//------------------------------------------------------------------------------ // File: MediaObj.idl // // Desc: Define the interfaces for DirectX Media Objects. This file will be // processed by the MIDL tool to produce mediaobj.h and proxy-stub code. // // Copyright (c) 1999 - 2002, Microsoft Corporation. All rights reserved. //------------------------------------------------------------------------------ import "unknwn.idl"; import "objidl.idl"; // DMO_MEDIA_TYPE structure cpp_quote("#ifdef __strmif_h__") cpp_quote("typedef AM_MEDIA_TYPE DMO_MEDIA_TYPE;") cpp_quote("#else") typedef struct _DMOMediaType { GUID majortype; GUID subtype; BOOL bFixedSizeSamples; BOOL bTemporalCompression; ULONG lSampleSize; GUID formattype; IUnknown *pUnk; ULONG cbFormat; [size_is(cbFormat)] BYTE * pbFormat; } DMO_MEDIA_TYPE; typedef LONGLONG REFERENCE_TIME; cpp_quote("#endif") // Per-buffer flags that apply to input buffers enum _DMO_INPUT_DATA_BUFFER_FLAGS { DMO_INPUT_DATA_BUFFERF_SYNCPOINT = 0x00000001, DMO_INPUT_DATA_BUFFERF_TIME = 0x00000002, DMO_INPUT_DATA_BUFFERF_TIMELENGTH = 0x00000004 }; // Per-buffer flags that apply to output buffers. enum _DMO_OUTPUT_DATA_BUFFER_FLAGS { DMO_OUTPUT_DATA_BUFFERF_SYNCPOINT = 0x00000001, DMO_OUTPUT_DATA_BUFFERF_TIME = 0x00000002, DMO_OUTPUT_DATA_BUFFERF_TIMELENGTH = 0x00000004, // // This flag means the object could have generated more data for this // output stream, even with no additional input from any input stream, // but the output buffer did not have sufficient room. // DMO_OUTPUT_DATA_BUFFERF_INCOMPLETE = 0x01000000 }; // Flags returned by GetInputStatus() enum _DMO_INPUT_STATUS_FLAGS { // // ACCEPT_DATA indicates that the input stream is ready to accept // new data via ProcessInput(). // DMO_INPUT_STATUSF_ACCEPT_DATA = 0x00000001 }; // Flags returned by GetInputStreamInfo() enum _DMO_INPUT_STREAM_INFO_FLAGS { DMO_INPUT_STREAMF_WHOLE_SAMPLES = 0x00000001, DMO_INPUT_STREAMF_SINGLE_SAMPLE_PER_BUFFER = 0x00000002, DMO_INPUT_STREAMF_FIXED_SAMPLE_SIZE = 0x00000004, DMO_INPUT_STREAMF_HOLDS_BUFFERS = 0x00000008 }; // Flags returned by GetOutputStreamInfo() enum _DMO_OUTPUT_STREAM_INFO_FLAGS { DMO_OUTPUT_STREAMF_WHOLE_SAMPLES = 0x00000001, DMO_OUTPUT_STREAMF_SINGLE_SAMPLE_PER_BUFFER = 0x00000002, DMO_OUTPUT_STREAMF_FIXED_SAMPLE_SIZE = 0x00000004, DMO_OUTPUT_STREAMF_DISCARDABLE = 0x00000008, DMO_OUTPUT_STREAMF_OPTIONAL = 0x00000010 }; // SetType flags enum _DMO_SET_TYPE_FLAGS { DMO_SET_TYPEF_TEST_ONLY = 0x00000001,// check but don't set DMO_SET_TYPEF_CLEAR = 0x00000002 // unset }; // Process Output Flags enum _DMO_PROCESS_OUTPUT_FLAGS { DMO_PROCESS_OUTPUT_DISCARD_WHEN_NO_BUFFER = 0x00000001 // Discard }; // Buffer wrapper interface [ object, uuid(59eff8b9-938c-4a26-82f2-95cb84cdc837) ] interface IMediaBuffer : IUnknown { HRESULT SetLength( DWORD cbLength ); HRESULT GetMaxLength( [out] DWORD *pcbMaxLength ); HRESULT GetBufferAndLength( [out] BYTE **ppBuffer, // not filled if NULL [out] DWORD *pcbLength // not filled if NULL ); } // // Output buffer info structure: one of these must be passed in for each // output stream with every ProcessOutput() call // All [out] fields should be // assumed undefined if ProcessOutput() failed // typedef struct _DMO_OUTPUT_DATA_BUFFER { IMediaBuffer *pBuffer; // [in] can be NULL // ProcessOutput() must set any appropriate flags and zero out the rest. DWORD dwStatus; // [out] DMO_OUTPUT_DATA_BUFFERF_XXX (INCOMPLETE, etc.) // // Each of these is valid if the corresponding flag is set in dwStatus // REFERENCE_TIME rtTimestamp; // [out] REFERENCE_TIME rtTimelength; // [out] } DMO_OUTPUT_DATA_BUFFER, *PDMO_OUTPUT_DATA_BUFFER; // Interface supported by media objects [ object, uuid(d8ad0f58-5494-4102-97c5-ec798e59bcf4) ] interface IMediaObject : IUnknown { // // Stream enumeration // HRESULT GetStreamCount( [out] DWORD *pcInputStreams, [out] DWORD *pcOutputStreams ); HRESULT GetInputStreamInfo( DWORD dwInputStreamIndex, // 0-based [out] DWORD *pdwFlags // HOLDS_BUFFERS ); HRESULT GetOutputStreamInfo( DWORD dwOutputStreamIndex, // 0-based [out] DWORD *pdwFlags // Media object sets to 0 ); // // Mediatypes // // // GetType - iterate through media types supported by a stream. // Returns S_FALSE if the type index is out of range ("no more types"). // HRESULT GetInputType( DWORD dwInputStreamIndex, DWORD dwTypeIndex, // 0-based [out] DMO_MEDIA_TYPE *pmt ); HRESULT GetOutputType( DWORD dwOutputStreamIndex, DWORD dwTypeIndex, // 0-based [out] DMO_MEDIA_TYPE *pmt ); // // SetType - tell the object the type of data it will work with. // HRESULT SetInputType( DWORD dwInputStreamIndex, [in] const DMO_MEDIA_TYPE *pmt, DWORD dwFlags // test only ); HRESULT SetOutputType( DWORD dwOutputStreamIndex, [in] const DMO_MEDIA_TYPE *pmt, DWORD dwFlags // test only ); // // GetCurrentType - get the last mediatype supplied via SetType. // Returns S_FALSE if SetType has not been called. // HRESULT GetInputCurrentType( DWORD dwInputStreamIndex, [out] DMO_MEDIA_TYPE *pmt ); HRESULT GetOutputCurrentType( DWORD dwOutputStreamIndex, [out] DMO_MEDIA_TYPE *pmt ); // // SizeInfo // // // GetSizeInfo - Get buffer size requirementes of a stream. // // If buffer size depends on the media type used, the object should // base its response on the most recent media type set for this stream. // If no mediatype has been set, the object may return an error. // HRESULT GetInputSizeInfo( DWORD dwInputStreamIndex, [out] DWORD *pcbSize, // size of input 'quantum' [out] DWORD *pcbMaxLookahead, // max total bytes held [out] DWORD *pcbAlignment // buffer alignment requirement ); HRESULT GetOutputSizeInfo( DWORD dwOutputStreamIndex, [out] DWORD *pcbSize, // size of output 'quantum' [out] DWORD *pcbAlignment // buffer alignment requirement ); // // Latency methods // HRESULT GetInputMaxLatency( DWORD dwInputStreamIndex, [out] REFERENCE_TIME *prtMaxLatency ); HRESULT SetInputMaxLatency( DWORD dwInputStreamIndex, REFERENCE_TIME rtMaxLatency ); // // Streaming / state methods // // // Flush() - discard any buffered data. // HRESULT Flush(); // // Send a discontinuity to an input stream. The object will not // accept any more data on this input stream until the discontinuity // has been completely processed, which may involve multiple // ProcessOutput() calls. // HRESULT Discontinuity(DWORD dwInputStreamIndex); // // If a streaming object needs to perform any time consuming // initialization before it can stream data, it should do it inside // AllocateStreamingResources() rather than during the first process // call. // // This method is NOT guaranteed to be called before streaming // starts. If it is not called, the object should perform any // required initialization during a process call. // HRESULT AllocateStreamingResources(); // Free anything allocated in AllocateStreamingResources(). HRESULT FreeStreamingResources(); // GetInputStatus - the only flag defined right now is ACCEPT_DATA. HRESULT GetInputStatus( DWORD dwInputStreamIndex, [out] DWORD *dwFlags // ACCEPT_DATA ); // // Pass one new buffer to an input stream // HRESULT ProcessInput( DWORD dwInputStreamIndex, IMediaBuffer *pBuffer, // must not be NULL DWORD dwFlags, // DMO_INPUT_DATA_BUFFERF_XXX (syncpoint, etc.) REFERENCE_TIME rtTimestamp, // valid if flag set REFERENCE_TIME rtTimelength // valid if flag set ); // // ProcessOutput() - generate output for current input buffers // // Output stream specific status information is returned in the // dwStatus member of each buffer wrapper structure. // HRESULT ProcessOutput( DWORD dwFlags, // DMO_PROCESS_OUTPUT_FLAGS DWORD cOutputBufferCount, // # returned by GetStreamCount() [in,out,size_is(cOutputBufferCount)] DMO_OUTPUT_DATA_BUFFER *pOutputBuffers, // one per stream [out] DWORD *pdwStatus // TBD, must be set to 0 ); // Locking - lock if bLock is TRUE, otherwise unlock HRESULT Lock(LONG bLock); }; // // Interface returned by the DMO enumeration API // [ object, uuid(2c3cd98a-2bfa-4a53-9c27-5249ba64ba0f) ] interface IEnumDMO : IUnknown { HRESULT Next( DWORD cItemsToFetch, [out, size_is(cItemsToFetch), length_is(*pcItemsFetched)] CLSID *pCLSID, [out, size_is(cItemsToFetch), length_is(*pcItemsFetched), string] WCHAR **Names, [out] DWORD *pcItemsFetched ); HRESULT Skip( DWORD cItemsToSkip ); HRESULT Reset(void); HRESULT Clone( [out] IEnumDMO **ppEnum ); } // Flags for IMediaObjectInPlace::Process enum _DMO_INPLACE_PROCESS_FLAGS { DMO_INPLACE_NORMAL = 0x00000000, DMO_INPLACE_ZERO = 0x00000001 }; [ object, uuid(651b9ad0-0fc7-4aa9-9538-d89931010741) ] interface IMediaObjectInPlace : IUnknown { // Proces - Given a buffer of size ulSize, put the output // of the DMO into the same buffer. HRESULT Process( [in] ULONG ulSize, [in,out,size_is(ulSize)] BYTE* pData, [in] REFERENCE_TIME refTimeStart, [in] DWORD dwFlags ); // Create a copy of the In-Place Media Object. This allows // for very fast initialization of a number of In-Place objects // in a known state. HRESULT Clone( [out] IMediaObjectInPlace **ppMediaObject ); // GetLatency - Returns a REFERENCE_TIME value // (1 tick = 100ns) which corresponds to the latency time // processing this effect will add to the graph. This assumes // the effect cost per buffer is a constant. HRESULT GetLatency( [out] REFERENCE_TIME *pLatencyTime ); } // Quality control status flags enum _DMO_QUALITY_STATUS_FLAGS { DMO_QUALITY_STATUS_ENABLED = 0x00000001 }; [ object, uuid(65abea96-cf36-453f-af8a-705e98f16260) ] interface IDMOQualityControl : IUnknown { HRESULT SetNow( [in] REFERENCE_TIME rtNow ); HRESULT SetStatus( [in] DWORD dwFlags ); HRESULT GetStatus( [out] DWORD *pdwFlags ); } // Flags for IVideoOutputOptimizations enum _DMO_VIDEO_OUTPUT_STREAM_FLAGS { DMO_VOSF_NEEDS_PREVIOUS_SAMPLE = 0x00000001 }; [ object, uuid(be8f4f4e-5b16-4d29-b350-7f6b5d9298ac) ] interface IDMOVideoOutputOptimizations : IUnknown { HRESULT QueryOperationModePreferences ( ULONG ulOutputStreamIndex, DWORD *pdwRequestedCapabilities ); HRESULT SetOperationMode ( ULONG ulOutputStreamIndex, DWORD dwEnabledFeatures ); HRESULT GetCurrentOperationMode ( ULONG ulOutputStreamIndex, DWORD *pdwEnabledFeatures ); HRESULT GetCurrentSampleRequirements ( ULONG ulOutputStreamIndex, DWORD *pdwRequestedFeatures ); }