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winamp/Src/Plugins/DSP/dsp_sps/dxi/MediaParams.cpp

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2024-09-24 12:54:57 +00:00
// MediaParams.cpp: implementation of the CMediaParams class.
//
//////////////////////////////////////////////////////////////////////
#include "stdafx.h"
#include "AudioPlugIn.h"
#include "MediaParams.h"
#include "ParamEnvelope.h"
#include "CakeMedParam_i.c"
#define DEFINE_PARAM_INFO
#include "Parameters.h"
//////////////////////////////////////////////////////////////////////
// Ctors
CMediaParams::CMediaParams( IUnknown* pUnkOuter ) : m_pUnkOuter(pUnkOuter)
{
m_pCallback = NULL;
m_cRef = 0;
m_aEnv = NULL;
m_dDecimationInterval = 20.0 / 1000.0; // 20 msec
m_lFs = 44100;
}
CMediaParams::~CMediaParams()
{
ASSERT( 0 == m_cRef );
if (m_pCallback)
m_pCallback->Release();
m_pCallback = NULL;
m_pUnkOuter = NULL;
delete [] m_aEnv;
m_aEnv = NULL;
}
//////////////////////////////////////////////////////////////////////
// Factory-style construction
HRESULT CMediaParams::Create( CMediaParams** ppObj, IUnknown* pUnkOuter )
{
if (NULL == ppObj)
return E_POINTER;
if (NULL == pUnkOuter)
return E_POINTER;
// Construct the CMediaParams object
CMediaParams* pNew = new CMediaParams( pUnkOuter );
if (NULL == pNew)
return E_OUTOFMEMORY;
// Construct and initialize its parameters
pNew->m_aEnv = new CParamEnvelope [ NUM_PARAMS ];
if (NULL == pNew->m_aEnv)
return E_OUTOFMEMORY;
for (ULONG ix = 0; ix < NUM_PARAMS; ++ix)
pNew->m_aEnv[ ix ].SetParamInfo( m_aParamInfo[ ix ] );
pNew->AddRef();
*ppObj = pNew;
return S_OK;
}
////////////////////////////////////////////////////////////////////////////////
// Given a sample range, fills pTimes with sample positions where we need
// to recompute one or more automated parameter values. Positions are always
// added periodically at the decimation interval; positions are also added
// for every segment boundary among all of the parameters.
HRESULT CMediaParams::GetDecimationTimes( LONGLONG llSampStart,
LONGLONG llSampEnd,
std::vector<LONGLONG>* pTimes )
{
LONGLONG const llInterval = static_cast<LONGLONG>( GetDecimationInterval() * GetSampleRate() );
double const dSamplesPerRefTime = static_cast<double>( GetSampleRate() ) / UNITS;
REFERENCE_TIME const rtStart = REFERENCE_TIME( llSampStart / dSamplesPerRefTime + 0.5 );
// Make an worst-case guess at how many decimation points we'll need
ULONG uPoints = 0;
for (DWORD dwParam = 0; dwParam < NUM_AUTOMATED_PARAMS; dwParam++)
{
const CParamEnvelope& env = m_aEnv[ dwParam ];
uPoints += env.GetCount() * 2;
}
// If there is no automation, then there is no need to decimate
if (0 == uPoints)
return S_OK;
// Account for points that are added due to periodic decimation
uPoints += ULONG( ((llSampEnd - llSampStart) / llInterval) + 1 );
// Reserve some memory for landmark points
pTimes->reserve( uPoints );
// Add periodic landmarks at the decimation interval
LONGLONG llSamp = (llSampStart / llInterval) * llInterval;
if (llSamp < llSampStart)
llSamp += llInterval;
while (llSamp < llSampEnd)
{
pTimes->push_back( llSamp );
llSamp += llInterval;
}
// Add landmarks for each shape boundary
for (dwParam = 0; dwParam < NUM_AUTOMATED_PARAMS; dwParam++)
{
const CParamEnvelope& env = m_aEnv[ dwParam ];
unsigned const nCount = env.GetCount();
// Add each shape endpoint that falls in our time range
for (unsigned ix = 0; ix < nCount; ix++)
{
const MP_ENVELOPE_SEGMENT& seg = env.GetAt( ix );
LONGLONG const llEnvStart = static_cast<LONGLONG>( seg.rtStart * dSamplesPerRefTime + 0.5 );
LONGLONG const llEnvEnd = static_cast<LONGLONG>( seg.rtEnd * dSamplesPerRefTime + 0.5 );
if (llSampStart <= llEnvStart && llEnvStart < llSampEnd)
pTimes->push_back( llEnvStart );
if (llSampStart <= llEnvEnd && llEnvEnd < llSampEnd)
pTimes->push_back( llEnvEnd );
}
}
// Sort result
std::sort( pTimes->begin(), pTimes->end() );
return S_OK;
}
////////////////////////////////////////////////////////////////////////////////
// Set the current position among all parameters, updating current envelope
// value and deltas. This method is called repeatedly by the streaming code,
// to update parameter values as they evolve along the duration of the envelope.
HRESULT CMediaParams::UpdateValuesForSample( LONGLONG llSamp )
{
double const dSamplesPerRefTime = static_cast<double>( GetSampleRate() ) / UNITS;
REFERENCE_TIME const rt = REFERENCE_TIME( llSamp / dSamplesPerRefTime + 0.5 );
HRESULT hr = S_OK;
for (DWORD dwParam = 0; dwParam < NUM_AUTOMATED_PARAMS; dwParam++)
{
hr = m_aEnv[ dwParam ].UpdateValuesForRefTime( rt, GetSampleRate() );
if (FAILED( hr ))
break;
}
return hr;
}
////////////////////////////////////////////////////////////////////////////////
// IUnknown
HRESULT CMediaParams::QueryInterface( REFIID riid, void** ppv )
{
if (NULL == ppv)
return E_POINTER;
if (riid == IID_IUnknown)
{
*ppv = static_cast<IUnknown*>( static_cast<IMediaParams*>( this ) );
m_pUnkOuter->AddRef();
return S_OK;
}
else
{
return m_pUnkOuter->QueryInterface( riid, ppv );
}
}
ULONG CMediaParams::AddRef()
{
return InterlockedIncrement( &m_cRef );
}
ULONG CMediaParams::Release()
{
ASSERT( m_cRef > 0 );
ULONG ul = InterlockedDecrement( &m_cRef );
if (0 == ul)
{
delete this;
return 0;
}
else
return ul;
}
////////////////////////////////////////////////////////////////////////////////
// IMediaParams
HRESULT CMediaParams::GetParam(ULONG dwParamIndex, FLOAT* pValue)
{
if (dwParamIndex >= NUM_PARAMS)
return E_INVALIDARG;
if (NULL == pValue)
return E_POINTER;
return m_aEnv[ dwParamIndex ].GetParam( pValue );
}
////////////////////////////////////////////////////////////////////////////////
HRESULT CMediaParams::SetParam(ULONG dwParamIndex, FLOAT value)
{
if (dwParamIndex >= NUM_PARAMS)
return E_INVALIDARG;
return m_aEnv[ dwParamIndex ].SetParam( value );
}
////////////////////////////////////////////////////////////////////////////////
HRESULT CMediaParams::AddEnvelope(ULONG dwParamIndex, ULONG cSegments, MP_ENVELOPE_SEGMENT* pmpes)
{
if (dwParamIndex >= NUM_AUTOMATED_PARAMS && dwParamIndex != DWORD_ALLPARAMS)
return E_INVALIDARG;
if (0 == cSegments)
return S_OK;
if (IsBadReadPtr( pmpes, cSegments * sizeof(MP_ENVELOPE_SEGMENT) ))
return E_POINTER;
double const dSamplesPerRefTime = static_cast<double>( GetSampleRate() ) / UNITS;
if (dwParamIndex == DWORD_ALLPARAMS)
{
for (ULONG ix = 0; ix < NUM_AUTOMATED_PARAMS; ix++)
{
HRESULT hr = m_aEnv[ ix ].AddEnvelope( cSegments, pmpes, dSamplesPerRefTime );
if (FAILED( hr ))
return hr;
}
return S_OK;
}
else
{
return m_aEnv[ dwParamIndex ].AddEnvelope( cSegments, pmpes, dSamplesPerRefTime );
}
}
////////////////////////////////////////////////////////////////////////////////
HRESULT CMediaParams::FlushEnvelope(ULONG dwParamIndex, REFERENCE_TIME rtStart, REFERENCE_TIME rtEnd)
{
if (dwParamIndex >= NUM_AUTOMATED_PARAMS && dwParamIndex != DWORD_ALLPARAMS)
return E_INVALIDARG;
if (rtStart > rtEnd)
return E_INVALIDARG;
double const dSamplesPerRefTime = static_cast<double>( GetSampleRate() ) / UNITS;
if (dwParamIndex == DWORD_ALLPARAMS)
{
for (ULONG ix = 0; ix < NUM_AUTOMATED_PARAMS; ix++)
{
HRESULT hr = m_aEnv[ ix ].FlushEnvelope( rtStart, rtEnd, dSamplesPerRefTime );
if (FAILED( hr ))
return hr;
}
return S_OK;
}
else
{
HRESULT hr = m_aEnv[ dwParamIndex ].FlushEnvelope( rtStart, rtEnd, dSamplesPerRefTime );
if (FAILED( hr ))
return hr;
}
return S_OK;
}
////////////////////////////////////////////////////////////////////////////////
HRESULT CMediaParams::SetTimeFormat(GUID guidTimeFormat, ULONG mpTimeData)
{
if (guidTimeFormat != GUID_TIME_REFERENCE)
return E_INVALIDARG;
return S_OK;
}
////////////////////////////////////////////////////////////////////////////////
// IMediaParamInfo
HRESULT CMediaParams::GetParamCount(ULONG* pdwParams)
{
if (NULL == pdwParams)
return E_POINTER;
*pdwParams = NUM_AUTOMATED_PARAMS;
return S_OK;
}
////////////////////////////////////////////////////////////////////////////////
HRESULT CMediaParams::GetParamInfo(ULONG dwParamIndex, MP_PARAMINFO* pInfo)
{
if (dwParamIndex >= NUM_AUTOMATED_PARAMS)
return E_INVALIDARG;
if (IsBadWritePtr( pInfo, sizeof(MP_PARAMINFO) ))
return E_POINTER;
*pInfo = m_aParamInfo[ dwParamIndex ].mppi;
return S_OK;
}
////////////////////////////////////////////////////////////////////////////////
HRESULT CMediaParams::GetParamText(ULONG dwParamIndex, WCHAR** ppwchText)
{
if (dwParamIndex >= NUM_AUTOMATED_PARAMS)
return E_INVALIDARG;
if (NULL == ppwchText)
return E_POINTER;
const ParamInfo& info = m_aParamInfo[ dwParamIndex ];
const MP_PARAMINFO& mppi = info.mppi;
// Count up lengths of label and unit strings, plus null terminators
int cch = wcslen(mppi.szLabel) + wcslen(mppi.szUnitText) + 3;
// Add in length of the enum. text if any was supplied
if (NULL != info.pwszEnumText)
cch += wcslen(info.pwszEnumText) + 1;
// Allocate memory for the returned string
*ppwchText = (WCHAR*)CoTaskMemAlloc( sizeof(WCHAR) * cch );
if (NULL == *ppwchText)
return E_OUTOFMEMORY;
// Text format is "Name\0Units\0Enum1\0Enum2\0...EnumN\0\0"
WCHAR* pwsz = *ppwchText;
// [1] Copy in the name
wcscpy( pwsz, mppi.szLabel );
pwsz += wcslen(mppi.szLabel) + 1;
// [2] Copy in the units
wcscpy( pwsz, mppi.szUnitText );
pwsz += wcslen(mppi.szUnitText) + 1;
// [3] Copy in the enum. text, if any was supplied
if (NULL != info.pwszEnumText)
{
wcscpy( pwsz, info.pwszEnumText );
// Replace commas with nulls, to conform to DX8 string format spec
while (*pwsz)
{
if (*pwsz == L',')
*pwsz = 0;
pwsz++;
}
}
return S_OK;
}
////////////////////////////////////////////////////////////////////////////////
HRESULT CMediaParams::GetNumTimeFormats(ULONG* pdwNumTimeFormats)
{
if (NULL == pdwNumTimeFormats)
return E_POINTER;
*pdwNumTimeFormats = 1;
return S_OK;
}
////////////////////////////////////////////////////////////////////////////////
HRESULT CMediaParams::GetSupportedTimeFormat(ULONG dwFormatIndex, GUID* pguidTimeFormat)
{
if (NULL == pguidTimeFormat)
return E_POINTER;
if (0 != dwFormatIndex)
return E_INVALIDARG;
*pguidTimeFormat = GUID_TIME_REFERENCE;
return S_OK;
}
////////////////////////////////////////////////////////////////////////////////
HRESULT CMediaParams::GetCurrentTimeFormat(GUID* pguidTimeFormat, ULONG*)
{
if (NULL == pguidTimeFormat)
return E_POINTER;
*pguidTimeFormat = GUID_TIME_REFERENCE;
return S_OK;
}
////////////////////////////////////////////////////////////////////////////////
// IMediaParamsSetUICallback
HRESULT CMediaParams::SetUICallback(IMediaParamsUICallback* pICallback)
{
if (pICallback)
pICallback->AddRef();
if (m_pCallback)
m_pCallback->Release();
m_pCallback = pICallback;
return S_OK;
}
////////////////////////////////////////////////////////////////////////////////
// IMediaParamsUICallback
HRESULT CMediaParams::ParamsBeginCapture(DWORD *aIndex, DWORD cPoints)
{
HRESULT hr = S_OK;
// Inform each parameter that capture has begun
for (DWORD ix = 0; ix < cPoints; ix++)
m_aEnv[ aIndex[ ix ] ].BeginCapture();
if (m_pCallback)
hr = m_pCallback->ParamsBeginCapture( aIndex, cPoints );
return hr;
}
HRESULT CMediaParams::ParamsChanged(DWORD *aIndex, DWORD cPoints, MP_DATA *paData)
{
HRESULT hr = S_OK;
// Send the parameter change to each parameter
for (DWORD ix = 0; ix < cPoints; ix++)
{
hr = SetParam( aIndex[ ix ], paData[ ix ] );
if (FAILED( hr ))
return hr;
}
// Send the parameter change to our callback
if (m_pCallback)
hr = m_pCallback->ParamsChanged( aIndex, cPoints, paData );
return hr;
}
HRESULT CMediaParams::ParamsEndCapture(DWORD *aIndex, DWORD cPoints)
{
HRESULT hr = S_OK;
// Inform each parameter that capture has ended
for (DWORD ix = 0; ix < cPoints; ix++)
m_aEnv[ aIndex[ ix ] ].EndCapture();
if (m_pCallback)
hr = m_pCallback->ParamsEndCapture( aIndex, cPoints );
return hr;
}
////////////////////////////////////////////////////////////////////////////////