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bloopsaphone.c
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bloopsaphone.c
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//
// bloopsaphone.c
// the chiptune maker for portaudio
// (with bindings for ruby)
//
// (c) 2009 why the lucky stiff
// See COPYING for the license
//
#include <stdio.h>
#include <stdlib.h>
#include <stddef.h>
#include <string.h>
#include <time.h>
#include <math.h>
#include <portaudio.h>
#include <unistd.h>
#include "bloopsaphone.h"
#include "bloopsaphone-internal.h"
#ifdef PaStream
#error ** Looks like you're linking against PortAudio 1.8!
#error ** Bloopsaphone needs PortAudio 1.9 or greater.
#error ** On Ubuntu, try: aptitude install portaudio19-dev.
#endif
#define SAMPLE_RATE 44100
#define rnd(n) (rand() % (n + 1))
#define tempo2frames(tempo) ((float)SAMPLE_RATE / (tempo / 60.0f))
#define PI 3.14159265f
#define FX(F, V) ({ \
if (F->mod == '+') V += F->val; \
else if (F->mod == '-') V -= F->val; \
else V = F->val; \
if (V > 1.0f) \
V = 1.0f; \
else if (V < 0.0f) \
V = 0.0f; \
})
static bloopsalock LOCK;
static bloopsmix *MIXER = NULL;
static void bloops_synth(int, float *);
static int bloops_port_callback(const void *, void *,
unsigned long, const PaStreamCallbackTimeInfo *,
PaStreamCallbackFlags, void *);
static void bloops_set_track_at(bloops *B, bloopsatrack *track, int num);
float
frnd(float range)
{
return (float)rnd(10000) / 10000 * range;
}
static void
bloops_remove(bloops *B)
{
int i;
if (MIXER == NULL) return;
for (i = 0; i < BLOOPS_MAX_CHANNELS; i++) {
if (MIXER->B[i] == B) {
MIXER->B[i] = NULL;
bloops_destroy(B);
}
}
}
static void
bloops_reset_voice(bloopsavoice *A)
{
A->period = 100.0 / (A->params.freq * A->params.freq + 0.001);
A->maxperiod = 100.0 / (A->params.limit * A->params.limit + 0.001);
A->slide = 1.0 - pow((double)A->params.slide, 3.0) * 0.01;
A->dslide = -pow((double)A->params.dslide, 3.0) * 0.000001;
A->square = 0.5f - A->params.square * 0.5f;
A->sweep = -A->params.sweep * 0.00005f;
if (A->params.arp >= 0.0f)
A->arp = 1.0 - pow((double)A->params.arp, 2.0) * 0.9;
else
A->arp = 1.0 + pow((double)A->params.arp, 2.0) * 10.0;
A->atime = 0;
A->alimit = (int)(pow(1.0f - A->params.aspeed, 2.0f) * 20000 + 32);
if (A->params.aspeed == 1.0f)
A->alimit = 0;
}
static void
bloops_start_voice(bloopsavoice *A) {
int i = 0;
A->phase = 0;
A->filter[0] = 0.0f;
A->filter[1] = 0.0f;
A->filter[2] = pow(A->params.lpf, 3.0f) * 0.1f;
A->filter[3] = 1.0f + A->params.lsweep * 0.0001f;
A->filter[4] = 5.0f / (1.0f + pow(A->params.resonance, 2.0f) * 20.0f) * (0.01f + A->filter[2]);
if (A->filter[4] > 0.8f) A->filter[4] = 0.8f;
A->filter[5] = 0.0f;
A->filter[6] = pow(A->params.hpf, 2.0f) * 0.1f;
A->filter[7] = 1.0 + A->params.hsweep * 0.0003f;
A->vibe = 0.0f;
A->vspeed = pow(A->params.vspeed, 2.0f) * 0.01f;
A->vdelay = A->params.vibe * 0.5f;
A->volume = 0.0f;
A->stage = 0;
A->time = 0;
A->length[0] = (int)(A->params.attack * A->params.attack * 100000.0f);
A->length[1] = (int)(A->params.sustain * A->params.sustain * 100000.0f);
A->length[2] = (int)(A->params.decay * A->params.decay * 100000.0f);
A->fphase = pow(A->params.phase, 2.0f) * 1020.0f;
if (A->params.phase < 0.0f) A->fphase = -A->fphase;
A->dphase = pow(A->params.psweep, 2.0f) * 1.0f;
if (A->params.psweep < 0.0f) A->dphase = -A->dphase;
A->iphase = abs((int)A->fphase);
A->phasex = 0;
memset(A->phaser, 0, 1024 * sizeof(float));
for (i = 0; i < 32; i++)
A->noise[i] = frnd(2.0f) - 1.0f;
A->repeat = 0;
A->limit = (int)(pow(1.0f - A->params.repeat, 2.0f) * 20000 + 32);
if (A->params.repeat == 0.0f)
A->limit = 0;
A->state = BLOOPS_PLAY;
}
void
bloops_clear(bloops *B)
{
int i;
for (i = 0; i < BLOOPS_MAX_TRACKS; i++) {
bloops_set_track_at(B, NULL, i);
}
}
void
bloops_tempo(bloops *B, int tempo)
{
B->tempo = tempo;
}
void
bloops_set_track_at(bloops *B, bloopsatrack *track, int num)
{
bloopsavoice *voice;
bloopsatrack *old_track;
voice = &B->voices[num];
old_track = voice->track;
voice->track = track;
if (track != NULL) {
bloops_track_ref(track);
}
if (old_track != NULL) {
bloops_track_destroy(old_track);
}
voice->state = BLOOPS_STOP;
if (track != NULL) {
memcpy(&voice->params, &track->params, sizeof(bloopsaparams));
}
voice->frames = 0;
voice->nextnote[0] = 0;
voice->nextnote[1] = 0;
}
void
_bloops_track_add(bloops *B, bloopsatrack *track) {
int i;
for (i = 0; i < BLOOPS_MAX_TRACKS; i++) {
if (B->voices[i].track == NULL) {
bloops_set_track_at(B, track, i);
break;
}
}
}
int
bloops_is_done(bloops *B)
{
return B->state == BLOOPS_STOP;
}
static void
bloops_synth(int length, float* buffer)
{
int bi, t, i, si;
while (length--)
{
int samplecount = 0;
float allsample = 0.0f;
for (bi = 0; bi < BLOOPS_MAX_CHANNELS; bi++)
{
int moreframes = 0;
bloops *B = MIXER->B[bi];
if (B == NULL)
continue;
for (t = 0; t < BLOOPS_MAX_TRACKS; t++)
{
bloopsavoice *A = &B->voices[t];
bloopsatrack *track = A->track;
if (track == NULL)
continue;
if (track->notes)
{
if (A->frames == A->nextnote[0])
{
if (A->nextnote[1] < track->nlen)
{
bloopsanote *note = &track->notes[A->nextnote[1]];
float freq = A->params.freq;
if (note->tone != 'n')
freq = bloops_note_freq(note->tone, (int)note->octave);
if (freq == 0.0f) {
A->period = 0.0f;
A->state = BLOOPS_STOP;
} else {
bloopsanote *note = &track->notes[A->nextnote[1]];
bloopsafx *fx = note->FX;
while (fx) {
switch (fx->cmd) {
case BLOOPS_FX_VOLUME: FX(fx, A->params.volume); break;
case BLOOPS_FX_PUNCH: FX(fx, A->params.punch); break;
case BLOOPS_FX_ATTACK: FX(fx, A->params.attack); break;
case BLOOPS_FX_SUSTAIN: FX(fx, A->params.sustain); break;
case BLOOPS_FX_DECAY: FX(fx, A->params.decay); break;
case BLOOPS_FX_SQUARE: FX(fx, A->params.square); break;
case BLOOPS_FX_SWEEP: FX(fx, A->params.sweep); break;
case BLOOPS_FX_VIBE: FX(fx, A->params.vibe); break;
case BLOOPS_FX_VSPEED: FX(fx, A->params.vspeed); break;
case BLOOPS_FX_VDELAY: FX(fx, A->params.vdelay); break;
case BLOOPS_FX_LPF: FX(fx, A->params.lpf); break;
case BLOOPS_FX_LSWEEP: FX(fx, A->params.lsweep); break;
case BLOOPS_FX_RESONANCE: FX(fx, A->params.resonance); break;
case BLOOPS_FX_HPF: FX(fx, A->params.hpf); break;
case BLOOPS_FX_HSWEEP: FX(fx, A->params.hsweep); break;
case BLOOPS_FX_ARP: FX(fx, A->params.arp); break;
case BLOOPS_FX_ASPEED: FX(fx, A->params.aspeed); break;
case BLOOPS_FX_PHASE: FX(fx, A->params.phase); break;
case BLOOPS_FX_PSWEEP: FX(fx, A->params.psweep); break;
case BLOOPS_FX_REPEAT: FX(fx, A->params.repeat); break;
}
fx = fx->next;
}
bloops_reset_voice(A);
bloops_start_voice(A);
A->period = 100.0 / (freq * freq + 0.001);
}
A->nextnote[0] += (int)(tempo2frames(B->tempo) * (4.0f / note->duration));
}
A->nextnote[1]++;
}
if (A->nextnote[1] <= track->nlen)
moreframes++;
}
else
{
moreframes++;
}
A->frames++;
if (A->state == BLOOPS_STOP)
continue;
samplecount++;
A->repeat++;
if (A->limit != 0 && A->repeat >= A->limit)
{
A->repeat = 0;
bloops_reset_voice(A);
}
A->atime++;
if (A->alimit != 0 && A->atime >= A->alimit)
{
A->alimit = 0;
A->period *= A->arp;
}
A->slide += A->dslide;
A->period *= A->slide;
if (A->period > A->maxperiod)
{
A->period = A->maxperiod;
if (A->params.limit > 0.0f)
A->state = BLOOPS_STOP;
}
float rfperiod = A->period;
if (A->vdelay > 0.0f)
{
A->vibe += A->vspeed;
rfperiod = A->period * (1.0 + sin(A->vibe) * A->vdelay);
}
int period = (int)rfperiod;
if (period < 8) period = 8;
A->square += A->sweep;
if(A->square < 0.0f) A->square = 0.0f;
if(A->square > 0.5f) A->square = 0.5f;
A->time++;
while (A->time >= A->length[A->stage])
{
A->time = 0;
A->stage++;
if (A->stage == 3)
A->state = BLOOPS_STOP;
}
switch (A->stage) {
case 0:
A->volume = (float)A->time / A->length[0];
break;
case 1:
A->volume = 1.0f + (1.0f - (float)A->time / A->length[1]) * 2.0f * A->params.punch;
break;
case 2:
A->volume = 1.0f - (float)A->time / A->length[2];
break;
}
A->fphase += A->dphase;
A->iphase = abs((int)A->fphase);
if (A->iphase > 1023) A->iphase = 1023;
if (A->filter[7] != 0.0f)
{
A->filter[6] *= A->filter[7];
if (A->filter[6] < 0.00001f) A->filter[6] = 0.00001f;
if (A->filter[6] > 0.1f) A->filter[6] = 0.1f;
}
float ssample = 0.0f;
for (si = 0; si < 8; si++)
{
float sample = 0.0f;
A->phase++;
if (A->phase >= period)
{
A->phase %= period;
if (A->params.type == BLOOPS_NOISE)
for (i = 0; i < 32; i++)
A->noise[i] = frnd(2.0f) - 1.0f;
}
float fp = (float)A->phase / period;
switch (A->params.type)
{
case BLOOPS_SQUARE:
if (fp < A->square)
sample = 0.5f;
else
sample = -0.5f;
break;
case BLOOPS_SAWTOOTH:
sample = 1.0f - fp * 2;
break;
case BLOOPS_SINE:
sample = (float)sin(fp * 2 * PI);
break;
case BLOOPS_NOISE:
sample = A->noise[A->phase * 32 / period];
break;
}
float pp = A->filter[0];
A->filter[2] *= A->filter[3];
if (A->filter[2] < 0.0f) A->filter[2] = 0.0f;
if (A->filter[2] > 0.1f) A->filter[2] = 0.1f;
if (A->params.lpf != 1.0f)
{
A->filter[1] += (sample - A->filter[0]) * A->filter[2];
A->filter[1] -= A->filter[1] * A->filter[4];
}
else
{
A->filter[0] = sample;
A->filter[1] = 0.0f;
}
A->filter[0] += A->filter[1];
A->filter[5] += A->filter[0] - pp;
A->filter[5] -= A->filter[5] * A->filter[6];
sample = A->filter[5];
A->phaser[A->phasex & 1023] = sample;
sample += A->phaser[(A->phasex - A->iphase + 1024) & 1023];
A->phasex = (A->phasex + 1) & 1023;
ssample += sample * A->volume;
}
ssample = ssample / 8 * B->volume;
ssample *= 2.0f * A->params.volume;
if (ssample > 1.0f) ssample = 1.0f;
if (ssample < -1.0f) ssample = -1.0f;
allsample += ssample;
}
if (moreframes == 0)
B->state = BLOOPS_STOP;
}
*buffer++ = allsample;
}
}
static int bloops_port_callback(const void *inputBuffer, void *outputBuffer,
unsigned long framesPerBuffer, const PaStreamCallbackTimeInfo* timeInfo,
PaStreamCallbackFlags statusFlags, void *data)
{
float *out = (float*)outputBuffer;
bloops_synth(framesPerBuffer, out);
return paContinue;
}
void
bloops_play(bloops *B)
{
int i;
for (i = 0; i < BLOOPS_MAX_TRACKS; i++) {
bloopsavoice *A;
A = &B->voices[i];
if (A->track != NULL) {
memcpy(&A->params, &A->track->params, sizeof(bloopsaparams));
bloops_reset_voice(A);
bloops_start_voice(A);
A->frames = 0;
A->nextnote[0] = 0;
A->nextnote[1] = 0;
}
}
bloops_remove(B);
for (i = 0; i < BLOOPS_MAX_CHANNELS; i++) {
if (MIXER->B[i] == NULL || MIXER->B[i]->state == BLOOPS_STOP) {
bloops_ref(B);
if (MIXER->B[i] != NULL) {
bloops_destroy(MIXER->B[i]);
}
MIXER->B[i] = B;
break;
}
}
B->state = BLOOPS_PLAY;
if (MIXER->stream == NULL) {
Pa_OpenDefaultStream(&MIXER->stream, 0, 1, paFloat32,
SAMPLE_RATE, 512, bloops_port_callback, B);
Pa_StartStream(MIXER->stream);
}
}
void
bloops_stop(bloops *B)
{
int i, stopall = 1;
B->state = BLOOPS_STOP;
for (i = 0; i < BLOOPS_MAX_CHANNELS; i++)
if (MIXER->B[i] != NULL && MIXER->B[i]->state != BLOOPS_STOP)
stopall = 0;
if (stopall)
{
Pa_StopStream(MIXER->stream);
Pa_CloseStream(MIXER->stream);
MIXER->stream = NULL;
}
}
bloopsaphone *
bloops_square()
{
bloopsaphone *P = (bloopsaphone *)calloc(sizeof(bloopsaphone), 1);
P->refcount = 1;
P->params.type = BLOOPS_SQUARE;
P->params.volume = 0.5f;
P->params.sustain = 0.3f;
P->params.decay = 0.4f;
P->params.freq = 0.3f;
P->params.lpf = 1.0f;
return P;
}
static int bloops_open = 0;
bloops *
bloops_new()
{
int i;
bloops *B = (bloops *)malloc(sizeof(bloops));
B->refcount = 1;
B->volume = 0.10f;
B->tempo = 120;
B->state = BLOOPS_STOP;
for (i = 0; i < BLOOPS_MAX_TRACKS; i++) {
B->voices[i].track = NULL;
}
if (MIXER == NULL)
MIXER = (bloopsmix *)calloc(sizeof(bloopsmix), 1);
if (!bloops_open++)
{
srand(time(NULL));
bloops_lock_init(&LOCK);
Pa_Initialize();
}
return B;
}
void
bloops_ref(bloops *B)
{
B->refcount++;
}
void
bloops_destroy(bloops *B)
{
if (--B->refcount) {
return;
}
bloops_remove(B);
free((void *)B);
if (!--bloops_open)
{
Pa_Terminate();
bloops_lock_finalize(&LOCK);
if (MIXER != NULL)
free(MIXER);
MIXER = NULL;
}
}
static void bloops_notes_destroy(bloopsanote *notes, int nlen)
{
bloopsafx *fx, *n;
int i;
for (i = 0; i < nlen; i++) {
n = fx = notes[i].FX;
while ((fx = n)) {
n = fx->next;
free(fx);
}
}
free(notes);
}
void
bloops_track_ref(bloopsatrack *track)
{
track->refcount++;
}
void
bloops_track_destroy(bloopsatrack *track)
{
if (--track->refcount) {
return;
}
if (track->notes != NULL) {
bloops_notes_destroy(track->notes, track->nlen);
}
free(track);
}
void bloops_sound_copy(bloopsaphone *dest, bloopsaphone const *src) {
memcpy(&dest->params, &src->params, sizeof(bloopsaparams));
}
void bloops_sound_ref(bloopsaphone *sound) {
sound->refcount++;
}
void bloops_sound_destroy(bloopsaphone *sound) {
if (--sound->refcount) {
return;
}
free(sound);
}