Qfilta = Config.QuadThresh.a ;
Qfiltb = Config.QuadThresh.b ;
Qfiltc = Config.QuadThresh.c ;
-
+
m_DFProcessingParams.length = m_DFLength;
m_DFProcessingParams.LPOrd = Config.LPOrd;
m_DFProcessingParams.LPACoeffs = Config.LPACoeffs;
m_DFProcessingParams.winPost = Config.WinT.post;
m_DFProcessingParams.AlphaNormParam = Config.alpha;
m_DFProcessingParams.isMedianPositive = false;
-
+
m_DFSmoothing = new DFProcess( m_DFProcessingParams );
m_workBuffer = new double[ m_DFLength ];
{
if (len < 4) return;
- vector <double> m_maxima;
+ vector <double> m_maxima;
// Signal conditioning
m_DFSmoothing->process( src, m_workBuffer );
-
+
for( unsigned int u = 0; u < len; u++)
{
- m_maxima.push_back( m_workBuffer[ u ] );
+ m_maxima.push_back( m_workBuffer[ u ] );
}
-
+
quadEval( m_maxima, onsets );
for(unsigned int b = 0; b < m_maxima.size(); b++)
vector <int> m_maxIndex;
vector <int> m_onsetPosition;
-
+
vector <double> m_maxFit;
vector <double> m_poly;
vector <double> m_err;
for (int k = -2; k <= 2; ++k)
{
selMax = src[ m_maxIndex[j] + k ] ;
- m_maxFit.push_back(selMax);
+ m_maxFit.push_back(selMax);
}
double f = m_poly[0];
{
idx.push_back(m_maxIndex[j]);
}
-
+
m_maxFit.clear();
}