prosperon/source/engine/sound/dsp.c

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#include "dsp.h"
#include "sound.h"
#include "limits.h"
#include "math.h"
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#include "stdlib.h"
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#include "iir.h"
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#include "log.h"
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#include "stb_ds.h"
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#include "smbPitchShift.h"
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#include "pthread.h"
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#define PI 3.14159265
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int SAMPLERATE = 44100;
int BUF_FRAMES = 2048;
int CHANNELS = 2;
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dsp_node *masterbus = NULL;
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void iir_free(struct dsp_iir *iir)
{
free(iir->a);
free(iir->b);
free(iir->x);
free(iir->y);
free(iir);
}
void interleave(soundbyte *a, soundbyte *b, soundbyte *restrict stereo, int frames)
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{
for (int i = 0; i < frames; i++) {
stereo[i*2] = a[i];
stereo[i*2+1] = b[i];
}
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}
void deinterleave(soundbyte *restrict stereo, soundbyte *restrict out, int frames, int channels, int chout)
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{
chout--;
for (int i = 0; i < frames; i++)
out[i] = stereo[i*channels+chout];
}
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void mono_to_stero(soundbyte *a, soundbyte *stereo, int frames)
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{
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interleave(a,a,stereo, frames);
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}
void mono_expand(soundbyte *restrict buffer, int to, int frames)
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{
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soundbyte hold[frames];
memcpy(hold, buffer, sizeof(soundbyte)*frames);
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for (int i = 0; i < frames; i++)
for (int j = 0; j < to; j++)
buffer[i*to+j] = hold[i];
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}
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dsp_node *dsp_mixer_node()
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{
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return make_node(NULL, NULL, NULL);
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}
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void dsp_init()
{
masterbus = dsp_limiter(1.0);
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}
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soundbyte *dsp_node_out(dsp_node *node)
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{
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zero_soundbytes(node->cache, BUF_FRAMES*CHANNELS);
if (node->off) return node->cache;
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/* Sum all inputs */
for (int i = 0; i < arrlen(node->ins); i++) {
soundbyte *out = dsp_node_out(node->ins[i]);
sum_soundbytes(node->cache, out, BUF_FRAMES*CHANNELS);
}
/* If there's a filter, run it */
if (!node->pass && node->proc)
node->proc(node->data, node->cache, BUF_FRAMES);
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scale_soundbytes(node->cache, node->gain, BUF_FRAMES*CHANNELS);
pan_frames(node->cache, node->pan, BUF_FRAMES);
return node->cache;
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}
void filter_am_mod(dsp_node *restrict mod, soundbyte *restrict buffer, int frames)
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{
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soundbyte *m = dsp_node_out(mod);
for (int i = 0; i < frames*CHANNELS; i++) buffer[i] *= m[i];
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}
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dsp_node *dsp_am_mod(dsp_node *mod)
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{
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return make_node(mod, filter_am_mod, node_free);
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}
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/* Add b into a */
void sum_soundbytes(soundbyte *restrict a, soundbyte *restrict b, int samples)
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{
for (int i = 0; i < samples; i++) a[i] += b[i];
}
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void norm_soundbytes(soundbyte *a, float lvl, int samples)
{
float tar = lvl;
float max = 0 ;
for (int i = 0; i < samples; i++) max = fabsf(a[i]) > max ? fabsf(a[i]) : max;
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float mult = max/tar;
scale_soundbytes(a, mult, samples);
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}
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void scale_soundbytes(soundbyte *a, float scale, int samples)
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{
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if (scale == 1) return;
for (int i = 0; i < samples; i++) a[i] *= scale;
}
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void zero_soundbytes(soundbyte *restrict a, int samples) { memset(a, 0, sizeof(soundbyte)*samples); }
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void set_soundbytes(soundbyte *a, soundbyte *b, int samples)
{
zero_soundbytes(a, samples);
sum_soundbytes(a,b,samples);
}
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void dsp_node_run(dsp_node *node)
{
zero_soundbytes(node->cache, BUF_FRAMES*CHANNELS);
for (int i = 0; i < arrlen(node->ins); i++) {
soundbyte *out = dsp_node_out(node->ins[i]);
sum_soundbytes(node->cache, out, BUF_FRAMES);
}
}
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static int node_count = 0;
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dsp_node *make_node(void *data, void (*proc)(void *data, soundbyte *out, int samples), void (*fr)(void *data))
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{
dsp_node *self = malloc(sizeof(dsp_node));
memset(self, 0, sizeof(*self));
self->data = data;
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self->cache = calloc(BUF_FRAMES*CHANNELS*sizeof(soundbyte),1);
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self->proc = proc;
self->pass = 0;
self->gain = 1;
return self;
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}
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void node_free(dsp_node *node)
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{
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if (node == masterbus) {
YughWarn("Attempted to delete the master bus.");
return; /* Simple check to not delete the masterbus */
}
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pthread_mutex_lock(&soundrun);
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unplug_node(node);
if (node->data) {
if (node->data_free)
node->data_free(node->data);
else
free(node->data);
}
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free(node);
pthread_mutex_unlock(&soundrun);
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}
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void dsp_node_free(dsp_node *node) { node_free(node); }
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void plugin_node(dsp_node *from, dsp_node *to)
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{
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if (from->out) return;
arrput(to->ins, from);
from->out = to;
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}
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/* Unplug the given node from its output */
void unplug_node(dsp_node *node)
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{
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if (!node->out) return;
for (int i = 0; arrlen(node->out->ins); i++)
if (node == node->out->ins[i]) {
arrdelswap(node->out->ins, i);
node->out = NULL;
return;
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}
}
float sin_phasor(float p)
{
return sin(2*PI*p);
}
float square_phasor(float p)
{
return lround(p);
}
float saw_phasor(float p)
{
return 2*p-1;
}
float tri_phasor(float p)
{
return 4*(p * 0.5f ? p : (1-p)) - 1;
}
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void filter_phasor(phasor *p, soundbyte *buffer, int frames)
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{
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for (int i = 0; i < frames; i++) {
buffer[i] = p->filter(p->phase) * p->amp;
p->phase += p->freq/SAMPLERATE;
}
p->phase = p->phase - (int)p->phase;
mono_expand(buffer, CHANNELS, frames);
}
dsp_node *dsp_phasor(float amp, float freq, float (*filter)(float))
{
phasor *p = malloc(sizeof(*p));
p->amp = amp;
p->freq = freq;
p->phase = 0;
p->filter = filter;
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return make_node(p, filter_phasor, NULL);
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}
void filter_rectify(void *restrict data, soundbyte *restrict out, int n)
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{
for (int i = 0; i < n; i++) out[i] = fabsf(out[i]);
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}
dsp_node *dsp_rectify()
{
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return make_node(NULL, filter_rectify, NULL);
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}
soundbyte sample_whitenoise()
{
return ((float)rand()/(float)(RAND_MAX/2))-1;
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}
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void gen_whitenoise(void *data, soundbyte *out, int n)
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{
for (int i = 0; i < n; i++)
out[i] = sample_whitenoise();
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mono_expand(out, CHANNELS, n);
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}
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dsp_node *dsp_whitenoise()
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{
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return make_node(NULL, gen_whitenoise, NULL);
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}
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void gen_pinknoise(struct dsp_iir *pink, soundbyte *out, int n)
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{
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gen_whitenoise(NULL, out, n);
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for (int i = 0; i < n*CHANNELS; i++) {
soundbyte sum = 0;
for (int j = 0; j < 6; j++) {
pink->x[j] = pink->x[j]*pink->b[j] + out[i]*pink->a[j];
sum += pink->x[j];
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}
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pink->x[6] = out[i] * 0.115926;
out[i] = sum + out[i] * 0.5362 + pink->x[6];
out[i] *= 0.11;
}
/* * https://www.firstpr.com.au/dsp/pink-noise/
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b0 = 0.99886 * b0 + white * 0.0555179;
b1 = 0.99332 * b1 + white * 0.0750759;
b2 = 0.96900 * b2 + white * 0.1538520;
b3 = 0.86650 * b3 + white * 0.3104856;
b4 = 0.55000 * b4 + white * 0.5329522;
b5 = -0.7616 * b5 - white * 0.0168980;
pink = b0 + b1 + b2 + b3 + b4 + b5 + b6 + white * 0.5362;
b6 = white * 0.115926;
*/
}
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dsp_node *dsp_pinknoise()
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{
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struct dsp_iir *pink = malloc(sizeof(*pink));
*pink = make_iir(6);
float pinka[7] = {0.0555179, 0.0750759, 0.1538520, 0.3104856, 0.5329522, -0.0168980, 0.115926};
float pinkb[7] = {0.99886, 0.99332, 0.969, 0.8665, 0.55, -0.7616, 0.115926};
memcpy(pink->a, pinka, 7*sizeof(float));
memcpy(pink->b, pinkb, 7*sizeof(float));
return make_node(pink, gen_pinknoise, iir_free);
}
void filter_rednoise(soundbyte *restrict last, soundbyte *out, int frames)
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{
gen_whitenoise(NULL, out, frames);
for (int i = 0; i < frames*CHANNELS; i++) {
out[i] = (*last + (0.02*out[i]))/1.02;
*last = out[i];
out[i] *= 3.5;
}
}
dsp_node *dsp_rednoise()
{
soundbyte *last = malloc(sizeof(soundbyte));
*last = 0;
return make_node(last,filter_rednoise, NULL);
}
void filter_pitchshift(float *restrict octaves, soundbyte *buffer, int frames)
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{
soundbyte ch1[frames];
for (int i = 0; i < frames; i++)
ch1[i] = buffer[i*CHANNELS];
smbPitchShift(*octaves, frames, 1024, 4, SAMPLERATE, ch1, buffer);
mono_expand(buffer, CHANNELS, frames);
}
dsp_node *dsp_pitchshift(float octaves)
{
float *oct = malloc(sizeof(float));
*oct = octaves;
return make_node(oct, filter_pitchshift, NULL);
}
struct timescale
{
float rate;
SRC_STATE *src;
};
static long *src_cb(struct timescale *ts, float **data)
{
return NULL;
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}
void filter_timescale(struct timescale *ts, soundbyte *buffer, int frames)
{
}
dsp_node *dsp_timescale(float scale)
{
struct timescale *ts = malloc(sizeof(*ts));
ts->rate = scale;
ts->src = src_callback_new(src_cb, SRC_SINC_FASTEST, scale, NULL, ts);
return make_node(ts, filter_timescale, NULL);
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}
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soundbyte iir_filter(struct dsp_iir iir, soundbyte val)
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{
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iir.y[0] = 0.0;
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iir.x[0] = val;
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for (int i = 0; i < iir.n; i++)
iir.y[0] += iir.a[i] * iir.x[i];
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for (int i = 1; i < iir.n; i++)
iir.y[0] -= iir.b[i] * iir.y[i];
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/* Shift values in */
for (int i = iir.n-1; i > 0; i--) {
iir.x[i] = iir.x[i-1];
iir.y[i] = iir.y[i-1];
}
return iir.y[0];
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}
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void filter_iir(struct dsp_iir *iir, soundbyte *buffer, int frames)
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{
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for (int i = 0; i < frames; i++) {
soundbyte v = iir_filter(*iir, buffer[i*CHANNELS]);
for (int j = 0; j < CHANNELS; j++) buffer[i*CHANNELS+j] = v;
}
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}
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dsp_node *dsp_lpf(float freq)
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{
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struct dsp_iir *iir = malloc(sizeof(*iir));
*iir = bqlp_dcof(2*freq/SAMPLERATE, 5);
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return make_node(iir, filter_iir, iir_free);
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}
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dsp_node *dsp_hpf(float freq)
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{
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struct dsp_iir *iir = malloc(sizeof(*iir));
*iir = bqhp_dcof(2*freq/SAMPLERATE,5);
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return make_node(iir, filter_iir, iir_free);
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}
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void filter_delay(delay *d, soundbyte *buf, int frames)
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{
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for (int i = 0; i < frames*CHANNELS; i++) {
buf[i] += ringshift(d->ring)*d->decay;
ringpush(d->ring, buf[i]);
}
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}
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void delay_free(delay *d)
{
ringfree(d->ring);
free(d);
}
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dsp_node *dsp_delay(double sec, double decay)
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{
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delay *d = malloc(sizeof(*d));
d->ms_delay = sec;
d->decay = decay;
d->ring = NULL;
d->ring = ringnew(d->ring, sec*CHANNELS*SAMPLERATE*2); /* Circular buffer size is enough to have the delay */
ringheader(d->ring)->write += CHANNELS*SAMPLERATE*sec;
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return make_node(d, filter_delay, delay_free);
}
void filter_fwd_delay(delay *restrict d, soundbyte *restrict buf, int frames)
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{
for (int i = 0; i < frames*CHANNELS; i++) {
ringpush(d->ring, buf[i]);
buf[i] += ringshift(d->ring)*d->decay;
}
}
dsp_node *dsp_fwd_delay(double sec, double decay)
{
delay *d = malloc(sizeof(*d));
d-> ms_delay = sec;
d->decay = decay;
d->ring = NULL;
d->ring = ringnew(d->ring, sec*CHANNELS*SAMPLERATE*2);
ringheader(d->ring)->write += CHANNELS*SAMPLERATE*sec;
return make_node(d, filter_fwd_delay, delay_free);
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}
/* Get decay constant for a given pole */
/* Samples to decay 1 time constant is exp(-1/timeconstant) */
double tau2pole(double tau)
{
return exp(-1/(tau*SAMPLERATE));
}
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void dsp_adsr_fillbuf(struct dsp_adsr *adsr, soundbyte *out, int n)
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{
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soundbyte val;
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for (int i = 0; i < n; i++) {
if (adsr->time > adsr->rls) {
adsr->out = 0.f;
goto fin;
}
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if (adsr->time > adsr->sus) {
// Release phase
adsr->out = adsr->rls_t * adsr->out;
goto fin;
}
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if (adsr->time > adsr->dec) {
// Sustain phase
adsr->out = adsr->sus_pwr;
goto fin;
}
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if (adsr->time > adsr->atk) {
// Decay phase
adsr->out = (1 - adsr->dec_t) * adsr->sus_pwr + adsr->dec_t * adsr->out;
goto fin;
}
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// Attack phase
adsr->out = (1-adsr->atk_t) + adsr->atk_t * adsr->out;
fin:
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val = SHRT_MAX * adsr->out;
out[i*CHANNELS] = out[i*CHANNELS+1] = val;
adsr->time += (double)(1000.f / SAMPLERATE);
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}
}
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dsp_node *dsp_adsr(unsigned int atk, unsigned int dec, unsigned int sus, unsigned int rls)
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{
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struct dsp_adsr *adsr = malloc(sizeof(*adsr));
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adsr->atk = atk;
/* decay to 3 tau */
adsr->atk_t = tau2pole(atk / 3000.f);
adsr->dec = dec + adsr->atk;
adsr->dec_t = tau2pole(dec / 3000.f);
adsr->sus = sus + adsr->dec;
adsr->sus_pwr = 0.8f;
adsr->rls = rls + adsr->sus;
adsr->rls_t = tau2pole(rls / 3000.f);
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return make_node(adsr, dsp_adsr_fillbuf, NULL);
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}
void filter_noise_gate(float *restrict floor, soundbyte *restrict out, int frames)
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{
for (int i = 0; i < frames*CHANNELS; i++) out[i] = fabsf(out[i]) < *floor ? 0.0 : out[i];
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}
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dsp_node *dsp_noise_gate(float floor)
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{
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float *v = malloc(sizeof(float));
*v = floor;
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return make_node(v, filter_noise_gate, NULL);
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}
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void filter_limiter(float *restrict ceil, soundbyte *restrict out, int n)
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{
for (int i = 0; i < n*CHANNELS; i++) out[i] = fabsf(out[i]) > *ceil ? *ceil : out[i];
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}
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dsp_node *dsp_limiter(float ceil)
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{
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float *v = malloc(sizeof(float));
*v = ceil;
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return make_node(v, filter_limiter, NULL);
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}
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void dsp_compressor_fillbuf(struct dsp_compressor *comp, soundbyte *out, int n)
{
float val;
float db;
db = comp->target * (val - comp->threshold) / comp->ratio;
for (int i = 0; i < n; i++) {
val = float2db(out[i*CHANNELS]);
if (val < comp->threshold) {
comp->target = comp->rls_tau * comp->target;
val += db;
} else {
comp->target = (1 - comp->atk_tau) + comp->atk_tau * comp->target; // TODO: Bake in the 1 - atk_tau
val -= db;
}
// Apply same compression to both channels
out[i*CHANNELS] = out[i*CHANNELS+1] = db2float(val) * ( out[i*CHANNELS] > 0 ? 1 : -1);
}
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}
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dsp_node *dsp_compressor()
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{
struct dsp_compressor new;
new.ratio = 4000;
new.atk = 50;
new.rls = 250;
new.target = 0.f;
new.threshold = -3.f;
new.atk_tau = tau2pole(new.atk / 3000.f);
new.rls_tau = tau2pole(new.rls / 3000.f);
struct dsp_compressor *c = malloc(sizeof(*c));
*c = new;
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return make_node(c, dsp_compressor_fillbuf, NULL);
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}
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/* Assumes 2 channels in a frame */
void pan_frames(soundbyte *out, float deg, int frames)
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{
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if (deg == 0.f) return;
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if (deg < -1) deg = -1.f;
else if (deg > 1) deg = 1.f;
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float db1, db2;
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if (deg > 0) {
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db1 = pct2db(1 - deg);
db2 = pct2db(deg);
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for (int i = 0; i < frames; i++) {
soundbyte L = out[i*2];
soundbyte R = out[i*2+1];
out[i*2] = fgain(L, db1);
out[i*2+1] = (R + fgain(L, db2))/2;
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}
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} else {
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db1 = pct2db(1 + deg);
db2 = pct2db(-1*deg);
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for (int i = 0; i < frames; i++) {
soundbyte L = out[i*2];
soundbyte R = out[i*2+1];
out[i*2+1] = fgain(R,db1);
out[i*2] = fgain(L, db1) + fgain(R, db2);
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}
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}
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}
void dsp_mono(void *p, soundbyte *restrict out, int n)
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{
for (int i = 0; i < n; i++) {
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soundbyte val = (out[i*CHANNELS] + out[i*CHANNELS+1]) / 2;
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for (int j = 0; j < CHANNELS; j++)
out[i*CHANNELS+j] = val;
}
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}
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#define ROUND(f) ((float)((f>0.0)?floor(f+0.5):ceil(f-0.5)))
void filter_bitcrush(struct bitcrush *restrict b, soundbyte *restrict out, int frames)
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{
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int max = pow(2,b->depth) - 1;
int step = SAMPLERATE/b->sr;
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int i = 0;
while (i < frames) {
float left = ROUND((out[0]+1.0)*max)/(max-1.0);
float right = ROUND((out[1]+1.0)*max)/(max-1.0);
for (int j = 0; j < step && i < frames; j++) {
out[0] = left;
out[1] = right;
out += CHANNELS;
i++;
}
}
}
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dsp_node *dsp_bitcrush(float sr, float res)
{
struct bitcrush *b = malloc(sizeof(*b));
b->sr = sr;
b->depth = res;
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return make_node(b, filter_bitcrush, NULL);
}