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annotate src/descriptors.c @ 161:246c203cc733

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Add wavelet-based pitch tracker
author Jamie Bullock <jamie@jamiebullock.com>
date Fri, 31 May 2013 22:44:03 +0100
parents 71870680f7c1
children f6fcf3bec020
rev   line source
jamie@141 1 /*
jamie@141 2 * Copyright (C) 2012 Jamie Bullock
jamie@140 3 *
jamie@141 4 * Permission is hereby granted, free of charge, to any person obtaining a copy
jamie@141 5 * of this software and associated documentation files (the "Software"), to
jamie@141 6 * deal in the Software without restriction, including without limitation the
jamie@141 7 * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
jamie@141 8 * sell copies of the Software, and to permit persons to whom the Software is
jamie@141 9 * furnished to do so, subject to the following conditions:
jamie@50 10 *
jamie@141 11 * The above copyright notice and this permission notice shall be included in
jamie@141 12 * all copies or substantial portions of the Software.
jamie@50 13 *
jamie@141 14 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
jamie@141 15 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
jamie@141 16 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
jamie@141 17 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
jamie@141 18 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
jamie@141 19 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
jamie@141 20 * IN THE SOFTWARE.
jamie@50 21 *
jamie@50 22 */
jamie@50 23
jamie@159 24 #include "../xtract/libxtract.h"
jamie@56 25 #include "xtract_macros_private.h"
jamie@50 26 #include <stdlib.h>
jamie@50 27 #include <string.h>
jamie@50 28 #define XTRACT
jamie@50 29
jamie@140 30 xtract_function_descriptor_t *xtract_make_descriptors(void)
jamie@140 31 {
jamie@52 32
jamie@50 33 int f , F;
jamie@140 34 char *name, *p_name, *desc, *p_desc, *author;
jamie@146 35 double *argv_min, *argv_max, *argv_def, *result_min, *result_max;
jamie@56 36 int *argc, *year, *argv_donor;
jamie@140 37 xtract_vector_t *data_format, *result_format;
jamie@56 38 xtract_unit_t *data_unit, *argv_unit, *result_unit;
jamie@108 39 xtract_bool_t *is_scalar, *is_delta;
jamie@56 40 xtract_function_descriptor_t *fd, *d;
jamie@56 41 xtract_type_t *argv_type;
jamie@52 42
jamie@50 43 f = F = XTRACT_FEATURES;
jamie@50 44
jamie@56 45 fd = malloc(XTRACT_FEATURES * sizeof(xtract_function_descriptor_t));
jamie@50 46
jamie@55 47 /* FIX - this file probably needs a rewrite for readability */
jamie@51 48
jamie@140 49 while(f--)
jamie@140 50 {
jamie@51 51
jamie@108 52 d = &fd[f];
jamie@110 53 d->id = f;
jamie@108 54 argc = &d->argc;
jamie@108 55 argv_type = &d->argv.type;
jamie@51 56
jamie@108 57 argv_min = &d->argv.min[0];
jamie@108 58 argv_max = &d->argv.max[0];
jamie@108 59 argv_def = &d->argv.def[0];
jamie@108 60 argv_unit = &d->argv.unit[0];
jamie@55 61
jamie@140 62 switch (f)
jamie@140 63 {
jamie@108 64 /* argc = 1 */
jamie@140 65 case XTRACT_VARIANCE:
jamie@140 66 case XTRACT_SPECTRAL_VARIANCE:
jamie@140 67 case XTRACT_STANDARD_DEVIATION:
jamie@140 68 case XTRACT_DIFFERENCE_VECTOR:
jamie@140 69 case XTRACT_AVERAGE_DEVIATION:
jamie@140 70 case XTRACT_SPECTRAL_STANDARD_DEVIATION:
jamie@123 71 /* case XTRACT_SPECTRAL_AVERAGE_DEVIATION: */
jamie@140 72 case XTRACT_LOWEST_VALUE:
jamie@140 73 case XTRACT_TONALITY:
jamie@140 74 case XTRACT_MFCC:
jamie@140 75 case XTRACT_LPC:
jamie@140 76 case XTRACT_LPCC:
jamie@140 77 *argv_min = XTRACT_ANY;
jamie@140 78 *argv_max = XTRACT_ANY;
jamie@140 79 *argv_def = XTRACT_ANY;
jamie@140 80 *argv_unit = XTRACT_DBFS;
jamie@140 81 break;
jamie@140 82 case XTRACT_SPECTRAL_INHARMONICITY:
jamie@146 83 *argv_min = 0.0;
jamie@146 84 *argv_max = XTRACT_SR_UPPER_LIMIT / 2.0;
jamie@140 85 *argv_def = XTRACT_FUNDAMENTAL_DEFAULT;
jamie@140 86 *argv_unit = XTRACT_HERTZ;
jamie@140 87 break;
jamie@140 88 case XTRACT_F0:
jamie@140 89 case XTRACT_FAILSAFE_F0:
jamie@161 90 case XTRACT_WAVELET_F0:
jamie@140 91 *argv_min = XTRACT_SR_LOWER_LIMIT;
jamie@140 92 *argv_max = XTRACT_SR_UPPER_LIMIT;
jamie@140 93 *argv_def = XTRACT_SR_DEFAULT;
jamie@140 94 *argv_unit = XTRACT_HERTZ;
jamie@140 95 break;
jamie@140 96 case XTRACT_FLATNESS_DB:
jamie@140 97 *argv_min = 0;
jamie@140 98 *argv_max = 1.0;
jamie@140 99 *argv_def = XTRACT_ANY;
jamie@140 100 *argv_unit = XTRACT_DBFS;
jamie@140 101 break;
jamie@114 102 /* argc = 2 */;
jamie@140 103 case XTRACT_ROLLOFF:
jamie@140 104 *argv_min = XTRACT_FFT_BANDS_MIN;
jamie@140 105 *argv_max = XTRACT_FFT_BANDS_MAX;
jamie@140 106 *argv_def = XTRACT_SPEC_BW_DEF ;
jamie@140 107 *argv_unit = XTRACT_HERTZ;
jamie@146 108 *(argv_min + 1) = 0.0;
jamie@146 109 *(argv_max + 1) = 100.0;
jamie@146 110 *(argv_def + 1) = 95.0;
jamie@140 111 *(argv_unit + 1) = XTRACT_PERCENT;
jamie@140 112 break;
jamie@140 113 case XTRACT_PEAK_SPECTRUM:
jamie@146 114 *argv_min = XTRACT_SR_LOWER_LIMIT / 2.0;
jamie@146 115 *argv_max = XTRACT_SR_UPPER_LIMIT / 2.0;
jamie@146 116 *argv_def = XTRACT_SR_DEFAULT / 2.0;
jamie@140 117 *argv_unit = XTRACT_HERTZ;
jamie@146 118 *(argv_min + 1) = 0.0;
jamie@146 119 *(argv_max + 1) = 100.0 ;
jamie@146 120 *(argv_def + 1) = 10.0 ;
jamie@140 121 *(argv_unit + 1) = XTRACT_PERCENT;
jamie@140 122 break;
jamie@140 123 case XTRACT_HARMONIC_SPECTRUM:
jamie@146 124 *argv_min = 0.0;
jamie@146 125 *argv_max = XTRACT_SR_UPPER_LIMIT / 2.0;
jamie@140 126 *argv_def = XTRACT_FUNDAMENTAL_DEFAULT;
jamie@140 127 *argv_unit = XTRACT_HERTZ;
jamie@146 128 *(argv_min + 1) = 0.0;
jamie@146 129 *(argv_max + 1) = 1.0 ;
jamie@146 130 *(argv_def + 1) = .1 ;
jamie@140 131 *(argv_unit + 1) = XTRACT_NONE;
jamie@140 132 break;
jamie@140 133 case XTRACT_NOISINESS:
jamie@140 134 case XTRACT_SKEWNESS:
jamie@140 135 case XTRACT_KURTOSIS:
jamie@140 136 case XTRACT_SPECTRAL_SKEWNESS:
jamie@140 137 case XTRACT_SPECTRAL_KURTOSIS:
jamie@140 138 case XTRACT_CREST:
jamie@140 139 *argv_min = XTRACT_NONE;
jamie@140 140 *argv_max = XTRACT_NONE;
jamie@140 141 *argv_def = XTRACT_NONE;
jamie@140 142 *argv_unit = XTRACT_NONE;
jamie@140 143 *(argv_min + 1) = XTRACT_NONE;
jamie@140 144 *(argv_max + 1) = XTRACT_NONE;
jamie@140 145 *(argv_def + 1) = XTRACT_NONE;
jamie@140 146 *(argv_unit + 1) = XTRACT_NONE;
jamie@140 147 break;
jamie@114 148 /* argc = 4 */
jamie@140 149 case XTRACT_SPECTRUM:
jamie@140 150 *argv_min = XTRACT_SR_LOWER_LIMIT / XTRACT_FFT_BANDS_MIN;
jamie@140 151 *argv_max = XTRACT_SR_UPPER_LIMIT / XTRACT_FFT_BANDS_MAX;
jamie@140 152 *argv_def = XTRACT_SR_DEFAULT / XTRACT_FFT_BANDS_DEF;
jamie@140 153 *argv_unit = XTRACT_HERTZ;
jamie@140 154 *(argv_min + 1) = 0;
jamie@140 155 *(argv_max + 1) = 3 ;
jamie@140 156 *(argv_def + 1) = 0;
jamie@140 157 *(argv_unit + 1) = XTRACT_NONE;
jamie@140 158 *(argv_min + 2) = 0;
jamie@140 159 *(argv_max + 2) = 1;
jamie@140 160 *(argv_def + 2) = 0;
jamie@140 161 *(argv_unit + 2) = XTRACT_NONE;
jamie@140 162 *(argv_min + 3) = 0;
jamie@140 163 *(argv_max + 3) = 1;
jamie@140 164 *(argv_def + 3) = 0;
jamie@140 165 *(argv_unit + 3) = XTRACT_NONE;
jamie@140 166 break;
jamie@140 167 case XTRACT_SUBBANDS:
jamie@140 168 *argv_min = XTRACT_ANY;
jamie@140 169 *argv_max = XTRACT_ANY;
jamie@140 170 *argv_def = XTRACT_MEAN;
jamie@140 171 *argv_unit = XTRACT_NONE;
jamie@140 172 *(argv_min + 1) = 1;
jamie@140 173 *(argv_max + 1) = 16384;
jamie@140 174 *(argv_def + 1) = 4;
jamie@140 175 *(argv_unit + 1) = XTRACT_NONE;
jamie@140 176 *(argv_min + 2) = 0;
jamie@140 177 *(argv_max + 2) = 32;
jamie@140 178 *(argv_def + 2) = 0;
jamie@140 179 *(argv_unit + 2) = XTRACT_NONE;
jamie@140 180 *(argv_min + 3) = 0;
jamie@140 181 *(argv_max + 3) = XTRACT_ANY;
jamie@140 182 *(argv_def + 3) = 0;
jamie@140 183 *(argv_unit + 3) = XTRACT_BINS;
jamie@140 184 break;
jamie@140 185 case XTRACT_BARK_COEFFICIENTS:
jamie@140 186 /* BARK_COEFFICIENTS is special because argc = BARK_BANDS */
jamie@140 187 case XTRACT_WINDOWED:
jamie@140 188 /* WINDOWED is special because argc = window size = N */
jamie@140 189 default:
jamie@140 190 *argv_min = XTRACT_NONE;
jamie@140 191 *argv_max = XTRACT_NONE;
jamie@140 192 *argv_def = XTRACT_NONE;
jamie@140 193 *argv_unit = XTRACT_NONE;
jamie@140 194 break;
jamie@108 195 }
jamie@55 196
jamie@108 197 argv_donor = &d->argv.donor[0];
jamie@55 198
jamie@140 199 switch (f)
jamie@140 200 {
jamie@108 201 /* argc = 1 */
jamie@140 202 case XTRACT_VARIANCE:
jamie@140 203 *argv_donor = XTRACT_MEAN;
jamie@140 204 break;
jamie@140 205 case XTRACT_SPECTRAL_VARIANCE:
jamie@140 206 *argv_donor = XTRACT_SPECTRAL_MEAN;
jamie@140 207 break;
jamie@140 208 case XTRACT_STANDARD_DEVIATION:
jamie@140 209 *argv_donor = XTRACT_VARIANCE;
jamie@140 210 break;
jamie@140 211 case XTRACT_AVERAGE_DEVIATION:
jamie@140 212 *argv_donor = XTRACT_MEAN;
jamie@140 213 break;
jamie@140 214 case XTRACT_SPECTRAL_STANDARD_DEVIATION:
jamie@140 215 *argv_donor = XTRACT_SPECTRAL_VARIANCE;
jamie@140 216 break;
jamie@123 217 /* case XTRACT_SPECTRAL_AVERAGE_DEVIATION:
jamie@108 218 *argv_donor = XTRACT_SPECTRAL_MEAN;
jamie@123 219 break; */
jamie@140 220 case XTRACT_SPECTRAL_INHARMONICITY:
jamie@140 221 *argv_donor = XTRACT_FAILSAFE_F0;
jamie@140 222 break;
jamie@140 223 case XTRACT_FLATNESS_DB:
jamie@140 224 *argv_donor = XTRACT_FLATNESS;
jamie@140 225 break;
jamie@140 226 case XTRACT_TONALITY:
jamie@140 227 *argv_donor = XTRACT_FLATNESS_DB;
jamie@140 228 break;
jamie@140 229 case XTRACT_LOWEST_VALUE:
jamie@140 230 case XTRACT_F0:
jamie@140 231 case XTRACT_FAILSAFE_F0:
jamie@161 232 case XTRACT_WAVELET_F0:
jamie@140 233 *argv_donor = XTRACT_ANY;
jamie@140 234 break;
jamie@140 235 case XTRACT_MFCC:
jamie@140 236 *argv_donor = XTRACT_INIT_MFCC;
jamie@140 237 break;
jamie@140 238 /* argc = 2 */;
jamie@140 239 case XTRACT_ROLLOFF:
jamie@140 240 case XTRACT_PEAK_SPECTRUM:
jamie@140 241 case XTRACT_FLUX:
jamie@140 242 case XTRACT_LNORM:
jamie@140 243 *argv_donor = XTRACT_ANY;
jamie@140 244 *(argv_donor + 1) = XTRACT_ANY;
jamie@140 245 break;
jamie@140 246 case XTRACT_SKEWNESS:
jamie@140 247 case XTRACT_KURTOSIS:
jamie@140 248 *argv_donor = XTRACT_MEAN;
jamie@140 249 *(argv_donor + 1) = XTRACT_STANDARD_DEVIATION;
jamie@140 250 break;
jamie@140 251 case XTRACT_SPECTRAL_SKEWNESS:
jamie@140 252 case XTRACT_SPECTRAL_KURTOSIS:
jamie@140 253 *argv_donor = XTRACT_SPECTRAL_MEAN;
jamie@140 254 *(argv_donor + 1) = XTRACT_SPECTRAL_STANDARD_DEVIATION;
jamie@140 255 break;
jamie@140 256 case XTRACT_HARMONIC_SPECTRUM:
jamie@140 257 *argv_donor = XTRACT_FAILSAFE_F0;
jamie@140 258 *(argv_donor + 1) = XTRACT_ANY;
jamie@140 259 break;
jamie@140 260 case XTRACT_NOISINESS:
jamie@140 261 *argv_donor = XTRACT_SUM;
jamie@140 262 *(argv_donor + 1) = XTRACT_SUM;
jamie@140 263 break;
jamie@140 264 case XTRACT_CREST:
jamie@140 265 *argv_donor = XTRACT_HIGHEST_VALUE;
jamie@140 266 *(argv_donor + 1) = XTRACT_MEAN;
jamie@140 267 break;
jamie@140 268 /* argc = 4 */
jamie@140 269 case XTRACT_SPECTRUM:
jamie@140 270 *argv_donor = XTRACT_ANY;
jamie@140 271 *(argv_donor + 1) = XTRACT_ANY;
jamie@140 272 *(argv_donor + 2) = XTRACT_ANY;
jamie@140 273 *(argv_donor + 3) = XTRACT_ANY;
jamie@140 274 break;
jamie@140 275 case XTRACT_SUBBANDS:
jamie@140 276 *argv_donor = XTRACT_ANY;
jamie@140 277 *(argv_donor + 1) = XTRACT_ANY;
jamie@140 278 *(argv_donor + 2) = XTRACT_ANY;
jamie@140 279 *(argv_donor + 3) = XTRACT_ANY;
jamie@140 280 break;
jamie@108 281 /* BARK_BANDS */
jamie@140 282 case XTRACT_BARK_COEFFICIENTS:
jamie@140 283 *argv_donor = XTRACT_INIT_BARK;
jamie@140 284 break;
jamie@140 285 case XTRACT_WINDOWED:
jamie@140 286 *argv_donor = XTRACT_INIT_WINDOWED;
jamie@140 287 break;
jamie@140 288 default:
jamie@140 289 *argv_donor = XTRACT_ANY;
jamie@140 290 break;
jamie@108 291 }
jamie@51 292
jamie@54 293 data_format = &d->data.format;
jamie@54 294
jamie@140 295 switch(f)
jamie@140 296 {
jamie@54 297
jamie@140 298 case XTRACT_MEAN:
jamie@140 299 case XTRACT_VARIANCE:
jamie@140 300 case XTRACT_STANDARD_DEVIATION:
jamie@140 301 case XTRACT_AVERAGE_DEVIATION:
jamie@140 302 case XTRACT_SKEWNESS:
jamie@140 303 case XTRACT_KURTOSIS:
jamie@140 304 case XTRACT_LOWEST_VALUE:
jamie@140 305 case XTRACT_HIGHEST_VALUE:
jamie@140 306 case XTRACT_SUM:
jamie@140 307 case XTRACT_WINDOWED:
jamie@140 308 *data_format = XTRACT_ARBITRARY_SERIES;
jamie@140 309 break;
jamie@140 310 case XTRACT_SPECTRAL_MEAN:
jamie@140 311 case XTRACT_SPECTRAL_VARIANCE:
jamie@140 312 case XTRACT_SPECTRAL_STANDARD_DEVIATION:
jamie@123 313 /* case XTRACT_SPECTRAL_AVERAGE_DEVIATION: */
jamie@140 314 case XTRACT_SPECTRAL_SKEWNESS:
jamie@140 315 case XTRACT_SPECTRAL_KURTOSIS:
jamie@140 316 case XTRACT_SPECTRAL_CENTROID:
jamie@140 317 case XTRACT_SPECTRAL_SLOPE:
jamie@140 318 *data_format = XTRACT_SPECTRAL;
jamie@140 319 break;
jamie@140 320 case XTRACT_ROLLOFF:
jamie@140 321 case XTRACT_NOISINESS:
jamie@140 322 case XTRACT_BARK_COEFFICIENTS:
jamie@140 323 case XTRACT_CREST:
jamie@140 324 case XTRACT_IRREGULARITY_K:
jamie@140 325 case XTRACT_IRREGULARITY_J:
jamie@140 326 case XTRACT_SMOOTHNESS:
jamie@140 327 case XTRACT_FLATNESS:
jamie@140 328 case XTRACT_SPREAD:
jamie@140 329 case XTRACT_POWER:
jamie@140 330 case XTRACT_HPS:
jamie@140 331 case XTRACT_PEAK_SPECTRUM:
jamie@140 332 case XTRACT_SUBBANDS:
jamie@140 333 case XTRACT_MFCC:
jamie@140 334 *data_format = XTRACT_SPECTRAL_MAGNITUDES;
jamie@140 335 break;
jamie@140 336 case XTRACT_LPC:
jamie@140 337 *data_format = XTRACT_AUTOCORRELATION_COEFFS;
jamie@140 338 break;
jamie@140 339 case XTRACT_LPCC:
jamie@140 340 *data_format = XTRACT_LPC_COEFFS;
jamie@140 341 break;
jamie@140 342 case XTRACT_SPECTRAL_INHARMONICITY:
jamie@140 343 case XTRACT_HARMONIC_SPECTRUM:
jamie@140 344 *data_format = XTRACT_SPECTRAL_PEAKS;
jamie@140 345 break;
jamie@140 346 case XTRACT_NONZERO_COUNT:
jamie@140 347 *data_format = XTRACT_SPECTRAL_PEAKS_MAGNITUDES;
jamie@140 348 break;
jamie@140 349 case XTRACT_F0:
jamie@140 350 case XTRACT_FAILSAFE_F0:
jamie@161 351 case XTRACT_WAVELET_F0:
jamie@140 352 case XTRACT_SPECTRUM:
jamie@140 353 case XTRACT_AUTOCORRELATION:
jamie@140 354 case XTRACT_AUTOCORRELATION_FFT:
jamie@140 355 case XTRACT_DCT:
jamie@140 356 case XTRACT_AMDF:
jamie@140 357 case XTRACT_ASDF:
jamie@140 358 case XTRACT_ZCR:
jamie@140 359 case XTRACT_RMS_AMPLITUDE:
jamie@140 360 case XTRACT_FLUX:
jamie@140 361 case XTRACT_LNORM:
jamie@140 362 *data_format = XTRACT_AUDIO_SAMPLES;
jamie@140 363 break;
jamie@140 364 case XTRACT_TONALITY:
jamie@140 365 case XTRACT_FLATNESS_DB:
jamie@140 366 *data_format = XTRACT_NO_DATA;
jamie@140 367 break;
jamie@140 368 case XTRACT_TRISTIMULUS_1:
jamie@140 369 case XTRACT_TRISTIMULUS_2:
jamie@140 370 case XTRACT_TRISTIMULUS_3:
jamie@140 371 case XTRACT_ODD_EVEN_RATIO:
jamie@140 372 *data_format = XTRACT_SPECTRAL_HARMONICS_MAGNITUDES;
jamie@140 373 break;
jamie@140 374 case XTRACT_LOUDNESS:
jamie@140 375 case XTRACT_SHARPNESS:
jamie@140 376 *data_format = XTRACT_BARK_COEFFS;
jamie@140 377 break;
jamie@140 378 case XTRACT_DIFFERENCE_VECTOR:
jamie@140 379 *data_format = XTRACT_SUBFRAMES;
jamie@140 380 break;
jamie@140 381 case XTRACT_ATTACK_TIME:
jamie@140 382 case XTRACT_DECAY_TIME:
jamie@140 383 default:
jamie@140 384 *data_format = XTRACT_NO_DATA;
jamie@140 385 break;
jamie@108 386 }
jamie@54 387
jamie@55 388 data_unit = &d->data.unit;
jamie@55 389
jamie@140 390 switch(f)
jamie@140 391 {
jamie@55 392
jamie@140 393 case XTRACT_MEAN:
jamie@140 394 case XTRACT_VARIANCE:
jamie@140 395 case XTRACT_STANDARD_DEVIATION:
jamie@140 396 case XTRACT_AVERAGE_DEVIATION:
jamie@140 397 case XTRACT_SKEWNESS:
jamie@140 398 case XTRACT_KURTOSIS:
jamie@140 399 case XTRACT_LOWEST_VALUE:
jamie@140 400 case XTRACT_HIGHEST_VALUE:
jamie@140 401 case XTRACT_SUM:
jamie@140 402 case XTRACT_ZCR:
jamie@140 403 case XTRACT_PEAK_SPECTRUM:
jamie@140 404 case XTRACT_TRISTIMULUS_1:
jamie@140 405 case XTRACT_TRISTIMULUS_2:
jamie@140 406 case XTRACT_TRISTIMULUS_3:
jamie@140 407 case XTRACT_DCT:
jamie@140 408 case XTRACT_AMDF:
jamie@140 409 case XTRACT_ASDF:
jamie@140 410 case XTRACT_IRREGULARITY_K:
jamie@140 411 case XTRACT_IRREGULARITY_J:
jamie@140 412 case XTRACT_ATTACK_TIME:
jamie@140 413 case XTRACT_DECAY_TIME:
jamie@140 414 case XTRACT_DIFFERENCE_VECTOR:
jamie@140 415 case XTRACT_FLUX:
jamie@140 416 case XTRACT_LNORM:
jamie@140 417 case XTRACT_F0:
jamie@140 418 case XTRACT_FAILSAFE_F0:
jamie@161 419 case XTRACT_WAVELET_F0:
jamie@140 420 case XTRACT_MFCC:
jamie@140 421 case XTRACT_AUTOCORRELATION:
jamie@140 422 case XTRACT_AUTOCORRELATION_FFT:
jamie@140 423 case XTRACT_ROLLOFF:
jamie@140 424 case XTRACT_NOISINESS:
jamie@140 425 case XTRACT_CREST:
jamie@140 426 case XTRACT_FLATNESS:
jamie@140 427 case XTRACT_FLATNESS_DB:
jamie@140 428 case XTRACT_POWER:
jamie@140 429 case XTRACT_BARK_COEFFICIENTS:
jamie@140 430 case XTRACT_RMS_AMPLITUDE:
jamie@140 431 case XTRACT_SMOOTHNESS:
jamie@140 432 case XTRACT_SPREAD:
jamie@140 433 case XTRACT_SHARPNESS:
jamie@140 434 case XTRACT_HPS:
jamie@140 435 case XTRACT_SPECTRUM:
jamie@140 436 case XTRACT_TONALITY:
jamie@140 437 case XTRACT_LOUDNESS:
jamie@140 438 case XTRACT_NONZERO_COUNT:
jamie@140 439 case XTRACT_LPC:
jamie@140 440 case XTRACT_LPCC:
jamie@140 441 case XTRACT_WINDOWED:
jamie@140 442 case XTRACT_SUBBANDS:
jamie@140 443 *data_unit = XTRACT_ANY;
jamie@140 444 break;
jamie@140 445 case XTRACT_SPECTRAL_MEAN:
jamie@140 446 case XTRACT_SPECTRAL_VARIANCE:
jamie@140 447 case XTRACT_SPECTRAL_STANDARD_DEVIATION:
jamie@123 448 /* case XTRACT_SPECTRAL_AVERAGE_DEVIATION: */
jamie@140 449 case XTRACT_SPECTRAL_SKEWNESS:
jamie@140 450 case XTRACT_SPECTRAL_KURTOSIS:
jamie@140 451 case XTRACT_SPECTRAL_CENTROID:
jamie@140 452 case XTRACT_SPECTRAL_SLOPE:
jamie@140 453 case XTRACT_HARMONIC_SPECTRUM:
jamie@140 454 case XTRACT_SPECTRAL_INHARMONICITY:
jamie@140 455 *data_unit = XTRACT_ANY_AMPLITUDE_HERTZ;
jamie@140 456 break;
jamie@140 457 case XTRACT_ODD_EVEN_RATIO:
jamie@140 458 *data_unit = XTRACT_HERTZ;
jamie@140 459 break;
jamie@108 460 }
jamie@55 461
jamie@108 462 name = d->algo.name;
jamie@108 463 p_name = d->algo.p_name;
jamie@108 464 desc = d->algo.desc;
jamie@108 465 p_desc = d->algo.p_desc;
jamie@108 466 author = d->algo.author;
jamie@108 467 year = &d->algo.year;
jamie@51 468
jamie@108 469 strcpy(author, "");
jamie@108 470 *year = 0;
jamie@51 471
jamie@140 472 switch(f)
jamie@140 473 {
jamie@140 474 case XTRACT_MEAN:
jamie@140 475 strcpy(name, "mean");
jamie@140 476 strcpy(p_name, "Mean");
jamie@140 477 strcpy(desc, "Extract the mean of an input vector");
jamie@140 478 strcpy(p_desc, "Extract the mean of a range of values");
jamie@140 479 strcpy(author, "");
jamie@140 480 break;
jamie@140 481 case XTRACT_VARIANCE:
jamie@140 482 strcpy(name, "variance");
jamie@140 483 strcpy(p_name, "Variance");
jamie@140 484 strcpy(desc, "Extract the variance of an input vector");
jamie@140 485 strcpy(p_desc, "Extract the variance of a range of values");
jamie@140 486 strcpy(author, "");
jamie@140 487 break;
jamie@140 488 case XTRACT_STANDARD_DEVIATION:
jamie@140 489 strcpy(name, "standard_deviation");
jamie@140 490 strcpy(p_name, "Standard Deviation");
jamie@140 491 strcpy(desc,
jamie@140 492 "Extract the standard deviation of an input vector");
jamie@140 493 strcpy(p_desc,
jamie@140 494 "Extract the standard deviation of a range of values");
jamie@140 495 strcpy(author, "");
jamie@140 496 break;
jamie@140 497 case XTRACT_AVERAGE_DEVIATION:
jamie@140 498 strcpy(name, "average_deviation");
jamie@140 499 strcpy(p_name, "Average Deviation");
jamie@140 500 strcpy(desc,
jamie@140 501 "Extract the average deviation of an input vector");
jamie@140 502 strcpy(p_desc,
jamie@140 503 "Extract the average deviation of a range of values");
jamie@140 504 strcpy(author, "");
jamie@140 505 break;
jamie@140 506 case XTRACT_SKEWNESS:
jamie@140 507 strcpy(name, "skewness");
jamie@140 508 strcpy(p_name, "Skewness");
jamie@140 509 strcpy(desc,
jamie@140 510 "Extract the skewness of an input vector");
jamie@140 511 strcpy(p_desc,
jamie@140 512 "Extract the skewness of a range of values");
jamie@140 513 strcpy(author, "");
jamie@140 514 break;
jamie@140 515 case XTRACT_KURTOSIS:
jamie@140 516 strcpy(name, "kurtosis");
jamie@140 517 strcpy(p_name, "Kurtosis");
jamie@140 518 strcpy(desc,
jamie@140 519 "Extract the kurtosis of an input vector");
jamie@140 520 strcpy(p_desc,
jamie@140 521 "Extract the kurtosis of a range of values");
jamie@140 522 strcpy(author, "");
jamie@140 523 break;
jamie@140 524 case XTRACT_SPECTRAL_MEAN:
jamie@140 525 strcpy(name, "spectral_mean");
jamie@140 526 strcpy(p_name, "Spectral Mean");
jamie@140 527 strcpy(desc, "Extract the mean of an input spectrum");
jamie@140 528 strcpy(p_desc, "Extract the mean of an audio spectrum");
jamie@140 529 strcpy(author, "");
jamie@140 530 break;
jamie@140 531 case XTRACT_SPECTRAL_VARIANCE:
jamie@140 532 strcpy(name, "spectral_variance");
jamie@140 533 strcpy(p_name, "Spectral Variance");
jamie@140 534 strcpy(desc, "Extract the variance of an input spectrum");
jamie@140 535 strcpy(p_desc, "Extract the variance of an audio spectrum");
jamie@140 536 strcpy(author, "");
jamie@140 537 break;
jamie@140 538 case XTRACT_SPECTRAL_STANDARD_DEVIATION:
jamie@140 539 strcpy(name, "spectral_standard_deviation");
jamie@140 540 strcpy(p_name, "Spectral Standard Deviation");
jamie@140 541 strcpy(desc,
jamie@140 542 "Extract the standard deviation of an input spectrum");
jamie@140 543 strcpy(p_desc,
jamie@140 544 "Extract the standard deviation of an audio spectrum");
jamie@140 545 strcpy(author, "");
jamie@140 546 break;
jamie@123 547 /* case XTRACT_SPECTRAL_AVERAGE_DEVIATION:
jamie@108 548 strcpy(name, "spectral_average_deviation");
jamie@108 549 strcpy(p_name, "Spectral Average Deviation");
jamie@140 550 strcpy(desc,
jamie@108 551 "Extract the average deviation of an input spectrum");
jamie@140 552 strcpy(p_desc,
jamie@108 553 "Extract the average deviation of an audio spectrum");
jamie@108 554 strcpy(author, "");
jamie@108 555 break;
jamie@123 556 */
jamie@140 557 case XTRACT_ROLLOFF:
jamie@140 558 strcpy(name, "rolloff");
jamie@140 559 strcpy(p_name, "Spectral Rolloff");
jamie@140 560 strcpy(desc,
jamie@140 561 "Extract the rolloff point of a spectrum");
jamie@140 562 strcpy(p_desc,
jamie@140 563 "Extract the rolloff point of an audio spectrum");
jamie@140 564 strcpy(author, "Bee Suan Ong");
jamie@140 565 *year = 2005;
jamie@140 566 break;
jamie@140 567 case XTRACT_SPECTRAL_INHARMONICITY:
jamie@140 568 strcpy(name, "spectral_inharmonicity");
jamie@140 569 strcpy(p_name, "Inharmonicity");
jamie@140 570 strcpy(desc, "Extract the inharmonicity of a spectrum");
jamie@140 571 strcpy(p_desc,
jamie@140 572 "Extract the inharmonicity of an audio spectrum");
jamie@140 573 break;
jamie@140 574 case XTRACT_SPECTRUM:
jamie@140 575 strcpy(name, "spectrum");
jamie@140 576 strcpy(p_name, "Spectrum");
jamie@140 577 strcpy(desc,
jamie@140 578 "Extract the spectrum of an input vector");
jamie@140 579 strcpy(p_desc,
jamie@140 580 "Extract the spectrum of an audio signal");
jamie@140 581 strcpy(author, "");
jamie@140 582 break;
jamie@140 583 case XTRACT_ODD_EVEN_RATIO:
jamie@140 584 strcpy(name, "odd_even_ratio");
jamie@140 585 strcpy(p_name, "Odd/even Harmonic Ratio");
jamie@140 586 strcpy(desc,
jamie@140 587 "Extract the odd-to-even harmonic ratio of a spectrum");
jamie@140 588 strcpy(p_desc,
jamie@140 589 "Extract the odd-to-even harmonic ratio of an audio spectrum");
jamie@140 590 strcpy(author, "");
jamie@140 591 break;
jamie@140 592 case XTRACT_LOWEST_VALUE:
jamie@140 593 strcpy(name, "lowest_value");
jamie@140 594 strcpy(p_name, "Lowest Value");
jamie@140 595 strcpy(desc, "Extract the lowest value from an input vector");
jamie@140 596 strcpy(p_desc, "Extract the lowest value from a given range");
jamie@140 597 strcpy(author, "");
jamie@140 598 break;
jamie@140 599 case XTRACT_F0:
jamie@140 600 strcpy(name, "f0");
jamie@140 601 strcpy(p_name, "Fundamental Frequency");
jamie@140 602 strcpy(desc, "Extract the fundamental frequency of a signal");
jamie@140 603 strcpy(p_desc,
jamie@140 604 "Extract the fundamental frequency of an audio signal");
jamie@140 605 strcpy(author, "Jamie Bullock");
jamie@140 606 break;
jamie@140 607 case XTRACT_FAILSAFE_F0:
jamie@140 608 strcpy(name, "failsafe_f0");
jamie@140 609 strcpy(p_name, "Fundamental Frequency (failsafe)");
jamie@140 610 strcpy(desc, "Extract the fundamental frequency of a signal (failsafe)");
jamie@140 611 strcpy(p_desc,
jamie@140 612 "Extract the fundamental frequency of an audio signal (failsafe)");
jamie@140 613 strcpy(author, "Jamie Bullock");
jamie@140 614 break;
jamie@161 615 case XTRACT_WAVELET_F0:
jamie@161 616 strcpy(name, "wavelet_f0");
jamie@161 617 strcpy(p_name, "Fundamental Frequency (wavelet method)");
jamie@161 618 strcpy(desc, "Extract the fundamental frequency of a signal (wavelet method)");
jamie@161 619 strcpy(p_desc,
jamie@161 620 "Extract the fundamental frequency of an audio signal (wavelet method)");
jamie@161 621 strcpy(author, "Antoine Schmitt");
jamie@161 622 break;
jamie@140 623 case XTRACT_TONALITY:
jamie@140 624 strcpy(name, "tonality");
jamie@140 625 strcpy(p_name, "Tonality");
jamie@140 626 strcpy(desc, "Extract the tonality of a spectrum");
jamie@140 627 strcpy(p_desc, "Extract the tonality an audio spectrum");
jamie@140 628 strcpy(author, "J. D. Johnston");
jamie@140 629 *year = 1988;
jamie@140 630 break;
jamie@140 631 case XTRACT_SPECTRAL_SKEWNESS:
jamie@140 632 strcpy(name, "spectral_skewness");
jamie@140 633 strcpy(p_name, "Spectral Skewness");
jamie@140 634 strcpy(desc, "Extract the skewness of an input spectrum");
jamie@140 635 strcpy(p_desc, "Extract the skewness of an audio spectrum");
jamie@140 636 strcpy(author, "");
jamie@140 637 break;
jamie@140 638 case XTRACT_SPECTRAL_KURTOSIS:
jamie@140 639 strcpy(name, "spectral_kurtosis");
jamie@140 640 strcpy(p_name, "Spectral Kurtosis");
jamie@140 641 strcpy(desc, "Extract the kurtosis of an input spectrum");
jamie@140 642 strcpy(p_desc, "Extract the kurtosis of an audio spectrum");
jamie@140 643 strcpy(author, "");
jamie@140 644 break;
jamie@140 645 case XTRACT_PEAK_SPECTRUM:
jamie@140 646 strcpy(name, "peak_spectrum");
jamie@140 647 strcpy(p_name, "Peak Spectrum");
jamie@140 648 strcpy(desc, "Extract the spectral peaks from of a spectrum");
jamie@140 649 strcpy(p_desc,
jamie@140 650 "Extract the spectral peaks from an audio spectrum");
jamie@140 651 strcpy(author, "");
jamie@140 652 break;
jamie@140 653 case XTRACT_HARMONIC_SPECTRUM:
jamie@140 654 strcpy(name, "harmonic_spectrum");
jamie@140 655 strcpy(p_name, "Harmonic Spectrum");
jamie@140 656 strcpy(desc, "Extract the harmonics from a spectrum");
jamie@140 657 strcpy(p_desc, "Extract the harmonics from an audio spectrum");
jamie@140 658 strcpy(author, "");
jamie@140 659 break;
jamie@140 660 case XTRACT_NOISINESS:
jamie@140 661 strcpy(name, "noisiness");
jamie@140 662 strcpy(p_name, "Noisiness");
jamie@140 663 strcpy(desc, "Extract the noisiness of a spectrum");
jamie@140 664 strcpy(p_desc, "Extract the noisiness of an audio spectrum");
jamie@140 665 strcpy(author, "Tae Hong Park");
jamie@140 666 *year = 2000;
jamie@140 667 break;
jamie@140 668 case XTRACT_CREST:
jamie@140 669 strcpy(name, "crest");
jamie@140 670 strcpy(p_name, "Spectral Crest Measure");
jamie@140 671 strcpy(desc,
jamie@140 672 "Extract the spectral crest measure of a spectrum");
jamie@140 673 strcpy(p_desc,
jamie@140 674 "Extract the spectral crest measure of an audio spectrum");
jamie@140 675 strcpy(author, "Peeters");
jamie@140 676 *year = 2003;
jamie@140 677 break;
jamie@140 678 case XTRACT_MFCC:
jamie@140 679 strcpy(name, "mfcc");
jamie@140 680 strcpy(p_name, "Mel-Frequency Cepstral Coefficients");
jamie@140 681 strcpy(desc, "Extract MFCC from a spectrum");
jamie@140 682 strcpy(p_desc, "Extract MFCC from an audio spectrum");
jamie@140 683 strcpy(author, "Rabiner");
jamie@140 684 break;
jamie@140 685 case XTRACT_LPC:
jamie@140 686 strcpy(name, "lpc");
jamie@140 687 strcpy(p_name, "Linear predictive coding coefficients");
jamie@140 688 strcpy(desc, "Extract LPC from autocorrelation coefficients");
jamie@140 689 strcpy(p_desc,
jamie@140 690 "Extract LPC from autocorrelation coefficients");
jamie@140 691 strcpy(author,
jamie@140 692 "Rabiner and Juang as implemented by Jutta Degener");
jamie@140 693 *year = 1994;
jamie@140 694 break;
jamie@140 695 case XTRACT_LPCC:
jamie@140 696 strcpy(name, "lpcc");
jamie@140 697 strcpy(p_name, "Linear predictive coding cepstral coefficients");
jamie@140 698 strcpy(desc, "Extract LPC cepstrum from LPC coefficients");
jamie@140 699 strcpy(p_desc,
jamie@140 700 "Extract LPC cepstrum from LPC coefficients");
jamie@140 701 strcpy(author, "Rabiner and Juang");
jamie@140 702 *year = 1993;
jamie@140 703 break;
jamie@140 704 case XTRACT_SUBBANDS:
jamie@140 705 strcpy(name, "subbands");
jamie@140 706 strcpy(p_name, "Sub band coefficients");
jamie@140 707 strcpy(desc, "Extract subband coefficients from spectral magnitudes");
jamie@140 708 strcpy(p_desc,
jamie@140 709 "Extract subband coefficients from spectral magnitudes");
jamie@140 710 strcpy(author, "");
jamie@140 711 break;
jamie@140 712 case XTRACT_BARK_COEFFICIENTS:
jamie@140 713 strcpy(name, "bark_coefficients");
jamie@140 714 strcpy(p_name, "Bark Coefficients");
jamie@140 715 strcpy(desc, "Extract bark coefficients from a spectrum");
jamie@140 716 strcpy(p_desc,
jamie@140 717 "Extract bark coefficients from an audio spectrum");
jamie@140 718 strcpy(author, "");
jamie@140 719 break;
jamie@140 720 case XTRACT_SPECTRAL_CENTROID:
jamie@140 721 strcpy(name, "spectral_centroid");
jamie@140 722 strcpy(p_name, "Spectral Centroid");
jamie@140 723 strcpy(desc, "Extract the spectral centroid of a spectrum");
jamie@140 724 strcpy(p_desc,
jamie@140 725 "Extract the spectral centroid of an audio spectrum");
jamie@140 726 strcpy(author, "");
jamie@140 727 break;
jamie@140 728 case XTRACT_IRREGULARITY_K:
jamie@140 729 strcpy(name, "irregularity_k");
jamie@140 730 strcpy(p_name, "Irregularity I");
jamie@140 731 strcpy(desc, "Extract the irregularity (type I) of a spectrum");
jamie@140 732 strcpy(p_desc,
jamie@140 733 "Extract the irregularity (type I) of an audio spectrum");
jamie@140 734 strcpy(author, "Krimphoff");
jamie@140 735 *year = 1994;
jamie@140 736 break;
jamie@140 737 case XTRACT_IRREGULARITY_J:
jamie@140 738 strcpy(name, "irregularity_j");
jamie@140 739 strcpy(p_name, "Irregularity II");
jamie@140 740 strcpy(desc, "Extract the irregularity (type II) of a spectrum");
jamie@140 741 strcpy(p_desc,
jamie@140 742 "Extract the irregularity (type II) of an audio spectrum");
jamie@140 743 strcpy(author, "Jensen");
jamie@140 744 *year = 1999;
jamie@140 745 break;
jamie@140 746 case XTRACT_TRISTIMULUS_1:
jamie@140 747 strcpy(name, "tristimulus_1");
jamie@140 748 strcpy(p_name, "Tristimulus I");
jamie@140 749 strcpy(desc, "Extract the tristimulus (type I) of a spectrum");
jamie@140 750 strcpy(p_desc,
jamie@140 751 "Extract the tristimulus (type I) of an audio spectrum");
jamie@140 752 strcpy(author, "Pollard and Jansson");
jamie@140 753 *year = 1982;
jamie@140 754 break;
jamie@140 755 case XTRACT_TRISTIMULUS_2:
jamie@140 756 strcpy(name, "tristimulus_2");
jamie@140 757 strcpy(p_name, "Tristimulus II");
jamie@140 758 strcpy(desc, "Extract the tristimulus (type II) of a spectrum");
jamie@140 759 strcpy(p_desc,
jamie@140 760 "Extract the tristimulus (type II) of an audio spectrum");
jamie@140 761 strcpy(author, "Pollard and Jansson");
jamie@140 762 *year = 1982;
jamie@140 763 break;
jamie@140 764 case XTRACT_TRISTIMULUS_3:
jamie@140 765 strcpy(name, "tristimulus_3");
jamie@140 766 strcpy(p_name, "Tristimulus III");
jamie@140 767 strcpy(desc,
jamie@140 768 "Extract the tristimulus (type III) of a spectrum");
jamie@140 769 strcpy(p_desc,
jamie@140 770 "Extract the tristimulus (type III) of an audio spectrum");
jamie@140 771 strcpy(author, "Pollard and Jansson");
jamie@140 772 *year = 1982;
jamie@140 773 break;
jamie@140 774 case XTRACT_SMOOTHNESS:
jamie@140 775 strcpy(name, "smoothness");
jamie@140 776 strcpy(p_name, "Spectral Smoothness");
jamie@140 777 strcpy(desc, "Extract the spectral smoothness of a spectrum");
jamie@140 778 strcpy(p_desc,
jamie@140 779 "Extract the spectral smoothness of an audio spectrum");
jamie@140 780 strcpy(author, "McAdams");
jamie@140 781 *year = 1999;
jamie@140 782 break;
jamie@140 783 case XTRACT_FLATNESS:
jamie@140 784 strcpy(name, "flatness");
jamie@140 785 strcpy(p_name, "Spectral Flatness");
jamie@140 786 strcpy(desc, "Extract the spectral flatness of a spectrum");
jamie@140 787 strcpy(p_desc,
jamie@140 788 "Extract the spectral flatness of an audio spectrum");
jamie@140 789 strcpy(author, "Tristan Jehan");
jamie@140 790 *year = 2005;
jamie@140 791 break;
jamie@140 792 case XTRACT_FLATNESS_DB:
jamie@140 793 strcpy(name, "flatness_db");
jamie@140 794 strcpy(p_name, "Log Spectral Flatness");
jamie@140 795 strcpy(desc, "Extract the log spectral flatness of a spectrum");
jamie@140 796 strcpy(p_desc,
jamie@140 797 "Extract the log spectral flatness of an audio spectrum");
jamie@140 798 strcpy(author, "Peeters");
jamie@140 799 *year = 2003;
jamie@140 800 break;
jamie@140 801 case XTRACT_SPREAD:
jamie@140 802 strcpy(name, "spread");
jamie@140 803 strcpy(p_name, "Spectral Spread");
jamie@140 804 strcpy(desc, "Extract the spectral spread of a spectrum");
jamie@140 805 strcpy(p_desc,
jamie@140 806 "Extract the spectral spread of an audio spectrum");
jamie@140 807 strcpy(author, "Norman Casagrande");
jamie@140 808 *year = 2005;
jamie@140 809 break;
jamie@140 810 case XTRACT_ZCR:
jamie@140 811 strcpy(name, "zcr");
jamie@140 812 strcpy(p_name, "Zero Crossing Rate");
jamie@140 813 strcpy(desc, "Extract the zero crossing rate of a vector");
jamie@140 814 strcpy(p_desc,
jamie@140 815 "Extract the zero crossing rate of an audio signal");
jamie@140 816 strcpy(author, "");
jamie@140 817 break;
jamie@140 818 case XTRACT_LOUDNESS:
jamie@140 819 strcpy(name, "loudness");
jamie@140 820 strcpy(p_name, "Loudness");
jamie@140 821 strcpy(desc,
jamie@140 822 "Extract the loudness of a signal from its spectrum");
jamie@140 823 strcpy(p_desc,
jamie@140 824 "Extract the loudness of an audio signal from its spectrum");
jamie@140 825 strcpy(author, "Moore, Glasberg et al");
jamie@140 826 *year = 2005;
jamie@140 827 break;
jamie@140 828 case XTRACT_HIGHEST_VALUE:
jamie@140 829 strcpy(name, "highest_value");
jamie@140 830 strcpy(p_name, "Highest Value");
jamie@140 831 strcpy(desc, "Extract the highest value from an input vector");
jamie@140 832 strcpy(p_desc, "Extract the highest value from a given range");
jamie@140 833 strcpy(author, "");
jamie@140 834 break;
jamie@140 835 case XTRACT_SUM:
jamie@140 836 strcpy(name, "sum");
jamie@140 837 strcpy(p_name, "Sum of Values");
jamie@140 838 strcpy(desc,
jamie@140 839 "Extract the sum of the values in an input vector");
jamie@140 840 strcpy(p_desc,
jamie@140 841 "Extract the sum of the values in a given range");
jamie@140 842 strcpy(author, "");
jamie@140 843 break;
jamie@140 844 case XTRACT_RMS_AMPLITUDE:
jamie@140 845 strcpy(name, "rms_amplitude");
jamie@140 846 strcpy(p_name, "RMS Amplitude");
jamie@140 847 strcpy(desc, "Extract the RMS amplitude of a signal");
jamie@140 848 strcpy(p_desc, "Extract the RMS amplitude of an audio signal");
jamie@140 849 strcpy(author, "");
jamie@140 850 break;
jamie@140 851 case XTRACT_POWER:
jamie@140 852 strcpy(name, "power");
jamie@140 853 strcpy(p_name, "Spectral Power");
jamie@140 854 strcpy(desc, "Extract the spectral power of a spectrum");
jamie@140 855 strcpy(p_desc,
jamie@140 856 "Extract the spectral power of an audio spectrum");
jamie@140 857 strcpy(author, "Bee Suan Ong");
jamie@140 858 *year = 2005;
jamie@140 859 break;
jamie@140 860 case XTRACT_SHARPNESS:
jamie@140 861 strcpy(name, "sharpness");
jamie@140 862 strcpy(p_name, "Spectral Sharpness");
jamie@140 863 strcpy(desc, "Extract the spectral sharpness of a spectrum");
jamie@140 864 strcpy(p_desc,
jamie@140 865 "Extract the spectral sharpness of an audio spectrum");
jamie@140 866 strcpy(author, "");
jamie@140 867 break;
jamie@140 868 case XTRACT_SPECTRAL_SLOPE:
jamie@140 869 strcpy(name, "spectral_slope");
jamie@140 870 strcpy(p_name, "Spectral Slope");
jamie@140 871 strcpy(desc, "Extract the spectral slope of a spectrum");
jamie@140 872 strcpy(p_desc,
jamie@140 873 "Extract the spectral slope of an audio spectrum");
jamie@140 874 strcpy(author, "");
jamie@140 875 break;
jamie@140 876 case XTRACT_HPS:
jamie@140 877 strcpy(name, "hps");
jamie@140 878 strcpy(p_name, "Harmonic Product Spectrum");
jamie@140 879 strcpy(desc,
jamie@140 880 "Extract the harmonic product spectrum of a spectrum");
jamie@140 881 strcpy(p_desc,
jamie@140 882 "Extract the harmonic product spectrum of an audio spectrum");
jamie@140 883 strcpy(author, "");
jamie@140 884 break;
jamie@140 885 case XTRACT_FLUX:
jamie@140 886 strcpy(name, "flux");
jamie@140 887 strcpy(p_name, "Spectral Flux");
jamie@140 888 strcpy(desc, "Extract the spectral flux of a spectrum");
jamie@140 889 strcpy(p_desc,
jamie@140 890 "Extract the spectral flux of an audio spectrum");
jamie@140 891 strcpy(author, "");
jamie@140 892 break;
jamie@140 893 case XTRACT_LNORM:
jamie@140 894 strcpy(name, "lnorm");
jamie@140 895 strcpy(p_name, "L-norm");
jamie@140 896 strcpy(desc, "Extract the L-norm of a vector");
jamie@140 897 strcpy(p_desc, "Extract the L-norm of a vector");
jamie@140 898 strcpy(author, "");
jamie@140 899 break;
jamie@140 900 case XTRACT_ATTACK_TIME:
jamie@140 901 strcpy(name, "attack_time");
jamie@140 902 strcpy(p_name, "Attack Time");
jamie@140 903 strcpy(desc, "Extract the attack time of a signal");
jamie@140 904 strcpy(p_desc, "Extract the attack time of an audio signal");
jamie@140 905 strcpy(author, "");
jamie@140 906 break;
jamie@140 907 case XTRACT_DECAY_TIME:
jamie@140 908 strcpy(name, "decay_time");
jamie@140 909 strcpy(p_name, "Decay Time");
jamie@140 910 strcpy(desc, "Extract the decay time of a signal");
jamie@140 911 strcpy(p_desc, "Extract the decay time of an audio signal");
jamie@140 912 strcpy(author, "");
jamie@140 913 break;
jamie@140 914 case XTRACT_DIFFERENCE_VECTOR:
jamie@140 915 strcpy(name, "difference_vector");
jamie@140 916 strcpy(p_name, "Difference vector");
jamie@140 917 strcpy(desc, "Extract the difference between two vectors");
jamie@140 918 strcpy(p_desc, "Extract the difference between two vectors");
jamie@140 919 strcpy(author, "");
jamie@140 920 break;
jamie@140 921 case XTRACT_AUTOCORRELATION_FFT:
jamie@140 922 strcpy(name, "autocorrelation_fft");
jamie@140 923 strcpy(p_name, "Autocorrelation (FFT method)");
jamie@140 924 strcpy(desc, "Extract the autocorrelation of a signal (fft method)");
jamie@140 925 strcpy(p_desc, "Extract the autocorrelation of an audio signal (fft method)");
jamie@140 926 strcpy(author, "");
jamie@140 927 break;
jamie@140 928 case XTRACT_DCT:
jamie@140 929 strcpy(name, "dct");
jamie@140 930 strcpy(p_name, "Discrete Cosine Transform");
jamie@140 931 strcpy(desc, "Extract the DCT of a signal");
jamie@140 932 strcpy(p_desc, "Extract the DCT of an audio signal");
jamie@140 933 strcpy(author, "");
jamie@140 934 break;
jamie@140 935 case XTRACT_AUTOCORRELATION:
jamie@140 936 strcpy(name, "autocorrelation");
jamie@140 937 strcpy(p_name, "Autocorrelation");
jamie@140 938 strcpy(desc, "Extract the autocorrelation of a signal");
jamie@140 939 strcpy(p_desc,
jamie@140 940 "Extract the autocorrelation of an audio signal");
jamie@140 941 strcpy(author, "");
jamie@140 942 break;
jamie@140 943 case XTRACT_AMDF:
jamie@140 944 strcpy(name, "amdf");
jamie@140 945 strcpy(p_name, "Average Magnitude Difference Function");
jamie@140 946 strcpy(desc, "Extract the AMDF of a signal");
jamie@140 947 strcpy(p_desc, "Extract the AMDF of an audio signal");
jamie@140 948 strcpy(author, "");
jamie@140 949 break;
jamie@140 950 case XTRACT_ASDF:
jamie@140 951 strcpy(name, "asdf");
jamie@140 952 strcpy(p_name, "Average Squared Difference Function");
jamie@140 953 strcpy(desc, "Extract the ASDF of a signal");
jamie@140 954 strcpy(p_desc, "Extract the ASDF of an audio signal");
jamie@140 955 strcpy(author, "");
jamie@140 956 break;
jamie@140 957 case XTRACT_NONZERO_COUNT:
jamie@140 958 strcpy(name, "nonzero_count");
jamie@140 959 strcpy(p_name, "Non-zero count");
jamie@140 960 strcpy(desc,
jamie@140 961 "Extract the number of non-zero elements in the input vector");
jamie@140 962 strcpy(p_desc,
jamie@140 963 "Extract the number of non-zero elements in an input spectrum");
jamie@140 964 strcpy(author, "");
jamie@140 965 break;
jamie@140 966 case XTRACT_WINDOWED:
jamie@140 967 strcpy(name, "windowed");
jamie@140 968 strcpy(p_name, "Windowed frame");
jamie@140 969 strcpy(desc, "Apply a window function to a frame of data");
jamie@140 970 strcpy(p_desc, "Apply a window function to a frame of data");
jamie@140 971 strcpy(author, "");
jamie@140 972 break;
jamie@140 973 default:
jamie@140 974 strcpy(name, "");
jamie@140 975 strcpy(p_name, "");
jamie@140 976 strcpy(desc, "");
jamie@140 977 strcpy(p_desc, "");
jamie@140 978 strcpy(author, "");
jamie@140 979 break;
jamie@108 980 }
jamie@55 981
jamie@140 982 switch(f)
jamie@140 983 {
jamie@55 984
jamie@140 985 case XTRACT_VARIANCE:
jamie@140 986 case XTRACT_STANDARD_DEVIATION:
jamie@140 987 case XTRACT_AVERAGE_DEVIATION:
jamie@140 988 case XTRACT_SPECTRAL_VARIANCE:
jamie@140 989 case XTRACT_SPECTRAL_STANDARD_DEVIATION:
jamie@123 990 /* case XTRACT_SPECTRAL_AVERAGE_DEVIATION: */
jamie@140 991 case XTRACT_SPECTRAL_INHARMONICITY:
jamie@140 992 case XTRACT_LOWEST_VALUE:
jamie@140 993 case XTRACT_F0:
jamie@140 994 case XTRACT_FAILSAFE_F0:
jamie@161 995 case XTRACT_WAVELET_F0:
jamie@140 996 case XTRACT_FLATNESS_DB:
jamie@140 997 case XTRACT_TONALITY:
jamie@140 998 *argc = 1;
jamie@140 999 *argv_type = XTRACT_FLOAT;
jamie@140 1000 break;
jamie@140 1001 case XTRACT_SKEWNESS:
jamie@140 1002 case XTRACT_KURTOSIS:
jamie@140 1003 case XTRACT_SPECTRAL_SKEWNESS:
jamie@140 1004 case XTRACT_SPECTRAL_KURTOSIS:
jamie@140 1005 case XTRACT_PEAK_SPECTRUM:
jamie@140 1006 case XTRACT_HARMONIC_SPECTRUM:
jamie@140 1007 case XTRACT_NOISINESS:
jamie@140 1008 case XTRACT_CREST:
jamie@140 1009 case XTRACT_ROLLOFF:
jamie@140 1010 case XTRACT_FLUX:
jamie@140 1011 case XTRACT_LNORM:
jamie@140 1012 *argc = 2;
jamie@140 1013 *argv_type = XTRACT_FLOAT;
jamie@140 1014 break;
jamie@140 1015 case XTRACT_SPECTRUM:
jamie@140 1016 *argc = 4;
jamie@140 1017 *argv_type = XTRACT_FLOAT;
jamie@140 1018 break;
jamie@140 1019 case XTRACT_SUBBANDS:
jamie@140 1020 *argc = 4;
jamie@140 1021 *argv_type = XTRACT_INT;
jamie@140 1022 break;
jamie@140 1023 case XTRACT_MFCC:
jamie@140 1024 *argc = 1;
jamie@140 1025 *argv_type = XTRACT_MEL_FILTER;
jamie@140 1026 break;
jamie@140 1027 case XTRACT_LPCC:
jamie@140 1028 *argc = 1;
jamie@140 1029 *argv_type = XTRACT_INT;
jamie@140 1030 break;
jamie@140 1031 case XTRACT_BARK_COEFFICIENTS:
jamie@140 1032 *argc = XTRACT_BARK_BANDS;
jamie@140 1033 *argv_type = XTRACT_INT;
jamie@140 1034 break;
jamie@140 1035 case XTRACT_WINDOWED:
jamie@140 1036 *argc = XTRACT_WINDOW_SIZE;
jamie@140 1037 *argv_type = XTRACT_FLOAT;
jamie@140 1038 break;
jamie@140 1039 case XTRACT_MEAN:
jamie@140 1040 case XTRACT_SPECTRAL_MEAN:
jamie@140 1041 case XTRACT_SPECTRAL_CENTROID:
jamie@140 1042 case XTRACT_IRREGULARITY_K:
jamie@140 1043 case XTRACT_IRREGULARITY_J:
jamie@140 1044 case XTRACT_TRISTIMULUS_1:
jamie@140 1045 case XTRACT_TRISTIMULUS_2:
jamie@140 1046 case XTRACT_TRISTIMULUS_3:
jamie@140 1047 case XTRACT_SMOOTHNESS:
jamie@140 1048 case XTRACT_FLATNESS:
jamie@140 1049 case XTRACT_SPREAD:
jamie@140 1050 case XTRACT_ZCR:
jamie@140 1051 case XTRACT_LOUDNESS:
jamie@140 1052 case XTRACT_HIGHEST_VALUE:
jamie@140 1053 case XTRACT_SUM:
jamie@140 1054 case XTRACT_RMS_AMPLITUDE:
jamie@140 1055 case XTRACT_POWER:
jamie@140 1056 case XTRACT_SHARPNESS:
jamie@140 1057 case XTRACT_SPECTRAL_SLOPE:
jamie@140 1058 case XTRACT_HPS:
jamie@140 1059 case XTRACT_ATTACK_TIME:
jamie@140 1060 case XTRACT_DECAY_TIME:
jamie@140 1061 case XTRACT_DIFFERENCE_VECTOR:
jamie@140 1062 case XTRACT_AUTOCORRELATION_FFT:
jamie@140 1063 case XTRACT_DCT:
jamie@140 1064 case XTRACT_AUTOCORRELATION:
jamie@140 1065 case XTRACT_AMDF:
jamie@140 1066 case XTRACT_ASDF:
jamie@140 1067 case XTRACT_NONZERO_COUNT:
jamie@140 1068 case XTRACT_ODD_EVEN_RATIO:
jamie@140 1069 case XTRACT_LPC:
jamie@140 1070 default:
jamie@140 1071 *argc = 0;
jamie@140 1072 break;
jamie@108 1073 }
jamie@55 1074
jamie@108 1075 is_scalar = &d->is_scalar;
jamie@108 1076
jamie@140 1077 switch(f)
jamie@140 1078 {
jamie@140 1079 case XTRACT_MEAN:
jamie@140 1080 case XTRACT_VARIANCE:
jamie@140 1081 case XTRACT_STANDARD_DEVIATION:
jamie@140 1082 case XTRACT_AVERAGE_DEVIATION:
jamie@140 1083 case XTRACT_SKEWNESS:
jamie@140 1084 case XTRACT_KURTOSIS:
jamie@140 1085 case XTRACT_SPECTRAL_MEAN:
jamie@140 1086 case XTRACT_SPECTRAL_VARIANCE:
jamie@140 1087 case XTRACT_SPECTRAL_STANDARD_DEVIATION:
jamie@140 1088 /* case XTRACT_SPECTRAL_AVERAGE_DEVIATION: */
jamie@140 1089 case XTRACT_SPECTRAL_SKEWNESS:
jamie@140 1090 case XTRACT_SPECTRAL_KURTOSIS:
jamie@140 1091 case XTRACT_SPECTRAL_CENTROID:
jamie@140 1092 case XTRACT_IRREGULARITY_K:
jamie@140 1093 case XTRACT_IRREGULARITY_J:
jamie@140 1094 case XTRACT_TRISTIMULUS_1:
jamie@140 1095 case XTRACT_TRISTIMULUS_2:
jamie@140 1096 case XTRACT_TRISTIMULUS_3:
jamie@140 1097 case XTRACT_SMOOTHNESS:
jamie@140 1098 case XTRACT_SPREAD:
jamie@140 1099 case XTRACT_ZCR:
jamie@140 1100 case XTRACT_ROLLOFF:
jamie@140 1101 case XTRACT_LOUDNESS:
jamie@140 1102 case XTRACT_FLATNESS:
jamie@140 1103 case XTRACT_FLATNESS_DB:
jamie@140 1104 case XTRACT_TONALITY:
jamie@140 1105 case XTRACT_CREST:
jamie@140 1106 case XTRACT_NOISINESS:
jamie@140 1107 case XTRACT_RMS_AMPLITUDE:
jamie@140 1108 case XTRACT_SPECTRAL_INHARMONICITY:
jamie@140 1109 case XTRACT_POWER:
jamie@140 1110 case XTRACT_ODD_EVEN_RATIO:
jamie@140 1111 case XTRACT_SHARPNESS:
jamie@140 1112 case XTRACT_SPECTRAL_SLOPE:
jamie@140 1113 case XTRACT_LOWEST_VALUE:
jamie@140 1114 case XTRACT_HIGHEST_VALUE:
jamie@140 1115 case XTRACT_SUM:
jamie@140 1116 case XTRACT_HPS:
jamie@140 1117 case XTRACT_F0:
jamie@140 1118 case XTRACT_FAILSAFE_F0:
jamie@161 1119 case XTRACT_WAVELET_F0:
jamie@140 1120 case XTRACT_FLUX:
jamie@140 1121 case XTRACT_LNORM:
jamie@140 1122 case XTRACT_NONZERO_COUNT:
jamie@140 1123 *is_scalar = XTRACT_TRUE;
jamie@140 1124 break;
jamie@140 1125 case XTRACT_AUTOCORRELATION:
jamie@140 1126 case XTRACT_AMDF:
jamie@140 1127 case XTRACT_ASDF:
jamie@140 1128 case XTRACT_BARK_COEFFICIENTS:
jamie@140 1129 case XTRACT_PEAK_SPECTRUM:
jamie@140 1130 case XTRACT_SPECTRUM:
jamie@140 1131 case XTRACT_SUBBANDS:
jamie@140 1132 case XTRACT_AUTOCORRELATION_FFT:
jamie@140 1133 case XTRACT_MFCC:
jamie@140 1134 case XTRACT_LPC:
jamie@140 1135 case XTRACT_LPCC:
jamie@140 1136 case XTRACT_DCT:
jamie@140 1137 case XTRACT_HARMONIC_SPECTRUM:
jamie@140 1138 case XTRACT_DIFFERENCE_VECTOR:
jamie@140 1139 case XTRACT_WINDOWED:
jamie@140 1140 *is_scalar = XTRACT_FALSE;
jamie@140 1141 break;
jamie@140 1142 default:
jamie@140 1143 *is_scalar = XTRACT_TRUE;
jamie@140 1144 break;
jamie@140 1145
jamie@140 1146 }
jamie@140 1147
jamie@140 1148 is_delta = &d->is_delta;
jamie@140 1149
jamie@140 1150 switch(f)
jamie@140 1151 {
jamie@140 1152 case XTRACT_FLUX:
jamie@140 1153 case XTRACT_LNORM:
jamie@140 1154 case XTRACT_DIFFERENCE_VECTOR:
jamie@140 1155 *is_delta = XTRACT_TRUE;
jamie@140 1156 break;
jamie@140 1157 case XTRACT_MEAN:
jamie@140 1158 case XTRACT_VARIANCE:
jamie@140 1159 case XTRACT_STANDARD_DEVIATION:
jamie@140 1160 case XTRACT_AVERAGE_DEVIATION:
jamie@140 1161 case XTRACT_SKEWNESS:
jamie@140 1162 case XTRACT_KURTOSIS:
jamie@140 1163 case XTRACT_SPECTRAL_MEAN:
jamie@140 1164 case XTRACT_SPECTRAL_VARIANCE:
jamie@140 1165 case XTRACT_SPECTRAL_STANDARD_DEVIATION:
jamie@140 1166 /* case XTRACT_SPECTRAL_AVERAGE_DEVIATION: */
jamie@140 1167 case XTRACT_SPECTRAL_SKEWNESS:
jamie@140 1168 case XTRACT_SPECTRAL_KURTOSIS:
jamie@140 1169 case XTRACT_SPECTRAL_CENTROID:
jamie@140 1170 case XTRACT_IRREGULARITY_K:
jamie@140 1171 case XTRACT_IRREGULARITY_J:
jamie@140 1172 case XTRACT_TRISTIMULUS_1:
jamie@140 1173 case XTRACT_TRISTIMULUS_2:
jamie@140 1174 case XTRACT_TRISTIMULUS_3:
jamie@140 1175 case XTRACT_SMOOTHNESS:
jamie@140 1176 case XTRACT_SPREAD:
jamie@140 1177 case XTRACT_ZCR:
jamie@140 1178 case XTRACT_ROLLOFF:
jamie@140 1179 case XTRACT_LOUDNESS:
jamie@140 1180 case XTRACT_FLATNESS:
jamie@140 1181 case XTRACT_FLATNESS_DB:
jamie@140 1182 case XTRACT_TONALITY:
jamie@140 1183 case XTRACT_CREST:
jamie@140 1184 case XTRACT_NOISINESS:
jamie@140 1185 case XTRACT_RMS_AMPLITUDE:
jamie@140 1186 case XTRACT_SPECTRAL_INHARMONICITY:
jamie@140 1187 case XTRACT_POWER:
jamie@140 1188 case XTRACT_ODD_EVEN_RATIO:
jamie@140 1189 case XTRACT_SHARPNESS:
jamie@140 1190 case XTRACT_SPECTRAL_SLOPE:
jamie@140 1191 case XTRACT_LOWEST_VALUE:
jamie@140 1192 case XTRACT_HIGHEST_VALUE:
jamie@140 1193 case XTRACT_SUM:
jamie@140 1194 case XTRACT_HPS:
jamie@140 1195 case XTRACT_F0:
jamie@140 1196 case XTRACT_FAILSAFE_F0:
jamie@161 1197 case XTRACT_WAVELET_F0:
jamie@140 1198 case XTRACT_NONZERO_COUNT:
jamie@140 1199 case XTRACT_AUTOCORRELATION:
jamie@140 1200 case XTRACT_AMDF:
jamie@140 1201 case XTRACT_ASDF:
jamie@140 1202 case XTRACT_BARK_COEFFICIENTS:
jamie@140 1203 case XTRACT_PEAK_SPECTRUM:
jamie@140 1204 case XTRACT_SPECTRUM:
jamie@140 1205 case XTRACT_SUBBANDS:
jamie@140 1206 case XTRACT_AUTOCORRELATION_FFT:
jamie@140 1207 case XTRACT_MFCC:
jamie@140 1208 case XTRACT_LPC:
jamie@140 1209 case XTRACT_LPCC:
jamie@140 1210 case XTRACT_DCT:
jamie@140 1211 case XTRACT_HARMONIC_SPECTRUM:
jamie@140 1212 case XTRACT_WINDOWED:
jamie@140 1213 default:
jamie@140 1214 *is_delta = XTRACT_FALSE;
jamie@140 1215 break;
jamie@140 1216 }
jamie@140 1217
jamie@140 1218 if(*is_scalar)
jamie@140 1219 {
jamie@140 1220
jamie@140 1221 result_unit = &d->result.scalar.unit;
jamie@140 1222 result_min = &d->result.scalar.min;
jamie@140 1223 result_max = &d->result.scalar.max;
jamie@140 1224
jamie@140 1225 switch(f)
jamie@140 1226 {
jamie@108 1227 case XTRACT_MEAN:
jamie@108 1228 case XTRACT_VARIANCE:
jamie@108 1229 case XTRACT_STANDARD_DEVIATION:
jamie@108 1230 case XTRACT_AVERAGE_DEVIATION:
jamie@108 1231 case XTRACT_SKEWNESS:
jamie@108 1232 case XTRACT_KURTOSIS:
jamie@140 1233 case XTRACT_RMS_AMPLITUDE:
jamie@140 1234 case XTRACT_LOWEST_VALUE:
jamie@140 1235 case XTRACT_HIGHEST_VALUE:
jamie@140 1236 case XTRACT_SUM:
jamie@140 1237 case XTRACT_FLUX:
jamie@140 1238 case XTRACT_LNORM:
jamie@140 1239 case XTRACT_NONZERO_COUNT:
jamie@140 1240 case XTRACT_WINDOWED:
jamie@140 1241 *result_unit = XTRACT_ANY;
jamie@140 1242 *result_min = XTRACT_ANY;
jamie@140 1243 *result_max = XTRACT_ANY;
jamie@140 1244 break;
jamie@108 1245 case XTRACT_SPECTRAL_SKEWNESS:
jamie@108 1246 case XTRACT_SPECTRAL_KURTOSIS:
jamie@108 1247 case XTRACT_IRREGULARITY_K:
jamie@108 1248 case XTRACT_IRREGULARITY_J:
jamie@108 1249 case XTRACT_TRISTIMULUS_1:
jamie@108 1250 case XTRACT_TRISTIMULUS_2:
jamie@108 1251 case XTRACT_TRISTIMULUS_3:
jamie@140 1252 case XTRACT_NOISINESS:
jamie@108 1253 case XTRACT_SMOOTHNESS:
jamie@140 1254 *result_unit = XTRACT_NONE;
jamie@140 1255 *result_min = XTRACT_ANY; /* FIX: need to check these */
jamie@140 1256 *result_max = XTRACT_ANY;
jamie@108 1257 break;
jamie@108 1258 case XTRACT_SPECTRAL_MEAN:
jamie@108 1259 case XTRACT_SPECTRAL_VARIANCE:
jamie@108 1260 case XTRACT_SPECTRAL_STANDARD_DEVIATION:
jamie@140 1261 /* case XTRACT_SPECTRAL_AVERAGE_DEVIATION: */
jamie@108 1262 case XTRACT_SPECTRAL_CENTROID:
jamie@108 1263 case XTRACT_SPREAD:
jamie@140 1264 case XTRACT_F0:
jamie@140 1265 case XTRACT_FAILSAFE_F0:
jamie@161 1266 case XTRACT_WAVELET_F0:
jamie@140 1267 case XTRACT_HPS:
jamie@140 1268 case XTRACT_ROLLOFF:
jamie@140 1269 *result_unit = XTRACT_HERTZ;
jamie@146 1270 *result_min = 0.0;
jamie@146 1271 *result_max = XTRACT_SR_UPPER_LIMIT / 2.0;
jamie@140 1272 break;
jamie@108 1273 case XTRACT_ZCR:
jamie@140 1274 *result_unit = XTRACT_HERTZ;
jamie@146 1275 *result_min = 0.0;
jamie@140 1276 *result_max = XTRACT_ANY;
jamie@140 1277 break;
jamie@140 1278 case XTRACT_ODD_EVEN_RATIO:
jamie@140 1279 *result_unit = XTRACT_NONE;
jamie@146 1280 *result_min = 0.0;
jamie@146 1281 *result_max = 1.0;
jamie@140 1282 break;
jamie@140 1283 case XTRACT_FLATNESS_DB:
jamie@140 1284 *result_unit = XTRACT_DBFS;
jamie@140 1285 *result_min = XTRACT_ANY; /* FIX: check this */
jamie@140 1286 *result_max = XTRACT_ANY;
jamie@140 1287 break;
jamie@108 1288 case XTRACT_LOUDNESS:
jamie@108 1289 case XTRACT_FLATNESS:
jamie@108 1290 case XTRACT_TONALITY:
jamie@108 1291 case XTRACT_CREST:
jamie@108 1292 case XTRACT_SPECTRAL_INHARMONICITY:
jamie@108 1293 case XTRACT_POWER:
jamie@108 1294 case XTRACT_SHARPNESS:
jamie@108 1295 case XTRACT_SPECTRAL_SLOPE:
jamie@108 1296 case XTRACT_LPC:
jamie@108 1297 case XTRACT_LPCC:
jamie@108 1298 default:
jamie@140 1299 *result_unit = XTRACT_UNKNOWN;
jamie@140 1300 *result_min = XTRACT_UNKNOWN;
jamie@140 1301 *result_max = XTRACT_UNKNOWN;
jamie@108 1302 break;
jamie@108 1303 }
jamie@108 1304 }
jamie@140 1305 else
jamie@140 1306 {
jamie@55 1307
jamie@108 1308 result_min = NULL;
jamie@108 1309 result_max = NULL;
jamie@108 1310 result_unit = &d->result.vector.unit;
jamie@108 1311 result_format = &d->result.vector.format;
jamie@55 1312
jamie@140 1313 switch(f)
jamie@140 1314 {
jamie@140 1315 case XTRACT_AUTOCORRELATION:
jamie@140 1316 case XTRACT_AMDF:
jamie@140 1317 case XTRACT_ASDF:
jamie@140 1318 case XTRACT_DCT:
jamie@140 1319 case XTRACT_SUBBANDS:
jamie@140 1320 case XTRACT_WINDOWED:
jamie@140 1321 *result_format = XTRACT_ARBITRARY_SERIES;
jamie@140 1322 *result_unit = XTRACT_ANY;
jamie@140 1323 break;
jamie@140 1324 case XTRACT_BARK_COEFFICIENTS:
jamie@140 1325 *result_format = XTRACT_BARK_COEFFS;
jamie@140 1326 *result_unit = XTRACT_UNKNOWN; /* FIX: check */
jamie@140 1327 break;
jamie@140 1328 case XTRACT_PEAK_SPECTRUM:
jamie@140 1329 case XTRACT_SPECTRUM:
jamie@140 1330 case XTRACT_HARMONIC_SPECTRUM:
jamie@140 1331 *result_format = XTRACT_SPECTRAL;
jamie@140 1332 *result_unit = XTRACT_ANY_AMPLITUDE_HERTZ;
jamie@140 1333 break;
jamie@140 1334 case XTRACT_AUTOCORRELATION_FFT:
jamie@140 1335 break;
jamie@140 1336 case XTRACT_MFCC:
jamie@140 1337 *result_format = XTRACT_MEL_COEFFS;
jamie@140 1338 *result_unit = XTRACT_UNKNOWN; /* FIX: check */
jamie@140 1339 break;
jamie@140 1340 case XTRACT_LPC:
jamie@140 1341 *result_format = XTRACT_LPC_COEFFS;
jamie@140 1342 *result_unit = XTRACT_UNKNOWN;
jamie@140 1343 break;
jamie@140 1344 case XTRACT_LPCC:
jamie@140 1345 *result_format = XTRACT_LPCC_COEFFS;
jamie@140 1346 *result_unit = XTRACT_UNKNOWN;
jamie@140 1347 break;
jamie@140 1348 default:
jamie@140 1349 break;
jamie@108 1350 }
jamie@108 1351 }
jamie@50 1352 }
jamie@50 1353
jamie@50 1354 return fd;
jamie@50 1355 }
jamie@50 1356
jamie@140 1357 int xtract_free_descriptors(xtract_function_descriptor_t *fd)
jamie@140 1358 {
jamie@50 1359
jamie@140 1360 if (fd != NULL)
jamie@140 1361 {
jamie@108 1362 free(fd);
jamie@50 1363 }
jamie@50 1364
jamie@56 1365 return XTRACT_SUCCESS;
jamie@50 1366 }
jamie@50 1367
jamie@50 1368
jamie@50 1369
jamie@50 1370
jamie@50 1371