From b1f9e28cd155459ab2843690c248ed9f4767bc3f Mon Sep 17 00:00:00 2001 From: Fire-Head Date: Sun, 2 Jun 2019 06:00:38 +0300 Subject: skeleton updated, windows specific stuff added --- dxsdk/Include/DShowIDL/axextend.idl | 5169 +++++++++++++++++++++++++++++++++++ 1 file changed, 5169 insertions(+) create mode 100644 dxsdk/Include/DShowIDL/axextend.idl (limited to 'dxsdk/Include/DShowIDL/axextend.idl') diff --git a/dxsdk/Include/DShowIDL/axextend.idl b/dxsdk/Include/DShowIDL/axextend.idl new file mode 100644 index 00000000..257fb19a --- /dev/null +++ b/dxsdk/Include/DShowIDL/axextend.idl @@ -0,0 +1,5169 @@ +//------------------------------------------------------------------------------ +// File: AXExtend.idl +// +// Desc: Extended streaming interface definitions for the ActiveMovie +// streaming and synchronization architecture. Core streaming +// interfaces are in AXCore.idl, and control interfaces for the +// type library are in Control.odl. +// +// Copyright (c) 1992 - 2000, Microsoft Corporation. All rights reserved. +//------------------------------------------------------------------------------ + + +// include after unknwn.idl, objidl.idl and axcore.idl + + +// forward declarations - these are the interfaces declared in this file + +interface IEnumRegFilters; +interface IFileSourceFilter; +interface IFileSinkFilter; +interface IFileSinkFilter2; +interface IGraphBuilder; +interface ICaptureGraphBuilder; +interface ICaptureGraphBuilder2; +interface IAMCopyCaptureFileProgress; +interface IFilterMapper; +interface IFilterMapper2; +interface IMediaEventSink; +interface IOverlay; +interface IOverlayNotify; +interface IOverlayNotify2; +interface IQualityControl; +interface ISeekingPassThru; +interface IAMStreamConfig; +interface IAMDevMemoryAllocator; +interface IAMDevMemoryControl; +interface IConfigInterleaving; +interface IConfigAviMux; +interface IAMVideoCompression; +interface IAMVfwCaptureDialogs; +interface IAMVfwCompressDialogs; +interface IAMDroppedFrames; +interface IAMAudioInputMixer; +interface IAMBufferNegotiation; +interface IAMAnalogVideoDecoder; +interface IAMVideoProcAmp; +interface IAMAnalogVideoEncoder; +interface IAMCameraControl; +interface IAMCrossbar; +interface IAMTVTuner; +interface IKsPropertySet; +interface IAMPhysicalPinInfo; +interface IAMExtDevice; +interface IAMExtTransport; +interface IAMTimecodeReader; +interface IAMTimecodeGenerator; +interface IAMTimecodeDisplay; +interface IDrawVideoImage; +interface IDecimateVideoImage; +interface IAMVideoDecimationProperties; +interface IAMPushSource; +interface IAMAudioRendererStats; +interface IAMLatency; +interface IAMGraphStreams; +interface IAMOverlayFX; +interface IAMOpenProgress; +interface IMpeg2Demultiplexer ; +interface IMPEG2StreamIdMap ; +interface IEnumStreamIdMap ; +interface IAMClockSlave ; +interface IEncoderAPI; +interface IVideoEncoder; +interface IAMGraphBuilderCallback; +interface IAMCertifiedOutputProtection; + +//========================================================================== +//========================================================================== +// IEnumRegFilters interface -- enumerates registered filters. +// enumerator interface returned from IFilterMapper::EnumMatchingFilters(). +// based on IEnum pseudo-template +//========================================================================== +//========================================================================== + +typedef struct { + CLSID Clsid; // class id of the filter + LPWSTR Name; // name of filter +} REGFILTER; + +[ +object, +uuid(56a868a4-0ad4-11ce-b03a-0020af0ba770), +pointer_default(unique) +] + +// The point of the mapper is to avoid loading filters. By looking in the +// registry we can reduce the number of filters which must be loaded and tried. +// This enumerator returns descriptors of filters (including the GUIDs that +// CoCreateInstance can instantiate). The filters themselves are not loaded. + +interface IEnumRegFilters : IUnknown { + import "unknwn.idl"; + + // The caller must use CoTaskMemFree to free each REGFILTER* returned + // in the array. + HRESULT Next + ( [in] ULONG cFilters, // place this many filters... + [out] REGFILTER ** apRegFilter, // ...in this array of REGFILTER* + [out] ULONG * pcFetched // actual count passed returned here + ); + + // I can't think why anyone would want to skip, so it's not implemented. + // (anyone who thinks they know what they would be skipping over is probably + // missing some piece of the jigsaw). This ALWAYS returns E_NOTIMPL. + + HRESULT Skip( + [in] ULONG cFilters + ); + + HRESULT Reset(void); + + // No cloning either - also ALWAYS returns E_NOTIMPL. + + HRESULT Clone( + [out] IEnumRegFilters **ppEnum + ); +} + + +typedef IEnumRegFilters *PENUMREGFILTERS; + +//======================================================================== +//======================================================================== +// abstraction representing the registered information about filters. +// This allows properties of filters to be looked up without loading them. +//======================================================================== +//======================================================================== + +[ +object, +uuid(56a868a3-0ad4-11ce-b03a-0020af0ba770), +pointer_default(unique) +] +interface IFilterMapper : IUnknown { + import "unknwn.idl"; + + //========================================================================== + // Registration functions. + // A filter should be registered before any other use. + // The registration can be NON_VOLATILE (i.e. permanent, do once ever) + // or VOLATILE (once per boot of the system). + // UnregisterFilter (obviously) removes the registration. + // The action of any of the other calls on unregistered filters is undefined. + // it will either work or you'll get an error, but I'm not saying which. + //========================================================================== + + // Four predefined values controling the order in which filters are tried + // for intelligent graph building. Intermediate values are legal. + // Any value <=MERIT_DO_NOT_USE will mean that the filter will never + // be tried by the filtergrah to automatically complete a connection. + + enum { MERIT_PREFERRED = 0x800000, + MERIT_NORMAL = 0x600000, + MERIT_UNLIKELY = 0x400000, + MERIT_DO_NOT_USE = 0x200000, + MERIT_SW_COMPRESSOR = 0x100000, + MERIT_HW_COMPRESSOR = 0x100050 + }; + + // Register a filter + + HRESULT RegisterFilter + ( [in] CLSID clsid, // GUID of the filter + [in] LPCWSTR Name, // Descriptive name for the filter + [in] DWORD dwMerit // DO_NOT_USE, UNLIKELY, NORMAL or PREFERRED. + ); + + + // Register an identifiable instance of a filter. This deals with cases + // such as two similar sound cards which are driven by the same driver, + // but we want to choose which oif these cards the sound will come out of. + // This is not needed if there is only one instance of the filter + // (e.g. there is only one sound card in the machine) or if all instances + // of the filter are equivalent. + + // The filter itself must have already been registered // ??? Is that true? + HRESULT RegisterFilterInstance + ( [in] CLSID clsid, // GUID of the filter + [in] LPCWSTR Name, // Descriptive name of instance. + [out] CLSID *MRId // Returned Media Resource Id. A + // locally unique id for this instance + // of this filter + ); + + + HRESULT RegisterPin + ( [in] CLSID Filter, // GUID of filter + [in] LPCWSTR Name, // Name of the pin + [in] BOOL bRendered, // The filter renders this input + [in] BOOL bOutput, // TRUE if this is an Output pin + [in] BOOL bZero, // TRUE if OK for zero instances of pin + // In this case you will have to Create + // a pin to have even one instance + [in] BOOL bMany, // TRUE if OK for many instances of pin + [in] CLSID ConnectsToFilter, // Filter it connects to if it has + // subterranean connection, else NULL + [in] LPCWSTR ConnectsToPin // Name of pin it connects to + // NULL for output pins + ); + + HRESULT RegisterPinType + ( [in] CLSID clsFilter, // GUID of filter + [in] LPCWSTR strName, // Descriptive name of the pin + [in] CLSID clsMajorType, // Major type of the data stream + [in] CLSID clsSubType // Sub type of the data stream + ); + + + HRESULT UnregisterFilter + ( [in] CLSID Filter // GUID of filter + ); + + + HRESULT UnregisterFilterInstance + ( [in] CLSID MRId // Media Resource Id of this instance + ); + + + HRESULT UnregisterPin + ( [in] CLSID Filter, // GUID of filter + [in] LPCWSTR Name // Name of the pin + ); + + + // Set *ppEnum to be an enumerator for filters matching the requirements. + + HRESULT EnumMatchingFilters + ( [out] IEnumRegFilters **ppEnum // enumerator returned + , [in] DWORD dwMerit // at least this merit needed + , [in] BOOL bInputNeeded // need at least one input pin + , [in] CLSID clsInMaj // input major type + , [in] CLSID clsInSub // input sub type + , [in] BOOL bRender // must the input be rendered? + , [in] BOOL bOututNeeded // need at least one output pin + , [in] CLSID clsOutMaj // output major type + , [in] CLSID clsOutSub // output sub type + ); + +} + +// structure used to identify media types a pin handles. Used for +// registration through IFilterMapper and IFilterMapper2 +// +typedef struct +{ + const CLSID * clsMajorType; + const CLSID * clsMinorType; +} REGPINTYPES; + +// describes pin for filter registration. Used for registration +// through IFilterMapper and IFilterMapper2 +// +typedef struct +{ + LPWSTR strName; + + // The filter renders this input + BOOL bRendered; + + // This is an Output pin + BOOL bOutput; + + // OK to have zero instances of pin In this case you will have to + // Create a pin to have even one instance + BOOL bZero; + + // OK to create many instance of pin + BOOL bMany; + + const CLSID * clsConnectsToFilter; + const WCHAR * strConnectsToPin; + + UINT nMediaTypes; + const REGPINTYPES * lpMediaType; +} REGFILTERPINS; + +// mediums (as defined in the Windows NT DDK) for registration with +// IFilterMapper2 +// +typedef struct +{ + CLSID clsMedium; + DWORD dw1; + DWORD dw2; +} REGPINMEDIUM; + +// flags for dwFlags in REFILTERPINS2 +enum +{ + // OK to have zero instances of pin In this case you will have to + // Create a pin to have even one instance + REG_PINFLAG_B_ZERO = 0x1, + + // The filter renders this input + REG_PINFLAG_B_RENDERER = 0x2, + + // OK to create many instance of pin + REG_PINFLAG_B_MANY = 0x4, + + // This is an Output pin + REG_PINFLAG_B_OUTPUT = 0x8 +}; + + +// describes pin for filter registration through IFilterMapper2 +typedef struct +{ + // combination of REG_PINFLAG flags + DWORD dwFlags; + + // number of instances of the pin if known + UINT cInstances; + + UINT nMediaTypes; + [size_is(nMediaTypes)] const REGPINTYPES * lpMediaType; + + UINT nMediums; + [size_is(nMediums)] const REGPINMEDIUM *lpMedium; + + // pin category (for Kernel Streaming pins) as defined in the + // Windows NT DDK + const CLSID *clsPinCategory; + +} REGFILTERPINS2; + +// describes filter for registration through IFilterMapper2 +typedef struct +{ + DWORD dwVersion; // 1 or 2 + DWORD dwMerit; + + /* unnamed union */ + [switch_is(dwVersion)] [switch_type(DWORD)] union + { + [case(1)] + + struct + { + ULONG cPins; + [size_is(cPins)] const REGFILTERPINS *rgPins; + }; + + [case(2)] + + struct + { + ULONG cPins2; + [size_is(cPins2)] const REGFILTERPINS2 *rgPins2; + }; + + [default] + ; + } ; + +} REGFILTER2; + + + +[ +object, +uuid(b79bb0b0-33c1-11d1-abe1-00a0c905f375), +pointer_default(unique) +] +interface IFilterMapper2 : IUnknown { + import "unknwn.idl"; + + // create or rename ActiveMovie category + HRESULT CreateCategory + ( [in] REFCLSID clsidCategory, + [in] DWORD dwCategoryMerit, + [in] LPCWSTR Description + ); + + HRESULT UnregisterFilter + ( [in] const CLSID *pclsidCategory, + [in] const OLECHAR *szInstance, + [in] REFCLSID Filter // GUID of filter + ); + + // Register a filter, pins, and media types under a category. + HRESULT RegisterFilter + ( [in] REFCLSID clsidFilter, // GUID of the filter + [in] LPCWSTR Name, // Descriptive name for the filter + + // ppMoniker can be null. or *ppMoniker can contain the + // moniker where this filter data will be written; + // *ppMoniker will be set to null on return. or *ppMoniker + // can be null in which case the moniker will be returned + // with refcount. + [in, out] IMoniker **ppMoniker, + + // can be null + [in] const CLSID *pclsidCategory, + + // cannot be null + [in] const OLECHAR *szInstance, + + // rest of filter and pin registration + [in] const REGFILTER2 *prf2 + ); + + // Set *ppEnum to be an enumerator for filters matching the + // requirements. + HRESULT EnumMatchingFilters + ( [out] IEnumMoniker **ppEnum // enumerator returned + , [in] DWORD dwFlags // 0 + , [in] BOOL bExactMatch // don't match wildcards + , [in] DWORD dwMerit // at least this merit needed + , [in] BOOL bInputNeeded // need at least one input pin + , [in] DWORD cInputTypes // Number of input types to match + // Any match is OK + , [size_is(cInputTypes*2)] const GUID *pInputTypes // input major+subtype pair array + , [in] const REGPINMEDIUM *pMedIn // input medium + , [in] const CLSID *pPinCategoryIn // input pin category + , [in] BOOL bRender // must the input be rendered? + , [in] BOOL bOutputNeeded // need at least one output pin + , [in] DWORD cOutputTypes // Number of output types to match + // Any match is OK + , [size_is(cOutputTypes*2)] const GUID *pOutputTypes // output major+subtype pair array + , [in] const REGPINMEDIUM *pMedOut // output medium + , [in] const CLSID *pPinCategoryOut // output pin category + ); +} + +[ +object, +uuid(b79bb0b1-33c1-11d1-abe1-00a0c905f375), +pointer_default(unique) +] +interface IFilterMapper3 : IFilterMapper2 { + // new interface to allow creating filters using the mapper's devenum instance + // primarily needed for out-of-proc access to a graph + HRESULT GetICreateDevEnum( [out] ICreateDevEnum **ppEnum ); +} + +//======================================================================== +//======================================================================== +// Defines IQualityControl interface +// +// Defines quality messages and allows a quality manager to install itself +// as the sink for quality messages. +//======================================================================== +//======================================================================== + +typedef enum tagQualityMessageType { + Famine, + Flood +} QualityMessageType; + +typedef struct tagQuality { + QualityMessageType Type; + long Proportion; // milli-units. 1000 = no change + // for Flood: + // What proportion of the media samples currently + // coming through are required in the future. + // 800 means please drop another 20% + // For Famine: + // How much to "keep in" e.g. 800 means send me + // 20% less e.g. by dropping 20% of the samples. + // 1100 would mean "I'm coping, send me more". + REFERENCE_TIME Late; + // How much you need to catch up by + REFERENCE_TIME TimeStamp; + // The stream time when this was generated (probably + // corresponds to the start time on some sample). +} Quality; + +typedef IQualityControl *PQUALITYCONTROL; + + +[ +object, +uuid(56a868a5-0ad4-11ce-b03a-0020af0ba770), +pointer_default(unique) +] +interface IQualityControl : IUnknown { + + // Notify the recipient that a quality change is requested. + // pSelf is the IBaseFilter* of the sender. + // this is sent from a filter + // to (the quality manager or) an upstream peer. + HRESULT Notify + ( [in] IBaseFilter * pSelf, + [in] Quality q + ); + + // Notify the recipient that future quality messages are to be sent + // to iqc. If piqc is NULL then quality messages are to default back to + // the upstream peer. + // This is sent from the quality manager to a filter. + // The recipient should hold piqc as a WEAK reference, + // i.e. do not AddRef it, do not Release it. + HRESULT SetSink + ( [in] IQualityControl * piqc + ); +} + +//===================================================================== +//===================================================================== +// Definitions required for overlay transport +//===================================================================== +//===================================================================== + + +// Used to communicate the colour that the IOverlay client wants the window +// painted in so that it can draw directly to the correct clipping region +// A colour key can be described in two alternate ways, the first is by a +// range of one or more (system) palette indices. The second is by defining +// a colour cube with two RGB values, any of which would be acceptable. +// +// The CK values are consistent with GDI PALETTEINDEX and PALETTERGB macros + + +enum { CK_NOCOLORKEY = 0x0, // No color key is required + CK_INDEX = 0x1, // Index into the current system palette + CK_RGB = 0x2 }; // Color key is an RGB value (or range) + +typedef struct tagCOLORKEY { + + DWORD KeyType; // Explains meaning of the structure + DWORD PaletteIndex; // Palette index if available + COLORREF LowColorValue; // Low colour space RGB value + COLORREF HighColorValue; // Defines the high RGB value + +} COLORKEY; + +// When a filter sets up an advise link it can ask that only certain types +// of notifications be sent, for example just palette changes. While this +// doesn't mean that the other notification call backs won't ever be called +// the IOverlay implementation may use this as an efficiency optimisation + +enum { ADVISE_NONE = 0x0, // No notifications required + ADVISE_CLIPPING = 0x1, // Synchronous clip information + ADVISE_PALETTE = 0x2, // Palette change notifications + ADVISE_COLORKEY = 0x4, // Called when colour key changes + ADVISE_POSITION = 0x8, // Likewise when window moves etc + ADVISE_DISPLAY_CHANGE = 0x10 // Called on WM_DISPLAYCHANGE + }; + +const DWORD ADVISE_ALL = ADVISE_CLIPPING | + ADVISE_PALETTE | + ADVISE_COLORKEY | + ADVISE_POSITION; + +const DWORD ADVISE_ALL2 = ADVISE_ALL | + ADVISE_DISPLAY_CHANGE; + +// This isn't defined when you run IDL + +cpp_quote("#ifndef _WINGDI_") + +typedef struct _RGNDATAHEADER { + DWORD dwSize; + DWORD iType; + DWORD nCount; + DWORD nRgnSize; + RECT rcBound; +} RGNDATAHEADER; + +typedef struct _RGNDATA { + RGNDATAHEADER rdh; + char Buffer[1]; +} RGNDATA; + +cpp_quote("#endif") + + +//===================================================================== +//===================================================================== +// Defines IOverlayNotify interface +// +// This interface gives asynchronous notifications of changes to the +// rendering window - such as changes to the exposed window area +//===================================================================== +//===================================================================== + +[ +object, +local, +uuid(56a868a0-0ad4-11ce-b03a-0020af0ba770), +pointer_default(unique) +] +interface IOverlayNotify : IUnknown { + + // IOverlayNotify methods + + // This notifies the filter of palette changes, the filter should copy + // the array of RGBQUADs if it needs to use them after returning. This + // is not called when the palette is actually changed in the display + // but at a short time after (in sync with WM_PALETTECHANGED messages) + + HRESULT OnPaletteChange( + [in] DWORD dwColors, // Number of colours present + [in] const PALETTEENTRY *pPalette); // Array of palette colours + + // This provides synchronous clip changes so that the client is called + // before the window is moved to freeze the video, and then when the + // window has stabilised it is called again to start playback again. + // If the window rect is all zero then the window is invisible, the + // filter must take a copy of the information if it wants to keep it + + HRESULT OnClipChange( + [in] const RECT *pSourceRect, // Region of video to use + [in] const RECT *pDestinationRect, // Where video goes + [in] const RGNDATA *pRgnData); // Defines clipping information + + HRESULT OnColorKeyChange([in] const COLORKEY *pColorKey); + + // The calls to OnClipChange happen in sync with the window. So it is + // called with an empty clip list before the window moves to freeze + // the video, and then when the window has stabilised it is called + // again with the new clip list. The OnPositionChange callback is for + // overlay cards that don't want the expense of synchronous clipping + // updates and just want to know when the source or destination video + // positions change. They will NOT be called in sync with the window + // but at some point after the window has changed (basicly in time + // with WM_SIZE etc messages received). This is therefore suitable + // for overlay cards that don't inlay their data to the frame buffer + // NOTE the destination is NOT clipped to the visible display area + + HRESULT OnPositionChange([in] const RECT *pSourceRect, + [in] const RECT *pDestinationRect); +} + +typedef IOverlayNotify *POVERLAYNOTIFY; + + +//===================================================================== +//===================================================================== +// Defines IOverlayNotify2 interface +// +// This interface gives asynchronous notifications of changes to the +// rendering window - such as changes to the exposed window area +// This is optionally supported by the advise sink for the purposes +// of accepting OnDisplayChange notification. +//===================================================================== +//===================================================================== + +cpp_quote("#if !defined(HMONITOR_DECLARED) && !defined(HMONITOR) && (WINVER < 0x0500)") +cpp_quote("#define HMONITOR_DECLARED") +cpp_quote("#if 0") +typedef HANDLE HMONITOR; +cpp_quote("#endif") +cpp_quote("DECLARE_HANDLE(HMONITOR);") +cpp_quote("#endif") + +[ +object, +local, +uuid(680EFA10-D535-11D1-87C8-00A0C9223196), +pointer_default(unique) +] +interface IOverlayNotify2 : IOverlayNotify { + + // IOverlayNotify2 methods + + HRESULT OnDisplayChange( // ADVISE_DISPLAY_CHANGE + HMONITOR hMonitor); +} + +typedef IOverlayNotify2 *POVERLAYNOTIFY2; + + +//===================================================================== +//===================================================================== +// Defines IOverlay interface +// +// This interface provides information so that a filter can write direct to +// the frame buffer while placing the video in the correct window position +//===================================================================== +//===================================================================== + +[ +object, +local, +uuid(56a868a1-0ad4-11ce-b03a-0020af0ba770), +pointer_default(unique) +] +interface IOverlay : IUnknown { + + // IOverlay methods + + HRESULT GetPalette( + [out] DWORD *pdwColors, // Number of colours present + [out] PALETTEENTRY **ppPalette); // Where to put palette data + + HRESULT SetPalette( + [in] DWORD dwColors, // Number of colours present + [in] PALETTEENTRY *pPalette); // Colours to use for palette + + // If you change the colour key through SetColorKey then all the advise + // links will receive an OnColorKeyChange callback with the new colour + + HRESULT GetDefaultColorKey([out] COLORKEY *pColorKey); + HRESULT GetColorKey([out] COLORKEY *pColorKey); + HRESULT SetColorKey([in,out] COLORKEY *pColorKey); + HRESULT GetWindowHandle([out] HWND *pHwnd); + + // The IOverlay implementation allocates the memory for the clipping + // rectangles as it can be variable in length. The filter calling + // this method should free the memory when it is finished with it + + HRESULT GetClipList([out] RECT *pSourceRect, + [out] RECT *pDestinationRect, + [out] RGNDATA **ppRgnData); + + // Returns the current video source and destination + + HRESULT GetVideoPosition([out] RECT *pSourceRect, + [out] RECT *pDestinationRect); + + HRESULT Advise( + [in] IOverlayNotify *pOverlayNotify, // Notification interface + [in] DWORD dwInterests); // Callbacks interested in + + HRESULT Unadvise(); // Stop the callbacks now +} + +typedef IOverlay *POVERLAY; + + +//===================================================================== +//===================================================================== +// control related interfaces (others are defined in control.odl) +//===================================================================== +//===================================================================== + + +//===================================================================== +//===================================================================== +// Defines IMediaEventSink interface +// +// Exposed by filtergraph. Called by filters to notify events. Will be +// passed on to application by the IMediaControl event methods. +//===================================================================== +//===================================================================== + +[ + object, + uuid(56a868a2-0ad4-11ce-b03a-0020af0ba770), + pointer_default(unique) +] +interface IMediaEventSink : IUnknown { + + // notify an event. will be queued, but not delivered to + // the application on this thread. + HRESULT Notify( + [in] long EventCode, + [in] LONG_PTR EventParam1, + [in] LONG_PTR EventParam2 + ); +} + +typedef IMediaEventSink *PMEDIAEVENTSINK; + +//===================================================================== +//===================================================================== +// Defines IFileSourceFilter interface +// +// Exposed by source filters to set the file name and media type. +//===================================================================== +//===================================================================== + +[ + object, + uuid(56a868a6-0ad4-11ce-b03a-0020af0ba770), + pointer_default(unique) +] +interface IFileSourceFilter : IUnknown { + + // Load a file and assign it the given media type + HRESULT Load( + [in] LPCOLESTR pszFileName, // Pointer to absolute path of file to open + [in, unique] const AM_MEDIA_TYPE *pmt // Media type of file - can be NULL + ); + // Get the currently loaded file name + HRESULT GetCurFile( + [out] LPOLESTR *ppszFileName, // Pointer to the path for the current file + [out] AM_MEDIA_TYPE *pmt // Pointer to the media type + ); +} + +typedef IFileSourceFilter *PFILTERFILESOURCE; + +//===================================================================== +//===================================================================== +// Defines IFileSinkFilter interface +// +// Exposed by renderers to set the output file name. +//===================================================================== +//===================================================================== + +[ + object, + uuid(a2104830-7c70-11cf-8bce-00aa00a3f1a6), + pointer_default(unique) +] +interface IFileSinkFilter : IUnknown { + + // Output to this file. default is to open the existing file + HRESULT SetFileName( + [in] LPCOLESTR pszFileName, // Pointer to absolute path of output file + [in, unique] const AM_MEDIA_TYPE *pmt // Media type of file - can be NULL + ); + // Get the current file name + HRESULT GetCurFile( + [out] LPOLESTR *ppszFileName, // Pointer to the path for the current file + [out] AM_MEDIA_TYPE *pmt // Pointer to the media type + ); +} + +typedef IFileSinkFilter *PFILTERFILESINK; + +[ + object, + uuid(00855B90-CE1B-11d0-BD4F-00A0C911CE86), + pointer_default(unique) +] +interface IFileSinkFilter2 : IFileSinkFilter { + + HRESULT SetMode( + [in] DWORD dwFlags // AM_FILESINK_FLAGS + ); + + HRESULT GetMode( + [out] DWORD *pdwFlags // AM_FILESINK_FLAGS + ); +} + +typedef IFileSinkFilter2 *PFILESINKFILTER2; + +typedef enum { + + // create a new file + AM_FILE_OVERWRITE = 0x00000001, + +} AM_FILESINK_FLAGS; + + +// +// Intelligent connectivity for filters - an interface supported by +// filter graphs (since it is an extension to IFilterGraph) that supports +// building of graphs by automatic selection and connection of appropriate +// filters + +[ + object, + uuid(56a868a9-0ad4-11ce-b03a-0020af0ba770), + pointer_default(unique) +] +interface IGraphBuilder : IFilterGraph { + // Connect these two pins directly or indirectly, using transform filters + // if necessary. + + HRESULT Connect + ( [in] IPin * ppinOut, // the output pin + [in] IPin * ppinIn // the input pin + ); + + + // Connect this output pin directly or indirectly, using transform filters + // if necessary to something that will render it. + + HRESULT Render + ( [in] IPin * ppinOut // the output pin + ); + + + // Build a filter graph that will render this file using this play list. + // If lpwstrPlayList is NULL then it will use the default play list + // which will typically render the whole file. + + HRESULT RenderFile + ( [in] LPCWSTR lpcwstrFile, + [in, unique] LPCWSTR lpcwstrPlayList + ); + + + // Add to the filter graph a source filter for this file. This would + // be the same source filter that would be added by calling Render. + // This call gives you more control over building + // the rest of the graph, e.g. AddFilter() + // and then Connect the two. + // The IBaseFilter* interface exposed by the source filter is returned + // in ppFilter, addrefed already for you + // The filter will be known by the name lpcwstrFIlterName + // nn this filter graph, + HRESULT AddSourceFilter + ( [in] LPCWSTR lpcwstrFileName, + [in, unique] LPCWSTR lpcwstrFilterName, + [out] IBaseFilter* *ppFilter + ); + + + // If this call is made then trace information will be written to the + // file showing the actions taken in attempting to perform an operation. + HRESULT SetLogFile + ( [in] DWORD_PTR hFile // open file handle e.g. from CreateFile + ); + + + // Request that the graph builder should return as soon as possible from + // its current task. + // Note that it is possible fot the following to occur in the following + // sequence: + // Operation begins; Abort is requested; Operation completes normally. + // This would be normal whenever the quickest way to finish an operation + // was to simply continue to the end. + HRESULT Abort(); + + // Return S_OK if the curent operation is to continue, + // return S_FALSE if the current operation is to be aborted. + // This method can be called as a callback from a filter which is doing + // some operation at the request of the graph. + HRESULT ShouldOperationContinue(); + +} + + +// +// New capture graph builder + +[ + object, + uuid(bf87b6e0-8c27-11d0-b3f0-00aa003761c5), + pointer_default(unique) +] +interface ICaptureGraphBuilder : IUnknown { + + // Use this filtergraph + HRESULT SetFiltergraph( + [in] IGraphBuilder *pfg); + + // what filtergraph are you using? + // *ppfg->Release() when you're done with it + HRESULT GetFiltergraph( + [out] IGraphBuilder **ppfg); + + // creates a rendering section in the filtergraph consisting of a MUX + // of some filetype, and a file writer (and connects them together) + // *ppf->Release() when you're done with it + // *ppSink->Release() when you're done with it + HRESULT SetOutputFileName( + [in] const GUID *pType, // type of file to write, eg. MEDIASUBTYPE_Avi + [in] LPCOLESTR lpstrFile, // filename given to file writer + [out] IBaseFilter **ppf, // returns pointer to the MUX + [out] IFileSinkFilter **ppSink);// queried from file writer + + // Looks for an interface on the filter and on the output pin of the given + // category. (Categories: CAPTURE/PREVIEW/VIDEOPORT/VBI etc. or + // NULL for "don't care". + // It will also look upstream and downstream of + // the pin for the interface, to find interfaces on renderers, MUXES, TV + // Tuners, etc. + // Call *ppint->Release() when you're done with it + [local] HRESULT FindInterface( + [in, unique] const GUID *pCategory, // can be NULL for all pins + [in] IBaseFilter *pf, + [in] REFIID riid, + [out] void **ppint); + [call_as(FindInterface)] HRESULT RemoteFindInterface( + [in, unique] const GUID *pCategory, // can be NULL for all pins + [in] IBaseFilter *pf, + [in] REFIID riid, + [out] IUnknown **ppint); + + // Connects the pin of the given category of the source filter to the + // rendering filter, optionally through another filter (compressor?) + // For a non-NULL category, it will instantiate and connect additional + // required filters upstream too, like TV Tuners and Crossbars. + // If there is only one output pin on the source, use a NULL + // category. You can also have pSource be a pin + HRESULT RenderStream( + [in] const GUID *pCategory, // can be NULL if only one output pin + [in] IUnknown *pSource, // filter or pin + [in] IBaseFilter *pfCompressor, + [in] IBaseFilter *pfRenderer); // can be NULL + + // Sends IAMStreamControl messages to the pin of the desired category, eg. + // "capture" or "preview" + // REFERENCE_TIME=NULL means NOW + // REFERENCE_TIME=MAX_TIME means never, or cancel previous request + // NULL controls all capture filters in the graph - you will get one + // notification for each filter with a pin of that category found + // returns S_FALSE if stop will be signalled before last sample is + // rendered. + // return a FAILURE code if the filter does not support IAMStreamControl + HRESULT ControlStream( + [in] const GUID *pCategory, + [in] IBaseFilter *pFilter, + [in] REFERENCE_TIME *pstart, + [in] REFERENCE_TIME *pstop, + [in] WORD wStartCookie, // high word reserved + [in] WORD wStopCookie); // high word reserved + + // creates a pre-allocated file of a given size in bytes + HRESULT AllocCapFile( + [in] LPCOLESTR lpstr, + [in] DWORDLONG dwlSize); + + // Copies the valid file data out of the old, possibly huge old capture + // file into a shorter new file. + // Return S_FALSE from your progress function to abort capture, S_OK to + // continue + HRESULT CopyCaptureFile( + [in] LPOLESTR lpwstrOld, + [in] LPOLESTR lpwstrNew, + [in] int fAllowEscAbort, // pressing ESC will abort? + [in] IAMCopyCaptureFileProgress *pCallback); // implement this to + // get progress +} + + +// +// Capture graph builder "CopyCapturedFile" progress callback + +[ + object, + uuid(670d1d20-a068-11d0-b3f0-00aa003761c5), + pointer_default(unique) +] +interface IAMCopyCaptureFileProgress : IUnknown { + + // If you support this interface somewhere, this function will be called + // periodically while ICaptureGraphBuilder::CopyCaptureFile is executing + // to let you know the progress + // + // Return S_OK from this function to continue. Return S_FALSE to abort the + // copy + HRESULT Progress( + [in] int iProgress); // a number between 0 and 100 (%) +} + + +// +// Capture graph builder that can deal with a single filter having more than +// one pin of each category... some new devices can capture both audio and +// video, for example +// + +[ + object, + uuid(93E5A4E0-2D50-11d2-ABFA-00A0C9C6E38D), + pointer_default(unique) +] +interface ICaptureGraphBuilder2 : IUnknown { + + // Use this filtergraph + HRESULT SetFiltergraph( + [in] IGraphBuilder *pfg); + + // what filtergraph are you using? + // *ppfg->Release() when you're done with it + HRESULT GetFiltergraph( + [out] IGraphBuilder **ppfg); + + // creates a rendering section in the filtergraph consisting of a MUX + // of some filetype, and a file writer (and connects them together) + // *ppf->Release() when you're done with it + // *ppSink->Release() when you're done with it + HRESULT SetOutputFileName( + [in] const GUID *pType, // GUID of MUX filter to use + [in] LPCOLESTR lpstrFile, // filename given to file writer + [out] IBaseFilter **ppf, // returns pointer to the MUX + [out] IFileSinkFilter **ppSink);// queried from file writer + + // Looks for an interface on the filter and on the output pin of the given + // category and type. (Categories: CAPTURE/PREVIEW/VIDEOPORT/VBI etc. or + // NULL for "don't care". Type: MAJORTYPE_Video/Audio etc or NULL) + // !!! Will some filters have >1 capture pin? ie RGB and MPEG? + // It will also look upstream and downstream of + // the pin for the interface, to find interfaces on renderers, MUXES, TV + // Tuners, etc. + // Call *ppint->Release() when you're done with it + [local] HRESULT FindInterface( + [in] const GUID *pCategory, // can be NULL for all pins + [in] const GUID *pType, // Audio/Video/??? or NULL (don't care) + [in] IBaseFilter *pf, + [in] REFIID riid, + [out] void **ppint); + [call_as(FindInterface)] HRESULT RemoteFindInterface( + [in] const GUID *pCategory, // can be NULL for all pins + [in] const GUID *pType, // Audio/Video/??? or NULL (don't care) + [in] IBaseFilter *pf, + [in] REFIID riid, + [out] IUnknown **ppint); + + // Connects the pin of the given category and type of the source filter to + // the rendering filter, optionally through another filter (compressor?) + // (Type is a Majortype, like Video or Audio) + // For a non-NULL category, it will instantiate and connect additional + // required filters upstream too, like TV Tuners and Crossbars. + // If there is only one output pin on the source, use a NULL category + // and type. You can also have pSource be a pin + HRESULT RenderStream( + [in] const GUID *pCategory, // can be NULL if only one output pin + [in] const GUID *pType, // Major type (Video/Audio/etc) + [in] IUnknown *pSource, // filter or pin + [in] IBaseFilter *pfCompressor, + [in] IBaseFilter *pfRenderer); // can be NULL + + // Sends IAMStreamControl messages to the pin of the desired category, + // (eg. "capture" or "preview") and of the desired type (eg. VIDEO or AUDIO) + // A category MUST be given. If a filter is given, a type must be too. + // REFERENCE_TIME=NULL means NOW + // REFERENCE_TIME=MAX_TIME means never, or cancel previous request + // NULL controls all capture filters in the graph - you will get one + // notification for each filter with a pin of that category found + // returns S_FALSE if stop will be signalled before last sample is + // rendered. + // return a FAILURE code if the filter does not support IAMStreamControl + HRESULT ControlStream( + [in] const GUID *pCategory, + [in] const GUID *pType, // Major type (Video/Audio/etc) + [in] IBaseFilter *pFilter, + [in] REFERENCE_TIME *pstart, + [in] REFERENCE_TIME *pstop, + [in] WORD wStartCookie, // high word reserved + [in] WORD wStopCookie); // high word reserved + + // creates a pre-allocated file of a given size in bytes + HRESULT AllocCapFile( + [in] LPCOLESTR lpstr, + [in] DWORDLONG dwlSize); + + // Copies the valid file data out of the old, possibly huge old capture + // file into a shorter new file. + // Return S_FALSE from your progress function to abort capture, S_OK to + // continue + HRESULT CopyCaptureFile( + [in] LPOLESTR lpwstrOld, + [in] LPOLESTR lpwstrNew, + [in] int fAllowEscAbort, // pressing ESC will abort? + [in] IAMCopyCaptureFileProgress *pCallback); // implement this to + // get progress + // Helper fn to find a certain pin on a filter. + HRESULT FindPin( + [in] IUnknown *pSource, + [in] PIN_DIRECTION pindir, // input or output? + [in] const GUID *pCategory, // what category? (or NULL) + [in] const GUID *pType, // what Major type (or NULL) + [in] BOOL fUnconnected, // must it be unconnected? + [in] int num, // which pin matching this? (0 based) + [out] IPin **ppPin); +} + +enum _AM_RENSDEREXFLAGS { + AM_RENDEREX_RENDERTOEXISTINGRENDERERS = 0x01 // Dont add any renderers +}; + +// +// IFilterGraph2 +// +// New methods on for IFilterGraph and IGraphBuilder will have to go here. +// + +[ + object, + uuid(36b73882-c2c8-11cf-8b46-00805f6cef60), + pointer_default(unique) +] +interface IFilterGraph2: IGraphBuilder { + + // Add a Moniker source moniker + HRESULT AddSourceFilterForMoniker( + [in] IMoniker *pMoniker, + [in] IBindCtx *pCtx, + [in, unique] LPCWSTR lpcwstrFilterName, + [out] IBaseFilter **ppFilter + ); + + // Specify the type for a reconnect + // This is better than Reconnect as sometime the parties to a + // reconnection can't remember what type they'd agreed (!) + HRESULT ReconnectEx + ( [in] IPin * ppin, // the pin to disconnect and reconnect + [in, unique] const AM_MEDIA_TYPE *pmt // the type to reconnect with - can be NULL + ); + + // Render a pin without adding any new renderers + HRESULT RenderEx( [in] IPin *pPinOut, // Pin to render + [in] DWORD dwFlags, // flags + [in, out] DWORD *pvContext // Unused - set to NULL + ); + +#if 0 + // Method looks for a filter which supports the specified interface. If such + // a filter exists, an AddRef()'ed pointer to the requested interface is placed + // in *ppInterface. + // + // *ppInterface will be NULL on return if such a filter could not be found, and + // the method will return E_NOINTERFACE. + // + // pdwIndex is an internal index that is used for obtaining subsequent interfaces. + // *pdwIndex should be initialized to zero. It is set on return to a value that + // allows the implementation of FindFilterInterface to search for further interfaces + // if called again. If no more such interfaces exist, the method will return E_NOINTERFACE. + // + // If pdwIndex is NULL, FindFilterInterface returns an interface only if there is just + // a single filter in the graph that supports the interface. Otherwise it returns + // E_NOINTERFACE. + // + HRESULT FindFilterInterface( [in] REFIID iid, [out] void ** ppInterface, [in,out] LPDWORD pdwIndex ); + + // Tries to obtain the interface from the filter graph itself. If this fails, + // it attempts to find the unique filter that supports the interface. + // On failure the method will return E_NOINTERFACE. On success, it returns + // S_OK and an AddRef()'ed pointer to the requested interface in *ppInterface. + // + HRESULT FindInterface( [in] REFIID iid, [out] void ** ppInterface ); + +#endif +} + +// +// StreamBuilder +// aka Graph building with constraints +// aka convergent graphs +// aka Closed captioning + +[ + object, + local, + uuid(56a868bf-0ad4-11ce-b03a-0020af0ba770), + pointer_default(unique) +] +interface IStreamBuilder : IUnknown { + + // Connect this output pin directly or indirectly, using transform filters + // if necessary to thing(s) that will render it, within this graph + // Move from Initial state to Rendered state. + + HRESULT Render + ( [in] IPin * ppinOut, // the output pin + [in] IGraphBuilder * pGraph // the graph + ); + + // Undo what you did in Render. Return to Initial state. + HRESULT Backout + ( [in] IPin * ppinOut, // the output pin + [in] IGraphBuilder * pGraph // the graph + ); +} + + +// async reader interface - supported by file source filters. Allows +// multiple overlapped reads from different positions + + +[ + object, + uuid(56a868aa-0ad4-11ce-b03a-0020af0ba770), + pointer_default(unique) +] +interface IAsyncReader : IUnknown +{ + // pass in your preferred allocator and your preferred properties. + // method returns the actual allocator to be used. Call GetProperties + // on returned allocator to learn alignment and prefix etc chosen. + // this allocator will be not be committed and decommitted by + // the async reader, only by the consumer. + // Must call this before calling Request. + HRESULT RequestAllocator( + [in] IMemAllocator* pPreferred, + [in] ALLOCATOR_PROPERTIES* pProps, + [out] IMemAllocator ** ppActual); + + // queue a request for data. + // media sample start and stop times contain the requested absolute + // byte position (start inclusive, stop exclusive). + // may fail if sample not obtained from agreed allocator. + // may fail if start/stop position does not match agreed alignment. + // samples allocated from source pin's allocator may fail + // GetPointer until after returning from WaitForNext. + // Stop position must be aligned - this means it may exceed duration. + // on completion, stop position will be corrected to unaligned + // actual data. + HRESULT Request( + [in] IMediaSample* pSample, + [in] DWORD_PTR dwUser); // user context + + // block until the next sample is completed or the timeout occurs. + // timeout (millisecs) may be 0 or INFINITE. Samples may not + // be delivered in order. If there is a read error of any sort, a + // notification will already have been sent by the source filter, + // and HRESULT will be an error. + // If ppSample is not null, then a Request completed with the result + // code returned. + HRESULT WaitForNext( + [in] DWORD dwTimeout, + [out] IMediaSample** ppSample, // completed sample + [out] DWORD_PTR * pdwUser); // user context + + // sync read of data. Sample passed in must have been acquired from + // the agreed allocator. Start and stop position must be aligned. + // equivalent to a Request/WaitForNext pair, but may avoid the + // need for a thread on the source filter. + HRESULT SyncReadAligned( + [in] IMediaSample* pSample); + + + // sync read. works in stopped state as well as run state. + // need not be aligned. Will fail if read is beyond actual total + // length. + HRESULT SyncRead( + [in] LONGLONG llPosition, // absolute file position + [in] LONG lLength, // nr bytes required + [out, size_is(lLength)] + BYTE* pBuffer); // write data here + + // return total length of stream, and currently available length. + // reads for beyond the available length but within the total length will + // normally succeed but may block for a long period. + HRESULT Length( + [out] LONGLONG* pTotal, + [out] LONGLONG* pAvailable); + + // cause all outstanding reads to return, possibly with a failure code + //(VFW_E_TIMEOUT) indicating they were cancelled. + // Between BeginFlush and EndFlush calls, Request calls will fail and + // WaitForNext calls will always complete immediately. + HRESULT BeginFlush(void); + HRESULT EndFlush(void); +} + + +// interface provided by the filtergraph itself to let other objects +// (especially plug-in distributors, but also apps like graphedt) know +// when the graph has changed. +[ + object, + uuid(56a868ab-0ad4-11ce-b03a-0020af0ba770), + pointer_default(unique) +] +interface IGraphVersion : IUnknown +{ + // returns the current graph version number + // this is incremented every time there is a change in the + // set of filters in the graph or in their connections + // + // if this is changed since your last enumeration, then re-enumerate + // the graph + HRESULT QueryVersion(LONG* pVersion); +} + + + + +// +// interface describing an object that uses resources. +// +// implement if: you request resources using IResourceManager. You will +// need to pass your implementation of this pointer as an in param. +// +// use if: you are a resource manager who implements IResourceManager +[ + object, + uuid(56a868ad-0ad4-11ce-b03a-0020af0ba770), + pointer_default(unique) +] +interface IResourceConsumer : IUnknown +{ + // you may acquire the resource specified. + // return values: + // S_OK -- I have successfully acquired it + // S_FALSE -- I will acquire it and call NotifyAcquire afterwards + // VFW_S_NOT_NEEDED: I no longer need the resource + // FAILED(hr)-I tried to acquire it and failed. + + HRESULT + AcquireResource( + [in] LONG idResource); + + + + // Please release the resource. + // return values: + // S_OK -- I have released it (and want it again when available) + // S_FALSE -- I will call NotifyRelease when I have released it + // other something went wrong. + HRESULT + ReleaseResource( + [in] LONG idResource); +} + + + +// interface describing a resource manager that will resolve contention for +// named resources. +// +// implement if: you are a resource manager. The filtergraph will be a resource +// manager, internally delegating to the system wide resource manager +// (when there is one) +// +// use if: you need resources that are limited. Use the resource manager to +// resolve contention by registering the resource with this interface, +// and requesting it from this interface whenever needed. +// +// or use if: you detect focus changes which should affect resource usage. +// Notifying change of focus to the resource manager will cause the resource +// manager to switch contended resources to the objects that have the user's +// focus +[ + object, + uuid(56a868ac-0ad4-11ce-b03a-0020af0ba770), + pointer_default(unique) +] +interface IResourceManager : IUnknown +{ + // tell the manager how many there are of a resource. + // ok if already registered. will take new count. if new count + // is lower, will de-allocate resources to new count. + // + // You get back a token that will be used in further calls. + // + // Passing a count of 0 will eliminate this resource. There is currently + // no defined way to find the id without knowing the count. + // + HRESULT + Register( + [in] LPCWSTR pName, // this named resource + [in] LONG cResource, // has this many instances + [out] LONG* plToken // token placed here on return + ); + + HRESULT + RegisterGroup( + [in] LPCWSTR pName, // this named resource group + [in] LONG cResource, // has this many resources + [in, size_is(cResource)] + LONG* palTokens, // these are the contained resources + [out] LONG* plToken // group resource id put here on return + ); + + // request the use of a given, registered resource. + // possible return values: + // S_OK == yes you can use it now + // S_FALSE == you will be called back when the resource is available + // other - there is an error. + // + // The priority of this request should be affected by the associated + // focus object -- that is, when SetFocus is called for that focus + // object (or a 'related' object) then my request should be put through. + // + // A filter should pass the filter's IUnknown here. The filtergraph + // will match filters to the filtergraph, and will attempt to trace + // filters to common source filters when checking focus objects. + // The Focus object must be valid for the entire lifetime of the request + // -- until you call CancelRequest or NotifyRelease(id, p, FALSE) + HRESULT + RequestResource( + [in] LONG idResource, + [in] IUnknown* pFocusObject, + [in] IResourceConsumer* pConsumer + ); + + + // notify the resource manager that an acquisition attempt completed. + // Call this method after an AcquireResource method returned + // S_FALSE to indicate asynchronous acquisition. + // HR should be S_OK if the resource was successfully acquired, or a + // failure code if the resource could not be acquired. + HRESULT + NotifyAcquire( + [in] LONG idResource, + [in] IResourceConsumer* pConsumer, + [in] HRESULT hr); + + // Notify the resource manager that you have released a resource. Call + // this in response to a ReleaseResource method, or when you have finished + // with the resource. bStillWant should be TRUE if you still want the + // resource when it is next available, or FALSE if you no longer want + // the resource. + HRESULT + NotifyRelease( + [in] LONG idResource, + [in] IResourceConsumer* pConsumer, + [in] BOOL bStillWant); + + // I don't currently have the resource, and I no longer need it. + HRESULT + CancelRequest( + [in] LONG idResource, + [in] IResourceConsumer* pConsumer); + + // Notify the resource manager that a given object has been given the + // user's focus. In ActiveMovie, this will normally be a video renderer + // whose window has received the focus. The filter graph will switch + // contended resources to (in order): + // requests made with this same focus object + // requests whose focus object shares a common source with this + // requests whose focus object shares a common filter graph + // After calling this, you *must* call ReleaseFocus before the IUnknown + // becomes invalid, unless you can guarantee that another SetFocus + // of a different object is done in the meantime. No addref is held. + // + // The resource manager will hold this pointer until replaced or cancelled, + // and will use it to resolve resource contention. It will call + // QueryInterface for IBaseFilter at least and if found will call methods on + // that interface. + HRESULT + SetFocus( + [in] IUnknown* pFocusObject); + + // Sets the focus to NULL if the current focus object is still + // pFocusObject. Call this when + // the focus object is about to be destroyed to ensure that no-one is + // still referencing the object. + HRESULT + ReleaseFocus( + [in] IUnknown* pFocusObject); + + + +// !!! still need +// -- app override (some form of SetPriority) +// -- enumeration and description of resources + +} + + +// +// Interface representing an object that can be notified about state +// and other changes within a filter graph. The filtergraph will call plug-in +// distributors that expose this optional interface so that they can +// respond to appropriate changes. +// +// Implement if: you are a plug-in distributor (your class id is found +// under HKCR\Interface\\Distributor= for some interface). +// +// Use if: you are the filtergraph. +[ + object, + uuid(56a868af-0ad4-11ce-b03a-0020af0ba770), + pointer_default(unique) +] +interface IDistributorNotify : IUnknown +{ + // called when graph is entering stop state. Called before + // filters are stopped. + HRESULT Stop(void); + + // called when graph is entering paused state, before filters are + // notified + HRESULT Pause(void); + + // called when graph is entering running state, before filters are + // notified. tStart is the stream-time offset parameter that will be + // given to each filter's IBaseFilter::Run method. + HRESULT Run(REFERENCE_TIME tStart); + + // called when the graph's clock is changing, with the new clock. Addref + // the clock if you hold it beyond this method. Called before + // the filters are notified. + HRESULT SetSyncSource( + [in] IReferenceClock * pClock); + + // called when the set of filters or their connections has changed. + // Called on every AddFilter, RemoveFilter or ConnectDirect (or anything + // that will lead to one of these). + // You don't need to rebuild your list of interesting filters at this point + // but you should release any refcounts you hold on any filters that + // have been removed. + HRESULT NotifyGraphChange(void); +} + +typedef enum { + AM_STREAM_INFO_START_DEFINED = 0x00000001, + AM_STREAM_INFO_STOP_DEFINED = 0x00000002, + AM_STREAM_INFO_DISCARDING = 0x00000004, + AM_STREAM_INFO_STOP_SEND_EXTRA = 0x00000010 +} AM_STREAM_INFO_FLAGS; + +// Stream information +typedef struct { + REFERENCE_TIME tStart; + REFERENCE_TIME tStop; + DWORD dwStartCookie; + DWORD dwStopCookie; + DWORD dwFlags; +} AM_STREAM_INFO; + +// +// IAMStreamControl +// + +[ + object, + uuid(36b73881-c2c8-11cf-8b46-00805f6cef60), + pointer_default(unique) +] +interface IAMStreamControl : IUnknown +{ + // The REFERENCE_TIME pointers may be null, which + // indicates immediately. If the pointer is non-NULL + // and dwCookie is non-zero, then pins should send + // EC_STREAM_CONTROL_STOPPED / EC_STREAM_CONTROL_STARTED + // with an IPin pointer and the cookie, thus allowing + // apps to tie the events back to their requests. + // If either dwCookies is zero, or the pointer is null, + // then no event is sent. + + // If you have a capture pin hooked up to a MUX input pin and they + // both support IAMStreamControl, you'll want the MUX to signal the + // stop so you know the last frame was written out. In order for the + // MUX to know it's finished, the capture pin will have to send one + // extra sample after it was supposed to stop, so the MUX can trigger + // off that. So you would set bSendExtra to TRUE for the capture pin + // Leave it FALSE in all other cases. + + HRESULT StartAt( [in] const REFERENCE_TIME * ptStart, + [in] DWORD dwCookie ); + HRESULT StopAt( [in] const REFERENCE_TIME * ptStop, + [in] BOOL bSendExtra, + [in] DWORD dwCookie ); + HRESULT GetInfo( [out] AM_STREAM_INFO *pInfo); +} + + + +// +// ISeekingPassThru +// + +[ + object, + uuid(36b73883-c2c8-11cf-8b46-00805f6cef60), + pointer_default(unique) +] +interface ISeekingPassThru : IUnknown +{ + HRESULT Init( [in] BOOL bSupportRendering, + [in] IPin *pPin); +} + + + +// +// IAMStreamConfig - pin interface +// + +// A capture filter or compression filter's output pin +// supports this interface - no matter what data type you produce. + +// This interface can be used to set the output format of a pin (as an +// alternative to connecting the pin using a specific media type). +// After setting an output format, the pin will use that format +// the next time it connects to somebody, so you can just Render that +// pin and get a desired format without using Connect(CMediaType) +// Your pin should do that by ONLY OFFERING the media type set in SetFormat +// in its enumeration of media types, and no others. This will ensure that +// that format is indeed used for connection (or at least offer it first). +// An application interested in enumerating accepted mediatypes may have to +// do so BEFORE calling SetFormat. + +// But this interface's GetStreamCaps function can get more information +// about accepted media types than the traditional way of enumerating a pin's +// media types, so it should typically be used instead. +// GetStreamCaps gets information about the kinds of formats allowed... how +// it can stretch and crop, and the frame rate and data rates allowed (for +// video) + +// VIDEO EXAMPLE +// +// GetStreamCaps returns a whole array of {MediaType, Capabilities}. +// Let's say your capture card supports JPEG anywhere between 160x120 and +// 320x240, and also the size 640x480. Also, say it supports RGB24 at +// resolutions between 160x120 and 320x240 but only multiples of 8. You would +// expose these properties by offering a media type of 320 x 240 JPEG +// (if that is your default or preferred size) coupled with +// capabilities saying minimum 160x120 and maximum 320x240 with granularity of +// 1. The next pair you expose is a media type of 640x480 JPEG coupled with +// capabilities of min 640x480 max 640x480. The third pair is media type +// 320x240 RGB24 with capabilities min 160x120 max 320x240 granularity 8. +// In this way you can expose almost every quirk your card might have. +// An application interested in knowing what compression formats you provide +// can get all the pairs and make a list of all the unique sub types of the +// media types. +// +// If a filter's output pin is connected with a media type that has rcSource +// and rcTarget not empty, it means the filter is being asked to stretch the +// rcSource sub-rectangle of its InputSize (the format of the input pin for +// a compressor, and the largest bitmap a capture filter can generate with +// every pixel unique) into the rcTarget sub-rectangle of its output format. +// For instance, if a video compressor has as input 160x120 RGB, and as output +// 320x240 MPEG with an rcSource of (10,10,20,20) and rcTarget of (0,0,100,100) +// this means the compressor is being asked to take a 10x10 piece of the 160x120 +// RGB bitmap, and make it fill the top 100x100 area of a 320x240 bitmap, +// leaving the rest of the 320x240 bitmap untouched. +// A filter does not have to support this and can fail to connect with a +// media type where rcSource and rcTarget are not empty. +// +// Your output pin is connected to the next filter with a certain media +// type (either directly or using the media type passed by SetFormat), +// and you need to look at the AvgBytesPerSecond field of the format +// of that mediatype to see what data rate you are being asked to compress +// the video to, and use that data rate. Using the number of frames per +// second in AvgTimePerFrame, you can figure out how many bytes each frame +// is supposed to be. You can make it smaller, but NEVER EVER make a bigger +// data rate. For a video compressor, your input pin's media type tells you +// the frame rate (use that AvgTimePerFrame). For a capture filter, the +// output media type tells you, so use that AvgTimePerFrame. +// +// The cropping rectangle described below is the same as the rcSrc of the +// output pin's media type. +// +// The output rectangle described below is the same of the width and height +// of the BITMAPINFOHEADER of the media type of the output pin's media type + + +// AUDIO EXAMPLE +// +// This API can return an array of pairs of (media type, capabilities). +// This can be used to expose all kinds of wierd capabilities. Let's say you +// do any PCM frequency from 11,025 to 44,100 at 8 or 16 bit mono or +// stereo, and you also do 48,000 16bit stereo as a special combination. +// You would expose 3 pairs. The first pair would have Min Freq of 11025 and +// Max Freq of 44100, with MaxChannels=2 and MinBits=8 and MaxBits=8 for the +// capabilites structure, and a media type of anything you like, maybe +// 22kHz, 8bit stereo as a default. +// The 2nd pair would be the same except for MinBits=16 and MaxBits=16 in +// the capabilities structure and the media type could be something like +// 44kHz, 16bit stereo as a default (the media type in the pair should always +// be something legal as described by the capabilities structure... the +// structure tells you how you can change the media type to produce other +// legal media types... for instance changing 44kHz to 29010Hz would be legal, +// but changing bits from 16 to 14 would not be.) +// The 3rd pair would be MinFreq=48000 MaxFreq=48000 MaxChannels=2 +// MinBits=16 and MaxBits=16, and the media type would be 48kHz 16bit stereo. +// You can also use the Granularity elements of the structure (like the example +// for video) if you support values that multiples of n, eg. you could say +// minimum bits per sample 8, max 16, and granularity 8 to describe doing +// either 8 or 16 bit all in one structure +// +// If you support non-PCM formats, the media type returned in GetStreamCaps +// can show which non-PCM formats you support (with a default sample rate, +// bit rate and channels) and the capabilities structure going with that +// media type can describe which other sample rates, bit rates and channels +// you support. + +[ + object, + uuid(C6E13340-30AC-11d0-A18C-00A0C9118956), + pointer_default(unique) +] +interface IAMStreamConfig : IUnknown +{ + + // this is the structure returned by a VIDEO filter + // + typedef struct _VIDEO_STREAM_CONFIG_CAPS { + + GUID guid; // will be MEDIATYPE_Video + + // the logical or of all the AnalogVideoStandard's supported + // typically zero if not supported + ULONG VideoStandard; + + // the inherent size of the incoming signal... taken from the input + // pin for a compressor, or the largest size a capture filter can + // digitize the signal with every pixel still unique + SIZE InputSize; + + // The input of a compressor filter may have to be connected for these + // to be known + + // smallest rcSrc cropping rect allowed + SIZE MinCroppingSize; + // largest rcSrc cropping rect allowed + SIZE MaxCroppingSize; + // granularity of cropping size - eg only widths a multiple of 4 allowed + int CropGranularityX; + int CropGranularityY; + // alignment of cropping rect - eg rect must start on multiple of 4 + int CropAlignX; + int CropAlignY; + + // The input of a compressor filter may have to be connected for these + // to be known + + // smallest bitmap this pin can produce + SIZE MinOutputSize; + // largest bitmap this pin can produce + SIZE MaxOutputSize; + // granularity of output bitmap size + int OutputGranularityX; + int OutputGranularityY; + // !!! what about alignment of rcTarget inside BIH if different? + + // how well can you stretch in the x direction? 0==not at all + // 1=pixel doubling 2=interpolation(2 taps) 3=better interpolation + // etc. + int StretchTapsX; + int StretchTapsY; + // how well can you shrink in the x direction? 0==not at all + // 1=pixel doubling 2=interpolation(2 taps) 3=better interpolation + // etc. + int ShrinkTapsX; + int ShrinkTapsY; + + // CAPTURE filter only - what frame rates are allowed? + LONGLONG MinFrameInterval; + LONGLONG MaxFrameInterval; + + // what data rates can this pin produce? + LONG MinBitsPerSecond; + LONG MaxBitsPerSecond; + } VIDEO_STREAM_CONFIG_CAPS; + + + // this is the structure returned by an AUDIO filter + // + typedef struct _AUDIO_STREAM_CONFIG_CAPS { + + GUID guid; // will be MEDIATYPE_Audio + ULONG MinimumChannels; + ULONG MaximumChannels; + ULONG ChannelsGranularity; + ULONG MinimumBitsPerSample; + ULONG MaximumBitsPerSample; + ULONG BitsPerSampleGranularity; + ULONG MinimumSampleFrequency; + ULONG MaximumSampleFrequency; + ULONG SampleFrequencyGranularity; + } AUDIO_STREAM_CONFIG_CAPS; + + // - only allowed when pin is not streaming, else the call will FAIL + // - If your output pin is not yet connected, and you can + // connect your output pin with this media type, you should + // succeed the call, and start offering it first (enumerate as format#0) + // from GetMediaType so that this format will be used to connect with + // when you do connect to somebody + // - if your output pin is already connected, and you can provide this + // type, reconnect your pin. If the other pin can't accept it, FAIL + // this call and leave your connection alone. + HRESULT SetFormat( + [in] AM_MEDIA_TYPE *pmt); + + // the format it's connected with, or will connect with + // the application is responsible for calling DeleteMediaType(*ppmt); + HRESULT GetFormat( + [out] AM_MEDIA_TYPE **ppmt); + + // how many different Stream Caps structures are there? + // also, how big is the stream caps structure? + HRESULT GetNumberOfCapabilities( + [out] int *piCount, + [out] int *piSize); // pSCC of GetStreamCaps needs to be this big + + // - gets one of the pairs of {Mediatype, Caps} + // - return S_FALSE if iIndex is too high + // - the application is responsible for calling DeleteMediaType(*ppmt); + // - the first thing pSCC points to is a GUID saying MEDIATYPE_Video + // or MEDIATYPE_Audio, so you can tell if you have a pointer to a + // VIDEO_STREAM_CONFIG_CAPS or an AUDIO_STREAM_CONFIG_CAPS structure + // There could potentially be many more possibilities other than video + // or audio. + HRESULT GetStreamCaps( + [in] int iIndex, // 0 to #caps-1 + [out] AM_MEDIA_TYPE **ppmt, + [out] BYTE *pSCC); + +} + + + +// Interface to control interleaving of different streams in one file +[ +object, +uuid(BEE3D220-157B-11d0-BD23-00A0C911CE86), +pointer_default(unique) +] +interface IConfigInterleaving : IUnknown +{ + import "unknwn.idl"; + + typedef enum + { + // uninterleaved - samples written out in the order they + // arrive. + INTERLEAVE_NONE, + + // approximate interleaving with less overhead for video + // capture + INTERLEAVE_CAPTURE, + + // full, precise interleaving. slower. + INTERLEAVE_FULL, + + // samples written out in the order they arrive. writes are + // buffered + INTERLEAVE_NONE_BUFFERED + + } InterleavingMode; + + HRESULT put_Mode( + [in] InterleavingMode mode + ); + + HRESULT get_Mode( + [out] InterleavingMode *pMode + ); + + HRESULT put_Interleaving( + [in] const REFERENCE_TIME *prtInterleave, + [in] const REFERENCE_TIME *prtPreroll + ); + + HRESULT get_Interleaving( + [out] REFERENCE_TIME *prtInterleave, + [out] REFERENCE_TIME *prtPreroll + ); +} + +// Interface to control the AVI mux +[ +object, +uuid(5ACD6AA0-F482-11ce-8B67-00AA00A3F1A6), +pointer_default(unique) +] +interface IConfigAviMux : IUnknown +{ + import "unknwn.idl"; + + // control whether the AVI mux adjusts the frame rate or audio + // sampling rate for drift when the file is closed. -1 to disables + // this behavior. + HRESULT SetMasterStream([in] LONG iStream); + HRESULT GetMasterStream([out] LONG *pStream); + + // control whether the AVI mux writes out an idx1 index chunk for + // compatibility with older AVI players. + HRESULT SetOutputCompatibilityIndex([in] BOOL fOldIndex); + HRESULT GetOutputCompatibilityIndex([out] BOOL *pfOldIndex); +} + + //--------------------------------------------------------------------- + // CompressionCaps enum + //--------------------------------------------------------------------- + + // This tells you which features of IAMVideoCompression are supported + + // CanCrunch means that it can compress video to a specified data rate + // If so, then the output pin's media type will contain that data rate + // in the format's AvgBytesPerSecond field, and that should be used. + + typedef enum + { + CompressionCaps_CanQuality = 0x01, + CompressionCaps_CanCrunch = 0x02, + CompressionCaps_CanKeyFrame = 0x04, + CompressionCaps_CanBFrame = 0x08, + CompressionCaps_CanWindow = 0x10 + } CompressionCaps; + + + + //--------------------------------------------------------------------- + // IAMVideoCompression interface + // + // Control compression parameters - pin interface + //--------------------------------------------------------------------- + + // This interface is implemented by the output pin of a video capture + // filter or video compressor that provides video data + + // You use this interface to control how video is compressed... how + // many keyframes, etc., and to find information like capabilities and + // the description of this compressor + + [ + object, + uuid(C6E13343-30AC-11d0-A18C-00A0C9118956), + pointer_default(unique) + ] + interface IAMVideoCompression : IUnknown + { + // - Only valid if GetInfo's pCapabilities sets + // CompressionCaps_CanKeyFrame + // - KeyFrameRate < 0 means use the compressor default + // - KeyFrames == 0 means only the first frame is a key + HRESULT put_KeyFrameRate ( + [in] long KeyFrameRate); + + HRESULT get_KeyFrameRate ( + [out] long * pKeyFrameRate); + + // - Only valid if GetInfo's pCapabilities sets + // CompressionCaps_CanBFrame + // - If keyframes are every 10, and there are 3 P Frames per key, + // they will be spaced evenly between the key frames and the other + // 6 frames will be B frames + // - PFramesPerKeyFrame < 0 means use the compressor default + HRESULT put_PFramesPerKeyFrame ( + [in] long PFramesPerKeyFrame); + + HRESULT get_PFramesPerKeyFrame ( + [out] long * pPFramesPerKeyFrame); + + // - Only valid if GetInfo's pCapabilities sets + // CompressionCaps_CanQuality + // - Controls image quality + // - If you are compressing to a fixed data rate, a high quality + // means try and use all of the data rate, and a low quality means + // feel free to use much lower than the data rate if you want to. + // - Quality < 0 means use the compressor default + HRESULT put_Quality ( + [in] double Quality); + + HRESULT get_Quality ( + [out] double * pQuality); + + // If you have set a data rate of 100K/sec on a 10fps movie, that + // will normally mean each frame must be <=10K. But a window size + // means every consecutive n frames must average to the data rate, + // but an individual frame (if n > 1) is allowed to exceed the + // frame size suggested by the data rate + HRESULT put_WindowSize ( + [in] DWORDLONG WindowSize); + + HRESULT get_WindowSize ( + [out] DWORDLONG * pWindowSize); + + // - pszVersion might be "Version 2.1.0" + // - pszDescription might be "Danny's awesome video compressor" + // - pcbVersion and pcbDescription will be filled in with the + // required length if they are too short + // - *pCapabilities is a logical OR of some CompressionCaps flags + HRESULT GetInfo( + [out, size_is(*pcbVersion)] WCHAR * pszVersion, + [in,out] int *pcbVersion, + [out, size_is(*pcbDescription)] LPWSTR pszDescription, + [in,out] int *pcbDescription, + [out] long *pDefaultKeyFrameRate, + [out] long *pDefaultPFramesPerKey, + [out] double *pDefaultQuality, + [out] long *pCapabilities //CompressionCaps + ); + + // - this means when this frame number comes along after the graph + // is running, make it a keyframe even if you weren't going to + HRESULT OverrideKeyFrame( + [in] long FrameNumber + ); + + // - Only valid if GetInfo's pCapabilities sets + // CompressionCaps_CanCrunch + // - this means when this frame number comes along after the graph + // is running, make it this many bytes big instead of whatever size + // you were going to make it. + HRESULT OverrideFrameSize( + [in] long FrameNumber, + [in] long Size + ); + + } + + //--------------------------------------------------------------------- + // VfwCaptureDialogs enum + //--------------------------------------------------------------------- + + typedef enum + { + VfwCaptureDialog_Source = 0x01, + VfwCaptureDialog_Format = 0x02, + VfwCaptureDialog_Display = 0x04 + } VfwCaptureDialogs; + + + //--------------------------------------------------------------------- + // VfwCompressDialogs enum + //--------------------------------------------------------------------- + + typedef enum + { + VfwCompressDialog_Config = 0x01, + VfwCompressDialog_About = 0x02, + // returns S_OK if the dialog exists and can be shown, else S_FALSE + VfwCompressDialog_QueryConfig = 0x04, + VfwCompressDialog_QueryAbout = 0x08 + } VfwCompressDialogs; + + + //--------------------------------------------------------------------- + // IAMVfwCaptureDialogs - filter interface + // + // Show a VfW capture driver dialog - SOURCE, FORMAT, or DISPLAY + //--------------------------------------------------------------------- + + // This interface is supported only by Microsoft's Video For Windows + // capture driver Capture Filter. It allows an application to bring up + // one of the 3 driver dialogs that VfW capture drivers have. + + [ + object, + local, + uuid(D8D715A0-6E5E-11D0-B3F0-00AA003761C5), + pointer_default(unique) + ] + interface IAMVfwCaptureDialogs : IUnknown + { + HRESULT HasDialog( + [in] int iDialog // VfwCaptureDialogs enum + ); + + HRESULT ShowDialog( + [in] int iDialog, // VfwCaptureDialogs enum + [in] HWND hwnd + ); + + HRESULT SendDriverMessage( + [in] int iDialog, // VfwCaptureDialogs enum + [in] int uMsg, + [in] long dw1, + [in] long dw2 + ); + + // - iDialog can be one of the VfwCaptureDialogs enums + // - HasDialog returns S_OK if it has the dialog, else S_FALSE + // - ShowDialog can only be called when not streaming or when another + // dialog is not already up + // - SendDriverMessage can send a private message to the capture driver. + // USE IT AT YOUR OWN RISK! + } + + //--------------------------------------------------------------------- + // IAMVfwCompressDialogs - filter interface + // + // Show a VfW codec driver dialog - CONFIG or ABOUT + //--------------------------------------------------------------------- + + // This interface is supported only by Microsoft's ICM Compressor filter + // (Co). It allows an application to bring up either the Configure or + // About dialogs for the ICM codec that it is currently using. + + [ + object, + local, + uuid(D8D715A3-6E5E-11D0-B3F0-00AA003761C5), + pointer_default(unique) + ] + interface IAMVfwCompressDialogs : IUnknown + { + + // Bring up a dialog for this codec + HRESULT ShowDialog( + [in] int iDialog, // VfwCompressDialogs enum + [in] HWND hwnd + ); + + // Calls ICGetState and gives you the result + HRESULT GetState( + [out, size_is(*pcbState)] LPVOID pState, + [in, out] int *pcbState + ); + + // Calls ICSetState + HRESULT SetState( + [in, size_is(cbState)] LPVOID pState, + [in] int cbState + ); + + // Send a codec specific message + HRESULT SendDriverMessage( + [in] int uMsg, + [in] long dw1, + [in] long dw2 + ); + + // - iDialog can be one of the VfwCaptureDialogs enums + // - ShowDialog can only be called when not streaming or when no other + // dialog is up already + // - an application can call GetState after ShowDialog(CONFIG) to + // see how the compressor was configured and next time the graph + // is used, it can call SetState with the data it saved to return + // the codec to the state configured by the dialog box from last time + // - GetState with a NULL pointer returns the size needed + // - SendDriverMessage can send a private message to the codec. + // USE IT AT YOUR OWN RISK! + } + + + //--------------------------------------------------------------------- + // IAMDroppedFrames interface + // + // Report status of capture - pin interface + //--------------------------------------------------------------------- + + // A capture filter's video output pin supports this. It reports + // how many frames were not sent (dropped), etc. + + // Every time your filter goes from STOPPED-->PAUSED, you reset all your + // counts to zero. + + // An app may call this all the time while you are capturing to see how + // capturing is going. MAKE SURE you always return as current information + // as possible while you are running. + + // When your capture filter starts running, it starts by sending frame 0, + // then 1, 2, 3, etc. The time stamp of each frame sent should correspond + // to the graph clock's time when the image was digitized. The end time + // is the start time plus the duration of the video frame. + // You should also set the MediaTime of each sample (SetMediaTime) as well. + // This should be the frame number ie (0,1) (1,2) (2,3). + // If a frame is dropped, a downstream filter will be able to tell easily + // not by looking for gaps in the regular time stamps, but by noticing a + // frame number is missing (eg. (1,2) (2,3) (4,5) (5,6) means frame 3 + // was dropped. + + // Using the info provided by this interface, an application can figure out + // the number of frames dropped, the frame rate achieved (the length of + // time the graph was running divided by the number of frames not dropped), + // and the data rate acheived (the length of time the graph was running + // divided by the average frame size). + + // If your filter is running, then paused, and then run again, you need + // to continue to deliver frames as if it was never paused. The first + // frame after the second RUN cannot be time stamped earlier than the last + // frame sent before the pause. + + // Your filter must always increment the MediaTime of each sample sent. + // Never send the same frame # twice, and never go back in time. The + // regular time stamp of a sample can also never go back in time. + + [ + object, + uuid(C6E13344-30AC-11d0-A18C-00A0C9118956), + pointer_default(unique) + ] + interface IAMDroppedFrames : IUnknown + { + // Get the number of dropped frames + HRESULT GetNumDropped( + [out] long * plDropped + + ); + + //Get the number of non-dropped frames + HRESULT GetNumNotDropped( + [out] long * plNotDropped + + ); + + // - plArray points to an array of lSize longs. The filter will + // fill it with the frame number of the first lSize frames dropped. + // A filter may not have bothered to remember as many as you asked + // for, so it will set *plNumCopied to the number of frames it filled + // in. + HRESULT GetDroppedInfo( + [in] long lSize, + [out] long * plArray, + [out] long * plNumCopied + ); + + // - This is the average size of the frames it didn't drop (in bytes) + HRESULT GetAverageFrameSize( + [out] long * plAverageSize + + ); + + } + + + + cpp_quote("#define AMF_AUTOMATICGAIN -1.0") + + //--------------------------------------------------------------------- + // IAMAudioInputMixer interface + // + // Sets the recording levels, pan and EQ for the audio card inputs + //--------------------------------------------------------------------- + + // This interface is implemented by each input pin of an audio capture + // filter, to tell it what level, panning, and EQ to use for each input. + // The name of each pin will reflect the type of input, eg. "Line input 1" + // or "Mic". An application uses the pin names to decide how it wants to + // set the recording levels + + // This interface can also be supported by the audio capture filter itself + // to control to overall record level and panning after the mix + + [ + object, + uuid(54C39221-8380-11d0-B3F0-00AA003761C5), + pointer_default(unique) + ] + interface IAMAudioInputMixer : IUnknown + { + // This interface is only supported by the input pins, not the filter + // If disabled, this channel will not be mixed in as part of the + // recorded signal. + HRESULT put_Enable ( + [in] BOOL fEnable); // TRUE=enable FALSE=disable + + //Is this channel enabled? + HRESULT get_Enable ( + [out] BOOL *pfEnable); + + // When set to mono mode, making a stereo recording of this channel + // will have both channels contain the same data... a mixture of the + // left and right signals + HRESULT put_Mono ( + [in] BOOL fMono); // TRUE=mono FALSE=multi channel + + //all channels combined into a mono signal? + HRESULT get_Mono ( + [out] BOOL *pfMono); + + // !!! WILL CARDS BE ABLE TO BOOST THE GAIN? + //Set the record level for this channel + HRESULT put_MixLevel ( + [in] double Level); // 0 = off, 1 = full (unity?) volume + // AMF_AUTOMATICGAIN, if supported, + // means automatic + + //Get the record level for this channel + HRESULT get_MixLevel ( + [out] double *pLevel); + + // For instance, when panned full left, and you make a stereo recording + // of this channel, you will record a silent right channel. + HRESULT put_Pan ( + [in] double Pan); // -1 = full left, 0 = centre, 1 = right + + //Get the pan for this channel + HRESULT get_Pan ( + [out] double *pPan); + + // Boosts the bass of low volume signals before they are recorded + // to compensate for the fact that your ear has trouble hearing quiet + // bass sounds + HRESULT put_Loudness ( + [in] BOOL fLoudness);// TRUE=on FALSE=off + + HRESULT get_Loudness ( + [out] BOOL *pfLoudness); + + // boosts or cuts the treble of the signal before it's recorded by + // a certain amount of dB + HRESULT put_Treble ( + [in] double Treble); // gain in dB (-ve = attenuate) + + //Get the treble EQ for this channel + HRESULT get_Treble ( + [out] double *pTreble); + + // This is the maximum value allowed in put_Treble. ie 6.0 means + // any value between -6.0 and 6.0 is allowed + HRESULT get_TrebleRange ( + [out] double *pRange); // largest value allowed + + // boosts or cuts the bass of the signal before it's recorded by + // a certain amount of dB + HRESULT put_Bass ( + [in] double Bass); // gain in dB (-ve = attenuate) + + // Get the bass EQ for this channel + HRESULT get_Bass ( + [out] double *pBass); + + // This is the maximum value allowed in put_Bass. ie 6.0 means + // any value between -6.0 and 6.0 is allowed + HRESULT get_BassRange ( + [out] double *pRange); // largest value allowed + + } + + + //--------------------------------------------------------------------- + // IAMBufferNegotiation interface + // + // Tells a pin what kinds of buffers to use when connected + //--------------------------------------------------------------------- + + // This interface can be implemented by any pin that will connect to + // another pin using IMemInputPin. All capture filters should support + // this interface. + + // SuggestAllocatorProperties is a way for an application to get + // in on the buffer negotiation process for a pin. This pin will use + // the numbers given to it by the application as its request to the + // allocator. An application can use a negative number for any element + // in the ALLOCATOR_PROPERTIES to mean "don't care". An application must + // call this function before the pin is connected, or it will be too late + // To ensure that an application gets what it wants, it would be wise to + // call this method on both pins being connected together, so the other + // pin doesn't overrule the application's request. + + // GetAllocatorProperties can only be called after a pin is connected and + // it returns the properties of the current allocator being used + + [ + object, + uuid(56ED71A0-AF5F-11D0-B3F0-00AA003761C5), + pointer_default(unique) + ] + interface IAMBufferNegotiation : IUnknown + { + HRESULT SuggestAllocatorProperties ( + [in] const ALLOCATOR_PROPERTIES *pprop); + + HRESULT GetAllocatorProperties ( + [out] ALLOCATOR_PROPERTIES *pprop); + + } + + + //--------------------------------------------------------------------- + // AnalogVideoStandard enum + //--------------------------------------------------------------------- + + typedef enum tagAnalogVideoStandard + { + AnalogVideo_None = 0x00000000, // This is a digital sensor + AnalogVideo_NTSC_M = 0x00000001, // 75 IRE Setup + AnalogVideo_NTSC_M_J = 0x00000002, // Japan, 0 IRE Setup + AnalogVideo_NTSC_433 = 0x00000004, + + AnalogVideo_PAL_B = 0x00000010, + AnalogVideo_PAL_D = 0x00000020, + AnalogVideo_PAL_G = 0x00000040, + AnalogVideo_PAL_H = 0x00000080, + AnalogVideo_PAL_I = 0x00000100, + AnalogVideo_PAL_M = 0x00000200, + AnalogVideo_PAL_N = 0x00000400, + + AnalogVideo_PAL_60 = 0x00000800, + + AnalogVideo_SECAM_B = 0x00001000, + AnalogVideo_SECAM_D = 0x00002000, + AnalogVideo_SECAM_G = 0x00004000, + AnalogVideo_SECAM_H = 0x00008000, + AnalogVideo_SECAM_K = 0x00010000, + AnalogVideo_SECAM_K1 = 0x00020000, + AnalogVideo_SECAM_L = 0x00040000, + AnalogVideo_SECAM_L1 = 0x00080000, + + AnalogVideo_PAL_N_COMBO // Argentina + = 0x00100000 + } AnalogVideoStandard; + + cpp_quote("#define AnalogVideo_NTSC_Mask 0x00000007") + cpp_quote("#define AnalogVideo_PAL_Mask 0x00100FF0") + cpp_quote("#define AnalogVideo_SECAM_Mask 0x000FF000") + + + //--------------------------------------------------------------------- + // TunerInputType enum + //--------------------------------------------------------------------- + + typedef enum tagTunerInputType + { + TunerInputCable, + TunerInputAntenna + } TunerInputType; + + //--------------------------------------------------------------------- + // VideoCopyProtectionType enum + //--------------------------------------------------------------------- + + typedef enum + { + VideoCopyProtectionMacrovisionBasic, + VideoCopyProtectionMacrovisionCBI + } VideoCopyProtectionType; + + //--------------------------------------------------------------------- + // PhysicalConnectorType enum + //--------------------------------------------------------------------- + + typedef enum tagPhysicalConnectorType + { + PhysConn_Video_Tuner = 1, + PhysConn_Video_Composite, + PhysConn_Video_SVideo, + PhysConn_Video_RGB, + PhysConn_Video_YRYBY, + PhysConn_Video_SerialDigital, + PhysConn_Video_ParallelDigital, + PhysConn_Video_SCSI, + PhysConn_Video_AUX, + PhysConn_Video_1394, + PhysConn_Video_USB, + PhysConn_Video_VideoDecoder, + PhysConn_Video_VideoEncoder, + PhysConn_Video_SCART, + PhysConn_Video_Black, + + + PhysConn_Audio_Tuner = 0x1000, + PhysConn_Audio_Line, + PhysConn_Audio_Mic, + PhysConn_Audio_AESDigital, + PhysConn_Audio_SPDIFDigital, + PhysConn_Audio_SCSI, + PhysConn_Audio_AUX, + PhysConn_Audio_1394, + PhysConn_Audio_USB, + PhysConn_Audio_AudioDecoder, + } PhysicalConnectorType; + + + + + //--------------------------------------------------------------------- + // IAMAnalogVideoDecoder interface + //--------------------------------------------------------------------- + + [ + object, + uuid(C6E13350-30AC-11d0-A18C-00A0C9118956), + pointer_default(unique) + ] + interface IAMAnalogVideoDecoder : IUnknown + { + + //Gets the supported analog video standards (NTSC/M, PAL/B, SECAM/K1... + HRESULT get_AvailableTVFormats( + [out] long *lAnalogVideoStandard + ); + + //Sets or gets the current analog video standard (NTSC/M, PAL/B, SECAM/K1, ... + HRESULT put_TVFormat( + [in] long lAnalogVideoStandard + ); + + // Sets or gets the current analog video standard (NTSC/M, PAL/B, SECAM/K1, ... + HRESULT get_TVFormat( + [out] long * plAnalogVideoStandard + ); + + // True if horizontal sync is locked + HRESULT get_HorizontalLocked ( + [out] long * plLocked); + + // True if connected to a VCR (changes PLL timing) + HRESULT put_VCRHorizontalLocking ( + [in] long lVCRHorizontalLocking); + + HRESULT get_VCRHorizontalLocking ( + [out] long * plVCRHorizontalLocking); + + // Returns the number of lines in the video signal")] + HRESULT get_NumberOfLines ( + [out] long *plNumberOfLines); + + // Enables or disables the output bus + HRESULT put_OutputEnable ( + [in] long lOutputEnable); + + HRESULT get_OutputEnable ( + [out] long *plOutputEnable); + + } + + + //--------------------------------------------------------------------- + // VideoProcAmp Property enum + //--------------------------------------------------------------------- + + typedef enum tagVideoProcAmpProperty + { + VideoProcAmp_Brightness, + VideoProcAmp_Contrast, + VideoProcAmp_Hue, + VideoProcAmp_Saturation, + VideoProcAmp_Sharpness, + VideoProcAmp_Gamma, + VideoProcAmp_ColorEnable, + VideoProcAmp_WhiteBalance, + VideoProcAmp_BacklightCompensation, + VideoProcAmp_Gain + } VideoProcAmpProperty; + + //--------------------------------------------------------------------- + // VideoProcAmp Flags enum + //--------------------------------------------------------------------- + + typedef enum tagVideoProcAmpFlags + { + VideoProcAmp_Flags_Auto = 0x0001, + VideoProcAmp_Flags_Manual = 0x0002 + } VideoProcAmpFlags; + + //--------------------------------------------------------------------- + // IAMVideoProcAmp interface + // + // Adjusts video quality in either the analog or digital domain. + // + //--------------------------------------------------------------------- + + [ + object, + uuid(C6E13360-30AC-11d0-A18C-00A0C9118956), + pointer_default(unique) + ] + interface IAMVideoProcAmp : IUnknown + { + // Returns min, max, step size, and default values + HRESULT GetRange( + [in] long Property, // Which property to query + [out] long * pMin, // Range minimum + [out] long * pMax, // Range maxumum + [out] long * pSteppingDelta,// Step size + [out] long * pDefault, // Default value + [out] long * pCapsFlags // VideoProcAmpFlags + + ); + + // Set a VideoProcAmp property + HRESULT Set( + [in] long Property, // VideoProcAmpProperty + [in] long lValue, // Value to set + [in] long Flags // VideoProcAmp_Flags_* + + ); + + // Get a VideoProcAmp property + HRESULT Get( + [in] long Property, // VideoProcAmpProperty + [out] long * lValue, // Current value + [out] long * Flags // VideoProcAmp_Flags_* + ); + } + + + //--------------------------------------------------------------------- + // CameraControl Property enum + //--------------------------------------------------------------------- + + typedef enum tagCameraControlProperty + { + CameraControl_Pan, + CameraControl_Tilt, + CameraControl_Roll, + CameraControl_Zoom, + CameraControl_Exposure, + CameraControl_Iris, + CameraControl_Focus + } CameraControlProperty; + + //--------------------------------------------------------------------- + // CameraControl Flags enum + //--------------------------------------------------------------------- + + typedef enum tagCameraControlFlags + { + CameraControl_Flags_Auto = 0x0001, + CameraControl_Flags_Manual = 0x0002 + } CameraControlFlags; + + //--------------------------------------------------------------------- + // IAMCameraControl interface + // + // Control of local or remote cameras + //--------------------------------------------------------------------- + + [ + object, + uuid(C6E13370-30AC-11d0-A18C-00A0C9118956), + pointer_default(unique) + ] + interface IAMCameraControl : IUnknown + { + // Returns min, max, step size, and default values + HRESULT GetRange( + [in] long Property, // Which property to query + [out] long * pMin, // Range minimum + [out] long * pMax, // Range maxumum + [out] long * pSteppingDelta,// Step size + [out] long * pDefault, // Default value + [out] long * pCapsFlags // CamaeraControlFlags + + ); + + // Set a CameraControl property + HRESULT Set( + [in] long Property, // CameraControlProperty + [in] long lValue, // Value to set + [in] long Flags // CameraControl_Flags_* + + ); + + // Get a CameraControl property + HRESULT Get( + [in] long Property, // CameraControlProperty + [out] long * lValue, // Current value + [out] long * Flags // CameraControl_Flags_* + ); + } + + //--------------------------------------------------------------------- + // VideoControl Flags enum + //--------------------------------------------------------------------- + + typedef enum tagVideoControlFlags + { + VideoControlFlag_FlipHorizontal = 0x0001, + VideoControlFlag_FlipVertical = 0x0002, + VideoControlFlag_ExternalTriggerEnable = 0x0004, + VideoControlFlag_Trigger = 0x0008 + + } VideoControlFlags; + + //--------------------------------------------------------------------- + // IAMVideoControl interface + // + // Control of horizontal & vertical flip, external trigger, + // and listing available frame rates + //--------------------------------------------------------------------- + + [ + object, + uuid(6a2e0670-28e4-11d0-a18c-00a0c9118956), + pointer_default(unique) + ] + interface IAMVideoControl : IUnknown + { + // What can the underlying hardware do? + HRESULT GetCaps( + [in] IPin * pPin, // the pin to query or control + [out] long * pCapsFlags // VideoControlFlag_* + + ); + + // Set the mode of operation + HRESULT SetMode( + [in] IPin * pPin, // the pin to query or control + [in] long Mode // VideoControlFlag_* + + ); + + // Get the mode of operation + HRESULT GetMode( + [in] IPin * pPin, // the pin to query or control + [out] long * Mode // VideoControlFlag_* + ); + + // Get actual frame rate info for USB and 1394 + // This is only available when streaming + HRESULT GetCurrentActualFrameRate( + [in] IPin * pPin, // the pin to query or control + [out] LONGLONG * ActualFrameRate // 100 nS units + ); + + // Get max available frame rate info for USB and 1394 + // Returns the max frame rate currently available based on bus bandwidth usage + HRESULT GetMaxAvailableFrameRate( + [in] IPin * pPin, // the pin to query or control + [in] long iIndex, // 0 to IAMStreamConfig->GetNumberOfCapabilities-1 + [in] SIZE Dimensions, // width and height + [out] LONGLONG * MaxAvailableFrameRate // 100 nS units + ); + + // Get List of available frame rates + HRESULT GetFrameRateList( + [in] IPin * pPin, // the pin to query or control + [in] long iIndex, // 0 to IAMStreamConfig->GetNumberOfCapabilities-1 + [in] SIZE Dimensions, // width and height + [out] long * ListSize, // Number of elements in the list + [out] LONGLONG ** FrameRates // Array of framerates in 100 nS units + // or NULL to just get ListSize + ); + + } + + + //--------------------------------------------------------------------- + // IAMCrossbar interface + // + // Controls a routing matrix for analog or digital video or audio + //--------------------------------------------------------------------- + + [ + object, + uuid(C6E13380-30AC-11d0-A18C-00A0C9118956), + pointer_default(unique) + ] + interface IAMCrossbar : IUnknown + { + + // How many pins are there? + HRESULT get_PinCounts( + [out] long * OutputPinCount, // count of output pins + [out] long * InputPinCount); // count of input pins + + // True if routing is possible + HRESULT CanRoute ( + [in] long OutputPinIndex, // the output pin + [in] long InputPinIndex); // the input pin + + // Routes an input pin to an output pin + HRESULT Route ( + [in] long OutputPinIndex, // the output pin + [in] long InputPinIndex); // the input pin + + // Returns the input pin connected to a given output pin + HRESULT get_IsRoutedTo ( + [in] long OutputPinIndex, // the output pin + [out] long * InputPinIndex); // the connected input pin + + // Returns a pin which is related to a given pin + // (ie. this audio pin is related to a video pin) + HRESULT get_CrossbarPinInfo ( + [in] BOOL IsInputPin, // TRUE for input pins + [in] long PinIndex, // a pin + [out] long * PinIndexRelated, // Index of related pin + [out] long * PhysicalType); // Physical type of pin + + } + + + //--------------------------------------------------------------------- + // IAMTuner interface + // + // base tuner device + //--------------------------------------------------------------------- + + // predefined subchannel values + typedef enum tagAMTunerSubChannel + { + AMTUNER_SUBCHAN_NO_TUNE = -2, // don't tune + AMTUNER_SUBCHAN_DEFAULT = -1 // use default sub chan + } AMTunerSubChannel; + + // predefined signal strength values + typedef enum tagAMTunerSignalStrength + { + AMTUNER_HASNOSIGNALSTRENGTH = -1, // cannot indicate signal strength + AMTUNER_NOSIGNAL = 0, // no signal available + AMTUNER_SIGNALPRESENT = 1 // signal present + } AMTunerSignalStrength; + + // specifies the mode of operation of the tuner + typedef enum tagAMTunerModeType + { + AMTUNER_MODE_DEFAULT = 0x0000, // default tuner mode + AMTUNER_MODE_TV = 0x0001, // tv + AMTUNER_MODE_FM_RADIO = 0x0002, // fm radio + AMTUNER_MODE_AM_RADIO = 0x0004, // am radio + AMTUNER_MODE_DSS = 0x0008, // dss + } AMTunerModeType; + + // Events reported by IAMTunerNotification + typedef enum tagAMTunerEventType{ + AMTUNER_EVENT_CHANGED = 0x0001, // status changed + } AMTunerEventType; + + interface IAMTunerNotification; + + [ + object, + uuid(211A8761-03AC-11d1-8D13-00AA00BD8339), + pointer_default(unique) + ] + interface IAMTuner : IUnknown + { + // Sets and gets the Channel + HRESULT put_Channel( + [in] long lChannel, + [in] long lVideoSubChannel, + [in] long lAudioSubChannel + ); + HRESULT get_Channel( + [out] long *plChannel, + [out] long *plVideoSubChannel, + [out] long *plAudioSubChannel + ); + + // Gets the minimum and maximum channel available + HRESULT ChannelMinMax( + [out] long *lChannelMin, + [out] long *lChannelMax + ); + + // CountryCode is the same as the international + // long distance telephone dialing prefix + + HRESULT put_CountryCode( + [in] long lCountryCode + ); + HRESULT get_CountryCode( + [out] long *plCountryCode + ); + + HRESULT put_TuningSpace( + [in] long lTuningSpace + ); + HRESULT get_TuningSpace( + [out] long *plTuningSpace + ); + + [local] HRESULT Logon( + [in] HANDLE hCurrentUser + ); + HRESULT Logout(); + + // Signal status for current channel + // signal strength == TUNER_NOSIGNAL, or strength value + HRESULT SignalPresent( + [out] long * plSignalStrength // AMTunerSignalStrength + ); + + // allow multifunction tuner to be switch between modes + HRESULT put_Mode( + [in] AMTunerModeType lMode // AMTunerModeType + ); + HRESULT get_Mode( + [out] AMTunerModeType *plMode // AMTunerModeType + ); + + // retrieve a bitmask of the possible modes + HRESULT GetAvailableModes( + [out] long *plModes // AMTunerModeType + ); + + // allow IAMTuner clients to receive event notification + HRESULT RegisterNotificationCallBack( + [in] IAMTunerNotification *pNotify, + [in] long lEvents // bitmask from AMTunerEventType enumeration + ); + HRESULT UnRegisterNotificationCallBack( + [in] IAMTunerNotification *pNotify + ); + } + + //--------------------------------------------------------------------- + // IAMTunerNotification interface + // + // Provided to IAMTuner if notification callbacks are desired + //--------------------------------------------------------------------- + + [ + object, + uuid(211A8760-03AC-11d1-8D13-00AA00BD8339), + pointer_default(unique) + ] + interface IAMTunerNotification : IUnknown + { + HRESULT OnEvent([in] AMTunerEventType Event); + } + + + //--------------------------------------------------------------------- + // IAMTVTuner interface + // + // Controls an analog TV tuner device + //--------------------------------------------------------------------- + + [ + object, + uuid(211A8766-03AC-11d1-8D13-00AA00BD8339), + pointer_default(unique) + ] + interface IAMTVTuner : IAMTuner + { + // Gets the supported analog video standards (NTSC/M, PAL/B, SECAM/K1, ... + HRESULT get_AvailableTVFormats( + [out] long *lAnalogVideoStandard + ); + + // Gets the current analog video standard (NTSC/M, PAL/B, SECAM/K1, ...) + HRESULT get_TVFormat( + [out] long * plAnalogVideoStandard + ); + + // Scans for a signal on a given channel + // NOTE: this is equivalent to put_Channel(), SignalStrength() + HRESULT AutoTune( + [in] long lChannel, + [out] long * plFoundSignal + ); + + // Saves the fine tuning information for all channels")] + HRESULT StoreAutoTune(); + + // The number of TV sources plugged into the tuner + HRESULT get_NumInputConnections( + [out] long * plNumInputConnections + ); + + // Sets or gets the tuner input type (Cable or Antenna) + HRESULT put_InputType( + [in] long lIndex, + [in] TunerInputType InputType + ); + HRESULT get_InputType( + [in] long lIndex, + [out] TunerInputType * pInputType + ); + + // Sets or gets the tuner input + HRESULT put_ConnectInput( + [in] long lIndex + ); + HRESULT get_ConnectInput( + [out] long *plIndex + ); + + // Gets the video and audio carrier frequencies + HRESULT get_VideoFrequency( + [out] long *lFreq + ); + HRESULT get_AudioFrequency( + [out] long *lFreq + ); + } + + + //--------------------------------------------------------------------- + // IBPCSatelliteTuner interface + // + // An interface supporting Satellite tuning-related functions + //--------------------------------------------------------------------- + [ + object, + local, + uuid(211A8765-03AC-11d1-8D13-00AA00BD8339), + pointer_default(unique) + ] + interface IBPCSatelliteTuner : IAMTuner + { + HRESULT get_DefaultSubChannelTypes( + [out] long *plDefaultVideoType, // Provider-specific service type + [out] long *plDefaultAudioType // Provider-specific service type + ); + + HRESULT put_DefaultSubChannelTypes( + [in] long lDefaultVideoType, // Provider-specific service type + [in] long lDefaultAudioType // Provider-specific service type + ); + + HRESULT IsTapingPermitted(); // S_OK yes, S_FALSE no + } + + + + //--------------------------------------------------------------------- + // IAMTVAudio interface + // + // TV Audio control + //--------------------------------------------------------------------- + + typedef enum tagTVAudioMode + { + AMTVAUDIO_MODE_MONO = 0x0001, // Mono + AMTVAUDIO_MODE_STEREO = 0x0002, // Stereo + AMTVAUDIO_MODE_LANG_A = 0x0010, // Primary language + AMTVAUDIO_MODE_LANG_B = 0x0020, // 2nd avail language + AMTVAUDIO_MODE_LANG_C = 0x0040, // 3rd avail language + } TVAudioMode; + + // Events reported by IAMTVAudioNotification + typedef enum tagAMTVAudioEventType + { + AMTVAUDIO_EVENT_CHANGED = 0x0001, // mode changed + } AMTVAudioEventType; + + interface IAMTVAudioNotification; + + [ + object, + local, + uuid(83EC1C30-23D1-11d1-99E6-00A0C9560266), + pointer_default(unique) + ] + interface IAMTVAudio : IUnknown + { + // retrieve a bitmask of the formats available in the hardware + HRESULT GetHardwareSupportedTVAudioModes( + [out] long *plModes // TVAudioMode + ); + + // retrieve a bitmask of the possible modes + HRESULT GetAvailableTVAudioModes( + [out] long *plModes // TVAudioMode + ); + + HRESULT get_TVAudioMode( + [out] long *plMode // TVAudioMode + ); + HRESULT put_TVAudioMode( + [in] long lMode // TVAudioMode + ); + + // allow IAMTVAudio clients to receive event notification + HRESULT RegisterNotificationCallBack( + [in] IAMTunerNotification *pNotify, + [in] long lEvents // bitmask from AMTVAudioEventType enumeration + ); + HRESULT UnRegisterNotificationCallBack( + IAMTunerNotification *pNotify + ); + } + + //--------------------------------------------------------------------- + // IAMTVAudioNotification interface + // + // Provided to IAMTVAudio clients if notification callbacks are desired + //--------------------------------------------------------------------- + + [ + object, + local, + uuid(83EC1C33-23D1-11d1-99E6-00A0C9560266), + pointer_default(unique) + ] + interface IAMTVAudioNotification : IUnknown + { + HRESULT OnEvent([in] AMTVAudioEventType Event); + } + + + + + //--------------------------------------------------------------------- + // IAMAnalogVideoEncoder interface + //--------------------------------------------------------------------- + + [ + object, + uuid(C6E133B0-30AC-11d0-A18C-00A0C9118956), + pointer_default(unique) + ] + interface IAMAnalogVideoEncoder : IUnknown + { + // Gets the supported analog video standards (NTSC/M, PAL/B, SECAM/K1, ...) + HRESULT get_AvailableTVFormats( + [out] long *lAnalogVideoStandard + ); + + // Sets or gets the current analog video standard (NTSC/M, PAL/B, SECAM/K1, ...) + HRESULT put_TVFormat( + [in] long lAnalogVideoStandard + ); + + HRESULT get_TVFormat( + [out] long * plAnalogVideoStandard + ); + + // Sets or gets the copy protection + HRESULT put_CopyProtection ( + [in] long lVideoCopyProtection); // VideoCopyProtectionType + + HRESULT get_CopyProtection ( + [out] long *lVideoCopyProtection); // VideoCopyProtectionType + + + // Enables and disables close captioning + HRESULT put_CCEnable ( + [in] long lCCEnable); + + HRESULT get_CCEnable ( + [out] long *lCCEnable); + + } + + // used by IKsPropertySet set AMPROPSETID_Pin + typedef enum { + AMPROPERTY_PIN_CATEGORY, + AMPROPERTY_PIN_MEDIUM + } AMPROPERTY_PIN; + + //--------------------------------------------------------------------- + // IKsPropertySet interface + // + // Sets or gets a property identified by a property set GUID and a + // property ID. + // + // Return codes for all 3 methods: + // E_PROP_SET_UNSUPPORTED the property set is not supported + // E_PROP_ID_UNSUPPORTED the property ID is not supported + // for the specified property set + //--------------------------------------------------------------------- + +cpp_quote("#ifndef _IKsPropertySet_") +cpp_quote("#define _IKsPropertySet_") + + //--------------------------------------------------------------------- + // #defines for IKsPropertySet::QuerySupported return result in pTypeSupport + //--------------------------------------------------------------------- + +cpp_quote("#define KSPROPERTY_SUPPORT_GET 1") +cpp_quote("#define KSPROPERTY_SUPPORT_SET 2") + + + [ + object, + uuid(31EFAC30-515C-11d0-A9AA-00AA0061BE93), + pointer_default(unique) + ] + interface IKsPropertySet : IUnknown + { + [local] HRESULT Set( + [in] REFGUID guidPropSet, + [in] DWORD dwPropID, + [in, size_is(cbInstanceData)] LPVOID pInstanceData, + [in] DWORD cbInstanceData, + [in, size_is(cbPropData)] LPVOID pPropData, + [in] DWORD cbPropData); + + [call_as(Set)] HRESULT RemoteSet( + [in] REFGUID guidPropSet, + [in] DWORD dwPropID, + [in, size_is(cbInstanceData)] byte * pInstanceData, + [in] DWORD cbInstanceData, + [in, size_is(cbPropData)] byte * pPropData, + [in] DWORD cbPropData); + + // To get a property, the caller allocates a buffer which the called + // function fills in. To determine necessary buffer size, call Get with + // pPropData=NULL and cbPropData=0. + [local] HRESULT Get( + [in] REFGUID guidPropSet, + [in] DWORD dwPropID, + [in, size_is(cbInstanceData)] LPVOID pInstanceData, + [in] DWORD cbInstanceData, + [out, size_is(cbPropData)] LPVOID pPropData, + [in] DWORD cbPropData, + [out] DWORD * pcbReturned); + + [call_as(Get)] HRESULT RemoteGet( + [in] REFGUID guidPropSet, + [in] DWORD dwPropID, + [in, size_is(cbInstanceData)] byte * pInstanceData, + [in] DWORD cbInstanceData, + [out, size_is(cbPropData)] byte * pPropData, + [in] DWORD cbPropData, + [out] DWORD * pcbReturned); + // QuerySupported must either return E_NOTIMPL or correctly indicate + // if getting or setting the property set and property is supported. + // S_OK indicates the property set and property ID combination is + HRESULT QuerySupported( + [in] REFGUID guidPropSet, + [in] DWORD dwPropID, + [out] DWORD *pTypeSupport); + } +cpp_quote("#endif // _IKsPropertySet_") + +[ +object, +uuid(6025A880-C0D5-11d0-BD4E-00A0C911CE86), +pointer_default(unique) +] +interface IMediaPropertyBag : IPropertyBag +{ + import "ocidl.idl"; + + typedef IMediaPropertyBag *LPMEDIAPROPERTYBAG; + + // return the i'th element in the property bag + HRESULT EnumProperty( + [in] ULONG iProperty, + [in, out] VARIANT * pvarPropertyName, + [in, out] VARIANT * pvarPropertyValue + ); + +} + + +[ +object, +uuid(5738E040-B67F-11d0-BD4D-00A0C911CE86), +pointer_default(unique) +] +interface IPersistMediaPropertyBag : IPersist +{ + import "ocidl.idl"; + import "unknwn.idl"; + + HRESULT InitNew( + void + ); + + HRESULT Load( + [in] IMediaPropertyBag * pPropBag, + [in] IErrorLog * pErrorLog + ); + + HRESULT Save( + [in] IMediaPropertyBag * pPropBag, + [in] BOOL fClearDirty, + [in] BOOL fSaveAllProperties + ); + + + typedef IPersistMediaPropertyBag * LPPERSISTMEDIAPROPERTYBAG; +} + + + //--------------------------------------------------------------------- + // + // Defines IAMPhysicalPinInfo Interface + // + // Returns an enum and string that describes an input pin's physical type. + // + // Implement if: you have physical input pins such as video or audio (like + // on a video capture card or a VCR) + // + // Use if: you want to communicate to a user available physical input pins + // and allow them to select the active one if there is more than one + //--------------------------------------------------------------------- + + +[ + object, + uuid(F938C991-3029-11cf-8C44-00AA006B6814), + pointer_default(unique) + ] +interface IAMPhysicalPinInfo : IUnknown { + + // Returns VFW_E_NO_ACCEPTABLE_TYPES if not a physical pin + HRESULT GetPhysicalType( + [out] long *pType, // the enum representing the Physical Type + [out] LPOLESTR *ppszType // a friendly name + ); +} +typedef IAMPhysicalPinInfo *PAMPHYSICALPININFO; + + //--------------------------------------------------------------------- + // Defines IAMExtDevice Interface + // + // Base interface for external professional devices + // + // Implement if: the filter controls an external device such as a VCR, + // timecode reader/generator, etc. The intent is to build a object from + // this implementation plus another that specifically describes the device, + // such as IAMExtTransport. + // + // Use if: you want to control and external device such as a VCR + // + // See edevdefs.h for the enumerated parameter list + //--------------------------------------------------------------------- + [ + object, + uuid(B5730A90-1A2C-11cf-8C23-00AA006B6814), + pointer_default(unique) + ] + interface IAMExtDevice : IUnknown + { + // General device capabilities property. See edevdefs.h for supported + // values + HRESULT GetCapability( + [in] long Capability, // identify the property + [out] long *pValue, // return value + [out] double *pdblValue // return value + ); + + // Get external device identification string. Usually the model # + // of the device + HRESULT get_ExternalDeviceID( + [out] LPOLESTR *ppszData // ID string + ); + + HRESULT get_ExternalDeviceVersion( + [out] LPOLESTR *ppszData // revision string + ); + + // Controls the external device's power mode + HRESULT put_DevicePower([in] long PowerMode + ); + HRESULT get_DevicePower([out] long *pPowerMode + ); + + // Some devices need to be reset in some way, i.e., rewinding a VCR + // to the beginning of the tape and resetting the counter to zero. + HRESULT Calibrate( + [in] HEVENT hEvent, + [in] long Mode, + [out] long *pStatus // OATRUE is active, OAFALSE is inactive + ); + + // Selects the device's communications port, i.e.,COM1, IEEE1394, etc. + // See edevdefs.h for enums + HRESULT put_DevicePort([in] long DevicePort + ); + HRESULT get_DevicePort([out] long *pDevicePort + ); + +} +typedef IAMExtDevice *PEXTDEVICE; + + //--------------------------------------------------------------------- + // Defines IAMExtTransport Interface + // + // Contains properties and methods that control behavior of an external + // transport device such as a VTR + // + // Implement if: you control such a device. Intended to be agregated + // with IAMExtDevice. + // + // Use if: you want to control such a device + // + // See edevdefs.h for the parameter lists + //--------------------------------------------------------------------- +[ + object, + uuid(A03CD5F0-3045-11cf-8C44-00AA006B6814), + pointer_default(unique) + ] +interface IAMExtTransport : IUnknown { + + // General transport capabilities property. See edevdefs.h for enums + HRESULT GetCapability( + [in] long Capability, // identify the property + [out] long *pValue, // return value + [out] double *pdblValue // return value + ); + + // For disc-based devices: spinning, or not spinning. + // For tape-based device: threaded, unthreaded or ejected + HRESULT put_MediaState([in] long State + ); + HRESULT get_MediaState([out] long *pState // see edevdefs.h + ); + + // Determines state of unit's front panel + HRESULT put_LocalControl([in] long State + ); + HRESULT get_LocalControl([out] long *pState // OATRUE or OAFALSE + ); + + // Transport status such as Play, Stop, etc. More extensive + // than AM states. + HRESULT GetStatus( + [in] long StatusItem, // see edevdefs.h + [out] long *pValue + ); + + // Parameters such as recording speed, servo reference, ballistics, etc. + HRESULT GetTransportBasicParameters( + [in] long Param, + [out] long *pValue, + [out] LPOLESTR *ppszData + ); + + HRESULT SetTransportBasicParameters( + [in] long Param, + [in] long Value, + [in] LPCOLESTR pszData + ); + + // Parameters such as video output mode + HRESULT GetTransportVideoParameters( + [in] long Param, + [out] long *pValue + ); + + HRESULT SetTransportVideoParameters( + [in] long Param, + [in] long Value + ); + + // Parameters such as audio channel enable + HRESULT GetTransportAudioParameters( + [in] long Param, + [out] long *pValue + ); + + HRESULT SetTransportAudioParameters( + [in] long Param, + [in] long Value + ); + + // Mode is the movement of the transport, i.e., Play, Stop, + // Record, Edit, etc. + HRESULT put_Mode([in] long Mode + ); + HRESULT get_Mode([out] long *pMode + ); + + // Rate is for variable speed control of the the device. This + // can be linked to IMediaControl::Rate() in the implementation + // if desired. + HRESULT put_Rate([in] double dblRate + ); + HRESULT get_Rate([out] double *pdblRate + ); + + // This is a lengthy method, that is, it is in effect until canceled or complete and + // requires housekeeping by the filter. It puts transport in play mode and maintains + // fixed relationship between master time reference and transport position. + HRESULT GetChase( + [out] long *pEnabled, // OATRUE | OAFALSE + [out] long *pOffset, // offset in current time format + [out] HEVENT *phEvent // completion notification + ); + HRESULT SetChase( + [in] long Enable, // OATRUE | OAFALSE + [in] long Offset, // offset in current time format + [in] HEVENT hEvent // completion notification + ); + + // Also a lengthy method: temporarily change transport speed (for synchronizing). + HRESULT GetBump( + [out] long *pSpeed, + [out] long *pDuration // in current time format + ); + HRESULT SetBump( + [in] long Speed, + [in] long Duration // in current time format + ); + + // Enable/Disable transport anti-headclog control. + HRESULT get_AntiClogControl([out] long *pEnabled // OATRUE | OAFALSE + ); + HRESULT put_AntiClogControl([in] long Enable // OATRUE | OAFALSE + ); + + // The following group of properties describes edit events. An edit event can be a + // standard insert or assemble edit or a memorized position called a bookmark. + // A NOTE ABOUT EVENTS: as with all lengthy commands, event objects must be created to + // signal completion or error. + + // Intended usage: an edit event is prepared for use by: + // 1. Registering an edit property set and getting an EditID + // 2. Setting the necessary edit properties + // 3. Setting the edit property set active + + // Please see edevdefs.h for properties and values + + // The reference clock's advance is the mechanism that puts an edit in motion (see + // ED_EDIT_REC_INPOINT). + + // Property set methods + HRESULT GetEditPropertySet( + [in] long EditID, + [out] long *pState // ED_SET_ACTIVE | ED_SET_INACTIVE | ED_SET_INVALID + // | ED_SET_EXECUTING + ); + + HRESULT SetEditPropertySet( + [in, out] long *pEditID, + [in] long State // ED_SET_REGISTER | ED_SET_DELETE | ED_SET_ACTIVE | + ); // ED_SET_INACTIVE + + // the following properties define an edit event such as a bookmark, seek point, or + // actual edit + HRESULT GetEditProperty( + [in] long EditID, + [in] long Param, + [out] long *pValue + ); + HRESULT SetEditProperty( + [in] long EditID, + [in] long Param, + [in] long Value + ); + + // Activates a capable transport's edit control (typically used for "on the fly" editing). + HRESULT get_EditStart([out] long *pValue // OATRUE or OAFALSE + ); + HRESULT put_EditStart([in] long Value // OATRUE or OAFALSE + ); +} +typedef IAMExtTransport *PIAMEXTTRANSPORT; + + //--------------------------------------------------------------------- + // Defines IAMTimecodeReader Interface + // + // Contains properties and methods that define behavior of a + // SMPTE/MIDI Timecode Reader. It is expected that this interface + // will be combined (aggregated) with IAMExtTransport to "build" a pro + // VCR. + // + // Implement if: you control such a device + // + // Use if: you want to control such a device + // + // See edevdefs.h for the parameter lists + //===================================================================== + + +// timecode structures +cpp_quote("#if 0") +cpp_quote("/* the following is what MIDL knows how to remote */") +typedef struct tagTIMECODE { + WORD wFrameRate; // will be replaced by AM defs, but see ED_FORMAT_SMPTE for now + WORD wFrameFract; // fractional frame. full scale is always 0x1000 + DWORD dwFrames; +}TIMECODE; +cpp_quote("#else /* 0 */") +cpp_quote("#ifndef TIMECODE_DEFINED") +cpp_quote("#define TIMECODE_DEFINED") +cpp_quote("typedef union _timecode {") +cpp_quote(" struct {") +cpp_quote(" WORD wFrameRate;") +cpp_quote(" WORD wFrameFract;") +cpp_quote(" DWORD dwFrames;") +cpp_quote(" };") +cpp_quote(" DWORDLONG qw;") +cpp_quote(" } TIMECODE;") +cpp_quote("") +cpp_quote("#endif /* TIMECODE_DEFINED */") +cpp_quote("#endif /* 0 */") + +typedef TIMECODE *PTIMECODE; + +typedef struct tagTIMECODE_SAMPLE { + LONGLONG qwTick; // ActiveMovie 100ns timestamp + TIMECODE timecode; // timecode + DWORD dwUser; // timecode user data (aka user bits) + DWORD dwFlags; // timecode flags - see below +} TIMECODE_SAMPLE; +typedef TIMECODE_SAMPLE *PTIMECODE_SAMPLE; + + +[ + object, + uuid(9B496CE1-811B-11cf-8C77-00AA006B6814), + pointer_default(unique) +] +interface IAMTimecodeReader : IUnknown +{ + // Timecode Reader Mode - gets/sets the following properties + // ED_TCR_SOURCE - timecode gen (readback), LTC, VITC, or Control Track + HRESULT GetTCRMode( + [in] long Param, + [out] long *pValue); + HRESULT SetTCRMode( + [in] long Param, + [in] long Value); + + // Select which line of the vertical interval timecode will be read from (if VITC). + // To read VITC on specific multiple lines, the caller would make successive calls to + // put_VITCLine(), once for each line desired. + HRESULT put_VITCLine( + [in] long Line ); // valid lines are 11-20, 0 means autoselect, + // hi bit set means add to list of lines (for + // readers that test across multiple lines) + HRESULT get_VITCLine( + [out] long *pLine ); // hi bit set means multiple lines are used, + // and successive calls will cycle through the + // line numbers (like an enumerator, only simpler) + + // GetTimecode can be used to obtain the most recent timecode value available in the + // stream. The client can use this to monitor the timecode, parse duplicates and + // discontinuities. The source filter supplying the timecode or possibly a down stream + // filter might want to parse for discontinuities or errors since you have to look at + // every sample to do this properly. + // + + HRESULT GetTimecode( + [out] PTIMECODE_SAMPLE pTimecodeSample) ; + +} +typedef IAMTimecodeReader *PIAMTIMECODEREADER; + + //--------------------------------------------------------------------- + //===================================================================== + // Defines IAMTimecodeGenerator Interface + // + // Contains properties and methods that define behavior of an external + // SMPTE/MIDI Timecode Generator. It is expected that this interface + // will be combined (aggregated) with IAMExtTransport to "build" a pro + // VCR. + // + // Implement if: you control such a device + // + // Use if: you want to control such a device + // + // See edevdefs.h for the parameter lists + //--------------------------------------------------------------------- +[ + object, + uuid(9B496CE0-811B-11cf-8C77-00AA006B6814), + pointer_default(unique) + ] +interface IAMTimecodeGenerator : IUnknown { + + // Timecode Generator Mode - gets/sets the following properties (see + // vcrdefss.h for detailed values): + // ED_TCG_TIMECODE_TYPE - LTC, VITC, or MIDI + // ED_TCG_FRAMERATE - 24, 25, 30 drop or 30 nondrop + // ED_TCG_SYNC_SOURCE - what is driving the bitclock + // ED_TCG_REFERENCE_SOURCE - what is driving the count value + HRESULT GetTCGMode( + [in] long Param, + [out] long *pValue); + + HRESULT SetTCGMode( + [in] long Param, + [in] long Value); + + // Select into which line(s) of the vertical interval timecode will be inserted (if VITC). + // Hi bit set means add this line to any previously set lines. + // To generate VITC on specific multiple lines, the caller would make successive calls to + // put_VITCLine(), once for each line desired. + HRESULT put_VITCLine( + [in] long Line // valid lines are 11-20, 0 means autoselect(this setting + ); // is for TC readers that decode from multiple lines) + HRESULT get_VITCLine( + [out] long *pLine + ); + + // Sets timecode and/or userbit value. If generator is running, takes effect + // immediately. If caller wants to set only timecode, set userbit value to -1L (and + // same for setting userbits only) + // + + HRESULT SetTimecode( + [in] PTIMECODE_SAMPLE pTimecodeSample) ; + + + // GetTimecode can be used to obtain the most recent timecode value available in the + // stream. The client can use this to monitor the timecode and verify the generator is + // working properly + // + + HRESULT GetTimecode( + [out] PTIMECODE_SAMPLE pTimecodeSample) ; + +} +typedef IAMTimecodeGenerator *PIAMTIMECODEGENERATOR; + + //--------------------------------------------------------------------- + // Defines IAMTimecodeDisplay Interface + // + // Contains properties and methods that define behavior of an external + // SMPTE/MIDI Timecode Display device (aka "character generator" for + // making "burn-ins" or "window dubs"). It is expected that this interface + // will be combined (aggregated) with IAMExtTransport and the timecode + // interfaces to "build" a pro VCR. + // + // Implement if: you control such a device + // + // Use if: you want to control such a device + // + // See edevdefs.h for the parameter lists + //--------------------------------------------------------------------- +[ + object, + uuid(9B496CE2-811B-11cf-8C77-00AA006B6814), + pointer_default(unique) + ] +interface IAMTimecodeDisplay : IUnknown +{ + // Enable/disable external device's timecode reader's character generator output. Some + // readers have this feature - this is not intended for rendering inside the PC! + HRESULT GetTCDisplayEnable( + [out] long *pState); // OATRUE | OAFALSE + HRESULT SetTCDisplayEnable( + [in] long State); // OATRUE | OAFALSE + // Timecode reader's character generator output + // characteristics (size, position, intensity, etc.). + HRESULT GetTCDisplay( + [in] long Param, + [out] long *pValue); + HRESULT SetTCDisplay( + [in] long Param, + [in] long Value); + + /* Allowable params and values (see edevdefs.h for details): + ED_TCD_SOURCE + ED_TCR | ED_TCG + ED_TCD_SIZE + ED_SMALL | ED_MED | ED_LARGE + ED_TCD_POSITION + ED_TOP | ED_MIDDLE | ED_BOTTOM or'd with + ED_LEFT | ED_CENTER | ED_RIGHT + ED_TCD_INTENSITY + ED_HIGH | ED_LOW + ED_TCD_TRANSPARENCY // set from 0 to 4, 0 being completely opaque + ED_TCD_INVERT // white on black or black on white + OATRUE | OAFALSE + ED_TCD_BORDER // white border for black chars, black border for white letters + OATRUE | OAFALSE + */ +} +typedef IAMTimecodeDisplay *PIAMTIMECODEDISPLAY; + + +[ + object, + uuid(c6545bf0-e76b-11d0-bd52-00a0c911ce86), + pointer_default(unique) +] +interface IAMDevMemoryAllocator : IUnknown +{ + HRESULT GetInfo( + [out] DWORD *pdwcbTotalFree, + [out] DWORD *pdwcbLargestFree, + [out] DWORD *pdwcbTotalMemory, + [out] DWORD *pdwcbMinimumChunk); + + HRESULT CheckMemory( + [in] const BYTE *pBuffer); + + HRESULT Alloc( + [out] BYTE **ppBuffer, + [in, out] DWORD *pdwcbBuffer); + + HRESULT Free( + [in] BYTE *pBuffer); + + HRESULT GetDevMemoryObject( + [out] IUnknown **ppUnkInnner, + [in] IUnknown *pUnkOuter); +} +typedef IAMDevMemoryAllocator *PAMDEVMEMORYALLOCATOR; + + +[ + object, + uuid(c6545bf1-e76b-11d0-bd52-00a0c911ce86), + pointer_default(unique) +] +interface IAMDevMemoryControl : IUnknown +{ + HRESULT QueryWriteSync(); + + HRESULT WriteSync(); + + HRESULT GetDevId( + [out] DWORD *pdwDevId); + +} +typedef IAMDevMemoryControl *PAMDEVMEMORYCONTROL; + +// Flags for IAMStreamSelection::Info +enum _AMSTREAMSELECTINFOFLAGS { + AMSTREAMSELECTINFO_ENABLED = 0x01, // Enable - off for disable + AMSTREAMSELECTINFO_EXCLUSIVE = 0x02 // Turns off the others in the group + // when enabling this one +}; +// Flags for IAMStreamSelection::Enable +enum _AMSTREAMSELECTENABLEFLAGS { + // Currently valid values are : + // 0 - disable all streams in the group containing this stream + // ..._ENABLE - enable only this stream with in the given group + // and disable all others + // ..._ENABLEALL - send out all streams + AMSTREAMSELECTENABLE_ENABLE = 0x01, // Enable + AMSTREAMSELECTENABLE_ENABLEALL = 0x02 // Enable all streams in the group + // containing this stream +}; + +// Control which logical streams are played and find out information about +// them +// Normally supported by a filter +[ + object, + uuid(c1960960-17f5-11d1-abe1-00a0c905f375), + pointer_default(unique) +] +interface IAMStreamSelect : IUnknown +{ + // Returns total count of streams + HRESULT Count( + [out] DWORD *pcStreams); // Count of logical streams + + // Return info for a given stream - S_FALSE if iIndex out of range + // The first steam in each group is the default + HRESULT Info( + [in] long lIndex, // 0-based index + [out] AM_MEDIA_TYPE **ppmt, // Media type - optional + // Use DeleteMediaType to free + [out] DWORD *pdwFlags, // flags - optional + [out] LCID *plcid, // LCID (returns 0 if none) - optional + [out] DWORD *pdwGroup, // Logical group - optional + [out] WCHAR **ppszName, // Name - optional - free with CoTaskMemFree + // optional + [out] IUnknown **ppObject, // Associated object - optional + // Object may change if Enable is + // called on this interface + // - returns NULL if no associated object + // Returns pin or filter for DShow + [out] IUnknown **ppUnk); // Stream specific interface + + // Enable or disable a given stream + HRESULT Enable( + [in] long lIndex, + [in] DWORD dwFlags); +} +typedef IAMStreamSelect *PAMSTREAMSELECT; + +enum _AMRESCTL_RESERVEFLAGS +{ + AMRESCTL_RESERVEFLAGS_RESERVE = 0x00, // Increment reserve count + AMRESCTL_RESERVEFLAGS_UNRESERVE = 0x01 // Decrement reserve count +}; + +// Reserve resources now so that playback can be subsequently +// guaranteed +// +// Normally supported by a filter +// +[ + object, + uuid(8389d2d0-77d7-11d1-abe6-00a0c905f375), + pointer_default(unique), + local +] +interface IAMResourceControl : IUnknown +{ + // The reserve count is incremented/decremented if and only if + // S_OK is returned + // Unreserve once for every Reserve call + HRESULT Reserve( + [in] DWORD dwFlags, // From _AMRESCTL_RESERVEFLAGS enum + [in] PVOID pvReserved // Must be NULL + ); +} + + +// Set clock adjustments - supported by some clocks +[ + object, + uuid(4d5466b0-a49c-11d1-abe8-00a0c905f375), + pointer_default(unique), + local +] +interface IAMClockAdjust : IUnknown +{ + // Set the following delta to clock times + // The clock will add adjust its times by the given delta + HRESULT SetClockDelta( + [in] REFERENCE_TIME rtDelta + ); +}; + +// Filter miscellaneous status flags + +enum _AM_FILTER_MISC_FLAGS { + AM_FILTER_MISC_FLAGS_IS_RENDERER = 0x00000001, /* Will deliver EC_COMPLETE + at end of media */ + AM_FILTER_MISC_FLAGS_IS_SOURCE = 0x00000002 /* Filter sources data */ +}; + +[ + object, + uuid(2dd74950-a890-11d1-abe8-00a0c905f375), + pointer_default(unique), + local +] +interface IAMFilterMiscFlags : IUnknown +{ + // Get miscellaneous property flags + ULONG GetMiscFlags(void); +}; + + +// Video Image drawing interface +[ + object, + local, + uuid(48efb120-ab49-11d2-aed2-00a0c995e8d5), + pointer_default(unique), +] +interface IDrawVideoImage : IUnknown +{ + HRESULT DrawVideoImageBegin(); + + HRESULT DrawVideoImageEnd(); + + HRESULT DrawVideoImageDraw( + [in] HDC hdc, + [in] LPRECT lprcSrc, + [in] LPRECT lprcDst + ); +} + +// +// Video Image decimation interface +// +// The aim of this interface is to enable a video renderer filter to +// control the decimation properties of a video decoder connected to +// the video renderer +// +// This interface should only be supported by decoders that are capable of +// decimating their output image by an arbitary amount. +// +// +[ + object, + local, + uuid(2e5ea3e0-e924-11d2-b6da-00a0c995e8df), + pointer_default(unique), +] +interface IDecimateVideoImage : IUnknown +{ + // + // Informs the decoder that it should decimate its output + // image to the specified width and height. If the decoder can + // decimate to this size it should return S_OK. + // If the decoder can't perform the requested decimation + // or wants to stop performing the decimation that it is + // currently doing it should return E_FAIL. + // + HRESULT SetDecimationImageSize( + [in] long lWidth, + [in] long lHeight); + + // + // Informs the decoder that it should stop decimating its output image + // and resume normal output. + // + HRESULT ResetDecimationImageSize(); +} + +typedef enum _DECIMATION_USAGE { + DECIMATION_LEGACY, // decimate at ovly then video port then crop + DECIMATION_USE_DECODER_ONLY, // decimate image at the decoder only + DECIMATION_USE_VIDEOPORT_ONLY, // decimate at the video port only + DECIMATION_USE_OVERLAY_ONLY, // decimate at the overlay only + DECIMATION_DEFAULT // decimate at decoder then ovly the vide port then crop +} DECIMATION_USAGE; + +[ + object, + local, + uuid(60d32930-13da-11d3-9ec6-c4fcaef5c7be), + pointer_default(unique), +] +interface IAMVideoDecimationProperties: IUnknown +{ + // + // Queries the current usage of the above IDecimateVideoImage + // interface. + // + HRESULT QueryDecimationUsage( + [out] DECIMATION_USAGE* lpUsage); // from DECIMATION_USAGE enum + + // + // Sets the current usage of the above IDecimateVideoImage + // interface. + // + HRESULT SetDecimationUsage( + [in] DECIMATION_USAGE Usage); // from DECIMATION_USAGE enum +} + +//--------------------------------------------------------------------- +// +// IVideoFrameStep interface +// +//--------------------------------------------------------------------- + +[ + object, + uuid(e46a9787-2b71-444d-a4b5-1fab7b708d6a), + pointer_default(unique), +] +interface IVideoFrameStep : IUnknown +{ + // + // Stop(), Pause(), Run() all cancel Step as does any seeking + // request. + // + // The Step() and CancelStep() methods of this interface + // Cancel any previous step. + // + // When stepping is complete EC_STEP_COMPLETE is signalled. + // + // When the filter graph gets EC_STEP_COMPLETE it automatically + // sets the filter graph into paused state and forwards the + // notification to the application + // + // Returns S_OK if stepping initiated. + // + // dwFrames + // 1 means step 1 frame forward + // 0 is invalid + // n (n > 1) means skip n - 1 frames and show the nth + // + // pStepObject + // NULL - default step object (filter) picked + // non-NULL - use this object for stepping + // + HRESULT Step(DWORD dwFrames, [unique] IUnknown *pStepObject); + + // Can step? + // Returns S_OK if it can, S_FALSE if it can't or error code. + // bMultiple - if TRUE return whether can step n > 1 + HRESULT CanStep(long bMultiple, [unique] IUnknown *pStepObject); + + // Cancel stepping + HRESULT CancelStep(); +} + + + + +//--------------------------------------------------------------------- +// +// IAMPushSource interface +// +// Provides a means for source filters to describe information about the +// data that they source, such as whether the data is live or not, and +// what type of clock was used for timestamps. This information may be +// needed by other clocks in the graph in order to provide accurate +// synchronization. Also provides a way to specify an offset value for +// the filter to use when timestamping the streams it sources. Provides +// support for the IAMLatency interface as well. +// +//--------------------------------------------------------------------- + +enum _AM_PUSHSOURCE_FLAGS { + + // + // The default assumption is that the data is from a live source, + // time stamped with the graph clock, and the source does not + // attempt to rate match the data it delivers. + // The following flags can be used to override this assumption. + // + + // capability flags + AM_PUSHSOURCECAPS_INTERNAL_RM = 0x00000001, // source provides internal support for rate matching + AM_PUSHSOURCECAPS_NOT_LIVE = 0x00000002, // don't treat source data as live + AM_PUSHSOURCECAPS_PRIVATE_CLOCK = 0x00000004, // source data timestamped with clock not + // exposed to the graph + + // request flags, set by user via SetPushSourceFlags method + AM_PUSHSOURCEREQS_USE_STREAM_CLOCK = 0x00010000, // source was requested to timestamp + // using a clock that isn't the graph clock + + AM_PUSHSOURCEREQS_USE_CLOCK_CHAIN = 0x00020000, // source requests reference clock chaining +}; + +// +// Used to set a source filter to run in a "live" mode. +// +[ +object, + uuid(F185FE76-E64E-11d2-B76E-00C04FB6BD3D), + pointer_default(unique) +] +interface IAMPushSource : IAMLatency +{ + // used to discover push source's capabilities. + // may be any combination of the AM_PUSHSOURCE_FLAGS flags. + HRESULT GetPushSourceFlags ( + [out] ULONG *pFlags + ); + + // used to set request flags for a push source. + // may be a combination of the AM_PUSHSOURCE_REQS_xxx flags. + HRESULT SetPushSourceFlags ( + [in] ULONG Flags + ); + + // specify an offset for push source time stamps + HRESULT SetStreamOffset ( + [in] REFERENCE_TIME rtOffset + ); + + // retrieve the offset this push source is using + HRESULT GetStreamOffset ( + [out] REFERENCE_TIME *prtOffset + ); + + // retrieve the maximum stream offset this push source thinks it can support + HRESULT GetMaxStreamOffset ( + [out] REFERENCE_TIME *prtMaxOffset + ); + + // allows the filter graph to tell a push source the maximum latency allowed on the graph + // this allows pins like the video capture preview pin to be more efficient with the amount + // of buffering required to support the maximum graph latency + HRESULT SetMaxStreamOffset ( + [in] REFERENCE_TIME rtMaxOffset + ); +}; + + +// ------------------------------------------------------------------------ +// +// IAMDeviceRemoval interface +// +// Implemented by filters to request and receive WM_DEVICECHANGE +// notifications +// +// ------------------------------------------------------------------------ + +[ + object, + uuid(f90a6130-b658-11d2-ae49-0000f8754b99), + pointer_default(unique) +] +interface IAMDeviceRemoval : IUnknown +{ + + HRESULT DeviceInfo( + [out] CLSID *pclsidInterfaceClass, + [out] WCHAR **pwszSymbolicLink); + + HRESULT Reassociate(); + + HRESULT Disassociate(); +} + +// +// for DV +// +typedef struct { + //for 1st 5/6 DIF seq. + DWORD dwDVAAuxSrc; + DWORD dwDVAAuxCtl; + //for 2nd 5/6 DIF seq. + DWORD dwDVAAuxSrc1; + DWORD dwDVAAuxCtl1; + //for video information + DWORD dwDVVAuxSrc; + DWORD dwDVVAuxCtl; + DWORD dwDVReserved[2]; + +} DVINFO, *PDVINFO; + +// ------------------------------------------------------------------------ +// +// IDVEnc interface +// +// Implemented by DV encoder filters to set Encoder format +// +// ------------------------------------------------------------------------ +enum _DVENCODERRESOLUTION { //resolution + DVENCODERRESOLUTION_720x480 = 2012, + DVENCODERRESOLUTION_360x240 = 2013, + DVENCODERRESOLUTION_180x120 = 2014, + DVENCODERRESOLUTION_88x60 = 2015 +}; +enum _DVENCODERVIDEOFORMAT { //PAL/ntsc + DVENCODERVIDEOFORMAT_NTSC = 2000, + DVENCODERVIDEOFORMAT_PAL = 2001 +}; +enum _DVENCODERFORMAT { // dvsd/dvhd/dvsl + DVENCODERFORMAT_DVSD = 2007, + DVENCODERFORMAT_DVHD = 2008, + DVENCODERFORMAT_DVSL = 2009 +}; +[ + object, + uuid(d18e17a0-aacb-11d0-afb0-00aa00b67a42), + pointer_default(unique) +] +interface IDVEnc : IUnknown +{ + + HRESULT get_IFormatResolution ( + [out] int *VideoFormat, //pal or ntsc + [out] int *DVFormat, //dvsd dvhd dvsl + [out] int *Resolution, //720, 360, 180,88 + [in] BYTE fDVInfo, //TRUE: DVINFO structure exist, FALSE: Do not care DVINFO + [out] DVINFO *sDVInfo //NULL if fDVInfo=FALSE, + ); + + HRESULT put_IFormatResolution ( + [in] int VideoFormat, + [in] int DVFormat, + [in] int Resolution, + [in] BYTE fDVInfo, //TRUE: DVINFO structure exist, FALSE: Do not care DVINFO + [in] DVINFO *sDVInfo //NULL if fDVInfo=FALSE, + ); + +} + +// ------------------------------------------------------------------------ +// +// IDVDec interface +// +// Implemented by DV decoder filters to set decoder size +// +// ------------------------------------------------------------------------ +enum _DVDECODERRESOLUTION { + DVDECODERRESOLUTION_720x480 = 1000, + DVDECODERRESOLUTION_360x240 = 1001, + DVDECODERRESOLUTION_180x120 = 1002, + DVDECODERRESOLUTION_88x60 = 1003 +}; +enum _DVRESOLUTION { + DVRESOLUTION_FULL = 1000, + DVRESOLUTION_HALF = 1001, + DVRESOLUTION_QUARTER = 1002, + DVRESOLUTION_DC = 1003 +}; +[ + object, + uuid(b8e8bd60-0bfe-11d0-af91-00aa00b67a42), + pointer_default(unique) +] +interface IIPDVDec : IUnknown +{ + HRESULT get_IPDisplay ( + [out] int *displayPix // The display pixels arrage + ); + + HRESULT put_IPDisplay ( + [in] int displayPix // Change to this display pixel arrage + ) ; +} + +//------------------------------------------------------------------------ +// +// IDVRGB219 interface +// +// Implemented by both the DV encoder and decoder filters +// Used for enabling the 219 mode in which the Range of RGB24 either received +// by the encoder or produced by the decoder becomes (16,16,16)--(235,235,235) +// instead of (0,0,0)--(255,255,255). +// The interface's method has no effect in case of any other color space than +// RGB 24 +// +//------------------------------------------------------------------------ + +[ + object, + uuid(58473A19-2BC8-4663-8012-25F81BABDDD1), + pointer_default(unique) +] +interface IDVRGB219 : IUnknown +{ + HRESULT SetRGB219 ([in] BOOL bState); // State = True Turn 219 mode on else turn it off. +} + + +// ------------------------------------------------------------------------ +// +// IDVSplitter interface +// +// Implemented by DV splitter filters +// +// ------------------------------------------------------------------------ +[ + object, + uuid(92a3a302-da7c-4a1f-ba7e-1802bb5d2d02) +] +interface IDVSplitter : IUnknown +{ + HRESULT DiscardAlternateVideoFrames( + [in] int nDiscard + ) ; +} + +// Audio Renderer statistics params for IAMAudioRendererStats interface +enum _AM_AUDIO_RENDERER_STAT_PARAM { + AM_AUDREND_STAT_PARAM_BREAK_COUNT = 1, // audio breaks + AM_AUDREND_STAT_PARAM_SLAVE_MODE, // current slave mode, see AM_AUDREND_SLAVE_MODEs + AM_AUDREND_STAT_PARAM_SILENCE_DUR, // silence inserted due to gaps (ms) + AM_AUDREND_STAT_PARAM_LAST_BUFFER_DUR, // duration of the last buffer received + AM_AUDREND_STAT_PARAM_DISCONTINUITIES, // discontinuities seen since running + AM_AUDREND_STAT_PARAM_SLAVE_RATE, // what rate are we currently slaving at? S_FALSE if not slaving + AM_AUDREND_STAT_PARAM_SLAVE_DROPWRITE_DUR, // for waveOut slaving - data dropped or added to stay in-sync + // dwParam1 - dropped duration(ms) + // dwParam2 - paused duration(ms) + AM_AUDREND_STAT_PARAM_SLAVE_HIGHLOWERROR, // highest & lowest clock differences seen + // dwParam1 - high err + // dwParam2 - low err + AM_AUDREND_STAT_PARAM_SLAVE_LASTHIGHLOWERROR, // last high and low errs seen + // dwParam1 - last high err + // dwParam2 - last low err + AM_AUDREND_STAT_PARAM_SLAVE_ACCUMERROR, // error between master/slave clocks + AM_AUDREND_STAT_PARAM_BUFFERFULLNESS, // percent audio buffer fullness + AM_AUDREND_STAT_PARAM_JITTER // input buffer jitter +}; + +//--------------------------------------------------------------------- +// +// IAMAudioRendererStats interface +// +// Interface to get at statistical information that is optionally stored +// in an audio renderer filter. Supported on the filter interface (although +// this might be better for ksproxy if we define it as a pin interface?) +// +//--------------------------------------------------------------------- + +[ +object, + uuid(22320CB2-D41A-11d2-BF7C-D7CB9DF0BF93), + pointer_default(unique) +] +interface IAMAudioRendererStats : IUnknown +{ + // Get value corresponding to the passed in parameter id + HRESULT GetStatParam( + [in] DWORD dwParam, + [out] DWORD *pdwParam1, + [out] DWORD *pdwParam2 + ); +} + +//--------------------------------------------------------------------- +// +// IAMLatency interface +// +// Allows a filter to report the expected latency associated with a data +// stream flowing from its input to output pin. Supported on output pins. +// +//--------------------------------------------------------------------- + +[ +object, + uuid(62EA93BA-EC62-11d2-B770-00C04FB6BD3D), + pointer_default(unique) +] +interface IAMLatency : IUnknown +{ + HRESULT GetLatency( + [in] REFERENCE_TIME *prtLatency + ); +} + + +enum _AM_INTF_SEARCH_FLAGS { + AM_INTF_SEARCH_INPUT_PIN = 0x00000001, // search input pins + AM_INTF_SEARCH_OUTPUT_PIN = 0x00000002, // search output pins + AM_INTF_SEARCH_FILTER = 0x00000004 // search filters +}; + +//--------------------------------------------------------------------- +// +// IAMGraphStreams interface +// +// Interface used to control or search over connected streams of data +// flow within a filter graph. +// +//--------------------------------------------------------------------- + +[ +object, + uuid(632105FA-072E-11d3-8AF9-00C04FB6BD3D), + pointer_default(unique) +] +interface IAMGraphStreams : IUnknown +{ + // Search upstream from the current pin, for the specified interface. + // dwFlags can be any combination of the AM_INTF_SEARCH_FLAGS, and allows + // control over what objects to search. A value of 0 means to search all. + HRESULT FindUpstreamInterface( + [in] IPin *pPin, + [in] REFIID riid, + [out, iid_is(riid)] void **ppvInterface, + [in] DWORD dwFlags ); + + // Enable or disable the graph's setting of a timestamp offset + // on push sources. + HRESULT SyncUsingStreamOffset( [in] BOOL bUseStreamOffset ); + + // allow an app to set the maximum offset used on push source filters + HRESULT SetMaxGraphLatency( [in] REFERENCE_TIME rtMaxGraphLatency ); +} + + +// +// IAMOverlayFX +// +// This interface is exposed by the overlay mixer filter and allows +// an application to apply various "effects" to the overlay surface +// used by the overlay mixer. +// +// The effects that can be applied are described by the AMOVERLAYFX +// enumeration. +// +enum AMOVERLAYFX { + // Normal (ie. top down, left to right) video + AMOVERFX_NOFX = 0x00000000, + + // Mirror the overlay across the vertical axis + AMOVERFX_MIRRORLEFTRIGHT = 0x00000002, + + // Mirror the overlay across the horizontal axis + AMOVERFX_MIRRORUPDOWN = 0x00000004, + + // Deinterlace the overlay, if possible + AMOVERFX_DEINTERLACE = 0x00000008 +}; + +[ +object, + uuid(62fae250-7e65-4460-bfc9-6398b322073c), + pointer_default(unique) +] +interface IAMOverlayFX : IUnknown +{ + // Use this method to determine what overlay effects are currently available + // for the overlay surface used by the overlay mixer filter. + // + HRESULT QueryOverlayFXCaps( + [out] DWORD *lpdwOverlayFXCaps + ); + + // Use this method to apply a new overlay effect to the overlay surface + // used by the overlay mixer filter. This method can be called while the + // filter graph is running, the effect is applied immediately + // + HRESULT SetOverlayFX( + [in] DWORD dwOverlayFX + ); + + // Use this method to determine what effect (if any) is currently being + // applied to the overlay surface by the overlay mixer filter. + // + HRESULT GetOverlayFX( + [out] DWORD *lpdwOverlayFX + ); +} + + + +// IAMOpenProgress interface provides information about current progress through +// a download + +[ +object, +uuid(8E1C39A1-DE53-11cf-AA63-0080C744528D), +pointer_default(unique) +] + +interface IAMOpenProgress : IUnknown +{ + // QueryProgress can be used to query the source filter which supports this interface + // for progress information during a renderfile operation. + HRESULT QueryProgress( + [out] LONGLONG* pllTotal, + [out] LONGLONG* pllCurrent + ); + + // AbortOperation can be used to request an abort of RenderFile operation + // causing it to stop downloading. This methods instructs the exporter of + // the IAMOpenProgress interface to hold up their internal abort flag until + // further notice. + HRESULT AbortOperation( + ); +} + + +/*++ + IMpeg2Demultiplexer + + This interface is implemented by the MPEG-2 Demultiplexer filter, + irrespective of program vs. transport stream splitting functionality. +--*/ +[ + object, + local, + uuid (436eee9c-264f-4242-90e1-4e330c107512), + pointer_default(unique) +] +interface IMpeg2Demultiplexer : IUnknown +{ + /*++ + ------------------------------------------------------------------------ + purpose: Creates an output pin of the specified media type. + + pMediaType media type specifier for the new pin + pszPinName pin name; cannot be a duplicate of an existing pin + ppIPin IPin interface pointer to the newly created pin + --*/ + HRESULT + CreateOutputPin ( + [in] AM_MEDIA_TYPE * pMediaType, + [in] LPWSTR pszPinName, + [out] IPin ** ppIPin + ) ; + + /*++ + ------------------------------------------------------------------------ + purpose: Updates the media type of the specified output pin. If no + connection exists, the media type is updated always. If + the pin is connected, the success/failure of the call will + depend on downstream input pin's accetance/rejection of + the specified media type, and subsequent success/failure + of a reconnect. + + pszPinName pin name + pMediaType new media type specifier + --*/ + HRESULT + SetOutputPinMediaType ( + [in] LPWSTR pszPinName, + [in] AM_MEDIA_TYPE * pMediaType + ) ; + + /*++ + ------------------------------------------------------------------------ + purpose: Deletes the specified output pin. + + pszPinName pin name + --*/ + HRESULT + DeleteOutputPin ( + [in] LPWSTR pszPinName + ) ; +} ; + +//--------------------------------------------------------------------- +// IEnumStreamIdMap interface +//--------------------------------------------------------------------- + +cpp_quote("#define MPEG2_PROGRAM_STREAM_MAP 0x00000000") +cpp_quote("#define MPEG2_PROGRAM_ELEMENTARY_STREAM 0x00000001") +cpp_quote("#define MPEG2_PROGRAM_DIRECTORY_PES_PACKET 0x00000002") +cpp_quote("#define MPEG2_PROGRAM_PACK_HEADER 0x00000003") +cpp_quote("#define MPEG2_PROGRAM_PES_STREAM 0x00000004") +cpp_quote("#define MPEG2_PROGRAM_SYSTEM_HEADER 0x00000005") + +cpp_quote("#define SUBSTREAM_FILTER_VAL_NONE 0x10000000") + +typedef struct { + ULONG stream_id ; // mpeg-2 stream_id + DWORD dwMediaSampleContent ; // #define'd above + ULONG ulSubstreamFilterValue ; // filtering value + int iDataOffset ; // offset to elementary stream +} STREAM_ID_MAP ; + +/*++ + Enumerates the StreamIds mapped on a pin +--*/ +[ + object, + local, + uuid (945C1566-6202-46fc-96C7-D87F289C6534), + pointer_default(unique) +] +interface IEnumStreamIdMap : IUnknown +{ + HRESULT + Next ( + [in] ULONG cRequest, + [in, out, size_is (cRequest)] STREAM_ID_MAP * pStreamIdMap, + [out] ULONG * pcReceived + ) ; + + HRESULT + Skip ( + [in] ULONG cRecords + ) ; + + HRESULT + Reset ( + ) ; + + HRESULT + Clone ( + [out] IEnumStreamIdMap ** ppIEnumStreamIdMap + ) ; +} ; + +/*++ + Implemented on the output pin. + + Provides the ability to map/unmap a stream_id to/from an output pin. +--*/ +[ + object, + local, + uuid (D0E04C47-25B8-4369-925A-362A01D95444), + pointer_default(unique) +] +interface IMPEG2StreamIdMap : IUnknown +{ + HRESULT + MapStreamId ( + [in] ULONG ulStreamId, // mpeg-2 stream_id + [in] DWORD MediaSampleContent, // #define'd above IEnumStreamIdMap + [in] ULONG ulSubstreamFilterValue, // filter value + [in] int iDataOffset // elementary stream offset + ) ; + + HRESULT + UnmapStreamId ( + [in] ULONG culStreamId, // number of stream_id's in pulStreamId + [in] ULONG * pulStreamId // array of stream_id's to unmap + ) ; + + HRESULT + EnumStreamIdMap ( + [out] IEnumStreamIdMap ** ppIEnumStreamIdMap + ) ; +} ; + + +// Register a service provider with the filter graph +[ + object, + local, + uuid(7B3A2F01-0751-48DD-B556-004785171C54), + pointer_default(unique) +] +interface IRegisterServiceProvider : IUnknown +{ + // registers one service into it's internal table.. Object is refcounted. + // register a NULL value to remove the service + HRESULT RegisterService([in] REFGUID guidService, [in] IUnknown *pUnkObject); +}; + + + +//--------------------------------------------------------------------- +// +// IAMClockSlave interface +// +// When the audio renderer is slaving to a separate graph clock this +// interface provides a way for an app to specify how closely in sync +// the slaving renderer should try to stay to the graph clock. Note that +// using a larger tolerance for a video & audio playback graph will likely +// result in looser a/v sync, so it recommended not to change this setting +// except under special circumstances. +// +//--------------------------------------------------------------------- + +// +// Used to set/get the error tolerance used by a slaving audio renderer +// +[ +object, + uuid(9FD52741-176D-4b36-8F51-CA8F933223BE), + pointer_default(unique) +] +interface IAMClockSlave : IUnknown +{ + // set millisecond value to use for slaving tolerance + // the allowed range is 1 to 1000ms + HRESULT SetErrorTolerance ( + [in] DWORD dwTolerance + ); + + // get millisecond value currently being used for slaving tolerance + HRESULT GetErrorTolerance ( + [out] DWORD *pdwTolerance + ); +}; + + + +//--------------------------------------------------------------------- +// +// IAMGraphBuilderCallback interface +// +// Interface which gives the app a chance to configure filters +// before a connection is attempted. +// +// If this interface is supported by the site passed in to the graph +// via IObjectWithSite::SetSite, the graph will call back with each +// filter it creates as part of the Render or Connect process. Does +// not call back for source filters. Filter may be discarded and not +// used in graph or may be connected and disconnected more than once +// +// The callback occurs with the graph lock held, so do not call into +// the graph again and do not wait on other threads calling into the +// graph. +// +//--------------------------------------------------------------------- + +[ + object, + uuid(4995f511-9ddb-4f12-bd3b-f04611807b79), + local, + pointer_default(unique) +] +interface IAMGraphBuilderCallback : IUnknown +{ + // graph builder selected a filter to create and attempt to + // connect. failure indicates filter should be rejected. + HRESULT SelectedFilter( + [in] IMoniker *pMon + ); + + // app configures filter during this call. failure indicates + // filter should be rejected. + HRESULT CreatedFilter( + [in] IBaseFilter *pFil + ); +}; + +cpp_quote("#ifdef __cplusplus") +cpp_quote("#ifndef _IAMFilterGraphCallback_") +cpp_quote("#define _IAMFilterGraphCallback_") +cpp_quote("// Note: Because this interface was not defined as a proper interface it is") +cpp_quote("// supported under C++ only. Methods aren't stdcall.") +cpp_quote("EXTERN_GUID(IID_IAMFilterGraphCallback,0x56a868fd,0x0ad4,0x11ce,0xb0,0xa3,0x0,0x20,0xaf,0x0b,0xa7,0x70);") +cpp_quote("interface IAMFilterGraphCallback : public IUnknown") +cpp_quote("{") +cpp_quote(" // S_OK means rendering complete, S_FALSE means retry now.") +cpp_quote(" virtual HRESULT UnableToRender(IPin *pPin) = 0;") +cpp_quote(" ") +cpp_quote("};") +cpp_quote("#endif // _IAMFilterGraphCallback_") +cpp_quote("#endif") + +//------------------------------------------------------------------------------ +// File: EncAPI.idl +// +// Desc: Encoder (and future decoder) interface definitions. +// +// Copyright (c) 1992 - 2002, Microsoft Corporation. All rights reserved. +//------------------------------------------------------------------------------ + +struct CodecAPIEventData +{ + GUID guid; + DWORD dataLength; + DWORD reserved[3]; + // BYTE data[dataLength]; +}; + +interface IStream; // forward declaration +// +// Applications can pass the CODECAPI_VIDEO_ENCODER to IsSupported to test for video encoders +// Similarly, the GUIDs for audio encoders, video decoders, audio decoders and muxes can be +// used to test for the codec classification +// +// See uuids.h for a more detailed list. +// +[ + object, + uuid(901db4c7-31ce-41a2-85dc-8fa0bf41b8da), + pointer_default(unique) +] +interface ICodecAPI : IUnknown +{ + // + // IsSupported(): + // + // Query whether a given parameter is supported. + // + HRESULT + IsSupported ( + [in] const GUID *Api + ); + + // + // IsModifiable + // + // Query whether a given parameter can be changed given the codec selection + // and other parameter selections. + // + HRESULT + IsModifiable ( + [in] const GUID *Api + ); + + // + // GetParameterRange(): + // + // Returns the valid range of values that the parameter supports should + // the parameter support a stepped range as opposed to a list of specific + // values. The support is [ValueMin .. ValueMax] by SteppingDelta. + // + // Ranged variant types must fall into one of the below types. Each + // parameter will, by definition, return a specific type. + // + // If the range has no stepping delta (any delta will do), the Stepping + // delta will be empty (VT_EMPTY). + // + HRESULT + GetParameterRange ( + [in] const GUID *Api, + [out] VARIANT *ValueMin, + [out] VARIANT *ValueMax, + [out] VARIANT *SteppingDelta + ); + + // + // GetParameterValues(): + // + // Returns the list of values supported by the given parameter as a + // COM allocated array. The total number of values will be placed in + // the ValuesCount parameter and the Values array will contain the + // individual values. This array must be freed by the caller through + // CoTaskMemFree(). + // + HRESULT + GetParameterValues ( + [in] const GUID *Api, + [out, size_is(,*ValuesCount)] VARIANT **Values, + [out] ULONG *ValuesCount + ); + + // + // GetDefaultValue(): + // + // Get the default value for a parameter, if one exists. Otherwise, + // an error will be returned. + // + HRESULT + GetDefaultValue ( + [in] const GUID *Api, + [out] VARIANT *Value + ); + + // + // GetValue(): + // + // Get the current value of a parameter. + // + HRESULT + GetValue ( + [in] const GUID *Api, + [out] VARIANT *Value + ); + + // + // SetValue(): + // + // Set the current value of a parameter. + // + HRESULT + SetValue ( + [in] const GUID *Api, + [in] VARIANT *Value + ); + + // new methods beyond IEncoderAPI + + // + // RegisterForEvent(): + // + // Enable events to be reported for the given event GUID. For DShow + // events, the event is returned as + // (EC_CODECAPI_EVENT, lParam=userData, lParam2=CodecAPIEventData* Data) + // where + // - the CodecAPIEventData is COM allocated memory and must be handled and freed + // by the application using CoTaskMemFree(). + // - the userData is the same pointer passed to RegisterForEvent + // + // Each data block starts with the following structure: + // struct CodecAPIEventData + // { + // GUID guid; + // DWORD dataLength; + // DWORD reserved[3]; // pad to 16 byte alignment + // BYTE data[dataLength]; + // } + // The guid parameter identifies the event. The data associated with the event follows the + // structure (represented by the variable length BYTE data[dataLength] array). + // + // If guid is equal to CODECAPI_CHANGELISTS, then data is an array of GUIDs that changed as + // a result of setting the parameter, as follows: + // GUID changedGuids[ header.dataLength / sizeof(GUID) ] + // + // The current array is limited, so a driver may send multiple messages if the array size is + // exceeded. + // + HRESULT + RegisterForEvent ( + [in] const GUID *Api, + [in] LONG_PTR userData + ); + + // + // UnregisterForEvent(): + // + // Disable event reporting for the given event GUID. + // + HRESULT + UnregisterForEvent ( + [in] const GUID *Api + ); + + // + // SetAllDefaults + // + HRESULT SetAllDefaults(void); + + // + // Extended SetValue & SetAllDefaults: + // + // Changes the current value of a parameter and returns back an alteration list + // + // The secondary arguments return back a list of other settings + // that changed as a result of the SetValue() call (for UI updates etc) + // The client must free the buffer. + // + HRESULT + SetValueWithNotify ( + [in] const GUID *Api, + [in] VARIANT *Value, + [out, size_is(,*ChangedParamCount)] GUID **ChangedParam, + [out] ULONG *ChangedParamCount + ); + + // + // SetAllDefaultsWithNotify + // + HRESULT SetAllDefaultsWithNotify( + [out, size_is(,*ChangedParamCount)] GUID **ChangedParam, + [out] ULONG *ChangedParamCount + ); + // + // GetAllSettings + // Load the current settings from a stream + // + HRESULT GetAllSettings( [in] IStream* ); + + // + // SetAllSettings + // Save the current settings to a stream + // + HRESULT SetAllSettings( [in] IStream* ); + + // + // SetAllSettingsWithNotify + // + HRESULT SetAllSettingsWithNotify( IStream*, + [out, size_is(,*ChangedParamCount)] GUID **ChangedParam, + [out] ULONG *ChangedParamCount ); +} + +[ + object, + local, + uuid(a8809222-07bb-48ea-951c-33158100625b), + pointer_default(unique) +] +interface IGetCapabilitiesKey : IUnknown +{ + HRESULT GetCapabilitiesKey( [out] HKEY* pHKey ); +}; + +// ----------------------------------------------------------------------------------------- +// From this point on, this is retained for backwards compatiblity only +// Do not use this for future encoders +// ----------------------------------------------------------------------------------------- +[ + object, + uuid(70423839-6ACC-4b23-B079-21DBF08156A5), + pointer_default(unique) +] +interface IEncoderAPI : IUnknown +{ + HRESULT IsSupported ( [in] const GUID *Api ); + HRESULT IsAvailable ( [in] const GUID *Api ); + HRESULT GetParameterRange ( [in] const GUID *Api, + [out] VARIANT *ValueMin, [out] VARIANT *ValueMax, + [out] VARIANT *SteppingDelta ); + HRESULT GetParameterValues ( [in] const GUID *Api, + [out, size_is(,*ValuesCount)] VARIANT **Values, + [out] ULONG *ValuesCount ); + HRESULT GetDefaultValue ( [in] const GUID *Api, [out] VARIANT *Value ); + HRESULT GetValue ( [in] const GUID *Api, [out] VARIANT *Value ); + HRESULT SetValue ( [in] const GUID *Api, [in] VARIANT *Value ); +} + +[ + object, + uuid(02997C3B-8E1B-460e-9270-545E0DE9563E), + pointer_default(unique) +] +interface IVideoEncoder : IEncoderAPI +{ +} +//--------------------------------------------------------------------- +// +// Old Encoder API Interfaces +// +//--------------------------------------------------------------------- + +cpp_quote ("#ifndef __ENCODER_API_DEFINES__") +cpp_quote ("#define __ENCODER_API_DEFINES__") + +typedef enum { + + // + // Bit rate used for encoding is constant + // + ConstantBitRate = 0, + + // + // Bit rate used for encoding is variable with the specified bitrate used + // as a guaranteed average over a specified window. The default window + // size is considered to be 5 minutes. + // + VariableBitRateAverage, + + // + // Bit rate used for encoding is variable with the specified bitrate used + // as a peak rate over a specified window. The default window size + // is considered to be 500ms (classically one GOP). + // + VariableBitRatePeak + +} VIDEOENCODER_BITRATE_MODE; + +cpp_quote ("#endif // __ENCODER_API_DEFINES__") + +cpp_quote("#define AM_GETDECODERCAP_QUERY_VMR_SUPPORT 0x00000001") +cpp_quote("#define VMR_NOTSUPPORTED 0x00000000") +cpp_quote("#define VMR_SUPPORTED 0x00000001") + +cpp_quote("#define AM_QUERY_DECODER_VMR_SUPPORT 0x00000001") +cpp_quote("#define AM_QUERY_DECODER_DXVA_1_SUPPORT 0x00000002") + +cpp_quote("#define AM_QUERY_DECODER_DVD_SUPPORT 0x00000003") +cpp_quote("#define AM_QUERY_DECODER_ATSC_SD_SUPPORT 0x00000004") +cpp_quote("#define AM_QUERY_DECODER_ATSC_HD_SUPPORT 0x00000005") +cpp_quote("#define AM_GETDECODERCAP_QUERY_VMR9_SUPPORT 0x00000006") + +cpp_quote("#define DECODER_CAP_NOTSUPPORTED 0x00000000") +cpp_quote("#define DECODER_CAP_SUPPORTED 0x00000001") + +[ + object, + local, + uuid(c0dff467-d499-4986-972b-e1d9090fa941), + pointer_default(unique) +] +interface IAMDecoderCaps : IUnknown +{ + HRESULT GetDecoderCaps([in] DWORD dwCapIndex, [out] DWORD* lpdwCap); +}; + +/////////////////////////////////////////////////////////////////////////////// +// +// IAMCertifiedOutputProtection +// +/////////////////////////////////////////////////////////////////////////////// +typedef struct _AMCOPPSignature { + BYTE Signature[256]; +} AMCOPPSignature; + +typedef struct _AMCOPPCommand { + GUID macKDI; // 16 bytes + GUID guidCommandID; // 16 bytes + DWORD dwSequence; // 4 bytes + DWORD cbSizeData; // 4 bytes + BYTE CommandData[4056]; // 4056 bytes (4056+4+4+16+16 = 4096) +} AMCOPPCommand, *LPAMCOPPCommand; + +typedef struct _AMCOPPStatusInput { + GUID rApp; // 16 bytes + GUID guidStatusRequestID;// 16 bytes + DWORD dwSequence; // 4 bytes + DWORD cbSizeData; // 4 bytes + BYTE StatusData[4056]; // 4056 bytes (4056+4+4+16+16 = 4096) +} AMCOPPStatusInput, *LPAMCOPPStatusInput; + +typedef struct _AMCOPPStatusOutput { + GUID macKDI; // 16 bytes + DWORD cbSizeData; // 4 bytes + BYTE COPPStatus[4076]; // 4076 bytes (4076+16+4 = 4096) +} AMCOPPStatusOutput, *LPAMCOPPStatusOutput; + + +[ + object, + local, + uuid(6feded3e-0ff1-4901-a2f1-43f7012c8515), + pointer_default(unique) +] +interface IAMCertifiedOutputProtection : IUnknown +{ + HRESULT KeyExchange ( + [out] GUID* pRandom, // 128-bit random number generated by Graphics Driver + [out] BYTE** VarLenCertGH, // Graphics Hardware certificate, memory released by CoTaskMemFree + [out] DWORD* pdwLengthCertGH); // Length of Graphics Hardware certificate + + HRESULT SessionSequenceStart( + [in] AMCOPPSignature*pSig); // Concatenation of 128-bit random data security session key, + // 128-bit random data integrity session key, 32-bit random + // starting status sequence number and 32-bit random starting + // command sequence number encrypted with the public key of + // the graphic hardware. This value is 2048 bits long. + + HRESULT ProtectionCommand( + [in] const AMCOPPCommand* cmd); // Encrypted command + + HRESULT ProtectionStatus( + [in] const AMCOPPStatusInput* pStatusInput, // Encrypted Status request + [out] AMCOPPStatusOutput* pStatusOutput); // Encrypted Status results +}; + -- cgit v1.2.3