//------------------------------------------------------------------------------ // File: VideoAcc.idl // // Desc: An interface exposed by the overlay mixer to help decode samples // using hardware video acceleration. // // Copyright (c) 1992-2001, Microsoft Corporation. All rights reserved. //------------------------------------------------------------------------------ import "unknwn.idl"; cpp_quote("//") cpp_quote("// The following declarations within the 'if 0' block are dummy typedefs used to make") cpp_quote("// the motncomp.idl file build. The actual definitions are contained in ddraw.h and amva.h") cpp_quote("//") cpp_quote("#if 0") typedef void* LPVOID; typedef void* LPGUID; typedef void* LPDIRECTDRAWSURFACE; typedef void* LPDDPIXELFORMAT; typedef void* LPAMVAInternalMemInfo; typedef void AMVAUncompDataInfo; typedef void* LPAMVACompBufferInfo; typedef void AMVABUFFERINFO; typedef void AMVAEndFrameInfo; typedef void* LPAMVAUncompBufferInfo; typedef void AMVABeginFrameInfo; typedef IUnknown* IMediaSample; cpp_quote("#endif") cpp_quote("#include ") cpp_quote("#include ") [ local, object, uuid(256A6A21-FBAD-11d1-82BF-00A0C9696C8F), helpstring("IAMVideoAcceleratorNotify Interface"), pointer_default(unique) ] // IAMVideoAcceleratorNotify interface IAMVideoAcceleratorNotify : IUnknown { // get information necessary to allocate uncompressed data buffers // which is not part of the mediatype format (like how many buffers to allocate etc) HRESULT GetUncompSurfacesInfo([in] const GUID *pGuid, [in] [out] LPAMVAUncompBufferInfo pUncompBufferInfo); // set information regarding allocated uncompressed data buffers HRESULT SetUncompSurfacesInfo([in] DWORD dwActualUncompSurfacesAllocated); // get information necessary to create video accelerator object. It is the caller's responsibility // to call CoTaskMemFree() on *ppMiscData HRESULT GetCreateVideoAcceleratorData([in] const GUID *pGuid, [out] LPDWORD pdwSizeMiscData, [out] LPVOID *ppMiscData); }; [ local, object, uuid(256A6A22-FBAD-11d1-82BF-00A0C9696C8F), helpstring("IAMVideoAccelerator Interface"), pointer_default(unique) ] // IAMVideoAccelerator interface IAMVideoAccelerator : IUnknown { // pdwNumGuidsSupported is an IN OUT paramter // pGuidsSupported is an IN OUT paramter // if pGuidsSupported is NULL, pdwNumGuidsSupported should return back with the // number of uncompressed pixel formats supported // Otherwise pGuidsSupported is an array of *pdwNumGuidsSupported structures HRESULT GetVideoAcceleratorGUIDs([in] [out] LPDWORD pdwNumGuidsSupported, [in] [out] LPGUID pGuidsSupported); // pGuid is an IN parameter // pdwNumFormatsSupported is an IN OUT paramter // pFormatsSupported is an IN OUT paramter (caller should make sure to set the size of EACH struct) // if pFormatsSupported is NULL, pdwNumFormatsSupported should return back with // the number of uncompressed pixel formats supported // Otherwise pFormatsSupported is an array of *pdwNumFormatsSupported structures HRESULT GetUncompFormatsSupported( [in] const GUID *pGuid, [in] [out] LPDWORD pdwNumFormatsSupported, [in] [out] LPDDPIXELFORMAT pFormatsSupported); // pGuid is an IN parameter // pamvaUncompDataInfo is an IN parameter // pamvaInternalMemInfo is an IN OUT parameter (caller should make sure to set the size of struct) // currently only gets info about how much scratch memory will the hal allocate for its private use HRESULT GetInternalMemInfo([in] const GUID *pGuid, [in] const AMVAUncompDataInfo *pamvaUncompDataInfo, [in] [out] LPAMVAInternalMemInfo pamvaInternalMemInfo); // pGuid is an IN parameter // pamvaUncompDataInfo is an IN parameter // pdwNumTypesCompBuffers is an IN OUT paramter // pamvaCompBufferInfo is an IN OUT paramter (caller should make sure to set the size of EACH struct) // if pamvaCompBufferInfo is NULL, pdwNumTypesCompBuffers should return back with the number of types of // compressed buffers // Otherwise pamvaCompBufferInfo is an array of *pdwNumTypesCompBuffers structures HRESULT GetCompBufferInfo([in] const GUID *pGuid, [in] const AMVAUncompDataInfo *pamvaUncompDataInfo, [in] [out] LPDWORD pdwNumTypesCompBuffers, [out] LPAMVACompBufferInfo pamvaCompBufferInfo); // pdwNumTypesCompBuffers is an IN OUT paramter // pamvaCompBufferInfo is an IN OUT paramter (caller should make sure to set the size of EACH struct) // if pamvaCompBufferInfo is NULL, pdwNumTypesCompBuffers should return back with the number of types of // compressed buffers // Otherwise pamvaCompBufferInfo is an array of *pdwNumTypesCompBuffers structures // only valid to call this after the pins are connected HRESULT GetInternalCompBufferInfo([in] [out] LPDWORD pdwNumTypesCompBuffers, [out] LPAMVACompBufferInfo pamvaCompBufferInfo); // begin a frame, the pMiscData is passed directly to the hal // only valid to call this after the pins are connected // Tells the ovmixer which frame is the destination // frame. Use indices (valid vales are [0 .. pdwNumSurfacesAllocated-1]) to specify frames HRESULT BeginFrame([in] const AMVABeginFrameInfo *amvaBeginFrameInfo); // end a frame, the pMiscData is passed directly to the hal // only valid to call this after the pins are connected HRESULT EndFrame([in] const AMVAEndFrameInfo *pEndFrameInfo); // lock and obtain access to a single buffer // only valid to call this after the pins are connected // Buffers are identified by type and index within that type // Specifiying read-only will allow access to busy reference // frames // Output (uncompressed) frames use a type index of 0xFFFFFFFF HRESULT GetBuffer( [in] DWORD dwTypeIndex, [in] DWORD dwBufferIndex, [in] BOOL bReadOnly, [out] LPVOID *ppBuffer, [out] LONG *lpStride); // unlock a single buffer // Buffers are identified by type and index within that type // only valid to call this after the pins are connected HRESULT ReleaseBuffer([in] DWORD dwTypeIndex, [in] DWORD dwBufferIndex); // Perform a decompression operation // Private data can be passed to and from a driver // identifiers for the corresponding members of pamvaMacroBlockInfo // pamvaMacroBlockInfo is an IN parameter which is array (of length dwNumBlocks) of structures // only valid to call this after the pins are connected HRESULT Execute( [in] DWORD dwFunction, [in] LPVOID lpPrivateInputData, [in] DWORD cbPrivateInputData, [in] LPVOID lpPrivateOutputDat, [in] DWORD cbPrivateOutputData, [in] DWORD dwNumBuffers, [in] const AMVABUFFERINFO *pamvaBufferInfo); // query the decode status of a particular decompression operation // dwTypeIndex and dwBufferIndex define the buffer whose status is // being queried HRESULT QueryRenderStatus([in] DWORD dwTypeIndex, [in] DWORD dwBufferIndex, [in] DWORD dwFlags); // display a frame. The mediasample contains the timestamps etc for the frame to be displayed // this call is a non-blocking call // only valid to call this after the pins are connected HRESULT DisplayFrame([in] DWORD dwFlipToIndex, [in] IMediaSample *pMediaSample); };