/* * Copyright 2013, Mozilla Foundation and contributors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef __WMFUtils_h__ #define __WMFUtils_h__ #include #include #include #include #include #include #include #include #include "gmp-platform.h" void LOG(const char* format, ...); #ifdef LOG_SAMPLE_DECODE #define SAMPLE_LOG LOG #else #define SAMPLE_LOG(...) #endif #ifndef CLSID_CMSAACDecMFT #define WMF_MUST_DEFINE_AAC_MFT_CLSID extern "C" const CLSID CLSID_CMSAACDecMFT; #endif extern "C" const CLSID CLSID_CMSH264DecMFT; namespace wmf { // Reimplementation of CComPtr to reduce dependence on system // shared libraries. template class CComPtr { public: CComPtr(CComPtr&& aOther) : mPtr(aOther.Detach()) { } CComPtr& operator=(CComPtr&& other) { mPtr = other.Detach(); } CComPtr(const CComPtr& aOther) : mPtr(nullptr) { Set(aOther.Get()); } CComPtr() : mPtr(nullptr) { } MOZ_IMPLICIT CComPtr(T* const & aPtr) : mPtr(nullptr) { Set(aPtr); } MOZ_IMPLICIT CComPtr(const std::nullptr_t& aNullPtr) : mPtr(aNullPtr) { } T** operator&() { return &mPtr; } T* operator->(){ return mPtr; } operator T*() { return mPtr; } T* operator=(T* const & aPtr) { return Set(aPtr); } T* operator=(const std::nullptr_t& aPtr) { return mPtr = aPtr; } T* Get() const { return mPtr; } T* Detach() { T* tmp = mPtr; mPtr = nullptr; return tmp; } ~CComPtr() { if (mPtr) { mPtr->Release(); } mPtr = nullptr; } private: T* Set(T* aPtr) { if (mPtr == aPtr) { return aPtr; } if (mPtr) { mPtr->Release(); } mPtr = aPtr; if (mPtr) { mPtr->AddRef(); } return mPtr; } T* mPtr; }; class IntRect { public: IntRect(int32_t _x, int32_t _y, int32_t _w, int32_t _h) : x(_x), y(_y), width(_w), height(_h) {} IntRect() : x(0), y(0), width(0), height(0) {} int32_t x; int32_t y; int32_t width; int32_t height; }; typedef int64_t Microseconds; #ifdef ENSURE #undef ENSURE #endif #define ENSURE(condition, ret) \ { if (!(condition)) { LOG("##condition## FAILED %S:%d\n", __FILE__, __LINE__); return ret; } } #define STATUS_SUCCEEDED(x) ((x) == Status::kSuccess) #define STATUS_FAILED(x) ((x) != Status::kSuccess) #define MFPLAT_FUNC(_func, _dllname) \ extern decltype(::_func)* _func; #include "WMFSymbols.h" #undef MFPLAT_FUNC bool EnsureLibs(); HRESULT GetPictureRegion(IMFMediaType* aMediaType, IntRect& aOutPictureRegion); HRESULT GetDefaultStride(IMFMediaType *aType, uint32_t* aOutStride); // Converts from microseconds to hundreds of nanoseconds. // We use microseconds for our timestamps, whereas WMF uses // hundreds of nanoseconds. inline int64_t UsecsToHNs(int64_t aUsecs) { return aUsecs * 10; } // Converts from hundreds of nanoseconds to microseconds. // We use microseconds for our timestamps, whereas WMF uses // hundreds of nanoseconds. inline int64_t HNsToUsecs(int64_t hNanoSecs) { return hNanoSecs / 10; } inline std::string narrow(std::wstring &wide) { std::string ns(wide.begin(), wide.end()); return ns; } inline std::wstring widen(std::string &narrow) { std::wstring ws(narrow.begin(), narrow.end()); return ws; } #define ARRAY_LENGTH(array_) \ (sizeof(array_)/sizeof(array_[0])) template class AutoPtr { public: AutoPtr() : mPtr(nullptr) { } AutoPtr(AutoPtr& aPtr) : mPtr(aPtr.Forget()) { } explicit AutoPtr(Type* aPtr) : mPtr(aPtr) { } ~AutoPtr() { if (mPtr) { delete mPtr; } } Type* Forget() { Type* rv = mPtr; mPtr = nullptr; return rv; } AutoPtr& operator=(Type* aOther) { Assign(aOther); return *this; } AutoPtr& operator=(AutoPtr& aOther) { Assign(aOther.Forget()); return *this; } Type* Get() const { return mPtr; } Type* operator->() const { assert(mPtr); return Get(); } operator Type*() const { return Get(); } Type** Receive() { return &mPtr; } private: void Assign(Type* aPtr) { if (mPtr) { delete mPtr; } mPtr = aPtr; } Type* mPtr; }; // Video frame microseconds are (currently) in 90kHz units, as used by RTP. // Use this to convert to microseconds... inline Microseconds RTPTimeToMicroseconds(int64_t rtptime) { return (rtptime * 1000000) / 90000; } inline uint32_t MicrosecondsToRTPTime(Microseconds us) { return uint32_t(0xffffffff & (us * 90000) / 1000000); } void dump(const uint8_t* data, uint32_t len, const char* filename); HRESULT CreateMFT(const CLSID& clsid, const char* aDllName, CComPtr& aOutMFT); // Returns the name of the DLL that is needed to decode H.264 on // the given windows version we're running on. const char* WMFDecoderDllName(); // Returns the maximum number of threads we want WMF to use for decoding // given the number of logical processors available. int32_t GetNumThreads(int32_t aCoreCount); } // namespace wmf #endif // __WMFUtils_h__