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jamie@141
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1 /*
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jamie@141
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2 * Copyright (C) 2012 Jamie Bullock
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jamie@140
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3 *
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jamie@141
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4 * Permission is hereby granted, free of charge, to any person obtaining a copy
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jamie@141
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5 * of this software and associated documentation files (the "Software"), to
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jamie@141
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6 * deal in the Software without restriction, including without limitation the
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jamie@141
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7 * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
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jamie@141
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8 * sell copies of the Software, and to permit persons to whom the Software is
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jamie@141
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9 * furnished to do so, subject to the following conditions:
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jamie@1
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10 *
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11 * The above copyright notice and this permission notice shall be included in
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jamie@141
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12 * all copies or substantial portions of the Software.
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jamie@1
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13 *
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14 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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jamie@141
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15 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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16 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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17 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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jamie@141
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18 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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19 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
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jamie@141
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20 * IN THE SOFTWARE.
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jamie@1
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21 *
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jamie@1
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22 */
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jamie@1
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23
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jamie@107
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24 /* init.c: defines initialisation and free functions. Also contains library constructor routine. */
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jamie@1
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25
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jamie@98
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26 #ifdef HAVE_CONFIG_H
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jamie@150
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27 #include <config.h>
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jamie@98
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28 #endif
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29
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jamie@1
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30 #include <math.h>
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jamie@26
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31 #include <stdlib.h>
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jamie@140
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32 #include <stdio.h>
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jamie@140
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33
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jamie@150
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34 #include "fft.h"
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jamie@1
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35
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jamie@159
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36 #include "../xtract/libxtract.h"
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jamie@107
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37 #include "xtract_window_private.h"
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jamie@102
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38 #define DEFINE_GLOBALS
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jamie@98
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39 #include "xtract_globals_private.h"
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40
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41
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jamie@150
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42
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jamie@150
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43 #ifdef USE_OOURA
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jamie@150
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44 void xtract_init_ooura_data(xtract_ooura_data *ooura_data, unsigned int N)
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jamie@150
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45 {
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jamie@150
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46 ooura_data->ooura_ip = (int *)calloc((2 + sqrt(N)), sizeof(int));
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47 ooura_data->ooura_w = (double *)calloc((N - 1), sizeof(double));
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48 ooura_data->initialised = true;
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jamie@150
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49 }
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50
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jamie@150
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51 void xtract_free_ooura_data(xtract_ooura_data *ooura_data)
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52 {
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jamie@150
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53 free(ooura_data->ooura_ip);
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54 free(ooura_data->ooura_w);
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55 ooura_data->ooura_ip = NULL;
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56 ooura_data->ooura_w = NULL;
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57 ooura_data->initialised = false;
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jamie@150
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58 }
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59
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jamie@150
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60 int xtract_init_ooura_(int N, int feature_name)
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jamie@150
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61 {
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62
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jamie@150
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63 int M = N >> 1;
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64
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jamie@150
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65 if(feature_name == XTRACT_AUTOCORRELATION_FFT)
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66 {
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67 M = N; /* allow for zero padding */
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68 }
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69
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jamie@150
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70 switch(feature_name)
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71 {
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jamie@150
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72 case XTRACT_SPECTRUM:
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73 if(ooura_data_spectrum.initialised)
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74 {
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jamie@150
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75 xtract_free_ooura_data(&ooura_data_spectrum);
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jamie@150
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76 }
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jamie@150
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77 xtract_init_ooura_data(&ooura_data_spectrum, M);
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jamie@150
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78 break;
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jamie@150
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79 case XTRACT_AUTOCORRELATION_FFT:
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jamie@150
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80 if(ooura_data_autocorrelation_fft.initialised)
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jamie@150
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81 {
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jamie@150
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82 xtract_free_ooura_data(&ooura_data_autocorrelation_fft);
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jamie@150
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83 }
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jamie@150
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84 xtract_init_ooura_data(&ooura_data_autocorrelation_fft, M);
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jamie@150
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85 break;
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jamie@150
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86 case XTRACT_DCT:
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jamie@150
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87 if(ooura_data_dct.initialised)
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jamie@150
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88 {
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jamie@150
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89 xtract_free_ooura_data(&ooura_data_dct);
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jamie@150
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90 }
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jamie@150
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91 xtract_init_ooura_data(&ooura_data_dct, M);
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jamie@150
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92 case XTRACT_MFCC:
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jamie@150
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93 if(ooura_data_mfcc.initialised)
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94 {
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jamie@150
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95 xtract_free_ooura_data(&ooura_data_mfcc);
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jamie@150
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96 }
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jamie@150
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97 xtract_init_ooura_data(&ooura_data_mfcc, M);
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98 break;
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99 }
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100
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101 return XTRACT_SUCCESS;
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jamie@150
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102 }
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103
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jamie@150
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104 void xtract_free_ooura_(void)
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105 {
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106 if(ooura_data_spectrum.initialised)
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107 {
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jamie@150
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108 xtract_free_ooura_data(&ooura_data_spectrum);
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jamie@150
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109 }
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jamie@150
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110 if(ooura_data_autocorrelation_fft.initialised)
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111 {
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jamie@150
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112 xtract_free_ooura_data(&ooura_data_autocorrelation_fft);
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jamie@150
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113 }
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114 if(ooura_data_dct.initialised)
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115 {
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jamie@150
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116 xtract_free_ooura_data(&ooura_data_dct);
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117 }
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jamie@150
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118 if(ooura_data_mfcc.initialised)
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jamie@150
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119 {
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jamie@150
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120 xtract_free_ooura_data(&ooura_data_mfcc);
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121 }
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jamie@150
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122 }
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123
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jamie@150
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124 #else
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125
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126 void xtract_init_vdsp_data(xtract_vdsp_data *vdsp_data, unsigned int N)
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127 {
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128 vdsp_data->setup = vDSP_create_fftsetupD(log2f(N), FFT_RADIX2);
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jamie@164
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129 vdsp_data->fft.realp = (double *) malloc((N >> 1) * sizeof(double) + 1);
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jamie@164
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130 vdsp_data->fft.imagp = (double *) malloc((N >> 1) * sizeof(double) + 1);
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jamie@150
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131 vdsp_data->log2N = log2f(N);
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jamie@150
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132 vdsp_data->initialised = true;
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jamie@150
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133 }
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134
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jamie@150
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135 void xtract_free_vdsp_data(xtract_vdsp_data *vdsp_data)
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jamie@150
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136 {
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jamie@150
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137 free(vdsp_data->fft.realp);
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jamie@150
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138 free(vdsp_data->fft.imagp);
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jamie@150
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139 vDSP_destroy_fftsetupD(vdsp_data->setup);
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jamie@150
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140 vdsp_data->fft.realp = NULL;
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jamie@150
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141 vdsp_data->fft.imagp = NULL;
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jamie@150
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142 vdsp_data->initialised = false;
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jamie@150
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143 }
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jamie@150
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144
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jamie@150
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145 int xtract_init_vdsp_(int N, int feature_name)
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jamie@150
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146 {
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jamie@150
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147 switch(feature_name)
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jamie@150
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148 {
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jamie@150
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149 case XTRACT_SPECTRUM:
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jamie@150
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150 if(vdsp_data_spectrum.initialised)
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jamie@150
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151 {
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jamie@150
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152 xtract_free_vdsp_data(&vdsp_data_spectrum);
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jamie@150
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153 }
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jamie@164
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154 xtract_init_vdsp_data(&vdsp_data_spectrum, N);
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155 break;
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jamie@150
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156 case XTRACT_AUTOCORRELATION_FFT:
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157 if(vdsp_data_autocorrelation_fft.initialised)
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jamie@150
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158 {
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jamie@150
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159 xtract_free_vdsp_data(&vdsp_data_autocorrelation_fft);
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jamie@150
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160 }
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jamie@164
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161 xtract_init_vdsp_data(&vdsp_data_autocorrelation_fft, N * 2); // allow for zero padding
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jamie@150
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162 break;
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jamie@150
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163 case XTRACT_DCT:
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jamie@150
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164 if(vdsp_data_dct.initialised)
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jamie@150
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165 {
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jamie@150
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166 xtract_free_vdsp_data(&vdsp_data_dct);
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jamie@150
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167 }
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jamie@164
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168 xtract_init_vdsp_data(&vdsp_data_dct, N);
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jamie@150
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169 case XTRACT_MFCC:
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jamie@150
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170 if(vdsp_data_mfcc.initialised)
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jamie@150
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171 {
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jamie@150
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172 xtract_free_vdsp_data(&vdsp_data_mfcc);
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jamie@150
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173 }
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jamie@164
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174 xtract_init_vdsp_data(&vdsp_data_mfcc, N);
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jamie@150
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175 break;
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jamie@150
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176 }
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177
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178 return XTRACT_SUCCESS;
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jamie@150
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179 }
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jamie@150
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180
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jamie@150
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181 void xtract_free_vdsp_(void)
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182 {
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183 if(vdsp_data_spectrum.initialised)
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jamie@150
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184 {
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jamie@150
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185 xtract_free_vdsp_data(&vdsp_data_spectrum);
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jamie@150
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186 }
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jamie@150
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187 if(vdsp_data_autocorrelation_fft.initialised)
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jamie@150
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188 {
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jamie@150
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189 xtract_free_vdsp_data(&vdsp_data_autocorrelation_fft);
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jamie@150
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190 }
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jamie@150
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191 if(vdsp_data_dct.initialised)
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jamie@150
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192 {
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jamie@150
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193 xtract_free_vdsp_data(&vdsp_data_dct);
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jamie@150
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194 }
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jamie@150
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195 if(vdsp_data_mfcc.initialised)
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jamie@150
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196 {
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jamie@150
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197 xtract_free_vdsp_data(&vdsp_data_mfcc);
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jamie@150
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198 }
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jamie@150
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199 }
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jamie@150
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200
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jamie@150
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201
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jamie@150
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202 #endif
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jamie@150
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203
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jamie@150
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204 int xtract_init_fft(int N, int feature_name)
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jamie@150
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205 {
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jamie@150
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206 if(!xtract_is_poweroftwo(N))
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jamie@150
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207 {
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jamie@150
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208 fprintf(stderr,
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jamie@150
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209 "libxtract: error: only power-of-two FFT sizes are supported by Ooura FFT.\n");
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jamie@150
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210 exit(EXIT_FAILURE);
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jamie@150
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211 }
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jamie@150
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212 #ifdef USE_OOURA
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jamie@150
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213 return xtract_init_ooura_(N, feature_name);
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jamie@150
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214 #else
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jamie@150
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215 return xtract_init_vdsp_(N, feature_name);
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jamie@150
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216 #endif
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jamie@150
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217 }
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jamie@150
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218
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jamie@150
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219 void xtract_free_fft(void)
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jamie@150
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220 {
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jamie@150
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221 #ifdef USE_OOURA
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jamie@150
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222 xtract_free_ooura_();
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jamie@150
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223 #else
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jamie@150
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224 xtract_free_vdsp_();
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jamie@150
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225 #endif
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jamie@150
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226 }
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jamie@150
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227
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jamie@150
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228
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jamie@150
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229 int xtract_init_bark(int N, double sr, int *band_limits)
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jamie@150
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230 {
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jamie@150
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231
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jamie@150
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232 double edges[] = {0, 100, 200, 300, 400, 510, 630, 770, 920, 1080, 1270, 1480, 1720, 2000, 2320, 2700, 3150, 3700, 4400, 5300, 6400, 7700, 9500, 12000, 15500, 20500, 27000}; /* Takes us up to sr = 54kHz (CCRMA: JOS)*/
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jamie@150
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233
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jamie@150
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234 int bands = XTRACT_BARK_BANDS;
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jamie@150
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235
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jamie@150
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236 while(bands--)
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jamie@150
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237 band_limits[bands] = edges[bands] / sr * N;
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jamie@150
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238 /*FIX shohuld use rounding, but couldn't get it to work */
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jamie@150
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239
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jamie@150
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240 return XTRACT_SUCCESS;
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jamie@150
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241 }
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jamie@150
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242
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jamie@146
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243 int xtract_init_mfcc(int N, double nyquist, int style, double freq_min, double freq_max, int freq_bands, double **fft_tables)
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jamie@140
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244 {
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jamie@98
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245
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jamie@140
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246 int n, i, k, *fft_peak, M, next_peak;
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jamie@146
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247 double norm, mel_freq_max, mel_freq_min, norm_fact, height, inc, val,
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jamie@107
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248 freq_bw_mel, *mel_peak, *height_norm, *lin_peak;
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jamie@1
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249
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jamie@1
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250 mel_peak = height_norm = lin_peak = NULL;
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jamie@1
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251 fft_peak = NULL;
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jamie@140
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252 norm = 1;
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jamie@1
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253
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jamie@1
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254 mel_freq_max = 1127 * log(1 + freq_max / 700);
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jamie@1
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255 mel_freq_min = 1127 * log(1 + freq_min / 700);
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jamie@1
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256 freq_bw_mel = (mel_freq_max - mel_freq_min) / freq_bands;
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jamie@1
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257
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jamie@146
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258 mel_peak = (double *)malloc((freq_bands + 2) * sizeof(double));
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jamie@1
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259 /* +2 for zeros at start and end */
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jamie@146
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260 lin_peak = (double *)malloc((freq_bands + 2) * sizeof(double));
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jamie@1
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261 fft_peak = (int *)malloc((freq_bands + 2) * sizeof(int));
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jamie@146
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262 height_norm = (double *)malloc(freq_bands * sizeof(double));
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jamie@1
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263
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jamie@140
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264 if(mel_peak == NULL || height_norm == NULL ||
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jamie@107
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265 lin_peak == NULL || fft_peak == NULL)
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jamie@107
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266 return XTRACT_MALLOC_FAILED;
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jamie@107
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267
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jamie@1
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268 M = N >> 1;
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jamie@1
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269
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jamie@1
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270 mel_peak[0] = mel_freq_min;
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danstowell@95
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271 lin_peak[0] = freq_min; // === 700 * (exp(mel_peak[0] / 1127) - 1);
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jamie@1
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272 fft_peak[0] = lin_peak[0] / nyquist * M;
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jamie@1
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273
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jamie@1
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274
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jamie@140
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275 for (n = 1; n < freq_bands + 2; n++)
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jamie@140
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276 {
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jamie@140
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277 //roll out peak locations - mel, linear and linear on fft window scale
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jamie@1
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278 mel_peak[n] = mel_peak[n - 1] + freq_bw_mel;
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jamie@1
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279 lin_peak[n] = 700 * (exp(mel_peak[n] / 1127) -1);
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jamie@1
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280 fft_peak[n] = lin_peak[n] / nyquist * M;
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jamie@1
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281 }
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jamie@1
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282
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jamie@140
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283 for (n = 0; n < freq_bands; n++)
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jamie@140
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284 {
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danstowell@100
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285 //roll out normalised gain of each peak
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jamie@140
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286 if (style == XTRACT_EQUAL_GAIN)
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jamie@140
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287 {
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jamie@140
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288 height = 1;
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jamie@1
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289 norm_fact = norm;
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jamie@1
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290 }
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jamie@140
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291 else
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jamie@140
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292 {
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jamie@1
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293 height = 2 / (lin_peak[n + 2] - lin_peak[n]);
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jamie@1
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294 norm_fact = norm / (2 / (lin_peak[2] - lin_peak[0]));
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jamie@1
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295 }
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jamie@1
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296 height_norm[n] = height * norm_fact;
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jamie@1
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297 }
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jamie@1
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298
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jamie@1
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299 i = 0;
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jamie@107
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300
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jamie@140
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301 for(n = 0; n < freq_bands; n++)
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|
jamie@140
|
302 {
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|
jamie@107
|
303
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|
jamie@107
|
304 // calculate the rise increment
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danstowell@95
|
305 if(n==0)
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danstowell@95
|
306 inc = height_norm[n] / fft_peak[n];
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|
danstowell@95
|
307 else
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|
jamie@1
|
308 inc = height_norm[n] / (fft_peak[n] - fft_peak[n - 1]);
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|
jamie@140
|
309 val = 0;
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|
jamie@107
|
310
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|
jamie@107
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311 // zero the start of the array
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|
jamie@107
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312 for(k = 0; k < i; k++)
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|
jamie@146
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313 fft_tables[n][k] = 0.0;
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|
jamie@107
|
314
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|
jamie@107
|
315 // fill in the rise
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|
jamie@140
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316 for(; i <= fft_peak[n]; i++)
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|
jamie@140
|
317 {
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|
jamie@1
|
318 fft_tables[n][i] = val;
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|
jamie@1
|
319 val += inc;
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|
jamie@1
|
320 }
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|
jamie@107
|
321
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|
danstowell@95
|
322 // calculate the fall increment
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|
jamie@1
|
323 inc = height_norm[n] / (fft_peak[n + 1] - fft_peak[n]);
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|
jamie@107
|
324
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|
jamie@1
|
325 val = 0;
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|
jamie@107
|
326 next_peak = fft_peak[n + 1];
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|
jamie@107
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327
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|
jamie@140
|
328 // reverse fill the 'fall'
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|
jamie@140
|
329 for(i = next_peak; i > fft_peak[n]; i--)
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|
jamie@140
|
330 {
|
|
jamie@1
|
331 fft_tables[n][i] = val;
|
|
jamie@1
|
332 val += inc;
|
|
jamie@1
|
333 }
|
|
jamie@39
|
334
|
|
jamie@107
|
335 // zero the rest of the array
|
|
jamie@107
|
336 for(k = next_peak + 1; k < N; k++)
|
|
jamie@146
|
337 fft_tables[n][k] = 0.0;
|
|
jamie@1
|
338 }
|
|
jamie@1
|
339
|
|
jamie@98
|
340
|
|
jamie@98
|
341 /* Initialise the fft_plan for the DCT */
|
|
jamie@140
|
342 /*
|
|
jamie@140
|
343 * Ooura doesn't support non power-of-two DCT
|
|
jamie@98
|
344 xtract_init_fft(freq_bands, XTRACT_MFCC);
|
|
jamie@140
|
345 */
|
|
jamie@98
|
346
|
|
jamie@1
|
347 free(mel_peak);
|
|
jamie@1
|
348 free(lin_peak);
|
|
jamie@1
|
349 free(height_norm);
|
|
jamie@1
|
350 free(fft_peak);
|
|
jamie@1
|
351
|
|
jamie@56
|
352 return XTRACT_SUCCESS;
|
|
jamie@1
|
353
|
|
jamie@1
|
354 }
|
|
jamie@1
|
355
|
|
jamie@161
|
356 int xtract_init_wavelet_f0_state(void)
|
|
jamie@161
|
357 {
|
|
jamie@161
|
358 dywapitch_inittracking(&wavelet_f0_state);
|
|
jamie@162
|
359 return XTRACT_SUCCESS;
|
|
jamie@161
|
360 }
|
|
jamie@161
|
361
|
|
jamie@146
|
362 double *xtract_init_window(const int N, const int type)
|
|
jamie@140
|
363 {
|
|
jamie@146
|
364 double *window;
|
|
jamie@107
|
365
|
|
jamie@146
|
366 window = malloc(N * sizeof(double));
|
|
jamie@107
|
367
|
|
jamie@140
|
368 switch (type)
|
|
jamie@140
|
369 {
|
|
jamie@140
|
370 case XTRACT_GAUSS:
|
|
jamie@140
|
371 gauss(window, N, 0.4);
|
|
jamie@140
|
372 break;
|
|
jamie@140
|
373 case XTRACT_HAMMING:
|
|
jamie@140
|
374 hamming(window, N);
|
|
jamie@140
|
375 break;
|
|
jamie@140
|
376 case XTRACT_HANN:
|
|
jamie@140
|
377 hann(window, N);
|
|
jamie@140
|
378 break;
|
|
jamie@140
|
379 case XTRACT_BARTLETT:
|
|
jamie@140
|
380 bartlett(window, N);
|
|
jamie@140
|
381 break;
|
|
jamie@140
|
382 case XTRACT_TRIANGULAR:
|
|
jamie@140
|
383 triangular(window, N);
|
|
jamie@140
|
384 break;
|
|
jamie@140
|
385 case XTRACT_BARTLETT_HANN:
|
|
jamie@140
|
386 bartlett_hann(window, N);
|
|
jamie@140
|
387 break;
|
|
jamie@140
|
388 case XTRACT_BLACKMAN:
|
|
jamie@140
|
389 blackman(window, N);
|
|
jamie@140
|
390 break;
|
|
jamie@140
|
391 case XTRACT_KAISER:
|
|
jamie@140
|
392 kaiser(window, N, 3 * PI);
|
|
jamie@140
|
393 break;
|
|
jamie@140
|
394 case XTRACT_BLACKMAN_HARRIS:
|
|
jamie@140
|
395 blackman_harris(window, N);
|
|
jamie@140
|
396 break;
|
|
jamie@140
|
397 default:
|
|
jamie@140
|
398 hann(window, N);
|
|
jamie@140
|
399 break;
|
|
jamie@107
|
400 }
|
|
jamie@107
|
401
|
|
jamie@107
|
402 return window;
|
|
jamie@107
|
403 }
|
|
jamie@107
|
404
|
|
jamie@146
|
405 void xtract_free_window(double *window)
|
|
jamie@140
|
406 {
|
|
jamie@107
|
407 free(window);
|
|
jamie@107
|
408 }
|
|
jamie@107
|
409
|
|
jamie@102
|
410 #ifdef __GNUC__
|
|
jamie@102
|
411 __attribute__((constructor)) void init()
|
|
jamie@102
|
412 #else
|
|
jamie@140
|
413 void _init()ยท
|
|
jamie@102
|
414 #endif
|
|
jamie@102
|
415 {
|
|
jamie@150
|
416 #ifdef USE_OOURA
|
|
jamie@140
|
417 ooura_data_dct.initialised = false;
|
|
jamie@140
|
418 ooura_data_spectrum.initialised = false;
|
|
jamie@140
|
419 ooura_data_autocorrelation_fft.initialised = false;
|
|
jamie@140
|
420 ooura_data_mfcc.initialised = false;
|
|
jamie@150
|
421 #else
|
|
jamie@150
|
422 vdsp_data_dct.initialised = false;
|
|
jamie@150
|
423 vdsp_data_spectrum.initialised = false;
|
|
jamie@150
|
424 vdsp_data_autocorrelation_fft.initialised = false;
|
|
jamie@150
|
425 vdsp_data_mfcc.initialised = false;
|
|
jamie@150
|
426 #endif
|
|
jamie@102
|
427 }
|
