libxtract: xtract/xtract_scalar.h annotate

annotate xtract/xtract_scalar.h @ 56:450712b21565

Added namespacing to enumerations and defines. Made most macros private.

author	Jamie Bullock <jamie@postlude.co.uk>
date	Mon, 29 Jan 2007 11:30:11 +0000
parents	4ea1a8838b14
children	8fd7088c8ff6

rev	line source
jamie@1	1 /* libxtract feature extraction library
jamie@1	2 *
jamie@1	3 * Copyright (C) 2006 Jamie Bullock
jamie@1	4 *
jamie@1	5 * This program is free software; you can redistribute it and/or modify
jamie@1	6 * it under the terms of the GNU General Public License as published by
jamie@1	7 * the Free Software Foundation; either version 2 of the License, or
jamie@1	8 * (at your option) any later version.
jamie@1	9 *
jamie@1	10 * This program is distributed in the hope that it will be useful,
jamie@1	11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
jamie@1	12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
jamie@1	13 * GNU General Public License for more details.
jamie@1	14 *
jamie@1	15 * You should have received a copy of the GNU General Public License
jamie@1	16 * along with this program; if not, write to the Free Software
jamie@1	17 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301,
jamie@1	18 * USA.
jamie@1	19 */
jamie@1	20
jamie@2	21 /** \file xtract_scalar.h: declares functions that extract a feature as a single value from an input vector */
jamie@1	22
jamie@56	23 #ifndef XTRACT_SCALAR_H
jamie@56	24 #define XTRACT_SCALAR_H
jamie@1	25
jamie@1	26 #ifdef __cplusplus
jamie@1	27 extern "C" {
jamie@1	28 #endif
jamie@1	29
jamie@20	30 /**
jamie@20	31 * \defgroup scalar extraction functions
jamie@20	32 *
jamie@20	33 * Defines scalar extraction functions, and their parameters.
jamie@20	34 * @{
jamie@20	35 */
jamie@1	36
jamie@2	37 /** \brief Extract the mean of an input vector
jamie@2	38 *
jamie@52	39 * \param *data: a pointer to the first element
jamie@2	40 * \param N: the number of array elements to be considered
jamie@2	41 * \param *argv: a pointer to NULL
jamie@2	42 * \param result: the mean of N values from the array pointed to by data
jamie@2	43 */
jamie@43	44 int xtract_mean(const float data, const int N, const void argv, float *result);
jamie@1	45
jamie@2	46 /** \brief Extract the variance of an input vector
jamie@2	47 *
jamie@2	48 * \param *data: a pointer to the first element in an array of floats
jamie@2	49 * \param N: the number of elements to be considered
jamie@41	50 * \param *argv: a pointer to a float representing the mean of the input vector
jamie@2	51 * \param result: the variance of N values from the array pointed to by data
jamie@2	52 */
jamie@43	53 int xtract_variance(const float data, const int N, const void argv, float *result);
jamie@2	54
jamie@2	55 /** \brief Extract the deviation of an input vector
jamie@2	56 *
jamie@2	57 * \param *data: a pointer to the first element in an array of floats
jamie@2	58 * \param N: the number of elements to be considered
jamie@41	59 * \param *argv: a pointer to a float representing the variance of the input vector
jamie@2	60 * \param result: the deviation of N values from the array pointed to by data
jamie@2	61 */
jamie@43	62 int xtract_standard_deviation(const float data, const int N, const void argv, float *result);
jamie@2	63
jamie@2	64 /** \brief Extract the average deviation of an input vector
jamie@2	65 *
jamie@2	66 * \param *data: a pointer to the first element in an array of floats
jamie@2	67 * \param N: the number of elements to be considered
jamie@41	68 * \param *argv: a pointer to a float representing the mean of the input vector
jamie@2	69 * \param result: the average deviation of N values from the array pointed to by data
jamie@2	70 */
jamie@43	71 int xtract_average_deviation(const float data, const int N, const void argv, float *result);
jamie@2	72
jamie@2	73 /** \brief Extract the skewness of an input vector
jamie@2	74 *
jamie@2	75 * \param *data: a pointer to the first element in an array of floats
jamie@2	76 * \param N: the number of elements to be considered
jamie@41	77 * \param *argv: a pointer to an array of floats representing the mean and standard deviation of the input vector
jamie@2	78 * \param result: the skewness of N values from the array pointed to by data
jamie@2	79 */
jamie@43	80 int xtract_skewness(const float data, const int N, const void argv, float *result);
jamie@2	81
jamie@2	82 /** \brief Extract the kurtosis of an input vector
jamie@2	83 *
jamie@2	84 * \param *data: a pointer to the first element in an array of floats
jamie@2	85 * \param N: the number of elements to be considered
jamie@2	86 * \param *argv: a pointer to an array of values representing the mean and standard deviation of the input vector
jamie@2	87 * \param result: the kurtosis of N values from the array pointed to by data
jamie@2	88 */
jamie@43	89 int xtract_kurtosis(const float data, const int N, const void argv, float *result);
jamie@1	90
jamie@52	91 /** \brief Extract the mean of an input spectrum
jamie@52	92 *
jamie@52	93 * \param data: a pointer to the first element in an array of floats representing the spectrum of an audio vector, (e.g. the array pointed to by result from xtract_magnitude_spectrum(), xtract_spectral_peaks() or xtract_spectral_harmonics()).
jamie@52	94 * \param N: the size of the array pointed to by *data
jamie@52	95 * \param *argv: a pointer to NULL
jamie@52	96 * \param result: the mean of the spectrum pointed to by data
jamie@52	97 */
jamie@52	98 int xtract_spectral_mean(const float data, const int N, const void argv, float *result);
jamie@52	99
jamie@52	100 /** \brief Extract the variance of an input spectrum
jamie@52	101 *
jamie@52	102 * \param data: a pointer to the first element in an array of floats representing the spectrum of an audio vector, (e.g. the array pointed to by result from xtract_magnitude_spectrum(), xtract_spectral_peaks() or xtract_spectral_harmonics()).
jamie@52	103 * \param N: the number of elements to be considered
jamie@52	104 * \param N: the size of the array pointed to by *data
jamie@52	105 * \param *argv: a pointer to a float representing the mean of the input spectrum
jamie@52	106 * \param result: the variance of the spectrum pointed to by data
jamie@52	107 */
jamie@52	108 int xtract_spectral_variance(const float data, const int N, const void argv, float *result);
jamie@52	109
jamie@52	110 /** \brief Extract the deviation of an input spectrum
jamie@52	111 *
jamie@52	112 * \param data: a pointer to the first element in an array of floats representing the spectrum of an audio vector, (e.g. the array pointed to by result from xtract_magnitude_spectrum(), xtract_spectral_peaks() or xtract_spectral_harmonics()).
jamie@52	113 * \param N: the size of the array pointed to by *data
jamie@52	114 * \param *argv: a pointer to a float representing the variance of the input spectrum
jamie@52	115 * \param result: the deviation of the spectrum pointed to by data
jamie@52	116 */
jamie@52	117 int xtract_spectral_standard_deviation(const float data, const int N, const void argv, float *result);
jamie@52	118
jamie@52	119 /** \brief Extract the average deviation of an input spectrum
jamie@52	120 *
jamie@52	121 * \param data: a pointer to the first element in an array of floats representing the spectrum of an audio vector, (e.g. the array pointed to by result from xtract_magnitude_spectrum(), xtract_spectral_peaks() or xtract_spectral_harmonics()).
jamie@52	122 * \param N: the size of the array pointed to by *data
jamie@52	123 * \param *argv: a pointer to a float representing the mean of the input spectrum
jamie@52	124 * \param result: the average deviation of the spectrum pointed to by data
jamie@52	125 */
jamie@52	126 int xtract_spectral_average_deviation(const float data, const int N, const void argv, float *result);
jamie@52	127
jamie@52	128 /** \brief Extract the skewness of an input spectrum
jamie@52	129 *
jamie@52	130 * \param data: a pointer to the first element in an array of floats representing the spectrum of an audio vector, (e.g. the array pointed to by result from xtract_magnitude_spectrum(), xtract_spectral_peaks() or xtract_spectral_harmonics()).
jamie@52	131 * \param N: the size of the array pointed to by *data
jamie@52	132 * \param *argv: a pointer to an array of floats representing the mean and standard deviation of the input spectrum
jamie@52	133 * \param result: the skewness of the spectrum pointed to by data
jamie@52	134 */
jamie@52	135 int xtract_spectral_skewness(const float data, const int N, const void argv, float *result);
jamie@52	136
jamie@52	137 /** \brief Extract the kurtosis of an input spectrum
jamie@52	138 *
jamie@52	139 * \param data: a pointer to the first element in an array of floats representing the spectrum of an audio vector, (e.g. the array pointed to by result from xtract_magnitude_spectrum(), xtract_spectral_peaks() or xtract_spectral_harmonics()).
jamie@52	140 * \param N: the size of the array pointed to by *data
jamie@52	141 * \param *argv: a pointer to an array of values representing the mean and standard deviation of the input spectrum
jamie@52	142 * \param result: the kurtosis of the spectrum pointed to by data
jamie@52	143 */
jamie@52	144 int xtract_spectral_kurtosis(const float data, const int N, const void argv, float *result);
jamie@52	145
jamie@41	146 /** \brief Extract the centroid of an input vector
jamie@11	147 *
jamie@52	148 * \param data: a pointer to the first element in an array of floats representing the spectrum of an audio vector, (e.g. the array pointed to by result from xtract_magnitude_spectrum(), xtract_spectral_peaks() or xtract_spectral_harmonics()).
jamie@11	149 * \param N: the number of elements to be considered
jamie@11	150 * \param *argv: a pointer to NULL
jamie@11	151 * \param result: the centroid of the values pointed to by data
jamie@47	152 *
jamie@52	153 * Note: for a more 'accurate' result *result from xtract_spectral_peaks() can be passed in. This gives the interpolated peak frequency locations.
jamie@47	154 *
jamie@11	155 */
jamie@52	156 int xtract_spectral_centroid(const float data, const int N, const void argv, float *result);
jamie@11	157
jamie@2	158 /** \brief Calculate the Irregularity of an input vector using a method described by Krimphoff (1994)
jamie@2	159 *
jamie@54	160 * \param data: a pointer to the first element in an array of floats representing the magnitude coefficients from the spectrum of an audio vector, (e.g. the first half of the array pointed to by result from xtract_spectrum().
jamie@2	161 * \param N: the number of elements to be considered
jamie@2	162 * \param *argv: a pointer to NULL
jamie@2	163 * \param result: the irregularity of N values from the array pointed to by data
jamie@2	164 */
jamie@43	165 int xtract_irregularity_k(const float data, const int N, const void argv, float *result);
jamie@1	166
jamie@2	167 /** \brief Calculate the Irregularity of an input vector using a method described by Jensen (1999)
jamie@2	168 *
jamie@54	169 * \param data: a pointer to the first element in an array of floats representing the magnitude coefficients from the spectrum of an audio vector, (e.g. the first half of the array pointed to by result from xtract_spectrum().
jamie@2	170 * \param N: the number of elements to be considered
jamie@2	171 * \param *argv: a pointer to NULL
jamie@2	172 * \param result: the irregularity of N values from the array pointed to by data
jamie@2	173 */
jamie@43	174 int xtract_irregularity_j(const float data, const int N, const void argv, float *result);
jamie@1	175
jamie@2	176 /** \brief Calculate the Tristimulus of an input vector using a method described by Pollard and Jansson (1982)
jamie@2	177 *
jamie@54	178 * \param data: a pointer to the first element in an array of floats representing the magnitude coefficients of the harmonic spectrum of an audio vector e.g. a pointer to the first half of the array pointed to by result from xtract_harmonics(). The amplitudes of the peak spectrum (e.g. *result from xtract_spectral_peaks()) can be used if one wishes to consider all partials not just harmonics.
jamie@2	179 * \param N: the number of elements to be considered
jamie@2	180 * \param *argv: a pointer to NULL
jamie@2	181 * \param result: the tristimulus of N values from the array pointed to by data
jamie@2	182 *
jamie@2	183 * These three functions provide the first, second and third order tristimulus formulae
jamie@2	184 *
jamie@2	185 */
jamie@43	186 int xtract_tristimulus_1(const float data, const int N, const void argv, float *result);
jamie@43	187 int xtract_tristimulus_2(const float data, const int N, const void argv, float *result);
jamie@43	188 int xtract_tristimulus_3(const float data, const int N, const void argv, float *result);
jamie@1	189
jamie@2	190 /** \brief Extract the smoothness of an input vector using a method described by McAdams (1999)
jamie@2	191 *
jamie@54	192 * \param data: a pointer to the first element in an array of floats representing the magnitude coefficients from the spectrum of an audio vector, (e.g. the first half of the array pointed to by result from xtract_spectrum().
jamie@2	193 * \param N: the number of elements to be considered
jamie@43	194 * \param *argv: a pointer to the first element of an array of integers containing the lower bound, upper bound, and pre-scaling factor, whereby array data in the range lower < n < upper will be pre-scaled by p before processing.
jamie@2	195 * \param result: the smoothness of N values from the array pointed to by data
jamie@2	196 */
jamie@43	197 int xtract_smoothness(const float data, const int N, const void argv, float *result);
jamie@1	198
jamie@2	199 /** \brief Extract the spectral spread of an input vector using a method described by Casagrande(2005)
jamie@2	200 *
jamie@54	201 * \param data: a pointer to the first element in an array of floats representing the magnitude coefficients from the spectrum of an audio vector, (e.g. the first half of the array pointed to by result from xtract_spectrum().
jamie@2	202 * \param N: the number of elements to be considered
jamie@2	203 * \param *argv: a pointer to NULL
jamie@2	204 * \param result: the spectral spread of N values from the array pointed to by data
jamie@2	205 */
jamie@43	206 int xtract_spread(const float data, const int N, const void argv, float *result);
jamie@1	207
jamie@1	208 /* Zero crossing rate */
jamie@1	209
jamie@2	210 /** \brief Extract the zero crossing rate of an input vector
jamie@2	211 *
jamie@2	212 * \param *data: a pointer to the first element in an array of floats
jamie@2	213 * \param N: the number of elements to be considered
jamie@2	214 * \param *argv: a pointer to NULL
jamie@2	215 * \param result: the zero crossing rate of N values from the array pointed to by data
jamie@2	216 */
jamie@43	217 int xtract_zcr(const float data, const int N, const void argv, float *result);
jamie@1	218
jamie@2	219 /** \brief Extract the spectral rolloff of an input vector using a method described by Bee Suan Ong (2005)
jamie@2	220 *
jamie@54	221 * \param data: a pointer to the first element in an array of floats representing the magnitude coefficients from the spectrum of an audio vector, (e.g. the first half of the array pointed to by result from xtract_spectrum().
jamie@2	222 * \param N: the number of elements to be considered
jamie@55	223 * \param *argv: a pointer to an array containing a float representing (samplerate / N ) and a float representing the threshold for rolloff, i.e. the percentile at which the rolloff is determined, expressed as a percentage, and
jamie@42	224 * \param result: the spectral rolloff in Hz of N values from the array pointed to by data. This is the point in the spectrum below which argv[0] of the energy is distributed.
jamie@2	225 */
jamie@43	226 int xtract_rolloff(const float data, const int N, const void argv, float *result);
jamie@1	227
jamie@47	228 /** \brief Extract the 'total loudness' of an input vector using a method described by Moore, Glasberg et al (2005)
jamie@2	229 *
jamie@2	230 * \param *data: a pointer to the first element in an array of floats representing a set of BARK_BANDS bark coefficients
jamie@2	231 * \param N: the number of coefficients to be considered
jamie@2	232 * \param *argv: a pointer to NULL
jamie@47	233 * \param result: the total loudness of N values from the array pointed to by data
jamie@47	234 *
jamie@47	235 * Note: if N = 1, the 'specific loudness' of the bark band pointed to by data will be given by result
jamie@47	236 *
jamie@2	237 */
jamie@43	238 int xtract_loudness(const float data, const int N, const void argv, float *result);
jamie@1	239
jamie@2	240 /** \brief Extract the spectral flatness measure of an input vector using a method described by Tristan Jehan (2005)
jamie@2	241 *
jamie@54	242 * \param data: a pointer to the first element in an array of floats representing the magnitude coefficients from the spectrum of an audio vector, (e.g. the first half of the array pointed to by result from xtract_spectrum().
jamie@2	243 * \param N: the number of elements to be considered
jamie@2	244 * \param *argv: a pointer to NULL
jamie@2	245 * \param result: the spectral flatness of N values from the array pointed to by data
jamie@2	246 */
jamie@43	247 int xtract_flatness(const float data, const int N, const void argv, float *result);
jamie@1	248
jamie@1	249
jamie@2	250 /** \brief Extract the tonality factor of an input vector using a method described by Tristan Jehan (2005)
jamie@2	251 *
jamie@42	252 * \param *data: not used.
jamie@42	253 * \param N: not used
jamie@42	254 * \param *argv: a pointer to the spectral flatness measure of an audio vector (e.g. the output from xtract_flatness)
jamie@2	255 * \param result: the tonality factor of N values from the array pointed to by data
jamie@2	256 */
jamie@43	257 int xtract_tonality(const float data, const int N, const void argv, float *result);
jamie@1	258
jamie@2	259 /** \brief Extract the noisiness of an input vector using a method described by Tae Hong Park (2000)
jamie@2	260 *
jamie@55	261 * \param *data: a pointer to NULL
jamie@55	262 * \param N:
jamie@55	263 * \param *argv: a pointer to an array containing a float represnting the number of harmonic partials in a spectrum, and a float representing the number of partials in a spectrum
jamie@55	264 * \param *result: the noisiness coefficient as calculated from argv
jamie@2	265 */
jamie@43	266 int xtract_noisiness(const float data, const int N, const void argv, float *result);
jamie@1	267
jamie@2	268 /** \brief Extract the RMS amplitude of an input vector using a method described by Tae Hong Park (2000)
jamie@2	269 *
jamie@2	270 * \param *data: a pointer to the first element in an array of floats
jamie@2	271 * \param N: the number of elements to be considered
jamie@2	272 * \param *argv: a pointer to NULL
jamie@2	273 * \param result: the RMS amplitude of N values from the array pointed to by data
jamie@2	274 */
jamie@43	275 int xtract_rms_amplitude(const float data, const int N, const void argv, float *result);
jamie@1	276
jamie@2	277 /** \brief Extract the Inharmonicity of an input vector
jamie@2	278 *
jamie@54	279 * \param *data: a pointer to the first element in an array of floats represeting a magnitude peak spectrum of size N/2, and a frequency spectrum of size N/2 (This is the output format of xtract_spectral_peaks())
jamie@2	280 * \param N: the number of elements to be considered
jamie@41	281 * \param *argv: a pointer to a float representing the fundamental frequency of the input vector.
jamie@2	282 * \param result: the inharmonicity of N values from the array pointed to by data
jamie@2	283 */
jamie@52	284 int xtract_spectral_inharmonicity(const float data, const int N, const void argv, float *result);
jamie@1	285
jamie@2	286 /** \brief Extract the spectral crest of an input vector using a method described by Peeters (2003)
jamie@2	287 *
jamie@55	288 * \param *data: a pointer to NULL
jamie@55	289 * \param N: not used
jamie@55	290 * \param *argv: a pointer to an array containing a float representing the maximum value in a spectrum, and a float representing the mean value of a spectrum
jamie@2	291 * \param result: the spectral crest of N values from the array pointed to by data
jamie@2	292 */
jamie@43	293 int xtract_crest(const float data, const int N, const void argv, float *result);
jamie@1	294
jamie@2	295 /** \brief Extract the Spectral Power of an input vector using a method described by Bee Suan Ong (2005)
jamie@2	296 *
jamie@54	297 * \param data: a pointer to the first element in an array of floats representing the magnitude coefficients from the spectrum of an audio vector, (e.g. the first half of the array pointed to by result from xtract_spectrum().
jamie@2	298 * \param N: the number of elements to be considered
jamie@2	299 * \param *argv: a pointer to NULL
jamie@2	300 * \param result: the spectral power of N values from the array pointed to by data
jamie@2	301 */
jamie@43	302 int xtract_power(const float data, const int N, const void argv, float *result);
jamie@1	303
jamie@1	304 /* Odd to even harmonic ratio */
jamie@2	305 /** \brief Extract the Odd to even harmonic ratio of an input vector
jamie@2	306 *
jamie@54	307 * \param data: a pointer to the first element in an array of floats representing the frequencies of the harmonic spectrum of an audio vector. It is sufficient to pass in a pointer to the second half of the array pointed to by result from xtract_harmonic_spectrum().
jamie@38	308 * \param N: the number of elements to be considered. If using the array pointed to by *result from xtract_harmonics, N should equal half the total array size i.e., just the frequencies of the peaks.
jamie@55	309 * \param *argv: a pointer to a float representing the fundamental frequency of the input vector.
jamie@2	310 * \param result: the odd/even harmonic ratio of N values from the array pointed to by data
jamie@2	311 */
jamie@43	312 int xtract_odd_even_ratio(const float data, const int N, const void argv, float *result);
jamie@1	313
jamie@2	314 /** \brief Extract the Sharpness of an input vector
jamie@2	315 *
jamie@54	316 * \param data: a pointer to the first element in an array of floats representing the magnitude coefficients from the spectrum of an audio vector, (e.g. the first half of the array pointed to by result from xtract_spectrum().
jamie@2	317 * \param N: the number of elements to be considered
jamie@2	318 * \param *argv: a pointer to NULL
jamie@2	319 * \param result: the Sharpness of N values from the array pointed to by data
jamie@2	320 */
jamie@43	321 int xtract_sharpness(const float data, const int N, const void argv, float *result);
jamie@1	322
jamie@48	323 /** \brief Extract the Slope of an input vector using a method described by Peeters(2003)
jamie@2	324 *
jamie@54	325 * \param data: a pointer to the first element in an array of floats representing the spectrum of an audio vector, (e.g. the array pointed to by result from xtract_magnitude_spectrum(), xtract_spectral_peaks() or xtract_spectral_harmonics()).
jamie@2	326 * \param N: the number of elements to be considered
jamie@2	327 * \param *argv: a pointer to NULL
jamie@2	328 * \param result: the Slope of N values from the array pointed to by data
jamie@2	329 */
jamie@52	330 int xtract_spectral_slope(const float data, const int N, const void argv, float *result);
jamie@1	331
jamie@45	332 /** \brief Extract the value of the lowest value in an input vector
jamie@2	333 *
jamie@43	334 * \param *data: a pointer to the first element in an array of floats
jamie@2	335 * \param N: the number of elements to be considered
jamie@45	336 * \param argv: a pointer to a float representing the lower limit for the search. i.e. (result > *argv) returns 1.
jamie@45	337 * \param result: a pointer to a value representing the lowest component in data that falls above a given threshold.
jamie@2	338 *
jamie@43	339 */
jamie@45	340 int xtract_lowest_value(const float data, const int N, const void argv, float *result);
jamie@45	341
jamie@45	342 /** \brief Extract the value of the highest value in an input vector
jamie@45	343 *
jamie@45	344 * \param *data: a pointer to the first element in an array of floats
jamie@45	345 * \param N: the number of elements to be considered
jamie@45	346 * \param *argv: a pointer to NULL.
jamie@45	347 * \param result: a pointer to a value representing the highest component in data.
jamie@45	348 *
jamie@45	349 */
jamie@45	350 int xtract_highest_value(const float data, const int N, const void argv, float *result);
jamie@45	351
jamie@45	352 /** \brief Extract the sum of the values in an input vector
jamie@45	353 *
jamie@45	354 * \param *data: a pointer to the first element in an array of floats
jamie@45	355 * \param N: the number of elements to be considered
jamie@45	356 * \param *argv: a pointer to NULL.
jamie@45	357 * \param result: a pointer to a value representing the sum of all of the values pointed to by data.
jamie@45	358 *
jamie@45	359 */
jamie@45	360 int xtract_sum(const float data, const int N, const void argv, float *result);
jamie@1	361
jamie@2	362 /** \brief Extract the Pitch of an input vector using Harmonic Product Spectrum (HPS) analysis
jamie@2	363 *
jamie@22	364 * \warning {This function doesn't work properly}
jamie@22	365 *
jamie@54	366 * \param data: a pointer to the first element in an array of floats representing the magnitude coefficients from the spectrum of an audio vector, (e.g. the first half of the array pointed to by result from xtract_spectrum().
jamie@2	367 * \param N: the number of elements to be considered
jamie@2	368 * \param *argv: a pointer to NULL
jamie@2	369 * \param result: the pitch of N values from the array pointed to by data
jamie@2	370 */
jamie@43	371 int xtract_hps(const float data, const int N, const void argv, float *result);
jamie@1	372
jamie@5	373 /** \brief Extract the fundamental frequency of an input vector
jamie@5	374 *
jamie@5	375 * \param *data: a pointer to the first element in an array of floats representing an audio vector
jamie@5	376 * \param N: the number of elements to be considered
jamie@22	377 * \param *argv: a pointer to a float representing the audio sample rate
jamie@5	378 * \param result: the pitch of N values from the array pointed to by data
jamie@12	379 *
jamie@22	380 * This algorithm is based on the AMDF, with peak and centre clipping. It would benefit from further improvements to improve noise robustness and overall efficiency
jamie@12	381 *
jamie@5	382 */
jamie@43	383 int xtract_f0(const float data, const int N, const void argv, float *result);
jamie@43	384
jamie@43	385 /** \brief Extract the fundamental frequency of an input vector
jamie@43	386 *
jamie@43	387 * \param *data: a pointer to the first element in an array of floats representing an audio vector
jamie@43	388 * \param N: the number of elements to be considered
jamie@43	389 * \param *argv: a pointer to a float representing the audio sample rate
jamie@43	390 * \param result: the pitch of N values from the array pointed to by data
jamie@43	391 *
jamie@43	392 * This function wraps xtract_f0, but provides the frequency of the lowest partial in the peak spectrum if f0 can't be found.
jamie@43	393 *
jamie@43	394 */
jamie@43	395 int xtract_failsafe_f0(const float data, const int N, const void argv, float *result);
jamie@5	396
jamie@20	397 /** @} */
jamie@20	398
jamie@1	399 #ifdef __cplusplus
jamie@1	400 }
jamie@1	401 #endif
jamie@1	402
jamie@1	403 #endif
jamie@1	404
jamie@1	405
jamie@1	406

Mercurial > hg > libxtract

annotate xtract/xtract_scalar.h @ 56:450712b21565