2011-02-21

7) Holding Notes

Now notes are held until the next note starts, for poti values unter 128 (= 1/8th of the parameter range).


// Declaration of Varialbes

byte midi_start = 0xfa;
byte midi_stop = 0xfc;
byte midi_clock = 0xf8;
byte midi_continue = 0xfb;
int play_flag = 0;
byte data;
int clock_step=0;
int note = 0x3F;
int noteval = 0;
int LowestNote=36;
int HighestNote=36+3*12; //3 Octaves over LowestNote

int Note1 = (96*1)/16-5;
int Note2 = (96*2)/16-5;
int Note3 = (96*3)/16-5;
int Note4 = (96*4)/16-5;
int Note5 = (96*5)/16-5;
int Note6 = (96*6)/16-5;
int Note7 = (96*7)/16-5;
int Note8 = (96*8)/16-5;
int Note9 = (96*9)/16-5;
int Note10 = (96*10)/16-5;
int Note11 = (96*11)/16-5;
int Note12 = (96*12)/16-5;
int Note13 = (96*13)/16-5;
int Note14 = (96*14)/16-5;
int Note15 = (96*15)/16-5;
int Note16 = (96*16)/16-5;

int SeqLength = 6*16; //Sequence length is 16*16th notes

int ShufflePin = 2;
int Shuffle_Flag = 0;
int ShuffleDelay = 0;

int Seq1_Flag = HIGH;
int Seq2_Flag = LOW;
int Seq1Pin = 3;
int Seq2Pin = 4;
int PlayMode = 1;

int HoldNote_Flag = HIGH;


// Initialization

void setup() {

Serial.begin(31250);

pinMode(ShufflePin, INPUT); //Pin 0 for shuffle on/off as input

pinMode(22, OUTPUT);
pinMode(24, OUTPUT);
pinMode(26, OUTPUT);
pinMode(28, OUTPUT);
pinMode(30, OUTPUT);
pinMode(32, OUTPUT);
pinMode(34, OUTPUT);
pinMode(36, OUTPUT);
pinMode(38, OUTPUT);
pinMode(40, OUTPUT);
pinMode(42, OUTPUT);
pinMode(44, OUTPUT);
pinMode(46, OUTPUT);
pinMode(48, OUTPUT);
pinMode(50, OUTPUT);
pinMode(52, OUTPUT);

pinMode(2, INPUT);
pinMode(3, INPUT);
pinMode(4, INPUT);
pinMode(5, INPUT);

digitalWrite(22, HIGH);
digitalWrite(24, LOW);
digitalWrite(26, LOW);
digitalWrite(28, LOW);
digitalWrite(30, LOW);
digitalWrite(32, LOW);
digitalWrite(34, LOW);
digitalWrite(36, LOW);
digitalWrite(38, LOW);
digitalWrite(40, LOW);
digitalWrite(42, LOW);
digitalWrite(44, LOW);
digitalWrite(46, LOW);
digitalWrite(48, LOW);
digitalWrite(50, LOW);
digitalWrite(52, LOW);
}


// Main Programm

void loop() {

Shuffle_Flag = digitalRead(ShufflePin);

if(Shuffle_Flag == LOW) {
ShuffleDelay = 0;
}

if (Shuffle_Flag == HIGH){

ShuffleDelay = 2; // start every 2nd note two MIDI clock signals later (ShuffleDelay = 1...4)

}


Seq1_Flag = digitalRead(Seq1Pin); //Play sequence forwards
Seq2_Flag = digitalRead(Seq2Pin); //Play sequence backwards

if(Seq1_Flag == HIGH && Seq2_Flag == LOW) {
PlayMode = 1; //Play sequence forwards
}

if (Seq1_Flag == LOW && Seq2_Flag == HIGH){
PlayMode = 2; //Play sequence backwards
}



if(Serial.available() > 0) {
data = Serial.read();
if(data == midi_start) {
play_flag = 1;
clock_step=0;
}
else if(data == midi_continue) {
play_flag = 1;
}

else if(data == midi_stop) {
play_flag = 0;
clock_step=0;
sendMidiNote (0x80, note, 0x7F); //last note off
digitalWrite(22, HIGH);
digitalWrite(24, LOW);
digitalWrite(26, LOW);
digitalWrite(28, LOW);
digitalWrite(30, LOW);
digitalWrite(32, LOW);
digitalWrite(34, LOW);
digitalWrite(36, LOW);
digitalWrite(38, LOW);
digitalWrite(40, LOW);
digitalWrite(42, LOW);
digitalWrite(44, LOW);
digitalWrite(46, LOW);
digitalWrite(48, LOW);
digitalWrite(50, LOW);
digitalWrite(52, LOW);
}
else if((data == midi_clock) && (play_flag == 1) && PlayMode == 1) {
Sync1(); //Play sequence forwards
}

else if((data == midi_clock) && (play_flag == 1) && PlayMode == 2) {
Sync2(); //Play sequence backwards
}
}
}


// Functions


void Sync1() { // play forwards 16 x 16th notes, repeat after the cycle is finshed

clock_step = clock_step+1;

Note1 = (96*1)/16-5;
Note2 = (96*2)/16-5+ShuffleDelay;
Note3 = (96*3)/16-5;
Note4 = (96*4)/16-5+ShuffleDelay;
Note5 = (96*5)/16-5;
Note6 = (96*6)/16-5+ShuffleDelay;
Note7 = (96*7)/16-5;
Note8 = (96*8)/16-5+ShuffleDelay;
Note9 = (96*9)/16-5;
Note10 = (96*10)/16-5+ShuffleDelay;
Note11 = (96*11)/16-5;
Note12 = (96*12)/16-5+ShuffleDelay;
Note13 = (96*13)/16-5;
Note14 = (96*14)/16-5+ShuffleDelay;
Note15 = (96*15)/16-5;
Note16 = (96*16)/16-5+ShuffleDelay;


if (clock_step==Note1){
PlayNote1();
digitalWrite(22, HIGH);
digitalWrite(52, LOW);
}


if (clock_step==Note2){
PlayNote2();
digitalWrite(24, HIGH);
digitalWrite(22, LOW);
}


if (clock_step==Note3){
PlayNote3();
digitalWrite(26, HIGH);
digitalWrite(24, LOW);
}


if (clock_step==Note4){
PlayNote4();
digitalWrite(28, HIGH);
digitalWrite(26, LOW);
}


if (clock_step==Note5){
PlayNote5();
digitalWrite(30, HIGH);
digitalWrite(28, LOW);
}


if (clock_step==Note6){
PlayNote6();
digitalWrite(32, HIGH);
digitalWrite(30, LOW);
}


if (clock_step==Note7){
PlayNote7();
digitalWrite(34, HIGH);
digitalWrite(32, LOW);
}


if (clock_step==Note8){
PlayNote8();
digitalWrite(36, HIGH);
digitalWrite(34, LOW);
}


if (clock_step==Note9){
PlayNote9();
digitalWrite(38, HIGH);
digitalWrite(36, LOW);
}


if (clock_step==Note10){
PlayNote10();
digitalWrite(40, HIGH);
digitalWrite(38, LOW);
}


if (clock_step==Note11){
PlayNote11();
digitalWrite(42, HIGH);
digitalWrite(40, LOW);
}


if (clock_step==Note12){
PlayNote12();
digitalWrite(44, HIGH);
digitalWrite(42, LOW);
}


if (clock_step==Note13){
PlayNote13();
digitalWrite(46, HIGH);
digitalWrite(44, LOW);
}


if (clock_step==Note14){
PlayNote14();
digitalWrite(48, HIGH);
digitalWrite(46, LOW);
}


if (clock_step==Note15){
PlayNote15();
digitalWrite(50, HIGH);
digitalWrite(48, LOW);
}


if (clock_step==Note16){
PlayNote16();
digitalWrite(52, HIGH);
digitalWrite(50, LOW);
}


else if (clock_step==SeqLength){
clock_step=0;
}
}

void Sync2() { // play backwards 16 x 16th notes, repeat after the cycle is finshed,
clock_step = clock_step+1;

Note1 = (96*1)/16-5;
Note2 = (96*2)/16-5+ShuffleDelay;
Note3 = (96*3)/16-5;
Note4 = (96*4)/16-5+ShuffleDelay;
Note5 = (96*5)/16-5;
Note6 = (96*6)/16-5+ShuffleDelay;
Note7 = (96*7)/16-5;
Note8 = (96*8)/16-5+ShuffleDelay;
Note9 = (96*9)/16-5;
Note10 = (96*10)/16-5+ShuffleDelay;
Note11 = (96*11)/16-5;
Note12 = (96*12)/16-5+ShuffleDelay;
Note13 = (96*13)/16-5;
Note14 = (96*14)/16-5+ShuffleDelay;
Note15 = (96*15)/16-5;
Note16 = (96*16)/16-5+ShuffleDelay;

if (clock_step==Note1){
PlayNote16();
digitalWrite(52, HIGH);
digitalWrite(22, LOW);
}

if (clock_step==Note2){
PlayNote15();
digitalWrite(50, HIGH);
digitalWrite(52, LOW);
}

if (clock_step==Note3){
PlayNote14();
digitalWrite(48, HIGH);
digitalWrite(50, LOW);
}


if (clock_step==Note4){
PlayNote13();
digitalWrite(46, HIGH);
digitalWrite(48, LOW);
}


if (clock_step==Note5){
PlayNote12();
digitalWrite(44, HIGH);
digitalWrite(46, LOW);
}


if (clock_step==Note6){
PlayNote11();
digitalWrite(42, HIGH);
digitalWrite(44, LOW);
}


if (clock_step==Note7){
PlayNote10();
digitalWrite(40, HIGH);
digitalWrite(42, LOW);
}


if (clock_step==Note8){
PlayNote9();
digitalWrite(38, HIGH);
digitalWrite(40, LOW);
}


if (clock_step==Note9){
PlayNote8();
digitalWrite(36, HIGH);
digitalWrite(38, LOW);
}


if (clock_step==Note10){
PlayNote7();
digitalWrite(34, HIGH);
digitalWrite(36, LOW);
}


if (clock_step==Note11){
PlayNote6();
digitalWrite(32, HIGH);
digitalWrite(34, LOW);
}


if (clock_step==Note12){
PlayNote5();
digitalWrite(30, HIGH);
digitalWrite(32, LOW);
}


if (clock_step==Note13){
PlayNote4();
digitalWrite(28, HIGH);
digitalWrite(30, LOW);
}


if (clock_step==Note14){
PlayNote3();
digitalWrite(26, HIGH);
digitalWrite(28, LOW);
}


if (clock_step==Note15){
PlayNote2();
digitalWrite(24, HIGH);
digitalWrite(26, LOW);
}


if (clock_step==Note16){
PlayNote1();
digitalWrite(22, HIGH);
digitalWrite(24, LOW);
}


else if (clock_step==SeqLength){
clock_step=0;
}
}


void sendMidiNote (byte midiCommand, byte noteValue, byte velocityValue){
Serial.print(midiCommand, BYTE);
Serial.print(noteValue, BYTE);
Serial.print(velocityValue, BYTE);
}


void PlayNote1() {
if (analogRead(0) > 127 && HoldNote_Flag==HIGH) {
//sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(0);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
else if (analogRead(0) > 127 && HoldNote_Flag==LOW) {
sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(0);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
}

void PlayNote2() {

if (analogRead(1) > 127 && HoldNote_Flag==HIGH) {
//sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(1);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
else if (analogRead(0) > 127 && HoldNote_Flag==LOW) {
sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(0);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
}


void PlayNote3() {
if (analogRead(2) > 127 && HoldNote_Flag==HIGH) {
//sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(2);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
else if (analogRead(0) > 127 && HoldNote_Flag==LOW) {
sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(0);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
}

void PlayNote4() {
if (analogRead(3) > 127 && HoldNote_Flag==HIGH) {
//sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(3);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
else if (analogRead(0) > 127 && HoldNote_Flag==LOW) {
sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(0);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
}

void PlayNote5() {
if (analogRead(4) > 127 && HoldNote_Flag==HIGH) {
//sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(4);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
else if (analogRead(0) > 127 && HoldNote_Flag==LOW) {
sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(0);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
}

void PlayNote6() {
if (analogRead(5) > 127 && HoldNote_Flag==HIGH) {
//sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(5);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
else if (analogRead(0) > 127 && HoldNote_Flag==LOW) {
sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(0);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
}

void PlayNote7() {
if (analogRead(6) > 127 && HoldNote_Flag==HIGH) {
//sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(6);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
else if (analogRead(0) > 127 && HoldNote_Flag==LOW) {
sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(0);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
}

void PlayNote8() {
if (analogRead(7) > 127 && HoldNote_Flag==HIGH) {
//sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(7);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
else if (analogRead(0) > 127 && HoldNote_Flag==LOW) {
sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(0);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
}

void PlayNote9() {
if (analogRead(8) > 127 && HoldNote_Flag==HIGH) {
//sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(8);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
else if (analogRead(0) > 127 && HoldNote_Flag==LOW) {
sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(0);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
}


void PlayNote10() {
if (analogRead(9) > 127 && HoldNote_Flag==HIGH) {
//sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(9);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
else if (analogRead(0) > 127 && HoldNote_Flag==LOW) {
sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(0);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
}

void PlayNote11() {
if (analogRead(10) > 127 && HoldNote_Flag==HIGH) {
//sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(10);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
else if (analogRead(0) > 127 && HoldNote_Flag==LOW) {
sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(0);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
}

void PlayNote12() {
if (analogRead(11) > 127 && HoldNote_Flag==HIGH) {
//sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(11);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
else if (analogRead(0) > 127 && HoldNote_Flag==LOW) {
sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(0);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
}

void PlayNote13() {
if (analogRead(12) > 127 && HoldNote_Flag==HIGH) {
//sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(12);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
else if (analogRead(0) > 127 && HoldNote_Flag==LOW) {
sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(0);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
}

void PlayNote14() {
if (analogRead(13) > 127 && HoldNote_Flag==HIGH) {
//sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(13);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
else if (analogRead(0) > 127 && HoldNote_Flag==LOW) {
sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(0);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
}

void PlayNote15() {
if (analogRead(14) > 127 && HoldNote_Flag==HIGH) {
//sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(14);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
else if (analogRead(0) > 127 && HoldNote_Flag==LOW) {
sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(0);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
}

void PlayNote16() {
if (analogRead(15) > 127 && HoldNote_Flag==HIGH) {
//sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(15);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
else if (analogRead(0) > 127 && HoldNote_Flag==LOW) {
sendMidiNote (0x80, note, 0x7F); //last note off
noteval = analogRead(0);
note = map(noteval, 0, 1023, LowestNote, HighestNote);
sendMidiNote (0x90, note, 0x7F); //note of this step on
}
}

1 comment:

  1. Nice as hell! Im gonna make a syncuino!

    ReplyDelete