/* RiTCh Lightshow Simple Arduino based MP3/DMX player which can be triggered by buttons. (c)2024 by H. Wirtz */ /* TODO: - */ #include #include #include #include #include "looper.h" #define DEBUG 1 #define SENSOR_SCHED 10 #define WORKER_SCHED 100 #define LED_SCHED 50 #define LEVEL_CHECK_SCHED 100 #define DEBUG_SCHED 500 #define BUTTON_LONG_PRESS 1000 #define MIN_TIME_SWITCH_PRESSED 50 #define LED_NORMAL_BRIGHTNESS 180 #define LED_PLAY_BRIGHTNESS 20 #define DMX_MAX_CHANNEL 512 #define MAX_VOL_LEVEL 30 #define MAX_DMX_LEVEL 255 // Arduino pins #define POTI1_PIN A1 #define POTI2_PIN A2 #define POTI3_PIN A3 #define POTI4_PIN A4 #define BUTTON1_PIN 4 #define BUTTON2_PIN 5 #define BUTTON3_PIN 6 #define BUTTON4_PIN 7 #define DMX_PIN 8 #define LED_PIN 9 #define MP3_RX_PIN 10 #define MP3_TX_PIN 11 #define BUSY_PIN 12 uint8_t button_state; uint32_t button_time[4] = { 0, 0, 0, 0 }; uint8_t poti_level[4] = { 0, 0, 0, 0 }; uint8_t brightness = LED_NORMAL_BRIGHTNESS; typedef struct { uint16_t address = 0; uint32_t values = 0; uint16_t steps = 0; float diff[4] = { 0.0, 0.0, 0.0, 0.0 }; } dmx_spot; dmx_spot spot[1]; // schedular looper sched; // setup audio card SoftwareSerial mySoftwareSerial(MP3_RX_PIN, MP3_TX_PIN); // RX, TX DFRobotDFPlayerMini myDFPlayer; //-------------------------------------------------------------------------------- // THREADS //-------------------------------------------------------------------------------- void button_check(void) { byte i; for (i = 0; i < 4; i++) { uint16_t b = button(i); if (b > BUTTON_LONG_PRESS && !bitRead(button_state, i)) { // long press Serial.print(F("Button[")); Serial.print(i + 1, DEC); Serial.println(F("]: long")); button_time[i] = 0; do_button_long(i); } else if (b > MIN_TIME_SWITCH_PRESSED && !bitRead(button_state, i)) { // short press Serial.print(F("Button[")); Serial.print(i + 1, DEC); Serial.println(F("]: short")); button_time[i] = 0; do_button_short(i); } } } void level_check(void) { uint8_t i; uint8_t poti_lvl; for (i = 0; i < 4; i++) { poti_lvl = map(analogRead(poti_pin_by_number(i)), 15, 1023, 0, 255); if (poti_lvl != poti_level[i]) { poti_level[i] = poti_lvl; Serial.print(F("Poti[")); Serial.print(i + 1, DEC); Serial.print(F("]: ")); Serial.println(poti_level[i]); do_level(i); } } } void show_led(void) { analogWrite(LED_PIN, LED_PLAY_BRIGHTNESS); } void worker(void) { for (uint8_t s = 0; s < MAX_DMX_SPOTS; s++) { uint8_t r = (spot[0].values >> 3); uint8_t g = (spot[0].values >> 2); uint8_t b = (spot[0].values >> 1); uint8_t a = (spot[0].values & 0xff); if (spot[s].) } } //-------------------------------------------------------------------------------- // HELPER FUNCTIONS //-------------------------------------------------------------------------------- void do_level(uint8_t p) { Serial.print("LEVEL "); Serial.println(p); DmxSimple.write(1 + p, poti_level[p]); } void do_button_long(uint8_t b) { Serial.print("LONG "); Serial.println(b); } void do_button_short(uint8_t b) { Serial.print("SHORT "); Serial.println(b); } uint32_t button(byte button_nr) { byte button = button_pin_by_number(button_nr); if (digitalRead(button) == LOW) { if (!bitRead(button_state, button_nr)) { bitSet(button_state, button_nr); button_time[button_nr] = millis(); } else { if (button_time[button_nr] > millis()) return (0xffff - button_time[button_nr] + millis()); // overflow-protection else return (millis() - button_time[button_nr]); } } else { if (bitRead(button_state, button_nr)) { bitWrite(button_state, button_nr, 0); if (button_time[button_nr] > millis()) return (0xffff - button_time[button_nr] + millis()); // overflow-protection else return (millis() - button_time[button_nr]); } } return (0); } uint8_t button_pin_by_number(byte n) { switch (n) { case 0: return (BUTTON1_PIN); break; case 1: return (BUTTON2_PIN); break; case 2: return (BUTTON3_PIN); break; case 3: return (BUTTON4_PIN); break; } return (0); } uint8_t poti_pin_by_number(byte n) { switch (n) { case 0: return (POTI1_PIN); break; case 1: return (POTI2_PIN); break; case 2: return (POTI3_PIN); break; case 3: return (POTI4_PIN); break; } return (0); } //-------------------------------------------------------------------------------- // SYSTEM //-------------------------------------------------------------------------------- void setup() { Serial.begin(9600); #ifdef __AVR_ATmega32U4__ while (!Serial) { ; // wait for serial port to connect. Needed for Leonardo only } #endif Serial.println(""); mySoftwareSerial.begin(9600); // setup poti pins pinMode(POTI1_PIN, INPUT_PULLUP); pinMode(POTI2_PIN, INPUT_PULLUP); pinMode(POTI3_PIN, INPUT_PULLUP); pinMode(POTI4_PIN, INPUT_PULLUP); // setup button pins pinMode(BUTTON1_PIN, INPUT_PULLUP); pinMode(BUTTON2_PIN, INPUT_PULLUP); pinMode(BUTTON3_PIN, INPUT_PULLUP); pinMode(BUTTON4_PIN, INPUT_PULLUP); // setup mp3 busy pin pinMode(BUSY_PIN, INPUT_PULLUP); // setup LED pin pinMode(LED_PIN, OUTPUT); // setup DMX DmxSimple.usePin(DMX_PIN); DmxSimple.maxChannel(DMX_MAX_CHANNEL); // DMX setup spot[0].address = 1; // setup audio card Serial.println(F("Initializing DFPlayer ... (May take 3~5 seconds)")); for (uint8_t n = 0; n < 3; n++) { if (!myDFPlayer.begin(mySoftwareSerial)) { //Use softwareSerial to communicate with mp3. Serial.print(F("Unable use DFPlayer: ")); Serial.println(n, DEC); for (uint8_t i = 0; i < 3; i++) { analogWrite(LED_PIN, LED_PLAY_BRIGHTNESS); delay(100); analogWrite(LED_PIN, LED_PLAY_BRIGHTNESS); delay(100); } } else { Serial.println(F("DFPlayer Mini online.")); myDFPlayer.setTimeOut(500); //Set serial communictaion time out 500ms break; } } myDFPlayer.outputDevice(DFPLAYER_DEVICE_SD); // init schedular sched.addJob(button_check, SENSOR_SCHED); sched.addJob(level_check, LEVEL_CHECK_SCHED); sched.addJob(worker, WORKER_SCHED); sched.addJob(show_led, LED_SCHED); Serial.println(""); } void loop() { sched.scheduler(); }