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https://github.com/Lime3DS/Lime3DS
synced 2024-12-29 02:22:37 -06:00
Media Foundation Memory Fix
* audio_core: hle: mf: more smart pointers * audio_core: hle: mf: fix memory leaks * audio_core: hle: mf: even more smart pointers
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b1638b31a0
commit
ea8a1f8754
3 changed files with 41 additions and 36 deletions
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@ -27,7 +27,7 @@ private:
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Memory::MemorySystem& memory;
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Memory::MemorySystem& memory;
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std::unique_ptr<IMFTransform, MFRelease<IMFTransform>> transform;
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unique_mfptr<IMFTransform> transform;
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DWORD in_stream_id = 0;
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DWORD in_stream_id = 0;
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DWORD out_stream_id = 0;
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DWORD out_stream_id = 0;
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};
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};
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@ -108,14 +108,17 @@ int WMFDecoder::Impl::DecodingLoop(ADTSData adts_header,
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MFOutputState output_status = OK;
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MFOutputState output_status = OK;
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char* output_buffer = nullptr;
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char* output_buffer = nullptr;
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DWORD output_len = 0;
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DWORD output_len = 0;
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IMFSample* output = nullptr;
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DWORD tmp = 0;
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// IMFSample* output_tmp = nullptr;
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IMFMediaBuffer* mdbuf = nullptr;
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unique_mfptr<IMFSample> output;
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while (true) {
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while (true) {
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output_status = ReceiveSample(transform.get(), out_stream_id, &output);
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auto [output_status, output] = ReceiveSample(transform.get(), out_stream_id);
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// 0 -> okay; 3 -> okay but more data available (buffer too small)
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// 0 -> okay; 3 -> okay but more data available (buffer too small)
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if (output_status == OK || output_status == HAVE_MORE_DATA) {
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if (output_status == OK || output_status == HAVE_MORE_DATA) {
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CopySampleToBuffer(output, (void**)&output_buffer, &output_len);
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CopySampleToBuffer(output.get(), (void**)&output_buffer, &output_len);
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// the following was taken from ffmpeg version of the decoder
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// the following was taken from ffmpeg version of the decoder
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f32 val_f32;
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f32 val_f32;
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@ -178,7 +181,7 @@ std::optional<BinaryResponse> WMFDecoder::Impl::Decode(const BinaryRequest& requ
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u8* data = memory.GetFCRAMPointer(request.src_addr - Memory::FCRAM_PADDR);
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u8* data = memory.GetFCRAMPointer(request.src_addr - Memory::FCRAM_PADDR);
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std::array<std::vector<u8>, 2> out_streams;
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std::array<std::vector<u8>, 2> out_streams;
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IMFSample* sample = nullptr;
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unique_mfptr<IMFSample> sample;
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ADTSData adts_header;
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ADTSData adts_header;
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char* aac_tag = (char*)calloc(1, 14);
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char* aac_tag = (char*)calloc(1, 14);
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int input_status = 0;
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int input_status = 0;
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@ -202,11 +205,11 @@ std::optional<BinaryResponse> WMFDecoder::Impl::Decode(const BinaryRequest& requ
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selected = true;
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selected = true;
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}
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}
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sample = CreateSample((void*)data, request.size, 1, 0);
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sample.reset(CreateSample((void*)data, request.size, 1, 0));
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sample->SetUINT32(MFSampleExtension_CleanPoint, 1);
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sample->SetUINT32(MFSampleExtension_CleanPoint, 1);
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while (true) {
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while (true) {
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input_status = SendSample(transform.get(), in_stream_id, sample);
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input_status = SendSample(transform.get(), in_stream_id, sample.get());
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if (DecodingLoop(adts_header, out_streams) < 0) {
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if (DecodingLoop(adts_header, out_streams) < 0) {
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// if the decode issues are caused by MFT not accepting new samples, try again
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// if the decode issues are caused by MFT not accepting new samples, try again
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@ -79,7 +79,8 @@ void MFDeInit(IMFTransform* transform) {
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IMFSample* CreateSample(void* data, DWORD len, DWORD alignment, LONGLONG duration) {
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IMFSample* CreateSample(void* data, DWORD len, DWORD alignment, LONGLONG duration) {
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HRESULT hr = S_OK;
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HRESULT hr = S_OK;
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IMFMediaBuffer* buf = nullptr;
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IMFMediaBuffer* buf_tmp = nullptr;
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unique_mfptr<IMFMediaBuffer> buf;
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IMFSample* sample = nullptr;
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IMFSample* sample = nullptr;
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hr = MFCreateSample(&sample);
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hr = MFCreateSample(&sample);
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@ -88,11 +89,12 @@ IMFSample* CreateSample(void* data, DWORD len, DWORD alignment, LONGLONG duratio
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return nullptr;
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return nullptr;
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}
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}
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// Yes, the argument for alignment is the actual alignment - 1
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// Yes, the argument for alignment is the actual alignment - 1
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hr = MFCreateAlignedMemoryBuffer(len, alignment - 1, &buf);
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hr = MFCreateAlignedMemoryBuffer(len, alignment - 1, &buf_tmp);
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if (FAILED(hr)) {
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if (FAILED(hr)) {
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ReportError("Unable to allocate a memory buffer for sample", hr);
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ReportError("Unable to allocate a memory buffer for sample", hr);
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return nullptr;
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return nullptr;
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}
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}
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buf.reset(buf_tmp);
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if (data) {
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if (data) {
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BYTE* buffer;
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BYTE* buffer;
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// lock the MediaBuffer
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// lock the MediaBuffer
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@ -100,7 +102,7 @@ IMFSample* CreateSample(void* data, DWORD len, DWORD alignment, LONGLONG duratio
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hr = buf->Lock(&buffer, nullptr, nullptr);
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hr = buf->Lock(&buffer, nullptr, nullptr);
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if (FAILED(hr)) {
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if (FAILED(hr)) {
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SafeRelease(&sample);
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SafeRelease(&sample);
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SafeRelease(&buf);
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buf.reset();
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return nullptr;
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return nullptr;
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}
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}
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@ -110,9 +112,8 @@ IMFSample* CreateSample(void* data, DWORD len, DWORD alignment, LONGLONG duratio
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buf->Unlock();
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buf->Unlock();
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}
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}
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sample->AddBuffer(buf);
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sample->AddBuffer(buf.get());
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hr = sample->SetSampleDuration(duration);
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hr = sample->SetSampleDuration(duration);
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SafeRelease(&buf);
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return sample;
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return sample;
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}
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}
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@ -260,59 +261,55 @@ int SendSample(IMFTransform* transform, DWORD in_stream_id, IMFSample* in_sample
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return 0;
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return 0;
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}
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}
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MFOutputState ReceiveSample(IMFTransform* transform, DWORD out_stream_id, IMFSample** out_sample) {
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std::tuple<MFOutputState, unique_mfptr<IMFSample>> ReceiveSample(IMFTransform* transform,
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DWORD out_stream_id) {
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HRESULT hr;
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HRESULT hr;
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MFT_OUTPUT_DATA_BUFFER out_buffers;
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MFT_OUTPUT_DATA_BUFFER out_buffers;
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IMFSample* sample = nullptr;
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IMFSample* sample_tmp = nullptr;
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MFT_OUTPUT_STREAM_INFO out_info;
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MFT_OUTPUT_STREAM_INFO out_info;
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DWORD status = 0;
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DWORD status = 0;
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unique_mfptr<IMFSample> sample;
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bool mft_create_sample = false;
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bool mft_create_sample = false;
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if (!out_sample) {
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ReportError("nullptr pointer passed to receive_sample()", MF_E_SAMPLE_NOT_WRITABLE);
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return FATAL_ERROR;
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}
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hr = transform->GetOutputStreamInfo(out_stream_id, &out_info);
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hr = transform->GetOutputStreamInfo(out_stream_id, &out_info);
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if (FAILED(hr)) {
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if (FAILED(hr)) {
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ReportError("MFT: Failed to get stream info", hr);
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ReportError("MFT: Failed to get stream info", hr);
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return FATAL_ERROR;
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return std::make_tuple(FATAL_ERROR, std::move(sample));
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}
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}
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mft_create_sample = (out_info.dwFlags & MFT_OUTPUT_STREAM_PROVIDES_SAMPLES) ||
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mft_create_sample = (out_info.dwFlags & MFT_OUTPUT_STREAM_PROVIDES_SAMPLES) ||
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(out_info.dwFlags & MFT_OUTPUT_STREAM_CAN_PROVIDE_SAMPLES);
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(out_info.dwFlags & MFT_OUTPUT_STREAM_CAN_PROVIDE_SAMPLES);
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while (true) {
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while (true) {
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sample = nullptr;
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sample = nullptr;
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*out_sample = nullptr;
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status = 0;
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status = 0;
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if (!mft_create_sample) {
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if (!mft_create_sample) {
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sample = CreateSample(nullptr, out_info.cbSize, out_info.cbAlignment);
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sample_tmp = CreateSample(nullptr, out_info.cbSize, out_info.cbAlignment);
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if (!sample) {
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if (!sample_tmp) {
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ReportError("MFT: Unable to allocate memory for samples", hr);
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ReportError("MFT: Unable to allocate memory for samples", hr);
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return FATAL_ERROR;
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return std::make_tuple(FATAL_ERROR, std::move(sample));
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}
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}
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sample.reset(sample_tmp);
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}
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}
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out_buffers.dwStreamID = out_stream_id;
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out_buffers.dwStreamID = out_stream_id;
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out_buffers.pSample = sample;
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out_buffers.pSample = sample.get();
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hr = transform->ProcessOutput(0, 1, &out_buffers, &status);
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hr = transform->ProcessOutput(0, 1, &out_buffers, &status);
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if (!FAILED(hr)) {
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if (!FAILED(hr)) {
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*out_sample = out_buffers.pSample;
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break;
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break;
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}
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}
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if (hr == MF_E_TRANSFORM_NEED_MORE_INPUT) {
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if (hr == MF_E_TRANSFORM_NEED_MORE_INPUT) {
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// Most likely reasons: data corrupted; your actions not expected by MFT
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// Most likely reasons: data corrupted; your actions not expected by MFT
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return NEED_MORE_INPUT;
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return std::make_tuple(NEED_MORE_INPUT, std::move(sample));
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}
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}
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if (hr == MF_E_TRANSFORM_STREAM_CHANGE) {
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if (hr == MF_E_TRANSFORM_STREAM_CHANGE) {
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ReportError("MFT: stream format changed, re-configuration required", hr);
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ReportError("MFT: stream format changed, re-configuration required", hr);
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return NEED_RECONFIG;
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return std::make_tuple(NEED_RECONFIG, std::move(sample));
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}
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}
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break;
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break;
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@ -320,19 +317,19 @@ MFOutputState ReceiveSample(IMFTransform* transform, DWORD out_stream_id, IMFSam
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if (out_buffers.dwStatus & MFT_OUTPUT_DATA_BUFFER_INCOMPLETE) {
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if (out_buffers.dwStatus & MFT_OUTPUT_DATA_BUFFER_INCOMPLETE) {
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// this status is also unreliable but whatever
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// this status is also unreliable but whatever
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return HAVE_MORE_DATA;
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return std::make_tuple(HAVE_MORE_DATA, std::move(sample));
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}
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}
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if (*out_sample == nullptr) {
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if (out_buffers.pSample == nullptr) {
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ReportError("MFT: decoding failure", hr);
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ReportError("MFT: decoding failure", hr);
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return FATAL_ERROR;
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return std::make_tuple(FATAL_ERROR, std::move(sample));
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}
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}
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return OK;
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return std::make_tuple(OK, std::move(sample));
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}
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}
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int CopySampleToBuffer(IMFSample* sample, void** output, DWORD* len) {
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int CopySampleToBuffer(IMFSample* sample, void** output, DWORD* len) {
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std::unique_ptr<IMFMediaBuffer, MFRelease<IMFMediaBuffer>> buffer;
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unique_mfptr<IMFMediaBuffer> buffer;
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IMFMediaBuffer* tmp;
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IMFMediaBuffer* tmp;
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HRESULT hr = S_OK;
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HRESULT hr = S_OK;
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BYTE* data;
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BYTE* data;
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return -1;
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return -1;
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}
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}
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sample->ConvertToContiguousBuffer(&tmp);
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hr = sample->ConvertToContiguousBuffer(&tmp);
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if (FAILED(hr)) {
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if (FAILED(hr)) {
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ReportError("Failed to get sample buffer", hr);
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ReportError("Failed to get sample buffer", hr);
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return -1;
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return -1;
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}
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}
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buffer.reset(tmp);
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buffer.reset(tmp);
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hr = buffer->Lock(&data, nullptr, nullptr);
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hr = tmp->Lock(&data, nullptr, nullptr);
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if (FAILED(hr)) {
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if (FAILED(hr)) {
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ReportError("Failed to lock the buffer", hr);
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ReportError("Failed to lock the buffer", hr);
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return -1;
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return -1;
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@ -16,6 +16,7 @@
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#include <iostream>
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#include <iostream>
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#include <string>
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#include <string>
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#include <tuple>
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#include "adts.h"
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#include "adts.h"
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@ -37,6 +38,9 @@ struct MFRelease {
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};
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};
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};
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};
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template <typename T>
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using unique_mfptr = std::unique_ptr<T, MFRelease<T>>;
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void ReportError(std::string msg, HRESULT hr);
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void ReportError(std::string msg, HRESULT hr);
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// exported functions
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// exported functions
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@ -52,5 +56,6 @@ bool SelectOutputMediaType(IMFTransform* transform, int out_stream_id,
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GUID audio_format = MFAudioFormat_PCM);
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GUID audio_format = MFAudioFormat_PCM);
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void MFFlush(IMFTransform* transform);
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void MFFlush(IMFTransform* transform);
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int SendSample(IMFTransform* transform, DWORD in_stream_id, IMFSample* in_sample);
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int SendSample(IMFTransform* transform, DWORD in_stream_id, IMFSample* in_sample);
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MFOutputState ReceiveSample(IMFTransform* transform, DWORD out_stream_id, IMFSample** out_sample);
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std::tuple<MFOutputState, unique_mfptr<IMFSample>> ReceiveSample(IMFTransform* transform,
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DWORD out_stream_id);
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int CopySampleToBuffer(IMFSample* sample, void** output, DWORD* len);
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int CopySampleToBuffer(IMFSample* sample, void** output, DWORD* len);
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