// // Notice Regarding Standards. AMD does not provide a license or sublicense to // any Intellectual Property Rights relating to any standards, including but not // limited to any audio and/or video codec technologies such as MPEG-2, MPEG-4; // AVC/H.264; HEVC/H.265; AAC decode/FFMPEG; AAC encode/FFMPEG; VC-1; and MP3 // (collectively, the "Media Technologies"). For clarity, you will pay any // royalties due for such third party technologies, which may include the Media // Technologies that are owed as a result of AMD providing the Software to you. // // MIT license // // Copyright (c) 2018 Advanced Micro Devices, Inc. All rights reserved. // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN // THE SOFTWARE. // #ifndef AMF_InterfaceImpl_h #define AMF_InterfaceImpl_h #pragma once #include "../include/core/Interface.h" #include "Thread.h" #pragma warning(disable : 4511) namespace amf { #define AMF_BEGIN_INTERFACE_MAP \ virtual AMF_RESULT AMF_STD_CALL QueryInterface(const amf::AMFGuid & interfaceID, void** ppInterface) \ { \ AMF_RESULT err = AMF_NO_INTERFACE; \ #define AMF_INTERFACE_ENTRY(T) \ if(AMFCompareGUIDs(interfaceID, T::IID())) \ { \ *ppInterface = (void*)static_cast(this); \ this->Acquire(); \ err = AMF_OK; \ } \ else \ #define AMF_INTERFACE_ENTRY_THIS(T, _TI) \ if(AMFCompareGUIDs(interfaceID, T::IID())) \ { \ *ppInterface = (void*)static_cast(static_cast<_TI*>(this)); \ this->Acquire(); \ err = AMF_OK; \ } \ else \ #define AMF_INTERFACE_MULTI_ENTRY(T) \ if(AMFCompareGUIDs(interfaceID, T::IID())) \ { \ *ppInterface = (void*)static_cast(this); \ AcquireInternal(); \ err = AMF_OK; \ } \ else \ #define AMF_INTERFACE_CHAIN_ENTRY(T) \ if(static_cast(*this).T::QueryInterface(interfaceID, ppInterface) == AMF_OK) \ {err = AMF_OK;} \ else \ //good as an example but we should not use aggregate pattern without big reason - very hard to debug #define AMF_INTERFACE_AGREGATED_ENTRY(T, _Ptr) \ if(AMFCompareGUIDs(interfaceID, T::IID())) \ { \ T* ptr = static_cast(_Ptr); \ *ppInterface = (void*)ptr; \ ptr->Acquire(); \ err = AMF_OK; \ } \ else \ #define AMF_INTERFACE_CHAIN_AGREGATED_ENTRY(T, _Ptr) \ if(err = static_cast(_Ptr)->QueryInterface(interfaceID, ppInterface)) { \ } \ else \ #define AMF_END_INTERFACE_MAP \ {} \ return err; \ } \ //--------------------------------------------------------------- class AMFInterfaceBase { protected: amf_long m_refCount; virtual ~AMFInterfaceBase() #if __GNUC__ == 11 //WORKAROUND for gcc-11 bug __attribute__ ((noinline)) #endif {} public: AMFInterfaceBase() : m_refCount(0) {} virtual amf_long AMF_STD_CALL AcquireInternal() { amf_long newVal = amf_atomic_inc(&m_refCount); return newVal; } virtual amf_long AMF_STD_CALL ReleaseInternal() { amf_long newVal = amf_atomic_dec(&m_refCount); if(newVal == 0) { delete this; } return newVal; } virtual amf_long AMF_STD_CALL RefCountInternal() { return m_refCount; } }; //--------------------------------------------------------------- template class AMFInterfaceImpl : public _Base, public AMFInterfaceBase { protected: virtual ~AMFInterfaceImpl() {} public: AMFInterfaceImpl(_Param1 param1, _Param2 param2, _Param3 param3) : _Base(param1, param2, param3) {} AMFInterfaceImpl(_Param1 param1, _Param2 param2) : _Base(param1, param2) {} AMFInterfaceImpl(_Param1 param1) : _Base(param1) {} AMFInterfaceImpl() {} virtual amf_long AMF_STD_CALL Acquire() { return AMFInterfaceBase::AcquireInternal(); } virtual amf_long AMF_STD_CALL Release() { return AMFInterfaceBase::ReleaseInternal(); } virtual amf_long AMF_STD_CALL RefCount() { return AMFInterfaceBase::RefCountInternal(); } AMF_BEGIN_INTERFACE_MAP AMF_INTERFACE_ENTRY(AMFInterface) AMF_INTERFACE_ENTRY(_Base) AMF_END_INTERFACE_MAP }; //--------------------------------------------------------------- template class AMFInterfaceMultiImpl : public _Base { protected: virtual ~AMFInterfaceMultiImpl() {} public: AMFInterfaceMultiImpl(_Param1 param1, _Param2 param2, _Param3 param3, _Param4 param4, _Param5 param5, _Param6 param6) : _Base(param1, param2, param3, param4, param5, param6) {} AMFInterfaceMultiImpl(_Param1 param1, _Param2 param2, _Param3 param3, _Param4 param4, _Param5 param5) : _Base(param1, param2, param3, param4, param5) {} AMFInterfaceMultiImpl(_Param1 param1, _Param2 param2, _Param3 param3, _Param4 param4) : _Base(param1, param2, param3, param4) {} AMFInterfaceMultiImpl(_Param1 param1, _Param2 param2, _Param3 param3) : _Base(param1, param2, param3) {} AMFInterfaceMultiImpl(_Param1 param1, _Param2 param2) : _Base(param1, param2) {} AMFInterfaceMultiImpl(_Param1 param1) : _Base(param1) {} AMFInterfaceMultiImpl() {} virtual amf_long AMF_STD_CALL Acquire() { return AMFInterfaceBase::AcquireInternal(); } virtual amf_long AMF_STD_CALL Release() { return AMFInterfaceBase::ReleaseInternal(); } virtual amf_long AMF_STD_CALL RefCount() { return AMFInterfaceBase::RefCountInternal(); } AMF_BEGIN_INTERFACE_MAP AMF_INTERFACE_ENTRY_THIS(AMFInterface, _BaseInterface) AMF_INTERFACE_CHAIN_ENTRY(_Base) AMF_END_INTERFACE_MAP }; } // namespace amf #endif // AMF_InterfaceImpl_h