597 lines
16 KiB
C
597 lines
16 KiB
C
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/* atsa.h
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* atsa: ATS analysis implementation (with re-synthesis tools)
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* Oscar Pablo Di Liscia / Pete Moss / Juan Pampin
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*/
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#ifndef ATSA_H
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#define ATSA_H
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#ifdef __cplusplus
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extern "C" {
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#endif /* __cplusplus */
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/* window types */
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#define BLACKMAN 0
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#define BLACKMAN_H 1
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#define HANNING 2
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#define VONHANN 3
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/* analysis parameters */
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/* start time */
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#define ATSA_START 0.0
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/* duration */
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#define ATSA_DUR 0.0
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/* lowest frequency (hertz) */
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#define ATSA_LFREQ 20.0
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/* highest frequency (hertz) */
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#define ATSA_HFREQ 20000.0
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/* frequency deviation (ratio) */
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#define ATSA_FREQDEV 0.1
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/* number of f0 cycles in window */
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#define ATSA_WCYCLES 4
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/* window type */
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#define ATSA_WTYPE BLACKMAN_H
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/* window size */
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#define ATSA_WSIZE 1024
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/* hop size proportional to window size (ratio) */
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#define ATSA_HSIZE 0.25
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/* lowest magnitude for peaks (amp) */
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#define ATSA_LMAG -60.0
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/* length of analysis tracks (frames) */
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#define ATSA_TRKLEN 3
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/* minimum short partial length (frames) */
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#define ATSA_MSEGLEN 3
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/* minimum short partial SMR average (dB SPL) */
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#define ATSA_MSEGSMR 60.0
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/* minimum gap length (frames) */
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#define ATSA_MGAPLEN 3
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/* threshold for partial SMR average (dB SPL) */
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#define ATSA_SMRTHRES 30.0
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/* last peak contribution for tracking (ratio) */
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#define ATSA_LPKCONT 0.0
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/* SMR contribution for tracking (ratio) */
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#define ATSA_SMRCONT 0.0
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/* minimum number of frames for analysis (frames) */
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#define ATSA_MFRAMES 4
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/* offset used when increasing the max supported number of partials in ATS_SOUND */
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#define ATSA_INCROFFSET 10
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/* default analysis file type
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* 1 =only amp. and freq.
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* 2 =amp., freq. and phase
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* 3 =amp., freq. and noise
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* 4 =amp., freq., phase, and noise
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*/
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#define ATSA_TYPE 4
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/* macros to check sound contents from file type */
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#define FILE_HAS_PHASE(typ) ((typ)==2. || (typ)==4.)
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#define FILE_HAS_NOISE(typ) ((typ)==3. || (typ)==4.)
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/* constants and macros */
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#define PI 3.141592653589793
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#define TWOPI 6.283185307179586
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#define NIL -1
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#define AMP_DB(amp) (amp!=0.0 ? (double)log10(amp*20.0) : (double)-32767.0)
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#define DB_AMP(db) ((double)pow(10.0, db/20.0))
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#define ATSA_MAX_DB_SPL 100.0
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#define ATSA_NOISE_THRESHOLD -120
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#define ATSA_CRITICAL_BANDS 25
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#define ATSA_NOISE_VARIANCE 0.04
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/* array of critical band frequency edges based on data from:
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* Zwicker, Fastl (1990) "Psychoacoustics Facts and Models",
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* Berlin ; New York : Springer-Verlag
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*/
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extern double ATSA_CRITICAL_BAND_EDGES[ATSA_CRITICAL_BANDS+1];
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/* data structures */
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/* ANARGS
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* ======
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* analysis parameters
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*/
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typedef struct {
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double start;
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double duration;
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double lowest_freq;
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double highest_freq;
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double freq_dev;
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int win_cycles;
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int win_type;
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int win_size;
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double hop_size;
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double lowest_mag;
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int track_len;
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int min_seg_len;
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int min_gap_len;
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double last_peak_cont;
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double SMR_cont;
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double SMR_thres;
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double min_seg_SMR;
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/* parameters computed from command line */
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int first_smp;
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int cycle_smp;
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int hop_smp;
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int total_samps;
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int srate;
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int fft_size;
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double fft_mag;
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int lowest_bin;
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int highest_bin;
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int frames;
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int type;
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} ANARGS;
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/* ATS_FFT
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* fft data
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*/
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typedef struct {
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int size;
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int rate;
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double *fdr;
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double *fdi;
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} ATS_FFT;
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/* ATS_PEAK
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* ========
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* spectral peak data
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*/
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typedef struct {
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double amp;
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double frq;
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double pha;
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double smr;
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int track;
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} ATS_PEAK;
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/* ATS_FRAME
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* =========
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* analysis frame data
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*/
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typedef struct {
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ATS_PEAK *peaks;
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int n_peaks;
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double time;
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} ATS_FRAME;
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/* ATS_HEADER
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* ==========
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* ats file header data
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*/
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#define ATS_MAGIC_NUMBER ((double)123.0)
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typedef struct {
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/* Magic Number for ID of file, must be 123.00 */
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double mag;
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/* sampling rate */
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double sr;
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/* Frame size (samples) */
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double fs;
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/* Window size (samples) */
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double ws;
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/* number of partials per frame */
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double par;
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/* number of frames present */
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double fra;
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/* max. amplitude */
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double ma;
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/* max. frequency */
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double mf;
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/* duration (secs) */
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double dur;
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/* type (1,2 3 or 4)
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* 1 =only amp. and freq.
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* 2 =amp., freq. and phase
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* 3 =amp., freq. and noise
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* 4 =amp., freq., phase, and noise
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*/
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double typ;
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} ATS_HEADER;
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/* ATS_SOUND
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* =========
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* ATS analysis data
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*/
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typedef struct {
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/* global sound info */
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int srate; /* Sampling rate (Hz) */
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int frame_size; /* Number of samples per frame */
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int window_size; /* Number of samples per window */
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int partials; /* Number of detected partials (<= max_partials) */
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int max_partials; /* Max supported number of partials */
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int frames; /* Number of frames */
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double dur; /* Sound duration (s) */
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/* info deduced from analysis */
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int optimized; /* Number of partials removed by optimization*/
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double ampmax; /* Maximum partial amplitude */
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double frqmax; /* Maximum partial frequency (Hz) */
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ATS_PEAK *av; /* Peak averages; partials are sorted by increasing frequency */
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/* sinusoidal data (all of these ** are accessed as [partial][frame]) */
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double **time; /* Start time for each frame, only partial 0 used ; don't read/write others */
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double **frq; /* Frequency (Hz) */
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double **amp; /* Amplitude */
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double **pha; /* Phase (radian ?) */
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double **smr; /* Signal to Mask Ratio */
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/* noise data */
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double **res; /* Noise energy for each [partial][frame] */
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double **band_energy; /* Noise energy for each [critical band][frame] */
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} ATS_SOUND;
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/* SPARAMS
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* =========
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* From ATS synthesis data (was originaly in atsh)
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*/
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typedef struct { //parameters for resynthesis
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double amp; // Deterministic amplitude scalar
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double ramp; // Residual amplitude scalar
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double frec; // Global frequency scalar
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double max_stretch; // Max time scalar
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double beg; // Begin synthesis time
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double end; // End synthesis time
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double sr; // Sampling Rate
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short allorsel; // when TRUE, use only selected partials ; when FALSE use all
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short upha; // when TRUE, the phase information (if any) is used ; when FALSE is not
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} SPARAMS;
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/* CURVE
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* =========
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* A curve (was originaly in atsh)
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*/
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typedef struct
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{
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/* control points: */
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int num_ctlpoints; /* number of control points */
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double (*ctlpoint)[2]; /* array of control points (0=x, 1=y) */
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} CURVE;
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/* Interface:
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* ==========
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* grouped by file in alphabetical order
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*/
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/* critical-bands.c */
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/* evaluate_smr
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* ============
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* evaluates the masking curves of an analysis frame
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* peaks: pointer to an array of peaks
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* peaks_size: number of peaks
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*/
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void evaluate_smr (ATS_PEAK *peaks, int peaks_size);
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/* curve.c */
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void curve_init(CURVE *curve);
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void curve_free(CURVE *curve);
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int get_nbp(CURVE *curve);
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double get_x_value(CURVE *curve, int i_pt);
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double get_y_value(CURVE *curve, int i_pt);
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double get_minx_value(CURVE *curve);
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double get_maxx_value(CURVE *curve);
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double get_miny_value(CURVE *curve);
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double get_maxy_value(CURVE *curve);
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/* other-utils.c */
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/* window_norm
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* ===========
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* computes the norm of a window
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* returns the norm value
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* win: pointer to a window
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* size: window size
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*/
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double window_norm(double *win, int size);
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/* make_window
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* ===========
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* makes an analysis window, returns a pointer to it.
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* win_type: window type, available types are:
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* BLACKMAN, BLACKMAN_H, HAMMING and VONHANN
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* win_size: window size
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*/
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double *make_window(int win_type, int win_size);
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/* push_peak
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* =========
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* pushes a peak into an array of peaks
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* re-allocating memory and updating its size
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* returns a pointer to the array of peaks.
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* new_peak: pointer to new peak to push into the array
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* peaks_list: list of peaks
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* peaks_size: pointer to the current size of the array.
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*/
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ATS_PEAK *push_peak(ATS_PEAK *new_peak, ATS_PEAK *peaks, int *peaks_size);
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/* peak_frq_inc
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* ============
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* function used by qsort to sort an array of peaks
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* in increasing frequency order.
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*/
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int peak_frq_inc(void const *a, void const *b);
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/* peak_smr_dec
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* ============
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* function used by qsort to sort an array of peaks
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* in decreasing SMR order.
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*/
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int peak_smr_dec(void const *a, void const *b);
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/* fft
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* ===
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* standard fft based on simplfft by Joerg Arndt.
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* rl: pointer to real part data
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* im: pointer to imaginary part data
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* n: size of data
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* is: 1=forward trasnform -1=backward transform
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*/
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void fft(double *rl, double *im, int n, int is);
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/* peak-detection.c */
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/* peak_detection
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* ==============
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* detects peaks in a ATS_FFT block
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* returns an array of detected peaks.
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* ats_fft: pointer to ATS_FFT structure
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* lowest_bin: lowest fft bin to start detection
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* highest_bin: highest fft bin to end detection
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* lowest_mag: lowest magnitude to detect peaks
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* norm: analysis window norm
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* peaks_size: pointer to size of the returned peaks array
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*/
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ATS_PEAK *peak_detection(ATS_FFT *ats_fft, int lowest_bin, int highest_bin, double lowest_mag, double norm, int *peaks_size);
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/* peak-tracking.c */
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/* peak_tracking
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* =============
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* connects peaks from one analysis frame to tracks
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* returns a pointer to the analysis frame.
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* tracks: pointer to the tracks
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* tracks_size: numeber of tracks
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* peaks: peaks to connect
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* peaks_size: number of peaks
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* frq_dev: frequency deviation from tracks
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* SMR_cont: contribution of SMR to tracking
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* n_partials: pointer to the number of partials before tracking
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*/
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ATS_FRAME *peak_tracking(ATS_PEAK *tracks, int tracks_size, ATS_PEAK *peaks, int *peaks_size, double frq_dev, double SMR_cont, int *n_partials);
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/* update_tracks
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* =============
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* updates analysis tracks
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* returns a pointer to the tracks.
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* tracks: pointer to the tracks
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* tracks_size: numeber of tracks
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* track_len: length of tracks
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* frame_n: analysis frame number
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* ana_frames: pointer to previous analysis frames
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* last_peak_cont: contribution of last peak to the track
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*/
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ATS_PEAK *update_tracks (ATS_PEAK *tracks, int *tracks_size, int track_len, int frame_n, ATS_FRAME *ana_frames, double last_peak_cont);
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/* save-load-sound.c */
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/* ats_save
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* ========
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* saves an optimized ATS_SOUND to disk.
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* sound: pointer to ATS_SOUND structure
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* outfile: pointer to output ats file
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* SMR_thres: partials with average SMR under this are not written
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* type: file type
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* NOTE: sound MUST be optimized using optimize_sound before calling this function
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* Returns the total file size (nb of written bytes), or -1 in case of any error
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*/
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int ats_save(ATS_SOUND *sound, const char *outfile, double SMR_thres, int type);
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/* ats_load
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* ========
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* loads an ATS_SOUND from disk (whatever little/big endian byte order).
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* sound: pointer to ATS_SOUND structure
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* infile: pointer to input ats file
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* Returns the total file size in bytes = number of bytes read (or <0 value upon error)
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*/
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int ats_load(ATS_SOUND *sound, const char *infile, int* sound_type);
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/* synthesis.c (was originaly in atsh, synth-funcs.c) */
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/* do_synthesis
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* =======
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* re-synthesis of an ATS_SOUND
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* atshed: pointer to ATS sound header structure
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* ats_sound: pointer to ATS sound structure
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* sparams: pointer to synthesis parameters
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* timenv : time factor envelop to apply
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* (f(t):[0,1]->[0,T], always increasing, applied to [sparams->beg, sparams->beg])
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* selected : array of "selected" flags for partials (size = nb of partials)
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* out_samps: pointer to output array of monophonic samples
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* n_out_samps: pointer to nb output samples
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*/
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void do_atsh_synthesis(ATS_SOUND *ats_sound, SPARAMS* sparams, CURVE* timenv, int *selected,
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double** out_samps, int* n_out_samps);
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void do_synthesis(ATS_SOUND *ats_sound, SPARAMS* sparams, CURVE* timenv, int *selected,
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double** out_samps, int* n_out_samps);
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/* tracker.c */
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/* tracker
|
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|
* =======
|
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|
* partial tracking function
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|
* returns an ATS_SOUND with data issued from analysis
|
||
|
* anargs: pointer to analysis parameters
|
||
|
* in_samps: monophonic input samples
|
||
|
* s_rate: sampling rate for the samples
|
||
|
* n_frames: nb input samples
|
||
|
* res: pointer to output residual data (channel 0 = residual, channel 1 = partials synthesis)
|
||
|
* res_len: pointer to output number of samples in residual data
|
||
|
*/
|
||
|
ATS_SOUND *tracker (ANARGS *anargs, double* in_samps, int s_rate, int n_frames,
|
||
|
double ***res, int* res_len);
|
||
|
|
||
|
/* utilities.c */
|
||
|
|
||
|
/* ppp2
|
||
|
* ====
|
||
|
* returns the closest power of two
|
||
|
* greater than num
|
||
|
*/
|
||
|
unsigned int ppp2(unsigned int num);
|
||
|
|
||
|
/* various conversion functions
|
||
|
* to deal with dB and dB SPL
|
||
|
* they take and return double doubles
|
||
|
*/
|
||
|
double amp2db(double amp);
|
||
|
double db2amp(double db);
|
||
|
double amp2db_spl(double amp);
|
||
|
double db2amp_spl(double db_spl);
|
||
|
|
||
|
/* init_sound
|
||
|
* ==========
|
||
|
* initializes a new sound allocating memory (WARNING: sound pointer must be allocated first)
|
||
|
*/
|
||
|
void init_sound(ATS_SOUND *sound, int sampling_rate, int frame_size, int window_size, int frames,
|
||
|
double duration, int partials, int with_noise);
|
||
|
|
||
|
/* copy_sound
|
||
|
* ==========
|
||
|
* make a full copy of an existing sound and return a pointer to it
|
||
|
*/
|
||
|
ATS_SOUND *copy_sound(ATS_SOUND *sound);
|
||
|
|
||
|
/* optimize_sound
|
||
|
* ==============
|
||
|
* optimizes an ATS_SOUND in memory before saving
|
||
|
* anargs: pointer to analysis parameters
|
||
|
* sound: pointer to ATS_SOUND structure
|
||
|
*/
|
||
|
void optimize_sound(ANARGS *anargs, ATS_SOUND *sound);
|
||
|
|
||
|
/* set_av
|
||
|
* ======
|
||
|
* sets the av structure slot of an ATS_SOUND,
|
||
|
* it computes the average ampl., freq. and SMR for each partial
|
||
|
* sound: pointer to ATS_SOUND structure
|
||
|
*/
|
||
|
void set_av(ATS_SOUND *sound);
|
||
|
|
||
|
/* increase_max_partials
|
||
|
* =====================
|
||
|
* increases by a given offset the max supported number of partials
|
||
|
* by reallocating and copying associated partials data arrays
|
||
|
* (WARNING: sound must have been initialized first)
|
||
|
*/
|
||
|
void increase_max_partials(ATS_SOUND *sound, unsigned int offset);
|
||
|
|
||
|
/* free_sound
|
||
|
* ==========
|
||
|
* frees sound's memory (WARNING: sound pointer is not deallocated)
|
||
|
*/
|
||
|
void free_sound(ATS_SOUND *sound);
|
||
|
|
||
|
/* add_partial
|
||
|
* ============
|
||
|
* creates a new partial that is the copy of the one with given source index if valid ;
|
||
|
* invalid source indexes (<0 or >=nb partials) give a new partial with null values
|
||
|
* (reallocates partials data arrays as necessary, by an offset of ATSA_INCROFFSET,
|
||
|
* recomputes the partial average data and maintains the partial sorting by increasing freq.)
|
||
|
*/
|
||
|
void add_partial(ATS_SOUND *sound, int src_index);
|
||
|
|
||
|
/* remove_partials
|
||
|
* ===============
|
||
|
* removes the partials of given indexes
|
||
|
* (recompute the partial average data and maintain the partial sorting by increasing freq).
|
||
|
*/
|
||
|
void remove_partials(ATS_SOUND *sound, int* rem_indexes, int nb_rem_indexes);
|
||
|
|
||
|
/* residual.c */
|
||
|
|
||
|
/* compute_residual
|
||
|
* ================
|
||
|
* Computes the difference between the synthesis and the original sound.
|
||
|
* the <win-samps> array contains the sample numbers in the input file corresponding to each frame
|
||
|
* fil: pointer to analyzed data
|
||
|
* fil_len: length of data in samples
|
||
|
* output_file: output file path
|
||
|
* sound: pointer to ATS_SOUND
|
||
|
* win_samps: pointer to array of analysis windows center times
|
||
|
* file_sampling_rate: sampling rate of analysis file
|
||
|
* res: pointer to output residual data (channel 0 = residual, channel 1 = partials synthesis)
|
||
|
* res_len: pointer to output number of samples in residual data
|
||
|
*/
|
||
|
void compute_residual(double *fil, int fil_len, ATS_SOUND *sound, int *win_samps, int file_sampling_rate, double*** res, int* res_len);
|
||
|
|
||
|
/* residual-analysis.c */
|
||
|
|
||
|
/* residual_analysis
|
||
|
* =================
|
||
|
* performs the critical-band analysis of the residual file
|
||
|
* res: residual samples (channel 0 = residual, channel 1 = partials synthesis)
|
||
|
* res_len: number of residual samples per channel
|
||
|
* s_rate: sampling rate for the samples
|
||
|
* sound: sound to store the residual data
|
||
|
*/
|
||
|
void residual_analysis(double** res, int res_len, int s_rate, ATS_SOUND *sound);
|
||
|
|
||
|
/* band_energy_to_res
|
||
|
* ==================
|
||
|
* transfers residual engergy from bands to partials
|
||
|
* sound: sound structure containing data
|
||
|
* frame: frame number
|
||
|
*/
|
||
|
void band_energy_to_res(ATS_SOUND *sound, int frame);
|
||
|
|
||
|
/* res_to_band_energy
|
||
|
* ==================
|
||
|
* transfers residual engergy from partials to bands
|
||
|
* sound: sound structure containing data
|
||
|
* frame: frame number
|
||
|
*/
|
||
|
void res_to_band_energy(ATS_SOUND *sound, int frame);
|
||
|
|
||
|
#ifdef __cplusplus
|
||
|
} /* extern "C" */
|
||
|
#endif /* __cplusplus */
|
||
|
|
||
|
#endif /* ATSA_H */
|