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Revision 1.1.1.1 - (hide annotations) (vendor branch)
Sun Jul 1 20:47:59 2001 UTC (23 years, 5 months ago) by bearsoft
Branch: lazy, MAIN
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1 bearsoft 1.1 //------------------------------------------------------------------------------
2     // File: AMVideo.h
3     //
4     // Desc: Video related definitions and interfaces for ActiveMovie.
5     //
6     // Copyright (c) 1992 - 2000, Microsoft Corporation. All rights reserved.
7     //------------------------------------------------------------------------------
8    
9    
10     #ifndef __AMVIDEO__
11     #define __AMVIDEO__
12    
13     #ifdef __cplusplus
14     extern "C" {
15     #endif // __cplusplus
16    
17     #include <ddraw.h>
18    
19    
20     // This is an interface on the video renderer that provides information about
21     // DirectDraw with respect to its use by the renderer. For example it allows
22     // an application to get details of the surface and any hardware capabilities
23     // that are available. It also allows someone to adjust the surfaces that the
24     // renderer should use and furthermore even set the DirectDraw instance. We
25     // allow someone to set the DirectDraw instance because DirectDraw can only
26     // be opened once per process so it helps resolve conflicts. There is some
27     // duplication in this interface as the hardware/emulated/FOURCCs available
28     // can all be found through the IDirectDraw interface, this interface allows
29     // simple access to that information without calling the DirectDraw provider
30     // itself. The AMDDS prefix is ActiveMovie DirectDraw Switches abbreviated.
31    
32     #define AMDDS_NONE 0x00 // No use for DCI/DirectDraw
33     #define AMDDS_DCIPS 0x01 // Use DCI primary surface
34     #define AMDDS_PS 0x02 // Use DirectDraw primary
35     #define AMDDS_RGBOVR 0x04 // RGB overlay surfaces
36     #define AMDDS_YUVOVR 0x08 // YUV overlay surfaces
37     #define AMDDS_RGBOFF 0x10 // RGB offscreen surfaces
38     #define AMDDS_YUVOFF 0x20 // YUV offscreen surfaces
39     #define AMDDS_RGBFLP 0x40 // RGB flipping surfaces
40     #define AMDDS_YUVFLP 0x80 // YUV flipping surfaces
41     #define AMDDS_ALL 0xFF // ALL the previous flags
42     #define AMDDS_DEFAULT AMDDS_ALL // Use all available surfaces
43    
44     #define AMDDS_YUV (AMDDS_YUVOFF | AMDDS_YUVOVR | AMDDS_YUVFLP)
45     #define AMDDS_RGB (AMDDS_RGBOFF | AMDDS_RGBOVR | AMDDS_RGBFLP)
46     #define AMDDS_PRIMARY (AMDDS_DCIPS | AMDDS_PS)
47    
48     // be nice to our friends in C
49     #undef INTERFACE
50     #define INTERFACE IDirectDrawVideo
51    
52     DECLARE_INTERFACE_(IDirectDrawVideo, IUnknown)
53     {
54     // IUnknown methods
55    
56     STDMETHOD(QueryInterface)(THIS_ REFIID riid, LPVOID *ppvObj) PURE;
57     STDMETHOD_(ULONG,AddRef)(THIS) PURE;
58     STDMETHOD_(ULONG,Release)(THIS) PURE;
59    
60     // IDirectDrawVideo methods
61    
62     STDMETHOD(GetSwitches)(THIS_ DWORD *pSwitches) PURE;
63     STDMETHOD(SetSwitches)(THIS_ DWORD Switches) PURE;
64     STDMETHOD(GetCaps)(THIS_ DDCAPS *pCaps) PURE;
65     STDMETHOD(GetEmulatedCaps)(THIS_ DDCAPS *pCaps) PURE;
66     STDMETHOD(GetSurfaceDesc)(THIS_ DDSURFACEDESC *pSurfaceDesc) PURE;
67     STDMETHOD(GetFourCCCodes)(THIS_ DWORD *pCount,DWORD *pCodes) PURE;
68     STDMETHOD(SetDirectDraw)(THIS_ LPDIRECTDRAW pDirectDraw) PURE;
69     STDMETHOD(GetDirectDraw)(THIS_ LPDIRECTDRAW *ppDirectDraw) PURE;
70     STDMETHOD(GetSurfaceType)(THIS_ DWORD *pSurfaceType) PURE;
71     STDMETHOD(SetDefault)(THIS) PURE;
72     STDMETHOD(UseScanLine)(THIS_ long UseScanLine) PURE;
73     STDMETHOD(CanUseScanLine)(THIS_ long *UseScanLine) PURE;
74     STDMETHOD(UseOverlayStretch)(THIS_ long UseOverlayStretch) PURE;
75     STDMETHOD(CanUseOverlayStretch)(THIS_ long *UseOverlayStretch) PURE;
76     STDMETHOD(UseWhenFullScreen)(THIS_ long UseWhenFullScreen) PURE;
77     STDMETHOD(WillUseFullScreen)(THIS_ long *UseWhenFullScreen) PURE;
78     };
79    
80    
81     // be nice to our friends in C
82     #undef INTERFACE
83     #define INTERFACE IQualProp
84    
85     DECLARE_INTERFACE_(IQualProp, IUnknown)
86     {
87     // IUnknown methods
88    
89     STDMETHOD(QueryInterface)(THIS_ REFIID riid, LPVOID *ppvObj) PURE;
90     STDMETHOD_(ULONG,AddRef)(THIS) PURE;
91     STDMETHOD_(ULONG,Release)(THIS) PURE;
92    
93     // Compare these with the functions in class CGargle in gargle.h
94    
95     STDMETHOD(get_FramesDroppedInRenderer)(THIS_ int *pcFrames) PURE; // Out
96     STDMETHOD(get_FramesDrawn)(THIS_ int *pcFramesDrawn) PURE; // Out
97     STDMETHOD(get_AvgFrameRate)(THIS_ int *piAvgFrameRate) PURE; // Out
98     STDMETHOD(get_Jitter)(THIS_ int *iJitter) PURE; // Out
99     STDMETHOD(get_AvgSyncOffset)(THIS_ int *piAvg) PURE; // Out
100     STDMETHOD(get_DevSyncOffset)(THIS_ int *piDev) PURE; // Out
101     };
102    
103    
104     // This interface allows an application or plug in distributor to control a
105     // full screen renderer. The Modex renderer supports this interface. When
106     // connected a renderer should load the display modes it has available
107     // The number of modes available can be obtained through CountModes. Then
108     // information on each individual mode is available by calling GetModeInfo
109     // and IsModeAvailable. An application may enable and disable any modes
110     // by calling the SetEnabled flag with OATRUE or OAFALSE (not C/C++ TRUE
111     // and FALSE values) - the current value may be queried by IsModeEnabled
112    
113     // A more generic way of setting the modes enabled that is easier to use
114     // when writing applications is the clip loss factor. This defines the
115     // amount of video that can be lost when deciding which display mode to
116     // use. Assuming the decoder cannot compress the video then playing an
117     // MPEG file (say 352x288) into a 320x200 display will lose about 25% of
118     // the image. The clip loss factor specifies the upper range permissible.
119     // To allow typical MPEG video to be played in 320x200 it defaults to 25%
120    
121     // be nice to our friends in C
122     #undef INTERFACE
123     #define INTERFACE IFullScreenVideo
124    
125     DECLARE_INTERFACE_(IFullScreenVideo, IUnknown)
126     {
127     // IUnknown methods
128    
129     STDMETHOD(QueryInterface)(THIS_ REFIID riid, LPVOID *ppvObj) PURE;
130     STDMETHOD_(ULONG,AddRef)(THIS) PURE;
131     STDMETHOD_(ULONG,Release)(THIS) PURE;
132    
133     // IFullScreenVideo methods
134    
135     STDMETHOD(CountModes)(THIS_ long *pModes) PURE;
136     STDMETHOD(GetModeInfo)(THIS_ long Mode,long *pWidth,long *pHeight,long *pDepth) PURE;
137     STDMETHOD(GetCurrentMode)(THIS_ long *pMode) PURE;
138     STDMETHOD(IsModeAvailable)(THIS_ long Mode) PURE;
139     STDMETHOD(IsModeEnabled)(THIS_ long Mode) PURE;
140     STDMETHOD(SetEnabled)(THIS_ long Mode,long bEnabled) PURE;
141     STDMETHOD(GetClipFactor)(THIS_ long *pClipFactor) PURE;
142     STDMETHOD(SetClipFactor)(THIS_ long ClipFactor) PURE;
143     STDMETHOD(SetMessageDrain)(THIS_ HWND hwnd) PURE;
144     STDMETHOD(GetMessageDrain)(THIS_ HWND *hwnd) PURE;
145     STDMETHOD(SetMonitor)(THIS_ long Monitor) PURE;
146     STDMETHOD(GetMonitor)(THIS_ long *Monitor) PURE;
147     STDMETHOD(HideOnDeactivate)(THIS_ long Hide) PURE;
148     STDMETHOD(IsHideOnDeactivate)(THIS) PURE;
149     STDMETHOD(SetCaption)(THIS_ BSTR strCaption) PURE;
150     STDMETHOD(GetCaption)(THIS_ BSTR *pstrCaption) PURE;
151     STDMETHOD(SetDefault)(THIS) PURE;
152     };
153    
154    
155     // This adds the accelerator table capabilities in fullscreen. This is being
156     // added between the original runtime release and the full SDK release. We
157     // cannot just add the method to IFullScreenVideo as we don't want to force
158     // applications to have to ship the ActiveMovie support DLLs - this is very
159     // important to applications that plan on being downloaded over the Internet
160    
161     // be nice to our friends in C
162     #undef INTERFACE
163     #define INTERFACE IFullScreenVideoEx
164    
165     DECLARE_INTERFACE_(IFullScreenVideoEx, IFullScreenVideo)
166     {
167     // IUnknown methods
168    
169     STDMETHOD(QueryInterface)(THIS_ REFIID riid, LPVOID *ppvObj) PURE;
170     STDMETHOD_(ULONG,AddRef)(THIS) PURE;
171     STDMETHOD_(ULONG,Release)(THIS) PURE;
172    
173     // IFullScreenVideo methods
174    
175     STDMETHOD(CountModes)(THIS_ long *pModes) PURE;
176     STDMETHOD(GetModeInfo)(THIS_ long Mode,long *pWidth,long *pHeight,long *pDepth) PURE;
177     STDMETHOD(GetCurrentMode)(THIS_ long *pMode) PURE;
178     STDMETHOD(IsModeAvailable)(THIS_ long Mode) PURE;
179     STDMETHOD(IsModeEnabled)(THIS_ long Mode) PURE;
180     STDMETHOD(SetEnabled)(THIS_ long Mode,long bEnabled) PURE;
181     STDMETHOD(GetClipFactor)(THIS_ long *pClipFactor) PURE;
182     STDMETHOD(SetClipFactor)(THIS_ long ClipFactor) PURE;
183     STDMETHOD(SetMessageDrain)(THIS_ HWND hwnd) PURE;
184     STDMETHOD(GetMessageDrain)(THIS_ HWND *hwnd) PURE;
185     STDMETHOD(SetMonitor)(THIS_ long Monitor) PURE;
186     STDMETHOD(GetMonitor)(THIS_ long *Monitor) PURE;
187     STDMETHOD(HideOnDeactivate)(THIS_ long Hide) PURE;
188     STDMETHOD(IsHideOnDeactivate)(THIS) PURE;
189     STDMETHOD(SetCaption)(THIS_ BSTR strCaption) PURE;
190     STDMETHOD(GetCaption)(THIS_ BSTR *pstrCaption) PURE;
191     STDMETHOD(SetDefault)(THIS) PURE;
192    
193     // IFullScreenVideoEx
194    
195     STDMETHOD(SetAcceleratorTable)(THIS_ HWND hwnd,HACCEL hAccel) PURE;
196     STDMETHOD(GetAcceleratorTable)(THIS_ HWND *phwnd,HACCEL *phAccel) PURE;
197     STDMETHOD(KeepPixelAspectRatio)(THIS_ long KeepAspect) PURE;
198     STDMETHOD(IsKeepPixelAspectRatio)(THIS_ long *pKeepAspect) PURE;
199     };
200    
201    
202     // The SDK base classes contain a base video mixer class. Video mixing in a
203     // software environment is tricky because we typically have multiple streams
204     // each sending data at unpredictable times. To work with this we defined a
205     // pin that is the lead pin, when data arrives on this pin we do a mix. As
206     // an alternative we may not want to have a lead pin but output samples at
207     // predefined spaces, like one every 1/15 of a second, this interfaces also
208     // supports that mode of operations (there is a working video mixer sample)
209    
210     // be nice to our friends in C
211     #undef INTERFACE
212     #define INTERFACE IBaseVideoMixer
213    
214     DECLARE_INTERFACE_(IBaseVideoMixer, IUnknown)
215     {
216     STDMETHOD(SetLeadPin)(THIS_ int iPin) PURE;
217     STDMETHOD(GetLeadPin)(THIS_ int *piPin) PURE;
218     STDMETHOD(GetInputPinCount)(THIS_ int *piPinCount) PURE;
219     STDMETHOD(IsUsingClock)(THIS_ int *pbValue) PURE;
220     STDMETHOD(SetUsingClock)(THIS_ int bValue) PURE;
221     STDMETHOD(GetClockPeriod)(THIS_ int *pbValue) PURE;
222     STDMETHOD(SetClockPeriod)(THIS_ int bValue) PURE;
223     };
224    
225     #define iPALETTE_COLORS 256 // Maximum colours in palette
226     #define iEGA_COLORS 16 // Number colours in EGA palette
227     #define iMASK_COLORS 3 // Maximum three components
228     #define iTRUECOLOR 16 // Minimum true colour device
229     #define iRED 0 // Index position for RED mask
230     #define iGREEN 1 // Index position for GREEN mask
231     #define iBLUE 2 // Index position for BLUE mask
232     #define iPALETTE 8 // Maximum colour depth using a palette
233     #define iMAXBITS 8 // Maximum bits per colour component
234    
235    
236     // Used for true colour images that also have a palette
237    
238     typedef struct tag_TRUECOLORINFO {
239     DWORD dwBitMasks[iMASK_COLORS];
240     RGBQUAD bmiColors[iPALETTE_COLORS];
241     } TRUECOLORINFO;
242    
243    
244     // The BITMAPINFOHEADER contains all the details about the video stream such
245     // as the actual image dimensions and their pixel depth. A source filter may
246     // also request that the sink take only a section of the video by providing a
247     // clipping rectangle in rcSource. In the worst case where the sink filter
248     // forgets to check this on connection it will simply render the whole thing
249     // which isn't a disaster. Ideally a sink filter will check the rcSource and
250     // if it doesn't support image extraction and the rectangle is not empty then
251     // it will reject the connection. A filter should use SetRectEmpty to reset a
252     // rectangle to all zeroes (and IsRectEmpty to later check the rectangle).
253     // The rcTarget specifies the destination rectangle for the video, for most
254     // source filters they will set this to all zeroes, a downstream filter may
255     // request that the video be placed in a particular area of the buffers it
256     // supplies in which case it will call QueryAccept with a non empty target
257    
258     typedef struct tagVIDEOINFOHEADER {
259    
260     RECT rcSource; // The bit we really want to use
261     RECT rcTarget; // Where the video should go
262     DWORD dwBitRate; // Approximate bit data rate
263     DWORD dwBitErrorRate; // Bit error rate for this stream
264     REFERENCE_TIME AvgTimePerFrame; // Average time per frame (100ns units)
265    
266     BITMAPINFOHEADER bmiHeader;
267    
268     } VIDEOINFOHEADER;
269    
270     // make sure the pbmi is initialized before using these macros
271     #define TRUECOLOR(pbmi) ((TRUECOLORINFO *)(((LPBYTE)&((pbmi)->bmiHeader)) \
272     + (pbmi)->bmiHeader.biSize))
273     #define COLORS(pbmi) ((RGBQUAD *)(((LPBYTE)&((pbmi)->bmiHeader)) \
274     + (pbmi)->bmiHeader.biSize))
275     #define BITMASKS(pbmi) ((DWORD *)(((LPBYTE)&((pbmi)->bmiHeader)) \
276     + (pbmi)->bmiHeader.biSize))
277    
278     // All the image based filters use this to communicate their media types. It's
279     // centred principally around the BITMAPINFO. This structure always contains a
280     // BITMAPINFOHEADER followed by a number of other fields depending on what the
281     // BITMAPINFOHEADER contains. If it contains details of a palettised format it
282     // will be followed by one or more RGBQUADs defining the palette. If it holds
283     // details of a true colour format then it may be followed by a set of three
284     // DWORD bit masks that specify where the RGB data can be found in the image
285     // (For more information regarding BITMAPINFOs see the Win32 documentation)
286    
287     // The rcSource and rcTarget fields are not for use by filters supplying the
288     // data. The destination (target) rectangle should be set to all zeroes. The
289     // source may also be zero filled or set with the dimensions of the video. So
290     // if the video is 352x288 pixels then set it to (0,0,352,288). These fields
291     // are mainly used by downstream filters that want to ask the source filter
292     // to place the image in a different position in an output buffer. So when
293     // using for example the primary surface the video renderer may ask a filter
294     // to place the video images in a destination position of (100,100,452,388)
295     // on the display since that's where the window is positioned on the display
296    
297     // !!! WARNING !!!
298     // DO NOT use this structure unless you are sure that the BITMAPINFOHEADER
299     // has a normal biSize == sizeof(BITMAPINFOHEADER) !
300     // !!! WARNING !!!
301    
302     typedef struct tagVIDEOINFO {
303    
304     RECT rcSource; // The bit we really want to use
305     RECT rcTarget; // Where the video should go
306     DWORD dwBitRate; // Approximate bit data rate
307     DWORD dwBitErrorRate; // Bit error rate for this stream
308     REFERENCE_TIME AvgTimePerFrame; // Average time per frame (100ns units)
309    
310     BITMAPINFOHEADER bmiHeader;
311    
312     union {
313     RGBQUAD bmiColors[iPALETTE_COLORS]; // Colour palette
314     DWORD dwBitMasks[iMASK_COLORS]; // True colour masks
315     TRUECOLORINFO TrueColorInfo; // Both of the above
316     };
317    
318     } VIDEOINFO;
319    
320     // These macros define some standard bitmap format sizes
321    
322     #define SIZE_EGA_PALETTE (iEGA_COLORS * sizeof(RGBQUAD))
323     #define SIZE_PALETTE (iPALETTE_COLORS * sizeof(RGBQUAD))
324     #define SIZE_MASKS (iMASK_COLORS * sizeof(DWORD))
325     #define SIZE_PREHEADER (FIELD_OFFSET(VIDEOINFOHEADER,bmiHeader))
326     #define SIZE_VIDEOHEADER (sizeof(BITMAPINFOHEADER) + SIZE_PREHEADER)
327     // !!! for abnormal biSizes
328     // #define SIZE_VIDEOHEADER(pbmi) ((pbmi)->bmiHeader.biSize + SIZE_PREHEADER)
329    
330     // DIBSIZE calculates the number of bytes required by an image
331    
332     #define WIDTHBYTES(bits) ((DWORD)(((bits)+31) & (~31)) / 8)
333     #define DIBWIDTHBYTES(bi) (DWORD)WIDTHBYTES((DWORD)(bi).biWidth * (DWORD)(bi).biBitCount)
334     #define _DIBSIZE(bi) (DIBWIDTHBYTES(bi) * (DWORD)(bi).biHeight)
335     #define DIBSIZE(bi) ((bi).biHeight < 0 ? (-1)*(_DIBSIZE(bi)) : _DIBSIZE(bi))
336    
337     // This compares the bit masks between two VIDEOINFOHEADERs
338    
339     #define BIT_MASKS_MATCH(pbmi1,pbmi2) \
340     (((pbmi1)->dwBitMasks[iRED] == (pbmi2)->dwBitMasks[iRED]) && \
341     ((pbmi1)->dwBitMasks[iGREEN] == (pbmi2)->dwBitMasks[iGREEN]) && \
342     ((pbmi1)->dwBitMasks[iBLUE] == (pbmi2)->dwBitMasks[iBLUE]))
343    
344     // These zero fill different parts of the VIDEOINFOHEADER structure
345    
346     // Only use these macros for pbmi's with a normal BITMAPINFOHEADER biSize
347     #define RESET_MASKS(pbmi) (ZeroMemory((PVOID)(pbmi)->dwBitFields,SIZE_MASKS))
348     #define RESET_HEADER(pbmi) (ZeroMemory((PVOID)(pbmi),SIZE_VIDEOHEADER))
349     #define RESET_PALETTE(pbmi) (ZeroMemory((PVOID)(pbmi)->bmiColors,SIZE_PALETTE));
350    
351     #if 0
352     // !!! This is the right way to do it, but may break existing code
353     #define RESET_MASKS(pbmi) (ZeroMemory((PVOID)(((LPBYTE)(pbmi)->bmiHeader) + \
354     (pbmi)->bmiHeader.biSize,SIZE_MASKS)))
355     #define RESET_HEADER(pbmi) (ZeroMemory((PVOID)(pbmi), SIZE_PREHEADER + \
356     sizeof(BITMAPINFOHEADER)))
357     #define RESET_PALETTE(pbmi) (ZeroMemory((PVOID)(((LPBYTE)(pbmi)->bmiHeader) + \
358     (pbmi)->bmiHeader.biSize,SIZE_PALETTE))
359     #endif
360    
361     // Other (hopefully) useful bits and bobs
362    
363     #define PALETTISED(pbmi) ((pbmi)->bmiHeader.biBitCount <= iPALETTE)
364     #define PALETTE_ENTRIES(pbmi) ((DWORD) 1 << (pbmi)->bmiHeader.biBitCount)
365    
366     // Returns the address of the BITMAPINFOHEADER from the VIDEOINFOHEADER
367     #define HEADER(pVideoInfo) (&(((VIDEOINFOHEADER *) (pVideoInfo))->bmiHeader))
368    
369    
370     // MPEG variant - includes a DWORD length followed by the
371     // video sequence header after the video header.
372     //
373     // The sequence header includes the sequence header start code and the
374     // quantization matrices associated with the first sequence header in the
375     // stream so is a maximum of 140 bytes long.
376    
377     typedef struct tagMPEG1VIDEOINFO {
378    
379     VIDEOINFOHEADER hdr; // Compatible with VIDEOINFO
380     DWORD dwStartTimeCode; // 25-bit Group of pictures time code
381     // at start of data
382     DWORD cbSequenceHeader; // Length in bytes of bSequenceHeader
383     BYTE bSequenceHeader[1]; // Sequence header including
384     // quantization matrices if any
385     } MPEG1VIDEOINFO;
386    
387     #define MAX_SIZE_MPEG1_SEQUENCE_INFO 140
388     #define SIZE_MPEG1VIDEOINFO(pv) (FIELD_OFFSET(MPEG1VIDEOINFO, bSequenceHeader[0]) + (pv)->cbSequenceHeader)
389     #define MPEG1_SEQUENCE_INFO(pv) ((const BYTE *)(pv)->bSequenceHeader)
390    
391    
392     // Analog video variant - Use this when the format is FORMAT_AnalogVideo
393     //
394     // rcSource defines the portion of the active video signal to use
395     // rcTarget defines the destination rectangle
396     // both of the above are relative to the dwActiveWidth and dwActiveHeight fields
397     // dwActiveWidth is currently set to 720 for all formats (but could change for HDTV)
398     // dwActiveHeight is 483 for NTSC and 575 for PAL/SECAM (but could change for HDTV)
399    
400     typedef struct tagAnalogVideoInfo {
401     RECT rcSource; // Width max is 720, height varies w/ TransmissionStd
402     RECT rcTarget; // Where the video should go
403     DWORD dwActiveWidth; // Always 720 (CCIR-601 active samples per line)
404     DWORD dwActiveHeight; // 483 for NTSC, 575 for PAL/SECAM
405     REFERENCE_TIME AvgTimePerFrame; // Normal ActiveMovie units (100 nS)
406     } ANALOGVIDEOINFO;
407    
408     //
409     // AM_KSPROPSETID_FrameStep property set definitions
410     //
411     typedef enum {
412     // Step
413     AM_PROPERTY_FRAMESTEP_STEP = 0x01,
414     AM_PROPERTY_FRAMESTEP_CANCEL = 0x02,
415    
416     // S_OK for these 2 means we can - S_FALSE if we can't
417     AM_PROPERTY_FRAMESTEP_CANSTEP = 0x03,
418     AM_PROPERTY_FRAMESTEP_CANSTEPMULTIPLE = 0x04
419     } AM_PROPERTY_FRAMESTEP;
420    
421     typedef struct _AM_FRAMESTEP_STEP
422     {
423     // 1 means step 1 frame forward
424     // 0 is invalid
425     // n (n > 1) means skip n - 1 frames and show the nth
426     DWORD dwFramesToStep;
427     } AM_FRAMESTEP_STEP;
428    
429     #ifdef __cplusplus
430     }
431     #endif // __cplusplus
432     #endif // __AMVIDEO__
433    

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