winamp/Src/external_dependencies/microsoft_directx_sdk_2010/Include/xact3.h
2024-09-24 14:54:57 +02:00

1551 lines
75 KiB
C

/**************************************************************************
*
* Copyright (c) Microsoft Corporation. All rights reserved.
*
* Module Name:
*
* xact3.h
*
* Abstract:
*
* XACT public interfaces, functions and data types
*
**************************************************************************/
#pragma once
#ifndef _XACT3_H_
#define _XACT3_H_
//------------------------------------------------------------------------------
// XACT class and interface IDs (Version 3.7)
//------------------------------------------------------------------------------
#ifndef _XBOX // XACT COM support only exists on Windows
#include <comdecl.h> // For DEFINE_CLSID, DEFINE_IID and DECLARE_INTERFACE
DEFINE_CLSID(XACTEngine, bcc782bc, 6492, 4c22, 8c, 35, f5, d7, 2f, e7, 3c, 6e);
DEFINE_CLSID(XACTAuditionEngine, 9ecdd80d, 0e81, 40d8, 89, 03, 2b, f7, b1, 31, ac, 43);
DEFINE_CLSID(XACTDebugEngine, 02860630, bf3b, 42a8, b1, 4e, 91, ed, a2, f5, 1e, a5);
DEFINE_IID(IXACT3Engine, b1ee676a, d9cd, 4d2a, 89, a8, fa, 53, eb, 9e, 48, 0b);
#endif
// Ignore the rest of this header if only the GUID definitions were requested:
#ifndef GUID_DEFS_ONLY
//------------------------------------------------------------------------------
// Includes
//------------------------------------------------------------------------------
#ifndef _XBOX
#include <windows.h>
#include <objbase.h>
#include <float.h>
#endif
#include <limits.h>
#include <xact3wb.h>
#include <xaudio2.h>
//------------------------------------------------------------------------------
// Forward Declarations
//------------------------------------------------------------------------------
typedef struct IXACT3SoundBank IXACT3SoundBank;
typedef struct IXACT3WaveBank IXACT3WaveBank;
typedef struct IXACT3Cue IXACT3Cue;
typedef struct IXACT3Wave IXACT3Wave;
typedef struct IXACT3Engine IXACT3Engine;
typedef struct XACT_NOTIFICATION XACT_NOTIFICATION;
//------------------------------------------------------------------------------
// Typedefs
//------------------------------------------------------------------------------
typedef WORD XACTINDEX; // All normal indices
typedef BYTE XACTNOTIFICATIONTYPE; // Notification type
typedef FLOAT XACTVARIABLEVALUE; // Variable value
typedef WORD XACTVARIABLEINDEX; // Variable index
typedef WORD XACTCATEGORY; // Sound category
typedef BYTE XACTCHANNEL; // Audio channel
typedef FLOAT XACTVOLUME; // Volume value
typedef LONG XACTTIME; // Time (in ms)
typedef SHORT XACTPITCH; // Pitch value
typedef BYTE XACTLOOPCOUNT; // For all loops / recurrences
typedef BYTE XACTVARIATIONWEIGHT; // Variation weight
typedef BYTE XACTPRIORITY; // Sound priority
typedef BYTE XACTINSTANCELIMIT; // Instance limitations
//------------------------------------------------------------------------------
// Standard win32 multimedia definitions
//------------------------------------------------------------------------------
#ifndef WAVE_FORMAT_IEEE_FLOAT
#define WAVE_FORMAT_IEEE_FLOAT 0x0003
#endif
#ifndef WAVE_FORMAT_EXTENSIBLE
#define WAVE_FORMAT_EXTENSIBLE 0xFFFE
#endif
#ifndef _WAVEFORMATEX_
#define _WAVEFORMATEX_
#pragma pack(push, 1)
typedef struct tWAVEFORMATEX
{
WORD wFormatTag; // format type
WORD nChannels; // number of channels (i.e. mono, stereo...)
DWORD nSamplesPerSec; // sample rate
DWORD nAvgBytesPerSec; // for buffer estimation
WORD nBlockAlign; // block size of data
WORD wBitsPerSample; // Number of bits per sample of mono data
WORD cbSize; // The count in bytes of the size of extra information (after cbSize)
} WAVEFORMATEX, *PWAVEFORMATEX;
typedef WAVEFORMATEX NEAR *NPWAVEFORMATEX;
typedef WAVEFORMATEX FAR *LPWAVEFORMATEX;
#pragma pack(pop)
#endif
#ifndef _WAVEFORMATEXTENSIBLE_
#define _WAVEFORMATEXTENSIBLE_
#pragma pack(push, 1)
typedef struct
{
WAVEFORMATEX Format; // WAVEFORMATEX data
union
{
WORD wValidBitsPerSample; // Bits of precision
WORD wSamplesPerBlock; // Samples per block of audio data, valid if wBitsPerSample==0
WORD wReserved; // Unused -- If neither applies, set to zero.
} Samples;
DWORD dwChannelMask; // Speaker usage bitmask
GUID SubFormat; // Sub-format identifier
} WAVEFORMATEXTENSIBLE, *PWAVEFORMATEXTENSIBLE;
#pragma pack(pop)
#endif
//------------------------------------------------------------------------------
// Constants
//------------------------------------------------------------------------------
static const XACTTIME XACTTIME_MIN = LONG_MIN;
static const XACTTIME XACTTIME_MAX = LONG_MAX; // 24 days 20:31:23.647
static const XACTTIME XACTTIME_INFINITE = LONG_MAX;
static const XACTINSTANCELIMIT XACTINSTANCELIMIT_INFINITE = 0xff;
static const XACTINSTANCELIMIT XACTINSTANCELIMIT_MIN = 0x00; // == 1 instance total (0 additional instances)
static const XACTINSTANCELIMIT XACTINSTANCELIMIT_MAX = 0xfe; // == 255 instances total (254 additional instances)
static const XACTINDEX XACTINDEX_MIN = 0x0;
static const XACTINDEX XACTINDEX_MAX = 0xfffe;
static const XACTINDEX XACTINDEX_INVALID = 0xffff;
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_MIN = 0x00;
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_MAX = 0xff;
static const XACTVARIABLEVALUE XACTVARIABLEVALUE_MIN = -FLT_MAX;
static const XACTVARIABLEVALUE XACTVARIABLEVALUE_MAX = FLT_MAX;
static const XACTVARIABLEINDEX XACTVARIABLEINDEX_MIN = 0x0000;
static const XACTVARIABLEINDEX XACTVARIABLEINDEX_MAX = 0xfffe;
static const XACTVARIABLEINDEX XACTVARIABLEINDEX_INVALID = 0xffff;
static const XACTCATEGORY XACTCATEGORY_MIN = 0x0;
static const XACTCATEGORY XACTCATEGORY_MAX = 0xfffe;
static const XACTCATEGORY XACTCATEGORY_INVALID = 0xffff;
static const XACTCHANNEL XACTCHANNEL_MIN = 0;
static const XACTCHANNEL XACTCHANNEL_MAX = 0xFF;
static const XACTPITCH XACTPITCH_MIN = -1200; // pitch change allowable per individual content field
static const XACTPITCH XACTPITCH_MAX = 1200;
static const XACTPITCH XACTPITCH_MIN_TOTAL = -2400; // total allowable pitch change, use with IXACTWave.SetPitch()
static const XACTPITCH XACTPITCH_MAX_TOTAL = 2400;
static const XACTVOLUME XACTVOLUME_MIN = 0.0f;
static const XACTVOLUME XACTVOLUME_MAX = 16777216.0f; // Maximum acceptable volume level (2^24) - matches XAudio2 max volume
static const XACTVARIABLEVALUE XACTPARAMETERVALUE_MIN = -FLT_MAX;
static const XACTVARIABLEVALUE XACTPARAMETERVALUE_MAX = FLT_MAX;
static const XACTLOOPCOUNT XACTLOOPCOUNT_MIN = 0x0;
static const XACTLOOPCOUNT XACTLOOPCOUNT_MAX = 0xfe;
static const XACTLOOPCOUNT XACTLOOPCOUNT_INFINITE = 0xff;
static const DWORD XACTWAVEALIGNMENT_MIN = 2048;
#ifdef _XBOX
static const BYTE XACTMAXOUTPUTVOICECOUNT = 3;
#endif // _XBOX
// -----------------------------------------------------------------------------
// Cue friendly name length
// -----------------------------------------------------------------------------
#define XACT_CUE_NAME_LENGTH 0xFF
// -----------------------------------------------------------------------------
// Current Content Tool Version
// -----------------------------------------------------------------------------
#define XACT_CONTENT_VERSION 46
// -----------------------------------------------------------------------------
// XACT Stop Flags
// -----------------------------------------------------------------------------
static const DWORD XACT_FLAG_STOP_RELEASE = 0x00000000; // Stop with release envelope (or as authored), for looping waves this acts as break loop.
static const DWORD XACT_FLAG_STOP_IMMEDIATE = 0x00000001; // Stop immediately
// -----------------------------------------------------------------------------
// XACT Manage Data Flag - XACT will manage the lifetime of this data
// -----------------------------------------------------------------------------
static const DWORD XACT_FLAG_MANAGEDATA = 0x00000001;
// -----------------------------------------------------------------------------
// XACT Content Preparation Flags
// -----------------------------------------------------------------------------
static const DWORD XACT_FLAG_BACKGROUND_MUSIC = 0x00000002; // Marks the waves as background music.
static const DWORD XACT_FLAG_UNITS_MS = 0x00000004; // Indicates that the units passed in are in milliseconds.
static const DWORD XACT_FLAG_UNITS_SAMPLES = 0x00000008; // Indicates that the units passed in are in samples.
// -----------------------------------------------------------------------------
// XACT State flags
// -----------------------------------------------------------------------------
static const DWORD XACT_STATE_CREATED = 0x00000001; // Created, but nothing else
static const DWORD XACT_STATE_PREPARING = 0x00000002; // In the middle of preparing
static const DWORD XACT_STATE_PREPARED = 0x00000004; // Prepared, but not yet played
static const DWORD XACT_STATE_PLAYING = 0x00000008; // Playing (though could be paused)
static const DWORD XACT_STATE_STOPPING = 0x00000010; // Stopping
static const DWORD XACT_STATE_STOPPED = 0x00000020; // Stopped
static const DWORD XACT_STATE_PAUSED = 0x00000040; // Paused (Can be combined with some of the other state flags above)
static const DWORD XACT_STATE_INUSE = 0x00000080; // Object is in use (used by wavebanks and soundbanks).
static const DWORD XACT_STATE_PREPAREFAILED = 0x80000000; // Object preparation failed.
//------------------------------------------------------------------------------
// XACT Parameters
//------------------------------------------------------------------------------
#define XACT_FLAG_GLOBAL_SETTINGS_MANAGEDATA XACT_FLAG_MANAGEDATA
// -----------------------------------------------------------------------------
// File IO Callbacks
// -----------------------------------------------------------------------------
typedef BOOL (__stdcall * XACT_READFILE_CALLBACK)(__in HANDLE hFile, __out_bcount(nNumberOfBytesToRead) LPVOID lpBuffer, DWORD nNumberOfBytesToRead, __out LPDWORD lpNumberOfBytesRead, __inout LPOVERLAPPED lpOverlapped);
typedef BOOL (__stdcall * XACT_GETOVERLAPPEDRESULT_CALLBACK)(__in HANDLE hFile, __inout LPOVERLAPPED lpOverlapped, __out LPDWORD lpNumberOfBytesTransferred, BOOL bWait);
typedef struct XACT_FILEIO_CALLBACKS
{
XACT_READFILE_CALLBACK readFileCallback;
XACT_GETOVERLAPPEDRESULT_CALLBACK getOverlappedResultCallback;
} XACT_FILEIO_CALLBACKS, *PXACT_FILEIO_CALLBACKS;
typedef const XACT_FILEIO_CALLBACKS *PCXACT_FILEIO_CALLBACKS;
// -----------------------------------------------------------------------------
// Notification Callback
// -----------------------------------------------------------------------------
typedef void (__stdcall * XACT_NOTIFICATION_CALLBACK)(__in const XACT_NOTIFICATION* pNotification);
#define XACT_RENDERER_ID_LENGTH 0xff // Maximum number of characters allowed in the renderer ID
#define XACT_RENDERER_NAME_LENGTH 0xff // Maximum number of characters allowed in the renderer display name.
// -----------------------------------------------------------------------------
// Renderer Details
// -----------------------------------------------------------------------------
typedef struct XACT_RENDERER_DETAILS
{
WCHAR rendererID[XACT_RENDERER_ID_LENGTH]; // The string ID for the rendering device.
WCHAR displayName[XACT_RENDERER_NAME_LENGTH]; // A friendly name suitable for display to a human.
BOOL defaultDevice; // Set to TRUE if this device is the primary audio device on the system.
} XACT_RENDERER_DETAILS, *LPXACT_RENDERER_DETAILS;
// -----------------------------------------------------------------------------
// Engine Look-Ahead Time
// -----------------------------------------------------------------------------
#define XACT_ENGINE_LOOKAHEAD_DEFAULT 250 // Default look-ahead time of 250ms can be used during XACT engine initialization.
// -----------------------------------------------------------------------------
// Runtime (engine) parameters
// -----------------------------------------------------------------------------
typedef struct XACT_RUNTIME_PARAMETERS
{
DWORD lookAheadTime; // Time in ms
void* pGlobalSettingsBuffer; // Buffer containing the global settings file
DWORD globalSettingsBufferSize; // Size of global settings buffer
DWORD globalSettingsFlags; // Flags for global settings
DWORD globalSettingsAllocAttributes; // Global settings buffer allocation attributes (see XMemAlloc)
XACT_FILEIO_CALLBACKS fileIOCallbacks; // File I/O callbacks
XACT_NOTIFICATION_CALLBACK fnNotificationCallback; // Callback that receives notifications.
PWSTR pRendererID; // Ptr to the ID for the audio renderer the engine should connect to.
IXAudio2* pXAudio2; // XAudio2 object to be used by the engine (NULL if one needs to be created)
IXAudio2MasteringVoice* pMasteringVoice; // Mastering voice to be used by the engine, if pXAudio2 is not NULL.
} XACT_RUNTIME_PARAMETERS, *LPXACT_RUNTIME_PARAMETERS;
typedef const XACT_RUNTIME_PARAMETERS *LPCXACT_RUNTIME_PARAMETERS;
//------------------------------------------------------------------------------
// Streaming Parameters
//------------------------------------------------------------------------------
typedef struct XACT_STREAMING_PARAMETERS
{
HANDLE file; // File handle associated with wavebank data
DWORD offset; // Offset within file of wavebank header (must be sector aligned)
DWORD flags; // Flags (none currently)
WORD packetSize; // Stream packet size (in sectors) to use for each stream (min = 2)
// number of sectors (DVD = 2048 bytes: 2 = 4096, 3 = 6144, 4 = 8192 etc.)
// optimal DVD size is a multiple of 16 (DVD block = 16 DVD sectors)
} XACT_WAVEBANK_STREAMING_PARAMETERS, *LPXACT_WAVEBANK_STREAMING_PARAMETERS, XACT_STREAMING_PARAMETERS, *LPXACT_STREAMING_PARAMETERS;
typedef const XACT_STREAMING_PARAMETERS *LPCXACT_STREAMING_PARAMETERS;
typedef const XACT_WAVEBANK_STREAMING_PARAMETERS *LPCXACT_WAVEBANK_STREAMING_PARAMETERS;
// Structure used to report cue properties back to the client.
typedef struct XACT_CUE_PROPERTIES
{
CHAR friendlyName[XACT_CUE_NAME_LENGTH]; // Empty if the soundbank doesn't contain any friendly names
BOOL interactive; // TRUE if an IA cue; FALSE otherwise
XACTINDEX iaVariableIndex; // Only valid for IA cues; XACTINDEX_INVALID otherwise
XACTINDEX numVariations; // Number of variations in the cue
XACTINSTANCELIMIT maxInstances; // Number of maximum instances for this cue
XACTINSTANCELIMIT currentInstances; // Current active instances of this cue
} XACT_CUE_PROPERTIES, *LPXACT_CUE_PROPERTIES;
// Strucutre used to return the track properties.
typedef struct XACT_TRACK_PROPERTIES
{
XACTTIME duration; // Duration of the track in ms
XACTINDEX numVariations; // Number of wave variations in the track
XACTCHANNEL numChannels; // Number of channels for the active wave variation on this track
XACTINDEX waveVariation; // Index of the active wave variation
XACTLOOPCOUNT loopCount; // Current loop count on this track
} XACT_TRACK_PROPERTIES, *LPXACT_TRACK_PROPERTIES;
// Structure used to return the properties of a variation.
typedef struct XACT_VARIATION_PROPERTIES
{
XACTINDEX index; // Index of the variation in the cue's variation list
XACTVARIATIONWEIGHT weight; // Weight for the active variation. Valid only for complex cues
XACTVARIABLEVALUE iaVariableMin; // Valid only for IA cues
XACTVARIABLEVALUE iaVariableMax; // Valid only for IA cues
BOOL linger; // Valid only for IA cues
} XACT_VARIATION_PROPERTIES, *LPXACT_VARIATION_PROPERTIES;
// Structure used to return the properties of the sound referenced by a variation.
typedef struct XACT_SOUND_PROPERTIES
{
XACTCATEGORY category; // Category this sound belongs to
BYTE priority; // Priority of this variation
XACTPITCH pitch; // Current pitch set on the active variation
XACTVOLUME volume; // Current volume set on the active variation
XACTINDEX numTracks; // Number of tracks in the active variation
XACT_TRACK_PROPERTIES arrTrackProperties[1]; // Array of active track properties (has numTracks number of elements)
} XACT_SOUND_PROPERTIES, *LPXACT_SOUND_PROPERTIES;
// Structure used to return the properties of the active variation and the sound referenced.
typedef struct XACT_SOUND_VARIATION_PROPERTIES
{
XACT_VARIATION_PROPERTIES variationProperties;// Properties for this variation
XACT_SOUND_PROPERTIES soundProperties; // Proeprties for the sound referenced by this variation
} XACT_SOUND_VARIATION_PROPERTIES, *LPXACT_SOUND_VARIATION_PROPERTIES;
// Structure used to return the properties of an active cue instance.
typedef struct XACT_CUE_INSTANCE_PROPERTIES
{
DWORD allocAttributes; // Buffer allocation attributes (see XMemAlloc)
XACT_CUE_PROPERTIES cueProperties; // Properties of the cue that are shared by all instances.
XACT_SOUND_VARIATION_PROPERTIES activeVariationProperties; // Properties if the currently active variation.
} XACT_CUE_INSTANCE_PROPERTIES, *LPXACT_CUE_INSTANCE_PROPERTIES;
// Structure used to return the common wave properties.
typedef struct XACT_WAVE_PROPERTIES
{
char friendlyName[WAVEBANK_ENTRYNAME_LENGTH]; // Friendly name for the wave; empty if the wavebank doesn't contain friendly names.
WAVEBANKMINIWAVEFORMAT format; // Format for the wave.
DWORD durationInSamples; // Duration of the wave in units of one sample
WAVEBANKSAMPLEREGION loopRegion; // Loop region defined in samples.
BOOL streaming; // Set to TRUE if the wave is streaming; FALSE otherwise.
} XACT_WAVE_PROPERTIES, *LPXACT_WAVE_PROPERTIES;
typedef const XACT_WAVE_PROPERTIES* LPCXACT_WAVE_PROPERTIES;
// Structure used to return the properties specific to a wave instance.
typedef struct XACT_WAVE_INSTANCE_PROPERTIES
{
XACT_WAVE_PROPERTIES properties; // Static properties common to all the wave instances.
BOOL backgroundMusic; // Set to TRUE if the wave is tagged as background music; FALSE otherwise.
} XACT_WAVE_INSTANCE_PROPERTIES, *LPXACT_WAVE_INSTANCE_PROPERTIES;
typedef const XACT_WAVE_INSTANCE_PROPERTIES* LPCXACT_WAVE_INSTANCE_PROPERTIES;
//------------------------------------------------------------------------------
// Channel Mapping / Speaker Panning
//------------------------------------------------------------------------------
typedef struct XACTCHANNELMAPENTRY
{
XACTCHANNEL InputChannel;
XACTCHANNEL OutputChannel;
XACTVOLUME Volume;
} XACTCHANNELMAPENTRY, *LPXACTCHANNELMAPENTRY;
typedef const XACTCHANNELMAPENTRY *LPCXACTCHANNELMAPENTRY;
typedef struct XACTCHANNELMAP
{
XACTCHANNEL EntryCount;
XACTCHANNELMAPENTRY* paEntries;
} XACTCHANNELMAP, *LPXACTCHANNELMAP;
typedef const XACTCHANNELMAP *LPCXACTCHANNELMAP;
typedef struct XACTCHANNELVOLUMEENTRY
{
XACTCHANNEL EntryIndex;
XACTVOLUME Volume;
} XACTCHANNELVOLUMEENTRY, *LPXACTCHANNELVOLUMEENTRY;
typedef const XACTCHANNELVOLUMEENTRY *LPCXACTCHANNELVOLUMEENTRY;
typedef struct XACTCHANNELVOLUME
{
XACTCHANNEL EntryCount;
XACTCHANNELVOLUMEENTRY* paEntries;
} XACTCHANNELVOLUME, *LPXACTCHANNELVOLUME;
typedef const XACTCHANNELVOLUME *LPCXACTCHANNELVOLUME;
//------------------------------------------------------------------------------
// Notifications
//------------------------------------------------------------------------------
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_CUEPREPARED = 1; // None, SoundBank, SoundBank & cue index, cue instance
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_CUEPLAY = 2; // None, SoundBank, SoundBank & cue index, cue instance
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_CUESTOP = 3; // None, SoundBank, SoundBank & cue index, cue instance
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_CUEDESTROYED = 4; // None, SoundBank, SoundBank & cue index, cue instance
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_MARKER = 5; // None, SoundBank, SoundBank & cue index, cue instance
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_SOUNDBANKDESTROYED = 6; // None, SoundBank
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_WAVEBANKDESTROYED = 7; // None, WaveBank
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_LOCALVARIABLECHANGED = 8; // None, SoundBank, SoundBank & cue index, cue instance
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_GLOBALVARIABLECHANGED = 9; // None
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_GUICONNECTED = 10; // None
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_GUIDISCONNECTED = 11; // None
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_WAVEPREPARED = 12; // None, WaveBank & wave index, wave instance.
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_WAVEPLAY = 13; // None, SoundBank, SoundBank & cue index, cue instance, WaveBank, wave instance
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_WAVESTOP = 14; // None, SoundBank, SoundBank & cue index, cue instance, WaveBank, wave instance
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_WAVELOOPED = 15; // None, SoundBank, SoundBank & cue index, cue instance, WaveBank, wave instance
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_WAVEDESTROYED = 16; // None, WaveBank & wave index, wave instance.
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_WAVEBANKPREPARED = 17; // None, WaveBank
static const XACTNOTIFICATIONTYPE XACTNOTIFICATIONTYPE_WAVEBANKSTREAMING_INVALIDCONTENT = 18; // None, WaveBank
static const BYTE XACT_FLAG_NOTIFICATION_PERSIST = 0x01;
// Pack the notification structures
#pragma pack(push, 1)
// Notification description used for registering, un-registering and flushing notifications
typedef struct XACT_NOTIFICATION_DESCRIPTION
{
XACTNOTIFICATIONTYPE type; // Notification type
BYTE flags; // Flags
IXACT3SoundBank* pSoundBank; // SoundBank instance
IXACT3WaveBank* pWaveBank; // WaveBank instance
IXACT3Cue* pCue; // Cue instance
IXACT3Wave* pWave; // Wave instance
XACTINDEX cueIndex; // Cue index
XACTINDEX waveIndex; // Wave index
PVOID pvContext; // User context (optional)
} XACT_NOTIFICATION_DESCRIPTION, *LPXACT_NOTIFICATION_DESCRIPTION;
typedef const XACT_NOTIFICATION_DESCRIPTION *LPCXACT_NOTIFICATION_DESCRIPTION;
// Notification structure for all XACTNOTIFICATIONTYPE_CUE* notifications
typedef struct XACT_NOTIFICATION_CUE
{
XACTINDEX cueIndex; // Cue index
IXACT3SoundBank* pSoundBank; // SoundBank instance
IXACT3Cue* pCue; // Cue instance
} XACT_NOTIFICATION_CUE, *LPXACT_NOTIFICATION_CUE;
typedef const XACT_NOTIFICATION_CUE *LPCXACT_NOTIFICATION_CUE;
// Notification structure for all XACTNOTIFICATIONTYPE_MARKER* notifications
typedef struct XACT_NOTIFICATION_MARKER
{
XACTINDEX cueIndex; // Cue index
IXACT3SoundBank* pSoundBank; // SoundBank instance
IXACT3Cue* pCue; // Cue instance
DWORD marker; // Marker value
} XACT_NOTIFICATION_MARKER, *LPXACT_NOTIFICATION_MARKER;
typedef const XACT_NOTIFICATION_MARKER *LPCXACT_NOTIFICATION_MARKER;
// Notification structure for all XACTNOTIFICATIONTYPE_SOUNDBANK* notifications
typedef struct XACT_NOTIFICATION_SOUNDBANK
{
IXACT3SoundBank* pSoundBank; // SoundBank instance
} XACT_NOTIFICATION_SOUNDBANK, *LPXACT_NOTIFICATION_SOUNDBANK;
typedef const XACT_NOTIFICATION_SOUNDBANK *LPCXACT_NOTIFICATION_SOUNDBANK;
// Notification structure for all XACTNOTIFICATIONTYPE_WAVEBANK* notifications
typedef struct XACT_NOTIFICATION_WAVEBANK
{
IXACT3WaveBank* pWaveBank; // WaveBank instance
} XACT_NOTIFICATION_WAVEBANK, *LPXACT_NOTIFICATION_WAVEBANK;
typedef const XACT_NOTIFICATION_WAVEBANK *LPCXACT_NOTIFICATION_WAVEBANK;
// Notification structure for all XACTNOTIFICATIONTYPE_*VARIABLE* notifications
typedef struct XACT_NOTIFICATION_VARIABLE
{
XACTINDEX cueIndex; // Cue index
IXACT3SoundBank* pSoundBank; // SoundBank instance
IXACT3Cue* pCue; // Cue instance
XACTVARIABLEINDEX variableIndex; // Variable index
XACTVARIABLEVALUE variableValue; // Variable value
BOOL local; // TRUE if a local variable
} XACT_NOTIFICATION_VARIABLE, *LPXACT_NOTIFICATION_VARIABLE;
typedef const XACT_NOTIFICATION_VARIABLE *LPCXACT_NOTIFICATION_VARIABLE;
// Notification structure for all XACTNOTIFICATIONTYPE_GUI* notifications
typedef struct XACT_NOTIFICATION_GUI
{
DWORD reserved; // Reserved
} XACT_NOTIFICATION_GUI, *LPXACT_NOTIFICATION_GUI;
typedef const XACT_NOTIFICATION_GUI *LPCXACT_NOTIFICATION_GUI;
// Notification structure for all XACTNOTIFICATIONTYPE_WAVE* notifications
typedef struct XACT_NOTIFICATION_WAVE
{
IXACT3WaveBank* pWaveBank; // WaveBank
XACTINDEX waveIndex; // Wave index
XACTINDEX cueIndex; // Cue index
IXACT3SoundBank* pSoundBank; // SoundBank instance
IXACT3Cue* pCue; // Cue instance
IXACT3Wave* pWave; // Wave instance
} XACT_NOTIFICATION_WAVE, *LPXACT_NOTIFICATION_WAVE;
typedef const XACT_NOTIFICATION_WAVE *LPCXACT_NOTIFICATION_WAVE;
// General notification structure
typedef struct XACT_NOTIFICATION
{
XACTNOTIFICATIONTYPE type; // Notification type
LONG timeStamp; // Timestamp of notification (milliseconds)
PVOID pvContext; // User context (optional)
union
{
XACT_NOTIFICATION_CUE cue; // XACTNOTIFICATIONTYPE_CUE*
XACT_NOTIFICATION_MARKER marker; // XACTNOTIFICATIONTYPE_MARKER*
XACT_NOTIFICATION_SOUNDBANK soundBank; // XACTNOTIFICATIONTYPE_SOUNDBANK*
XACT_NOTIFICATION_WAVEBANK waveBank; // XACTNOTIFICATIONTYPE_WAVEBANK*
XACT_NOTIFICATION_VARIABLE variable; // XACTNOTIFICATIONTYPE_VARIABLE*
XACT_NOTIFICATION_GUI gui; // XACTNOTIFICATIONTYPE_GUI*
XACT_NOTIFICATION_WAVE wave; // XACTNOTIFICATIONTYPE_WAVE*
};
} XACT_NOTIFICATION, *LPXACT_NOTIFICATION;
typedef const XACT_NOTIFICATION *LPCXACT_NOTIFICATION;
#pragma pack(pop)
//------------------------------------------------------------------------------
// IXACT3SoundBank
//------------------------------------------------------------------------------
#define XACT_FLAG_SOUNDBANK_STOP_IMMEDIATE XACT_FLAG_STOP_IMMEDIATE
#define XACT_SOUNDBANKSTATE_INUSE XACT_STATE_INUSE
STDAPI_(XACTINDEX) IXACT3SoundBank_GetCueIndex(__in IXACT3SoundBank* pSoundBank, __in PCSTR szFriendlyName);
STDAPI IXACT3SoundBank_GetNumCues(__in IXACT3SoundBank* pSoundBank, __out XACTINDEX* pnNumCues);
STDAPI IXACT3SoundBank_GetCueProperties(__in IXACT3SoundBank* pSoundBank, XACTINDEX nCueIndex, __out LPXACT_CUE_PROPERTIES pProperties);
STDAPI IXACT3SoundBank_Prepare(__in IXACT3SoundBank* pSoundBank, XACTINDEX nCueIndex, DWORD dwFlags, XACTTIME timeOffset, __deref_out IXACT3Cue** ppCue);
STDAPI IXACT3SoundBank_Play(__in IXACT3SoundBank* pSoundBank, XACTINDEX nCueIndex, DWORD dwFlags, XACTTIME timeOffset, __deref_opt_out IXACT3Cue** ppCue);
STDAPI IXACT3SoundBank_Stop(__in IXACT3SoundBank* pSoundBank, XACTINDEX nCueIndex, DWORD dwFlags);
STDAPI IXACT3SoundBank_Destroy(__in IXACT3SoundBank* pSoundBank);
STDAPI IXACT3SoundBank_GetState(__in IXACT3SoundBank* pSoundBank, __out DWORD* pdwState);
#undef INTERFACE
#define INTERFACE IXACT3SoundBank
DECLARE_INTERFACE(IXACT3SoundBank)
{
STDMETHOD_(XACTINDEX, GetCueIndex)(THIS_ __in PCSTR szFriendlyName) PURE;
STDMETHOD(GetNumCues)(THIS_ __out XACTINDEX* pnNumCues) PURE;
STDMETHOD(GetCueProperties)(THIS_ XACTINDEX nCueIndex, __out LPXACT_CUE_PROPERTIES pProperties) PURE;
STDMETHOD(Prepare)(THIS_ XACTINDEX nCueIndex, DWORD dwFlags, XACTTIME timeOffset, __deref_out IXACT3Cue** ppCue) PURE;
STDMETHOD(Play)(THIS_ XACTINDEX nCueIndex, DWORD dwFlags, XACTTIME timeOffset, __deref_opt_out IXACT3Cue** ppCue) PURE;
STDMETHOD(Stop)(THIS_ XACTINDEX nCueIndex, DWORD dwFlags) PURE;
STDMETHOD(Destroy)(THIS) PURE;
STDMETHOD(GetState)(THIS_ __out DWORD* pdwState) PURE;
};
#ifdef __cplusplus
__inline HRESULT __stdcall IXACT3SoundBank_Destroy(__in IXACT3SoundBank* pSoundBank)
{
return pSoundBank->Destroy();
}
__inline XACTINDEX __stdcall IXACT3SoundBank_GetCueIndex(__in IXACT3SoundBank* pSoundBank, __in PCSTR szFriendlyName)
{
return pSoundBank->GetCueIndex(szFriendlyName);
}
__inline HRESULT __stdcall IXACT3SoundBank_GetNumCues(__in IXACT3SoundBank* pSoundBank, __out XACTINDEX* pnNumCues)
{
return pSoundBank->GetNumCues(pnNumCues);
}
__inline HRESULT __stdcall IXACT3SoundBank_GetCueProperties(__in IXACT3SoundBank* pSoundBank, XACTINDEX nCueIndex, __out LPXACT_CUE_PROPERTIES pProperties)
{
return pSoundBank->GetCueProperties(nCueIndex, pProperties);
}
__inline HRESULT __stdcall IXACT3SoundBank_Prepare(__in IXACT3SoundBank* pSoundBank, XACTINDEX nCueIndex, DWORD dwFlags, XACTTIME timeOffset, __deref_out IXACT3Cue** ppCue)
{
return pSoundBank->Prepare(nCueIndex, dwFlags, timeOffset, ppCue);
}
__inline HRESULT __stdcall IXACT3SoundBank_Play(__in IXACT3SoundBank* pSoundBank, XACTINDEX nCueIndex, DWORD dwFlags, XACTTIME timeOffset, __deref_opt_out IXACT3Cue** ppCue)
{
return pSoundBank->Play(nCueIndex, dwFlags, timeOffset, ppCue);
}
__inline HRESULT __stdcall IXACT3SoundBank_Stop(__in IXACT3SoundBank* pSoundBank, XACTINDEX nCueIndex, DWORD dwFlags)
{
return pSoundBank->Stop(nCueIndex, dwFlags);
}
__inline HRESULT __stdcall IXACT3SoundBank_GetState(__in IXACT3SoundBank* pSoundBank, __out DWORD* pdwState)
{
return pSoundBank->GetState(pdwState);
}
#else // __cplusplus
__inline HRESULT __stdcall IXACT3SoundBank_Destroy(__in IXACT3SoundBank* pSoundBank)
{
return pSoundBank->lpVtbl->Destroy(pSoundBank);
}
__inline XACTINDEX __stdcall IXACT3SoundBank_GetCueIndex(__in IXACT3SoundBank* pSoundBank, __in PCSTR szFriendlyName)
{
return pSoundBank->lpVtbl->GetCueIndex(pSoundBank, szFriendlyName);
}
__inline HRESULT __stdcall IXACT3SoundBank_GetNumCues(__in IXACT3SoundBank* pSoundBank, __out XACTINDEX* pnNumCues)
{
return pSoundBank->lpVtbl->GetNumCues(pSoundBank, pnNumCues);
}
__inline HRESULT __stdcall IXACT3SoundBank_GetCueProperties(__in IXACT3SoundBank* pSoundBank, XACTINDEX nCueIndex, __out LPXACT_CUE_PROPERTIES pProperties)
{
return pSoundBank->lpVtbl->GetCueProperties(pSoundBank, nCueIndex, pProperties);
}
__inline HRESULT __stdcall IXACT3SoundBank_Prepare(__in IXACT3SoundBank* pSoundBank, XACTINDEX nCueIndex, DWORD dwFlags, XACTTIME timeOffset, __deref_out IXACT3Cue** ppCue)
{
return pSoundBank->lpVtbl->Prepare(pSoundBank, nCueIndex, dwFlags, timeOffset, ppCue);
}
__inline HRESULT __stdcall IXACT3SoundBank_Play(__in IXACT3SoundBank* pSoundBank, XACTINDEX nCueIndex, DWORD dwFlags, XACTTIME timeOffset, __deref_opt_out IXACT3Cue** ppCue)
{
return pSoundBank->lpVtbl->Play(pSoundBank, nCueIndex, dwFlags, timeOffset, ppCue);
}
__inline HRESULT __stdcall IXACT3SoundBank_Stop(__in IXACT3SoundBank* pSoundBank, XACTINDEX nCueIndex, DWORD dwFlags)
{
return pSoundBank->lpVtbl->Stop(pSoundBank, nCueIndex, dwFlags);
}
__inline HRESULT __stdcall IXACT3SoundBank_GetState(__in IXACT3SoundBank* pSoundBank, __out DWORD* pdwState)
{
return pSoundBank->lpVtbl->GetState(pSoundBank, pdwState);
}
#endif // __cplusplus
//------------------------------------------------------------------------------
// IXACT3WaveBank
//------------------------------------------------------------------------------
#define XACT_WAVEBANKSTATE_INUSE XACT_STATE_INUSE // Currently in-use
#define XACT_WAVEBANKSTATE_PREPARED XACT_STATE_PREPARED // Prepared
#define XACT_WAVEBANKSTATE_PREPAREFAILED XACT_STATE_PREPAREFAILED // Prepare failed.
STDAPI IXACT3WaveBank_Destroy(__in IXACT3WaveBank* pWaveBank);
STDAPI IXACT3WaveBank_GetState(__in IXACT3WaveBank* pWaveBank, __out DWORD* pdwState);
STDAPI IXACT3WaveBank_GetNumWaves(__in IXACT3WaveBank* pWaveBank, __out XACTINDEX* pnNumWaves);
STDAPI_(XACTINDEX) IXACT3WaveBank_GetWaveIndex(__in IXACT3WaveBank* pWaveBank, __in PCSTR szFriendlyName);
STDAPI IXACT3WaveBank_GetWaveProperties(__in IXACT3WaveBank* pWaveBank, XACTINDEX nWaveIndex, __out LPXACT_WAVE_PROPERTIES pWaveProperties);
STDAPI IXACT3WaveBank_Prepare(__in IXACT3WaveBank* pWaveBank, XACTINDEX nWaveIndex, DWORD dwFlags, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave);
STDAPI IXACT3WaveBank_Play(__in IXACT3WaveBank* pWaveBank, XACTINDEX nWaveIndex, DWORD dwFlags, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave);
STDAPI IXACT3WaveBank_Stop(__in IXACT3WaveBank* pWaveBank, XACTINDEX nWaveIndex, DWORD dwFlags);
#undef INTERFACE
#define INTERFACE IXACT3WaveBank
DECLARE_INTERFACE(IXACT3WaveBank)
{
STDMETHOD(Destroy)(THIS) PURE;
STDMETHOD(GetNumWaves)(THIS_ __out XACTINDEX* pnNumWaves) PURE;
STDMETHOD_(XACTINDEX, GetWaveIndex)(THIS_ __in PCSTR szFriendlyName) PURE;
STDMETHOD(GetWaveProperties)(THIS_ XACTINDEX nWaveIndex, __out LPXACT_WAVE_PROPERTIES pWaveProperties) PURE;
STDMETHOD(Prepare)(THIS_ XACTINDEX nWaveIndex, DWORD dwFlags, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave) PURE;
STDMETHOD(Play)(THIS_ XACTINDEX nWaveIndex, DWORD dwFlags, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave) PURE;
STDMETHOD(Stop)(THIS_ XACTINDEX nWaveIndex, DWORD dwFlags) PURE;
STDMETHOD(GetState)(THIS_ __out DWORD* pdwState) PURE;
};
#ifdef __cplusplus
__inline HRESULT __stdcall IXACT3WaveBank_Destroy(__in IXACT3WaveBank* pWaveBank)
{
return pWaveBank->Destroy();
}
__inline HRESULT __stdcall IXACT3WaveBank_GetNumWaves(__in IXACT3WaveBank* pWaveBank, __out XACTINDEX* pnNumWaves)
{
return pWaveBank->GetNumWaves(pnNumWaves);
}
__inline XACTINDEX __stdcall IXACT3WaveBank_GetWaveIndex(__in IXACT3WaveBank* pWaveBank, __in PCSTR szFriendlyName)
{
return pWaveBank->GetWaveIndex(szFriendlyName);
}
__inline HRESULT __stdcall IXACT3WaveBank_GetWaveProperties(__in IXACT3WaveBank* pWaveBank, XACTINDEX nWaveIndex, __out LPXACT_WAVE_PROPERTIES pWaveProperties)
{
return pWaveBank->GetWaveProperties(nWaveIndex, pWaveProperties);
}
__inline HRESULT __stdcall IXACT3WaveBank_Prepare(__in IXACT3WaveBank* pWaveBank, XACTINDEX nWaveIndex, DWORD dwFlags, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave)
{
return pWaveBank->Prepare(nWaveIndex, dwFlags, dwPlayOffset, nLoopCount, ppWave);
}
__inline HRESULT __stdcall IXACT3WaveBank_Play(__in IXACT3WaveBank* pWaveBank, XACTINDEX nWaveIndex, DWORD dwFlags, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave)
{
return pWaveBank->Play(nWaveIndex, dwFlags, dwPlayOffset, nLoopCount, ppWave);
}
__inline HRESULT __stdcall IXACT3WaveBank_Stop(__in IXACT3WaveBank* pWaveBank, XACTINDEX nWaveIndex, DWORD dwFlags)
{
return pWaveBank->Stop(nWaveIndex, dwFlags);
}
__inline HRESULT __stdcall IXACT3WaveBank_GetState(__in IXACT3WaveBank* pWaveBank, __out DWORD* pdwState)
{
return pWaveBank->GetState(pdwState);
}
#else // __cplusplus
__inline HRESULT __stdcall IXACT3WaveBank_Destroy(__in IXACT3WaveBank* pWaveBank)
{
return pWaveBank->lpVtbl->Destroy(pWaveBank);
}
__inline HRESULT __stdcall IXACT3WaveBank_GetNumWaves(__in IXACT3WaveBank* pWaveBank, __out XACTINDEX* pnNumWaves)
{
return pWaveBank->lpVtbl->GetNumWaves(pWaveBank, pnNumWaves);
}
__inline XACTINDEX __stdcall IXACT3WaveBank_GetWaveIndex(__in IXACT3WaveBank* pWaveBank, __in PCSTR szFriendlyName)
{
return pWaveBank->lpVtbl->GetWaveIndex(pWaveBank, szFriendlyName);
}
__inline HRESULT __stdcall IXACT3WaveBank_GetWaveProperties(__in IXACT3WaveBank* pWaveBank, XACTINDEX nWaveIndex, __out LPXACT_WAVE_PROPERTIES pWaveProperties)
{
return pWaveBank->lpVtbl->GetWaveProperties(pWaveBank, nWaveIndex, pWaveProperties);
}
__inline HRESULT __stdcall IXACT3WaveBank_Prepare(__in IXACT3WaveBank* pWaveBank, XACTINDEX nWaveIndex, DWORD dwFlags, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave)
{
return pWaveBank->lpVtbl->Prepare(pWaveBank, nWaveIndex, dwFlags, dwPlayOffset, nLoopCount, ppWave);
}
__inline HRESULT __stdcall IXACT3WaveBank_Play(__in IXACT3WaveBank* pWaveBank, XACTINDEX nWaveIndex, DWORD dwFlags, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave)
{
return pWaveBank->lpVtbl->Play(pWaveBank, nWaveIndex, dwFlags, dwPlayOffset, nLoopCount, ppWave);
}
__inline HRESULT __stdcall IXACT3WaveBank_Stop(__in IXACT3WaveBank* pWaveBank, XACTINDEX nWaveIndex, DWORD dwFlags)
{
return pWaveBank->lpVtbl->Stop(pWaveBank, nWaveIndex, dwFlags);
}
__inline HRESULT __stdcall IXACT3WaveBank_GetState(__in IXACT3WaveBank* pWaveBank, __out DWORD* pdwState)
{
return pWaveBank->lpVtbl->GetState(pWaveBank, pdwState);
}
#endif // __cplusplus
//------------------------------------------------------------------------------
// IXACT3Wave
//------------------------------------------------------------------------------
STDAPI IXACT3Wave_Destroy(__in IXACT3Wave* pWave);
STDAPI IXACT3Wave_Play(__in IXACT3Wave* pWave);
STDAPI IXACT3Wave_Stop(__in IXACT3Wave* pWave, DWORD dwFlags);
STDAPI IXACT3Wave_Pause(__in IXACT3Wave* pWave, BOOL fPause);
STDAPI IXACT3Wave_GetState(__in IXACT3Wave* pWave, __out DWORD* pdwState);
STDAPI IXACT3Wave_SetPitch(__in IXACT3Wave* pWave, XACTPITCH pitch);
STDAPI IXACT3Wave_SetVolume(__in IXACT3Wave* pWave, XACTVOLUME volume);
STDAPI IXACT3Wave_SetMatrixCoefficients(__in IXACT3Wave* pWave, UINT32 uSrcChannelCount, UINT32 uDstChannelCount, __in float* pMatrixCoefficients);
STDAPI IXACT3Wave_GetProperties(__in IXACT3Wave* pWave, __out LPXACT_WAVE_INSTANCE_PROPERTIES pProperties);
#undef INTERFACE
#define INTERFACE IXACT3Wave
DECLARE_INTERFACE(IXACT3Wave)
{
STDMETHOD(Destroy)(THIS) PURE;
STDMETHOD(Play)(THIS) PURE;
STDMETHOD(Stop)(THIS_ DWORD dwFlags) PURE;
STDMETHOD(Pause)(THIS_ BOOL fPause) PURE;
STDMETHOD(GetState)(THIS_ __out DWORD* pdwState) PURE;
STDMETHOD(SetPitch)(THIS_ XACTPITCH pitch) PURE;
STDMETHOD(SetVolume)(THIS_ XACTVOLUME volume) PURE;
STDMETHOD(SetMatrixCoefficients)(THIS_ UINT32 uSrcChannelCount, UINT32 uDstChannelCount, __in float* pMatrixCoefficients) PURE;
STDMETHOD(GetProperties)(THIS_ __out LPXACT_WAVE_INSTANCE_PROPERTIES pProperties) PURE;
};
#ifdef __cplusplus
__inline HRESULT __stdcall IXACT3Wave_Destroy(__in IXACT3Wave* pWave)
{
return pWave->Destroy();
}
__inline HRESULT __stdcall IXACT3Wave_Play(__in IXACT3Wave* pWave)
{
return pWave->Play();
}
__inline HRESULT __stdcall IXACT3Wave_Stop(__in IXACT3Wave* pWave, DWORD dwFlags)
{
return pWave->Stop(dwFlags);
}
__inline HRESULT __stdcall IXACT3Wave_Pause(__in IXACT3Wave* pWave, BOOL fPause)
{
return pWave->Pause(fPause);
}
__inline HRESULT __stdcall IXACT3Wave_GetState(__in IXACT3Wave* pWave, __out DWORD* pdwState)
{
return pWave->GetState(pdwState);
}
__inline HRESULT __stdcall IXACT3Wave_SetPitch(__in IXACT3Wave* pWave, XACTPITCH pitch)
{
return pWave->SetPitch(pitch);
}
__inline HRESULT __stdcall IXACT3Wave_SetVolume(__in IXACT3Wave* pWave, XACTVOLUME volume)
{
return pWave->SetVolume(volume);
}
__inline HRESULT __stdcall IXACT3Wave_SetMatrixCoefficients(__in IXACT3Wave* pWave, UINT32 uSrcChannelCount, UINT32 uDstChannelCount, __in float* pMatrixCoefficients)
{
return pWave->SetMatrixCoefficients(uSrcChannelCount, uDstChannelCount, pMatrixCoefficients);
}
__inline HRESULT __stdcall IXACT3Wave_GetProperties(__in IXACT3Wave* pWave, __out LPXACT_WAVE_INSTANCE_PROPERTIES pProperties)
{
return pWave->GetProperties(pProperties);
}
#else // __cplusplus
__inline HRESULT __stdcall IXACT3Wave_Destroy(__in IXACT3Wave* pWave)
{
return pWave->lpVtbl->Destroy(pWave);
}
__inline HRESULT __stdcall IXACT3Wave_Play(__in IXACT3Wave* pWave)
{
return pWave->lpVtbl->Play(pWave);
}
__inline HRESULT __stdcall IXACT3Wave_Stop(__in IXACT3Wave* pWave, DWORD dwFlags)
{
return pWave->lpVtbl->Stop(pWave, dwFlags);
}
__inline HRESULT __stdcall IXACT3Wave_Pause(__in IXACT3Wave* pWave, BOOL fPause)
{
return pWave->lpVtbl->Pause(pWave, fPause);
}
__inline HRESULT __stdcall IXACT3Wave_GetState(__in IXACT3Wave* pWave, __out DWORD* pdwState)
{
return pWave->lpVtbl->GetState(pWave, pdwState);
}
__inline HRESULT __stdcall IXACT3Wave_SetPitch(__in IXACT3Wave* pWave, XACTPITCH pitch)
{
return pWave->lpVtbl->SetPitch(pWave, pitch);
}
__inline HRESULT __stdcall IXACT3Wave_SetVolume(__in IXACT3Wave* pWave, XACTVOLUME volume)
{
return pWave->lpVtbl->SetVolume(pWave, volume);
}
__inline HRESULT __stdcall IXACT3Wave_SetMatrixCoefficients(__in IXACT3Wave* pWave, UINT32 uSrcChannelCount, UINT32 uDstChannelCount, __in float* pMatrixCoefficients)
{
return pWave->lpVtbl->SetMatrixCoefficients(pWave, uSrcChannelCount, uDstChannelCount, pMatrixCoefficients);
}
__inline HRESULT __stdcall IXACT3Wave_GetProperties(__in IXACT3Wave* pWave, __out LPXACT_WAVE_INSTANCE_PROPERTIES pProperties)
{
return pWave->lpVtbl->GetProperties(pWave, pProperties);
}
#endif // __cplusplus
//------------------------------------------------------------------------------
// IXACT3Cue
//------------------------------------------------------------------------------
// Cue Flags
#define XACT_FLAG_CUE_STOP_RELEASE XACT_FLAG_STOP_RELEASE
#define XACT_FLAG_CUE_STOP_IMMEDIATE XACT_FLAG_STOP_IMMEDIATE
// Mutually exclusive states
#define XACT_CUESTATE_CREATED XACT_STATE_CREATED // Created, but nothing else
#define XACT_CUESTATE_PREPARING XACT_STATE_PREPARING // In the middle of preparing
#define XACT_CUESTATE_PREPARED XACT_STATE_PREPARED // Prepared, but not yet played
#define XACT_CUESTATE_PLAYING XACT_STATE_PLAYING // Playing (though could be paused)
#define XACT_CUESTATE_STOPPING XACT_STATE_STOPPING // Stopping
#define XACT_CUESTATE_STOPPED XACT_STATE_STOPPED // Stopped
#define XACT_CUESTATE_PAUSED XACT_STATE_PAUSED // Paused (can be combined with other states)
STDAPI IXACT3Cue_Destroy(__in IXACT3Cue* pCue);
STDAPI IXACT3Cue_Play(__in IXACT3Cue* pCue);
STDAPI IXACT3Cue_Stop(__in IXACT3Cue* pCue, DWORD dwFlags);
STDAPI IXACT3Cue_GetState(__in IXACT3Cue* pCue, __out DWORD* pdwState);
STDAPI IXACT3Cue_SetMatrixCoefficients(__in IXACT3Cue*, UINT32 uSrcChannelCount, UINT32 uDstChannelCount, __in float* pMatrixCoefficients);
STDAPI_(XACTVARIABLEINDEX) IXACT3Cue_GetVariableIndex(__in IXACT3Cue* pCue, __in PCSTR szFriendlyName);
STDAPI IXACT3Cue_SetVariable(__in IXACT3Cue* pCue, XACTVARIABLEINDEX nIndex, XACTVARIABLEVALUE nValue);
STDAPI IXACT3Cue_GetVariable(__in IXACT3Cue* pCue, XACTVARIABLEINDEX nIndex, __out XACTVARIABLEVALUE* nValue);
STDAPI IXACT3Cue_Pause(__in IXACT3Cue* pCue, BOOL fPause);
STDAPI IXACT3Cue_GetProperties(__in IXACT3Cue* pCue, __out LPXACT_CUE_INSTANCE_PROPERTIES* ppProperties);
STDAPI IXACT3Cue_SetOutputVoices(__in IXACT3Cue* pCue, __in_opt const XAUDIO2_VOICE_SENDS* pSendList);
STDAPI IXACT3Cue_SetOutputVoiceMatrix(__in IXACT3Cue* pCue, __in_opt IXAudio2Voice* pDestinationVoice, UINT32 SourceChannels, UINT32 DestinationChannels, __in_ecount(SourceChannels * DestinationChannels) const float* pLevelMatrix);
#undef INTERFACE
#define INTERFACE IXACT3Cue
DECLARE_INTERFACE(IXACT3Cue)
{
STDMETHOD(Play)(THIS) PURE;
STDMETHOD(Stop)(THIS_ DWORD dwFlags) PURE;
STDMETHOD(GetState)(THIS_ __out DWORD* pdwState) PURE;
STDMETHOD(Destroy)(THIS) PURE;
STDMETHOD(SetMatrixCoefficients)(THIS_ UINT32 uSrcChannelCount, UINT32 uDstChannelCount, __in float* pMatrixCoefficients) PURE;
STDMETHOD_(XACTVARIABLEINDEX, GetVariableIndex)(THIS_ __in PCSTR szFriendlyName) PURE;
STDMETHOD(SetVariable)(THIS_ XACTVARIABLEINDEX nIndex, XACTVARIABLEVALUE nValue) PURE;
STDMETHOD(GetVariable)(THIS_ XACTVARIABLEINDEX nIndex, __out XACTVARIABLEVALUE* nValue) PURE;
STDMETHOD(Pause)(THIS_ BOOL fPause) PURE;
STDMETHOD(GetProperties)(THIS_ __out LPXACT_CUE_INSTANCE_PROPERTIES* ppProperties) PURE;
STDMETHOD(SetOutputVoices)(THIS_ __in_opt const XAUDIO2_VOICE_SENDS* pSendList) PURE;
STDMETHOD(SetOutputVoiceMatrix)(THIS_ __in_opt IXAudio2Voice* pDestinationVoice, UINT32 SourceChannels, UINT32 DestinationChannels, __in_ecount(SourceChannels * DestinationChannels) const float* pLevelMatrix) PURE;
};
#ifdef __cplusplus
__inline HRESULT __stdcall IXACT3Cue_Play(__in IXACT3Cue* pCue)
{
return pCue->Play();
}
__inline HRESULT __stdcall IXACT3Cue_Stop(__in IXACT3Cue* pCue, DWORD dwFlags)
{
return pCue->Stop(dwFlags);
}
__inline HRESULT __stdcall IXACT3Cue_GetState(__in IXACT3Cue* pCue, __out DWORD* pdwState)
{
return pCue->GetState(pdwState);
}
__inline HRESULT __stdcall IXACT3Cue_Destroy(__in IXACT3Cue* pCue)
{
return pCue->Destroy();
}
__inline HRESULT __stdcall IXACT3Cue_SetMatrixCoefficients(__in IXACT3Cue* pCue, UINT32 uSrcChannelCount, UINT32 uDstChannelCount, __in float* pMatrixCoefficients)
{
return pCue->SetMatrixCoefficients(uSrcChannelCount, uDstChannelCount, pMatrixCoefficients);
}
__inline XACTVARIABLEINDEX __stdcall IXACT3Cue_GetVariableIndex(__in IXACT3Cue* pCue, __in PCSTR szFriendlyName)
{
return pCue->GetVariableIndex(szFriendlyName);
}
__inline HRESULT __stdcall IXACT3Cue_SetVariable(__in IXACT3Cue* pCue, XACTVARIABLEINDEX nIndex, XACTVARIABLEVALUE nValue)
{
return pCue->SetVariable(nIndex, nValue);
}
__inline HRESULT __stdcall IXACT3Cue_GetVariable(__in IXACT3Cue* pCue, XACTVARIABLEINDEX nIndex, __out XACTVARIABLEVALUE* pnValue)
{
return pCue->GetVariable(nIndex, pnValue);
}
__inline HRESULT __stdcall IXACT3Cue_Pause(__in IXACT3Cue* pCue, BOOL fPause)
{
return pCue->Pause(fPause);
}
__inline HRESULT __stdcall IXACT3Cue_GetProperties(__in IXACT3Cue* pCue, __out LPXACT_CUE_INSTANCE_PROPERTIES* ppProperties)
{
return pCue->GetProperties(ppProperties);
}
__inline HRESULT __stdcall IXACT3Cue_SetOutputVoices(__in IXACT3Cue* pCue, __in_opt const XAUDIO2_VOICE_SENDS* pSendList)
{
return pCue->SetOutputVoices(pSendList);
}
__inline HRESULT __stdcall IXACT3Cue_SetOutputVoiceMatrix(__in IXACT3Cue* pCue, __in_opt IXAudio2Voice* pDestinationVoice, UINT32 SourceChannels, UINT32 DestinationChannels, __in_ecount(SourceChannels * DestinationChannels) const float* pLevelMatrix)
{
return pCue->SetOutputVoiceMatrix(pDestinationVoice, SourceChannels, DestinationChannels, pLevelMatrix);
}
#else // __cplusplus
__inline HRESULT __stdcall IXACT3Cue_Play(__in IXACT3Cue* pCue)
{
return pCue->lpVtbl->Play(pCue);
}
__inline HRESULT __stdcall IXACT3Cue_Stop(__in IXACT3Cue* pCue, DWORD dwFlags)
{
return pCue->lpVtbl->Stop(pCue, dwFlags);
}
__inline HRESULT __stdcall IXACT3Cue_GetState(__in IXACT3Cue* pCue, __out DWORD* pdwState)
{
return pCue->lpVtbl->GetState(pCue, pdwState);
}
__inline HRESULT __stdcall IXACT3Cue_Destroy(__in IXACT3Cue* pCue)
{
return pCue->lpVtbl->Destroy(pCue);
}
__inline HRESULT __stdcall IXACT3Cue_SetMatrixCoefficients(__in IXACT3Cue* pCue, UINT32 uSrcChannelCount, UINT32 uDstChannelCount, __in float* pMatrixCoefficients)
{
return pCue->lpVtbl->SetMatrixCoefficients(pCue, uSrcChannelCount, uDstChannelCount, pMatrixCoefficients);
}
__inline XACTVARIABLEINDEX __stdcall IXACT3Cue_GetVariableIndex(__in IXACT3Cue* pCue, __in PCSTR szFriendlyName)
{
return pCue->lpVtbl->GetVariableIndex(pCue, szFriendlyName);
}
__inline HRESULT __stdcall IXACT3Cue_SetVariable(__in IXACT3Cue* pCue, XACTVARIABLEINDEX nIndex, XACTVARIABLEVALUE nValue)
{
return pCue->lpVtbl->SetVariable(pCue, nIndex, nValue);
}
__inline HRESULT __stdcall IXACT3Cue_GetVariable(__in IXACT3Cue* pCue, XACTVARIABLEINDEX nIndex, __out XACTVARIABLEVALUE* pnValue)
{
return pCue->lpVtbl->GetVariable(pCue, nIndex, pnValue);
}
__inline HRESULT __stdcall IXACT3Cue_Pause(__in IXACT3Cue* pCue, BOOL fPause)
{
return pCue->lpVtbl->Pause(pCue, fPause);
}
__inline HRESULT __stdcall IXACT3Cue_GetProperties(__in IXACT3Cue* pCue, __out LPXACT_CUE_INSTANCE_PROPERTIES* ppProperties)
{
return pCue->lpVtbl->GetProperties(pCue, ppProperties);
}
__inline HRESULT __stdcall IXACT3Cue_SetOutputVoices(__in IXACT3Cue* pCue, __in_opt const XAUDIO2_VOICE_SENDS* pSendList)
{
return pCue->lpVtbl->SetOutputVoices(pSendList);
}
__inline HRESULT __stdcall IXACT3Cue_SetOutputVoiceMatrix(__in IXACT3Cue* pCue, __in_opt IXAudio2Voice* pDestinationVoice, UINT32 SourceChannels, UINT32 DestinationChannels, __in_ecount(SourceChannels * DestinationChannels) const float* pLevelMatrix)
{
return pCue->lpVtbl->SetOutputVoiceMatrix(pDestinationVoice, SourceChannels, DestinationChannels, pLevelMatrix);
}
#endif // __cplusplus
//------------------------------------------------------------------------------
// IXACT3Engine
//------------------------------------------------------------------------------
// Engine flags
#define XACT_FLAG_ENGINE_CREATE_MANAGEDATA XACT_FLAG_MANAGEDATA
#define XACT_FLAG_ENGINE_STOP_IMMEDIATE XACT_FLAG_STOP_IMMEDIATE
STDAPI_(ULONG) IXACT3Engine_AddRef(__in IXACT3Engine* pEngine);
STDAPI_(ULONG) IXACT3Engine_Release(__in IXACT3Engine* pEngine);
STDAPI IXACT3Engine_GetRendererCount(__in IXACT3Engine* pEngine, __out XACTINDEX* pnRendererCount);
STDAPI IXACT3Engine_GetRendererDetails(__in IXACT3Engine* pEngine, XACTINDEX nRendererIndex, __out LPXACT_RENDERER_DETAILS pRendererDetails);
STDAPI IXACT3Engine_GetFinalMixFormat(__in IXACT3Engine* pEngine, __out WAVEFORMATEXTENSIBLE* pFinalMixFormat);
STDAPI IXACT3Engine_Initialize(__in IXACT3Engine* pEngine, __in const XACT_RUNTIME_PARAMETERS* pParams);
STDAPI IXACT3Engine_ShutDown(__in IXACT3Engine* pEngine);
STDAPI IXACT3Engine_DoWork(__in IXACT3Engine* pEngine);
STDAPI IXACT3Engine_CreateSoundBank(__in IXACT3Engine* pEngine, __in const void* pvBuffer, DWORD dwSize, DWORD dwFlags, DWORD dwAllocAttributes, __deref_out IXACT3SoundBank** ppSoundBank);
STDAPI IXACT3Engine_CreateInMemoryWaveBank(__in IXACT3Engine* pEngine, __in const void* pvBuffer, DWORD dwSize, DWORD dwFlags, DWORD dwAllocAttributes, __deref_out IXACT3WaveBank** ppWaveBank);
STDAPI IXACT3Engine_CreateStreamingWaveBank(__in IXACT3Engine* pEngine, __in const XACT_WAVEBANK_STREAMING_PARAMETERS* pParms, __deref_out IXACT3WaveBank** ppWaveBank);
STDAPI IXACT3Engine_PrepareWave(__in IXACT3Engine* pEngine, DWORD dwFlags, __in PCSTR szWavePath, WORD wStreamingPacketSize, DWORD dwAlignment, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave);
STDAPI IXACT3Engine_PrepareInMemoryWave(__in IXACT3Engine* pEngine, DWORD dwFlags, WAVEBANKENTRY entry, __in_opt DWORD* pdwSeekTable, __in_opt BYTE* pbWaveData, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave);
STDAPI IXACT3Engine_PrepareStreamingWave(__in IXACT3Engine* pEngine, DWORD dwFlags, WAVEBANKENTRY entry, XACT_STREAMING_PARAMETERS streamingParams, DWORD dwAlignment, __in_opt DWORD* pdwSeekTable, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave);
STDAPI IXACT3Engine_RegisterNotification(__in IXACT3Engine* pEngine, __in const XACT_NOTIFICATION_DESCRIPTION* pNotificationDesc);
STDAPI IXACT3Engine_UnRegisterNotification(__in IXACT3Engine* pEngine, __in const XACT_NOTIFICATION_DESCRIPTION* pNotificationDesc);
STDAPI_(XACTCATEGORY) IXACT3Engine_GetCategory(__in IXACT3Engine* pEngine, __in PCSTR szFriendlyName);
STDAPI IXACT3Engine_Stop(__in IXACT3Engine* pEngine, XACTCATEGORY nCategory, DWORD dwFlags);
STDAPI IXACT3Engine_SetVolume(__in IXACT3Engine* pEngine, XACTCATEGORY nCategory, XACTVOLUME nVolume);
STDAPI IXACT3Engine_Pause(__in IXACT3Engine* pEngine, XACTCATEGORY nCategory, BOOL fPause);
STDAPI_(XACTVARIABLEINDEX) IXACT3Engine_GetGlobalVariableIndex(__in IXACT3Engine* pEngine, __in PCSTR szFriendlyName);
STDAPI IXACT3Engine_SetGlobalVariable(__in IXACT3Engine* pEngine, XACTVARIABLEINDEX nIndex, XACTVARIABLEVALUE nValue);
STDAPI IXACT3Engine_GetGlobalVariable(__in IXACT3Engine* pEngine, XACTVARIABLEINDEX nIndex, __out XACTVARIABLEVALUE* pnValue);
#undef INTERFACE
#define INTERFACE IXACT3Engine
#ifdef _XBOX
DECLARE_INTERFACE(IXACT3Engine)
{
#else
DECLARE_INTERFACE_(IXACT3Engine, IUnknown)
{
STDMETHOD(QueryInterface)(THIS_ __in REFIID riid, __deref_out void** ppvObj) PURE;
#endif
STDMETHOD_(ULONG, AddRef)(THIS) PURE;
STDMETHOD_(ULONG, Release)(THIS) PURE;
STDMETHOD(GetRendererCount)(THIS_ __out XACTINDEX* pnRendererCount) PURE;
STDMETHOD(GetRendererDetails)(THIS_ XACTINDEX nRendererIndex, __out LPXACT_RENDERER_DETAILS pRendererDetails) PURE;
STDMETHOD(GetFinalMixFormat)(THIS_ __out WAVEFORMATEXTENSIBLE* pFinalMixFormat) PURE;
STDMETHOD(Initialize)(THIS_ __in const XACT_RUNTIME_PARAMETERS* pParams) PURE;
STDMETHOD(ShutDown)(THIS) PURE;
STDMETHOD(DoWork)(THIS) PURE;
STDMETHOD(CreateSoundBank)(THIS_ __in const void* pvBuffer, DWORD dwSize, DWORD dwFlags, DWORD dwAllocAttributes, __deref_out IXACT3SoundBank** ppSoundBank) PURE;
STDMETHOD(CreateInMemoryWaveBank)(THIS_ __in const void* pvBuffer, DWORD dwSize, DWORD dwFlags, DWORD dwAllocAttributes, __deref_out IXACT3WaveBank** ppWaveBank) PURE;
STDMETHOD(CreateStreamingWaveBank)(THIS_ __in const XACT_WAVEBANK_STREAMING_PARAMETERS* pParms, __deref_out IXACT3WaveBank** ppWaveBank) PURE;
STDMETHOD(PrepareWave)(THIS_ DWORD dwFlags, __in PCSTR szWavePath, WORD wStreamingPacketSize, DWORD dwAlignment, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave) PURE;
STDMETHOD(PrepareInMemoryWave)(THIS_ DWORD dwFlags, WAVEBANKENTRY entry, __in_opt DWORD* pdwSeekTable, __in_opt BYTE* pbWaveData, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave) PURE;
STDMETHOD(PrepareStreamingWave)(THIS_ DWORD dwFlags, WAVEBANKENTRY entry, XACT_STREAMING_PARAMETERS streamingParams, DWORD dwAlignment, __in_opt DWORD* pdwSeekTable, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave) PURE;
STDMETHOD(RegisterNotification)(THIS_ __in const XACT_NOTIFICATION_DESCRIPTION* pNotificationDesc) PURE;
STDMETHOD(UnRegisterNotification)(THIS_ __in const XACT_NOTIFICATION_DESCRIPTION* pNotificationDesc) PURE;
STDMETHOD_(XACTCATEGORY, GetCategory)(THIS_ __in PCSTR szFriendlyName) PURE;
STDMETHOD(Stop)(THIS_ XACTCATEGORY nCategory, DWORD dwFlags) PURE;
STDMETHOD(SetVolume)(THIS_ XACTCATEGORY nCategory, XACTVOLUME nVolume) PURE;
STDMETHOD(Pause)(THIS_ XACTCATEGORY nCategory, BOOL fPause) PURE;
STDMETHOD_(XACTVARIABLEINDEX, GetGlobalVariableIndex)(THIS_ __in PCSTR szFriendlyName) PURE;
STDMETHOD(SetGlobalVariable)(THIS_ XACTVARIABLEINDEX nIndex, XACTVARIABLEVALUE nValue) PURE;
STDMETHOD(GetGlobalVariable)(THIS_ XACTVARIABLEINDEX nIndex, __out XACTVARIABLEVALUE* nValue) PURE;
};
#ifdef __cplusplus
__inline ULONG __stdcall IXACT3Engine_AddRef(__in IXACT3Engine* pEngine)
{
return pEngine->AddRef();
}
__inline ULONG __stdcall IXACT3Engine_Release(__in IXACT3Engine* pEngine)
{
return pEngine->Release();
}
__inline HRESULT __stdcall IXACT3Engine_GetRendererCount(__in IXACT3Engine* pEngine, __out XACTINDEX* pnRendererCount)
{
return pEngine->GetRendererCount(pnRendererCount);
}
__inline HRESULT __stdcall IXACT3Engine_GetRendererDetails(__in IXACT3Engine* pEngine, XACTINDEX nRendererIndex, __out LPXACT_RENDERER_DETAILS pRendererDetails)
{
return pEngine->GetRendererDetails(nRendererIndex, pRendererDetails);
}
__inline HRESULT __stdcall IXACT3Engine_GetFinalMixFormat(__in IXACT3Engine* pEngine, __out WAVEFORMATEXTENSIBLE* pFinalMixFormat)
{
return pEngine->GetFinalMixFormat(pFinalMixFormat);
}
__inline HRESULT __stdcall IXACT3Engine_Initialize(__in IXACT3Engine* pEngine, __in const XACT_RUNTIME_PARAMETERS* pParams)
{
return pEngine->Initialize(pParams);
}
__inline HRESULT __stdcall IXACT3Engine_ShutDown(__in IXACT3Engine* pEngine)
{
return pEngine->ShutDown();
}
__inline HRESULT __stdcall IXACT3Engine_DoWork(__in IXACT3Engine* pEngine)
{
return pEngine->DoWork();
}
__inline HRESULT __stdcall IXACT3Engine_CreateSoundBank(__in IXACT3Engine* pEngine, __in const void* pvBuffer, DWORD dwSize, DWORD dwFlags, DWORD dwAllocAttributes, __deref_out IXACT3SoundBank** ppSoundBank)
{
return pEngine->CreateSoundBank(pvBuffer, dwSize, dwFlags, dwAllocAttributes, ppSoundBank);
}
__inline HRESULT __stdcall IXACT3Engine_CreateInMemoryWaveBank(__in IXACT3Engine* pEngine, __in const void* pvBuffer, DWORD dwSize, DWORD dwFlags, DWORD dwAllocAttributes, __deref_out IXACT3WaveBank** ppWaveBank)
{
return pEngine->CreateInMemoryWaveBank(pvBuffer, dwSize, dwFlags, dwAllocAttributes, ppWaveBank);
}
__inline HRESULT __stdcall IXACT3Engine_CreateStreamingWaveBank(__in IXACT3Engine* pEngine, __in const XACT_WAVEBANK_STREAMING_PARAMETERS* pParms, __deref_out IXACT3WaveBank** ppWaveBank)
{
return pEngine->CreateStreamingWaveBank(pParms, ppWaveBank);
}
__inline HRESULT __stdcall IXACT3Engine_PrepareWave(__in IXACT3Engine* pEngine, DWORD dwFlags, __in PCSTR szWavePath, WORD wStreamingPacketSize, DWORD dwAlignment, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave)
{
return pEngine->PrepareWave(dwFlags, szWavePath, wStreamingPacketSize, dwAlignment, dwPlayOffset, nLoopCount, ppWave);
}
__inline HRESULT __stdcall IXACT3Engine_PrepareInMemoryWave(__in IXACT3Engine* pEngine, DWORD dwFlags, WAVEBANKENTRY entry, __in_opt DWORD* pdwSeekTable, __in_opt BYTE* pbWaveData, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave)
{
return pEngine->PrepareInMemoryWave(dwFlags, entry, pdwSeekTable, pbWaveData, dwPlayOffset, nLoopCount, ppWave);
}
__inline HRESULT __stdcall IXACT3Engine_PrepareStreamingWave(__in IXACT3Engine* pEngine, DWORD dwFlags, WAVEBANKENTRY entry, XACT_STREAMING_PARAMETERS streamingParams, DWORD dwAlignment, __in_opt DWORD* pdwSeekTable, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave)
{
return pEngine->PrepareStreamingWave(dwFlags, entry, streamingParams, dwAlignment, pdwSeekTable, dwPlayOffset, nLoopCount, ppWave);
}
__inline HRESULT __stdcall IXACT3Engine_RegisterNotification(__in IXACT3Engine* pEngine, __in const XACT_NOTIFICATION_DESCRIPTION* pNotificationDesc)
{
return pEngine->RegisterNotification(pNotificationDesc);
}
__inline HRESULT __stdcall IXACT3Engine_UnRegisterNotification(__in IXACT3Engine* pEngine, __in const XACT_NOTIFICATION_DESCRIPTION* pNotificationDesc)
{
return pEngine->UnRegisterNotification(pNotificationDesc);
}
__inline XACTCATEGORY __stdcall IXACT3Engine_GetCategory(__in IXACT3Engine* pEngine, __in PCSTR szFriendlyName)
{
return pEngine->GetCategory(szFriendlyName);
}
__inline HRESULT __stdcall IXACT3Engine_Stop(__in IXACT3Engine* pEngine, XACTCATEGORY nCategory, DWORD dwFlags)
{
return pEngine->Stop(nCategory, dwFlags);
}
__inline HRESULT __stdcall IXACT3Engine_SetVolume(__in IXACT3Engine* pEngine, XACTCATEGORY nCategory, XACTVOLUME nVolume)
{
return pEngine->SetVolume(nCategory, nVolume);
}
__inline HRESULT __stdcall IXACT3Engine_Pause(__in IXACT3Engine* pEngine, XACTCATEGORY nCategory, BOOL fPause)
{
return pEngine->Pause(nCategory, fPause);
}
__inline XACTVARIABLEINDEX __stdcall IXACT3Engine_GetGlobalVariableIndex(__in IXACT3Engine* pEngine, __in PCSTR szFriendlyName)
{
return pEngine->GetGlobalVariableIndex(szFriendlyName);
}
__inline HRESULT __stdcall IXACT3Engine_SetGlobalVariable(__in IXACT3Engine* pEngine, XACTVARIABLEINDEX nIndex, XACTVARIABLEVALUE nValue)
{
return pEngine->SetGlobalVariable(nIndex, nValue);
}
__inline HRESULT __stdcall IXACT3Engine_GetGlobalVariable(__in IXACT3Engine* pEngine, XACTVARIABLEINDEX nIndex, __out XACTVARIABLEVALUE* nValue)
{
return pEngine->GetGlobalVariable(nIndex, nValue);
}
#else // __cplusplus
__inline ULONG __stdcall IXACT3Engine_AddRef(__in IXACT3Engine* pEngine)
{
return pEngine->lpVtbl->AddRef(pEngine);
}
__inline ULONG __stdcall IXACT3Engine_Release(__in IXACT3Engine* pEngine)
{
return pEngine->lpVtbl->Release(pEngine);
}
__inline HRESULT __stdcall IXACT3Engine_GetRendererCount(__in IXACT3Engine* pEngine, __out XACTINDEX* pnRendererCount)
{
return pEngine->lpVtbl->GetRendererCount(pEngine, pnRendererCount);
}
__inline HRESULT __stdcall IXACT3Engine_GetRendererDetails(__in IXACT3Engine* pEngine, XACTINDEX nRendererIndex, __out LPXACT_RENDERER_DETAILS pRendererDetails)
{
return pEngine->lpVtbl->GetRendererDetails(pEngine, nRendererIndex, pRendererDetails);
}
__inline HRESULT __stdcall IXACT3Engine_GetFinalMixFormat(__in IXACT3Engine* pEngine, __out WAVEFORMATEXTENSIBLE* pFinalMixFormat)
{
return pEngine->lpVtbl->GetFinalMixFormat(pEngine, pFinalMixFormat);
}
__inline HRESULT __stdcall IXACT3Engine_Initialize(__in IXACT3Engine* pEngine, __in const XACT_RUNTIME_PARAMETERS* pParams)
{
return pEngine->lpVtbl->Initialize(pEngine, pParams);
}
__inline HRESULT __stdcall IXACT3Engine_ShutDown(__in IXACT3Engine* pEngine)
{
return pEngine->lpVtbl->ShutDown(pEngine);
}
__inline HRESULT __stdcall IXACT3Engine_DoWork(__in IXACT3Engine* pEngine)
{
return pEngine->lpVtbl->DoWork(pEngine);
}
__inline HRESULT __stdcall IXACT3Engine_CreateSoundBank(__in IXACT3Engine* pEngine, __in const void* pvBuffer, DWORD dwSize, DWORD dwFlags, DWORD dwAllocAttributes, __deref_out IXACT3SoundBank** ppSoundBank)
{
return pEngine->lpVtbl->CreateSoundBank(pEngine, pvBuffer, dwSize, dwFlags, dwAllocAttributes, ppSoundBank);
}
__inline HRESULT __stdcall IXACT3Engine_CreateInMemoryWaveBank(__in IXACT3Engine* pEngine, __in const void* pvBuffer, DWORD dwSize, DWORD dwFlags, DWORD dwAllocAttributes, __deref_out IXACT3WaveBank** ppWaveBank)
{
return pEngine->lpVtbl->CreateInMemoryWaveBank(pEngine, pvBuffer, dwSize, dwFlags, dwAllocAttributes, ppWaveBank);
}
__inline HRESULT __stdcall IXACT3Engine_CreateStreamingWaveBank(__in IXACT3Engine* pEngine, __in const XACT_WAVEBANK_STREAMING_PARAMETERS* pParms, __deref_out IXACT3WaveBank** ppWaveBank)
{
return pEngine->lpVtbl->CreateStreamingWaveBank(pEngine, pParms, ppWaveBank);
}
__inline HRESULT __stdcall IXACT3Engine_PrepareWave(__in IXACT3Engine* pEngine, DWORD dwFlags, __in PCSTR szWavePath, WORD wStreamingPacketSize, DWORD dwAlignment, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave)
{
return pEngine->lpVtbl->PrepareWave(pEngine, dwFlags, szWavePath, wStreamingPacketSize, dwAlignment, dwPlayOffset, nLoopCount, ppWave);
}
__inline HRESULT __stdcall IXACT3Engine_PrepareInMemoryWave(__in IXACT3Engine* pEngine, DWORD dwFlags, WAVEBANKENTRY entry, __in_opt DWORD* pdwSeekTable, __in_opt BYTE* pbWaveData, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave)
{
return pEngine->lpVtbl->PrepareInMemoryWave(pEngine, dwFlags, entry, pdwSeekTable, pbWaveData, dwPlayOffset, nLoopCount, ppWave);
}
__inline HRESULT __stdcall IXACT3Engine_PrepareStreamingWave(__in IXACT3Engine* pEngine, DWORD dwFlags, WAVEBANKENTRY entry, XACT_STREAMING_PARAMETERS streamingParams, DWORD dwAlignment, __in_opt DWORD* pdwSeekTable, DWORD dwPlayOffset, XACTLOOPCOUNT nLoopCount, __deref_out IXACT3Wave** ppWave)
{
return pEngine->lpVtbl->PrepareStreamingWave(pEngine, dwFlags, entry, streamingParams, dwAlignment, pdwSeekTable, dwPlayOffset, nLoopCount, ppWave);
}
__inline HRESULT __stdcall IXACT3Engine_RegisterNotification(__in IXACT3Engine* pEngine, __in const XACT_NOTIFICATION_DESCRIPTION* pNotificationDesc)
{
return pEngine->lpVtbl->RegisterNotification(pEngine, pNotificationDesc);
}
__inline HRESULT __stdcall IXACT3Engine_UnRegisterNotification(__in IXACT3Engine* pEngine, __in const XACT_NOTIFICATION_DESCRIPTION* pNotificationDesc)
{
return pEngine->lpVtbl->UnRegisterNotification(pEngine, pNotificationDesc);
}
__inline XACTCATEGORY __stdcall IXACT3Engine_GetCategory(__in IXACT3Engine* pEngine, __in PCSTR szFriendlyName)
{
return pEngine->lpVtbl->GetCategory(pEngine, szFriendlyName);
}
__inline HRESULT __stdcall IXACT3Engine_Stop(__in IXACT3Engine* pEngine, XACTCATEGORY nCategory, DWORD dwFlags)
{
return pEngine->lpVtbl->Stop(pEngine, nCategory, dwFlags);
}
__inline HRESULT __stdcall IXACT3Engine_SetVolume(__in IXACT3Engine* pEngine, XACTCATEGORY nCategory, XACTVOLUME nVolume)
{
return pEngine->lpVtbl->SetVolume(pEngine, nCategory, nVolume);
}
__inline HRESULT __stdcall IXACT3Engine_Pause(__in IXACT3Engine* pEngine, XACTCATEGORY nCategory, BOOL fPause)
{
return pEngine->lpVtbl->Pause(pEngine, nCategory, fPause);
}
__inline XACTVARIABLEINDEX __stdcall IXACT3Engine_GetGlobalVariableIndex(__in IXACT3Engine* pEngine, __in PCSTR szFriendlyName)
{
return pEngine->lpVtbl->GetGlobalVariableIndex(pEngine, szFriendlyName);
}
__inline HRESULT __stdcall IXACT3Engine_SetGlobalVariable(__in IXACT3Engine* pEngine, XACTVARIABLEINDEX nIndex, XACTVARIABLEVALUE nValue)
{
return pEngine->lpVtbl->SetGlobalVariable(pEngine, nIndex, nValue);
}
__inline HRESULT __stdcall IXACT3Engine_GetGlobalVariable(__in IXACT3Engine* pEngine, XACTVARIABLEINDEX nIndex, __out XACTVARIABLEVALUE* nValue)
{
return pEngine->lpVtbl->GetGlobalVariable(pEngine, nIndex, nValue);
}
#endif // __cplusplus
//------------------------------------------------------------------------------
// Create Engine
//------------------------------------------------------------------------------
// Flags used only in XACT3CreateEngine below. These flags are valid but ignored
// when building for Xbox 360; to enable auditioning on that platform you must
// link explicitly to an auditioning version of the XACT static library.
static const DWORD XACT_FLAG_API_AUDITION_MODE = 0x00000001;
static const DWORD XACT_FLAG_API_DEBUG_MODE = 0x00000002;
#ifdef _XBOX
STDAPI XACT3CreateEngine(DWORD dwCreationFlags, __deref_out IXACT3Engine** ppEngine);
#else // #ifdef _XBOX
#define XACT_DEBUGENGINE_REGISTRY_KEY TEXT("Software\\Microsoft\\XACT")
#define XACT_DEBUGENGINE_REGISTRY_VALUE TEXT("DebugEngine")
#ifdef __cplusplus
__inline HRESULT __stdcall XACT3CreateEngine(DWORD dwCreationFlags, __deref_out IXACT3Engine** ppEngine)
{
HRESULT hr;
HKEY key;
DWORD data;
DWORD type = REG_DWORD;
DWORD dataSize = sizeof(DWORD);
BOOL debug = (dwCreationFlags & XACT_FLAG_API_DEBUG_MODE) ? TRUE : FALSE;
BOOL audition = (dwCreationFlags & XACT_FLAG_API_AUDITION_MODE) ? TRUE : FALSE;
// If neither the debug nor audition flags are set, see if the debug registry key is set
if(!debug && !audition &&
(RegOpenKeyEx(HKEY_LOCAL_MACHINE, XACT_DEBUGENGINE_REGISTRY_KEY, 0, KEY_READ, &key) == ERROR_SUCCESS))
{
if(RegQueryValueEx(key, XACT_DEBUGENGINE_REGISTRY_VALUE, NULL, &type, (LPBYTE)&data, &dataSize) == ERROR_SUCCESS)
{
if(data)
{
debug = TRUE;
}
}
RegCloseKey(key);
}
// Priority order: Audition, Debug, Retail
hr = CoCreateInstance(audition ? __uuidof(XACTAuditionEngine)
: (debug ? __uuidof(XACTDebugEngine) : __uuidof(XACTEngine)),
NULL, CLSCTX_INPROC_SERVER, __uuidof(IXACT3Engine), (void**)ppEngine);
// If debug engine does not exist fallback to retail version
if(FAILED(hr) && debug && !audition)
{
hr = CoCreateInstance(__uuidof(XACTEngine), NULL, CLSCTX_INPROC_SERVER, __uuidof(IXACT3Engine), (void**)ppEngine);
}
return hr;
}
#else // #ifdef __cplusplus
__inline HRESULT __stdcall XACT3CreateEngine(DWORD dwCreationFlags, __deref_out IXACT3Engine** ppEngine)
{
HRESULT hr;
HKEY key;
DWORD data;
DWORD type = REG_DWORD;
DWORD dataSize = sizeof(DWORD);
BOOL debug = (dwCreationFlags & XACT_FLAG_API_DEBUG_MODE) ? TRUE : FALSE;
BOOL audition = (dwCreationFlags & XACT_FLAG_API_AUDITION_MODE) ? TRUE : FALSE;
// If neither the debug nor audition flags are set, see if the debug registry key is set
if(!debug && !audition &&
(RegOpenKeyEx(HKEY_LOCAL_MACHINE, XACT_DEBUGENGINE_REGISTRY_KEY, 0, KEY_READ, &key) == ERROR_SUCCESS))
{
if(RegQueryValueEx(key, XACT_DEBUGENGINE_REGISTRY_VALUE, NULL, &type, (LPBYTE)&data, &dataSize) == ERROR_SUCCESS)
{
if(data)
{
debug = TRUE;
}
}
RegCloseKey(key);
}
// Priority order: Audition, Debug, Retail
hr = CoCreateInstance(audition ? &CLSID_XACTAuditionEngine
: (debug ? &CLSID_XACTDebugEngine : &CLSID_XACTEngine),
NULL, CLSCTX_INPROC_SERVER, &IID_IXACT3Engine, (void**)ppEngine);
// If debug engine does not exist fallback to retail version
if(FAILED(hr) && debug && !audition)
{
hr = CoCreateInstance(&CLSID_XACTEngine, NULL, CLSCTX_INPROC_SERVER, &IID_IXACT3Engine, (void**)ppEngine);
}
return hr;
}
#endif // #ifdef __cplusplus
#endif // #ifdef _XBOX
//------------------------------------------------------------------------------
// XACT specific error codes
//------------------------------------------------------------------------------
#define FACILITY_XACTENGINE 0xAC7
#define XACTENGINEERROR(n) MAKE_HRESULT(SEVERITY_ERROR, FACILITY_XACTENGINE, n)
#define XACTENGINE_E_OUTOFMEMORY E_OUTOFMEMORY // Out of memory
#define XACTENGINE_E_INVALIDARG E_INVALIDARG // Invalid arg
#define XACTENGINE_E_NOTIMPL E_NOTIMPL // Not implemented
#define XACTENGINE_E_FAIL E_FAIL // Unknown error
#define XACTENGINE_E_ALREADYINITIALIZED XACTENGINEERROR(0x001) // The engine is already initialized
#define XACTENGINE_E_NOTINITIALIZED XACTENGINEERROR(0x002) // The engine has not been initialized
#define XACTENGINE_E_EXPIRED XACTENGINEERROR(0x003) // The engine has expired (demo or pre-release version)
#define XACTENGINE_E_NONOTIFICATIONCALLBACK XACTENGINEERROR(0x004) // No notification callback
#define XACTENGINE_E_NOTIFICATIONREGISTERED XACTENGINEERROR(0x005) // Notification already registered
#define XACTENGINE_E_INVALIDUSAGE XACTENGINEERROR(0x006) // Invalid usage
#define XACTENGINE_E_INVALIDDATA XACTENGINEERROR(0x007) // Invalid data
#define XACTENGINE_E_INSTANCELIMITFAILTOPLAY XACTENGINEERROR(0x008) // Fail to play due to instance limit
#define XACTENGINE_E_NOGLOBALSETTINGS XACTENGINEERROR(0x009) // Global Settings not loaded
#define XACTENGINE_E_INVALIDVARIABLEINDEX XACTENGINEERROR(0x00a) // Invalid variable index
#define XACTENGINE_E_INVALIDCATEGORY XACTENGINEERROR(0x00b) // Invalid category
#define XACTENGINE_E_INVALIDCUEINDEX XACTENGINEERROR(0x00c) // Invalid cue index
#define XACTENGINE_E_INVALIDWAVEINDEX XACTENGINEERROR(0x00d) // Invalid wave index
#define XACTENGINE_E_INVALIDTRACKINDEX XACTENGINEERROR(0x00e) // Invalid track index
#define XACTENGINE_E_INVALIDSOUNDOFFSETORINDEX XACTENGINEERROR(0x00f) // Invalid sound offset or index
#define XACTENGINE_E_READFILE XACTENGINEERROR(0x010) // Error reading a file
#define XACTENGINE_E_UNKNOWNEVENT XACTENGINEERROR(0x011) // Unknown event type
#define XACTENGINE_E_INCALLBACK XACTENGINEERROR(0x012) // Invalid call of method of function from callback
#define XACTENGINE_E_NOWAVEBANK XACTENGINEERROR(0x013) // No wavebank exists for desired operation
#define XACTENGINE_E_SELECTVARIATION XACTENGINEERROR(0x014) // Unable to select a variation
#define XACTENGINE_E_MULTIPLEAUDITIONENGINES XACTENGINEERROR(0x015) // There can be only one audition engine
#define XACTENGINE_E_WAVEBANKNOTPREPARED XACTENGINEERROR(0x016) // The wavebank is not prepared
#define XACTENGINE_E_NORENDERER XACTENGINEERROR(0x017) // No audio device found on.
#define XACTENGINE_E_INVALIDENTRYCOUNT XACTENGINEERROR(0x018) // Invalid entry count for channel maps
#define XACTENGINE_E_SEEKTIMEBEYONDCUEEND XACTENGINEERROR(0x019) // Time offset for seeking is beyond the cue end.
#define XACTENGINE_E_SEEKTIMEBEYONDWAVEEND XACTENGINEERROR(0x01a) // Time offset for seeking is beyond the wave end.
#define XACTENGINE_E_NOFRIENDLYNAMES XACTENGINEERROR(0x01b) // Friendly names are not included in the bank.
#define XACTENGINE_E_AUDITION_WRITEFILE XACTENGINEERROR(0x101) // Error writing a file during auditioning
#define XACTENGINE_E_AUDITION_NOSOUNDBANK XACTENGINEERROR(0x102) // Missing a soundbank
#define XACTENGINE_E_AUDITION_INVALIDRPCINDEX XACTENGINEERROR(0x103) // Missing an RPC curve
#define XACTENGINE_E_AUDITION_MISSINGDATA XACTENGINEERROR(0x104) // Missing data for an audition command
#define XACTENGINE_E_AUDITION_UNKNOWNCOMMAND XACTENGINEERROR(0x105) // Unknown command
#define XACTENGINE_E_AUDITION_INVALIDDSPINDEX XACTENGINEERROR(0x106) // Missing a DSP parameter
#define XACTENGINE_E_AUDITION_MISSINGWAVE XACTENGINEERROR(0x107) // Wave does not exist in auditioned wavebank
#define XACTENGINE_E_AUDITION_CREATEDIRECTORYFAILED XACTENGINEERROR(0x108) // Failed to create a directory for streaming wavebank data
#define XACTENGINE_E_AUDITION_INVALIDSESSION XACTENGINEERROR(0x109) // Invalid audition session
#endif // #ifndef GUID_DEFS_ONLY
#endif // #ifndef _XACT3_H_