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All rights reserved. #ifndef PX_REPX_SERIALIZER_H #define PX_REPX_SERIALIZER_H /** \addtogroup Serializers @{ */ #include "common/PxBase.h" #include "extensions/PxRepXSimpleType.h" #if !PX_DOXYGEN namespace physx { #endif class XmlMemoryAllocator; class XmlWriter; class XmlReader; class MemoryBuffer; /** \brief Serializer interface for RepX (Xml) serialization. In order to serialize a class to RepX both a PxSerializer and a PxRepXSerializer implementation are needed. A repx Serializer provides the ability to capture a live object to a descriptor or static state and the ability to write that state out to a file. Objects allocated by the Serializer using the allocator are freed when the collection itself is freed. SnRepXCoreSerializers.cpp implements a set of Serializers for the core PhysX types. \note Implementing a PxRepXSerializer is currently not practical without including the internal PhysXExtension header "SnRepXSerializerImpl.h". @see PxSerializer, PX_NEW_REPX_SERIALIZER, PxSerializationRegistry::registerRepXSerializer */ class PxRepXSerializer { protected: virtual ~PxRepXSerializer(){} public: /** \brief The type this Serializer is meant to operate on. @see PxRepXObject::typeName */ virtual const char* getTypeName() = 0; /** \brief Convert from a RepX object to a key-value pair hierarchy \param[in] inLiveObject The object to convert to the passed in descriptor. \param[in] inCollection The collection to use to find ids of references of this object. \param[in] inWriter Interface to write data to. \param[in] inTempBuffer used to for temporary allocations. \param[in] inArgs The arguments used in create resources and objects. */ virtual void objectToFile( const PxRepXObject& inLiveObject, PxCollection* inCollection, XmlWriter& inWriter, MemoryBuffer& inTempBuffer, PxRepXInstantiationArgs& inArgs ) = 0; /** \brief Convert from a descriptor to a live object. Must be an object of this Serializer type. \param[in] inReader The inverse of the writer, a key-value pair database. \param[in] inAllocator An allocator to use for temporary allocations. These will be freed after instantiation completes. \param[in] inArgs The arguments used in create resources and objects. \param[in] inCollection The collection used to find references. \return The new live object. It can be an invalid object if the instantiation cannot take place. */ virtual PxRepXObject fileToObject( XmlReader& inReader, XmlMemoryAllocator& inAllocator, PxRepXInstantiationArgs& inArgs, PxCollection* inCollection ) = 0; }; #if !PX_DOXYGEN } // namespace physx #endif /** \brief Inline helper template function to create PxRepXObject from TDataType type supporting PxTypeInfo::name. */ template PX_INLINE physx::PxRepXObject PxCreateRepXObject(const TDataType* inType, const physx::PxSerialObjectId inId) { return physx::PxRepXObject(physx::PxTypeInfo::name(), inType, inId); } /** \brief Inline helper function to create PxRepXObject from a PxBase instance. */ PX_INLINE physx::PxRepXObject PxCreateRepXObject(const physx::PxBase* inType, const physx::PxSerialObjectId inId) { PX_ASSERT(inType); return physx::PxRepXObject(inType->getConcreteTypeName(), inType, inId); } /** \brief Inline helper template function to create PxRepXObject form TDataType type using inType pointer as a PxSerialObjectId id. */ template PX_INLINE physx::PxRepXObject PxCreateRepXObject(const TDataType* inType) { return PxCreateRepXObject(inType, static_cast(size_t(inType))); } /** \brief Preprocessor macro for RepX serializer creation. */ #define PX_NEW_REPX_SERIALIZER(T) \ *PX_PLACEMENT_NEW(PxGetAllocatorCallback()->allocate(sizeof(T), "PxRepXSerializer", __FILE__, __LINE__ ), T)(*PxGetAllocatorCallback()) /** \brief Preprocessor Macro to simplify RepX serializer delete. */ #define PX_DELETE_REPX_SERIALIZER(x) \ { PxRepXSerializer* s = x; if (s) { PxGetAllocatorCallback()->deallocate(s); } } /** @} */ #endif