctorParam);
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}
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};
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/** Macro to declare a factory.
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* Place this macro in an appropriate cpp file to declare a factory implementation.
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* You just need to specify the base class type and key type.
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*/
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//#define NLMISC_IMPLEMENT_FACTORY(baseClass, keyType) NLMISC::CFactory<baseClass, keyType> *NLMISC::CFactory<baseClass, keyType>::_Instance = NULL
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/** Macro to declare a factorable object.
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* Place this macro in a cpp file after your factorable class declaration.
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*/
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#define NLMISC_REGISTER_OBJECT(baseClass, factoredClass, keyType, keyValue) NLMISC::CFactoryRegister<NLMISC::CFactory<baseClass, keyType>, baseClass, factoredClass, keyType> Register##factoredClass(keyValue)
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#define NLMISC_GET_FACTORY(baseClass, keyType) NLMISC::CFactory<baseClass, keyType>::instance()
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/** Interface class for object registered in the indirect factory.
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* This is for indirect factory internal use, you should not need to use this class directly.
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*/
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template <class BaseFactoryClass>
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class IFactoryIndirectRegister
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{
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public:
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virtual ~IFactoryIndirectRegister() {}
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/** Return the factory implementation.*/
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virtual BaseFactoryClass *getFactory() = 0;
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};
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/** Indirect factory implementation class.
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* the class take 2 template argument :
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* * BaseFactoryClass : the common base class for all factory object of one indirect factory.
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* * KeyType : the type of the key that identify the factorable object (string by default).
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*
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* The indirect factory conforms to singleton design pattern.
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*
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* In indirect factory, the object returned by the factory are not instance of factored object
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* but instance of 'sub' factory that do the real job.
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* This can be useful in some case, like adapting existing code into a factory
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* or having a complex constructor (or more than one constructor).
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*/
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template <class BaseFactoryClass, class KeyType = std::string>
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class CFactoryIndirect
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{
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typedef std::map<KeyType, IFactoryIndirectRegister<BaseFactoryClass>*> TRegisterCont;
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public:
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/// Get the singleton instance reference.
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static CFactoryIndirect &instance()
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{
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static CFactoryIndirect *instance = NULL;
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if (!instance)
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{
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instance = new CFactoryIndirect();
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}
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return *instance;
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}
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void registerClass(const KeyType &key, IFactoryIndirectRegister<BaseFactoryClass> *factoryRegister)
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{
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nlassert(_FactoryRegisters.find(key) == _FactoryRegisters.end());
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_FactoryRegisters.insert(std::make_pair(key, factoryRegister));
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}
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BaseFactoryClass *getFactory(const KeyType &key)
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{
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typename TRegisterCont::const_iterator it (_FactoryRegisters.find(key));
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if (it == _FactoryRegisters.end())
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return NULL;
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else
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return it->second->getFactory();
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}
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// Add some introspection
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void fillFactoryList(std::vector<KeyType> &classList)
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{
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typename TRegisterCont::iterator first(_FactoryRegisters.begin()), last(_FactoryRegisters.end());
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for (; first != last; ++first)
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{
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classList.push_back(first->first);
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}
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}
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protected:
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// static CFactoryIndirect *_Instance;
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TRegisterCont _FactoryRegisters;
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};
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template <class IndirectFactoryClass, class BaseFactoryClass, class SpecializedFactoryClass, class KeyType>
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class CFactoryIndirectRegister : public IFactoryIndirectRegister<BaseFactoryClass>
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{
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SpecializedFactoryClass _FactoryClass;
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public:
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CFactoryIndirectRegister(const KeyType &key)
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{
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IndirectFactoryClass::instance().registerClass(key, this);
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}
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BaseFactoryClass *getFactory()
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{
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return &_FactoryClass;
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}
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};
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//#define NLMISC_IMPLEMENT_FACTORY_INDIRECT(baseFactoryClass, keyType) NLMISC::CFactoryIndirect<baseFactoryClass, keyType> *NLMISC::CFactoryIndirect<baseFactoryClass, keyType>::_Instance = NULL
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#define NLMISC_GET_FACTORY_INDIRECT_REGISTRY(baseFactoryClass, keyType) NLMISC::CFactoryIndirect<baseFactoryClass, keyType>::getInstance()
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#define NLMISC_REGISTER_OBJECT_INDIRECT(baseFactoryClass, specializedFactoryClass, keyType, keyValue) NLMISC::CFactoryIndirectRegister<NLMISC::CFactoryIndirect<baseFactoryClass, keyType>, baseFactoryClass, specializedFactoryClass, keyType> RegisterIndirect##specializedFactoryClass(keyValue)
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#define NLMISC_DECLARE_OBJECT_INDIRECT(baseFactoryClass, specializedFactoryClass, keyType) extern NLMISC::CFactoryIndirectRegister<NLMISC::CFactoryIndirect<baseFactoryClass, keyType>, baseFactoryClass, specializedFactoryClass, keyType> RegisterIndirect##specializedFactoryClass
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#define NLMISC_GET_FACTORY_INDIRECT(specializedFactoryClass) RegisterIndirect##specializedFactoryClass.getFactory()
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} // namespace NLMISC
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#endif // FACTORY_H
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