windows-nt/Source/XPSP1/NT/multimedia/directx/dmusic/dmime/wavtrack.h

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2020-09-26 03:20:57 -05:00
// Copyright (c) 1998-1999 Microsoft Corporation
// WavTrack.h : Declaration of the CWavTrack
#ifndef __WAVTRACK_H_
#define __WAVTRACK_H_
#include "dmusici.h"
#include "dmusicf.h"
#include "dmstrm.h"
#include "tlist.h"
#include "PChMap.h"
#include "..\shared\dmusiccp.h"
#include "dsoundp.h" // For IDirectSoundWave
interface IPrivateWaveTrack : IUnknown
{
virtual HRESULT STDMETHODCALLTYPE SetVariation(
IDirectMusicSegmentState* pSegState,
DWORD dwVariationFlags,
DWORD dwPChannel,
DWORD dwIndex)=0;
virtual HRESULT STDMETHODCALLTYPE ClearVariations(IDirectMusicSegmentState* pSegState)=0;
virtual HRESULT STDMETHODCALLTYPE AddWave(
IDirectSoundWave* pWave,
REFERENCE_TIME rtTime,
DWORD dwPChannel,
DWORD dwIndex,
REFERENCE_TIME* prtLength)=0;
virtual HRESULT STDMETHODCALLTYPE DownloadWave(
IDirectSoundWave* pWave, // wave to download
IUnknown* pUnk, // performance or audio path
REFGUID rguidVersion)=0; // version of downloaded wave
virtual HRESULT STDMETHODCALLTYPE UnloadWave(
IDirectSoundWave* pWave, // wave to unload
IUnknown* pUnk)=0; // performance or audio path
virtual HRESULT STDMETHODCALLTYPE RefreshWave(
IDirectSoundWave* pWave, // wave to refresh
IUnknown* pUnk, // performance or audio path
DWORD dwPChannel, // new PChannel for the wave
REFGUID rguidVersion)=0; // version of refreshed wave
virtual HRESULT STDMETHODCALLTYPE FlushAllWaves()=0;
virtual HRESULT STDMETHODCALLTYPE OnVoiceEnd(IDirectMusicVoiceP *pVoice, void *pStateData)=0;
};
DEFINE_GUID(IID_IPrivateWaveTrack, 0x492abe2a, 0x38c8, 0x48a3, 0x8f, 0x3c, 0x1e, 0x13, 0xba, 0x1, 0x78, 0x4e);
const int MAX_WAVE_VARIATION_LOCKS = 255; // max number of variation lock ids
struct TaggedWave
{
IDirectSoundWave* m_pWave;
GUID m_guidVersion;
IDirectSoundDownloadedWaveP* m_pDownloadedWave;
long m_lRefCount;
IDirectMusicPortP* m_pPort;
IDirectMusicPerformance* m_pPerformance;
TaggedWave() : m_pWave(NULL), m_pDownloadedWave(NULL), m_lRefCount(0),
m_pPort(NULL), m_pPerformance(NULL), m_guidVersion(GUID_NULL)
{
}
~TaggedWave()
{
if (m_pWave) m_pWave->Release();
if (m_pPort) m_pPort->Release();
if (m_pPerformance) m_pPerformance->Release();
if (m_pDownloadedWave) m_pDownloadedWave->Release();
}
};
struct WaveItem
{
WaveItem() : m_rtTimePhysical(0), m_lVolume(0), m_lPitch(0), m_dwVariations(0),
m_rtStartOffset(0), m_rtDuration(0), m_mtTimeLogical(0), m_dwFlags(0),
m_pWave(NULL), m_dwLoopStart(0), m_dwLoopEnd(0), m_dwVoiceIndex(0xffffffff),
m_pDownloadedWave(NULL), m_fIsStreaming(FALSE), m_fUseNoPreRoll(FALSE)
{
}
~WaveItem()
{
CleanUp();
}
HRESULT Load( IDMStream* pIRiffStream, MMCKINFO* pckParent );
HRESULT LoadReference(IStream *pStream, IDMStream *pIRiffStream, MMCKINFO& ckParent);
HRESULT Download(IDirectMusicPerformance* pPerformance,
IDirectMusicAudioPath* pPath,
DWORD dwPChannel,
IDirectSoundWave* pWave,
REFGUID rguidVersion);
HRESULT Unload(IDirectMusicPerformance* pPerformance,
IDirectMusicAudioPath* pPath,
DWORD dwPChannel,
IDirectSoundWave* pWave);
HRESULT Refresh(IDirectMusicPerformance* pPerformance,
IDirectMusicAudioPath* pPath,
DWORD dwOldPChannel,
DWORD dwNewPChannel,
IDirectSoundWave* pWave,
REFGUID rguidVersion);
static HRESULT PChannelInfo(
IDirectMusicPerformance* pPerformance,
IDirectMusicAudioPath* pAudioPath,
DWORD dwPChannel,
IDirectMusicPort** ppPort,
DWORD* pdwGroup,
DWORD* pdwMChannel);
void CleanUp();
HRESULT Add(IDirectSoundWave* pWave, REFERENCE_TIME rtTime, REFERENCE_TIME* prtLength);
REFERENCE_TIME m_rtTimePhysical;
long m_lVolume;
long m_lPitch;
DWORD m_dwVariations; // variations this wave item responds to
REFERENCE_TIME m_rtStartOffset;
REFERENCE_TIME m_rtDuration;
MUSIC_TIME m_mtTimeLogical;
DWORD m_dwFlags;
IDirectSoundWave* m_pWave;
IDirectSoundDownloadedWaveP* m_pDownloadedWave;
BOOL m_fIsStreaming;
BOOL m_fUseNoPreRoll;
DWORD m_dwLoopStart;
DWORD m_dwLoopEnd;
DWORD m_dwVoiceIndex; // unique (to the track) index for state data's vaoice array
static TList<TaggedWave> st_WaveList;
static CRITICAL_SECTION st_WaveListCritSect;
};
struct WavePart
{
WavePart() : m_dwPChannel(0), m_lVolume(0), m_dwLockToPart(0),
m_dwPChannelFlags(0), m_dwVariations(0), m_dwIndex(0)
{
}
~WavePart()
{
CleanUp();
}
HRESULT Load( IDMStream* pIRiffStream, MMCKINFO* pckParent );
HRESULT CopyItems( const TList<WaveItem>& rItems, MUSIC_TIME mtStart, MUSIC_TIME mtEnd );
void CleanUp();
HRESULT Download(IDirectMusicPerformance* pPerformance,
IDirectMusicAudioPath* pPath,
IDirectSoundWave* pWave,
REFGUID rguidVersion);
HRESULT Unload(IDirectMusicPerformance* pPerformance,
IDirectMusicAudioPath* pPath,
IDirectSoundWave* pWave);
HRESULT Refresh(IDirectMusicPerformance* pPerformance,
IDirectMusicAudioPath* pPath,
IDirectSoundWave* pWave,
DWORD dwPChannel,
REFGUID rguidVersion);
HRESULT Add(
IDirectSoundWave* pWave,
REFERENCE_TIME rtTime,
DWORD dwPChannel,
DWORD dwIndex,
REFERENCE_TIME* prtLength);
DWORD m_dwPChannel;
DWORD m_dwIndex; // Index to distinguish different parts on the same PChannel
DWORD m_lVolume;
DWORD m_dwVariations; // variations enabled for this part
DWORD m_dwLockToPart; // all parts with this ID are locked (0 means no locking)
DWORD m_dwPChannelFlags; // lowest-order nibble holds DMUS_VARIATIONT_TYPES value
TList<WaveItem> m_WaveItemList;
};
struct WaveDLOnPlay
{
WaveDLOnPlay() : m_pWaveDL(NULL), m_pPort(NULL), m_pVoice(NULL) {}
~WaveDLOnPlay()
{
if (m_pPort)
{
if (m_pWaveDL)
{
m_pPort->UnloadWave(m_pWaveDL);
}
m_pWaveDL = NULL;
m_pPort->Release();
m_pPort = NULL;
}
if (m_pVoice)
{
m_pVoice->Release();
m_pVoice = NULL;
}
}
IDirectSoundDownloadedWaveP* m_pWaveDL;
IDirectMusicPortP* m_pPort;
IDirectMusicVoiceP* m_pVoice;
};
struct WaveStateData
{
DWORD dwPChannelsUsed; // number of PChannels
// the following array is allocated to the size of dwNumPChannels, which
// must match the Wave Track's m_dwPChannelsUsed. The array matches one-for-one with
// the parts inside the Wave Track.
TListItem<WaveItem>** apCurrentWave; // array of size dwNumPChannels
DWORD dwValidate;
DWORD dwGroupBits; // the group bits of this track
DWORD* pdwVariations; // array of variations (1 per part)
DWORD* pdwRemoveVariations; // array of variations already played (1 per part)
DWORD adwVariationGroups[MAX_WAVE_VARIATION_LOCKS];
REFERENCE_TIME rtNextVariation; // time of next variation
DWORD m_dwVariation; // selected variations to audition
DWORD m_dwPart; // PChannel of part for auditioning variations
DWORD m_dwIndex; // Index of part for auditioning variations
DWORD m_dwLockID; // For locking to the part being auditioned
BOOL m_fAudition; // Am I auditioning variations?
IDirectMusicPerformance* m_pPerformance;
IDirectMusicVoiceP** m_apVoice; // array of voices (one per wave item in track)
DWORD m_dwVoices; // number of voices in m_apVoice
bool m_fLoop; // set after the wave loops
IDirectMusicAudioPath* m_pAudioPath; // audio path in effect for this track state
TList<WaveDLOnPlay> m_WaveDLList; // waves downloaded while the track was playing
WaveStateData() : dwPChannelsUsed(0), apCurrentWave(NULL), dwGroupBits(0),
pdwVariations(NULL), pdwRemoveVariations(NULL), rtNextVariation(0),
m_dwVariation(0), m_dwPart(0), m_dwIndex(0), m_dwLockID(0), m_fAudition(FALSE),
m_pPerformance(NULL), m_apVoice(NULL), m_dwVoices(0), m_fLoop(false), m_pAudioPath(NULL)
{
for (int i = 0; i < MAX_WAVE_VARIATION_LOCKS; i++)
{
adwVariationGroups[i] = 0;
}
}
~WaveStateData()
{
if( apCurrentWave )
{
delete [] apCurrentWave;
}
if( pdwVariations )
{
delete [] pdwVariations;
}
if( pdwRemoveVariations )
{
delete [] pdwRemoveVariations;
}
if (m_apVoice)
{
for (DWORD dw = 0; dw < m_dwVoices; dw++)
{
if (m_apVoice[dw])
{
m_apVoice[dw]->Release();
}
}
delete [] m_apVoice;
}
if( m_pAudioPath )
{
m_pAudioPath->Release();
}
TListItem<WaveDLOnPlay>* pWDLOnPlay = NULL;
while (!m_WaveDLList.IsEmpty())
{
pWDLOnPlay = m_WaveDLList.RemoveHead();
delete pWDLOnPlay;
}
}
HRESULT InitVariationInfo(DWORD dwVariations, DWORD dwPart, DWORD dwIndex, DWORD dwLockID, BOOL fAudition)
{
HRESULT hr = S_OK;
m_dwVariation = dwVariations;
m_dwPart = dwPart;
m_dwIndex = dwIndex;
m_dwLockID = dwLockID;
m_fAudition = fAudition;
return hr;
}
DWORD Variations(WavePart& rPart, int nPartIndex)
{
if (m_dwLockID && rPart.m_dwLockToPart == m_dwLockID)
{
TraceI(4, "Variations for locked part\n");
return m_dwVariation;
}
else if ( m_fAudition &&
(rPart.m_dwPChannel == m_dwPart) &&
(rPart.m_dwIndex == m_dwIndex) )
{
TraceI(4, "Variations for current part\n");
return m_dwVariation;
}
else
{
TraceI(4, "Variations for a different part\n");
return pdwVariations[nPartIndex];
}
}
};
struct StatePair
{
StatePair() : m_pSegState(NULL), m_pStateData(NULL) {}
StatePair(const StatePair& rPair)
{
m_pSegState = rPair.m_pSegState;
m_pStateData = rPair.m_pStateData;
}
StatePair(IDirectMusicSegmentState* pSegState, WaveStateData* pStateData)
{
m_pSegState = pSegState;
m_pStateData = pStateData;
}
StatePair& operator= (const StatePair& rPair)
{
if (this != &rPair)
{
m_pSegState = rPair.m_pSegState;
m_pStateData = rPair.m_pStateData;
}
return *this;
}
~StatePair()
{
}
IDirectMusicSegmentState* m_pSegState;
WaveStateData* m_pStateData;
};
struct WavePair
{
WavePair() : m_pWaveDL(NULL), m_pStateData(NULL) {}
~WavePair()
{
if (m_pWaveDL) m_pWaveDL->Release();
}
IDirectSoundDownloadedWaveP* m_pWaveDL;
WaveStateData* m_pStateData;
};
/////////////////////////////////////////////////////////////////////////////
// CWavTrack
class CWavTrack :
public IPersistStream,
public IDirectMusicTrack8,
public IPrivateWaveTrack
{
public:
CWavTrack();
CWavTrack(const CWavTrack& rTrack, MUSIC_TIME mtStart, MUSIC_TIME mtEnd);
~CWavTrack();
public:
// IUnknown
STDMETHODIMP QueryInterface(const IID &iid, void **ppv);
STDMETHODIMP_(ULONG) AddRef();
STDMETHODIMP_(ULONG) Release();
// IDirectMusicTrack methods
STDMETHODIMP IsParamSupported(REFGUID rguid);
STDMETHODIMP Init(IDirectMusicSegment *pSegment);
STDMETHODIMP InitPlay(IDirectMusicSegmentState *pSegmentState,
IDirectMusicPerformance *pPerformance,
void **ppStateData,
DWORD dwTrackID,
DWORD dwFlags);
STDMETHODIMP EndPlay(void *pStateData);
STDMETHODIMP Play(void *pStateData,MUSIC_TIME mtStart,
MUSIC_TIME mtEnd,MUSIC_TIME mtOffset,
DWORD dwFlags,IDirectMusicPerformance* pPerf,
IDirectMusicSegmentState* pSegSt,DWORD dwVirtualID);
STDMETHODIMP GetParam(REFGUID rguid,MUSIC_TIME mtTime,MUSIC_TIME* pmtNext,void *pData);
STDMETHODIMP SetParam(REFGUID rguid,MUSIC_TIME mtTime,void *pData);
STDMETHODIMP AddNotificationType(REFGUID rguidNotification);
STDMETHODIMP RemoveNotificationType(REFGUID rguidNotification);
STDMETHODIMP Clone(MUSIC_TIME mtStart,MUSIC_TIME mtEnd,IDirectMusicTrack** ppTrack);
// IDirectMusicTrack8 methods
STDMETHODIMP PlayEx(void* pStateData,REFERENCE_TIME rtStart,
REFERENCE_TIME rtEnd,REFERENCE_TIME rtOffset,
DWORD dwFlags,IDirectMusicPerformance* pPerf,
IDirectMusicSegmentState* pSegSt,DWORD dwVirtualID) ;
STDMETHODIMP GetParamEx(REFGUID rguidType,REFERENCE_TIME rtTime,
REFERENCE_TIME* prtNext,void* pParam,void * pStateData, DWORD dwFlags) ;
STDMETHODIMP SetParamEx(REFGUID rguidType,REFERENCE_TIME rtTime,void* pParam, void * pStateData, DWORD dwFlags) ;
STDMETHODIMP Compose(IUnknown* pContext,
DWORD dwTrackGroup,
IDirectMusicTrack** ppResultTrack) ;
STDMETHODIMP Join(IDirectMusicTrack* pNewTrack,
MUSIC_TIME mtJoin,
IUnknown* pContext,
DWORD dwTrackGroup,
IDirectMusicTrack** ppResultTrack) ;
// IPersist methods
STDMETHODIMP GetClassID( CLSID* pClsId );
// IPersistStream methods
STDMETHODIMP IsDirty();
STDMETHODIMP Load( IStream* pIStream );
STDMETHODIMP Save( IStream* pIStream, BOOL fClearDirty );
STDMETHODIMP GetSizeMax( ULARGE_INTEGER FAR* pcbSize );
// IPrivateWaveTrack methods
STDMETHODIMP SetVariation(
IDirectMusicSegmentState* pSegState,
DWORD dwVariationFlags,
DWORD dwPChannel,
DWORD dwIndex);
STDMETHODIMP ClearVariations(IDirectMusicSegmentState* pSegState);
STDMETHODIMP AddWave(
IDirectSoundWave* pWave,
REFERENCE_TIME rtTime,
DWORD dwPChannel,
DWORD dwIndex,
REFERENCE_TIME* prtLength);
STDMETHODIMP DownloadWave(
IDirectSoundWave* pWave,
IUnknown* pUnk,
REFGUID rguidVersion);
STDMETHODIMP UnloadWave(
IDirectSoundWave* pWave,
IUnknown* pUnk);
STDMETHODIMP RefreshWave(
IDirectSoundWave* pWave,
IUnknown* pUnk,
DWORD dwPChannel,
REFGUID rguidVersion);
STDMETHODIMP FlushAllWaves();
STDMETHODIMP OnVoiceEnd(IDirectMusicVoiceP *pVoice, void *pStateData);
// misc
static HRESULT UnloadAllWaves(IDirectMusicPerformance* pPerformance);
protected:
void Construct(void);
HRESULT Play(
void *pStateData,
REFERENCE_TIME rtStart,
REFERENCE_TIME rtEnd,
// MUSIC_TIME mtOffset,
REFERENCE_TIME rtOffset,
DWORD dwFlags,
IDirectMusicPerformance* pPerf,
IDirectMusicSegmentState* pSegSt,
DWORD dwVirtualID,
BOOL fClockTime);
void InsertByAscendingPChannel( TListItem<WavePart>* pPart );
HRESULT CopyParts( const TList<WavePart>& rParts, MUSIC_TIME mtStart, MUSIC_TIME mtEnd );
void CleanUp();
void CleanUpTempParts();
void MovePartsToTemp();
IDirectSoundDownloadedWaveP* FindDownload(TListItem<WaveItem>* pItem);
void SetUpStateCurrentPointers(WaveStateData* pStateData);
HRESULT STDMETHODCALLTYPE Seek(
IDirectMusicSegmentState*,
IDirectMusicPerformance*,
DWORD dwVirtualID,
WaveStateData*,
REFERENCE_TIME rtTime,
BOOL fGetPrevious,
// MUSIC_TIME mtOffset,
REFERENCE_TIME rtOffset,
BOOL fClockTime);
HRESULT SyncVariations(IDirectMusicPerformance* pPerf,
WaveStateData* pSD,
REFERENCE_TIME rtStart,
REFERENCE_TIME rtOffset,
BOOL fClockTime);
HRESULT ComputeVariations(WaveStateData* pSD);
HRESULT ComputeVariation(int nPart, WavePart& rWavePart, WaveStateData* pSD);
WaveStateData* FindState(IDirectMusicSegmentState* pSegState);
HRESULT InitTrack(DWORD dwPChannels);
HRESULT GetDownload(
IDirectSoundDownloadedWaveP* pWaveDL,
WaveStateData* pStateData,
IDirectMusicPortP* pPortP,
IDirectSoundWave* pWave,
REFERENCE_TIME rtStartOffset,
WaveItem& rItem,
DWORD dwMChannel,
DWORD dwGroup,
IDirectMusicVoiceP **ppVoice);
void RemoveDownloads(WaveStateData* pStateData);
static void FlushWaves();
// member variables
private:
long m_cRef;
CRITICAL_SECTION m_CrSec;
BOOL m_fCSInitialized;
long m_lVolume;
DWORD m_dwTrackFlags; // Only current flag is DMUS_WAVETRACKF_SYNC_VAR
DWORD m_dwPChannelsUsed;
DWORD* m_aPChannels;
TList<WavePart> m_WavePartList;
TList<WavePart> m_TempWavePartList; // keep this around when reloading the track
DWORD m_dwValidate; // used to validate state data
CPChMap m_PChMap;
DWORD m_dwVariation; // selected variations to audition
DWORD m_dwPart; // PChannel of part for auditioning variations
DWORD m_dwIndex; // Index of part for auditioning variations
DWORD m_dwLockID; // For locking to the part being auditioned
BOOL m_fAudition; // Am I auditioning variations?
BOOL m_fAutoDownload;
BOOL m_fLockAutoDownload; // if true, this flag indicates that we've specifically
// commanded the band to autodownload. Otherwise,
// it gets its preference from the performance via
// GetGlobalParam.
DWORD* m_pdwVariations; // Track's array of variations (1 per part)
DWORD* m_pdwRemoveVariations; // Track's array of variations already played (1 per part)
DWORD m_dwWaveItems; // Total number of wave items in the track
TList<StatePair> m_StateList; // The track's state information
TList<WavePair> m_WaveList; // Information about waves downloaded to the track
static long st_RefCount; // global count of # of instantiated wave tracks
};
#endif //__WAVTRACK_H_