/* libxtract feature extraction library * * Copyright (C) 2006 Jamie Bullock * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, * USA. */ #include "xtract/libxtract.h" #include #include #define XTRACT void *xtract_make_descriptors(){ t_function_descriptor *fd, *d; t_type *type; int f , F; char *name, *p_name, *desc, *p_desc, *author; int *argc, *year; f = F = XTRACT_FEATURES; fd = malloc(XTRACT_FEATURES * sizeof(t_function_descriptor)); while(f--){ d = &fd[f]; argc = &d->argc; type = &d->argv.type; switch(f){ case MEAN: case VARIANCE: case STANDARD_DEVIATION: case AVERAGE_DEVIATION: case ROLLOFF: case INHARMONICITY: case MAGNITUDE_SPECTRUM: case ODD_EVEN_RATIO: case LOWEST_VALUE: case F0: case FAILSAFE_F0: case TONALITY: *argc = 1; d->argv.type = FLOAT; break; case SKEWNESS: case KURTOSIS: case PEAKS: case HARMONICS: case NOISINESS: case CREST: *argc = 2; d->argv.type = FLOAT; break; case MFCC: *argc = 1; d->argv.type = MEL_FILTER; break; case BARK_COEFFICIENTS: *argc = BARK_BANDS; d->argv.type = INT; break; case CENTROID: case IRREGULARITY_K: case IRREGULARITY_J: case TRISTIMULUS_1: case TRISTIMULUS_2: case TRISTIMULUS_3: case SMOOTHNESS: case FLATNESS: case SPREAD: case ZCR: case LOUDNESS: case HIGHEST_VALUE: case SUM: case RMS_AMPLITUDE: case POWER: case SHARPNESS: case SLOPE: case HPS: case FLUX: case ATTACK_TIME: case DECAY_TIME: case DELTA_FEATURE: case AUTOCORRELATION_FFT: case DCT: case AUTOCORRELATION: case AMDF: case ASDF: *argc = 0; break; default: *argc = 0; break; } name = d->algo.name; p_name = d->algo.p_name; desc = d->algo.desc; p_desc = d->algo.p_desc; author = d->algo.author; year = &d->algo.year; *year = 0; switch(f){ case MEAN: strcpy(name, "mean"); strcpy(p_name, "Spectral Mean"); strcpy(desc, "Extract the mean of an input vector"); strcpy(p_desc, "Extract the mean of a audio spectrum"); strcpy(author, ""); break; case VARIANCE: strcpy(name, "variance"); strcpy(p_name, "Variance"); strcpy(desc, "Extract the variance of an input vector"); strcpy(p_desc, "Extract the variance of an audio spectrum"); strcpy(author, ""); break; case STANDARD_DEVIATION: strcpy(name, "standard_deviation"); strcpy(p_name, "Standard Deviation"); strcpy(desc, "Extract the standard deviation of an input \ vector"); strcpy(p_desc, "Extract the standard deviation of an audio \ spectrum"); strcpy(author, ""); break; case AVERAGE_DEVIATION: strcpy(name, "average_deviation"); strcpy(p_name, "Average Deviation"); strcpy(desc, "Extract the average deviation of an input vector"); strcpy(p_desc, "Extract the average deviation of an audio \ spectrum"); strcpy(author, ""); break; case ROLLOFF: strcpy(name, "rolloff"); strcpy(p_name, "Spectral Rolloff"); strcpy(desc, "Extract the rolloff point of a spectrum"); strcpy(p_desc, "Extract the rolloff point of an audio \ spectrum"); strcpy(author, ""); break; case INHARMONICITY: strcpy(name, "inharmonicity"); strcpy(p_name, "Inharmonicity"); strcpy(desc, "Extract the inharmonicity of a spectrum"); strcpy(p_desc, "Extract the inharmonicity of an audio \ spectrum"); strcpy(author, ""); break; case MAGNITUDE_SPECTRUM: strcpy(name, "magnitude_spectrum"); strcpy(p_name, "Magnitude Spectrum"); strcpy(desc, "Extract the magnitude spectrum of an input \ vector"); strcpy(p_desc, "Extract the magnitude spectrum of an \ audio signal"); strcpy(author, ""); break; case ODD_EVEN_RATIO: strcpy(name, "odd_even_ratio"); strcpy(p_name, "Odd/Even Harmonic Ratio"); strcpy(desc, "Extract the odd-to-even harmonic ratio of a \ spectrum"); strcpy(p_desc, "Extract the odd-to-even harmonic ratio of an \ audio spectrum"); strcpy(author, ""); break; case LOWEST_VALUE: strcpy(name, "lowest_value"); strcpy(p_name, "Lowest Value"); strcpy(desc, "Extract the lowest value from an input vector"); strcpy(p_desc, "Extract the lowest value from a given range"); strcpy(author, ""); break; case F0: strcpy(name, "f0"); strcpy(p_name, "Fundamental Frequency"); strcpy(desc, "Extract the fundamental frequency of a signal"); strcpy(p_desc, "Extract the fundamental frequency of an audio \ signal"); strcpy(author, ""); break; case FAILSAFE_F0: strcpy(name, "failsafe_f0"); strcpy(p_name, "Fundamental Frequency (failsafe)"); strcpy(desc, "Extract the fundamental frequency of a signal"); strcpy(p_desc, "Extract the fundamental frequency of an audio \ signal"); strcpy(author, ""); break; case TONALITY: strcpy(name, "tonality"); strcpy(p_name, "Tonality"); strcpy(desc, "Extract the tonality of a spectrum"); strcpy(p_desc, "Extract the tonality an audio spectrum"); strcpy(author, ""); break; case SKEWNESS: strcpy(name, "skewness"); strcpy(p_name, "Spectral Skewness"); strcpy(desc, "Extract the skewness of an input vector"); strcpy(p_desc, "Extract the skewness of an audio spectrum"); strcpy(author, ""); break; case KURTOSIS: strcpy(name, "kurtosis"); strcpy(p_name, "Spectral Kurtosis"); strcpy(desc, "Extract the kurtosis of an input vector"); strcpy(p_desc, "Extract the kurtosis of an audio spectrum"); strcpy(author, ""); break; case PEAKS: strcpy(name, "peaks"); strcpy(p_name, "Spectral Peaks"); strcpy(desc, "Extract the spectral peaks from of a spectrum"); strcpy(p_desc, "Extract the spectral peaks from an audio \ spectrum"); strcpy(author, ""); break; case HARMONICS: strcpy(name, "harmonics"); strcpy(p_name, "Spectral Harmonics"); strcpy(desc, "Extract the harmonics from a spectrum"); strcpy(p_desc, "Extract the harmonics from an audio spectrum"); strcpy(author, ""); break; case NOISINESS: strcpy(name, "noisiness"); strcpy(p_name, "Noisiness"); strcpy(desc, "Extract the noisiness of a spectrum"); strcpy(p_desc, "Extract the noisiness of an audio spectrum"); strcpy(author, ""); break; case CREST: strcpy(name, "crest"); strcpy(p_name, "Spectral Crest Measure"); strcpy(desc, "Extract the spectral crest measure of a \ spectrum"); strcpy(p_desc, "Extract the spectral crest measure of a \ audio spectrum"); strcpy(author, ""); break; case MFCC: strcpy(name, "mfcc"); strcpy(p_name, "Mel Frequency Cepstral Coefficients"); strcpy(desc, "Extract MFCC from a spectrum"); strcpy(p_desc, "Extract MFCC from an audio spectrum"); strcpy(author, ""); break; case BARK_COEFFICIENTS: strcpy(name, "bark_coefficients"); strcpy(p_name, "Bark Coefficients"); strcpy(desc, "Extract bark coefficients from a spectrum"); strcpy(p_desc, "Extract bark coefficients from an audio \ spectrum"); strcpy(author, ""); break; case CENTROID: strcpy(name, "centroid"); strcpy(p_name, "Spectral Centroid"); strcpy(desc, "Extract the spectral centroid of a spectrum"); strcpy(p_desc, "Extract the spectral centroid of an audio \ spectrum"); strcpy(author, ""); break; case IRREGULARITY_K: strcpy(name, "irregularity_k"); strcpy(p_name, "Irregularity I"); strcpy(desc, "Extract the irregularity of a spectrum"); strcpy(p_desc, "Extract the irregularity of an audio \ spectrum"); strcpy(author, ""); break; case IRREGULARITY_J: strcpy(name, "irregularity_j"); strcpy(p_name, "Irregularity II"); strcpy(desc, "Extract the irregularity of a spectrum"); strcpy(p_desc, "Extract the irregularity of an audio \ spectrum"); strcpy(author, ""); break; case TRISTIMULUS_1: strcpy(name, "tristimulus_1"); strcpy(p_name, "Tristimulus I"); strcpy(desc, "Extract the tristimulus (type I) of a spectrum"); strcpy(p_desc, "Extract the tristimulus (type I) of an audio \ spectrum"); strcpy(author, ""); break; case TRISTIMULUS_2: strcpy(name, "tristimulus_2"); strcpy(p_name, "Tristimulus II"); strcpy(desc, "Extract the tristimulus (type II) of a spectrum"); strcpy(p_desc, "Extract the tristimulus (type II) of an audio \ spectrum"); strcpy(author, ""); break; case TRISTIMULUS_3: strcpy(name, "tristimulus_3"); strcpy(p_name, "Tristimulus III"); strcpy(desc, "Extract the tristimulus (type III) of a spectrum"); strcpy(p_desc, "Extract the tristimulus (type III) of an audio \ spectrum"); strcpy(author, ""); break; case SMOOTHNESS: strcpy(name, "smoothness"); strcpy(p_name, "Spectral Smoothness"); strcpy(desc, "Extract the spectral smoothness of a spectrum"); strcpy(p_desc, "Extract the spectral smoothness of an audio \ spectrum"); strcpy(author, ""); break; case FLATNESS: strcpy(name, "flatness"); strcpy(p_name, "Spectral Flatness"); strcpy(desc, "Extract the spectral flatness of a spectrum"); strcpy(p_desc, "Extract the spectral flatness of an audio \ spectrum"); strcpy(author, ""); break; case SPREAD: strcpy(name, "spread"); strcpy(p_name, "Spectral Spread"); strcpy(desc, "Extract the spectral spread of a spectrum"); strcpy(p_desc, "Extract the spectral spread of an audio \ spectrum"); strcpy(author, ""); break; case ZCR: strcpy(name, "zcr"); strcpy(p_name, "Zero Crossing Rate"); strcpy(desc, "Extract the zero crossing rate of a vector"); strcpy(p_desc, "Extract the zero crossing rate of an audio \ signal"); strcpy(author, ""); break; case LOUDNESS: strcpy(name, "loudness"); strcpy(p_name, "Loudness"); strcpy(desc, "Extract the loudness of a signal from its \ spectrum"); strcpy(p_desc, "Extract the loudness of an audio signal from \ its spectrum"); strcpy(author, ""); break; case HIGHEST_VALUE: strcpy(name, "highest_value"); strcpy(p_name, "Highest Value"); strcpy(desc, "Extract the highest value from an input vector"); strcpy(p_desc, "Extract the highest value from a given range"); strcpy(author, ""); break; case SUM: strcpy(name, "sum"); strcpy(p_name, "Sum of Values"); strcpy(desc, "Extract the sum of the values in an input \ vector"); strcpy(p_desc, "Extract the sum of the values in a given \ range"); strcpy(author, ""); break; case RMS_AMPLITUDE: strcpy(name, "rms_amplitude"); strcpy(p_name, "RMS Amplitude"); strcpy(desc, "Extract the RMS amplitude of a signal"); strcpy(p_desc, "Extract the RMS amplitude of an audio signal"); strcpy(author, ""); break; case POWER: strcpy(name, "power"); strcpy(p_name, "Spectral Power"); strcpy(desc, "Extract the spectral power of a spectrum"); strcpy(p_desc, "Extract the spectral power of an audio \ spectrum"); strcpy(author, ""); break; case SHARPNESS: strcpy(name, "sharpness"); strcpy(p_name, "Spectral Sharpness"); strcpy(desc, "Extract the spectral sharpness of a spectrum"); strcpy(p_desc, "Extract the spectral sharpness of an audio \ spectrum"); strcpy(author, ""); break; case SLOPE: strcpy(name, "slope"); strcpy(p_name, "Spectral Slope"); strcpy(desc, "Extract the spectral slope of a spectrum"); strcpy(p_desc, "Extract the spectral slope of an audio \ spectrum"); strcpy(author, ""); break; case HPS: strcpy(name, "hps"); strcpy(p_name, "Harmonic Product Spectrum"); strcpy(desc, "Extract the harmonic product spectrum of a \ spectrum"); strcpy(p_desc, "Extract the harmonic product spectrum of an \ audio spectrum"); strcpy(author, ""); break; case FLUX: strcpy(name, "flux"); strcpy(p_name, "Spectral Flux"); strcpy(desc, "Extract the spectral flux of a spectrum"); strcpy(p_desc, "Extract the spectral flux of an audio \ spectrum"); strcpy(author, ""); break; case ATTACK_TIME: strcpy(name, "attack_time"); strcpy(p_name, "Attack Time"); strcpy(desc, "Extract the attack time of a signal"); strcpy(p_desc, "Extract the attack time of an audio signal"); strcpy(author, ""); break; case DECAY_TIME: strcpy(name, "decay_time"); strcpy(p_name, "Decay Time"); strcpy(desc, "Extract the decay time of a signal"); strcpy(p_desc, "Extract the decay time of an audio signal"); strcpy(author, ""); break; case DELTA_FEATURE: strcpy(name, "delta_feature"); strcpy(p_name, "Delta Feature"); strcpy(desc, "Extract the time derivative of a feature"); strcpy(p_desc, "Extract the time derivative of a feature"); strcpy(author, ""); break; case AUTOCORRELATION_FFT: strcpy(name, "autocorrelation_fft"); strcpy(p_name, "Autocorrelation (FFT method)"); strcpy(desc, "Extract the autocorrelation of a signal"); strcpy(p_desc, "Extract the autocorrelation of an audio signal"); strcpy(author, ""); break; case DCT: strcpy(name, "dct"); strcpy(p_name, "Discrete Cosine Transform"); strcpy(desc, "Extract the DCT of a signal"); strcpy(p_desc, "Extract the DCT of an audio signal"); strcpy(author, ""); break; case AUTOCORRELATION: strcpy(name, "autocorrelation"); strcpy(p_name, "Autocorrelation"); strcpy(desc, "Extract the autocorrelation of a signal"); strcpy(p_desc, "Extract the autocorrelation of an audio signal"); strcpy(author, ""); break; case AMDF: strcpy(name, "amdf"); strcpy(p_name, "Average Magnitude Difference Function"); strcpy(desc, "Extract the AMDF of a signal"); strcpy(p_desc, "Extract the AMDF of an audio signal"); strcpy(author, ""); break; case ASDF: strcpy(name, "asdf"); strcpy(p_name, "Average Squared Difference Function"); strcpy(desc, "Extract the ASDF of a signal"); strcpy(p_desc, "Extract the ASDF of an audio signal"); strcpy(author, ""); break; default: strcpy(name, ""); strcpy(desc, ""); strcpy(p_desc, ""); strcpy(author, ""); break; } } return fd; } int xtract_free_descriptors(void *fd){ if (fd != NULL) { free(fd); } return SUCCESS; }