// // MetaObject.h // // $Id: //poco/1.4/Foundation/include/Poco/MetaObject.h#1 $ // // Library: Foundation // Package: SharedLibrary // Module: ClassLoader // // Definition of the MetaObject class. // // Copyright (c) 2004-2006, Applied Informatics Software Engineering GmbH. // and Contributors. // // SPDX-License-Identifier: BSL-1.0 // #ifndef Foundation_MetaObject_INCLUDED #define Foundation_MetaObject_INCLUDED #include "Poco/Foundation.h" #include "Poco/Exception.h" #include "Poco/SingletonHolder.h" #include namespace Poco { template class AbstractMetaObject /// A MetaObject stores some information /// about a C++ class. The MetaObject class /// is used by the Manifest class. /// AbstractMetaObject is a common base class /// for all MetaObject in a rooted class hierarchy. /// A MetaObject can also be used as an object /// factory for its class. { public: AbstractMetaObject(const char* name): _name(name) { } virtual ~AbstractMetaObject() { for (typename ObjectSet::iterator it = _deleteSet.begin(); it != _deleteSet.end(); ++it) { delete *it; } } const char* name() const { return _name; } virtual B* create() const = 0; /// Create a new instance of a class. /// Cannot be used for singletons. virtual B& instance() const = 0; /// Returns a reference to the only instance /// of the class. Used for singletons only. virtual bool canCreate() const = 0; /// Returns true iff the create method can be used /// to create instances of the class. /// Returns false if the class is a singleton. virtual void destroy(B* pObject) const /// If pObject was owned by meta object, the /// ownership of the deleted object is removed /// and the object is deleted. { typename ObjectSet::iterator it = _deleteSet.find(pObject); if (it != _deleteSet.end()) { _deleteSet.erase(pObject); delete pObject; } } B* autoDelete(B* pObject) const /// Give ownership of pObject to the meta object. /// The meta object will delete all objects it owns /// when it is destroyed. /// /// Returns pObject. { if (this->canCreate()) // guard against singleton { poco_check_ptr (pObject); _deleteSet.insert(pObject); } else throw InvalidAccessException("Cannot take ownership of", this->name()); return pObject; } virtual bool isAutoDelete(B* pObject) const /// Returns true if the object is owned /// by meta object. /// /// Overloaded in MetaSingleton - returns true /// if the class is a singleton. { return _deleteSet.find(pObject) != _deleteSet.end(); } private: AbstractMetaObject(); AbstractMetaObject(const AbstractMetaObject&); AbstractMetaObject& operator = (const AbstractMetaObject&); typedef std::set ObjectSet; const char* _name; mutable ObjectSet _deleteSet; }; template class MetaObject: public AbstractMetaObject /// A MetaObject stores some information /// about a C++ class. The MetaObject class /// is used by the Manifest class. /// A MetaObject can also be used as an object /// factory for its class. { public: MetaObject(const char* name): AbstractMetaObject(name) { } ~MetaObject() { } B* create() const { return new C; } B& instance() const { throw InvalidAccessException("Not a singleton. Use create() to create instances of", this->name()); } bool canCreate() const { return true; } }; template class MetaSingleton: public AbstractMetaObject /// A SingletonMetaObject disables the create() method /// and instead offers an instance() method to access /// the single instance of its class. { public: MetaSingleton(const char* name): AbstractMetaObject(name) { } ~MetaSingleton() { } B* create() const { throw InvalidAccessException("Cannot create instances of a singleton class. Use instance() to obtain a", this->name()); } bool canCreate() const { return false; } B& instance() const { return *_object.get(); } bool isAutoDelete(B* /*pObject*/) const { return true; } private: mutable SingletonHolder _object; }; } // namespace Poco #endif // Foundation_MetaObject_INCLUDED