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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 #ifndef _SAMPLE_H
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21 #define _SAMPLE_H
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22
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23 #ifdef __cplusplus
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24 extern "C" {
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25 #endif
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26
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27 /** \file
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28
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29 Real and complex buffers
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30
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31 This file specifies fvec_t and cvec_t buffers types, which are used
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32 throughout aubio to store real and complex data. Complex values are stored in
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33 terms of phase and norm.
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34
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35 */
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36
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37 /** Sample buffer type */
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38 typedef struct _fvec_t fvec_t;
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39 /** Spectrum buffer type */
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40 typedef struct _cvec_t cvec_t;
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41 /** Buffer for real values */
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42 struct _fvec_t {
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43 ba_uint_t length; /**< length of buffer */
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44 ba_uint_t channels; /**< number of channels */
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45 smpl_t **data; /**< data array of size [length] * [channels] */
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46 };
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47 /** Buffer for complex data */
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48 struct _cvec_t {
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49 ba_uint_t length; /**< length of buffer = (requested length)/2 + 1 */
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50 ba_uint_t channels; /**< number of channels */
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51 smpl_t **norm; /**< norm array of size [length] * [channels] */
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52 smpl_t **phas; /**< phase array of size [length] * [channels] */
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53 };
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54 /** fvec_t buffer creation function
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55
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56 \param length the length of the buffer to create
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57 \param channels the number of channels in the buffer
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58
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59 */
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60 fvec_t * new_fvec(ba_uint_t length, ba_uint_t channels);
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61 /** fvec_t buffer deletion function
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62
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63 \param s buffer to delete as returned by new_fvec()
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64
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65 */
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66 void del_fvec(fvec_t *s);
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67 /** read sample value in a buffer
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68
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69 Note that this function is not used in the aubio library, since the same
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70 result can be obtained using vec->data[channel][position]. Its purpose is to
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71 access these values from wrappers, as created by swig.
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72
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73 \param s vector to read from
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74 \param channel channel to read from
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75 \param position sample position to read from
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76
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77 */
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78 smpl_t fvec_read_sample(fvec_t *s, ba_uint_t channel, ba_uint_t position);
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79 /** write sample value in a buffer
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80
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81 Note that this function is not used in the aubio library, since the same
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82 result can be obtained by assigning vec->data[channel][position]. Its purpose
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83 is to access these values from wrappers, as created by swig.
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84
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85 \param s vector to write to
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86 \param data value to write in s->data[channel][position]
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87 \param channel channel to write to
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88 \param position sample position to write to
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89
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90 */
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91 void fvec_write_sample(fvec_t *s, smpl_t data, ba_uint_t channel, ba_uint_t position);
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92 /** read channel vector from a buffer
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93
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94 Note that this function is not used in the aubio library, since the same
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95 result can be obtained with vec->data[channel]. Its purpose is to access
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96 these values from wrappers, as created by swig.
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97
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98 \param s vector to read from
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99 \param channel channel to read from
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100
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101 */
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102 smpl_t * fvec_get_channel(fvec_t *s, ba_uint_t channel);
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103 /** write channel vector into a buffer
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104
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105 Note that this function is not used in the aubio library, since the same
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106 result can be obtained by assigning vec->data[channel]. Its purpose is to
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107 access these values from wrappers, as created by swig.
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108
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109 \param s vector to write to
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110 \param data vector of [length] values to write
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111 \param channel channel to write to
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112
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113 */
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114 void fvec_put_channel(fvec_t *s, smpl_t * data, ba_uint_t channel);
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115 /** read data from a buffer
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116
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117 Note that this function is not used in the aubio library, since the same
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118 result can be obtained with vec->data. Its purpose is to access these values
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119 from wrappers, as created by swig.
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120
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121 \param s vector to read from
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122
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123 */
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124 smpl_t ** fvec_get_data(fvec_t *s);
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125
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126 /** cvec_t buffer creation function
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127
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128 This function creates a cvec_t structure holding two arrays of size
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129 [length/2+1] * channels, corresponding to the norm and phase values of the
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130 spectral frame. The length stored in the structure is the actual size of both
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131 arrays, not the length of the complex and symetrical vector, specified as
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132 creation argument.
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133
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134 \param length the length of the buffer to create
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135 \param channels the number of channels in the buffer
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136
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137 */
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138 cvec_t * new_cvec(ba_uint_t length, ba_uint_t channels);
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139 /** cvec_t buffer deletion function
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140
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141 \param s buffer to delete as returned by new_cvec()
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142
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143 */
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144 void del_cvec(cvec_t *s);
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145 /** write norm value in a complex buffer
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146
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147 Note that this function is not used in the aubio library, since the same
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148 result can be obtained by assigning vec->norm[channel][position]. Its purpose
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149 is to access these values from wrappers, as created by swig.
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150
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151 \param s vector to write to
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152 \param data norm value to write in s->norm[channel][position]
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153 \param channel channel to write to
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154 \param position sample position to write to
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155
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156 */
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157 void cvec_write_norm(cvec_t *s, smpl_t data, ba_uint_t channel, ba_uint_t position);
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158 /** write phase value in a complex buffer
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159
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160 Note that this function is not used in the aubio library, since the same
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161 result can be obtained by assigning vec->phas[channel][position]. Its purpose
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162 is to access these values from wrappers, as created by swig.
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163
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164 \param s vector to write to
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165 \param data phase value to write in s->phas[channel][position]
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166 \param channel channel to write to
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167 \param position sample position to write to
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168
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169 */
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170 void cvec_write_phas(cvec_t *s, smpl_t data, ba_uint_t channel, ba_uint_t position);
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171 /** read norm value from a complex buffer
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172
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173 Note that this function is not used in the aubio library, since the same
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174 result can be obtained with vec->norm[channel][position]. Its purpose is to
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175 access these values from wrappers, as created by swig.
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176
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177 \param s vector to read from
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178 \param channel channel to read from
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179 \param position sample position to read from
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180
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181 */
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182 smpl_t cvec_read_norm(cvec_t *s, ba_uint_t channel, ba_uint_t position);
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183 /** read phase value from a complex buffer
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184
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185 Note that this function is not used in the aubio library, since the same
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186 result can be obtained with vec->phas[channel][position]. Its purpose is to
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187 access these values from wrappers, as created by swig.
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188
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189 \param s vector to read from
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190 \param channel channel to read from
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191 \param position sample position to read from
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192
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193 */
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194 smpl_t cvec_read_phas(cvec_t *s, ba_uint_t channel, ba_uint_t position);
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195 /** write norm channel in a complex buffer
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196
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197 Note that this function is not used in the aubio library, since the same
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198 result can be obtained by assigning vec->norm[channel]. Its purpose is to
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199 access these values from wrappers, as created by swig.
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200
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201 \param s vector to write to
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202 \param data norm vector of [length] samples to write in s->norm[channel]
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203 \param channel channel to write to
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204
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205 */
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206 void cvec_put_norm_channel(cvec_t *s, smpl_t * data, ba_uint_t channel);
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207 /** write phase channel in a complex buffer
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208
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209 Note that this function is not used in the aubio library, since the same
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210 result can be obtained by assigning vec->phas[channel]. Its purpose is to
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211 access these values from wrappers, as created by swig.
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212
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213 \param s vector to write to
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214 \param data phase vector of [length] samples to write in s->phas[channel]
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215 \param channel channel to write to
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216
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217 */
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218 void cvec_put_phas_channel(cvec_t *s, smpl_t * data, ba_uint_t channel);
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219 /** read norm channel from a complex buffer
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220
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221 Note that this function is not used in the aubio library, since the same
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222 result can be obtained with vec->norm[channel]. Its purpose is to access
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223 these values from wrappers, as created by swig.
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224
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225 \param s vector to read from
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226 \param channel channel to read from
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227
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228 */
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229 smpl_t * cvec_get_norm_channel(cvec_t *s, ba_uint_t channel);
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230 /** write phase channel in a complex buffer
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231
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232 Note that this function is not used in the aubio library, since the same
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233 result can be obtained with vec->phas[channel]. Its purpose is to access
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234 these values from wrappers, as created by swig.
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235
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236 \param s vector to read from
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237 \param channel channel to read from
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238
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239 */
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240 smpl_t * cvec_get_phas_channel(cvec_t *s, ba_uint_t channel);
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241 /** read norm data from a complex buffer
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242
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243 Note that this function is not used in the aubio library, since the same
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244 result can be obtained with vec->norm. Its purpose is to access these values
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245 from wrappers, as created by swig.
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246
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247 \param s vector to read from
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248
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249 */
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250 smpl_t ** cvec_get_norm(cvec_t *s);
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251 /** read phase data from a complex buffer
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252
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253 Note that this function is not used in the aubio library, since the same
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254 result can be obtained with vec->phas. Its purpose is to access these values
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255 from wrappers, as created by swig.
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256
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257 \param s vector to read from
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258
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259 */
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260 smpl_t ** cvec_get_phas(cvec_t *s);
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261
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262 #ifdef __cplusplus
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263 }
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264 #endif
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265
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266 #endif /* _SAMPLE_H */
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