//
// DMStyle2.cpp : Further Implementation of CDMStyle
//
// Copyright (c) 1999-2001 Microsoft Corporation
//
// @doc EXTERNAL
//
#include "DMStyle.h"
#include "debug.h"
#include "..\shared\Validate.h"
#include "iostru.h"
#include "mgentrk.h"
struct FirstTimePair
{
DWORD dwPart;
MUSIC_TIME mtTime;
};
/////////////////////////////////////////////////////////////////////////////
// IDirectMusicStyle2
/*
@method:(EXTERNAL) HRESULT | IDirectMusicComposer | ComposeMelodyFromTemplate | Creates a sequence segment from a
style and a Melody template (containing a Melody Generation track, a Chord track, and an
optional Style track). Clones the segment and adds a Sequence track containing melodic
information.
@rdesc Returns:
@flag S_OK | Success
@flag E_POINTER | One or both of and
is an invalid pointer.
@flag E_INVALIDARG |
is NULL and there is no Style track.
@comm If
is non-NULL, it is used in composing the segment; if it is NULL,
a Style is retrieved from
's Style track.
The length of the section segment is equal to the length of the template section
passed in.
*/
HRESULT CDMStyle::ComposeMelodyFromTemplate(
IDirectMusicStyle* pStyle, // @parm The style from which to create the sequence segment.
IDirectMusicSegment* pTempSeg, // @parm The template from which to create the sequence segment.
IDirectMusicSegment** ppSeqSeg // @parm Returns the created sequence segment.
)
{
V_INAME(ComposeMelodyFromTemplate)
V_PTR_WRITE_OPT(pStyle, 1);
V_PTR_WRITE(pTempSeg, 1);
V_PTRPTR_WRITE(ppSeqSeg);
DWORD dwTrackGroup = 0xffffffff;
BOOL fStyleFromTrack = FALSE;
HRESULT hr = S_OK;
IDirectMusicTrack* pPatternTrack = NULL;
IDirectMusicTrack* pMelGenTrack = NULL;
MUSIC_TIME mtLength = 0;
hr = pTempSeg->GetLength(&mtLength);
if (FAILED(hr)) goto ON_END;
// get the MelGen track and its track group.
hr = pTempSeg->GetTrack(CLSID_DirectMusicMelodyFormulationTrack, 0xffffffff, 0, &pMelGenTrack);
if (S_OK != hr) goto ON_END;
if (FAILED(pTempSeg->GetTrackGroup(pMelGenTrack, &dwTrackGroup)))
{
dwTrackGroup = 0xffffffff;
}
// Get the style (either use the passed-in style or get one from a style track)
if (!pStyle)
{
if (FAILED(hr = GetStyle(pTempSeg, 0, dwTrackGroup, pStyle)))
{
hr = E_INVALIDARG;
goto ON_END;
}
fStyleFromTrack = TRUE;
}
// Using style, and melgen track, create a pattern track
hr = GenerateTrack(pTempSeg, NULL, dwTrackGroup, pStyle, pMelGenTrack, mtLength, pPatternTrack);
if (SUCCEEDED(hr))
{
if (hr == S_FALSE)
{
if (pPatternTrack) pPatternTrack->Release();
pPatternTrack = NULL;
}
HRESULT hrCopy = CopySegment(pTempSeg, pStyle, pPatternTrack, dwTrackGroup, ppSeqSeg);
if (FAILED(hrCopy)) hr = hrCopy;
}
ON_END:
// release from Addref in GetTrack
if (pMelGenTrack) pMelGenTrack->Release();
// release from CoCreateInstance in CreatePatternTrack
if (pPatternTrack) pPatternTrack->Release();
// Release from Addref in GetStyle
if (fStyleFromTrack) pStyle->Release();
return hr;
}
HRESULT CDMStyle::GetStyle(IDirectMusicSegment* pFromSeg, MUSIC_TIME mt, DWORD dwTrackGroup, IDirectMusicStyle*& rpStyle)
{
HRESULT hr = S_OK;
// Get the segment's style track.
IDirectMusicTrack* pStyleTrack;
hr = pFromSeg->GetTrack(CLSID_DirectMusicStyleTrack, dwTrackGroup, 0, &pStyleTrack);
if (S_OK != hr) return hr;
// Get the style from the style track
hr = pStyleTrack->GetParam(GUID_IDirectMusicStyle, mt, NULL, (void*) &rpStyle);
pStyleTrack->Release();
return hr;
}
HRESULT CDMStyle::CopySegment(IDirectMusicSegment* pTempSeg,
IDirectMusicStyle* pStyle,
IDirectMusicTrack* pPatternTrack,
DWORD dwTrackGroup,
IDirectMusicSegment** ppSectionSeg)
{
if (!ppSectionSeg) return E_INVALIDARG;
HRESULT hr = S_OK;
long nClocks = 0;
IDirectMusicTrack* pIStyleTrack = NULL;
IDirectMusicTrack* pDMTrack = NULL;
IDirectMusicTrack* pBandTrack = NULL;
IDirectMusicBand* pBand = NULL;
DMUS_BAND_PARAM DMBandParam;
pTempSeg->GetLength(&nClocks);
/////////////////////////////////////////////////////////////
// clone the template segment to get a section segment
hr = pTempSeg->Clone(0, nClocks, ppSectionSeg);
if (!SUCCEEDED(hr)) goto ON_END;
// Extract the style's time signature.
DMUS_TIMESIGNATURE TimeSig;
pStyle->GetTimeSignature(&TimeSig);
// Remove all style tracks from the new segment.
do
{
hr = (*ppSectionSeg)->GetTrack(CLSID_DirectMusicStyleTrack, dwTrackGroup, 0, &pIStyleTrack);
if (S_OK == hr)
{
(*ppSectionSeg)->RemoveTrack(pIStyleTrack);
pIStyleTrack->Release();
pIStyleTrack = NULL;
}
} while (S_OK == hr);
// hr is no longer S_OK, so reset it.
hr = S_OK;
// if there's no tempo track in the template segment, create one and add it
if (FAILED(pTempSeg->GetTrack(CLSID_DirectMusicTempoTrack, dwTrackGroup, 0, &pDMTrack)))
{
// Create a Tempo Track in which to store the tempo events
DMUS_TEMPO_PARAM tempo;
tempo.mtTime = 0;
pStyle->GetTempo(&tempo.dblTempo);
if( SUCCEEDED( CoCreateInstance( CLSID_DirectMusicTempoTrack,
NULL, CLSCTX_INPROC, IID_IDirectMusicTrack,
(void**)&pDMTrack )))
{
if ( SUCCEEDED(pDMTrack->SetParam(GUID_TempoParam, 0, &tempo)) )
{
(*ppSectionSeg)->InsertTrack( pDMTrack, dwTrackGroup );
}
}
}
// if there's no band track in the template segment, create one and add it
if (FAILED(pTempSeg->GetTrack(CLSID_DirectMusicBandTrack, dwTrackGroup, 0, &pBandTrack)))
{
// Create band track
hr = ::CoCreateInstance(
CLSID_DirectMusicBandTrack,
NULL,
CLSCTX_INPROC,
IID_IDirectMusicTrack,
(void**)&pBandTrack
);
if(!SUCCEEDED(hr)) goto ON_END;
// Load default band from style into track
hr = pStyle->GetDefaultBand(&pBand);
if (!SUCCEEDED(hr)) goto ON_END;
DMBandParam.mtTimePhysical = -64;
DMBandParam.pBand = pBand;
hr = pBandTrack->SetParam(GUID_BandParam, 0, (void*)&DMBandParam);
if (!SUCCEEDED(hr)) goto ON_END;
(*ppSectionSeg)->InsertTrack(pBandTrack, dwTrackGroup);
}
// Add the pattern track
if (pPatternTrack)
{
(*ppSectionSeg)->InsertTrack(pPatternTrack, dwTrackGroup);
}
// Initialize the segment
(*ppSectionSeg)->SetRepeats(0);
TraceI(4, "Segment Length: %d\n", nClocks);
(*ppSectionSeg)->SetLength(nClocks);
ON_END:
if (pDMTrack)
{
// This releases the Addref made either by GetTrack or (if GetTrack failed)
// by CoCreateInstance
pDMTrack->Release();
}
if (pBandTrack)
{
// This releases the Addref made either by GetTrack or (if GetTrack failed)
// by CoCreateInstance
pBandTrack->Release();
}
if (pIStyleTrack) pIStyleTrack->Release();
if (pBand) pBand->Release();
return hr;
}
HRESULT CDMStyle::GenerateTrack(IDirectMusicSegment* pTempSeg,
IDirectMusicSong* pSong,
DWORD dwTrackGroup,
IDirectMusicStyle* pStyle,
IDirectMusicTrack* pMelGenTrack,
MUSIC_TIME mtLength,
IDirectMusicTrack*& pNewTrack)
{
if (!pStyle || !pMelGenTrack) return E_INVALIDARG;
HRESULT hr = S_OK;
// CoCreate the pattern track
hr = ::CoCreateInstance(
CLSID_DirectMusicPatternTrack,
NULL,
CLSCTX_INPROC,
IID_IDirectMusicTrack,
(void**)&pNewTrack
);
if (FAILED(hr)) return hr;
// Get the Style's info struct
IDMStyle* pDMStyle = NULL;
hr = pStyle->QueryInterface(IID_IDMStyle, (void**) &pDMStyle);
if (FAILED(hr)) return hr;
DMStyleStruct* pStyleStruct = NULL;
pDMStyle->GetStyleInfo((void**)&pStyleStruct);
MUSIC_TIME mtNewFragment = 0;
MUSIC_TIME mtNext = 0;
MUSIC_TIME mtRealNextChord = 0;
MUSIC_TIME mtNextChord = 0;
MUSIC_TIME mtLaterChord = 0;
DMUS_MELODY_FRAGMENT DMUS_Fragment;
memset(&DMUS_Fragment, 0, sizeof(DMUS_Fragment));
DMUS_CHORD_PARAM CurrentChord;
DMUS_CHORD_PARAM RealCurrentChord;
DMUS_CHORD_PARAM NextChord;
CDirectMusicPattern* pPattern;
TList listFragments;
TListItem* pLastFragment = NULL;
CompositionFragment CompRepeat;
FirstTimePair* aFirstTimes = NULL;
BYTE bPlaymode = 0;
pMelGenTrack->GetParam(GUID_MelodyPlaymode, 0, NULL, (void*)&bPlaymode);
if (bPlaymode & DMUS_PLAYMODE_NONE)
{
bPlaymode = DMUS_PLAYMODE_ALWAYSPLAY;
}
// for each melody fragment:
do
{
pLastFragment = listFragments.GetHead();
// get the fragment
HRESULT hrFragment = pMelGenTrack->GetParam(GUID_MelodyFragment, mtNewFragment, &mtNext, (void*)&DMUS_Fragment);
if (FAILED(hrFragment)) break;
MelodyFragment Fragment = DMUS_Fragment;
if (mtNext) mtNewFragment += mtNext;
else mtNewFragment = 0;
// get its repeat
MelodyFragment repeatFragment = Fragment;
hr = pMelGenTrack->GetParam(GUID_MelodyFragmentRepeat, 0, NULL, (void*)&DMUS_Fragment);
if (SUCCEEDED(hr))
{
repeatFragment = DMUS_Fragment;
}
else // failing to get a repeat just means this fragment doesn't repeat; composition can still continue
{
hr = S_OK;
}
// If the fragment repeats an earlier fragment, get the earlier fragment.
// Regardless, get the fragment's pattern.
ZeroMemory( &CompRepeat, sizeof(CompRepeat));
if (SUCCEEDED(hrFragment) && Fragment.UsesRepeat())
{
TListItem* pScan = listFragments.GetHead();
for (; pScan; pScan = pScan->GetNext())
{
if (pScan->GetItemValue().GetID() == repeatFragment.GetID())
{
CompRepeat = pScan->GetItemValue();
}
}
pPattern = CompRepeat.m_pPattern;
}
else
{
Fragment.GetPattern(pStyleStruct, pPattern, pLastFragment);
}
// bail if we couldn't get a pattern
if (!pPattern)
{
hr = DMUS_E_NOT_FOUND;
break;
}
// get the pattern's partrefs
TListItem* pPartRef = pPattern->m_PartRefList.GetHead();
int nParts = pPattern->m_PartRefList.GetCount();
// clear all inversion groups for the fragment
Fragment.ClearInversionGroups();
// get the starting chords for the fragment
Fragment.GetChord(pTempSeg, pSong, dwTrackGroup, mtNextChord, CurrentChord, mtRealNextChord, RealCurrentChord);
Fragment.GetChord(mtNextChord, pTempSeg, pSong, dwTrackGroup, mtLaterChord, NextChord);
// initializations
TListItem* pFragmentItem = new TListItem(Fragment);
if (!pFragmentItem)
{
hr = E_OUTOFMEMORY;
break;
}
CompositionFragment& rFragment = pFragmentItem->GetItemValue();
hr = rFragment.Init(pPattern, pStyleStruct, nParts);
if (FAILED(hr))
{
break;
}
if (aFirstTimes) delete [] aFirstTimes;
aFirstTimes = new FirstTimePair[nParts];
if (!aFirstTimes)
{
hr = E_OUTOFMEMORY;
break;
}
// If we're repeating using transposition intervals:
// go through each part, attempting to fit the repeated part to the constraints.
// If this process fails for any part, abort the process.
// If it succeeds for every part, we can skip everything else that follows.
// (ASSUMPTION 1: constraints are pattern-wide, and so must be satisfied by every part)
// (ASSUMPTION 2: different parts are allowed to transpose by different intervals)
HRESULT hrSkipVariations = S_OK;
if (Fragment.RepeatsWithConstraints()) // if repeating using transposition intervals
{
for (int i = 0; pPartRef != NULL; pPartRef = pPartRef->GetNext(), i++)
{
aFirstTimes[i].dwPart = pPartRef->GetItemValue().m_dwLogicalPartID;
aFirstTimes[i].mtTime = 0;
hrSkipVariations = Fragment.GetRepeatedEvents(CompRepeat,
CurrentChord,
RealCurrentChord,
bPlaymode,
i,
pPartRef->GetItemValue(),
pLastFragment,
aFirstTimes[i].mtTime,
rFragment.EventList(i));
if (FAILED(hrSkipVariations)) break;
}
}
else
{
hrSkipVariations = E_FAIL;
}
if (FAILED(hrSkipVariations))
{
// If we're repeating, make sure the repeat fragment actually has variations,
// and is not itself repeating an earlier fragment.
// (we don't need to get the pattern again; that will be the same for all repeats)
CompositionFragment CompLast = CompRepeat;
while (repeatFragment.UsesRepeat())
{
DWORD dwRepeatID = repeatFragment.GetRepeatID();
ZeroMemory( &CompRepeat, sizeof(CompRepeat));
TListItem* pScan = listFragments.GetHead();
for (; pScan; pScan = pScan->GetNext())
{
if (pScan->GetItemValue().GetID() == dwRepeatID)
{
CompRepeat = pScan->GetItemValue();
repeatFragment = CompRepeat;
if (!CompLast.m_abVariations && CompRepeat.m_abVariations)
{
ZeroMemory( &CompLast, sizeof(CompLast));
CompLast = CompRepeat;
}
}
}
}
// Get variations for the Fragment
Fragment.GetVariations(rFragment, CompRepeat, CompLast, CurrentChord, NextChord, mtNextChord, pLastFragment);
bool fNeedChord = false;
// for each part in the pattern:
for (int i = 0; pPartRef != NULL; pPartRef = pPartRef->GetNext(), i++)
{
// Clean up anything that might have happened with repeats
rFragment.CleanupEvents(i);
if (fNeedChord)
{
Fragment.GetChord(pTempSeg, pSong, dwTrackGroup, mtNextChord, CurrentChord, mtRealNextChord, RealCurrentChord);
Fragment.GetChord(mtNextChord, pTempSeg, pSong, dwTrackGroup, mtLaterChord, NextChord);
fNeedChord = false;
}
DirectMusicPart* pPart = pPartRef->GetItemValue().m_pDMPart;
DirectMusicTimeSig& TimeSig = rFragment.GetTimeSig(pPart);
aFirstTimes[i].dwPart = pPartRef->GetItemValue().m_dwLogicalPartID;
aFirstTimes[i].mtTime = 0;
bool fFoundFirst = false;
// for each note in the variation:
CDirectMusicEventItem* pEvent = pPart->EventList.GetHead();
for (; pEvent; pEvent = pEvent->GetNext())
{
if ( pEvent->m_dwVariation & (1 << rFragment.m_abVariations[i]) )
{
TListItem* pEventItem = NULL;
// get the time (offset from the start of the track)
MUSIC_TIME mtNow = Fragment.GetTime() +
TimeSig.GridToClocks(pEvent->m_nGridStart) + pEvent->m_nTimeOffset;
// Make sure this doesn't overlap with the next fragment.
MUSIC_TIME mtDuration = 0;
switch (pEvent->m_dwEventTag)
{
case DMUS_EVENT_NOTE:
mtDuration = ((CDMStyleNote*)pEvent)->m_mtDuration;
break;
case DMUS_EVENT_CURVE:
mtDuration = ((CDMStyleCurve*)pEvent)->m_mtDuration;
break;
}
bool fAddToOverlap = false;
if ( !mtNewFragment || mtNow + mtDuration <= mtNewFragment )
{
if (pEvent->m_dwEventTag == DMUS_EVENT_ANTICIPATION)
{
fAddToOverlap = true;
}
else
{
// use proper chord for non-anticipated notes
if (mtRealNextChord != mtNextChord && mtNow >= mtRealNextChord)
{
mtRealNextChord = mtNextChord;
RealCurrentChord = CurrentChord;
}
// get a new chord if necessary
if (mtNextChord && mtNow >= mtNextChord)
{
Fragment.GetChord(mtNow, pTempSeg, pSong, dwTrackGroup, mtNextChord, CurrentChord);
mtRealNextChord = mtNextChord;
RealCurrentChord = CurrentChord;
fNeedChord = true;
}
// Convert the event to a wrapped event
hr = Fragment.GetEvent(pEvent, CurrentChord, RealCurrentChord, mtNow, pPartRef->GetItemValue(), pEventItem);
// Add the new event to a list of wrapped events.
if (hr == S_OK)
{
rFragment.AddEvent(i, pEventItem);
}
if (!fFoundFirst || mtNow < aFirstTimes[i].mtTime)
{
fFoundFirst = true;
aFirstTimes[i].mtTime = mtNow;
}
}
}
// ignore anticipations that start after the next fragment
else if (pEvent->m_dwEventTag != DMUS_EVENT_ANTICIPATION)
{
fAddToOverlap = true;
}
if (fAddToOverlap)
{
TListItem* pOverlap = new TListItem;
if (pOverlap)
{
EventOverlap& rOverlap = pOverlap->GetItemValue();
rOverlap.m_PartRef = pPartRef->GetItemValue();
rOverlap.m_pEvent = pEvent;
rOverlap.m_mtTime = mtNow;
rOverlap.m_mtDuration = mtDuration;
rOverlap.m_Chord = CurrentChord;
rOverlap.m_RealChord = RealCurrentChord;
rFragment.AddOverlap(pOverlap);
}
}
}
}
if (!fFoundFirst) aFirstTimes[i].mtTime = mtNewFragment;
// Sort the sequence items in reverse order, so that the last element is easy to find
rFragment.SortEvents(i);
}
// Clear this so the pointers it may reference aren't deleted twice.
ZeroMemory( &CompLast, sizeof(CompLast));
}
listFragments.AddHead(pFragmentItem);
// Go through the list of overlaps for the last fragment, adding any events that don't
// actually overlap (and processing anticipations)
// alg for processing anticipations:
// if the overlap list contains an anticipation for a part:
// find the first event in that part's fragment list
// make the start time of that event be the start time of the anticipation
// add to the duration of the event the difference between the event's start time
// and the anticipation's start time
if (pLastFragment)
{
TListItem* pEventItem = NULL;
CompositionFragment& rLastFragment = pLastFragment->GetItemValue();
TListItem* pTupleItem;
pTupleItem = rLastFragment.GetOverlapHead();
for (; pTupleItem; pTupleItem = pTupleItem->GetNext() )
{
EventOverlap& rTuple = pTupleItem->GetItemValue();
for (int i = 0; i < nParts; i++)
{
if (rTuple.m_PartRef.m_dwLogicalPartID == aFirstTimes[i].dwPart) break;
}
if (i >= nParts ||
!aFirstTimes[i].mtTime ||
rTuple.m_mtTime < aFirstTimes[i].mtTime)
{
if (rTuple.m_pEvent->m_dwEventTag == DMUS_EVENT_ANTICIPATION)
{
if (i < nParts && aFirstTimes[i].mtTime)
{
TListItem* pFirstNote = NULL;
TListItem* pScan = rFragment.GetEventHead(i);
// since the list is sorted in reverse order, the first note in
// the fragment will be the last one in the list.
for (; pScan; pScan = pScan->GetNext())
{
if (pScan->GetItemValue().m_pEvent->m_dwEventTag == DMUS_EVENT_NOTE)
{
pFirstNote = pScan;
}
}
if (pFirstNote)
{
EventWrapper& rFirstNote = pFirstNote->GetItemValue();
CDMStyleNote* pNoteEvent = (CDMStyleNote*)rFirstNote.m_pEvent;
pNoteEvent->m_mtDuration += (rFirstNote.m_mtTime - rTuple.m_mtTime);
rFirstNote.m_mtTime = rTuple.m_mtTime;
}
}
}
else
{
hr = rLastFragment.GetEvent(rTuple.m_pEvent, rTuple.m_Chord, rTuple.m_RealChord, rTuple.m_mtTime, rTuple.m_PartRef, pEventItem);
if (i < nParts &&
aFirstTimes[i].mtTime &&
rTuple.m_mtTime + rTuple.m_mtDuration >= aFirstTimes[i].mtTime)
{
int nDiff = rTuple.m_mtTime + rTuple.m_mtDuration - aFirstTimes[i].mtTime;
if (pEventItem && pEventItem->GetItemValue().m_pEvent)
{
switch (pEventItem->GetItemValue().m_pEvent->m_dwEventTag)
{
case DMUS_EVENT_NOTE:
((CDMStyleNote*)pEventItem->GetItemValue().m_pEvent)->m_mtDuration -= nDiff;
break;
case DMUS_EVENT_CURVE:
((CDMStyleCurve*)pEventItem->GetItemValue().m_pEvent)->m_mtDuration -= nDiff;
break;
}
}
}
rLastFragment.InsertEvent(i, pEventItem);
}
}
}
}
// NOTE: Need to apply transformations (invert, reverse...) here.
// I should also move the individual sorts out of the overlapped notes code,
// and put it directly preceding the transformations.
} while (mtNext != 0);
// Clear this so the pointers it may reference aren't deleted twice.
ZeroMemory( &CompRepeat, sizeof(CompRepeat));
// Once pattern tracks are introduced, I need to change this to create a pattern track.
// I should allow an option to create one or the other (?).
if (SUCCEEDED(hr))
{
hr = CreatePatternTrack(listFragments,
pStyleStruct->m_TimeSignature,
pStyleStruct->m_dblTempo,
mtLength,
bPlaymode,
pNewTrack);
}
if (aFirstTimes) delete [] aFirstTimes;
pDMStyle->Release();
return hr;
}
TListItem* ConvertToSequenceEvent(TListItem* pEventItem)
{
TListItem* pResult = new TListItem;
if (pResult)
{
DMUS_IO_SEQ_ITEM& rSeq = pResult->GetItemValue();
EventWrapper& rEvent = pEventItem->GetItemValue();
rSeq.bStatus = 0x90; // MIDI note on (with channel nibble stripped out)
rSeq.mtTime = rEvent.m_mtTime;
rSeq.bByte1 = rEvent.m_bMIDI;
rSeq.dwPChannel = rEvent.m_dwPChannel;
rSeq.nOffset = rEvent.m_pEvent->m_nTimeOffset;
if (rEvent.m_pEvent)
{
switch (rEvent.m_pEvent->m_dwEventTag)
{
case DMUS_EVENT_NOTE:
rSeq.mtDuration = ((CDMStyleNote*)rEvent.m_pEvent)->m_mtDuration;
rSeq.bByte2 = ((CDMStyleNote*)rEvent.m_pEvent)->m_bVelocity;
break;
case DMUS_EVENT_CURVE:
rSeq.mtDuration = ((CDMStyleCurve*)rEvent.m_pEvent)->m_mtDuration;
rSeq.bByte2 = 0; // Actually, curves shouldn't end up as note events...
break;
}
}
}
return pResult;
}
HRESULT CDMStyle::CreateSequenceTrack(TList& rlistFragments,
IDirectMusicTrack*& pSequenceTrack)
{
HRESULT hr = S_OK;
TList SeqList;
// fold all the individual event lists into one list
TListItem* pFragmentItem = rlistFragments.GetHead();
for (; pFragmentItem; pFragmentItem = pFragmentItem->GetNext())
{
CompositionFragment& rFragment = pFragmentItem->GetItemValue();
int nParts = rFragment.m_pPattern->m_PartRefList.GetCount();
for (int i = 0; i < nParts; i++)
{
while (!rFragment.IsEmptyEvents(i))
{
TListItem* pHead = rFragment.RemoveEventHead(i);
SeqList.AddHead(ConvertToSequenceEvent(pHead));
}
}
}
// Sort the sequence items
SeqList.MergeSort(Less);
// Now, persist the sequence events into the Sequence track
IPersistStream* pIPSTrack = NULL;
if( SUCCEEDED( pSequenceTrack->QueryInterface( IID_IPersistStream, (void**)&pIPSTrack )))
{
// Create a stream in which to place the events so we can
// give it to the SeqTrack.Load.
IStream* pEventStream;
if( S_OK == CreateStreamOnHGlobal( NULL, TRUE, &pEventStream ) )
{
// Save the events into the stream
TListItem* pSeqItem = NULL;
ULONG cb, cbWritten;
// Save the chunk id
DWORD dwTemp = DMUS_FOURCC_SEQ_TRACK;
pEventStream->Write( &dwTemp, sizeof(DWORD), NULL );
// Save the overall size. Count the number of events to determine.
DWORD dwSize = 0;
for( pSeqItem = SeqList.GetHead(); pSeqItem; pSeqItem = pSeqItem->GetNext() )
{
dwSize++;
}
dwSize *= sizeof(DMUS_IO_SEQ_ITEM);
// add 12 --- 8 for the subchunk header and overall size,
// and 4 for the DMUS_IO_SEQ_ITEM size DWORD in the subchunk
dwSize += 12;
pEventStream->Write( &dwSize, sizeof(DWORD), NULL );
// Save the subchunk id
dwTemp = DMUS_FOURCC_SEQ_LIST;
pEventStream->Write( &dwTemp, sizeof(DWORD), NULL );
// Subtract the previously added 8 (for subchunk header and overall size)
dwSize -= 8;
// Save the size of the subchunk (including the DMUS_IO_SEQ_ITEM size DWORD)
pEventStream->Write( &dwSize, sizeof(DWORD), NULL );
// Save the structure size.
dwTemp = sizeof(DMUS_IO_SEQ_ITEM);
pEventStream->Write( &dwTemp, sizeof(DWORD), NULL );
// Save the events.
cb = sizeof(DMUS_IO_SEQ_ITEM);
for( pSeqItem = SeqList.GetHead(); pSeqItem; pSeqItem = pSeqItem->GetNext() )
{
DMUS_IO_SEQ_ITEM& rSeqItem = pSeqItem->GetItemValue();
pEventStream->Write( &rSeqItem, cb, &cbWritten );
if( cb != cbWritten ) // error!
{
pEventStream->Release();
pEventStream = NULL;
hr = DMUS_E_CANNOTREAD;
break;
}
}
if( pEventStream ) // may be NULL
{
StreamSeek( pEventStream, 0, STREAM_SEEK_SET );
pIPSTrack->Load( pEventStream );
pEventStream->Release();
}
}
pIPSTrack->Release();
}
return hr;
}
CDirectMusicEventItem* ConvertToPatternEvent(TListItem* pEventWrapper,
DWORD dwID,
BYTE bPlaymode,
DirectMusicTimeSig& TimeSig)
{
if (!pEventWrapper) return NULL;
BYTE bEventPlaymode = pEventWrapper->GetItemValue().m_bPlaymode;
if (bPlaymode == bEventPlaymode)
{
bEventPlaymode = DMUS_PLAYMODE_NONE;
}
CDirectMusicEventItem* pWrappedEvent = pEventWrapper->GetItemValue().m_pEvent;
if (!pWrappedEvent) return NULL;
MUSIC_TIME mtClocksPerGrid = TimeSig.ClocksPerGrid();
short nGrid = 0;
short nOffset = 0;
if (mtClocksPerGrid)
{
nGrid = (short) (pEventWrapper->GetItemValue().m_mtTime / mtClocksPerGrid);
nOffset = (short) (pWrappedEvent->m_nTimeOffset + pEventWrapper->GetItemValue().m_mtTime % mtClocksPerGrid);
}
DWORD dwVariations = 0xffffffff;
BYTE bFlags = 0;
if (pEventWrapper->GetItemValue().m_pEvent &&
pEventWrapper->GetItemValue().m_pEvent->m_dwEventTag == DMUS_EVENT_NOTE)
{
bFlags = ((CDMStyleNote*)pEventWrapper->GetItemValue().m_pEvent)->m_bFlags;
}
return pWrappedEvent->ReviseEvent(nGrid, nOffset, &dwVariations, &dwID, &pEventWrapper->GetItemValue().m_wMusic, &bEventPlaymode, &bFlags);
}
HRESULT CDMStyle::CreatePatternTrack(TList& rlistFragments,
DirectMusicTimeSig& rTimeSig,
double dblTempo,
MUSIC_TIME mtLength,
BYTE bPlaymode,
IDirectMusicTrack*& pPatternTrack)
{
HRESULT hr = S_OK;
CDirectMusicPattern* pPattern = new CDirectMusicPattern(&rTimeSig);
if (pPattern == NULL) return E_OUTOFMEMORY;
pPattern->m_strName = "";
// fold all the individual event lists into corresponding parts in the pattern
TListItem* pFragmentItem = rlistFragments.GetHead();
for (; pFragmentItem; pFragmentItem = pFragmentItem->GetNext())
{
CompositionFragment& rFragment = pFragmentItem->GetItemValue();
TListItem* pPartRef = rFragment.m_pPattern->m_PartRefList.GetHead();
int nParts = rFragment.m_pPattern->m_PartRefList.GetCount();
for (int i = 0; i < nParts && pPartRef; i++, pPartRef = pPartRef->GetNext() )
{
DirectMusicPartRef& rPartRef = pPartRef->GetItemValue();
TListItem* pNewPartRef = pPattern->CreatePart(rPartRef, bPlaymode);
if (!pNewPartRef)
{
hr = E_OUTOFMEMORY;
break;
}
DirectMusicPart* pPart = pNewPartRef->GetItemValue().m_pDMPart;
if (!pPart)
{
hr = E_FAIL;
break;
}
while (!rFragment.IsEmptyEvents(i))
{
TListItem* pHead = rFragment.RemoveEventHead(i);
CDirectMusicEventItem* pNew = ConvertToPatternEvent(pHead, rFragment.GetID(), bPlaymode, rTimeSig);
if (pNew)
{
pPart->EventList.AddHead(pNew);
}
delete pHead;
}
}
if (FAILED(hr)) break;
}
WORD wNumMeasures = 0;
MUSIC_TIME mtClocksPerMeasure = rTimeSig.ClocksPerMeasure();
if (mtClocksPerMeasure)
{
wNumMeasures = (WORD)(mtLength / mtClocksPerMeasure);
if (mtLength % mtClocksPerMeasure)
{
wNumMeasures++;
}
}
pPattern->m_wNumMeasures = wNumMeasures;
pPattern->m_pRhythmMap = new DWORD[wNumMeasures];
if (pPattern->m_pRhythmMap)
{
for (int i = 0; i < wNumMeasures; i++)
{
pPattern->m_pRhythmMap[i] = 0;
}
}
else
{
hr = E_OUTOFMEMORY;
}
if (SUCCEEDED(hr))
{
TListItem* pPartRef = pPattern->m_PartRefList.GetHead();
int nParts = pPattern->m_PartRefList.GetCount();
// Sort the event lists for each part, and set the number of measures.
for (int i = 0; i < nParts && pPartRef; i++, pPartRef = pPartRef->GetNext() )
{
DirectMusicPart* pPart = pPartRef->GetItemValue().m_pDMPart;
if (pPart)
{
pPart->m_wNumMeasures = wNumMeasures;
pPart->EventList.MergeSort(rTimeSig);
// remove notes so close that they might as well be overlapping
CDirectMusicEventItem* pThisEvent = pPart->EventList.GetHead();
CDirectMusicEventItem* pLastEvent = NULL;
for (; pThisEvent; pThisEvent = pThisEvent->GetNext())
{
if (pThisEvent->m_dwEventTag == DMUS_EVENT_NOTE)
{
CDMStyleNote* pThisNote = (CDMStyleNote*)pThisEvent;
CDirectMusicEventItem* pNextEvent = pThisEvent->GetNext();
for (; pNextEvent; pNextEvent = pNextEvent->GetNext())
{
if (pNextEvent->m_dwEventTag == DMUS_EVENT_NOTE) break;
}
if (pNextEvent)
{
CDMStyleNote* pNextNote = (CDMStyleNote*)pNextEvent;
MUSIC_TIME mtThis = rTimeSig.GridToClocks(pThisNote->m_nGridStart) + pThisNote->m_nTimeOffset;
MUSIC_TIME mtNext = rTimeSig.GridToClocks(pNextNote->m_nGridStart) + pNextNote->m_nTimeOffset;
if ( (pNextNote->m_dwFragmentID != pThisNote->m_dwFragmentID) &&
((mtThis < mtNext && mtThis + OVERLAP_DELTA > mtNext) ||
(mtThis > mtNext && mtThis + OVERLAP_DELTA < mtNext)) ) // could happen with negative offsets...
{
if (pLastEvent)
{
pLastEvent->SetNext(pThisEvent->GetNext());
}
else // the note I want to remove is the first event
{
pPart->EventList.RemoveHead();
}
pThisEvent->SetNext(NULL);
delete pThisEvent;
pThisEvent = pLastEvent;
}
}
}
pLastEvent = pThisEvent;
}
}
}
// Now, save the newly created pattern to a pattern track
IPersistStream* pIPSTrack = NULL;
IAARIFFStream* pIRiffStream;
MMCKINFO ckMain;
if( SUCCEEDED( pPatternTrack->QueryInterface( IID_IPersistStream, (void**)&pIPSTrack )))
{
// Create a stream in which to place the events so we can
// give it to the PatternTrack.Load.
IStream* pEventStream;
if( S_OK == CreateStreamOnHGlobal( NULL, TRUE, &pEventStream ) )
{
if( SUCCEEDED( AllocRIFFStream( pEventStream, &pIRiffStream ) ) )
{
ckMain.fccType = DMUS_FOURCC_PATTERN_FORM;
if( pIRiffStream->CreateChunk( &ckMain, MMIO_CREATERIFF ) == 0 )
{
MMCKINFO ckHeader;
ckHeader.ckid = DMUS_FOURCC_STYLE_CHUNK;
if( pIRiffStream->CreateChunk( &ckHeader, 0 ) != 0 )
{
hr = E_FAIL;
}
if (SUCCEEDED(hr))
{
// Prepare DMUS_IO_STYLE
DMUS_IO_STYLE oDMStyle;
DWORD dwBytesWritten = 0;
memset( &oDMStyle, 0, sizeof(DMUS_IO_STYLE) );
oDMStyle.timeSig.bBeatsPerMeasure = rTimeSig.m_bBeatsPerMeasure;
oDMStyle.timeSig.bBeat = rTimeSig.m_bBeat;
oDMStyle.timeSig.wGridsPerBeat = rTimeSig.m_wGridsPerBeat;
oDMStyle.dblTempo = dblTempo;
// Write chunk data
hr = pEventStream->Write( &oDMStyle, sizeof(DMUS_IO_STYLE), &dwBytesWritten);
if( FAILED( hr ) || dwBytesWritten != sizeof(DMUS_IO_STYLE) )
{
hr = E_FAIL;
}
if( SUCCEEDED(hr) && pIRiffStream->Ascend( &ckHeader, 0 ) != 0 )
{
hr = E_FAIL;
}
}
if ( SUCCEEDED(hr) )
{
hr = pPattern->Save( pEventStream );
pPartRef = pPattern->m_PartRefList.GetHead();
for (; pPartRef; pPartRef = pPartRef->GetNext())
{
if (pPartRef->GetItemValue().m_pDMPart)
{
delete pPartRef->GetItemValue().m_pDMPart;
pPartRef->GetItemValue().m_pDMPart = NULL;
}
}
pPattern->CleanUp();
delete pPattern;
if ( SUCCEEDED( hr ) && pIRiffStream->Ascend( &ckMain, 0 ) != 0 )
{
hr = E_FAIL;
}
}
}
pIRiffStream->Release();
}
if( SUCCEEDED(hr) )
{
StreamSeek( pEventStream, 0, STREAM_SEEK_SET );
pIPSTrack->Load( pEventStream );
}
pEventStream->Release();
}
pIPSTrack->Release();
}
}
if (hr == S_OK && !rlistFragments.GetHead()) hr = S_FALSE;
return hr;
}