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1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
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2
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3 /*
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4 QM DSP Library
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5
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6 Centre for Digital Music, Queen Mary, University of London.
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7 This file copyright 2008-2009 Matthew Davies and QMUL.
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8
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9 This program is free software; you can redistribute it and/or
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10 modify it under the terms of the GNU General Public License as
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11 published by the Free Software Foundation; either version 2 of the
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12 License, or (at your option) any later version. See the file
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13 COPYING included with this distribution for more information.
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14 */
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15
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16
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17 #ifndef TEMPOTRACKV2_H
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18 #define TEMPOTRACKV2_H
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19
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20 #include <vector>
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21 using namespace std;
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22
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23 //!!! Question: how far is this actually sample rate dependent? I
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24 // think it does produce plausible results for e.g. 48000 as well as
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25 // 44100, but surely the fixed window sizes and comb filtering will
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26 // make it prefer double or half time when run at e.g. 96000?
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27
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28 class TempoTrackV2
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29 {
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30 public:
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31 /**
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32 * Construct a tempo tracker that will operate on beat detection
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33 * function data calculated from audio at the given sample rate
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34 * with the given frame increment.
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35 *
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36 * Currently the sample rate and increment are used only for the
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37 * conversion from beat frame location to bpm in the tempo array.
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38 */
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39 TempoTrackV2(float sampleRate, size_t dfIncrement);
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40 ~TempoTrackV2();
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41
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42 // Returned beat periods are given in df increment units; inputtempo and tempi in bpm
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43 // MEPD 28/11/12 Expose inputtempo and constraintempo parameters
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44 void calculateBeatPeriod(const vector<double> &df,
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45 vector<double> &beatPeriod,
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46 vector<double> &tempi, double inputtempo, bool constraintempo);
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47
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48 // Returned beat positions are given in df increment units
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49 // MEPD 28/11/12 Expose alpha and tightness parameters
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50 void calculateBeats(const vector<double> &df,
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51 const vector<double> &beatPeriod,
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52 vector<double> &beats, double alpha, double tightness);
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53
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54 private:
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55 typedef vector<int> i_vec_t;
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56 typedef vector<vector<int> > i_mat_t;
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57 typedef vector<double> d_vec_t;
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58 typedef vector<vector<double> > d_mat_t;
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59
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60 float m_rate;
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61 size_t m_increment;
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62
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63 void adapt_thresh(d_vec_t &df);
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64 double mean_array(const d_vec_t &dfin, int start, int end);
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65 void filter_df(d_vec_t &df);
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66 void get_rcf(const d_vec_t &dfframe, const d_vec_t &wv, d_vec_t &rcf);
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67 void viterbi_decode(const d_mat_t &rcfmat, const d_vec_t &wv,
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68 d_vec_t &bp, d_vec_t &tempi);
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69 double get_max_val(const d_vec_t &df);
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70 int get_max_ind(const d_vec_t &df);
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71 void normalise_vec(d_vec_t &df);
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72 };
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73
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74 #endif
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