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342 lines
8.6 KiB
Arduino

#include <MusicWithoutDelay.h>
#include <synth.h>
#include <tables.h>
#include <Wire.h>
#include <Adafruit_ADS1015.h>
//multiplexer adresses
Adafruit_ADS1115 adsa (0x48);
Adafruit_ADS1115 adsb (0x49);
Adafruit_ADS1115 adsc (0x4A);
Adafruit_ADS1115 adsd (0x4B);
//note values
const char note1[] PROGMEM = {"::c-1"}; //plays c4
const char note2[] PROGMEM = {"::e-1"}; //plays e4
const char note3[] PROGMEM = {"::f-1"}; //plays f4
const char note4[] PROGMEM = {"::g-1"}; //plays g4
const char note5[] PROGMEM = {"::c"}; //plays c5
const char note6[] PROGMEM = {"::e"}; //plays e5
const char note7[] PROGMEM = {"::f"}; //plays f5
const char note8[] PROGMEM = {"::g"}; //plays g5
//const char note9[] PROGMEM = {"::c+1"}; //plays c6
//const char note10[] PROGMEM = {"::e+1"}; //plays e6
//const char note11[] PROGMEM = {"::f+1"}; //plays f6
//const char note12[] PROGMEM = {"::g+1"}; //plays g6
//instruments
MusicWithoutDelay myI(note1);
MusicWithoutDelay myIn(note2);
MusicWithoutDelay myIns(note3);
MusicWithoutDelay myInst(note4);
MusicWithoutDelay myInstr(note5);
MusicWithoutDelay myInstru(note6);
MusicWithoutDelay myInstrum(note7);
MusicWithoutDelay myInstrume(note8);
//MusicWithoutDelay myInstrumen(note9);
//MusicWithoutDelay myInstrument(note10);
//MusicWithoutDelay myInstruments(note11);
//MusicWithoutDelay myInstrumentss(note12);
int count;
int vol;
int TH;
int16_t adc0a, adc1a, adc2a, adc3a, adc0b, adc1b, adc2b, adc3b, adc0c, adc1c, adc2c, adc3c, adc0d, adc1d, adc2d, adc3d;
//bool codeswitch = false;
bool BA;
bool BB;
bool BC;
bool BD;
bool BE;
bool BF;
bool BG;
bool BH;
void setup() {
Serial.begin(115200);
//set the gain for multiplexed ins
adsa.setGain(GAIN_ONE); // 1x gain +/- 4.096V 1 bit = 2mV 0.125mV
adsb.setGain(GAIN_ONE);
adsc.setGain(GAIN_ONE);
adsd.setGain(GAIN_ONE);
//start the multiplexing
Serial.println("Initializing Multiplexing ");
adsa.begin();
adsb.begin();
adsc.begin();
adsd.begin();
Serial.println("Multiplexing Initialized");
//calibrate the LDRs
Serial.println ("Calibrating");
TH = (adsb.readADC_SingleEnded(3));
Serial.print ("TH=");
Serial.println (TH);
Serial.println("Initializing Music Without Delay");
myI.begin(CHA, TRIANGLE, ENVELOPE0, 0);
myIn.begin(TRIANGLE, ENVELOPE0, 0);
myIns.begin(TRIANGLE, ENVELOPE0, 0);
myInst.begin(TRIANGLE, ENVELOPE0, 0);
Serial.println("Music Witout Delay Initialized");
Serial.println("Start messuring LDRs");
}
void loop() {
// myI.update();
// myIn.update();
// myIns.update();
// myInst.update();
//Messure LDR multiplex inputs
adc0a = adsa.readADC_SingleEnded(0);
adc1a = adsa.readADC_SingleEnded(1);
adc2a = adsa.readADC_SingleEnded(2);
adc3a = adsa.readADC_SingleEnded(3);
Serial.print("AIN0A: "); Serial.println(adc0a);
Serial.print("AIN1A: "); Serial.println(adc1a);
Serial.print("AIN2A: "); Serial.println(adc2a);
Serial.print("AIN3A: "); Serial.println(adc3a);
Serial.println(" ");
adc0b = adsb.readADC_SingleEnded(0);
adc1b = adsb.readADC_SingleEnded(1);
adc2b = adsb.readADC_SingleEnded(2);
adc3b = adsb.readADC_SingleEnded(3);
Serial.print("AIN0B: "); Serial.println(adc0b);
Serial.print("AIN1B: "); Serial.println(adc1b);
Serial.print("AIN2B: "); Serial.println(adc2b);
Serial.print("AIN3B: "); Serial.println(adc3b);
Serial.println(" ");
adc0c = adsc.readADC_SingleEnded(0);
adc1c = adsc.readADC_SingleEnded(1);
adc2c = adsc.readADC_SingleEnded(2);
adc3c = adsc.readADC_SingleEnded(3);
Serial.print("AIN0C: "); Serial.println(adc0c);
Serial.print("AIN1C: "); Serial.println(adc1c);
Serial.print("AIN2C: "); Serial.println(adc2c);
Serial.print("AIN3C: "); Serial.println(adc3c);
Serial.println(" ");
adc0d = adsd.readADC_SingleEnded(0);
adc1d = adsd.readADC_SingleEnded(1);
adc2d = adsd.readADC_SingleEnded(2);
adc3d = adsd.readADC_SingleEnded(3);
Serial.print("AIN0D: "); Serial.println(adc0d);
Serial.print("AIN1D: "); Serial.println(adc1d);
Serial.print("AIN2D: "); Serial.println(adc2d);
Serial.print("AIN3D: "); Serial.println(adc3d);
Serial.println(" ");
count = 0;
if (adc0a < TH) {
count++;
}
if (adc1a < TH) {
count++;
}
if (adc2a < TH) {
count++;
}
if (adc3a < TH) {
count++;
}
if (adc0b < TH) {
count++;
}
if (adc1b < TH) {
count++;
}
if (adc2b < TH) {
count++;
}
if (adc3b < TH) {
count++;
}
// if (adc0c < TH) {
// count++;
// }
// if (adc1c < TH) {
// count++;
// }
// if (adc2c < TH) {
// count++;
// }
// if (adc3c < TH) {
// count++;
// }
Serial.print("Intruments playing=");
Serial.println(count);
//Play notes and mix down (set volume depending on number of notes playing)
if (adc0a < TH && !BA) {
vol = 120/count;
myI.play(true);
myI.setVolume(vol);
// myI.setSustain(50);
//myI.setMod(int mod1 = map(adc0a, 3000, 60000, 0, 127);
BA == true;
Serial.print("Tone1 active at vol:");
Serial.println(vol);
}
else if (adc0a > TH && BA) {
myI.pause (true);
BA == false;
Serial.println("Tone1 not active");
}
if (adc1a < TH && !BB) {
vol = 120/count;
myIn.play(true);
myIn.setVolume(vol);
// myIn.setSustain(50);
BB == true;
Serial.print("Tone2 active at vol:");
Serial.println(vol);
}
else if (adc1a > TH && BB) {
myIn.pause (true);
BB == false;
Serial.println("Tone2 not active");
}
if (adc2a < TH && !BC) {
vol = 120/count;
myIns.play(true);
myIns.setVolume(vol);
// myIns.setSustain(50);
BC == true;
Serial.print("Tone3 active at vol:");
Serial.println(vol);
}
else if (adc2a > TH && BC) {
myIns.pause (true);
BC == false;
Serial.println("Tone3 not active");
}
if (adc3a < TH && !BD) {
vol = 120/count;
myInst.play(true);
myInst.setVolume(vol);
// myInst.setSustain(50);
BD == true;
Serial.print("Tone4 active at vol:");
Serial.println(vol);
}
else if (adc3a < TH && BD) {
myInst.pause (true);
BD == false;
Serial.println("Tone4 not active");
}
if (adc0b < TH && !BE) {
vol = 120/count;
myInstr.play(true);
myInstr.setVolume(vol);
// myInst.setSustain(50);
BE == true;
Serial.print("Tone5 active at vol:");
Serial.println(vol);
}
else if (adc0b < TH && BE) {
myInstr.pause (true);
BE == false;
Serial.println("Tone5 not active");
}
if (adc1b < TH && !BF) {
vol = 120/count;
myInstru.play(true);
myInstru.setVolume(vol);
// myInst.setSustain(50);
BF == true;
Serial.print("Tone6 active at vol:");
Serial.println(vol);
}
else if (adc1b < TH && BF) {
myInstru.pause (true);
BF == false;
Serial.println("Tone6 not active");
}
if (adc2b < TH && !BG) {
vol = 120/count;
myInstrum.play(true);
myInstrum.setVolume(vol);
// myInst.setSustain(50);
BG == true;
Serial.print("Tone7 active at vol:");
Serial.println(vol);
}
else if (adc2b < TH && BG) {
myInstrum.pause (true);
BG == false;
Serial.println("Tone7 not active");
}
if (adc3b < TH && !BH) {
vol = 120/count;
myInstrume.play(true);
myInstrume.setVolume(vol);
// myInst.setSustain(50);
BH == true;
Serial.print("Tone8 active at vol:");
Serial.println(vol);
}
else if (adc3b < TH && BH) {
myInstrume.pause (true);
BH == false;
Serial.println("Tone8 not active");
}
// if (adc0b < TH) {
// //result += tone_5.next() * (1/count);
// }
// if (adc1b < TH) {
// //result += tone_6.next() * (1/count);
// }
// if (adc2b < TH) {
// //result += tone_7.next() * (1/count);
// }
// if (adc3b < TH) {
// //result += tone_8.next() * (1/count);
// }
// if (adc0c < TH) {
// //result += tone_9.next() * (1/count);
// }
// if (adc1c < TH) {
// //result += tone_10.next() * (1/count);
// }
// if (adc2c < TH) {
// //result += tone_11.next() * (1/count);
// }
// if (adc3c < TH) {
// //result += tone_12.next() * (1/count);
// }
}