Mercurial > hg > qm-dsp
view dsp/tempotracking/TempoTrack.h @ 321:f1e6be2de9a5
A threshold (delta) is added in the peak picking parameters structure (PPickParams). It is used as an offset when computing the smoothed detection function. A constructor for the structure PPickParams is also added to set the parameters to 0 when a structure instance is created. Hence programmes using the peak picking parameter structure and which do not set the delta parameter (e.g. QM Vamp note onset detector) won't be affected by the modifications.
Functions modified:
- dsp/onsets/PeakPicking.cpp
- dsp/onsets/PeakPicking.h
- dsp/signalconditioning/DFProcess.cpp
- dsp/signalconditioning/DFProcess.h
| author | mathieub <mathieu.barthet@eecs.qmul.ac.uk> |
|---|---|
| date | Mon, 20 Jun 2011 19:01:48 +0100 |
| parents | d5014ab8b0e5 |
| children | e4a57215ddee |
line wrap: on
line source
/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* QM DSP Library Centre for Digital Music, Queen Mary, University of London. This file 2005-2006 Christian Landone. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. See the file COPYING included with this distribution for more information. */ #ifndef TEMPOTRACK_H #define TEMPOTRACK_H #include <stdio.h> #include <vector> #include "dsp/signalconditioning/DFProcess.h" #include "maths/Correlation.h" #include "dsp/signalconditioning/Framer.h" using std::vector; struct WinThresh { unsigned int pre; unsigned int post; }; struct TTParams { unsigned int winLength; //Analysis window length unsigned int lagLength; //Lag & Stride size unsigned int alpha; //alpha-norm parameter unsigned int LPOrd; // low-pass Filter order double* LPACoeffs; //low pass Filter den coefficients double* LPBCoeffs; //low pass Filter num coefficients WinThresh WinT;//window size in frames for adaptive thresholding [pre post]: }; class TempoTrack { public: TempoTrack( TTParams Params ); virtual ~TempoTrack(); vector<int> process( vector <double> DF, vector <double> *tempoReturn = 0); private: void initialise( TTParams Params ); void deInitialise(); int beatPredict( unsigned int FSP, double alignment, double period, unsigned int step); int phaseMM( double* DF, double* weighting, unsigned int winLength, double period ); void createPhaseExtractor( double* Filter, unsigned int winLength, double period, unsigned int fsp, unsigned int lastBeat ); int findMeter( double* ACF, unsigned int len, double period ); void constDetect( double* periodP, int currentIdx, int* flag ); void stepDetect( double* periodP, double* periodG, int currentIdx, int* flag ); void createCombFilter( double* Filter, unsigned int winLength, unsigned int TSig, double beatLag ); double tempoMM( double* ACF, double* weight, int sig ); unsigned int m_dataLength; unsigned int m_winLength; unsigned int m_lagLength; double m_rayparam; double m_sigma; double m_DFWVNnorm; vector<int> m_beats; // Vector of detected beats double m_lockedTempo; double* m_tempoScratch; double* m_smoothRCF; // Smoothed Output of Comb Filterbank (m_tempoScratch) // Processing Buffers double* m_rawDFFrame; // Original Detection Function Analysis Frame double* m_smoothDFFrame; // Smoothed Detection Function Analysis Frame double* m_frameACF; // AutoCorrelation of Smoothed Detection Function //Low Pass Coefficients for DF Smoothing double* m_ACoeffs; double* m_BCoeffs; // Objetcs/operators declaration Framer m_DFFramer; DFProcess* m_DFConditioning; Correlation m_correlator; // Config structure for DFProcess DFProcConfig m_DFPParams; // also want to smooth m_tempoScratch DFProcess* m_RCFConditioning; // Config structure for RCFProcess DFProcConfig m_RCFPParams; }; #endif