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Updated DirectX to version 9 #4

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Exynox merged 2 commits from dx9 into nightly 2024-03-31 07:55:54 +03:00
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//------------------------------------------------------------------------------
// File: AMVideo.h
//
// Desc: Video related definitions and interfaces for ActiveMovie.
//
// Copyright (c) 1992-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
#ifndef __AMVIDEO__
#define __AMVIDEO__
#ifdef __cplusplus
extern "C" {
#endif // __cplusplus
#include <ddraw.h>
// This is an interface on the video renderer that provides information about
// DirectDraw with respect to its use by the renderer. For example it allows
// an application to get details of the surface and any hardware capabilities
// that are available. It also allows someone to adjust the surfaces that the
// renderer should use and furthermore even set the DirectDraw instance. We
// allow someone to set the DirectDraw instance because DirectDraw can only
// be opened once per process so it helps resolve conflicts. There is some
// duplication in this interface as the hardware/emulated/FOURCCs available
// can all be found through the IDirectDraw interface, this interface allows
// simple access to that information without calling the DirectDraw provider
// itself. The AMDDS prefix is ActiveMovie DirectDraw Switches abbreviated.
#define AMDDS_NONE 0x00 // No use for DCI/DirectDraw
#define AMDDS_DCIPS 0x01 // Use DCI primary surface
#define AMDDS_PS 0x02 // Use DirectDraw primary
#define AMDDS_RGBOVR 0x04 // RGB overlay surfaces
#define AMDDS_YUVOVR 0x08 // YUV overlay surfaces
#define AMDDS_RGBOFF 0x10 // RGB offscreen surfaces
#define AMDDS_YUVOFF 0x20 // YUV offscreen surfaces
#define AMDDS_RGBFLP 0x40 // RGB flipping surfaces
#define AMDDS_YUVFLP 0x80 // YUV flipping surfaces
#define AMDDS_ALL 0xFF // ALL the previous flags
#define AMDDS_DEFAULT AMDDS_ALL // Use all available surfaces
#define AMDDS_YUV (AMDDS_YUVOFF | AMDDS_YUVOVR | AMDDS_YUVFLP)
#define AMDDS_RGB (AMDDS_RGBOFF | AMDDS_RGBOVR | AMDDS_RGBFLP)
#define AMDDS_PRIMARY (AMDDS_DCIPS | AMDDS_PS)
// be nice to our friends in C
#undef INTERFACE
#define INTERFACE IDirectDrawVideo
DECLARE_INTERFACE_(IDirectDrawVideo, IUnknown)
{
// IUnknown methods
STDMETHOD(QueryInterface)(THIS_ REFIID riid, LPVOID *ppvObj) PURE;
STDMETHOD_(ULONG,AddRef)(THIS) PURE;
STDMETHOD_(ULONG,Release)(THIS) PURE;
// IDirectDrawVideo methods
STDMETHOD(GetSwitches)(THIS_ DWORD *pSwitches) PURE;
STDMETHOD(SetSwitches)(THIS_ DWORD Switches) PURE;
STDMETHOD(GetCaps)(THIS_ DDCAPS *pCaps) PURE;
STDMETHOD(GetEmulatedCaps)(THIS_ DDCAPS *pCaps) PURE;
STDMETHOD(GetSurfaceDesc)(THIS_ DDSURFACEDESC *pSurfaceDesc) PURE;
STDMETHOD(GetFourCCCodes)(THIS_ DWORD *pCount,DWORD *pCodes) PURE;
STDMETHOD(SetDirectDraw)(THIS_ LPDIRECTDRAW pDirectDraw) PURE;
STDMETHOD(GetDirectDraw)(THIS_ LPDIRECTDRAW *ppDirectDraw) PURE;
STDMETHOD(GetSurfaceType)(THIS_ DWORD *pSurfaceType) PURE;
STDMETHOD(SetDefault)(THIS) PURE;
STDMETHOD(UseScanLine)(THIS_ long UseScanLine) PURE;
STDMETHOD(CanUseScanLine)(THIS_ long *UseScanLine) PURE;
STDMETHOD(UseOverlayStretch)(THIS_ long UseOverlayStretch) PURE;
STDMETHOD(CanUseOverlayStretch)(THIS_ long *UseOverlayStretch) PURE;
STDMETHOD(UseWhenFullScreen)(THIS_ long UseWhenFullScreen) PURE;
STDMETHOD(WillUseFullScreen)(THIS_ long *UseWhenFullScreen) PURE;
};
// be nice to our friends in C
#undef INTERFACE
#define INTERFACE IQualProp
DECLARE_INTERFACE_(IQualProp, IUnknown)
{
// IUnknown methods
STDMETHOD(QueryInterface)(THIS_ REFIID riid, LPVOID *ppvObj) PURE;
STDMETHOD_(ULONG,AddRef)(THIS) PURE;
STDMETHOD_(ULONG,Release)(THIS) PURE;
// Compare these with the functions in class CGargle in gargle.h
STDMETHOD(get_FramesDroppedInRenderer)(THIS_ int *pcFrames) PURE; // Out
STDMETHOD(get_FramesDrawn)(THIS_ int *pcFramesDrawn) PURE; // Out
STDMETHOD(get_AvgFrameRate)(THIS_ int *piAvgFrameRate) PURE; // Out
STDMETHOD(get_Jitter)(THIS_ int *iJitter) PURE; // Out
STDMETHOD(get_AvgSyncOffset)(THIS_ int *piAvg) PURE; // Out
STDMETHOD(get_DevSyncOffset)(THIS_ int *piDev) PURE; // Out
};
// This interface allows an application or plug in distributor to control a
// full screen renderer. The Modex renderer supports this interface. When
// connected a renderer should load the display modes it has available
// The number of modes available can be obtained through CountModes. Then
// information on each individual mode is available by calling GetModeInfo
// and IsModeAvailable. An application may enable and disable any modes
// by calling the SetEnabled flag with OATRUE or OAFALSE (not C/C++ TRUE
// and FALSE values) - the current value may be queried by IsModeEnabled
// A more generic way of setting the modes enabled that is easier to use
// when writing applications is the clip loss factor. This defines the
// amount of video that can be lost when deciding which display mode to
// use. Assuming the decoder cannot compress the video then playing an
// MPEG file (say 352x288) into a 320x200 display will lose about 25% of
// the image. The clip loss factor specifies the upper range permissible.
// To allow typical MPEG video to be played in 320x200 it defaults to 25%
// be nice to our friends in C
#undef INTERFACE
#define INTERFACE IFullScreenVideo
DECLARE_INTERFACE_(IFullScreenVideo, IUnknown)
{
// IUnknown methods
STDMETHOD(QueryInterface)(THIS_ REFIID riid, LPVOID *ppvObj) PURE;
STDMETHOD_(ULONG,AddRef)(THIS) PURE;
STDMETHOD_(ULONG,Release)(THIS) PURE;
// IFullScreenVideo methods
STDMETHOD(CountModes)(THIS_ long *pModes) PURE;
STDMETHOD(GetModeInfo)(THIS_ long Mode,long *pWidth,long *pHeight,long *pDepth) PURE;
STDMETHOD(GetCurrentMode)(THIS_ long *pMode) PURE;
STDMETHOD(IsModeAvailable)(THIS_ long Mode) PURE;
STDMETHOD(IsModeEnabled)(THIS_ long Mode) PURE;
STDMETHOD(SetEnabled)(THIS_ long Mode,long bEnabled) PURE;
STDMETHOD(GetClipFactor)(THIS_ long *pClipFactor) PURE;
STDMETHOD(SetClipFactor)(THIS_ long ClipFactor) PURE;
STDMETHOD(SetMessageDrain)(THIS_ HWND hwnd) PURE;
STDMETHOD(GetMessageDrain)(THIS_ HWND *hwnd) PURE;
STDMETHOD(SetMonitor)(THIS_ long Monitor) PURE;
STDMETHOD(GetMonitor)(THIS_ long *Monitor) PURE;
STDMETHOD(HideOnDeactivate)(THIS_ long Hide) PURE;
STDMETHOD(IsHideOnDeactivate)(THIS) PURE;
STDMETHOD(SetCaption)(THIS_ BSTR strCaption) PURE;
STDMETHOD(GetCaption)(THIS_ BSTR *pstrCaption) PURE;
STDMETHOD(SetDefault)(THIS) PURE;
};
// This adds the accelerator table capabilities in fullscreen. This is being
// added between the original runtime release and the full SDK release. We
// cannot just add the method to IFullScreenVideo as we don't want to force
// applications to have to ship the ActiveMovie support DLLs - this is very
// important to applications that plan on being downloaded over the Internet
// be nice to our friends in C
#undef INTERFACE
#define INTERFACE IFullScreenVideoEx
DECLARE_INTERFACE_(IFullScreenVideoEx, IFullScreenVideo)
{
// IUnknown methods
STDMETHOD(QueryInterface)(THIS_ REFIID riid, LPVOID *ppvObj) PURE;
STDMETHOD_(ULONG,AddRef)(THIS) PURE;
STDMETHOD_(ULONG,Release)(THIS) PURE;
// IFullScreenVideo methods
STDMETHOD(CountModes)(THIS_ long *pModes) PURE;
STDMETHOD(GetModeInfo)(THIS_ long Mode,long *pWidth,long *pHeight,long *pDepth) PURE;
STDMETHOD(GetCurrentMode)(THIS_ long *pMode) PURE;
STDMETHOD(IsModeAvailable)(THIS_ long Mode) PURE;
STDMETHOD(IsModeEnabled)(THIS_ long Mode) PURE;
STDMETHOD(SetEnabled)(THIS_ long Mode,long bEnabled) PURE;
STDMETHOD(GetClipFactor)(THIS_ long *pClipFactor) PURE;
STDMETHOD(SetClipFactor)(THIS_ long ClipFactor) PURE;
STDMETHOD(SetMessageDrain)(THIS_ HWND hwnd) PURE;
STDMETHOD(GetMessageDrain)(THIS_ HWND *hwnd) PURE;
STDMETHOD(SetMonitor)(THIS_ long Monitor) PURE;
STDMETHOD(GetMonitor)(THIS_ long *Monitor) PURE;
STDMETHOD(HideOnDeactivate)(THIS_ long Hide) PURE;
STDMETHOD(IsHideOnDeactivate)(THIS) PURE;
STDMETHOD(SetCaption)(THIS_ BSTR strCaption) PURE;
STDMETHOD(GetCaption)(THIS_ BSTR *pstrCaption) PURE;
STDMETHOD(SetDefault)(THIS) PURE;
// IFullScreenVideoEx
STDMETHOD(SetAcceleratorTable)(THIS_ HWND hwnd,HACCEL hAccel) PURE;
STDMETHOD(GetAcceleratorTable)(THIS_ HWND *phwnd,HACCEL *phAccel) PURE;
STDMETHOD(KeepPixelAspectRatio)(THIS_ long KeepAspect) PURE;
STDMETHOD(IsKeepPixelAspectRatio)(THIS_ long *pKeepAspect) PURE;
};
// The SDK base classes contain a base video mixer class. Video mixing in a
// software environment is tricky because we typically have multiple streams
// each sending data at unpredictable times. To work with this we defined a
// pin that is the lead pin, when data arrives on this pin we do a mix. As
// an alternative we may not want to have a lead pin but output samples at
// predefined spaces, like one every 1/15 of a second, this interfaces also
// supports that mode of operations (there is a working video mixer sample)
// be nice to our friends in C
#undef INTERFACE
#define INTERFACE IBaseVideoMixer
DECLARE_INTERFACE_(IBaseVideoMixer, IUnknown)
{
STDMETHOD(SetLeadPin)(THIS_ int iPin) PURE;
STDMETHOD(GetLeadPin)(THIS_ int *piPin) PURE;
STDMETHOD(GetInputPinCount)(THIS_ int *piPinCount) PURE;
STDMETHOD(IsUsingClock)(THIS_ int *pbValue) PURE;
STDMETHOD(SetUsingClock)(THIS_ int bValue) PURE;
STDMETHOD(GetClockPeriod)(THIS_ int *pbValue) PURE;
STDMETHOD(SetClockPeriod)(THIS_ int bValue) PURE;
};
#define iPALETTE_COLORS 256 // Maximum colours in palette
#define iEGA_COLORS 16 // Number colours in EGA palette
#define iMASK_COLORS 3 // Maximum three components
#define iTRUECOLOR 16 // Minimum true colour device
#define iRED 0 // Index position for RED mask
#define iGREEN 1 // Index position for GREEN mask
#define iBLUE 2 // Index position for BLUE mask
#define iPALETTE 8 // Maximum colour depth using a palette
#define iMAXBITS 8 // Maximum bits per colour component
// Used for true colour images that also have a palette
typedef struct tag_TRUECOLORINFO {
DWORD dwBitMasks[iMASK_COLORS];
RGBQUAD bmiColors[iPALETTE_COLORS];
} TRUECOLORINFO;
// The BITMAPINFOHEADER contains all the details about the video stream such
// as the actual image dimensions and their pixel depth. A source filter may
// also request that the sink take only a section of the video by providing a
// clipping rectangle in rcSource. In the worst case where the sink filter
// forgets to check this on connection it will simply render the whole thing
// which isn't a disaster. Ideally a sink filter will check the rcSource and
// if it doesn't support image extraction and the rectangle is not empty then
// it will reject the connection. A filter should use SetRectEmpty to reset a
// rectangle to all zeroes (and IsRectEmpty to later check the rectangle).
// The rcTarget specifies the destination rectangle for the video, for most
// source filters they will set this to all zeroes, a downstream filter may
// request that the video be placed in a particular area of the buffers it
// supplies in which case it will call QueryAccept with a non empty target
typedef struct tagVIDEOINFOHEADER {
RECT rcSource; // The bit we really want to use
RECT rcTarget; // Where the video should go
DWORD dwBitRate; // Approximate bit data rate
DWORD dwBitErrorRate; // Bit error rate for this stream
REFERENCE_TIME AvgTimePerFrame; // Average time per frame (100ns units)
BITMAPINFOHEADER bmiHeader;
} VIDEOINFOHEADER;
// make sure the pbmi is initialized before using these macros
#define TRUECOLOR(pbmi) ((TRUECOLORINFO *)(((LPBYTE)&((pbmi)->bmiHeader)) \
+ (pbmi)->bmiHeader.biSize))
#define COLORS(pbmi) ((RGBQUAD *)(((LPBYTE)&((pbmi)->bmiHeader)) \
+ (pbmi)->bmiHeader.biSize))
#define BITMASKS(pbmi) ((DWORD *)(((LPBYTE)&((pbmi)->bmiHeader)) \
+ (pbmi)->bmiHeader.biSize))
// All the image based filters use this to communicate their media types. It's
// centred principally around the BITMAPINFO. This structure always contains a
// BITMAPINFOHEADER followed by a number of other fields depending on what the
// BITMAPINFOHEADER contains. If it contains details of a palettised format it
// will be followed by one or more RGBQUADs defining the palette. If it holds
// details of a true colour format then it may be followed by a set of three
// DWORD bit masks that specify where the RGB data can be found in the image
// (For more information regarding BITMAPINFOs see the Win32 documentation)
// The rcSource and rcTarget fields are not for use by filters supplying the
// data. The destination (target) rectangle should be set to all zeroes. The
// source may also be zero filled or set with the dimensions of the video. So
// if the video is 352x288 pixels then set it to (0,0,352,288). These fields
// are mainly used by downstream filters that want to ask the source filter
// to place the image in a different position in an output buffer. So when
// using for example the primary surface the video renderer may ask a filter
// to place the video images in a destination position of (100,100,452,388)
// on the display since that's where the window is positioned on the display
// !!! WARNING !!!
// DO NOT use this structure unless you are sure that the BITMAPINFOHEADER
// has a normal biSize == sizeof(BITMAPINFOHEADER) !
// !!! WARNING !!!
typedef struct tagVIDEOINFO {
RECT rcSource; // The bit we really want to use
RECT rcTarget; // Where the video should go
DWORD dwBitRate; // Approximate bit data rate
DWORD dwBitErrorRate; // Bit error rate for this stream
REFERENCE_TIME AvgTimePerFrame; // Average time per frame (100ns units)
BITMAPINFOHEADER bmiHeader;
union {
RGBQUAD bmiColors[iPALETTE_COLORS]; // Colour palette
DWORD dwBitMasks[iMASK_COLORS]; // True colour masks
TRUECOLORINFO TrueColorInfo; // Both of the above
};
} VIDEOINFO;
// These macros define some standard bitmap format sizes
#define SIZE_EGA_PALETTE (iEGA_COLORS * sizeof(RGBQUAD))
#define SIZE_PALETTE (iPALETTE_COLORS * sizeof(RGBQUAD))
#define SIZE_MASKS (iMASK_COLORS * sizeof(DWORD))
#define SIZE_PREHEADER (FIELD_OFFSET(VIDEOINFOHEADER,bmiHeader))
#define SIZE_VIDEOHEADER (sizeof(BITMAPINFOHEADER) + SIZE_PREHEADER)
// !!! for abnormal biSizes
// #define SIZE_VIDEOHEADER(pbmi) ((pbmi)->bmiHeader.biSize + SIZE_PREHEADER)
// DIBSIZE calculates the number of bytes required by an image
#define WIDTHBYTES(bits) ((DWORD)(((bits)+31) & (~31)) / 8)
#define DIBWIDTHBYTES(bi) (DWORD)WIDTHBYTES((DWORD)(bi).biWidth * (DWORD)(bi).biBitCount)
#define _DIBSIZE(bi) (DIBWIDTHBYTES(bi) * (DWORD)(bi).biHeight)
#define DIBSIZE(bi) ((bi).biHeight < 0 ? (-1)*(_DIBSIZE(bi)) : _DIBSIZE(bi))
// This compares the bit masks between two VIDEOINFOHEADERs
#define BIT_MASKS_MATCH(pbmi1,pbmi2) \
(((pbmi1)->dwBitMasks[iRED] == (pbmi2)->dwBitMasks[iRED]) && \
((pbmi1)->dwBitMasks[iGREEN] == (pbmi2)->dwBitMasks[iGREEN]) && \
((pbmi1)->dwBitMasks[iBLUE] == (pbmi2)->dwBitMasks[iBLUE]))
// These zero fill different parts of the VIDEOINFOHEADER structure
// Only use these macros for pbmi's with a normal BITMAPINFOHEADER biSize
#define RESET_MASKS(pbmi) (ZeroMemory((PVOID)(pbmi)->dwBitFields,SIZE_MASKS))
#define RESET_HEADER(pbmi) (ZeroMemory((PVOID)(pbmi),SIZE_VIDEOHEADER))
#define RESET_PALETTE(pbmi) (ZeroMemory((PVOID)(pbmi)->bmiColors,SIZE_PALETTE));
#if 0
// !!! This is the right way to do it, but may break existing code
#define RESET_MASKS(pbmi) (ZeroMemory((PVOID)(((LPBYTE)(pbmi)->bmiHeader) + \
(pbmi)->bmiHeader.biSize,SIZE_MASKS)))
#define RESET_HEADER(pbmi) (ZeroMemory((PVOID)(pbmi), SIZE_PREHEADER + \
sizeof(BITMAPINFOHEADER)))
#define RESET_PALETTE(pbmi) (ZeroMemory((PVOID)(((LPBYTE)(pbmi)->bmiHeader) + \
(pbmi)->bmiHeader.biSize,SIZE_PALETTE))
#endif
// Other (hopefully) useful bits and bobs
#define PALETTISED(pbmi) ((pbmi)->bmiHeader.biBitCount <= iPALETTE)
#define PALETTE_ENTRIES(pbmi) ((DWORD) 1 << (pbmi)->bmiHeader.biBitCount)
// Returns the address of the BITMAPINFOHEADER from the VIDEOINFOHEADER
#define HEADER(pVideoInfo) (&(((VIDEOINFOHEADER *) (pVideoInfo))->bmiHeader))
// MPEG variant - includes a DWORD length followed by the
// video sequence header after the video header.
//
// The sequence header includes the sequence header start code and the
// quantization matrices associated with the first sequence header in the
// stream so is a maximum of 140 bytes long.
typedef struct tagMPEG1VIDEOINFO {
VIDEOINFOHEADER hdr; // Compatible with VIDEOINFO
DWORD dwStartTimeCode; // 25-bit Group of pictures time code
// at start of data
DWORD cbSequenceHeader; // Length in bytes of bSequenceHeader
BYTE bSequenceHeader[1]; // Sequence header including
// quantization matrices if any
} MPEG1VIDEOINFO;
#define MAX_SIZE_MPEG1_SEQUENCE_INFO 140
#define SIZE_MPEG1VIDEOINFO(pv) (FIELD_OFFSET(MPEG1VIDEOINFO, bSequenceHeader[0]) + (pv)->cbSequenceHeader)
#define MPEG1_SEQUENCE_INFO(pv) ((const BYTE *)(pv)->bSequenceHeader)
// Analog video variant - Use this when the format is FORMAT_AnalogVideo
//
// rcSource defines the portion of the active video signal to use
// rcTarget defines the destination rectangle
// both of the above are relative to the dwActiveWidth and dwActiveHeight fields
// dwActiveWidth is currently set to 720 for all formats (but could change for HDTV)
// dwActiveHeight is 483 for NTSC and 575 for PAL/SECAM (but could change for HDTV)
typedef struct tagAnalogVideoInfo {
RECT rcSource; // Width max is 720, height varies w/ TransmissionStd
RECT rcTarget; // Where the video should go
DWORD dwActiveWidth; // Always 720 (CCIR-601 active samples per line)
DWORD dwActiveHeight; // 483 for NTSC, 575 for PAL/SECAM
REFERENCE_TIME AvgTimePerFrame; // Normal ActiveMovie units (100 nS)
} ANALOGVIDEOINFO;
//
// AM_KSPROPSETID_FrameStep property set definitions
//
typedef enum {
// Step
AM_PROPERTY_FRAMESTEP_STEP = 0x01,
AM_PROPERTY_FRAMESTEP_CANCEL = 0x02,
// S_OK for these 2 means we can - S_FALSE if we can't
AM_PROPERTY_FRAMESTEP_CANSTEP = 0x03,
AM_PROPERTY_FRAMESTEP_CANSTEPMULTIPLE = 0x04
} AM_PROPERTY_FRAMESTEP;
typedef struct _AM_FRAMESTEP_STEP
{
// 1 means step 1 frame forward
// 0 is invalid
// n (n > 1) means skip n - 1 frames and show the nth
DWORD dwFramesToStep;
} AM_FRAMESTEP_STEP;
#ifdef __cplusplus
}
#endif // __cplusplus
#endif // __AMVIDEO__

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//------------------------------------------------------------------------------
// File: DShow.h
//
// Desc: DirectShow top-level include file
//
// Copyright (c) 2000-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
#ifndef __DSHOW_INCLUDED__
#define __DSHOW_INCLUDED__
///////////////////////////////////////////////////////////////////////////
// Set up constants & pragmas for the compiler
///////////////////////////////////////////////////////////////////////////
#ifdef _MSC_VER
// disable some level-4 warnings, use #pragma warning(default:###) to re-enable
#pragma warning(disable:4100) // warning C4100: unreferenced formal parameter
#pragma warning(disable:4201) // warning C4201: nonstandard extension used : nameless struct/union
#pragma warning(disable:4511) // warning C4511: copy constructor could not be generated
#pragma warning(disable:4512) // warning C4512: assignment operator could not be generated
#pragma warning(disable:4514) // warning C4514: "unreferenced inline function has been removed"
#if _MSC_VER>=1100
#define AM_NOVTABLE __declspec(novtable)
#else
#define AM_NOVTABLE
#endif
#endif // MSC_VER
///////////////////////////////////////////////////////////////////////////
// Include standard Windows files
///////////////////////////////////////////////////////////////////////////
#include <windows.h>
#include <windowsx.h>
#include <olectl.h>
#include <ddraw.h>
#include <mmsystem.h>
#ifndef NUMELMS
#define NUMELMS(aa) (sizeof(aa)/sizeof((aa)[0]))
#endif
///////////////////////////////////////////////////////////////////////////
// Include DirectShow include files
///////////////////////////////////////////////////////////////////////////
#include <strmif.h> // Generated IDL header file for streams interfaces
#include <amvideo.h> // ActiveMovie video interfaces and definitions
#include <amaudio.h> // ActiveMovie audio interfaces and definitions
#include <control.h> // generated from control.odl
#include <evcode.h> // event code definitions
#include <uuids.h> // declaration of type GUIDs and well-known clsids
#include <errors.h> // HRESULT status and error definitions
#include <edevdefs.h> // External device control interface defines
#include <audevcod.h> // audio filter device error event codes
#include <dvdevcod.h> // DVD error event codes
///////////////////////////////////////////////////////////////////////////
// Define OLE Automation constants
///////////////////////////////////////////////////////////////////////////
#ifndef OATRUE
#define OATRUE (-1)
#endif // OATRUE
#ifndef OAFALSE
#define OAFALSE (0)
#endif // OAFALSE
///////////////////////////////////////////////////////////////////////////
// Define Win64 interfaces if not already defined
///////////////////////////////////////////////////////////////////////////
// InterlockedExchangePointer
#ifndef InterlockedExchangePointer
#define InterlockedExchangePointer(Target, Value) \
(PVOID)InterlockedExchange((PLONG)(Target), (LONG)(Value))
#endif
#endif // __DSHOW_INCLUDED__

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//---------------------------------------------------------------------
//
// Copyright (c) 1999-2001 Microsoft Corporation
//
// BDATIF.idl
//
//---------------------------------------------------------------------
cpp_quote("//+-------------------------------------------------------------------------")
cpp_quote("//")
cpp_quote("// Microsoft Windows")
cpp_quote("// Copyright (C) 1999-2001 Microsoft Corporation. All Rights Reserved.")
cpp_quote("//")
cpp_quote("//--------------------------------------------------------------------------")
cpp_quote("#if ( _MSC_VER >= 800 )")
cpp_quote("#pragma warning(disable:4201) /* Nameless struct/union */")
cpp_quote("#endif")
cpp_quote("#if ( _MSC_VER >= 1020 )")
cpp_quote("#pragma once")
cpp_quote("#endif")
//---------------------------------------------------------------------
// IUnknown import idl
//---------------------------------------------------------------------
#ifndef DO_NO_IMPORTS
import "unknwn.idl";
import "strmif.idl";
import "tuner.idl";
#endif
interface IMPEG2_TIF_CONTROL;
interface IATSCChannelInfo;
//******************************************************************************
//
// IMPEG2_TIF_CONTROL interface
//
// Implemented by the Microsoft ATSC/DVB BDA Network Provider
//
// Used by a transport information filter (TIF) to request table
// sections carried on specific PIDs within the transport stream.
// The Network Provider Filter will, in turn, do the necessary
// control on the Demux Filter. All sections are delivered as comlete
// mpeg2 table sections via the TIF's connection to the Demux Filter.
//
[
object,
uuid(F9BAC2F9-4149-4916-B2EF-FAA202326862),
helpstring("BDA Network Provider Inteface for DVB/ATSC Transport Information Filters"),
pointer_default(unique)
]
interface IMPEG2_TIF_CONTROL : IUnknown
{
[helpstring("Used to register a transport analyzer with the Network Provider")]
HRESULT
RegisterTIF (
[in] IUnknown * pUnkTIF,
[in, out] ULONG * ppvRegistrationContext
);
[helpstring("Used to unregister TIF with the Network Provider")]
HRESULT
UnregisterTIF (
[in] ULONG pvRegistrationContext
);
[helpstring("Used to add PSI/SI MPEG2 packet IDs to the TIF's data stream")]
HRESULT
AddPIDs (
[in] ULONG ulcPIDs,
[in] ULONG * pulPIDs
);
[helpstring("Used to remove PSI/SI MPEG2 packet IDs from the TIF's data stream")]
HRESULT
DeletePIDs (
[in] ULONG ulcPIDs,
[in] ULONG * pulPIDs
);
[helpstring("Returns the number of MPEG2 Packet IDs being filtered into the TIF's input data.")]
HRESULT
GetPIDCount (
[out] ULONG * pulcPIDs
);
[helpstring("Returns the the list of MPEG2 Packet IDs being filtered into the TIF's input data.")]
HRESULT
GetPIDs (
[out] ULONG * pulcPIDs,
[out] ULONG * pulPIDs
);
}
//******************************************************************************
//
// ITuneRequestInfo interface
//
// Implemented by a BDA transport information filter (TIF)
//
// Used by the BDA Network Provider to obtain network specific
// information about locating transport streams and aquiring
// services.
//
//
// GetLocatorData -
//
// GetComponentData -
//
// CreateComponentList -
//
// GetNextService -
//
// GetPreviouService -
//
// GetNextLocator -
//
// GetPreviousLocator -
//
[
object,
uuid(A3B152DF-7A90-4218-AC54-9830BEE8C0B6),
helpstring("Interface provided by the Mpeg2 Transport Information Filter to supply tuning details."),
pointer_default(unique)
]
interface ITuneRequestInfo : IUnknown
{
[helpstring("TIF fills in channel/program locator information for the given tune request.")]
HRESULT
GetLocatorData (
[in] ITuneRequest *Request
);
[helpstring("TIF fills in all network specific component data for the existing component list on the given tune request.")]
HRESULT
GetComponentData (
[in] ITuneRequest *CurrentRequest
);
[helpstring("TIF creates a complete component list and fills in all network specific component data on the given tune request")]
HRESULT
CreateComponentList (
[in] ITuneRequest *CurrentRequest
);
[helpstring("TIF creates a new TuneRequest with channel/program locator information for the next service.")]
HRESULT
GetNextProgram (
[in] ITuneRequest *CurrentRequest,
[out, retval] ITuneRequest **TuneRequest
);
[helpstring("TIF creates a new TuneRequest with channel/program locator information for the previous service.")]
HRESULT
GetPreviousProgram (
[in] ITuneRequest *CurrentRequest,
[out, retval] ITuneRequest **TuneRequest
);
[helpstring("TIF creates a new TuneRequest with locator information for the next transport stream.")]
HRESULT
GetNextLocator (
[in] ITuneRequest *CurrentRequest,
[out, retval] ITuneRequest **TuneRequest
);
[helpstring("TIF creates a new TuneRequest with locator information for the previous transport stream.")]
HRESULT
GetPreviousLocator (
[in] ITuneRequest *CurrentRequest,
[out, retval] ITuneRequest **TuneRequest
);
}
//******************************************************************************
//
// IGuideDataEvent
//
// This is the guide data event notification callback interface. The
// callback interface is registered on a transport analyzer's
// IConnectionPoint by the event consumer.
//
// The event consumer MUST NOT BLOCK THE CALLING THREAD.
//
// If the consumer requires additional information about the event, it
// should queue the event to a separate thread.
//
// {EFDA0C80-F395-42c3-9B3C-56B37DEC7BB7}
//
[
object,
uuid(EFDA0C80-F395-42c3-9B3C-56B37DEC7BB7),
helpstring("Consumers of a guide data events must implement this callback interface."),
pointer_default(unique)
]
interface IGuideDataEvent : IUnknown
{
// Indicates that a complete set of guide data has been acquire from
// the current transport stream.
//
// MANDATORY - If a transport analyzer supports IGuideDataEvent then
// it must supply this event.
//
HRESULT GuideDataAcquired(
);
// Indicates that information about one or more programs changed.
//
// If varProgramDescriptionID is NULL then the consumer
// must get properties for all programs to determine which ones
// changed.
//
// MANDATORY - If a transport analyzer supports IGuideDataEvent then
// it must supply this event.
//
HRESULT ProgramChanged(
[in] VARIANT varProgramDescriptionID
);
// Indicates that information about one or more services changed.
//
// If varServiceDescriptionID is NULL then the consumer
// must get properties for all services to determine which ones
// changed.
//
// MANDATORY - If a transport analyzer supports IGuideDataEvent then
// it must supply this event.
//
HRESULT ServiceChanged(
[in] VARIANT varServiceDescriptionID
);
// Indicates that information about one or more schedule entries
// changed.
//
// If varScheduleEntryDescriptionID is NULL then the consumer
// must get properties for all schedule entries to determine which ones
// changed.
//
// MANDATORY - If a transport analyzer supports IGuideDataEvent then
// it must supply this event.
//
HRESULT ScheduleEntryChanged(
[in] VARIANT varScheduleEntryDescriptionID
);
// Indicates that the program with the given Description.ID
// has been deleted.
//
//
// Optional - Transport analyzer may supply this event. Consumer
// may return E_NOTIMPL.
//
HRESULT ProgramDeleted(
[in] VARIANT varProgramDescriptionID
);
// Indicates that the service with the given Description.ID
// has been deleted.
//
//
// Optional - Transport analyzer may supply this event. Consumer
// may return E_NOTIMPL.
//
HRESULT ServiceDeleted(
[in] VARIANT varServiceDescriptionID
);
// Indicates that the schedule entry with the given Description.ID
// has been deleted.
//
//
// Optional - Transport analyzer may supply this event. Consumer
// may return E_NOTIMPL.
//
HRESULT ScheduleDeleted(
[in] VARIANT varScheduleEntryDescriptionID
);
}
//******************************************************************************
//
// IGuideDataPropery
//
// {88EC5E58-BB73-41d6-99CE-66C524B8B591}
//
[
object,
uuid(88EC5E58-BB73-41d6-99CE-66C524B8B591),
helpstring("Interface provided by a transport analyzer to represent a guide data property."),
pointer_default(unique)
]
interface IGuideDataProperty : IUnknown
{
[propget] HRESULT Name([out] BSTR *pbstrName);
[propget] HRESULT Language([out] long *idLang);
[propget] HRESULT Value([out] VARIANT *pvar);
}
//******************************************************************************
//
// IEnumGuideDataProperties
//
// {AE44423B-4571-475c-AD2C-F40A771D80EF}
//
[
object,
uuid(AE44423B-4571-475c-AD2C-F40A771D80EF),
helpstring("Interface provided by a transport analyzer to enumerate guide data properties."),
pointer_default(unique)
]
interface IEnumGuideDataProperties : IUnknown
{
HRESULT Next([in] unsigned long celt, [out] IGuideDataProperty **ppprop, [out] unsigned long *pcelt);
HRESULT Skip([in] unsigned long celt);
HRESULT Reset();
HRESULT Clone([out] IEnumGuideDataProperties **ppenum);
}
//******************************************************************************
//
// IEnumTuneRequests
//
// {1993299C-CED6-4788-87A3-420067DCE0C7}
//
[
object,
uuid(1993299C-CED6-4788-87A3-420067DCE0C7),
helpstring("Interface provided by a transport analyzer to enumerate service tune requests ."),
pointer_default(unique)
]
interface IEnumTuneRequests : IUnknown
{
HRESULT Next([in] unsigned long celt, [out] ITuneRequest **ppprop, [out] unsigned long *pcelt);
HRESULT Skip([in] unsigned long celt);
HRESULT Reset();
HRESULT Clone([out] IEnumTuneRequests **ppenum);
}
//******************************************************************************
//
// IGuideData
//
// {61571138-5B01-43cd-AEAF-60B784A0BF93}
//
[
object,
uuid(61571138-5B01-43cd-AEAF-60B784A0BF93),
helpstring("Interface provided by a transport analyzer to supply guide data information."),
pointer_default(unique)
]
interface IGuideData : IUnknown
{
//-------------------------------------------------------------------------
//
// GetServices
// Returns an enumeration of tune requests for all services whose
// information is found in the current transport stream.
//
// Parameters
//
// IEnumTuneRequests **
// Location in which a reference to the resulting
// IEnumTuneRequests is placed. The caller must release
// this reference when finished with it.
//
// Comments
// This call is used to enumerate all services whose information
// can be found in the service descriptor table. Each tune request
// in the IEnumTuneRequest * contains the tune request including the
// locator data for the service.
//
[helpstring("Returns an enumeration of services whose information is found in the given transport stream")]
HRESULT
GetServices (
[out, retval] IEnumTuneRequests ** ppEnumTuneRequests
);
//-------------------------------------------------------------------------
//
// GetServiceProperties
// Returns an enumeration of all guide data properties for
// the service with the given Description.ID.
//
// Parameters
// ITuneRequest *
// Pointer to a tune request that contains information needed
// to indentify the requested transport stream.
// A NULL ITuneRequest * indicates that information about the
// current transport stream is requested.
//
// IEnumGuideDataProperties **
// Location in which a reference to the resulting
// IEnumGuideDataProperties is placed. The caller must release
// this reference when finished with it.
//
// Required Properties
// The following properties MUST be included in the returned
// property enumeration.
//
// Description.ID
// Uniquely identifies a service.
//
// Description.Name
// The default name to use for this service in the channel lineup.
//
// Description.Version
// Identifies the current version of the properties associated
// with this service.
//
// Provider.Name
// Name of the service provider (e.g. "KCTS")
//
// Provider.NetworkName
// Name of the network on which the service is provided.
// (e.g. "PBS")
//
// Service.TuneRequest
// Contains a tune request in the variant
//
//
[helpstring("Returns an enumeration of all guide data properties for the service specified by a tune request.")]
HRESULT
GetServiceProperties (
[in] ITuneRequest * pTuneRequest,
[out, retval] IEnumGuideDataProperties ** ppEnumProperties
);
//-------------------------------------------------------------------------
//
// GetProgramIDs
// Returns an enumeration of the unique identifiers (Description.ID)
// of programs with description contained in all transport
// streams
//
// Parameters
//
// IEnumVARIANT **
// Location in which a reference to the resulting
// IEnumVARIANT is placed. The caller must release
// this reference when finished with it.
//
// Comments
// This call is used to get a list of programs that have
// guide data properties in all transport streams.
// Each variant returned in the IEnumVARIANT * contains the
// unique Description.ID property for a program.
// Note that more than on transport stream may contain properties
// for the same program. In this case the properties should be
// merged.
//
[helpstring("Returns an enumeration of the Description.ID property for all programs on the given transport stream.")]
HRESULT
GetGuideProgramIDs (
[out, retval] IEnumVARIANT ** pEnumPrograms
);
//-------------------------------------------------------------------------
//
// GetProgramProperties
// Returns an enumeration of all guide data properties for
// the program with the given Description.ID.
//
// Parameters
// varProgramDescriptionID
// Variant containing the unique identifier for the program
// for which properties are requested.
//
// IEnumGuideDataProperties **
// Location in which a reference to the resulting
// IEnumGuideDataProperties is placed. The caller must release
// this reference when finished with it.
//
// Required Properties
// The following properties MUST be included in the returned
// property enumeration.
//
// Description.ID
// Uniquely identifies a program.
//
// Description.Version
// Identifies the current version of the properties associated
// with this program.
//
// Description.Title
// Human readable title of the program (e.g. "")
//
// Description.Long
// A description of the program.
//
[helpstring("Returns an enumeration of all guide data properties for the program with the given Description.ID.")]
HRESULT
GetProgramProperties (
[in] VARIANT varProgramDescriptionID,
[out, retval] IEnumGuideDataProperties ** ppEnumProperties
);
//-------------------------------------------------------------------------
//
// GetScheduleIDs
// Returns an enumeration of the unique identifiers (Description.ID)
// transport of schedule entries with description contained in the
// given transport stream.
//
// Parameters
//
// IEnumVARIANT **
// Location in which a reference to the resulting
// IEnumVARIANT is placed. The caller must release
// this reference when finished with it.
//
// Comments
// This call is used to get a list of schedule entries that have
// guide data properties in all transport streams.
// Each variant returned in the IEnumVARIANT * contains the
// unique Description.ID property for a schedule entry.
// Note that more than on transport stream may contain properties
// for the same schedule entry. In this case the properties
// should be merged.
//
[helpstring("Returns an enumeration of the Description.ID property for all schedule entries in the transport stream specified by a tune request.")]
HRESULT
GetScheduleEntryIDs (
[out, retval] IEnumVARIANT ** pEnumScheduleEntries
);
//-------------------------------------------------------------------------
//
// GetScheduleEntryProperties
// Returns an enumeration of all guide data properties for
// the schedule entry with the given Description.ID.
//
// Parameters
// varScheduleEntryDescriptionID
// Variant containing the unique identifier for the schedule
// entry for which properties are requested.
//
// IEnumGuideDataProperties **
// Location in which a reference to the resulting
// IEnumGuideDataProperties is placed. The caller must release
// this reference when finished with it.
//
// Required Properties
// The following properties MUST be included in the returned
// property enumeration.
//
// Description.ID
// Uniquely identifies a schedule entry.
//
// Description.Version
// Identifies the current version of the properties associated
// with this program.
//
// Time.Start
// The starting time and date of this schedule entry.
//
// Time.End
// The ending time and date of this schedule entry.
//
// Schedule.Program
// The Description.ID of the program that will play at the
// time specified by this schedule entry.
//
// Schedule.Service
// The Description.ID of the Service that carries the
// program that will play at the time specified by this
// schedule entry.
//
[helpstring("Returns an enumeration of all guide data properties for the schedule entry with the given Description.ID.")]
HRESULT
GetScheduleEntryProperties (
[in] VARIANT varScheduleEntryDescriptionID,
[out, retval] IEnumGuideDataProperties ** ppEnumProperties
);
}
//******************************************************************************
//
// IGuideDataLoader
//
// All Guide Data Loaders MUST implement this interface. It is how they are
// provided with the IGuideData interface that they will use.
//
// {4764ff7c-fa95-4525-af4d-d32236db9e38}
[
object,
uuid(4764ff7c-fa95-4525-af4d-d32236db9e38),
helpstring("IGuideDataLoader Interface"),
pointer_default(unique)
]
interface IGuideDataLoader : IUnknown
{
HRESULT Init([in] IGuideData *pGuideStore);
HRESULT Terminate();
};
[
uuid(8224A083-7F8C-432D-B83E-3C5E9BDE3528),
version(1.0),
helpstring("psisload 1.0 Type Library")
]
library PSISLOADLib
{
importlib("stdole32.tlb");
importlib("stdole2.tlb");
[
uuid(14EB8748-1753-4393-95AE-4F7E7A87AAD6),
helpstring("TIFLoad Class")
]
coclass TIFLoad
{
interface IGuideDataLoader;
interface IGuideDataEvent;
};
};

845
extern/include/DShowIDL/Mstvca.idl vendored
View File

@ -1,845 +0,0 @@
//------------------------------------------------------------------------------
// File: MSTvCA.idl
//
// Desc: IDL source for MSTvCA.dll
//
// Copyright (c) 1999-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
// This file will be processed by the MIDL tool to
// produce the type library (CA.tlb) and marshalling code.
import "oaidl.idl";
import "ocidl.idl";
#include "olectl.h"
/* [
object,
dual,
uuid(49a32d3c-7d85-11d2-8895-00c04f794967),
helpstring("ITuneRequest Interface"),
pointer_default(unique)
]
interface ITuneRequest : IDispatch
{
};
*/
import "tuner.idl"; // includes the whole BDA world! Yecko!
interface ICAManager;
interface ICARequest;
interface ICAPolicy;
interface ICAPolicies;
interface ICAPoliciesInternal;
interface ICAToll;
interface ICATolls;
interface ICATollsInternal;
interface ICADenial;
interface ICADenials;
interface ICAOffer;
interface ICAOffers;
interface ICAComponent;
interface ICAComponents;
#define COLLECTID_Item 0
#define COLLECTID_Count 1
#define COLLECTID_Add 2
#define COLLECTID_Remove 3
#define COLLECTID_AddNew 4
#define COLLECTID_CountDenied 5 // ICADenials
#define COLLECTID_CountSelected 6 // ICADenials
#define COLLECTID_PaySelectedTolls 7 // ICADenials
typedef enum
{
Unselected = 0,
Selected = 1
} CATollState;
typedef enum
{
Denied = 0,
Transient = 1,
// Allowed = 2,
DescriptionShort = 10, // one of the description fields changed
DescriptionLong = 11, // via a ICADenial::put_Description()
DescriptionHTML = 12, //
DescriptionXML = 13 // (keep these current+10 with list below...)
} CADenialState;
typedef enum
{
Short = 0, // must be numeric, starting at 0. (Used as array index).
Long = 1, // in approximatly order of length in bytes
URL = 2,
HTML = 3,
XML = 4,
kDescEnd = 5 // invalid format, 1+ last real one (Used as array length).
} CADescFormat;
typedef enum
{
Request = 1,
ComponentX = 2,
Offers = 4,
PaidTolls = 8,
Policies = 16,
Standard = 15, // all put the policies
All = 31 // all
} CAUIDisplayFields;
// ---------------------------------------------------------------
// if add methods to ICAManagerInternal, be sure to add MAGICCALL in CAManagerProxy too..
// ---------------------------------------------------------------
[
object,
uuid(11166301-DF8A-463a-B620-7BEC23542010),
dual, // Helpers are Dual, IUnknown... so see from VB
hidden, restricted,
helpstring("ICAManagerInternal Interface"),
pointer_default(unique)
]
interface ICAManagerInternal : IUnknown
{
[ id(1), helpstring("method Save")] HRESULT Save();
[ id(2), helpstring("method Load")] HRESULT Load();
[propput, id(3), helpstring("property MarkDirty")] HRESULT MarkDirty([in] BOOL fDirty);
[propget, id(3), helpstring("property MarkDirty")] HRESULT MarkDirty([out, retval] BOOL *pfDirty);
[propput, id(4), helpstring("property TuneRequest")] HRESULT TuneRequest([in] ITuneRequest *ptunereq);
[ id(5), helpstring("method GetDefaultUI")] HRESULT GetDefaultUI([out] HWND *phwnd);
[ id(6), helpstring("method SetDefaultUI")] HRESULT SetDefaultUI([in] HWND hwnd);
// return the main CAManager object, not the proxy one.
[propget, id(7), helpstring("property CAManagerMain")] HRESULT CAManagerMain([out,retval] ICAManager **ppManagerMain);
[propput, id(8), helpstring("property BroadcastEventService")] HRESULT BroadcastEventService([in] IBroadcastEvent *pBroadcastEventService);
[propget, id(8), helpstring("property BroadcastEventService")] HRESULT BroadcastEventService([out, retval] IBroadcastEvent **ppBroadcastEventService);
[ id(9), helpstring("method DisplayDefaultUI")] HRESULT DisplayDefaultUI([in] VARIANT_BOOL fDisplay);
[ id(10), helpstring("method EnableDefaultUIPayTollsButton")] HRESULT EnableDefaultUIPayTollsButton([in] VARIANT_BOOL fEnabled);
[ id(11), helpstring("method UpdateDefaultUIForToll")] HRESULT UpdateDefaultUIForToll([in] ICAToll *pToll,[in] CATollState enState);
[propput, id(12), helpstring("property TuneRequestInt")] HRESULT TuneRequestInt([in] ITuneRequest *ptunereq);
[ id(13), helpstring("method AddDenialsFor")] HRESULT AddDenialsFor([in] IUnknown *pUnk); // see also ICAManager::get_DenialsFor()
[ id(14), helpstring("method RemoveDenialsFor")] HRESULT RemoveDenialsFor([in] IUnknown *pUnk);
[ id(2201),helpstring("method NotifyRequestActivated")] HRESULT NotifyRequestActivated([in] ICARequest *pReq);
[ id(2202),helpstring("method NotifyRequestDeactivated")] HRESULT NotifyRequestDeactivated([in] ICARequest *pReq);
[ id(2203),helpstring("method NotifyOfferAdded")] HRESULT NotifyOfferAdded([in] ICAOffer *pOffer,[in] long cOffers);
[ id(2204),helpstring("method NotifyOfferRemoved")] HRESULT NotifyOfferRemoved([in] ICAOffer *pOffer,[in] long cOffers);
[ id(2205),helpstring("method NotifyPolicyAdded")] HRESULT NotifyPolicyAdded([in] ICAPolicy *pPolicy,[in] long cPolicies);
[ id(2206),helpstring("method NotifyPolicyRemoved")] HRESULT NotifyPolicyRemoved([in] ICAPolicy *pPolicy,[in] long cPolicies);
[ id(2207),helpstring("method NotifyRequestDenialAdded")] HRESULT NotifyRequestDenialAdded([in] ICARequest *pReq, [in] ICADenial *pDenial,[in] long cDenials);
[ id(2208),helpstring("method NotifyRequestDenialRemoved")] HRESULT NotifyRequestDenialRemoved([in] ICARequest *pReq, [in] ICADenial *pDenial,[in] long cDenials);
[ id(2209),helpstring("method NotifyDenialTollAdded")] HRESULT NotifyDenialTollAdded([in] ICADenial *pDenial, [in] ICAToll *pToll, [in] long cTolls);
[ id(2210),helpstring("method NotifyDenialTollRemoved")] HRESULT NotifyDenialTollRemoved([in] ICADenial *pDenial, [in] ICAToll *pToll, [in] long cTolls);
[ id(2211),helpstring("method NotifyTollDenialAdded")] HRESULT NotifyTollDenialAdded([in] ICAToll *pToll, [in] ICADenial *pDenial,[in] long cDenials);
[ id(2212),helpstring("method NotifyTollDenialRemoved")] HRESULT NotifyTollDenialRemoved([in] ICAToll *pToll, [in] ICADenial *pDenial,[in] long cDenials);
[ id(2213),helpstring("method NotifyOfferTollAdded")] HRESULT NotifyOfferTollAdded([in] ICAOffer *pOffer, [in] ICAToll *pToll, [in] long cTolls);
[ id(2214),helpstring("method NotifyOfferTollRemoved")] HRESULT NotifyOfferTollRemoved([in] ICAOffer *pOffer, [in] ICAToll *pToll, [in] long cTolls);
[ id(2215),helpstring("method NotifyTollStateChanged")] HRESULT NotifyTollStateChanged([in] ICAToll *pToll, [in] CATollState enStateLast);
[ id(2216),helpstring("method NotifyDenialStateChanged")] HRESULT NotifyDenialStateChanged([in] ICADenial *pDenial, [in] CADenialState enStateLast);
[ id(2217),helpstring("method NotifyComponentDenialAdded")] HRESULT NotifyComponentDenialAdded([in] ICAComponent *pReq, [in] ICADenial *pDenial,[in] long cDenials);
[ id(2218),helpstring("method NotifyComponentDenialRemoved")] HRESULT NotifyComponentDenialRemoved([in] ICAComponent *pReq, [in] ICADenial *pDenial,[in] long cDenials);
};
[
object,
uuid(11166302-DF8A-463a-B620-7BEC23542010),
dual, // Helpers are Dual, IUnknown... so see from VB
hidden, restricted,
helpstring("ICAManagerXProxy Interface"),
pointer_default(unique)
]
interface ICAManagerXProxy : IUnknown
{
[propget, id(1), helpstring("property PunkCAManagerProxy")] HRESULT PunkCAManagerProxy([out,retval] IUnknown **ppUnkCAManagerProxy);
[ id(2201),helpstring("method NotifyRequestActivated_XProxy")] HRESULT NotifyRequestActivated_XProxy([in] ICARequest *pReq);
[ id(2202),helpstring("method NotifyRequestDeactivated_XProxy")] HRESULT NotifyRequestDeactivated_XProxy([in] ICARequest *pReq);
[ id(2203),helpstring("method NotifyOfferAdded_XProxy")] HRESULT NotifyOfferAdded_XProxy([in] ICAOffer *pOffer,[in] long cOffers);
[ id(2204),helpstring("method NotifyOfferRemoved_XProxy")] HRESULT NotifyOfferRemoved_XProxy([in] ICAOffer *pOffer,[in] long cOffers);
[ id(2205),helpstring("method NotifyPolicyAdded_XProxy")] HRESULT NotifyPolicyAdded_XProxy([in] ICAPolicy *pPolicy,[in] long cPolicies);
[ id(2206),helpstring("method NotifyPolicyRemoved_XProxy")] HRESULT NotifyPolicyRemoved_XProxy([in] ICAPolicy *pPolicy,[in] long cPolicies);
[ id(2207),helpstring("method NotifyRequestDenialAdded_XProxy")] HRESULT NotifyRequestDenialAdded_XProxy([in] ICARequest *pReq, [in] ICADenial *pDenial,[in] long cDenials);
[ id(2208),helpstring("method NotifyRequestDenialRemoved_XProxy")] HRESULT NotifyRequestDenialRemoved_XProxy([in] ICARequest *pReq, [in] ICADenial *pDenial,[in] long cDenials);
[ id(2209),helpstring("method NotifyDenialTollAdded_XProxy")] HRESULT NotifyDenialTollAdded_XProxy([in] ICADenial *pDenial, [in] ICAToll *pToll, [in] long cTolls);
[ id(2210),helpstring("method NotifyDenialTollRemoved_XProxy")] HRESULT NotifyDenialTollRemoved_XProxy([in] ICADenial *pDenial, [in] ICAToll *pToll, [in] long cTolls);
[ id(2211),helpstring("method NotifyTollDenialAdded_XProxy")] HRESULT NotifyTollDenialAdded_XProxy([in] ICAToll *pToll, [in] ICADenial *pDenial,[in] long cDenials);
[ id(2212),helpstring("method NotifyTollDenialRemoved_XProxy")] HRESULT NotifyTollDenialRemoved_XProxy([in] ICAToll *pToll, [in] ICADenial *pDenial,[in] long cDenials);
[ id(2213),helpstring("method NotifyOfferTollAdded_XProxy")] HRESULT NotifyOfferTollAdded_XProxy([in] ICAOffer *pOffer, [in] ICAToll *pToll, [in] long cTolls);
[ id(2214),helpstring("method NotifyOfferTollRemoved_XProxy")] HRESULT NotifyOfferTollRemoved_XProxy([in] ICAOffer *pOffer, [in] ICAToll *pToll, [in] long cTolls);
[ id(2215),helpstring("method NotifyTollStateChanged_XProxy")] HRESULT NotifyTollStateChanged_XProxy([in] ICAToll *pToll, [in] CATollState enStateLast);
[ id(2216),helpstring("method NotifyDenialStateChanged_XProxy")] HRESULT NotifyDenialStateChanged_XProxy([in] ICADenial *pDenial, [in] CADenialState enStateLast);
[ id(2217),helpstring("method NotifyComponentDenialAdded_XProxy")] HRESULT NotifyComponentDenialAdded_XProxy([in] ICAComponent *pReq, [in] ICADenial *pDenial,[in] long cDenials);
[ id(2218),helpstring("method NotifyComponentDenialRemoved_XProxy")] HRESULT NotifyComponentDenialRemoved_XProxy([in] ICAComponent *pReq, [in] ICADenial *pDenial,[in] long cDenials);
};
// ---------------------------------------------------------------
// ---------------------------------------------------------------
[
object,
uuid(11166420-DF8A-463a-B620-7BEC23542010),
dual,
helpstring("ICAPolicies Interface"),
pointer_default(unique)
]
interface ICAPolicies : IDispatch
{
[propget, id(DISPID_NEWENUM), restricted] HRESULT _NewEnum([out, retval] IUnknown **ppCollection);
[propget, id(COLLECTID_Count)] HRESULT Count([out, retval] long *Count);
[propget, id(COLLECTID_Item)] HRESULT Item([in] VARIANT Index, [out, retval] ICAPolicy **ppPolicy);
[ id(COLLECTID_Add)] HRESULT Add([in] ICAPolicy *pPolicy);
[ id(COLLECTID_Remove)] HRESULT Remove([in] VARIANT Index);
};
[ object,
uuid(11166421-DF8A-463a-B620-7BEC23542010),
dual,
hidden, restricted,
helpstring("ICAPoliciesInternal Interface"),
pointer_default(unique)
]
interface ICAPoliciesInternal : IUnknown
{
[id(1),helpstring("method SetCAManager")] HRESULT SetCAManager([in] ICAManager *pManager);
[id(2),helpstring("method CheckRequest")] HRESULT CheckRequest([in] ICARequest *pReq);
};
// ---------------------------------------------------------------
[
object,
uuid(11166430-DF8A-463a-B620-7BEC23542010),
dual,
helpstring("ICATolls Interface"),
pointer_default(unique)
]
interface ICATolls : IDispatch
{
[propget, id(DISPID_NEWENUM), restricted] HRESULT _NewEnum([out, retval] IUnknown **ppCollection);
[propget, id(COLLECTID_Count)] HRESULT Count([out, retval] long *Count);
[propget, id(COLLECTID_Item)] HRESULT Item([in] VARIANT Index, [out, retval] ICAToll **ppToll);
[ id(COLLECTID_Add)] HRESULT Add([in] ICAToll *pToll);
[ id(COLLECTID_Remove)] HRESULT Remove([in] VARIANT Index);
};
[
object,
uuid(11166431-DF8A-463a-B620-7BEC23542010),
dual,
hidden, restricted,
helpstring("ICATolls Internal Interface"),
pointer_default(unique)
]
interface ICATollsInternal : IUnknown // workaround for not being able to get _ICAResDenialEvents to work
{
[ id(1),helpstring("method SetCAManager")] HRESULT SetCAManager([in] ICAManager *pManager);
[ id(2),helpstring("method GetCAManager")] HRESULT GetCAManager([out] ICAManager **ppManager);
[ id(3),helpstring("method SetMustPersist")] HRESULT SetMustPersist([in] BOOL fMustPersist);
[ id(4),helpstring("method Save")] HRESULT Save([in] IStorage *pstore,[in] BSTR bstrPrefix);
[ id(5),helpstring("method Load")] HRESULT Load([in] IStorage *pstore,[in] BSTR bstrPrefix);
[ id(6),helpstring("method NotifyStateChanged")] HRESULT NotifyStateChanged([in] ICAToll *pToll, [in] CATollState enStateFrom);
[ id(7),helpstring("method NotifyTollSelectionChanged")] HRESULT NotifyTollSelectionChanged([in] ICAToll *pToll, [in] BOOL fSelected);
};
// ---------------------------------------------------------------
[
object,
uuid(11166440-DF8A-463a-B620-7BEC23542010),
dual,
helpstring("ICADenials Interface"),
pointer_default(unique)
]
interface ICADenials : IDispatch
{
[propget, id(DISPID_NEWENUM), restricted] HRESULT _NewEnum([out, retval] IUnknown **ppCollection);
[propget, id(COLLECTID_Count) ] HRESULT Count([out, retval] long *Count);
[propget, id(COLLECTID_Item)] HRESULT Item([in] VARIANT Index, [out, retval] ICADenial **ppDenial);
[propget, id(COLLECTID_AddNew), helpstring("property AddNew")] HRESULT AddNew([in] ICAPolicy *ppolicy, [in] BSTR bstrShortDesc, [in] IUnknown *pUnkDeniedObject, [in] long enDenialState, [out, retval] ICADenial **ppDenial);
[ id(COLLECTID_Remove)] HRESULT Remove([in] VARIANT Index);
[propget, id(COLLECTID_CountDenied)] HRESULT CountDenied([out, retval] long *Count);
[propget, id(COLLECTID_CountSelected)] HRESULT CountSelected([out, retval] long *Count);
[ id(COLLECTID_PaySelectedTolls)] HRESULT PaySelectedTolls();
};
[
object,
uuid(11166441-DF8A-463a-B620-7BEC23542010),
dual,
hidden, restricted,
helpstring("ICADenialsInternal Interface"),
pointer_default(unique)
]
interface ICADenialsInternal : IUnknown
{
[ id(1),helpstring("method SetCAManager")] HRESULT SetCAManager([in] ICAManager *pManager);
[ id(2),helpstring("method NotifyDenialStateChanged")] HRESULT NotifyDenialStateChanged([in] ICADenial *pDenial, [in] CADenialState enStateLast);
};
// ---------------------------------------------------------------
[
object,
uuid(11166450-DF8A-463a-B620-7BEC23542010),
dual,
helpstring("ICAOffers Interface"),
pointer_default(unique)
]
interface ICAOffers : IDispatch
{
[propget, id(DISPID_NEWENUM) , restricted] HRESULT _NewEnum([out, retval] IUnknown **ppCollection);
[propget, id(COLLECTID_Count)] HRESULT Count([out, retval] long *Count);
[propget, id(COLLECTID_Item)] HRESULT Item([in] VARIANT Index, [out, retval] ICAOffer **ppOffer);
[propget, id(COLLECTID_AddNew), helpstring("property AddNew")] HRESULT AddNew([in] ICAPolicy *pPolicy, [in] BSTR bstrName, [in] DATE dateStart, [in] DATE dateEnd, [out, retval] ICAOffer **ppOffer);
[ id(COLLECTID_Remove)] HRESULT Remove([in] VARIANT Index);
};
[
object,
uuid(11166470-DF8A-463a-B620-7BEC23542010),
dual,
helpstring("ICAComponents Interface"),
pointer_default(unique)
]
interface ICAComponents : IDispatch
{
[propget, id(DISPID_NEWENUM) , restricted] HRESULT _NewEnum([out, retval] IUnknown **ppCollection);
[propget, id(COLLECTID_Count)] HRESULT Count([out, retval] long *Count);
[propget, id(COLLECTID_Item)] HRESULT Item([in] VARIANT Index, [out, retval] ICAComponent **ppComponent);
// [ id(COLLECTID_Add)] HRESULT Add([in] ICAComponent *pComponent);
// [ id(COLLECTID_Remove)] HRESULT Remove([in] VARIANT Index);
};
[
object,
uuid(11166361-DF8A-463a-B620-7BEC23542010),
dual,
hidden,
helpstring("ICAComponentInternal Interface"),
pointer_default(unique)
]
interface ICAComponentInternal : IUnknown
{
[ id(1), helpstring("method RemoveAllDenials")] HRESULT RemoveAllDenials();
[propget, id(2), helpstring("property Description")] HRESULT Description([in] CADescFormat enFormat, [out, retval] BSTR *pbstrDescription);
};
// ---------------------------------------------------------------
[
object,
uuid(860A3FE2-DED1-40E2-896C-057681A8A1A8),
dual,
helpstring("ICADefaultDlg Interface"),
pointer_default(unique)
]
interface ICADefaultDlg : IDispatch
{
[propput, id(DISPID_AUTOSIZE)]
HRESULT AutoSize([in]VARIANT_BOOL vbool);
[propget, id(DISPID_AUTOSIZE)]
HRESULT AutoSize([out,retval]VARIANT_BOOL* pbool);
[propput, id(DISPID_BACKCOLOR)]
HRESULT BackColor([in]OLE_COLOR clr);
[propget, id(DISPID_BACKCOLOR)]
HRESULT BackColor([out,retval]OLE_COLOR* pclr);
[propput, id(DISPID_BACKSTYLE)]
HRESULT BackStyle([in]long style);
[propget, id(DISPID_BACKSTYLE)]
HRESULT BackStyle([out,retval]long* pstyle);
[propput, id(DISPID_BORDERCOLOR)]
HRESULT BorderColor([in]OLE_COLOR clr);
[propget, id(DISPID_BORDERCOLOR)]
HRESULT BorderColor([out, retval]OLE_COLOR* pclr);
[propput, id(DISPID_BORDERSTYLE)]
HRESULT BorderStyle([in]long style);
[propget, id(DISPID_BORDERSTYLE)]
HRESULT BorderStyle([out, retval]long* pstyle);
[propput, id(DISPID_BORDERWIDTH)]
HRESULT BorderWidth([in]long width);
[propget, id(DISPID_BORDERWIDTH)]
HRESULT BorderWidth([out, retval]long* width);
[propput, id(DISPID_DRAWMODE)]
HRESULT DrawMode([in]long mode);
[propget, id(DISPID_DRAWMODE)]
HRESULT DrawMode([out, retval]long* pmode);
[propput, id(DISPID_DRAWSTYLE)]
HRESULT DrawStyle([in]long style);
[propget, id(DISPID_DRAWSTYLE)]
HRESULT DrawStyle([out, retval]long* pstyle);
[propput, id(DISPID_DRAWWIDTH)]
HRESULT DrawWidth([in]long width);
[propget, id(DISPID_DRAWWIDTH)]
HRESULT DrawWidth([out, retval]long* pwidth);
[propput, id(DISPID_FILLCOLOR)]
HRESULT FillColor([in]OLE_COLOR clr);
[propget, id(DISPID_FILLCOLOR)]
HRESULT FillColor([out, retval]OLE_COLOR* pclr);
[propput, id(DISPID_FILLSTYLE)]
HRESULT FillStyle([in]long style);
[propget, id(DISPID_FILLSTYLE)]
HRESULT FillStyle([out, retval]long* pstyle);
[propputref, id(DISPID_FONT)]
HRESULT Font([in]IFontDisp* pFont);
[propput, id(DISPID_FONT)]
HRESULT Font([in]IFontDisp* pFont);
[propget, id(DISPID_FONT)]
HRESULT Font([out, retval]IFontDisp** ppFont);
[propput, id(DISPID_FORECOLOR)]
HRESULT ForeColor([in]OLE_COLOR clr);
[propget, id(DISPID_FORECOLOR)]
HRESULT ForeColor([out,retval]OLE_COLOR* pclr);
[propput, id(DISPID_ENABLED)]
HRESULT Enabled([in]VARIANT_BOOL vbool);
[propget, id(DISPID_ENABLED)]
HRESULT Enabled([out,retval]VARIANT_BOOL* pbool);
[propget, id(DISPID_HWND)]
HRESULT Window([out, retval]LONG_PTR* phwnd); // was long* via the wizard, but doesn't compile Win64
[propput, id(DISPID_TABSTOP)]
HRESULT TabStop([in]VARIANT_BOOL vbool);
[propget, id(DISPID_TABSTOP)]
HRESULT TabStop([out, retval]VARIANT_BOOL* pbool);
[propput, id(DISPID_TEXT)]
HRESULT Text([in]BSTR strText);
[propget, id(DISPID_TEXT)]
HRESULT Text([out, retval]BSTR* pstrText);
[propput, id(DISPID_CAPTION)]
HRESULT Caption([in]BSTR strCaption);
[propget, id(DISPID_CAPTION)]
HRESULT Caption([out,retval]BSTR* pstrCaption);
[propput, id(DISPID_BORDERVISIBLE)]
HRESULT BorderVisible([in]VARIANT_BOOL vbool);
[propget, id(DISPID_BORDERVISIBLE)]
HRESULT BorderVisible([out, retval]VARIANT_BOOL* pbool);
[propput, id(DISPID_APPEARANCE)]
HRESULT Appearance([in]short appearance);
[propget, id(DISPID_APPEARANCE)]
HRESULT Appearance([out, retval]short* pappearance);
[propput, id(DISPID_MOUSEPOINTER)]
HRESULT MousePointer([in]long pointer);
[propget, id(DISPID_MOUSEPOINTER)]
HRESULT MousePointer([out, retval]long* ppointer);
[propputref, id(DISPID_MOUSEICON)]
HRESULT MouseIcon([in]IPictureDisp* pMouseIcon);
[propput, id(DISPID_MOUSEICON)]
HRESULT MouseIcon([in]IPictureDisp* pMouseIcon);
[propget, id(DISPID_MOUSEICON)]
HRESULT MouseIcon([out, retval]IPictureDisp** ppMouseIcon);
[propputref, id(DISPID_PICTURE)]
HRESULT Picture([in]IPictureDisp* pPicture);
[propput, id(DISPID_PICTURE)]
HRESULT Picture([in]IPictureDisp* pPicture);
[propget, id(DISPID_PICTURE)]
HRESULT Picture([out, retval]IPictureDisp** ppPicture);
[propput, id(DISPID_VALID)]
HRESULT Valid([in]VARIANT_BOOL vbool);
[propget, id(DISPID_VALID)]
HRESULT Valid([out, retval]VARIANT_BOOL* pbool);
};
// ---------------------------------------------------------------
[
uuid(11166000-DF8A-463a-B620-7BEC23542010),
version(1.0),
helpstring("Microsoft TV CA Type Library")
]
library MSTvCALib
{
importlib("stdole32.tlb");
importlib("stdole2.tlb");
// ---------------------------------------------------
// CAUTION - if Change events below, need to perform:
// 1) compile the MIDL file to generate the typelib
// 2) In VCC class view, <xxx>->Implement Connection Point (_ICA<xxx>Events)
// to regenerate the CProxy_ICA<xxx>Events<> code.
// Need to browse to objd\i386 directory and select MSTvCA.tlb
// (The file MSTvCACP.h must be checked out.)
// Where <xxx> is Denials, Manager, Offers, Policies, Request, and Tolls
[
uuid(11166298-DF8A-463A-B620-7BEC23542010),
helpstring("_ICAResDenialTreeEvents Interface")
]
dispinterface _ICAResDenialTreeEvents
{
properties:
methods:
[id(1),helpstring("method PaidTollSelected")] HRESULT PaidTollSelected([in] ICAToll *pToll, [in] long fSelected);
};
[
uuid(11166200-DF8A-463A-B620-7BEC23542010),
helpstring("ICAManagerEvents Interface")
]
dispinterface _ICAManagerEvents
{
properties:
methods:
[id(2201),helpstring("method RequestActivated")] HRESULT RequestActivated([in] ICARequest *pReq);
[id(2202),helpstring("method RequestDeactivated")] HRESULT RequestDeactivated([in] ICARequest *pReq);
[id(2203),helpstring("method OfferAdded")] HRESULT OfferAdded([in] ICAOffer *pOffer,[in] long cOffers);
[id(2204),helpstring("method OfferRemoved")] HRESULT OfferRemoved([in] ICAOffer *pOffer,[in] long cOffers);
[id(2205),helpstring("method PolicyAdded")] HRESULT PolicyAdded([in] ICAPolicy *pPolicy,[in] long cPolicies);
[id(2206),helpstring("method PolicyRemoved")] HRESULT PolicyRemoved([in] ICAPolicy *pPolicy,[in] long cPolicies);
[id(2207),helpstring("method RequestDenialAdded")] HRESULT RequestDenialAdded([in] ICARequest *pReq, [in] ICADenial *pDenial,[in] long cDenials);
[id(2208),helpstring("method RequestDenialRemoved")] HRESULT RequestDenialRemoved([in] ICARequest *pReq, [in] ICADenial *pDenial,[in] long cDenials);
[id(2209),helpstring("method DenialTollAdded")] HRESULT DenialTollAdded([in] ICADenial *pDenial, [in] ICAToll *pToll, [in] long cTolls);
[id(2210),helpstring("method DenialTollRemoved")] HRESULT DenialTollRemoved([in] ICADenial *pDenial, [in] ICAToll *pToll, [in] long cTolls);
[id(2211),helpstring("method TollDenialAdded")] HRESULT TollDenialAdded([in] ICAToll *pToll, [in] ICADenial *pDenial,[in] long cDenials);
[id(2212),helpstring("method TollDenialRemoved")] HRESULT TollDenialRemoved([in] ICAToll *pToll, [in] ICADenial *pDenial,[in] long cDenials);
[id(2213),helpstring("method OfferTollAdded")] HRESULT OfferTollAdded([in] ICAOffer *pOffer, [in] ICAToll *pToll, [in] long cTolls);
[id(2214),helpstring("method OfferTollRemoved")] HRESULT OfferTollRemoved([in] ICAOffer *pOffer, [in] ICAToll *pToll, [in] long cTolls);
[id(2215),helpstring("method TollStateChanged")] HRESULT TollStateChanged([in] ICAToll *pToll, [in] CATollState enState);
[id(2216),helpstring("method DenialStateChanged")] HRESULT DenialStateChanged([in] ICADenial *pDenial, [in] CADenialState enState);
[id(2217),helpstring("method ComponentDenialAdded")] HRESULT ComponentDenialAdded([in] ICAComponent *pComp, [in] ICADenial *pDenial,[in] long cDenials);
[id(2218),helpstring("method ComponentDenialRemoved")] HRESULT ComponentDenialRemoved([in] ICAComponent *pComp, [in] ICADenial *pDenial,[in] long cDenials);
};
[
uuid(11166210-DF8A-463A-B620-7BEC23542010),
helpstring("ICARequestEvents Interface")
]
dispinterface _ICARequestEvents
{
properties:
methods:
[id(1), helpstring("method CheckStarted")] HRESULT CheckStarted([in] ICARequest *pRequest);
[id(2), helpstring("method CheckComplete")] HRESULT CheckComplete([in] ICARequest *pRequest,[in] long cDenials);
};
[
uuid(11166220-DF8A-463A-B620-7BEC23542010),
helpstring("_ICAPoliciesEvents Interface")
]
dispinterface _ICAPoliciesEvents
{
properties:
methods:
[id(1), helpstring("method ItemAdded")] HRESULT ItemAdded([in] ICAPolicy *pPolicy, long cPolicies);
[id(2), helpstring("method ItemRemoved")] HRESULT ItemRemoved([in] ICAPolicy *pPolicy, long cPolicies);
};
[
uuid(11166230-DF8A-463A-B620-7BEC23542010),
helpstring("ICATollsEvents Interface")
]
dispinterface _ICATollsEvents
{
properties:
methods:
[id(1), helpstring("method ItemAdded")] HRESULT ItemAdded([in] ICAToll *pToll, [in] long cTolls);
[id(2), helpstring("method ItemRemoved")] HRESULT ItemRemoved([in] ICAToll *pToll, [in] long cTolls);
[id(3), helpstring("method StateChanged")] HRESULT StateChanged([in] ICAToll *pToll, [in] CATollState enStateFrom);
};
[
uuid(11166240-DF8A-463A-B620-7BEC23542010),
helpstring("ICADenialsEvents Interface")
]
dispinterface _ICADenialsEvents
{
properties:
methods:
[id(1), helpstring("method ItemAdded")] HRESULT ItemAdded([in] ICADenial *pDenial, [in] long cDenials);
[id(2), helpstring("method ItemRemoved")] HRESULT ItemRemoved([in] ICADenial *pDenial, [in] long cDenials);
[id(3), helpstring("method StateChanged")] HRESULT StateChanged([in] ICADenial *pDenial, [in] CADenialState enStateFrom);
};
[
uuid(11166250-DF8A-463A-B620-7BEC23542010),
helpstring("ICAOffersEvents Interface")
]
dispinterface _ICAOffersEvents
{
properties:
methods:
[id(1), helpstring("method ItemAdded")] HRESULT ItemAdded([in] ICAOffer *pOffer, [in] long cOffers);
[id(2), helpstring("method ItemRemoved")] HRESULT ItemRemoved([in] ICAOffer *pOffer, [in] long cOffers);
};
[
uuid(11166260-DF8A-463A-B620-7BEC23542010),
helpstring("_ICAComponentsEvents Interface")
]
dispinterface _ICAComponentsEvents
{
properties:
methods:
[id(1), helpstring("method ItemAdded")] HRESULT ItemAdded([in] ICAComponent *pComponent, [in] long cComponent);
[id(2), helpstring("method ItemRemoved")] HRESULT ItemRemoved([in] ICAComponent *pComponent, [in] long cComponent);
}; // --------------------------------
[
object,
dual,
uuid(11166300-DF8A-463a-B620-7BEC23542010),
helpstring("ICAManager Interface"),
pointer_default(unique)
]
interface ICAManager : IDispatch
{
[propget, id(1), helpstring("property Policies")] HRESULT Policies([out, retval] ICAPolicies **ppPolicies);
[propget, id(2), helpstring("property ActiveRequest")] HRESULT ActiveRequest([out, retval] ICARequest **ppRequest);
[propget, id(3), helpstring("property Offers")] HRESULT Offers([out, retval] ICAOffers **ppOffers);
[propget, id(4), helpstring("property PaidTolls")] HRESULT PaidTolls([out, retval] ICATolls **ppTolls);
[propput, id(5), helpstring("property UseDefaultUI")] HRESULT UseDefaultUI([in] long fUseDefaultUI);
[propget, id(5), helpstring("property UseDefaultUI")] HRESULT UseDefaultUI([out, retval] long *pfUseDefaultUI);
[propget, id(6), helpstring("property DenialsFor")] HRESULT DenialsFor([in] IUnknown *pUnk, [out, retval] ICADenials **ppDenials);
};
[
object,
uuid(11166310-DF8A-463a-B620-7BEC23542010),
dual,
helpstring("ICARequest Interface"),
pointer_default(unique)
]
interface ICARequest : IDispatch
{
[propget, id(1), helpstring("property RequestedItem")] HRESULT RequestedItem([out, retval] IUnknown **ppTunereq);
[propget, id(2), helpstring("property CAManager")] HRESULT CAManager([out, retval] ICAManager **ppManager);
[propget, id(3), helpstring("property ScheduleEntry")] HRESULT ScheduleEntry([out, retval] IUnknown **ppUnkScheduleEntry); // IScheduleEntry?
[propget, id(4), helpstring("property Denials")] HRESULT Denials([out, retval] ICADenials **ppDenials);
[propget, id(5), helpstring("property Components")] HRESULT Components([out, retval] ICAComponents **pComponents);
[propget, id(6), helpstring("property Check")] HRESULT Check([out, retval] long *pcDenials);
[propget, id(7), helpstring("property ResolveDenials")] HRESULT ResolveDenials([out, retval] long *pcDenials);
[propget, id(8), helpstring("property CountDeniedComponents")] HRESULT CountDeniedComponents([out, retval] long *pcDeniedComponents);
};
[
object,
uuid(11166320-DF8A-463a-B620-7BEC23542010),
helpstring("ICAPolicy Interface"), // client written
pointer_default(unique)
]
interface ICAPolicy : IUnknown // -- not IDispatch, let the client side implement that interface
{
[propget, id(0), helpstring("property Name")] HRESULT Name([out, retval] BSTR *pbstr);
[ id(1), helpstring("method CheckRequest")] HRESULT CheckRequest([in] ICARequest *pReq);
// [propget, id(2), helpstring("property CAManager")] HRESULT CAManager([out, retval] ICAManager **ppManager);
[propput, id(2), helpstring("property CAManager")] HRESULT CAManager([in] ICAManager *pManager);
[propget, id(3), helpstring("property OkToPersist")] HRESULT OkToPersist([out, retval] BOOL *pfOkToPersist);
[propget, id(4), helpstring("property OkToRemove")] HRESULT OkToRemove([out, retval] BOOL *pfOkToRemove);
[propget, id(5), helpstring("property OkToRemoveDenial")] HRESULT OkToRemoveDenial(ICADenial *pDenial, [out, retval] BOOL *pfOk);
[propget, id(6), helpstring("property OkToRemoveOffer")] HRESULT OkToRemoveOffer(ICAOffer *pOffer, [out, retval] BOOL *pfOk);
}
[
object,
uuid(11166330-DF8A-463a-B620-7BEC23542010),
dual,
helpstring("ICAToll Interface"), // also client written
pointer_default(unique)
]
interface ICAToll : IUnknown // -- also not IDispatch - client side implements that interface
{
// [propget, id(1), helpstring("property CAManager")] HRESULT CAManager([out, retval] ICAManager **ppManager);
[propput, id(1), helpstring("property CAManager")] HRESULT CAManager([in] ICAManager *pManager);
[ id(2), helpstring("method Select")] HRESULT Select([in] BOOL fSelect);
[ id(3), helpstring("method PayToll")] HRESULT PayToll();
[propget, id(4), helpstring("property Refundable")] HRESULT Refundable([out, retval] BOOL *pfRefundable);
[ id(5), helpstring("method RefundToll")] HRESULT RefundToll();
[propget, id(6), helpstring("property TolledObject")] HRESULT TolledObject([out, retval] IUnknown **ppUnkTolled);
[propget, id(7), helpstring("property Denials")] HRESULT Denials([out, retval] ICADenials **ppDenials);
[propget, id(8), helpstring("property Policy")] HRESULT Policy([out, retval] ICAPolicy **ppPolicy);
[propget, id(9), helpstring("property Description")] HRESULT Description([in] CADescFormat enFormat, [out, retval] BSTR *pbstr);
[propget, id(10),helpstring("property TimePaid")] HRESULT TimePaid([out, retval] DATE *pdtPaid);
[propget, id(11),helpstring("property State")] HRESULT State([out, retval] CATollState *penState);
};
[
object,
uuid(11166340-DF8A-463a-B620-7BEC23542010),
dual,
helpstring("ICADenial Interface"),
pointer_default(unique)
]
interface ICADenial : IDispatch
{
[propget, id(1), helpstring("property DeniedObject")] HRESULT DeniedObject([out, retval] IUnknown **ppUnkDenied);
[propget, id(2), helpstring("property Policy")] HRESULT Policy([out, retval] ICAPolicy **ppPolicy);
[propget, id(3), helpstring("property Description")] HRESULT Description([in] CADescFormat enFormat, [out, retval] BSTR *pbstr);
[propput, id(3), helpstring("property Description")] HRESULT Description([in] CADescFormat enFormat, [in] BSTR bstr);
[propget, id(4), helpstring("property State")] HRESULT State([out, retval] CADenialState *penState);
[propput, id(4), helpstring("property State")] HRESULT State([in] CADenialState enState);
[propget, id(5), helpstring("property Tolls")] HRESULT Tolls([out, retval] ICATolls **ppTolls);
[ id(6), helpstring("method NotifyTollStateChanged")] HRESULT NotifyTollStateChanged([in] ICAToll *pToll, [in] CATollState enStateFrom);
};
[
object,
uuid(11166350-DF8A-463a-B620-7BEC23542010),
dual,
helpstring("ICAOffer Interface"),
pointer_default(unique)
]
interface ICAOffer : IDispatch
{
[propget, id(1), helpstring("property CAManager")] HRESULT CAManager([out, retval] ICAManager **ppManager);
[propput, id(1), helpstring("property CAManager")] HRESULT CAManager([in] ICAManager *pManager);
[propget, id(2), helpstring("property Policy")] HRESULT Policy([out, retval] ICAPolicy **pppolicy);
[propget, id(3), helpstring("property Description")] HRESULT Description([in] CADescFormat enFormat, [out, retval] BSTR *pbstr);
[propput, id(3), helpstring("property Description")] HRESULT Description([in] CADescFormat enFormat, [in] BSTR bstr);
[propget, id(4), helpstring("property StartTime")] HRESULT StartTime([out, retval] DATE *pdtStart);
[propget, id(5), helpstring("property EndTime")] HRESULT EndTime([out, retval] DATE *pdtEnd);
[propget, id(6), helpstring("property Tolls")] HRESULT Tolls([out, retval] ICATolls **ppTolls);
[ id(7), helpstring("method NotifyTollStateChanged")] HRESULT NotifyTollStateChanged([in] ICAToll *pToll, [in] CATollState enStateFrom);
};
[
object,
uuid(11166360-DF8A-463a-B620-7BEC23542010),
dual,
helpstring("ICAComponent Interface"),
pointer_default(unique)
]
interface ICAComponent : IDispatch
{
[propget, id(1), helpstring("property Component")] HRESULT Component([out, retval] IComponent **ppComponent);
[propget, id(2), helpstring("property Denials")] HRESULT Denials([out, retval] ICADenials **ppDenials);
[propget, id(3), helpstring("property Request")] HRESULT Request([out, retval] ICARequest **ppComponent);
};
// --------------------------------
[
uuid(11166100-DF8A-463a-B620-7BEC23542010),
helpstring("CAManager Class")
]
coclass CAManager
{
[default] interface ICAManager;
interface ICAManagerInternal;
// interface ICAManagerXProxy; // this is the actual outgoing 'event' interface
[default, source] dispinterface _ICAManagerEvents;
};
[ // magic class used to avoid circular references through the CAManager.
hidden,
uuid(11166101-DF8A-463a-B620-7BEC23542010),
helpstring("CAManagerProxy Class")
]
coclass CAManagerProxy
{
[default] interface ICAManager;
interface ICAManagerInternal;
// [default, source] dispinterface _ICAManagerEvents; /// QUESTION ??? DO I want these just here, or in the true Manager, or both?
};
[
uuid(11166540-DF8A-463a-B620-7BEC23542010), // needed for user's tolls.
helpstring("CADenials Class")
]
coclass CADenials
{
[default] interface ICADenials;
interface ICADenialsInternal;
[default, source] dispinterface _ICADenialsEvents;
};
// TODO - mark this as hidden...
[
uuid(11166550-DF8A-463a-B620-7BEC23542010),
helpstring("CAOffer Class")
]
coclass CAOffer
{
[default] interface ICAOffer;
};
/* [
uuid(11166999-DF8A-463a-B620-7BEC23542010),
helpstring("CATempEvent_TempBuilder Class - used so we can build events the first time")
]
coclass CATempEvent_TempBuilder
{
[source] dispinterface _ICAResDenialTreeEvents;
[source] dispinterface _ICAManagerEvents;
[source] dispinterface _ICARequestEvents;
[source] dispinterface _ICATollsEvents;
[source] dispinterface _ICADenialsEvents;
[source] dispinterface _ICAPoliciesEvents;
[source] dispinterface _ICAOffersEvents;
[source] dispinterface _ICAComponentsEvents;
};
*/
// -----------------------------------
[
object,
uuid(11166898-DF8A-463a-B620-7BEC23542010),
dual,
helpstring("ICAResDenialTree Interface"),
pointer_default(unique)
]
interface ICAResDenialTree : IDispatch
{
[propget, id(1), helpstring("property CAManager")] HRESULT CAManager([out, retval] ICAManager **ppCAManager);
[propput, id(1), helpstring("property CAManager")] HRESULT CAManager([in] ICAManager *pCAManager);
[propget, id(2), helpstring("property DisplayFields")] HRESULT DisplayFields([out, retval] long *penFields); // fields to display in default ResDenial UI
[propput, id(2), helpstring("property DisplayFields")] HRESULT DisplayFields([in] long enFields); // fields to display in default ResDenial UI
[ id(3), helpstring("method UpdateView")] HRESULT UpdateView([in] IUnknown *pUnk); // if object is being viewed, updates it.
// ResDenial control listens to these incoming sink events sent by Manager ((_ICAManagerEvents).. ID's Must match
[ id(2201),helpstring("method NotifyRequestActivated")] HRESULT NotifyRequestActivated([in] ICARequest *preq);
[ id(2202),helpstring("method NotifyRequestDeactivated")] HRESULT NotifyRequestDeactivated([in] ICARequest *preq);
[ id(2203),helpstring("method NotifyOfferAdded")] HRESULT NotifyOfferAdded([in] ICAOffer *pOffer,[in] long cOffers);
[ id(2204),helpstring("method NotifyOfferRemoved")] HRESULT NotifyOfferRemoved([in] ICAOffer *pOffer,[in] long cOffers);
[ id(2205),helpstring("method NotifyPolicyAdded")] HRESULT NotifyPolicyAdded([in] ICAPolicy *pPolicy,[in] long cPolicies);
[ id(2206),helpstring("method NotifyPolicyRemoved")] HRESULT NotifyPolicyRemoved([in] ICAPolicy *pPolicy,[in] long cPolicies);
[ id(2207),helpstring("method NotifyRequestDenialAdded")] HRESULT NotifyRequestDenialAdded([in] ICARequest *preq, [in] ICADenial *pDenial,[in] long cDenials);
[ id(2208),helpstring("method NotifyRequestDenialRemoved")] HRESULT NotifyRequestDenialRemoved([in] ICARequest *preq, [in] ICADenial *pDenial,[in] long cDenials);
[ id(2209),helpstring("method NotifyDenialTollAdded")] HRESULT NotifyDenialTollAdded([in] ICADenial *pDenial, [in] ICAToll *pToll, [in] long cTolls);
[ id(2210),helpstring("method NotifyDenialTollRemoved")] HRESULT NotifyDenialTollRemoved([in] ICADenial *pDenial, [in] ICAToll *pToll, [in] long cTolls);
[ id(2211),helpstring("method NotifyTollDenialAdded")] HRESULT NotifyTollDenialAdded([in] ICAToll *pToll, [in] ICADenial *pDenial,[in] long cDenials);
[ id(2212),helpstring("method NotifyTollDenialRemoved")] HRESULT NotifyTollDenialRemoved([in] ICAToll *pToll, [in] ICADenial *pDenial,[in] long cDenials);
[ id(2213),helpstring("method NotifyOfferTollAdded")] HRESULT NotifyOfferTollAdded([in] ICAOffer *pOffer, [in] ICAToll *pToll, [in] long cTolls);
[ id(2214),helpstring("method NotifyOfferTollRemoved")] HRESULT NotifyOfferTollRemoved([in] ICAOffer *pOffer, [in] ICAToll *pToll, [in] long cTolls);
[ id(2215),helpstring("method NotifyTollStateChanged")] HRESULT NotifyTollStateChanged([in] ICAToll *pToll, [in] CATollState enStateLast);
[ id(2216),helpstring("method NotifyDenialStateChanged")] HRESULT NotifyDenialStateChanged([in] ICADenial *pDenial, [in] CADenialState enStateLast);
[ id(2217),helpstring("method NotifyComponentDenialAdded")] HRESULT NotifyComponentDenialAdded([in] ICAComponent *preq, [in] ICADenial *pDenial,[in] long cDenials);
[ id(2218),helpstring("method NotifyComponentDenialRemoved")] HRESULT NotifyComponentDenialRemoved([in] ICAComponent *preq, [in] ICADenial *pDenial,[in] long cDenials);
};
[
uuid(11166998-DF8A-463a-B620-7BEC23542010),
helpstring("CA Default RequestDenial Control")
]
coclass CAResDenialTree
{
[default] interface ICAResDenialTree;
[default, source] dispinterface _ICAResDenialTreeEvents;
};
// -----------------------------
[
uuid(11166991-DF8A-463a-B620-7BEC23542010),
helpstring("_ICADefaultDlgEvents Interface")
]
dispinterface _ICADefaultDlgEvents
{
properties:
methods:
};
[
uuid(11166990-DF8A-463a-B620-7BEC23542010),
helpstring("CADefaultDlg Class")
]
coclass CADefaultDlg
{
[default] interface ICADefaultDlg;
[default, source] dispinterface _ICADefaultDlgEvents;
};
// -------------------------------------
// Magic way to define the SID_ ...
cpp_quote("#define SID_CAManager CLSID_CAManager")
};

820
extern/include/DShowIDL/Mstvgs.idl vendored
View File

@ -1,820 +0,0 @@
//------------------------------------------------------------------------------
// File: GuideStore.idl
//
// Desc: IDL source for GuideStore.dll.
//
// Copyright (c) 1999-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
// This file will be processed by the MIDL tool to
// produce the type library (GuideStore.tlb) and marshalling code.
import "oaidl.idl";
import "ocidl.idl";
interface IObjects;
interface IMetaProperties;
interface IMetaProperty;
interface IMetaPropertyCondition;
interface IMetaPropertySet;
interface IMetaPropertySets;
interface IMetaPropertyType;
interface IMetaPropertyTypes;
interface IGuideStore;
interface IService;
interface IServices;
interface IProgram;
interface IPrograms;
interface IScheduleEntry;
interface IScheduleEntries;
interface IChannel;
interface IChannels;
interface IChannelLineup;
interface IChannelLineups;
interface IGuideDataProvider;
interface IGuideDataProviders;
#define didAdd 10
#define didAddAt 15
#define didAddNew 20
#define didAddNewAt 25
#define didAnd 30
#define didBeginTrans 35
#define didChannelLineups 40
#define didChannels 50
#define didCommitTrans 55
#define didCond 60
#define didCopyrightDate 70
#define didCount 80
#define didDataEndTime 90
#define didDefaultValue 100
#define didDescription 110
#define didEndTime 120
#define didGuideDataProvider 135
#define didGuideDataProviders 136
#define didID 150
#define didIdOf 155
#define didIID 170
#define didIsAnyDataAvailable 180
#define didInit 190
#define didItem DISPID_VALUE
#define didItemAdded 195
#define didItemChanged 196
#define didItemRemoved 197
#define didItemsByKey 198
#define didItemsChanged 199
#define didItemsInTimeRange 200
#define didItemsWithCond 210
#define didItemWithKey 215
#define didItemsWithMetaProp 220
#define didItemsWithMetaPropType 230
#define didItemsWithService 240
#define didItemsWithType 400
#define didItemWithID 250
#define didItemWithIID 260
#define didItemWithName 270
#define didItemWithMetaPropTypeLang 280
#define didItemWithTypeProviderLang 285
#define didItemWithProviderName 290
#define didItemWithServiceAtTime 300
#define didLanguage 310
#define didLength 320
#define didLookup 325
#define didMax 330
#define didMin 340
#define didName 350
#define didNew 360
#define didNewCollection 370
#define didNot 380
#define didObjects 390
#define didObjectTypes 410
#define didOpen 420
#define didOr 430
#define didProgram 440
#define didPrograms 450
#define didRollbackTrans 455
#define didMetaProperties 460
#define didMetaPropertiesOf 465
#define didMetaPropertySet 470
#define didMetaPropertySets 480
#define didMetaPropertyType 490
#define didMetaPropertyTypes 500
#define didProviderDescription 510
#define didProviderName 520
#define didProviderNetworkName 530
#define didResync 535
#define didItemInvRelBy 540
#define didItemsInvRelBy 545
#define didItemsInvRelToBy 546
#define didItemRelBy 550
#define didItemsRelBy 555
#define didItemsRelToBy 556
#define didRemove 560
#define didRemoveAll 565
#define didSchedEntries 570
#define didService 580
#define didServices 590
#define didStartTime 600
#define didTitle 620
#define didType 630
#define didTuneRequest 640
#define didUnreferencedItems 650
#define didValue DISPID_VALUE
[
uuid(8D9EEDCE-21E9-4845-82A8-99CEC53E6DB2),
version(1.0),
helpstring("Microsoft TV GuideStore 1.0 Type Library")
]
library MSTVGS
{
importlib("stdole2.tlb");
[
object,
uuid(F71020D2-A467-4EB7-839A-63C8F40C7AB4),
dual,
helpstring("IMetaPropertySet Interface"),
pointer_default(unique)
]
interface IMetaPropertySet : IDispatch
{
[propget, id(didName), helpstring("property Name")] HRESULT Name([out, retval] BSTR *pVal);
[propget, id(didMetaPropertyTypes), helpstring("property MetaPropertyTypes")] HRESULT MetaPropertyTypes([out, retval] IMetaPropertyTypes* *pVal);
};
[
object,
uuid(E8FD768C-EC4E-4DAB-A09C-011E8ECAE4D2),
dual,
helpstring("IMetaPropertySets Interface"),
pointer_default(unique),
nonextensible
]
interface IMetaPropertySets : IDispatch
{
[propget, id(didItem), helpstring("property Item")] HRESULT Item(VARIANT index, [out, retval] IMetaPropertySet* *ppropset);
[propget, id(didCount), helpstring("property Count")] HRESULT Count([out, retval] long *pVal);
[propget, id(didItemWithName), helpstring("property ItemWithName")] HRESULT ItemWithName(BSTR bstrName, [out, retval] IMetaPropertySet* *ppropset);
[propget, id(didAddNew), helpstring("property AddNew")] HRESULT AddNew(BSTR bstrName, [out, retval] IMetaPropertySet **pppropset);
[propget, id(didLookup), helpstring("property Lookup")] HRESULT Lookup([in] BSTR bstr, [out, retval] IMetaPropertyType * *ppproptype);
};
[
object,
uuid(86502400-213B-4ADF-A1E2-76365E7172BD),
dual,
helpstring("IMetaPropertyType Interface"),
pointer_default(unique)
]
interface IMetaPropertyType : IDispatch
{
[propget, id(didMetaPropertySet), helpstring("property MetaPropertySet")] HRESULT MetaPropertySet([out, retval] IMetaPropertySet* *ppropset);
[propget, id(didID), helpstring("property ID")] HRESULT ID([out, retval] long *pVal);
[propget, id(didName), helpstring("property Name")] HRESULT Name([out, retval] BSTR *pVal);
[propget, id(didNew), helpstring("property New")] HRESULT New(long lang, VARIANT val, [out, retval] IMetaProperty* *pprop);
[propget, id(didCond), helpstring("property Cond")] HRESULT Cond(BSTR bstrCond, long lang, VARIANT varValue, [out, retval] IMetaPropertyCondition* *ppropcond);
};
[
object,
uuid(9BF4984A-4CFE-4588-9FCF-828C74EF7104),
dual,
helpstring("IMetaPropertyTypes Interface"),
pointer_default(unique)
]
interface IMetaPropertyTypes : IDispatch
{
[propget, id(didItem), helpstring("property Item")] HRESULT Item(VARIANT index, [out, retval] IMetaPropertyType* *pproptype);
[propget, id(didCount), helpstring("property Count")] HRESULT Count([out, retval] long *pVal);
[propget, id(didItemWithID), helpstring("property ItemWithID")] HRESULT ItemWithID(long id, [out, retval] IMetaPropertyType* *pproptype);
[propget, id(didItemWithName), helpstring("property ItemWithName")] HRESULT ItemWithName(BSTR bstrName, [out, retval] IMetaPropertyType* *pproptype);
[propget, id(didAddNew), helpstring("property AddNew")] HRESULT AddNew(long id, BSTR bstrName, [out, retval] IMetaPropertyType * *pVal);
[propget, id(didMetaPropertySet), helpstring("property MetaPropertySet")] HRESULT MetaPropertySet([out, retval] IMetaPropertySet * *pVal);
};
[
object,
uuid(A4BBD2C0-D7E4-4FC2-8FB0-176DDBCB3D72),
dual,
helpstring("IMetaProperty Interface"),
pointer_default(unique)
]
interface IMetaProperty : IDispatch
{
[propget, id(didMetaPropertyType), helpstring("property MetaPropertyType")] HRESULT MetaPropertyType([out, retval] IMetaPropertyType* *pproptype);
[propget, id(didLanguage), helpstring("property Language")] HRESULT Language([out, retval] long *pVal);
[propget, id(didGuideDataProvider), helpstring("property GuideDataProvider")] HRESULT GuideDataProvider([out, retval] IGuideDataProvider **ppprovider);
[propget, id(didValue), helpstring("property Value")] HRESULT Value([out, retval] VARIANT *pvarValue);
[propput, id(didValue), helpstring("property Value")] HRESULT Value([in] VARIANT varValue);
[propputref, id(didValue), helpstring("property Value")] HRESULT Value([in] IUnknown *punk);
[propget, id(didCond), helpstring("property Cond")] HRESULT Cond(BSTR bstrCond, [out, retval] IMetaPropertyCondition* *ppropcond);
};
[
object,
uuid(E7F78F69-8326-48A0-8E54-BBDCEE43BA70),
dual,
helpstring("IMetaProperties Interface"),
pointer_default(unique)
]
interface IMetaProperties : IDispatch
{
[propget, id(didItem), helpstring("property Item")] HRESULT Item(VARIANT index, [out, retval] IMetaProperty* *pprop);
[propget, id(didCount), helpstring("property Count")] HRESULT Count([out, retval] long *pVal);
[propget, id(didItemWithMetaPropTypeLang), helpstring("property ItemWith")] HRESULT ItemWith(IMetaPropertyType *ptype, long lang, [out, retval] IMetaProperty* *pprop);
[propget, id(didItemWithTypeProviderLang), helpstring("property ItemWithTypeProviderLang")] HRESULT ItemWithTypeProviderLang(IMetaPropertyType *ptype, IGuideDataProvider *pprovider, long lang, [out, retval] IMetaProperty* *pprop);
[propget, id(didItemsWithMetaPropType), helpstring("property ItemsWithMetaPropertyType")] HRESULT ItemsWithMetaPropertyType(IMetaPropertyType *ptype, [out, retval] IMetaProperties* *pprops);
[propget, id(didAddNew), helpstring("property AddNew")] HRESULT AddNew(IMetaPropertyType *pproptype, long lang, VARIANT varValue, [out, retval] IMetaProperty * *pVal);
[id(didAdd), helpstring("method Add")] HRESULT Add(IMetaProperty *pprop);
};
[
object,
uuid(98FAAEF5-397A-4372-93A3-FB3DA49B3EF1),
dual,
helpstring("IMetaPropertyCondition Interface"),
pointer_default(unique)
]
interface IMetaPropertyCondition : IDispatch
{
[propget, id(didAnd), helpstring("property And")] HRESULT And(IMetaPropertyCondition *pcond2, [out, retval] IMetaPropertyCondition* *ppropcond);
[propget, id(didOr), helpstring("property Or")] HRESULT Or(IMetaPropertyCondition *pcond2, [out, retval] IMetaPropertyCondition* *ppropcond);
};
[
object,
uuid(E4A9F7DA-F38F-43D3-AB3B-7E9F9FB7A7C7),
dual,
helpstring("IGuideStore Interface"),
pointer_default(unique)
]
interface IGuideStore : IDispatch
{
[propget, id(didIID), helpstring("property UUID")] HRESULT UUID([out, retval] BSTR *bstrUUID);
[propget, id(didServices), helpstring("property Services")] HRESULT Services([out, retval] IServices * *pVal);
[propget, id(didPrograms), helpstring("property Programs")] HRESULT Programs([out, retval] IPrograms * *pVal);
[propget, id(didSchedEntries), helpstring("property ScheduleEntries")] HRESULT ScheduleEntries([out, retval] IScheduleEntries * *pVal);
[propget, id(didGuideDataProviders), helpstring("property GuideDataProviders")] HRESULT GuideDataProviders([out, retval] IGuideDataProviders * *ppdataproviders);
[propget, id(didMetaPropertySets), helpstring("property MetaPropertySets")] HRESULT MetaPropertySets([out, retval] IMetaPropertySets **pppropsets);
[id(didOpen), helpstring("method Open")] HRESULT Open(BSTR bstrName);
[propget, id(didObjects), helpstring("property Objects")] HRESULT Objects([out, retval] IObjects * *ppobjs);
[propget, id(didChannels), helpstring("property Channels")] HRESULT Channels([out, retval] IChannels * *pVal);
[propget, id(didChannelLineups), helpstring("property ChannelLineups")] HRESULT ChannelLineups([out, retval] IChannelLineups * *pVal);
[propget, id(didGuideDataProvider), helpstring("property ActiveGuideDataProvider")] HRESULT ActiveGuideDataProvider([out, retval] IGuideDataProvider * *pVal);
[propputref, id(didGuideDataProvider), helpstring("property ActiveGuideDataProvider")] HRESULT ActiveGuideDataProvider([in] IGuideDataProvider * newVal);
[propget, id(didIdOf), helpstring("property IdOf")] HRESULT IdOf([in] IUnknown *punk, [out, retval] long *pVal);
[propget, id(didMetaPropertiesOf), helpstring("property MetaPropertiesOf")] HRESULT MetaPropertiesOf([in] IUnknown *punk, [out, retval] IMetaProperties **ppprops);
[id(didBeginTrans), helpstring("method BeginTrans")] HRESULT BeginTrans();
[id(didCommitTrans), helpstring("method CommitTrans")] HRESULT CommitTrans();
[id(didRollbackTrans), helpstring("method RollbackTrans")] HRESULT RollbackTrans();
};
[
uuid(E7267FA2-7EC0-4577-BE37-0BBF11028A56),
helpstring("MetaPropertySet Class")
]
coclass MetaPropertySet
{
[default] interface IMetaPropertySet;
};
[
uuid(027D8BB9-B860-4B96-B498-7EA609F33250),
helpstring("MetaPropertySets Class")
]
coclass MetaPropertySets
{
[default] interface IMetaPropertySets;
};
[
uuid(A09139F3-47ED-4492-A45E-F7F11B121F4F),
helpstring("MetaPropertyType Class")
]
coclass MetaPropertyType
{
[default] interface IMetaPropertyType;
};
[
uuid(5F24A17F-1DDE-4F37-8B29-489229175C73),
helpstring("MetaPropertyTypes Class")
]
coclass MetaPropertyTypes
{
[default] interface IMetaPropertyTypes;
};
[
uuid(A42A1FF3-BC43-4714-8B94-06103474372B),
helpstring("MetaProperty Class")
]
coclass MetaProperty
{
[default] interface IMetaProperty;
};
[
uuid(78B8FA05-01B2-4B0A-B6E0-59FC6C0E7A5E),
helpstring("MetaProperties Class")
]
coclass MetaProperties
{
[default] interface IMetaProperties;
};
[
uuid(3B575572-EC9F-447D-9554-17C6E92E8328),
helpstring("MetaPropertyCondition Class")
]
coclass MetaPropertyCondition
{
[default] interface IMetaPropertyCondition;
};
[
object,
uuid(59745450-F0F4-4B3F-B49E-55664E425CF6),
dual,
helpstring("IService Interface"),
pointer_default(unique)
]
interface IService : IDispatch
{
[propget, id(didTuneRequest), helpstring("property TuneRequest")] HRESULT TuneRequest([out, retval] IUnknown * *ppunk);
[propputref, id(didTuneRequest), helpstring("property TuneRequest")] HRESULT TuneRequest([in] IUnknown *punk);
[propget, id(didID), helpstring("property ID")] HRESULT ID([out, retval] long *pVal);
[propget, id(didStartTime), helpstring("property StartTime")] HRESULT StartTime([out, retval] DATE *pdt);
[propput, id(didStartTime), helpstring("property StartTime")] HRESULT StartTime([in] DATE dt);
[propget, id(didEndTime), helpstring("property EndTime")] HRESULT EndTime([out, retval] DATE *pdt);
[propput, id(didEndTime), helpstring("property EndTime")] HRESULT EndTime([in] DATE dt);
[propget, id(didProviderName), helpstring("property ProviderName")] HRESULT ProviderName([out, retval] BSTR *pbstrName);
[propput, id(didProviderName), helpstring("property ProviderName")] HRESULT ProviderName([in] BSTR bstrName);
[propget, id(didProviderNetworkName), helpstring("property ProviderNetworkName")] HRESULT ProviderNetworkName([out, retval] BSTR *pbstrName);
[propput, id(didProviderNetworkName), helpstring("property ProviderNetworkName")] HRESULT ProviderNetworkName([in] BSTR bstrName);
[propget, id(didProviderDescription), helpstring("property ProviderDescription")] HRESULT ProviderDescription([out, retval] BSTR *pbstrDesc);
[propput, id(didProviderDescription), helpstring("property ProviderDescription")] HRESULT ProviderDescription([in] BSTR bstrDescr);
[propget, id(didMetaProperties), helpstring("property MetaProperties")] HRESULT MetaProperties([out, retval] IMetaProperties * *pVal);
[propget, id(didSchedEntries), helpstring("property ScheduleEntries")] HRESULT ScheduleEntries([out, retval] IScheduleEntries * *pVal);
};
[
object,
uuid(D3517044-B747-42C0-AFD5-31265ABA4977),
dual,
helpstring("IServices Interface"),
pointer_default(unique)
]
interface IServices : IDispatch
{
[propget, id(didCount), helpstring("property Count")] HRESULT Count([out, retval] long *pVal);
[propget, id(didItem), helpstring("property Item")] HRESULT Item(VARIANT varIndex, [out, retval] IService * *pVal);
[propget, id(didChannelLineups), helpstring("property ChannelLineups")] HRESULT ChannelLineups([out, retval] IChannelLineups * *pVal);
[id(didRemove), helpstring("method Remove")] HRESULT Remove(VARIANT varIndex);
[propget, id(didItemWithID), helpstring("property ItemWithID")] HRESULT ItemWithID(long id, [out, retval] IService * *pVal);
[propget, id(didItemWithProviderName), helpstring("property ItemWithProviderName")] HRESULT ItemWithProviderName(BSTR bstrProviderName, [out, retval] IService * *pVal);
[propget, id(didItemsWithMetaProp), helpstring("property ItemsWithMetaProperty")] HRESULT ItemsWithMetaProperty(IMetaProperty *pprop, [out, retval] IServices * *ppservices);
[propget, id(didItemsWithCond), helpstring("property ItemsWithMetaPropertyCond")] HRESULT ItemsWithMetaPropertyCond(IMetaPropertyCondition *pcond, [out, retval] IServices * *ppservices);
[propget, id(didAddNew), helpstring("property AddNew")] HRESULT AddNew(IUnknown *punkTuneRequest, BSTR bstrProviderName, BSTR bstrProviderDescription, BSTR bstrProviderNetworkName, DATE dtStart, DATE dtEnd, [out, retval] IService * *pVal);
[propget, id(didItemsInTimeRange), helpstring("property ItemsInTimeRange")] HRESULT ItemsInTimeRange(DATE dtStart, DATE dtEnd, [out, retval] IServices * *pVal);
[id(didRemoveAll), helpstring("method RemoveAll")] HRESULT RemoveAll();
[id(didUnreferencedItems), helpstring("method UnreferencedItems")] HRESULT UnreferencedItems([out, retval] IServices **ppservices);
[propget, id(didItemsByKey), helpstring("property ItemsByKey")] HRESULT ItemsByKey([in] IMetaPropertyType *pproptype, [in] IGuideDataProvider *pprovider, [in] long idLang, [in] long vt, [out, retval] IServices * *ppservices);
[propget, id(didItemWithKey), helpstring("property ItemWithKey")] HRESULT ItemWithKey(VARIANT varIndex, [out, retval] IService * *ppservice);
[id(didResync), helpstring("method Resync")] HRESULT Resync();
};
[
uuid(C4001F96-2DEE-4C33-B807-F829889A8CCD),
helpstring("GuideStore Class")
]
coclass GuideStore
{
[default] interface IGuideStore;
};
[
uuid(957D8D57-32B1-4BE3-8E37-EC8849F16815),
helpstring("Service Class")
]
coclass Service
{
[default] interface IService;
};
[
uuid(CCFB9EC5-E28E-4DE1-BD07-1C79303DE0A0),
helpstring("IServicesEvents Interface")
]
dispinterface IServicesEvents
{
properties:
methods:
[id(didItemAdded), helpstring("method ItemAdded")] HRESULT ItemAdded(IService *pservice);
[id(didItemRemoved), helpstring("method ItemRemoved")] HRESULT ItemRemoved([in] long idObj);
[id(didItemChanged), helpstring("method ItemChanged")] HRESULT ItemChanged(IService *pservice);
[id(didItemsChanged), helpstring("method ItemsChanged")] HRESULT ItemsChanged();
};
[
object,
uuid(FC91783E-5703-4319-A5B1-19555059559C),
dual,
helpstring("IProgram Interface"),
pointer_default(unique)
]
interface IProgram : IDispatch
{
[propget, id(didID), helpstring("property ID")] HRESULT ID([out, retval] long *pVal);
[propget, id(didMetaProperties), helpstring("property MetaProperties")] HRESULT MetaProperties([out, retval] IMetaProperties * *pVal);
[propget, id(didSchedEntries), helpstring("property ScheduleEntries")] HRESULT ScheduleEntries([out, retval] IScheduleEntries * *pVal);
[propget, id(didTitle), helpstring("property Title")] HRESULT Title([out, retval] BSTR *pVal);
[propput, id(didTitle), helpstring("property Title")] HRESULT Title([in] BSTR newVal);
[propget, id(didDescription), helpstring("property Description")] HRESULT Description([out, retval] BSTR *pVal);
[propput, id(didDescription), helpstring("property Description")] HRESULT Description([in] BSTR newVal);
[propget, id(didCopyrightDate), helpstring("property CopyrightDate")] HRESULT CopyrightDate([out, retval] DATE *pVal);
[propput, id(didCopyrightDate), helpstring("property CopyrightDate")] HRESULT CopyrightDate([in] DATE newVal);
};
[
object,
uuid(8786250A-8EF8-4A51-B80A-643CCF835DB6),
dual,
helpstring("IPrograms Interface"),
pointer_default(unique)
]
interface IPrograms : IDispatch
{
[propget, id(didCount), helpstring("property Count")] HRESULT Count([out, retval] long *pVal);
[propget, id(didItem), helpstring("property Item")] HRESULT Item(VARIANT varIndex, [out, retval] IProgram * *pVal);
[propget, id(didItemWithID), helpstring("property ItemWithID")] HRESULT ItemWithID(long id, [out, retval] IProgram * *pVal);
[propget, id(didItemsWithMetaProp), helpstring("property ItemsWithMetaProperty")] HRESULT ItemsWithMetaProperty(IMetaProperty *pprop, [out, retval] IPrograms * *pVal);
[propget, id(didItemsWithCond), helpstring("property ItemsWithMetaPropertyCond")] HRESULT ItemsWithMetaPropertyCond(IMetaPropertyCondition *pcond, [out, retval] IPrograms * *pVal);
[propget, id(didAddNew), helpstring("property AddNew")] HRESULT AddNew([out, retval] IProgram * *ppprog);
[id(didUnreferencedItems), helpstring("method UnreferencedItems")] HRESULT UnreferencedItems([out, retval] IPrograms **ppprogs);
[id(didRemoveAll), helpstring("method RemoveAll")] HRESULT RemoveAll();
[id(didRemove), helpstring("method Remove")] HRESULT Remove(VARIANT varIndex);
[propget, id(didItemsByKey), helpstring("property ItemsByKey")] HRESULT ItemsByKey([in] IMetaPropertyType *pproptype, [in] IGuideDataProvider *pprovider, [in] long idLang, [in] long vt, [out, retval] IPrograms * *ppprogs);
[propget, id(didItemWithKey), helpstring("property ItemWithKey")] HRESULT ItemWithKey(VARIANT varIndex, [out, retval] IProgram * *ppprog);
[id(didResync), helpstring("method Resync")] HRESULT Resync();
};
[
uuid(43F457D2-C955-48E2-91AD-B91C9154C613),
helpstring("Services Class")
]
coclass Services
{
[default] interface IServices;
[default, source] dispinterface IServicesEvents;
};
[
uuid(C51F670A-7D1A-494E-931D-886BFDB2B438),
helpstring("Program Class")
]
coclass Program
{
[default] interface IProgram;
};
[
uuid(9AB9E463-1EC4-4D6B-AC80-5238561918EE),
helpstring("IProgramsEvents Interface")
]
dispinterface IProgramsEvents
{
properties:
methods:
[id(didItemAdded), helpstring("method ItemAdded")] HRESULT ItemAdded(IProgram *pprog);
[id(didItemRemoved), helpstring("method ItemRemoved")] HRESULT ItemRemoved([in] long idObj);
[id(didItemChanged), helpstring("method ItemChanged")] HRESULT ItemChanged(IProgram *pprog);
[id(didItemsChanged), helpstring("method ItemsChanged")] HRESULT ItemsChanged();
};
[
object,
uuid(6C46F789-2156-4AF0-97D7-38D99E2C9160),
dual,
helpstring("IScheduleEntry Interface"),
pointer_default(unique)
]
interface IScheduleEntry : IDispatch
{
[propget, id(didID), helpstring("property ID")] HRESULT ID([out, retval] long *pVal);
[propget, id(didService), helpstring("property Service")] HRESULT Service([out, retval] IService * *ppservice);
[propputref, id(didService), helpstring("property Service")] HRESULT Service([in] IService * pservice);
[propget, id(didProgram), helpstring("property Program")] HRESULT Program([out, retval] IProgram * *ppprog);
[propputref, id(didProgram), helpstring("property Program")] HRESULT Program([in] IProgram * pprog);
[propget, id(didMetaProperties), helpstring("property MetaProperties")] HRESULT MetaProperties([out, retval] IMetaProperties * *pVal);
[propget, id(didStartTime), helpstring("property StartTime")] HRESULT StartTime([out, retval] DATE *pdt);
[propput, id(didStartTime), helpstring("property StartTime")] HRESULT StartTime([in] DATE dt);
[propget, id(didEndTime), helpstring("property EndTime")] HRESULT EndTime([out, retval] DATE *pdt);
[propput, id(didEndTime), helpstring("property EndTime")] HRESULT EndTime([in] DATE dt);
[propget, id(didLength), helpstring("property Length")] HRESULT Length([out, retval] long *pVal);
};
[
object,
uuid(E5FDD9C4-8E60-4BEB-BBC8-93BE39C75BAA),
dual,
helpstring("IScheduleEntries Interface"),
pointer_default(unique)
]
interface IScheduleEntries : IDispatch
{
[propget, id(didCount), helpstring("property Count")] HRESULT Count([out, retval] long *pVal);
[propget, id(didItem), helpstring("property Item")] HRESULT Item(VARIANT varIndex, [out, retval] IScheduleEntry * *pVal);
[propget, id(didItemWithServiceAtTime), helpstring("property ItemWithServiceAtTime")] HRESULT ItemWithServiceAtTime(IService *pservice, DATE dt, [out, retval] IScheduleEntry * *pVal);
[propget, id(didItemsWithService), helpstring("property ItemsWithService")] HRESULT ItemsWithService(IService *pservice, [out, retval] IScheduleEntries **ppschedentries);
[propget, id(didItemsWithMetaProp), helpstring("property ItemsWithMetaProperty")] HRESULT ItemsWithMetaProperty(IMetaProperty *pprop, [out, retval] IScheduleEntries * *pVal);
[propget, id(didItemsWithCond), helpstring("property ItemsWithMetaPropertyCond")] HRESULT ItemsWithMetaPropertyCond(IMetaPropertyCondition *pcond, [out, retval] IScheduleEntries * *pVal);
[propget, id(didAddNew), helpstring("property AddNew")] HRESULT AddNew(DATE dtStart, DATE dtEnd, IService *pservice, IProgram *pprog, [out, retval] IScheduleEntry * *pVal);
[id(didRemove), helpstring("method Remove")] HRESULT Remove(VARIANT varIndex);
[id(didRemoveAll), helpstring("method RemoveAll")] HRESULT RemoveAll();
[propget, id(didItemsInTimeRange), helpstring("property ItemsInTimeRange")] HRESULT ItemsInTimeRange(DATE dtStart, DATE dtEnd, [out, retval] IScheduleEntries * *pVal);
[propget, id(didItemsByKey), helpstring("property ItemsByKey")] HRESULT ItemsByKey([in] IMetaPropertyType *pproptype, [in] IGuideDataProvider *pprovider, [in] long idLang, [in] long vt, [out, retval] IScheduleEntries * *ppschedentries);
[propget, id(didItemWithKey), helpstring("property ItemWithKey")] HRESULT ItemWithKey(VARIANT varIndex, [out, retval] IScheduleEntry * *ppschedentry);
[id(didResync), helpstring("method Resync")] HRESULT Resync();
};
[
uuid(16C9C579-B3F4-4C94-88EC-A65EA0B839E7),
helpstring("Programs Class")
]
coclass Programs
{
[default] interface IPrograms;
[default, source] dispinterface IProgramsEvents;
};
[
uuid(AFEBCA90-0FF9-48BD-BC98-95477A631BBB),
helpstring("ScheduleEntry Class")
]
coclass ScheduleEntry
{
[default] interface IScheduleEntry;
};
[
uuid(32692A48-F4B5-4826-BE88-E7F8ED9E65DC),
helpstring("IScheduleEntriesEvents Interface")
]
dispinterface IScheduleEntriesEvents
{
properties:
methods:
[id(didItemAdded), helpstring("method ItemAdded")] HRESULT ItemAdded(IScheduleEntry *pschedentry);
[id(didItemRemoved), helpstring("method ItemRemoved")] HRESULT ItemRemoved([in] long idObj);
[id(didItemChanged), helpstring("method ItemChanged")] HRESULT ItemChanged(IScheduleEntry *pschedentry);
[id(didItemsChanged), helpstring("method ItemsChanged")] HRESULT ItemsChanged();
};
[
object,
uuid(ED7DF8CD-4861-4389-8149-8EDE63A51F38),
dual,
helpstring("IChannel Interface"),
pointer_default(unique)
]
interface IChannel : IDispatch
{
[propget, id(didName), helpstring("property Name")] HRESULT Name([out, retval] BSTR *pVal);
[propput, id(didName), helpstring("property Name")] HRESULT Name([in] BSTR newVal);
[propget, id(didService), helpstring("property Service")] HRESULT Service([out, retval] IService * *ppservice);
[propputref, id(didService), helpstring("property Service")] HRESULT Service([in] IService *pservice);
[propget, id(didMetaProperties), helpstring("property MetaProperties")] HRESULT MetaProperties([out, retval] IMetaProperties * *pVal);
[propget, id(didChannelLineups), helpstring("property ChannelLineups")] HRESULT ChannelLineups([out, retval] IChannelLineups * *pVal);
};
[
uuid(226D6AD0-7026-494F-BCAD-FAB087E67290),
helpstring("ScheduleEntries Class")
]
coclass ScheduleEntries
{
[default] interface IScheduleEntries;
[default, source] dispinterface IScheduleEntriesEvents;
};
[
object,
uuid(3BAE53BD-70F0-4C7B-8C9E-E0317FFF8D79),
dual,
helpstring("IChannels Interface"),
pointer_default(unique)
]
interface IChannels : IDispatch
{
[propget, id(didCount), helpstring("property Count")] HRESULT Count([out, retval] long *pVal);
[propget, id(didItem), helpstring("property Item")] HRESULT Item(VARIANT varIndex, [out, retval] IChannel * *pVal);
[id(didAddAt), helpstring("method AddAt")] HRESULT AddAt(IChannel *pchan, long index);
[id(didRemove), helpstring("method Remove")] HRESULT Remove(VARIANT index);
[propget, id(didAddNewAt), helpstring("property AddNewAt")] HRESULT AddNewAt(IService *pservice, BSTR bstrName, long index, [out, retval] IChannel * *pVal);
[propget, id(didItemWithName), helpstring("property ItemWithName")] HRESULT ItemWithName(BSTR bstrName, [out, retval] IChannel **ppchan);
[propget, id(didItemsWithCond), helpstring("property ItemsWithMetaPropertyCond")] HRESULT ItemsWithMetaPropertyCond(IMetaPropertyCondition *pcond, [out, retval] IChannels * *ppchannels);
[id(didRemoveAll), helpstring("method RemoveAll")] HRESULT RemoveAll();
[id(didUnreferencedItems), helpstring("method UnreferencedItems")] HRESULT UnreferencedItems([out, retval] IChannels **ppchans);
[propget, id(didItemsByKey), helpstring("property ItemsByKey")] HRESULT ItemsByKey([in] IMetaPropertyType *pproptype, [in] IGuideDataProvider *pprovider, [in] long idLang, [in] long vt, [out, retval] IChannels * *ppchans);
[propget, id(didItemWithKey), helpstring("property ItemWithKey")] HRESULT ItemWithKey(VARIANT varIndex, [out, retval] IChannel * *ppchan);
[id(didResync), helpstring("method Resync")] HRESULT Resync();
};
[
uuid(83568B75-1FCC-4853-957A-9CF617B350A3),
helpstring("Channel Class")
]
coclass Channel
{
[default] interface IChannel;
};
[
uuid(6E945C62-0AB7-4D89-BB9E-212502FC7C88),
helpstring("IChannelsEvents Interface")
]
dispinterface IChannelsEvents
{
properties:
methods:
[id(didItemAdded), helpstring("method ItemAdded")] HRESULT ItemAdded(IChannel *pchan);
[id(didItemRemoved), helpstring("method ItemRemoved")] HRESULT ItemRemoved([in] long idObj);
[id(didItemChanged), helpstring("method ItemChanged")] HRESULT ItemChanged(IChannel *pchan);
[id(didItemsChanged), helpstring("method ItemsChanged")] HRESULT ItemsChanged();
};
[
object,
uuid(AB3FF8DB-C718-4ABD-98DE-E14DC74F4872),
dual,
helpstring("IChannelLineup Interface"),
pointer_default(unique)
]
interface IChannelLineup : IDispatch
{
[propget, id(didName), helpstring("property Name")] HRESULT Name([out, retval] BSTR *pVal);
[propput, id(didName), helpstring("property Name")] HRESULT Name([in] BSTR newVal);
[propget, id(didChannels), helpstring("property Channels")] HRESULT Channels([out, retval] IChannels * *pVal);
[propget, id(didMetaProperties), helpstring("property MetaProperties")] HRESULT MetaProperties([out, retval] IMetaProperties * *pVal);
};
[
uuid(73AF9077-4F6D-4FCB-A9E2-FDFBB9AE5310),
helpstring("Channels Class")
]
coclass Channels
{
[default] interface IChannels;
[default, source] dispinterface IChannelsEvents;
};
[
object,
uuid(2F78C3E1-98FE-4526-A0A7-A621025AEFF6),
dual,
helpstring("IChannelLineups Interface"),
pointer_default(unique)
]
interface IChannelLineups : IDispatch
{
[propget, id(didCount), helpstring("property Count")] HRESULT Count([out, retval] long *pVal);
[propget, id(didItem), helpstring("property Item")] HRESULT Item(VARIANT varIndex, [out, retval] IChannelLineup **ppchanlineup);
[propget, id(didAddNew), helpstring("property AddNew")] HRESULT AddNew(BSTR bstrName, [out, retval] IChannelLineup * *pVal);
[id(didRemove), helpstring("method Remove")] HRESULT Remove(VARIANT varIndex);
[id(didRemoveAll), helpstring("method RemoveAll")] HRESULT RemoveAll();
[id(didUnreferencedItems), helpstring("method UnreferencedItems")] HRESULT UnreferencedItems([out, retval] IChannelLineups **ppchanlineups);
[propget, id(didItemsByKey), helpstring("property ItemsByKey")] HRESULT ItemsByKey([in] IMetaPropertyType *pproptype, [in] IGuideDataProvider *pprovider, [in] long idLang, [in] long vt, [out, retval] IChannelLineups * *ppchanlineups);
[propget, id(didItemWithKey), helpstring("property ItemWithKey")] HRESULT ItemWithKey(VARIANT varIndex, [out, retval] IChannelLineup * *ppchanlineup);
[id(didResync), helpstring("method Resync")] HRESULT Resync();
};
[
uuid(8F86A876-E12A-4159-9647-EAFE0288014F),
helpstring("ChannelLineup Class")
]
coclass ChannelLineup
{
[default] interface IChannelLineup;
};
[
uuid(1E3971E3-CCDC-445D-AE97-A15D5D4A40C9),
helpstring("IChannelLineupsEvents Interface")
]
dispinterface IChannelLineupsEvents
{
properties:
methods:
[id(didItemAdded), helpstring("method ItemAdded")] HRESULT ItemAdded(IChannelLineup *pchanlineup);
[id(didItemRemoved), helpstring("method ItemRemoved")] HRESULT ItemRemoved([in] long idObj);
[id(didItemChanged), helpstring("method ItemChanged")] HRESULT ItemChanged(IChannelLineup *pchanlineup);
[id(didItemsChanged), helpstring("method ItemsChanged")] HRESULT ItemsChanged();
};
[
object,
uuid(E8F1FBD5-4E44-4C26-B3D2-2C1C6999D611),
dual,
helpstring("IObjects Interface"),
pointer_default(unique)
]
interface IObjects : IUnknown
{
[propget, id(didCount), helpstring("property Count")] HRESULT Count([out, retval] long *pVal);
[propget, id(didItem), helpstring("property Item")] HRESULT Item(VARIANT varIndex, [out, retval] IUnknown * *ppunk);
[propget, id(didItemsWithType), helpstring("property ItemsWithType")] HRESULT ItemsWithType(BSTR bstrCLSID, [out, retval] IObjects * *pVal);
[propget, id(didItemWithIID), helpstring("property ItemWithID")] HRESULT ItemWithID(long id, [out, retval] IUnknown * *ppunk);
[propget, id(didItemsWithMetaProp), helpstring("property ItemsWithMetaProperty")] HRESULT ItemsWithMetaProperty(IMetaProperty *pprop, [out, retval] IObjects * *pVal);
[propget, id(didItemsWithCond), helpstring("property ItemsWithMetaPropertyCond")] HRESULT ItemsWithMetaPropertyCond(IMetaPropertyCondition *ppropcond, [out, retval] IObjects * *pVal);
[id(didAddAt), helpstring("method AddAt")] HRESULT AddAt(IUnknown *punk, long index);
[propget, id(didAddNew), helpstring("property AddNew")] HRESULT AddNew([out, retval] IUnknown * *ppunk);
[id(didRemove), helpstring("method Remove")] HRESULT Remove(VARIANT varIndex);
[id(didRemoveAll), helpstring("method RemoveAll")] HRESULT RemoveAll();
[propget, id(didAddNewAt), helpstring("property AddNewAt")] HRESULT AddNewAt([in] long index, [out, retval] IUnknown * *ppunk);
[propget, id(didItemsInTimeRange), helpstring("property ItemsInTimeRange")] HRESULT ItemsInTimeRange(DATE dtStart, DATE dtEnd, [out, retval] IObjects * *pVal);
[propget, id(didItemsRelToBy), helpstring("property ItemsRelatedToBy")] HRESULT ItemsRelatedToBy([in] IUnknown *pobj, [in] IMetaPropertyType *pproptype, [out, retval] IObjects * *ppobjs);
[propget, id(didItemsInvRelToBy), helpstring("property ItemsInverseRelatedToBy")] HRESULT ItemsInverseRelatedToBy([in] IUnknown *pobj, [in] IMetaPropertyType *pproptype, [out, retval] IObjects * *ppobjs);
[id(didUnreferencedItems), helpstring("method UnreferencedItems")] HRESULT UnreferencedItems([out, retval] IObjects **ppobjs);
[propget, id(didItemsByKey), helpstring("property ItemsByKey")] HRESULT ItemsByKey([in] IMetaPropertyType *pproptype, [in] IGuideDataProvider *pprovider, [in] long idLang, [in] long vt, [out, retval] IObjects * *pVal);
[propget, id(didItemWithKey), helpstring("property ItemWithKey")] HRESULT ItemWithKey(VARIANT varIndex, [out, retval] IUnknown * *ppunk);
[id(didResync), helpstring("method Resync")] HRESULT Resync();
};
[
uuid(8520EF80-1C19-4CB0-83FA-67DB59CC9AE4),
helpstring("ChannelLineups Class")
]
coclass ChannelLineups
{
[default] interface IChannelLineups;
[default, source] dispinterface IChannelLineupsEvents;
};
[
uuid(83375A19-A098-42CF-9206-EE36FE48C637),
helpstring("IObjectsNotifications Interface")
]
interface IObjectsNotifications : IUnknown
{
[id(didItemAdded), helpstring("method Notify_ItemAdded")] HRESULT Notify_ItemAdded(IUnknown *punk);
[id(didItemRemoved), helpstring("method Notify_ItemRemoved")] HRESULT Notify_ItemRemoved([in] long idObj);
[id(didItemChanged), helpstring("method Notify_ItemChanged")] HRESULT Notify_ItemChanged(IUnknown *punk);
[id(didItemsChanged), helpstring("method Notify_ItemsChanged")] HRESULT Notify_ItemsChanged();
};
[
uuid(B485447D-B180-420F-B2A5-E7BBCEA07EAD),
aggregatable,
helpstring("Objects Class")
]
coclass Objects
{
[default] interface IObjects;
};
[
object,
uuid(4B16049B-E548-4868-B303-D501340E2CB1),
dual,
helpstring("IGuideDataProvider Interface"),
pointer_default(unique)
]
interface IGuideDataProvider : IDispatch
{
[propget, id(didID), helpstring("property ID")] HRESULT ID([out, retval] long *pVal);
[propget, id(didName), helpstring("property Name")] HRESULT Name([out, retval] BSTR *pbstrName);
[propget, id(didDescription), helpstring("property Description")] HRESULT Description([out, retval] BSTR *pbstrDesc);
[propput, id(didDescription), helpstring("property Description")] HRESULT Description([in] BSTR bstrDesc);
[propget, id(didMetaProperties), helpstring("property MetaProperties")] HRESULT MetaProperties([out, retval] IMetaProperties * *pVal);
};
[
object,
uuid(CA9DE996-637C-47BF-BC10-CF956BE298EC),
dual,
helpstring("IGuideDataProviders Interface"),
pointer_default(unique)
]
interface IGuideDataProviders : IDispatch
{
[propget, id(didCount), helpstring("property Count")] HRESULT Count([out, retval] long *plCount);
[propget, id(didItem), helpstring("property Item")] HRESULT Item(VARIANT varIndex, [out, retval] IGuideDataProvider * *ppdataprovider);
[propget, id(didItemWithID), helpstring("property ItemWithID")] HRESULT ItemWithID(long id, [out, retval] IGuideDataProvider * *ppdataprovider);
[propget, id(didItemWithName), helpstring("property ItemWithName")] HRESULT ItemWithName(BSTR bstrName, [out, retval] IGuideDataProvider **ppdataprovider);
[propget, id(didItemsWithMetaProp), helpstring("property ItemsWithMetaProperty")] HRESULT ItemsWithMetaProperty(IMetaProperty *pprop, [out, retval] IGuideDataProviders * *ppdataproviders);
[propget, id(didItemsWithCond), helpstring("property ItemsWithMetaPropertyCond")] HRESULT ItemsWithMetaPropertyCond(IMetaPropertyCondition *pcond, [out, retval] IGuideDataProviders * *ppdataproviders);
[propget, id(didAddNew), helpstring("property AddNew")] HRESULT AddNew([in] BSTR bstrName, [out, retval] IGuideDataProvider * *ppdataprovider);
[propget, id(didItemsByKey), helpstring("property ItemsByKey")] HRESULT ItemsByKey([in] IMetaPropertyType *pproptype, [in] IGuideDataProvider *pprovider, [in] long idLang, [in] long vt, [out, retval] IGuideDataProviders * *ppproviders);
[propget, id(didItemWithKey), helpstring("property ItemWithKey")] HRESULT ItemWithKey(VARIANT varIndex, [out, retval] IGuideDataProvider * *ppprovider);
[id(didResync), helpstring("method Resync")] HRESULT Resync();
};
[
uuid(3CFC7A68-76E9-4F1D-8ECE-08C44F4FFC3E),
helpstring("GuideDataProvider Class")
]
coclass GuideDataProvider
{
[default] interface IGuideDataProvider;
};
[
uuid(850A646E-140B-43B0-A243-20CC6B9FA8BC),
helpstring("IGuideDataProvidersEvents Interface")
]
dispinterface IGuideDataProvidersEvents
{
properties:
methods:
[id(didItemAdded), helpstring("method ItemAdded")] HRESULT ItemAdded(IChannelLineup *pchanlineup);
[id(didItemRemoved), helpstring("method ItemRemoved")] HRESULT ItemRemoved([in] long idObj);
[id(didItemChanged), helpstring("method ItemChanged")] HRESULT ItemChanged(IChannelLineup *pchanlineup);
[id(didItemsChanged), helpstring("method ItemsChanged")] HRESULT ItemsChanged();
};
[
uuid(6E30077E-2E0B-4D4A-92B0-CDB5E5116E3B),
helpstring("GuideDataProviders Class")
]
coclass GuideDataProviders
{
[default] interface IGuideDataProviders;
[default, source] dispinterface IGuideDataProvidersEvents;
};
};

587
extern/include/DShowIDL/Msvidctl.idl vendored
View File

@ -1,587 +0,0 @@
//------------------------------------------------------------------------------
// File: MSVidCtl.idl
//
// Desc: IDL source for MSVidCtl.dll.
//
// Copyright (c) 1999-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
// This file will be processed by the MIDL tool to
// produce the type library (MSVidCtl.tlb) and marshalling code.
cpp_quote("//+-------------------------------------------------------------------------")
cpp_quote("//")
cpp_quote("// Microsoft Windows")
cpp_quote("// Copyright (C) Microsoft Corporation, 1999-2001.")
cpp_quote("//")
cpp_quote("//--------------------------------------------------------------------------")
cpp_quote("#pragma once")
#include <olectl.h>
#ifndef DO_NO_IMPORTS
#ifndef TUNING_MODEL_ONLY
import "mshtml.idl";
import "mstve.idl";
import "mstvca.idl";
import "segment.idl";
#endif
#endif
#ifndef TUNING_MODEL_ONLY
typedef enum {
dispidInputs,
dispidOutputs,
dispid_Inputs,
dispid_Outputs,
dispidVideoRenderers,
dispidAudioRenderers,
dispidFeatures,
dispidInput,
dispidOutput,
dispidVideoRenderer,
dispidAudioRenderer,
dispidSelectedFeatures,
dispidView, // total graph control
dispidBuild,
dispidPause,
dispidRun,
dispidStop,
dispidDecompose,
dispidDisplaySize,
dispidMaintainAspectRatio,
dispidColorKey,
dispidStateChange,
dispidgetState,
dispidunbind,
dispidbind,
dispidDisableVideo,
dispidDisableAudio,
dispidViewNext,
} MSViddispidList;
typedef enum {
dslDefaultSize,
dslSourceSize = 0, // synonym
dslHalfSourceSize,
dslDoubleSourceSize,
dslFullScreen,
dslHalfScreen,
dslQuarterScreen,
dslSixteenthScreen
} DisplaySizeList;
typedef enum {
STATE_UNBUILT =-1,
STATE_STOP,
STATE_PAUSE,
STATE_PLAY,
} MSVidCtlStateList;
//*****************************************************************************
///////////////////////////////////////////////////////////////////////////////
//
// the full Viewer control
//
///////////////////////////////////////////////////////////////////////////////
//*****************************************************************************
///////////////////////////////////////////////////////////////////////////////////////
[
object,
uuid(B0EDF162-910A-11D2-B632-00C04F79498E),
dual,
hidden,
nonextensible,
helpstring("MS Video Control Interface"),
pointer_default(unique)
]
interface IMSVidCtl : IDispatch
{
// stock props
[propget, id(DISPID_AUTOSIZE)]
HRESULT AutoSize([out,retval]VARIANT_BOOL* pbool);
[propput, id(DISPID_AUTOSIZE)]
HRESULT AutoSize([in]VARIANT_BOOL vbool);
[propget, id(DISPID_BACKCOLOR)]
HRESULT BackColor([out,retval]OLE_COLOR* backcolor);
[propput, id(DISPID_BACKCOLOR)]
HRESULT BackColor([in]OLE_COLOR backcolor);
[propget, id(DISPID_ENABLED)]
HRESULT Enabled([out,retval]VARIANT_BOOL* pbool);
[propput, id(DISPID_ENABLED)]
HRESULT Enabled([in]VARIANT_BOOL vbool);
[propget, id(DISPID_TABSTOP)]
HRESULT TabStop([out, retval]VARIANT_BOOL* pbool);
[propput, id(DISPID_TABSTOP)]
HRESULT TabStop([in]VARIANT_BOOL vbool);
[propget, id(DISPID_HWND)]
HRESULT Window([out, retval]HWND* phwnd);
[id(DISPID_REFRESH)]
HRESULT Refresh();
// pseudo video renderer properties/methods that require access to ole container
[propget, id(dispidDisplaySize)]
HRESULT DisplaySize([out,retval]DisplaySizeList *CurrentValue);
[propput, id(dispidDisplaySize)]
HRESULT DisplaySize([in]DisplaySizeList NewValue);
[propget, id(dispidMaintainAspectRatio)]
HRESULT MaintainAspectRatio([out,retval]VARIANT_BOOL *CurrentValue);
[propput, id(dispidMaintainAspectRatio)]
HRESULT MaintainAspectRatio([in]VARIANT_BOOL NewValue);
// non-stock visual propertiies that require coordination/implementation with
// core ctl drawing/painting function
[propget, id(dispidColorKey)]
HRESULT ColorKey([out,retval]OLE_COLOR *CurrentValue);
[propput, id(dispidColorKey)]
HRESULT ColorKey([in]OLE_COLOR NewValue);
// available collections
[propget, id(dispidInputs), helpstring("Available Input Devices")] HRESULT InputsAvailable([in] BSTR CategoryGuid, [out, retval] IMSVidInputDevices * *pVal);
[propget, id(dispidOutputs), helpstring("Available Output Devices")] HRESULT OutputsAvailable([in] BSTR CategoryGuid, [out, retval] IMSVidOutputDevices * *pVal);
[propget, id(dispid_Inputs), hidden, restricted, helpstring("Available Input Devices")] HRESULT _InputsAvailable([in] LPCGUID CategoryGuid, [out, retval] IMSVidInputDevices * *pVal);
[propget, id(dispid_Outputs), hidden, restricted, helpstring("Available Output Devices")] HRESULT _OutputsAvailable([in] LPCGUID CategoryGuid, [out, retval] IMSVidOutputDevices * *pVal);
[propget, id(dispidVideoRenderers), helpstring("Available Video Renderers")] HRESULT VideoRenderersAvailable([out, retval] IMSVidVideoRendererDevices * *pVal);
[propget, id(dispidAudioRenderers), helpstring("Available Audio Renderers")] HRESULT AudioRenderersAvailable([out, retval] IMSVidAudioRendererDevices * *pVal);
[propget, id(dispidFeatures), helpstring("Available Features")] HRESULT FeaturesAvailable([out, retval] IMSVidFeatures * *pVal);
// current selections
[propget, id(dispidInput), helpstring("Currently Selected Input Device")] HRESULT InputActive([out, retval] IMSVidInputDevice **pVal);
[propput, id(dispidInput), helpstring("Currently Selected Input Device")] HRESULT InputActive([in] IMSVidInputDevice *pVal);
[propget, id(dispidOutput), helpstring("Currently Selected Output Devices")] HRESULT OutputsActive([out, retval] IMSVidOutputDevices **pVal);
[propput, id(dispidOutput), helpstring("Currently Selected Output Devices")] HRESULT OutputsActive([in] IMSVidOutputDevices *pVal);
[propget, id(dispidVideoRenderer), helpstring("Currently Selected Video Renderer")] HRESULT VideoRendererActive([out, retval] IMSVidVideoRenderer **pVal);
[propput, id(dispidVideoRenderer), helpstring("Currently Selected Video Renderer")] HRESULT VideoRendererActive([in] IMSVidVideoRenderer *pVal);
[propget, id(dispidAudioRenderer), helpstring("Currently Selected Audio Renderer")] HRESULT AudioRendererActive([out, retval] IMSVidAudioRenderer **pVal);
[propput, id(dispidAudioRenderer), helpstring("Currently Selected Audio Renderer")] HRESULT AudioRendererActive([in] IMSVidAudioRenderer *pVal);
[propget, id(dispidSelectedFeatures), helpstring("Currently Selected Features")] HRESULT FeaturesActive([out, retval] IMSVidFeatures **pVal);
[propput, id(dispidSelectedFeatures), helpstring("Currently Selected Features")] HRESULT FeaturesActive([in] IMSVidFeatures *pVal);
[propget, id(dispidgetState), helpstring("Check the current MSVidCtl state.")] HRESULT State([out, retval]MSVidCtlStateList* lState);
// methods
[id(dispidView), helpstring("Find an input device for viewing the specified item. This may be a string(VT_BSTR) or an object(VT_UNKNOWN).")] HRESULT View([in] VARIANT* v);
[id(dispidBuild), helpstring("Compose the graph")] HRESULT Build();
[id(dispidPause), helpstring("Stop the graph")] HRESULT Pause();
[id(dispidRun), helpstring("Compose the graph if necessary and start it running")] HRESULT Run();
[id(dispidStop), helpstring("Stop the graph")] HRESULT Stop();
[id(dispidDecompose), helpstring("Disassemble the graph(Inverse of Build)")] HRESULT Decompose();
[id(dispidDisableVideo), helpstring("set active video renderer to nothing")] HRESULT DisableVideo();
[id(dispidDisableAudio), helpstring("set active Audio renderer to nothing")] HRESULT DisableAudio();
[id(dispidViewNext), helpstring("Find another input device for viewing the specified item. Works like View except skips current input")] HRESULT ViewNext([in] VARIANT* v);
};
///Added for the mseventbinder
[
object,
dual,
oleautomation,
hidden,
nonextensible,
pointer_default(unique),
uuid(C3A9F406-2222-436D-86D5-BA3229279EFB),
helpstring("IMSEventBinder Interface"),
]
interface IMSEventBinder : IDispatch {
[id(dispidbind), helpstring("method Bind")] HRESULT Bind([in]LPDISPATCH pEventObject, [in]BSTR EventName, [in]BSTR EventHandler, [out, retval] LONG * CancelID);
[id(dispidunbind), helpstring("method Unbind")] HRESULT Unbind([in]DWORD CancelCookie);
};
////
#endif // TUNING_MODEL_ONLY
//*****************************************************************************
//*****************************************************************************
//////////////////////////////////////////////////////////////////////////////////////
// Type Library for MS Video Control
//////////////////////////////////////////////////////////////////////////////////////
//*****************************************************************************
//*****************************************************************************
[
uuid(B0EDF154-910A-11D2-B632-00C04F79498E),
version(1.0),
helpstring("MS Video Control 1.0 Type Library")
]
library MSVidCtlLib
{
importlib("stdole2.tlb");
#ifndef TUNING_MODEL_ONLY
///////////////////////////////////////////////////////////////////////////////////////
// event interfaces
///////////////////////////////////////////////////////////////////////////////////////
[
uuid(B0EDF164-910A-11D2-B632-00C04F79498E),
helpstring("MS Video Control Events Interface")
]
dispinterface _IMSVidCtlEvents
{
properties:
// Event interface has no properties
methods:
[id(DISPID_CLICK)] void Click();
[id(DISPID_DBLCLICK)] void DblClick();
[id(DISPID_KEYDOWN)] void KeyDown(short* KeyCode, short Shift);
[id(DISPID_KEYPRESS)] void KeyPress(short* KeyAscii);
[id(DISPID_KEYUP)] void KeyUp(short* KeyCode, short Shift);
[id(DISPID_MOUSEDOWN)] void MouseDown(short Button, short Shift, OLE_XPOS_PIXELS x, OLE_YPOS_PIXELS y);
[id(DISPID_MOUSEMOVE)] void MouseMove(short Button, short Shift, OLE_XPOS_PIXELS x, OLE_YPOS_PIXELS y);
[id(DISPID_MOUSEUP)] void MouseUp(short Button, short Shift, OLE_XPOS_PIXELS x, OLE_YPOS_PIXELS y);
[id(DISPID_ERROREVENT)] void Error(short Number, BSTR* Description, long Scode, BSTR Source, BSTR HelpFile, long HelpContext, boolean* CancelDisplay);
[id(dispidStateChange)] void StateChange(MSVidCtlStateList PrevState, MSVidCtlStateList CurrState);
};
//*****************************************************************************
///////////////////////////////////////////////////////////////////////////////////////
// device classes
///////////////////////////////////////////////////////////////////////////////////////
//*****************************************************************************
// inputs
///////////////////////////////////////////////////////////////////////////////////////
[
uuid(1C15D484-911D-11d2-B632-00C04F79498E),
helpstring("MS Video Control Analog TV Tuner Device Class")
]
coclass MSVidAnalogTunerDevice
{
[default] interface IMSVidAnalogTuner;
[default, source] interface IMSVidAnalogTunerEvent;
interface IMSVidGraphSegment;
};
///////////////////////////////////////////////////////////////////////////////////////
[
uuid(A2E3074E-6C3D-11d3-B653-00C04F79498E),
helpstring("MS Video Control BDA Tuner Device Class")
]
coclass MSVidBDATunerDevice
{
[default] interface IMSVidTuner;
[default, source] interface IMSVidTunerEvent;
interface IMSVidGraphSegment;
};
///////////////////////////////////////////////////////////////////////////////////////
[
uuid(37B0353C-A4C8-11d2-B634-00C04F79498E),
helpstring("MS Video Control File Playback Device Class")
]
coclass MSVidFilePlaybackDevice
{
[default] interface IMSVidFilePlayback;
[default, source] interface IMSVidFilePlaybackEvent;
interface IMSVidGraphSegment;
};
[
uuid(011B3619-FE63-4814-8A84-15A194CE9CE3),
helpstring("MSVidWebDVD Class")
]
coclass MSVidWebDVD
{
[default] interface IMSVidWebDVD;
[default, source] interface IMSVidWebDVDEvent;
interface IMSVidGraphSegment;
};
[
uuid(FA7C375B-66A7-4280-879D-FD459C84BB02),
helpstring("MSVidWebDVDAdm Class")
]
coclass MSVidWebDVDAdm
{
[default] interface IMSVidWebDVDAdm;
};
// rendererers
///////////////////////////////////////////////////////////////////////////////////////
[
uuid(37B03543-A4C8-11d2-B634-00C04F79498E),
helpstring("MS Video Control Video Renderer Class")
]
coclass MSVidVideoRenderer
{
[default] interface IMSVidVideoRenderer2;
interface IMSVidVideoRenderer;
[default, source] interface IMSVidVideoRendererEvent;
//[default, source] interface IMSVidVideoRendererEvent2;
interface IMSVidGraphSegment;
};
///////////////////////////////////////////////////////////////////////////////////////
[
uuid(37B03544-A4C8-11d2-B634-00C04F79498E),
helpstring("MS Video Control Audio Renderer Class")
]
coclass MSVidAudioRenderer
{
[default] interface IMSVidAudioRenderer;
[default, source] interface IMSVidAudioRendererEvent;
interface IMSVidGraphSegment;
};
// features
[
uuid(334125C0-77E5-11d3-B653-00C04F79498E),
helpstring("MS Video Control Standard Data Services for Broadcast IP through NDIS stack")
]
coclass MSVidDataServices
{
interface IMSVidDataServices;
};
[
uuid(7F9CB14D-48E4-43b6-9346-1AEBC39C64D3),
helpstring("MS Video Control Standard Closed Captioning")
]
coclass MSVidClosedCaptioning
{
interface IMSVidClosedCaptioning;
};
[
uuid(1600F001-6666-4f66-B1E2-BF3C9FBB9BA6),
helpstring("MS Video Control TVE Feature Segment"),
]
coclass MSVidTVEGSeg
{
[default] interface IMSVidTVEGSeg;
interface ITVEFeature; // 'active' service, outgoing events
// interface IMSVidGraphSegment; // standard graph segment methods
};
[
uuid(1600F101-6666-4f66-B1E2-BF3C9FBB9BA6),
helpstring("MS Video Control CA Feature Segment"),
]
coclass MSVidCAGSeg
{
[default] interface IMSVidCAGSeg;
interface ICAManager; // aggregates with this..
// interface IMSVidGraphSegment; // standard graph segment methods
};
///////////////////////////////////////////////////////////////////////////////////////
// control classes
///////////////////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////////////
[
uuid(B0EDF163-910A-11D2-B632-00C04F79498E),
control,
helpstring("MS Video Control Class")
]
coclass MSVidCtl
{
[default] interface IMSVidCtl;
[default, source] dispinterface _IMSVidCtlEvents;
};
///////////////////////////////////////////////////////////////////////////////////////
// device collections
///////////////////////////////////////////////////////////////////////////////////////
[
uuid(C5702CCC-9B79-11d3-B654-00C04F79498E),
helpstring("MS Video Control Input Device Collection Class")
]
coclass MSVidInputDevices
{
[default] interface IMSVidInputDevices;
};
[
uuid(C5702CCD-9B79-11d3-B654-00C04F79498E),
helpstring("MS Video Control Output Device Collection Class")
]
coclass MSVidOutputDevices
{
[default] interface IMSVidOutputDevices;
};
[
uuid(C5702CCE-9B79-11d3-B654-00C04F79498E),
helpstring("MS Video Control Video Renderer Device Collection Class")
]
coclass MSVidVideoRendererDevices
{
[default] interface IMSVidVideoRendererDevices;
};
[
uuid(C5702CCF-9B79-11d3-B654-00C04F79498E),
helpstring("MS Video Control Audio Renderer Device Collection Class")
]
coclass MSVidAudioRendererDevices
{
[default] interface IMSVidAudioRendererDevices;
};
[
uuid(C5702CD0-9B79-11d3-B654-00C04F79498E),
helpstring("MS Video Control Feature Collection Class")
]
coclass MSVidFeatures
{
[default] interface IMSVidFeatures;
};
///////////////////////////////////////////////////////////////////////////////////////
// composites
///////////////////////////////////////////////////////////////////////////////////////
[
uuid(2764BCE5-CC39-11D2-B639-00C04F79498E),
helpstring("MS Video Control Generic Composition Class")
]
coclass MSVidGenericComposite
{
interface IMSVidCompositionSegment;
};
[
uuid(E18AF75A-08AF-11d3-B64A-00C04F79498E),
helpstring("MS Video Control Custom Composition for Analog Capture to Overlay Mixer")
]
coclass MSVidAnalogCaptureToOverlayMixer
{
interface IMSVidCompositionSegment;
};
[
uuid(C5702CD6-9B79-11d3-B654-00C04F79498E),
helpstring("MS Video Control Custom Composition for Analog Capture to Data Services")
]
coclass MSVidAnalogCaptureToDataServices
{
interface IMSVidCompositionSegment;
};
[
uuid(267db0b3-55e3-4902-949b-df8f5cec0191),
helpstring("MS Video Control Custom Composition for WebDVD to Overlay Mixer")
]
coclass MSVidWebDVDToVideoRenderer
{
interface IMSVidCompositionSegment;
};
[
uuid(6AD28EE1-5002-4e71-AAF7-BD077907B1A4),
helpstring("MS Video Control Custom Composition for Mpeg2 Decoder to Closed Captioning")
]
coclass MSVidMPEG2DecoderToClosedCaptioning
{
interface IMSVidCompositionSegment;
};
///////////////////////////////////////////////////////////////////////////////////////
// Miscellaneous
///////////////////////////////////////////////////////////////////////////////////////
[
uuid(11973C25-3529-40e4-9AB1-DDC164CBEF49),
helpstring("MS Video Control Rendering Behavior Factory")
]
coclass MSVidRenderFactory
{
interface IElementBehaviorFactory;
};
// Events
[
uuid(577FAA18-4518-445E-8F70-1473F8CF4BA4),
helpstring("MSEventBinder Class")
]
coclass MSEventBinder
{
[default] interface IMSEventBinder;
};
// vidrect class
[
hidden, restricted,
uuid(CB4276E6-7D5F-4cf1-9727-629C5E6DB6AE),
helpstring("Automation compliant scalable rectangle Class")
]
coclass MSVidRect
{
[default] interface IMSVidRect;
};
// NOTE: there is no object factory for the following classes.
// the implementation for the underlying code is a c++ abstract base class.
// this coclass is only provided here to force vb to expose the base interface
// to enable polymorphic access to derived objects
[
hidden, restricted,
uuid(6E40476F-9C49-4c3e-8BB9-8587958EFF74),
helpstring("dummy class to expose base interface to VB")
]
coclass MSVidDevice
{
[default] interface IMSVidDevice;
};
[
hidden, restricted,
uuid(AC1972F2-138A-4ca3-90DA-AE51112EDA28),
helpstring("dummy class to expose base interface to VB")
]
coclass MSVidInputDevice
{
[default] interface IMSVidInputDevice;
};
[
hidden, restricted,
uuid(95F4820B-BB3A-4e2d-BC64-5B817BC2C30E),
helpstring("dummy class to expose base interface to VB")
]
coclass MSVidVideoInputDevice
{
[default] interface IMSVidVideoInputDevice;
};
[
hidden, restricted,
uuid(1990D634-1A5E-4071-A34A-53AAFFCE9F36),
helpstring("dummy class to expose base interface to VB")
]
coclass MSVidVideoPlaybackDevice
{
[default] interface IMSVidPlayback;
};
[
hidden, restricted,
uuid(7748530B-C08A-47ea-B24C-BE8695FF405F),
helpstring("dummy class to expose base interface to VB")
]
coclass MSVidFeature
{
[default] interface IMSVidFeature;
};
[
hidden, restricted,
uuid(87EB890D-03AD-4e9d-9866-376E5EC572ED),
helpstring("dummy class to expose base interface to VB")
]
coclass MSVidOutput
{
[default] interface IMSVidOutputDevice;
};
#endif //TUNING_MODEL_ONLY
};
// end of file msvidctl.idl

1220
extern/include/DShowIDL/Segment.idl vendored
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File diff suppressed because it is too large Load Diff

172
extern/include/DShowIDL/Videoacc.idl vendored
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@ -1,172 +0,0 @@
//------------------------------------------------------------------------------
// File: VideoAcc.idl
//
// Desc: An interface exposed by the overlay mixer to help decode samples
// using hardware video acceleration.
//
// Copyright (c) 1992-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
import "unknwn.idl";
cpp_quote("//")
cpp_quote("// The following declarations within the 'if 0' block are dummy typedefs used to make")
cpp_quote("// the motncomp.idl file build. The actual definitions are contained in ddraw.h and amva.h")
cpp_quote("//")
cpp_quote("#if 0")
typedef void* LPVOID;
typedef void* LPGUID;
typedef void* LPDIRECTDRAWSURFACE;
typedef void* LPDDPIXELFORMAT;
typedef void* LPAMVAInternalMemInfo;
typedef void AMVAUncompDataInfo;
typedef void* LPAMVACompBufferInfo;
typedef void AMVABUFFERINFO;
typedef void AMVAEndFrameInfo;
typedef void* LPAMVAUncompBufferInfo;
typedef void AMVABeginFrameInfo;
typedef IUnknown* IMediaSample;
cpp_quote("#endif")
cpp_quote("#include <ddraw.h>")
cpp_quote("#include <amva.h>")
[
local,
object,
uuid(256A6A21-FBAD-11d1-82BF-00A0C9696C8F),
helpstring("IAMVideoAcceleratorNotify Interface"),
pointer_default(unique)
]
// IAMVideoAcceleratorNotify
interface IAMVideoAcceleratorNotify : IUnknown
{
// get information necessary to allocate uncompressed data buffers
// which is not part of the mediatype format (like how many buffers to allocate etc)
HRESULT GetUncompSurfacesInfo([in] const GUID *pGuid, [in] [out] LPAMVAUncompBufferInfo pUncompBufferInfo);
// set information regarding allocated uncompressed data buffers
HRESULT SetUncompSurfacesInfo([in] DWORD dwActualUncompSurfacesAllocated);
// get information necessary to create video accelerator object. It is the caller's responsibility
// to call CoTaskMemFree() on *ppMiscData
HRESULT GetCreateVideoAcceleratorData([in] const GUID *pGuid, [out] LPDWORD pdwSizeMiscData, [out] LPVOID *ppMiscData);
};
[
local,
object,
uuid(256A6A22-FBAD-11d1-82BF-00A0C9696C8F),
helpstring("IAMVideoAccelerator Interface"),
pointer_default(unique)
]
// IAMVideoAccelerator
interface IAMVideoAccelerator : IUnknown
{
// pdwNumGuidsSupported is an IN OUT paramter
// pGuidsSupported is an IN OUT paramter
// if pGuidsSupported is NULL, pdwNumGuidsSupported should return back with the
// number of uncompressed pixel formats supported
// Otherwise pGuidsSupported is an array of *pdwNumGuidsSupported structures
HRESULT GetVideoAcceleratorGUIDs([in] [out] LPDWORD pdwNumGuidsSupported, [in] [out] LPGUID pGuidsSupported);
// pGuid is an IN parameter
// pdwNumFormatsSupported is an IN OUT paramter
// pFormatsSupported is an IN OUT paramter (caller should make sure to set the size of EACH struct)
// if pFormatsSupported is NULL, pdwNumFormatsSupported should return back with
// the number of uncompressed pixel formats supported
// Otherwise pFormatsSupported is an array of *pdwNumFormatsSupported structures
HRESULT GetUncompFormatsSupported( [in] const GUID *pGuid, [in] [out] LPDWORD pdwNumFormatsSupported,
[in] [out] LPDDPIXELFORMAT pFormatsSupported);
// pGuid is an IN parameter
// pamvaUncompDataInfo is an IN parameter
// pamvaInternalMemInfo is an IN OUT parameter (caller should make sure to set the size of struct)
// currently only gets info about how much scratch memory will the hal allocate for its private use
HRESULT GetInternalMemInfo([in] const GUID *pGuid, [in] const AMVAUncompDataInfo *pamvaUncompDataInfo,
[in] [out] LPAMVAInternalMemInfo pamvaInternalMemInfo);
// pGuid is an IN parameter
// pamvaUncompDataInfo is an IN parameter
// pdwNumTypesCompBuffers is an IN OUT paramter
// pamvaCompBufferInfo is an IN OUT paramter (caller should make sure to set the size of EACH struct)
// if pamvaCompBufferInfo is NULL, pdwNumTypesCompBuffers should return back with the number of types of
// compressed buffers
// Otherwise pamvaCompBufferInfo is an array of *pdwNumTypesCompBuffers structures
HRESULT GetCompBufferInfo([in] const GUID *pGuid, [in] const AMVAUncompDataInfo *pamvaUncompDataInfo,
[in] [out] LPDWORD pdwNumTypesCompBuffers, [out] LPAMVACompBufferInfo pamvaCompBufferInfo);
// pdwNumTypesCompBuffers is an IN OUT paramter
// pamvaCompBufferInfo is an IN OUT paramter (caller should make sure to set the size of EACH struct)
// if pamvaCompBufferInfo is NULL, pdwNumTypesCompBuffers should return back with the number of types of
// compressed buffers
// Otherwise pamvaCompBufferInfo is an array of *pdwNumTypesCompBuffers structures
// only valid to call this after the pins are connected
HRESULT GetInternalCompBufferInfo([in] [out] LPDWORD pdwNumTypesCompBuffers, [out] LPAMVACompBufferInfo pamvaCompBufferInfo);
// begin a frame, the pMiscData is passed directly to the hal
// only valid to call this after the pins are connected
// Tells the ovmixer which frame is the destination
// frame. Use indices (valid vales are [0 .. pdwNumSurfacesAllocated-1]) to specify frames
HRESULT BeginFrame([in] const AMVABeginFrameInfo *amvaBeginFrameInfo);
// end a frame, the pMiscData is passed directly to the hal
// only valid to call this after the pins are connected
HRESULT EndFrame([in] const AMVAEndFrameInfo *pEndFrameInfo);
// lock and obtain access to a single buffer
// only valid to call this after the pins are connected
// Buffers are identified by type and index within that type
// Specifiying read-only will allow access to busy reference
// frames
// Output (uncompressed) frames use a type index of 0xFFFFFFFF
HRESULT GetBuffer(
[in] DWORD dwTypeIndex,
[in] DWORD dwBufferIndex,
[in] BOOL bReadOnly,
[out] LPVOID *ppBuffer,
[out] LONG *lpStride);
// unlock a single buffer
// Buffers are identified by type and index within that type
// only valid to call this after the pins are connected
HRESULT ReleaseBuffer([in] DWORD dwTypeIndex, [in] DWORD dwBufferIndex);
// Perform a decompression operation
// Private data can be passed to and from a driver
// identifiers for the corresponding members of pamvaMacroBlockInfo
// pamvaMacroBlockInfo is an IN parameter which is array (of length dwNumBlocks) of structures
// only valid to call this after the pins are connected
HRESULT Execute(
[in] DWORD dwFunction,
[in] LPVOID lpPrivateInputData,
[in] DWORD cbPrivateInputData,
[in] LPVOID lpPrivateOutputDat,
[in] DWORD cbPrivateOutputData,
[in] DWORD dwNumBuffers,
[in] const AMVABUFFERINFO *pamvaBufferInfo);
// query the decode status of a particular decompression operation
// dwTypeIndex and dwBufferIndex define the buffer whose status is
// being queried
HRESULT QueryRenderStatus([in] DWORD dwTypeIndex,
[in] DWORD dwBufferIndex,
[in] DWORD dwFlags);
// display a frame. The mediasample contains the timestamps etc for the frame to be displayed
// this call is a non-blocking call
// only valid to call this after the pins are connected
HRESULT DisplayFrame([in] DWORD dwFlipToIndex, [in] IMediaSample *pMediaSample);
};

875
extern/include/DShowIDL/Vmrender.idl vendored
View File

@ -1,875 +0,0 @@
//------------------------------------------------------------------------------
// File: Vmrender.idl
//
// Desc: Public Interfaces for the Video Mixing Renderer DShow filter
//
// Copyright (c) 1992-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
cpp_quote("#if 0")
// This is a temporary workaround to persuade MIDL to allow
// forward declarations
typedef DWORD* LPDIRECTDRAW7;
typedef DWORD* LPDIRECTDRAWSURFACE7;
typedef DWORD* LPDDPIXELFORMAT;
typedef DWORD* LPBITMAPINFOHEADER;
typedef struct {DWORD dw1; DWORD dw2;} DDCOLORKEY;
typedef DDCOLORKEY* LPDDCOLORKEY;
cpp_quote ("#endif")
cpp_quote("#include <ddraw.h>")
// public interfaces supported by the VMR
interface IVMRSurface;
interface IVMRSurfaceAllocator;
interface IVMRSurfaceAllocatorNotify;
interface IVMRImagePresenter;
interface IVMRImagePresenterConfig;
interface IVMRWindowlessControl;
interface IVMRMixerControl;
interface IVMRMixerBitmap;
interface IVMRFilterConfig;
interface IVMRMonitorConfig;
interface IVMRImageCompositor;
interface IVMRVideoStreamControl;
///////////////////////////////////////////////////////////////////////////////
//
// Allocator Presenter interfaces
//
///////////////////////////////////////////////////////////////////////////////
//=====================================================================
//
// IVMRImagePresenter
//
//=====================================================================
typedef enum {
VMRSample_SyncPoint = 0x00000001,
VMRSample_Preroll = 0x00000002,
VMRSample_Discontinuity = 0x00000004,
VMRSample_TimeValid = 0x00000008,
} VMRPresentationFlags;
typedef struct tagVMRPRESENTATIONINFO {
DWORD dwFlags;
LPDIRECTDRAWSURFACE7 lpSurf;
REFERENCE_TIME rtStart;
REFERENCE_TIME rtEnd;
SIZE szAspectRatio;
RECT rcSrc;
RECT rcDst;
DWORD dwTypeSpecificFlags;
DWORD dwInterlaceFlags;
} VMRPRESENTATIONINFO;
[
local,
object,
local,
uuid(CE704FE7-E71E-41fb-BAA2-C4403E1182F5),
helpstring("IVMRImagePresenter Interface"),
pointer_default(unique)
]
interface IVMRImagePresenter : IUnknown
{
HRESULT StartPresenting(
[in] DWORD_PTR dwUserID
);
HRESULT StopPresenting(
[in] DWORD_PTR dwUserID
);
HRESULT PresentImage(
[in] DWORD_PTR dwUserID,
[in] VMRPRESENTATIONINFO* lpPresInfo
);
};
//=====================================================================
//
// IVMRSurfaceAllocator
//
//=====================================================================
typedef enum {
AMAP_PIXELFORMAT_VALID = 0x01,
AMAP_3D_TARGET = 0x02,
AMAP_ALLOW_SYSMEM = 0x04,
AMAP_FORCE_SYSMEM = 0x08,
AMAP_DIRECTED_FLIP = 0x10,
AMAP_DXVA_TARGET = 0x20
} VMRSurfaceAllocationFlags;
typedef struct tagVMRALLOCATIONINFO {
DWORD dwFlags;
LPBITMAPINFOHEADER lpHdr;
LPDDPIXELFORMAT lpPixFmt;
SIZE szAspectRatio;
DWORD dwMinBuffers;
DWORD dwMaxBuffers;
DWORD dwInterlaceFlags;
SIZE szNativeSize;
} VMRALLOCATIONINFO;
[
local,
object,
local,
uuid(31ce832e-4484-458b-8cca-f4d7e3db0b52),
helpstring("IVMRSurfaceAllocator Interface"),
pointer_default(unique)
]
interface IVMRSurfaceAllocator : IUnknown
{
HRESULT AllocateSurface(
[in] DWORD_PTR dwUserID,
[in] VMRALLOCATIONINFO* lpAllocInfo,
[in] [out] DWORD* lpdwActualBuffers,
[out] LPDIRECTDRAWSURFACE7 *lplpSurface
);
HRESULT FreeSurface(
[in] DWORD_PTR dwID
);
HRESULT PrepareSurface(
[in] DWORD_PTR dwUserID,
[in] LPDIRECTDRAWSURFACE7 lpSurface,
[in] DWORD dwSurfaceFlags
);
HRESULT AdviseNotify(
[in] IVMRSurfaceAllocatorNotify* lpIVMRSurfAllocNotify
);
};
//=====================================================================
//
// IVMRSurfaceAllocatorNotify
//
//=====================================================================
[
local,
object,
local,
uuid(aada05a8-5a4e-4729-af0b-cea27aed51e2),
helpstring("IVMRSurfaceAllocatorNotify Interface"),
pointer_default(unique)
]
interface IVMRSurfaceAllocatorNotify : IUnknown
{
HRESULT AdviseSurfaceAllocator(
[in] DWORD_PTR dwUserID,
[in] IVMRSurfaceAllocator* lpIVRMSurfaceAllocator
);
HRESULT SetDDrawDevice(
[in] LPDIRECTDRAW7 lpDDrawDevice,
[in] HMONITOR hMonitor
);
HRESULT ChangeDDrawDevice(
[in] LPDIRECTDRAW7 lpDDrawDevice,
[in] HMONITOR hMonitor
);
HRESULT RestoreDDrawSurfaces();
HRESULT NotifyEvent(
[in] LONG EventCode,
[in] LONG_PTR Param1,
[in] LONG_PTR Param2
);
HRESULT SetBorderColor(
[in] COLORREF clrBorder
);
};
///////////////////////////////////////////////////////////////////////////////
//
// Application control and configuration interfaces
//
///////////////////////////////////////////////////////////////////////////////
//=====================================================================
//
// IVMRWindowlessControl
//
//=====================================================================
typedef enum {
VMR_ARMODE_NONE,
VMR_ARMODE_LETTER_BOX
} VMR_ASPECT_RATIO_MODE;
[
local,
object,
local,
uuid(0eb1088c-4dcd-46f0-878f-39dae86a51b7),
helpstring("IVMRWindowlessControl Interface"),
pointer_default(unique)
]
interface IVMRWindowlessControl : IUnknown
{
//
//////////////////////////////////////////////////////////
// Video size and position information
//////////////////////////////////////////////////////////
//
HRESULT GetNativeVideoSize(
[out] LONG* lpWidth,
[out] LONG* lpHeight,
[out] LONG* lpARWidth,
[out] LONG* lpARHeight
);
HRESULT GetMinIdealVideoSize(
[out] LONG* lpWidth,
[out] LONG* lpHeight
);
HRESULT GetMaxIdealVideoSize(
[out] LONG* lpWidth,
[out] LONG* lpHeight
);
HRESULT SetVideoPosition(
[in] const LPRECT lpSRCRect,
[in] const LPRECT lpDSTRect
);
HRESULT GetVideoPosition(
[out] LPRECT lpSRCRect,
[out] LPRECT lpDSTRect
);
HRESULT GetAspectRatioMode(
[out] DWORD* lpAspectRatioMode
);
HRESULT SetAspectRatioMode(
[in] DWORD AspectRatioMode
);
//
//////////////////////////////////////////////////////////
// Display and clipping management
//////////////////////////////////////////////////////////
//
HRESULT SetVideoClippingWindow(
[in] HWND hwnd
);
HRESULT RepaintVideo(
[in] HWND hwnd,
[in] HDC hdc
);
HRESULT DisplayModeChanged();
//
//////////////////////////////////////////////////////////
// GetCurrentImage
//
// Returns the current image being displayed. This images
// is returned in the form of packed Windows DIB.
//
// GetCurrentImage can be called at any time, also
// the caller is responsible for free the returned memory
// by calling CoTaskMemFree.
//
// Excessive use of this function will degrade video
// playback performed.
//////////////////////////////////////////////////////////
//
HRESULT GetCurrentImage(
[out] BYTE** lpDib
);
//
//////////////////////////////////////////////////////////
// Border Color control
//
// The border color is color used to fill any area of the
// the destination rectangle that does not contain video.
// It is typically used in two instances. When the video
// straddles two monitors and when the VMR is trying
// to maintain the aspect ratio of the movies by letter
// boxing the video to fit within the specified destination
// rectangle. See SetAspectRatioMode above.
//////////////////////////////////////////////////////////
//
HRESULT SetBorderColor(
[in] COLORREF Clr
);
HRESULT GetBorderColor(
[out] COLORREF* lpClr
);
//
//////////////////////////////////////////////////////////
// Color key control only meaningful when the VMR is using
// and overlay
//////////////////////////////////////////////////////////
//
HRESULT SetColorKey(
[in] COLORREF Clr
);
HRESULT GetColorKey(
[out] COLORREF* lpClr
);
};
//=====================================================================
//
// IVMRMixerControl
//
//=====================================================================
typedef enum {
MixerPref_NoDecimation = 0x00000001, // No decimation - full size
MixerPref_DecimateOutput = 0x00000002, // decimate output by 2 in x & y
MixerPref_DecimateMask = 0x0000000F,
MixerPref_BiLinearFiltering = 0x00000010, // use bi-linear filtering
MixerPref_PointFiltering = 0x00000020, // use point filtering
MixerPref_FilteringMask = 0x000000F0, // OR of all above flags
MixerPref_RenderTargetRGB = 0x00000100,
MixerPref_RenderTargetYUV420 = 0x00000200,
MixerPref_RenderTargetYUV422 = 0x00000400,
MixerPref_RenderTargetYUV444 = 0x00000800, // AYUV render target.
MixerPref_RenderTargetReserved = 0x0000F000, // 4 bits reserved for future use.
MixerPref_RenderTargetMask = 0x0000FF00, // OR of all above flags
} VMRMixerPrefs;
//
// Normalized relative rectangle
// Coordinate ranges: x=[0...1) y=[0...1)
// Where the output window goes from 0,0 (closed inclusive lower bound)
// to 1,1 (open exclusive upper bound)
//
typedef struct _NORMALIZEDRECT
{
float left;
float top;
float right;
float bottom;
} NORMALIZEDRECT, *PNORMALIZEDRECT;
[
local,
object,
local,
uuid(1c1a17b0-bed0-415d-974b-dc6696131599),
helpstring("IVMRMixerControl Interface"),
pointer_default(unique)
]
interface IVMRMixerControl : IUnknown
{
HRESULT SetAlpha(
[in] DWORD dwStreamID,
[in] float Alpha // Source alpha premultication factor (global alpha for source)
);
HRESULT GetAlpha(
[in] DWORD dwStreamID,
[out] float* pAlpha
);
HRESULT SetZOrder(
[in] DWORD dwStreamID,
[in] DWORD dwZ
);
HRESULT GetZOrder(
[in] DWORD dwStreamID,
[out] DWORD* pZ
);
HRESULT SetOutputRect(
[in] DWORD dwStreamID,
[in] const NORMALIZEDRECT *pRect
);
HRESULT GetOutputRect(
[in] DWORD dwStreamID,
[out] NORMALIZEDRECT *pRect
);
HRESULT SetBackgroundClr(
[in] COLORREF ClrBkg
);
HRESULT GetBackgroundClr(
[in] COLORREF* lpClrBkg
);
HRESULT SetMixingPrefs(
[in] DWORD dwMixerPrefs // a combination of VMRMixingPrefFlags
);
HRESULT GetMixingPrefs(
[out] DWORD* pdwMixerPrefs
);
};
///////////////////////////////////////////////////////////////////////////////
//
// VMR Multimon configuration interface
//
///////////////////////////////////////////////////////////////////////////////
typedef struct tagVMRGUID {
GUID* pGUID; // is NULL if the default DDraw device
GUID GUID; // otherwise points to this GUID
} VMRGUID;
#define VMRDEVICENAMELEN 32
#define VMRDEVICEDESCRIPTIONLEN 256
typedef struct tagVMRMONITORINFO {
VMRGUID guid;
RECT rcMonitor;
HMONITOR hMon;
DWORD dwFlags; // described in MONITORINFOEX, currently only MONITORINFOF_PRIMARY
wchar_t szDevice[VMRDEVICENAMELEN];
wchar_t szDescription[VMRDEVICEDESCRIPTIONLEN];
LARGE_INTEGER liDriverVersion;
DWORD dwVendorId;
DWORD dwDeviceId;
DWORD dwSubSysId;
DWORD dwRevision;
// find out the DDCAPS using DDrawCreate on the monitor GUID
} VMRMONITORINFO;
[
object,
local,
uuid(9cf0b1b6-fbaa-4b7f-88cf-cf1f130a0dce),
helpstring("IVMRMonitorConfig Interface"),
pointer_default(unique)
]
interface IVMRMonitorConfig : IUnknown
{
// Use this method on a Multi-Monitor system to specify to the
// mixer filter which Direct Draw driver should be used when connecting
// to an upstream decoder filter.
//
HRESULT SetMonitor(
[in] const VMRGUID *pGUID
);
// Use this method to determine the direct draw object that will be used when
// connecting the mixer filter to an upstream decoder filter.
//
HRESULT GetMonitor(
[out] VMRGUID *pGUID
);
// Use this method on a multi-monitor system to specify to the
// mixer filter the default Direct Draw device to use when
// connecting to an upstream filter. The default direct draw device
// can be overriden for a particular connection by SetMonitor method
// described above.
//
HRESULT SetDefaultMonitor(
[in] const VMRGUID *pGUID
);
// Use this method on a multi-monitor system to determine which
// is the default direct draw device the overlay mixer filter
// will use when connecting to an upstream filter.
//
HRESULT GetDefaultMonitor(
[out] VMRGUID *pGUID
);
// Use this method to get a list of Direct Draw device GUIDs and thier
// associated monitor information that the mixer can use when
// connecting to an upstream decoder filter. Passing down a NULL pInfo
// parameter allows the app to determine the required array size (returned
// in pdwNumDevices). Otherwise, dwNumDevices returns the actual
// number of devices retrieved.
//
HRESULT GetAvailableMonitors(
[out, size_is(dwMaxInfoArraySize)] VMRMONITORINFO* pInfo,
[in] DWORD dwMaxInfoArraySize, // in array members
[out] DWORD* pdwNumDevices // actual number of devices retrieved
);
};
///////////////////////////////////////////////////////////////////////////////
//
// VMR Filter configuration interfaces
//
///////////////////////////////////////////////////////////////////////////////
typedef enum {
RenderPrefs_ForceOffscreen = 0x00000001,
RenderPrefs_ForceOverlays = 0x00000002, // fail if no overlays
RenderPrefs_AllowOverlays = 0x00000000, // overlay used by default
RenderPrefs_AllowOffscreen = 0x00000000, // offscreen used if no overlay
RenderPrefs_DoNotRenderColorKeyAndBorder = 0x00000008, // app paints color keys
RenderPrefs_RestrictToInitialMonitor = 0x00000010, // output only to initial monitor
RenderPrefs_PreferAGPMemWhenMixing = 0x00000020, // try agp mem when allocating textures
RenderPrefs_Mask = 0x0000003f, // OR of all above flags
} VMRRenderPrefs;
typedef enum {
VMRMode_Windowed = 0x00000001,
VMRMode_Windowless = 0x00000002,
VMRMode_Renderless = 0x00000004,
// not a valid value to pass to SetRenderMode
VMRMode_Mask = 0x00000007, // OR of all above flags
} VMRMode;
enum {
MAX_NUMBER_OF_STREAMS = 16
};
[
object,
local,
uuid(9e5530c5-7034-48b4-bb46-0b8a6efc8e36),
helpstring("IVMRFilterConfig Interface"),
pointer_default(unique)
]
interface IVMRFilterConfig : IUnknown
{
HRESULT SetImageCompositor(
[in] IVMRImageCompositor* lpVMRImgCompositor
);
HRESULT SetNumberOfStreams(
[in] DWORD dwMaxStreams
);
HRESULT GetNumberOfStreams(
[out] DWORD* pdwMaxStreams
);
HRESULT SetRenderingPrefs(
[in] DWORD dwRenderFlags // a combination of VMRRenderingPrefFlags
);
HRESULT GetRenderingPrefs(
[out] DWORD* pdwRenderFlags
);
HRESULT SetRenderingMode(
[in] DWORD Mode // a combination of VMRMode
);
HRESULT GetRenderingMode(
[out] DWORD* pMode
);
}
//=====================================================================
//
// IVMRMixerBitmap
//
//=====================================================================
typedef struct _VMRALPHABITMAP
{
DWORD dwFlags; // flags word
HDC hdc; // DC for the bitmap to copy
LPDIRECTDRAWSURFACE7 pDDS; // DirectDraw surface to copy
RECT rSrc; // rectangle to copy from the DC/DDS
NORMALIZEDRECT rDest; // output rectangle in composition space
FLOAT fAlpha; // opacity of the bitmap
COLORREF clrSrcKey; // src color key
} VMRALPHABITMAP, *PVMRALPHABITMAP;
// Disable the alpha bitmap for now
cpp_quote("#define VMRBITMAP_DISABLE 0x00000001")
// Take the bitmap from the HDC rather than the DirectDraw surface
cpp_quote("#define VMRBITMAP_HDC 0x00000002")
// Take the entire DDraw surface - rSrc is ignored
cpp_quote("#define VMRBITMAP_ENTIREDDS 0x00000004")
// Indicates that the clrTrans value is valid and should be
// used when blending
cpp_quote("#define VMRBITMAP_SRCCOLORKEY 0x00000008")
// Indicates that the rSrc rectangle is valid and specifies a
// sub-rectangle of the of original app image to be blended.
// Use of this parameter enables "Image Strips"
cpp_quote("#define VMRBITMAP_SRCRECT 0x00000010")
[
object,
local,
uuid(1E673275-0257-40aa-AF20-7C608D4A0428),
helpstring("IVMRMixerBitmap Interface"),
pointer_default(unique)
]
interface IVMRMixerBitmap : IUnknown
{
// Set bitmap, location to blend it, and blending value
HRESULT SetAlphaBitmap(
[in] const VMRALPHABITMAP *pBmpParms
);
// Change bitmap location, size and blending value,
// graph must be running for change to take effect.
HRESULT UpdateAlphaBitmapParameters(
[in] PVMRALPHABITMAP pBmpParms
);
// Get bitmap, location to blend it, and blending value
HRESULT GetAlphaBitmapParameters(
[out] PVMRALPHABITMAP pBmpParms
);
};
//=====================================================================
//
// IVMRImageCompositor
//
//=====================================================================
typedef struct _VMRVIDEOSTREAMINFO {
LPDIRECTDRAWSURFACE7 pddsVideoSurface;
DWORD dwWidth, dwHeight;
DWORD dwStrmID;
FLOAT fAlpha;
DDCOLORKEY ddClrKey;
NORMALIZEDRECT rNormal;
} VMRVIDEOSTREAMINFO;
[
local,
object,
local,
uuid(7a4fb5af-479f-4074-bb40-ce6722e43c82),
helpstring("IVMRImageCompositor Interface"),
pointer_default(unique)
]
interface IVMRImageCompositor : IUnknown
{
HRESULT InitCompositionTarget(
[in] IUnknown* pD3DDevice,
[in] LPDIRECTDRAWSURFACE7 pddsRenderTarget
);
HRESULT TermCompositionTarget(
[in] IUnknown* pD3DDevice,
[in] LPDIRECTDRAWSURFACE7 pddsRenderTarget
);
HRESULT SetStreamMediaType(
[in] DWORD dwStrmID,
[in] AM_MEDIA_TYPE* pmt,
[in] BOOL fTexture
);
HRESULT CompositeImage(
[in] IUnknown* pD3DDevice,
[in] LPDIRECTDRAWSURFACE7 pddsRenderTarget,
[in] AM_MEDIA_TYPE* pmtRenderTarget,
[in] REFERENCE_TIME rtStart,
[in] REFERENCE_TIME rtEnd,
[in] DWORD dwClrBkGnd,
[in] VMRVIDEOSTREAMINFO* pVideoStreamInfo,
[in] UINT cStreams
);
};
//=====================================================================
//
// IVMRVideoStreamControl
//
//=====================================================================
[
object,
local,
uuid(058d1f11-2a54-4bef-bd54-df706626b727),
helpstring("IVMRMixerStreamConfig Interface"),
pointer_default(unique)
]
interface IVMRVideoStreamControl: IUnknown
{
HRESULT SetColorKey(
[in] LPDDCOLORKEY lpClrKey // Source color key, set to 0xFFFFFFFF to disable
);
HRESULT GetColorKey(
[out] LPDDCOLORKEY lpClrKey
);
HRESULT SetStreamActiveState(
[in] BOOL fActive
);
HRESULT GetStreamActiveState(
[out] BOOL* lpfActive
);
};
//=====================================================================
//
// IVMRSurface
//
//=====================================================================
[
local,
object,
local,
uuid(a9849bbe-9ec8-4263-b764-62730f0d15d0),
helpstring("IVMRSurface Interface"),
pointer_default(unique)
]
interface IVMRSurface : IUnknown
{
HRESULT IsSurfaceLocked();
HRESULT LockSurface(
[out] BYTE** lpSurface
);
HRESULT UnlockSurface();
HRESULT GetSurface(
[out] LPDIRECTDRAWSURFACE7 *lplpSurface
);
};
//=====================================================================
//
// IID_IVMRImagePresenterConfig - this interface allows applications
// to configure the default Microsoft provided allocator-presenter
// inorder to simplify the implementation of their own
// allocator-presenter plug-in.
//
//=====================================================================
[
local,
object,
local,
uuid(9f3a1c85-8555-49ba-935f-be5b5b29d178),
helpstring("IVMRImagePresenterConfig Interface"),
pointer_default(unique)
]
interface IVMRImagePresenterConfig : IUnknown
{
HRESULT SetRenderingPrefs(
[in] DWORD dwRenderFlags // see VMRRenderPrefs for valid flags
);
HRESULT GetRenderingPrefs(
[out] DWORD* dwRenderFlags // see VMRRenderPrefs for valid flags
);
}
//=====================================================================
//
// IID_IVMRImagePresenterExclModeConfig - this interface allows applications
// to configure the DDraw exclusive mode allocator-presenter. This
// interface extends the IVMRImagePresenterConfig interface defined
// above and is only implemented by the CLSID_AllocPresenterDDXclMode
// allocator-presenter object.
//
//=====================================================================
[
local,
object,
local,
uuid(e6f7ce40-4673-44f1-8f77-5499d68cb4ea),
helpstring("IVMRImagePresenterExclModeConfig Interface"),
pointer_default(unique)
]
interface IVMRImagePresenterExclModeConfig : IVMRImagePresenterConfig
{
HRESULT SetXlcModeDDObjAndPrimarySurface(
[in] LPDIRECTDRAW7 lpDDObj,
[in] LPDIRECTDRAWSURFACE7 lpPrimarySurf
);
HRESULT GetXlcModeDDObjAndPrimarySurface(
[out] LPDIRECTDRAW7* lpDDObj,
[out] LPDIRECTDRAWSURFACE7* lpPrimarySurf
);
}
//=====================================================================
//
// IVPManager
//
//=====================================================================
[
local,
object,
local,
uuid(aac18c18-e186-46d2-825d-a1f8dc8e395a),
helpstring("IVPManager Interface"),
pointer_default(unique)
]
interface IVPManager : IUnknown
{
// Use this method on a Multi-Monitor system to specify to the
// video port manager filter which videoport index is used
// to an upstream decoder filter.
//
HRESULT SetVideoPortIndex(
[in] DWORD dwVideoPortIndex // the video port number that this is connected to
);
// This method returns the current video port index being used by the VPM.
//
HRESULT GetVideoPortIndex(
[out] DWORD* pdwVideoPortIndex // the video port number that this is connected to
);
};

336
extern/include/DShowIDL/amstream.idl vendored
View File

@ -1,336 +0,0 @@
//------------------------------------------------------------------------------
// File: AMStream.idl
//
// Desc:
//
// Copyright (c) 1998-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
import "unknwn.idl";
import "mmstream.idl";
import "strmif.idl";
cpp_quote("#include <ddraw.h>")
cpp_quote("#include <mmsystem.h>")
cpp_quote("#include <mmstream.h>")
cpp_quote("#include <ddstream.h>")
cpp_quote("#include <austream.h>")
interface IAMMultiMediaStream;
interface IAMMediaStream;
interface IMediaStreamFilter;
interface IDirectDraw;
interface IDirectDrawSurface;
interface IAMMediaTypeStream;
interface IAMMediaTypeSample;
// Flags definitions for IAMMultiMediaStream::Initialize
enum {
AMMSF_NOGRAPHTHREAD = 0x00000001
};
// Flags definitions for AddMediaStream and IAMMediaStream::Initialize
enum {
// Don't add a stream - create a default renderer instead
// for the supplied purpose id
AMMSF_ADDDEFAULTRENDERER = 0x00000001,
AMMSF_CREATEPEER = 0x00000002,
// If no samples are created when we run or the last sample
// is deleted then terminate this stream
AMMSF_STOPIFNOSAMPLES = 0x00000004,
// If Update is not called keep going
AMMSF_NOSTALL = 0x00000008
};
// Flag definitions for OpenFile and OpenMoniker
enum {
AMMSF_RENDERTYPEMASK = 0x00000003,
AMMSF_RENDERTOEXISTING = 0x00000000,
AMMSF_RENDERALLSTREAMS = 0x00000001,
AMMSF_NORENDER = 0x00000002,
AMMSF_NOCLOCK = 0x00000004,
AMMSF_RUN = 0x00000008
};
typedef [v1_enum] enum {
Disabled = 0,
ReadData = 1,
RenderData = 2
} OUTPUT_STATE;
[
object,
uuid(7DB01C96-C0C3-11d0-8FF1-00C04FD9189D),
dual,
helpstring("IDirectShowStream Interface"),
pointer_default(unique)
]
interface IDirectShowStream : IDispatch
{
[propget, id(1), helpstring("property FileName")] HRESULT FileName([out, retval] BSTR *pVal);
[propput, id(1), helpstring("property FileName")] HRESULT FileName([in] BSTR newVal);
[propget, id(2), helpstring("property Video")] HRESULT Video([out, retval] OUTPUT_STATE *pVal);
[propput, id(2), helpstring("propetry Video")] HRESULT Video([in] OUTPUT_STATE newVal);
[propget, id(3), helpstring("property Audio")] HRESULT Audio([out, retval] OUTPUT_STATE *pVal);
[propput, id(3), helpstring("propetry Audio")] HRESULT Audio([in] OUTPUT_STATE newVal);
};
// IAMMultiMediaStream interface
[
object,
uuid(BEBE595C-9A6F-11d0-8FDE-00C04FD9189D),
pointer_default(unique)
]
interface IAMMultiMediaStream : IMultiMediaStream
{
HRESULT Initialize(
[in] STREAM_TYPE StreamType,
[in] DWORD dwFlags,
[in] IGraphBuilder *pFilterGraph);
HRESULT GetFilterGraph(
[out] IGraphBuilder **ppGraphBuilder);
HRESULT GetFilter(
[out] IMediaStreamFilter **ppFilter);
HRESULT AddMediaStream(
[in] IUnknown *pStreamObject,
[in] const MSPID *PurposeId,
[in] DWORD dwFlags,
[out] IMediaStream **ppNewStream);
HRESULT OpenFile(
[in] LPCWSTR pszFileName,
[in] DWORD dwFlags);
HRESULT OpenMoniker(
[in] IBindCtx *pCtx,
[in] IMoniker *pMoniker,
[in] DWORD dwFlags);
HRESULT Render(
[in] DWORD dwFlags);
}
// IAMMediaStream interface
[
object,
uuid(BEBE595D-9A6F-11d0-8FDE-00C04FD9189D),
pointer_default(unique)
]
interface IAMMediaStream : IMediaStream
{
HRESULT Initialize(
[in] IUnknown *pSourceObject,
[in] DWORD dwFlags,
[in] REFMSPID PurposeId,
[in] const STREAM_TYPE StreamType);
HRESULT SetState(
[in] FILTER_STATE State);
HRESULT JoinAMMultiMediaStream(
[in] IAMMultiMediaStream *pAMMultiMediaStream);
HRESULT JoinFilter(
[in] IMediaStreamFilter *pMediaStreamFilter);
HRESULT JoinFilterGraph(
[in] IFilterGraph *pFilterGraph);
};
// IMediaStreamFilter interface
[
object,
local,
uuid(BEBE595E-9A6F-11d0-8FDE-00C04FD9189D),
pointer_default(unique)
]
interface IMediaStreamFilter : IBaseFilter
{
HRESULT AddMediaStream(
[in] IAMMediaStream *pAMMediaStream);
HRESULT GetMediaStream(
[in] REFMSPID idPurpose,
[out] IMediaStream **ppMediaStream);
HRESULT EnumMediaStreams(
[in] long Index,
[out] IMediaStream **ppMediaStream);
HRESULT SupportSeeking(
[in] BOOL bRenderer);
HRESULT ReferenceTimeToStreamTime(
[in] [out] REFERENCE_TIME *pTime);
HRESULT GetCurrentStreamTime(
[out] REFERENCE_TIME *pCurrentStreamTime);
HRESULT WaitUntil(
[in] REFERENCE_TIME WaitStreamTime);
HRESULT Flush(
[in] BOOL bCancelEOS);
HRESULT EndOfStream();
};
[
object,
local,
uuid(AB6B4AFC-F6E4-11d0-900D-00C04FD9189D),
pointer_default(unique)
]
interface IDirectDrawMediaSampleAllocator : IUnknown
{
HRESULT GetDirectDraw(IDirectDraw **ppDirectDraw);
};
[
object,
local,
uuid(AB6B4AFE-F6E4-11d0-900D-00C04FD9189D),
pointer_default(unique)
]
interface IDirectDrawMediaSample : IUnknown
{
HRESULT GetSurfaceAndReleaseLock(
[out] IDirectDrawSurface **ppDirectDrawSurface,
[out] RECT * pRect);
HRESULT LockMediaSamplePointer(void);
};
[
object,
local,
uuid(AB6B4AFA-F6E4-11d0-900D-00C04FD9189D),
pointer_default(unique)
]
interface IAMMediaTypeStream : IMediaStream
{
HRESULT GetFormat(
[out] AM_MEDIA_TYPE * pMediaType,
[in] DWORD dwFlags);
HRESULT SetFormat(
[in] AM_MEDIA_TYPE * pMediaType,
[in] DWORD dwFlags);
HRESULT CreateSample(
[in] long lSampleSize,
[in] BYTE * pbBuffer,
[in] DWORD dwFlags,
[in] IUnknown *pUnkOuter,
[out] IAMMediaTypeSample ** ppAMMediaTypeSample);
HRESULT GetStreamAllocatorRequirements(
[out] ALLOCATOR_PROPERTIES *pProps);
HRESULT SetStreamAllocatorRequirements(
[in] ALLOCATOR_PROPERTIES *pProps);
};
[
object,
local,
uuid(AB6B4AFB-F6E4-11d0-900D-00C04FD9189D),
pointer_default(unique)
]
interface IAMMediaTypeSample : IStreamSample
{
//
// Unique methods for IAMMediaTypeSample
//
HRESULT SetPointer([in] BYTE *pBuffer, [in] long lSize);
//
// Mirror of IMediaSample
//
HRESULT GetPointer([out] BYTE ** ppBuffer);
long GetSize(void);
HRESULT GetTime([out] REFERENCE_TIME * pTimeStart, [out] REFERENCE_TIME * pTimeEnd);
HRESULT SetTime([in] REFERENCE_TIME * pTimeStart, [in] REFERENCE_TIME * pTimeEnd);
HRESULT IsSyncPoint(void);
HRESULT SetSyncPoint(BOOL bIsSyncPoint);
HRESULT IsPreroll(void);
HRESULT SetPreroll(BOOL bIsPreroll);
long GetActualDataLength(void);
HRESULT SetActualDataLength(long);
HRESULT GetMediaType(AM_MEDIA_TYPE **ppMediaType);
HRESULT SetMediaType(AM_MEDIA_TYPE *pMediaType);
HRESULT IsDiscontinuity(void);
HRESULT SetDiscontinuity(BOOL bDiscontinuity);
HRESULT GetMediaTime([out] LONGLONG * pTimeStart, [out] LONGLONG * pTimeEnd);
HRESULT SetMediaTime([in] LONGLONG * pTimeStart, [in] LONGLONG * pTimeEnd);
};
[
uuid(4E6CDE29-C0C4-11d0-8FF1-00C04FD9189D),
version(1.0),
helpstring("DirectShowStream 1.0 Type Library")
]
library DirectShowStreamLib
{
importlib("stdole32.tlb");
importlib("stdole2.tlb");
[
uuid(49c47ce5-9ba4-11d0-8212-00c04fc32c45),
helpstring("DirectShow Multi Media Stream")
]
coclass AMMultiMediaStream
{
[default] dispinterface IDirectShowStream;
};
};
//
// The MIDL compiler wants to produce a CLSID for everything defined in
// our type library, but it also wants to generate huge proxy code,
// so we use DEFINE_GUID for all other classes. It has another interesting
// bug in that it defines CLSID_AMMultiMediaStream within a #ifdef __cplusplus
// block, so we need to define it outside of that scope.
//
cpp_quote("#ifndef __cplusplus")
cpp_quote("EXTERN_C const CLSID CLSID_AMMultiMediaStream;")
cpp_quote("#endif")
cpp_quote("DEFINE_GUID(CLSID_AMDirectDrawStream, /* 49c47ce4-9ba4-11d0-8212-00c04fc32c45 */")
cpp_quote("0x49c47ce4, 0x9ba4, 0x11d0, 0x82, 0x12, 0x00, 0xc0, 0x4f, 0xc3, 0x2c, 0x45);")
cpp_quote("DEFINE_GUID(CLSID_AMAudioStream, /* 8496e040-af4c-11d0-8212-00c04fc32c45 */")
cpp_quote("0x8496e040, 0xaf4c, 0x11d0, 0x82, 0x12, 0x00, 0xc0, 0x4f, 0xc3, 0x2c, 0x45);")
cpp_quote("DEFINE_GUID(CLSID_AMAudioData, /* f2468580-af8a-11d0-8212-00c04fc32c45 */")
cpp_quote("0xf2468580, 0xaf8a, 0x11d0, 0x82, 0x12, 0x00, 0xc0, 0x4f, 0xc3, 0x2c, 0x45);")
cpp_quote("DEFINE_GUID(CLSID_AMMediaTypeStream, /* CF0F2F7C-F7BF-11d0-900D-00C04FD9189D */")
cpp_quote("0xcf0f2f7c, 0xf7bf, 0x11d0, 0x90, 0xd, 0x0, 0xc0, 0x4f, 0xd9, 0x18, 0x9d);")

170
extern/include/DShowIDL/amvpe.idl vendored
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@ -1,170 +0,0 @@
//------------------------------------------------------------------------------
// File: AMVPE.idl
//
// Desc:
//
// Copyright (c) 1992-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
import "unknwn.idl";
import "objidl.idl"; // for IPersist (IFilter's root)
/*
* VIDOESIGNALINFO
*/
typedef struct _VIDEOSIGNALINFO
{
DWORD dwSize; // Size of the structure
DWORD dwVREFHeight; // Specifies the number of lines of data in the vref
BOOL bDoubleClock; // videoport should enable double clocking
BOOL bVACT; // videoport should use an external VACT signal
BOOL bInterlaced; // Indicates that the signal is interlaced
BOOL bHalfline; // Device will write half lines into the frame buffer
BOOL bInvertedPolarity; // Devoce inverts the polarity by default
} AMVIDEOSIGNALINFO;
typedef struct AMVIDEOSIGNALINFO *LPAMVIDEOSIGNALINFO;
interface IVPEConfig;
interface IVPE;
/*
* DDVIDEOPORTCONNECT
*/
typedef struct _DDVIDEOPORTCONNECT
{
DWORD dwSize; // size of the DDVIDEOPORTCONNECT structure
GUID guidTypeID; // Description of video port connection
DWORD dwPortWidth; // Width of the video port
DWORD dwFlags; // Connection flags
} DDVIDEOPORTCONNECT;
typedef DDVIDEOPORTCONNECT *LPDDVIDEOPORTCONNECT;
/*
* DDPIXELFORMAT
*/
typedef struct _DDPIXELFORMAT
{
DWORD dwSize; // size of structure
DWORD dwFlags; // pixel format flags
DWORD dwFourCC; // (FOURCC code)
union
{
DWORD dwRGBBitCount; // how many bits per pixel (BD_1,2,4,8,16,24,32)
DWORD dwYUVBitCount; // how many bits per pixel (BD_4,8,16,24,32)
DWORD dwZBufferBitDepth; // how many bits for z buffers (BD_8,16,24,32)
DWORD dwAlphaBitDepth; // how many bits for alpha channels (BD_1,2,4,8)
};
union
{
DWORD dwRBitMask; // mask for red bit
DWORD dwYBitMask; // mask for Y bits
};
union
{
DWORD dwGBitMask; // mask for green bits
DWORD dwUBitMask; // mask for U bits
};
union
{
DWORD dwBBitMask; // mask for blue bits
DWORD dwVBitMask; // mask for V bits
};
union
{
DWORD dwRGBAlphaBitMask; // mask for alpha channel
DWORD dwYUVAlphaBitMask; // mask for alpha channel
DWORD dwRGBZBitMask; // mask for Z channel
DWORD dwYUVZBitMask; // mask for Z channel
};
} DDPIXELFORMAT;
typedef DDPIXELFORMAT * LPDDPIXELFORMAT;
[
object,
uuid(BC29A660-30E3-11d0-9E69-00C04FD7C15B),
pointer_default(unique)
]
interface IVPEConfig : IUnknown {
// gets the various connection information structures (guid, portwidth)
// in an array of structures. If the pointer to the array is NULL, first
// parameter returns the total number of formats supported.
HRESULT GetConnectInfo(
[in,out] LPDWORD lpNumConnectInfo,
[out] LPDDVIDEOPORTCONNECT lpddvpConnectInfo
);
HRESULT SetConnectInfo(
[in] DDVIDEOPORTCONNECT ddvpConnectInfo
);
// gets the various formats supported by the decoder in an array
// of structures. If the pointer to the array is NULL, first parameter
// returns the total number of formats supported.
HRESULT GetVideoFormats(
[in,out] LPDWORD lpNumFormats,
[out] LPDDPIXELFORMAT lpddpfFormats
);
// retrives maximum pixels per second rate expected for a given
// format and a given scaling factor. If decoder does not support
// those scaling factors, then it gives the rate and the nearest
// scaling factors.
HRESULT GetMaxPixelRate(
[in] DDPIXELFORMAT ddpfFormat,
[in,out] LPDWORD lpdwZoomHeight,
[in,out] LPDWORD lpdwZoomWidth,
[out] LPDWORD lpdwMaxPixelsPerSecond
);
// retrives various properties of the decoder for a given format
HRESULT GetVideoSignalInfo(
[in] DDPIXELFORMAT ddpfFormat,
[out] LPAMVIDEOSIGNALINFO lpAMVideoSignalInfo
);
// asks the decoder to ouput in this format. Return value should give
// appropriate error code
HRESULT SetVideoFormat(
[in] DDPIXELFORMAT ddpfFormat
);
// asks the decoder to treat even fields like odd fields and visa versa
HRESULT SetInvertPolarity(
);
// sets the scaling factors. If decoder does not support these,
// then it sets the values to the nearest factors it can support
HRESULT SetScalingFactors(
[in,out] LPDWORD lpdwZoomHeight,
[in,out] LPDWORD lpdwZoomWidth
);
}
[
object,
uuid(BC29A661-30E3-11d0-9E69-00C04FD7C15B),
pointer_default(unique)
]
interface IVPE : IUnknown {
HRESULT SetOverlaySurface(
[in] LPUNKNOWN lpOverlaySurface,
[in] INT iNumBackBuffers
);
}

106
extern/include/DShowIDL/austream.idl vendored
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@ -1,106 +0,0 @@
//------------------------------------------------------------------------------
// File: AuStream.idl
//
// Desc: Used by MIDL tool to generate austream.h
//
// Copyright (c) 1998-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
import "unknwn.idl";
import "mmstream.idl";
cpp_quote("//")
cpp_quote("// The following declarations within the 'if 0' block are dummy typedefs used to make")
cpp_quote("// the ddstream.idl file build. The actual definitions are contained in DDRAW.H")
cpp_quote("//")
cpp_quote("#if 0")
typedef struct tWAVEFORMATEX WAVEFORMATEX;
cpp_quote ("#endif")
interface IAudioMediaStream;
interface IAudioStreamSample;
interface IMemoryData;
interface IAudioData;
// IAudioMediaStream
[
object,
local,
uuid(f7537560-a3be-11d0-8212-00c04fc32c45),
pointer_default(unique)
]
interface IAudioMediaStream : IMediaStream
{
HRESULT GetFormat(
[out] WAVEFORMATEX *pWaveFormatCurrent
);
HRESULT SetFormat(
[in] const WAVEFORMATEX *lpWaveFormat);
HRESULT CreateSample(
[in] IAudioData *pAudioData,
[in] DWORD dwFlags,
[out] IAudioStreamSample **ppSample
);
}
[
object,
local,
uuid(345fee00-aba5-11d0-8212-00c04fc32c45),
pointer_default(unique)
]
interface IAudioStreamSample : IStreamSample
{
HRESULT GetAudioData(
[out] IAudioData **ppAudio
);
}
[
object,
local,
uuid(327fc560-af60-11d0-8212-00c04fc32c45),
pointer_default(unique)
]
interface IMemoryData : IUnknown
{
HRESULT SetBuffer(
[in] DWORD cbSize,
[in] BYTE *pbData,
[in] DWORD dwFlags
);
HRESULT GetInfo(
[out] DWORD *pdwLength,
[out] BYTE **ppbData,
[out] DWORD *pcbActualData
);
HRESULT SetActual(
[in] DWORD cbDataValid
);
}
[
object,
local,
uuid(54c719c0-af60-11d0-8212-00c04fc32c45),
pointer_default(unique)
]
interface IAudioData : IMemoryData
{
HRESULT GetFormat(
[out] WAVEFORMATEX *pWaveFormatCurrent
);
HRESULT SetFormat(
[in] const WAVEFORMATEX *lpWaveFormat
);
}

1284
extern/include/DShowIDL/axcore.idl vendored
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File diff suppressed because it is too large Load Diff

9423
extern/include/DShowIDL/axextend.idl vendored
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File diff suppressed because it is too large Load Diff

1744
extern/include/DShowIDL/bdaiface.idl vendored
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File diff suppressed because it is too large Load Diff

909
extern/include/DShowIDL/control.odl vendored
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@ -1,909 +0,0 @@
//------------------------------------------------------------------------------
// File: Control.odl
//
// Desc:
//
// Copyright (c) 1999-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
// Neutral/English language type library for basic Quartz control interfaces
// the quartz type library defines the basic control interfaces
[
uuid(56a868b0-0ad4-11ce-b03a-0020af0ba770),
helpstring("ActiveMovie control type library"),
lcid(0x0000),
version(1.0)
]
library QuartzTypeLib
{
importlib("STDOLE32.TLB");
// types are restricted to be automation-compatible
typedef double REFTIME; // ReferenceTime
typedef LONG_PTR OAEVENT; // should be a HANDLE
typedef LONG_PTR OAHWND; // should be an hwnd
// from strmif.idl
typedef long OAFilterState;
// collection interface - represents a collection of IUnknowns
// this is used below to collect filter-info objects, registry-filters
// pin-info objects and wrapped media type objects
[
uuid(56a868b9-0ad4-11ce-b03a-0020af0ba770),
helpstring("Collection"),
odl,
oleautomation,
dual
]
interface IAMCollection : IDispatch
{
// number of items in collection
[propget]
HRESULT Count(
[out, retval] LONG* plCount);
// return IUnknown for contained item by index
HRESULT Item(
[in] long lItem,
[out] IUnknown** ppUnk);
// return IUnknown for an object that implements IEnumVARIANT on
// this collection
[propget]
HRESULT _NewEnum(
[out, retval] IUnknown** ppUnk);
}
// core control providing state control
[
uuid(56a868b1-0ad4-11ce-b03a-0020af0ba770),
helpstring("IMediaControl interface"),
odl,
oleautomation,
dual
]
interface IMediaControl : IDispatch
{
// methods
HRESULT Run();
HRESULT Pause();
HRESULT Stop();
//returns the state. same semantics as IMediaFilter::GetState
HRESULT GetState(
[in] LONG msTimeout,
[out] OAFilterState* pfs);
// adds and connects filters needed to play the specified file
// (same as IFilterGraph::RenderFile)
HRESULT RenderFile(
[in] BSTR strFilename);
// adds to the graph the source filter that can read this file,
// and returns an IFilterInfo object for it (actually returns
// an IDispatch for the IFilterInfo object).
HRESULT AddSourceFilter(
[in] BSTR strFilename,
[out] IDispatch**ppUnk);
// get a collection of IFilterInfo objects representing the
// filters in the graph (returns IDispatch for an object
// that supports IAMCollection
[propget]
HRESULT FilterCollection(
[out, retval] IDispatch** ppUnk);
// get a collection of IRegFilter objects representing the
// filters available in the registry
[propget]
HRESULT RegFilterCollection(
[out, retval] IDispatch** ppUnk);
HRESULT StopWhenReady();
}
// provides an event notification scheme passing events
// asynchronously to applications. See also IMediaEventSink in
// strmif.idl and sdk\h\evcodes.h.
//
// this interface behaves as if events are held on a queue. A call to
// IMediaEventSink::Notify will place an event on this queue. Calling
// GetEvent removes the first item off the queue and returns it. Items are
// returned in the order they were queued (there is no priority scheme).
// The event handle is in a signalled state iff the queue is non-empty.
//
// Apps that issue multiple Run calls without always picking up the
// completion events are advised to call GetEvent or WaitForCompletion
// (with a 0 timeout) repeatedly to remove all events from the queue
// when in stopped or paused state before each Run method.
//
// Parameters to events are actually LONG, IUnknown* or BSTR. You need to
// look at evcode.h for details of parameters to a specific event code.
// In order to correctly free resources, always call FreeEventParams
// after receiving an event.
//
[
uuid(56a868b6-0ad4-11ce-b03a-0020af0ba770),
helpstring("IMediaEvent interface"),
odl,
oleautomation,
dual
]
interface IMediaEvent : IDispatch
{
// get back the event handle. This is manual-reset
// (don't - it's reset by the event mechanism) and remains set
// when events are queued, and reset when the queue is empty.
HRESULT GetEventHandle(
[out] OAEVENT * hEvent);
// remove the next event notification from the head of the queue and
// return it. Waits up to msTimeout millisecs if there are no events.
// if a timeout occurs without any events, this method will return
// E_ABORT, and the value of the event code and other parameters
// is undefined.
//
// If this call returns successfully the caller MUST call
// FreeEventParams(lEventCode, lParam1, lParam2) to release
// resources held inside the event arguments
//
HRESULT GetEvent(
[out] long * lEventCode,
[out] LONG_PTR * lParam1,
[out] LONG_PTR * lParam2,
[in] long msTimeout
);
// Calls GetEvent repeatedly discarding events until it finds a
// completion event (EC_COMPLETE, EC_ERRORABORT, or EC_USERABORT).
// The completion event is removed from the queue and returned
// in pEvCode. Note that the object is still in running mode until
// a Pause or Stop call is made.
// If the timeout occurs, *pEvCode will be 0 and E_ABORT will be
// returned.
HRESULT WaitForCompletion(
[in] long msTimeout,
[out] long * pEvCode);
// cancels any system handling of the specified event code
// and ensures that the events are passed straight to the application
// (via GetEvent) and not handled. A good example of this is
// EC_REPAINT: default handling for this ensures the painting of the
// window and does not get posted to the app.
HRESULT CancelDefaultHandling(
[in] long lEvCode);
// restore the normal system default handling that may have been
// cancelled by CancelDefaultHandling().
HRESULT RestoreDefaultHandling( [in] long lEvCode);
// Free any resources associated with the parameters to an event.
// Event parameters may be LONGs, IUnknown* or BSTR. No action
// is taken with LONGs. IUnknown are passed addrefed and need a
// Release call. BSTR are allocated by the task allocator and will be
// freed by calling the task allocator.
HRESULT FreeEventParams(
[in] long lEvCode,
[in] LONG_PTR lParam1,
[in] LONG_PTR lParam2
);
}
[
uuid(56a868c0-0ad4-11ce-b03a-0020af0ba770),
helpstring("IMediaEventEx interface"),
odl
]
interface IMediaEventEx : IMediaEvent
{
// Register a window to send messages to when events occur
// Parameters:
//
// hwnd - handle of window to notify -
// pass NULL to stop notification
// lMsg - Message id to pass messages with
// lInstanceData - will come back in lParam
//
// The event information must still be retrived by a call
// to GetEvent when the window message is received.
//
// Multiple events may be notified with one window message.
//
HRESULT SetNotifyWindow(
[in] OAHWND hwnd,
[in] long lMsg,
[in] LONG_PTR lInstanceData
);
// Turn events notification on or off
// lNoNotify = 0x00 event notification is ON
// lNoNotify = 0x01 event notification is OFF. The
// handle returned by GetEventHandle will be signalled at
// end of stream
HRESULT SetNotifyFlags(
[in] long lNoNotifyFlags
);
HRESULT GetNotifyFlags(
[out] long *lplNoNotifyFlags
);
}
// seek/cueing for positional media
[
uuid(56a868b2-0ad4-11ce-b03a-0020af0ba770),
helpstring("IMediaPosition interface"),
odl,
oleautomation,
dual
]
interface IMediaPosition : IDispatch
{
// properties
[propget]
HRESULT Duration(
[out, retval] REFTIME* plength);
[propput]
HRESULT CurrentPosition(
[in] REFTIME llTime);
[propget]
HRESULT CurrentPosition(
[out, retval] REFTIME* pllTime);
[propget]
HRESULT StopTime(
[out, retval] REFTIME* pllTime);
[propput]
HRESULT StopTime(
[in] REFTIME llTime);
[propget]
HRESULT PrerollTime(
[out, retval] REFTIME* pllTime);
[propput]
HRESULT PrerollTime(
[in] REFTIME llTime);
[propput]
HRESULT Rate(
[in] double dRate);
[propget]
HRESULT Rate(
[out, retval] double * pdRate);
HRESULT CanSeekForward([out, retval] LONG *pCanSeekForward);
HRESULT CanSeekBackward([out, retval] LONG *pCanSeekBackward);
}
// basic audio-related functionality
[
uuid(56a868b3-0ad4-11ce-b03a-0020af0ba770),
helpstring("IBasicAudio interface"),
odl,
oleautomation,
dual
]
interface IBasicAudio : IDispatch
{
// properties
[propput]
HRESULT Volume(
[in] long lVolume);
[propget]
HRESULT Volume(
[out, retval] long * plVolume);
[propput]
HRESULT Balance(
[in] long lBalance);
[propget]
HRESULT Balance(
[out, retval] long * plBalance);
}
// basic window-related functionality
[
uuid(56a868b4-0ad4-11ce-b03a-0020af0ba770),
helpstring("IVideoWindow interface"),
odl,
oleautomation,
dual
]
interface IVideoWindow : IDispatch
{
// properties
// set and get the window title caption
[propput]
HRESULT Caption([in] BSTR strCaption);
[propget]
HRESULT Caption([out, retval] BSTR *strCaption);
// change the window styles (as per Win32)
[propput]
HRESULT WindowStyle([in] long WindowStyle);
[propget]
HRESULT WindowStyle([out, retval] long *WindowStyle);
// change the extended window styles (as per Win32)
[propput]
HRESULT WindowStyleEx([in] long WindowStyleEx);
[propget]
HRESULT WindowStyleEx([out, retval] long *WindowStyleEx);
[propput]
HRESULT AutoShow([in] long AutoShow);
[propget]
HRESULT AutoShow([out, retval] long *AutoShow);
// change the window state (as per Win32)
[propput]
HRESULT WindowState([in] long WindowState);
[propget]
HRESULT WindowState([out, retval] long *WindowState);
// realise the palette in the background
[propput]
HRESULT BackgroundPalette([in] long BackgroundPalette);
[propget]
HRESULT BackgroundPalette([out, retval] long *pBackgroundPalette);
// affect the visibility of the window
[propput]
HRESULT Visible([in] long Visible);
[propget]
HRESULT Visible([out, retval] long *pVisible);
// change the desktop position of the video window
[propput]
HRESULT Left([in] long Left);
[propget]
HRESULT Left([out, retval] long *pLeft);
[propput]
HRESULT Width([in] long Width);
[propget]
HRESULT Width([out, retval] long *pWidth);
[propput]
HRESULT Top([in] long Top);
[propget]
HRESULT Top([out, retval] long *pTop);
[propput]
HRESULT Height([in] long Height);
[propget]
HRESULT Height([out, retval] long *pHeight);
// change the owning window of the video
[propput]
HRESULT Owner([in] OAHWND Owner);
[propget]
HRESULT Owner([out, retval] OAHWND *Owner);
// change the window to receive posted messages
[propput]
HRESULT MessageDrain([in] OAHWND Drain);
[propget]
HRESULT MessageDrain([out, retval] OAHWND *Drain);
[propget]
HRESULT BorderColor([out, retval] long *Color);
[propput]
HRESULT BorderColor([in] long Color);
[propget]
HRESULT FullScreenMode([out, retval] long *FullScreenMode);
[propput]
HRESULT FullScreenMode([in] long FullScreenMode);
// methods
// ask the renderer to grab it's window the foreground
// and optionally also give the window the input focus
HRESULT SetWindowForeground([in] long Focus);
// owners should pass WM_PALETTECHANGED and WM_SYSCOLORCHANGE
// messages on the filter graph so they can be distributed
// otherwise child renderers never see these messages go by
HRESULT NotifyOwnerMessage([in] OAHWND hwnd,
[in] long uMsg,
[in] LONG_PTR wParam,
[in] LONG_PTR lParam
);
// get and set the window position on the desktop
HRESULT SetWindowPosition([in] long Left,
[in] long Top,
[in] long Width,
[in] long Height);
HRESULT GetWindowPosition([out] long *pLeft,
[out] long *pTop,
[out] long *pWidth,
[out] long *pHeight);
// get the ideal sizes for the video image playback (client) area
HRESULT GetMinIdealImageSize([out] long *pWidth,[out] long *pHeight);
HRESULT GetMaxIdealImageSize([out] long *pWidth,[out] long *pHeight);
// get the restored window size when we're maximised or iconic
HRESULT GetRestorePosition([out] long *pLeft,
[out] long *pTop,
[out] long *pWidth,
[out] long *pHeight);
// show and hide cursors useful when fullscreen
HRESULT HideCursor([in] long HideCursor);
HRESULT IsCursorHidden([out] long *CursorHidden);
}
// basic video-related functionality
[
uuid(56a868b5-0ad4-11ce-b03a-0020af0ba770),
helpstring("IBasicVideo interface"),
odl,
oleautomation,
dual
]
interface IBasicVideo : IDispatch
{
// properties
// Video specific (approximate) bit and frame rates
[propget]
HRESULT AvgTimePerFrame([out, retval] REFTIME *pAvgTimePerFrame);
[propget]
HRESULT BitRate([out, retval] long *pBitRate);
[propget]
HRESULT BitErrorRate([out, retval] long *pBitErrorRate);
// read the native video size
[propget]
HRESULT VideoWidth([out, retval] long *pVideoWidth);
[propget]
HRESULT VideoHeight([out, retval] long *pVideoHeight);
// change the source rectangle for the video
[propput]
HRESULT SourceLeft([in] long SourceLeft);
[propget]
HRESULT SourceLeft([out, retval] long *pSourceLeft);
[propput]
HRESULT SourceWidth([in] long SourceWidth);
[propget]
HRESULT SourceWidth([out, retval] long *pSourceWidth);
[propput]
HRESULT SourceTop([in] long SourceTop);
[propget]
HRESULT SourceTop([out, retval] long *pSourceTop);
[propput]
HRESULT SourceHeight([in] long SourceHeight);
[propget]
HRESULT SourceHeight([out, retval] long *pSourceHeight);
// change the destination rectangle for the video
[propput]
HRESULT DestinationLeft([in] long DestinationLeft);
[propget]
HRESULT DestinationLeft([out, retval] long *pDestinationLeft);
[propput]
HRESULT DestinationWidth([in] long DestinationWidth);
[propget]
HRESULT DestinationWidth([out, retval] long *pDestinationWidth);
[propput]
HRESULT DestinationTop([in] long DestinationTop);
[propget]
HRESULT DestinationTop([out, retval] long *pDestinationTop);
[propput]
HRESULT DestinationHeight([in] long DestinationHeight);
[propget]
HRESULT DestinationHeight([out, retval] long *pDestinationHeight);
// methods
// get and set the source rectangle position
HRESULT SetSourcePosition([in] long Left,
[in] long Top,
[in] long Width,
[in] long Height);
HRESULT GetSourcePosition([out] long *pLeft,
[out] long *pTop,
[out] long *pWidth,
[out] long *pHeight);
HRESULT SetDefaultSourcePosition();
// get and set the destination rectangle position
HRESULT SetDestinationPosition([in] long Left,
[in] long Top,
[in] long Width,
[in] long Height);
HRESULT GetDestinationPosition([out] long *pLeft,
[out] long *pTop,
[out] long *pWidth,
[out] long *pHeight);
HRESULT SetDefaultDestinationPosition();
// get the native video dimensions
HRESULT GetVideoSize([out] long *pWidth,[out] long *pHeight);
// get all or some of the current video palette
HRESULT GetVideoPaletteEntries([in] long StartIndex,
[in] long Entries,
[out] long *pRetrieved,
[out] long *pPalette);
HRESULT GetCurrentImage([in,out] long *pBufferSize,
[out] long *pDIBImage);
// are we using a default source or destination
HRESULT IsUsingDefaultSource();
HRESULT IsUsingDefaultDestination();
}
// interface extension to IBasicVideo to return preferred aspect ratio
[
uuid(329bb360-f6ea-11d1-9038-00a0c9697298),
helpstring("IBasicVideo2"),
odl
]
interface IBasicVideo2 : IBasicVideo
{
// This may not match the native video dimensions because of
// non-square pixels or whatever.
// The video may not always be displayed in the preferred
// aspect ratio for performance reasons
HRESULT GetPreferredAspectRatio([out] long *plAspectX,
[out] long *plAspectY);
}
// interface returned to a command that has been queued via IQueueCommand
[
uuid(56a868b8-0ad4-11ce-b03a-0020af0ba770),
helpstring("IDeferredCommand"),
odl
]
interface IDeferredCommand : IUnknown
{
HRESULT Cancel();
HRESULT Confidence(
[out] LONG* pConfidence);
HRESULT Postpone(
[in] REFTIME newtime);
// return value is S_OK if completed. phrResult is set to the
// result of the deferred command.
HRESULT GetHResult(
[out] HRESULT* phrResult);
};
// queue an IDispatch-based command for execution at a specified time
[
uuid(56a868b7-0ad4-11ce-b03a-0020af0ba770),
helpstring("IQueueCommand"),
odl
]
interface IQueueCommand : IUnknown
{
HRESULT InvokeAtStreamTime(
[out] IDeferredCommand** pCmd,
[in] REFTIME time, // at this streamtime
[in] GUID* iid, // call this interface
[in] long dispidMethod, // ..and this method
[in] short wFlags, // method/property
[in] long cArgs, // count of args
[in] VARIANT* pDispParams, // actual args
[in, out] VARIANT* pvarResult, // return value
[out] short* puArgErr // which arg in error
);
HRESULT InvokeAtPresentationTime(
[out] IDeferredCommand** pCmd,
[in] REFTIME time, // at this presentation time
[in] GUID* iid, // call this interface
[in] long dispidMethod, // ..and this method
[in] short wFlags, // method/property
[in] long cArgs, // count of args
[in] VARIANT* pDispParams, // actual args
[in, out] VARIANT* pvarResult, // return value
[out] short* puArgErr // which arg in error
);
};
// the filgraph object (CLSID_Filgraph)
[
uuid(e436ebb3-524f-11ce-9f53-0020af0ba770),
helpstring("Filtergraph type info")
]
coclass FilgraphManager
{
[default] interface IMediaControl;
interface IMediaEvent;
interface IMediaPosition;
interface IBasicAudio;
interface IBasicVideo;
interface IVideoWindow;
};
// represents a filter (you can't QI for IBaseFilter from this object)
[
uuid(56a868ba-0ad4-11ce-b03a-0020af0ba770),
helpstring("FilterInfo"),
odl,
oleautomation,
dual
]
interface IFilterInfo : IDispatch
{
// find a pin given an id - returns an object supporting
// IPinInfo
HRESULT FindPin(
[in] BSTR strPinID,
[out] IDispatch** ppUnk);
// filter name
[propget]
HRESULT Name(
[out, retval] BSTR* strName);
// Vendor info string
[propget]
HRESULT VendorInfo(
[out, retval] BSTR* strVendorInfo);
// returns the actual filter object (supports IBaseFilter)
[propget]
HRESULT Filter(
[out, retval] IUnknown **ppUnk);
// returns an IAMCollection object containing the PinInfo objects
// for this filter
[propget]
HRESULT Pins(
[out, retval] IDispatch ** ppUnk);
// returns -1 if true or 0 if false (OATRUE/FALSE)
[propget]
HRESULT IsFileSource(
[out, retval] LONG * pbIsSource);
[propget]
HRESULT Filename(
[out, retval] BSTR* pstrFilename);
[propput]
HRESULT Filename(
[in] BSTR strFilename);
}
[
uuid(56a868bb-0ad4-11ce-b03a-0020af0ba770),
helpstring("Registry Filter Info"),
odl,
oleautomation,
dual
]
interface IRegFilterInfo : IDispatch
{
// get the name of this filter
[propget]
HRESULT Name(
[out, retval] BSTR* strName);
// make an instance of this filter, add it to the graph and
// return an IFilterInfo for it.
HRESULT Filter(
[out] IDispatch** ppUnk);
}
// wrapper for a media type
[
uuid(56a868bc-0ad4-11ce-b03a-0020af0ba770),
helpstring("Media Type"),
odl,
oleautomation,
dual
]
interface IMediaTypeInfo : IDispatch
{
// get the major type GUID as a string
[propget]
HRESULT Type(
[out, retval] BSTR* strType);
// get the subtype GUID as a string
[propget]
HRESULT Subtype(
[out, retval] BSTR* strType);
}
[
uuid(56a868bd-0ad4-11ce-b03a-0020af0ba770),
helpstring("Pin Info"),
odl,
oleautomation,
dual
]
interface IPinInfo : IDispatch
{
// get the pin object (IUnknown for an object that
// supports IPin
[propget]
HRESULT Pin(
[out, retval] IUnknown** ppUnk);
// get the PinInfo object for the pin we are connected to
[propget]
HRESULT ConnectedTo(
[out, retval] IDispatch** ppUnk);
// get the media type on this connection - returns an
// object supporting IMediaTypeInfo
[propget]
HRESULT ConnectionMediaType(
[out, retval] IDispatch** ppUnk);
// return the FilterInfo object for the filter this pin
// is part of
[propget]
HRESULT FilterInfo(
[out, retval] IDispatch** ppUnk);
// get the name of this pin
[propget]
HRESULT Name(
[out, retval] BSTR* ppUnk);
// pin direction
[propget]
HRESULT Direction(
[out, retval] LONG *ppDirection);
// PinID - can pass to IFilterInfo::FindPin
[propget]
HRESULT PinID(
[out, retval] BSTR* strPinID);
// collection of preferred media types (IAMCollection)
[propget]
HRESULT MediaTypes(
[out, retval] IDispatch** ppUnk);
// Connect to the following pin, using other transform
// filters as necessary. pPin can support either IPin or IPinInfo
HRESULT Connect(
[in] IUnknown* pPin);
// Connect directly to the following pin, not using any intermediate
// filters
HRESULT ConnectDirect(
[in] IUnknown* pPin);
// Connect directly to the following pin, using the specified
// media type only. pPin is an object that must support either
// IPin or IPinInfo, and pMediaType must support IMediaTypeInfo.
HRESULT ConnectWithType(
[in] IUnknown * pPin,
[in] IDispatch * pMediaType);
// disconnect this pin and the corresponding connected pin from
// each other. (Calls IPin::Disconnect on both pins).
HRESULT Disconnect(void);
// render this pin using any necessary transform and rendering filters
HRESULT Render(void);
}
//--------------------------------------------------------------------
//
// IAMStats - statistics
//
// Note that the calls using an index are likely to be much faster
//--------------------------------------------------------------------
[
uuid(bc9bcf80-dcd2-11d2-abf6-00a0c905f375),
helpstring("Statistics"),
odl,
oleautomation,
dual
]
interface IAMStats : IDispatch {
// Reset all stats
HRESULT Reset();
// Get number of stats collected
[propget]
HRESULT Count(
[out, retval] LONG* plCount);
// Pull out a specific value by position
HRESULT GetValueByIndex([in] long lIndex,
[out] BSTR *szName,
[out] long *lCount,
[out] double *dLast,
[out] double *dAverage,
[out] double *dStdDev,
[out] double *dMin,
[out] double *dMax);
// Pull out a specific value by name
HRESULT GetValueByName([in] BSTR szName,
[out] long *lIndex,
[out] long *lCount,
[out] double *dLast,
[out] double *dAverage,
[out] double *dStdDev,
[out] double *dMin,
[out] double *dMax);
// The calls below are for generators of statistics
// Return the index for a string - optinally create
HRESULT GetIndex([in] BSTR szName,
[in] long lCreate,
[out] long *plIndex);
// Add a new value
HRESULT AddValue([in] long lIndex,
[in] double dValue);
}
};

86
extern/include/DShowIDL/ddstream.idl vendored
View File

@ -1,86 +0,0 @@
//------------------------------------------------------------------------------
// File: DDStream.idl
//
// Desc: Used by MIDL tool to generate ddstream.h
//
// Copyright (c) 1998-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
import "unknwn.idl";
import "mmstream.idl";
cpp_quote("//")
cpp_quote("// The following declarations within the 'if 0' block are dummy typedefs used to make")
cpp_quote("// the ddstream.idl file build. The actual definitions are contained in DDRAW.H")
cpp_quote("//")
cpp_quote("#if 0")
typedef void * LPDDSURFACEDESC;
typedef struct tDDSURFACEDESC DDSURFACEDESC;
cpp_quote("#endif")
cpp_quote("#include <ddraw.h>")
enum {
DDSFF_PROGRESSIVERENDER = 0x00000001
};
interface IDirectDraw;
interface IDirectDrawSurface;
interface IDirectDrawPalette;
interface IDirectDrawMediaStream;
interface IDirectDrawStreamSample;
// IDirectDrawMediaStream
[
object,
local,
uuid(F4104FCE-9A70-11d0-8FDE-00C04FD9189D),
pointer_default(unique)
]
interface IDirectDrawMediaStream : IMediaStream
{
HRESULT GetFormat(
[out] DDSURFACEDESC *pDDSDCurrent,
[out] IDirectDrawPalette **ppDirectDrawPalette,
[out] DDSURFACEDESC *pDDSDDesired,
[out] DWORD *pdwFlags);
HRESULT SetFormat(
[in] const DDSURFACEDESC *pDDSurfaceDesc,
[in] IDirectDrawPalette *pDirectDrawPalette);
HRESULT GetDirectDraw(
[out] IDirectDraw **ppDirectDraw);
HRESULT SetDirectDraw(
[in] IDirectDraw *pDirectDraw);
HRESULT CreateSample(
[in] IDirectDrawSurface *pSurface,
[in] const RECT *pRect,
[in] DWORD dwFlags,
[out]IDirectDrawStreamSample **ppSample);
HRESULT GetTimePerFrame(
[out] STREAM_TIME *pFrameTime);
};
// IDirectDrawStreamSample
[
object,
local,
uuid(F4104FCF-9A70-11d0-8FDE-00C04FD9189D),
pointer_default(unique)
]
interface IDirectDrawStreamSample : IStreamSample
{
HRESULT GetSurface(
[out] IDirectDrawSurface ** ppDirectDrawSurface,
[out] RECT * pRect);
HRESULT SetRect(
[in] const RECT * pRect);
};

38
extern/include/DShowIDL/devenum.idl vendored
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@ -1,38 +0,0 @@
//------------------------------------------------------------------------------
// File: DevEnum.idl
//
// Desc: IDL source for devenum.dll. This file will be processed by the
// MIDL tool to produce the type library (devenum.tlb) and marshalling
// code.
//
// Copyright (c) 1998-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
cpp_quote("#define CDEF_CLASS_DEFAULT 0x0001")
cpp_quote("#define CDEF_BYPASS_CLASS_MANAGER 0x0002")
//cpp_quote("#define CDEF_CLASS_LEGACY 0x0004")
cpp_quote("#define CDEF_MERIT_ABOVE_DO_NOT_USE 0x0008")
// If any of these flags are set, then only the types specified
// by the flags are enumerated
cpp_quote("#define CDEF_DEVMON_CMGR_DEVICE 0x0010")
cpp_quote("#define CDEF_DEVMON_DMO 0x0020")
cpp_quote("#define CDEF_DEVMON_PNP_DEVICE 0x0040")
cpp_quote("#define CDEF_DEVMON_FILTER 0x0080")
cpp_quote("#define CDEF_DEVMON_SELECTIVE_MASK 0x00f0")
[
object,
uuid(29840822-5B84-11D0-BD3B-00A0C911CE86),
pointer_default(unique)
]
interface ICreateDevEnum : IUnknown
{
import "oaidl.idl";
HRESULT CreateClassEnumerator(
[in] REFCLSID clsidDeviceClass,
[out] IEnumMoniker ** ppEnumMoniker,
[in] DWORD dwFlags);
}

34
extern/include/DShowIDL/dmodshow.idl vendored
View File

@ -1,34 +0,0 @@
//------------------------------------------------------------------------------
// File: DMODShow.idl
//
// Desc: This file will be processed by the MIDL tool to
// produce dmodshow.h and proxy-stub code.
//
// Copyright (c) 1999-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
import "unknwn.idl";
import "objidl.idl";
import "mediaobj.idl";
// 94297043-bd82-4dfd-b0de-8177739c6d20
cpp_quote("DEFINE_GUID(CLSID_DMOWrapperFilter, 0x94297043,0xbd82,0x4dfd,0xb0,0xde,0x81,0x77,0x73,0x9c,0x6d,0x20);")
// bcd5796c-bd52-4d30-ab76-70f975b89199
cpp_quote("DEFINE_GUID(CLSID_DMOFilterCategory,0xbcd5796c,0xbd52,0x4d30,0xab,0x76,0x70,0xf9,0x75,0xb8,0x91,0x99);")
[
object,
uuid(52d6f586-9f0f-4824-8fc8-e32ca04930c2),
]
interface IDMOWrapperFilter : IUnknown
{
// Init is passed in the clsid (so it can call CoCreateInstance)
// and the catgory under which the DMO lives.
// Note that catDMO can be CLSID_NULL, in which case no special
// category-specific processing will be invoked in the wrapper filter.
HRESULT Init(REFCLSID clsidDMO, REFCLSID catDMO);
}

59
extern/include/DShowIDL/dshowasf.idl vendored
View File

@ -1,59 +0,0 @@
//------------------------------------------------------------------------------
// File: DShowASF.idl
//
// Desc:
//
// Copyright (c) 1992-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
import "unknwn.idl";
import "objidl.idl";
import "strmif.idl"; // for media type and time definitions
import "wmsdkidl.idl";
cpp_quote( "EXTERN_GUID( IID_IConfigAsfWriter,0x45086030,0xF7E4,0x486a,0xB5,0x04,0x82,0x6B,0xB5,0x79,0x2A,0x3B );" )
interface IConfigAsfWriter;
interface IWMProfile;
// Interface to control the ASF writer
[
object,
uuid(45086030-F7E4-486a-B504-826BB5792A3B),
pointer_default(unique)
]
interface IConfigAsfWriter : IUnknown
{
//
// The user is expected to enumerate profiles using the wmsdk IWMProfileManager
// method and then pass the desired profile index to the ASF Writer filter via this
// method. The filter will then try to configure itself for the selected profile.
//
// NOTE: These 2 XXXProfileId methods are now obsolete because they assume
// version 4.0 WMSDK profiles. To configure the filter for later profile
// versions using a profile index, use the XXXProfile methods which take
// the IWMProfile* directly.
//
HRESULT ConfigureFilterUsingProfileId([in] DWORD dwProfileId);
HRESULT GetCurrentProfileId([out] DWORD *pdwProfileId);
//
// configure using a pre-defined wmsdk profile guid
//
HRESULT ConfigureFilterUsingProfileGuid([in] REFGUID guidProfile);
HRESULT GetCurrentProfileGuid([out] GUID *pProfileGuid);
//
// Use these methods when a custom profile setup is preferred
//
HRESULT ConfigureFilterUsingProfile([in] IWMProfile * pProfile);
HRESULT GetCurrentProfile([out] IWMProfile **ppProfile);
//
// allow app to control whether or not to index file
//
HRESULT SetIndexMode( [in] BOOL bIndexFile );
HRESULT GetIndexMode( [out] BOOL *pbIndexFile );
}

2324
extern/include/DShowIDL/dvdif.idl vendored
View File

File diff suppressed because it is too large Load Diff

2322
extern/include/DShowIDL/dxtrans.idl vendored
View File

File diff suppressed because it is too large Load Diff

318
extern/include/DShowIDL/dyngraph.idl vendored
View File

@ -1,318 +0,0 @@
//------------------------------------------------------------------------------
// File: DynGraph.idl
//
// Desc: Dynamic graph interfaces
//
// Copyright (c) 1999-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
interface IPinConnection;
interface IPinFlowControl;
interface IGraphConfig;
interface IGraphConfigCallback;
//--------------------------------------------------------------------
//
// IPinConnection - supported by input pins
//
//--------------------------------------------------------------------
[
local,
object,
uuid(4a9a62d3-27d4-403d-91e9-89f540e55534),
pointer_default(unique)
]
interface IPinConnection : IUnknown {
// Do you accept this type chane in your current state?
HRESULT DynamicQueryAccept([in] const AM_MEDIA_TYPE *pmt);
// Set event when EndOfStream receive - do NOT pass it on
// This condition is cancelled by a flush or Stop
HRESULT NotifyEndOfStream([in] HANDLE hNotifyEvent);
// Are you an 'end pin'
HRESULT IsEndPin();
HRESULT DynamicDisconnect();
};
//--------------------------------------------------------------------
//
// IPinFlowControl - supported by output pins
//
//--------------------------------------------------------------------
[
local,
object,
uuid(c56e9858-dbf3-4f6b-8119-384af2060deb),
pointer_default(unique)
]
interface IPinFlowControl : IUnknown {
// Block processing on this pin
HRESULT Block([in] DWORD dwBlockFlags, [in] HANDLE hEvent);
}
// block flags
enum _AM_PIN_FLOW_CONTROL_BLOCK_FLAGS {
AM_PIN_FLOW_CONTROL_BLOCK = 0x00000001, // 0 means unblock
};
// Reconnect flags
typedef enum _AM_GRAPH_CONFIG_RECONNECT_FLAGS {
AM_GRAPH_CONFIG_RECONNECT_DIRECTCONNECT = 0x00000001,
AM_GRAPH_CONFIG_RECONNECT_CACHE_REMOVED_FILTERS = 0x00000002,
AM_GRAPH_CONFIG_RECONNECT_USE_ONLY_CACHED_FILTERS = 0x00000004
} AM_GRAPH_CONFIG_RECONNECT_FLAGS;
// RemoveFilterEx flags
enum _REM_FILTER_FLAGS {
REMFILTERF_LEAVECONNECTED = 0x00000001
};
typedef enum _AM_FILTER_FLAGS {
AM_FILTER_FLAGS_REMOVABLE = 0x00000001
} AM_FILTER_FLAGS;
//--------------------------------------------------------------------
//
// IGraphConfig
//
//--------------------------------------------------------------------
[
local,
object,
uuid(03A1EB8E-32BF-4245-8502-114D08A9CB88),
pointer_default(unique)
]
interface IGraphConfig : IUnknown {
HRESULT Reconnect([in] IPin *pOutputPin,
[in] IPin *pInputPin,
[in] const AM_MEDIA_TYPE *pmtFirstConnection,
[in] IBaseFilter *pUsingFilter, // can be NULL
[in] HANDLE hAbortEvent,
[in] DWORD dwFlags);
HRESULT Reconfigure([in] IGraphConfigCallback *pCallback,
[in] PVOID pvContext,
[in] DWORD dwFlags,
[in] HANDLE hAbortEvent);
HRESULT AddFilterToCache([in] IBaseFilter *pFilter);
HRESULT EnumCacheFilter([out] IEnumFilters **pEnum);
HRESULT RemoveFilterFromCache([in]IBaseFilter *pFilter);
// Get the start time associated with the last Run() call
// If the graph is not running returns VFW_E_WRONG_STATE
HRESULT GetStartTime([out] REFERENCE_TIME *prtStart);
HRESULT PushThroughData(
[in] IPin *pOutputPin,
[in] IPinConnection *pConnection,
[in] HANDLE hEventAbort);
HRESULT SetFilterFlags([in] IBaseFilter *pFilter, [in] DWORD dwFlags);
HRESULT GetFilterFlags([in] IBaseFilter *pFilter, [out] DWORD *pdwFlags);
HRESULT RemoveFilterEx( [in] IBaseFilter *pFilter, DWORD Flags );
}
//--------------------------------------------------------------------
//
// IGraphConfigCallback
//
//--------------------------------------------------------------------
[
local,
object,
uuid(ade0fd60-d19d-11d2-abf6-00a0c905f375),
pointer_default(unique)
]
interface IGraphConfigCallback : IUnknown
{
HRESULT Reconfigure(PVOID pvContext, DWORD dwFlags);
}
// Filter Chain Definition
//
// Filter chains have the following properties:
//
// - Each filter chain has one or more filters.
//
// - Each filter in a filter chain has at most one connected input pin and one
// connected output pin. For example, filters A, C, D, F, G, H, I, J and K
// (see the diagram below) can be in a filter chain because each one has at
// most one connected input pin and one connected output pin.
//
// - Any filter in a chain is reachable by any other filter in the chain.
// For example, in the filter chain F-G-H, F can reach H by following the F-
// G connection to G and then following the G-H connection to H. Filters F
// and J cannot be in the same filter chain because J is not reachable from
// F. Anotherwords, there no sequence of connected filters between F and J.
//
// - The start filter is the only filter in the filter chain who's input
// pin is not connected to another filter in the chain. For instance, F is
// the start filter in F-G-H because F's input pin is connected to E and E
// is not in the filter chain. G's input pin is connected to F and H's is
// connected to G. Both F and G are in the filter chain.
//
// - The end filter is the only filter in the filter chain who's output pin
// is not connected to another filter in the chain. For example, in the
// filter chain J-K, K is the end filter because K's output pin is
// connected to L. J's output pin is connected to K and K is in the J-K
// filter chain.
//
//
// --->|---| |---|--->
// | C |--->| D |
// |---| |---|--->|---| |---|--->|---| |---| |---| |---|
// | A |--->| B | | E |--->| F |--->| G |--->| H |
// |---| |---|--->|---|------------>|---| |---| |---| |---|
// | I |--->
// --->|---|--->
//
// |---| |---| |---|
// | J |--->| K |--->| L |
// |---| |---| |---|
//
// Example Filter Graph
//
//
//
// IFilterChain Methods Documentation
//
// HRESULT StartChain( [in] IBaseFilter *pStartFilter, [in] IBaseFilter *pEndFilter );
//
// StartChain() switches all the filters in the chain into the running state
// If one of the filters will not switch to the running state, then all the filters
// in the chain are stopped. This method can only be called if the filter graph is
// running.
//
// Parameters:
// - pStartFilter [in]
// The first filter in the filter chain. Note that this can be the same
// filter as pEndFilter .
//
// - pEndFilter [in]
// The last filter in the filter chain. Note that this can be the same
// filter as pStartFilter. If pEndFilter is NULL then the filter chain extends
// from pStartFilter to the last downstream filter which can be in a filter chain.
// For example, IFilterChain::StartChain( A, NULL ) would start filter A.
// IFilterChain::StartChain( G, NULL ) would start filters G and H.
// IFilterChain::StartChain( C, NULL ) would start filters C and D. Finally,
// IFilterChain::StartChain( E, NULL ) would fail because E cannot be in a
// filter chain (see the Filter Chain Definition section for more information).
//
// Return Value:
// An HRESULT. See the Direct Show SDK and COM SDK documentation for more
// information on interpreting HRESULTs.
//
//
//
//
// HRESULT PauseChain( [in] IBaseFilter *pStartFilter, [in] IBaseFilter *pEndFilter );
//
// PauseChain() switches all the filters in a chain to the paused state. If it cannot
// switch one of the filtres into the paused state, all the filters in the chain are
// stopped. This method can only be called if the filter graph is paused.
//
// Parameters:
// - pStartFilter [in]
// The first filter in the filter chain. Note that this can be the same
// filter as pEndFilter .
//
// - pEndFilter [in]
// The last filter in the filter chain. Note that this can be the same
// filter as pStartFilter. If pEndFilter is NULL then the filter chain extends
// from pStartFilter to the last downstream filter which can be in a filter chain.
// For example, IFilterChain::StopChain( A, NULL ) would stop filter A.
// IFilterChain::StopChain( G, NULL ) would stop filters G and H.
// IFilterChain::StopChain( C, NULL ) would stop filters C and D. Finally,
// IFilterChain::StopChain( E, NULL ) would fail because E cannot be in a filter
// chain (see the Filter Chain Definition section for more information).
//
//
// Return Value:
// An HRESULT. See the Direct Show SDK and COM SDK documentation for more
// information on interpreting HRESULTs.
//
//
//
// HRESULT StopChain( [in] IBaseFilter *pStartFilter, [in] IBaseFilter *pEndFilter );
//
// StopChain() switches all the filters in chain to the stopped state.
//
// Parameters:
// - pStartFilter [in]
// The first filter in the filter chain. Note that this can be the same
// filter as pEndFilter .
//
// - pEndFilter [in]
// The last filter in the filter chain. Note that this can be the same
// filter as pStartFilter. If pEndFilter is NULL then the filter chain extends
// from pStartFilter to the last downstream filter which can be in a filter chain.
// For example, IFilterChain::StopChain( A, NULL ) would stop filter A.
// IFilterChain::StopChain( G, NULL ) would stop filters G and H.
// IFilterChain::StopChain( C, NULL ) would stop filters C and D. Finally,
// IFilterChain::StopChain( E, NULL ) would fail because E cannot be in a filter
// chain (see the Filter Chain Definition section for more information).
//
//
// Return Value:
// An HRESULT. See the Direct Show SDK and COM SDK documentation for more
// information on interpreting HRESULTs.
//
//
//
//
//
// HRESULT RemoveChain( [in] IBaseFilter *pStartFilter, [in] IBaseFilter *pEndFilter );
//
// RemoveChain() removes every filter in a chain from the filter graph.
// The filters can be removed while the graph is running.
//
// Parameters:
// - pStartFilter [in]
// The first filter in the filter chain. Note that this can be the same
// filter as pEndFilter .
//
// - pEndFilter [in]
// The last filter in the filter chain. Note that this can be the same
// filter as pStartFilter. If pEndFilter is NULL then the filter chain
// extends from pStartFilter to the last downstream filter which can be in a
// filter chain. For example, IFilterChain::RemoveChain( A, NULL ) would remove
// filter A from the filter graph. IFilterChain::RemoveChain( G, NULL ) would
// remove filters G and H. IFilterChain::RemoveChain( C, NULL ) would remove
// filters C and D. Finally, IFilterChain::RemoveChain( E, NULL ) would fail
// because E cannot be in a filter chain (see the Filter Chain Definition
// section for more information).
//
//
// Return Value:
// An HRESULT. See the Direct Show SDK and COM SDK documentation for more
// information on interpreting HRESULTs.
//
//
[
local,
object,
uuid(DCFBDCF6-0DC2-45f5-9AB2-7C330EA09C29),
pointer_default(unique)
]
interface IFilterChain : IUnknown
{
HRESULT StartChain( [in] IBaseFilter *pStartFilter, [in] IBaseFilter *pEndFilter );
HRESULT PauseChain( [in] IBaseFilter *pStartFilter, [in] IBaseFilter *pEndFilter );
HRESULT StopChain( [in] IBaseFilter *pStartFilter, [in] IBaseFilter *pEndFilter );
HRESULT RemoveChain( [in] IBaseFilter *pStartFilter, [in] IBaseFilter *pEndFilter );
}

144
extern/include/DShowIDL/iamovie.idl vendored
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@ -1,144 +0,0 @@
//------------------------------------------------------------------------------
// File: IAMovie.idl
//
// Desc:
//
// Copyright (c) 1992-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
[
object,
uuid(359ace10-7688-11cf-8b23-00805f6cef60),
pointer_default(unique)
]
interface IAMovie : IFilterGraph
{
// IGraphBuilder
// 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
);
// IMediaControl methods
HRESULT Run();
HRESULT Pause();
HRESULT Stop();
//returns the state. same semantics as IMediaFilter::GetState
HRESULT GetState(
[in] LONG msTimeout,
[out] FILTER_STATE* pfs);
// adds and connects filters needed to play the specified file
HRESULT RenderFile(
[in] LPCWSTR strFilename);
// adds to the graph the source filter that can read this file,
// and returns an IFilterInfo object for it
HRESULT AddSourceFilter(
[in] LPCWSTR strFilename,
[out] IBaseFilter ** ppUnk);
// get back the event handle. This is manual-reset
// (don't - it's reset by the event mechanism) and remains set
// when events are queued, and reset when the queue is empty.
HRESULT GetEventHandle(
[out] HEVENT * hEvent);
// remove the next event notification from the head of the queue and
// return it. Waits up to msTimeout millisecs if there are no events.
// if a timeout occurs without any events, this method will return
// E_ABORT, and the value of the event code and other parameters
// is undefined.
HRESULT GetEvent(
[out] long * lEventCode,
[out] long * lParam1,
[out] long * lParam2,
[in] long msTimeout
);
// Calls GetEvent repeatedly discarding events until it finds a
// completion event (EC_COMPLETE, EC_ERRORABORT, or EC_USERABORT).
// The completion event is removed from the queue and returned
// in pEvCode. Note that the object is still in running mode until
// a Pause or Stop call is made.
// If the timeout occurs, *pEvCode will be 0 and E_ABORT will be
// returned.
HRESULT WaitForCompletion(
[in] long msTimeout,
[out] long * pEvCode);
// cancels any system handling of the specified event code
// and ensures that the events are passed straight to the application
// (via GetEvent) and not handled. A good example of this is
// EC_REPAINT: default handling for this ensures the painting of the
// window and does not get posted to the app.
HRESULT CancelDefaultHandling(
[in] long lEvCode);
// restore the normal system default handling that may have been
// cancelled by CancelDefaultHandling().
HRESULT RestoreDefaultHandling( [in] long lEvCode);
// properties
HRESULT get_Duration(
[out] REFTIME* plength);
HRESULT put_CurrentPosition(
[in] REFTIME llTime);
HRESULT get_CurrentPosition(
[out] REFTIME* pllTime);
HRESULT get_StopTime(
[out] REFTIME* pllTime);
HRESULT put_StopTime(
[in] REFTIME llTime);
HRESULT get_PrerollTime(
[out] REFTIME* pllTime);
HRESULT put_PrerollTime(
[in] REFTIME llTime);
HRESULT put_Rate(
[in] double dRate);
HRESULT get_Rate(
[out] double * pdRate);
/* New methods */
HRESULT RemoveAllFilters();
HRESULT Play();
HRESULT PlayFile([in] LPCWSTR strFilename);
HRESULT EnumFiltersByInterface( [in] REFIID riid, [out] IEnumFilters ** ppEnum );
HRESULT EnumPins( [out] IEnumPins ** ppEnum );
HRESULT EnumPinsIn( [out] IEnumPins ** ppEnum );
HRESULT EnumPinsOut( [out] IEnumPins ** ppEnum );
HRESULT RenderAll();
HRESULT RenderNewFile( [in] LPCWSTR strFilename);
// Free any resources associated with the parameters to an event.
// Event parameters may be LONGs, IUnknown* or BSTR. No action
// is taken with LONGs. IUnknown are passed addrefed and need a
// Release call. BSTR are allocated by the task allocator and will be
// freed by calling the task allocator.
HRESULT FreeEventParams(
[in] long lEvCode,
[in] long lParam1,
[in] long lParam2);
}

411
extern/include/DShowIDL/mediaobj.idl vendored
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@ -1,411 +0,0 @@
//------------------------------------------------------------------------------
// File: MediaObj.idl
//
// Desc: Define the interfaces for DirectX Media Objects. This file will be
// processed by the MIDL tool to produce mediaobj.h and proxy-stub code.
//
// Copyright (c) 1999-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
import "unknwn.idl";
import "objidl.idl";
// DMO_MEDIA_TYPE structure
cpp_quote("#ifdef __strmif_h__")
cpp_quote("typedef AM_MEDIA_TYPE DMO_MEDIA_TYPE;")
cpp_quote("#else")
typedef struct _DMOMediaType {
GUID majortype;
GUID subtype;
BOOL bFixedSizeSamples;
BOOL bTemporalCompression;
ULONG lSampleSize;
GUID formattype;
IUnknown *pUnk;
ULONG cbFormat;
[size_is(cbFormat)] BYTE * pbFormat;
} DMO_MEDIA_TYPE;
typedef LONGLONG REFERENCE_TIME;
cpp_quote("#endif")
// Per-buffer flags that apply to input buffers
enum _DMO_INPUT_DATA_BUFFER_FLAGS {
DMO_INPUT_DATA_BUFFERF_SYNCPOINT = 0x00000001,
DMO_INPUT_DATA_BUFFERF_TIME = 0x00000002,
DMO_INPUT_DATA_BUFFERF_TIMELENGTH = 0x00000004
};
// Per-buffer flags that apply to output buffers.
enum _DMO_OUTPUT_DATA_BUFFER_FLAGS {
DMO_OUTPUT_DATA_BUFFERF_SYNCPOINT = 0x00000001,
DMO_OUTPUT_DATA_BUFFERF_TIME = 0x00000002,
DMO_OUTPUT_DATA_BUFFERF_TIMELENGTH = 0x00000004,
//
// This flag means the object could have generated more data for this
// output stream, even with no additional input from any input stream,
// but the output buffer did not have sufficient room.
//
DMO_OUTPUT_DATA_BUFFERF_INCOMPLETE = 0x01000000
};
// Flags returned by GetInputStatus()
enum _DMO_INPUT_STATUS_FLAGS {
//
// ACCEPT_DATA indicates that the input stream is ready to accept
// new data via ProcessInput().
//
DMO_INPUT_STATUSF_ACCEPT_DATA = 0x00000001
};
// Flags returned by GetInputStreamInfo()
enum _DMO_INPUT_STREAM_INFO_FLAGS {
DMO_INPUT_STREAMF_WHOLE_SAMPLES = 0x00000001,
DMO_INPUT_STREAMF_SINGLE_SAMPLE_PER_BUFFER = 0x00000002,
DMO_INPUT_STREAMF_FIXED_SAMPLE_SIZE = 0x00000004,
DMO_INPUT_STREAMF_HOLDS_BUFFERS = 0x00000008
};
// Flags returned by GetOutputStreamInfo()
enum _DMO_OUTPUT_STREAM_INFO_FLAGS {
DMO_OUTPUT_STREAMF_WHOLE_SAMPLES = 0x00000001,
DMO_OUTPUT_STREAMF_SINGLE_SAMPLE_PER_BUFFER = 0x00000002,
DMO_OUTPUT_STREAMF_FIXED_SAMPLE_SIZE = 0x00000004,
DMO_OUTPUT_STREAMF_DISCARDABLE = 0x00000008,
DMO_OUTPUT_STREAMF_OPTIONAL = 0x00000010
};
// SetType flags
enum _DMO_SET_TYPE_FLAGS {
DMO_SET_TYPEF_TEST_ONLY = 0x00000001,// check but don't set
DMO_SET_TYPEF_CLEAR = 0x00000002 // unset
};
// Process Output Flags
enum _DMO_PROCESS_OUTPUT_FLAGS {
DMO_PROCESS_OUTPUT_DISCARD_WHEN_NO_BUFFER = 0x00000001 // Discard
};
// Buffer wrapper interface
[
object,
uuid(59eff8b9-938c-4a26-82f2-95cb84cdc837)
]
interface IMediaBuffer : IUnknown
{
HRESULT SetLength(
DWORD cbLength
);
HRESULT GetMaxLength(
[out] DWORD *pcbMaxLength
);
HRESULT GetBufferAndLength(
[out] BYTE **ppBuffer, // not filled if NULL
[out] DWORD *pcbLength // not filled if NULL
);
}
//
// Output buffer info structure: one of these must be passed in for each
// output stream with every ProcessOutput() call
// All [out] fields should be
// assumed undefined if ProcessOutput() failed
//
typedef struct _DMO_OUTPUT_DATA_BUFFER {
IMediaBuffer *pBuffer; // [in] can be NULL
// ProcessOutput() must set any appropriate flags and zero out the rest.
DWORD dwStatus; // [out] DMO_OUTPUT_DATA_BUFFERF_XXX (INCOMPLETE, etc.)
//
// Each of these is valid if the corresponding flag is set in dwStatus
//
REFERENCE_TIME rtTimestamp; // [out]
REFERENCE_TIME rtTimelength; // [out]
} DMO_OUTPUT_DATA_BUFFER, *PDMO_OUTPUT_DATA_BUFFER;
// Interface supported by media objects
[
object,
uuid(d8ad0f58-5494-4102-97c5-ec798e59bcf4)
]
interface IMediaObject : IUnknown
{
//
// Stream enumeration
//
HRESULT GetStreamCount(
[out] DWORD *pcInputStreams,
[out] DWORD *pcOutputStreams
);
HRESULT GetInputStreamInfo(
DWORD dwInputStreamIndex, // 0-based
[out] DWORD *pdwFlags // HOLDS_BUFFERS
);
HRESULT GetOutputStreamInfo(
DWORD dwOutputStreamIndex, // 0-based
[out] DWORD *pdwFlags // Media object sets to 0
);
//
// Mediatypes
//
//
// GetType - iterate through media types supported by a stream.
// Returns S_FALSE if the type index is out of range ("no more types").
//
HRESULT GetInputType(
DWORD dwInputStreamIndex,
DWORD dwTypeIndex, // 0-based
[out] DMO_MEDIA_TYPE *pmt
);
HRESULT GetOutputType(
DWORD dwOutputStreamIndex,
DWORD dwTypeIndex, // 0-based
[out] DMO_MEDIA_TYPE *pmt
);
//
// SetType - tell the object the type of data it will work with.
//
HRESULT SetInputType(
DWORD dwInputStreamIndex,
[in] const DMO_MEDIA_TYPE *pmt,
DWORD dwFlags // test only
);
HRESULT SetOutputType(
DWORD dwOutputStreamIndex,
[in] const DMO_MEDIA_TYPE *pmt,
DWORD dwFlags // test only
);
//
// GetCurrentType - get the last mediatype supplied via SetType.
// Returns S_FALSE if SetType has not been called.
//
HRESULT GetInputCurrentType(
DWORD dwInputStreamIndex,
[out] DMO_MEDIA_TYPE *pmt
);
HRESULT GetOutputCurrentType(
DWORD dwOutputStreamIndex,
[out] DMO_MEDIA_TYPE *pmt
);
//
// SizeInfo
//
//
// GetSizeInfo - Get buffer size requirementes of a stream.
//
// If buffer size depends on the media type used, the object should
// base its response on the most recent media type set for this stream.
// If no mediatype has been set, the object may return an error.
//
HRESULT GetInputSizeInfo(
DWORD dwInputStreamIndex,
[out] DWORD *pcbSize, // size of input 'quantum'
[out] DWORD *pcbMaxLookahead, // max total bytes held
[out] DWORD *pcbAlignment // buffer alignment requirement
);
HRESULT GetOutputSizeInfo(
DWORD dwOutputStreamIndex,
[out] DWORD *pcbSize, // size of output 'quantum'
[out] DWORD *pcbAlignment // buffer alignment requirement
);
//
// Latency methods
//
HRESULT GetInputMaxLatency(
DWORD dwInputStreamIndex,
[out] REFERENCE_TIME *prtMaxLatency
);
HRESULT SetInputMaxLatency(
DWORD dwInputStreamIndex,
REFERENCE_TIME rtMaxLatency
);
//
// Streaming / state methods
//
//
// Flush() - discard any buffered data.
//
HRESULT Flush();
//
// Send a discontinuity to an input stream. The object will not
// accept any more data on this input stream until the discontinuity
// has been completely processed, which may involve multiple
// ProcessOutput() calls.
//
HRESULT Discontinuity(DWORD dwInputStreamIndex);
//
// If a streaming object needs to perform any time consuming
// initialization before it can stream data, it should do it inside
// AllocateStreamingResources() rather than during the first process
// call.
//
// This method is NOT guaranteed to be called before streaming
// starts. If it is not called, the object should perform any
// required initialization during a process call.
//
HRESULT AllocateStreamingResources();
// Free anything allocated in AllocateStreamingResources().
HRESULT FreeStreamingResources();
// GetInputStatus - the only flag defined right now is ACCEPT_DATA.
HRESULT GetInputStatus(
DWORD dwInputStreamIndex,
[out] DWORD *dwFlags // ACCEPT_DATA
);
//
// Pass one new buffer to an input stream
//
HRESULT ProcessInput(
DWORD dwInputStreamIndex,
IMediaBuffer *pBuffer, // must not be NULL
DWORD dwFlags, // DMO_INPUT_DATA_BUFFERF_XXX (syncpoint, etc.)
REFERENCE_TIME rtTimestamp, // valid if flag set
REFERENCE_TIME rtTimelength // valid if flag set
);
//
// ProcessOutput() - generate output for current input buffers
//
// Output stream specific status information is returned in the
// dwStatus member of each buffer wrapper structure.
//
HRESULT ProcessOutput(
DWORD dwFlags, // DMO_PROCESS_OUTPUT_FLAGS
DWORD cOutputBufferCount, // # returned by GetStreamCount()
[in,out,size_is(cOutputBufferCount)]
DMO_OUTPUT_DATA_BUFFER *pOutputBuffers, // one per stream
[out] DWORD *pdwStatus // TBD, must be set to 0
);
// Locking - lock if bLock is TRUE, otherwise unlock
HRESULT Lock(LONG bLock);
};
//
// Interface returned by the DMO enumeration API
//
[
object,
uuid(2c3cd98a-2bfa-4a53-9c27-5249ba64ba0f)
]
interface IEnumDMO : IUnknown {
HRESULT Next(
DWORD cItemsToFetch,
[out, size_is(cItemsToFetch), length_is(*pcItemsFetched)] CLSID *pCLSID,
[out, size_is(cItemsToFetch), length_is(*pcItemsFetched), string] WCHAR **Names,
[out] DWORD *pcItemsFetched
);
HRESULT Skip(
DWORD cItemsToSkip
);
HRESULT Reset(void);
HRESULT Clone(
[out] IEnumDMO **ppEnum
);
}
// Flags for IMediaObjectInPlace::Process
enum _DMO_INPLACE_PROCESS_FLAGS {
DMO_INPLACE_NORMAL = 0x00000000,
DMO_INPLACE_ZERO = 0x00000001
};
[
object,
uuid(651b9ad0-0fc7-4aa9-9538-d89931010741)
]
interface IMediaObjectInPlace : IUnknown {
// Proces - Given a buffer of size ulSize, put the output
// of the DMO into the same buffer.
HRESULT Process(
[in] ULONG ulSize,
[in,out,size_is(ulSize)] BYTE* pData,
[in] REFERENCE_TIME refTimeStart,
[in] DWORD dwFlags
);
// Create a copy of the In-Place Media Object. This allows
// for very fast initialization of a number of In-Place objects
// in a known state.
HRESULT Clone(
[out] IMediaObjectInPlace **ppMediaObject
);
// GetLatency - Returns a REFERENCE_TIME value
// (1 tick = 100ns) which corresponds to the latency time
// processing this effect will add to the graph. This assumes
// the effect cost per buffer is a constant.
HRESULT GetLatency(
[out] REFERENCE_TIME *pLatencyTime
);
}
// Quality control status flags
enum _DMO_QUALITY_STATUS_FLAGS {
DMO_QUALITY_STATUS_ENABLED = 0x00000001
};
[
object,
uuid(65abea96-cf36-453f-af8a-705e98f16260)
]
interface IDMOQualityControl : IUnknown {
HRESULT SetNow(
[in] REFERENCE_TIME rtNow
);
HRESULT SetStatus(
[in] DWORD dwFlags
);
HRESULT GetStatus(
[out] DWORD *pdwFlags
);
}
// Flags for IVideoOutputOptimizations
enum _DMO_VIDEO_OUTPUT_STREAM_FLAGS {
DMO_VOSF_NEEDS_PREVIOUS_SAMPLE = 0x00000001
};
[
object,
uuid(be8f4f4e-5b16-4d29-b350-7f6b5d9298ac)
]
interface IDMOVideoOutputOptimizations : IUnknown {
HRESULT QueryOperationModePreferences (
ULONG ulOutputStreamIndex,
DWORD *pdwRequestedCapabilities
);
HRESULT SetOperationMode (
ULONG ulOutputStreamIndex,
DWORD dwEnabledFeatures
);
HRESULT GetCurrentOperationMode (
ULONG ulOutputStreamIndex,
DWORD *pdwEnabledFeatures
);
HRESULT GetCurrentSampleRequirements (
ULONG ulOutputStreamIndex,
DWORD *pdwRequestedFeatures
);
}

228
extern/include/DShowIDL/medparam.idl vendored
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@ -1,228 +0,0 @@
//------------------------------------------------------------------------------
// File: MedParam.idl
//
// Desc: Definition of the IMediaParams and associated interfaces. These
// interfaces are designed to allow communication of curve-following
// behaviors for parameters of objects which require dynamic changes
// to their parameters at run time. All changes are specified by
// timestamp and curve type to ensure the parameters can be set
// at sufficient accuracy with predictable behavior on subsequent
// playback of the same curves.
//
// Copyright (c) 1999-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
import "oaidl.idl";
import "ocidl.idl";
import "strmif.idl";
//------------------------------------------------------------------------------
// Define the semantic type to be used for each parameter. All values passed
// into this interface are 32-bit floats, but the interface can specify that
// the values must be integer, booleans, or enumerated types
//------------------------------------------------------------------------------
typedef float MP_DATA; // All data is 32-bit floats
typedef enum _MP_Type {
MPT_INT, // data is signed 23 bit integer (mantissa)
MPT_FLOAT, // data is 32bit IEEE float
MPT_BOOL, // data is true or false (using ANSI C++ definition)
MPT_ENUM, // data is a set (represented by consecutive integers)
MPT_MAX,
} MP_TYPE;
const MP_DATA MPBOOL_TRUE = 1.0; // Value of true
const MP_DATA MPBOOL_FALSE = 0.0; // Value of false
//------------------------------------------------------------------------------
// Define the types of curves which are supported
//------------------------------------------------------------------------------
typedef enum _MP_CURVE_TYPE {
MP_CURVE_JUMP = 0x0001, // No interpolation, just jump to next point
MP_CURVE_LINEAR = 0x0002, // Linear interpolation (y follows x from 0.0 to 1.0)
MP_CURVE_SQUARE = 0x0004, // y follow x^2 from 0.0 to 1.0
MP_CURVE_INVSQUARE = 0x0008, // y follows 1-(x^2) from 0.0 to 1.0
MP_CURVE_SINE = 0x0010, // y follows sin(x) from -pi/2 to pi/2
} MP_CURVE_TYPE;
//------------------------------------------------------------------------------
// Capability bits. Used by the object to specify what capabilities it has.
//------------------------------------------------------------------------------
typedef DWORD MP_CAPS;
// Curve capabilities - If the cap bit is set, that type of curve is supported
const MP_CAPS MP_CAPS_CURVE_JUMP = MP_CURVE_JUMP;
const MP_CAPS MP_CAPS_CURVE_LINEAR = MP_CURVE_LINEAR;
const MP_CAPS MP_CAPS_CURVE_SQUARE = MP_CURVE_SQUARE;
const MP_CAPS MP_CAPS_CURVE_INVSQUARE = MP_CURVE_INVSQUARE;
const MP_CAPS MP_CAPS_CURVE_SINE = MP_CURVE_SINE;
//------------------------------------------------------------------------------
// Structure used to return information about the type and limits of a parameter
//------------------------------------------------------------------------------
typedef struct _MP_PARAMINFO {
MP_TYPE mpType; // One of MP_TYPE_xxx codes
MP_CAPS mopCaps; // A collection of MP_CAPS flags
// Minimum and maximum values
MP_DATA mpdMinValue; // minimum legal value
MP_DATA mpdMaxValue; // maximum legal value
MP_DATA mpdNeutralValue; // default or 'center' value
// Defualt Unit and Label text. These strings will ALWAYS be English
// strings in the UNICODE character set. For international text
// use the GetParamText member function
WCHAR szUnitText[32]; // units of the parameter
WCHAR szLabel[32]; // name of the parameter
} MP_PARAMINFO;
//------------------------------------------------------------------------------
// Parameter Index types
//------------------------------------------------------------------------------
typedef DWORD DWORD;
const DWORD DWORD_ALLPARAMS = -1; // Apply this operation to all params
//------------------------------------------------------------------------------
// Defined list of timestamp types
//------------------------------------------------------------------------------
typedef DWORD MP_TIMEDATA; // Extra data to further define type
// REFERENCE_TIME (1 tick = 100 nanoseconds, MP_TIMEDATA ignored)
cpp_quote("DEFINE_GUID(GUID_TIME_REFERENCE,")
cpp_quote("0x93ad712b, 0xdaa0, 0x4ffe, 0xbc, 0x81, 0xb0, 0xce, 0x50, 0xf, 0xcd, 0xd9);")
// Music Time (MP_TIMEDATA = parts/quarter note)
cpp_quote("DEFINE_GUID(GUID_TIME_MUSIC,")
cpp_quote("0x574c49d, 0x5b04, 0x4b15, 0xa5, 0x42, 0xae, 0x28, 0x20, 0x30, 0x11, 0x7b);")
// Time is measures in samples. MP_TIMEDATA = Samples/sec)
cpp_quote("DEFINE_GUID(GUID_TIME_SAMPLES,")
cpp_quote("0xa8593d05, 0xc43, 0x4984, 0x9a, 0x63, 0x97, 0xaf, 0x9e, 0x2, 0xc4, 0xc0);")
//------------------------------------------------------------------------------
// The value of a given parameter at a specific point in time
//------------------------------------------------------------------------------
typedef DWORD MP_FLAGS;
const MP_FLAGS MPF_ENVLP_STANDARD = 0x0000; // Use all data provided
const MP_FLAGS MPF_ENVLP_BEGIN_CURRENTVAL = 0x0001;
// Ignore valStart value, use current value as the staring point
const MP_FLAGS MPF_ENVLP_BEGIN_NEUTRALVAL = 0x0002;
// Ignore valStart value, use neutral value as the staring point
typedef struct _MP_ENVELOPE_SEGMENT {
REFERENCE_TIME rtStart; // Start time in current time format
REFERENCE_TIME rtEnd; // End time in current time format
MP_DATA valStart; // Initial Value
MP_DATA valEnd; // Final Value
MP_CURVE_TYPE iCurve; // One of MP_CURVE_TYPE codes
MP_FLAGS flags; // Special cases
} MP_ENVELOPE_SEGMENT;
//------------------------------------------------------------------------------
// Define flags for Punch-in timing
//------------------------------------------------------------------------------
const MP_FLAGS MPF_PUNCHIN_REFTIME = 0; // Use the reference time as the PI time
const MP_FLAGS MPF_PUNCHIN_NOW = 0x0001; // Punch in at the current clock time
const MP_FLAGS MPF_PUNCHIN_STOPPED = 0x0002; // Return change notifications during
// author time
//------------------------------------------------------------------------------
// IMediaParamInfo - Interface used to determine the names, data types and
// units of the parameters which are exposed by the object. This interface
// is used at discovery time, and is not required during run-time since the
// objects parameters are a fixed set and this data can be cached by the
// calling applicaiton.
//------------------------------------------------------------------------------
[
object,
uuid(6d6cbb60-a223-44aa-842f-a2f06750be6d),
version(1.0)
]
interface IMediaParamInfo : IUnknown
{
HRESULT GetParamCount (
[out] DWORD * pdwParams
);
HRESULT GetParamInfo (
[in] DWORD dwParamIndex,
[out] MP_PARAMINFO * pInfo
);
// returns a series of null terminated strings. strings are in the
// following order:
// Param Label, Units Text, 1st Enum Text, 2nd Enum Text, etc...
HRESULT GetParamText (
[in] DWORD dwParamIndex, // which param to get text for
[out] WCHAR **ppwchText // returns ptr to CoTaskMemAlloc'd string
);
// Returns the number of diffrent time formats this object understands
HRESULT GetNumTimeFormats (
[out] DWORD * pdwNumTimeFormats
);
// Returns the GUID for the ith supported time format
HRESULT GetSupportedTimeFormat(
[in] DWORD dwFormatIndex,
[out] GUID *pguidTimeFormat
);
// Returns the current time format
HRESULT GetCurrentTimeFormat (
[out] GUID *pguidTimeFormat,
[out] MP_TIMEDATA *pTimeData
);
}
//------------------------------------------------------------------------------
// IMediaParams - Interfaes used to actually set the media params and the
// envelopes to follow
//------------------------------------------------------------------------------
[
object,
uuid(6d6cbb61-a223-44aa-842f-a2f06750be6e),
version(1.0)
]
interface IMediaParams : IUnknown
{
// Single param Get/Set methods
HRESULT GetParam (
[in] DWORD dwParamIndex,
[out] MP_DATA *pValue
);
HRESULT SetParam (
[in] DWORD dwParamIndex,
[in] MP_DATA value
);
// Envelope methods (param change over time)
HRESULT AddEnvelope (
[in] DWORD dwParamIndex,
[in] DWORD cSegments,
[in] MP_ENVELOPE_SEGMENT * pEnvelopeSegments
);
// Flush all of the envelope information for the given paramter between
// the timestamps specified
HRESULT FlushEnvelope (
[in] DWORD dwParamIndex,
[in] REFERENCE_TIME refTimeStart,
[in] REFERENCE_TIME refTimeEnd
);
// Change the time format being used by the object
HRESULT SetTimeFormat (
[in] GUID guidTimeFormat,
[in] MP_TIMEDATA mpTimeData
);
}

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//------------------------------------------------------------------------------
// File: MMStream.idl
//
// Desc: MultiMedia streaming interface IDL file. Used by MIDL tool
// to generate mmstream.h.
//
// Copyright (c) 1998-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
import "unknwn.idl";
cpp_quote("#define MS_ERROR_CODE(x) MAKE_HRESULT(1, FACILITY_ITF, (x) + 0x400)")
cpp_quote("#define MS_SUCCESS_CODE(x) MAKE_HRESULT(0, FACILITY_ITF, x)")
cpp_quote("#define MS_S_PENDING MS_SUCCESS_CODE(1)")
cpp_quote("#define MS_S_NOUPDATE MS_SUCCESS_CODE(2)")
cpp_quote("#define MS_S_ENDOFSTREAM MS_SUCCESS_CODE(3)")
cpp_quote("#define MS_E_SAMPLEALLOC MS_ERROR_CODE(1)")
cpp_quote("#define MS_E_PURPOSEID MS_ERROR_CODE(2)")
cpp_quote("#define MS_E_NOSTREAM MS_ERROR_CODE(3)")
cpp_quote("#define MS_E_NOSEEKING MS_ERROR_CODE(4)")
cpp_quote("#define MS_E_INCOMPATIBLE MS_ERROR_CODE(5)")
cpp_quote("#define MS_E_BUSY MS_ERROR_CODE(6)")
cpp_quote("#define MS_E_NOTINIT MS_ERROR_CODE(7)")
cpp_quote("#define MS_E_SOURCEALREADYDEFINED MS_ERROR_CODE(8)")
cpp_quote("#define MS_E_INVALIDSTREAMTYPE MS_ERROR_CODE(9)")
cpp_quote("#define MS_E_NOTRUNNING MS_ERROR_CODE(10)")
cpp_quote("// {A35FF56A-9FDA-11d0-8FDF-00C04FD9189D}")
cpp_quote("DEFINE_GUID(MSPID_PrimaryVideo, ")
cpp_quote("0xa35ff56a, 0x9fda, 0x11d0, 0x8f, 0xdf, 0x0, 0xc0, 0x4f, 0xd9, 0x18, 0x9d);")
cpp_quote("// {A35FF56B-9FDA-11d0-8FDF-00C04FD9189D}")
cpp_quote("DEFINE_GUID(MSPID_PrimaryAudio,")
cpp_quote("0xa35ff56b, 0x9fda, 0x11d0, 0x8f, 0xdf, 0x0, 0xc0, 0x4f, 0xd9, 0x18, 0x9d);")
cpp_quote("#if(_WIN32_WINNT < 0x0400)")
typedef void (__stdcall * PAPCFUNC)(DWORD_PTR dwParam);
cpp_quote("#endif")
typedef LONGLONG STREAM_TIME;
typedef GUID MSPID;
typedef REFGUID REFMSPID;
typedef enum {
STREAMTYPE_READ = 0,
STREAMTYPE_WRITE = 1,
STREAMTYPE_TRANSFORM= 2
} STREAM_TYPE;
typedef enum {
STREAMSTATE_STOP = 0,
STREAMSTATE_RUN = 1
} STREAM_STATE;
typedef enum {
COMPSTAT_NOUPDATEOK = 0x00000001,
COMPSTAT_WAIT = 0x00000002,
COMPSTAT_ABORT = 0x00000004
} COMPLETION_STATUS_FLAGS;
// Flags for GetInformation
enum {
MMSSF_HASCLOCK = 0x00000001,
MMSSF_SUPPORTSEEK = 0x00000002,
MMSSF_ASYNCHRONOUS = 0x00000004
};
// Flags for StreamSample::Update
enum {
SSUPDATE_ASYNC = 0x00000001,
SSUPDATE_CONTINUOUS = 0x00000002
};
interface IMultiMediaStream;
interface IMediaStream;
interface IStreamSample;
// IMultiMediaStream interface
[
object,
local,
uuid(B502D1BC-9A57-11d0-8FDE-00C04FD9189D),
pointer_default(unique)
]
interface IMultiMediaStream : IUnknown {
HRESULT GetInformation(
[out] DWORD *pdwFlags,
[out] STREAM_TYPE *pStreamType);
HRESULT GetMediaStream(
[in] REFMSPID idPurpose,
[out] IMediaStream **ppMediaStream);
HRESULT EnumMediaStreams(
[in] long Index,
[out] IMediaStream **ppMediaStream);
HRESULT GetState(
[out] STREAM_STATE *pCurrentState);
HRESULT SetState(
[in] STREAM_STATE NewState);
HRESULT GetTime(
[out] STREAM_TIME *pCurrentTime);
HRESULT GetDuration(
[out] STREAM_TIME *pDuration);
HRESULT Seek(
[in] STREAM_TIME SeekTime);
HRESULT GetEndOfStreamEventHandle(
[out] HANDLE *phEOS);
};
// IMediaStream interface
[
object,
uuid(B502D1BD-9A57-11d0-8FDE-00C04FD9189D),
pointer_default(unique)
]
interface IMediaStream : IUnknown {
HRESULT GetMultiMediaStream(
[out] IMultiMediaStream **ppMultiMediaStream);
HRESULT GetInformation(
[out] MSPID *pPurposeId,
[out] STREAM_TYPE *pType);
HRESULT SetSameFormat(
[in] IMediaStream *pStreamThatHasDesiredFormat,
[in] DWORD dwFlags);
HRESULT AllocateSample(
[in] DWORD dwFlags,
[out] IStreamSample **ppSample);
HRESULT CreateSharedSample(
[in] IStreamSample *pExistingSample,
[in] DWORD dwFlags,
[out] IStreamSample **ppNewSample);
HRESULT SendEndOfStream(DWORD dwFlags);
};
// IStreamSample interface
[
object,
local,
uuid(B502D1BE-9A57-11d0-8FDE-00C04FD9189D),
pointer_default(unique)
]
interface IStreamSample : IUnknown {
HRESULT GetMediaStream(
[in] IMediaStream **ppMediaStream);
HRESULT GetSampleTimes(
[out] STREAM_TIME * pStartTime,
[out] STREAM_TIME * pEndTime,
[out] STREAM_TIME * pCurrentTime);
HRESULT SetSampleTimes(
[in] const STREAM_TIME *pStartTime,
[in] const STREAM_TIME *pEndTime);
HRESULT Update(
[in] DWORD dwFlags,
[in] HANDLE hEvent,
[in] PAPCFUNC pfnAPC,
[in] DWORD_PTR dwAPCData);
HRESULT CompletionStatus(
[in] DWORD dwFlags,
[in] DWORD dwMilliseconds);
};

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//------------------------------------------------------------------------------
// File: RegBag.idl
//
// Desc: IDL source for RegBag.dll.
//
// Copyright (c) 1999-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
cpp_quote("//+-------------------------------------------------------------------------")
cpp_quote("//")
cpp_quote("// Microsoft Windows")
cpp_quote("// Copyright (C) Microsoft Corporation, 1999-2001.")
cpp_quote("//")
cpp_quote("//--------------------------------------------------------------------------")
cpp_quote("#pragma once")
#ifndef DO_NO_IMPORTS
import "objidl.idl";
import "oaidl.idl";
import "ocidl.idl";
#endif
//*****************************************************************************
///////////////////////////////////////////////////////////////////////////////
//
// Custom Factory interface
// since com doesn't support ctors or initialization parameters on std factory interface
// we have a custom creation interface
//
///////////////////////////////////////////////////////////////////////////////
//*****************************************************************************
///////////////////////////////////////////////////////////////////////////////////////
[object,
hidden, restricted,
uuid(8A674B48-1F63-11d3-B64C-00C04F79498E),
helpstring("Create property bag backed by registry"),
pointer_default(unique),
local
]
interface ICreatePropBagOnRegKey : IUnknown {
// NOTE: it is up to the caller to set the correct registry access based on the interface
// and methods the caller intends to use
// IPropertyBag2::GetPropertyInfo and CountProperties require both KEY_QUERY_VALUE and KEY_ENUMERATE_SUBKEYS
// IPropertyBagXXX::Read requires KEY_READ
// IPropertyBagXXX::Write requires KEY_WRITE
// also, you must CoTaskMemFree the name string from GetPropertyInfo
// if you write a value of VT_EMPTY or VT_NULL the property will be removed from the bag and the corresponding
// registry info will be deleted.
HRESULT Create([in] HKEY hkey, [in] LPCOLESTR subkey, [in] DWORD ulOptions, [in] DWORD samDesired, REFIID iid, [out] LPVOID *ppBag);
};

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//------------------------------------------------------------------------------
// File: StrmIf.idl
//
// Desc: ActiveMovie interface definitions.
//
// Copyright (c) 1992-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
//
// Temporarily disable the /W4 compiler warning C4201, which will be
// reported by all apps which include streams.h or dshow.h, which both
// include the strmif.h generated by this IDL file.
//
cpp_quote("//+-------------------------------------------------------------------------")
cpp_quote("//")
cpp_quote("// Copyright (C) Microsoft Corporation, 1999-2001.")
cpp_quote("//")
cpp_quote("//--------------------------------------------------------------------------")
cpp_quote("// Disable /W4 compiler warning C4201: nameless struct/union")
cpp_quote("#pragma warning(disable:4201) // Disable C4201: nameless struct/union")
cpp_quote(" ") // Blank space
import "unknwn.idl";
import "objidl.idl"; // for IPersist (IFilter's root)
#include "devenum.idl"
// Core interfaces
#include "axcore.idl"
// Extended, ActiveMovie-only interfaces
#include "axextend.idl"
#if (WINVER < 0x501)
#include "IAMovie.idl"
#endif
// Application interfaces for DVD
#include "dvdif.idl"
// Dynamic graph stuff
#include "dyngraph.idl"
// This include is only valid when building for Windows XP
#if (WINVER >= 0x501)
// Video Mixing Renderer
#include "VMRender.idl"
#endif
//
// Restore the previous setting for C4201 compiler warning
//
cpp_quote("// Restore the previous setting for C4201 compiler warning")
cpp_quote("#pragma warning(default:4201)")

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//------------------------------------------------------------------------------
// File: iwstdec.h
//
// Desc: WST Decoder related definitions and interfaces for ActiveMovie
//
// Copyright (c) 1999-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
//
#ifndef __IWSTDEC__
#define __IWSTDEC__
//
// Some data types used as WST decoder parameters by the interface
//
typedef struct _AM_WST_PAGE {
DWORD dwPageNr ;
DWORD dwSubPageNr ;
BYTE *pucPageData;
} AM_WST_PAGE, *PAM_WST_PAGE ;
typedef enum _AM_WST_LEVEL {
AM_WST_LEVEL_1_5 = 0
} AM_WST_LEVEL, *PAM_WST_LEVEL ;
typedef enum _AM_WST_SERVICE {
AM_WST_SERVICE_None = 0,
AM_WST_SERVICE_Text,
AM_WST_SERVICE_IDS,
AM_WST_SERVICE_Invalid
} AM_WST_SERVICE, *PAM_WST_SERVICE ;
typedef enum _AM_WST_STATE {
AM_WST_STATE_Off = 0,
AM_WST_STATE_On
} AM_WST_STATE, *PAM_WST_STATE ;
typedef enum _AM_WST_STYLE {
AM_WST_STYLE_None = 0,
AM_WST_STYLE_Invers
} AM_WST_STYLE, *PAM_WST_STYLE ;
typedef enum _AM_WST_DRAWBGMODE {
AM_WST_DRAWBGMODE_Opaque,
AM_WST_DRAWBGMODE_Transparent
} AM_WST_DRAWBGMODE, *PAM_WST_DRAWBGMODE ;
#ifdef __cplusplus
extern "C" {
#endif // __cplusplus
//
// WST Decoder standard COM interface
//
DECLARE_INTERFACE_(IAMWstDecoder, IUnknown)
{
public:
//
// Decoder options to be used by apps
//
// What is the decoder's level
STDMETHOD(GetDecoderLevel)(THIS_ AM_WST_LEVEL *lpLevel) PURE ;
// STDMETHOD(SetDecoderLevel)(THIS_ AM_WST_LEVEL Level) PURE ;
// Which of the services is being currently used
STDMETHOD(GetCurrentService)(THIS_ AM_WST_SERVICE *lpService) PURE ;
// STDMETHOD(SetCurrentService)(THIS_ AM_WST_SERVICE Service) PURE ;
// Query/Set the service state (On/Off)
// supported state values are AM_WSTState_On and AM_WSTState_Off
STDMETHOD(GetServiceState)(THIS_ AM_WST_STATE *lpState) PURE ;
STDMETHOD(SetServiceState)(THIS_ AM_WST_STATE State) PURE ;
//
// Output options to be used by downstream filters
//
// What size, bitdepth etc should the output video be
STDMETHOD(GetOutputFormat)(THIS_ LPBITMAPINFOHEADER lpbmih) PURE ;
// GetOutputFormat() method, if successful, returns
// 1. S_FALSE if no output format has so far been defined by downstream filters
// 2. S_OK if an output format has already been defined by downstream filters
STDMETHOD(SetOutputFormat)(THIS_ LPBITMAPINFO lpbmi) PURE ;
// Specify physical color to be used in colorkeying the background
// for overlay mixing
STDMETHOD(GetBackgroundColor)(THIS_ DWORD *pdwPhysColor) PURE ;
STDMETHOD(SetBackgroundColor)(THIS_ DWORD dwPhysColor) PURE ;
// Specify if whole output bitmap should be redrawn for each sample
STDMETHOD(GetRedrawAlways)(THIS_ LPBOOL lpbOption) PURE ;
STDMETHOD(SetRedrawAlways)(THIS_ BOOL bOption) PURE ;
// Specify if the caption text background should be opaque/transparent
STDMETHOD(GetDrawBackgroundMode)(THIS_ AM_WST_DRAWBGMODE *lpMode) PURE ;
STDMETHOD(SetDrawBackgroundMode)(THIS_ AM_WST_DRAWBGMODE Mode) PURE ;
// supported mode values are AM_WST_DrawBGMode_Opaque and
// AM_WST_DrawBGMode_Transparent
STDMETHOD(SetAnswerMode)(THIS_ BOOL bAnswer) PURE ;
STDMETHOD(GetAnswerMode)(THIS_ BOOL* pbAnswer) PURE ;
STDMETHOD(SetHoldPage)(THIS_ BOOL bHoldPage) PURE ;
STDMETHOD(GetHoldPage)(THIS_ BOOL* pbHoldPage) PURE ;
STDMETHOD(GetCurrentPage)(THIS_ PAM_WST_PAGE pWstPage) PURE;
STDMETHOD(SetCurrentPage)(THIS_ AM_WST_PAGE WstPage) PURE;
} ;
#ifdef __cplusplus
}
#endif // __cplusplus
#endif // __IWSTDEC__

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extern/include/activecf.h vendored
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//------------------------------------------------------------------------------
// File: ActiveCf.h
//
// Desc: Contains the data formats for the transfer of VfW4 filters via the
// clipboard.
//
// Copyright (c) 1992-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
#define CFSTR_VFW_FILTERLIST "Video for Windows 4 Filters"
typedef struct tagVFW_FILTERLIST{
UINT cFilters; // number of CLSIDs in aClsId
CLSID aClsId[1]; // ClsId of each filter
} VFW_FILTERLIST;

54
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//------------------------------------------------------------------------------
// File: AMAudio.h
//
// Desc: Audio related definitions and interfaces for ActiveMovie.
//
// Copyright (c) 1992-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
#ifndef __AMAUDIO__
#define __AMAUDIO__
#ifdef __cplusplus
extern "C" {
#endif // __cplusplus
#include <mmsystem.h>
#include <dsound.h>
// This is the interface the audio renderer supports to give the application
// access to the direct sound object and the buffers it is using, to allow the
// application to use things like the 3D features of Direct Sound for the
// soundtrack of a movie being played with Active Movie.
// be nice to our friends in C
#undef INTERFACE
#define INTERFACE IAMDirectSound
DECLARE_INTERFACE_(IAMDirectSound,IUnknown)
{
/* IUnknown methods */
STDMETHOD(QueryInterface)(THIS_ REFIID riid, LPVOID *ppvObj) PURE;
STDMETHOD_(ULONG,AddRef)(THIS) PURE;
STDMETHOD_(ULONG,Release)(THIS) PURE;
/* IAMDirectSound methods */
STDMETHOD(GetDirectSoundInterface)(THIS_ LPDIRECTSOUND *lplpds) PURE;
STDMETHOD(GetPrimaryBufferInterface)(THIS_ LPDIRECTSOUNDBUFFER *lplpdsb) PURE;
STDMETHOD(GetSecondaryBufferInterface)(THIS_ LPDIRECTSOUNDBUFFER *lplpdsb) PURE;
STDMETHOD(ReleaseDirectSoundInterface)(THIS_ LPDIRECTSOUND lpds) PURE;
STDMETHOD(ReleasePrimaryBufferInterface)(THIS_ LPDIRECTSOUNDBUFFER lpdsb) PURE;
STDMETHOD(ReleaseSecondaryBufferInterface)(THIS_ LPDIRECTSOUNDBUFFER lpdsb) PURE;
STDMETHOD(SetFocusWindow)(THIS_ HWND, BOOL) PURE ;
STDMETHOD(GetFocusWindow)(THIS_ HWND *, BOOL*) PURE ;
};
#ifdef __cplusplus
}
#endif // __cplusplus
#endif // __AMAUDIO__

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//------------------------------------------------------------------------------
// File: AMParse.h
//
// Desc: Interface to the parser to get current time. This is useful for
// multifile playback.
//
// Copyright (c) 1996-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
#ifndef __AMPARSE__
#define __AMPARSE__
#ifdef __cplusplus
extern "C" {
#endif // __cplusplus
DEFINE_GUID(IID_IAMParse,
0xc47a3420, 0x005c, 0x11d2, 0x90, 0x38, 0x00, 0xa0, 0xc9, 0x69, 0x72, 0x98);
//
// Parser interface - supported by MPEG-2 splitter filter
//
DECLARE_INTERFACE_(IAMParse, IUnknown) {
STDMETHOD(GetParseTime) (THIS_
REFERENCE_TIME *prtCurrent
) PURE;
STDMETHOD(SetParseTime) (THIS_
REFERENCE_TIME rtCurrent
) PURE;
STDMETHOD(Flush) (THIS) PURE;
};
#ifdef __cplusplus
}
#endif // __cplusplus
#endif // __AMPARSE__

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//------------------------------------------------------------------------------
// File: AMVA.h
//
// Desc: DirectShowMotionComp include file.
//
// Copyright (c) 1997-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
#ifndef __AMVA_INCLUDED__
#define __AMVA_INCLUDED__
#ifdef __cplusplus
extern "C" {
#endif
#define AMVA_TYPEINDEX_OUTPUTFRAME 0xFFFFFFFF
// Flags for QueryRenderStatus
#define AMVA_QUERYRENDERSTATUSF_READ 0x00000001 // Query for read
// set this bit to 0
// if query for update
typedef struct _tag_AMVAUncompBufferInfo
{
DWORD dwMinNumSurfaces; // IN min number of surfaces to be allocated
DWORD dwMaxNumSurfaces; // IN max number of surfaces to be allocated
DDPIXELFORMAT ddUncompPixelFormat; // IN pixel format of surfaces to be allocated
} AMVAUncompBufferInfo, *LPAMVAUncompBufferInfo;
typedef struct _tag_AMVAUncompDataInfo
{
DWORD dwUncompWidth; // [in] width of uncompressed data
DWORD dwUncompHeight; // [in] height of uncompressed data
DDPIXELFORMAT ddUncompPixelFormat; // [in] pixel-format of uncompressed data
} AMVAUncompDataInfo, *LPAMVAUncompDataInfo;
typedef struct _tag_AMVAInternalMemInfo
{
DWORD dwScratchMemAlloc; // [out] amount of scratch memory will the hal allocate for its private use
} AMVAInternalMemInfo, *LPAMVAInternalMemInfo;
typedef struct _tag_AMVACompBufferInfo
{
DWORD dwNumCompBuffers; // [out] number of buffers reqd for compressed data
DWORD dwWidthToCreate; // [out] Width of surface to create
DWORD dwHeightToCreate; // [out] Height of surface to create
DWORD dwBytesToAllocate; // [out] Total number of bytes used by each surface
DDSCAPS2 ddCompCaps; // [out] caps to create surfaces to store compressed data
DDPIXELFORMAT ddPixelFormat; // [out] fourcc to create surfaces to store compressed data
} AMVACompBufferInfo, *LPAMVACompBufferInfo;
// Note that you are NOT allowed to store any pointer in pMiscData
typedef struct _tag_AMVABeginFrameInfo
{
DWORD dwDestSurfaceIndex; // IN destination buffer in which to decoding this frame
LPVOID pInputData; // IN pointer to misc data
DWORD dwSizeInputData; // IN size of other misc data to begin frame
LPVOID pOutputData; // OUT pointer to data which the VGA is going to fill
DWORD dwSizeOutputData; // IN size of data which the VGA is going to fill
} AMVABeginFrameInfo, *LPAMVABeginFrameInfo;
// Note that you are NOT allowed to store any pointer in pMiscData
typedef struct _tag_AMVAEndFrameInfo
{
DWORD dwSizeMiscData; // [in] size of other misc data to begin frame
LPVOID pMiscData; // [in] pointer to misc data
} AMVAEndFrameInfo, *LPAMVAEndFrameInfo;
typedef struct _tag_AMVABUFFERINFO
{
DWORD dwTypeIndex; // [in] Type of buffer
DWORD dwBufferIndex; // [in] Buffer index
DWORD dwDataOffset; // [in] offset of relevant data from the beginning of buffer
DWORD dwDataSize; // [in] size of relevant data
} AMVABUFFERINFO, *LPAMVABUFFERINFO;
#ifdef __cplusplus
};
#endif
#endif // _AMVA_INCLUDED

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//------------------------------------------------------------------------------
// File: ATSMedia.h
//
// Desc: Broadcast Driver Architecture Media Definitions for ATSC
//
// Copyright (c) 1996-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
#if !defined(_KSMEDIA_)
#error KSMEDIA.H must be included before BDAMEDIA.H
#endif // !defined(_KSMEDIA_)
#if !defined(_BDAMEDIA_)
#error BDAMEDIA.H must be included before ATSCMEDIA.H
#endif // !defined(_KSMEDIA_)
#if !defined(_ATSCMEDIA_)
#define _ATSCMEDIA_
//===========================================================================
//
// ATSC Network Type
//
//===========================================================================
#define STATIC_BDANETWORKTYPE_ATSC\
0x71985f51, 0x1ca1, 0x11d3, 0x9c, 0xc8, 0x0, 0xc0, 0x4f, 0x79, 0x71, 0xe0
DEFINE_GUIDSTRUCT("71985F51-1CA1-11d3-9CC8-00C04F7971E0", BDANETWORKTYPE_ATSC);
#define BDANETWORKTYPE_ATSC DEFINE_GUIDNAMED(BDANETWORKTYPE_ATSC)
#endif // _ATSCMEDIA_

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//------------------------------------------------------------------------------
// File: AudEvCod.h
//
// Desc: List of Audio device error event codes and the expected params.
//
// Copyright (c) 1999-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
#ifndef __AUDEVCOD__
#define __AUDEVCOD__
#define EC_SND_DEVICE_ERROR_BASE 0x0200
typedef enum _tagSND_DEVICE_ERROR {
SNDDEV_ERROR_Open=1,
SNDDEV_ERROR_Close=2,
SNDDEV_ERROR_GetCaps=3,
SNDDEV_ERROR_PrepareHeader=4,
SNDDEV_ERROR_UnprepareHeader=5,
SNDDEV_ERROR_Reset=6,
SNDDEV_ERROR_Restart=7,
SNDDEV_ERROR_GetPosition=8,
SNDDEV_ERROR_Write=9,
SNDDEV_ERROR_Pause=10,
SNDDEV_ERROR_Stop=11,
SNDDEV_ERROR_Start=12,
SNDDEV_ERROR_AddBuffer=13,
SNDDEV_ERROR_Query=14,
} SNDDEV_ERR;
// Sound device error event codes
// ==============================
//
// All audio device error events are always passed on to the application, and are
// never processed by the filter graph
#define EC_SNDDEV_IN_ERROR (EC_SND_DEVICE_ERROR_BASE + 0x00)
#define EC_SNDDEV_OUT_ERROR (EC_SND_DEVICE_ERROR_BASE + 0x01)
// Parameters: ( DWORD, DWORD)
// lParam1 is an enum SND_DEVICE_ERROR which notifies the app how the device was
// being accessed when the failure occurred.
//
// lParam2 is the error returned from the sound device call.
//
#endif // __AUDEVCOD__

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#pragma warning( disable: 4049 ) /* more than 64k source lines */
/* this ALWAYS GENERATED file contains the definitions for the interfaces */
/* File created by MIDL compiler version 6.00.0347 */
/* Compiler settings for austream.idl:
Oicf, W1, Zp8, env=Win32 (32b run)
protocol : dce , ms_ext, c_ext, robust
error checks: allocation ref bounds_check enum stub_data
VC __declspec() decoration level:
__declspec(uuid()), __declspec(selectany), __declspec(novtable)
DECLSPEC_UUID(), MIDL_INTERFACE()
*/
//@@MIDL_FILE_HEADING( )
/* verify that the <rpcndr.h> version is high enough to compile this file*/
#ifndef __REQUIRED_RPCNDR_H_VERSION__
#define __REQUIRED_RPCNDR_H_VERSION__ 475
#endif
#include "rpc.h"
#include "rpcndr.h"
#ifndef __RPCNDR_H_VERSION__
#error this stub requires an updated version of <rpcndr.h>
#endif // __RPCNDR_H_VERSION__
#ifndef COM_NO_WINDOWS_H
#include "windows.h"
#include "ole2.h"
#endif /*COM_NO_WINDOWS_H*/
#ifndef __austream_h__
#define __austream_h__
#if defined(_MSC_VER) && (_MSC_VER >= 1020)
#pragma once
#endif
/* Forward Declarations */
#ifndef __IAudioMediaStream_FWD_DEFINED__
#define __IAudioMediaStream_FWD_DEFINED__
typedef interface IAudioMediaStream IAudioMediaStream;
#endif /* __IAudioMediaStream_FWD_DEFINED__ */
#ifndef __IAudioStreamSample_FWD_DEFINED__
#define __IAudioStreamSample_FWD_DEFINED__
typedef interface IAudioStreamSample IAudioStreamSample;
#endif /* __IAudioStreamSample_FWD_DEFINED__ */
#ifndef __IMemoryData_FWD_DEFINED__
#define __IMemoryData_FWD_DEFINED__
typedef interface IMemoryData IMemoryData;
#endif /* __IMemoryData_FWD_DEFINED__ */
#ifndef __IAudioData_FWD_DEFINED__
#define __IAudioData_FWD_DEFINED__
typedef interface IAudioData IAudioData;
#endif /* __IAudioData_FWD_DEFINED__ */
/* header files for imported files */
#include "unknwn.h"
#include "mmstream.h"
#ifdef __cplusplus
extern "C"{
#endif
void * __RPC_USER MIDL_user_allocate(size_t);
void __RPC_USER MIDL_user_free( void * );
/* interface __MIDL_itf_austream_0000 */
/* [local] */
//
// The following declarations within the 'if 0' block are dummy typedefs used to make
// the ddstream.idl file build. The actual definitions are contained in DDRAW.H
//
#if 0
typedef struct tWAVEFORMATEX WAVEFORMATEX;
#endif
extern RPC_IF_HANDLE __MIDL_itf_austream_0000_v0_0_c_ifspec;
extern RPC_IF_HANDLE __MIDL_itf_austream_0000_v0_0_s_ifspec;
#ifndef __IAudioMediaStream_INTERFACE_DEFINED__
#define __IAudioMediaStream_INTERFACE_DEFINED__
/* interface IAudioMediaStream */
/* [unique][uuid][local][object] */
EXTERN_C const IID IID_IAudioMediaStream;
#if defined(__cplusplus) && !defined(CINTERFACE)
MIDL_INTERFACE("f7537560-a3be-11d0-8212-00c04fc32c45")
IAudioMediaStream : public IMediaStream
{
public:
virtual HRESULT STDMETHODCALLTYPE GetFormat(
/* [out] */ WAVEFORMATEX *pWaveFormatCurrent) = 0;
virtual HRESULT STDMETHODCALLTYPE SetFormat(
/* [in] */ const WAVEFORMATEX *lpWaveFormat) = 0;
virtual HRESULT STDMETHODCALLTYPE CreateSample(
/* [in] */ IAudioData *pAudioData,
/* [in] */ DWORD dwFlags,
/* [out] */ IAudioStreamSample **ppSample) = 0;
};
#else /* C style interface */
typedef struct IAudioMediaStreamVtbl
{
BEGIN_INTERFACE
HRESULT ( STDMETHODCALLTYPE *QueryInterface )(
IAudioMediaStream * This,
/* [in] */ REFIID riid,
/* [iid_is][out] */ void **ppvObject);
ULONG ( STDMETHODCALLTYPE *AddRef )(
IAudioMediaStream * This);
ULONG ( STDMETHODCALLTYPE *Release )(
IAudioMediaStream * This);
HRESULT ( STDMETHODCALLTYPE *GetMultiMediaStream )(
IAudioMediaStream * This,
/* [out] */ IMultiMediaStream **ppMultiMediaStream);
HRESULT ( STDMETHODCALLTYPE *GetInformation )(
IAudioMediaStream * This,
/* [out] */ MSPID *pPurposeId,
/* [out] */ STREAM_TYPE *pType);
HRESULT ( STDMETHODCALLTYPE *SetSameFormat )(
IAudioMediaStream * This,
/* [in] */ IMediaStream *pStreamThatHasDesiredFormat,
/* [in] */ DWORD dwFlags);
HRESULT ( STDMETHODCALLTYPE *AllocateSample )(
IAudioMediaStream * This,
/* [in] */ DWORD dwFlags,
/* [out] */ IStreamSample **ppSample);
HRESULT ( STDMETHODCALLTYPE *CreateSharedSample )(
IAudioMediaStream * This,
/* [in] */ IStreamSample *pExistingSample,
/* [in] */ DWORD dwFlags,
/* [out] */ IStreamSample **ppNewSample);
HRESULT ( STDMETHODCALLTYPE *SendEndOfStream )(
IAudioMediaStream * This,
DWORD dwFlags);
HRESULT ( STDMETHODCALLTYPE *GetFormat )(
IAudioMediaStream * This,
/* [out] */ WAVEFORMATEX *pWaveFormatCurrent);
HRESULT ( STDMETHODCALLTYPE *SetFormat )(
IAudioMediaStream * This,
/* [in] */ const WAVEFORMATEX *lpWaveFormat);
HRESULT ( STDMETHODCALLTYPE *CreateSample )(
IAudioMediaStream * This,
/* [in] */ IAudioData *pAudioData,
/* [in] */ DWORD dwFlags,
/* [out] */ IAudioStreamSample **ppSample);
END_INTERFACE
} IAudioMediaStreamVtbl;
interface IAudioMediaStream
{
CONST_VTBL struct IAudioMediaStreamVtbl *lpVtbl;
};
#ifdef COBJMACROS
#define IAudioMediaStream_QueryInterface(This,riid,ppvObject) \
(This)->lpVtbl -> QueryInterface(This,riid,ppvObject)
#define IAudioMediaStream_AddRef(This) \
(This)->lpVtbl -> AddRef(This)
#define IAudioMediaStream_Release(This) \
(This)->lpVtbl -> Release(This)
#define IAudioMediaStream_GetMultiMediaStream(This,ppMultiMediaStream) \
(This)->lpVtbl -> GetMultiMediaStream(This,ppMultiMediaStream)
#define IAudioMediaStream_GetInformation(This,pPurposeId,pType) \
(This)->lpVtbl -> GetInformation(This,pPurposeId,pType)
#define IAudioMediaStream_SetSameFormat(This,pStreamThatHasDesiredFormat,dwFlags) \
(This)->lpVtbl -> SetSameFormat(This,pStreamThatHasDesiredFormat,dwFlags)
#define IAudioMediaStream_AllocateSample(This,dwFlags,ppSample) \
(This)->lpVtbl -> AllocateSample(This,dwFlags,ppSample)
#define IAudioMediaStream_CreateSharedSample(This,pExistingSample,dwFlags,ppNewSample) \
(This)->lpVtbl -> CreateSharedSample(This,pExistingSample,dwFlags,ppNewSample)
#define IAudioMediaStream_SendEndOfStream(This,dwFlags) \
(This)->lpVtbl -> SendEndOfStream(This,dwFlags)
#define IAudioMediaStream_GetFormat(This,pWaveFormatCurrent) \
(This)->lpVtbl -> GetFormat(This,pWaveFormatCurrent)
#define IAudioMediaStream_SetFormat(This,lpWaveFormat) \
(This)->lpVtbl -> SetFormat(This,lpWaveFormat)
#define IAudioMediaStream_CreateSample(This,pAudioData,dwFlags,ppSample) \
(This)->lpVtbl -> CreateSample(This,pAudioData,dwFlags,ppSample)
#endif /* COBJMACROS */
#endif /* C style interface */
HRESULT STDMETHODCALLTYPE IAudioMediaStream_GetFormat_Proxy(
IAudioMediaStream * This,
/* [out] */ WAVEFORMATEX *pWaveFormatCurrent);
void __RPC_STUB IAudioMediaStream_GetFormat_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
HRESULT STDMETHODCALLTYPE IAudioMediaStream_SetFormat_Proxy(
IAudioMediaStream * This,
/* [in] */ const WAVEFORMATEX *lpWaveFormat);
void __RPC_STUB IAudioMediaStream_SetFormat_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
HRESULT STDMETHODCALLTYPE IAudioMediaStream_CreateSample_Proxy(
IAudioMediaStream * This,
/* [in] */ IAudioData *pAudioData,
/* [in] */ DWORD dwFlags,
/* [out] */ IAudioStreamSample **ppSample);
void __RPC_STUB IAudioMediaStream_CreateSample_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
#endif /* __IAudioMediaStream_INTERFACE_DEFINED__ */
#ifndef __IAudioStreamSample_INTERFACE_DEFINED__
#define __IAudioStreamSample_INTERFACE_DEFINED__
/* interface IAudioStreamSample */
/* [unique][uuid][local][object] */
EXTERN_C const IID IID_IAudioStreamSample;
#if defined(__cplusplus) && !defined(CINTERFACE)
MIDL_INTERFACE("345fee00-aba5-11d0-8212-00c04fc32c45")
IAudioStreamSample : public IStreamSample
{
public:
virtual HRESULT STDMETHODCALLTYPE GetAudioData(
/* [out] */ IAudioData **ppAudio) = 0;
};
#else /* C style interface */
typedef struct IAudioStreamSampleVtbl
{
BEGIN_INTERFACE
HRESULT ( STDMETHODCALLTYPE *QueryInterface )(
IAudioStreamSample * This,
/* [in] */ REFIID riid,
/* [iid_is][out] */ void **ppvObject);
ULONG ( STDMETHODCALLTYPE *AddRef )(
IAudioStreamSample * This);
ULONG ( STDMETHODCALLTYPE *Release )(
IAudioStreamSample * This);
HRESULT ( STDMETHODCALLTYPE *GetMediaStream )(
IAudioStreamSample * This,
/* [in] */ IMediaStream **ppMediaStream);
HRESULT ( STDMETHODCALLTYPE *GetSampleTimes )(
IAudioStreamSample * This,
/* [out] */ STREAM_TIME *pStartTime,
/* [out] */ STREAM_TIME *pEndTime,
/* [out] */ STREAM_TIME *pCurrentTime);
HRESULT ( STDMETHODCALLTYPE *SetSampleTimes )(
IAudioStreamSample * This,
/* [in] */ const STREAM_TIME *pStartTime,
/* [in] */ const STREAM_TIME *pEndTime);
HRESULT ( STDMETHODCALLTYPE *Update )(
IAudioStreamSample * This,
/* [in] */ DWORD dwFlags,
/* [in] */ HANDLE hEvent,
/* [in] */ PAPCFUNC pfnAPC,
/* [in] */ DWORD_PTR dwAPCData);
HRESULT ( STDMETHODCALLTYPE *CompletionStatus )(
IAudioStreamSample * This,
/* [in] */ DWORD dwFlags,
/* [in] */ DWORD dwMilliseconds);
HRESULT ( STDMETHODCALLTYPE *GetAudioData )(
IAudioStreamSample * This,
/* [out] */ IAudioData **ppAudio);
END_INTERFACE
} IAudioStreamSampleVtbl;
interface IAudioStreamSample
{
CONST_VTBL struct IAudioStreamSampleVtbl *lpVtbl;
};
#ifdef COBJMACROS
#define IAudioStreamSample_QueryInterface(This,riid,ppvObject) \
(This)->lpVtbl -> QueryInterface(This,riid,ppvObject)
#define IAudioStreamSample_AddRef(This) \
(This)->lpVtbl -> AddRef(This)
#define IAudioStreamSample_Release(This) \
(This)->lpVtbl -> Release(This)
#define IAudioStreamSample_GetMediaStream(This,ppMediaStream) \
(This)->lpVtbl -> GetMediaStream(This,ppMediaStream)
#define IAudioStreamSample_GetSampleTimes(This,pStartTime,pEndTime,pCurrentTime) \
(This)->lpVtbl -> GetSampleTimes(This,pStartTime,pEndTime,pCurrentTime)
#define IAudioStreamSample_SetSampleTimes(This,pStartTime,pEndTime) \
(This)->lpVtbl -> SetSampleTimes(This,pStartTime,pEndTime)
#define IAudioStreamSample_Update(This,dwFlags,hEvent,pfnAPC,dwAPCData) \
(This)->lpVtbl -> Update(This,dwFlags,hEvent,pfnAPC,dwAPCData)
#define IAudioStreamSample_CompletionStatus(This,dwFlags,dwMilliseconds) \
(This)->lpVtbl -> CompletionStatus(This,dwFlags,dwMilliseconds)
#define IAudioStreamSample_GetAudioData(This,ppAudio) \
(This)->lpVtbl -> GetAudioData(This,ppAudio)
#endif /* COBJMACROS */
#endif /* C style interface */
HRESULT STDMETHODCALLTYPE IAudioStreamSample_GetAudioData_Proxy(
IAudioStreamSample * This,
/* [out] */ IAudioData **ppAudio);
void __RPC_STUB IAudioStreamSample_GetAudioData_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
#endif /* __IAudioStreamSample_INTERFACE_DEFINED__ */
#ifndef __IMemoryData_INTERFACE_DEFINED__
#define __IMemoryData_INTERFACE_DEFINED__
/* interface IMemoryData */
/* [unique][uuid][local][object] */
EXTERN_C const IID IID_IMemoryData;
#if defined(__cplusplus) && !defined(CINTERFACE)
MIDL_INTERFACE("327fc560-af60-11d0-8212-00c04fc32c45")
IMemoryData : public IUnknown
{
public:
virtual HRESULT STDMETHODCALLTYPE SetBuffer(
/* [in] */ DWORD cbSize,
/* [in] */ BYTE *pbData,
/* [in] */ DWORD dwFlags) = 0;
virtual HRESULT STDMETHODCALLTYPE GetInfo(
/* [out] */ DWORD *pdwLength,
/* [out] */ BYTE **ppbData,
/* [out] */ DWORD *pcbActualData) = 0;
virtual HRESULT STDMETHODCALLTYPE SetActual(
/* [in] */ DWORD cbDataValid) = 0;
};
#else /* C style interface */
typedef struct IMemoryDataVtbl
{
BEGIN_INTERFACE
HRESULT ( STDMETHODCALLTYPE *QueryInterface )(
IMemoryData * This,
/* [in] */ REFIID riid,
/* [iid_is][out] */ void **ppvObject);
ULONG ( STDMETHODCALLTYPE *AddRef )(
IMemoryData * This);
ULONG ( STDMETHODCALLTYPE *Release )(
IMemoryData * This);
HRESULT ( STDMETHODCALLTYPE *SetBuffer )(
IMemoryData * This,
/* [in] */ DWORD cbSize,
/* [in] */ BYTE *pbData,
/* [in] */ DWORD dwFlags);
HRESULT ( STDMETHODCALLTYPE *GetInfo )(
IMemoryData * This,
/* [out] */ DWORD *pdwLength,
/* [out] */ BYTE **ppbData,
/* [out] */ DWORD *pcbActualData);
HRESULT ( STDMETHODCALLTYPE *SetActual )(
IMemoryData * This,
/* [in] */ DWORD cbDataValid);
END_INTERFACE
} IMemoryDataVtbl;
interface IMemoryData
{
CONST_VTBL struct IMemoryDataVtbl *lpVtbl;
};
#ifdef COBJMACROS
#define IMemoryData_QueryInterface(This,riid,ppvObject) \
(This)->lpVtbl -> QueryInterface(This,riid,ppvObject)
#define IMemoryData_AddRef(This) \
(This)->lpVtbl -> AddRef(This)
#define IMemoryData_Release(This) \
(This)->lpVtbl -> Release(This)
#define IMemoryData_SetBuffer(This,cbSize,pbData,dwFlags) \
(This)->lpVtbl -> SetBuffer(This,cbSize,pbData,dwFlags)
#define IMemoryData_GetInfo(This,pdwLength,ppbData,pcbActualData) \
(This)->lpVtbl -> GetInfo(This,pdwLength,ppbData,pcbActualData)
#define IMemoryData_SetActual(This,cbDataValid) \
(This)->lpVtbl -> SetActual(This,cbDataValid)
#endif /* COBJMACROS */
#endif /* C style interface */
HRESULT STDMETHODCALLTYPE IMemoryData_SetBuffer_Proxy(
IMemoryData * This,
/* [in] */ DWORD cbSize,
/* [in] */ BYTE *pbData,
/* [in] */ DWORD dwFlags);
void __RPC_STUB IMemoryData_SetBuffer_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
HRESULT STDMETHODCALLTYPE IMemoryData_GetInfo_Proxy(
IMemoryData * This,
/* [out] */ DWORD *pdwLength,
/* [out] */ BYTE **ppbData,
/* [out] */ DWORD *pcbActualData);
void __RPC_STUB IMemoryData_GetInfo_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
HRESULT STDMETHODCALLTYPE IMemoryData_SetActual_Proxy(
IMemoryData * This,
/* [in] */ DWORD cbDataValid);
void __RPC_STUB IMemoryData_SetActual_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
#endif /* __IMemoryData_INTERFACE_DEFINED__ */
#ifndef __IAudioData_INTERFACE_DEFINED__
#define __IAudioData_INTERFACE_DEFINED__
/* interface IAudioData */
/* [unique][uuid][local][object] */
EXTERN_C const IID IID_IAudioData;
#if defined(__cplusplus) && !defined(CINTERFACE)
MIDL_INTERFACE("54c719c0-af60-11d0-8212-00c04fc32c45")
IAudioData : public IMemoryData
{
public:
virtual HRESULT STDMETHODCALLTYPE GetFormat(
/* [out] */ WAVEFORMATEX *pWaveFormatCurrent) = 0;
virtual HRESULT STDMETHODCALLTYPE SetFormat(
/* [in] */ const WAVEFORMATEX *lpWaveFormat) = 0;
};
#else /* C style interface */
typedef struct IAudioDataVtbl
{
BEGIN_INTERFACE
HRESULT ( STDMETHODCALLTYPE *QueryInterface )(
IAudioData * This,
/* [in] */ REFIID riid,
/* [iid_is][out] */ void **ppvObject);
ULONG ( STDMETHODCALLTYPE *AddRef )(
IAudioData * This);
ULONG ( STDMETHODCALLTYPE *Release )(
IAudioData * This);
HRESULT ( STDMETHODCALLTYPE *SetBuffer )(
IAudioData * This,
/* [in] */ DWORD cbSize,
/* [in] */ BYTE *pbData,
/* [in] */ DWORD dwFlags);
HRESULT ( STDMETHODCALLTYPE *GetInfo )(
IAudioData * This,
/* [out] */ DWORD *pdwLength,
/* [out] */ BYTE **ppbData,
/* [out] */ DWORD *pcbActualData);
HRESULT ( STDMETHODCALLTYPE *SetActual )(
IAudioData * This,
/* [in] */ DWORD cbDataValid);
HRESULT ( STDMETHODCALLTYPE *GetFormat )(
IAudioData * This,
/* [out] */ WAVEFORMATEX *pWaveFormatCurrent);
HRESULT ( STDMETHODCALLTYPE *SetFormat )(
IAudioData * This,
/* [in] */ const WAVEFORMATEX *lpWaveFormat);
END_INTERFACE
} IAudioDataVtbl;
interface IAudioData
{
CONST_VTBL struct IAudioDataVtbl *lpVtbl;
};
#ifdef COBJMACROS
#define IAudioData_QueryInterface(This,riid,ppvObject) \
(This)->lpVtbl -> QueryInterface(This,riid,ppvObject)
#define IAudioData_AddRef(This) \
(This)->lpVtbl -> AddRef(This)
#define IAudioData_Release(This) \
(This)->lpVtbl -> Release(This)
#define IAudioData_SetBuffer(This,cbSize,pbData,dwFlags) \
(This)->lpVtbl -> SetBuffer(This,cbSize,pbData,dwFlags)
#define IAudioData_GetInfo(This,pdwLength,ppbData,pcbActualData) \
(This)->lpVtbl -> GetInfo(This,pdwLength,ppbData,pcbActualData)
#define IAudioData_SetActual(This,cbDataValid) \
(This)->lpVtbl -> SetActual(This,cbDataValid)
#define IAudioData_GetFormat(This,pWaveFormatCurrent) \
(This)->lpVtbl -> GetFormat(This,pWaveFormatCurrent)
#define IAudioData_SetFormat(This,lpWaveFormat) \
(This)->lpVtbl -> SetFormat(This,lpWaveFormat)
#endif /* COBJMACROS */
#endif /* C style interface */
HRESULT STDMETHODCALLTYPE IAudioData_GetFormat_Proxy(
IAudioData * This,
/* [out] */ WAVEFORMATEX *pWaveFormatCurrent);
void __RPC_STUB IAudioData_GetFormat_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
HRESULT STDMETHODCALLTYPE IAudioData_SetFormat_Proxy(
IAudioData * This,
/* [in] */ const WAVEFORMATEX *lpWaveFormat);
void __RPC_STUB IAudioData_SetFormat_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
#endif /* __IAudioData_INTERFACE_DEFINED__ */
/* Additional Prototypes for ALL interfaces */
/* end of Additional Prototypes */
#ifdef __cplusplus
}
#endif
#endif

402
extern/include/aviriff.h vendored
View File

@ -1,402 +0,0 @@
//------------------------------------------------------------------------------
// File: AVIRIFF.h
//
// Desc: Structures and defines for the RIFF AVI file format extended to
// handle very large/long files.
//
// Copyright (c) 1996-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
// Disable some compiler warnings
#pragma warning(disable: 4097 4511 4512 4514 4705)
#if !defined AVIRIFF_H
#define AVIRIFF_H
#if !defined NUMELMS
#define NUMELMS(aa) (sizeof(aa)/sizeof((aa)[0]))
#endif
// all structures in this file are packed on word boundaries
//
#include <pshpack2.h>
/*
* heres the general layout of an AVI riff file (new format)
*
* RIFF (3F??????) AVI <- not more than 1 GB in size
* LIST (size) hdrl
* avih (0038)
* LIST (size) strl
* strh (0038)
* strf (????)
* indx (3ff8) <- size may vary, should be sector sized
* LIST (size) strl
* strh (0038)
* strf (????)
* indx (3ff8) <- size may vary, should be sector sized
* LIST (size) odml
* dmlh (????)
* JUNK (size) <- fill to align to sector - 12
* LIST (7f??????) movi <- aligned on sector - 12
* 00dc (size) <- sector aligned
* 01wb (size) <- sector aligned
* ix00 (size) <- sector aligned
* idx1 (00??????) <- sector aligned
* RIFF (7F??????) AVIX
* JUNK (size) <- fill to align to sector -12
* LIST (size) movi
* 00dc (size) <- sector aligned
* RIFF (7F??????) AVIX <- not more than 2GB in size
* JUNK (size) <- fill to align to sector - 12
* LIST (size) movi
* 00dc (size) <- sector aligned
*
*-===================================================================*/
//
// structures for manipulating RIFF headers
//
#define FCC(ch4) ((((DWORD)(ch4) & 0xFF) << 24) | \
(((DWORD)(ch4) & 0xFF00) << 8) | \
(((DWORD)(ch4) & 0xFF0000) >> 8) | \
(((DWORD)(ch4) & 0xFF000000) >> 24))
typedef struct _riffchunk {
FOURCC fcc;
DWORD cb;
} RIFFCHUNK, * LPRIFFCHUNK;
typedef struct _rifflist {
FOURCC fcc;
DWORD cb;
FOURCC fccListType;
} RIFFLIST, * LPRIFFLIST;
#define RIFFROUND(cb) ((cb) + ((cb)&1))
#define RIFFNEXT(pChunk) (LPRIFFCHUNK)((LPBYTE)(pChunk) \
+ sizeof(RIFFCHUNK) \
+ RIFFROUND(((LPRIFFCHUNK)pChunk)->cb))
//
// ==================== avi header structures ===========================
//
// main header for the avi file (compatibility header)
//
#define ckidMAINAVIHEADER FCC('avih')
typedef struct _avimainheader {
FOURCC fcc; // 'avih'
DWORD cb; // size of this structure -8
DWORD dwMicroSecPerFrame; // frame display rate (or 0L)
DWORD dwMaxBytesPerSec; // max. transfer rate
DWORD dwPaddingGranularity; // pad to multiples of this size; normally 2K.
DWORD dwFlags; // the ever-present flags
#define AVIF_HASINDEX 0x00000010 // Index at end of file?
#define AVIF_MUSTUSEINDEX 0x00000020
#define AVIF_ISINTERLEAVED 0x00000100
#define AVIF_TRUSTCKTYPE 0x00000800 // Use CKType to find key frames
#define AVIF_WASCAPTUREFILE 0x00010000
#define AVIF_COPYRIGHTED 0x00020000
DWORD dwTotalFrames; // # frames in first movi list
DWORD dwInitialFrames;
DWORD dwStreams;
DWORD dwSuggestedBufferSize;
DWORD dwWidth;
DWORD dwHeight;
DWORD dwReserved[4];
} AVIMAINHEADER;
#define ckidODML FCC('odml')
#define ckidAVIEXTHEADER FCC('dmlh')
typedef struct _aviextheader {
FOURCC fcc; // 'dmlh'
DWORD cb; // size of this structure -8
DWORD dwGrandFrames; // total number of frames in the file
DWORD dwFuture[61]; // to be defined later
} AVIEXTHEADER;
//
// structure of an AVI stream header riff chunk
//
#define ckidSTREAMLIST FCC('strl')
#ifndef ckidSTREAMHEADER
#define ckidSTREAMHEADER FCC('strh')
#endif
typedef struct _avistreamheader {
FOURCC fcc; // 'strh'
DWORD cb; // size of this structure - 8
FOURCC fccType; // stream type codes
#ifndef streamtypeVIDEO
#define streamtypeVIDEO FCC('vids')
#define streamtypeAUDIO FCC('auds')
#define streamtypeMIDI FCC('mids')
#define streamtypeTEXT FCC('txts')
#endif
FOURCC fccHandler;
DWORD dwFlags;
#define AVISF_DISABLED 0x00000001
#define AVISF_VIDEO_PALCHANGES 0x00010000
WORD wPriority;
WORD wLanguage;
DWORD dwInitialFrames;
DWORD dwScale;
DWORD dwRate; // dwRate/dwScale is stream tick rate in ticks/sec
DWORD dwStart;
DWORD dwLength;
DWORD dwSuggestedBufferSize;
DWORD dwQuality;
DWORD dwSampleSize;
struct {
short int left;
short int top;
short int right;
short int bottom;
} rcFrame;
} AVISTREAMHEADER;
//
// structure of an AVI stream format chunk
//
#ifndef ckidSTREAMFORMAT
#define ckidSTREAMFORMAT FCC('strf')
#endif
//
// avi stream formats are different for each stream type
//
// BITMAPINFOHEADER for video streams
// WAVEFORMATEX or PCMWAVEFORMAT for audio streams
// nothing for text streams
// nothing for midi streams
#pragma warning(disable:4200)
//
// structure of old style AVI index
//
#define ckidAVIOLDINDEX FCC('idx1')
typedef struct _avioldindex {
FOURCC fcc; // 'idx1'
DWORD cb; // size of this structure -8
struct _avioldindex_entry {
DWORD dwChunkId;
DWORD dwFlags;
#ifndef AVIIF_LIST
#define AVIIF_LIST 0x00000001
#define AVIIF_KEYFRAME 0x00000010
#endif
#define AVIIF_NO_TIME 0x00000100
#define AVIIF_COMPRESSOR 0x0FFF0000 // unused?
DWORD dwOffset; // offset of riff chunk header for the data
DWORD dwSize; // size of the data (excluding riff header size)
} aIndex[]; // size of this array
} AVIOLDINDEX;
//
// ============ structures for timecode in an AVI file =================
//
#ifndef TIMECODE_DEFINED
#define TIMECODE_DEFINED
// defined
// timecode time structure
//
typedef union _timecode {
struct {
WORD wFrameRate;
WORD wFrameFract;
LONG cFrames;
};
DWORDLONG qw;
} TIMECODE;
#endif // TIMECODE_DEFINED
#define TIMECODE_RATE_30DROP 0 // this MUST be zero
// struct for all the SMPTE timecode info
//
typedef struct _timecodedata {
TIMECODE time;
DWORD dwSMPTEflags;
DWORD dwUser;
} TIMECODEDATA;
// dwSMPTEflags masks/values
//
#define TIMECODE_SMPTE_BINARY_GROUP 0x07
#define TIMECODE_SMPTE_COLOR_FRAME 0x08
//
// ============ structures for new style AVI indexes =================
//
// index type codes
//
#define AVI_INDEX_OF_INDEXES 0x00
#define AVI_INDEX_OF_CHUNKS 0x01
#define AVI_INDEX_OF_TIMED_CHUNKS 0x02
#define AVI_INDEX_OF_SUB_2FIELD 0x03
#define AVI_INDEX_IS_DATA 0x80
// index subtype codes
//
#define AVI_INDEX_SUB_DEFAULT 0x00
// INDEX_OF_CHUNKS subtype codes
//
#define AVI_INDEX_SUB_2FIELD 0x01
// meta structure of all avi indexes
//
typedef struct _avimetaindex {
FOURCC fcc;
UINT cb;
WORD wLongsPerEntry;
BYTE bIndexSubType;
BYTE bIndexType;
DWORD nEntriesInUse;
DWORD dwChunkId;
DWORD dwReserved[3];
DWORD adwIndex[];
} AVIMETAINDEX;
#define STDINDEXSIZE 0x4000
#define NUMINDEX(wLongsPerEntry) ((STDINDEXSIZE-32)/4/(wLongsPerEntry))
#define NUMINDEXFILL(wLongsPerEntry) ((STDINDEXSIZE/4) - NUMINDEX(wLongsPerEntry))
// structure of a super index (INDEX_OF_INDEXES)
//
#define ckidAVISUPERINDEX FCC('indx')
typedef struct _avisuperindex {
FOURCC fcc; // 'indx'
UINT cb; // size of this structure
WORD wLongsPerEntry; // ==4
BYTE bIndexSubType; // ==0 (frame index) or AVI_INDEX_SUB_2FIELD
BYTE bIndexType; // ==AVI_INDEX_OF_INDEXES
DWORD nEntriesInUse; // offset of next unused entry in aIndex
DWORD dwChunkId; // chunk ID of chunks being indexed, (i.e. RGB8)
DWORD dwReserved[3]; // must be 0
struct _avisuperindex_entry {
DWORDLONG qwOffset; // 64 bit offset to sub index chunk
DWORD dwSize; // 32 bit size of sub index chunk
DWORD dwDuration; // time span of subindex chunk (in stream ticks)
} aIndex[NUMINDEX(4)];
} AVISUPERINDEX;
#define Valid_SUPERINDEX(pi) (*(DWORD *)(&((pi)->wLongsPerEntry)) == (4 | (AVI_INDEX_OF_INDEXES << 24)))
// struct of a standard index (AVI_INDEX_OF_CHUNKS)
//
typedef struct _avistdindex_entry {
DWORD dwOffset; // 32 bit offset to data (points to data, not riff header)
DWORD dwSize; // 31 bit size of data (does not include size of riff header), bit 31 is deltaframe bit
} AVISTDINDEX_ENTRY;
#define AVISTDINDEX_DELTAFRAME ( 0x80000000) // Delta frames have the high bit set
#define AVISTDINDEX_SIZEMASK (~0x80000000)
typedef struct _avistdindex {
FOURCC fcc; // 'indx' or '##ix'
UINT cb; // size of this structure
WORD wLongsPerEntry; // ==2
BYTE bIndexSubType; // ==0
BYTE bIndexType; // ==AVI_INDEX_OF_CHUNKS
DWORD nEntriesInUse; // offset of next unused entry in aIndex
DWORD dwChunkId; // chunk ID of chunks being indexed, (i.e. RGB8)
DWORDLONG qwBaseOffset; // base offset that all index intries are relative to
DWORD dwReserved_3; // must be 0
AVISTDINDEX_ENTRY aIndex[NUMINDEX(2)];
} AVISTDINDEX;
// struct of a time variant standard index (AVI_INDEX_OF_TIMED_CHUNKS)
//
typedef struct _avitimedindex_entry {
DWORD dwOffset; // 32 bit offset to data (points to data, not riff header)
DWORD dwSize; // 31 bit size of data (does not include size of riff header) (high bit is deltaframe bit)
DWORD dwDuration; // how much time the chunk should be played (in stream ticks)
} AVITIMEDINDEX_ENTRY;
typedef struct _avitimedindex {
FOURCC fcc; // 'indx' or '##ix'
UINT cb; // size of this structure
WORD wLongsPerEntry; // ==3
BYTE bIndexSubType; // ==0
BYTE bIndexType; // ==AVI_INDEX_OF_TIMED_CHUNKS
DWORD nEntriesInUse; // offset of next unused entry in aIndex
DWORD dwChunkId; // chunk ID of chunks being indexed, (i.e. RGB8)
DWORDLONG qwBaseOffset; // base offset that all index intries are relative to
DWORD dwReserved_3; // must be 0
AVITIMEDINDEX_ENTRY aIndex[NUMINDEX(3)];
DWORD adwTrailingFill[NUMINDEXFILL(3)]; // to align struct to correct size
} AVITIMEDINDEX;
// structure of a timecode stream
//
typedef struct _avitimecodeindex {
FOURCC fcc; // 'indx' or '##ix'
UINT cb; // size of this structure
WORD wLongsPerEntry; // ==4
BYTE bIndexSubType; // ==0
BYTE bIndexType; // ==AVI_INDEX_IS_DATA
DWORD nEntriesInUse; // offset of next unused entry in aIndex
DWORD dwChunkId; // 'time'
DWORD dwReserved[3]; // must be 0
TIMECODEDATA aIndex[NUMINDEX(sizeof(TIMECODEDATA)/sizeof(LONG))];
} AVITIMECODEINDEX;
// structure of a timecode discontinuity list (when wLongsPerEntry == 7)
//
typedef struct _avitcdlindex_entry {
DWORD dwTick; // stream tick time that maps to this timecode value
TIMECODE time;
DWORD dwSMPTEflags;
DWORD dwUser;
TCHAR szReelId[12];
} AVITCDLINDEX_ENTRY;
typedef struct _avitcdlindex {
FOURCC fcc; // 'indx' or '##ix'
UINT cb; // size of this structure
WORD wLongsPerEntry; // ==7 (must be 4 or more all 'tcdl' indexes
BYTE bIndexSubType; // ==0
BYTE bIndexType; // ==AVI_INDEX_IS_DATA
DWORD nEntriesInUse; // offset of next unused entry in aIndex
DWORD dwChunkId; // 'tcdl'
DWORD dwReserved[3]; // must be 0
AVITCDLINDEX_ENTRY aIndex[NUMINDEX(7)];
DWORD adwTrailingFill[NUMINDEXFILL(7)]; // to align struct to correct size
} AVITCDLINDEX;
typedef struct _avifieldindex_chunk {
FOURCC fcc; // 'ix##'
DWORD cb; // size of this structure
WORD wLongsPerEntry; // must be 3 (size of each entry in
// aIndex array)
BYTE bIndexSubType; // AVI_INDEX_2FIELD
BYTE bIndexType; // AVI_INDEX_OF_CHUNKS
DWORD nEntriesInUse; //
DWORD dwChunkId; // '##dc' or '##db'
DWORDLONG qwBaseOffset; // offsets in aIndex array are relative to this
DWORD dwReserved3; // must be 0
struct _avifieldindex_entry {
DWORD dwOffset;
DWORD dwSize; // size of all fields
// (bit 31 set for NON-keyframes)
DWORD dwOffsetField2; // offset to second field
} aIndex[ ];
} AVIFIELDINDEX, * PAVIFIELDINDEX;
#include <poppack.h>
#endif

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//------------------------------------------------------------------------------
// File: COMLite.h
//
// Desc: This header file is to provide a migration path for users of
// ActiveMovie betas 1 and 2.
//
// Copyright (c) 1992-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
#ifndef _INC_COMLITE_
#define _INC_COMLITE_
#define QzInitialize CoInitialize
#define QzUninitialize CoUninitialize
#define QzFreeUnusedLibraries CoFreeUnusedLibraries
#define QzGetMalloc CoGetMalloc
#define QzTaskMemAlloc CoTaskMemAlloc
#define QzTaskMemRealloc CoTaskMemRealloc
#define QzTaskMemFree CoTaskMemFree
#define QzCreateFilterObject CoCreateInstance
#define QzCLSIDFromString CLSIDFromString
#define QzStringFromGUID2 StringFromGUID2
#endif // _INC_COMLITE_

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/*==========================================================================;
*
* Copyright (C) Microsoft Corporation. All Rights Reserved.
*
* File: d3d8caps.h
* Content: Direct3D capabilities include file
*
***************************************************************************/
#ifndef _D3D8CAPS_H
#define _D3D8CAPS_H
#ifndef DIRECT3D_VERSION
#define DIRECT3D_VERSION 0x0800
#endif //DIRECT3D_VERSION
// include this file content only if compiling for DX8 interfaces
#if(DIRECT3D_VERSION >= 0x0800)
#pragma pack(4)
typedef struct _D3DCAPS8
{
/* Device Info */
D3DDEVTYPE DeviceType;
UINT AdapterOrdinal;
/* Caps from DX7 Draw */
DWORD Caps;
DWORD Caps2;
DWORD Caps3;
DWORD PresentationIntervals;
/* Cursor Caps */
DWORD CursorCaps;
/* 3D Device Caps */
DWORD DevCaps;
DWORD PrimitiveMiscCaps;
DWORD RasterCaps;
DWORD ZCmpCaps;
DWORD SrcBlendCaps;
DWORD DestBlendCaps;
DWORD AlphaCmpCaps;
DWORD ShadeCaps;
DWORD TextureCaps;
DWORD TextureFilterCaps; // D3DPTFILTERCAPS for IDirect3DTexture8's
DWORD CubeTextureFilterCaps; // D3DPTFILTERCAPS for IDirect3DCubeTexture8's
DWORD VolumeTextureFilterCaps; // D3DPTFILTERCAPS for IDirect3DVolumeTexture8's
DWORD TextureAddressCaps; // D3DPTADDRESSCAPS for IDirect3DTexture8's
DWORD VolumeTextureAddressCaps; // D3DPTADDRESSCAPS for IDirect3DVolumeTexture8's
DWORD LineCaps; // D3DLINECAPS
DWORD MaxTextureWidth, MaxTextureHeight;
DWORD MaxVolumeExtent;
DWORD MaxTextureRepeat;
DWORD MaxTextureAspectRatio;
DWORD MaxAnisotropy;
float MaxVertexW;
float GuardBandLeft;
float GuardBandTop;
float GuardBandRight;
float GuardBandBottom;
float ExtentsAdjust;
DWORD StencilCaps;
DWORD FVFCaps;
DWORD TextureOpCaps;
DWORD MaxTextureBlendStages;
DWORD MaxSimultaneousTextures;
DWORD VertexProcessingCaps;
DWORD MaxActiveLights;
DWORD MaxUserClipPlanes;
DWORD MaxVertexBlendMatrices;
DWORD MaxVertexBlendMatrixIndex;
float MaxPointSize;
DWORD MaxPrimitiveCount; // max number of primitives per DrawPrimitive call
DWORD MaxVertexIndex;
DWORD MaxStreams;
DWORD MaxStreamStride; // max stride for SetStreamSource
DWORD VertexShaderVersion;
DWORD MaxVertexShaderConst; // number of vertex shader constant registers
DWORD PixelShaderVersion;
float MaxPixelShaderValue; // max value of pixel shader arithmetic component
} D3DCAPS8;
//
// BIT DEFINES FOR D3DCAPS8 DWORD MEMBERS
//
//
// Caps
//
#define D3DCAPS_READ_SCANLINE 0x00020000L
//
// Caps2
//
#define D3DCAPS2_NO2DDURING3DSCENE 0x00000002L
#define D3DCAPS2_FULLSCREENGAMMA 0x00020000L
#define D3DCAPS2_CANRENDERWINDOWED 0x00080000L
#define D3DCAPS2_CANCALIBRATEGAMMA 0x00100000L
#define D3DCAPS2_RESERVED 0x02000000L
#define D3DCAPS2_CANMANAGERESOURCE 0x10000000L
#define D3DCAPS2_DYNAMICTEXTURES 0x20000000L
//
// Caps3
//
#define D3DCAPS3_RESERVED 0x8000001fL
// Indicates that the device can respect the ALPHABLENDENABLE render state
// when fullscreen while using the FLIP or DISCARD swap effect.
// COPY and COPYVSYNC swap effects work whether or not this flag is set.
#define D3DCAPS3_ALPHA_FULLSCREEN_FLIP_OR_DISCARD 0x00000020L
//
// PresentationIntervals
//
#define D3DPRESENT_INTERVAL_DEFAULT 0x00000000L
#define D3DPRESENT_INTERVAL_ONE 0x00000001L
#define D3DPRESENT_INTERVAL_TWO 0x00000002L
#define D3DPRESENT_INTERVAL_THREE 0x00000004L
#define D3DPRESENT_INTERVAL_FOUR 0x00000008L
#define D3DPRESENT_INTERVAL_IMMEDIATE 0x80000000L
//
// CursorCaps
//
// Driver supports HW color cursor in at least hi-res modes(height >=400)
#define D3DCURSORCAPS_COLOR 0x00000001L
// Driver supports HW cursor also in low-res modes(height < 400)
#define D3DCURSORCAPS_LOWRES 0x00000002L
//
// DevCaps
//
#define D3DDEVCAPS_EXECUTESYSTEMMEMORY 0x00000010L /* Device can use execute buffers from system memory */
#define D3DDEVCAPS_EXECUTEVIDEOMEMORY 0x00000020L /* Device can use execute buffers from video memory */
#define D3DDEVCAPS_TLVERTEXSYSTEMMEMORY 0x00000040L /* Device can use TL buffers from system memory */
#define D3DDEVCAPS_TLVERTEXVIDEOMEMORY 0x00000080L /* Device can use TL buffers from video memory */
#define D3DDEVCAPS_TEXTURESYSTEMMEMORY 0x00000100L /* Device can texture from system memory */
#define D3DDEVCAPS_TEXTUREVIDEOMEMORY 0x00000200L /* Device can texture from device memory */
#define D3DDEVCAPS_DRAWPRIMTLVERTEX 0x00000400L /* Device can draw TLVERTEX primitives */
#define D3DDEVCAPS_CANRENDERAFTERFLIP 0x00000800L /* Device can render without waiting for flip to complete */
#define D3DDEVCAPS_TEXTURENONLOCALVIDMEM 0x00001000L /* Device can texture from nonlocal video memory */
#define D3DDEVCAPS_DRAWPRIMITIVES2 0x00002000L /* Device can support DrawPrimitives2 */
#define D3DDEVCAPS_SEPARATETEXTUREMEMORIES 0x00004000L /* Device is texturing from separate memory pools */
#define D3DDEVCAPS_DRAWPRIMITIVES2EX 0x00008000L /* Device can support Extended DrawPrimitives2 i.e. DX7 compliant driver*/
#define D3DDEVCAPS_HWTRANSFORMANDLIGHT 0x00010000L /* Device can support transformation and lighting in hardware and DRAWPRIMITIVES2EX must be also */
#define D3DDEVCAPS_CANBLTSYSTONONLOCAL 0x00020000L /* Device supports a Tex Blt from system memory to non-local vidmem */
#define D3DDEVCAPS_HWRASTERIZATION 0x00080000L /* Device has HW acceleration for rasterization */
#define D3DDEVCAPS_PUREDEVICE 0x00100000L /* Device supports D3DCREATE_PUREDEVICE */
#define D3DDEVCAPS_QUINTICRTPATCHES 0x00200000L /* Device supports quintic Beziers and BSplines */
#define D3DDEVCAPS_RTPATCHES 0x00400000L /* Device supports Rect and Tri patches */
#define D3DDEVCAPS_RTPATCHHANDLEZERO 0x00800000L /* Indicates that RT Patches may be drawn efficiently using handle 0 */
#define D3DDEVCAPS_NPATCHES 0x01000000L /* Device supports N-Patches */
//
// PrimitiveMiscCaps
//
#define D3DPMISCCAPS_MASKZ 0x00000002L
#define D3DPMISCCAPS_LINEPATTERNREP 0x00000004L
#define D3DPMISCCAPS_CULLNONE 0x00000010L
#define D3DPMISCCAPS_CULLCW 0x00000020L
#define D3DPMISCCAPS_CULLCCW 0x00000040L
#define D3DPMISCCAPS_COLORWRITEENABLE 0x00000080L
#define D3DPMISCCAPS_CLIPPLANESCALEDPOINTS 0x00000100L /* Device correctly clips scaled points to clip planes */
#define D3DPMISCCAPS_CLIPTLVERTS 0x00000200L /* device will clip post-transformed vertex primitives */
#define D3DPMISCCAPS_TSSARGTEMP 0x00000400L /* device supports D3DTA_TEMP for temporary register */
#define D3DPMISCCAPS_BLENDOP 0x00000800L /* device supports D3DRS_BLENDOP */
#define D3DPMISCCAPS_NULLREFERENCE 0x00001000L /* Reference Device that doesnt render */
//
// LineCaps
//
#define D3DLINECAPS_TEXTURE 0x00000001L
#define D3DLINECAPS_ZTEST 0x00000002L
#define D3DLINECAPS_BLEND 0x00000004L
#define D3DLINECAPS_ALPHACMP 0x00000008L
#define D3DLINECAPS_FOG 0x00000010L
//
// RasterCaps
//
#define D3DPRASTERCAPS_DITHER 0x00000001L
#define D3DPRASTERCAPS_PAT 0x00000008L
#define D3DPRASTERCAPS_ZTEST 0x00000010L
#define D3DPRASTERCAPS_FOGVERTEX 0x00000080L
#define D3DPRASTERCAPS_FOGTABLE 0x00000100L
#define D3DPRASTERCAPS_ANTIALIASEDGES 0x00001000L
#define D3DPRASTERCAPS_MIPMAPLODBIAS 0x00002000L
#define D3DPRASTERCAPS_ZBIAS 0x00004000L
#define D3DPRASTERCAPS_ZBUFFERLESSHSR 0x00008000L
#define D3DPRASTERCAPS_FOGRANGE 0x00010000L
#define D3DPRASTERCAPS_ANISOTROPY 0x00020000L
#define D3DPRASTERCAPS_WBUFFER 0x00040000L
#define D3DPRASTERCAPS_WFOG 0x00100000L
#define D3DPRASTERCAPS_ZFOG 0x00200000L
#define D3DPRASTERCAPS_COLORPERSPECTIVE 0x00400000L /* Device iterates colors perspective correct */
#define D3DPRASTERCAPS_STRETCHBLTMULTISAMPLE 0x00800000L
//
// ZCmpCaps, AlphaCmpCaps
//
#define D3DPCMPCAPS_NEVER 0x00000001L
#define D3DPCMPCAPS_LESS 0x00000002L
#define D3DPCMPCAPS_EQUAL 0x00000004L
#define D3DPCMPCAPS_LESSEQUAL 0x00000008L
#define D3DPCMPCAPS_GREATER 0x00000010L
#define D3DPCMPCAPS_NOTEQUAL 0x00000020L
#define D3DPCMPCAPS_GREATEREQUAL 0x00000040L
#define D3DPCMPCAPS_ALWAYS 0x00000080L
//
// SourceBlendCaps, DestBlendCaps
//
#define D3DPBLENDCAPS_ZERO 0x00000001L
#define D3DPBLENDCAPS_ONE 0x00000002L
#define D3DPBLENDCAPS_SRCCOLOR 0x00000004L
#define D3DPBLENDCAPS_INVSRCCOLOR 0x00000008L
#define D3DPBLENDCAPS_SRCALPHA 0x00000010L
#define D3DPBLENDCAPS_INVSRCALPHA 0x00000020L
#define D3DPBLENDCAPS_DESTALPHA 0x00000040L
#define D3DPBLENDCAPS_INVDESTALPHA 0x00000080L
#define D3DPBLENDCAPS_DESTCOLOR 0x00000100L
#define D3DPBLENDCAPS_INVDESTCOLOR 0x00000200L
#define D3DPBLENDCAPS_SRCALPHASAT 0x00000400L
#define D3DPBLENDCAPS_BOTHSRCALPHA 0x00000800L
#define D3DPBLENDCAPS_BOTHINVSRCALPHA 0x00001000L
//
// ShadeCaps
//
#define D3DPSHADECAPS_COLORGOURAUDRGB 0x00000008L
#define D3DPSHADECAPS_SPECULARGOURAUDRGB 0x00000200L
#define D3DPSHADECAPS_ALPHAGOURAUDBLEND 0x00004000L
#define D3DPSHADECAPS_FOGGOURAUD 0x00080000L
//
// TextureCaps
//
#define D3DPTEXTURECAPS_PERSPECTIVE 0x00000001L /* Perspective-correct texturing is supported */
#define D3DPTEXTURECAPS_POW2 0x00000002L /* Power-of-2 texture dimensions are required - applies to non-Cube/Volume textures only. */
#define D3DPTEXTURECAPS_ALPHA 0x00000004L /* Alpha in texture pixels is supported */
#define D3DPTEXTURECAPS_SQUAREONLY 0x00000020L /* Only square textures are supported */
#define D3DPTEXTURECAPS_TEXREPEATNOTSCALEDBYSIZE 0x00000040L /* Texture indices are not scaled by the texture size prior to interpolation */
#define D3DPTEXTURECAPS_ALPHAPALETTE 0x00000080L /* Device can draw alpha from texture palettes */
// Device can use non-POW2 textures if:
// 1) D3DTEXTURE_ADDRESS is set to CLAMP for this texture's stage
// 2) D3DRS_WRAP(N) is zero for this texture's coordinates
// 3) mip mapping is not enabled (use magnification filter only)
#define D3DPTEXTURECAPS_NONPOW2CONDITIONAL 0x00000100L
#define D3DPTEXTURECAPS_PROJECTED 0x00000400L /* Device can do D3DTTFF_PROJECTED */
#define D3DPTEXTURECAPS_CUBEMAP 0x00000800L /* Device can do cubemap textures */
#define D3DPTEXTURECAPS_VOLUMEMAP 0x00002000L /* Device can do volume textures */
#define D3DPTEXTURECAPS_MIPMAP 0x00004000L /* Device can do mipmapped textures */
#define D3DPTEXTURECAPS_MIPVOLUMEMAP 0x00008000L /* Device can do mipmapped volume textures */
#define D3DPTEXTURECAPS_MIPCUBEMAP 0x00010000L /* Device can do mipmapped cube maps */
#define D3DPTEXTURECAPS_CUBEMAP_POW2 0x00020000L /* Device requires that cubemaps be power-of-2 dimension */
#define D3DPTEXTURECAPS_VOLUMEMAP_POW2 0x00040000L /* Device requires that volume maps be power-of-2 dimension */
//
// TextureFilterCaps
//
#define D3DPTFILTERCAPS_MINFPOINT 0x00000100L /* Min Filter */
#define D3DPTFILTERCAPS_MINFLINEAR 0x00000200L
#define D3DPTFILTERCAPS_MINFANISOTROPIC 0x00000400L
#define D3DPTFILTERCAPS_MIPFPOINT 0x00010000L /* Mip Filter */
#define D3DPTFILTERCAPS_MIPFLINEAR 0x00020000L
#define D3DPTFILTERCAPS_MAGFPOINT 0x01000000L /* Mag Filter */
#define D3DPTFILTERCAPS_MAGFLINEAR 0x02000000L
#define D3DPTFILTERCAPS_MAGFANISOTROPIC 0x04000000L
#define D3DPTFILTERCAPS_MAGFAFLATCUBIC 0x08000000L
#define D3DPTFILTERCAPS_MAGFGAUSSIANCUBIC 0x10000000L
//
// TextureAddressCaps
//
#define D3DPTADDRESSCAPS_WRAP 0x00000001L
#define D3DPTADDRESSCAPS_MIRROR 0x00000002L
#define D3DPTADDRESSCAPS_CLAMP 0x00000004L
#define D3DPTADDRESSCAPS_BORDER 0x00000008L
#define D3DPTADDRESSCAPS_INDEPENDENTUV 0x00000010L
#define D3DPTADDRESSCAPS_MIRRORONCE 0x00000020L
//
// StencilCaps
//
#define D3DSTENCILCAPS_KEEP 0x00000001L
#define D3DSTENCILCAPS_ZERO 0x00000002L
#define D3DSTENCILCAPS_REPLACE 0x00000004L
#define D3DSTENCILCAPS_INCRSAT 0x00000008L
#define D3DSTENCILCAPS_DECRSAT 0x00000010L
#define D3DSTENCILCAPS_INVERT 0x00000020L
#define D3DSTENCILCAPS_INCR 0x00000040L
#define D3DSTENCILCAPS_DECR 0x00000080L
//
// TextureOpCaps
//
#define D3DTEXOPCAPS_DISABLE 0x00000001L
#define D3DTEXOPCAPS_SELECTARG1 0x00000002L
#define D3DTEXOPCAPS_SELECTARG2 0x00000004L
#define D3DTEXOPCAPS_MODULATE 0x00000008L
#define D3DTEXOPCAPS_MODULATE2X 0x00000010L
#define D3DTEXOPCAPS_MODULATE4X 0x00000020L
#define D3DTEXOPCAPS_ADD 0x00000040L
#define D3DTEXOPCAPS_ADDSIGNED 0x00000080L
#define D3DTEXOPCAPS_ADDSIGNED2X 0x00000100L
#define D3DTEXOPCAPS_SUBTRACT 0x00000200L
#define D3DTEXOPCAPS_ADDSMOOTH 0x00000400L
#define D3DTEXOPCAPS_BLENDDIFFUSEALPHA 0x00000800L
#define D3DTEXOPCAPS_BLENDTEXTUREALPHA 0x00001000L
#define D3DTEXOPCAPS_BLENDFACTORALPHA 0x00002000L
#define D3DTEXOPCAPS_BLENDTEXTUREALPHAPM 0x00004000L
#define D3DTEXOPCAPS_BLENDCURRENTALPHA 0x00008000L
#define D3DTEXOPCAPS_PREMODULATE 0x00010000L
#define D3DTEXOPCAPS_MODULATEALPHA_ADDCOLOR 0x00020000L
#define D3DTEXOPCAPS_MODULATECOLOR_ADDALPHA 0x00040000L
#define D3DTEXOPCAPS_MODULATEINVALPHA_ADDCOLOR 0x00080000L
#define D3DTEXOPCAPS_MODULATEINVCOLOR_ADDALPHA 0x00100000L
#define D3DTEXOPCAPS_BUMPENVMAP 0x00200000L
#define D3DTEXOPCAPS_BUMPENVMAPLUMINANCE 0x00400000L
#define D3DTEXOPCAPS_DOTPRODUCT3 0x00800000L
#define D3DTEXOPCAPS_MULTIPLYADD 0x01000000L
#define D3DTEXOPCAPS_LERP 0x02000000L
//
// FVFCaps
//
#define D3DFVFCAPS_TEXCOORDCOUNTMASK 0x0000ffffL /* mask for texture coordinate count field */
#define D3DFVFCAPS_DONOTSTRIPELEMENTS 0x00080000L /* Device prefers that vertex elements not be stripped */
#define D3DFVFCAPS_PSIZE 0x00100000L /* Device can receive point size */
//
// VertexProcessingCaps
//
#define D3DVTXPCAPS_TEXGEN 0x00000001L /* device can do texgen */
#define D3DVTXPCAPS_MATERIALSOURCE7 0x00000002L /* device can do DX7-level colormaterialsource ops */
#define D3DVTXPCAPS_DIRECTIONALLIGHTS 0x00000008L /* device can do directional lights */
#define D3DVTXPCAPS_POSITIONALLIGHTS 0x00000010L /* device can do positional lights (includes point and spot) */
#define D3DVTXPCAPS_LOCALVIEWER 0x00000020L /* device can do local viewer */
#define D3DVTXPCAPS_TWEENING 0x00000040L /* device can do vertex tweening */
#define D3DVTXPCAPS_NO_VSDT_UBYTE4 0x00000080L /* device does not support D3DVSDT_UBYTE4 */
#pragma pack()
#endif /* (DIRECT3D_VERSION >= 0x0800) */
#endif /* _D3D8CAPS_H_ */

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/*==========================================================================;
*
* Copyright (C) Microsoft Corporation. All Rights Reserved.
*
* File: d3dcaps.h
* Content: Direct3D capabilities include file
*
***************************************************************************/
#ifndef _D3DCAPS_H
#define _D3DCAPS_H
/*
* Pull in DirectDraw include file automatically:
*/
#include "ddraw.h"
#ifndef DIRECT3D_VERSION
#define DIRECT3D_VERSION 0x0700
#endif
#pragma pack(4)
/* Description of capabilities of transform */
typedef struct _D3DTRANSFORMCAPS {
DWORD dwSize;
DWORD dwCaps;
} D3DTRANSFORMCAPS, *LPD3DTRANSFORMCAPS;
#define D3DTRANSFORMCAPS_CLIP 0x00000001L /* Will clip whilst transforming */
/* Description of capabilities of lighting */
typedef struct _D3DLIGHTINGCAPS {
DWORD dwSize;
DWORD dwCaps; /* Lighting caps */
DWORD dwLightingModel; /* Lighting model - RGB or mono */
DWORD dwNumLights; /* Number of lights that can be handled */
} D3DLIGHTINGCAPS, *LPD3DLIGHTINGCAPS;
#define D3DLIGHTINGMODEL_RGB 0x00000001L
#define D3DLIGHTINGMODEL_MONO 0x00000002L
#define D3DLIGHTCAPS_POINT 0x00000001L /* Point lights supported */
#define D3DLIGHTCAPS_SPOT 0x00000002L /* Spot lights supported */
#define D3DLIGHTCAPS_DIRECTIONAL 0x00000004L /* Directional lights supported */
#if(DIRECT3D_VERSION < 0x700)
#define D3DLIGHTCAPS_PARALLELPOINT 0x00000008L /* Parallel point lights supported */
#endif
#if(DIRECT3D_VERSION < 0x500)
#define D3DLIGHTCAPS_GLSPOT 0x00000010L /* GL syle spot lights supported */
#endif
/* Description of capabilities for each primitive type */
typedef struct _D3DPrimCaps {
DWORD dwSize;
DWORD dwMiscCaps; /* Capability flags */
DWORD dwRasterCaps;
DWORD dwZCmpCaps;
DWORD dwSrcBlendCaps;
DWORD dwDestBlendCaps;
DWORD dwAlphaCmpCaps;
DWORD dwShadeCaps;
DWORD dwTextureCaps;
DWORD dwTextureFilterCaps;
DWORD dwTextureBlendCaps;
DWORD dwTextureAddressCaps;
DWORD dwStippleWidth; /* maximum width and height of */
DWORD dwStippleHeight; /* of supported stipple (up to 32x32) */
} D3DPRIMCAPS, *LPD3DPRIMCAPS;
/* D3DPRIMCAPS dwMiscCaps */
#define D3DPMISCCAPS_MASKPLANES 0x00000001L
#define D3DPMISCCAPS_MASKZ 0x00000002L
#define D3DPMISCCAPS_LINEPATTERNREP 0x00000004L
#define D3DPMISCCAPS_CONFORMANT 0x00000008L
#define D3DPMISCCAPS_CULLNONE 0x00000010L
#define D3DPMISCCAPS_CULLCW 0x00000020L
#define D3DPMISCCAPS_CULLCCW 0x00000040L
/* D3DPRIMCAPS dwRasterCaps */
#define D3DPRASTERCAPS_DITHER 0x00000001L
#define D3DPRASTERCAPS_ROP2 0x00000002L
#define D3DPRASTERCAPS_XOR 0x00000004L
#define D3DPRASTERCAPS_PAT 0x00000008L
#define D3DPRASTERCAPS_ZTEST 0x00000010L
#define D3DPRASTERCAPS_SUBPIXEL 0x00000020L
#define D3DPRASTERCAPS_SUBPIXELX 0x00000040L
#define D3DPRASTERCAPS_FOGVERTEX 0x00000080L
#define D3DPRASTERCAPS_FOGTABLE 0x00000100L
#define D3DPRASTERCAPS_STIPPLE 0x00000200L
#if(DIRECT3D_VERSION >= 0x0500)
#define D3DPRASTERCAPS_ANTIALIASSORTDEPENDENT 0x00000400L
#define D3DPRASTERCAPS_ANTIALIASSORTINDEPENDENT 0x00000800L
#define D3DPRASTERCAPS_ANTIALIASEDGES 0x00001000L
#define D3DPRASTERCAPS_MIPMAPLODBIAS 0x00002000L
#define D3DPRASTERCAPS_ZBIAS 0x00004000L
#define D3DPRASTERCAPS_ZBUFFERLESSHSR 0x00008000L
#define D3DPRASTERCAPS_FOGRANGE 0x00010000L
#define D3DPRASTERCAPS_ANISOTROPY 0x00020000L
#endif /* DIRECT3D_VERSION >= 0x0500 */
#if(DIRECT3D_VERSION >= 0x0600)
#define D3DPRASTERCAPS_WBUFFER 0x00040000L
#define D3DPRASTERCAPS_TRANSLUCENTSORTINDEPENDENT 0x00080000L
#define D3DPRASTERCAPS_WFOG 0x00100000L
#define D3DPRASTERCAPS_ZFOG 0x00200000L
#endif /* DIRECT3D_VERSION >= 0x0600 */
/* D3DPRIMCAPS dwZCmpCaps, dwAlphaCmpCaps */
#define D3DPCMPCAPS_NEVER 0x00000001L
#define D3DPCMPCAPS_LESS 0x00000002L
#define D3DPCMPCAPS_EQUAL 0x00000004L
#define D3DPCMPCAPS_LESSEQUAL 0x00000008L
#define D3DPCMPCAPS_GREATER 0x00000010L
#define D3DPCMPCAPS_NOTEQUAL 0x00000020L
#define D3DPCMPCAPS_GREATEREQUAL 0x00000040L
#define D3DPCMPCAPS_ALWAYS 0x00000080L
/* D3DPRIMCAPS dwSourceBlendCaps, dwDestBlendCaps */
#define D3DPBLENDCAPS_ZERO 0x00000001L
#define D3DPBLENDCAPS_ONE 0x00000002L
#define D3DPBLENDCAPS_SRCCOLOR 0x00000004L
#define D3DPBLENDCAPS_INVSRCCOLOR 0x00000008L
#define D3DPBLENDCAPS_SRCALPHA 0x00000010L
#define D3DPBLENDCAPS_INVSRCALPHA 0x00000020L
#define D3DPBLENDCAPS_DESTALPHA 0x00000040L
#define D3DPBLENDCAPS_INVDESTALPHA 0x00000080L
#define D3DPBLENDCAPS_DESTCOLOR 0x00000100L
#define D3DPBLENDCAPS_INVDESTCOLOR 0x00000200L
#define D3DPBLENDCAPS_SRCALPHASAT 0x00000400L
#define D3DPBLENDCAPS_BOTHSRCALPHA 0x00000800L
#define D3DPBLENDCAPS_BOTHINVSRCALPHA 0x00001000L
/* D3DPRIMCAPS dwShadeCaps */
#define D3DPSHADECAPS_COLORFLATMONO 0x00000001L
#define D3DPSHADECAPS_COLORFLATRGB 0x00000002L
#define D3DPSHADECAPS_COLORGOURAUDMONO 0x00000004L
#define D3DPSHADECAPS_COLORGOURAUDRGB 0x00000008L
#define D3DPSHADECAPS_COLORPHONGMONO 0x00000010L
#define D3DPSHADECAPS_COLORPHONGRGB 0x00000020L
#define D3DPSHADECAPS_SPECULARFLATMONO 0x00000040L
#define D3DPSHADECAPS_SPECULARFLATRGB 0x00000080L
#define D3DPSHADECAPS_SPECULARGOURAUDMONO 0x00000100L
#define D3DPSHADECAPS_SPECULARGOURAUDRGB 0x00000200L
#define D3DPSHADECAPS_SPECULARPHONGMONO 0x00000400L
#define D3DPSHADECAPS_SPECULARPHONGRGB 0x00000800L
#define D3DPSHADECAPS_ALPHAFLATBLEND 0x00001000L
#define D3DPSHADECAPS_ALPHAFLATSTIPPLED 0x00002000L
#define D3DPSHADECAPS_ALPHAGOURAUDBLEND 0x00004000L
#define D3DPSHADECAPS_ALPHAGOURAUDSTIPPLED 0x00008000L
#define D3DPSHADECAPS_ALPHAPHONGBLEND 0x00010000L
#define D3DPSHADECAPS_ALPHAPHONGSTIPPLED 0x00020000L
#define D3DPSHADECAPS_FOGFLAT 0x00040000L
#define D3DPSHADECAPS_FOGGOURAUD 0x00080000L
#define D3DPSHADECAPS_FOGPHONG 0x00100000L
/* D3DPRIMCAPS dwTextureCaps */
/*
* Perspective-correct texturing is supported
*/
#define D3DPTEXTURECAPS_PERSPECTIVE 0x00000001L
/*
* Power-of-2 texture dimensions are required
*/
#define D3DPTEXTURECAPS_POW2 0x00000002L
/*
* Alpha in texture pixels is supported
*/
#define D3DPTEXTURECAPS_ALPHA 0x00000004L
/*
* Color-keyed textures are supported
*/
#define D3DPTEXTURECAPS_TRANSPARENCY 0x00000008L
/*
* obsolete, see D3DPTADDRESSCAPS_BORDER
*/
#define D3DPTEXTURECAPS_BORDER 0x00000010L
/*
* Only square textures are supported
*/
#define D3DPTEXTURECAPS_SQUAREONLY 0x00000020L
#if(DIRECT3D_VERSION >= 0x0600)
/*
* Texture indices are not scaled by the texture size prior
* to interpolation.
*/
#define D3DPTEXTURECAPS_TEXREPEATNOTSCALEDBYSIZE 0x00000040L
/*
* Device can draw alpha from texture palettes
*/
#define D3DPTEXTURECAPS_ALPHAPALETTE 0x00000080L
/*
* Device can use non-POW2 textures if:
* 1) D3DTEXTURE_ADDRESS is set to CLAMP for this texture's stage
* 2) D3DRS_WRAP(N) is zero for this texture's coordinates
* 3) mip mapping is not enabled (use magnification filter only)
*/
#define D3DPTEXTURECAPS_NONPOW2CONDITIONAL 0x00000100L
#endif /* DIRECT3D_VERSION >= 0x0600 */
#if(DIRECT3D_VERSION >= 0x0700)
// 0x00000200L unused
/*
* Device can divide transformed texture coordinates by the
* COUNTth texture coordinate (can do D3DTTFF_PROJECTED)
*/
#define D3DPTEXTURECAPS_PROJECTED 0x00000400L
/*
* Device can do cubemap textures
*/
#define D3DPTEXTURECAPS_CUBEMAP 0x00000800L
#define D3DPTEXTURECAPS_COLORKEYBLEND 0x00001000L
#endif /* DIRECT3D_VERSION >= 0x0700 */
/* D3DPRIMCAPS dwTextureFilterCaps */
#define D3DPTFILTERCAPS_NEAREST 0x00000001L
#define D3DPTFILTERCAPS_LINEAR 0x00000002L
#define D3DPTFILTERCAPS_MIPNEAREST 0x00000004L
#define D3DPTFILTERCAPS_MIPLINEAR 0x00000008L
#define D3DPTFILTERCAPS_LINEARMIPNEAREST 0x00000010L
#define D3DPTFILTERCAPS_LINEARMIPLINEAR 0x00000020L
#if(DIRECT3D_VERSION >= 0x0600)
/* Device3 Min Filter */
#define D3DPTFILTERCAPS_MINFPOINT 0x00000100L
#define D3DPTFILTERCAPS_MINFLINEAR 0x00000200L
#define D3DPTFILTERCAPS_MINFANISOTROPIC 0x00000400L
/* Device3 Mip Filter */
#define D3DPTFILTERCAPS_MIPFPOINT 0x00010000L
#define D3DPTFILTERCAPS_MIPFLINEAR 0x00020000L
/* Device3 Mag Filter */
#define D3DPTFILTERCAPS_MAGFPOINT 0x01000000L
#define D3DPTFILTERCAPS_MAGFLINEAR 0x02000000L
#define D3DPTFILTERCAPS_MAGFANISOTROPIC 0x04000000L
#define D3DPTFILTERCAPS_MAGFAFLATCUBIC 0x08000000L
#define D3DPTFILTERCAPS_MAGFGAUSSIANCUBIC 0x10000000L
#endif /* DIRECT3D_VERSION >= 0x0600 */
/* D3DPRIMCAPS dwTextureBlendCaps */
#define D3DPTBLENDCAPS_DECAL 0x00000001L
#define D3DPTBLENDCAPS_MODULATE 0x00000002L
#define D3DPTBLENDCAPS_DECALALPHA 0x00000004L
#define D3DPTBLENDCAPS_MODULATEALPHA 0x00000008L
#define D3DPTBLENDCAPS_DECALMASK 0x00000010L
#define D3DPTBLENDCAPS_MODULATEMASK 0x00000020L
#define D3DPTBLENDCAPS_COPY 0x00000040L
#if(DIRECT3D_VERSION >= 0x0500)
#define D3DPTBLENDCAPS_ADD 0x00000080L
#endif /* DIRECT3D_VERSION >= 0x0500 */
/* D3DPRIMCAPS dwTextureAddressCaps */
#define D3DPTADDRESSCAPS_WRAP 0x00000001L
#define D3DPTADDRESSCAPS_MIRROR 0x00000002L
#define D3DPTADDRESSCAPS_CLAMP 0x00000004L
#if(DIRECT3D_VERSION >= 0x0500)
#define D3DPTADDRESSCAPS_BORDER 0x00000008L
#define D3DPTADDRESSCAPS_INDEPENDENTUV 0x00000010L
#endif /* DIRECT3D_VERSION >= 0x0500 */
#if(DIRECT3D_VERSION >= 0x0600)
/* D3DDEVICEDESC dwStencilCaps */
#define D3DSTENCILCAPS_KEEP 0x00000001L
#define D3DSTENCILCAPS_ZERO 0x00000002L
#define D3DSTENCILCAPS_REPLACE 0x00000004L
#define D3DSTENCILCAPS_INCRSAT 0x00000008L
#define D3DSTENCILCAPS_DECRSAT 0x00000010L
#define D3DSTENCILCAPS_INVERT 0x00000020L
#define D3DSTENCILCAPS_INCR 0x00000040L
#define D3DSTENCILCAPS_DECR 0x00000080L
/* D3DDEVICEDESC dwTextureOpCaps */
#define D3DTEXOPCAPS_DISABLE 0x00000001L
#define D3DTEXOPCAPS_SELECTARG1 0x00000002L
#define D3DTEXOPCAPS_SELECTARG2 0x00000004L
#define D3DTEXOPCAPS_MODULATE 0x00000008L
#define D3DTEXOPCAPS_MODULATE2X 0x00000010L
#define D3DTEXOPCAPS_MODULATE4X 0x00000020L
#define D3DTEXOPCAPS_ADD 0x00000040L
#define D3DTEXOPCAPS_ADDSIGNED 0x00000080L
#define D3DTEXOPCAPS_ADDSIGNED2X 0x00000100L
#define D3DTEXOPCAPS_SUBTRACT 0x00000200L
#define D3DTEXOPCAPS_ADDSMOOTH 0x00000400L
#define D3DTEXOPCAPS_BLENDDIFFUSEALPHA 0x00000800L
#define D3DTEXOPCAPS_BLENDTEXTUREALPHA 0x00001000L
#define D3DTEXOPCAPS_BLENDFACTORALPHA 0x00002000L
#define D3DTEXOPCAPS_BLENDTEXTUREALPHAPM 0x00004000L
#define D3DTEXOPCAPS_BLENDCURRENTALPHA 0x00008000L
#define D3DTEXOPCAPS_PREMODULATE 0x00010000L
#define D3DTEXOPCAPS_MODULATEALPHA_ADDCOLOR 0x00020000L
#define D3DTEXOPCAPS_MODULATECOLOR_ADDALPHA 0x00040000L
#define D3DTEXOPCAPS_MODULATEINVALPHA_ADDCOLOR 0x00080000L
#define D3DTEXOPCAPS_MODULATEINVCOLOR_ADDALPHA 0x00100000L
#define D3DTEXOPCAPS_BUMPENVMAP 0x00200000L
#define D3DTEXOPCAPS_BUMPENVMAPLUMINANCE 0x00400000L
#define D3DTEXOPCAPS_DOTPRODUCT3 0x00800000L
/* D3DDEVICEDESC dwFVFCaps flags */
#define D3DFVFCAPS_TEXCOORDCOUNTMASK 0x0000ffffL /* mask for texture coordinate count field */
#define D3DFVFCAPS_DONOTSTRIPELEMENTS 0x00080000L /* Device prefers that vertex elements not be stripped */
#endif /* DIRECT3D_VERSION >= 0x0600 */
/*
* Description for a device.
* This is used to describe a device that is to be created or to query
* the current device.
*/
typedef struct _D3DDeviceDesc {
DWORD dwSize; /* Size of D3DDEVICEDESC structure */
DWORD dwFlags; /* Indicates which fields have valid data */
D3DCOLORMODEL dcmColorModel; /* Color model of device */
DWORD dwDevCaps; /* Capabilities of device */
D3DTRANSFORMCAPS dtcTransformCaps; /* Capabilities of transform */
BOOL bClipping; /* Device can do 3D clipping */
D3DLIGHTINGCAPS dlcLightingCaps; /* Capabilities of lighting */
D3DPRIMCAPS dpcLineCaps;
D3DPRIMCAPS dpcTriCaps;
DWORD dwDeviceRenderBitDepth; /* One of DDBB_8, 16, etc.. */
DWORD dwDeviceZBufferBitDepth;/* One of DDBD_16, 32, etc.. */
DWORD dwMaxBufferSize; /* Maximum execute buffer size */
DWORD dwMaxVertexCount; /* Maximum vertex count */
#if(DIRECT3D_VERSION >= 0x0500)
// *** New fields for DX5 *** //
// Width and height caps are 0 for legacy HALs.
DWORD dwMinTextureWidth, dwMinTextureHeight;
DWORD dwMaxTextureWidth, dwMaxTextureHeight;
DWORD dwMinStippleWidth, dwMaxStippleWidth;
DWORD dwMinStippleHeight, dwMaxStippleHeight;
#endif /* DIRECT3D_VERSION >= 0x0500 */
#if(DIRECT3D_VERSION >= 0x0600)
// New fields for DX6
DWORD dwMaxTextureRepeat;
DWORD dwMaxTextureAspectRatio;
DWORD dwMaxAnisotropy;
// Guard band that the rasterizer can accommodate
// Screen-space vertices inside this space but outside the viewport
// will get clipped properly.
D3DVALUE dvGuardBandLeft;
D3DVALUE dvGuardBandTop;
D3DVALUE dvGuardBandRight;
D3DVALUE dvGuardBandBottom;
D3DVALUE dvExtentsAdjust;
DWORD dwStencilCaps;
DWORD dwFVFCaps;
DWORD dwTextureOpCaps;
WORD wMaxTextureBlendStages;
WORD wMaxSimultaneousTextures;
#endif /* DIRECT3D_VERSION >= 0x0600 */
} D3DDEVICEDESC, *LPD3DDEVICEDESC;
#if(DIRECT3D_VERSION >= 0x0700)
typedef struct _D3DDeviceDesc7 {
DWORD dwDevCaps; /* Capabilities of device */
D3DPRIMCAPS dpcLineCaps;
D3DPRIMCAPS dpcTriCaps;
DWORD dwDeviceRenderBitDepth; /* One of DDBB_8, 16, etc.. */
DWORD dwDeviceZBufferBitDepth;/* One of DDBD_16, 32, etc.. */
DWORD dwMinTextureWidth, dwMinTextureHeight;
DWORD dwMaxTextureWidth, dwMaxTextureHeight;
DWORD dwMaxTextureRepeat;
DWORD dwMaxTextureAspectRatio;
DWORD dwMaxAnisotropy;
D3DVALUE dvGuardBandLeft;
D3DVALUE dvGuardBandTop;
D3DVALUE dvGuardBandRight;
D3DVALUE dvGuardBandBottom;
D3DVALUE dvExtentsAdjust;
DWORD dwStencilCaps;
DWORD dwFVFCaps;
DWORD dwTextureOpCaps;
WORD wMaxTextureBlendStages;
WORD wMaxSimultaneousTextures;
DWORD dwMaxActiveLights;
D3DVALUE dvMaxVertexW;
GUID deviceGUID;
WORD wMaxUserClipPlanes;
WORD wMaxVertexBlendMatrices;
DWORD dwVertexProcessingCaps;
DWORD dwReserved1;
DWORD dwReserved2;
DWORD dwReserved3;
DWORD dwReserved4;
} D3DDEVICEDESC7, *LPD3DDEVICEDESC7;
#endif /* DIRECT3D_VERSION >= 0x0700 */
#define D3DDEVICEDESCSIZE (sizeof(D3DDEVICEDESC))
#define D3DDEVICEDESC7SIZE (sizeof(D3DDEVICEDESC7))
typedef HRESULT (CALLBACK * LPD3DENUMDEVICESCALLBACK)(GUID FAR *lpGuid, LPSTR lpDeviceDescription, LPSTR lpDeviceName, LPD3DDEVICEDESC, LPD3DDEVICEDESC, LPVOID);
#if(DIRECT3D_VERSION >= 0x0700)
typedef HRESULT (CALLBACK * LPD3DENUMDEVICESCALLBACK7)(LPSTR lpDeviceDescription, LPSTR lpDeviceName, LPD3DDEVICEDESC7, LPVOID);
#endif /* DIRECT3D_VERSION >= 0x0700 */
/* D3DDEVICEDESC dwFlags indicating valid fields */
#define D3DDD_COLORMODEL 0x00000001L /* dcmColorModel is valid */
#define D3DDD_DEVCAPS 0x00000002L /* dwDevCaps is valid */
#define D3DDD_TRANSFORMCAPS 0x00000004L /* dtcTransformCaps is valid */
#define D3DDD_LIGHTINGCAPS 0x00000008L /* dlcLightingCaps is valid */
#define D3DDD_BCLIPPING 0x00000010L /* bClipping is valid */
#define D3DDD_LINECAPS 0x00000020L /* dpcLineCaps is valid */
#define D3DDD_TRICAPS 0x00000040L /* dpcTriCaps is valid */
#define D3DDD_DEVICERENDERBITDEPTH 0x00000080L /* dwDeviceRenderBitDepth is valid */
#define D3DDD_DEVICEZBUFFERBITDEPTH 0x00000100L /* dwDeviceZBufferBitDepth is valid */
#define D3DDD_MAXBUFFERSIZE 0x00000200L /* dwMaxBufferSize is valid */
#define D3DDD_MAXVERTEXCOUNT 0x00000400L /* dwMaxVertexCount is valid */
/* D3DDEVICEDESC dwDevCaps flags */
#define D3DDEVCAPS_FLOATTLVERTEX 0x00000001L /* Device accepts floating point */
/* for post-transform vertex data */
#define D3DDEVCAPS_SORTINCREASINGZ 0x00000002L /* Device needs data sorted for increasing Z */
#define D3DDEVCAPS_SORTDECREASINGZ 0X00000004L /* Device needs data sorted for decreasing Z */
#define D3DDEVCAPS_SORTEXACT 0x00000008L /* Device needs data sorted exactly */
#define D3DDEVCAPS_EXECUTESYSTEMMEMORY 0x00000010L /* Device can use execute buffers from system memory */
#define D3DDEVCAPS_EXECUTEVIDEOMEMORY 0x00000020L /* Device can use execute buffers from video memory */
#define D3DDEVCAPS_TLVERTEXSYSTEMMEMORY 0x00000040L /* Device can use TL buffers from system memory */
#define D3DDEVCAPS_TLVERTEXVIDEOMEMORY 0x00000080L /* Device can use TL buffers from video memory */
#define D3DDEVCAPS_TEXTURESYSTEMMEMORY 0x00000100L /* Device can texture from system memory */
#define D3DDEVCAPS_TEXTUREVIDEOMEMORY 0x00000200L /* Device can texture from device memory */
#if(DIRECT3D_VERSION >= 0x0500)
#define D3DDEVCAPS_DRAWPRIMTLVERTEX 0x00000400L /* Device can draw TLVERTEX primitives */
#define D3DDEVCAPS_CANRENDERAFTERFLIP 0x00000800L /* Device can render without waiting for flip to complete */
#define D3DDEVCAPS_TEXTURENONLOCALVIDMEM 0x00001000L /* Device can texture from nonlocal video memory */
#endif /* DIRECT3D_VERSION >= 0x0500 */
#if(DIRECT3D_VERSION >= 0x0600)
#define D3DDEVCAPS_DRAWPRIMITIVES2 0x00002000L /* Device can support DrawPrimitives2 */
#define D3DDEVCAPS_SEPARATETEXTUREMEMORIES 0x00004000L /* Device is texturing from separate memory pools */
#define D3DDEVCAPS_DRAWPRIMITIVES2EX 0x00008000L /* Device can support Extended DrawPrimitives2 i.e. DX7 compliant driver*/
#endif /* DIRECT3D_VERSION >= 0x0600 */
#if(DIRECT3D_VERSION >= 0x0700)
#define D3DDEVCAPS_HWTRANSFORMANDLIGHT 0x00010000L /* Device can support transformation and lighting in hardware and DRAWPRIMITIVES2EX must be also */
#define D3DDEVCAPS_CANBLTSYSTONONLOCAL 0x00020000L /* Device supports a Tex Blt from system memory to non-local vidmem */
#define D3DDEVCAPS_HWRASTERIZATION 0x00080000L /* Device has HW acceleration for rasterization */
/*
* These are the flags in the D3DDEVICEDESC7.dwVertexProcessingCaps field
*/
/* device can do texgen */
#define D3DVTXPCAPS_TEXGEN 0x00000001L
/* device can do IDirect3DDevice7 colormaterialsource ops */
#define D3DVTXPCAPS_MATERIALSOURCE7 0x00000002L
/* device can do vertex fog */
#define D3DVTXPCAPS_VERTEXFOG 0x00000004L
/* device can do directional lights */
#define D3DVTXPCAPS_DIRECTIONALLIGHTS 0x00000008L
/* device can do positional lights (includes point and spot) */
#define D3DVTXPCAPS_POSITIONALLIGHTS 0x00000010L
/* device can do local viewer */
#define D3DVTXPCAPS_LOCALVIEWER 0x00000020L
#endif /* DIRECT3D_VERSION >= 0x0700 */
#define D3DFDS_COLORMODEL 0x00000001L /* Match color model */
#define D3DFDS_GUID 0x00000002L /* Match guid */
#define D3DFDS_HARDWARE 0x00000004L /* Match hardware/software */
#define D3DFDS_TRIANGLES 0x00000008L /* Match in triCaps */
#define D3DFDS_LINES 0x00000010L /* Match in lineCaps */
#define D3DFDS_MISCCAPS 0x00000020L /* Match primCaps.dwMiscCaps */
#define D3DFDS_RASTERCAPS 0x00000040L /* Match primCaps.dwRasterCaps */
#define D3DFDS_ZCMPCAPS 0x00000080L /* Match primCaps.dwZCmpCaps */
#define D3DFDS_ALPHACMPCAPS 0x00000100L /* Match primCaps.dwAlphaCmpCaps */
#define D3DFDS_SRCBLENDCAPS 0x00000200L /* Match primCaps.dwSourceBlendCaps */
#define D3DFDS_DSTBLENDCAPS 0x00000400L /* Match primCaps.dwDestBlendCaps */
#define D3DFDS_SHADECAPS 0x00000800L /* Match primCaps.dwShadeCaps */
#define D3DFDS_TEXTURECAPS 0x00001000L /* Match primCaps.dwTextureCaps */
#define D3DFDS_TEXTUREFILTERCAPS 0x00002000L /* Match primCaps.dwTextureFilterCaps */
#define D3DFDS_TEXTUREBLENDCAPS 0x00004000L /* Match primCaps.dwTextureBlendCaps */
#define D3DFDS_TEXTUREADDRESSCAPS 0x00008000L /* Match primCaps.dwTextureBlendCaps */
/*
* FindDevice arguments
*/
typedef struct _D3DFINDDEVICESEARCH {
DWORD dwSize;
DWORD dwFlags;
BOOL bHardware;
D3DCOLORMODEL dcmColorModel;
GUID guid;
DWORD dwCaps;
D3DPRIMCAPS dpcPrimCaps;
} D3DFINDDEVICESEARCH, *LPD3DFINDDEVICESEARCH;
typedef struct _D3DFINDDEVICERESULT {
DWORD dwSize;
GUID guid; /* guid which matched */
D3DDEVICEDESC ddHwDesc; /* hardware D3DDEVICEDESC */
D3DDEVICEDESC ddSwDesc; /* software D3DDEVICEDESC */
} D3DFINDDEVICERESULT, *LPD3DFINDDEVICERESULT;
/*
* Description of execute buffer.
*/
typedef struct _D3DExecuteBufferDesc {
DWORD dwSize; /* size of this structure */
DWORD dwFlags; /* flags indicating which fields are valid */
DWORD dwCaps; /* capabilities of execute buffer */
DWORD dwBufferSize; /* size of execute buffer data */
LPVOID lpData; /* pointer to actual data */
} D3DEXECUTEBUFFERDESC, *LPD3DEXECUTEBUFFERDESC;
/* D3DEXECUTEBUFFER dwFlags indicating valid fields */
#define D3DDEB_BUFSIZE 0x00000001l /* buffer size valid */
#define D3DDEB_CAPS 0x00000002l /* caps valid */
#define D3DDEB_LPDATA 0x00000004l /* lpData valid */
/* D3DEXECUTEBUFFER dwCaps */
#define D3DDEBCAPS_SYSTEMMEMORY 0x00000001l /* buffer in system memory */
#define D3DDEBCAPS_VIDEOMEMORY 0x00000002l /* buffer in device memory */
#define D3DDEBCAPS_MEM (D3DDEBCAPS_SYSTEMMEMORY|D3DDEBCAPS_VIDEOMEMORY)
#if(DIRECT3D_VERSION < 0x0800)
#if(DIRECT3D_VERSION >= 0x0700)
typedef struct _D3DDEVINFO_TEXTUREMANAGER {
BOOL bThrashing; /* indicates if thrashing */
DWORD dwApproxBytesDownloaded; /* Approximate number of bytes downloaded by texture manager */
DWORD dwNumEvicts; /* number of textures evicted */
DWORD dwNumVidCreates; /* number of textures created in video memory */
DWORD dwNumTexturesUsed; /* number of textures used */
DWORD dwNumUsedTexInVid; /* number of used textures present in video memory */
DWORD dwWorkingSet; /* number of textures in video memory */
DWORD dwWorkingSetBytes; /* number of bytes in video memory */
DWORD dwTotalManaged; /* total number of managed textures */
DWORD dwTotalBytes; /* total number of bytes of managed textures */
DWORD dwLastPri; /* priority of last texture evicted */
} D3DDEVINFO_TEXTUREMANAGER, *LPD3DDEVINFO_TEXTUREMANAGER;
typedef struct _D3DDEVINFO_TEXTURING {
DWORD dwNumLoads; /* counts Load() API calls */
DWORD dwApproxBytesLoaded; /* Approximate number bytes loaded via Load() */
DWORD dwNumPreLoads; /* counts PreLoad() API calls */
DWORD dwNumSet; /* counts SetTexture() API calls */
DWORD dwNumCreates; /* counts texture creates */
DWORD dwNumDestroys; /* counts texture destroys */
DWORD dwNumSetPriorities; /* counts SetPriority() API calls */
DWORD dwNumSetLODs; /* counts SetLOD() API calls */
DWORD dwNumLocks; /* counts number of texture locks */
DWORD dwNumGetDCs; /* counts number of GetDCs to textures */
} D3DDEVINFO_TEXTURING, *LPD3DDEVINFO_TEXTURING;
#endif /* DIRECT3D_VERSION >= 0x0700 */
#endif //(DIRECT3D_VERSION < 0x0800)
#pragma pack()
#endif /* _D3DCAPS_H_ */

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@ -1,695 +0,0 @@
/*==========================================================================;
*
* Copyright (C) 1995-1997 Microsoft Corporation. All Rights Reserved.
*
* File: d3drm.h
* Content: Direct3DRM include file
*
***************************************************************************/
#ifndef __D3DRMDEFS_H__
#define __D3DRMDEFS_H__
#include <stddef.h>
#include "d3dtypes.h"
#ifdef WIN32
#define D3DRMAPI __stdcall
#else
#define D3DRMAPI
#endif
#if defined(__cplusplus)
extern "C" {
#endif
#ifndef TRUE
#define FALSE 0
#define TRUE 1
#endif
typedef struct _D3DRMVECTOR4D
{ D3DVALUE x, y, z, w;
} D3DRMVECTOR4D, *LPD3DRMVECTOR4D;
typedef D3DVALUE D3DRMMATRIX4D[4][4];
typedef struct _D3DRMQUATERNION
{ D3DVALUE s;
D3DVECTOR v;
} D3DRMQUATERNION, *LPD3DRMQUATERNION;
typedef struct _D3DRMRAY
{ D3DVECTOR dvDir;
D3DVECTOR dvPos;
} D3DRMRAY, *LPD3DRMRAY;
typedef struct _D3DRMBOX
{ D3DVECTOR min, max;
} D3DRMBOX, *LPD3DRMBOX;
typedef void (*D3DRMWRAPCALLBACK)
(LPD3DVECTOR, int* u, int* v, LPD3DVECTOR a, LPD3DVECTOR b, LPVOID);
typedef enum _D3DRMLIGHTTYPE
{ D3DRMLIGHT_AMBIENT,
D3DRMLIGHT_POINT,
D3DRMLIGHT_SPOT,
D3DRMLIGHT_DIRECTIONAL,
D3DRMLIGHT_PARALLELPOINT
} D3DRMLIGHTTYPE, *LPD3DRMLIGHTTYPE;
typedef enum _D3DRMSHADEMODE {
D3DRMSHADE_FLAT = 0,
D3DRMSHADE_GOURAUD = 1,
D3DRMSHADE_PHONG = 2,
D3DRMSHADE_MASK = 7,
D3DRMSHADE_MAX = 8
} D3DRMSHADEMODE, *LPD3DRMSHADEMODE;
typedef enum _D3DRMLIGHTMODE {
D3DRMLIGHT_OFF = 0 * D3DRMSHADE_MAX,
D3DRMLIGHT_ON = 1 * D3DRMSHADE_MAX,
D3DRMLIGHT_MASK = 7 * D3DRMSHADE_MAX,
D3DRMLIGHT_MAX = 8 * D3DRMSHADE_MAX
} D3DRMLIGHTMODE, *LPD3DRMLIGHTMODE;
typedef enum _D3DRMFILLMODE {
D3DRMFILL_POINTS = 0 * D3DRMLIGHT_MAX,
D3DRMFILL_WIREFRAME = 1 * D3DRMLIGHT_MAX,
D3DRMFILL_SOLID = 2 * D3DRMLIGHT_MAX,
D3DRMFILL_MASK = 7 * D3DRMLIGHT_MAX,
D3DRMFILL_MAX = 8 * D3DRMLIGHT_MAX
} D3DRMFILLMODE, *LPD3DRMFILLMODE;
typedef DWORD D3DRMRENDERQUALITY, *LPD3DRMRENDERQUALITY;
#define D3DRMRENDER_WIREFRAME (D3DRMSHADE_FLAT+D3DRMLIGHT_OFF+D3DRMFILL_WIREFRAME)
#define D3DRMRENDER_UNLITFLAT (D3DRMSHADE_FLAT+D3DRMLIGHT_OFF+D3DRMFILL_SOLID)
#define D3DRMRENDER_FLAT (D3DRMSHADE_FLAT+D3DRMLIGHT_ON+D3DRMFILL_SOLID)
#define D3DRMRENDER_GOURAUD (D3DRMSHADE_GOURAUD+D3DRMLIGHT_ON+D3DRMFILL_SOLID)
#define D3DRMRENDER_PHONG (D3DRMSHADE_PHONG+D3DRMLIGHT_ON+D3DRMFILL_SOLID)
#define D3DRMRENDERMODE_BLENDEDTRANSPARENCY 1
#define D3DRMRENDERMODE_SORTEDTRANSPARENCY 2
#define D3DRMRENDERMODE_LIGHTINMODELSPACE 8
#define D3DRMRENDERMODE_VIEWDEPENDENTSPECULAR 16
#define D3DRMRENDERMODE_DISABLESORTEDALPHAZWRITE 32
typedef enum _D3DRMTEXTUREQUALITY
{ D3DRMTEXTURE_NEAREST, /* choose nearest texel */
D3DRMTEXTURE_LINEAR, /* interpolate 4 texels */
D3DRMTEXTURE_MIPNEAREST, /* nearest texel in nearest mipmap */
D3DRMTEXTURE_MIPLINEAR, /* interpolate 2 texels from 2 mipmaps */
D3DRMTEXTURE_LINEARMIPNEAREST, /* interpolate 4 texels in nearest mipmap */
D3DRMTEXTURE_LINEARMIPLINEAR /* interpolate 8 texels from 2 mipmaps */
} D3DRMTEXTUREQUALITY, *LPD3DRMTEXTUREQUALITY;
/*
* Texture flags
*/
#define D3DRMTEXTURE_FORCERESIDENT 0x00000001 /* texture should be kept in video memory */
#define D3DRMTEXTURE_STATIC 0x00000002 /* texture will not change */
#define D3DRMTEXTURE_DOWNSAMPLEPOINT 0x00000004 /* point filtering should be used when downsampling */
#define D3DRMTEXTURE_DOWNSAMPLEBILINEAR 0x00000008 /* bilinear filtering should be used when downsampling */
#define D3DRMTEXTURE_DOWNSAMPLEREDUCEDEPTH 0x00000010 /* reduce bit depth when downsampling */
#define D3DRMTEXTURE_DOWNSAMPLENONE 0x00000020 /* texture should never be downsampled */
#define D3DRMTEXTURE_CHANGEDPIXELS 0x00000040 /* pixels have changed */
#define D3DRMTEXTURE_CHANGEDPALETTE 0x00000080 /* palette has changed */
#define D3DRMTEXTURE_INVALIDATEONLY 0x00000100 /* dirty regions are invalid */
/*
* Shadow flags
*/
#define D3DRMSHADOW_TRUEALPHA 0x00000001 /* shadow should render without artifacts when true alpha is on */
typedef enum _D3DRMCOMBINETYPE
{ D3DRMCOMBINE_REPLACE,
D3DRMCOMBINE_BEFORE,
D3DRMCOMBINE_AFTER
} D3DRMCOMBINETYPE, *LPD3DRMCOMBINETYPE;
typedef D3DCOLORMODEL D3DRMCOLORMODEL, *LPD3DRMCOLORMODEL;
typedef enum _D3DRMPALETTEFLAGS
{ D3DRMPALETTE_FREE, /* renderer may use this entry freely */
D3DRMPALETTE_READONLY, /* fixed but may be used by renderer */
D3DRMPALETTE_RESERVED /* may not be used by renderer */
} D3DRMPALETTEFLAGS, *LPD3DRMPALETTEFLAGS;
typedef struct _D3DRMPALETTEENTRY
{ unsigned char red; /* 0 .. 255 */
unsigned char green; /* 0 .. 255 */
unsigned char blue; /* 0 .. 255 */
unsigned char flags; /* one of D3DRMPALETTEFLAGS */
} D3DRMPALETTEENTRY, *LPD3DRMPALETTEENTRY;
typedef struct _D3DRMIMAGE
{ int width, height; /* width and height in pixels */
int aspectx, aspecty; /* aspect ratio for non-square pixels */
int depth; /* bits per pixel */
int rgb; /* if false, pixels are indices into a
palette otherwise, pixels encode
RGB values. */
int bytes_per_line; /* number of bytes of memory for a
scanline. This must be a multiple
of 4. */
void* buffer1; /* memory to render into (first buffer). */
void* buffer2; /* second rendering buffer for double
buffering, set to NULL for single
buffering. */
unsigned long red_mask;
unsigned long green_mask;
unsigned long blue_mask;
unsigned long alpha_mask; /* if rgb is true, these are masks for
the red, green and blue parts of a
pixel. Otherwise, these are masks
for the significant bits of the
red, green and blue elements in the
palette. For instance, most SVGA
displays use 64 intensities of red,
green and blue, so the masks should
all be set to 0xfc. */
int palette_size; /* number of entries in palette */
D3DRMPALETTEENTRY* palette; /* description of the palette (only if
rgb is false). Must be (1<<depth)
elements. */
} D3DRMIMAGE, *LPD3DRMIMAGE;
typedef enum _D3DRMWRAPTYPE
{ D3DRMWRAP_FLAT,
D3DRMWRAP_CYLINDER,
D3DRMWRAP_SPHERE,
D3DRMWRAP_CHROME,
D3DRMWRAP_SHEET,
D3DRMWRAP_BOX
} D3DRMWRAPTYPE, *LPD3DRMWRAPTYPE;
#define D3DRMWIREFRAME_CULL 1 /* cull backfaces */
#define D3DRMWIREFRAME_HIDDENLINE 2 /* lines are obscured by closer objects */
/*
* Do not use righthanded perspective in Viewport2::SetProjection().
* Set up righthanded mode by using IDirect3DRM3::SetOptions().
*/
typedef enum _D3DRMPROJECTIONTYPE
{ D3DRMPROJECT_PERSPECTIVE,
D3DRMPROJECT_ORTHOGRAPHIC,
D3DRMPROJECT_RIGHTHANDPERSPECTIVE, /* Only valid pre-DX6 */
D3DRMPROJECT_RIGHTHANDORTHOGRAPHIC /* Only valid pre-DX6 */
} D3DRMPROJECTIONTYPE, *LPD3DRMPROJECTIONTYPE;
#define D3DRMOPTIONS_LEFTHANDED 0x00000001L /* Default */
#define D3DRMOPTIONS_RIGHTHANDED 0x00000002L
typedef enum _D3DRMXOFFORMAT
{ D3DRMXOF_BINARY,
D3DRMXOF_COMPRESSED,
D3DRMXOF_TEXT
} D3DRMXOFFORMAT, *LPD3DRMXOFFORMAT;
typedef DWORD D3DRMSAVEOPTIONS;
#define D3DRMXOFSAVE_NORMALS 1
#define D3DRMXOFSAVE_TEXTURECOORDINATES 2
#define D3DRMXOFSAVE_MATERIALS 4
#define D3DRMXOFSAVE_TEXTURENAMES 8
#define D3DRMXOFSAVE_ALL 15
#define D3DRMXOFSAVE_TEMPLATES 16
#define D3DRMXOFSAVE_TEXTURETOPOLOGY 32
typedef enum _D3DRMCOLORSOURCE
{ D3DRMCOLOR_FROMFACE,
D3DRMCOLOR_FROMVERTEX
} D3DRMCOLORSOURCE, *LPD3DRMCOLORSOURCE;
typedef enum _D3DRMFRAMECONSTRAINT
{ D3DRMCONSTRAIN_Z, /* use only X and Y rotations */
D3DRMCONSTRAIN_Y, /* use only X and Z rotations */
D3DRMCONSTRAIN_X /* use only Y and Z rotations */
} D3DRMFRAMECONSTRAINT, *LPD3DRMFRAMECONSTRAINT;
typedef enum _D3DRMMATERIALMODE
{ D3DRMMATERIAL_FROMMESH,
D3DRMMATERIAL_FROMPARENT,
D3DRMMATERIAL_FROMFRAME
} D3DRMMATERIALMODE, *LPD3DRMMATERIALMODE;
typedef enum _D3DRMFOGMODE
{ D3DRMFOG_LINEAR, /* linear between start and end */
D3DRMFOG_EXPONENTIAL, /* density * exp(-distance) */
D3DRMFOG_EXPONENTIALSQUARED /* density * exp(-distance*distance) */
} D3DRMFOGMODE, *LPD3DRMFOGMODE;
typedef enum _D3DRMZBUFFERMODE {
D3DRMZBUFFER_FROMPARENT, /* default */
D3DRMZBUFFER_ENABLE, /* enable zbuffering */
D3DRMZBUFFER_DISABLE /* disable zbuffering */
} D3DRMZBUFFERMODE, *LPD3DRMZBUFFERMODE;
typedef enum _D3DRMSORTMODE {
D3DRMSORT_FROMPARENT, /* default */
D3DRMSORT_NONE, /* don't sort child frames */
D3DRMSORT_FRONTTOBACK, /* sort child frames front-to-back */
D3DRMSORT_BACKTOFRONT /* sort child frames back-to-front */
} D3DRMSORTMODE, *LPD3DRMSORTMODE;
typedef struct _D3DRMMATERIALOVERRIDE
{
DWORD dwSize; /* Size of this structure */
DWORD dwFlags; /* Indicate which fields are valid */
D3DCOLORVALUE dcDiffuse; /* RGBA */
D3DCOLORVALUE dcAmbient; /* RGB */
D3DCOLORVALUE dcEmissive; /* RGB */
D3DCOLORVALUE dcSpecular; /* RGB */
D3DVALUE dvPower;
LPUNKNOWN lpD3DRMTex;
} D3DRMMATERIALOVERRIDE, *LPD3DRMMATERIALOVERRIDE;
#define D3DRMMATERIALOVERRIDE_DIFFUSE_ALPHAONLY 0x00000001L
#define D3DRMMATERIALOVERRIDE_DIFFUSE_RGBONLY 0x00000002L
#define D3DRMMATERIALOVERRIDE_DIFFUSE 0x00000003L
#define D3DRMMATERIALOVERRIDE_AMBIENT 0x00000004L
#define D3DRMMATERIALOVERRIDE_EMISSIVE 0x00000008L
#define D3DRMMATERIALOVERRIDE_SPECULAR 0x00000010L
#define D3DRMMATERIALOVERRIDE_POWER 0x00000020L
#define D3DRMMATERIALOVERRIDE_TEXTURE 0x00000040L
#define D3DRMMATERIALOVERRIDE_DIFFUSE_ALPHAMULTIPLY 0x00000080L
#define D3DRMMATERIALOVERRIDE_ALL 0x000000FFL
#define D3DRMFPTF_ALPHA 0x00000001L
#define D3DRMFPTF_NOALPHA 0x00000002L
#define D3DRMFPTF_PALETTIZED 0x00000004L
#define D3DRMFPTF_NOTPALETTIZED 0x00000008L
#define D3DRMSTATECHANGE_UPDATEONLY 0x000000001L
#define D3DRMSTATECHANGE_VOLATILE 0x000000002L
#define D3DRMSTATECHANGE_NONVOLATILE 0x000000004L
#define D3DRMSTATECHANGE_RENDER 0x000000020L
#define D3DRMSTATECHANGE_LIGHT 0x000000040L
/*
* Values for flags in RM3::CreateDeviceFromSurface
*/
#define D3DRMDEVICE_NOZBUFFER 0x00000001L
/*
* Values for flags in Object2::SetClientData
*/
#define D3DRMCLIENTDATA_NONE 0x00000001L
#define D3DRMCLIENTDATA_LOCALFREE 0x00000002L
#define D3DRMCLIENTDATA_IUNKNOWN 0x00000004L
/*
* Values for flags in Frame2::AddMoveCallback.
*/
#define D3DRMCALLBACK_PREORDER 0
#define D3DRMCALLBACK_POSTORDER 1
/*
* Values for flags in MeshBuilder2::RayPick.
*/
#define D3DRMRAYPICK_ONLYBOUNDINGBOXES 1
#define D3DRMRAYPICK_IGNOREFURTHERPRIMITIVES 2
#define D3DRMRAYPICK_INTERPOLATEUV 4
#define D3DRMRAYPICK_INTERPOLATECOLOR 8
#define D3DRMRAYPICK_INTERPOLATENORMAL 0x10
/*
* Values for flags in MeshBuilder3::AddFacesIndexed.
*/
#define D3DRMADDFACES_VERTICESONLY 1
/*
* Values for flags in MeshBuilder2::GenerateNormals.
*/
#define D3DRMGENERATENORMALS_PRECOMPACT 1
#define D3DRMGENERATENORMALS_USECREASEANGLE 2
/*
* Values for MeshBuilder3::GetParentMesh
*/
#define D3DRMMESHBUILDER_DIRECTPARENT 1
#define D3DRMMESHBUILDER_ROOTMESH 2
/*
* Flags for MeshBuilder3::Enable
*/
#define D3DRMMESHBUILDER_RENDERENABLE 0x00000001L
#define D3DRMMESHBUILDER_PICKENABLE 0x00000002L
/*
* Flags for MeshBuilder3::AddMeshBuilder
*/
#define D3DRMADDMESHBUILDER_DONTCOPYAPPDATA 1
#define D3DRMADDMESHBUILDER_FLATTENSUBMESHES 2
#define D3DRMADDMESHBUILDER_NOSUBMESHES 4
/*
* Flags for Object2::GetAge when used with MeshBuilders
*/
#define D3DRMMESHBUILDERAGE_GEOMETRY 0x00000001L
#define D3DRMMESHBUILDERAGE_MATERIALS 0x00000002L
#define D3DRMMESHBUILDERAGE_TEXTURES 0x00000004L
/*
* Format flags for MeshBuilder3::AddTriangles.
*/
#define D3DRMFVF_TYPE 0x00000001L
#define D3DRMFVF_NORMAL 0x00000002L
#define D3DRMFVF_COLOR 0x00000004L
#define D3DRMFVF_TEXTURECOORDS 0x00000008L
#define D3DRMVERTEX_STRIP 0x00000001L
#define D3DRMVERTEX_FAN 0x00000002L
#define D3DRMVERTEX_LIST 0x00000004L
/*
* Values for flags in Viewport2::Clear2
*/
#define D3DRMCLEAR_TARGET 0x00000001L
#define D3DRMCLEAR_ZBUFFER 0x00000002L
#define D3DRMCLEAR_DIRTYRECTS 0x00000004L
#define D3DRMCLEAR_ALL (D3DRMCLEAR_TARGET | \
D3DRMCLEAR_ZBUFFER | \
D3DRMCLEAR_DIRTYRECTS)
/*
* Values for flags in Frame3::SetSceneFogMethod
*/
#define D3DRMFOGMETHOD_VERTEX 0x00000001L
#define D3DRMFOGMETHOD_TABLE 0x00000002L
#define D3DRMFOGMETHOD_ANY 0x00000004L
/*
* Values for flags in Frame3::SetTraversalOptions
*/
#define D3DRMFRAME_RENDERENABLE 0x00000001L
#define D3DRMFRAME_PICKENABLE 0x00000002L
typedef DWORD D3DRMANIMATIONOPTIONS;
#define D3DRMANIMATION_OPEN 0x01L
#define D3DRMANIMATION_CLOSED 0x02L
#define D3DRMANIMATION_LINEARPOSITION 0x04L
#define D3DRMANIMATION_SPLINEPOSITION 0x08L
#define D3DRMANIMATION_SCALEANDROTATION 0x00000010L
#define D3DRMANIMATION_POSITION 0x00000020L
typedef DWORD D3DRMINTERPOLATIONOPTIONS;
#define D3DRMINTERPOLATION_OPEN 0x01L
#define D3DRMINTERPOLATION_CLOSED 0x02L
#define D3DRMINTERPOLATION_NEAREST 0x0100L
#define D3DRMINTERPOLATION_LINEAR 0x04L
#define D3DRMINTERPOLATION_SPLINE 0x08L
#define D3DRMINTERPOLATION_VERTEXCOLOR 0x40L
#define D3DRMINTERPOLATION_SLERPNORMALS 0x80L
typedef DWORD D3DRMLOADOPTIONS;
#define D3DRMLOAD_FROMFILE 0x00L
#define D3DRMLOAD_FROMRESOURCE 0x01L
#define D3DRMLOAD_FROMMEMORY 0x02L
#define D3DRMLOAD_FROMSTREAM 0x04L
#define D3DRMLOAD_FROMURL 0x08L
#define D3DRMLOAD_BYNAME 0x10L
#define D3DRMLOAD_BYPOSITION 0x20L
#define D3DRMLOAD_BYGUID 0x40L
#define D3DRMLOAD_FIRST 0x80L
#define D3DRMLOAD_INSTANCEBYREFERENCE 0x100L
#define D3DRMLOAD_INSTANCEBYCOPYING 0x200L
#define D3DRMLOAD_ASYNCHRONOUS 0x400L
typedef struct _D3DRMLOADRESOURCE {
HMODULE hModule;
LPCTSTR lpName;
LPCTSTR lpType;
} D3DRMLOADRESOURCE, *LPD3DRMLOADRESOURCE;
typedef struct _D3DRMLOADMEMORY {
LPVOID lpMemory;
DWORD dSize;
} D3DRMLOADMEMORY, *LPD3DRMLOADMEMORY;
#define D3DRMPMESHSTATUS_VALID 0x01L
#define D3DRMPMESHSTATUS_INTERRUPTED 0x02L
#define D3DRMPMESHSTATUS_BASEMESHCOMPLETE 0x04L
#define D3DRMPMESHSTATUS_COMPLETE 0x08L
#define D3DRMPMESHSTATUS_RENDERABLE 0x10L
#define D3DRMPMESHEVENT_BASEMESH 0x01L
#define D3DRMPMESHEVENT_COMPLETE 0x02L
typedef struct _D3DRMPMESHLOADSTATUS {
DWORD dwSize; // Size of this structure
DWORD dwPMeshSize; // Total Size (bytes)
DWORD dwBaseMeshSize; // Total Size of the Base Mesh
DWORD dwBytesLoaded; // Total bytes loaded
DWORD dwVerticesLoaded; // Number of vertices loaded
DWORD dwFacesLoaded; // Number of faces loaded
HRESULT dwLoadResult; // Result of the load operation
DWORD dwFlags;
} D3DRMPMESHLOADSTATUS, *LPD3DRMPMESHLOADSTATUS;
typedef enum _D3DRMUSERVISUALREASON {
D3DRMUSERVISUAL_CANSEE,
D3DRMUSERVISUAL_RENDER
} D3DRMUSERVISUALREASON, *LPD3DRMUSERVISUALREASON;
typedef struct _D3DRMANIMATIONKEY
{
DWORD dwSize;
DWORD dwKeyType;
D3DVALUE dvTime;
DWORD dwID;
#if (!defined __cplusplus) || (!defined D3D_OVERLOADS)
union
{
D3DRMQUATERNION dqRotateKey;
D3DVECTOR dvScaleKey;
D3DVECTOR dvPositionKey;
};
#else
/*
* We do this as D3D_OVERLOADS defines constructors for D3DVECTOR,
* this can then not be used in a union. Use the inlines provided
* to extract and set the required component.
*/
D3DVALUE dvK[4];
#endif
} D3DRMANIMATIONKEY;
typedef D3DRMANIMATIONKEY *LPD3DRMANIMATIONKEY;
#if (defined __cplusplus) && (defined D3D_OVERLOADS)
inline VOID
D3DRMAnimationGetRotateKey(const D3DRMANIMATIONKEY& rmKey,
D3DRMQUATERNION& rmQuat)
{
rmQuat.s = rmKey.dvK[0];
rmQuat.v = D3DVECTOR(rmKey.dvK[1], rmKey.dvK[2], rmKey.dvK[3]);
}
inline VOID
D3DRMAnimationGetScaleKey(const D3DRMANIMATIONKEY& rmKey,
D3DVECTOR& dvVec)
{
dvVec = D3DVECTOR(rmKey.dvK[0], rmKey.dvK[1], rmKey.dvK[2]);
}
inline VOID
D3DRMAnimationGetPositionKey(const D3DRMANIMATIONKEY& rmKey,
D3DVECTOR& dvVec)
{
dvVec = D3DVECTOR(rmKey.dvK[0], rmKey.dvK[1], rmKey.dvK[2]);
}
inline VOID
D3DRMAnimationSetRotateKey(D3DRMANIMATIONKEY& rmKey,
const D3DRMQUATERNION& rmQuat)
{
rmKey.dvK[0] = rmQuat.s;
rmKey.dvK[1] = rmQuat.v.x;
rmKey.dvK[2] = rmQuat.v.y;
rmKey.dvK[3] = rmQuat.v.z;
}
inline VOID
D3DRMAnimationSetScaleKey(D3DRMANIMATIONKEY& rmKey,
const D3DVECTOR& dvVec)
{
rmKey.dvK[0] = dvVec.x;
rmKey.dvK[1] = dvVec.y;
rmKey.dvK[2] = dvVec.z;
}
inline VOID
D3DRMAnimationSetPositionKey(D3DRMANIMATIONKEY& rmKey,
const D3DVECTOR& dvVec)
{
rmKey.dvK[0] = dvVec.x;
rmKey.dvK[1] = dvVec.y;
rmKey.dvK[2] = dvVec.z;
}
#endif
#define D3DRMANIMATION_ROTATEKEY 0x01
#define D3DRMANIMATION_SCALEKEY 0x02
#define D3DRMANIMATION_POSITIONKEY 0x03
typedef DWORD D3DRMMAPPING, D3DRMMAPPINGFLAG, *LPD3DRMMAPPING;
static const D3DRMMAPPINGFLAG D3DRMMAP_WRAPU = 1;
static const D3DRMMAPPINGFLAG D3DRMMAP_WRAPV = 2;
static const D3DRMMAPPINGFLAG D3DRMMAP_PERSPCORRECT = 4;
typedef struct _D3DRMVERTEX
{ D3DVECTOR position;
D3DVECTOR normal;
D3DVALUE tu, tv;
D3DCOLOR color;
} D3DRMVERTEX, *LPD3DRMVERTEX;
typedef LONG D3DRMGROUPINDEX; /* group indexes begin a 0 */
static const D3DRMGROUPINDEX D3DRMGROUP_ALLGROUPS = -1;
/*
* Create a color from three components in the range 0-1 inclusive.
*/
extern D3DCOLOR D3DRMAPI D3DRMCreateColorRGB(D3DVALUE red,
D3DVALUE green,
D3DVALUE blue);
/*
* Create a color from four components in the range 0-1 inclusive.
*/
extern D3DCOLOR D3DRMAPI D3DRMCreateColorRGBA(D3DVALUE red,
D3DVALUE green,
D3DVALUE blue,
D3DVALUE alpha);
/*
* Get the red component of a color.
*/
extern D3DVALUE D3DRMAPI D3DRMColorGetRed(D3DCOLOR);
/*
* Get the green component of a color.
*/
extern D3DVALUE D3DRMAPI D3DRMColorGetGreen(D3DCOLOR);
/*
* Get the blue component of a color.
*/
extern D3DVALUE D3DRMAPI D3DRMColorGetBlue(D3DCOLOR);
/*
* Get the alpha component of a color.
*/
extern D3DVALUE D3DRMAPI D3DRMColorGetAlpha(D3DCOLOR);
/*
* Add two vectors. Returns its first argument.
*/
extern LPD3DVECTOR D3DRMAPI D3DRMVectorAdd(LPD3DVECTOR d,
LPD3DVECTOR s1,
LPD3DVECTOR s2);
/*
* Subtract two vectors. Returns its first argument.
*/
extern LPD3DVECTOR D3DRMAPI D3DRMVectorSubtract(LPD3DVECTOR d,
LPD3DVECTOR s1,
LPD3DVECTOR s2);
/*
* Reflect a ray about a given normal. Returns its first argument.
*/
extern LPD3DVECTOR D3DRMAPI D3DRMVectorReflect(LPD3DVECTOR d,
LPD3DVECTOR ray,
LPD3DVECTOR norm);
/*
* Calculate the vector cross product. Returns its first argument.
*/
extern LPD3DVECTOR D3DRMAPI D3DRMVectorCrossProduct(LPD3DVECTOR d,
LPD3DVECTOR s1,
LPD3DVECTOR s2);
/*
* Return the vector dot product.
*/
extern D3DVALUE D3DRMAPI D3DRMVectorDotProduct(LPD3DVECTOR s1,
LPD3DVECTOR s2);
/*
* Scale a vector so that its modulus is 1. Returns its argument or
* NULL if there was an error (e.g. a zero vector was passed).
*/
extern LPD3DVECTOR D3DRMAPI D3DRMVectorNormalize(LPD3DVECTOR);
#define D3DRMVectorNormalise D3DRMVectorNormalize
/*
* Return the length of a vector (e.g. sqrt(x*x + y*y + z*z)).
*/
extern D3DVALUE D3DRMAPI D3DRMVectorModulus(LPD3DVECTOR v);
/*
* Set the rotation part of a matrix to be a rotation of theta radians
* around the given axis.
*/
extern LPD3DVECTOR D3DRMAPI D3DRMVectorRotate(LPD3DVECTOR r, LPD3DVECTOR v, LPD3DVECTOR axis, D3DVALUE theta);
/*
* Scale a vector uniformly in all three axes
*/
extern LPD3DVECTOR D3DRMAPI D3DRMVectorScale(LPD3DVECTOR d, LPD3DVECTOR s, D3DVALUE factor);
/*
* Return a random unit vector
*/
extern LPD3DVECTOR D3DRMAPI D3DRMVectorRandom(LPD3DVECTOR d);
/*
* Returns a unit quaternion that represents a rotation of theta radians
* around the given axis.
*/
extern LPD3DRMQUATERNION D3DRMAPI D3DRMQuaternionFromRotation(LPD3DRMQUATERNION quat,
LPD3DVECTOR v,
D3DVALUE theta);
/*
* Calculate the product of two quaternions
*/
extern LPD3DRMQUATERNION D3DRMAPI D3DRMQuaternionMultiply(LPD3DRMQUATERNION q,
LPD3DRMQUATERNION a,
LPD3DRMQUATERNION b);
/*
* Interpolate between two quaternions
*/
extern LPD3DRMQUATERNION D3DRMAPI D3DRMQuaternionSlerp(LPD3DRMQUATERNION q,
LPD3DRMQUATERNION a,
LPD3DRMQUATERNION b,
D3DVALUE alpha);
/*
* Calculate the matrix for the rotation that a unit quaternion represents
*/
extern void D3DRMAPI D3DRMMatrixFromQuaternion(D3DRMMATRIX4D dmMat, LPD3DRMQUATERNION lpDqQuat);
/*
* Calculate the quaternion that corresponds to a rotation matrix
*/
extern LPD3DRMQUATERNION D3DRMAPI D3DRMQuaternionFromMatrix(LPD3DRMQUATERNION, D3DRMMATRIX4D);
#if defined(__cplusplus)
};
#endif
#endif

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/*==========================================================================;
*
* Copyright (C) 1995-1997 Microsoft Corporation. All Rights Reserved.
*
* File: d3drm.h
* Content: Direct3DRM include file
*
***************************************************************************/
#ifndef __D3DRMWIN_H__
#define __D3DRMWIN_H__
#ifndef WIN32
#define WIN32
#endif
#include "d3drm.h"
#include "ddraw.h"
#include "d3d.h"
/*
* GUIDS used by Direct3DRM Windows interface
*/
DEFINE_GUID(IID_IDirect3DRMWinDevice, 0xc5016cc0, 0xd273, 0x11ce, 0xac, 0x48, 0x0, 0x0, 0xc0, 0x38, 0x25, 0xa1);
WIN_TYPES(IDirect3DRMWinDevice, DIRECT3DRMWINDEVICE);
#undef INTERFACE
#define INTERFACE IDirect3DRMWinDevice
DECLARE_INTERFACE_(IDirect3DRMWinDevice, IDirect3DRMObject)
{
IUNKNOWN_METHODS(PURE);
IDIRECT3DRMOBJECT_METHODS(PURE);
/*
* IDirect3DRMWinDevice methods
*/
/* Repaint the window with the last frame which was rendered. */
STDMETHOD(HandlePaint)(THIS_ HDC hdc) PURE;
/* Respond to a WM_ACTIVATE message. */
STDMETHOD(HandleActivate)(THIS_ WORD wparam) PURE;
};
#endif

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/******************************************************************
* *
* D3DVec.inl *
* *
* Float-valued 3D vector class for Direct3D. *
* *
* Copyright (c) Microsoft Corp. All rights reserved. *
* *
******************************************************************/
#include <math.h>
// =====================================
// Constructors
// =====================================
inline
_D3DVECTOR::_D3DVECTOR(D3DVALUE f)
{
x = y = z = f;
}
inline
_D3DVECTOR::_D3DVECTOR(D3DVALUE _x, D3DVALUE _y, D3DVALUE _z)
{
x = _x; y = _y; z = _z;
}
inline
_D3DVECTOR::_D3DVECTOR(const D3DVALUE f[3])
{
x = f[0]; y = f[1]; z = f[2];
}
// =====================================
// Access grants
// =====================================
inline const D3DVALUE&
_D3DVECTOR::operator[](int i) const
{
return (&x)[i];
}
inline D3DVALUE&
_D3DVECTOR::operator[](int i)
{
return (&x)[i];
}
// =====================================
// Assignment operators
// =====================================
inline _D3DVECTOR&
_D3DVECTOR::operator += (const _D3DVECTOR& v)
{
x += v.x; y += v.y; z += v.z;
return *this;
}
inline _D3DVECTOR&
_D3DVECTOR::operator -= (const _D3DVECTOR& v)
{
x -= v.x; y -= v.y; z -= v.z;
return *this;
}
inline _D3DVECTOR&
_D3DVECTOR::operator *= (const _D3DVECTOR& v)
{
x *= v.x; y *= v.y; z *= v.z;
return *this;
}
inline _D3DVECTOR&
_D3DVECTOR::operator /= (const _D3DVECTOR& v)
{
x /= v.x; y /= v.y; z /= v.z;
return *this;
}
inline _D3DVECTOR&
_D3DVECTOR::operator *= (D3DVALUE s)
{
x *= s; y *= s; z *= s;
return *this;
}
inline _D3DVECTOR&
_D3DVECTOR::operator /= (D3DVALUE s)
{
x /= s; y /= s; z /= s;
return *this;
}
inline _D3DVECTOR
operator + (const _D3DVECTOR& v)
{
return v;
}
inline _D3DVECTOR
operator - (const _D3DVECTOR& v)
{
return _D3DVECTOR(-v.x, -v.y, -v.z);
}
inline _D3DVECTOR
operator + (const _D3DVECTOR& v1, const _D3DVECTOR& v2)
{
return _D3DVECTOR(v1.x+v2.x, v1.y+v2.y, v1.z+v2.z);
}
inline _D3DVECTOR
operator - (const _D3DVECTOR& v1, const _D3DVECTOR& v2)
{
return _D3DVECTOR(v1.x-v2.x, v1.y-v2.y, v1.z-v2.z);
}
inline _D3DVECTOR
operator * (const _D3DVECTOR& v1, const _D3DVECTOR& v2)
{
return _D3DVECTOR(v1.x*v2.x, v1.y*v2.y, v1.z*v2.z);
}
inline _D3DVECTOR
operator / (const _D3DVECTOR& v1, const _D3DVECTOR& v2)
{
return _D3DVECTOR(v1.x/v2.x, v1.y/v2.y, v1.z/v2.z);
}
inline int
operator < (const _D3DVECTOR& v1, const _D3DVECTOR& v2)
{
return v1[0] < v2[0] && v1[1] < v2[1] && v1[2] < v2[2];
}
inline int
operator <= (const _D3DVECTOR& v1, const _D3DVECTOR& v2)
{
return v1[0] <= v2[0] && v1[1] <= v2[1] && v1[2] <= v2[2];
}
inline _D3DVECTOR
operator * (const _D3DVECTOR& v, D3DVALUE s)
{
return _D3DVECTOR(s*v.x, s*v.y, s*v.z);
}
inline _D3DVECTOR
operator * (D3DVALUE s, const _D3DVECTOR& v)
{
return _D3DVECTOR(s*v.x, s*v.y, s*v.z);
}
inline _D3DVECTOR
operator / (const _D3DVECTOR& v, D3DVALUE s)
{
return _D3DVECTOR(v.x/s, v.y/s, v.z/s);
}
inline int
operator == (const _D3DVECTOR& v1, const _D3DVECTOR& v2)
{
return v1.x==v2.x && v1.y==v2.y && v1.z == v2.z;
}
inline D3DVALUE
Magnitude (const _D3DVECTOR& v)
{
return (D3DVALUE) sqrt(SquareMagnitude(v));
}
inline D3DVALUE
SquareMagnitude (const _D3DVECTOR& v)
{
return v.x*v.x + v.y*v.y + v.z*v.z;
}
inline _D3DVECTOR
Normalize (const _D3DVECTOR& v)
{
return v / Magnitude(v);
}
inline D3DVALUE
Min (const _D3DVECTOR& v)
{
D3DVALUE ret = v.x;
if (v.y < ret) ret = v.y;
if (v.z < ret) ret = v.z;
return ret;
}
inline D3DVALUE
Max (const _D3DVECTOR& v)
{
D3DVALUE ret = v.x;
if (ret < v.y) ret = v.y;
if (ret < v.z) ret = v.z;
return ret;
}
inline _D3DVECTOR
Minimize (const _D3DVECTOR& v1, const _D3DVECTOR& v2)
{
return _D3DVECTOR( v1[0] < v2[0] ? v1[0] : v2[0],
v1[1] < v2[1] ? v1[1] : v2[1],
v1[2] < v2[2] ? v1[2] : v2[2]);
}
inline _D3DVECTOR
Maximize (const _D3DVECTOR& v1, const _D3DVECTOR& v2)
{
return _D3DVECTOR( v1[0] > v2[0] ? v1[0] : v2[0],
v1[1] > v2[1] ? v1[1] : v2[1],
v1[2] > v2[2] ? v1[2] : v2[2]);
}
inline D3DVALUE
DotProduct (const _D3DVECTOR& v1, const _D3DVECTOR& v2)
{
return v1.x*v2.x + v1.y * v2.y + v1.z*v2.z;
}
inline _D3DVECTOR
CrossProduct (const _D3DVECTOR& v1, const _D3DVECTOR& v2)
{
_D3DVECTOR result;
result[0] = v1[1] * v2[2] - v1[2] * v2[1];
result[1] = v1[2] * v2[0] - v1[0] * v2[2];
result[2] = v1[0] * v2[1] - v1[1] * v2[0];
return result;
}
inline _D3DMATRIX
operator* (const _D3DMATRIX& a, const _D3DMATRIX& b)
{
_D3DMATRIX ret;
for (int i=0; i<4; i++) {
for (int j=0; j<4; j++) {
ret(i, j) = 0.0f;
for (int k=0; k<4; k++) {
ret(i, j) += a(i, k) * b(k, j);
}
}
}
return ret;
}

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///////////////////////////////////////////////////////////////////////////
//
// Copyright (C) Microsoft Corporation. All Rights Reserved.
//
// File: d3dx.h
// Content: D3DX utility library
//
///////////////////////////////////////////////////////////////////////////
#ifndef __D3DX_H__
#define __D3DX_H__
#ifndef D3DXINLINE
#ifdef __cplusplus
#define D3DXINLINE inline
#else
#define D3DXINLINE _inline
#endif
#endif
#include "d3dxcore.h"
#include "d3dxmath.h"
#include "d3dxshapes.h"
#include "d3dxsprite.h"
#endif //__D3DX_H__

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///////////////////////////////////////////////////////////////////////////
//
// Copyright (C) Microsoft Corporation. All Rights Reserved.
//
// File: d3dx8.h
// Content: D3DX utility library
//
///////////////////////////////////////////////////////////////////////////
#ifndef __D3DX8_H__
#define __D3DX8_H__
#include "d3d8.h"
#include <limits.h>
#ifndef D3DXINLINE
#ifdef _MSC_VER
#if (_MSC_VER >= 1200)
#define D3DXINLINE __forceinline
#else
#define D3DXINLINE __inline
#endif
#else
#ifdef __cplusplus
#define D3DXINLINE inline
#else
#define D3DXINLINE
#endif
#endif
#endif
#define D3DX_DEFAULT ULONG_MAX
#define D3DX_DEFAULT_FLOAT FLT_MAX
#include "d3dx8math.h"
#include "d3dx8core.h"
#include "d3dx8tex.h"
#include "d3dx8mesh.h"
#include "d3dx8shape.h"
#include "d3dx8effect.h"
#endif //__D3DX8_H__

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///////////////////////////////////////////////////////////////////////////
//
// Copyright (C) Microsoft Corporation. All Rights Reserved.
//
// File: d3dx8core.h
// Content: D3DX core types and functions
//
///////////////////////////////////////////////////////////////////////////
#include "d3dx8.h"
#ifndef __D3DX8CORE_H__
#define __D3DX8CORE_H__
///////////////////////////////////////////////////////////////////////////
// ID3DXBuffer:
// ------------
// The buffer object is used by D3DX to return arbitrary size data.
//
// GetBufferPointer -
// Returns a pointer to the beginning of the buffer.
//
// GetBufferSize -
// Returns the size of the buffer, in bytes.
///////////////////////////////////////////////////////////////////////////
typedef interface ID3DXBuffer ID3DXBuffer;
typedef interface ID3DXBuffer *LPD3DXBUFFER;
// {932E6A7E-C68E-45dd-A7BF-53D19C86DB1F}
DEFINE_GUID(IID_ID3DXBuffer,
0x932e6a7e, 0xc68e, 0x45dd, 0xa7, 0xbf, 0x53, 0xd1, 0x9c, 0x86, 0xdb, 0x1f);
#undef INTERFACE
#define INTERFACE ID3DXBuffer
DECLARE_INTERFACE_(ID3DXBuffer, IUnknown)
{
// IUnknown
STDMETHOD(QueryInterface)(THIS_ REFIID iid, LPVOID *ppv) PURE;
STDMETHOD_(ULONG, AddRef)(THIS) PURE;
STDMETHOD_(ULONG, Release)(THIS) PURE;
// ID3DXBuffer
STDMETHOD_(LPVOID, GetBufferPointer)(THIS) PURE;
STDMETHOD_(DWORD, GetBufferSize)(THIS) PURE;
};
///////////////////////////////////////////////////////////////////////////
// ID3DXFont:
// ----------
// Font objects contain the textures and resources needed to render
// a specific font on a specific device.
//
// Begin -
// Prepartes device for drawing text. This is optional.. if DrawText
// is called outside of Begin/End, it will call Begin and End for you.
//
// DrawText -
// Draws formatted text on a D3D device. Some parameters are
// surprisingly similar to those of GDI's DrawText function. See GDI
// documentation for a detailed description of these parameters.
//
// End -
// Restores device state to how it was when Begin was called.
//
// OnLostDevice, OnResetDevice -
// Call OnLostDevice() on this object before calling Reset() on the
// device, so that this object can release any stateblocks and video
// memory resources. After Reset(), the call OnResetDevice().
//
///////////////////////////////////////////////////////////////////////////
typedef interface ID3DXFont ID3DXFont;
typedef interface ID3DXFont *LPD3DXFONT;
// {89FAD6A5-024D-49af-8FE7-F51123B85E25}
DEFINE_GUID( IID_ID3DXFont,
0x89fad6a5, 0x24d, 0x49af, 0x8f, 0xe7, 0xf5, 0x11, 0x23, 0xb8, 0x5e, 0x25);
#undef INTERFACE
#define INTERFACE ID3DXFont
DECLARE_INTERFACE_(ID3DXFont, IUnknown)
{
// IUnknown
STDMETHOD(QueryInterface)(THIS_ REFIID iid, LPVOID *ppv) PURE;
STDMETHOD_(ULONG, AddRef)(THIS) PURE;
STDMETHOD_(ULONG, Release)(THIS) PURE;
// ID3DXFont
STDMETHOD(GetDevice)(THIS_ LPDIRECT3DDEVICE8* ppDevice) PURE;
STDMETHOD(GetLogFont)(THIS_ LOGFONT* pLogFont) PURE;
STDMETHOD(Begin)(THIS) PURE;
STDMETHOD_(INT, DrawTextA)(THIS_ LPCSTR pString, INT Count, LPRECT pRect, DWORD Format, D3DCOLOR Color) PURE;
STDMETHOD_(INT, DrawTextW)(THIS_ LPCWSTR pString, INT Count, LPRECT pRect, DWORD Format, D3DCOLOR Color) PURE;
STDMETHOD(End)(THIS) PURE;
STDMETHOD(OnLostDevice)(THIS) PURE;
STDMETHOD(OnResetDevice)(THIS) PURE;
};
#ifndef DrawText
#ifdef UNICODE
#define DrawText DrawTextW
#else
#define DrawText DrawTextA
#endif
#endif
#ifdef __cplusplus
extern "C" {
#endif //__cplusplus
HRESULT WINAPI
D3DXCreateFont(
LPDIRECT3DDEVICE8 pDevice,
HFONT hFont,
LPD3DXFONT* ppFont);
HRESULT WINAPI
D3DXCreateFontIndirect(
LPDIRECT3DDEVICE8 pDevice,
CONST LOGFONT* pLogFont,
LPD3DXFONT* ppFont);
#ifdef __cplusplus
}
#endif //__cplusplus
///////////////////////////////////////////////////////////////////////////
// ID3DXSprite:
// ------------
// This object intends to provide an easy way to drawing sprites using D3D.
//
// Begin -
// Prepares device for drawing sprites
//
// Draw, DrawAffine, DrawTransform -
// Draws a sprite in screen-space. Before transformation, the sprite is
// the size of SrcRect, with its top-left corner at the origin (0,0).
// The color and alpha channels are modulated by Color.
//
// End -
// Restores device state to how it was when Begin was called.
//
// OnLostDevice, OnResetDevice -
// Call OnLostDevice() on this object before calling Reset() on the
// device, so that this object can release any stateblocks and video
// memory resources. After Reset(), the call OnResetDevice().
///////////////////////////////////////////////////////////////////////////
typedef interface ID3DXSprite ID3DXSprite;
typedef interface ID3DXSprite *LPD3DXSPRITE;
// {13D69D15-F9B0-4e0f-B39E-C91EB33F6CE7}
DEFINE_GUID( IID_ID3DXSprite,
0x13d69d15, 0xf9b0, 0x4e0f, 0xb3, 0x9e, 0xc9, 0x1e, 0xb3, 0x3f, 0x6c, 0xe7);
#undef INTERFACE
#define INTERFACE ID3DXSprite
DECLARE_INTERFACE_(ID3DXSprite, IUnknown)
{
// IUnknown
STDMETHOD(QueryInterface)(THIS_ REFIID iid, LPVOID *ppv) PURE;
STDMETHOD_(ULONG, AddRef)(THIS) PURE;
STDMETHOD_(ULONG, Release)(THIS) PURE;
// ID3DXSprite
STDMETHOD(GetDevice)(THIS_ LPDIRECT3DDEVICE8* ppDevice) PURE;
STDMETHOD(Begin)(THIS) PURE;
STDMETHOD(Draw)(THIS_ LPDIRECT3DTEXTURE8 pSrcTexture,
CONST RECT* pSrcRect, CONST D3DXVECTOR2* pScaling,
CONST D3DXVECTOR2* pRotationCenter, FLOAT Rotation,
CONST D3DXVECTOR2* pTranslation, D3DCOLOR Color) PURE;
STDMETHOD(DrawTransform)(THIS_ LPDIRECT3DTEXTURE8 pSrcTexture,
CONST RECT* pSrcRect, CONST D3DXMATRIX* pTransform,
D3DCOLOR Color) PURE;
STDMETHOD(End)(THIS) PURE;
STDMETHOD(OnLostDevice)(THIS) PURE;
STDMETHOD(OnResetDevice)(THIS) PURE;
};
#ifdef __cplusplus
extern "C" {
#endif //__cplusplus
HRESULT WINAPI
D3DXCreateSprite(
LPDIRECT3DDEVICE8 pDevice,
LPD3DXSPRITE* ppSprite);
#ifdef __cplusplus
}
#endif //__cplusplus
///////////////////////////////////////////////////////////////////////////
// ID3DXRenderToSurface:
// ---------------------
// This object abstracts rendering to surfaces. These surfaces do not
// necessarily need to be render targets. If they are not, a compatible
// render target is used, and the result copied into surface at end scene.
//
// BeginScene, EndScene -
// Call BeginScene() and EndScene() at the beginning and ending of your
// scene. These calls will setup and restore render targets, viewports,
// etc..
//
// OnLostDevice, OnResetDevice -
// Call OnLostDevice() on this object before calling Reset() on the
// device, so that this object can release any stateblocks and video
// memory resources. After Reset(), the call OnResetDevice().
///////////////////////////////////////////////////////////////////////////
typedef struct _D3DXRTS_DESC
{
UINT Width;
UINT Height;
D3DFORMAT Format;
BOOL DepthStencil;
D3DFORMAT DepthStencilFormat;
} D3DXRTS_DESC;
typedef interface ID3DXRenderToSurface ID3DXRenderToSurface;
typedef interface ID3DXRenderToSurface *LPD3DXRENDERTOSURFACE;
// {82DF5B90-E34E-496e-AC1C-62117A6A5913}
DEFINE_GUID( IID_ID3DXRenderToSurface,
0x82df5b90, 0xe34e, 0x496e, 0xac, 0x1c, 0x62, 0x11, 0x7a, 0x6a, 0x59, 0x13);
#undef INTERFACE
#define INTERFACE ID3DXRenderToSurface
DECLARE_INTERFACE_(ID3DXRenderToSurface, IUnknown)
{
// IUnknown
STDMETHOD(QueryInterface)(THIS_ REFIID iid, LPVOID *ppv) PURE;
STDMETHOD_(ULONG, AddRef)(THIS) PURE;
STDMETHOD_(ULONG, Release)(THIS) PURE;
// ID3DXRenderToSurface
STDMETHOD(GetDevice)(THIS_ LPDIRECT3DDEVICE8* ppDevice) PURE;
STDMETHOD(GetDesc)(THIS_ D3DXRTS_DESC* pDesc) PURE;
STDMETHOD(BeginScene)(THIS_ LPDIRECT3DSURFACE8 pSurface, CONST D3DVIEWPORT8* pViewport) PURE;
STDMETHOD(EndScene)(THIS) PURE;
STDMETHOD(OnLostDevice)(THIS) PURE;
STDMETHOD(OnResetDevice)(THIS) PURE;
};
#ifdef __cplusplus
extern "C" {
#endif //__cplusplus
HRESULT WINAPI
D3DXCreateRenderToSurface(
LPDIRECT3DDEVICE8 pDevice,
UINT Width,
UINT Height,
D3DFORMAT Format,
BOOL DepthStencil,
D3DFORMAT DepthStencilFormat,
LPD3DXRENDERTOSURFACE* ppRenderToSurface);
#ifdef __cplusplus
}
#endif //__cplusplus
///////////////////////////////////////////////////////////////////////////
// ID3DXRenderToEnvMap:
// --------------------
// This object abstracts rendering to environment maps. These surfaces
// do not necessarily need to be render targets. If they are not, a
// compatible render target is used, and the result copied into the
// environment map at end scene.
//
// BeginCube, BeginSphere, BeginHemisphere, BeginParabolic -
// This function initiates the rendering of the environment map. As
// parameters, you pass the textures in which will get filled in with
// the resulting environment map.
//
// Face -
// Call this function to initiate the drawing of each face. For each
// environment map, you will call this six times.. once for each face
// in D3DCUBEMAP_FACES.
//
// End -
// This will restore all render targets, and if needed compose all the
// rendered faces into the environment map surfaces.
//
// OnLostDevice, OnResetDevice -
// Call OnLostDevice() on this object before calling Reset() on the
// device, so that this object can release any stateblocks and video
// memory resources. After Reset(), the call OnResetDevice().
///////////////////////////////////////////////////////////////////////////
typedef struct _D3DXRTE_DESC
{
UINT Size;
D3DFORMAT Format;
BOOL DepthStencil;
D3DFORMAT DepthStencilFormat;
} D3DXRTE_DESC;
typedef interface ID3DXRenderToEnvMap ID3DXRenderToEnvMap;
typedef interface ID3DXRenderToEnvMap *LPD3DXRenderToEnvMap;
// {4E42C623-9451-44b7-8C86-ABCCDE5D52C8}
DEFINE_GUID( IID_ID3DXRenderToEnvMap,
0x4e42c623, 0x9451, 0x44b7, 0x8c, 0x86, 0xab, 0xcc, 0xde, 0x5d, 0x52, 0xc8);
#undef INTERFACE
#define INTERFACE ID3DXRenderToEnvMap
DECLARE_INTERFACE_(ID3DXRenderToEnvMap, IUnknown)
{
// IUnknown
STDMETHOD(QueryInterface)(THIS_ REFIID iid, LPVOID *ppv) PURE;
STDMETHOD_(ULONG, AddRef)(THIS) PURE;
STDMETHOD_(ULONG, Release)(THIS) PURE;
// ID3DXRenderToEnvMap
STDMETHOD(GetDevice)(THIS_ LPDIRECT3DDEVICE8* ppDevice) PURE;
STDMETHOD(GetDesc)(THIS_ D3DXRTE_DESC* pDesc) PURE;
STDMETHOD(BeginCube)(THIS_
LPDIRECT3DCUBETEXTURE8 pCubeTex) PURE;
STDMETHOD(BeginSphere)(THIS_
LPDIRECT3DTEXTURE8 pTex) PURE;
STDMETHOD(BeginHemisphere)(THIS_
LPDIRECT3DTEXTURE8 pTexZPos,
LPDIRECT3DTEXTURE8 pTexZNeg) PURE;
STDMETHOD(BeginParabolic)(THIS_
LPDIRECT3DTEXTURE8 pTexZPos,
LPDIRECT3DTEXTURE8 pTexZNeg) PURE;
STDMETHOD(Face)(THIS_ D3DCUBEMAP_FACES Face) PURE;
STDMETHOD(End)(THIS) PURE;
STDMETHOD(OnLostDevice)(THIS) PURE;
STDMETHOD(OnResetDevice)(THIS) PURE;
};
#ifdef __cplusplus
extern "C" {
#endif //__cplusplus
HRESULT WINAPI
D3DXCreateRenderToEnvMap(
LPDIRECT3DDEVICE8 pDevice,
UINT Size,
D3DFORMAT Format,
BOOL DepthStencil,
D3DFORMAT DepthStencilFormat,
LPD3DXRenderToEnvMap* ppRenderToEnvMap);
#ifdef __cplusplus
}
#endif //__cplusplus
///////////////////////////////////////////////////////////////////////////
// Shader assemblers:
///////////////////////////////////////////////////////////////////////////
//-------------------------------------------------------------------------
// D3DXASM flags:
// --------------
//
// D3DXASM_DEBUG
// Generate debug info.
//
// D3DXASM_SKIPVALIDATION
// Do not validate the generated code against known capabilities and
// constraints. This option is only recommended when assembling shaders
// you KNOW will work. (ie. have assembled before without this option.)
//-------------------------------------------------------------------------
#define D3DXASM_DEBUG (1 << 0)
#define D3DXASM_SKIPVALIDATION (1 << 1)
#ifdef __cplusplus
extern "C" {
#endif //__cplusplus
//-------------------------------------------------------------------------
// D3DXAssembleShader:
// -------------------
// Assembles an ascii description of a vertex or pixel shader into
// binary form.
//
// Parameters:
// pSrcFile
// Source file name
// hSrcModule
// Module handle. if NULL, current module will be used.
// pSrcResource
// Resource name in module
// pSrcData
// Pointer to source code
// SrcDataLen
// Size of source code, in bytes
// Flags
// D3DXASM_xxx flags
// ppConstants
// Returns an ID3DXBuffer object containing constant declarations.
// ppCompiledShader
// Returns an ID3DXBuffer object containing the object code.
// ppCompilationErrors
// Returns an ID3DXBuffer object containing ascii error messages
//-------------------------------------------------------------------------
HRESULT WINAPI
D3DXAssembleShaderFromFileA(
LPCSTR pSrcFile,
DWORD Flags,
LPD3DXBUFFER* ppConstants,
LPD3DXBUFFER* ppCompiledShader,
LPD3DXBUFFER* ppCompilationErrors);
HRESULT WINAPI
D3DXAssembleShaderFromFileW(
LPCWSTR pSrcFile,
DWORD Flags,
LPD3DXBUFFER* ppConstants,
LPD3DXBUFFER* ppCompiledShader,
LPD3DXBUFFER* ppCompilationErrors);
#ifdef UNICODE
#define D3DXAssembleShaderFromFile D3DXAssembleShaderFromFileW
#else
#define D3DXAssembleShaderFromFile D3DXAssembleShaderFromFileA
#endif
HRESULT WINAPI
D3DXAssembleShaderFromResourceA(
HMODULE hSrcModule,
LPCSTR pSrcResource,
DWORD Flags,
LPD3DXBUFFER* ppConstants,
LPD3DXBUFFER* ppCompiledShader,
LPD3DXBUFFER* ppCompilationErrors);
HRESULT WINAPI
D3DXAssembleShaderFromResourceW(
HMODULE hSrcModule,
LPCWSTR pSrcResource,
DWORD Flags,
LPD3DXBUFFER* ppConstants,
LPD3DXBUFFER* ppCompiledShader,
LPD3DXBUFFER* ppCompilationErrors);
#ifdef UNICODE
#define D3DXAssembleShaderFromResource D3DXAssembleShaderFromResourceW
#else
#define D3DXAssembleShaderFromResource D3DXAssembleShaderFromResourceA
#endif
HRESULT WINAPI
D3DXAssembleShader(
LPCVOID pSrcData,
UINT SrcDataLen,
DWORD Flags,
LPD3DXBUFFER* ppConstants,
LPD3DXBUFFER* ppCompiledShader,
LPD3DXBUFFER* ppCompilationErrors);
#ifdef __cplusplus
}
#endif //__cplusplus
///////////////////////////////////////////////////////////////////////////
// Misc APIs:
///////////////////////////////////////////////////////////////////////////
#ifdef __cplusplus
extern "C" {
#endif //__cplusplus
//-------------------------------------------------------------------------
// D3DXGetErrorString:
// ------------------
// Returns the error string for given an hresult. Interprets all D3DX and
// D3D hresults.
//
// Parameters:
// hr
// The error code to be deciphered.
// pBuffer
// Pointer to the buffer to be filled in.
// BufferLen
// Count of characters in buffer. Any error message longer than this
// length will be truncated to fit.
//-------------------------------------------------------------------------
HRESULT WINAPI
D3DXGetErrorStringA(
HRESULT hr,
LPSTR pBuffer,
UINT BufferLen);
HRESULT WINAPI
D3DXGetErrorStringW(
HRESULT hr,
LPWSTR pBuffer,
UINT BufferLen);
#ifdef UNICODE
#define D3DXGetErrorString D3DXGetErrorStringW
#else
#define D3DXGetErrorString D3DXGetErrorStringA
#endif
#ifdef __cplusplus
}
#endif //__cplusplus
#endif //__D3DX8CORE_H__

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///////////////////////////////////////////////////////////////////////////
//
// Copyright (C) Microsoft Corporation. All Rights Reserved.
//
// File: d3dx8effect.h
// Content: D3DX effect types and functions
//
///////////////////////////////////////////////////////////////////////////
#include "d3dx8.h"
#ifndef __D3DX8EFFECT_H__
#define __D3DX8EFFECT_H__
#define D3DXFX_DONOTSAVESTATE (1 << 0)
typedef enum _D3DXPARAMETERTYPE
{
D3DXPT_DWORD = 0,
D3DXPT_FLOAT = 1,
D3DXPT_VECTOR = 2,
D3DXPT_MATRIX = 3,
D3DXPT_TEXTURE = 4,
D3DXPT_VERTEXSHADER = 5,
D3DXPT_PIXELSHADER = 6,
D3DXPT_CONSTANT = 7,
D3DXPT_STRING = 8,
D3DXPT_FORCE_DWORD = 0x7fffffff /* force 32-bit size enum */
} D3DXPARAMETERTYPE;
typedef struct _D3DXEFFECT_DESC
{
UINT Parameters;
UINT Techniques;
} D3DXEFFECT_DESC;
typedef struct _D3DXPARAMETER_DESC
{
LPCSTR Name;
LPCSTR Index;
D3DXPARAMETERTYPE Type;
} D3DXPARAMETER_DESC;
typedef struct _D3DXTECHNIQUE_DESC
{
LPCSTR Name;
LPCSTR Index;
UINT Passes;
} D3DXTECHNIQUE_DESC;
typedef struct _D3DXPASS_DESC
{
LPCSTR Name;
LPCSTR Index;
} D3DXPASS_DESC;
//////////////////////////////////////////////////////////////////////////////
// ID3DXEffect ///////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
typedef interface ID3DXEffect ID3DXEffect;
typedef interface ID3DXEffect *LPD3DXEFFECT;
// {648B1CEB-8D4E-4d66-B6FA-E44969E82E89}
DEFINE_GUID( IID_ID3DXEffect,
0x648b1ceb, 0x8d4e, 0x4d66, 0xb6, 0xfa, 0xe4, 0x49, 0x69, 0xe8, 0x2e, 0x89);
#undef INTERFACE
#define INTERFACE ID3DXEffect
DECLARE_INTERFACE_(ID3DXEffect, IUnknown)
{
// IUnknown
STDMETHOD(QueryInterface)(THIS_ REFIID iid, LPVOID *ppv) PURE;
STDMETHOD_(ULONG, AddRef)(THIS) PURE;
STDMETHOD_(ULONG, Release)(THIS) PURE;
// ID3DXEffect
STDMETHOD(GetDevice)(THIS_ LPDIRECT3DDEVICE8* ppDevice) PURE;
STDMETHOD(GetDesc)(THIS_ D3DXEFFECT_DESC* pDesc) PURE;
STDMETHOD(GetParameterDesc)(THIS_ LPCSTR pParameter, D3DXPARAMETER_DESC* pDesc) PURE;
STDMETHOD(GetTechniqueDesc)(THIS_ LPCSTR pTechnique, D3DXTECHNIQUE_DESC* pDesc) PURE;
STDMETHOD(GetPassDesc)(THIS_ LPCSTR pTechnique, LPCSTR pPass, D3DXPASS_DESC* pDesc) PURE;
STDMETHOD(FindNextValidTechnique)(THIS_ LPCSTR pTechnique, D3DXTECHNIQUE_DESC* pDesc) PURE;
STDMETHOD(CloneEffect)(THIS_ LPDIRECT3DDEVICE8 pDevice, LPD3DXEFFECT* ppEffect) PURE;
STDMETHOD(GetCompiledEffect)(THIS_ LPD3DXBUFFER* ppCompiledEffect) PURE;
STDMETHOD(SetTechnique)(THIS_ LPCSTR pTechnique) PURE;
STDMETHOD(GetTechnique)(THIS_ LPCSTR* ppTechnique) PURE;
STDMETHOD(SetDword)(THIS_ LPCSTR pParameter, DWORD dw) PURE;
STDMETHOD(GetDword)(THIS_ LPCSTR pParameter, DWORD* pdw) PURE;
STDMETHOD(SetFloat)(THIS_ LPCSTR pParameter, FLOAT f) PURE;
STDMETHOD(GetFloat)(THIS_ LPCSTR pParameter, FLOAT* pf) PURE;
STDMETHOD(SetVector)(THIS_ LPCSTR pParameter, CONST D3DXVECTOR4* pVector) PURE;
STDMETHOD(GetVector)(THIS_ LPCSTR pParameter, D3DXVECTOR4* pVector) PURE;
STDMETHOD(SetMatrix)(THIS_ LPCSTR pParameter, CONST D3DXMATRIX* pMatrix) PURE;
STDMETHOD(GetMatrix)(THIS_ LPCSTR pParameter, D3DXMATRIX* pMatrix) PURE;
STDMETHOD(SetTexture)(THIS_ LPCSTR pParameter, LPDIRECT3DBASETEXTURE8 pTexture) PURE;
STDMETHOD(GetTexture)(THIS_ LPCSTR pParameter, LPDIRECT3DBASETEXTURE8 *ppTexture) PURE;
STDMETHOD(SetVertexShader)(THIS_ LPCSTR pParameter, DWORD Handle) PURE;
STDMETHOD(GetVertexShader)(THIS_ LPCSTR pParameter, DWORD* pHandle) PURE;
STDMETHOD(SetPixelShader)(THIS_ LPCSTR pParameter, DWORD Handle) PURE;
STDMETHOD(GetPixelShader)(THIS_ LPCSTR pParameter, DWORD* pHandle) PURE;
STDMETHOD(SetString)(THIS_ LPCSTR pParameter, LPCSTR pString) PURE;
STDMETHOD(GetString)(THIS_ LPCSTR pParameter, LPCSTR* ppString) PURE;
STDMETHOD_(BOOL, IsParameterUsed)(THIS_ LPCSTR pParameter) PURE;
STDMETHOD(Validate)(THIS) PURE;
STDMETHOD(Begin)(THIS_ UINT *pPasses, DWORD Flags) PURE;
STDMETHOD(Pass)(THIS_ UINT Pass) PURE;
STDMETHOD(End)(THIS) PURE;
STDMETHOD(OnLostDevice)(THIS) PURE;
STDMETHOD(OnResetDevice)(THIS) PURE;
};
//////////////////////////////////////////////////////////////////////////////
// APIs //////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
#ifdef __cplusplus
extern "C" {
#endif //__cplusplus
//----------------------------------------------------------------------------
// D3DXCreateEffect:
// -----------------
// Creates an effect from an ascii or binaray effect description.
//
// Parameters:
// pDevice
// Pointer of the device on which to create the effect
// pSrcFile
// Name of the file containing the effect description
// hSrcModule
// Module handle. if NULL, current module will be used.
// pSrcResource
// Resource name in module
// pSrcData
// Pointer to effect description
// SrcDataSize
// Size of the effect description in bytes
// ppEffect
// Returns a buffer containing created effect.
// ppCompilationErrors
// Returns a buffer containing any error messages which occurred during
// compile. Or NULL if you do not care about the error messages.
//
//----------------------------------------------------------------------------
HRESULT WINAPI
D3DXCreateEffectFromFileA(
LPDIRECT3DDEVICE8 pDevice,
LPCSTR pSrcFile,
LPD3DXEFFECT* ppEffect,
LPD3DXBUFFER* ppCompilationErrors);
HRESULT WINAPI
D3DXCreateEffectFromFileW(
LPDIRECT3DDEVICE8 pDevice,
LPCWSTR pSrcFile,
LPD3DXEFFECT* ppEffect,
LPD3DXBUFFER* ppCompilationErrors);
#ifdef UNICODE
#define D3DXCreateEffectFromFile D3DXCreateEffectFromFileW
#else
#define D3DXCreateEffectFromFile D3DXCreateEffectFromFileA
#endif
HRESULT WINAPI
D3DXCreateEffectFromResourceA(
LPDIRECT3DDEVICE8 pDevice,
HMODULE hSrcModule,
LPCSTR pSrcResource,
LPD3DXEFFECT* ppEffect,
LPD3DXBUFFER* ppCompilationErrors);
HRESULT WINAPI
D3DXCreateEffectFromResourceW(
LPDIRECT3DDEVICE8 pDevice,
HMODULE hSrcModule,
LPCWSTR pSrcResource,
LPD3DXEFFECT* ppEffect,
LPD3DXBUFFER* ppCompilationErrors);
#ifdef UNICODE
#define D3DXCreateEffectFromResource D3DXCreateEffectFromResourceW
#else
#define D3DXCreateEffectFromResource D3DXCreateEffectFromResourceA
#endif
HRESULT WINAPI
D3DXCreateEffect(
LPDIRECT3DDEVICE8 pDevice,
LPCVOID pSrcData,
UINT SrcDataSize,
LPD3DXEFFECT* ppEffect,
LPD3DXBUFFER* ppCompilationErrors);
#ifdef __cplusplus
}
#endif //__cplusplus
#endif //__D3DX8EFFECT_H__

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//////////////////////////////////////////////////////////////////////////////
//
// Copyright (C) Microsoft Corporation. All Rights Reserved.
//
// File: d3dx8mesh.h
// Content: D3DX mesh types and functions
//
//////////////////////////////////////////////////////////////////////////////
#include "d3dx8.h"
#ifndef __D3DX8MESH_H__
#define __D3DX8MESH_H__
#include "dxfile.h" // defines LPDIRECTXFILEDATA
// {2A835771-BF4D-43f4-8E14-82A809F17D8A}
DEFINE_GUID(IID_ID3DXBaseMesh,
0x2a835771, 0xbf4d, 0x43f4, 0x8e, 0x14, 0x82, 0xa8, 0x9, 0xf1, 0x7d, 0x8a);
// {CCAE5C3B-4DD1-4d0f-997E-4684CA64557F}
DEFINE_GUID(IID_ID3DXMesh,
0xccae5c3b, 0x4dd1, 0x4d0f, 0x99, 0x7e, 0x46, 0x84, 0xca, 0x64, 0x55, 0x7f);
// {19FBE386-C282-4659-97BD-CB869B084A6C}
DEFINE_GUID(IID_ID3DXPMesh,
0x19fbe386, 0xc282, 0x4659, 0x97, 0xbd, 0xcb, 0x86, 0x9b, 0x8, 0x4a, 0x6c);
// {4E3CA05C-D4FF-4d11-8A02-16459E08F6F4}
DEFINE_GUID(IID_ID3DXSPMesh,
0x4e3ca05c, 0xd4ff, 0x4d11, 0x8a, 0x2, 0x16, 0x45, 0x9e, 0x8, 0xf6, 0xf4);
// {8DB06ECC-EBFC-408a-9404-3074B4773515}
DEFINE_GUID(IID_ID3DXSkinMesh,
0x8db06ecc, 0xebfc, 0x408a, 0x94, 0x4, 0x30, 0x74, 0xb4, 0x77, 0x35, 0x15);
// Mesh options - lower 3 bytes only, upper byte used by _D3DXMESHOPT option flags
enum _D3DXMESH {
D3DXMESH_32BIT = 0x001, // If set, then use 32 bit indices, if not set use 16 bit indices.
D3DXMESH_DONOTCLIP = 0x002, // Use D3DUSAGE_DONOTCLIP for VB & IB.
D3DXMESH_POINTS = 0x004, // Use D3DUSAGE_POINTS for VB & IB.
D3DXMESH_RTPATCHES = 0x008, // Use D3DUSAGE_RTPATCHES for VB & IB.
D3DXMESH_NPATCHES = 0x4000,// Use D3DUSAGE_NPATCHES for VB & IB.
D3DXMESH_VB_SYSTEMMEM = 0x010, // Use D3DPOOL_SYSTEMMEM for VB. Overrides D3DXMESH_MANAGEDVERTEXBUFFER
D3DXMESH_VB_MANAGED = 0x020, // Use D3DPOOL_MANAGED for VB.
D3DXMESH_VB_WRITEONLY = 0x040, // Use D3DUSAGE_WRITEONLY for VB.
D3DXMESH_VB_DYNAMIC = 0x080, // Use D3DUSAGE_DYNAMIC for VB.
D3DXMESH_VB_SOFTWAREPROCESSING = 0x8000, // Use D3DUSAGE_SOFTWAREPROCESSING for VB.
D3DXMESH_IB_SYSTEMMEM = 0x100, // Use D3DPOOL_SYSTEMMEM for IB. Overrides D3DXMESH_MANAGEDINDEXBUFFER
D3DXMESH_IB_MANAGED = 0x200, // Use D3DPOOL_MANAGED for IB.
D3DXMESH_IB_WRITEONLY = 0x400, // Use D3DUSAGE_WRITEONLY for IB.
D3DXMESH_IB_DYNAMIC = 0x800, // Use D3DUSAGE_DYNAMIC for IB.
D3DXMESH_IB_SOFTWAREPROCESSING= 0x10000, // Use D3DUSAGE_SOFTWAREPROCESSING for IB.
D3DXMESH_VB_SHARE = 0x1000, // Valid for Clone* calls only, forces cloned mesh/pmesh to share vertex buffer
D3DXMESH_USEHWONLY = 0x2000, // Valid for ID3DXSkinMesh::ConvertToBlendedMesh
// Helper options
D3DXMESH_SYSTEMMEM = 0x110, // D3DXMESH_VB_SYSTEMMEM | D3DXMESH_IB_SYSTEMMEM
D3DXMESH_MANAGED = 0x220, // D3DXMESH_VB_MANAGED | D3DXMESH_IB_MANAGED
D3DXMESH_WRITEONLY = 0x440, // D3DXMESH_VB_WRITEONLY | D3DXMESH_IB_WRITEONLY
D3DXMESH_DYNAMIC = 0x880, // D3DXMESH_VB_DYNAMIC | D3DXMESH_IB_DYNAMIC
D3DXMESH_SOFTWAREPROCESSING = 0x18000, // D3DXMESH_VB_SOFTWAREPROCESSING | D3DXMESH_IB_SOFTWAREPROCESSING
};
// option field values for specifying min value in D3DXGeneratePMesh and D3DXSimplifyMesh
enum _D3DXMESHSIMP
{
D3DXMESHSIMP_VERTEX = 0x1,
D3DXMESHSIMP_FACE = 0x2,
};
enum _MAX_FVF_DECL_SIZE
{
MAX_FVF_DECL_SIZE = 20
};
typedef struct ID3DXBaseMesh *LPD3DXBASEMESH;
typedef struct ID3DXMesh *LPD3DXMESH;
typedef struct ID3DXPMesh *LPD3DXPMESH;
typedef struct ID3DXSPMesh *LPD3DXSPMESH;
typedef struct ID3DXSkinMesh *LPD3DXSKINMESH;
typedef struct _D3DXATTRIBUTERANGE
{
DWORD AttribId;
DWORD FaceStart;
DWORD FaceCount;
DWORD VertexStart;
DWORD VertexCount;
} D3DXATTRIBUTERANGE;
typedef D3DXATTRIBUTERANGE* LPD3DXATTRIBUTERANGE;
#ifdef __cplusplus
extern "C" {
#endif //__cplusplus
struct D3DXMATERIAL
{
D3DMATERIAL8 MatD3D;
LPSTR pTextureFilename;
};
typedef struct D3DXMATERIAL *LPD3DXMATERIAL;
#ifdef __cplusplus
}
#endif //__cplusplus
typedef struct _D3DXATTRIBUTEWEIGHTS
{
FLOAT Position;
FLOAT Boundary;
FLOAT Normal;
FLOAT Diffuse;
FLOAT Specular;
FLOAT Tex[8];
} D3DXATTRIBUTEWEIGHTS;
typedef D3DXATTRIBUTEWEIGHTS* LPD3DXATTRIBUTEWEIGHTS;
enum _D3DXWELDEPSILONSFLAGS
{
D3DXWELDEPSILONS_WELDALL = 0x1, // weld all vertices marked by adjacency as being overlapping
D3DXWELDEPSILONS_WELDPARTIALMATCHES = 0x2, // if a given vertex component is within epsilon, modify partial matched
// vertices so that both components identical AND if all components "equal"
// remove one of the vertices
D3DXWELDEPSILONS_DONOTREMOVEVERTICES = 0x4, // instructs weld to only allow modifications to vertices and not removal
// ONLY valid if D3DXWELDEPSILONS_WELDPARTIALMATCHES is set
// useful to modify vertices to be equal, but not allow vertices to be removed
};
typedef struct _D3DXWELDEPSILONS
{
FLOAT SkinWeights;
FLOAT Normal;
FLOAT Tex[8];
DWORD Flags;
} D3DXWELDEPSILONS;
typedef D3DXWELDEPSILONS* LPD3DXWELDEPSILONS;
#undef INTERFACE
#define INTERFACE ID3DXBaseMesh
DECLARE_INTERFACE_(ID3DXBaseMesh, IUnknown)
{
// IUnknown
STDMETHOD(QueryInterface)(THIS_ REFIID iid, LPVOID *ppv) PURE;
STDMETHOD_(ULONG, AddRef)(THIS) PURE;
STDMETHOD_(ULONG, Release)(THIS) PURE;
// ID3DXBaseMesh
STDMETHOD(DrawSubset)(THIS_ DWORD AttribId) PURE;
STDMETHOD_(DWORD, GetNumFaces)(THIS) PURE;
STDMETHOD_(DWORD, GetNumVertices)(THIS) PURE;
STDMETHOD_(DWORD, GetFVF)(THIS) PURE;
STDMETHOD(GetDeclaration)(THIS_ DWORD Declaration[MAX_FVF_DECL_SIZE]) PURE;
STDMETHOD_(DWORD, GetOptions)(THIS) PURE;
STDMETHOD(GetDevice)(THIS_ LPDIRECT3DDEVICE8* ppDevice) PURE;
STDMETHOD(CloneMeshFVF)(THIS_ DWORD Options,
DWORD FVF, LPDIRECT3DDEVICE8 pD3DDevice, LPD3DXMESH* ppCloneMesh) PURE;
STDMETHOD(CloneMesh)(THIS_ DWORD Options,
CONST DWORD *pDeclaration, LPDIRECT3DDEVICE8 pD3DDevice, LPD3DXMESH* ppCloneMesh) PURE;
STDMETHOD(GetVertexBuffer)(THIS_ LPDIRECT3DVERTEXBUFFER8* ppVB) PURE;
STDMETHOD(GetIndexBuffer)(THIS_ LPDIRECT3DINDEXBUFFER8* ppIB) PURE;
STDMETHOD(LockVertexBuffer)(THIS_ DWORD Flags, BYTE** ppData) PURE;
STDMETHOD(UnlockVertexBuffer)(THIS) PURE;
STDMETHOD(LockIndexBuffer)(THIS_ DWORD Flags, BYTE** ppData) PURE;
STDMETHOD(UnlockIndexBuffer)(THIS) PURE;
STDMETHOD(GetAttributeTable)(
THIS_ D3DXATTRIBUTERANGE *pAttribTable, DWORD* pAttribTableSize) PURE;
STDMETHOD(ConvertPointRepsToAdjacency)(THIS_ CONST DWORD* pPRep, DWORD* pAdjacency) PURE;
STDMETHOD(ConvertAdjacencyToPointReps)(THIS_ CONST DWORD* pAdjacency, DWORD* pPRep) PURE;
STDMETHOD(GenerateAdjacency)(THIS_ FLOAT Epsilon, DWORD* pAdjacency) PURE;
};
#undef INTERFACE
#define INTERFACE ID3DXMesh
DECLARE_INTERFACE_(ID3DXMesh, ID3DXBaseMesh)
{
// IUnknown
STDMETHOD(QueryInterface)(THIS_ REFIID iid, LPVOID *ppv) PURE;
STDMETHOD_(ULONG, AddRef)(THIS) PURE;
STDMETHOD_(ULONG, Release)(THIS) PURE;
// ID3DXBaseMesh
STDMETHOD(DrawSubset)(THIS_ DWORD AttribId) PURE;
STDMETHOD_(DWORD, GetNumFaces)(THIS) PURE;
STDMETHOD_(DWORD, GetNumVertices)(THIS) PURE;
STDMETHOD_(DWORD, GetFVF)(THIS) PURE;
STDMETHOD(GetDeclaration)(THIS_ DWORD Declaration[MAX_FVF_DECL_SIZE]) PURE;
STDMETHOD_(DWORD, GetOptions)(THIS) PURE;
STDMETHOD(GetDevice)(THIS_ LPDIRECT3DDEVICE8* ppDevice) PURE;
STDMETHOD(CloneMeshFVF)(THIS_ DWORD Options,
DWORD FVF, LPDIRECT3DDEVICE8 pD3DDevice, LPD3DXMESH* ppCloneMesh) PURE;
STDMETHOD(CloneMesh)(THIS_ DWORD Options,
CONST DWORD *pDeclaration, LPDIRECT3DDEVICE8 pD3DDevice, LPD3DXMESH* ppCloneMesh) PURE;
STDMETHOD(GetVertexBuffer)(THIS_ LPDIRECT3DVERTEXBUFFER8* ppVB) PURE;
STDMETHOD(GetIndexBuffer)(THIS_ LPDIRECT3DINDEXBUFFER8* ppIB) PURE;
STDMETHOD(LockVertexBuffer)(THIS_ DWORD Flags, BYTE** ppData) PURE;
STDMETHOD(UnlockVertexBuffer)(THIS) PURE;
STDMETHOD(LockIndexBuffer)(THIS_ DWORD Flags, BYTE** ppData) PURE;
STDMETHOD(UnlockIndexBuffer)(THIS) PURE;
STDMETHOD(GetAttributeTable)(
THIS_ D3DXATTRIBUTERANGE *pAttribTable, DWORD* pAttribTableSize) PURE;
STDMETHOD(ConvertPointRepsToAdjacency)(THIS_ CONST DWORD* pPRep, DWORD* pAdjacency) PURE;
STDMETHOD(ConvertAdjacencyToPointReps)(THIS_ CONST DWORD* pAdjacency, DWORD* pPRep) PURE;
STDMETHOD(GenerateAdjacency)(THIS_ FLOAT Epsilon, DWORD* pAdjacency) PURE;
// ID3DXMesh
STDMETHOD(LockAttributeBuffer)(THIS_ DWORD Flags, DWORD** ppData) PURE;
STDMETHOD(UnlockAttributeBuffer)(THIS) PURE;
STDMETHOD(Optimize)(THIS_ DWORD Flags, CONST DWORD* pAdjacencyIn, DWORD* pAdjacencyOut,
DWORD* pFaceRemap, LPD3DXBUFFER *ppVertexRemap,
LPD3DXMESH* ppOptMesh) PURE;
STDMETHOD(OptimizeInplace)(THIS_ DWORD Flags, CONST DWORD* pAdjacencyIn, DWORD* pAdjacencyOut,
DWORD* pFaceRemap, LPD3DXBUFFER *ppVertexRemap) PURE;
};
#undef INTERFACE
#define INTERFACE ID3DXPMesh
DECLARE_INTERFACE_(ID3DXPMesh, ID3DXBaseMesh)
{
// IUnknown
STDMETHOD(QueryInterface)(THIS_ REFIID iid, LPVOID *ppv) PURE;
STDMETHOD_(ULONG, AddRef)(THIS) PURE;
STDMETHOD_(ULONG, Release)(THIS) PURE;
// ID3DXBaseMesh
STDMETHOD(DrawSubset)(THIS_ DWORD AttribId) PURE;
STDMETHOD_(DWORD, GetNumFaces)(THIS) PURE;
STDMETHOD_(DWORD, GetNumVertices)(THIS) PURE;
STDMETHOD_(DWORD, GetFVF)(THIS) PURE;
STDMETHOD(GetDeclaration)(THIS_ DWORD Declaration[MAX_FVF_DECL_SIZE]) PURE;
STDMETHOD_(DWORD, GetOptions)(THIS) PURE;
STDMETHOD(GetDevice)(THIS_ LPDIRECT3DDEVICE8* ppDevice) PURE;
STDMETHOD(CloneMeshFVF)(THIS_ DWORD Options,
DWORD FVF, LPDIRECT3DDEVICE8 pD3DDevice, LPD3DXMESH* ppCloneMesh) PURE;
STDMETHOD(CloneMesh)(THIS_ DWORD Options,
CONST DWORD *pDeclaration, LPDIRECT3DDEVICE8 pD3DDevice, LPD3DXMESH* ppCloneMesh) PURE;
STDMETHOD(GetVertexBuffer)(THIS_ LPDIRECT3DVERTEXBUFFER8* ppVB) PURE;
STDMETHOD(GetIndexBuffer)(THIS_ LPDIRECT3DINDEXBUFFER8* ppIB) PURE;
STDMETHOD(LockVertexBuffer)(THIS_ DWORD Flags, BYTE** ppData) PURE;
STDMETHOD(UnlockVertexBuffer)(THIS) PURE;
STDMETHOD(LockIndexBuffer)(THIS_ DWORD Flags, BYTE** ppData) PURE;
STDMETHOD(UnlockIndexBuffer)(THIS) PURE;
STDMETHOD(GetAttributeTable)(
THIS_ D3DXATTRIBUTERANGE *pAttribTable, DWORD* pAttribTableSize) PURE;
STDMETHOD(ConvertPointRepsToAdjacency)(THIS_ CONST DWORD* pPRep, DWORD* pAdjacency) PURE;
STDMETHOD(ConvertAdjacencyToPointReps)(THIS_ CONST DWORD* pAdjacency, DWORD* pPRep) PURE;
STDMETHOD(GenerateAdjacency)(THIS_ FLOAT Epsilon, DWORD* pAdjacency) PURE;
// ID3DXPMesh
STDMETHOD(ClonePMeshFVF)(THIS_ DWORD Options,
DWORD FVF, LPDIRECT3DDEVICE8 pD3D, LPD3DXPMESH* ppCloneMesh) PURE;
STDMETHOD(ClonePMesh)(THIS_ DWORD Options,
CONST DWORD *pDeclaration, LPDIRECT3DDEVICE8 pD3D, LPD3DXPMESH* ppCloneMesh) PURE;
STDMETHOD(SetNumFaces)(THIS_ DWORD Faces) PURE;
STDMETHOD(SetNumVertices)(THIS_ DWORD Vertices) PURE;
STDMETHOD_(DWORD, GetMaxFaces)(THIS) PURE;
STDMETHOD_(DWORD, GetMinFaces)(THIS) PURE;
STDMETHOD_(DWORD, GetMaxVertices)(THIS) PURE;
STDMETHOD_(DWORD, GetMinVertices)(THIS) PURE;
STDMETHOD(Save)(THIS_ IStream *pStream, LPD3DXMATERIAL pMaterials, DWORD NumMaterials) PURE;
STDMETHOD(Optimize)(THIS_ DWORD Flags, DWORD* pAdjacencyOut,
DWORD* pFaceRemap, LPD3DXBUFFER *ppVertexRemap,
LPD3DXMESH* ppOptMesh) PURE;
STDMETHOD(OptimizeBaseLOD)(THIS_ DWORD Flags, DWORD* pFaceRemap) PURE;
STDMETHOD(TrimByFaces)(THIS_ DWORD NewFacesMin, DWORD NewFacesMax, DWORD *rgiFaceRemap, DWORD *rgiVertRemap) PURE;
STDMETHOD(TrimByVertices)(THIS_ DWORD NewVerticesMin, DWORD NewVerticesMax, DWORD *rgiFaceRemap, DWORD *rgiVertRemap) PURE;
STDMETHOD(GetAdjacency)(THIS_ DWORD* pAdjacency) PURE;
};
#undef INTERFACE
#define INTERFACE ID3DXSPMesh
DECLARE_INTERFACE_(ID3DXSPMesh, IUnknown)
{
// IUnknown
STDMETHOD(QueryInterface)(THIS_ REFIID iid, LPVOID *ppv) PURE;
STDMETHOD_(ULONG, AddRef)(THIS) PURE;
STDMETHOD_(ULONG, Release)(THIS) PURE;
// ID3DXSPMesh
STDMETHOD_(DWORD, GetNumFaces)(THIS) PURE;
STDMETHOD_(DWORD, GetNumVertices)(THIS) PURE;
STDMETHOD_(DWORD, GetFVF)(THIS) PURE;
STDMETHOD(GetDeclaration)(THIS_ DWORD Declaration[MAX_FVF_DECL_SIZE]) PURE;
STDMETHOD_(DWORD, GetOptions)(THIS) PURE;
STDMETHOD(GetDevice)(THIS_ LPDIRECT3DDEVICE8* ppDevice) PURE;
STDMETHOD(CloneMeshFVF)(THIS_ DWORD Options,
DWORD FVF, LPDIRECT3DDEVICE8 pD3D, DWORD *pAdjacencyOut, DWORD *pVertexRemapOut, LPD3DXMESH* ppCloneMesh) PURE;
STDMETHOD(CloneMesh)(THIS_ DWORD Options,
CONST DWORD *pDeclaration, LPDIRECT3DDEVICE8 pD3DDevice, DWORD *pAdjacencyOut, DWORD *pVertexRemapOut, LPD3DXMESH* ppCloneMesh) PURE;
STDMETHOD(ClonePMeshFVF)(THIS_ DWORD Options,
DWORD FVF, LPDIRECT3DDEVICE8 pD3D, DWORD *pVertexRemapOut, LPD3DXPMESH* ppCloneMesh) PURE;
STDMETHOD(ClonePMesh)(THIS_ DWORD Options,
CONST DWORD *pDeclaration, LPDIRECT3DDEVICE8 pD3D, DWORD *pVertexRemapOut, LPD3DXPMESH* ppCloneMesh) PURE;
STDMETHOD(ReduceFaces)(THIS_ DWORD Faces) PURE;
STDMETHOD(ReduceVertices)(THIS_ DWORD Vertices) PURE;
STDMETHOD_(DWORD, GetMaxFaces)(THIS) PURE;
STDMETHOD_(DWORD, GetMaxVertices)(THIS) PURE;
STDMETHOD(GetVertexAttributeWeights)(THIS_ LPD3DXATTRIBUTEWEIGHTS pVertexAttributeWeights) PURE;
STDMETHOD(GetVertexWeights)(THIS_ FLOAT *pVertexWeights) PURE;
};
#define UNUSED16 (0xffff)
#define UNUSED32 (0xffffffff)
// ID3DXMesh::Optimize options - upper byte only, lower 3 bytes used from _D3DXMESH option flags
enum _D3DXMESHOPT {
D3DXMESHOPT_COMPACT = 0x01000000,
D3DXMESHOPT_ATTRSORT = 0x02000000,
D3DXMESHOPT_VERTEXCACHE = 0x04000000,
D3DXMESHOPT_STRIPREORDER = 0x08000000,
D3DXMESHOPT_IGNOREVERTS = 0x10000000, // optimize faces only, don't touch vertices
D3DXMESHOPT_SHAREVB = 0x1000, // same as D3DXMESH_VB_SHARE
};
// Subset of the mesh that has the same attribute and bone combination.
// This subset can be rendered in a single draw call
typedef struct _D3DXBONECOMBINATION
{
DWORD AttribId;
DWORD FaceStart;
DWORD FaceCount;
DWORD VertexStart;
DWORD VertexCount;
DWORD* BoneId;
} D3DXBONECOMBINATION, *LPD3DXBONECOMBINATION;
#undef INTERFACE
#define INTERFACE ID3DXSkinMesh
DECLARE_INTERFACE_(ID3DXSkinMesh, IUnknown)
{
// IUnknown
STDMETHOD(QueryInterface)(THIS_ REFIID iid, LPVOID *ppv) PURE;
STDMETHOD_(ULONG, AddRef)(THIS) PURE;
STDMETHOD_(ULONG, Release)(THIS) PURE;
// ID3DXMesh
STDMETHOD_(DWORD, GetNumFaces)(THIS) PURE;
STDMETHOD_(DWORD, GetNumVertices)(THIS) PURE;
STDMETHOD_(DWORD, GetFVF)(THIS) PURE;
STDMETHOD(GetDeclaration)(THIS_ DWORD Declaration[MAX_FVF_DECL_SIZE]) PURE;
STDMETHOD_(DWORD, GetOptions)(THIS) PURE;
STDMETHOD(GetDevice)(THIS_ LPDIRECT3DDEVICE8* ppDevice) PURE;
STDMETHOD(GetVertexBuffer)(THIS_ LPDIRECT3DVERTEXBUFFER8* ppVB) PURE;
STDMETHOD(GetIndexBuffer)(THIS_ LPDIRECT3DINDEXBUFFER8* ppIB) PURE;
STDMETHOD(LockVertexBuffer)(THIS_ DWORD flags, BYTE** ppData) PURE;
STDMETHOD(UnlockVertexBuffer)(THIS) PURE;
STDMETHOD(LockIndexBuffer)(THIS_ DWORD flags, BYTE** ppData) PURE;
STDMETHOD(UnlockIndexBuffer)(THIS) PURE;
STDMETHOD(LockAttributeBuffer)(THIS_ DWORD flags, DWORD** ppData) PURE;
STDMETHOD(UnlockAttributeBuffer)(THIS) PURE;
// ID3DXSkinMesh
STDMETHOD_(DWORD, GetNumBones)(THIS) PURE;
STDMETHOD(GetOriginalMesh)(THIS_ LPD3DXMESH* ppMesh) PURE;
STDMETHOD(SetBoneInfluence)(THIS_ DWORD bone, DWORD numInfluences, CONST DWORD* vertices, CONST FLOAT* weights) PURE;
STDMETHOD_(DWORD, GetNumBoneInfluences)(THIS_ DWORD bone) PURE;
STDMETHOD(GetBoneInfluence)(THIS_ DWORD bone, DWORD* vertices, FLOAT* weights) PURE;
STDMETHOD(GetMaxVertexInfluences)(THIS_ DWORD* maxVertexInfluences) PURE;
STDMETHOD(GetMaxFaceInfluences)(THIS_ DWORD* maxFaceInfluences) PURE;
STDMETHOD(ConvertToBlendedMesh)(THIS_ DWORD Options,
CONST LPDWORD pAdjacencyIn,
LPDWORD pAdjacencyOut,
DWORD* pNumBoneCombinations,
LPD3DXBUFFER* ppBoneCombinationTable,
DWORD* pFaceRemap,
LPD3DXBUFFER *ppVertexRemap,
LPD3DXMESH* ppMesh) PURE;
STDMETHOD(ConvertToIndexedBlendedMesh)(THIS_ DWORD Options,
CONST LPDWORD pAdjacencyIn,
DWORD paletteSize,
LPDWORD pAdjacencyOut,
DWORD* pNumBoneCombinations,
LPD3DXBUFFER* ppBoneCombinationTable,
DWORD* pFaceRemap,
LPD3DXBUFFER *ppVertexRemap,
LPD3DXMESH* ppMesh) PURE;
STDMETHOD(GenerateSkinnedMesh)(THIS_ DWORD Options,
FLOAT minWeight,
CONST LPDWORD pAdjacencyIn,
LPDWORD pAdjacencyOut,
DWORD* pFaceRemap,
LPD3DXBUFFER *ppVertexRemap,
LPD3DXMESH* ppMesh) PURE;
STDMETHOD(UpdateSkinnedMesh)(THIS_ CONST D3DXMATRIX* pBoneTransforms, CONST D3DXMATRIX* pBoneInvTransforms, LPD3DXMESH pMesh) PURE;
};
#ifdef __cplusplus
extern "C" {
#endif //__cplusplus
HRESULT WINAPI
D3DXCreateMesh(
DWORD NumFaces,
DWORD NumVertices,
DWORD Options,
CONST DWORD *pDeclaration,
LPDIRECT3DDEVICE8 pD3D,
LPD3DXMESH* ppMesh);
HRESULT WINAPI
D3DXCreateMeshFVF(
DWORD NumFaces,
DWORD NumVertices,
DWORD Options,
DWORD FVF,
LPDIRECT3DDEVICE8 pD3D,
LPD3DXMESH* ppMesh);
HRESULT WINAPI
D3DXCreateSPMesh(
LPD3DXMESH pMesh,
CONST DWORD* pAdjacency,
CONST LPD3DXATTRIBUTEWEIGHTS pVertexAttributeWeights,
CONST FLOAT *pVertexWeights,
LPD3DXSPMESH* ppSMesh);
// clean a mesh up for simplification, try to make manifold
HRESULT WINAPI
D3DXCleanMesh(
LPD3DXMESH pMeshIn,
CONST DWORD* pAdjacencyIn,
LPD3DXMESH* ppMeshOut,
DWORD* pAdjacencyOut,
LPD3DXBUFFER* ppErrorsAndWarnings);
HRESULT WINAPI
D3DXValidMesh(
LPD3DXMESH pMeshIn,
CONST DWORD* pAdjacency,
LPD3DXBUFFER* ppErrorsAndWarnings);
HRESULT WINAPI
D3DXGeneratePMesh(
LPD3DXMESH pMesh,
CONST DWORD* pAdjacency,
CONST LPD3DXATTRIBUTEWEIGHTS pVertexAttributeWeights,
CONST FLOAT *pVertexWeights,
DWORD MinValue,
DWORD Options,
LPD3DXPMESH* ppPMesh);
HRESULT WINAPI
D3DXSimplifyMesh(
LPD3DXMESH pMesh,
CONST DWORD* pAdjacency,
CONST LPD3DXATTRIBUTEWEIGHTS pVertexAttributeWeights,
CONST FLOAT *pVertexWeights,
DWORD MinValue,
DWORD Options,
LPD3DXMESH* ppMesh);
HRESULT WINAPI
D3DXComputeBoundingSphere(
PVOID pPointsFVF,
DWORD NumVertices,
DWORD FVF,
D3DXVECTOR3 *pCenter,
FLOAT *pRadius);
HRESULT WINAPI
D3DXComputeBoundingBox(
PVOID pPointsFVF,
DWORD NumVertices,
DWORD FVF,
D3DXVECTOR3 *pMin,
D3DXVECTOR3 *pMax);
HRESULT WINAPI
D3DXComputeNormals(
LPD3DXBASEMESH pMesh,
CONST DWORD *pAdjacency);
HRESULT WINAPI
D3DXCreateBuffer(
DWORD NumBytes,
LPD3DXBUFFER *ppBuffer);
HRESULT WINAPI
D3DXLoadMeshFromX(
LPSTR pFilename,
DWORD Options,
LPDIRECT3DDEVICE8 pD3D,
LPD3DXBUFFER *ppAdjacency,
LPD3DXBUFFER *ppMaterials,
DWORD *pNumMaterials,
LPD3DXMESH *ppMesh);
HRESULT WINAPI
D3DXLoadMeshFromXInMemory(
PBYTE Memory,
DWORD SizeOfMemory,
DWORD Options,
LPDIRECT3DDEVICE8 pD3D,
LPD3DXBUFFER *ppAdjacency,
LPD3DXBUFFER *ppMaterials,
DWORD *pNumMaterials,
LPD3DXMESH *ppMesh);
HRESULT WINAPI
D3DXLoadMeshFromXResource(
HMODULE Module,
LPCTSTR Name,
LPCTSTR Type,
DWORD Options,
LPDIRECT3DDEVICE8 pD3D,
LPD3DXBUFFER *ppAdjacency,
LPD3DXBUFFER *ppMaterials,
DWORD *pNumMaterials,
LPD3DXMESH *ppMesh);
HRESULT WINAPI
D3DXSaveMeshToX(
LPSTR pFilename,
LPD3DXMESH pMesh,
CONST DWORD* pAdjacency,
CONST LPD3DXMATERIAL pMaterials,
DWORD NumMaterials,
DWORD Format
);
HRESULT WINAPI
D3DXCreatePMeshFromStream(
IStream *pStream,
DWORD Options,
LPDIRECT3DDEVICE8 pD3DDevice,
LPD3DXBUFFER *ppMaterials,
DWORD* pNumMaterials,
LPD3DXPMESH *ppPMesh);
HRESULT WINAPI
D3DXCreateSkinMesh(
DWORD NumFaces,
DWORD NumVertices,
DWORD NumBones,
DWORD Options,
CONST DWORD *pDeclaration,
LPDIRECT3DDEVICE8 pD3D,
LPD3DXSKINMESH* ppSkinMesh);
HRESULT WINAPI
D3DXCreateSkinMeshFVF(
DWORD NumFaces,
DWORD NumVertices,
DWORD NumBones,
DWORD Options,
DWORD FVF,
LPDIRECT3DDEVICE8 pD3D,
LPD3DXSKINMESH* ppSkinMesh);
HRESULT WINAPI
D3DXCreateSkinMeshFromMesh(
LPD3DXMESH pMesh,
DWORD numBones,
LPD3DXSKINMESH* ppSkinMesh);
HRESULT WINAPI
D3DXLoadMeshFromXof(
LPDIRECTXFILEDATA pXofObjMesh,
DWORD Options,
LPDIRECT3DDEVICE8 pD3DDevice,
LPD3DXBUFFER *ppAdjacency,
LPD3DXBUFFER *ppMaterials,
DWORD *pNumMaterials,
LPD3DXMESH *ppMesh);
HRESULT WINAPI
D3DXLoadSkinMeshFromXof(
LPDIRECTXFILEDATA pxofobjMesh,
DWORD Options,
LPDIRECT3DDEVICE8 pD3D,
LPD3DXBUFFER* ppAdjacency,
LPD3DXBUFFER* ppMaterials,
DWORD *pMatOut,
LPD3DXBUFFER* ppBoneNames,
LPD3DXBUFFER* ppBoneTransforms,
LPD3DXSKINMESH* ppMesh);
HRESULT WINAPI
D3DXTessellateNPatches(
LPD3DXMESH pMeshIn,
CONST DWORD* pAdjacencyIn,
FLOAT NumSegs,
BOOL QuadraticInterpNormals, // if false use linear intrep for normals, if true use quadratic
LPD3DXMESH *ppMeshOut,
LPD3DXBUFFER *ppAdjacencyOut);
UINT WINAPI
D3DXGetFVFVertexSize(DWORD FVF);
HRESULT WINAPI
D3DXDeclaratorFromFVF(
DWORD FVF,
DWORD Declaration[MAX_FVF_DECL_SIZE]);
HRESULT WINAPI
D3DXFVFFromDeclarator(
CONST DWORD *pDeclarator,
DWORD *pFVF);
HRESULT WINAPI
D3DXWeldVertices(
CONST LPD3DXMESH pMesh,
LPD3DXWELDEPSILONS pEpsilons,
CONST DWORD *pAdjacencyIn,
DWORD *pAdjacencyOut,
DWORD* pFaceRemap,
LPD3DXBUFFER *ppVertexRemap);
typedef struct _D3DXINTERSECTINFO
{
DWORD FaceIndex; // index of face intersected
FLOAT U; // Barycentric Hit Coordinates
FLOAT V; // Barycentric Hit Coordinates
FLOAT Dist; // Ray-Intersection Parameter Distance
} D3DXINTERSECTINFO, *LPD3DXINTERSECTINFO;
HRESULT WINAPI
D3DXIntersect(
LPD3DXBASEMESH pMesh,
CONST D3DXVECTOR3 *pRayPos,
CONST D3DXVECTOR3 *pRayDir,
BOOL *pHit, // True if any faces were intersected
DWORD *pFaceIndex, // index of closest face intersected
FLOAT *pU, // Barycentric Hit Coordinates
FLOAT *pV, // Barycentric Hit Coordinates
FLOAT *pDist, // Ray-Intersection Parameter Distance
LPD3DXBUFFER *ppAllHits, // Array of D3DXINTERSECTINFOs for all hits (not just closest)
DWORD *pCountOfHits); // Number of entries in AllHits array
HRESULT WINAPI
D3DXIntersectSubset(
LPD3DXBASEMESH pMesh,
DWORD AttribId,
CONST D3DXVECTOR3 *pRayPos,
CONST D3DXVECTOR3 *pRayDir,
BOOL *pHit, // True if any faces were intersected
DWORD *pFaceIndex, // index of closest face intersected
FLOAT *pU, // Barycentric Hit Coordinates
FLOAT *pV, // Barycentric Hit Coordinates
FLOAT *pDist, // Ray-Intersection Parameter Distance
LPD3DXBUFFER *ppAllHits, // Array of D3DXINTERSECTINFOs for all hits (not just closest)
DWORD *pCountOfHits); // Number of entries in AllHits array
HRESULT WINAPI D3DXSplitMesh
(
CONST LPD3DXMESH pMeshIn,
CONST DWORD *pAdjacencyIn,
CONST DWORD MaxSize,
CONST DWORD Options,
DWORD *pMeshesOut,
LPD3DXBUFFER *ppMeshArrayOut,
LPD3DXBUFFER *ppAdjacencyArrayOut,
LPD3DXBUFFER *ppFaceRemapArrayOut,
LPD3DXBUFFER *ppVertRemapArrayOut
);
BOOL D3DXIntersectTri
(
CONST D3DXVECTOR3 *p0, // Triangle vertex 0 position
CONST D3DXVECTOR3 *p1, // Triangle vertex 1 position
CONST D3DXVECTOR3 *p2, // Triangle vertex 2 position
CONST D3DXVECTOR3 *pRayPos, // Ray origin
CONST D3DXVECTOR3 *pRayDir, // Ray direction
FLOAT *pU, // Barycentric Hit Coordinates
FLOAT *pV, // Barycentric Hit Coordinates
FLOAT *pDist); // Ray-Intersection Parameter Distance
BOOL WINAPI
D3DXSphereBoundProbe(
CONST D3DXVECTOR3 *pCenter,
FLOAT Radius,
CONST D3DXVECTOR3 *pRayPosition,
CONST D3DXVECTOR3 *pRayDirection);
BOOL WINAPI
D3DXBoxBoundProbe(
CONST D3DXVECTOR3 *pMin,
CONST D3DXVECTOR3 *pMax,
CONST D3DXVECTOR3 *pRayPosition,
CONST D3DXVECTOR3 *pRayDirection);
enum _D3DXERR {
D3DXERR_CANNOTMODIFYINDEXBUFFER = MAKE_DDHRESULT(2900),
D3DXERR_INVALIDMESH = MAKE_DDHRESULT(2901),
D3DXERR_CANNOTATTRSORT = MAKE_DDHRESULT(2902),
D3DXERR_SKINNINGNOTSUPPORTED = MAKE_DDHRESULT(2903),
D3DXERR_TOOMANYINFLUENCES = MAKE_DDHRESULT(2904),
D3DXERR_INVALIDDATA = MAKE_DDHRESULT(2905),
D3DXERR_LOADEDMESHASNODATA = MAKE_DDHRESULT(2906),
};
#define D3DX_COMP_TANGENT_NONE 0xFFFFFFFF
HRESULT WINAPI D3DXComputeTangent(LPD3DXMESH InMesh,
DWORD TexStage,
LPD3DXMESH OutMesh,
DWORD TexStageUVec,
DWORD TexStageVVec,
DWORD Wrap,
DWORD *Adjacency);
HRESULT WINAPI
D3DXConvertMeshSubsetToSingleStrip
(
LPD3DXBASEMESH MeshIn,
DWORD AttribId,
DWORD IBOptions,
LPDIRECT3DINDEXBUFFER8 *ppIndexBuffer,
DWORD *pNumIndices
);
HRESULT WINAPI
D3DXConvertMeshSubsetToStrips
(
LPD3DXBASEMESH MeshIn,
DWORD AttribId,
DWORD IBOptions,
LPDIRECT3DINDEXBUFFER8 *ppIndexBuffer,
DWORD *pNumIndices,
LPD3DXBUFFER *ppStripLengths,
DWORD *pNumStrips
);
#ifdef __cplusplus
}
#endif //__cplusplus
#endif //__D3DX8MESH_H__

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///////////////////////////////////////////////////////////////////////////
//
// Copyright (C) Microsoft Corporation. All Rights Reserved.
//
// File: d3dx8shapes.h
// Content: D3DX simple shapes
//
///////////////////////////////////////////////////////////////////////////
#include "d3dx8.h"
#ifndef __D3DX8SHAPES_H__
#define __D3DX8SHAPES_H__
///////////////////////////////////////////////////////////////////////////
// Functions:
///////////////////////////////////////////////////////////////////////////
#ifdef __cplusplus
extern "C" {
#endif //__cplusplus
//-------------------------------------------------------------------------
// D3DXCreatePolygon:
// ------------------
// Creates a mesh containing an n-sided polygon. The polygon is centered
// at the origin.
//
// Parameters:
//
// pDevice The D3D device with which the mesh is going to be used.
// Length Length of each side.
// Sides Number of sides the polygon has. (Must be >= 3)
// ppMesh The mesh object which will be created
// ppAdjacency Returns a buffer containing adjacency info. Can be NULL.
//-------------------------------------------------------------------------
HRESULT WINAPI
D3DXCreatePolygon(
LPDIRECT3DDEVICE8 pDevice,
FLOAT Length,
UINT Sides,
LPD3DXMESH* ppMesh,
LPD3DXBUFFER* ppAdjacency);
//-------------------------------------------------------------------------
// D3DXCreateBox:
// --------------
// Creates a mesh containing an axis-aligned box. The box is centered at
// the origin.
//
// Parameters:
//
// pDevice The D3D device with which the mesh is going to be used.
// Width Width of box (along X-axis)
// Height Height of box (along Y-axis)
// Depth Depth of box (along Z-axis)
// ppMesh The mesh object which will be created
// ppAdjacency Returns a buffer containing adjacency info. Can be NULL.
//-------------------------------------------------------------------------
HRESULT WINAPI
D3DXCreateBox(
LPDIRECT3DDEVICE8 pDevice,
FLOAT Width,
FLOAT Height,
FLOAT Depth,
LPD3DXMESH* ppMesh,
LPD3DXBUFFER* ppAdjacency);
//-------------------------------------------------------------------------
// D3DXCreateCylinder:
// -------------------
// Creates a mesh containing a cylinder. The generated cylinder is
// centered at the origin, and its axis is aligned with the Z-axis.
//
// Parameters:
//
// pDevice The D3D device with which the mesh is going to be used.
// Radius1 Radius at -Z end (should be >= 0.0f)
// Radius2 Radius at +Z end (should be >= 0.0f)
// Length Length of cylinder (along Z-axis)
// Slices Number of slices about the main axis
// Stacks Number of stacks along the main axis
// ppMesh The mesh object which will be created
// ppAdjacency Returns a buffer containing adjacency info. Can be NULL.
//-------------------------------------------------------------------------
HRESULT WINAPI
D3DXCreateCylinder(
LPDIRECT3DDEVICE8 pDevice,
FLOAT Radius1,
FLOAT Radius2,
FLOAT Length,
UINT Slices,
UINT Stacks,
LPD3DXMESH* ppMesh,
LPD3DXBUFFER* ppAdjacency);
//-------------------------------------------------------------------------
// D3DXCreateSphere:
// -----------------
// Creates a mesh containing a sphere. The sphere is centered at the
// origin.
//
// Parameters:
//
// pDevice The D3D device with which the mesh is going to be used.
// Radius Radius of the sphere (should be >= 0.0f)
// Slices Number of slices about the main axis
// Stacks Number of stacks along the main axis
// ppMesh The mesh object which will be created
// ppAdjacency Returns a buffer containing adjacency info. Can be NULL.
//-------------------------------------------------------------------------
HRESULT WINAPI
D3DXCreateSphere(
LPDIRECT3DDEVICE8 pDevice,
FLOAT Radius,
UINT Slices,
UINT Stacks,
LPD3DXMESH* ppMesh,
LPD3DXBUFFER* ppAdjacency);
//-------------------------------------------------------------------------
// D3DXCreateTorus:
// ----------------
// Creates a mesh containing a torus. The generated torus is centered at
// the origin, and its axis is aligned with the Z-axis.
//
// Parameters:
//
// pDevice The D3D device with which the mesh is going to be used.
// InnerRadius Inner radius of the torus (should be >= 0.0f)
// OuterRadius Outer radius of the torue (should be >= 0.0f)
// Sides Number of sides in a cross-section (must be >= 3)
// Rings Number of rings making up the torus (must be >= 3)
// ppMesh The mesh object which will be created
// ppAdjacency Returns a buffer containing adjacency info. Can be NULL.
//-------------------------------------------------------------------------
HRESULT WINAPI
D3DXCreateTorus(
LPDIRECT3DDEVICE8 pDevice,
FLOAT InnerRadius,
FLOAT OuterRadius,
UINT Sides,
UINT Rings,
LPD3DXMESH* ppMesh,
LPD3DXBUFFER* ppAdjacency);
//-------------------------------------------------------------------------
// D3DXCreateTeapot:
// -----------------
// Creates a mesh containing a teapot.
//
// Parameters:
//
// pDevice The D3D device with which the mesh is going to be used.
// ppMesh The mesh object which will be created
// ppAdjacency Returns a buffer containing adjacency info. Can be NULL.
//-------------------------------------------------------------------------
HRESULT WINAPI
D3DXCreateTeapot(
LPDIRECT3DDEVICE8 pDevice,
LPD3DXMESH* ppMesh,
LPD3DXBUFFER* ppAdjacency);
//-------------------------------------------------------------------------
// D3DXCreateText:
// ---------------
// Creates a mesh containing the specified text using the font associated
// with the device context.
//
// Parameters:
//
// pDevice The D3D device with which the mesh is going to be used.
// hDC Device context, with desired font selected
// pText Text to generate
// Deviation Maximum chordal deviation from true font outlines
// Extrusion Amount to extrude text in -Z direction
// ppMesh The mesh object which will be created
// pGlyphMetrics Address of buffer to receive glyph metric data (or NULL)
//-------------------------------------------------------------------------
HRESULT WINAPI
D3DXCreateTextA(
LPDIRECT3DDEVICE8 pDevice,
HDC hDC,
LPCSTR pText,
FLOAT Deviation,
FLOAT Extrusion,
LPD3DXMESH* ppMesh,
LPD3DXBUFFER* ppAdjacency,
LPGLYPHMETRICSFLOAT pGlyphMetrics);
HRESULT WINAPI
D3DXCreateTextW(
LPDIRECT3DDEVICE8 pDevice,
HDC hDC,
LPCWSTR pText,
FLOAT Deviation,
FLOAT Extrusion,
LPD3DXMESH* ppMesh,
LPD3DXBUFFER* ppAdjacency,
LPGLYPHMETRICSFLOAT pGlyphMetrics);
#ifdef UNICODE
#define D3DXCreateText D3DXCreateTextW
#else
#define D3DXCreateText D3DXCreateTextA
#endif
#ifdef __cplusplus
}
#endif //__cplusplus
#endif //__D3DX8SHAPES_H__

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//----------------------------------------------------------------------
//
// d3dxerr.h -- 0xC code definitions for the D3DX API
//
// Copyright (c) Microsoft Corp. All rights reserved.
//
//----------------------------------------------------------------------
#ifndef __D3DXERR_H__
#define __D3DXERR_H__
//
//
// Values are 32 bit values layed out as follows:
//
// 3 3 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1
// 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0
// +---+-+-+-----------------------+-------------------------------+
// |Sev|C|R| Facility | Code |
// +---+-+-+-----------------------+-------------------------------+
//
// where
//
// Sev - is the severity code
//
// 00 - Success
// 01 - Informational
// 10 - Warning
// 11 - Error
//
// C - is the Customer code flag
//
// R - is a reserved bit
//
// Facility - is the facility code
//
// Code - is the facility's status code
//
//
// Define the facility codes
//
#define FACILITY_D3DX 0x877
//
// MessageId: D3DXERR_NOMEMORY
//
// MessageText:
//
// Out of memory.
//
#define D3DXERR_NOMEMORY ((HRESULT)0xC8770BB8L)
//
// MessageId: D3DXERR_NULLPOINTER
//
// MessageText:
//
// A NULL pointer was passed as a parameter.
//
#define D3DXERR_NULLPOINTER ((HRESULT)0xC8770BB9L)
//
// MessageId: D3DXERR_INVALIDD3DXDEVICEINDEX
//
// MessageText:
//
// The Device Index passed in is invalid.
//
#define D3DXERR_INVALIDD3DXDEVICEINDEX ((HRESULT)0xC8770BBAL)
//
// MessageId: D3DXERR_NODIRECTDRAWAVAILABLE
//
// MessageText:
//
// DirectDraw has not been created.
//
#define D3DXERR_NODIRECTDRAWAVAILABLE ((HRESULT)0xC8770BBBL)
//
// MessageId: D3DXERR_NODIRECT3DAVAILABLE
//
// MessageText:
//
// Direct3D has not been created.
//
#define D3DXERR_NODIRECT3DAVAILABLE ((HRESULT)0xC8770BBCL)
//
// MessageId: D3DXERR_NODIRECT3DDEVICEAVAILABLE
//
// MessageText:
//
// Direct3D device has not been created.
//
#define D3DXERR_NODIRECT3DDEVICEAVAILABLE ((HRESULT)0xC8770BBDL)
//
// MessageId: D3DXERR_NOPRIMARYAVAILABLE
//
// MessageText:
//
// Primary surface has not been created.
//
#define D3DXERR_NOPRIMARYAVAILABLE ((HRESULT)0xC8770BBEL)
//
// MessageId: D3DXERR_NOZBUFFERAVAILABLE
//
// MessageText:
//
// Z buffer has not been created.
//
#define D3DXERR_NOZBUFFERAVAILABLE ((HRESULT)0xC8770BBFL)
//
// MessageId: D3DXERR_NOBACKBUFFERAVAILABLE
//
// MessageText:
//
// Backbuffer has not been created.
//
#define D3DXERR_NOBACKBUFFERAVAILABLE ((HRESULT)0xC8770BC0L)
//
// MessageId: D3DXERR_COULDNTUPDATECAPS
//
// MessageText:
//
// Failed to update caps database after changing display mode.
//
#define D3DXERR_COULDNTUPDATECAPS ((HRESULT)0xC8770BC1L)
//
// MessageId: D3DXERR_NOZBUFFER
//
// MessageText:
//
// Could not create Z buffer.
//
#define D3DXERR_NOZBUFFER ((HRESULT)0xC8770BC2L)
//
// MessageId: D3DXERR_INVALIDMODE
//
// MessageText:
//
// Display mode is not valid.
//
#define D3DXERR_INVALIDMODE ((HRESULT)0xC8770BC3L)
//
// MessageId: D3DXERR_INVALIDPARAMETER
//
// MessageText:
//
// One or more of the parameters passed is invalid.
//
#define D3DXERR_INVALIDPARAMETER ((HRESULT)0xC8770BC4L)
//
// MessageId: D3DXERR_INITFAILED
//
// MessageText:
//
// D3DX failed to initialize itself.
//
#define D3DXERR_INITFAILED ((HRESULT)0xC8770BC5L)
//
// MessageId: D3DXERR_STARTUPFAILED
//
// MessageText:
//
// D3DX failed to start up.
//
#define D3DXERR_STARTUPFAILED ((HRESULT)0xC8770BC6L)
//
// MessageId: D3DXERR_D3DXNOTSTARTEDYET
//
// MessageText:
//
// D3DXInitialize() must be called first.
//
#define D3DXERR_D3DXNOTSTARTEDYET ((HRESULT)0xC8770BC7L)
//
// MessageId: D3DXERR_NOTINITIALIZED
//
// MessageText:
//
// D3DX is not initialized yet.
//
#define D3DXERR_NOTINITIALIZED ((HRESULT)0xC8770BC8L)
//
// MessageId: D3DXERR_FAILEDDRAWTEXT
//
// MessageText:
//
// Failed to render text to the surface.
//
#define D3DXERR_FAILEDDRAWTEXT ((HRESULT)0xC8770BC9L)
//
// MessageId: D3DXERR_BADD3DXCONTEXT
//
// MessageText:
//
// Bad D3DX context.
//
#define D3DXERR_BADD3DXCONTEXT ((HRESULT)0xC8770BCAL)
//
// MessageId: D3DXERR_CAPSNOTSUPPORTED
//
// MessageText:
//
// The requested device capabilities are not supported.
//
#define D3DXERR_CAPSNOTSUPPORTED ((HRESULT)0xC8770BCBL)
//
// MessageId: D3DXERR_UNSUPPORTEDFILEFORMAT
//
// MessageText:
//
// The image file format is unrecognized.
//
#define D3DXERR_UNSUPPORTEDFILEFORMAT ((HRESULT)0xC8770BCCL)
//
// MessageId: D3DXERR_IFLERROR
//
// MessageText:
//
// The image file loading library error.
//
#define D3DXERR_IFLERROR ((HRESULT)0xC8770BCDL)
//
// MessageId: D3DXERR_FAILEDGETCAPS
//
// MessageText:
//
// Could not obtain device caps.
//
#define D3DXERR_FAILEDGETCAPS ((HRESULT)0xC8770BCEL)
//
// MessageId: D3DXERR_CANNOTRESIZEFULLSCREEN
//
// MessageText:
//
// Resize does not work for full-screen.
//
#define D3DXERR_CANNOTRESIZEFULLSCREEN ((HRESULT)0xC8770BCFL)
//
// MessageId: D3DXERR_CANNOTRESIZENONWINDOWED
//
// MessageText:
//
// Resize does not work for non-windowed contexts.
//
#define D3DXERR_CANNOTRESIZENONWINDOWED ((HRESULT)0xC8770BD0L)
//
// MessageId: D3DXERR_FRONTBUFFERALREADYEXISTS
//
// MessageText:
//
// Front buffer already exists.
//
#define D3DXERR_FRONTBUFFERALREADYEXISTS ((HRESULT)0xC8770BD1L)
//
// MessageId: D3DXERR_FULLSCREENPRIMARYEXISTS
//
// MessageText:
//
// The app is using the primary in full-screen mode.
//
#define D3DXERR_FULLSCREENPRIMARYEXISTS ((HRESULT)0xC8770BD2L)
//
// MessageId: D3DXERR_GETDCFAILED
//
// MessageText:
//
// Could not get device context.
//
#define D3DXERR_GETDCFAILED ((HRESULT)0xC8770BD3L)
//
// MessageId: D3DXERR_BITBLTFAILED
//
// MessageText:
//
// Could not bitBlt.
//
#define D3DXERR_BITBLTFAILED ((HRESULT)0xC8770BD4L)
//
// MessageId: D3DXERR_NOTEXTURE
//
// MessageText:
//
// There is no surface backing up this texture.
//
#define D3DXERR_NOTEXTURE ((HRESULT)0xC8770BD5L)
//
// MessageId: D3DXERR_MIPLEVELABSENT
//
// MessageText:
//
// There is no such miplevel for this surface.
//
#define D3DXERR_MIPLEVELABSENT ((HRESULT)0xC8770BD6L)
//
// MessageId: D3DXERR_SURFACENOTPALETTED
//
// MessageText:
//
// The surface is not paletted.
//
#define D3DXERR_SURFACENOTPALETTED ((HRESULT)0xC8770BD7L)
//
// MessageId: D3DXERR_ENUMFORMATSFAILED
//
// MessageText:
//
// An error occured while enumerating surface formats.
//
#define D3DXERR_ENUMFORMATSFAILED ((HRESULT)0xC8770BD8L)
//
// MessageId: D3DXERR_COLORDEPTHTOOLOW
//
// MessageText:
//
// D3DX only supports color depths of 16 bit or greater.
//
#define D3DXERR_COLORDEPTHTOOLOW ((HRESULT)0xC8770BD9L)
//
// MessageId: D3DXERR_INVALIDFILEFORMAT
//
// MessageText:
//
// The file format is invalid.
//
#define D3DXERR_INVALIDFILEFORMAT ((HRESULT)0xC8770BDAL)
//
// MessageId: D3DXERR_NOMATCHFOUND
//
// MessageText:
//
// No suitable match found.
//
#define D3DXERR_NOMATCHFOUND ((HRESULT)0xC8770BDBL)
#endif //__D3DXERR_H__

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///////////////////////////////////////////////////////////////////////////
//
// Copyright (C) Microsoft Corporation. All Rights Reserved.
//
// File: d3dxshapes.h
// Content: D3DX simple shapes
//
///////////////////////////////////////////////////////////////////////////
#ifndef __D3DXSHAPES_H__
#define __D3DXSHAPES_H__
#include <d3d.h>
#include <limits.h>
#include "d3dxerr.h"
typedef struct ID3DXSimpleShape *LPD3DXSIMPLESHAPE;
// {CFCD4602-EB7B-11d2-A440-00A0C90629A8}
DEFINE_GUID( IID_ID3DXSimpleShape,
0xcfcd4602, 0xeb7b, 0x11d2, 0xa4, 0x40, 0x0, 0xa0, 0xc9, 0x6, 0x29, 0xa8 );
///////////////////////////////////////////////////////////////////////////
// Interfaces:
///////////////////////////////////////////////////////////////////////////
//-------------------------------------------------------------------------
// ID3DXSimpleShape interface:
//-------------------------------------------------------------------------
DECLARE_INTERFACE_(ID3DXSimpleShape, IUnknown)
{
// IUnknown methods
STDMETHOD(QueryInterface)(THIS_ REFIID riid, LPVOID* ppvObj) PURE;
STDMETHOD_(ULONG,AddRef)(THIS) PURE;
STDMETHOD_(ULONG,Release)(THIS) PURE;
// ID3DXSimpleShape methods
STDMETHOD_(LPDIRECT3DVERTEXBUFFER7, GetVB)(THIS) PURE;
STDMETHOD_(DWORD, GetIndices)(THIS_ LPWORD *ppIndices) PURE;
STDMETHOD(Draw)(THIS) PURE;
};
///////////////////////////////////////////////////////////////////////////
// Functions:
///////////////////////////////////////////////////////////////////////////
#ifdef __cplusplus
extern "C" {
#endif //__cplusplus
//-------------------------------------------------------------------------
// D3DXCreatePolygon: Creates an 'n' sided polygon using the device
// ---------------- specified. It returns a vertex buffer that can be used
// for drawing or manipulation by the program later on.
//
// Params:
// [in] LPDIRECT3DDEVICE7 pDevice: The device to create off.
// [in] float sideSize: Length of a side.
// [in] DWORD numTexCoords: The number of texture coordinates desired
// in the vertex-buffer. (Default is 1)
// D3DX_DEFAULT is a valid input.
// [out] IDirect3DVertexBuffer7** ppVB: The output shape interface.
//-------------------------------------------------------------------------
HRESULT WINAPI
D3DXCreatePolygon(LPDIRECT3DDEVICE7 pDevice,
float sideSize,
DWORD numSides,
DWORD numTexCoords,
LPD3DXSIMPLESHAPE* ppShape );
//-------------------------------------------------------------------------
// D3DXCreateBox: Creates a box (cuboid) of given dimensions using the
// ------------ device. It returns a vertex buffer that can
// be used for drawing or manipulation by the program later on.
//
// Params:
// [in] LPDIRECT3DDEVICE7 pDevice: The device to create off.
// [in] float width: Width of the box (along x-axis)
// [in] float height: Height of the box (along y-axis)
// [in] float depth: Depth of the box (along z-axis)
// [in] DWORD numTexCoords: The number of texture coordinates desired
// in the vertex-buffer. Default is 1.
// D3DX_DEFAULT is a valid input here.
// [out] LPD3DXSIMPLESHAPE* ppShape: The output vertex-buffer.
//-------------------------------------------------------------------------
HRESULT WINAPI
D3DXCreateBox(LPDIRECT3DDEVICE7 pDevice,
float width,
float height,
float depth,
DWORD numTexCoords,
LPD3DXSIMPLESHAPE* ppShape );
//-------------------------------------------------------------------------
// D3DXCreateCylinder: Creates a cylinder of given dimensions using the
// ----------------- device. It returns a vertex buffer that
// can be used for drawing or manipulation by the program
// later on.
//
// Params:
// [in] LPDIRECT3DDEVICE7 pDevice: The device to create off.
// [in] float baseRadius: Base-radius (default is 1.0f, shd be >= 0.0f)
// [in] float topRadius: Top-radius (default is 1.0f, shd be >= 0.0f)
// [in] float height: Height (default is 1.0f, shd be >= 0.0f)
// [in] DWORD numSlices: Number of slices about the main axis.
// (default is 8) D3DX_DEFAULT is a valid input.
// [in] DWORD numStacks: Number of stacks along the main axis.
// (default is 8) D3DX_DEFAULT is a valid input.
// [in] DWORD numTexCoords: The number of texture coordinates desired
// in the vertex-buffer. Default is 1.
// D3DX_DEFAULT is a valid input here.
// [out] LPD3DXSIMPLESHAPE* ppShape: The output shape interface.
//-------------------------------------------------------------------------
HRESULT WINAPI
D3DXCreateCylinder(LPDIRECT3DDEVICE7 pDevice,
float baseRadius,
float topRadius,
float height,
DWORD numSlices,
DWORD numStacks,
DWORD numTexCoords,
LPD3DXSIMPLESHAPE* ppShape );
//-------------------------------------------------------------------------
// D3DXCreateTorus: Creates a torus of given dimensions using the
// -------------- device specified. It returns a vertex buffer that can
// be used for drawing or manipulation by the program later
// on. It draws a doughnut, centered at (0, 0, 0) whose axis
// is aligned with the z-axis. With the innerRadius used
// as the radius of the cross-section (minor-Radius) and
// the outerRadius used as the radius of the central 'hole'.
//
// Params:
// [in] LPDIRECT3DDEVICE7 pDevice: The device to create off.
// [in] float innerRadius: inner radius (default is 1.0f, shd be >= 0.0f)
// [in] float outerRadius: outer radius (default is 2.0f, shd be >= 0.0f)
// [in] DWORD numSides: Number of sides in the cross-section
// (default is 8). D3DX_DEFAULT is a valid input.
// [in] DWORD numRings: Number of rings making up the torus
// (default is 8) D3DX_DEFAULT is a valid input.
// [in] DWORD numTexCoords: The number of texture coordinates desired
// in the vertex-buffer. Default is 1.
// D3DX_DEFAULT is a valid input here.
// [out] LPD3DXSIMPLESHAPE* ppShape: The output shape interface.
//-------------------------------------------------------------------------
HRESULT WINAPI
D3DXCreateTorus(LPDIRECT3DDEVICE7 pDevice,
float innerRadius,
float outerRadius,
DWORD numSides,
DWORD numRings,
DWORD numTexCoords,
LPD3DXSIMPLESHAPE* ppShape );
//-------------------------------------------------------------------------
// D3DXCreateTeapot: Creates a teapot using the device specified.
// ---------------- It returns a vertex buffer that can be used for
// drawing or manipulation by the program later on.
//
// Params:
// [in] LPDIRECT3DDEVICE7 pDevice: The device to create off.
// [in] DWORD numTexCoords: The number of texture coordinates desired
// in the vertex-buffer. Default is 1.
// D3DX_DEFAULT is a valid input here.
// [out] LPD3DXSIMPLESHAPE* ppShape: The output shape interface.
//-------------------------------------------------------------------------
HRESULT WINAPI
D3DXCreateTeapot(LPDIRECT3DDEVICE7 pDevice,
DWORD numTexCoords,
LPD3DXSIMPLESHAPE* ppShape);
//-------------------------------------------------------------------------
// D3DXCreateSphere: Creates a cylinder of given dimensions using the
// ---------------- device specified.
// It returns a vertex buffer that can be used for
// drawing or manipulation by the program later on.
//
// Params:
// [in] LPDIRECT3DDEVICE7 pDevice: The device to create off.
// [in] float radius: radius (default is 1.0f, shd be >= 0.0f)
// [in] float height: Height (default is 1.0f, shd be >= 0.0f)
// [in] DWORD numSlices: Number of slices about the main axis
// (default is 8) D3DX_DEFAULT is a valid input.
// [in] DWORD numStacks: Number of stacks along the main axis
// (default is 8) D3DX_DEFAULT is a valid input.
// [in] DWORD numTexCoords: The number of texture coordinates desired
// in the vertex-buffer. Default is 1.
// D3DX_DEFAULT is a valid input here.
// [out] LPD3DXSIMPLESHAPE* ppShape: The output shape interface.
//-------------------------------------------------------------------------
HRESULT WINAPI
D3DXCreateSphere(LPDIRECT3DDEVICE7 pDevice,
float radius,
DWORD numSlices,
DWORD numStacks,
DWORD numTexCoords,
LPD3DXSIMPLESHAPE* ppShape);
#ifdef __cplusplus
}
#endif //__cplusplus
#endif //__D3DXSHAPES_H__

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///////////////////////////////////////////////////////////////////////////
//
// Copyright (C) Microsoft Corporation. All Rights Reserved.
//
// File: d3dxsprite.h
// Content: D3DX sprite helper functions
//
// These functions allow you to use sprites with D3DX. A "sprite" is
// loosely defined as a 2D image that you want to transfer to the
// rendering target. The source image can be a texture created
// with the help of the D3DX texture loader; though advanced users may
// want to create their own. A helper function (PrepareDeviceForSprite)
// is provided to make it easy to set up render states on a device.
// (Again, advanced users can use their own created devices.)
//
// There are two general techniques for sprites; the simpler one just
// specifies a destination rectangle and a rotation anlge. A more
// powerful technique supports rendering to non-rectangular quads.
//
// Both techniques support clipping, alpha, and rotation. More
// details are below.
//
///////////////////////////////////////////////////////////////////////////
#ifndef __D3DXSPRITE_H__
#define __D3DXSPRITE_H__
#include <d3d.h>
#include <limits.h>
#include "d3dxerr.h"
#ifdef __cplusplus
extern "C" {
#endif
//-------------------------------------------------------------------------
// D3DXPrepareDeviceForSprite:
//
// Call this function to set up all the render states necessary for
// BltSprite/WarpSprite to work correctly. (Advanced users may opt to
// not call this function first; in which case Blt/WarpSprite functions
// will use whatever render/texture states were set up on the device when
// they are called.)
//
// Warning: This function modifies render states and may impact performance
// negatively on some 3D hardware if it is called too often per frame.
//
// Warning: If the render state changes (other than through calls to
// BltSprite or WarpSprite), you will need to call this function again before
// calling BltSprite or WarpSprite.
//
// Details: This function modifies the the rendering first texture stage and
// it modifies some renderstates for the entire device. Here is the exact
// list:
//
// SetTextureStageState(0, D3DTSS_COLORARG1, D3DTA_TEXTURE);
// SetTextureStageState(0, D3DTSS_COLOROP, D3DTOP_SELECTARG1);
// SetTextureStageState(0, D3DTSS_ALPHAARG1, D3DTA_TEXTURE);
// SetTextureStageState(0, D3DTSS_ALPHAARG2, D3DTA_DIFFUSE);
// SetTextureStageState(0, D3DTSS_ALPHAOP, D3DTOP_MODULATE);
// SetTextureStageState(0, D3DTSS_MINFILTER, D3DTFN_LINEAR);
// SetTextureStageState(0, D3DTSS_MAGFILTER, D3DTFG_LINEAR);
//
// SetRenderState(D3DRENDERSTATE_SRCBLEND, D3DBLEND_SRCALPHA);
// SetRenderState(D3DRENDERSTATE_DESTBLEND, D3DBLEND_INVSRCALPHA);
// SetRenderState(D3DRENDERSTATE_ALPHABLENDENABLE, TRUE);
//
// Depending on the value of ZEnable parameter, this function will
// will either call
// SetRenderState(D3DRENDERSTATE_ZENABLE, FALSE);
// - or -
// SetRenderState(D3DRENDERSTATE_ZENABLE, TRUE);
//
// Parameters:
// pd3dDevice - a pointer to the d3d device that you wish to prepare
// for use with D3DX Sprite Services
// ZEnable - a flag indicating whether you want the sprites to
// check and update the Z buffer as part of rendering.
// If ZEnable is FALSE, OR you are using
// alpha-blending, then it is necessary to render your
// sprites from back-to-front.
//
//-------------------------------------------------------------------------
#ifdef __cplusplus
HRESULT WINAPI
D3DXPrepareDeviceForSprite( LPDIRECT3DDEVICE7 pd3dDevice,
BOOL ZEnable = FALSE);
#else
HRESULT WINAPI
D3DXPrepareDeviceForSprite( LPDIRECT3DDEVICE7 pd3dDevice,
BOOL ZEnable);
#endif
//-------------------------------------------------------------------------
// The D3DXDrawBasicSprite() function performs blitting of source images onto
// a 3D rendering device. This function only calls SetTexture on the first
// renderstage with the parameter (pd3dTexture) if that parameter is non-null.
// This function assumes that D3DXPrepareDeviceForSprite has been called on
// the device or that caller has in some other way correctly prepared the
// renderstates.
//
// This function supports scaling, rotations, alpha-blending, and choosing
// a source sub-rect.
//
// Rotation angle is specified in radians. Both rotations and scales
// are applied around the center of the sprite; where the center of the
// sprite is half the width/height of the sprite, plus the offset parameter.
//
// Use the offset parameter if you want the sprite's center to be something
// other than the image center.
//
// The destination point indicates where you would like the center of
// the sprite to draw to.
//
// Parameters:
// pd3dTexture - a pointer to the surface containing the texture
// pd3dDevice - a pointer to the d3d device to render to. It is
// assumed that render states are set up. (See
// D3DXPrepareDeviceForSprite)
// ppointDest - a pointer to the target point for the sprite. The
// components of the vector must be in screen
// space.
// alpha - alpha value to apply to sprite. 1.0 means totally
// opaque; and 0.0 means totally transparent.
// WARNING: If you are using alpha, then you should render
// from back to front in order to avoid rendering
// artifacts.
// angleRad - angle of rotation around the 'center' of the rect
// scale - a uniform scale that is applied to the source rect
// to specify the size of the image that is rendered
// pOffset - offset from the center of the source rect to use as the
// center of rotation
// pSourceRect - a rect that indicates what portion of the source
// source texture to use. If NULL is passed, then the
// entire source is used. If the source texture was
// created via D3DX, then the rect should be specified
// in the coordinates of the original image (so that you
// don't have to worry about stretching/scaling that D3DX
// may have done to make the image work with your current
// 3D Device.) Note that horizontal or vertical mirroring
// may be simply accomplished by swapping the left/right
// or top/bottom fields of this RECT.
//-------------------------------------------------------------------------
#ifdef __cplusplus
HRESULT WINAPI
D3DXDrawSpriteSimple(LPDIRECTDRAWSURFACE7 pd3dTexture,
LPDIRECT3DDEVICE7 pd3dDevice,
const D3DXVECTOR3 *ppointDest,
float alpha = 1.0f,
float scale = 1.0f,
float angleRad = 0.0f,
const D3DXVECTOR2 *pOffset = NULL,
const RECT *pSourceRect = NULL);
#else
HRESULT WINAPI
D3DXDrawSpriteSimple(LPDIRECTDRAWSURFACE7 pd3dTexture,
LPDIRECT3DDEVICE7 pd3dDevice,
D3DXVECTOR3 *ppointDest,
float alpha,
float scale,
float angleRad,
D3DXVECTOR2 *pOffset,
RECT *pSourceRect);
#endif
//-------------------------------------------------------------------------
// The D3DXDrawSprite() function transforms source images onto a 3D
// rendering device. It takes a general 4x4 matrix which is use to transform
// the points of a default rect: (left=-.5, top=-.5, right=+.5, bottom=+.5).
// (This default rect was chosen so that it was centered around the origin
// to ease setting up rotations. And it was chosen to have a width/height of one
// to ease setting up scales.)
//
// This function only calls SetTexture on the first
// renderstage with the parameter (pd3dTexture) if that parameter is non-null.
// This function assumes that D3DXPrepareDeviceForSprite has been called on
// the device or that caller has in some other way correctly prepared the
// renderstates.
//
// This function supports alpha-blending, and choosing
// a source sub-rect. (A value of NULL for source sub-rect means the entire
// texture is used.)
//
// Note that if the transformed points have a value for w (the homogenous
// coordinate) that is not 1, then this function will invert it and pass
// that value to D3D as the rhw field of a TLVERTEX. If the value for w is
// zero, then it use 1 as the rhw.
//
// Parameters:
// pd3dTexture - a pointer to the surface containing the texture
// pd3dDevice - a pointer to the d3d device to render to. It is
// assumed that render states are set up. (See
// D3DXPrepareDeviceForSprite)
// pMatrixTransform - 4x4 matrix that specifies the transformation
// that will be applied to the default -.5 to +.5
// rectangle.
// alpha - alpha value to apply to sprite. 1.0 means totally
// opaque; and 0.0 means totally transparent.
// WARNING: If you are using alpha, then you should render
// from back to front in order to avoid rendering
// artifacts.Furthermore, you should avoid scenarios where
// semi-transparent objects intersect.
// pSourceRect - a rect that indicates what portion of the source
// source texture to use. If NULL is passed, then the
// entire source is used. If the source texture was
// created via D3DX, then the rect should be specified
// in the coordinates of the original image (so that you
// don't have to worry about stretching/scaling that D3DX
// may have done to make the image work with your current
// 3D Device.) Note that mirroring may be simply accomplished
// by swapping the left/right or top/bottom fields of
// this RECT.
//
//-------------------------------------------------------------------------
#ifdef __cplusplus
HRESULT WINAPI
D3DXDrawSpriteTransform(LPDIRECTDRAWSURFACE7 pd3dTexture,
LPDIRECT3DDEVICE7 pd3dDevice,
const D3DXMATRIX *pMatrixTransform,
float alpha = 1.0f,
const RECT *pSourceRect = NULL);
#else
HRESULT WINAPI
D3DXDrawSpriteTransform(LPDIRECTDRAWSURFACE7 pd3dTexture,
LPDIRECT3DDEVICE7 pd3dDevice,
D3DXMATRIX *pMatrixTransform,
float alpha,
RECT *pSourceRect);
#endif
//-------------------------------------------------------------------------
// The D3DXBuildSpriteTransform() function is a helper provided which
// creates a matrix corresponding to simple properties. This matrix is
// set up to pass directly to D3DXTransformSprite.
//
// Parameters:
// pMatrix - a pointer to the result matrix
// prectDest - a pointer to the target rectangle for the sprite
// angleRad - angle of rotation around the 'center' of the rect
// pOffset - offset from the center of the source rect to use as the
// center of rotation
//
//-------------------------------------------------------------------------
#ifdef __cplusplus
void WINAPI
D3DXBuildSpriteTransform(D3DXMATRIX *pMatrix,
const RECT *prectDest,
float angleRad = 0.0f,
const D3DXVECTOR2 *pOffset = NULL);
#else
void WINAPI
D3DXBuildSpriteTransform(D3DXMATRIX *pMatrix,
RECT *prectDest,
float angleRad,
D3DXVECTOR2 *pOffset);
#endif
//-------------------------------------------------------------------------
// The D3DXDrawSprite3D() function renders a texture onto a 3D quad. The
// quad ABCD is broken into two triangles ABC and ACD which are rendered
// via DrawPrim.
//
// Parameters:
// pd3dTexture - a pointer to the surface containing the texture
// pd3dDevice - a pointer to the d3d device to render to. It is
// assumed that render states are set up. (See
// D3DXPrepareDeviceForSprite)
// quad - array of 4 points in the following order:
// upper-left, upper-right, lower-right, lower-left.
// If these vectors contain a W, then this function
// will take the reciprocal of that value to pass as
// as the rhw (i.e. reciprocal homogenous w).
// alpha - alpha value to apply to sprite. 1.0 means totally
// opaque; and 0.0 means totally transparent.
// WARNING: If you are using alpha, then you should render
// from back to front in order to avoid rendering
// artifacts.Furthermore, you should avoid scenarios where
// semi-transparent objects intersect.
// pSourceRect - a rect that indicates what portion of the source
// source texture to use. If NULL is passed, then the
// entire source is used. If the source texture was
// created via D3DX, then the rect should be specified
// in the coordinates of the original image (so that you
// don't have to worry about stretching/scaling that D3DX
// may have done to make the image work with your current
// 3D Device.) Note that mirroring may be simply accomplished
// by swapping the left/right or top/bottom fields of
// this RECT.
//-------------------------------------------------------------------------
#ifdef __cplusplus
HRESULT WINAPI
D3DXDrawSprite3D(LPDIRECTDRAWSURFACE7 pd3dTexture,
LPDIRECT3DDEVICE7 pd3dDevice,
const D3DXVECTOR4 quad[4],
float alpha = 1.0f,
const RECT *pSourceRect = NULL);
#else
HRESULT WINAPI
D3DXDrawSprite3D(LPDIRECTDRAWSURFACE7 pd3dTexture,
LPDIRECT3DDEVICE7 pd3dDevice,
D3DXVECTOR4 quad[4],
float alpha,
RECT *pSourceRect);
#endif
#ifdef __cplusplus
} // extern "C"
#endif
#endif // __D3DXSPRITE_H__

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218
extern/include/ddrawex.h vendored
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@ -1,218 +0,0 @@
//*********************************************************************
//* Microsoft Windows **
//* Copyright(c) Microsoft Corp., 1995-1997 **
//*********************************************************************
//
// DDRAWEX.H
//
// Header file for DirectDrawEx functionality
#ifndef __DDRAWEXH__
#define __DDRAWEXH__
#ifdef __cplusplus
extern "C" {
#endif
#include <ddraw.h>
// {4FD2A832-86C8-11d0-8FCA-00C04FD9189D}
DEFINE_GUID(CLSID_DirectDrawFactory,
0x4fd2a832, 0x86c8, 0x11d0, 0x8f, 0xca, 0x0, 0xc0, 0x4f, 0xd9, 0x18, 0x9d);
DEFINE_GUID(IID_IDirectDrawFactory,
0x4fd2a833, 0x86c8, 0x11d0, 0x8f, 0xca, 0x0, 0xc0, 0x4f, 0xd9, 0x18, 0x9d);
#ifndef DIRECTDRAW_VERSION
//Functionality supported by DDrawex but not DX3
#define DDSD_LPSURFACE 0x00000800l
DEFINE_GUID( IID_IDirectDrawSurface3,
0xDA044E00,0x69B2,0x11D0,0xA1,0xD5,0x00,0xAA,0x00,0xB8,0xDF,0xBB );
typedef struct IDirectDrawSurface3 FAR *LPDIRECTDRAWSURFACE3;
#undef INTERFACE
#define INTERFACE IDirectDrawSurface3
DECLARE_INTERFACE_( IDirectDrawSurface3, IUnknown )
{
/*** IUnknown methods ***/
STDMETHOD(QueryInterface) (THIS_ REFIID riid, LPVOID FAR * ppvObj) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/*** IDirectDrawSurface methods ***/
STDMETHOD(AddAttachedSurface)(THIS_ LPDIRECTDRAWSURFACE3) PURE;
STDMETHOD(AddOverlayDirtyRect)(THIS_ LPRECT) PURE;
STDMETHOD(Blt)(THIS_ LPRECT,LPDIRECTDRAWSURFACE3, LPRECT,DWORD, LPDDBLTFX) PURE;
STDMETHOD(BltBatch)(THIS_ LPDDBLTBATCH, DWORD, DWORD ) PURE;
STDMETHOD(BltFast)(THIS_ DWORD,DWORD,LPDIRECTDRAWSURFACE3, LPRECT,DWORD) PURE;
STDMETHOD(DeleteAttachedSurface)(THIS_ DWORD,LPDIRECTDRAWSURFACE3) PURE;
STDMETHOD(EnumAttachedSurfaces)(THIS_ LPVOID,LPDDENUMSURFACESCALLBACK) PURE;
STDMETHOD(EnumOverlayZOrders)(THIS_ DWORD,LPVOID,LPDDENUMSURFACESCALLBACK) PURE;
STDMETHOD(Flip)(THIS_ LPDIRECTDRAWSURFACE3, DWORD) PURE;
STDMETHOD(GetAttachedSurface)(THIS_ LPDDSCAPS, LPDIRECTDRAWSURFACE3 FAR *) PURE;
STDMETHOD(GetBltStatus)(THIS_ DWORD) PURE;
STDMETHOD(GetCaps)(THIS_ LPDDSCAPS) PURE;
STDMETHOD(GetClipper)(THIS_ LPDIRECTDRAWCLIPPER FAR*) PURE;
STDMETHOD(GetColorKey)(THIS_ DWORD, LPDDCOLORKEY) PURE;
STDMETHOD(GetDC)(THIS_ HDC FAR *) PURE;
STDMETHOD(GetFlipStatus)(THIS_ DWORD) PURE;
STDMETHOD(GetOverlayPosition)(THIS_ LPLONG, LPLONG ) PURE;
STDMETHOD(GetPalette)(THIS_ LPDIRECTDRAWPALETTE FAR*) PURE;
STDMETHOD(GetPixelFormat)(THIS_ LPDDPIXELFORMAT) PURE;
STDMETHOD(GetSurfaceDesc)(THIS_ LPDDSURFACEDESC) PURE;
STDMETHOD(Initialize)(THIS_ LPDIRECTDRAW, LPDDSURFACEDESC) PURE;
STDMETHOD(IsLost)(THIS) PURE;
STDMETHOD(Lock)(THIS_ LPRECT,LPDDSURFACEDESC,DWORD,HANDLE) PURE;
STDMETHOD(ReleaseDC)(THIS_ HDC) PURE;
STDMETHOD(Restore)(THIS) PURE;
STDMETHOD(SetClipper)(THIS_ LPDIRECTDRAWCLIPPER) PURE;
STDMETHOD(SetColorKey)(THIS_ DWORD, LPDDCOLORKEY) PURE;
STDMETHOD(SetOverlayPosition)(THIS_ LONG, LONG ) PURE;
STDMETHOD(SetPalette)(THIS_ LPDIRECTDRAWPALETTE) PURE;
STDMETHOD(Unlock)(THIS_ LPVOID) PURE;
STDMETHOD(UpdateOverlay)(THIS_ LPRECT, LPDIRECTDRAWSURFACE3,LPRECT,DWORD, LPDDOVERLAYFX) PURE;
STDMETHOD(UpdateOverlayDisplay)(THIS_ DWORD) PURE;
STDMETHOD(UpdateOverlayZOrder)(THIS_ DWORD, LPDIRECTDRAWSURFACE3) PURE;
/*** Added in the v2 interface ***/
STDMETHOD(GetDDInterface)(THIS_ LPVOID FAR *) PURE;
STDMETHOD(PageLock)(THIS_ DWORD) PURE;
STDMETHOD(PageUnlock)(THIS_ DWORD) PURE;
/*** Added in the v3 interface ***/
STDMETHOD(SetSurfaceDesc)(THIS_ LPDDSURFACEDESC, DWORD ) PURE;
};
#endif
#define DDSCAPS_DATAEXCHANGE (DDSCAPS_SYSTEMMEMORY|DDSCAPS_VIDEOMEMORY)
#undef INTERFACE
#define INTERFACE IDirectDrawFactory
DECLARE_INTERFACE_(IDirectDrawFactory, IUnknown)
{
/*** IUnknown methods ***/
STDMETHOD(QueryInterface) (THIS_ REFIID riid, LPVOID FAR * ppvObj) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/*** IDirectDrawFactory methods ***/
STDMETHOD(CreateDirectDraw) (THIS_ GUID * pGUID, HWND hWnd, DWORD dwCoopLevelFlags, DWORD dwReserved, IUnknown *pUnkOuter, IDirectDraw **ppDirectDraw) PURE;
STDMETHOD(DirectDrawEnumerate) (THIS_ LPDDENUMCALLBACK lpCallback, LPVOID lpContext) PURE;
};
// {618F8AD4-8B7A-11d0-8FCC-00C04FD9189D}
DEFINE_GUID(IID_IDirectDraw3,
0x618f8ad4, 0x8b7a, 0x11d0, 0x8f, 0xcc, 0x0, 0xc0, 0x4f, 0xd9, 0x18, 0x9d);
typedef struct IDirectDraw3 FAR *LPDIRECTDRAW3;
#undef INTERFACE
#define INTERFACE IDirectDraw3
DECLARE_INTERFACE_(IDirectDraw3, IUnknown)
{
/*** IUnknown methods ***/
STDMETHOD(QueryInterface) (THIS_ REFIID riid, LPVOID FAR * ppvObj) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/*** IDirectDraw methods ***/
STDMETHOD(Compact)(THIS) PURE;
STDMETHOD(CreateClipper)(THIS_ DWORD, LPDIRECTDRAWCLIPPER FAR*, IUnknown FAR * ) PURE;
STDMETHOD(CreatePalette)(THIS_ DWORD, LPPALETTEENTRY, LPDIRECTDRAWPALETTE FAR*, IUnknown FAR * ) PURE;
STDMETHOD(CreateSurface)(THIS_ LPDDSURFACEDESC, LPDIRECTDRAWSURFACE FAR *, IUnknown FAR *) PURE;
STDMETHOD(DuplicateSurface)( THIS_ LPDIRECTDRAWSURFACE, LPDIRECTDRAWSURFACE FAR * ) PURE;
STDMETHOD(EnumDisplayModes)( THIS_ DWORD, LPDDSURFACEDESC, LPVOID, LPDDENUMMODESCALLBACK ) PURE;
STDMETHOD(EnumSurfaces)(THIS_ DWORD, LPDDSURFACEDESC, LPVOID,LPDDENUMSURFACESCALLBACK ) PURE;
STDMETHOD(FlipToGDISurface)(THIS) PURE;
STDMETHOD(GetCaps)( THIS_ LPDDCAPS, LPDDCAPS) PURE;
STDMETHOD(GetDisplayMode)( THIS_ LPDDSURFACEDESC) PURE;
STDMETHOD(GetFourCCCodes)(THIS_ LPDWORD, LPDWORD ) PURE;
STDMETHOD(GetGDISurface)(THIS_ LPDIRECTDRAWSURFACE FAR *) PURE;
STDMETHOD(GetMonitorFrequency)(THIS_ LPDWORD) PURE;
STDMETHOD(GetScanLine)(THIS_ LPDWORD) PURE;
STDMETHOD(GetVerticalBlankStatus)(THIS_ LPBOOL ) PURE;
STDMETHOD(Initialize)(THIS_ GUID FAR *) PURE;
STDMETHOD(RestoreDisplayMode)(THIS) PURE;
STDMETHOD(SetCooperativeLevel)(THIS_ HWND, DWORD) PURE;
STDMETHOD(SetDisplayMode)(THIS_ DWORD, DWORD,DWORD, DWORD, DWORD) PURE;
STDMETHOD(WaitForVerticalBlank)(THIS_ DWORD, HANDLE ) PURE;
/*** Added in the v2 interface ***/
STDMETHOD(GetAvailableVidMem)(THIS_ LPDDSCAPS, LPDWORD, LPDWORD) PURE;
/*** IDirectDraw3 methods ***/
STDMETHOD(GetSurfaceFromDC) (THIS_ HDC, IDirectDrawSurface **) PURE;
};
#if !defined(__cplusplus) || defined(CINTERFACE)
#define IDirectDraw3_QueryInterface(p, a, b) (p)->lpVtbl->QueryInterface(p, a, b)
#define IDirectDraw3_AddRef(p) (p)->lpVtbl->AddRef(p)
#define IDirectDraw3_Release(p) (p)->lpVtbl->Release(p)
#define IDirectDraw3_Compact(p) (p)->lpVtbl->Compact(p)
#define IDirectDraw3_CreateClipper(p, a, b, c) (p)->lpVtbl->CreateClipper(p, a, b, c)
#define IDirectDraw3_CreatePalette(p, a, b, c, d) (p)->lpVtbl->CreatePalette(p, a, b, c, d)
#define IDirectDraw3_CreateSurface(p, a, b, c) (p)->lpVtbl->CreateSurface(p, a, b, c)
#define IDirectDraw3_DuplicateSurface(p, a, b) (p)->lpVtbl->DuplicateSurface(p, a, b)
#define IDirectDraw3_EnumDisplayModes(p, a, b, c, d) (p)->lpVtbl->EnumDisplayModes(p, a, b, c, d)
#define IDirectDraw3_EnumSurfaces(p, a, b, c, d) (p)->lpVtbl->EnumSurfaces(p, a, b, c, d)
#define IDirectDraw3_FlipToGDISurface(p) (p)->lpVtbl->FlipToGDISurface(p)
#define IDirectDraw3_GetCaps(p, a, b) (p)->lpVtbl->GetCaps(p, a, b)
#define IDirectDraw3_GetDisplayMode(p, a) (p)->lpVtbl->GetDisplayMode(p, a)
#define IDirectDraw3_GetFourCCCodes(p, a, b) (p)->lpVtbl->GetFourCCCodes(p, a, b)
#define IDirectDraw3_GetGDISurface(p, a) (p)->lpVtbl->GetGDISurface(p, a)
#define IDirectDraw3_GetMonitorFrequency(p, a) (p)->lpVtbl->GetMonitorFrequency(p, a)
#define IDirectDraw3_GetScanLine(p, a) (p)->lpVtbl->GetScanLine(p, a)
#define IDirectDraw3_GetVerticalBlankStatus(p, a) (p)->lpVtbl->GetVerticalBlankStatus(p, a)
#define IDirectDraw3_Initialize(p, a) (p)->lpVtbl->Initialize(p, a)
#define IDirectDraw3_RestoreDisplayMode(p) (p)->lpVtbl->RestoreDisplayMode(p)
#define IDirectDraw3_SetCooperativeLevel(p, a, b) (p)->lpVtbl->SetCooperativeLevel(p, a, b)
#define IDirectDraw3_SetDisplayMode(p, a, b, c, d, e) (p)->lpVtbl->SetDisplayMode(p, a, b, c, d, e)
#define IDirectDraw3_WaitForVerticalBlank(p, a, b) (p)->lpVtbl->WaitForVerticalBlank(p, a, b)
#define IDirectDraw3_GetAvailableVidMem(p, a, b, c) (p)->lpVtbl->GetAvailableVidMem(p, a, b, c)
#define IDirectDraw3_GetSurfaceFromDC(p, a, b) (p)->lpVtbl->GetSurfaceFromDC(p, a, b)
#endif
/*===========================================================================
*
*
* DIRECTDRAWEX RETURN CODES
*
* The return values from DirectDrawEx Commands and Surface that return an
* HRESULT are codes from DirectDrawEx concerning the results of the action
* requested by DirectDrawEx.
*
*==========================================================================*/
/*
* An attempt was made to load ddraw.dll
*/
#define DDERR_LOADFAILED MAKE_DDHRESULT( 901 )
/*
* Unable to determine module/os version number
*/
#define DDERR_BADVERSIONINFO MAKE_DDHRESULT( 902 )
/*
* Unable to determine address of ddraw.dll exported symbol (DirectDrawCreate or
* DirectDrawEnumerate).
*/
#define DDERR_BADPROCADDRESS MAKE_DDHRESULT( 903 )
/*
* Legacy usage: do not use QI() to create D3D device objects from surface objects.
* Use IDirect3D2::CreateDevice()
*/
#define DDERR_LEGACYUSAGE MAKE_DDHRESULT( 904 )
#ifdef __cplusplus
}
#endif
#endif // __DDRAWEXH__

533
extern/include/ddstream.h vendored
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@ -1,533 +0,0 @@
#pragma warning( disable: 4049 ) /* more than 64k source lines */
/* this ALWAYS GENERATED file contains the definitions for the interfaces */
/* File created by MIDL compiler version 6.00.0347 */
/* Compiler settings for ddstream.idl:
Oicf, W1, Zp8, env=Win32 (32b run)
protocol : dce , ms_ext, c_ext, robust
error checks: allocation ref bounds_check enum stub_data
VC __declspec() decoration level:
__declspec(uuid()), __declspec(selectany), __declspec(novtable)
DECLSPEC_UUID(), MIDL_INTERFACE()
*/
//@@MIDL_FILE_HEADING( )
/* verify that the <rpcndr.h> version is high enough to compile this file*/
#ifndef __REQUIRED_RPCNDR_H_VERSION__
#define __REQUIRED_RPCNDR_H_VERSION__ 475
#endif
#include "rpc.h"
#include "rpcndr.h"
#ifndef __RPCNDR_H_VERSION__
#error this stub requires an updated version of <rpcndr.h>
#endif // __RPCNDR_H_VERSION__
#ifndef COM_NO_WINDOWS_H
#include "windows.h"
#include "ole2.h"
#endif /*COM_NO_WINDOWS_H*/
#ifndef __ddstream_h__
#define __ddstream_h__
#if defined(_MSC_VER) && (_MSC_VER >= 1020)
#pragma once
#endif
/* Forward Declarations */
#ifndef __IDirectDrawMediaStream_FWD_DEFINED__
#define __IDirectDrawMediaStream_FWD_DEFINED__
typedef interface IDirectDrawMediaStream IDirectDrawMediaStream;
#endif /* __IDirectDrawMediaStream_FWD_DEFINED__ */
#ifndef __IDirectDrawStreamSample_FWD_DEFINED__
#define __IDirectDrawStreamSample_FWD_DEFINED__
typedef interface IDirectDrawStreamSample IDirectDrawStreamSample;
#endif /* __IDirectDrawStreamSample_FWD_DEFINED__ */
/* header files for imported files */
#include "unknwn.h"
#include "mmstream.h"
#ifdef __cplusplus
extern "C"{
#endif
void * __RPC_USER MIDL_user_allocate(size_t);
void __RPC_USER MIDL_user_free( void * );
/* interface __MIDL_itf_ddstream_0000 */
/* [local] */
//
// The following declarations within the 'if 0' block are dummy typedefs used to make
// the ddstream.idl file build. The actual definitions are contained in DDRAW.H
//
#if 0
typedef void *LPDDSURFACEDESC;
typedef struct tDDSURFACEDESC DDSURFACEDESC;
#endif
#include <ddraw.h>
enum __MIDL___MIDL_itf_ddstream_0000_0001
{ DDSFF_PROGRESSIVERENDER = 0x1
} ;
extern RPC_IF_HANDLE __MIDL_itf_ddstream_0000_v0_0_c_ifspec;
extern RPC_IF_HANDLE __MIDL_itf_ddstream_0000_v0_0_s_ifspec;
#ifndef __IDirectDrawMediaStream_INTERFACE_DEFINED__
#define __IDirectDrawMediaStream_INTERFACE_DEFINED__
/* interface IDirectDrawMediaStream */
/* [unique][uuid][local][object] */
EXTERN_C const IID IID_IDirectDrawMediaStream;
#if defined(__cplusplus) && !defined(CINTERFACE)
MIDL_INTERFACE("F4104FCE-9A70-11d0-8FDE-00C04FD9189D")
IDirectDrawMediaStream : public IMediaStream
{
public:
virtual HRESULT STDMETHODCALLTYPE GetFormat(
/* [out] */ DDSURFACEDESC *pDDSDCurrent,
/* [out] */ IDirectDrawPalette **ppDirectDrawPalette,
/* [out] */ DDSURFACEDESC *pDDSDDesired,
/* [out] */ DWORD *pdwFlags) = 0;
virtual HRESULT STDMETHODCALLTYPE SetFormat(
/* [in] */ const DDSURFACEDESC *pDDSurfaceDesc,
/* [in] */ IDirectDrawPalette *pDirectDrawPalette) = 0;
virtual HRESULT STDMETHODCALLTYPE GetDirectDraw(
/* [out] */ IDirectDraw **ppDirectDraw) = 0;
virtual HRESULT STDMETHODCALLTYPE SetDirectDraw(
/* [in] */ IDirectDraw *pDirectDraw) = 0;
virtual HRESULT STDMETHODCALLTYPE CreateSample(
/* [in] */ IDirectDrawSurface *pSurface,
/* [in] */ const RECT *pRect,
/* [in] */ DWORD dwFlags,
/* [out] */ IDirectDrawStreamSample **ppSample) = 0;
virtual HRESULT STDMETHODCALLTYPE GetTimePerFrame(
/* [out] */ STREAM_TIME *pFrameTime) = 0;
};
#else /* C style interface */
typedef struct IDirectDrawMediaStreamVtbl
{
BEGIN_INTERFACE
HRESULT ( STDMETHODCALLTYPE *QueryInterface )(
IDirectDrawMediaStream * This,
/* [in] */ REFIID riid,
/* [iid_is][out] */ void **ppvObject);
ULONG ( STDMETHODCALLTYPE *AddRef )(
IDirectDrawMediaStream * This);
ULONG ( STDMETHODCALLTYPE *Release )(
IDirectDrawMediaStream * This);
HRESULT ( STDMETHODCALLTYPE *GetMultiMediaStream )(
IDirectDrawMediaStream * This,
/* [out] */ IMultiMediaStream **ppMultiMediaStream);
HRESULT ( STDMETHODCALLTYPE *GetInformation )(
IDirectDrawMediaStream * This,
/* [out] */ MSPID *pPurposeId,
/* [out] */ STREAM_TYPE *pType);
HRESULT ( STDMETHODCALLTYPE *SetSameFormat )(
IDirectDrawMediaStream * This,
/* [in] */ IMediaStream *pStreamThatHasDesiredFormat,
/* [in] */ DWORD dwFlags);
HRESULT ( STDMETHODCALLTYPE *AllocateSample )(
IDirectDrawMediaStream * This,
/* [in] */ DWORD dwFlags,
/* [out] */ IStreamSample **ppSample);
HRESULT ( STDMETHODCALLTYPE *CreateSharedSample )(
IDirectDrawMediaStream * This,
/* [in] */ IStreamSample *pExistingSample,
/* [in] */ DWORD dwFlags,
/* [out] */ IStreamSample **ppNewSample);
HRESULT ( STDMETHODCALLTYPE *SendEndOfStream )(
IDirectDrawMediaStream * This,
DWORD dwFlags);
HRESULT ( STDMETHODCALLTYPE *GetFormat )(
IDirectDrawMediaStream * This,
/* [out] */ DDSURFACEDESC *pDDSDCurrent,
/* [out] */ IDirectDrawPalette **ppDirectDrawPalette,
/* [out] */ DDSURFACEDESC *pDDSDDesired,
/* [out] */ DWORD *pdwFlags);
HRESULT ( STDMETHODCALLTYPE *SetFormat )(
IDirectDrawMediaStream * This,
/* [in] */ const DDSURFACEDESC *pDDSurfaceDesc,
/* [in] */ IDirectDrawPalette *pDirectDrawPalette);
HRESULT ( STDMETHODCALLTYPE *GetDirectDraw )(
IDirectDrawMediaStream * This,
/* [out] */ IDirectDraw **ppDirectDraw);
HRESULT ( STDMETHODCALLTYPE *SetDirectDraw )(
IDirectDrawMediaStream * This,
/* [in] */ IDirectDraw *pDirectDraw);
HRESULT ( STDMETHODCALLTYPE *CreateSample )(
IDirectDrawMediaStream * This,
/* [in] */ IDirectDrawSurface *pSurface,
/* [in] */ const RECT *pRect,
/* [in] */ DWORD dwFlags,
/* [out] */ IDirectDrawStreamSample **ppSample);
HRESULT ( STDMETHODCALLTYPE *GetTimePerFrame )(
IDirectDrawMediaStream * This,
/* [out] */ STREAM_TIME *pFrameTime);
END_INTERFACE
} IDirectDrawMediaStreamVtbl;
interface IDirectDrawMediaStream
{
CONST_VTBL struct IDirectDrawMediaStreamVtbl *lpVtbl;
};
#ifdef COBJMACROS
#define IDirectDrawMediaStream_QueryInterface(This,riid,ppvObject) \
(This)->lpVtbl -> QueryInterface(This,riid,ppvObject)
#define IDirectDrawMediaStream_AddRef(This) \
(This)->lpVtbl -> AddRef(This)
#define IDirectDrawMediaStream_Release(This) \
(This)->lpVtbl -> Release(This)
#define IDirectDrawMediaStream_GetMultiMediaStream(This,ppMultiMediaStream) \
(This)->lpVtbl -> GetMultiMediaStream(This,ppMultiMediaStream)
#define IDirectDrawMediaStream_GetInformation(This,pPurposeId,pType) \
(This)->lpVtbl -> GetInformation(This,pPurposeId,pType)
#define IDirectDrawMediaStream_SetSameFormat(This,pStreamThatHasDesiredFormat,dwFlags) \
(This)->lpVtbl -> SetSameFormat(This,pStreamThatHasDesiredFormat,dwFlags)
#define IDirectDrawMediaStream_AllocateSample(This,dwFlags,ppSample) \
(This)->lpVtbl -> AllocateSample(This,dwFlags,ppSample)
#define IDirectDrawMediaStream_CreateSharedSample(This,pExistingSample,dwFlags,ppNewSample) \
(This)->lpVtbl -> CreateSharedSample(This,pExistingSample,dwFlags,ppNewSample)
#define IDirectDrawMediaStream_SendEndOfStream(This,dwFlags) \
(This)->lpVtbl -> SendEndOfStream(This,dwFlags)
#define IDirectDrawMediaStream_GetFormat(This,pDDSDCurrent,ppDirectDrawPalette,pDDSDDesired,pdwFlags) \
(This)->lpVtbl -> GetFormat(This,pDDSDCurrent,ppDirectDrawPalette,pDDSDDesired,pdwFlags)
#define IDirectDrawMediaStream_SetFormat(This,pDDSurfaceDesc,pDirectDrawPalette) \
(This)->lpVtbl -> SetFormat(This,pDDSurfaceDesc,pDirectDrawPalette)
#define IDirectDrawMediaStream_GetDirectDraw(This,ppDirectDraw) \
(This)->lpVtbl -> GetDirectDraw(This,ppDirectDraw)
#define IDirectDrawMediaStream_SetDirectDraw(This,pDirectDraw) \
(This)->lpVtbl -> SetDirectDraw(This,pDirectDraw)
#define IDirectDrawMediaStream_CreateSample(This,pSurface,pRect,dwFlags,ppSample) \
(This)->lpVtbl -> CreateSample(This,pSurface,pRect,dwFlags,ppSample)
#define IDirectDrawMediaStream_GetTimePerFrame(This,pFrameTime) \
(This)->lpVtbl -> GetTimePerFrame(This,pFrameTime)
#endif /* COBJMACROS */
#endif /* C style interface */
HRESULT STDMETHODCALLTYPE IDirectDrawMediaStream_GetFormat_Proxy(
IDirectDrawMediaStream * This,
/* [out] */ DDSURFACEDESC *pDDSDCurrent,
/* [out] */ IDirectDrawPalette **ppDirectDrawPalette,
/* [out] */ DDSURFACEDESC *pDDSDDesired,
/* [out] */ DWORD *pdwFlags);
void __RPC_STUB IDirectDrawMediaStream_GetFormat_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
HRESULT STDMETHODCALLTYPE IDirectDrawMediaStream_SetFormat_Proxy(
IDirectDrawMediaStream * This,
/* [in] */ const DDSURFACEDESC *pDDSurfaceDesc,
/* [in] */ IDirectDrawPalette *pDirectDrawPalette);
void __RPC_STUB IDirectDrawMediaStream_SetFormat_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
HRESULT STDMETHODCALLTYPE IDirectDrawMediaStream_GetDirectDraw_Proxy(
IDirectDrawMediaStream * This,
/* [out] */ IDirectDraw **ppDirectDraw);
void __RPC_STUB IDirectDrawMediaStream_GetDirectDraw_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
HRESULT STDMETHODCALLTYPE IDirectDrawMediaStream_SetDirectDraw_Proxy(
IDirectDrawMediaStream * This,
/* [in] */ IDirectDraw *pDirectDraw);
void __RPC_STUB IDirectDrawMediaStream_SetDirectDraw_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
HRESULT STDMETHODCALLTYPE IDirectDrawMediaStream_CreateSample_Proxy(
IDirectDrawMediaStream * This,
/* [in] */ IDirectDrawSurface *pSurface,
/* [in] */ const RECT *pRect,
/* [in] */ DWORD dwFlags,
/* [out] */ IDirectDrawStreamSample **ppSample);
void __RPC_STUB IDirectDrawMediaStream_CreateSample_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
HRESULT STDMETHODCALLTYPE IDirectDrawMediaStream_GetTimePerFrame_Proxy(
IDirectDrawMediaStream * This,
/* [out] */ STREAM_TIME *pFrameTime);
void __RPC_STUB IDirectDrawMediaStream_GetTimePerFrame_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
#endif /* __IDirectDrawMediaStream_INTERFACE_DEFINED__ */
#ifndef __IDirectDrawStreamSample_INTERFACE_DEFINED__
#define __IDirectDrawStreamSample_INTERFACE_DEFINED__
/* interface IDirectDrawStreamSample */
/* [unique][uuid][local][object] */
EXTERN_C const IID IID_IDirectDrawStreamSample;
#if defined(__cplusplus) && !defined(CINTERFACE)
MIDL_INTERFACE("F4104FCF-9A70-11d0-8FDE-00C04FD9189D")
IDirectDrawStreamSample : public IStreamSample
{
public:
virtual HRESULT STDMETHODCALLTYPE GetSurface(
/* [out] */ IDirectDrawSurface **ppDirectDrawSurface,
/* [out] */ RECT *pRect) = 0;
virtual HRESULT STDMETHODCALLTYPE SetRect(
/* [in] */ const RECT *pRect) = 0;
};
#else /* C style interface */
typedef struct IDirectDrawStreamSampleVtbl
{
BEGIN_INTERFACE
HRESULT ( STDMETHODCALLTYPE *QueryInterface )(
IDirectDrawStreamSample * This,
/* [in] */ REFIID riid,
/* [iid_is][out] */ void **ppvObject);
ULONG ( STDMETHODCALLTYPE *AddRef )(
IDirectDrawStreamSample * This);
ULONG ( STDMETHODCALLTYPE *Release )(
IDirectDrawStreamSample * This);
HRESULT ( STDMETHODCALLTYPE *GetMediaStream )(
IDirectDrawStreamSample * This,
/* [in] */ IMediaStream **ppMediaStream);
HRESULT ( STDMETHODCALLTYPE *GetSampleTimes )(
IDirectDrawStreamSample * This,
/* [out] */ STREAM_TIME *pStartTime,
/* [out] */ STREAM_TIME *pEndTime,
/* [out] */ STREAM_TIME *pCurrentTime);
HRESULT ( STDMETHODCALLTYPE *SetSampleTimes )(
IDirectDrawStreamSample * This,
/* [in] */ const STREAM_TIME *pStartTime,
/* [in] */ const STREAM_TIME *pEndTime);
HRESULT ( STDMETHODCALLTYPE *Update )(
IDirectDrawStreamSample * This,
/* [in] */ DWORD dwFlags,
/* [in] */ HANDLE hEvent,
/* [in] */ PAPCFUNC pfnAPC,
/* [in] */ DWORD_PTR dwAPCData);
HRESULT ( STDMETHODCALLTYPE *CompletionStatus )(
IDirectDrawStreamSample * This,
/* [in] */ DWORD dwFlags,
/* [in] */ DWORD dwMilliseconds);
HRESULT ( STDMETHODCALLTYPE *GetSurface )(
IDirectDrawStreamSample * This,
/* [out] */ IDirectDrawSurface **ppDirectDrawSurface,
/* [out] */ RECT *pRect);
HRESULT ( STDMETHODCALLTYPE *SetRect )(
IDirectDrawStreamSample * This,
/* [in] */ const RECT *pRect);
END_INTERFACE
} IDirectDrawStreamSampleVtbl;
interface IDirectDrawStreamSample
{
CONST_VTBL struct IDirectDrawStreamSampleVtbl *lpVtbl;
};
#ifdef COBJMACROS
#define IDirectDrawStreamSample_QueryInterface(This,riid,ppvObject) \
(This)->lpVtbl -> QueryInterface(This,riid,ppvObject)
#define IDirectDrawStreamSample_AddRef(This) \
(This)->lpVtbl -> AddRef(This)
#define IDirectDrawStreamSample_Release(This) \
(This)->lpVtbl -> Release(This)
#define IDirectDrawStreamSample_GetMediaStream(This,ppMediaStream) \
(This)->lpVtbl -> GetMediaStream(This,ppMediaStream)
#define IDirectDrawStreamSample_GetSampleTimes(This,pStartTime,pEndTime,pCurrentTime) \
(This)->lpVtbl -> GetSampleTimes(This,pStartTime,pEndTime,pCurrentTime)
#define IDirectDrawStreamSample_SetSampleTimes(This,pStartTime,pEndTime) \
(This)->lpVtbl -> SetSampleTimes(This,pStartTime,pEndTime)
#define IDirectDrawStreamSample_Update(This,dwFlags,hEvent,pfnAPC,dwAPCData) \
(This)->lpVtbl -> Update(This,dwFlags,hEvent,pfnAPC,dwAPCData)
#define IDirectDrawStreamSample_CompletionStatus(This,dwFlags,dwMilliseconds) \
(This)->lpVtbl -> CompletionStatus(This,dwFlags,dwMilliseconds)
#define IDirectDrawStreamSample_GetSurface(This,ppDirectDrawSurface,pRect) \
(This)->lpVtbl -> GetSurface(This,ppDirectDrawSurface,pRect)
#define IDirectDrawStreamSample_SetRect(This,pRect) \
(This)->lpVtbl -> SetRect(This,pRect)
#endif /* COBJMACROS */
#endif /* C style interface */
HRESULT STDMETHODCALLTYPE IDirectDrawStreamSample_GetSurface_Proxy(
IDirectDrawStreamSample * This,
/* [out] */ IDirectDrawSurface **ppDirectDrawSurface,
/* [out] */ RECT *pRect);
void __RPC_STUB IDirectDrawStreamSample_GetSurface_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
HRESULT STDMETHODCALLTYPE IDirectDrawStreamSample_SetRect_Proxy(
IDirectDrawStreamSample * This,
/* [in] */ const RECT *pRect);
void __RPC_STUB IDirectDrawStreamSample_SetRect_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
#endif /* __IDirectDrawStreamSample_INTERFACE_DEFINED__ */
/* Additional Prototypes for ALL interfaces */
/* end of Additional Prototypes */
#ifdef __cplusplus
}
#endif
#endif

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/****************************************************************************
*
* Copyright (C) 1995-2000 Microsoft Corporation. All Rights Reserved.
*
* File: dinputd.h
* Content: DirectInput include file for device driver implementors
*
****************************************************************************/
#ifndef __DINPUTD_INCLUDED__
#define __DINPUTD_INCLUDED__
#ifndef DIRECTINPUT_VERSION
#define DIRECTINPUT_VERSION 0x0800
#pragma message(__FILE__ ": DIRECTINPUT_VERSION undefined. Defaulting to version 0x0800")
#endif
#ifdef __cplusplus
extern "C" {
#endif
/****************************************************************************
*
* Interfaces
*
****************************************************************************/
#ifndef DIJ_RINGZERO
DEFINE_GUID(IID_IDirectInputEffectDriver, 0x02538130,0x898F,0x11D0,0x9A,0xD0,0x00,0xA0,0xC9,0xA0,0x6E,0x35);
DEFINE_GUID(IID_IDirectInputJoyConfig, 0x1DE12AB1,0xC9F5,0x11CF,0xBF,0xC7,0x44,0x45,0x53,0x54,0x00,0x00);
DEFINE_GUID(IID_IDirectInputPIDDriver, 0xEEC6993A,0xB3FD,0x11D2,0xA9,0x16,0x00,0xC0,0x4F,0xB9,0x86,0x38);
DEFINE_GUID(IID_IDirectInputJoyConfig8, 0xeb0d7dfa,0x1990,0x4f27,0xb4,0xd6,0xed,0xf2,0xee,0xc4,0xa4,0x4c);
#endif /* DIJ_RINGZERO */
/****************************************************************************
*
* IDirectInputEffectDriver
*
****************************************************************************/
typedef struct DIOBJECTATTRIBUTES {
DWORD dwFlags;
WORD wUsagePage;
WORD wUsage;
} DIOBJECTATTRIBUTES, *LPDIOBJECTATTRIBUTES;
typedef const DIOBJECTATTRIBUTES *LPCDIOBJECTATTRIBUTES;
typedef struct DIFFOBJECTATTRIBUTES {
DWORD dwFFMaxForce;
DWORD dwFFForceResolution;
} DIFFOBJECTATTRIBUTES, *LPDIFFOBJECTATTRIBUTES;
typedef const DIFFOBJECTATTRIBUTES *LPCDIFFOBJECTATTRIBUTES;
typedef struct DIOBJECTCALIBRATION {
LONG lMin;
LONG lCenter;
LONG lMax;
} DIOBJECTCALIBRATION, *LPDIOBJECTCALIBRATION;
typedef const DIOBJECTCALIBRATION *LPCDIOBJECTCALIBRATION;
typedef struct DIPOVCALIBRATION {
LONG lMin[5];
LONG lMax[5];
} DIPOVCALIBRATION, *LPDIPOVCALIBRATION;
typedef const DIPOVCALIBRATION *LPCDIPOVCALIBRATION;
typedef struct DIEFFECTATTRIBUTES {
DWORD dwEffectId;
DWORD dwEffType;
DWORD dwStaticParams;
DWORD dwDynamicParams;
DWORD dwCoords;
} DIEFFECTATTRIBUTES, *LPDIEFFECTATTRIBUTES;
typedef const DIEFFECTATTRIBUTES *LPCDIEFFECTATTRIBUTES;
typedef struct DIFFDEVICEATTRIBUTES {
DWORD dwFlags;
DWORD dwFFSamplePeriod;
DWORD dwFFMinTimeResolution;
} DIFFDEVICEATTRIBUTES, *LPDIFFDEVICEATTRIBUTES;
typedef const DIFFDEVICEATTRIBUTES *LPCDIFFDEVICEATTRIBUTES;
typedef struct DIDRIVERVERSIONS {
DWORD dwSize;
DWORD dwFirmwareRevision;
DWORD dwHardwareRevision;
DWORD dwFFDriverVersion;
} DIDRIVERVERSIONS, *LPDIDRIVERVERSIONS;
typedef const DIDRIVERVERSIONS *LPCDIDRIVERVERSIONS;
typedef struct DIDEVICESTATE {
DWORD dwSize;
DWORD dwState;
DWORD dwLoad;
} DIDEVICESTATE, *LPDIDEVICESTATE;
#define DEV_STS_EFFECT_RUNNING DIEGES_PLAYING
#ifndef DIJ_RINGZERO
typedef struct DIHIDFFINITINFO {
DWORD dwSize;
LPWSTR pwszDeviceInterface;
GUID GuidInstance;
} DIHIDFFINITINFO, *LPDIHIDFFINITINFO;
#undef INTERFACE
#define INTERFACE IDirectInputEffectDriver
DECLARE_INTERFACE_(IDirectInputEffectDriver, IUnknown)
{
/*** IUnknown methods ***/
STDMETHOD(QueryInterface)(THIS_ REFIID riid, LPVOID * ppvObj) PURE;
STDMETHOD_(ULONG,AddRef)(THIS) PURE;
STDMETHOD_(ULONG,Release)(THIS) PURE;
/*** IDirectInputEffectDriver methods ***/
STDMETHOD(DeviceID)(THIS_ DWORD,DWORD,DWORD,DWORD,LPVOID) PURE;
STDMETHOD(GetVersions)(THIS_ LPDIDRIVERVERSIONS) PURE;
STDMETHOD(Escape)(THIS_ DWORD,DWORD,LPDIEFFESCAPE) PURE;
STDMETHOD(SetGain)(THIS_ DWORD,DWORD) PURE;
STDMETHOD(SendForceFeedbackCommand)(THIS_ DWORD,DWORD) PURE;
STDMETHOD(GetForceFeedbackState)(THIS_ DWORD,LPDIDEVICESTATE) PURE;
STDMETHOD(DownloadEffect)(THIS_ DWORD,DWORD,LPDWORD,LPCDIEFFECT,DWORD) PURE;
STDMETHOD(DestroyEffect)(THIS_ DWORD,DWORD) PURE;
STDMETHOD(StartEffect)(THIS_ DWORD,DWORD,DWORD,DWORD) PURE;
STDMETHOD(StopEffect)(THIS_ DWORD,DWORD) PURE;
STDMETHOD(GetEffectStatus)(THIS_ DWORD,DWORD,LPDWORD) PURE;
};
typedef struct IDirectInputEffectDriver *LPDIRECTINPUTEFFECTDRIVER;
#if !defined(__cplusplus) || defined(CINTERFACE)
#define IDirectInputEffectDriver_QueryInterface(p,a,b) (p)->lpVtbl->QueryInterface(p,a,b)
#define IDirectInputEffectDriver_AddRef(p) (p)->lpVtbl->AddRef(p)
#define IDirectInputEffectDriver_Release(p) (p)->lpVtbl->Release(p)
#define IDirectInputEffectDriver_DeviceID(p,a,b,c,d,e) (p)->lpVtbl->DeviceID(p,a,b,c,d,e)
#define IDirectInputEffectDriver_GetVersions(p,a) (p)->lpVtbl->GetVersions(p,a)
#define IDirectInputEffectDriver_Escape(p,a,b,c) (p)->lpVtbl->Escape(p,a,b,c)
#define IDirectInputEffectDriver_SetGain(p,a,b) (p)->lpVtbl->SetGain(p,a,b)
#define IDirectInputEffectDriver_SendForceFeedbackCommand(p,a,b) (p)->lpVtbl->SendForceFeedbackCommand(p,a,b)
#define IDirectInputEffectDriver_GetForceFeedbackState(p,a,b) (p)->lpVtbl->GetForceFeedbackState(p,a,b)
#define IDirectInputEffectDriver_DownloadEffect(p,a,b,c,d,e) (p)->lpVtbl->DownloadEffect(p,a,b,c,d,e)
#define IDirectInputEffectDriver_DestroyEffect(p,a,b) (p)->lpVtbl->DestroyEffect(p,a,b)
#define IDirectInputEffectDriver_StartEffect(p,a,b,c,d) (p)->lpVtbl->StartEffect(p,a,b,c,d)
#define IDirectInputEffectDriver_StopEffect(p,a,b) (p)->lpVtbl->StopEffect(p,a,b)
#define IDirectInputEffectDriver_GetEffectStatus(p,a,b,c) (p)->lpVtbl->GetEffectStatus(p,a,b,c)
#else
#define IDirectInputEffectDriver_QueryInterface(p,a,b) (p)->QueryInterface(a,b)
#define IDirectInputEffectDriver_AddRef(p) (p)->AddRef()
#define IDirectInputEffectDriver_Release(p) (p)->Release()
#define IDirectInputEffectDriver_DeviceID(p,a,b,c,d,e) (p)->DeviceID(a,b,c,d,e)
#define IDirectInputEffectDriver_GetVersions(p,a) (p)->GetVersions(a)
#define IDirectInputEffectDriver_Escape(p,a,b,c) (p)->Escape(a,b,c)
#define IDirectInputEffectDriver_SetGain(p,a,b) (p)->SetGain(a,b)
#define IDirectInputEffectDriver_SendForceFeedbackCommand(p,a,b) (p)->SendForceFeedbackCommand(a,b)
#define IDirectInputEffectDriver_GetForceFeedbackState(p,a,b) (p)->GetForceFeedbackState(a,b)
#define IDirectInputEffectDriver_DownloadEffect(p,a,b,c,d,e) (p)->DownloadEffect(a,b,c,d,e)
#define IDirectInputEffectDriver_DestroyEffect(p,a,b) (p)->DestroyEffect(a,b)
#define IDirectInputEffectDriver_StartEffect(p,a,b,c,d) (p)->StartEffect(a,b,c,d)
#define IDirectInputEffectDriver_StopEffect(p,a,b) (p)->StopEffect(a,b)
#define IDirectInputEffectDriver_GetEffectStatus(p,a,b,c) (p)->GetEffectStatus(a,b,c)
#endif
#endif /* DIJ_RINGZERO */
/****************************************************************************
*
* IDirectInputJoyConfig
*
****************************************************************************/
/****************************************************************************
*
* Definitions copied from the DDK
*
****************************************************************************/
#ifndef JOY_HW_NONE
/* pre-defined joystick types */
#define JOY_HW_NONE 0
#define JOY_HW_CUSTOM 1
#define JOY_HW_2A_2B_GENERIC 2
#define JOY_HW_2A_4B_GENERIC 3
#define JOY_HW_2B_GAMEPAD 4
#define JOY_HW_2B_FLIGHTYOKE 5
#define JOY_HW_2B_FLIGHTYOKETHROTTLE 6
#define JOY_HW_3A_2B_GENERIC 7
#define JOY_HW_3A_4B_GENERIC 8
#define JOY_HW_4B_GAMEPAD 9
#define JOY_HW_4B_FLIGHTYOKE 10
#define JOY_HW_4B_FLIGHTYOKETHROTTLE 11
#define JOY_HW_TWO_2A_2B_WITH_Y 12
#define JOY_HW_LASTENTRY 13
/* calibration flags */
#define JOY_ISCAL_XY 0x00000001l /* XY are calibrated */
#define JOY_ISCAL_Z 0x00000002l /* Z is calibrated */
#define JOY_ISCAL_R 0x00000004l /* R is calibrated */
#define JOY_ISCAL_U 0x00000008l /* U is calibrated */
#define JOY_ISCAL_V 0x00000010l /* V is calibrated */
#define JOY_ISCAL_POV 0x00000020l /* POV is calibrated */
/* point of view constants */
#define JOY_POV_NUMDIRS 4
#define JOY_POVVAL_FORWARD 0
#define JOY_POVVAL_BACKWARD 1
#define JOY_POVVAL_LEFT 2
#define JOY_POVVAL_RIGHT 3
/* Specific settings for joystick hardware */
#define JOY_HWS_HASZ 0x00000001l /* has Z info? */
#define JOY_HWS_HASPOV 0x00000002l /* point of view hat present */
#define JOY_HWS_POVISBUTTONCOMBOS 0x00000004l /* pov done through combo of buttons */
#define JOY_HWS_POVISPOLL 0x00000008l /* pov done through polling */
#define JOY_HWS_ISYOKE 0x00000010l /* joystick is a flight yoke */
#define JOY_HWS_ISGAMEPAD 0x00000020l /* joystick is a game pad */
#define JOY_HWS_ISCARCTRL 0x00000040l /* joystick is a car controller */
/* X defaults to J1 X axis */
#define JOY_HWS_XISJ1Y 0x00000080l /* X is on J1 Y axis */
#define JOY_HWS_XISJ2X 0x00000100l /* X is on J2 X axis */
#define JOY_HWS_XISJ2Y 0x00000200l /* X is on J2 Y axis */
/* Y defaults to J1 Y axis */
#define JOY_HWS_YISJ1X 0x00000400l /* Y is on J1 X axis */
#define JOY_HWS_YISJ2X 0x00000800l /* Y is on J2 X axis */
#define JOY_HWS_YISJ2Y 0x00001000l /* Y is on J2 Y axis */
/* Z defaults to J2 Y axis */
#define JOY_HWS_ZISJ1X 0x00002000l /* Z is on J1 X axis */
#define JOY_HWS_ZISJ1Y 0x00004000l /* Z is on J1 Y axis */
#define JOY_HWS_ZISJ2X 0x00008000l /* Z is on J2 X axis */
/* POV defaults to J2 Y axis, if it is not button based */
#define JOY_HWS_POVISJ1X 0x00010000l /* pov done through J1 X axis */
#define JOY_HWS_POVISJ1Y 0x00020000l /* pov done through J1 Y axis */
#define JOY_HWS_POVISJ2X 0x00040000l /* pov done through J2 X axis */
/* R defaults to J2 X axis */
#define JOY_HWS_HASR 0x00080000l /* has R (4th axis) info */
#define JOY_HWS_RISJ1X 0x00100000l /* R done through J1 X axis */
#define JOY_HWS_RISJ1Y 0x00200000l /* R done through J1 Y axis */
#define JOY_HWS_RISJ2Y 0x00400000l /* R done through J2 X axis */
/* U & V for future hardware */
#define JOY_HWS_HASU 0x00800000l /* has U (5th axis) info */
#define JOY_HWS_HASV 0x01000000l /* has V (6th axis) info */
/* Usage settings */
#define JOY_US_HASRUDDER 0x00000001l /* joystick configured with rudder */
#define JOY_US_PRESENT 0x00000002l /* is joystick actually present? */
#define JOY_US_ISOEM 0x00000004l /* joystick is an OEM defined type */
/* reserved for future use -> as link to next possible dword */
#define JOY_US_RESERVED 0x80000000l /* reserved */
/* Settings for TypeInfo Flags1 */
#define JOYTYPE_ZEROGAMEENUMOEMDATA 0x00000001l /* Zero GameEnum's OEM data field */
#define JOYTYPE_NOAUTODETECTGAMEPORT 0x00000002l /* Device does not support Autodetect gameport*/
#define JOYTYPE_NOHIDDIRECT 0x00000004l /* Do not use HID directly for this device */
#define JOYTYPE_ANALOGCOMPAT 0x00000008l /* Expose the analog compatible ID */
#define JOYTYPE_DEFAULTPROPSHEET 0x80000000l /* CPL overrides custom property sheet */
/* Settings for TypeInfo Flags2 */
#define JOYTYPE_DEVICEHIDE 0x00010000l /* Hide unclassified devices */
#define JOYTYPE_MOUSEHIDE 0x00020000l /* Hide mice */
#define JOYTYPE_KEYBHIDE 0x00040000l /* Hide keyboards */
#define JOYTYPE_GAMEHIDE 0x00080000l /* Hide game controllers */
#define JOYTYPE_HIDEACTIVE 0x00100000l /* Hide flags are active */
#define JOYTYPE_INFOMASK 0x00E00000l /* Mask for type specific info */
#define JOYTYPE_INFODEFAULT 0x00000000l /* Use default axis mappings */
#define JOYTYPE_INFOYYPEDALS 0x00200000l /* Use Y as a combined pedals axis */
#define JOYTYPE_INFOZYPEDALS 0x00400000l /* Use Z for accelerate, Y for brake */
#define JOYTYPE_INFOYRPEDALS 0x00600000l /* Use Y for accelerate, R for brake */
#define JOYTYPE_INFOZRPEDALS 0x00800000l /* Use Z for accelerate, R for brake */
#define JOYTYPE_INFOZISSLIDER 0x00200000l /* Use Z as a slider */
#define JOYTYPE_INFOZISZ 0x00400000l /* Use Z as Z axis */
#define JOYTYPE_ENABLEINPUTREPORT 0x01000000l /* Enable initial input reports */
/* struct for storing x,y, z, and rudder values */
typedef struct joypos_tag {
DWORD dwX;
DWORD dwY;
DWORD dwZ;
DWORD dwR;
DWORD dwU;
DWORD dwV;
} JOYPOS, FAR *LPJOYPOS;
/* struct for storing ranges */
typedef struct joyrange_tag {
JOYPOS jpMin;
JOYPOS jpMax;
JOYPOS jpCenter;
} JOYRANGE,FAR *LPJOYRANGE;
/*
* dwTimeout - value at which to timeout joystick polling
* jrvRanges - range of values app wants returned for axes
* jpDeadZone - area around center to be considered
* as "dead". specified as a percentage
* (0-100). Only X & Y handled by system driver
*/
typedef struct joyreguservalues_tag {
DWORD dwTimeOut;
JOYRANGE jrvRanges;
JOYPOS jpDeadZone;
} JOYREGUSERVALUES, FAR *LPJOYREGUSERVALUES;
typedef struct joyreghwsettings_tag {
DWORD dwFlags;
DWORD dwNumButtons;
} JOYREGHWSETTINGS, FAR *LPJOYHWSETTINGS;
/* range of values returned by the hardware (filled in by calibration) */
/*
* jrvHardware - values returned by hardware
* dwPOVValues - POV values returned by hardware
* dwCalFlags - what has been calibrated
*/
typedef struct joyreghwvalues_tag {
JOYRANGE jrvHardware;
DWORD dwPOVValues[JOY_POV_NUMDIRS];
DWORD dwCalFlags;
} JOYREGHWVALUES, FAR *LPJOYREGHWVALUES;
/* hardware configuration */
/*
* hws - hardware settings
* dwUsageSettings - usage settings
* hwv - values returned by hardware
* dwType - type of joystick
* dwReserved - reserved for OEM drivers
*/
typedef struct joyreghwconfig_tag {
JOYREGHWSETTINGS hws;
DWORD dwUsageSettings;
JOYREGHWVALUES hwv;
DWORD dwType;
DWORD dwReserved;
} JOYREGHWCONFIG, FAR *LPJOYREGHWCONFIG;
/* joystick calibration info structure */
typedef struct joycalibrate_tag {
UINT wXbase;
UINT wXdelta;
UINT wYbase;
UINT wYdelta;
UINT wZbase;
UINT wZdelta;
} JOYCALIBRATE;
typedef JOYCALIBRATE FAR *LPJOYCALIBRATE;
#endif
#ifndef DIJ_RINGZERO
#define MAX_JOYSTRING 256
typedef BOOL (FAR PASCAL * LPDIJOYTYPECALLBACK)(LPCWSTR, LPVOID);
#ifndef MAX_JOYSTICKOEMVXDNAME
#define MAX_JOYSTICKOEMVXDNAME 260
#endif
#define DITC_REGHWSETTINGS 0x00000001
#define DITC_CLSIDCONFIG 0x00000002
#define DITC_DISPLAYNAME 0x00000004
#define DITC_CALLOUT 0x00000008
#define DITC_HARDWAREID 0x00000010
#define DITC_FLAGS1 0x00000020
#define DITC_FLAGS2 0x00000040
#define DITC_MAPFILE 0x00000080
/* This structure is defined for DirectX 5.0 compatibility */
typedef struct DIJOYTYPEINFO_DX5 {
DWORD dwSize;
JOYREGHWSETTINGS hws;
CLSID clsidConfig;
WCHAR wszDisplayName[MAX_JOYSTRING];
WCHAR wszCallout[MAX_JOYSTICKOEMVXDNAME];
} DIJOYTYPEINFO_DX5, *LPDIJOYTYPEINFO_DX5;
typedef const DIJOYTYPEINFO_DX5 *LPCDIJOYTYPEINFO_DX5;
/* This structure is defined for DirectX 6.1 compatibility */
typedef struct DIJOYTYPEINFO_DX6 {
DWORD dwSize;
JOYREGHWSETTINGS hws;
CLSID clsidConfig;
WCHAR wszDisplayName[MAX_JOYSTRING];
WCHAR wszCallout[MAX_JOYSTICKOEMVXDNAME];
WCHAR wszHardwareId[MAX_JOYSTRING];
DWORD dwFlags1;
} DIJOYTYPEINFO_DX6, *LPDIJOYTYPEINFO_DX6;
typedef const DIJOYTYPEINFO_DX6 *LPCDIJOYTYPEINFO_DX6;
typedef struct DIJOYTYPEINFO {
DWORD dwSize;
JOYREGHWSETTINGS hws;
CLSID clsidConfig;
WCHAR wszDisplayName[MAX_JOYSTRING];
WCHAR wszCallout[MAX_JOYSTICKOEMVXDNAME];
#if(DIRECTINPUT_VERSION >= 0x05b2)
WCHAR wszHardwareId[MAX_JOYSTRING];
DWORD dwFlags1;
#if(DIRECTINPUT_VERSION >= 0x0800)
DWORD dwFlags2;
WCHAR wszMapFile[MAX_JOYSTRING];
#endif /* DIRECTINPUT_VERSION >= 0x0800 */
#endif /* DIRECTINPUT_VERSION >= 0x05b2 */
} DIJOYTYPEINFO, *LPDIJOYTYPEINFO;
typedef const DIJOYTYPEINFO *LPCDIJOYTYPEINFO;
#define DIJC_GUIDINSTANCE 0x00000001
#define DIJC_REGHWCONFIGTYPE 0x00000002
#define DIJC_GAIN 0x00000004
#define DIJC_CALLOUT 0x00000008
#define DIJC_WDMGAMEPORT 0x00000010
/* This structure is defined for DirectX 5.0 compatibility */
typedef struct DIJOYCONFIG_DX5 {
DWORD dwSize;
GUID guidInstance;
JOYREGHWCONFIG hwc;
DWORD dwGain;
WCHAR wszType[MAX_JOYSTRING];
WCHAR wszCallout[MAX_JOYSTRING];
} DIJOYCONFIG_DX5, *LPDIJOYCONFIG_DX5;
typedef const DIJOYCONFIG_DX5 *LPCDIJOYCONFIG_DX5;
typedef struct DIJOYCONFIG {
DWORD dwSize;
GUID guidInstance;
JOYREGHWCONFIG hwc;
DWORD dwGain;
WCHAR wszType[MAX_JOYSTRING];
WCHAR wszCallout[MAX_JOYSTRING];
#if(DIRECTINPUT_VERSION >= 0x05b2)
GUID guidGameport;
#endif /* DIRECTINPUT_VERSION >= 0x05b2 */
} DIJOYCONFIG, *LPDIJOYCONFIG;
typedef const DIJOYCONFIG *LPCDIJOYCONFIG;
#define DIJU_USERVALUES 0x00000001
#define DIJU_GLOBALDRIVER 0x00000002
#define DIJU_GAMEPORTEMULATOR 0x00000004
typedef struct DIJOYUSERVALUES {
DWORD dwSize;
JOYREGUSERVALUES ruv;
WCHAR wszGlobalDriver[MAX_JOYSTRING];
WCHAR wszGameportEmulator[MAX_JOYSTRING];
} DIJOYUSERVALUES, *LPDIJOYUSERVALUES;
typedef const DIJOYUSERVALUES *LPCDIJOYUSERVALUES;
DEFINE_GUID(GUID_KeyboardClass, 0x4D36E96B,0xE325,0x11CE,0xBF,0xC1,0x08,0x00,0x2B,0xE1,0x03,0x18);
DEFINE_GUID(GUID_MediaClass, 0x4D36E96C,0xE325,0x11CE,0xBF,0xC1,0x08,0x00,0x2B,0xE1,0x03,0x18);
DEFINE_GUID(GUID_MouseClass, 0x4D36E96F,0xE325,0x11CE,0xBF,0xC1,0x08,0x00,0x2B,0xE1,0x03,0x18);
DEFINE_GUID(GUID_HIDClass, 0x745A17A0,0x74D3,0x11D0,0xB6,0xFE,0x00,0xA0,0xC9,0x0F,0x57,0xDA);
#undef INTERFACE
#define INTERFACE IDirectInputJoyConfig
DECLARE_INTERFACE_(IDirectInputJoyConfig, IUnknown)
{
/*** IUnknown methods ***/
STDMETHOD(QueryInterface)(THIS_ REFIID riid, LPVOID * ppvObj) PURE;
STDMETHOD_(ULONG,AddRef)(THIS) PURE;
STDMETHOD_(ULONG,Release)(THIS) PURE;
/*** IDirectInputJoyConfig methods ***/
STDMETHOD(Acquire)(THIS) PURE;
STDMETHOD(Unacquire)(THIS) PURE;
STDMETHOD(SetCooperativeLevel)(THIS_ HWND,DWORD) PURE;
STDMETHOD(SendNotify)(THIS) PURE;
STDMETHOD(EnumTypes)(THIS_ LPDIJOYTYPECALLBACK,LPVOID) PURE;
STDMETHOD(GetTypeInfo)(THIS_ LPCWSTR,LPDIJOYTYPEINFO,DWORD) PURE;
STDMETHOD(SetTypeInfo)(THIS_ LPCWSTR,LPCDIJOYTYPEINFO,DWORD) PURE;
STDMETHOD(DeleteType)(THIS_ LPCWSTR) PURE;
STDMETHOD(GetConfig)(THIS_ UINT,LPDIJOYCONFIG,DWORD) PURE;
STDMETHOD(SetConfig)(THIS_ UINT,LPCDIJOYCONFIG,DWORD) PURE;
STDMETHOD(DeleteConfig)(THIS_ UINT) PURE;
STDMETHOD(GetUserValues)(THIS_ LPDIJOYUSERVALUES,DWORD) PURE;
STDMETHOD(SetUserValues)(THIS_ LPCDIJOYUSERVALUES,DWORD) PURE;
STDMETHOD(AddNewHardware)(THIS_ HWND,REFGUID) PURE;
STDMETHOD(OpenTypeKey)(THIS_ LPCWSTR,DWORD,PHKEY) PURE;
STDMETHOD(OpenConfigKey)(THIS_ UINT,DWORD,PHKEY) PURE;
};
typedef struct IDirectInputJoyConfig *LPDIRECTINPUTJOYCONFIG;
#if !defined(__cplusplus) || defined(CINTERFACE)
#define IDirectInputJoyConfig_QueryInterface(p,a,b) (p)->lpVtbl->QueryInterface(p,a,b)
#define IDirectInputJoyConfig_AddRef(p) (p)->lpVtbl->AddRef(p)
#define IDirectInputJoyConfig_Release(p) (p)->lpVtbl->Release(p)
#define IDirectInputJoyConfig_Acquire(p) (p)->lpVtbl->Acquire(p)
#define IDirectInputJoyConfig_Unacquire(p) (p)->lpVtbl->Unacquire(p)
#define IDirectInputJoyConfig_SetCooperativeLevel(p,a,b) (p)->lpVtbl->SetCooperativeLevel(p,a,b)
#define IDirectInputJoyConfig_SendNotify(p) (p)->lpVtbl->SendNotify(p)
#define IDirectInputJoyConfig_EnumTypes(p,a,b) (p)->lpVtbl->EnumTypes(p,a,b)
#define IDirectInputJoyConfig_GetTypeInfo(p,a,b,c) (p)->lpVtbl->GetTypeInfo(p,a,b,c)
#define IDirectInputJoyConfig_SetTypeInfo(p,a,b,c) (p)->lpVtbl->SetTypeInfo(p,a,b,c)
#define IDirectInputJoyConfig_DeleteType(p,a) (p)->lpVtbl->DeleteType(p,a)
#define IDirectInputJoyConfig_GetConfig(p,a,b,c) (p)->lpVtbl->GetConfig(p,a,b,c)
#define IDirectInputJoyConfig_SetConfig(p,a,b,c) (p)->lpVtbl->SetConfig(p,a,b,c)
#define IDirectInputJoyConfig_DeleteConfig(p,a) (p)->lpVtbl->DeleteConfig(p,a)
#define IDirectInputJoyConfig_GetUserValues(p,a,b) (p)->lpVtbl->GetUserValues(p,a,b)
#define IDirectInputJoyConfig_SetUserValues(p,a,b) (p)->lpVtbl->SetUserValues(p,a,b)
#define IDirectInputJoyConfig_AddNewHardware(p,a,b) (p)->lpVtbl->AddNewHardware(p,a,b)
#define IDirectInputJoyConfig_OpenTypeKey(p,a,b,c) (p)->lpVtbl->OpenTypeKey(p,a,b,c)
#define IDirectInputJoyConfig_OpenConfigKey(p,a,b,c) (p)->lpVtbl->OpenConfigKey(p,a,b,c)
#else
#define IDirectInputJoyConfig_QueryInterface(p,a,b) (p)->QueryInterface(a,b)
#define IDirectInputJoyConfig_AddRef(p) (p)->AddRef()
#define IDirectInputJoyConfig_Release(p) (p)->Release()
#define IDirectInputJoyConfig_Acquire(p) (p)->Acquire()
#define IDirectInputJoyConfig_Unacquire(p) (p)->Unacquire()
#define IDirectInputJoyConfig_SetCooperativeLevel(p,a,b) (p)->SetCooperativeLevel(a,b)
#define IDirectInputJoyConfig_SendNotify(p) (p)->SendNotify()
#define IDirectInputJoyConfig_EnumTypes(p,a,b) (p)->EnumTypes(a,b)
#define IDirectInputJoyConfig_GetTypeInfo(p,a,b,c) (p)->GetTypeInfo(a,b,c)
#define IDirectInputJoyConfig_SetTypeInfo(p,a,b,c) (p)->SetTypeInfo(a,b,c)
#define IDirectInputJoyConfig_DeleteType(p,a) (p)->DeleteType(a)
#define IDirectInputJoyConfig_GetConfig(p,a,b,c) (p)->GetConfig(a,b,c)
#define IDirectInputJoyConfig_SetConfig(p,a,b,c) (p)->SetConfig(a,b,c)
#define IDirectInputJoyConfig_DeleteConfig(p,a) (p)->DeleteConfig(a)
#define IDirectInputJoyConfig_GetUserValues(p,a,b) (p)->GetUserValues(a,b)
#define IDirectInputJoyConfig_SetUserValues(p,a,b) (p)->SetUserValues(a,b)
#define IDirectInputJoyConfig_AddNewHardware(p,a,b) (p)->AddNewHardware(a,b)
#define IDirectInputJoyConfig_OpenTypeKey(p,a,b,c) (p)->OpenTypeKey(a,b,c)
#define IDirectInputJoyConfig_OpenConfigKey(p,a,b,c) (p)->OpenConfigKey(a,b,c)
#endif
#endif /* DIJ_RINGZERO */
#if(DIRECTINPUT_VERSION >= 0x0800)
#ifndef DIJ_RINGZERO
#undef INTERFACE
#define INTERFACE IDirectInputJoyConfig8
DECLARE_INTERFACE_(IDirectInputJoyConfig8, IUnknown)
{
/*** IUnknown methods ***/
STDMETHOD(QueryInterface)(THIS_ REFIID riid, LPVOID * ppvObj) PURE;
STDMETHOD_(ULONG,AddRef)(THIS) PURE;
STDMETHOD_(ULONG,Release)(THIS) PURE;
/*** IDirectInputJoyConfig8 methods ***/
STDMETHOD(Acquire)(THIS) PURE;
STDMETHOD(Unacquire)(THIS) PURE;
STDMETHOD(SetCooperativeLevel)(THIS_ HWND,DWORD) PURE;
STDMETHOD(SendNotify)(THIS) PURE;
STDMETHOD(EnumTypes)(THIS_ LPDIJOYTYPECALLBACK,LPVOID) PURE;
STDMETHOD(GetTypeInfo)(THIS_ LPCWSTR,LPDIJOYTYPEINFO,DWORD) PURE;
STDMETHOD(SetTypeInfo)(THIS_ LPCWSTR,LPCDIJOYTYPEINFO,DWORD,LPWSTR) PURE;
STDMETHOD(DeleteType)(THIS_ LPCWSTR) PURE;
STDMETHOD(GetConfig)(THIS_ UINT,LPDIJOYCONFIG,DWORD) PURE;
STDMETHOD(SetConfig)(THIS_ UINT,LPCDIJOYCONFIG,DWORD) PURE;
STDMETHOD(DeleteConfig)(THIS_ UINT) PURE;
STDMETHOD(GetUserValues)(THIS_ LPDIJOYUSERVALUES,DWORD) PURE;
STDMETHOD(SetUserValues)(THIS_ LPCDIJOYUSERVALUES,DWORD) PURE;
STDMETHOD(AddNewHardware)(THIS_ HWND,REFGUID) PURE;
STDMETHOD(OpenTypeKey)(THIS_ LPCWSTR,DWORD,PHKEY) PURE;
STDMETHOD(OpenAppStatusKey)(THIS_ PHKEY) PURE;
};
typedef struct IDirectInputJoyConfig8 *LPDIRECTINPUTJOYCONFIG8;
#if !defined(__cplusplus) || defined(CINTERFACE)
#define IDirectInputJoyConfig8_QueryInterface(p,a,b) (p)->lpVtbl->QueryInterface(p,a,b)
#define IDirectInputJoyConfig8_AddRef(p) (p)->lpVtbl->AddRef(p)
#define IDirectInputJoyConfig8_Release(p) (p)->lpVtbl->Release(p)
#define IDirectInputJoyConfig8_Acquire(p) (p)->lpVtbl->Acquire(p)
#define IDirectInputJoyConfig8_Unacquire(p) (p)->lpVtbl->Unacquire(p)
#define IDirectInputJoyConfig8_SetCooperativeLevel(p,a,b) (p)->lpVtbl->SetCooperativeLevel(p,a,b)
#define IDirectInputJoyConfig8_SendNotify(p) (p)->lpVtbl->SendNotify(p)
#define IDirectInputJoyConfig8_EnumTypes(p,a,b) (p)->lpVtbl->EnumTypes(p,a,b)
#define IDirectInputJoyConfig8_GetTypeInfo(p,a,b,c) (p)->lpVtbl->GetTypeInfo(p,a,b,c)
#define IDirectInputJoyConfig8_SetTypeInfo(p,a,b,c,d) (p)->lpVtbl->SetTypeInfo(p,a,b,c,d)
#define IDirectInputJoyConfig8_DeleteType(p,a) (p)->lpVtbl->DeleteType(p,a)
#define IDirectInputJoyConfig8_GetConfig(p,a,b,c) (p)->lpVtbl->GetConfig(p,a,b,c)
#define IDirectInputJoyConfig8_SetConfig(p,a,b,c) (p)->lpVtbl->SetConfig(p,a,b,c)
#define IDirectInputJoyConfig8_DeleteConfig(p,a) (p)->lpVtbl->DeleteConfig(p,a)
#define IDirectInputJoyConfig8_GetUserValues(p,a,b) (p)->lpVtbl->GetUserValues(p,a,b)
#define IDirectInputJoyConfig8_SetUserValues(p,a,b) (p)->lpVtbl->SetUserValues(p,a,b)
#define IDirectInputJoyConfig8_AddNewHardware(p,a,b) (p)->lpVtbl->AddNewHardware(p,a,b)
#define IDirectInputJoyConfig8_OpenTypeKey(p,a,b,c) (p)->lpVtbl->OpenTypeKey(p,a,b,c)
#define IDirectInputJoyConfig8_OpenAppStatusKey(p,a) (p)->lpVtbl->OpenAppStatusKey(p,a)
#else
#define IDirectInputJoyConfig8_QueryInterface(p,a,b) (p)->QueryInterface(a,b)
#define IDirectInputJoyConfig8_AddRef(p) (p)->AddRef()
#define IDirectInputJoyConfig8_Release(p) (p)->Release()
#define IDirectInputJoyConfig8_Acquire(p) (p)->Acquire()
#define IDirectInputJoyConfig8_Unacquire(p) (p)->Unacquire()
#define IDirectInputJoyConfig8_SetCooperativeLevel(p,a,b) (p)->SetCooperativeLevel(a,b)
#define IDirectInputJoyConfig8_SendNotify(p) (p)->SendNotify()
#define IDirectInputJoyConfig8_EnumTypes(p,a,b) (p)->EnumTypes(a,b)
#define IDirectInputJoyConfig8_GetTypeInfo(p,a,b,c) (p)->GetTypeInfo(a,b,c)
#define IDirectInputJoyConfig8_SetTypeInfo(p,a,b,c,d) (p)->SetTypeInfo(a,b,c,d)
#define IDirectInputJoyConfig8_DeleteType(p,a) (p)->DeleteType(a)
#define IDirectInputJoyConfig8_GetConfig(p,a,b,c) (p)->GetConfig(a,b,c)
#define IDirectInputJoyConfig8_SetConfig(p,a,b,c) (p)->SetConfig(a,b,c)
#define IDirectInputJoyConfig8_DeleteConfig(p,a) (p)->DeleteConfig(a)
#define IDirectInputJoyConfig8_GetUserValues(p,a,b) (p)->GetUserValues(a,b)
#define IDirectInputJoyConfig8_SetUserValues(p,a,b) (p)->SetUserValues(a,b)
#define IDirectInputJoyConfig8_AddNewHardware(p,a,b) (p)->AddNewHardware(a,b)
#define IDirectInputJoyConfig8_OpenTypeKey(p,a,b,c) (p)->OpenTypeKey(a,b,c)
#define IDirectInputJoyConfig8_OpenAppStatusKey(p,a) (p)->OpenAppStatusKey(a)
#endif
#endif /* DIJ_RINGZERO */
/****************************************************************************
*
* Notification Messages
*
****************************************************************************/
/* RegisterWindowMessage with this to get DirectInput notification messages */
#define DIRECTINPUT_NOTIFICATION_MSGSTRINGA "DIRECTINPUT_NOTIFICATION_MSGSTRING"
#define DIRECTINPUT_NOTIFICATION_MSGSTRINGW L"DIRECTINPUT_NOTIFICATION_MSGSTRING"
#ifdef UNICODE
#define DIRECTINPUT_NOTIFICATION_MSGSTRING DIRECTINPUT_NOTIFICATION_MSGSTRINGW
#else
#define DIRECTINPUT_NOTIFICATION_MSGSTRING DIRECTINPUT_NOTIFICATION_MSGSTRINGA
#endif
#define DIMSGWP_NEWAPPSTART 0x00000001
#define DIMSGWP_DX8APPSTART 0x00000002
#define DIMSGWP_DX8MAPPERAPPSTART 0x00000003
#endif /* DIRECTINPUT_VERSION >= 0x0800 */
#define DIAPPIDFLAG_NOTIME 0x00000001
#define DIAPPIDFLAG_NOSIZE 0x00000002
#define DIRECTINPUT_REGSTR_VAL_APPIDFLAGA "AppIdFlag"
#define DIRECTINPUT_REGSTR_KEY_LASTAPPA "MostRecentApplication"
#define DIRECTINPUT_REGSTR_KEY_LASTMAPAPPA "MostRecentMapperApplication"
#define DIRECTINPUT_REGSTR_VAL_VERSIONA "Version"
#define DIRECTINPUT_REGSTR_VAL_NAMEA "Name"
#define DIRECTINPUT_REGSTR_VAL_IDA "Id"
#define DIRECTINPUT_REGSTR_VAL_MAPPERA "UsesMapper"
#define DIRECTINPUT_REGSTR_VAL_LASTSTARTA "MostRecentStart"
#define DIRECTINPUT_REGSTR_VAL_APPIDFLAGW L"AppIdFlag"
#define DIRECTINPUT_REGSTR_KEY_LASTAPPW L"MostRecentApplication"
#define DIRECTINPUT_REGSTR_KEY_LASTMAPAPPW L"MostRecentMapperApplication"
#define DIRECTINPUT_REGSTR_VAL_VERSIONW L"Version"
#define DIRECTINPUT_REGSTR_VAL_NAMEW L"Name"
#define DIRECTINPUT_REGSTR_VAL_IDW L"Id"
#define DIRECTINPUT_REGSTR_VAL_MAPPERW L"UsesMapper"
#define DIRECTINPUT_REGSTR_VAL_LASTSTARTW L"MostRecentStart"
#ifdef UNICODE
#define DIRECTINPUT_REGSTR_VAL_APPIDFLAG DIRECTINPUT_REGSTR_VAL_APPIDFLAGW
#define DIRECTINPUT_REGSTR_KEY_LASTAPP DIRECTINPUT_REGSTR_KEY_LASTAPPW
#define DIRECTINPUT_REGSTR_KEY_LASTMAPAPP DIRECTINPUT_REGSTR_KEY_LASTMAPAPPW
#define DIRECTINPUT_REGSTR_VAL_VERSION DIRECTINPUT_REGSTR_VAL_VERSIONW
#define DIRECTINPUT_REGSTR_VAL_NAME DIRECTINPUT_REGSTR_VAL_NAMEW
#define DIRECTINPUT_REGSTR_VAL_ID DIRECTINPUT_REGSTR_VAL_IDW
#define DIRECTINPUT_REGSTR_VAL_MAPPER DIRECTINPUT_REGSTR_VAL_MAPPERW
#define DIRECTINPUT_REGSTR_VAL_LASTSTART DIRECTINPUT_REGSTR_VAL_LASTSTARTW
#else
#define DIRECTINPUT_REGSTR_VAL_APPIDFLAG DIRECTINPUT_REGSTR_VAL_APPIDFLAGA
#define DIRECTINPUT_REGSTR_KEY_LASTAPP DIRECTINPUT_REGSTR_KEY_LASTAPPA
#define DIRECTINPUT_REGSTR_KEY_LASTMAPAPP DIRECTINPUT_REGSTR_KEY_LASTMAPAPPA
#define DIRECTINPUT_REGSTR_VAL_VERSION DIRECTINPUT_REGSTR_VAL_VERSIONA
#define DIRECTINPUT_REGSTR_VAL_NAME DIRECTINPUT_REGSTR_VAL_NAMEA
#define DIRECTINPUT_REGSTR_VAL_ID DIRECTINPUT_REGSTR_VAL_IDA
#define DIRECTINPUT_REGSTR_VAL_MAPPER DIRECTINPUT_REGSTR_VAL_MAPPERA
#define DIRECTINPUT_REGSTR_VAL_LASTSTART DIRECTINPUT_REGSTR_VAL_LASTSTARTA
#endif
/****************************************************************************
*
* Return Codes
*
****************************************************************************/
#define DIERR_NOMOREITEMS \
MAKE_HRESULT(SEVERITY_ERROR, FACILITY_WIN32, ERROR_NO_MORE_ITEMS)
/*
* Device driver-specific codes.
*/
#define DIERR_DRIVERFIRST 0x80040300L
#define DIERR_DRIVERLAST 0x800403FFL
/*
* Unless the specific driver has been precisely identified, no meaning
* should be attributed to these values other than that the driver
* originated the error. However, to illustrate the types of error that
* may be causing the failure, the PID force feedback driver distributed
* with DirectX 7 could return the following errors:
*
* DIERR_DRIVERFIRST + 1
* The requested usage was not found.
* DIERR_DRIVERFIRST + 2
* The parameter block couldn't be downloaded to the device.
* DIERR_DRIVERFIRST + 3
* PID initialization failed.
* DIERR_DRIVERFIRST + 4
* The provided values couldn't be scaled.
*/
/*
* Device installer errors.
*/
/*
* Registry entry or DLL for class installer invalid
* or class installer not found.
*/
#define DIERR_INVALIDCLASSINSTALLER 0x80040400L
/*
* The user cancelled the install operation.
*/
#define DIERR_CANCELLED 0x80040401L
/*
* The INF file for the selected device could not be
* found or is invalid or is damaged.
*/
#define DIERR_BADINF 0x80040402L
/****************************************************************************
*
* Map files
*
****************************************************************************/
/*
* Delete particular data from default map file.
*/
#define DIDIFT_DELETE 0x01000000
#ifdef __cplusplus
};
#endif
#endif /* __DINPUTD_INCLUDED__ */

267
extern/include/dls1.h vendored
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@ -1,267 +0,0 @@
/*==========================================================================;
//
// dls1.h
//
//
// Description:
//
// Interface defines and structures for the Instrument Collection Form
// RIFF DLS.
//
//
// Written by Sonic Foundry 1996. Released for public use.
//
//=========================================================================*/
#ifndef _INC_DLS1
#define _INC_DLS1
/*//////////////////////////////////////////////////////////////////////////
//
//
// Layout of an instrument collection:
//
//
// RIFF [] 'DLS ' [dlid,colh,INSTLIST,WAVEPOOL,INFOLIST]
//
// INSTLIST
// LIST [] 'lins'
// LIST [] 'ins ' [dlid,insh,RGNLIST,ARTLIST,INFOLIST]
// LIST [] 'ins ' [dlid,insh,RGNLIST,ARTLIST,INFOLIST]
// LIST [] 'ins ' [dlid,insh,RGNLIST,ARTLIST,INFOLIST]
//
// RGNLIST
// LIST [] 'lrgn'
// LIST [] 'rgn ' [rgnh,wsmp,wlnk,ARTLIST]
// LIST [] 'rgn ' [rgnh,wsmp,wlnk,ARTLIST]
// LIST [] 'rgn ' [rgnh,wsmp,wlnk,ARTLIST]
//
// ARTLIST
// LIST [] 'lart'
// 'art1' level 1 Articulation connection graph
// 'art2' level 2 Articulation connection graph
// '3rd1' Possible 3rd party articulation structure 1
// '3rd2' Possible 3rd party articulation structure 2 .... and so on
//
// WAVEPOOL
// ptbl [] [pool table]
// LIST [] 'wvpl'
// [path],
// [path],
// LIST [] 'wave' [dlid,RIFFWAVE]
// LIST [] 'wave' [dlid,RIFFWAVE]
// LIST [] 'wave' [dlid,RIFFWAVE]
// LIST [] 'wave' [dlid,RIFFWAVE]
// LIST [] 'wave' [dlid,RIFFWAVE]
//
// INFOLIST
// LIST [] 'INFO'
// 'icmt' 'One of those crazy comments.'
// 'icop' 'Copyright (C) 1996 Sonic Foundry'
//
/////////////////////////////////////////////////////////////////////////*/
/*/////////////////////////////////////////////////////////////////////////
// FOURCC's used in the DLS file
/////////////////////////////////////////////////////////////////////////*/
#define FOURCC_DLS mmioFOURCC('D','L','S',' ')
#define FOURCC_DLID mmioFOURCC('d','l','i','d')
#define FOURCC_COLH mmioFOURCC('c','o','l','h')
#define FOURCC_WVPL mmioFOURCC('w','v','p','l')
#define FOURCC_PTBL mmioFOURCC('p','t','b','l')
#define FOURCC_PATH mmioFOURCC('p','a','t','h')
#define FOURCC_wave mmioFOURCC('w','a','v','e')
#define FOURCC_LINS mmioFOURCC('l','i','n','s')
#define FOURCC_INS mmioFOURCC('i','n','s',' ')
#define FOURCC_INSH mmioFOURCC('i','n','s','h')
#define FOURCC_LRGN mmioFOURCC('l','r','g','n')
#define FOURCC_RGN mmioFOURCC('r','g','n',' ')
#define FOURCC_RGNH mmioFOURCC('r','g','n','h')
#define FOURCC_LART mmioFOURCC('l','a','r','t')
#define FOURCC_ART1 mmioFOURCC('a','r','t','1')
#define FOURCC_WLNK mmioFOURCC('w','l','n','k')
#define FOURCC_WSMP mmioFOURCC('w','s','m','p')
#define FOURCC_VERS mmioFOURCC('v','e','r','s')
/*/////////////////////////////////////////////////////////////////////////
// Articulation connection graph definitions
/////////////////////////////////////////////////////////////////////////*/
/* Generic Sources */
#define CONN_SRC_NONE 0x0000
#define CONN_SRC_LFO 0x0001
#define CONN_SRC_KEYONVELOCITY 0x0002
#define CONN_SRC_KEYNUMBER 0x0003
#define CONN_SRC_EG1 0x0004
#define CONN_SRC_EG2 0x0005
#define CONN_SRC_PITCHWHEEL 0x0006
/* Midi Controllers 0-127 */
#define CONN_SRC_CC1 0x0081
#define CONN_SRC_CC7 0x0087
#define CONN_SRC_CC10 0x008a
#define CONN_SRC_CC11 0x008b
/* Generic Destinations */
#define CONN_DST_NONE 0x0000
#define CONN_DST_ATTENUATION 0x0001
#define CONN_DST_PITCH 0x0003
#define CONN_DST_PAN 0x0004
/* LFO Destinations */
#define CONN_DST_LFO_FREQUENCY 0x0104
#define CONN_DST_LFO_STARTDELAY 0x0105
/* EG1 Destinations */
#define CONN_DST_EG1_ATTACKTIME 0x0206
#define CONN_DST_EG1_DECAYTIME 0x0207
#define CONN_DST_EG1_RELEASETIME 0x0209
#define CONN_DST_EG1_SUSTAINLEVEL 0x020a
/* EG2 Destinations */
#define CONN_DST_EG2_ATTACKTIME 0x030a
#define CONN_DST_EG2_DECAYTIME 0x030b
#define CONN_DST_EG2_RELEASETIME 0x030d
#define CONN_DST_EG2_SUSTAINLEVEL 0x030e
#define CONN_TRN_NONE 0x0000
#define CONN_TRN_CONCAVE 0x0001
typedef struct _DLSID {
ULONG ulData1;
USHORT usData2;
USHORT usData3;
BYTE abData4[8];
} DLSID, FAR *LPDLSID;
typedef struct _DLSVERSION {
DWORD dwVersionMS;
DWORD dwVersionLS;
}DLSVERSION, FAR *LPDLSVERSION;
typedef struct _CONNECTION {
USHORT usSource;
USHORT usControl;
USHORT usDestination;
USHORT usTransform;
LONG lScale;
}CONNECTION, FAR *LPCONNECTION;
/* Level 1 Articulation Data */
typedef struct _CONNECTIONLIST {
ULONG cbSize; /* size of the connection list structure */
ULONG cConnections; /* count of connections in the list */
} CONNECTIONLIST, FAR *LPCONNECTIONLIST;
/*/////////////////////////////////////////////////////////////////////////
// Generic type defines for regions and instruments
/////////////////////////////////////////////////////////////////////////*/
typedef struct _RGNRANGE {
USHORT usLow;
USHORT usHigh;
}RGNRANGE, FAR * LPRGNRANGE;
#define F_INSTRUMENT_DRUMS 0x80000000
typedef struct _MIDILOCALE {
ULONG ulBank;
ULONG ulInstrument;
}MIDILOCALE, FAR *LPMIDILOCALE;
/*/////////////////////////////////////////////////////////////////////////
// Header structures found in an DLS file for collection, instruments, and
// regions.
/////////////////////////////////////////////////////////////////////////*/
#define F_RGN_OPTION_SELFNONEXCLUSIVE 0x0001
typedef struct _RGNHEADER {
RGNRANGE RangeKey; /* Key range */
RGNRANGE RangeVelocity; /* Velocity Range */
USHORT fusOptions; /* Synthesis options for this range */
USHORT usKeyGroup; /* Key grouping for non simultaneous play */
/* 0 = no group, 1 up is group */
/* for Level 1 only groups 1-15 are allowed */
}RGNHEADER, FAR *LPRGNHEADER;
typedef struct _INSTHEADER {
ULONG cRegions; /* Count of regions in this instrument */
MIDILOCALE Locale; /* Intended MIDI locale of this instrument */
}INSTHEADER, FAR *LPINSTHEADER;
typedef struct _DLSHEADER {
ULONG cInstruments; /* Count of instruments in the collection */
}DLSHEADER, FAR *LPDLSHEADER;
/*////////////////////////////////////////////////////////////////////////////
// definitions for the Wave link structure
////////////////////////////////////////////////////////////////////////////*/
/* **** For level 1 only WAVELINK_CHANNEL_MONO is valid **** */
/* ulChannel allows for up to 32 channels of audio with each bit position */
/* specifiying a channel of playback */
#define WAVELINK_CHANNEL_LEFT 0x0001l
#define WAVELINK_CHANNEL_RIGHT 0x0002l
#define F_WAVELINK_PHASE_MASTER 0x0001
typedef struct _WAVELINK { /* any paths or links are stored right after struct */
USHORT fusOptions; /* options flags for this wave */
USHORT usPhaseGroup; /* Phase grouping for locking channels */
ULONG ulChannel; /* channel placement */
ULONG ulTableIndex; /* index into the wave pool table, 0 based */
}WAVELINK, FAR *LPWAVELINK;
#define POOL_CUE_NULL 0xffffffffl
typedef struct _POOLCUE {
ULONG ulOffset; /* Offset to the entry in the list */
}POOLCUE, FAR *LPPOOLCUE;
typedef struct _POOLTABLE {
ULONG cbSize; /* size of the pool table structure */
ULONG cCues; /* count of cues in the list */
} POOLTABLE, FAR *LPPOOLTABLE;
/*////////////////////////////////////////////////////////////////////////////
// Structures for the "wsmp" chunk
////////////////////////////////////////////////////////////////////////////*/
#define F_WSMP_NO_TRUNCATION 0x0001l
#define F_WSMP_NO_COMPRESSION 0x0002l
typedef struct _rwsmp {
ULONG cbSize;
USHORT usUnityNote; /* MIDI Unity Playback Note */
SHORT sFineTune; /* Fine Tune in log tuning */
LONG lAttenuation; /* Overall Attenuation to be applied to data */
ULONG fulOptions; /* Flag options */
ULONG cSampleLoops; /* Count of Sample loops, 0 loops is one shot */
} WSMPL, FAR *LPWSMPL;
/* This loop type is a normal forward playing loop which is continually */
/* played until the envelope reaches an off threshold in the release */
/* portion of the volume envelope */
#define WLOOP_TYPE_FORWARD 0
typedef struct _rloop {
ULONG cbSize;
ULONG ulType; /* Loop Type */
ULONG ulStart; /* Start of loop in samples */
ULONG ulLength; /* Length of loop in samples */
} WLOOP, FAR *LPWLOOP;
#endif /*_INC_DLS1 */

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/*
dls2.h
Description:
Interface defines and structures for the DLS2 extensions of DLS.
Written by Microsoft 1998. Released for public use.
*/
#ifndef _INC_DLS2
#define _INC_DLS2
/*
FOURCC's used in the DLS2 file, in addition to DLS1 chunks
*/
#define FOURCC_RGN2 mmioFOURCC('r','g','n','2')
#define FOURCC_LAR2 mmioFOURCC('l','a','r','2')
#define FOURCC_ART2 mmioFOURCC('a','r','t','2')
#define FOURCC_CDL mmioFOURCC('c','d','l',' ')
#define FOURCC_DLID mmioFOURCC('d','l','i','d')
/*
Articulation connection graph definitions. These are in addition to
the definitions in the DLS1 header.
*/
/* Generic Sources (in addition to DLS1 sources. */
#define CONN_SRC_POLYPRESSURE 0x0007 /* Polyphonic Pressure */
#define CONN_SRC_CHANNELPRESSURE 0x0008 /* Channel Pressure */
#define CONN_SRC_VIBRATO 0x0009 /* Vibrato LFO */
#define CONN_SRC_MONOPRESSURE 0x000a /* MIDI Mono pressure */
/* Midi Controllers */
#define CONN_SRC_CC91 0x00db /* Reverb Send */
#define CONN_SRC_CC93 0x00dd /* Chorus Send */
/* Generic Destinations */
#define CONN_DST_GAIN 0x0001 /* Same as CONN_DST_ ATTENUATION, but more appropriate terminology. */
#define CONN_DST_KEYNUMBER 0x0005 /* Key Number Generator */
/* Audio Channel Output Destinations */
#define CONN_DST_LEFT 0x0010 /* Left Channel Send */
#define CONN_DST_RIGHT 0x0011 /* Right Channel Send */
#define CONN_DST_CENTER 0x0012 /* Center Channel Send */
#define CONN_DST_LEFTREAR 0x0013 /* Left Rear Channel Send */
#define CONN_DST_RIGHTREAR 0x0014 /* Right Rear Channel Send */
#define CONN_DST_LFE_CHANNEL 0x0015 /* LFE Channel Send */
#define CONN_DST_CHORUS 0x0080 /* Chorus Send */
#define CONN_DST_REVERB 0x0081 /* Reverb Send */
/* Vibrato LFO Destinations */
#define CONN_DST_VIB_FREQUENCY 0x0114 /* Vibrato Frequency */
#define CONN_DST_VIB_STARTDELAY 0x0115 /* Vibrato Start Delay */
/* EG1 Destinations */
#define CONN_DST_EG1_DELAYTIME 0x020B /* EG1 Delay Time */
#define CONN_DST_EG1_HOLDTIME 0x020C /* EG1 Hold Time */
#define CONN_DST_EG1_SHUTDOWNTIME 0x020D /* EG1 Shutdown Time */
/* EG2 Destinations */
#define CONN_DST_EG2_DELAYTIME 0x030F /* EG2 Delay Time */
#define CONN_DST_EG2_HOLDTIME 0x0310 /* EG2 Hold Time */
/* Filter Destinations */
#define CONN_DST_FILTER_CUTOFF 0x0500 /* Filter Cutoff Frequency */
#define CONN_DST_FILTER_Q 0x0501 /* Filter Resonance */
/* Transforms */
#define CONN_TRN_CONVEX 0x0002 /* Convex Transform */
#define CONN_TRN_SWITCH 0x0003 /* Switch Transform */
/* Conditional chunk operators */
#define DLS_CDL_AND 0x0001 /* X = X & Y */
#define DLS_CDL_OR 0x0002 /* X = X | Y */
#define DLS_CDL_XOR 0x0003 /* X = X ^ Y */
#define DLS_CDL_ADD 0x0004 /* X = X + Y */
#define DLS_CDL_SUBTRACT 0x0005 /* X = X - Y */
#define DLS_CDL_MULTIPLY 0x0006 /* X = X * Y */
#define DLS_CDL_DIVIDE 0x0007 /* X = X / Y */
#define DLS_CDL_LOGICAL_AND 0x0008 /* X = X && Y */
#define DLS_CDL_LOGICAL_OR 0x0009 /* X = X || Y */
#define DLS_CDL_LT 0x000A /* X = (X < Y) */
#define DLS_CDL_LE 0x000B /* X = (X <= Y) */
#define DLS_CDL_GT 0x000C /* X = (X > Y) */
#define DLS_CDL_GE 0x000D /* X = (X >= Y) */
#define DLS_CDL_EQ 0x000E /* X = (X == Y) */
#define DLS_CDL_NOT 0x000F /* X = !X */
#define DLS_CDL_CONST 0x0010 /* 32-bit constant */
#define DLS_CDL_QUERY 0x0011 /* 32-bit value returned from query */
#define DLS_CDL_QUERYSUPPORTED 0x0012 /* Test to see if query is supported by synth */
/*
Loop and release
*/
#define WLOOP_TYPE_RELEASE 1
/*
WaveLink chunk <wlnk-ck>
*/
#define F_WAVELINK_MULTICHANNEL 0x0002
/*
DLSID queries for <cdl-ck>
*/
DEFINE_GUID(DLSID_GMInHardware, 0x178f2f24, 0xc364, 0x11d1, 0xa7, 0x60, 0x00, 0x00, 0xf8, 0x75, 0xac, 0x12);
DEFINE_GUID(DLSID_GSInHardware, 0x178f2f25, 0xc364, 0x11d1, 0xa7, 0x60, 0x00, 0x00, 0xf8, 0x75, 0xac, 0x12);
DEFINE_GUID(DLSID_XGInHardware, 0x178f2f26, 0xc364, 0x11d1, 0xa7, 0x60, 0x00, 0x00, 0xf8, 0x75, 0xac, 0x12);
DEFINE_GUID(DLSID_SupportsDLS1, 0x178f2f27, 0xc364, 0x11d1, 0xa7, 0x60, 0x00, 0x00, 0xf8, 0x75, 0xac, 0x12);
DEFINE_GUID(DLSID_SupportsDLS2, 0xf14599e5, 0x4689, 0x11d2, 0xaf, 0xa6, 0x0, 0xaa, 0x0, 0x24, 0xd8, 0xb6);
DEFINE_GUID(DLSID_SampleMemorySize, 0x178f2f28, 0xc364, 0x11d1, 0xa7, 0x60, 0x00, 0x00, 0xf8, 0x75, 0xac, 0x12);
DEFINE_GUID(DLSID_ManufacturersID, 0xb03e1181, 0x8095, 0x11d2, 0xa1, 0xef, 0x0, 0x60, 0x8, 0x33, 0xdb, 0xd8);
DEFINE_GUID(DLSID_ProductID, 0xb03e1182, 0x8095, 0x11d2, 0xa1, 0xef, 0x0, 0x60, 0x8, 0x33, 0xdb, 0xd8);
DEFINE_GUID(DLSID_SamplePlaybackRate, 0x2a91f713, 0xa4bf, 0x11d2, 0xbb, 0xdf, 0x0, 0x60, 0x8, 0x33, 0xdb, 0xd8);
#endif /* _INC_DLS2 */

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/************************************************************************
* *
* dmdls.h -- DLS download definitions for DirectMusic API's *
* *
* Copyright (c) 1998-1999 Microsoft Corporation *
* *
************************************************************************/
#ifndef _DMDLS_
#define _DMDLS_
#include "dls1.h"
typedef long PCENT; /* Pitch cents */
typedef long GCENT; /* Gain cents */
typedef long TCENT; /* Time cents */
typedef long PERCENT; /* Per.. cent! */
typedef LONGLONG REFERENCE_TIME;
typedef REFERENCE_TIME *LPREFERENCE_TIME;
#ifndef MAKE_FOURCC
#define MAKEFOURCC(ch0, ch1, ch2, ch3) \
((DWORD)(BYTE)(ch0) | ((DWORD)(BYTE)(ch1) << 8) | \
((DWORD)(BYTE)(ch2) << 16) | ((DWORD)(BYTE)(ch3) << 24 ))
typedef DWORD FOURCC; /* a four character code */
#endif
typedef struct _DMUS_DOWNLOADINFO
{
DWORD dwDLType; /* Instrument or Wave */
DWORD dwDLId; /* Unique identifier to tag this download. */
DWORD dwNumOffsetTableEntries; /* Number of index in the offset address table. */
DWORD cbSize; /* Total size of this memory chunk. */
} DMUS_DOWNLOADINFO;
#define DMUS_DOWNLOADINFO_INSTRUMENT 1
#define DMUS_DOWNLOADINFO_WAVE 2
#define DMUS_DOWNLOADINFO_INSTRUMENT2 3 /* New version for better DLS2 support. */
/* Support for oneshot and streaming wave data
*/
#define DMUS_DOWNLOADINFO_WAVEARTICULATION 4 /* Wave articulation data */
#define DMUS_DOWNLOADINFO_STREAMINGWAVE 5 /* One chunk of a streaming */
#define DMUS_DOWNLOADINFO_ONESHOTWAVE 6
#define DMUS_DEFAULT_SIZE_OFFSETTABLE 1
/* Flags for DMUS_INSTRUMENT's ulFlags member */
#define DMUS_INSTRUMENT_GM_INSTRUMENT (1 << 0)
typedef struct _DMUS_OFFSETTABLE
{
ULONG ulOffsetTable[DMUS_DEFAULT_SIZE_OFFSETTABLE];
} DMUS_OFFSETTABLE;
typedef struct _DMUS_INSTRUMENT
{
ULONG ulPatch;
ULONG ulFirstRegionIdx;
ULONG ulGlobalArtIdx; /* If zero the instrument does not have an articulation */
ULONG ulFirstExtCkIdx; /* If zero no 3rd party entenstion chunks associated with the instrument */
ULONG ulCopyrightIdx; /* If zero no Copyright information associated with the instrument */
ULONG ulFlags;
} DMUS_INSTRUMENT;
typedef struct _DMUS_REGION
{
RGNRANGE RangeKey;
RGNRANGE RangeVelocity;
USHORT fusOptions;
USHORT usKeyGroup;
ULONG ulRegionArtIdx; /* If zero the region does not have an articulation */
ULONG ulNextRegionIdx; /* If zero no more regions */
ULONG ulFirstExtCkIdx; /* If zero no 3rd party entenstion chunks associated with the region */
WAVELINK WaveLink;
WSMPL WSMP; /* If WSMP.cSampleLoops > 1 then a WLOOP is included */
WLOOP WLOOP[1];
} DMUS_REGION;
typedef struct _DMUS_LFOPARAMS
{
PCENT pcFrequency;
TCENT tcDelay;
GCENT gcVolumeScale;
PCENT pcPitchScale;
GCENT gcMWToVolume;
PCENT pcMWToPitch;
} DMUS_LFOPARAMS;
typedef struct _DMUS_VEGPARAMS
{
TCENT tcAttack;
TCENT tcDecay;
PERCENT ptSustain;
TCENT tcRelease;
TCENT tcVel2Attack;
TCENT tcKey2Decay;
} DMUS_VEGPARAMS;
typedef struct _DMUS_PEGPARAMS
{
TCENT tcAttack;
TCENT tcDecay;
PERCENT ptSustain;
TCENT tcRelease;
TCENT tcVel2Attack;
TCENT tcKey2Decay;
PCENT pcRange;
} DMUS_PEGPARAMS;
typedef struct _DMUS_MSCPARAMS
{
PERCENT ptDefaultPan;
} DMUS_MSCPARAMS;
typedef struct _DMUS_ARTICPARAMS
{
DMUS_LFOPARAMS LFO;
DMUS_VEGPARAMS VolEG;
DMUS_PEGPARAMS PitchEG;
DMUS_MSCPARAMS Misc;
} DMUS_ARTICPARAMS;
typedef struct _DMUS_ARTICULATION /* Articulation chunk for DMUS_DOWNLOADINFO_INSTRUMENT format. */
{
ULONG ulArt1Idx; /* DLS Level 1 articulation chunk */
ULONG ulFirstExtCkIdx; /* 3rd party extenstion chunks associated with the articulation */
} DMUS_ARTICULATION;
typedef struct _DMUS_ARTICULATION2 /* Articulation chunk for DMUS_DOWNLOADINFO_INSTRUMENT2 format. */
{
ULONG ulArtIdx; /* DLS Level 1/2 articulation chunk */
ULONG ulFirstExtCkIdx; /* 3rd party extenstion chunks associated with the articulation */
ULONG ulNextArtIdx; /* Additional articulation chunks */
} DMUS_ARTICULATION2;
#define DMUS_MIN_DATA_SIZE 4
/* The actual number is determined by cbSize of struct _DMUS_EXTENSIONCHUNK */
typedef struct _DMUS_EXTENSIONCHUNK
{
ULONG cbSize; /* Size of extension chunk */
ULONG ulNextExtCkIdx; /* If zero no more 3rd party entenstion chunks */
FOURCC ExtCkID;
BYTE byExtCk[DMUS_MIN_DATA_SIZE]; /* The actual number that follows is determined by cbSize */
} DMUS_EXTENSIONCHUNK;
/* The actual number is determined by cbSize of struct _DMUS_COPYRIGHT */
typedef struct _DMUS_COPYRIGHT
{
ULONG cbSize; /* Size of copyright information */
BYTE byCopyright[DMUS_MIN_DATA_SIZE]; /* The actual number that follows is determined by cbSize */
} DMUS_COPYRIGHT;
typedef struct _DMUS_WAVEDATA
{
ULONG cbSize;
BYTE byData[DMUS_MIN_DATA_SIZE];
} DMUS_WAVEDATA;
typedef struct _DMUS_WAVE
{
ULONG ulFirstExtCkIdx; /* If zero no 3rd party entenstion chunks associated with the wave */
ULONG ulCopyrightIdx; /* If zero no Copyright information associated with the wave */
ULONG ulWaveDataIdx; /* Location of actual wave data. */
WAVEFORMATEX WaveformatEx;
} DMUS_WAVE;
typedef struct _DMUS_NOTERANGE *LPDMUS_NOTERANGE;
typedef struct _DMUS_NOTERANGE
{
DWORD dwLowNote; /* Sets the low note for the range of MIDI note events to which the instrument responds.*/
DWORD dwHighNote; /* Sets the high note for the range of MIDI note events to which the instrument responds.*/
} DMUS_NOTERANGE;
typedef struct _DMUS_WAVEARTDL
{
ULONG ulDownloadIdIdx; /* Download ID's of each buffer */
ULONG ulBus; /* Playback bus */
ULONG ulBuffers; /* Buffers */
ULONG ulMasterDLId; /* Download ID of master voice of slave group */
USHORT usOptions; /* Same as DLS2 region options */
} DMUS_WAVEARTDL,
*LPDMUS_WAVEARTDL;
typedef struct _DMUS_WAVEDL
{
ULONG cbWaveData; /* Bytes of wave data */
} DMUS_WAVEDL,
*LPDMUS_WAVEDL;
#endif

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/************************************************************************
* *
* dmerror.h -- Error code returned by DirectMusic API's *
* *
* Copyright (c) 1998-1999 Microsoft Corporation
* *
************************************************************************/
#ifndef _DMERROR_
#define _DMERROR_
#define FACILITY_DIRECTMUSIC 0x878 /* Shared with DirectSound */
#define DMUS_ERRBASE 0x1000 /* Make error codes human readable in hex */
#ifndef MAKE_HRESULT
#define MAKE_HRESULT(sev,fac,code) \
((HRESULT) (((unsigned long)(sev)<<31) | ((unsigned long)(fac)<<16) | ((unsigned long)(code))) )
#endif
#define MAKE_DMHRESULTSUCCESS(code) MAKE_HRESULT(0, FACILITY_DIRECTMUSIC, (DMUS_ERRBASE + (code)))
#define MAKE_DMHRESULTERROR(code) MAKE_HRESULT(1, FACILITY_DIRECTMUSIC, (DMUS_ERRBASE + (code)))
/* DMUS_S_PARTIALLOAD
*
* The object could only load partially. This can happen if some components are
* not registered properly, such as embedded tracks and tools. This can also happen
* if some content is missing. For example, if a segment uses a DLS collection that
* is not in the loader's current search directory.
*/
#define DMUS_S_PARTIALLOAD MAKE_DMHRESULTSUCCESS(0x091)
/* DMUS_S_PARTIALDOWNLOAD
*
* Return value from IDirectMusicBand::Download() which indicates that
* some of the instruments safely downloaded, but others failed. This usually
* occurs when some instruments are on PChannels not supported by the performance
* or port.
*/
#define DMUS_S_PARTIALDOWNLOAD MAKE_DMHRESULTSUCCESS(0x092)
/* DMUS_S_REQUEUE
*
* Return value from IDirectMusicTool::ProcessPMsg() which indicates to the
* performance that it should cue the PMsg again automatically.
*/
#define DMUS_S_REQUEUE MAKE_DMHRESULTSUCCESS(0x200)
/* DMUS_S_FREE
*
* Return value from IDirectMusicTool::ProcessPMsg() which indicates to the
* performance that it should free the PMsg automatically.
*/
#define DMUS_S_FREE MAKE_DMHRESULTSUCCESS(0x201)
/* DMUS_S_END
*
* Return value from IDirectMusicTrack::Play() which indicates to the
* segment that the track has no more data after mtEnd.
*/
#define DMUS_S_END MAKE_DMHRESULTSUCCESS(0x202)
/* DMUS_S_STRING_TRUNCATED
*
* Returned string has been truncated to fit the buffer size.
*/
#define DMUS_S_STRING_TRUNCATED MAKE_DMHRESULTSUCCESS(0x210)
/* DMUS_S_LAST_TOOL
*
* Returned from IDirectMusicGraph::StampPMsg(), this indicates that the PMsg
* is already stamped with the last tool in the graph. The returned PMsg's
* tool pointer is now NULL.
*/
#define DMUS_S_LAST_TOOL MAKE_DMHRESULTSUCCESS(0x211)
/* DMUS_S_OVER_CHORD
*
* Returned from IDirectMusicPerformance::MusicToMIDI(), this indicates
* that no note has been calculated because the music value has the note
* at a position higher than the top note of the chord. This applies only
* to DMUS_PLAYMODE_NORMALCHORD play mode. This success code indicates
* that the caller should not do anything with the note. It is not meant
* to be played against this chord.
*/
#define DMUS_S_OVER_CHORD MAKE_DMHRESULTSUCCESS(0x212)
/* DMUS_S_UP_OCTAVE
*
* Returned from IDirectMusicPerformance::MIDIToMusic(), and
* IDirectMusicPerformance::MusicToMIDI(), this indicates
* that the note conversion generated a note value that is below 0,
* so it has been bumped up one or more octaves to be in the proper
* MIDI range of 0 through 127.
* Note that this is valid for MIDIToMusic() when using play modes
* DMUS_PLAYMODE_FIXEDTOCHORD and DMUS_PLAYMODE_FIXEDTOKEY, both of
* which store MIDI values in wMusicValue. With MusicToMIDI(), it is
* valid for all play modes.
* Ofcourse, DMUS_PLAYMODE_FIXED will never return this success code.
*/
#define DMUS_S_UP_OCTAVE MAKE_DMHRESULTSUCCESS(0x213)
/* DMUS_S_DOWN_OCTAVE
*
* Returned from IDirectMusicPerformance::MIDIToMusic(), and
* IDirectMusicPerformance::MusicToMIDI(), this indicates
* that the note conversion generated a note value that is above 127,
* so it has been bumped down one or more octaves to be in the proper
* MIDI range of 0 through 127.
* Note that this is valid for MIDIToMusic() when using play modes
* DMUS_PLAYMODE_FIXEDTOCHORD and DMUS_PLAYMODE_FIXEDTOKEY, both of
* which store MIDI values in wMusicValue. With MusicToMIDI(), it is
* valid for all play modes.
* Ofcourse, DMUS_PLAYMODE_FIXED will never return this success code.
*/
#define DMUS_S_DOWN_OCTAVE MAKE_DMHRESULTSUCCESS(0x214)
/* DMUS_S_NOBUFFERCONTROL
*
* Although the audio output from the port will be routed to the
* same device as the given DirectSound buffer, buffer controls
* such as pan and volume will not affect the output.
*
*/
#define DMUS_S_NOBUFFERCONTROL MAKE_DMHRESULTSUCCESS(0x215)
/* DMUS_S_GARBAGE_COLLECTED
*
* The requested operation was not performed because during CollectGarbage
* the loader determined that the object had been released.
*/
#define DMUS_S_GARBAGE_COLLECTED MAKE_DMHRESULTSUCCESS(0x216)
/* DMUS_E_DRIVER_FAILED
*
* An unexpected error was returned from a device driver, indicating
* possible failure of the driver or hardware.
*/
#define DMUS_E_DRIVER_FAILED MAKE_DMHRESULTERROR(0x0101)
/* DMUS_E_PORTS_OPEN
*
* The requested operation cannot be performed while there are
* instantiated ports in any process in the system.
*/
#define DMUS_E_PORTS_OPEN MAKE_DMHRESULTERROR(0x0102)
/* DMUS_E_DEVICE_IN_USE
*
* The requested device is already in use (possibly by a non-DirectMusic
* client) and cannot be opened again.
*/
#define DMUS_E_DEVICE_IN_USE MAKE_DMHRESULTERROR(0x0103)
/* DMUS_E_INSUFFICIENTBUFFER
*
* Buffer is not large enough for requested operation.
*/
#define DMUS_E_INSUFFICIENTBUFFER MAKE_DMHRESULTERROR(0x0104)
/* DMUS_E_BUFFERNOTSET
*
* No buffer was prepared for the download data.
*/
#define DMUS_E_BUFFERNOTSET MAKE_DMHRESULTERROR(0x0105)
/* DMUS_E_BUFFERNOTAVAILABLE
*
* Download failed due to inability to access or create download buffer.
*/
#define DMUS_E_BUFFERNOTAVAILABLE MAKE_DMHRESULTERROR(0x0106)
/* DMUS_E_NOTADLSCOL
*
* Error parsing DLS collection. File is corrupt.
*/
#define DMUS_E_NOTADLSCOL MAKE_DMHRESULTERROR(0x0108)
/* DMUS_E_INVALIDOFFSET
*
* Wave chunks in DLS collection file are at incorrect offsets.
*/
#define DMUS_E_INVALIDOFFSET MAKE_DMHRESULTERROR(0x0109)
/* DMUS_E_ALREADY_LOADED
*
* Second attempt to load a DLS collection that is currently open.
*/
#define DMUS_E_ALREADY_LOADED MAKE_DMHRESULTERROR(0x0111)
/* DMUS_E_INVALIDPOS
*
* Error reading wave data from DLS collection. Indicates bad file.
*/
#define DMUS_E_INVALIDPOS MAKE_DMHRESULTERROR(0x0113)
/* DMUS_E_INVALIDPATCH
*
* There is no instrument in the collection that matches patch number.
*/
#define DMUS_E_INVALIDPATCH MAKE_DMHRESULTERROR(0x0114)
/* DMUS_E_CANNOTSEEK
*
* The IStream* doesn't support Seek().
*/
#define DMUS_E_CANNOTSEEK MAKE_DMHRESULTERROR(0x0115)
/* DMUS_E_CANNOTWRITE
*
* The IStream* doesn't support Write().
*/
#define DMUS_E_CANNOTWRITE MAKE_DMHRESULTERROR(0x0116)
/* DMUS_E_CHUNKNOTFOUND
*
* The RIFF parser doesn't contain a required chunk while parsing file.
*/
#define DMUS_E_CHUNKNOTFOUND MAKE_DMHRESULTERROR(0x0117)
/* DMUS_E_INVALID_DOWNLOADID
*
* Invalid download id was used in the process of creating a download buffer.
*/
#define DMUS_E_INVALID_DOWNLOADID MAKE_DMHRESULTERROR(0x0119)
/* DMUS_E_NOT_DOWNLOADED_TO_PORT
*
* Tried to unload an object that was not downloaded or previously unloaded.
*/
#define DMUS_E_NOT_DOWNLOADED_TO_PORT MAKE_DMHRESULTERROR(0x0120)
/* DMUS_E_ALREADY_DOWNLOADED
*
* Buffer was already downloaded to synth.
*/
#define DMUS_E_ALREADY_DOWNLOADED MAKE_DMHRESULTERROR(0x0121)
/* DMUS_E_UNKNOWN_PROPERTY
*
* The specified property item was not recognized by the target object.
*/
#define DMUS_E_UNKNOWN_PROPERTY MAKE_DMHRESULTERROR(0x0122)
/* DMUS_E_SET_UNSUPPORTED
*
* The specified property item may not be set on the target object.
*/
#define DMUS_E_SET_UNSUPPORTED MAKE_DMHRESULTERROR(0x0123)
/* DMUS_E_GET_UNSUPPORTED
*
* The specified property item may not be retrieved from the target object.
*/
#define DMUS_E_GET_UNSUPPORTED MAKE_DMHRESULTERROR(0x0124)
/* DMUS_E_NOTMONO
*
* Wave chunk has more than one interleaved channel. DLS format requires MONO.
*/
#define DMUS_E_NOTMONO MAKE_DMHRESULTERROR(0x0125)
/* DMUS_E_BADARTICULATION
*
* Invalid articulation chunk in DLS collection.
*/
#define DMUS_E_BADARTICULATION MAKE_DMHRESULTERROR(0x0126)
/* DMUS_E_BADINSTRUMENT
*
* Invalid instrument chunk in DLS collection.
*/
#define DMUS_E_BADINSTRUMENT MAKE_DMHRESULTERROR(0x0127)
/* DMUS_E_BADWAVELINK
*
* Wavelink chunk in DLS collection points to invalid wave.
*/
#define DMUS_E_BADWAVELINK MAKE_DMHRESULTERROR(0x0128)
/* DMUS_E_NOARTICULATION
*
* Articulation missing from instrument in DLS collection.
*/
#define DMUS_E_NOARTICULATION MAKE_DMHRESULTERROR(0x0129)
/* DMUS_E_NOTPCM
*
* Downoaded DLS wave is not in PCM format.
*/
#define DMUS_E_NOTPCM MAKE_DMHRESULTERROR(0x012A)
/* DMUS_E_BADWAVE
*
* Bad wave chunk in DLS collection
*/
#define DMUS_E_BADWAVE MAKE_DMHRESULTERROR(0x012B)
/* DMUS_E_BADOFFSETTABLE
*
* Offset Table for download buffer has errors.
*/
#define DMUS_E_BADOFFSETTABLE MAKE_DMHRESULTERROR(0x012C)
/* DMUS_E_UNKNOWNDOWNLOAD
*
* Attempted to download unknown data type.
*/
#define DMUS_E_UNKNOWNDOWNLOAD MAKE_DMHRESULTERROR(0x012D)
/* DMUS_E_NOSYNTHSINK
*
* The operation could not be completed because no sink was connected to
* the synthesizer.
*/
#define DMUS_E_NOSYNTHSINK MAKE_DMHRESULTERROR(0x012E)
/* DMUS_E_ALREADYOPEN
*
* An attempt was made to open the software synthesizer while it was already
* open.
* ASSERT?
*/
#define DMUS_E_ALREADYOPEN MAKE_DMHRESULTERROR(0x012F)
/* DMUS_E_ALREADYCLOSE
*
* An attempt was made to close the software synthesizer while it was already
* open.
* ASSERT?
*/
#define DMUS_E_ALREADYCLOSED MAKE_DMHRESULTERROR(0x0130)
/* DMUS_E_SYNTHNOTCONFIGURED
*
* The operation could not be completed because the software synth has not
* yet been fully configured.
* ASSERT?
*/
#define DMUS_E_SYNTHNOTCONFIGURED MAKE_DMHRESULTERROR(0x0131)
/* DMUS_E_SYNTHACTIVE
*
* The operation cannot be carried out while the synthesizer is active.
*/
#define DMUS_E_SYNTHACTIVE MAKE_DMHRESULTERROR(0x0132)
/* DMUS_E_CANNOTREAD
*
* An error occurred while attempting to read from the IStream* object.
*/
#define DMUS_E_CANNOTREAD MAKE_DMHRESULTERROR(0x0133)
/* DMUS_E_DMUSIC_RELEASED
*
* The operation cannot be performed because the final instance of the
* DirectMusic object was released. Ports cannot be used after final
* release of the DirectMusic object.
*/
#define DMUS_E_DMUSIC_RELEASED MAKE_DMHRESULTERROR(0x0134)
/* DMUS_E_BUFFER_EMPTY
*
* There was no data in the referenced buffer.
*/
#define DMUS_E_BUFFER_EMPTY MAKE_DMHRESULTERROR(0x0135)
/* DMUS_E_BUFFER_FULL
*
* There is insufficient space to insert the given event into the buffer.
*/
#define DMUS_E_BUFFER_FULL MAKE_DMHRESULTERROR(0x0136)
/* DMUS_E_PORT_NOT_CAPTURE
*
* The given operation could not be carried out because the port is a
* capture port.
*/
#define DMUS_E_PORT_NOT_CAPTURE MAKE_DMHRESULTERROR(0x0137)
/* DMUS_E_PORT_NOT_RENDER
*
* The given operation could not be carried out because the port is a
* render port.
*/
#define DMUS_E_PORT_NOT_RENDER MAKE_DMHRESULTERROR(0x0138)
/* DMUS_E_DSOUND_NOT_SET
*
* The port could not be created because no DirectSound has been specified.
* Specify a DirectSound interface via the IDirectMusic::SetDirectSound
* method; pass NULL to have DirectMusic manage usage of DirectSound.
*/
#define DMUS_E_DSOUND_NOT_SET MAKE_DMHRESULTERROR(0x0139)
/* DMUS_E_ALREADY_ACTIVATED
*
* The operation cannot be carried out while the port is active.
*/
#define DMUS_E_ALREADY_ACTIVATED MAKE_DMHRESULTERROR(0x013A)
/* DMUS_E_INVALIDBUFFER
*
* Invalid DirectSound buffer was handed to port.
*/
#define DMUS_E_INVALIDBUFFER MAKE_DMHRESULTERROR(0x013B)
/* DMUS_E_WAVEFORMATNOTSUPPORTED
*
* Invalid buffer format was handed to the synth sink.
*/
#define DMUS_E_WAVEFORMATNOTSUPPORTED MAKE_DMHRESULTERROR(0x013C)
/* DMUS_E_SYNTHINACTIVE
*
* The operation cannot be carried out while the synthesizer is inactive.
*/
#define DMUS_E_SYNTHINACTIVE MAKE_DMHRESULTERROR(0x013D)
/* DMUS_E_DSOUND_ALREADY_SET
*
* IDirectMusic::SetDirectSound has already been called. It may not be
* changed while in use.
*/
#define DMUS_E_DSOUND_ALREADY_SET MAKE_DMHRESULTERROR(0x013E)
/* DMUS_E_INVALID_EVENT
*
* The given event is invalid (either it is not a valid MIDI message
* or it makes use of running status). The event cannot be packed
* into the buffer.
*/
#define DMUS_E_INVALID_EVENT MAKE_DMHRESULTERROR(0x013F)
/* DMUS_E_UNSUPPORTED_STREAM
*
* The IStream* object does not contain data supported by the loading object.
*/
#define DMUS_E_UNSUPPORTED_STREAM MAKE_DMHRESULTERROR(0x0150)
/* DMUS_E_ALREADY_INITED
*
* The object has already been initialized.
*/
#define DMUS_E_ALREADY_INITED MAKE_DMHRESULTERROR(0x0151)
/* DMUS_E_INVALID_BAND
*
* The file does not contain a valid band.
*/
#define DMUS_E_INVALID_BAND MAKE_DMHRESULTERROR(0x0152)
/* DMUS_E_TRACK_HDR_NOT_FIRST_CK
*
* The IStream* object's data does not have a track header as the first chunk,
* and therefore can not be read by the segment object.
*/
#define DMUS_E_TRACK_HDR_NOT_FIRST_CK MAKE_DMHRESULTERROR(0x0155)
/* DMUS_E_TOOL_HDR_NOT_FIRST_CK
*
* The IStream* object's data does not have a tool header as the first chunk,
* and therefore can not be read by the graph object.
*/
#define DMUS_E_TOOL_HDR_NOT_FIRST_CK MAKE_DMHRESULTERROR(0x0156)
/* DMUS_E_INVALID_TRACK_HDR
*
* The IStream* object's data contains an invalid track header (ckid is 0 and
* fccType is NULL,) and therefore can not be read by the segment object.
*/
#define DMUS_E_INVALID_TRACK_HDR MAKE_DMHRESULTERROR(0x0157)
/* DMUS_E_INVALID_TOOL_HDR
*
* The IStream* object's data contains an invalid tool header (ckid is 0 and
* fccType is NULL,) and therefore can not be read by the graph object.
*/
#define DMUS_E_INVALID_TOOL_HDR MAKE_DMHRESULTERROR(0x0158)
/* DMUS_E_ALL_TOOLS_FAILED
*
* The graph object was unable to load all tools from the IStream* object data.
* This may be due to errors in the stream, or the tools being incorrectly
* registered on the client.
*/
#define DMUS_E_ALL_TOOLS_FAILED MAKE_DMHRESULTERROR(0x0159)
/* DMUS_E_ALL_TRACKS_FAILED
*
* The segment object was unable to load all tracks from the IStream* object data.
* This may be due to errors in the stream, or the tracks being incorrectly
* registered on the client.
*/
#define DMUS_E_ALL_TRACKS_FAILED MAKE_DMHRESULTERROR(0x0160)
/* DMUS_E_NOT_FOUND
*
* The requested item was not contained by the object.
*/
#define DMUS_E_NOT_FOUND MAKE_DMHRESULTERROR(0x0161)
/* DMUS_E_NOT_INIT
*
* A required object is not initialized or failed to initialize.
*/
#define DMUS_E_NOT_INIT MAKE_DMHRESULTERROR(0x0162)
/* DMUS_E_TYPE_DISABLED
*
* The requested parameter type is currently disabled. Parameter types may
* be enabled and disabled by certain calls to SetParam().
*/
#define DMUS_E_TYPE_DISABLED MAKE_DMHRESULTERROR(0x0163)
/* DMUS_E_TYPE_UNSUPPORTED
*
* The requested parameter type is not supported on the object.
*/
#define DMUS_E_TYPE_UNSUPPORTED MAKE_DMHRESULTERROR(0x0164)
/* DMUS_E_TIME_PAST
*
* The time is in the past, and the operation can not succeed.
*/
#define DMUS_E_TIME_PAST MAKE_DMHRESULTERROR(0x0165)
/* DMUS_E_TRACK_NOT_FOUND
*
* The requested track is not contained by the segment.
*/
#define DMUS_E_TRACK_NOT_FOUND MAKE_DMHRESULTERROR(0x0166)
/* DMUS_E_TRACK_NO_CLOCKTIME_SUPPORT
*
* The track does not support clock time playback or getparam.
*/
#define DMUS_E_TRACK_NO_CLOCKTIME_SUPPORT MAKE_DMHRESULTERROR(0x0167)
/* DMUS_E_NO_MASTER_CLOCK
*
* There is no master clock in the performance. Be sure to call
* IDirectMusicPerformance::Init().
*/
#define DMUS_E_NO_MASTER_CLOCK MAKE_DMHRESULTERROR(0x0170)
/* DMUS_E_LOADER_NOCLASSID
*
* The class id field is required and missing in the DMUS_OBJECTDESC.
*/
#define DMUS_E_LOADER_NOCLASSID MAKE_DMHRESULTERROR(0x0180)
/* DMUS_E_LOADER_BADPATH
*
* The requested file path is invalid.
*/
#define DMUS_E_LOADER_BADPATH MAKE_DMHRESULTERROR(0x0181)
/* DMUS_E_LOADER_FAILEDOPEN
*
* File open failed - either file doesn't exist or is locked.
*/
#define DMUS_E_LOADER_FAILEDOPEN MAKE_DMHRESULTERROR(0x0182)
/* DMUS_E_LOADER_FORMATNOTSUPPORTED
*
* Search data type is not supported.
*/
#define DMUS_E_LOADER_FORMATNOTSUPPORTED MAKE_DMHRESULTERROR(0x0183)
/* DMUS_E_LOADER_FAILEDCREATE
*
* Unable to find or create object.
*/
#define DMUS_E_LOADER_FAILEDCREATE MAKE_DMHRESULTERROR(0x0184)
/* DMUS_E_LOADER_OBJECTNOTFOUND
*
* Object was not found.
*/
#define DMUS_E_LOADER_OBJECTNOTFOUND MAKE_DMHRESULTERROR(0x0185)
/* DMUS_E_LOADER_NOFILENAME
*
* The file name is missing from the DMUS_OBJECTDESC.
*/
#define DMUS_E_LOADER_NOFILENAME MAKE_DMHRESULTERROR(0x0186)
/* DMUS_E_INVALIDFILE
*
* The file requested is not a valid file.
*/
#define DMUS_E_INVALIDFILE MAKE_DMHRESULTERROR(0x0200)
/* DMUS_E_ALREADY_EXISTS
*
* The tool is already contained in the graph. Create a new instance.
*/
#define DMUS_E_ALREADY_EXISTS MAKE_DMHRESULTERROR(0x0201)
/* DMUS_E_OUT_OF_RANGE
*
* Value is out of range, for instance the requested length is longer than
* the segment.
*/
#define DMUS_E_OUT_OF_RANGE MAKE_DMHRESULTERROR(0x0202)
/* DMUS_E_SEGMENT_INIT_FAILED
*
* Segment initialization failed, most likely due to a critical memory situation.
*/
#define DMUS_E_SEGMENT_INIT_FAILED MAKE_DMHRESULTERROR(0x0203)
/* DMUS_E_ALREADY_SENT
*
* The DMUS_PMSG has already been sent to the performance object via
* IDirectMusicPerformance::SendPMsg().
*/
#define DMUS_E_ALREADY_SENT MAKE_DMHRESULTERROR(0x0204)
/* DMUS_E_CANNOT_FREE
*
* The DMUS_PMSG was either not allocated by the performance via
* IDirectMusicPerformance::AllocPMsg(), or it was already freed via
* IDirectMusicPerformance::FreePMsg().
*/
#define DMUS_E_CANNOT_FREE MAKE_DMHRESULTERROR(0x0205)
/* DMUS_E_CANNOT_OPEN_PORT
*
* The default system port could not be opened.
*/
#define DMUS_E_CANNOT_OPEN_PORT MAKE_DMHRESULTERROR(0x0206)
/* DMUS_E_CANNOT_CONVERT
*
* A call to MIDIToMusic() or MusicToMIDI() resulted in an error because
* the requested conversion could not happen. This usually occurs when the
* provided DMUS_CHORD_KEY structure has an invalid chord or scale pattern.
*/
#define DMUS_E_CANNOT_CONVERT MAKE_DMHRESULTERROR(0x0207)
/* misspelling in previous versions of DirectX preserved for backward compatibility */
#define DMUS_E_CONNOT_CONVERT DMUS_E_CANNOT_CONVERT
/* DMUS_E_DESCEND_CHUNK_FAIL
*
* DMUS_E_DESCEND_CHUNK_FAIL is returned when the end of the file
* was reached before the desired chunk was found.
*/
#define DMUS_E_DESCEND_CHUNK_FAIL MAKE_DMHRESULTERROR(0x0210)
/* DMUS_E_NOT_LOADED
*
* An attempt to use this object failed because it first needs to
* be loaded.
*/
#define DMUS_E_NOT_LOADED MAKE_DMHRESULTERROR(0x0211)
/* DMUS_E_SCRIPT_LANGUAGE_INCOMPATIBLE
*
* The activeX scripting engine for the script's language is not compatible with
* DirectMusic.
*
*/
#define DMUS_E_SCRIPT_LANGUAGE_INCOMPATIBLE MAKE_DMHRESULTERROR(0x0213)
/* DMUS_E_SCRIPT_UNSUPPORTED_VARTYPE
*
* A varient was used that had a type that is not supported by DirectMusic.
*
*/
#define DMUS_E_SCRIPT_UNSUPPORTED_VARTYPE MAKE_DMHRESULTERROR(0x0214)
/* DMUS_E_SCRIPT_ERROR_IN_SCRIPT
*
* An error was encountered while parsing or executing the script.
* The pErrorInfo parameter (if supplied) was filled with information about the error.
*/
#define DMUS_E_SCRIPT_ERROR_IN_SCRIPT MAKE_DMHRESULTERROR(0x0215)
/* DMUS_E_SCRIPT_CANTLOAD_OLEAUT32
*
* Loading of oleaut32.dll failed. VBScript and other activeX scripting languages
* require use of oleaut32.dll. On platforms where oleaut32.dll is not present, only
* the DirectMusicScript language, which doesn't require oleaut32.dll can be used.
*/
#define DMUS_E_SCRIPT_CANTLOAD_OLEAUT32 MAKE_DMHRESULTERROR(0x0216)
/* DMUS_E_SCRIPT_LOADSCRIPT_ERROR
*
* An error occured while parsing a script loaded using LoadScript. The script that
* was loaded contains an error.
*/
#define DMUS_E_SCRIPT_LOADSCRIPT_ERROR MAKE_DMHRESULTERROR(0x0217)
/* DMUS_E_SCRIPT_INVALID_FILE
*
* The script file is invalid.
*/
#define DMUS_E_SCRIPT_INVALID_FILE MAKE_DMHRESULTERROR(0x0218)
/* DMUS_E_INVALID_SCRIPTTRACK
*
* The file contains an invalid script track.
*/
#define DMUS_E_INVALID_SCRIPTTRACK MAKE_DMHRESULTERROR(0x0219)
/* DMUS_E_SCRIPT_VARIABLE_NOT_FOUND
*
* The script does not contain a variable with the specified name.
*/
#define DMUS_E_SCRIPT_VARIABLE_NOT_FOUND MAKE_DMHRESULTERROR(0x021A)
/* DMUS_E_SCRIPT_ROUTINE_NOT_FOUND
*
* The script does not contain a routine with the specified name.
*/
#define DMUS_E_SCRIPT_ROUTINE_NOT_FOUND MAKE_DMHRESULTERROR(0x021B)
/* DMUS_E_SCRIPT_CONTENT_READONLY
*
* Scripts variables for content referenced or embedded in a script cannot be set.
*/
#define DMUS_E_SCRIPT_CONTENT_READONLY MAKE_DMHRESULTERROR(0x021C)
/* DMUS_E_SCRIPT_NOT_A_REFERENCE
*
* Attempt was made to set a script's variable by reference to a value that was
* not an object type.
*/
#define DMUS_E_SCRIPT_NOT_A_REFERENCE MAKE_DMHRESULTERROR(0x021D)
/* DMUS_E_SCRIPT_VALUE_NOT_SUPPORTED
*
* Attempt was made to set a script's variable by value to an object that does
* not support a default value property.
*/
#define DMUS_E_SCRIPT_VALUE_NOT_SUPPORTED MAKE_DMHRESULTERROR(0x021E)
/* DMUS_E_INVALID_SEGMENTTRIGGERTRACK
*
* The file contains an invalid segment trigger track.
*/
#define DMUS_E_INVALID_SEGMENTTRIGGERTRACK MAKE_DMHRESULTERROR(0x0220)
/* DMUS_E_INVALID_LYRICSTRACK
*
* The file contains an invalid lyrics track.
*/
#define DMUS_E_INVALID_LYRICSTRACK MAKE_DMHRESULTERROR(0x0221)
/* DMUS_E_INVALID_PARAMCONTROLTRACK
*
* The file contains an invalid parameter control track.
*/
#define DMUS_E_INVALID_PARAMCONTROLTRACK MAKE_DMHRESULTERROR(0x0222)
/* DMUS_E_AUDIOVBSCRIPT_SYNTAXERROR
*
* A script written in AudioVBScript could not be read because it contained a statement that
* is not allowed by the AudioVBScript language.
*/
#define DMUS_E_AUDIOVBSCRIPT_SYNTAXERROR MAKE_DMHRESULTERROR(0x0223)
/* DMUS_E_AUDIOVBSCRIPT_RUNTIMEERROR
*
* A script routine written in AudioVBScript failed because an invalid operation occurred. For example,
* adding the number 3 to a segment object would produce this error. So would attempting to call a routine
* that doesn't exist.
*/
#define DMUS_E_AUDIOVBSCRIPT_RUNTIMEERROR MAKE_DMHRESULTERROR(0x0224)
/* DMUS_E_AUDIOVBSCRIPT_OPERATIONFAILURE
*
* A script routine written in AudioVBScript failed because a function outside of a script failed to complete.
* For example, a call to PlaySegment that fails to play because of low memory would return this error.
*/
#define DMUS_E_AUDIOVBSCRIPT_OPERATIONFAILURE MAKE_DMHRESULTERROR(0x0225)
/* DMUS_E_AUDIOPATHS_NOT_VALID
*
* The Performance has set up some PChannels using the AssignPChannel command, which
* makes it not capable of supporting audio paths.
*/
#define DMUS_E_AUDIOPATHS_NOT_VALID MAKE_DMHRESULTERROR(0x0226)
/* DMUS_E_AUDIOPATHS_IN_USE
*
* This is the inverse of the previous error.
* The Performance has set up some audio paths, which makes is incompatible
* with the calls to allocate pchannels, etc.
*/
#define DMUS_E_AUDIOPATHS_IN_USE MAKE_DMHRESULTERROR(0x0227)
/* DMUS_E_NO_AUDIOPATH_CONFIG
*
* A segment or song was asked for its embedded audio path configuration,
* but there isn't any.
*/
#define DMUS_E_NO_AUDIOPATH_CONFIG MAKE_DMHRESULTERROR(0x0228)
/* DMUS_E_AUDIOPATH_INACTIVE
*
* An audiopath is inactive, perhaps because closedown was called.
*/
#define DMUS_E_AUDIOPATH_INACTIVE MAKE_DMHRESULTERROR(0x0229)
/* DMUS_E_AUDIOPATH_NOBUFFER
*
* An audiopath failed to create because a requested buffer could not be created.
*/
#define DMUS_E_AUDIOPATH_NOBUFFER MAKE_DMHRESULTERROR(0x022A)
/* DMUS_E_AUDIOPATH_NOPORT
*
* An audiopath could not be used for playback because it lacked port assignments.
*/
#define DMUS_E_AUDIOPATH_NOPORT MAKE_DMHRESULTERROR(0x022B)
/* DMUS_E_NO_AUDIOPATH
*
* Attempt was made to play segment in audiopath mode and there was no audiopath.
*/
#define DMUS_E_NO_AUDIOPATH MAKE_DMHRESULTERROR(0x022C)
/* DMUS_E_INVALIDCHUNK
*
* Invalid data was found in a RIFF file chunk.
*/
#define DMUS_E_INVALIDCHUNK MAKE_DMHRESULTERROR(0x022D)
/* DMUS_E_AUDIOPATH_NOGLOBALFXBUFFER
*
* Attempt was made to create an audiopath that sends to a global effects buffer which did not exist.
*/
#define DMUS_E_AUDIOPATH_NOGLOBALFXBUFFER MAKE_DMHRESULTERROR(0x022E)
/* DMUS_E_INVALID_CONTAINER_OBJECT
*
* The file does not contain a valid container object.
*/
#define DMUS_E_INVALID_CONTAINER_OBJECT MAKE_DMHRESULTERROR(0x022F)
#endif

167
extern/include/dmksctrl.h vendored
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@ -1,167 +0,0 @@
/************************************************************************
* *
* dmksctrl.h -- Definition of IKsControl *
* *
* Copyright (c) 1998-1999 Microsoft Corporation
* *
* *
* This header file contains the definition of IKsControl, which *
* duplicates definitions from ks.h and ksproxy.h. Your code should *
* include ks.h and ksproxy.h directly if you have them (they are *
* provided in the Windows 98 DDK and will be in the Windows NT 5 *
* SDK). *
* *
************************************************************************/
#ifndef _DMKSCTRL_
#define _DMKSCTRL_
#if _MSC_VER >= 1200
#pragma warning(push)
#endif
#pragma warning(disable:4201) /* Disable warnings on anonymous unions */
#include <pshpack8.h>
#include <objbase.h>
#if !defined(_NTRTL_)
#ifndef DEFINE_GUIDEX
#define DEFINE_GUIDEX(name) EXTERN_C const CDECL GUID name
#endif /* !defined(DEFINE_GUIDEX) */
#ifndef STATICGUIDOF
#define STATICGUIDOF(guid) STATIC_##guid
#endif /* !defined(STATICGUIDOF) */
#endif /* !defined(_NTRTL_) */
#ifndef STATIC_IID_IKsControl
#define STATIC_IID_IKsControl\
0x28F54685L, 0x06FD, 0x11D2, 0xB2, 0x7A, 0x00, 0xA0, 0xC9, 0x22, 0x31, 0x96
#endif /* STATIC_IID_IKsControl */
/*
* Warning: This will prevent the rest of ks.h from being pulled in if ks.h is
* included after dmksctrl.h. Make sure you do not include both headers in
* the same source file.
*/
#ifndef _KS_
#define _KS_
#if (defined(_MSC_EXTENSIONS) || defined(__cplusplus)) && !defined(CINTERFACE)
typedef struct {
union {
struct {
GUID Set;
ULONG Id;
ULONG Flags;
};
LONGLONG Alignment;
};
} KSIDENTIFIER, *PKSIDENTIFIER;
#else
typedef struct {
union {
struct {
GUID Set;
ULONG Id;
ULONG Flags;
} Data;
LONGLONG Alignment;
};
} KSIDENTIFIER, *PKSIDENTIFIER;
#endif
typedef KSIDENTIFIER KSPROPERTY, *PKSPROPERTY, KSMETHOD, *PKSMETHOD, KSEVENT, *PKSEVENT;
#define KSMETHOD_TYPE_NONE 0x00000000
#define KSMETHOD_TYPE_READ 0x00000001
#define KSMETHOD_TYPE_WRITE 0x00000002
#define KSMETHOD_TYPE_MODIFY 0x00000003
#define KSMETHOD_TYPE_SOURCE 0x00000004
#define KSMETHOD_TYPE_SEND 0x00000001
#define KSMETHOD_TYPE_SETSUPPORT 0x00000100
#define KSMETHOD_TYPE_BASICSUPPORT 0x00000200
#define KSPROPERTY_TYPE_GET 0x00000001
#define KSPROPERTY_TYPE_SET 0x00000002
#define KSPROPERTY_TYPE_SETSUPPORT 0x00000100
#define KSPROPERTY_TYPE_BASICSUPPORT 0x00000200
#define KSPROPERTY_TYPE_RELATIONS 0x00000400
#define KSPROPERTY_TYPE_SERIALIZESET 0x00000800
#define KSPROPERTY_TYPE_UNSERIALIZESET 0x00001000
#define KSPROPERTY_TYPE_SERIALIZERAW 0x00002000
#define KSPROPERTY_TYPE_UNSERIALIZERAW 0x00004000
#define KSPROPERTY_TYPE_SERIALIZESIZE 0x00008000
#define KSPROPERTY_TYPE_DEFAULTVALUES 0x00010000
#define KSPROPERTY_TYPE_TOPOLOGY 0x10000000
#endif /* _KS_ */
#ifndef _IKsControl_
#define _IKsControl_
#ifdef DECLARE_INTERFACE_
#undef INTERFACE
#define INTERFACE IKsControl
DECLARE_INTERFACE_(IKsControl, IUnknown)
{
/* IUnknown */
STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/*IKsControl*/
STDMETHOD(KsProperty)(
THIS_
IN PKSPROPERTY Property,
IN ULONG PropertyLength,
IN OUT LPVOID PropertyData,
IN ULONG DataLength,
OUT ULONG* BytesReturned
) PURE;
STDMETHOD(KsMethod)(
THIS_
IN PKSMETHOD Method,
IN ULONG MethodLength,
IN OUT LPVOID MethodData,
IN ULONG DataLength,
OUT ULONG* BytesReturned
) PURE;
STDMETHOD(KsEvent)(
THIS_
IN PKSEVENT Event OPTIONAL,
IN ULONG EventLength,
IN OUT LPVOID EventData,
IN ULONG DataLength,
OUT ULONG* BytesReturned
) PURE;
};
#endif /* DECLARE_INTERFACE_ */
#endif /* _IKsControl_ */
#include <poppack.h>
DEFINE_GUID(IID_IKsControl, 0x28F54685, 0x06FD, 0x11D2, 0xB2, 0x7A, 0x00, 0xA0, 0xC9, 0x22, 0x31, 0x96);
/* These formats are in ksmedia.h
*/
#ifndef _KSMEDIA_
DEFINE_GUID(KSDATAFORMAT_SUBTYPE_MIDI, 0x1D262760L, 0xE957, 0x11CF, 0xA5, 0xD6, 0x28, 0xDB, 0x04, 0xC1, 0x00, 0x00);
DEFINE_GUID(KSDATAFORMAT_SUBTYPE_DIRECTMUSIC, 0x1a82f8bc, 0x3f8b, 0x11d2, 0xb7, 0x74, 0x00, 0x60, 0x08, 0x33, 0x16, 0xc1);
#endif
#if _MSC_VER >= 1200
#pragma warning(pop)
#endif
#endif /* _DMKSCTRL */

29
extern/include/dmo.h vendored
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@ -1,29 +0,0 @@
//------------------------------------------------------------------------------
// File: DMO.h
//
// Desc: Headers needed by almost all DMOs.
//
// Copyright (c) 1999 - 2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
#ifndef __DMO_H__
#define __DMO_H__
#include "mediaerr.h"
// When using ATL we get collisions on Lock, so in this case rename
// IMediaObject::Lock to IMediaObject::DMOLock
#ifdef FIX_LOCK_NAME
#define Lock DMOLock
#endif
#include "mediaobj.h"
#ifdef FIX_LOCK_NAME
#undef Lock
#endif
#include "dmoreg.h"
#include "dmort.h"
#endif //__DMO_H__

176
extern/include/dmodshow.h vendored
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@ -1,176 +0,0 @@
#pragma warning( disable: 4049 ) /* more than 64k source lines */
/* this ALWAYS GENERATED file contains the definitions for the interfaces */
/* File created by MIDL compiler version 6.00.0347 */
/* Compiler settings for dmodshow.idl:
Oicf, W1, Zp8, env=Win32 (32b run)
protocol : dce , ms_ext, c_ext, robust
error checks: allocation ref bounds_check enum stub_data
VC __declspec() decoration level:
__declspec(uuid()), __declspec(selectany), __declspec(novtable)
DECLSPEC_UUID(), MIDL_INTERFACE()
*/
//@@MIDL_FILE_HEADING( )
/* verify that the <rpcndr.h> version is high enough to compile this file*/
#ifndef __REQUIRED_RPCNDR_H_VERSION__
#define __REQUIRED_RPCNDR_H_VERSION__ 475
#endif
#include "rpc.h"
#include "rpcndr.h"
#ifndef __RPCNDR_H_VERSION__
#error this stub requires an updated version of <rpcndr.h>
#endif // __RPCNDR_H_VERSION__
#ifndef COM_NO_WINDOWS_H
#include "windows.h"
#include "ole2.h"
#endif /*COM_NO_WINDOWS_H*/
#ifndef __dmodshow_h__
#define __dmodshow_h__
#if defined(_MSC_VER) && (_MSC_VER >= 1020)
#pragma once
#endif
/* Forward Declarations */
#ifndef __IDMOWrapperFilter_FWD_DEFINED__
#define __IDMOWrapperFilter_FWD_DEFINED__
typedef interface IDMOWrapperFilter IDMOWrapperFilter;
#endif /* __IDMOWrapperFilter_FWD_DEFINED__ */
/* header files for imported files */
#include "unknwn.h"
#include "objidl.h"
#include "mediaobj.h"
#ifdef __cplusplus
extern "C"{
#endif
void * __RPC_USER MIDL_user_allocate(size_t);
void __RPC_USER MIDL_user_free( void * );
/* interface __MIDL_itf_dmodshow_0000 */
/* [local] */
DEFINE_GUID(CLSID_DMOWrapperFilter, 0x94297043,0xbd82,0x4dfd,0xb0,0xde,0x81,0x77,0x73,0x9c,0x6d,0x20);
DEFINE_GUID(CLSID_DMOFilterCategory,0xbcd5796c,0xbd52,0x4d30,0xab,0x76,0x70,0xf9,0x75,0xb8,0x91,0x99);
extern RPC_IF_HANDLE __MIDL_itf_dmodshow_0000_v0_0_c_ifspec;
extern RPC_IF_HANDLE __MIDL_itf_dmodshow_0000_v0_0_s_ifspec;
#ifndef __IDMOWrapperFilter_INTERFACE_DEFINED__
#define __IDMOWrapperFilter_INTERFACE_DEFINED__
/* interface IDMOWrapperFilter */
/* [uuid][object] */
EXTERN_C const IID IID_IDMOWrapperFilter;
#if defined(__cplusplus) && !defined(CINTERFACE)
MIDL_INTERFACE("52d6f586-9f0f-4824-8fc8-e32ca04930c2")
IDMOWrapperFilter : public IUnknown
{
public:
virtual HRESULT STDMETHODCALLTYPE Init(
REFCLSID clsidDMO,
REFCLSID catDMO) = 0;
};
#else /* C style interface */
typedef struct IDMOWrapperFilterVtbl
{
BEGIN_INTERFACE
HRESULT ( STDMETHODCALLTYPE *QueryInterface )(
IDMOWrapperFilter * This,
/* [in] */ REFIID riid,
/* [iid_is][out] */ void **ppvObject);
ULONG ( STDMETHODCALLTYPE *AddRef )(
IDMOWrapperFilter * This);
ULONG ( STDMETHODCALLTYPE *Release )(
IDMOWrapperFilter * This);
HRESULT ( STDMETHODCALLTYPE *Init )(
IDMOWrapperFilter * This,
REFCLSID clsidDMO,
REFCLSID catDMO);
END_INTERFACE
} IDMOWrapperFilterVtbl;
interface IDMOWrapperFilter
{
CONST_VTBL struct IDMOWrapperFilterVtbl *lpVtbl;
};
#ifdef COBJMACROS
#define IDMOWrapperFilter_QueryInterface(This,riid,ppvObject) \
(This)->lpVtbl -> QueryInterface(This,riid,ppvObject)
#define IDMOWrapperFilter_AddRef(This) \
(This)->lpVtbl -> AddRef(This)
#define IDMOWrapperFilter_Release(This) \
(This)->lpVtbl -> Release(This)
#define IDMOWrapperFilter_Init(This,clsidDMO,catDMO) \
(This)->lpVtbl -> Init(This,clsidDMO,catDMO)
#endif /* COBJMACROS */
#endif /* C style interface */
HRESULT STDMETHODCALLTYPE IDMOWrapperFilter_Init_Proxy(
IDMOWrapperFilter * This,
REFCLSID clsidDMO,
REFCLSID catDMO);
void __RPC_STUB IDMOWrapperFilter_Init_Stub(
IRpcStubBuffer *This,
IRpcChannelBuffer *_pRpcChannelBuffer,
PRPC_MESSAGE _pRpcMessage,
DWORD *_pdwStubPhase);
#endif /* __IDMOWrapperFilter_INTERFACE_DEFINED__ */
/* Additional Prototypes for ALL interfaces */
/* end of Additional Prototypes */
#ifdef __cplusplus
}
#endif
#endif

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extern/include/dmoimpl.h vendored
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@ -1,645 +0,0 @@
//------------------------------------------------------------------------------
// File: DMOImpl.h
//
// Desc: Classes to implement a DMO.
//
// Copyright (c) 2000-2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
#ifndef _dmoimpl_h_
#define _dmoimpl_h_
#ifdef _DEBUG
#include <crtdbg.h>
#endif
// Class to implement a DMO
//
//
// Assumes the number of input and output streams is fixed
// (these are template parameters)
//
// Provides following services:
//
// Basic parameter checking and locking
// Fully implements :
// GetStreamCount
// SetInputType
// SetOutputType
// GetCurrentInputType
// GetCurrentOutputType
//
// Checks if all types are set before streaming
// Automatically calls AllocateStreamingResources before streaming
// if it's not been called already
// Prevents streaming until the types on all non-optional streams
// have been set
//
//
// Derived class implements the following methods :
//
/*
HRESULT InternalGetInputStreamInfo(DWORD dwInputStreamIndex, DWORD *pdwFlags);
HRESULT InternalGetOutputStreamInfo(DWORD dwOutputStreamIndex, DWORD *pdwFlags);
HRESULT InternalCheckInputType(DWORD dwInputStreamIndex, const DMO_MEDIA_TYPE *pmt);
HRESULT InternalCheckOutputType(DWORD dwOutputStreamIndex, const DMO_MEDIA_TYPE *pmt);
HRESULT InternalGetInputType(DWORD dwInputStreamIndex, DWORD dwTypeIndex,
DMO_MEDIA_TYPE *pmt);
HRESULT InternalGetOutputType(DWORD dwOutputStreamIndex, DWORD dwTypeIndex,
DMO_MEDIA_TYPE *pmt);
HRESULT InternalGetInputSizeInfo(DWORD dwInputStreamIndex, DWORD *pcbSize,
DWORD *pcbMaxLookahead, DWORD *pcbAlignment);
HRESULT InternalGetOutputSizeInfo(DWORD dwOutputStreamIndex, DWORD *pcbSize,
DWORD *pcbAlignment);
HRESULT InternalGetInputMaxLatency(DWORD dwInputStreamIndex, REFERENCE_TIME *prtMaxLatency);
HRESULT InternalSetInputMaxLatency(DWORD dwInputStreamIndex, REFERENCE_TIME rtMaxLatency);
HRESULT InternalFlush();
HRESULT InternalDiscontinuity(DWORD dwInputStreamIndex);
HRESULT InternalAllocateStreamingResources();
HRESULT InternalFreeStreamingResources();
HRESULT InternalProcessInput(DWORD dwInputStreamIndex, IMediaBuffer *pBuffer,
DWORD dwFlags, REFERENCE_TIME rtTimestamp,
REFERENCE_TIME rtTimelength);
HRESULT InternalProcessOutput(DWORD dwFlags, DWORD cOutputBufferCount,
DMO_OUTPUT_DATA_BUFFER *pOutputBuffers,
DWORD *pdwStatus);
HRESULT InternalAcceptingInput(DWORD dwInputStreamIndex);
void Lock();
void Unlock();
Notes:
The derived class is meant to do most work to initialize streaming
in AllocateStreamingResources rather than when types are set.
This centralizes the work to one
clear place based on the types set for all streams.
The derived class implements locking.
The derived class implements the IUnknown methods
Usage example (1 input and 1 output) :
class CMyDMO : public IMediaObjectImpl<CMyDmo, 1, 1>,
...
*/
#define INTERNAL_CALL(_T_, _X_) \
static_cast<_T_ *>(this)->Internal##_X_
template <class _DERIVED_, int NUMBEROFINPUTS, int NUMBEROFOUTPUTS>
class IMediaObjectImpl : public IMediaObject
{
private:
// Member variables
struct {
DWORD fTypeSet:1;
DWORD fIncomplete:1;
DMO_MEDIA_TYPE CurrentMediaType;
} m_InputInfo[NUMBEROFINPUTS], m_OutputInfo[NUMBEROFOUTPUTS];
bool m_fTypesSet;
bool m_fFlushed;
bool m_fResourcesAllocated;
protected:
// Helpers
bool InputTypeSet(DWORD ulInputStreamIndex) const
{
_ASSERTE(ulInputStreamIndex < NUMBEROFINPUTS);
return 0 != m_InputInfo[ulInputStreamIndex].fTypeSet;
}
bool OutputTypeSet(DWORD ulOutputStreamIndex) const
{
_ASSERTE(ulOutputStreamIndex < NUMBEROFOUTPUTS);
return 0 != m_OutputInfo[ulOutputStreamIndex].fTypeSet;
}
const DMO_MEDIA_TYPE *InputType(DWORD ulInputStreamIndex)
{
if (!InputTypeSet(ulInputStreamIndex)) {
return NULL;
}
return &m_InputInfo[ulInputStreamIndex].CurrentMediaType;
}
const DMO_MEDIA_TYPE *OutputType(DWORD ulOutputStreamIndex)
{
if (!OutputTypeSet(ulOutputStreamIndex)) {
return NULL;
}
return &m_OutputInfo[ulOutputStreamIndex].CurrentMediaType;
}
class LockIt
{
public:
LockIt(_DERIVED_ *p) : m_p(p)
{
static_cast<_DERIVED_ *>(m_p)->Lock();
}
~LockIt()
{
static_cast<_DERIVED_ *>(m_p)->Unlock();
}
_DERIVED_ *const m_p;
};
bool CheckTypesSet()
{
m_fTypesSet = false;
DWORD dw;
for (dw = 0; dw < NUMBEROFINPUTS; dw++) {
if (!InputTypeSet(dw)) {
return false;
}
}
for (dw = 0; dw < NUMBEROFOUTPUTS; dw++) {
if (!OutputTypeSet(dw)) {
// Check if it's optional
DWORD dwFlags;
#ifdef _DEBUG
dwFlags = 0xFFFFFFFF;
#endif
INTERNAL_CALL(_DERIVED_, GetOutputStreamInfo)(dw, &dwFlags);
_ASSERTE(0 == (dwFlags & ~(DMO_OUTPUT_STREAMF_WHOLE_SAMPLES |
DMO_OUTPUT_STREAMF_SINGLE_SAMPLE_PER_BUFFER |
DMO_OUTPUT_STREAMF_FIXED_SAMPLE_SIZE |
DMO_OUTPUT_STREAMF_DISCARDABLE |
DMO_OUTPUT_STREAMF_OPTIONAL)));
if (!(dwFlags & DMO_OUTPUT_STREAMF_OPTIONAL)) {
return false;
}
}
}
m_fTypesSet = true;
return true;
}
IMediaObjectImpl() :
m_fTypesSet(false),
m_fFlushed(true),
m_fResourcesAllocated(false)
{
ZeroMemory(&m_InputInfo, sizeof(m_InputInfo));
ZeroMemory(&m_OutputInfo, sizeof(m_OutputInfo));
}
virtual ~IMediaObjectImpl() {
DWORD dwCurrentType;
for (dwCurrentType = 0; dwCurrentType < NUMBEROFINPUTS; dwCurrentType++) {
if(InputTypeSet(dwCurrentType)) {
MoFreeMediaType(&m_InputInfo[dwCurrentType].CurrentMediaType);
}
}
for (dwCurrentType = 0; dwCurrentType < NUMBEROFOUTPUTS; dwCurrentType++) {
if(OutputTypeSet(dwCurrentType)) {
MoFreeMediaType(&m_OutputInfo[dwCurrentType].CurrentMediaType);
}
}
}
// IMediaObject methods
//
// IMediaObject methods
//
STDMETHODIMP GetStreamCount(unsigned long *pulNumberOfInputStreams, unsigned long *pulNumberOfOutputStreams)
{
LockIt lck(static_cast<_DERIVED_ *>(this));
if (pulNumberOfInputStreams == NULL ||
pulNumberOfOutputStreams == NULL) {
return E_POINTER;
}
*pulNumberOfInputStreams = NUMBEROFINPUTS;
*pulNumberOfOutputStreams = NUMBEROFOUTPUTS;
return S_OK;
}
STDMETHODIMP GetInputStreamInfo(ULONG ulStreamIndex, DWORD *pdwFlags)
{
LockIt lck(static_cast<_DERIVED_ *>(this));
if (ulStreamIndex >= NUMBEROFINPUTS) {
return DMO_E_INVALIDSTREAMINDEX;
}
if (pdwFlags == NULL) {
return E_POINTER;
}
HRESULT hr = INTERNAL_CALL(_DERIVED_, GetInputStreamInfo)(ulStreamIndex, pdwFlags);
_ASSERTE(0 == (*pdwFlags & ~(DMO_INPUT_STREAMF_WHOLE_SAMPLES |
DMO_INPUT_STREAMF_SINGLE_SAMPLE_PER_BUFFER |
DMO_INPUT_STREAMF_FIXED_SAMPLE_SIZE |
DMO_INPUT_STREAMF_HOLDS_BUFFERS)));
return hr;
}
STDMETHODIMP GetOutputStreamInfo(ULONG ulStreamIndex, DWORD *pdwFlags)
{
LockIt lck(static_cast<_DERIVED_ *>(this));
if (ulStreamIndex >= NUMBEROFOUTPUTS) {
return DMO_E_INVALIDSTREAMINDEX;
}
if (pdwFlags == NULL) {
return E_POINTER;
}
HRESULT hr = INTERNAL_CALL(_DERIVED_, GetOutputStreamInfo)(ulStreamIndex, pdwFlags);
_ASSERTE(0 == (*pdwFlags & ~(DMO_OUTPUT_STREAMF_WHOLE_SAMPLES |
DMO_OUTPUT_STREAMF_SINGLE_SAMPLE_PER_BUFFER |
DMO_OUTPUT_STREAMF_FIXED_SAMPLE_SIZE |
DMO_OUTPUT_STREAMF_DISCARDABLE |
DMO_OUTPUT_STREAMF_OPTIONAL)));
return hr;
}
STDMETHODIMP GetInputType(ULONG ulStreamIndex, ULONG ulTypeIndex, DMO_MEDIA_TYPE *pmt) {
if (ulStreamIndex >= NUMBEROFINPUTS) {
return DMO_E_INVALIDSTREAMINDEX;
}
LockIt lck(static_cast<_DERIVED_ *>(this));
return INTERNAL_CALL(_DERIVED_, GetInputType)(ulStreamIndex, ulTypeIndex, pmt);
}
STDMETHODIMP GetOutputType(ULONG ulStreamIndex, ULONG ulTypeIndex, DMO_MEDIA_TYPE *pmt) {
if (ulStreamIndex >= NUMBEROFOUTPUTS) {
return DMO_E_INVALIDSTREAMINDEX;
}
LockIt lck(static_cast<_DERIVED_ *>(this));
return INTERNAL_CALL(_DERIVED_, GetOutputType)(ulStreamIndex, ulTypeIndex, pmt);
}
STDMETHODIMP GetInputCurrentType(ULONG ulStreamIndex, DMO_MEDIA_TYPE *pmt) {
if (ulStreamIndex >= NUMBEROFINPUTS) {
return DMO_E_INVALIDSTREAMINDEX;
}
if (NULL == pmt) {
return E_POINTER;
}
LockIt lck(static_cast<_DERIVED_ *>(this));
if (InputTypeSet(ulStreamIndex))
return MoCopyMediaType(pmt,
&m_InputInfo[ulStreamIndex].CurrentMediaType);
else
return DMO_E_TYPE_NOT_SET;
}
STDMETHODIMP GetOutputCurrentType(ULONG ulStreamIndex, DMO_MEDIA_TYPE *pmt) {
if (ulStreamIndex >= NUMBEROFOUTPUTS) {
return DMO_E_INVALIDSTREAMINDEX;
}
if (NULL == pmt) {
return E_POINTER;
}
LockIt lck(static_cast<_DERIVED_ *>(this));
if (OutputTypeSet(ulStreamIndex))
return MoCopyMediaType(pmt,
&m_OutputInfo[ulStreamIndex].CurrentMediaType);
else
return DMO_E_TYPE_NOT_SET;
}
STDMETHODIMP GetInputSizeInfo(ULONG ulStreamIndex, ULONG *pulSize, ULONG *pcbMaxLookahead, ULONG *pulAlignment) {
if (ulStreamIndex >= NUMBEROFINPUTS) {
return DMO_E_INVALIDSTREAMINDEX;
}
if (NULL == pulSize || NULL == pulAlignment ||
NULL == pcbMaxLookahead) {
return E_POINTER;
}
LockIt lck(static_cast<_DERIVED_ *>(this));
if (!InputTypeSet(ulStreamIndex)) {
return DMO_E_TYPE_NOT_SET;
}
return INTERNAL_CALL(_DERIVED_, GetInputSizeInfo)(ulStreamIndex, pulSize, pcbMaxLookahead, pulAlignment);
}
STDMETHODIMP GetOutputSizeInfo(ULONG ulStreamIndex, ULONG *pulSize, ULONG *pulAlignment) {
if (ulStreamIndex >= NUMBEROFOUTPUTS) {
return DMO_E_INVALIDSTREAMINDEX;
}
if (NULL == pulSize || NULL == pulAlignment) {
return E_POINTER;
}
LockIt lck(static_cast<_DERIVED_ *>(this));
if (!m_fTypesSet || !OutputTypeSet(ulStreamIndex)) {
return DMO_E_TYPE_NOT_SET;
}
return INTERNAL_CALL(_DERIVED_, GetOutputSizeInfo)(ulStreamIndex, pulSize, pulAlignment);
}
STDMETHODIMP SetInputType(ULONG ulStreamIndex, const DMO_MEDIA_TYPE *pmt, DWORD dwFlags) {
if (ulStreamIndex >= NUMBEROFINPUTS) {
return DMO_E_INVALIDSTREAMINDEX;
}
if (dwFlags & ~ (DMO_SET_TYPEF_CLEAR | DMO_SET_TYPEF_TEST_ONLY)) {
return E_INVALIDARG;
}
LockIt lck(static_cast<_DERIVED_ *>(this));
if (dwFlags & DMO_SET_TYPEF_CLEAR) {
MoFreeMediaType(&m_InputInfo[ulStreamIndex].CurrentMediaType);
m_InputInfo[ulStreamIndex].fTypeSet = FALSE;
if (!CheckTypesSet()) {
Flush();
FreeStreamingResources();
}
return NOERROR;
}
if (NULL == pmt) {
return E_POINTER;
}
HRESULT hr = INTERNAL_CALL(_DERIVED_, CheckInputType)(ulStreamIndex, pmt);
if (FAILED(hr))
return hr;
if (dwFlags & DMO_SET_TYPEF_TEST_ONLY) {
return NOERROR;
}
// actually set the type
DMO_MEDIA_TYPE mtTemp;
if (S_OK == MoCopyMediaType(&mtTemp, pmt)) {
// Free any previous mediatype
if (InputTypeSet(ulStreamIndex)) {
MoFreeMediaType(&m_InputInfo[ulStreamIndex].CurrentMediaType);
}
m_InputInfo[ulStreamIndex].CurrentMediaType = mtTemp;
m_InputInfo[ulStreamIndex].fTypeSet = TRUE;
CheckTypesSet();
} else {
return E_OUTOFMEMORY;
}
return NOERROR;
}
STDMETHODIMP SetOutputType(ULONG ulStreamIndex, const DMO_MEDIA_TYPE *pmt, DWORD dwFlags) {
if (ulStreamIndex >= NUMBEROFOUTPUTS) {
return DMO_E_INVALIDSTREAMINDEX;
}
if (dwFlags & ~ (DMO_SET_TYPEF_CLEAR | DMO_SET_TYPEF_TEST_ONLY)) {
return E_INVALIDARG;
}
LockIt lck(static_cast<_DERIVED_ *>(this));
if (dwFlags & DMO_SET_TYPEF_CLEAR) {
MoFreeMediaType(&m_OutputInfo[ulStreamIndex].CurrentMediaType);
m_OutputInfo[ulStreamIndex].fTypeSet = FALSE;
if (!CheckTypesSet()) {
Flush();
FreeStreamingResources();
}
return NOERROR;
}
if (NULL == pmt) {
return E_POINTER;
}
HRESULT hr = INTERNAL_CALL(_DERIVED_, CheckOutputType)(ulStreamIndex, pmt);
if (FAILED(hr)) {
return hr;
}
if (dwFlags & DMO_SET_TYPEF_TEST_ONLY) {
return NOERROR;
}
// actually set the type
DMO_MEDIA_TYPE mtTemp;
if (S_OK == MoCopyMediaType(&mtTemp, pmt)) {
// Free any previous mediatype
if (OutputTypeSet(ulStreamIndex)) {
MoFreeMediaType(&m_OutputInfo[ulStreamIndex].CurrentMediaType);
}
m_OutputInfo[ulStreamIndex].CurrentMediaType = mtTemp;
m_OutputInfo[ulStreamIndex].fTypeSet = TRUE;
CheckTypesSet();
} else {
return E_OUTOFMEMORY;
}
return NOERROR;
}
STDMETHODIMP GetInputStatus(
ULONG ulStreamIndex,
DWORD *pdwStatus
) {
if (ulStreamIndex >= NUMBEROFINPUTS) {
return DMO_E_INVALIDSTREAMINDEX;
}
if (NULL == pdwStatus) {
return E_POINTER;
}
*pdwStatus = 0;
LockIt lck(static_cast<_DERIVED_ *>(this));
if (!m_fTypesSet) {
return DMO_E_TYPE_NOT_SET;
}
if (INTERNAL_CALL(_DERIVED_, AcceptingInput)(ulStreamIndex) == S_OK) {
*pdwStatus |= DMO_INPUT_STATUSF_ACCEPT_DATA;
}
return NOERROR;
}
STDMETHODIMP GetInputMaxLatency(unsigned long ulStreamIndex, REFERENCE_TIME *prtLatency) {
if (prtLatency == NULL) {
return E_POINTER;
}
if (ulStreamIndex >= NUMBEROFINPUTS) {
return DMO_E_INVALIDSTREAMINDEX;
}
LockIt lck(static_cast<_DERIVED_ *>(this));
return INTERNAL_CALL(_DERIVED_, GetInputMaxLatency)(ulStreamIndex, prtLatency);
}
STDMETHODIMP SetInputMaxLatency(unsigned long ulStreamIndex, REFERENCE_TIME rtLatency) {
if (ulStreamIndex >= NUMBEROFINPUTS) {
return DMO_E_INVALIDSTREAMINDEX;
}
LockIt lck(static_cast<_DERIVED_ *>(this));
return INTERNAL_CALL(_DERIVED_, SetInputMaxLatency)(ulStreamIndex, rtLatency);
}
STDMETHODIMP Discontinuity(ULONG ulStreamIndex) {
if (ulStreamIndex >= NUMBEROFINPUTS) {
return DMO_E_INVALIDSTREAMINDEX;
}
LockIt lck(static_cast<_DERIVED_ *>(this));
if (!m_fTypesSet) {
return DMO_E_TYPE_NOT_SET;
}
if (S_OK != INTERNAL_CALL(_DERIVED_, AcceptingInput)(ulStreamIndex)) {
return DMO_E_NOTACCEPTING;
}
return INTERNAL_CALL(_DERIVED_, Discontinuity)(ulStreamIndex);
}
STDMETHODIMP Flush()
{
LockIt lck(static_cast<_DERIVED_ *>(this));
if (!m_fTypesSet) {
return S_OK;
}
if (m_fFlushed) {
return S_OK;
}
HRESULT hr = INTERNAL_CALL(_DERIVED_, Flush)();
m_fFlushed = true;
return hr;
}
STDMETHODIMP AllocateStreamingResources() {
LockIt lck(static_cast<_DERIVED_ *>(this));
if (!m_fTypesSet) {
return DMO_E_TYPE_NOT_SET;
}
if (m_fResourcesAllocated) {
return S_OK;
}
HRESULT hr = INTERNAL_CALL(_DERIVED_, AllocateStreamingResources)();
if (SUCCEEDED(hr)) {
m_fResourcesAllocated = true;
}
return hr;
}
STDMETHODIMP FreeStreamingResources()
{
LockIt lck(static_cast<_DERIVED_ *>(this));
if (m_fResourcesAllocated) {
m_fResourcesAllocated = false;
INTERNAL_CALL(_DERIVED_, Flush)();
return INTERNAL_CALL(_DERIVED_, FreeStreamingResources)();
}
return S_OK;
}
//
// Processing methods - public entry points
//
STDMETHODIMP ProcessInput(
DWORD ulStreamIndex,
IMediaBuffer *pBuffer, // [in], must not be NULL
DWORD dwFlags, // [in] - discontinuity, timestamp, etc.
REFERENCE_TIME rtTimestamp, // [in], valid if flag set
REFERENCE_TIME rtTimelength // [in], valid if flag set
) {
if (!pBuffer) {
return E_POINTER;
}
if (ulStreamIndex >= NUMBEROFINPUTS) {
return DMO_E_INVALIDSTREAMINDEX;
}
if (dwFlags & ~(DMO_INPUT_DATA_BUFFERF_SYNCPOINT |
DMO_INPUT_DATA_BUFFERF_TIME |
DMO_INPUT_DATA_BUFFERF_TIMELENGTH)) {
return E_INVALIDARG;
}
LockIt lck(static_cast<_DERIVED_ *>(this));
// Make sure all streams have media types set and resources are allocated
HRESULT hr = AllocateStreamingResources();
if (FAILED(hr)) {
return hr;
}
if (INTERNAL_CALL(_DERIVED_, AcceptingInput)(ulStreamIndex) != S_OK) {
return DMO_E_NOTACCEPTING;
}
m_fFlushed = false;
return INTERNAL_CALL(_DERIVED_, ProcessInput)(
ulStreamIndex,
pBuffer,
dwFlags,
rtTimestamp,
rtTimelength);
}
STDMETHODIMP ProcessOutput(
DWORD dwFlags,
DWORD ulOutputBufferCount,
DMO_OUTPUT_DATA_BUFFER *pOutputBuffers,
DWORD *pdwStatus)
{
if (pdwStatus == NULL) {
return E_POINTER;
}
if (ulOutputBufferCount != NUMBEROFOUTPUTS || (dwFlags & ~DMO_PROCESS_OUTPUT_DISCARD_WHEN_NO_BUFFER)) {
return E_INVALIDARG;
}
if (NUMBEROFOUTPUTS != 0 && pOutputBuffers == NULL) {
return E_POINTER;
}
*pdwStatus = 0;
LockIt lck(static_cast<_DERIVED_ *>(this));
HRESULT hr = AllocateStreamingResources();
if (FAILED(hr)) {
return hr;
}
for (DWORD dw = 0; dw < NUMBEROFOUTPUTS; dw++) {
pOutputBuffers[dw].dwStatus = 0;
}
hr = INTERNAL_CALL(_DERIVED_, ProcessOutput)(
dwFlags,
ulOutputBufferCount,
pOutputBuffers,
pdwStatus);
// remember the DMO's incomplete status
for (dw = 0; dw < NUMBEROFOUTPUTS; dw++) {
if (pOutputBuffers[dw].dwStatus & DMO_OUTPUT_DATA_BUFFERF_INCOMPLETE) {
m_OutputInfo[dw].fIncomplete = TRUE;
} else {
m_OutputInfo[dw].fIncomplete = FALSE;
}
}
return hr;
}
STDMETHODIMP DMOLock(LONG lLock)
{
if (lLock) {
static_cast<_DERIVED_ *>(this)->Lock();
} else {
static_cast<_DERIVED_ *>(this)->Unlock();
}
return S_OK;
}
};
#endif // _dmoimpl_h_

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@ -1,110 +0,0 @@
//------------------------------------------------------------------------------
// File: DMOReg.h
//
// Desc:
//
// Copyright (c) 1999 - 2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
#ifndef __DMOREG_H__
#define __DMOREG_H__
#include "mediaobj.h"
// 57f2db8b-e6bb-4513-9d43-dcd2a6593125
DEFINE_GUID(DMOCATEGORY_AUDIO_DECODER, 0x57f2db8b,0xe6bb,0x4513,0x9d,0x43,0xdc,0xd2,0xa6,0x59,0x31,0x25);
// 33D9A761-90C8-11d0-BD43-00A0C911CE86
DEFINE_GUID(DMOCATEGORY_AUDIO_ENCODER, 0x33D9A761,0x90C8,0x11d0,0xBD,0x43,0x00,0xA0,0xC9,0x11,0xCE,0x86);
// 4a69b442-28be-4991-969c-b500adf5d8a8
DEFINE_GUID(DMOCATEGORY_VIDEO_DECODER, 0x4a69b442,0x28be,0x4991,0x96,0x9c,0xb5,0x00,0xad,0xf5,0xd8,0xa8);
// 33D9A760-90C8-11d0-BD43-00A0C911CE86
DEFINE_GUID(DMOCATEGORY_VIDEO_ENCODER, 0x33D9A760,0x90C8,0x11d0,0xBD,0x43,0x00,0xA0,0xC9,0x11,0xCE,0x86);
// f3602b3f-0592-48df-a4cd-674721e7ebeb
DEFINE_GUID(DMOCATEGORY_AUDIO_EFFECT, 0xf3602b3f,0x0592,0x48df,0xa4,0xcd,0x67,0x47,0x21,0xe7,0xeb,0xeb);
// d990ee14-776c-4723-be46-3da2f56f10b9
DEFINE_GUID(DMOCATEGORY_VIDEO_EFFECT, 0xd990ee14,0x776c,0x4723,0xbe,0x46,0x3d,0xa2,0xf5,0x6f,0x10,0xb9);
// f665aaba-3e09-4920-aa5f-219811148f09
DEFINE_GUID(DMOCATEGORY_AUDIO_CAPTURE_EFFECT, 0xf665aaba,0x3e09,0x4920,0xaa,0x5f,0x21,0x98,0x11,0x14,0x8f,0x09);
// Acoustic Echo Canceller {BF963D80-C559-11D0-8A2B-00A0C9255AC1}
// Matches KSNODETYPE_ACOUSTIC_ECHO_CANCEL in ksmedia.h
DEFINE_GUID(DMOCATEGORY_ACOUSTIC_ECHO_CANCEL, 0xBF963D80L, 0xC559, 0x11D0, 0x8A, 0x2B, 0x00, 0xA0, 0xC9, 0x25, 0x5A, 0xC1);
// Noise Supression {E07F903F-62FD-4e60-8CDD-DEA7236665B5}
// Matches KSNODETYPE_AUDIO_NOISE_SUPPRESS in post Windows ME DDK's ksmedia.h
DEFINE_GUID(DMOCATEGORY_AUDIO_NOISE_SUPPRESS, 0xe07f903f, 0x62fd, 0x4e60, 0x8c, 0xdd, 0xde, 0xa7, 0x23, 0x66, 0x65, 0xb5);
// Automatic Gain Control {E88C9BA0-C557-11D0-8A2B-00A0C9255AC1}
// Matches KSNODETYPE_AGC in ksmedia.h
DEFINE_GUID(DMOCATEGORY_AGC, 0xE88C9BA0L, 0xC557, 0x11D0, 0x8A, 0x2B, 0x00, 0xA0, 0xC9, 0x25, 0x5A, 0xC1);
typedef struct _DMO_PARTIAL_MEDIATYPE {
GUID type;
GUID subtype;
} DMO_PARTIAL_MEDIATYPE, *PDMO_PARTIAL_MEDIATYPE;
enum DMO_REGISTER_FLAGS {
DMO_REGISTERF_IS_KEYED = 0x00000001
};
enum DMO_ENUM_FLAGS {
DMO_ENUMF_INCLUDE_KEYED = 0x00000001
};
STDAPI DMORegister(
LPCWSTR szName,
REFCLSID clsidDMO,
REFGUID guidCategory,
DWORD dwFlags, // DMO_REGISTERF_XXX
//
// Register all mediatypes supported by the object. This carries no
// information about which combinations of input/output types would
// actually work.
//
DWORD cInTypes,
const DMO_PARTIAL_MEDIATYPE *pInTypes,
DWORD cOutTypes,
const DMO_PARTIAL_MEDIATYPE *pOutTypes
);
STDAPI DMOUnregister(
REFCLSID clsidDMO,
REFGUID guidCategory // optional - GUID_NULL means unregister from all
);
STDAPI DMOEnum(
REFGUID guidCategory, // GUID_NULL for "all"
DWORD dwFlags, // DMO_ENUMF_XXX
//
// Enumerate only objects that support at least one of the specified input types
// and at least one of the specified output types. If no input types are specified,
// enumerate objects regardless of what input types they support. Same for
// output types.
//
DWORD cInTypes,
const DMO_PARTIAL_MEDIATYPE *pInTypes, // can be NULL only of ulInTypes = 0
DWORD cOutTypes,
const DMO_PARTIAL_MEDIATYPE *pOutTypes, // can be NULL only of ulOutTypes = 0
//
// Output parameter - this receives a pointer to the DMO CLSID enumerator
//
IEnumDMO **ppEnum
);
STDAPI DMOGetTypes(
REFCLSID clsidDMO,
unsigned long ulInputTypesRequested,
unsigned long *pulInputTypesSupplied,
DMO_PARTIAL_MEDIATYPE *pInputTypes,
unsigned long ulOutputTypesRequested,
unsigned long *pulOutputTypesSupplied,
DMO_PARTIAL_MEDIATYPE *pOutputTypes
);
STDAPI DMOGetName(
REFCLSID clsidDMO,
WCHAR szName[80]
);
#endif //__DMOREG_H__

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//------------------------------------------------------------------------------
// File: DMORt.h
//
// Desc: Miscellaneous runtime support for DirectShow Media Objects
//
// Copyright (c) 1999 - 2001, Microsoft Corporation. All rights reserved.
//------------------------------------------------------------------------------
#ifndef __DMORT_H__
#define __DMORT_H__
//
// Mediatype helpers. MoInitMediaType() goes with MoFreeMediaType(), and
// MoCreateMediaType() goes with MoDeleteMediaType(). Don't mix them!
//
//
// Takes a pointer to an already allocated DMO_MEDIA_TYPE structure, allocates
// a format block of cbFormat bytes, and sets appropriate members of
// DMO_MEDIA_TYPE to point to the newly allocated format block. Also
// initializes the IUnknown pointer inside DMO_MEDIA_TYPE to NULL.
//
// The format block allocated by MoInitMediaType must be freed by calling
// MoFreeMediaType().
//
STDAPI MoInitMediaType(DMO_MEDIA_TYPE *pmt, DWORD cbFormat);
//
// Frees the format block and releases any IUnknown, but does not free the
// DMO_MEDIA_TYPE structure itself. Input parameter must point to an
// DMO_MEDIA_TYPE structure previously initialized by MoInitMediaType().
//
STDAPI MoFreeMediaType(DMO_MEDIA_TYPE *pmt);
//
// Copies the DMO_MEDIA_TYPE members. Also duplicates the format block and
// the IUnknown pointer. Both parameters must point to valid DMO_MEDIA_TYPE
// structures. Target structure must be later freed using MoFreeMediaType().
//
STDAPI MoCopyMediaType(DMO_MEDIA_TYPE *pmtDest, const DMO_MEDIA_TYPE *pmtSrc);
//
// Allocates a new DMO_MEDIA_TYPE structure and initializes it just like
// MoInitMediaType. I.e., this function allocates both the format block
// and the DMO_MEDIA_TYPE structure itself. Pointer to DMO_MEDIA_TYPE is
// returned as *ppmt.
//
// DMO_MEDIA_TYPE structures allocated by MoCreateMediaType() must be freed
// by calling MoDeleteMediaType().
//
STDAPI MoCreateMediaType(DMO_MEDIA_TYPE **ppmt, DWORD cbFormat);
//
// Frees any format block, releases any IUnknown, and deletes the
// DMO_MEDIA_TYPE structure itself. The input parameter must point to an
// DMO_MEDIA_TYPE structure previously allocated by MoCreateMediaType().
//
STDAPI MoDeleteMediaType(DMO_MEDIA_TYPE *pmt);
//
// Allocates a new DMO_MEDIA_TYPE structure and copies pmtSrc into it like
// MoCopyMediaType. I.e., this function allocates a new DMO_MEDIA_TYPE struct
// as well as a new format block for the target mediatype. Trager mediatype
// must later be freed using MoDeleteMediaType().
//
STDAPI MoDuplicateMediaType(DMO_MEDIA_TYPE **ppmtDest, const DMO_MEDIA_TYPE *pmtSrc);
#endif //__DMORT_H__

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/************************************************************************
* *
* dmplugin.h -- This module contains the API for plugins for the *
* DirectMusic performance layer *
* *
* Copyright (c) 1998-1999 Microsoft Corporation *
* *
************************************************************************/
#ifndef _DMPLUGIN_
#define _DMPLUGIN_
#include <windows.h>
#define COM_NO_WINDOWS_H
#include <objbase.h>
#include <mmsystem.h>
#include <dmusici.h>
#include <pshpack8.h>
#ifdef __cplusplus
extern "C" {
#endif
interface IDirectMusicTrack;
interface IDirectMusicTool;
interface IDirectMusicTool8;
interface IDirectMusicTrack8;
interface IDirectMusicPerformance;
interface IDirectMusicPerformance8;
interface IDirectMusicSegment;
interface IDirectMusicSegment8;
interface IDirectMusicSegmentState;
interface IDirectMusicSegmentState8;
interface IDirectMusicGraph;
#ifndef __cplusplus
typedef interface IDirectMusicTrack IDirectMusicTrack;
typedef interface IDirectMusicTool IDirectMusicTool;
typedef interface IDirectMusicTool8 IDirectMusicTool8;
typedef interface IDirectMusicTrack8 IDirectMusicTrack8;
typedef interface IDirectMusicPerformance IDirectMusicPerformance;
typedef interface IDirectMusicPerformance8 IDirectMusicPerformance8;
typedef interface IDirectMusicSegment IDirectMusicSegment;
typedef interface IDirectMusicSegment8 IDirectMusicSegment8;
typedef interface IDirectMusicSegmentState IDirectMusicSegmentState;
typedef interface IDirectMusicSegmentState8 IDirectMusicSegmentState8;
typedef interface IDirectMusicGraph IDirectMusicGraph;
#endif
typedef struct _DMUS_PMSG DMUS_PMSG;
typedef long MUSIC_TIME;
/* Registry location for tools */
#define DMUS_REGSTR_PATH_TOOLS "Software\\Microsoft\\DirectMusic\\Tools"
/*////////////////////////////////////////////////////////////////////
// IDirectMusicTool */
#undef INTERFACE
#define INTERFACE IDirectMusicTool
DECLARE_INTERFACE_(IDirectMusicTool, IUnknown)
{
/* IUnknown */
STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/* IDirectMusicTool */
STDMETHOD(Init) (THIS_ IDirectMusicGraph* pGraph) PURE;
STDMETHOD(GetMsgDeliveryType) (THIS_ DWORD* pdwDeliveryType ) PURE;
STDMETHOD(GetMediaTypeArraySize)(THIS_ DWORD* pdwNumElements ) PURE;
STDMETHOD(GetMediaTypes) (THIS_ DWORD** padwMediaTypes,
DWORD dwNumElements) PURE;
STDMETHOD(ProcessPMsg) (THIS_ IDirectMusicPerformance* pPerf,
DMUS_PMSG* pPMSG) PURE;
STDMETHOD(Flush) (THIS_ IDirectMusicPerformance* pPerf,
DMUS_PMSG* pPMSG,
REFERENCE_TIME rtTime) PURE;
};
/*////////////////////////////////////////////////////////////////////
// IDirectMusicTool8 */
#undef INTERFACE
#define INTERFACE IDirectMusicTool8
DECLARE_INTERFACE_(IDirectMusicTool8, IDirectMusicTool)
{
/* IUnknown */
STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/* IDirectMusicTool */
STDMETHOD(Init) (THIS_ IDirectMusicGraph* pGraph) PURE;
STDMETHOD(GetMsgDeliveryType) (THIS_ DWORD* pdwDeliveryType ) PURE;
STDMETHOD(GetMediaTypeArraySize)(THIS_ DWORD* pdwNumElements ) PURE;
STDMETHOD(GetMediaTypes) (THIS_ DWORD** padwMediaTypes,
DWORD dwNumElements) PURE;
STDMETHOD(ProcessPMsg) (THIS_ IDirectMusicPerformance* pPerf,
DMUS_PMSG* pPMSG) PURE;
STDMETHOD(Flush) (THIS_ IDirectMusicPerformance* pPerf,
DMUS_PMSG* pPMSG,
REFERENCE_TIME rtTime) PURE;
/* IDirectMusicTool8 */
STDMETHOD(Clone) (THIS_ IDirectMusicTool ** ppTool) PURE;
};
/* The following flags are sent in the IDirectMusicTrack::Play() method */
/* inside the dwFlags parameter */
typedef enum enumDMUS_TRACKF_FLAGS
{
DMUS_TRACKF_SEEK = 1, /* set on a seek */
DMUS_TRACKF_LOOP = 2, /* set on a loop (repeat) */
DMUS_TRACKF_START = 4, /* set on first call to Play */
DMUS_TRACKF_FLUSH = 8, /* set when this call is in response to a flush on the perfomance */
DMUS_TRACKF_DIRTY = 0x10, /* set when the track should consider any cached values from a previous call to GetParam to be invalidated */
/* The following flags are DX8 only. */
DMUS_TRACKF_NOTIFY_OFF = 0x20, /* tells track not to send notifications. */
DMUS_TRACKF_PLAY_OFF = 0x40, /* tells track not to play anything (but can still send notifications.) */
DMUS_TRACKF_LOOPEND = 0x80, /* set when the end of range is also a loop end. */
DMUS_TRACKF_STOP = 0x100, /* set when the end of range is also end of playing this segment. */
DMUS_TRACKF_RECOMPOSE = 0x200, /* set to indicate the track should compose. */
DMUS_TRACKF_CLOCK = 0x400, /* set when time parameters are in reference (clock) time. Only valid for PlayEx(). */
} DMUS_TRACKF_FLAGS;
/* The following flags are sent in the IDirectMusicTrack8::GetParamEx() and SetParamEx() methods */
/* inside the dwFlags parameter */
#define DMUS_TRACK_PARAMF_CLOCK 0x01 /* set when the time is measured is in reference (clock) time */
/*////////////////////////////////////////////////////////////////////
// IDirectMusicTrack */
#undef INTERFACE
#define INTERFACE IDirectMusicTrack
DECLARE_INTERFACE_(IDirectMusicTrack, IUnknown)
{
/* IUnknown */
STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/* IDirectMusicTrack */
STDMETHOD(Init) (THIS_ IDirectMusicSegment* pSegment) PURE;
STDMETHOD(InitPlay) (THIS_ IDirectMusicSegmentState* pSegmentState,
IDirectMusicPerformance* pPerformance,
void** ppStateData,
DWORD dwVirtualTrackID,
DWORD dwFlags) PURE;
STDMETHOD(EndPlay) (THIS_ void* pStateData) PURE;
STDMETHOD(Play) (THIS_ void* pStateData,
MUSIC_TIME mtStart,
MUSIC_TIME mtEnd,
MUSIC_TIME mtOffset,
DWORD dwFlags,
IDirectMusicPerformance* pPerf,
IDirectMusicSegmentState* pSegSt,
DWORD dwVirtualID) PURE;
STDMETHOD(GetParam) (THIS_ REFGUID rguidType,
MUSIC_TIME mtTime,
MUSIC_TIME* pmtNext,
void* pParam) PURE;
STDMETHOD(SetParam) (THIS_ REFGUID rguidType,
MUSIC_TIME mtTime,
void* pParam) PURE;
STDMETHOD(IsParamSupported) (THIS_ REFGUID rguidType) PURE;
STDMETHOD(AddNotificationType) (THIS_ REFGUID rguidNotificationType) PURE;
STDMETHOD(RemoveNotificationType) (THIS_ REFGUID rguidNotificationType) PURE;
STDMETHOD(Clone) (THIS_ MUSIC_TIME mtStart,
MUSIC_TIME mtEnd,
IDirectMusicTrack** ppTrack) PURE;
};
/*////////////////////////////////////////////////////////////////////
// IDirectMusicTrack8 */
#undef INTERFACE
#define INTERFACE IDirectMusicTrack8
DECLARE_INTERFACE_(IDirectMusicTrack8, IDirectMusicTrack)
{
/* IUnknown */
STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/* IDirectMusicTrack */
STDMETHOD(Init) (THIS_ IDirectMusicSegment* pSegment) PURE;
STDMETHOD(InitPlay) (THIS_ IDirectMusicSegmentState* pSegmentState,
IDirectMusicPerformance* pPerformance,
void** ppStateData,
DWORD dwVirtualTrackID,
DWORD dwFlags) PURE;
STDMETHOD(EndPlay) (THIS_ void* pStateData) PURE;
STDMETHOD(Play) (THIS_ void* pStateData,
MUSIC_TIME mtStart,
MUSIC_TIME mtEnd,
MUSIC_TIME mtOffset,
DWORD dwFlags,
IDirectMusicPerformance* pPerf,
IDirectMusicSegmentState* pSegSt,
DWORD dwVirtualID) PURE;
STDMETHOD(GetParam) (THIS_ REFGUID rguidType,
MUSIC_TIME mtTime,
MUSIC_TIME* pmtNext,
void* pParam) PURE;
STDMETHOD(SetParam) (THIS_ REFGUID rguidType,
MUSIC_TIME mtTime,
void* pParam) PURE;
STDMETHOD(IsParamSupported) (THIS_ REFGUID rguidType) PURE;
STDMETHOD(AddNotificationType) (THIS_ REFGUID rguidNotificationType) PURE;
STDMETHOD(RemoveNotificationType) (THIS_ REFGUID rguidNotificationType) PURE;
STDMETHOD(Clone) (THIS_ MUSIC_TIME mtStart,
MUSIC_TIME mtEnd,
IDirectMusicTrack** ppTrack) PURE;
/* IDirectMusicTrack8 */
STDMETHOD(PlayEx) (THIS_ void* pStateData,
REFERENCE_TIME rtStart,
REFERENCE_TIME rtEnd,
REFERENCE_TIME rtOffset,
DWORD dwFlags,
IDirectMusicPerformance* pPerf,
IDirectMusicSegmentState* pSegSt,
DWORD dwVirtualID) PURE;
STDMETHOD(GetParamEx) (THIS_ REFGUID rguidType, /* Command type. */
REFERENCE_TIME rtTime, /* Time, in ref time if dwFlags == DMUS_TRACK_PARAMF_CLOCK. Otherwise, music time. */
REFERENCE_TIME* prtNext, /* Time of next parameter, relative to rtTime, in music or clock time units. */
void* pParam, /* Pointer to the parameter data. */
void * pStateData, /* State data for track instance. */
DWORD dwFlags) PURE; /* Control flags. */
STDMETHOD(SetParamEx) (THIS_ REFGUID rguidType,
REFERENCE_TIME rtTime,
void* pParam, /* Pointer to the parameter data. */
void * pStateData, /* State data for track instance. */
DWORD dwFlags) PURE; /* Control flags. */
STDMETHOD(Compose) (THIS_ IUnknown* pContext, /* Context for composition (song or segment) */
DWORD dwTrackGroup,
IDirectMusicTrack** ppResultTrack) PURE;
STDMETHOD(Join) (THIS_ IDirectMusicTrack* pNewTrack,
MUSIC_TIME mtJoin,
IUnknown* pContext, /* Context for joining (song or segment) */
DWORD dwTrackGroup,
IDirectMusicTrack** ppResultTrack) PURE;
};
/* CLSID's */
DEFINE_GUID(CLSID_DirectMusicTempoTrack,0xd2ac2885, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(CLSID_DirectMusicSeqTrack,0xd2ac2886, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(CLSID_DirectMusicSysExTrack,0xd2ac2887, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(CLSID_DirectMusicTimeSigTrack,0xd2ac2888, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(CLSID_DirectMusicChordTrack,0xd2ac288b, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(CLSID_DirectMusicCommandTrack,0xd2ac288c, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(CLSID_DirectMusicStyleTrack,0xd2ac288d, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(CLSID_DirectMusicMotifTrack,0xd2ac288e, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(CLSID_DirectMusicSignPostTrack,0xf17e8672, 0xc3b4, 0x11d1, 0x87, 0xb, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(CLSID_DirectMusicBandTrack,0xd2ac2894, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(CLSID_DirectMusicChordMapTrack,0xd2ac2896, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(CLSID_DirectMusicMuteTrack,0xd2ac2898, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
/* New CLSID's for DX8 */
DEFINE_GUID(CLSID_DirectMusicScriptTrack,0x4108fa85, 0x3586, 0x11d3, 0x8b, 0xd7, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xb6); /* {4108FA85-3586-11d3-8BD7-00600893B1B6} */
DEFINE_GUID(CLSID_DirectMusicMarkerTrack,0x55a8fd00, 0x4288, 0x11d3, 0x9b, 0xd1, 0x8a, 0xd, 0x61, 0xc8, 0x88, 0x35);
DEFINE_GUID(CLSID_DirectMusicSegmentTriggerTrack, 0xbae4d665, 0x4ea1, 0x11d3, 0x8b, 0xda, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xb6); /* {BAE4D665-4EA1-11d3-8BDA-00600893B1B6} */
DEFINE_GUID(CLSID_DirectMusicLyricsTrack, 0x995c1cf5, 0x54ff, 0x11d3, 0x8b, 0xda, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xb6); /* {995C1CF5-54FF-11d3-8BDA-00600893B1B6} */
DEFINE_GUID(CLSID_DirectMusicParamControlTrack, 0x4be0537b, 0x5c19, 0x11d3, 0x8b, 0xdc, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xb6); /* {4BE0537B-5C19-11d3-8BDC-00600893B1B6} */
DEFINE_GUID(CLSID_DirectMusicMelodyFormulationTrack, 0xb0684266, 0xb57f, 0x11d2, 0x97, 0xf9, 0x0, 0xc0, 0x4f, 0xa3, 0x6e, 0x58);
DEFINE_GUID(CLSID_DirectMusicWaveTrack,0xeed36461, 0x9ea5, 0x11d3, 0x9b, 0xd1, 0x0, 0x80, 0xc7, 0x15, 0xa, 0x74);
/* IID's */
DEFINE_GUID(IID_IDirectMusicTrack, 0xf96029a1, 0x4282, 0x11d2, 0x87, 0x17, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(IID_IDirectMusicTool,0xd2ac28ba, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
/* Interface IDs for DX8 */
/* changed interfaces (GUID only) */
DEFINE_GUID(IID_IDirectMusicTool8, 0xe674303, 0x3b05, 0x11d3, 0x9b, 0xd1, 0xf9, 0xe7, 0xf0, 0xa0, 0x15, 0x36);
DEFINE_GUID(IID_IDirectMusicTrack8, 0xe674304, 0x3b05, 0x11d3, 0x9b, 0xd1, 0xf9, 0xe7, 0xf0, 0xa0, 0x15, 0x36);
#ifdef __cplusplus
}; /* extern "C" */
#endif
#include <poppack.h>
#endif /* #ifndef _DMPLUGIN_ */

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/***************************************************************************
* *
* DMusBuff.h -- This module defines the buffer format for DirectMusic *
* Shared file between user mode and kernel mode components *
* *
* Copyright (c) 1998, Microsoft Corp. All rights reserved. *
* *
***************************************************************************/
#ifndef _DMusBuff_
#define _DMusBuff_
/* Format of DirectMusic events in a buffer
*
* A buffer contains 1 or more events, each with the following header.
* Immediately following the header is the event data. The header+data
* size is rounded to the nearest quadword (8 bytes).
*/
#include <pshpack4.h> /* Do not pad at end - that's where the data is */
typedef struct _DMUS_EVENTHEADER *LPDMUS_EVENTHEADER;
typedef struct _DMUS_EVENTHEADER
{
DWORD cbEvent; /* Unrounded bytes in event */
DWORD dwChannelGroup; /* Channel group of event */
REFERENCE_TIME rtDelta; /* Delta from start time of entire buffer */
DWORD dwFlags; /* Flags DMUS_EVENT_xxx */
} DMUS_EVENTHEADER;
#include <poppack.h>
#define DMUS_EVENT_STRUCTURED 0x00000001 /* Unstructured data (SysEx, etc.) */
/* The number of bytes to allocate for an event with 'cb' data bytes.
*/
#define QWORD_ALIGN(x) (((x) + 7) & ~7)
#define DMUS_EVENT_SIZE(cb) QWORD_ALIGN(sizeof(DMUS_EVENTHEADER) + cb)
#endif /* _DMusBuff_ */

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/************************************************************************
* *
* dmusicc.h -- This module defines the DirectMusic core API's *
* *
* Copyright (c) 1998-1999 Microsoft Corporation
* *
************************************************************************/
#ifndef _DMUSICC_
#define _DMUSICC_
#include <windows.h>
#define COM_NO_WINDOWS_H
#include <objbase.h>
#include <mmsystem.h>
#include "dls1.h"
#include "dmerror.h"
#include "dmdls.h"
#include "dsound.h"
#include "dmusbuff.h"
#include <pshpack8.h>
#ifdef __cplusplus
extern "C" {
#endif
typedef ULONGLONG SAMPLE_TIME;
typedef ULONGLONG SAMPLE_POSITION;
typedef SAMPLE_TIME *LPSAMPLE_TIME;
#define DMUS_MAX_DESCRIPTION 128
#define DMUS_MAX_DRIVER 128
typedef struct _DMUS_BUFFERDESC *LPDMUS_BUFFERDESC;
typedef struct _DMUS_BUFFERDESC
{
DWORD dwSize;
DWORD dwFlags;
GUID guidBufferFormat;
DWORD cbBuffer;
} DMUS_BUFFERDESC;
/* DMUS_EFFECT_ flags are used in the dwEffectFlags fields of both DMUS_PORTCAPS
* and DMUS_PORTPARAMS.
*/
#define DMUS_EFFECT_NONE 0x00000000
#define DMUS_EFFECT_REVERB 0x00000001
#define DMUS_EFFECT_CHORUS 0x00000002
#define DMUS_EFFECT_DELAY 0x00000004
/* For DMUS_PORTCAPS dwClass
*/
#define DMUS_PC_INPUTCLASS (0)
#define DMUS_PC_OUTPUTCLASS (1)
/* For DMUS_PORTCAPS dwFlags
*/
#define DMUS_PC_DLS (0x00000001) // Supports DLS downloading and DLS level 1.
#define DMUS_PC_EXTERNAL (0x00000002) // External MIDI module.
#define DMUS_PC_SOFTWARESYNTH (0x00000004) // Software synthesizer.
#define DMUS_PC_MEMORYSIZEFIXED (0x00000008) // Memory size is fixed.
#define DMUS_PC_GMINHARDWARE (0x00000010) // GM sound set is built in, no need to download.
#define DMUS_PC_GSINHARDWARE (0x00000020) // GS sound set is built in.
#define DMUS_PC_XGINHARDWARE (0x00000040) // XG sound set is built in.
#define DMUS_PC_DIRECTSOUND (0x00000080) // Connects to DirectSound via a DSound buffer.
#define DMUS_PC_SHAREABLE (0x00000100) // Synth can be actively shared by multiple apps at once.
#define DMUS_PC_DLS2 (0x00000200) // Supports DLS2 instruments.
#define DMUS_PC_AUDIOPATH (0x00000400) // Multiple outputs can be connected to DirectSound for audiopaths.
#define DMUS_PC_WAVE (0x00000800) // Supports streaming and one shot waves.
#define DMUS_PC_SYSTEMMEMORY (0x7FFFFFFF) // Sample memory is system memory.
typedef struct _DMUS_PORTCAPS
{
DWORD dwSize;
DWORD dwFlags;
GUID guidPort;
DWORD dwClass;
DWORD dwType;
DWORD dwMemorySize;
DWORD dwMaxChannelGroups;
DWORD dwMaxVoices;
DWORD dwMaxAudioChannels;
DWORD dwEffectFlags;
WCHAR wszDescription[DMUS_MAX_DESCRIPTION];
} DMUS_PORTCAPS;
typedef DMUS_PORTCAPS *LPDMUS_PORTCAPS;
/* Values for DMUS_PORTCAPS dwType. This field indicates the underlying
* driver type of the port.
*/
#define DMUS_PORT_WINMM_DRIVER (0)
#define DMUS_PORT_USER_MODE_SYNTH (1)
#define DMUS_PORT_KERNEL_MODE (2)
/* These flags (set in dwValidParams) indicate which other members of the */
/* DMUS_PORTPARAMS are valid. */
/* */
#define DMUS_PORTPARAMS_VOICES 0x00000001
#define DMUS_PORTPARAMS_CHANNELGROUPS 0x00000002
#define DMUS_PORTPARAMS_AUDIOCHANNELS 0x00000004
#define DMUS_PORTPARAMS_SAMPLERATE 0x00000008
#define DMUS_PORTPARAMS_EFFECTS 0x00000020
#define DMUS_PORTPARAMS_SHARE 0x00000040
#define DMUS_PORTPARAMS_FEATURES 0x00000080 /* DirectX 8.0 and above */
typedef struct _DMUS_PORTPARAMS
{
DWORD dwSize;
DWORD dwValidParams;
DWORD dwVoices;
DWORD dwChannelGroups;
DWORD dwAudioChannels;
DWORD dwSampleRate;
DWORD dwEffectFlags;
BOOL fShare;
} DMUS_PORTPARAMS7;
typedef struct _DMUS_PORTPARAMS8
{
DWORD dwSize;
DWORD dwValidParams;
DWORD dwVoices;
DWORD dwChannelGroups;
DWORD dwAudioChannels;
DWORD dwSampleRate;
DWORD dwEffectFlags;
BOOL fShare;
DWORD dwFeatures;
} DMUS_PORTPARAMS8;
#define DMUS_PORT_FEATURE_AUDIOPATH 0x00000001 /* Supports audiopath connection to DSound buffers. */
#define DMUS_PORT_FEATURE_STREAMING 0x00000002 /* Supports streaming waves through the synth. */
typedef DMUS_PORTPARAMS8 DMUS_PORTPARAMS;
typedef DMUS_PORTPARAMS *LPDMUS_PORTPARAMS;
typedef struct _DMUS_SYNTHSTATS *LPDMUS_SYNTHSTATS;
typedef struct _DMUS_SYNTHSTATS8 *LPDMUS_SYNTHSTATS8;
typedef struct _DMUS_SYNTHSTATS
{
DWORD dwSize; /* Size in bytes of the structure */
DWORD dwValidStats; /* Flags indicating which fields below are valid. */
DWORD dwVoices; /* Average number of voices playing. */
DWORD dwTotalCPU; /* Total CPU usage as percent * 100. */
DWORD dwCPUPerVoice; /* CPU per voice as percent * 100. */
DWORD dwLostNotes; /* Number of notes lost in 1 second. */
DWORD dwFreeMemory; /* Free memory in bytes */
long lPeakVolume; /* Decibel level * 100. */
} DMUS_SYNTHSTATS;
typedef struct _DMUS_SYNTHSTATS8
{
DWORD dwSize; /* Size in bytes of the structure */
DWORD dwValidStats; /* Flags indicating which fields below are valid. */
DWORD dwVoices; /* Average number of voices playing. */
DWORD dwTotalCPU; /* Total CPU usage as percent * 100. */
DWORD dwCPUPerVoice; /* CPU per voice as percent * 100. */
DWORD dwLostNotes; /* Number of notes lost in 1 second. */
DWORD dwFreeMemory; /* Free memory in bytes */
long lPeakVolume; /* Decibel level * 100. */
DWORD dwSynthMemUse; /* Memory used by synth wave data */
} DMUS_SYNTHSTATS8;
#define DMUS_SYNTHSTATS_VOICES (1 << 0)
#define DMUS_SYNTHSTATS_TOTAL_CPU (1 << 1)
#define DMUS_SYNTHSTATS_CPU_PER_VOICE (1 << 2)
#define DMUS_SYNTHSTATS_LOST_NOTES (1 << 3)
#define DMUS_SYNTHSTATS_PEAK_VOLUME (1 << 4)
#define DMUS_SYNTHSTATS_FREE_MEMORY (1 << 5)
#define DMUS_SYNTHSTATS_SYSTEMMEMORY DMUS_PC_SYSTEMMEMORY
typedef struct _DMUS_WAVES_REVERB_PARAMS
{
float fInGain; /* Input gain in dB (to avoid output overflows) */
float fReverbMix; /* Reverb mix in dB. 0dB means 100% wet reverb (no direct signal)
Negative values gives less wet signal.
The coeficients are calculated so that the overall output level stays
(approximately) constant regardless of the ammount of reverb mix. */
float fReverbTime; /* The reverb decay time, in milliseconds. */
float fHighFreqRTRatio; /* The ratio of the high frequencies to the global reverb time.
Unless very 'splashy-bright' reverbs are wanted, this should be set to
a value < 1.0.
For example if dRevTime==1000ms and dHighFreqRTRatio=0.1 than the
decay time for high frequencies will be 100ms.*/
} DMUS_WAVES_REVERB_PARAMS;
/* Note: Default values for Reverb are:
fInGain = 0.0dB (no change in level)
fReverbMix = -10.0dB (a reasonable reverb mix)
fReverbTime = 1000.0ms (one second global reverb time)
fHighFreqRTRatio = 0.001 (the ratio of the high frequencies to the global reverb time)
*/
typedef enum
{
DMUS_CLOCK_SYSTEM = 0,
DMUS_CLOCK_WAVE = 1
} DMUS_CLOCKTYPE;
#define DMUS_CLOCKF_GLOBAL 0x00000001
typedef struct _DMUS_CLOCKINFO7 *LPDMUS_CLOCKINFO7;
typedef struct _DMUS_CLOCKINFO7
{
DWORD dwSize;
DMUS_CLOCKTYPE ctType;
GUID guidClock; /* Identifies this time source */
WCHAR wszDescription[DMUS_MAX_DESCRIPTION];
} DMUS_CLOCKINFO7;
typedef struct _DMUS_CLOCKINFO8 *LPDMUS_CLOCKINFO8;
typedef struct _DMUS_CLOCKINFO8
{
DWORD dwSize;
DMUS_CLOCKTYPE ctType;
GUID guidClock; /* Identifies this time source */
WCHAR wszDescription[DMUS_MAX_DESCRIPTION];
DWORD dwFlags;
} DMUS_CLOCKINFO8;
typedef DMUS_CLOCKINFO8 DMUS_CLOCKINFO;
typedef DMUS_CLOCKINFO *LPDMUS_CLOCKINFO;
/* Default bus identifiers
*
* The first 17 are direct mappings to the destinations defined in both
* the MMA DLS Level 2 specification and the Microsoft Multi-Channel audio
* specification.
*/
#define DSBUSID_FIRST_SPKR_LOC 0
#define DSBUSID_FRONT_LEFT 0
#define DSBUSID_LEFT 0 /* Front left is also just left */
#define DSBUSID_FRONT_RIGHT 1
#define DSBUSID_RIGHT 1 /* Ditto front right */
#define DSBUSID_FRONT_CENTER 2
#define DSBUSID_LOW_FREQUENCY 3
#define DSBUSID_BACK_LEFT 4
#define DSBUSID_BACK_RIGHT 5
#define DSBUSID_FRONT_LEFT_OF_CENTER 6
#define DSBUSID_FRONT_RIGHT_OF_CENTER 7
#define DSBUSID_BACK_CENTER 8
#define DSBUSID_SIDE_LEFT 9
#define DSBUSID_SIDE_RIGHT 10
#define DSBUSID_TOP_CENTER 11
#define DSBUSID_TOP_FRONT_LEFT 12
#define DSBUSID_TOP_FRONT_CENTER 13
#define DSBUSID_TOP_FRONT_RIGHT 14
#define DSBUSID_TOP_BACK_LEFT 15
#define DSBUSID_TOP_BACK_CENTER 16
#define DSBUSID_TOP_BACK_RIGHT 17
#define DSBUSID_LAST_SPKR_LOC 17
#define DSBUSID_IS_SPKR_LOC(id) ( ((id) >= DSBUSID_FIRST_SPKR_LOC) && ((id) <= DSBUSID_LAST_SPKR_LOC) )
/* These bus identifiers are for the standard DLS effect sends
*/
#define DSBUSID_REVERB_SEND 64
#define DSBUSID_CHORUS_SEND 65
/* Dynamic bus identifiers start here. See the documentation for how
* synthesizers map the output of voices to static and dynamic
* bus identifiers.
*/
#define DSBUSID_DYNAMIC_0 512
/* Null bus, used to identify busses that have no function mapping.
*/
#define DSBUSID_NULL 0xFFFFFFFF
interface IDirectMusic;
interface IDirectMusic8;
interface IDirectMusicBuffer;
interface IDirectMusicPort;
interface IDirectMusicThru;
interface IReferenceClock;
#ifndef __cplusplus
typedef interface IDirectMusic IDirectMusic;
typedef interface IDirectMusic8 IDirectMusic8;
typedef interface IDirectMusicPort IDirectMusicPort;
typedef interface IDirectMusicBuffer IDirectMusicBuffer;
typedef interface IDirectMusicThru IDirectMusicThru;
typedef interface IReferenceClock IReferenceClock;
#endif /* C++ */
typedef IDirectMusic *LPDIRECTMUSIC;
typedef IDirectMusic8 *LPDIRECTMUSIC8;
typedef IDirectMusicPort *LPDIRECTMUSICPORT;
typedef IDirectMusicBuffer *LPDIRECTMUSICBUFFER;
#undef INTERFACE
#define INTERFACE IDirectMusic
DECLARE_INTERFACE_(IDirectMusic, IUnknown)
{
/* IUnknown */
STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/* IDirectMusic */
STDMETHOD(EnumPort) (THIS_ DWORD dwIndex,
LPDMUS_PORTCAPS pPortCaps) PURE;
STDMETHOD(CreateMusicBuffer) (THIS_ LPDMUS_BUFFERDESC pBufferDesc,
LPDIRECTMUSICBUFFER *ppBuffer,
LPUNKNOWN pUnkOuter) PURE;
STDMETHOD(CreatePort) (THIS_ REFCLSID rclsidPort,
LPDMUS_PORTPARAMS pPortParams,
LPDIRECTMUSICPORT *ppPort,
LPUNKNOWN pUnkOuter) PURE;
STDMETHOD(EnumMasterClock) (THIS_ DWORD dwIndex,
LPDMUS_CLOCKINFO lpClockInfo) PURE;
STDMETHOD(GetMasterClock) (THIS_ LPGUID pguidClock,
IReferenceClock **ppReferenceClock) PURE;
STDMETHOD(SetMasterClock) (THIS_ REFGUID rguidClock) PURE;
STDMETHOD(Activate) (THIS_ BOOL fEnable) PURE;
STDMETHOD(GetDefaultPort) (THIS_ LPGUID pguidPort) PURE;
STDMETHOD(SetDirectSound) (THIS_ LPDIRECTSOUND pDirectSound,
HWND hWnd) PURE;
};
#undef INTERFACE
#define INTERFACE IDirectMusic8
DECLARE_INTERFACE_(IDirectMusic8, IDirectMusic)
{
/* IUnknown */
STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/* IDirectMusic */
STDMETHOD(EnumPort) (THIS_ DWORD dwIndex,
LPDMUS_PORTCAPS pPortCaps) PURE;
STDMETHOD(CreateMusicBuffer) (THIS_ LPDMUS_BUFFERDESC pBufferDesc,
LPDIRECTMUSICBUFFER *ppBuffer,
LPUNKNOWN pUnkOuter) PURE;
STDMETHOD(CreatePort) (THIS_ REFCLSID rclsidPort,
LPDMUS_PORTPARAMS pPortParams,
LPDIRECTMUSICPORT *ppPort,
LPUNKNOWN pUnkOuter) PURE;
STDMETHOD(EnumMasterClock) (THIS_ DWORD dwIndex,
LPDMUS_CLOCKINFO lpClockInfo) PURE;
STDMETHOD(GetMasterClock) (THIS_ LPGUID pguidClock,
IReferenceClock **ppReferenceClock) PURE;
STDMETHOD(SetMasterClock) (THIS_ REFGUID rguidClock) PURE;
STDMETHOD(Activate) (THIS_ BOOL fEnable) PURE;
STDMETHOD(GetDefaultPort) (THIS_ LPGUID pguidPort) PURE;
STDMETHOD(SetDirectSound) (THIS_ LPDIRECTSOUND pDirectSound,
HWND hWnd) PURE;
/* IDirectMusic8 */
STDMETHOD(SetExternalMasterClock)
(THIS_ IReferenceClock *pClock) PURE;
};
#undef INTERFACE
#define INTERFACE IDirectMusicBuffer
DECLARE_INTERFACE_(IDirectMusicBuffer, IUnknown)
{
/* IUnknown */
STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/* IDirectMusicBuffer */
STDMETHOD(Flush) (THIS) PURE;
STDMETHOD(TotalTime) (THIS_ LPREFERENCE_TIME prtTime) PURE;
STDMETHOD(PackStructured) (THIS_ REFERENCE_TIME rt,
DWORD dwChannelGroup,
DWORD dwChannelMessage) PURE;
STDMETHOD(PackUnstructured) (THIS_ REFERENCE_TIME rt,
DWORD dwChannelGroup,
DWORD cb,
LPBYTE lpb) PURE;
STDMETHOD(ResetReadPtr) (THIS) PURE;
STDMETHOD(GetNextEvent) (THIS_ LPREFERENCE_TIME prt,
LPDWORD pdwChannelGroup,
LPDWORD pdwLength,
LPBYTE *ppData) PURE;
STDMETHOD(GetRawBufferPtr) (THIS_ LPBYTE *ppData) PURE;
STDMETHOD(GetStartTime) (THIS_ LPREFERENCE_TIME prt) PURE;
STDMETHOD(GetUsedBytes) (THIS_ LPDWORD pcb) PURE;
STDMETHOD(GetMaxBytes) (THIS_ LPDWORD pcb) PURE;
STDMETHOD(GetBufferFormat) (THIS_ LPGUID pGuidFormat) PURE;
STDMETHOD(SetStartTime) (THIS_ REFERENCE_TIME rt) PURE;
STDMETHOD(SetUsedBytes) (THIS_ DWORD cb) PURE;
};
typedef IDirectMusicBuffer IDirectMusicBuffer8;
typedef IDirectMusicBuffer8 *LPDIRECTMUSICBUFFER8;
#undef INTERFACE
#define INTERFACE IDirectMusicInstrument
DECLARE_INTERFACE_(IDirectMusicInstrument, IUnknown)
{
/* IUnknown */
STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/* IDirectMusicInstrument */
STDMETHOD(GetPatch) (THIS_ DWORD* pdwPatch) PURE;
STDMETHOD(SetPatch) (THIS_ DWORD dwPatch) PURE;
};
typedef IDirectMusicInstrument IDirectMusicInstrument8;
typedef IDirectMusicInstrument8 *LPDIRECTMUSICINSTRUMENT8;
#undef INTERFACE
#define INTERFACE IDirectMusicDownloadedInstrument
DECLARE_INTERFACE_(IDirectMusicDownloadedInstrument, IUnknown)
{
/* IUnknown */
STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/* IDirectMusicDownloadedInstrument */
/* None at this time */
};
typedef IDirectMusicDownloadedInstrument IDirectMusicDownloadedInstrument8;
typedef IDirectMusicDownloadedInstrument8 *LPDIRECTMUSICDOWNLOADEDINSTRUMENT8;
#undef INTERFACE
#define INTERFACE IDirectMusicCollection
DECLARE_INTERFACE_(IDirectMusicCollection, IUnknown)
{
/* IUnknown */
STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/* IDirectMusicCollection */
STDMETHOD(GetInstrument) (THIS_ DWORD dwPatch,
IDirectMusicInstrument** ppInstrument) PURE;
STDMETHOD(EnumInstrument) (THIS_ DWORD dwIndex,
DWORD* pdwPatch,
LPWSTR pwszName,
DWORD dwNameLen) PURE;
};
typedef IDirectMusicCollection IDirectMusicCollection8;
typedef IDirectMusicCollection8 *LPDIRECTMUSICCOLLECTION8;
#undef INTERFACE
#define INTERFACE IDirectMusicDownload
DECLARE_INTERFACE_(IDirectMusicDownload , IUnknown)
{
/* IUnknown */
STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/* IDirectMusicDownload */
STDMETHOD(GetBuffer) (THIS_ void** ppvBuffer,
DWORD* pdwSize) PURE;
};
typedef IDirectMusicDownload IDirectMusicDownload8;
typedef IDirectMusicDownload8 *LPDIRECTMUSICDOWNLOAD8;
#undef INTERFACE
#define INTERFACE IDirectMusicPortDownload
DECLARE_INTERFACE_(IDirectMusicPortDownload, IUnknown)
{
/* IUnknown */
STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/* IDirectMusicPortDownload */
STDMETHOD(GetBuffer) (THIS_ DWORD dwDLId,
IDirectMusicDownload** ppIDMDownload) PURE;
STDMETHOD(AllocateBuffer) (THIS_ DWORD dwSize,
IDirectMusicDownload** ppIDMDownload) PURE;
STDMETHOD(GetDLId) (THIS_ DWORD* pdwStartDLId,
DWORD dwCount) PURE;
STDMETHOD(GetAppend) (THIS_ DWORD* pdwAppend) PURE;
STDMETHOD(Download) (THIS_ IDirectMusicDownload* pIDMDownload) PURE;
STDMETHOD(Unload) (THIS_ IDirectMusicDownload* pIDMDownload) PURE;
};
typedef IDirectMusicPortDownload IDirectMusicPortDownload8;
typedef IDirectMusicPortDownload8 *LPDIRECTMUSICPORTDOWNLOAD8;
/* Standard values for voice priorities. Numerically higher priorities are higher in priority.
* These priorities are used to set the voice priority for all voices on a channel. They are
* used in the dwPriority parameter of IDirectMusicPort::GetPriority and returned in the
* lpwPriority parameter of pdwPriority.
*
* These priorities are shared with DirectSound.
*/
#ifndef _DIRECTAUDIO_PRIORITIES_DEFINED_
#define _DIRECTAUDIO_PRIORITIES_DEFINED_
#define DAUD_CRITICAL_VOICE_PRIORITY (0xF0000000)
#define DAUD_HIGH_VOICE_PRIORITY (0xC0000000)
#define DAUD_STANDARD_VOICE_PRIORITY (0x80000000)
#define DAUD_LOW_VOICE_PRIORITY (0x40000000)
#define DAUD_PERSIST_VOICE_PRIORITY (0x10000000)
/* These are the default priorities assigned if not overridden. By default priorities are
* equal across channel groups (e.g. channel 5 on channel group 1 has the same priority as
* channel 5 on channel group 2).
*
* In accordance with DLS level 1, channel 10 has the highest priority, followed by 1 through 16
* except for 10.
*/
#define DAUD_CHAN1_VOICE_PRIORITY_OFFSET (0x0000000E)
#define DAUD_CHAN2_VOICE_PRIORITY_OFFSET (0x0000000D)
#define DAUD_CHAN3_VOICE_PRIORITY_OFFSET (0x0000000C)
#define DAUD_CHAN4_VOICE_PRIORITY_OFFSET (0x0000000B)
#define DAUD_CHAN5_VOICE_PRIORITY_OFFSET (0x0000000A)
#define DAUD_CHAN6_VOICE_PRIORITY_OFFSET (0x00000009)
#define DAUD_CHAN7_VOICE_PRIORITY_OFFSET (0x00000008)
#define DAUD_CHAN8_VOICE_PRIORITY_OFFSET (0x00000007)
#define DAUD_CHAN9_VOICE_PRIORITY_OFFSET (0x00000006)
#define DAUD_CHAN10_VOICE_PRIORITY_OFFSET (0x0000000F)
#define DAUD_CHAN11_VOICE_PRIORITY_OFFSET (0x00000005)
#define DAUD_CHAN12_VOICE_PRIORITY_OFFSET (0x00000004)
#define DAUD_CHAN13_VOICE_PRIORITY_OFFSET (0x00000003)
#define DAUD_CHAN14_VOICE_PRIORITY_OFFSET (0x00000002)
#define DAUD_CHAN15_VOICE_PRIORITY_OFFSET (0x00000001)
#define DAUD_CHAN16_VOICE_PRIORITY_OFFSET (0x00000000)
#define DAUD_CHAN1_DEF_VOICE_PRIORITY (DAUD_STANDARD_VOICE_PRIORITY | DAUD_CHAN1_VOICE_PRIORITY_OFFSET)
#define DAUD_CHAN2_DEF_VOICE_PRIORITY (DAUD_STANDARD_VOICE_PRIORITY | DAUD_CHAN2_VOICE_PRIORITY_OFFSET)
#define DAUD_CHAN3_DEF_VOICE_PRIORITY (DAUD_STANDARD_VOICE_PRIORITY | DAUD_CHAN3_VOICE_PRIORITY_OFFSET)
#define DAUD_CHAN4_DEF_VOICE_PRIORITY (DAUD_STANDARD_VOICE_PRIORITY | DAUD_CHAN4_VOICE_PRIORITY_OFFSET)
#define DAUD_CHAN5_DEF_VOICE_PRIORITY (DAUD_STANDARD_VOICE_PRIORITY | DAUD_CHAN5_VOICE_PRIORITY_OFFSET)
#define DAUD_CHAN6_DEF_VOICE_PRIORITY (DAUD_STANDARD_VOICE_PRIORITY | DAUD_CHAN6_VOICE_PRIORITY_OFFSET)
#define DAUD_CHAN7_DEF_VOICE_PRIORITY (DAUD_STANDARD_VOICE_PRIORITY | DAUD_CHAN7_VOICE_PRIORITY_OFFSET)
#define DAUD_CHAN8_DEF_VOICE_PRIORITY (DAUD_STANDARD_VOICE_PRIORITY | DAUD_CHAN8_VOICE_PRIORITY_OFFSET)
#define DAUD_CHAN9_DEF_VOICE_PRIORITY (DAUD_STANDARD_VOICE_PRIORITY | DAUD_CHAN9_VOICE_PRIORITY_OFFSET)
#define DAUD_CHAN10_DEF_VOICE_PRIORITY (DAUD_STANDARD_VOICE_PRIORITY | DAUD_CHAN10_VOICE_PRIORITY_OFFSET)
#define DAUD_CHAN11_DEF_VOICE_PRIORITY (DAUD_STANDARD_VOICE_PRIORITY | DAUD_CHAN11_VOICE_PRIORITY_OFFSET)
#define DAUD_CHAN12_DEF_VOICE_PRIORITY (DAUD_STANDARD_VOICE_PRIORITY | DAUD_CHAN12_VOICE_PRIORITY_OFFSET)
#define DAUD_CHAN13_DEF_VOICE_PRIORITY (DAUD_STANDARD_VOICE_PRIORITY | DAUD_CHAN13_VOICE_PRIORITY_OFFSET)
#define DAUD_CHAN14_DEF_VOICE_PRIORITY (DAUD_STANDARD_VOICE_PRIORITY | DAUD_CHAN14_VOICE_PRIORITY_OFFSET)
#define DAUD_CHAN15_DEF_VOICE_PRIORITY (DAUD_STANDARD_VOICE_PRIORITY | DAUD_CHAN15_VOICE_PRIORITY_OFFSET)
#define DAUD_CHAN16_DEF_VOICE_PRIORITY (DAUD_STANDARD_VOICE_PRIORITY | DAUD_CHAN16_VOICE_PRIORITY_OFFSET)
#endif /* _DIRECTAUDIO_PRIORITIES_DEFINED_ */
#undef INTERFACE
#define INTERFACE IDirectMusicPort
DECLARE_INTERFACE_(IDirectMusicPort, IUnknown)
{
/* IUnknown */
STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/* IDirectMusicPort */
/* */
STDMETHOD(PlayBuffer) (THIS_ LPDIRECTMUSICBUFFER pBuffer) PURE;
STDMETHOD(SetReadNotificationHandle) (THIS_ HANDLE hEvent) PURE;
STDMETHOD(Read) (THIS_ LPDIRECTMUSICBUFFER pBuffer) PURE;
STDMETHOD(DownloadInstrument) (THIS_ IDirectMusicInstrument *pInstrument,
IDirectMusicDownloadedInstrument **ppDownloadedInstrument,
DMUS_NOTERANGE *pNoteRanges,
DWORD dwNumNoteRanges) PURE;
STDMETHOD(UnloadInstrument) (THIS_ IDirectMusicDownloadedInstrument *pDownloadedInstrument) PURE;
STDMETHOD(GetLatencyClock) (THIS_ IReferenceClock **ppClock) PURE;
STDMETHOD(GetRunningStats) (THIS_ LPDMUS_SYNTHSTATS pStats) PURE;
STDMETHOD(Compact) (THIS) PURE;
STDMETHOD(GetCaps) (THIS_ LPDMUS_PORTCAPS pPortCaps) PURE;
STDMETHOD(DeviceIoControl) (THIS_ DWORD dwIoControlCode,
LPVOID lpInBuffer,
DWORD nInBufferSize,
LPVOID lpOutBuffer,
DWORD nOutBufferSize,
LPDWORD lpBytesReturned,
LPOVERLAPPED lpOverlapped) PURE;
STDMETHOD(SetNumChannelGroups) (THIS_ DWORD dwChannelGroups) PURE;
STDMETHOD(GetNumChannelGroups) (THIS_ LPDWORD pdwChannelGroups) PURE;
STDMETHOD(Activate) (THIS_ BOOL fActive) PURE;
STDMETHOD(SetChannelPriority) (THIS_ DWORD dwChannelGroup, DWORD dwChannel, DWORD dwPriority) PURE;
STDMETHOD(GetChannelPriority) (THIS_ DWORD dwChannelGroup, DWORD dwChannel, LPDWORD pdwPriority) PURE;
STDMETHOD(SetDirectSound) (THIS_ LPDIRECTSOUND pDirectSound, LPDIRECTSOUNDBUFFER pDirectSoundBuffer) PURE;
STDMETHOD(GetFormat) (THIS_ LPWAVEFORMATEX pWaveFormatEx, LPDWORD pdwWaveFormatExSize, LPDWORD pdwBufferSize) PURE;
};
typedef IDirectMusicPort IDirectMusicPort8;
typedef IDirectMusicPort8 *LPDIRECTMUSICPORT8;
#undef INTERFACE
#define INTERFACE IDirectMusicThru
DECLARE_INTERFACE_(IDirectMusicThru, IUnknown)
{
/* IUnknown */
STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/* IDirectMusicThru
*/
STDMETHOD(ThruChannel) (THIS_ DWORD dwSourceChannelGroup,
DWORD dwSourceChannel,
DWORD dwDestinationChannelGroup,
DWORD dwDestinationChannel,
LPDIRECTMUSICPORT pDestinationPort) PURE;
};
typedef IDirectMusicThru IDirectMusicThru8;
typedef IDirectMusicThru8 *LPDIRECTMUSICTHRU8;
#ifndef __IReferenceClock_INTERFACE_DEFINED__
#define __IReferenceClock_INTERFACE_DEFINED__
DEFINE_GUID(IID_IReferenceClock,0x56a86897,0x0ad4,0x11ce,0xb0,0x3a,0x00,0x20,0xaf,0x0b,0xa7,0x70);
#undef INTERFACE
#define INTERFACE IReferenceClock
DECLARE_INTERFACE_(IReferenceClock, IUnknown)
{
/* IUnknown */
STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;
STDMETHOD_(ULONG,AddRef) (THIS) PURE;
STDMETHOD_(ULONG,Release) (THIS) PURE;
/* IReferenceClock */
/* */
/* get the time now */
STDMETHOD(GetTime) (THIS_ REFERENCE_TIME *pTime) PURE;
/* ask for an async notification that a time has elapsed */
STDMETHOD(AdviseTime) (THIS_ REFERENCE_TIME baseTime, /* base time */
REFERENCE_TIME streamTime, /* stream offset time */
HANDLE hEvent, /* advise via this event */
DWORD * pdwAdviseCookie) PURE; /* where your cookie goes */
/* ask for an async periodic notification that a time has elapsed */
STDMETHOD(AdvisePeriodic) (THIS_ REFERENCE_TIME startTime, /* starting at this time */
REFERENCE_TIME periodTime, /* time between notifications */
HANDLE hSemaphore, /* advise via a semaphore */
DWORD * pdwAdviseCookie) PURE; /* where your cookie goes */
/* cancel a request for notification */
STDMETHOD(Unadvise) (THIS_ DWORD dwAdviseCookie) PURE;
};
#endif /* __IReferenceClock_INTERFACE_DEFINED__ */
DEFINE_GUID(CLSID_DirectMusic,0x636b9f10,0x0c7d,0x11d1,0x95,0xb2,0x00,0x20,0xaf,0xdc,0x74,0x21);
DEFINE_GUID(CLSID_DirectMusicCollection,0x480ff4b0, 0x28b2, 0x11d1, 0xbe, 0xf7, 0x0, 0xc0, 0x4f, 0xbf, 0x8f, 0xef);
DEFINE_GUID(CLSID_DirectMusicSynth,0x58C2B4D0,0x46E7,0x11D1,0x89,0xAC,0x00,0xA0,0xC9,0x05,0x41,0x29);
DEFINE_GUID(IID_IDirectMusic,0x6536115a,0x7b2d,0x11d2,0xba,0x18,0x00,0x00,0xf8,0x75,0xac,0x12);
DEFINE_GUID(IID_IDirectMusicBuffer,0xd2ac2878, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(IID_IDirectMusicPort, 0x08f2d8c9,0x37c2,0x11d2,0xb9,0xf9,0x00,0x00,0xf8,0x75,0xac,0x12);
DEFINE_GUID(IID_IDirectMusicThru, 0xced153e7, 0x3606, 0x11d2, 0xb9, 0xf9, 0x00, 0x00, 0xf8, 0x75, 0xac, 0x12);
DEFINE_GUID(IID_IDirectMusicPortDownload,0xd2ac287a, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(IID_IDirectMusicDownload,0xd2ac287b, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(IID_IDirectMusicCollection,0xd2ac287c, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(IID_IDirectMusicInstrument,0xd2ac287d, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(IID_IDirectMusicDownloadedInstrument,0xd2ac287e, 0xb39b, 0x11d1, 0x87, 0x4, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
/* Alternate interface ID for IID_IDirectMusic, available in DX7 release and after. */
DEFINE_GUID(IID_IDirectMusic2,0x6fc2cae1, 0xbc78, 0x11d2, 0xaf, 0xa6, 0x0, 0xaa, 0x0, 0x24, 0xd8, 0xb6);
DEFINE_GUID(IID_IDirectMusic8,0x2d3629f7,0x813d,0x4939,0x85,0x08,0xf0,0x5c,0x6b,0x75,0xfd,0x97);
#define IID_IDirectMusicThru8 IID_IDirectMusicThru
#define IID_IDirectMusicPortDownload8 IID_IDirectMusicPortDownload
#define IID_IDirectMusicDownload8 IID_IDirectMusicDownload
#define IID_IDirectMusicCollection8 IID_IDirectMusicCollection
#define IID_IDirectMusicInstrument8 IID_IDirectMusicInstrument
#define IID_IDirectMusicDownloadedInstrument8 IID_IDirectMusicDownloadedInstrument
#define IID_IDirectMusicPort8 IID_IDirectMusicPort
/* Property Query GUID_DMUS_PROP_GM_Hardware - Local GM set, no need to download
* Property Query GUID_DMUS_PROP_GS_Hardware - Local GS set, no need to download
* Property Query GUID_DMUS_PROP_XG_Hardware - Local XG set, no need to download
* Property Query GUID_DMUS_PROP_DLS1 - Support DLS level 1
* Property Query GUID_DMUS_PROP_INSTRUMENT2 - Support new INSTRUMENT2 download format
* Property Query GUID_DMUS_PROP_XG_Capable - Support minimum requirements of XG
* Property Query GUID_DMUS_PROP_GS_Capable - Support minimum requirements of GS
* Property Query GUID_DMUS_PROP_SynthSink_DSOUND - Synthsink talks to DSound
* Property Query GUID_DMUS_PROP_SynthSink_WAVE - Synthsink talks to Wave device
*
* Item 0: Supported
* Returns a DWORD which is non-zero if the feature is supported
*/
DEFINE_GUID(GUID_DMUS_PROP_GM_Hardware, 0x178f2f24, 0xc364, 0x11d1, 0xa7, 0x60, 0x00, 0x00, 0xf8, 0x75, 0xac, 0x12);
DEFINE_GUID(GUID_DMUS_PROP_GS_Hardware, 0x178f2f25, 0xc364, 0x11d1, 0xa7, 0x60, 0x00, 0x00, 0xf8, 0x75, 0xac, 0x12);
DEFINE_GUID(GUID_DMUS_PROP_XG_Hardware, 0x178f2f26, 0xc364, 0x11d1, 0xa7, 0x60, 0x00, 0x00, 0xf8, 0x75, 0xac, 0x12);
DEFINE_GUID(GUID_DMUS_PROP_XG_Capable, 0x6496aba1, 0x61b0, 0x11d2, 0xaf, 0xa6, 0x0, 0xaa, 0x0, 0x24, 0xd8, 0xb6);
DEFINE_GUID(GUID_DMUS_PROP_GS_Capable, 0x6496aba2, 0x61b0, 0x11d2, 0xaf, 0xa6, 0x0, 0xaa, 0x0, 0x24, 0xd8, 0xb6);
DEFINE_GUID(GUID_DMUS_PROP_DLS1, 0x178f2f27, 0xc364, 0x11d1, 0xa7, 0x60, 0x00, 0x00, 0xf8, 0x75, 0xac, 0x12);
DEFINE_GUID(GUID_DMUS_PROP_DLS2, 0xf14599e5, 0x4689, 0x11d2, 0xaf, 0xa6, 0x0, 0xaa, 0x0, 0x24, 0xd8, 0xb6);
DEFINE_GUID(GUID_DMUS_PROP_INSTRUMENT2, 0x865fd372, 0x9f67, 0x11d2, 0x87, 0x2a, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(GUID_DMUS_PROP_SynthSink_DSOUND,0xaa97844, 0xc877, 0x11d1, 0x87, 0xc, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(GUID_DMUS_PROP_SynthSink_WAVE,0xaa97845, 0xc877, 0x11d1, 0x87, 0xc, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
DEFINE_GUID(GUID_DMUS_PROP_SampleMemorySize, 0x178f2f28, 0xc364, 0x11d1, 0xa7, 0x60, 0x00, 0x00, 0xf8, 0x75, 0xac, 0x12);
DEFINE_GUID(GUID_DMUS_PROP_SamplePlaybackRate, 0x2a91f713, 0xa4bf, 0x11d2, 0xbb, 0xdf, 0x0, 0x60, 0x8, 0x33, 0xdb, 0xd8);
/* Property Get/Set GUID_DMUS_PROP_WriteLatency
*
* Item 0: Synth buffer write latency, in milliseconds
* Get/Set SynthSink latency, the average time after the play head that the next buffer gets written.
*/
DEFINE_GUID(GUID_DMUS_PROP_WriteLatency,0x268a0fa0, 0x60f2, 0x11d2, 0xaf, 0xa6, 0x0, 0xaa, 0x0, 0x24, 0xd8, 0xb6);
/* Property Get/Set GUID_DMUS_PROP_WritePeriod
*
* Item 0: Synth buffer write period, in milliseconds
* Get/Set SynthSink buffer write period, time span between successive writes.
*/
DEFINE_GUID(GUID_DMUS_PROP_WritePeriod,0x268a0fa1, 0x60f2, 0x11d2, 0xaf, 0xa6, 0x0, 0xaa, 0x0, 0x24, 0xd8, 0xb6);
/* Property Get GUID_DMUS_PROP_MemorySize
*
* Item 0: Memory size
* Returns a DWORD containing the total number of bytes of sample RAM
*/
DEFINE_GUID(GUID_DMUS_PROP_MemorySize, 0x178f2f28, 0xc364, 0x11d1, 0xa7, 0x60, 0x00, 0x00, 0xf8, 0x75, 0xac, 0x12);
/* Property Set GUID_DMUS_PROP_WavesReverb
*
* Item 0: DMUS_WAVES_REVERB structure
* Sets reverb parameters
*/
DEFINE_GUID(GUID_DMUS_PROP_WavesReverb,0x4cb5622, 0x32e5, 0x11d2, 0xaf, 0xa6, 0x0, 0xaa, 0x0, 0x24, 0xd8, 0xb6);
/* Property Set GUID_DMUS_PROP_Effects
*
* Item 0: DWORD with effects flags.
* Get/Set effects bits, same as dwEffectFlags in DMUS_PORTPARAMS and DMUS_PORTCAPS:
* DMUS_EFFECT_NONE
* DMUS_EFFECT_REVERB
* DMUS_EFFECT_CHORUS
*/
DEFINE_GUID(GUID_DMUS_PROP_Effects, 0xcda8d611, 0x684a, 0x11d2, 0x87, 0x1e, 0x0, 0x60, 0x8, 0x93, 0xb1, 0xbd);
/* Property Set GUID_DMUS_PROP_LegacyCaps
*
* Item 0: The MIDINCAPS or MIDIOUTCAPS which describes the port's underlying WinMM device. This property is only supported
* by ports which wrap WinMM devices.
*/
DEFINE_GUID(GUID_DMUS_PROP_LegacyCaps,0xcfa7cdc2, 0x00a1, 0x11d2, 0xaa, 0xd5, 0x00, 0x00, 0xf8, 0x75, 0xac, 0x12);
/* Property Set GUID_DMUS_PROP_Volume
*
* Item 0: A long which contains an offset, in 1/100 dB, to be added to the final volume
*
*/
DEFINE_GUID(GUID_DMUS_PROP_Volume, 0xfedfae25L, 0xe46e, 0x11d1, 0xaa, 0xce, 0x00, 0x00, 0xf8, 0x75, 0xac, 0x12);
/* Min and Max values for setting volume with GUID_DMUS_PROP_Volume */
#define DMUS_VOLUME_MAX 2000 /* +20 dB */
#define DMUS_VOLUME_MIN -20000 /* -200 dB */
#ifdef __cplusplus
}; /* extern "C" */
#endif
#include <poppack.h>
#endif /* #ifndef _DMUSICC_ */

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