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base: shermanwright:main
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shermanwright:main shermanwright:sampler-single-file shermanwright:sampler shermanwright:fastled
shermanwright:v0.1.0-sampler shermanwright:v0.0.6 shermanwright:v.0.0.5 shermanwright:v0.0.4 shermanwright:v0.0.3 shermanwright:v0.0.2 shermanwright:v0.0.1
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compare: shermanwright:v0.1.0-sampler
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shermanwright:sampler-single-file shermanwright:sampler shermanwright:main shermanwright:fastled
shermanwright:v0.1.0-sampler shermanwright:v0.0.6 shermanwright:v.0.0.5 shermanwright:v0.0.4 shermanwright:v0.0.3 shermanwright:v0.0.2 shermanwright:v0.0.1

4 Commits
main ... v0.1.0-sam

Author SHA1 Message Date
Sebastian
8858d41806 sampler at 80 percent 2025-06-21 01:21:42 +02:00
Sebastian
ffdbe9fa6d sampling in progress 2025-06-20 15:52:02 +02:00
Sebastian @ HfG
6ef94390a5 almost a complete sequencer... almost 2025-06-18 19:11:28 +02:00
Sebastian
6dd3acac2f sequencer timing basics done 2025-06-18 12:54:34 +02:00
2 changed files with 328 additions and 100 deletions
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405
soundcube-firmware/soundcube-firmware.ino
View File

@ -1,4 +1,3 @@
#include <ArduinoJson.h> #include <ArduinoJson.h>
#include <ArduinoJson.hpp> #include <ArduinoJson.hpp>
@ -19,14 +18,12 @@
#define UI_SAMPLERATE 22050 #define UI_SAMPLERATE 22050
#define BUFFERSIZE 64 #define BUFFERSIZE 64
#define NSTREAMS 8 #define NSTREAMS 16
int16_t buffer[BUFFERSIZE]; int16_t buffer[BUFFERSIZE];
WaveStream stream[NSTREAMS]; WaveStream stream[NSTREAMS];
bool streams_loaded = false;
I2S i2s(INPUT_PULLUP); I2S i2s(INPUT_PULLUP);
TLV320AIC3204 codec; TLV320AIC3204 codec;
@ -38,16 +35,24 @@ DAC8552 dac(9, &SPI1);
PWMAudio ui_snd(8); PWMAudio ui_snd(8);
enum BUTTON {CVINL, CVINR, INL, INR, OUTR, OUTL, CVOUTR, CVOUTL, RIGHT, LEFT, SELECT, DEBUG1, DEBUG2, DEBUG3}; enum STATE {BANK, SAMPLE, SEQUENCE, CTEMPO};
STATE state = BANK;
//enum BUTTON {CVINL, CVINR, INL, INR, OUTR, OUTL, CVOUTR, CVOUTL, RIGHT, LEFT, SELECT, DEBUG1, DEBUG2, DEBUG3};
enum BUTTON {MODE, LOOP, INL, INR, OUTR, OUTL, TEMPO, RESET, BACK, POWER, SELECT, DEBUG1, DEBUG2, DEBUG3};
int lut_ring_cw[48] = {39,38,37,36,35,34,33,32,31,30,29,28,27,26,25,24,23,22,21,20,19,18,17,16,15,14,13,12,11,10,9,8,7,6,5,4,3,50,49,48,47,46,45,44,43,42,41,40}; int lut_ring_cw[48] = {39,38,37,36,35,34,33,32,31,30,29,28,27,26,25,24,23,22,21,20,19,18,17,16,15,14,13,12,11,10,9,8,7,6,5,4,3,50,49,48,47,46,45,44,43,42,41,40};
int lut_ring_ccw[48] = {40,41,42,43,44,45,46,47,48,49,50,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39}; int lut_ring_ccw[48] = {40,41,42,43,44,45,46,47,48,49,50,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39};
int lut_matrix[13] = {56,55,57,58,59,62,61,60,63,64,65,67,66}; int lut_matrix[13] = {56,55,57,58,59,62,61,60,63,64,65,67,66};
int lut_banks[4] = {56,55,67,66};
int lut_samples[4] = {62,58,60,64};
int active = 0; int active = 0;
int active_led_ring = 0; int active_led_ring = 0;
bool speakerToggle = false; int selected_bank = 0;
int selected_sample = 0;
uint32_t lastTime = 0; uint32_t lastTime = 0;
int32_t position = 0; int32_t position = 0;
@ -56,13 +61,18 @@ CRGB ui_leds[74];
CRGB edge_leds[11]; CRGB edge_leds[11];
volatile bool buttonChanged = false; volatile bool buttonChanged = false;
volatile bool ui_click = false;
volatile bool ui_beep = false;
volatile bool amp = false;
int counter = 0; bool ui_click = false;
bool ui_beep = false;
bool amp = false;
bool streams_loaded = false;
bool speakerToggle = false;
bool sd_card_detected = false;
bool buttons[16] = {false}; bool buttons[16] = {false};
int buttonsDir[16] = {0};
int counter = 0;
int16_t ui_click_snd[UI_SAMPLERATE]; int16_t ui_click_snd[UI_SAMPLERATE];
uint16_t click_length = 0; uint16_t click_length = 0;
@ -70,8 +80,6 @@ uint16_t click_length = 0;
int16_t ui_beep_snd[UI_SAMPLERATE]; int16_t ui_beep_snd[UI_SAMPLERATE];
uint16_t beep_length = 0; uint16_t beep_length = 0;
bool sd_card_detected = false;
struct Color { struct Color {
int r; int r;
int g; int g;
@ -82,12 +90,34 @@ struct Color {
}; };
struct Config { struct Config {
String boxid = "";
Color edge_color = {0,0,50,0,50,0}; Color edge_color = {0,0,50,0,50,0};
Color ring_color = {0,50,50,0,80,50}; Color ring_color = {0,50,50,0,80,50};
String sampleFiles[16];
int bpm = 90;
}; };
Config config; Config config;
struct Sample{
float volume = 1.0;
WaveStream *file;
};
Sample samples[NSTREAMS];
struct SequenceStep{
int len = 0;
Sample *samples[4];
void trigger(){
for(int i = 0; i < len; i++){
samples[i]->file->play(true);
}
}
};
SequenceStep steps[16];
void loadConfiguration(Config& config) { void loadConfiguration(Config& config) {
File file = SD.open("/config.txt"); File file = SD.open("/config.txt");
JsonDocument doc; JsonDocument doc;
@ -109,7 +139,13 @@ void loadConfiguration(Config& config) {
config.ring_color.g_active = doc["ring"]["color"]["active"]["g"] | 80; config.ring_color.g_active = doc["ring"]["color"]["active"]["g"] | 80;
config.ring_color.b_active = doc["ring"]["color"]["active"]["b"] | 50; config.ring_color.b_active = doc["ring"]["color"]["active"]["b"] | 50;
//strlcpy(config.hostname, doc["hostname"] | "example.com", sizeof(config.hostname)); JsonArray _sampleFiles = doc["samples"];
config.boxid = doc["boxid"].as<String>();
int i = 0;
for(JsonVariant item : _sampleFiles){
config.sampleFiles[i] = item.as<String>();
i++;
}
file.close(); file.close();
} }
@ -190,6 +226,44 @@ bool load_ui_sounds(const char* file, int16_t *buffer, uint16_t &length){
return false; return false;
} }
bool load_samples(){
for(int i = 0; i < NSTREAMS; i++){
stream[i].begin();
char filename[64];
sprintf(filename, "/sound/%s/%s", config.boxid.c_str(), config.sampleFiles[i].c_str());
Serial.println(filename);
if(SD.exists(filename)){
bool loaded = stream[i].load(SD.open(filename));
if(loaded) {
Serial.print("file read: ");
Serial.print(stream[i].wavefile.length);
Serial.print(" bytes | ");
Serial.print(stream[i].wavefile.samplerate);
Serial.print(" kHz | ");
Serial.print(stream[i].wavefile.bitspersample);
Serial.print(" bits | ");
Serial.print(stream[i].wavefile.channels);
Serial.print(" channels | ");
Serial.print(stream[i].wavefile.blockalign);
Serial.println(" bytes");
//stream[i].wavefile.loop = true;
} else {
Serial.println("file loading error");
}
} else {
for(int k = 0; k < 3; k++){
digitalWrite(6, HIGH);
delay(20);
digitalWrite(6, LOW);
delay(25);
}
return false;
}
}
return true;
}
void tca_irq() { void tca_irq() {
buttonChanged = true; buttonChanged = true;
} }
@ -199,6 +273,46 @@ void speaker(bool state){
digitalWrite(13, state ? HIGH : LOW); digitalWrite(13, state ? HIGH : LOW);
} }
struct Vibration{
int32_t last;
bool start = false;
bool wait = false;
uint16_t on = 0;
uint16_t off = 0;
int n = 1;
void update(){
int32_t delta = millis() - last;
if(start && !wait){
digitalWrite(6, HIGH);
start = false;
wait = true;
last = millis();
}
if(delta >= on && wait){
digitalWrite(6, LOW);
wait = false;
n--;
last = millis();
}
if(delta >= off && n > 0){
start = true;
last = millis();
}
}
void trigger(int _n, int _on, int _off){
n = _n;
on = _on;
off = _off;
start = true;
}
};
Vibration vibration;
void setup() { void setup() {
Serial.begin(); Serial.begin();
delay(1000); delay(1000);
@ -253,7 +367,8 @@ void setup() {
// Rotary Encoder // Rotary Encoder
ENC.begin(); // set direction pin. ENC.begin(); // set direction pin.
ENC.setDirection(AS5600_COUNTERCLOCK_WISE); ENC.setDirection(AS5600_CLOCK_WISE);
ENC.resetCumulativePosition();
pinMode(6, OUTPUT); // Vibration Motor pinMode(6, OUTPUT); // Vibration Motor
pinMode(7, OUTPUT); // UI Amp Enable pinMode(7, OUTPUT); // UI Amp Enable
@ -291,41 +406,13 @@ void setup() {
} }
if(sdInitialized) { if(sdInitialized) {
streams_loaded = load_samples();
}
if(streams_loaded) {
for(int i = 0; i < NSTREAMS; i++){ for(int i = 0; i < NSTREAMS; i++){
stream[i].begin(); samples[i].file = &stream[i];
char filename[40];
sprintf(filename, "/sound/%d.wav", i+1);
if(SD.exists(filename)){
bool loaded = stream[i].load(SD.open(filename));
if(loaded) {
Serial.print("file read: ");
Serial.print(stream[i].wavefile.length);
Serial.print(" bytes | ");
Serial.print(stream[i].wavefile.samplerate);
Serial.print(" kHz | ");
Serial.print(stream[i].wavefile.bitspersample);
Serial.print(" bits | ");
Serial.print(stream[i].wavefile.channels);
Serial.print(" channels | ");
Serial.print(stream[i].wavefile.blockalign);
Serial.println(" bytes");
//stream[i].play();
stream[i].wavefile.loop = true;
} else {
Serial.println("file loading error");
}
} else {
for(int k = 0; k < 3; k++){
digitalWrite(6, HIGH);
delay(100);
digitalWrite(6, LOW);
delay(50);
}
}
} }
streams_loaded = true;
} }
digitalWrite(6, HIGH); digitalWrite(6, HIGH);
@ -337,14 +424,49 @@ void setup() {
digitalWrite(6, LOW); digitalWrite(6, LOW);
} }
bool dactest = false; uint32_t last = 0;
int bar = 0;
int bar_old = -1;
int set_bar = 0;
int16_t angle = 0;
int32_t position_last = 0;
int16_t encdelta_raw = 0;
int16_t encdeltadiv = 512;
void loop() { void loop() {
position = ENC.getCumulativePosition(); position = ENC.getCumulativePosition();
angle = ENC.readAngle();
encdelta_raw += (position - position_last);
// Serial.print(encdelta_raw);
// Serial.print(" \t");
int encdelta = 0;
if(abs(encdelta_raw) > encdeltadiv) {
encdelta = encdelta_raw > 0 ? 1 : -1;
encdelta_raw = 0;
}
// Serial.print(angle);
// Serial.print(" \t");
// Serial.print(position);
// Serial.print(" \t");
// Serial.print(position_last);
// Serial.print(" \t");
// Serial.print(encdelta_raw);
// Serial.print(" \t");
// Serial.println(encdelta);
uint32_t delta_bpm = floor((60000 / config.bpm) / 16);
if(millis() - last >= delta_bpm) {
bar = (bar + 1) % 16;
last = millis();
}
sd_card_detected = !digitalRead(21); sd_card_detected = !digitalRead(21);
if(sd_card_detected) edge_leds[8] = CRGB(0,10,0); edge_leds[8] = sd_card_detected ? CRGB(0,10,0) : CRGB(10,0,0);
if(!sd_card_detected) edge_leds[8] = CRGB(10,0,0);
// EDGE LEDs // EDGE LEDs
for (int i = 0; i < 8; i++) { for (int i = 0; i < 8; i++) {
@ -366,102 +488,185 @@ void loop() {
int buttonValues = TCA.read16(); int buttonValues = TCA.read16();
bool buttonsNew[16] = {false}; bool buttonsNew[16] = {false};
int buttonsDir[16] = {0};
bool buttonUp = false; bool buttonUp = false;
bool buttonDown = false; bool buttonDown = false;
for(int i = 0; i < 16; i++){ for(int i = 0; i < 16; i++){
buttonsNew[i] = ~(buttonValues >> i) & 0x01; buttonsNew[i] = ~(buttonValues >> i) & 0x01;
if(buttonsNew[i] == true && buttons[i] == false) { if(buttonsNew[i] == true && buttons[i] == false) {
buttonsDir[i] = 1; buttonsDir[i] = -1;
buttonDown = true; buttonDown = true;
} }
if(buttonsNew[i] == false && buttons[i] == true) { if(buttonsNew[i] == false && buttons[i] == true) {
buttonsDir[i] = -1; buttonsDir[i] = 1;
buttonUp = true; buttonUp = true;
} }
buttons[i] = buttonsNew[i]; buttons[i] = buttonsNew[i];
} }
// Make vibration // Make vibration
if (HAPTIC && buttonDown) { if(HAPTIC && buttonDown) {
digitalWrite(6, HIGH); vibration.trigger(1, 25, 25);
delay(50);
digitalWrite(6, LOW);
} }
// Make beep // Make beep
if (AURAL && buttonDown) { if(AURAL && buttonDown) {
digitalWrite(7, HIGH); digitalWrite(7, HIGH);
ui_click = true; ui_click = true;
} }
// Flash encoder leds if(buttons[TEMPO] && buttonDown){
ui_leds[0] = CRGB(0, 100, 50); state = CTEMPO;
ui_leds[1] = CRGB(0, 100, 50); }
ui_leds[2] = CRGB(0, 100, 50);
// Switch through LED matrix if(buttons[BACK] && buttonDown){
if(buttons[RIGHT]) active++; }
if(buttons[LEFT]) active--;
if(active == 13) active = 0;
if(active == -1) active = 12;
if(buttons[CVINL]) { switch(state){
case BANK:
encdeltadiv = 512;
encdelta_raw = 0;
encdelta = 0;
if(buttons[SELECT] && buttonDown){
state = SAMPLE;
}
break;
case SAMPLE:
encdeltadiv = 512;
encdelta_raw = 0;
encdelta = 0;
if(buttons[SELECT] && buttonDown){
state = SEQUENCE;
}
if(buttons[BACK] && buttonDown){
state = BANK;
}
break;
case SEQUENCE:
encdeltadiv = 256;
encdelta_raw = 0;
encdelta = 0;
if(buttons[SELECT] && buttonDown){
int n = steps[set_bar].len;
steps[set_bar].samples[n] = &samples[selected_bank*4 + selected_sample];
steps[set_bar].len = (steps[set_bar].len + 1) % 4;
}
if(buttons[BACK] && buttonDown){
state = SAMPLE;
}
break;
case CTEMPO:
encdeltadiv = 64;
encdelta_raw = 0;
encdelta = 0;
if(buttons[SELECT] && buttonDown){
state = BANK;
}
if(buttons[BACK] && buttonDown){
state = BANK;
}
break;
}
// Set bar
// if(buttons[BACK]) set_bar++;
// if(buttons[POWER]) set_bar--;
if(buttons[SELECT]){
// Flash encoder leds
ui_leds[0] = CRGB(0, 100, 50);
ui_leds[1] = CRGB(0, 100, 50);
ui_leds[2] = CRGB(0, 100, 50);
}
if(buttons[DEBUG1]) {
Serial.println("vol down"); Serial.println("vol down");
codec.volumeDown(); codec.volumeDown();
} }
if(buttons[CVOUTL]) { if(buttons[DEBUG3]) {
Serial.println("vol up"); Serial.println("vol up");
codec.volumeUp(); codec.volumeUp();
} }
if(buttons[DEBUG3]) { if(buttons[DEBUG2]) {
speakerToggle = !speakerToggle; speakerToggle = !speakerToggle;
speaker(speakerToggle); speaker(speakerToggle);
} }
if(buttons[DEBUG2]) {
dactest = !dactest;
dac.setValue(0, dactest ? 0 : 32768);
dac.setValue(1, !dactest ? 0 : 65535);
}
if(buttons[SELECT]){
stream[active % NSTREAMS].toggle();
ui_beep = true;
}
Serial.println(codec.getVolumeL()); Serial.println(codec.getVolumeL());
//for(int i = 0; i < NSTREAMS; i++){
// stream[i].pause();
// }
//stream[active % NSTREAMS].play();
buttonChanged = false; buttonChanged = false;
} }
// if(position < 0) position += 4096;
switch(state){
case BANK:
selected_bank += encdelta;
if(selected_bank == 4) selected_bank = 0;
if(selected_bank == -1) selected_bank = 3;
break;
case SAMPLE:
selected_sample += encdelta;
if(selected_sample == 4) selected_sample = 0;
if(selected_sample == -1) selected_sample = 3;
break;
case SEQUENCE:
set_bar += encdelta;
if(set_bar == 16) set_bar = 0;
if(set_bar == -1) set_bar = 15;
break;
case CTEMPO:
config.bpm += encdelta;
if(config.bpm < 15) config.bpm = 15;
if(config.bpm > 300) config.bpm = 300;
break;
}
//dac.setValue(0, dactest ? 0 : sin((float)millis() / 100.0f) * 32768 + 32768); //dac.setValue(0, dactest ? 0 : sin((float)millis() / 100.0f) * 32768 + 32768);
// empty LED matrix // empty LED matrix
for (int i = 0; i < 13; i++) { for (int i = 0; i < 4; i++) {
ui_leds[lut_matrix[i]] = CRGB(0, 0, 0); ui_leds[lut_banks[i]] = CRGB(0, 0, 0);
if(stream[i % NSTREAMS].isPlaying()) ui_leds[lut_matrix[i % NSTREAMS]] = CRGB(0, 50, 0); ui_leds[lut_samples[i]] = CRGB(0,0,0);
} }
// set active LED matrix LED // set active LED matrix LED
ui_leds[lut_matrix[active]] = CRGB(100, 100, 100); ui_leds[lut_banks[selected_bank]] = CRGB(100, 50, 50);
ui_leds[lut_samples[selected_sample]] = CRGB(100, 0, 50);
if(position < 0) position += 4096; for(int i = 0; i < 48; i++){
active_led_ring = (position / 32) % 48; int step = floor(i/3);
if(step == set_bar){
ui_leds[lut_ring_cw[i]] = CRGB(config.ring_color.r_active, config.ring_color.g_active, config.ring_color.b_active);
}
if(step == bar){
ui_leds[lut_ring_cw[i]] = CRGB(config.ring_color.r, config.ring_color.g, config.ring_color.b);
}
if(steps[step].len > 0) {
ui_leds[lut_ring_cw[i]] = CRGB(0, 10, 0);
}
// set active LED ring LED
for(int i = 0; i < active_led_ring; i++){
ui_leds[lut_ring_ccw[i]] = CRGB(config.ring_color.r, config.ring_color.g, config.ring_color.b);
} }
if(bar != bar_old){
if(steps[bar].len > 0) {
steps[bar].trigger();
Serial.print("trigger ");
Serial.println(bar);
}
}
// // set active LED ring LED
// for(int i = 0; i < active_led_ring; i++){
// ui_leds[lut_ring_ccw[i]] = CRGB(config.ring_color.r, config.ring_color.g, config.ring_color.b);
// }
FastLED.show(); FastLED.show();
if(streams_loaded) { if(streams_loaded) {
for(int i = 0; i < NSTREAMS; i++){ for(int i = 0; i < NSTREAMS; i++){
@ -469,9 +674,19 @@ void loop() {
} }
} }
if(buttonChanged){
for(int i = 0; i < 16; i++){
if(buttonsDir[i] == 1) buttonsDir[i] = 0;
}
}
if(i2s.getOverflow()) Serial.println("overflow"); if(i2s.getOverflow()) Serial.println("overflow");
if(i2s.getUnderflow()) Serial.println("underflow"); if(i2s.getUnderflow()) Serial.println("underflow");
//delay(20); // wait 1ms //delay(20); // wait 1ms
bar_old = bar;
vibration.update();
position_last = position;
} }

21
soundcube-firmware/wavestream.h
View File

@ -74,16 +74,21 @@ struct WaveFile{
return true; return true;
} }
void readblock(){ bool readblock(){
uint8_t samplebyte[blockalign]; uint8_t samplebyte[blockalign];
file.read(samplebyte, blockalign); file.read(samplebyte, blockalign);
if(!file.available() && loop) file.seek(44, SeekSet); if(!file.available() && loop) file.seek(44, SeekSet);
if(!file.available() && !loop) {
file.seek(44, SeekSet);
return false;
}
for(int i = 0; i < blockalign; i+=2){ for(int i = 0; i < blockalign; i+=2){
int16_t sample = (samplebyte[i+1] << 8) + samplebyte[i]; int16_t sample = (samplebyte[i+1] << 8) + samplebyte[i];
buffer.push(sample); buffer.push(sample);
} }
return true;
} }
int16_t get(){ int16_t get(){
@ -94,6 +99,10 @@ struct WaveFile{
file.seek(44, SeekSet); file.seek(44, SeekSet);
} }
void reset(){
file.seek(44, SeekSet);
}
bool loop = false; bool loop = false;
uint16_t format = 0; uint16_t format = 0;
uint32_t length = 0; uint32_t length = 0;
@ -110,7 +119,7 @@ class WaveStream{
WaveStream(){} WaveStream(){}
void begin(){ void begin(){
wavefile.buffer.setSize(24000); wavefile.buffer.setSize(8000);
wavefile.buffer.begin(); wavefile.buffer.begin();
} }
@ -121,7 +130,10 @@ class WaveStream{
void toggle(){playing = !playing;} void toggle(){playing = !playing;}
void play(){playing = true;} void play(bool reset = false){
if(reset) wavefile.reset();
playing = true;
}
void stop(){ void stop(){
playing = false; playing = false;
@ -134,7 +146,8 @@ class WaveStream{
if(!wavefile.buffer.isFull() && playing){ if(!wavefile.buffer.isFull() && playing){
int cnt = 0; int cnt = 0;
while (!wavefile.buffer.isFull() && cnt < 6000) { while (!wavefile.buffer.isFull() && cnt < 6000) {
wavefile.readblock(); bool ok = wavefile.readblock();
if(!ok) playing = false;
cnt++; cnt++;
} }
} }