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475 lines
12 KiB
Arduino

#include <MusicWithoutDelay.h>
#include <synth.h>
#include <tables.h>
//note values
const char note1[] PROGMEM = ":d=128,b=300:c-1+"; //plays c4
const char note2[] PROGMEM = ":d=128,b=300:e-1+"; //plays e4
const char note3[] PROGMEM = ":d=128,b=300:g-1+"; //plays g4
const char note4[] PROGMEM = ":d=128,b=300:c+"; //plays c5
const char note5[] PROGMEM = ":d=128,b=300:d+"; //plays d5
const char note6[] PROGMEM = ":d=128,b=300:e+"; //plays e5
const char note7[] PROGMEM = ":d=128,b=300:f+"; //plays f5
const char note8[] PROGMEM = ":d=128,b=300:g+"; //plays g5
const char note9[] PROGMEM = ":d=128,b=300:a+"; //plays a5
const char note10[] PROGMEM = ":d=128,b=300:b+"; //plays b5
//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);
int count;
int vol;
int VA0, VA1, VA2, VA3, VA4, VA5, VA6, VA7, VA8, VA9;
int TH0, TH1, TH2, TH3, TH4, TH5, TH6, TH7, TH8, TH9;
int VOL0, VOL1, VOL2, VOL3, VOL4, VOL5, VOL6, VOL7, VOL8, VOL9;
bool CV;
bool BA;
bool BB;
bool BC;
bool BD;
bool BE;
bool BF;
bool BG;
bool BH;
bool BI;
bool BJ;
void setup() {
Serial.begin(9600);
//calibrate the LDRs
Serial.println ("Calib");
TH0 = (analogRead(A0)+20);
TH1 = (analogRead(A1)+20);
TH2 = (analogRead(A2)+20);
TH3 = (analogRead(A3)+20);
TH4 = (analogRead(A4)+20);
TH5 = (analogRead(A5)+20);
TH6 = (analogRead(A6)+20);
TH7 = (analogRead(A7)+20);
TH8 = (analogRead(A8)+20);
TH9 = (analogRead(A9)+20);
Serial.print ("TH0=");
Serial.println (TH0);
Serial.print ("TH1=");
Serial.println (TH1);
Serial.print ("TH2=");
Serial.println (TH2);
Serial.print ("TH3=");
Serial.println (TH3);
Serial.print ("TH4=");
Serial.println (TH4);
Serial.print ("TH5=");
Serial.println (TH5);
Serial.print ("TH6=");
Serial.println (TH6);
Serial.print ("TH7=");
Serial.println (TH7);
Serial.print ("TH8=");
Serial.println (TH8);
Serial.print ("TH9=");
Serial.println (TH9);
Serial.println("Wait4MWD");
Serial.println("Ini MWD");
myI.begin(CHA, SINE, ENVELOPE0, 0);
myIn.begin(SINE, ENVELOPE0, 0);
myIns.begin(SINE, ENVELOPE0, 0);
myInst.begin(SINE, ENVELOPE0, 0);
myInstr.begin(SINE, ENVELOPE0, 0);
myInstru.begin(SINE, ENVELOPE0, 0);
myInstrum.begin(SINE, ENVELOPE0, 0);
myInstrume.begin(SINE, ENVELOPE0, 0);
myInstrumen.begin(SINE, ENVELOPE0, 0);
myInstrument.begin(SINE, ENVELOPE0, 0);
myI.pause(true);
myIn.pause(true);
myIns.pause(true);
myInst.pause(true);
myInstr.pause(true);
myInstru.pause(true);
myInstrum.pause(true);
myInstrume.pause(true);
myInstrumen.pause(true);
myInstrument.pause(true);
Serial.println("go!");
}
void loop() {
myI.update();
myIn.update();
myIns.update();
myInst.update();
myInstr.update();
myInstru.update();
myInstrum.update();
myInstrume.update();
myInstrumen.update();
myInstrument.update();
//Messure LDR multiplex inputs
VA0 = analogRead(A0);
VA1 = analogRead(A1);
VA2 = analogRead(A2);
VA3 = analogRead(A3);
//
// Serial.print("VA0: "); Serial.println(VA0);
// Serial.print("VA1: "); Serial.println(VA1);
// Serial.print("VA2: "); Serial.println(VA2);
// Serial.print("VA3: "); Serial.println(VA3);
// Serial.println(" ");
VA4 = analogRead(A4);
VA5 = analogRead(A5);
VA6 = analogRead(A6);
VA7 = analogRead(A7);
//
// Serial.print("VA4: "); Serial.println(VA4);
// Serial.print("VA5: "); Serial.println(VA5);
// Serial.print("VA6: "); Serial.println(VA6);
// Serial.print("VA7: "); Serial.println(VA7);
// Serial.println(" ");
VA8 = analogRead(A8);
VA9 = analogRead(A9);
//
// Serial.print("VA8: "); Serial.println(VA8);
// Serial.print("VA9: "); Serial.println(VA9);
// Serial.println(" ");
count = 0;
CV = digitalRead(22);
if (VA0 > TH0) {
count++;
}
if (VA1 > TH1) {
count++;
}
if (VA2 > TH2) {
count++;
}
if (VA3 > TH3) {
count++;
}
if (VA4 > TH4) {
count++;
}
if (VA5 > TH5) {
count++;
}
if (VA6 > TH6) {
count++;
}
if (VA7 > TH7) {
count++;
}
if (VA8 > TH8) {
count++;
}
if (VA9 > TH9) {
count++;
}
// Serial.print("Intruments playing = ");
// Serial.println(count);
//Play notes and mix down (set volume depending on number of notes playing)
if (VA0 > TH0 && !BA) {
vol = 100/count + 25;
myI.play(true);
myI.setVolume(vol);
VOL0 = constrain(map(VA0, TH0, 500, 30, 127), 30, 127);
//myI.setMod(VOL0);
myI.setVolume(VOL0);
BA == true;
// Serial.print("Tone1 active at vol:");
// Serial.println(vol);
//Output ControlVoltage if switch is activated
if (CV) {
digitalWrite(23, HIGH);
}
else if (!CV) {
digitalWrite(23, LOW);
}
}
else if (VA0 < TH0 && BA) {
myI.pause (true);
BA == false;
//Kill ControlVoltage
digitalWrite(23, LOW);
}
if (VA1 > TH1 && !BB) {
vol = 100/count + 25;
myIn.play(true);
myIn.setVolume(vol);
VOL1 = constrain(map(VA1, TH1, 500, 30, 127), 30, 127);
//myIn.setMod(VOL1);
myIn.setVolume(VOL1);
BB == true;
// Serial.print("Tone2 active at vol:");
// Serial.println(vol);
//Output ControlVoltage if switch is activated
if (CV) {
digitalWrite(25, HIGH);
}
else if (!CV) {
digitalWrite(25, LOW);
}
}
else if (VA1 < TH1 && BB) {
myIn.pause (true);
BB == false;
//Kill ControlVoltage
digitalWrite(25, LOW);
}
if (VA2 > TH2 && !BC) {
vol = 100/count + 25;
myIns.play(true);
myIns.setVolume(vol);
VOL2 = constrain(map(VA2, TH2, 500, 30, 127), 30, 127);
//myIns.setMod(VOL2);
myIns.setVolume(VOL2);
BC == true;
// Serial.print("Tone3 active at vol:");
// Serial.println(vol);
//Output ControlVoltage if switch is activated
if (CV) {
digitalWrite(27, HIGH);
}
else if (!CV) {
digitalWrite(27, LOW);
}
}
else if (VA2 < TH2 && BC) {
myIns.pause (true);
BC == false;
//Kill ControlVoltage
digitalWrite(27, LOW);
}
if (VA3 > TH3 && !BD) {
vol = 100/count + 25;
myInst.play(true);
myInst.setVolume(vol);
VOL3 = constrain(map(VA3, TH3, 500, 30, 127), 30, 127);
//myInst.setMod(VOL3);
myInst.setVolume(VOL3);
BD == true;
// Serial.print("Tone4 active at vol:");
// Serial.println(vol);
//Output ControlVoltage if switch is activated
if (CV) {
digitalWrite(29, HIGH);
}
else if (!CV) {
digitalWrite(29, LOW);
}
}
else if (VA3 < TH3 && BD) {
myInst.pause (true);
BD == false;
//Kill ControlVoltage
digitalWrite(29, LOW);
}
if (VA4 > TH4 && !BE) {
vol = 100/count + 25;
myInstr.play(true);
myInstr.setVolume(vol);
VOL4 = constrain(map(VA4, TH4, 500, 30, 127), 30, 127);
//myInstr.setMod(VOL4);
myInstr.setVolume(VOL4);
BE == true;
// Serial.print("Tone5 active at vol:");
// Serial.println(vol);
//Output ControlVoltage if switch is activated
if (CV) {
digitalWrite(31, HIGH);
}
else if (!CV) {
digitalWrite(31, LOW);
}
}
else if (VA4 < TH4 && BE) {
myInstr.pause (true);
BE == false;
//Kill ControlVoltage
digitalWrite(31, LOW);
}
if (VA5 > TH5 && !BF) {
vol = 100/count + 25;
myInstru.play(true);
myInstru.setVolume(vol);
VOL5 = constrain(map(VA5, TH5, 500, 30, 127), 30, 127);
//myInstru.setMod(VOL5);
myInstru.setVolume(VOL5);
BF == true;
// Serial.print("Tone6 active at vol:");
// Serial.println(vol);
//Output ControlVoltage if switch is activated
if (CV) {
digitalWrite(33, HIGH);
}
else if (!CV) {
digitalWrite(33, LOW);
}
}
else if (VA5 < TH5 && BF) {
myInstru.pause (true);
BF == false;
//Kill ControlVoltage
digitalWrite(33, LOW);
}
if (VA6 > TH6 && !BG) {
vol = 100/count + 25;
myInstrum.play(true);
myInstrum.setVolume(vol);
VOL6 = constrain(map(VA6, TH6, 500, 30, 127),30, 127);
//myInstrum.setMod(VOL6);
myInstrum.setVolume(VOL6);
BG == true;
// Serial.print("Tone7 active at vol:");
// Serial.println(vol);
//Output ControlVoltage if switch is activated
if (CV) {
digitalWrite(35, HIGH);
}
else if (!CV) {
digitalWrite(35, LOW);
}
}
else if (VA6 < TH6 && BG) {
myInstrum.pause (true);
BG == false;
//Kill ControlVoltage
digitalWrite(35, LOW);
}
if (VA7 > TH7 && !BH) {
vol = 100/count + 25;
myInstrume.play(true);
myInstrume.setVolume(vol);
VOL7 = constrain(map(VA7, TH7, 500, 30, 127), 30, 127);
//myInstrume.setMod(VOL7);
myInstrume.setVolume(VOL7);
BH == true;
// Serial.print("Tone8 active at vol:");
// Serial.println(vol);
//Output ControlVoltage if switch is activated
if (CV) {
digitalWrite(37, HIGH);
}
else if (!CV) {
digitalWrite(37, LOW);
}
}
else if (VA7 < TH7 && BH) {
myInstrume.pause (true);
BH == false;
//Kill ControlVoltage
digitalWrite(37, LOW);
}
if (VA8 > TH8 && !BI) {
vol = 100/count + 25;
myInstrumen.play(true);
myInstrumen.setVolume(vol);
VOL8 = constrain(map(VA8, TH8, 500, 30, 127), 30, 127);
//myInstrumen.setMod(VOL8);
myInstrumen.setVolume(VOL8);
BI == true;
// Serial.print("Tone9 active at vol:");
// Serial.println(vol);
//Output ControlVoltage if switch is activated
if (CV) {
digitalWrite(39, HIGH);
}
else if (!CV) {
digitalWrite(39, LOW);
}
}
else if (VA8 < TH8 && BI) {
myInstrumen.pause (true);
BI == false;
//Kill ControlVoltage
digitalWrite(39, LOW);
}
if (VA9 > TH9 && !BJ) {
vol = 100/count + 25;
myInstrument.play(true);
myInstrument.setVolume(vol);
VOL9 = constrain(map(VA9, TH9, 500, 30, 127), 30, 127);
//myInstrument.setMod(VOL9);
myInstrument.setVolume(VOL9);
BJ == true;
// Serial.print("Tone10 active at vol:");
// Serial.println(vol);
//Output ControlVoltage if switch is activated
if (CV) {
digitalWrite(41, HIGH);
}
else if (!CV) {
digitalWrite(41, LOW);
}
}
else if (VA9 < TH9 && BJ) {
myInstrument.pause (true);
BJ == false;
//Kill ControlVoltage
digitalWrite(41, LOW);
}
}