shithub: soundpipe

ref: 0a5f275112d871f18435dbe76294c11d5f99ecf9
dir: /modules/paulstretch.c/

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/*
 * PaulStretch
 *
 * An implementation of the PaulStretch algorithm by Paul Nasca Octavian.
 * This code is based off the Python Numpy/Scipy implementation of
 * PaulStretch, found here: https://github.com/paulnasca/paulstretch_python
 *
 * This implementation has been placed in the public domain.
 */

#include <stdlib.h>
#include <string.h>
#include <math.h>
#include "lib/dr_wav/sp_dr_wav.h"
#include "soundpipe.h"
#include "kiss_fftr.h"

#ifndef M_PI
#define M_PI		3.14159265358979323846
#endif

static void compute_block(sp_data *sp,
                          sp_paulstretch *p,
                          drwav *wav) {
    uint32_t istart_pos = floor(p->start_pos);
    uint32_t pos;
    uint32_t i;
    uint32_t windowsize = p->windowsize;
    uint32_t half_windowsize = p->half_windowsize;
    SPFLOAT *buf = p->buf;
    SPFLOAT *hinv_buf = p->hinv_buf;
    SPFLOAT *old_windowed_buf= p->old_windowed_buf;
    SPFLOAT *tbl = p->ft->tbl;
    SPFLOAT *window = p->window;
    SPFLOAT *output= p->output;

    /* use internal ftable if wav is NULL
     * otherwise, read from wav file via drwav
     */
    if (wav == NULL) {
        for (i = 0; i < windowsize; i++) {
            /* Loop through buffer */
            pos = (istart_pos + i);

            if (p->wrap) {
                pos %= p->ft->size;
            }

            if (pos < p->ft->size) {
                buf[i] = tbl[pos] * window[i];
            } else {
                buf[i] = 0;
            }
        }
    } else {
        size_t r;
        sp_drwav_seek_to_sample(wav, istart_pos);
        r = sp_drwav_read_f32(wav, windowsize, buf);

        /* fill remaining buffer with 0's */
        for (i = r; i < windowsize; i++) buf[i] = 0;

        /* window */
        for (i = 0; i < windowsize; i++) buf[i] *= window[i];
    }

    kiss_fftr(p->fft, buf, p->tmp1);

    for (i = 0; i < windowsize / 2; i++) {
        SPFLOAT mag = sqrt(p->tmp1[i].r*p->tmp1[i].r + p->tmp1[i].i*p->tmp1[i].i);
        SPFLOAT ph = ((SPFLOAT)sp_rand(sp) / SP_RANDMAX) * 2 * M_PI;
        p->tmp1[i].r = mag * cos(ph);
        p->tmp1[i].i = mag * sin(ph);
    }

    kiss_fftri(p->ifft, p->tmp1, buf);

    for (i = 0; i < windowsize; i++) {
        buf[i] *= window[i];
        if (i < half_windowsize) {
            output[i] = (SPFLOAT)(buf[i] + old_windowed_buf[half_windowsize + i]) / windowsize;
            output[i] *= hinv_buf[i];
        }
        old_windowed_buf[i] = buf[i];
    }
    p->start_pos += p->displace_pos;
}

int sp_paulstretch_create(sp_paulstretch **p)
{
    *p = malloc(sizeof(sp_paulstretch));
    return SP_OK;
}

int sp_paulstretch_destroy(sp_paulstretch **p)
{
    sp_paulstretch *pp = *p;
    free(pp->window);
    free(pp->old_windowed_buf);
    free(pp->hinv_buf);
    free(pp->buf);
    free(pp->output);
    kiss_fftr_free(pp->fft);
    kiss_fftr_free(pp->ifft);
    KISS_FFT_FREE(pp->tmp1);
    free(*p);
    return SP_OK;
}

int sp_paulstretch_init(sp_data *sp, sp_paulstretch *p, sp_ftbl *ft, SPFLOAT windowsize, SPFLOAT stretch)
{
    uint32_t i;
    SPFLOAT hinv_sqrt2;
    kiss_fft_cpx *tmp1;

    p->ft = ft;
    p->windowsize = (uint32_t)(sp->sr * windowsize);
    p->stretch = stretch;

    if (p->windowsize < 16) p->windowsize = 16;

    p->half_windowsize = p->windowsize / 2;
    p->displace_pos = (p->windowsize * 0.5) / p->stretch;

    p->window = calloc(1, sizeof(SPFLOAT) * p->windowsize);
    p->old_windowed_buf = calloc(1, sizeof(SPFLOAT) * p->windowsize);
    p->hinv_buf = calloc(1, sizeof(SPFLOAT) * p->half_windowsize);
    p->buf = calloc(1, sizeof(SPFLOAT) * p->windowsize);

    p->output = calloc(1, sizeof(SPFLOAT) * p->half_windowsize);

    /* Create Hann window */
    for (i = 0; i < p->windowsize; i++) {
        p->window[i] = 0.5 - cos(i * 2.0 * M_PI / (p->windowsize - 1)) * 0.5;
    }

    /* creatve inverse hann window */
    hinv_sqrt2 = (1 + sqrt(0.5)) * 0.5;
    for (i = 0; i < p->half_windowsize; i++) {
        p->hinv_buf[i] = hinv_sqrt2 - (1.0 - hinv_sqrt2) * cos(i * 2.0 * M_PI / p->half_windowsize);
    }

    p->start_pos = 0.0;
    p->counter = 0;

    /* set up kissfft */
    p->fft = kiss_fftr_alloc(p->windowsize, 0, NULL, NULL);
    p->ifft = kiss_fftr_alloc(p->windowsize, 1, NULL, NULL);
    tmp1 = malloc(sizeof(kiss_fft_cpx) * p->windowsize);
    memset(tmp1, 0, sizeof(SPFLOAT) * p->windowsize);
    p->tmp1 = tmp1;

    /* turn on wrap mode by default */
    p->wrap = 1;
    return SP_OK;
}

int sp_paulstretch_compute(sp_data *sp, sp_paulstretch *p, SPFLOAT *in, SPFLOAT *out)
{
    if (p->counter == 0) compute_block(sp, p, NULL);

    *out = p->output[p->counter];
    p->counter = (p->counter + 1) % p->half_windowsize;

    return SP_OK;
}

/* use this to read from an opened wavfile via drwav */
int sp_paulstretch_wavin(sp_data *sp,
                         sp_paulstretch *p,
                         drwav *wav,
                         SPFLOAT *out)
{
    if (p->counter == 0) compute_block(sp, p, wav);

    *out = p->output[p->counter];
    p->counter = (p->counter + 1) % p->half_windowsize;

    return SP_OK;
}