refined code for glare ldr module

master
Max Lehmann 5 years ago
parent a7b3a5f70d
commit bbfa8e440f

@ -0,0 +1,680 @@
#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 note0[] PROGMEM = ":d=128,b=600,o=3:c+"; //plays c4
const char note1[] PROGMEM = ":d=128,b=600,o=3:d+"; //plays d4
const char note2[] PROGMEM = ":d=128,b=600,o=3:e+"; //plays e4
const char note3[] PROGMEM = ":d=128,b=600,o=3:g+"; //plays g4
const char note4[] PROGMEM = ":d=128,b=600,o=3:a+"; //plays a4
const char note5[] PROGMEM = ":d=128,b=600,o=4:c+"; //plays c5
const char note6[] PROGMEM = ":d=128,b=600,o=4:d+"; //plays d5
const char note7[] PROGMEM = ":d=128,b=600,o=4:e+"; //plays e5
const char note8[] PROGMEM = ":d=128,b=600,o=4:g+"; //plays g5
const char note9[] PROGMEM = ":d=128,b=600,o=4:a+"; //plays a5
const char note10[] PROGMEM = ":d=128,b=600,o=5:c+"; //plays c6
const char note11[] PROGMEM = ":d=128,b=600,o=5:d+"; //plays d6
const char note12[] PROGMEM = ":d=128,b=600,o=5:e+"; //plays e6
const char note13[] PROGMEM = ":d=128,b=600,o=5:g+"; //plays g6
const char note14[] PROGMEM = ":d=128,b=600,o=5:a+"; //plays a6
const char note15[] PROGMEM = ":d=128,b=600,o=6:c+"; //plays c7
MusicWithoutDelay Insta(note0);
MusicWithoutDelay Instb(note1);
MusicWithoutDelay Instc(note2);
MusicWithoutDelay Instd(note3);
MusicWithoutDelay Inste(note4);
MusicWithoutDelay Instf(note5);
MusicWithoutDelay Instg(note6);
MusicWithoutDelay Insth(note7);
MusicWithoutDelay Insti(note8);
MusicWithoutDelay Instj(note9);
MusicWithoutDelay Instk(note10);
MusicWithoutDelay Instl(note11);
MusicWithoutDelay Instm(note12);
MusicWithoutDelay Instn(note13);
MusicWithoutDelay Insto(note14);
MusicWithoutDelay Instp(note15);
int count;
//int vol;
int VA0, VA1, VA2, VA3, VA4, VA5, VA6, VA7, VA8, VA9, VA10, VA11, VA12, VA13, VA14, VA15;
int TH0, TH1, TH2, TH3, TH4, TH5, TH6, TH7, TH8, TH9, TH10, TH11, TH12, TH13, TH14, TH15;
int VOL0, VOL1, VOL2, VOL3, VOL4, VOL5, VOL6, VOL7, VOL8, VOL9, VOL10, VOL11, VOL12, VOL13, VOL14, VOL15;
bool CV;
int ZER;
int ONE;
int TWO;
int THR;
int FOU;
int FIV;
int SIX;
int SEV;
int EIG;
int NIN;
int TEN;
int ELE;
int TWE;
int THT;
int FOT;
int FIT;
void setup() {
Serial.begin(115200);
pinMode(20, INPUT);
//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);
Serial.println("Ini MPX ");
adsa.begin();
adsb.begin();
adsc.begin();
adsd.begin();
Serial.println("MPX Ini");
Serial.println("Wait4MWD");
Serial.println("Ini MWD");
calib();
Insta.begin(CHA, TRIANGLE, ENVELOPE0, 0);
Instb.begin(TRIANGLE, ENVELOPE0, 0);
Instc.begin(TRIANGLE, ENVELOPE0, 0);
Instd.begin(TRIANGLE, ENVELOPE0, 0);
Inste.begin(TRIANGLE, ENVELOPE0, 0);
Instf.begin(TRIANGLE, ENVELOPE0, 0);
Instg.begin(TRIANGLE, ENVELOPE0, 0);
Insth.begin(TRIANGLE, ENVELOPE0, 0);
Insti.begin(TRIANGLE, ENVELOPE0, 0);
Instj.begin(TRIANGLE, ENVELOPE0, 0);
Instk.begin(TRIANGLE, ENVELOPE0, 0);
Instl.begin(TRIANGLE, ENVELOPE0, 0);
Instm.begin(TRIANGLE, ENVELOPE0, 0);
Instn.begin(TRIANGLE, ENVELOPE0, 0);
Insto.begin(TRIANGLE, ENVELOPE0, 0);
Instp.begin(TRIANGLE, ENVELOPE0, 0);
Insta.pause(true);
Instb.pause(true);
Instc.pause(true);
Instd.pause(true);
Inste.pause(true);
Instf.pause(true);
Instg.pause(true);
Insth.pause(true);
Insti.pause(true);
Instj.pause(true);
Instk.pause(true);
Instl.pause(true);
Instm.pause(true);
Instn.pause(true);
Insto.pause(true);
Instp.pause(true);
Serial.println("go!");
}
void calib() {
//calibrate the LDRs
Serial.println ("Calib");
TH0 = (adsa.readADC_SingleEnded(0) + 800);
TH1 = (adsa.readADC_SingleEnded(1) + 800);
TH2 = (adsa.readADC_SingleEnded(2) + 800);
TH3 = (adsa.readADC_SingleEnded(3) + 800);
TH4 = (adsb.readADC_SingleEnded(0) + 800);
TH5 = (adsb.readADC_SingleEnded(1) + 800);
TH6 = (adsb.readADC_SingleEnded(2) + 800);
TH7 = (adsb.readADC_SingleEnded(3) + 800);
TH8 = (adsc.readADC_SingleEnded(0) + 800);
TH9 = (adsc.readADC_SingleEnded(1) + 800);
TH10 = (adsc.readADC_SingleEnded(2) + 800);
TH11 = (adsc.readADC_SingleEnded(3) + 800);
TH12 = (adsd.readADC_SingleEnded(0) + 800);
TH13 = (adsd.readADC_SingleEnded(1) + 800);
TH14 = (adsd.readADC_SingleEnded(2) + 800);
TH15 = (adsd.readADC_SingleEnded(3) + 800);
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.print ("TH10=");
Serial.println (TH10);
Serial.print ("TH11=");
Serial.println (TH11);
Serial.print ("TH12=");
Serial.println (TH12);
Serial.print ("TH13=");
Serial.println (TH13);
Serial.print ("TH14=");
Serial.println (TH14);
Serial.print ("TH15=");
Serial.println (TH15);
}
void loop() {
bool curcv = digitalRead(20);
// Serial.println (curcv);
count = 0;
Insta.update();
Instb.update();
Instc.update();
Instd.update();
Inste.update();
Instf.update();
Instg.update();
Insth.update();
Insti.update();
Instj.update();
Instk.update();
Instl.update();
Instm.update();
Instn.update();
Insto.update();
Instp.update();
//Messure LDR inputs
VA0 = adsa.readADC_SingleEnded(0);
VA1 = adsa.readADC_SingleEnded(1);
VA2 = adsa.readADC_SingleEnded(2);
VA3 = adsa.readADC_SingleEnded(3);
// 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 = adsb.readADC_SingleEnded(0);
VA5 = adsb.readADC_SingleEnded(1);
VA6 = adsb.readADC_SingleEnded(2);
VA7 = adsb.readADC_SingleEnded(3);
// 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 = adsc.readADC_SingleEnded(0);
VA9 = adsc.readADC_SingleEnded(1);
VA10 = adsc.readADC_SingleEnded(2);
VA11 = adsc.readADC_SingleEnded(3);
// Serial.print("VA8: "); Serial.println(VA8);
// Serial.print("VA9: "); Serial.println(VA9);
// Serial.print("VA10: "); Serial.println(VA10);
// Serial.print("VA11: "); Serial.println(VA11);
// Serial.println(" ");
VA12 = adsd.readADC_SingleEnded(0);
VA13 = adsd.readADC_SingleEnded(1);
VA14 = adsd.readADC_SingleEnded(2);
VA15 = adsd.readADC_SingleEnded(3);
// Serial.print("VA12: "); Serial.println(VA12);
// Serial.print("VA13: "); Serial.println(VA13);
// Serial.print("VA14: "); Serial.println(VA14);
// Serial.print("VA15: "); Serial.println(VA15);
// Serial.println(" ");
if (CV != curcv) {
CV = curcv;
// CV changes
// Serial.print("cv");
// Serial.println(CV);
if (CV) {
// entering Audio
Serial.println("entering Audio");
digitalWrite(0, LOW);
digitalWrite(1, LOW);
digitalWrite(2, LOW);
digitalWrite(4, LOW);
digitalWrite(5, LOW);
digitalWrite(6, LOW);
digitalWrite(7, LOW);
digitalWrite(8, LOW);
digitalWrite(9, LOW);
digitalWrite(10, LOW);
digitalWrite(11, LOW);
digitalWrite(12, LOW);
digitalWrite(13, LOW);
digitalWrite(14, LOW);
digitalWrite(15, LOW);
digitalWrite(16, LOW);
} else {
//entering CV
Serial.println("entering CV");
ZER = false;
ONE = false;
TWO = false;
THR = false;
FOU = false;
FIV = false;
SIX = false;
SEV = false;
EIG = false;
NIN = false;
TEN = false;
ELE = false;
TWE = false;
THT = false;
FOT = false;
FIT = false;
}
}
if (!CV) {
control();
} else {
audio();
}
//if (digitalRead(17) == LOW) {
//calib();
//}
}
void control() {
if (VA0 > TH0) {
digitalWrite(0, HIGH);
}
else if (VA0 < TH0) {
digitalWrite(0, LOW);
}
if (VA1 > TH1) {
digitalWrite(1, HIGH);
}
else if (VA1 < TH1) {
digitalWrite(1, LOW);
}
if (VA2 > TH2) {
digitalWrite(2, HIGH);
}
else if (VA2 < TH2) {
digitalWrite(2, LOW);
}
if (VA3 > TH3) {
digitalWrite(4, HIGH);
}
else if (VA3 < TH3) {
digitalWrite(4, LOW);
}
if (VA4 > TH4) {
digitalWrite(5, HIGH);
}
else if (VA4 < TH4) {
digitalWrite(5, LOW);
}
if (VA5 > TH5) {
digitalWrite(7, HIGH);
}
else if (VA5 < TH5) {
digitalWrite(7, LOW);
}
if (VA6 > TH6) {
digitalWrite(6, HIGH);
}
else if (VA6 < TH6) {
digitalWrite(6, LOW);
}
if (VA7 > TH7) {
digitalWrite(8, HIGH);
}
else if (VA7 < TH7) {
digitalWrite(8, LOW);
}
if (VA8 > TH8) {
digitalWrite(9, HIGH);
}
else if (VA8 < TH8) {
digitalWrite(9, LOW);
}
if (VA9 > TH9) {
digitalWrite(10, HIGH);
}
else if (VA9 < TH9) {
digitalWrite(10, LOW);
}
if (VA10 > TH10) {
digitalWrite(12, HIGH);
}
else if (VA10 < TH10) {
digitalWrite(12, LOW);
}
if (VA11 > TH11) {
digitalWrite(11, HIGH);
}
else if (VA11 < TH11) {
digitalWrite(11, LOW);
}
if (VA12 > TH12) {
digitalWrite(13, HIGH);
}
else if (VA12 < TH12) {
digitalWrite(13, LOW);
}
if (VA13 > TH13) {
digitalWrite(14, HIGH);
}
else if (VA13 < TH13) {
digitalWrite(14, LOW);
}
if (VA14 > TH14) {
digitalWrite(15, HIGH);
}
else if (VA14 < TH14) {
digitalWrite(15, LOW);
}
if (VA15 > TH15) {
digitalWrite(16, HIGH);
}
else if (VA15 < TH15) {
digitalWrite(16, LOW);
}
}
void audio () {
if (ZER = (VA0 > TH0)) count++;
if (ONE = (VA1 > TH1)) count++;
if (TWO = (VA2 > TH2)) count++;
if (THR = (VA3 > TH3)) count++;
if (FOU = (VA4 > TH4)) count++;
if (FIV = (VA5 > TH5)) count++;
if (SIX = (VA6 > TH6)) count++;
if (SEV = (VA7 > TH7)) count++;
if (EIG = (VA8 > TH8)) count++;
if (NIN = (VA9 > TH9)) count++;
if (TEN = (VA10 > TH10)) count++;
if (ELE = (VA11 > TH11)) count++;
if (TWE = (VA12 > TH12)) count++;
if (THT = (VA13 > TH13)) count++;
if (FOT = (VA14 > TH14)) count++;
if (FIV = (VA15 > TH15)) count++;
if (ZER) {
VOL0 = 50/count+constrain(map(VA0, TH0, TH0+5000, 0, 65), 0, 65);
Insta.play(true);
Insta.setVolume(VOL0);
// Serial.print("Tone0 active at vol:");
// Serial.println(VOL0);
// Serial.println(VA0);
}
if (!ZER) {
Insta.pause (true);
}
if (ONE) {
VOL1 = 50/count+constrain(map(VA1, TH1, TH1+5000, 0, 65), 0, 65);
Instb.play(true);
Instb.setVolume(VOL1);
// Serial.print("Tone1 active at vol:");
// Serial.println(VOL1);
// Serial.println(VA1);
}
if (!ONE) {
Instb.pause (true);
}
if (TWO) {
VOL2 = 50/count+constrain(map(VA2, TH2, TH2+5000, 0, 65), 0, 65);
Instc.play(true);
Instc.setVolume(VOL2);
// Serial.print("Tone2 active at vol:");
// Serial.println(VOL2);
// Serial.println(VA2);
}
if (!TWO) {
Instc.pause (true);
}
if (THR) {
VOL3 = 50/count+constrain(map(VA3, TH3, TH3+5000, 0, 65), 0, 65);
Instd.play(true);
Instd.setVolume(VOL3);
// Serial.print("Tone3 active at vol:");
// Serial.println(VOL3);
// Serial.println(VA3);
}
if (!THR) {
Instd.pause (true);
}
if (FOU) {
VOL4 = 50/count+constrain(map(VA4, TH4, TH4+5000, 0, 65), 0, 65);
Inste.play(true);
Inste.setVolume(VOL4);
// Serial.print("Tone4 active at vol:");
// Serial.println(VOL4);
// Serial.println(VA4);
}
if (!FOU) {
Inste.pause (true);
}
if (FIV) {
VOL5 = 50/count+constrain(map(VA5, TH5, TH5+5000, 0, 65), 0, 65);
Instf.play(true);
Instf.setVolume(VOL5);
// Serial.print("Tone5 active at vol:");
// Serial.println(VOL5);
// Serial.println(VA5);
}
if (!FIV) {
Instf.pause (true);
}
if (SIX) {
VOL6 = 50/count+constrain(map(VA6, TH6, TH6+5000, 0, 65), 0, 65);
Instg.play(true);
Instg.setVolume(VOL6);
// Serial.print("Tone6 active at vol:");
// Serial.println(VOL6);
// Serial.println(VA6);
}
if (!SIX) {
Instg.pause (true);
}
if (SEV) {
VOL7 = 50/count+constrain(map(VA7, TH7, TH7+5000, 0, 65), 0, 65);
Insth.play(true);
Insth.setVolume(VOL7);
// Serial.print("Tone7 active at vol:");
// Serial.println(VOL7);
// Serial.println(VA7);
}
if (!SEV) {
Insth.pause (true);
}
if (EIG) {
VOL8 = 50/count+constrain(map(VA8, TH8, TH8+5000, 0, 65), 0, 65);
Insti.play(true);
Insti.setVolume(VOL8);
// Serial.print("Tone8 active at vol:");
// Serial.println(VOL8);
// Serial.println(VA8);
}
if (!EIG) {
Insti.pause (true);
}
if (NIN) {
VOL9 = 50/count+constrain(map(VA9, TH9, TH9+5000, 0, 65), 0, 65);
Instj.play(true);
Instj.setVolume(VOL9);
// Serial.print("Tone9 active at vol:");
// Serial.println(VOL9);
// Serial.println(VA9);
}
if (!NIN) {
Instk.pause (true);
}
if (TEN) {
VOL10 = 50/count+constrain(map(VA10, TH10, TH10+5000, 0, 65), 0, 65);
Instk.play(true);
Instk.setVolume(VOL10);
// Serial.print("Tone10 active at vol:");
// Serial.println(VOL10);
// Serial.println(VA10);
}
if (!TEN) {
Instk.pause (true);
}
if (ELE) {
VOL11 = 50/count+constrain(map(VA11, TH11, TH11+5000, 0, 65), 0, 65);
Instl.play(true);
Instl.setVolume(VOL11);
// Serial.print("Tone11 active at vol:");
// Serial.println(VOL11);
// Serial.println(VA11);
}
if (!ELE) {
Instl.pause (true);
}
if (TWE) {
VOL12 = 50/count+constrain(map(VA12, TH12, TH12+5000, 0, 65), 0, 65);
Instm.play(true);
Instm.setVolume(VOL12);
// Serial.print("Tone12 active at vol:");
// Serial.println(VOL12);
// Serial.println(VA12);
}
if (!TWE) {
Instm.pause (true);
}
if (THT) {
VOL13 = 50/count+constrain(map(VA13, TH13, TH13+5000, 0, 65), 0, 65);
Instn.play(true);
Instn.setVolume(VOL13);
// Serial.print("Tone13 active at vol:");
// Serial.println(VOL13);
// Serial.println(VA13);
}
if (!THT) {
Instn.pause (true);
}
if (FOT) {
VOL14 = 50/count+constrain(map(VA14, TH14, TH14+5000, 0, 65), 0, 65);
Insto.play(true);
Insto.setVolume(VOL14);
// Serial.print("Tone14 active at vol:");
// Serial.println(VOL14);
// Serial.println(VA14);
}
if (!FOT) {
Insto.pause (true);
}
if (FIT) {
VOL15 = 50/count+constrain(map(VA15, TH15, TH15+5000, 0, 65), 0, 65);
Instp.play(true);
Instp.setVolume(VOL15);
// Serial.print("Tone15 active at vol:");
// Serial.println(VOL15);
// Serial.println(VA15);
}
if (!FIT) {
Instp.pause (true);
}
Serial.print("Intruments playing = ");
Serial.println(count);
}
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