Leaked source code of windows server 2003
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// Transpose.cpp : Implementation of CTransposeTool
//
// Copyright (C) 1999 Microsoft Corporation. All Rights Reserved
//
#include "dmusicc.h"
#include "dmusici.h"
#include "debug.h"
#include "transpose.h"
#include "toolhelp.h"
// We keep a default chord of C7 in the scale of C, in case there is no chord track
// at the time an in scale transposition is requested.
DMUS_CHORD_KEY CTransposeTool::m_gDefaultChord;
CTransposeTool::CTransposeTool()
{
ParamInfo Params[DMUS_TRANSPOSE_PARAMCOUNT] =
{
{ DMUS_TRANSPOSE_AMOUNT, MPT_INT,MP_CAPS_ALL,-24,24,0,
L"Intervals",L"Transpose",NULL}, // Tranpose - none by default
{ DMUS_TRANSPOSE_TYPE, MPT_ENUM,MP_CAPS_ALL,
DMUS_TRANSPOSET_LINEAR,DMUS_TRANSPOSET_SCALE,DMUS_TRANSPOSET_SCALE,
L"",L"Type",L"Linear,In Scale"} // Type - transpose in scale by default
};
InitParams(DMUS_TRANSPOSE_PARAMCOUNT,Params);
m_fMusicTime = TRUE; // override default setting.
wcscpy(m_gDefaultChord.wszName, L"M7");
m_gDefaultChord.wMeasure = 0;
m_gDefaultChord.bBeat = 0;
m_gDefaultChord.bSubChordCount = 1;
m_gDefaultChord.bKey = 12;
m_gDefaultChord.dwScale = 0xab5ab5; // default scale is C Major
m_gDefaultChord.bFlags = 0;
for (int n = 0; n < DMUS_MAXSUBCHORD; n++)
{
m_gDefaultChord.SubChordList[n].dwChordPattern = 0x891; // default chord is major 7
m_gDefaultChord.SubChordList[n].dwScalePattern = 0xab5ab5; // default scale is C Major
m_gDefaultChord.SubChordList[n].dwInversionPoints = 0xffffff;
m_gDefaultChord.SubChordList[n].dwLevels = 0xffffffff;
m_gDefaultChord.SubChordList[n].bChordRoot = 12; // 2C
m_gDefaultChord.SubChordList[n].bScaleRoot = 0;
}
}
STDMETHODIMP_(ULONG) CTransposeTool::AddRef()
{
return InterlockedIncrement(&m_cRef);
}
STDMETHODIMP_(ULONG) CTransposeTool::Release()
{
if( 0 == InterlockedDecrement(&m_cRef) )
{
delete this;
return 0;
}
return m_cRef;
}
STDMETHODIMP CTransposeTool::QueryInterface(const IID &iid, void **ppv)
{
if (iid == IID_IUnknown || iid == IID_IDirectMusicTool || iid == IID_IDirectMusicTool8)
{
*ppv = static_cast<IDirectMusicTool8*>(this);
}
else if(iid == IID_IPersistStream)
{
*ppv = static_cast<IPersistStream*>(this);
}
else if(iid == IID_IDirectMusicTransposeTool)
{
*ppv = static_cast<IDirectMusicTransposeTool*>(this);
}
else if(iid == IID_IMediaParams)
{
*ppv = static_cast<IMediaParams*>(this);
}
else if(iid == IID_IMediaParamInfo)
{
*ppv = static_cast<IMediaParamInfo*>(this);
}
else if(iid == IID_ISpecifyPropertyPages)
{
*ppv = static_cast<ISpecifyPropertyPages*>(this);
}
else
{
*ppv = NULL;
return E_NOINTERFACE;
}
AddRef();
return S_OK;
}
//////////////////////////////////////////////////////////////////////
// IPersistStream
STDMETHODIMP CTransposeTool::GetClassID(CLSID* pClassID)
{
if (pClassID)
{
*pClassID = CLSID_DirectMusicTransposeTool;
return S_OK;
}
return E_POINTER;
}
//////////////////////////////////////////////////////////////////////
// IPersistStream Methods:
STDMETHODIMP CTransposeTool::IsDirty()
{
if (m_fDirty) return S_OK;
else return S_FALSE;
}
STDMETHODIMP CTransposeTool::Load(IStream* pStream)
{
EnterCriticalSection(&m_CrSec);
DWORD dwChunkID;
DWORD dwSize;
HRESULT hr = pStream->Read(&dwChunkID, sizeof(dwChunkID), NULL);
hr = pStream->Read(&dwSize, sizeof(dwSize), NULL);
if(SUCCEEDED(hr) && (dwChunkID == FOURCC_TRANSPOSE_CHUNK))
{
DMUS_IO_TRANSPOSE_HEADER Header;
memset(&Header,0,sizeof(Header));
hr = pStream->Read(&Header, min(sizeof(Header),dwSize), NULL);
if (SUCCEEDED(hr))
{
SetParam(DMUS_TRANSPOSE_AMOUNT,(float) Header.lTranspose);
SetParam(DMUS_TRANSPOSE_TYPE,(float) Header.dwType);
}
}
m_fDirty = FALSE;
LeaveCriticalSection(&m_CrSec);
return hr;
}
STDMETHODIMP CTransposeTool::Save(IStream* pStream, BOOL fClearDirty)
{
EnterCriticalSection(&m_CrSec);
DWORD dwChunkID = FOURCC_TRANSPOSE_CHUNK;
DWORD dwSize = sizeof(DMUS_IO_TRANSPOSE_HEADER);
HRESULT hr = pStream->Write(&dwChunkID, sizeof(dwChunkID), NULL);
if (SUCCEEDED(hr))
{
hr = pStream->Write(&dwSize, sizeof(dwSize), NULL);
}
if (SUCCEEDED(hr))
{
DMUS_IO_TRANSPOSE_HEADER Header;
GetParamInt(DMUS_TRANSPOSE_AMOUNT,MAX_REF_TIME,(long *) &Header.lTranspose);
GetParamInt(DMUS_TRANSPOSE_TYPE,MAX_REF_TIME,(long *) &Header.dwType);
hr = pStream->Write(&Header, sizeof(Header),NULL);
}
if (fClearDirty) m_fDirty = FALSE;
LeaveCriticalSection(&m_CrSec);
return hr;
}
STDMETHODIMP CTransposeTool::GetSizeMax(ULARGE_INTEGER* pcbSize)
{
if (pcbSize == NULL)
{
return E_POINTER;
}
pcbSize->QuadPart = sizeof(DMUS_IO_TRANSPOSE_HEADER) + 8; // Data plus RIFF header.
return S_OK;
}
STDMETHODIMP CTransposeTool::GetPages(CAUUID * pPages)
{
pPages->cElems = 1;
pPages->pElems = (GUID *) CoTaskMemAlloc(sizeof(GUID));
if (pPages->pElems == NULL)
return E_OUTOFMEMORY;
*(pPages->pElems) = CLSID_TransposePage;
return NOERROR;
}
/////////////////////////////////////////////////////////////////
// IDirectMusicTool
STDMETHODIMP CTransposeTool::ProcessPMsg( IDirectMusicPerformance* pPerf,
DMUS_PMSG* pPMsg )
{
// returning S_FREE frees the message. If StampPMsg()
// fails, there is no destination for this message so
// free it.
if(NULL == pPMsg->pGraph )
{
return DMUS_S_FREE;
}
if (FAILED(pPMsg->pGraph->StampPMsg(pPMsg)))
{
return DMUS_S_FREE;
}
// Only transpose notes that are not on the drum pChannel.
if( (pPMsg->dwType == DMUS_PMSGT_NOTE ) && ((pPMsg->dwPChannel & 0xF) != 0x9))
{
// We need to know the time format so we can call GetParamInt() to read control parameters.
REFERENCE_TIME rtTime;
if (m_fMusicTime) rtTime = pPMsg->mtTime;
else rtTime = pPMsg->rtTime;
DMUS_NOTE_PMSG *pNote = (DMUS_NOTE_PMSG *) pPMsg;
long lTranspose, lType;
long lNote = pNote->bMidiValue;
GetParamInt(DMUS_TRANSPOSE_AMOUNT,rtTime,&lTranspose);
GetParamInt(DMUS_TRANSPOSE_TYPE,rtTime,&lType);
if (lType == DMUS_TRANSPOSET_LINEAR)
{
lNote += lTranspose;
while (lNote < 0) lNote += 12;
while (lNote > 127) lNote -= 12;
pNote->bMidiValue = (BYTE) lNote;
}
else
{
IDirectMusicPerformance8 *pPerf8;
if (SUCCEEDED(pPerf->QueryInterface(IID_IDirectMusicPerformance8,(void **) &pPerf8)))
{
DMUS_CHORD_KEY Chord;
DMUS_CHORD_KEY *pChord = &Chord;
if (FAILED(pPerf8->GetParamEx(GUID_ChordParam,pNote->dwVirtualTrackID,
pNote->dwGroupID,0,pNote->mtTime - pNote->nOffset, NULL, pChord)))
{
// Couldn't find an active scale, use major scale instead.
pChord = &m_gDefaultChord;
}
WORD wVal;
// First, use the current chord & scale to convert the note's midi value into scale position.
if (SUCCEEDED(pPerf->MIDIToMusic(pNote->bMidiValue ,pChord,DMUS_PLAYMODE_PEDALPOINT,pNote->bSubChordLevel,&wVal)))
{
// Scale position is octave position * 7 plus chord position * 2 plus the scale position.
long lScalePosition = (((wVal & 0xF000) >> 12) * 7) + (((wVal & 0xF00) >> 8) * 2) + ((wVal & 0xF0) >> 4);
// Now that we are looking at scale position, we can add the transposition.
lScalePosition += lTranspose;
// Make sure we don't wrap around.
while (lScalePosition < 0) lScalePosition += 7;
// A high MIDI value of 127 translates to scale position 74.
while (lScalePosition > 74) lScalePosition -= 7;
wVal &= 0x000F; // Keep only the accidental.
// Now, insert the values back in. Start with chord.
wVal |= ((lScalePosition / 7) << 12);
// Then, scale position.
wVal |= ((lScalePosition % 7) << 4);
pPerf->MusicToMIDI(wVal,pChord,DMUS_PLAYMODE_PEDALPOINT,
pNote->bSubChordLevel,&pNote->bMidiValue);
}
pPerf8->Release();
}
}
}
return DMUS_S_REQUEUE;
}
STDMETHODIMP CTransposeTool::Clone( IDirectMusicTool ** ppTool)
{
CTransposeTool *pNew = new CTransposeTool;
if (pNew)
{
HRESULT hr = pNew->CopyParamsFromSource(this);
if (SUCCEEDED(hr))
{
*ppTool = (IDirectMusicTool *) pNew;
}
else
{
delete pNew;
}
return hr;
}
else
{
return E_OUTOFMEMORY;
}
}
STDMETHODIMP CTransposeTool::SetTranspose(long lTranpose)
{
return SetParam(DMUS_TRANSPOSE_AMOUNT,(float) lTranpose);
}
STDMETHODIMP CTransposeTool::SetType(DWORD dwType)
{
return SetParam(DMUS_TRANSPOSE_TYPE,(float) dwType);
}
#define MAX_REF_TIME 0x7FFFFFFFFFFFFFFF
STDMETHODIMP CTransposeTool::GetTranspose(long * plTranspose)
{
return GetParamInt(DMUS_TRANSPOSE_AMOUNT,MAX_REF_TIME, plTranspose);
}
STDMETHODIMP CTransposeTool::GetType(DWORD * pdwType)
{
return GetParamInt(DMUS_TRANSPOSE_TYPE,MAX_REF_TIME,(long *) pdwType);
}