[96fb8ad] | 1 | /* |
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| 2 | Copyright (C) 2003 Paul Brossier |
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| 3 | |
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| 4 | This program is free software; you can redistribute it and/or modify |
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| 5 | it under the terms of the GNU General Public License as published by |
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| 6 | the Free Software Foundation; either version 2 of the License, or |
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| 7 | (at your option) any later version. |
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| 8 | |
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| 9 | This program is distributed in the hope that it will be useful, |
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| 10 | but WITHOUT ANY WARRANTY; without even the implied warranty of |
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| 11 | MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
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| 12 | GNU General Public License for more details. |
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| 13 | |
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| 14 | You should have received a copy of the GNU General Public License |
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| 15 | along with this program; if not, write to the Free Software |
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| 16 | Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. |
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| 17 | |
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| 18 | */ |
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| 19 | |
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| 20 | /** @file |
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| 21 | * various math functions |
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| 22 | * |
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| 23 | * \todo multichannel (each function should return -or set- an array sized to |
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| 24 | * the number of channel in the input vector) |
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| 25 | * |
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| 26 | * \todo appropriate switches depending on types.h content |
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| 27 | */ |
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| 28 | |
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| 29 | #ifndef MATHUTILS_H |
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| 30 | #define MATHUTILS_H |
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| 31 | |
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| 32 | /** Window types |
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| 33 | * |
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| 34 | * inspired from |
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| 35 | * |
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| 36 | * - dafx : http://profs.sci.univr.it/%7Edafx/Final-Papers/ps/Bernardini.ps.gz |
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| 37 | * - freqtweak : http://freqtweak.sf.net/ |
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| 38 | * - extace : http://extace.sf.net/ |
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| 39 | */ |
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| 40 | |
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| 41 | #ifdef __cplusplus |
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| 42 | extern "C" { |
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| 43 | #endif |
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| 44 | |
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| 45 | typedef enum { |
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[b4b0324] | 46 | aubio_win_rectangle, |
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| 47 | aubio_win_hamming, |
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| 48 | aubio_win_hanning, |
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| 49 | aubio_win_hanningz, |
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| 50 | aubio_win_blackman, |
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| 51 | aubio_win_blackman_harris, |
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| 52 | aubio_win_gaussian, |
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| 53 | aubio_win_welch, |
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| 54 | aubio_win_parzen |
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[28d8c4a] | 55 | } aubio_window_type; |
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[96fb8ad] | 56 | |
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| 57 | /** create window */ |
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[28d8c4a] | 58 | void aubio_window(smpl_t *w, uint_t size, aubio_window_type wintype); |
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[96fb8ad] | 59 | |
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| 60 | /** principal argument |
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| 61 | * |
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| 62 | * mod(phase+PI,-TWO_PI)+PI |
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| 63 | */ |
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[28d8c4a] | 64 | smpl_t aubio_unwrap2pi (smpl_t phase); |
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[96fb8ad] | 65 | |
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| 66 | /** calculates the mean of a vector |
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| 67 | * |
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| 68 | * \bug mono |
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| 69 | */ |
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| 70 | smpl_t vec_mean(fvec_t *s); |
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| 71 | /** returns the max of a vector |
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| 72 | * |
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| 73 | * \bug mono |
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| 74 | */ |
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| 75 | smpl_t vec_max(fvec_t *s); |
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| 76 | /** returns the min of a vector |
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| 77 | * |
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| 78 | * \bug mono |
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| 79 | */ |
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| 80 | smpl_t vec_min(fvec_t *s); |
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| 81 | /** returns the index of the min of a vector |
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| 82 | * |
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| 83 | * \bug mono |
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| 84 | */ |
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| 85 | uint_t vec_min_elem(fvec_t *s); |
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| 86 | /** returns the index of the max of a vector |
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| 87 | * |
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| 88 | * \bug mono |
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| 89 | */ |
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| 90 | uint_t vec_max_elem(fvec_t *s); |
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| 91 | /** implement 'fftshift' like function |
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| 92 | * |
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| 93 | * a[0]...,a[n/2],a[n/2+1],...a[n] |
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| 94 | * |
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| 95 | * becomes |
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| 96 | * |
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| 97 | * a[n/2+1],...a[n],a[0]...,a[n/2] |
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| 98 | */ |
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| 99 | void vec_shift(fvec_t *s); |
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| 100 | /** returns sum */ |
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| 101 | smpl_t vec_sum(fvec_t *s); |
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| 102 | /** returns energy |
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| 103 | * |
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| 104 | * \bug mono |
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| 105 | */ |
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| 106 | smpl_t vec_local_energy(fvec_t * f); |
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| 107 | /** returns High Frequency Energy Content |
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| 108 | * |
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| 109 | * \bug mono */ |
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| 110 | smpl_t vec_local_hfc(fvec_t * f); |
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| 111 | /** return alpha norm. |
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| 112 | * |
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| 113 | * alpha=2 means normalise variance. |
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| 114 | * alpha=1 means normalise abs value. |
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| 115 | * as alpha goes large, tends to normalisation |
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| 116 | * by max value. |
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| 117 | * |
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| 118 | * \bug should not use POW :( |
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| 119 | */ |
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| 120 | smpl_t vec_alpha_norm(fvec_t * DF, smpl_t alpha); |
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[d88ea06] | 121 | /** dc(min) removal */ |
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[96fb8ad] | 122 | void vec_dc_removal(fvec_t * mag); |
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| 123 | /** alpha normalisation */ |
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| 124 | void vec_alpha_normalise(fvec_t * mag, uint_t alpha); |
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[d88ea06] | 125 | /** add a constant to all members of a vector */ |
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[96fb8ad] | 126 | void vec_add(fvec_t * mag, smpl_t threshold); |
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| 127 | |
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[d88ea06] | 128 | /** compute adaptive threshold of input vector */ |
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[96fb8ad] | 129 | void vec_adapt_thres(fvec_t * vec, fvec_t * tmp, |
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[30cbd419] | 130 | uint_t win_post, uint_t win_pre); |
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[96fb8ad] | 131 | /** adaptative thresholding |
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| 132 | * |
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| 133 | * y=fn_thresh(fn,x,post,pre) |
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| 134 | * compute adaptive threshold at each time |
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| 135 | * fn : a function name or pointer, eg 'median' |
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| 136 | * x: signal vector |
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| 137 | * post: window length, causal part |
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| 138 | * pre: window length, anti-causal part |
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| 139 | * Returns: |
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| 140 | * y: signal the same length as x |
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| 141 | * |
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| 142 | * Formerly median_thresh, used compute median over a |
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| 143 | * window of post+pre+1 samples, but now works with any |
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| 144 | * function that takes a vector or matrix and returns a |
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| 145 | * 'representative' value for each column, eg |
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| 146 | * medians=fn_thresh(median,x,8,8) |
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| 147 | * minima=fn_thresh(min,x,8,8) |
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| 148 | * see SPARMS for explanation of post and pre |
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| 149 | */ |
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| 150 | smpl_t vec_moving_thres(fvec_t * vec, fvec_t * tmp, |
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[30cbd419] | 151 | uint_t win_post, uint_t win_pre, uint_t win_pos); |
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[96fb8ad] | 152 | |
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| 153 | /** returns the median of the vector |
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| 154 | * |
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| 155 | * This Quickselect routine is based on the algorithm described in |
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| 156 | * "Numerical recipes in C", Second Edition, |
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| 157 | * Cambridge University Press, 1992, Section 8.5, ISBN 0-521-43108-5 |
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| 158 | * |
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| 159 | * This code by Nicolas Devillard - 1998. Public domain, |
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| 160 | * available at http://ndevilla.free.fr/median/median/ |
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| 161 | */ |
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| 162 | smpl_t vec_median(fvec_t * input); |
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| 163 | |
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[9771488] | 164 | /** finds exact maximum position by quadratic interpolation*/ |
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[96fb8ad] | 165 | smpl_t vec_quadint(fvec_t * x,uint_t pos); |
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| 166 | |
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[9771488] | 167 | /** finds exact minimum position by quadratic interpolation*/ |
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| 168 | smpl_t vec_quadint_min(fvec_t * x,uint_t pos, uint_t span); |
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| 169 | |
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[96fb8ad] | 170 | /** Quadratic interpolation using Lagrange polynomial. |
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| 171 | * |
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| 172 | * inspired from ``Comparison of interpolation algorithms in real-time sound |
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| 173 | * processing'', Vladimir Arnost, |
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| 174 | * |
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| 175 | * estimate = s0 + (pf/2.)*((pf-3.)*s0-2.*(pf-2.)*s1+(pf-1.)*s2); |
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| 176 | * where |
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| 177 | * \param s0,s1,s2 are 3 known points on the curve, |
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| 178 | * \param pf is the floating point index [0;2] |
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| 179 | */ |
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[28d8c4a] | 180 | smpl_t aubio_quadfrac(smpl_t s0, smpl_t s1, smpl_t s2, smpl_t pf); |
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[96fb8ad] | 181 | |
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| 182 | /** returns 1 if X1 is a peak and positive */ |
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| 183 | uint_t vec_peakpick(fvec_t * input, uint_t pos); |
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| 184 | |
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[d88ea06] | 185 | /** convert frequency bin to midi value */ |
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[28d8c4a] | 186 | smpl_t aubio_bintomidi(smpl_t bin, smpl_t samplerate, smpl_t fftsize); |
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[d88ea06] | 187 | /** convert midi value to frequency bin */ |
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[79c2e52] | 188 | smpl_t aubio_miditobin(smpl_t midi, smpl_t samplerate, smpl_t fftsize); |
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[d88ea06] | 189 | /** convert frequency bin to frequency (Hz) */ |
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[28d8c4a] | 190 | smpl_t aubio_bintofreq(smpl_t bin, smpl_t samplerate, smpl_t fftsize); |
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[d88ea06] | 191 | /** convert frequency (Hz) to frequency bin */ |
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[79c2e52] | 192 | smpl_t aubio_freqtobin(smpl_t freq, smpl_t samplerate, smpl_t fftsize); |
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[d88ea06] | 193 | /** convert frequency (Hz) to midi value (0-128) */ |
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[28d8c4a] | 194 | smpl_t aubio_freqtomidi(smpl_t freq); |
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[d88ea06] | 195 | /** convert midi value (0-128) to frequency (Hz) */ |
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[79c2e52] | 196 | smpl_t aubio_miditofreq(smpl_t midi); |
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[96fb8ad] | 197 | |
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[d88ea06] | 198 | /** check if current buffer level is under a given threshold */ |
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[96fb8ad] | 199 | uint_t aubio_silence_detection(fvec_t * ibuf, smpl_t threshold); |
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[d88ea06] | 200 | /** get the current buffer level */ |
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[96fb8ad] | 201 | smpl_t aubio_level_detection(fvec_t * ibuf, smpl_t threshold); |
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[a0fd4e4] | 202 | /** |
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| 203 | * calculate normalised autocorrelation function |
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| 204 | */ |
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| 205 | void aubio_autocorr(fvec_t * input, fvec_t * output); |
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[714380d] | 206 | /** |
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[fff2bee] | 207 | * zero-crossing rate (number of zero cross per sample) |
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| 208 | */ |
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| 209 | smpl_t aubio_zero_crossing_rate(fvec_t * input); |
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| 210 | /** |
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[714380d] | 211 | * clean up cached memory at the end of program |
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| 212 | * |
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| 213 | * use this function at the end of programs to purge all |
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| 214 | * cached memory. so far this function is only used to clean |
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| 215 | * fftw cache. |
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| 216 | */ |
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| 217 | void aubio_cleanup(void); |
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[96fb8ad] | 218 | |
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| 219 | #ifdef __cplusplus |
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| 220 | } |
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| 221 | #endif |
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| 222 | |
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| 223 | #endif |
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| 224 | |
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