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https://git.alemi.dev/cv-keyboard.git
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Actual commit (previous one was staged?)
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731a05bc57
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2 changed files with 78 additions and 126 deletions
1
.gitignore
vendored
1
.gitignore
vendored
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@ -3,3 +3,4 @@
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################################################################################
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################################################################################
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/.vs
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/.vs
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/CppProperties.json
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203
cvkeyboard.ino
203
cvkeyboard.ino
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@ -18,159 +18,110 @@
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#define Oct4 10
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#define Oct4 10
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#define noteOffset 36
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#define noteOffset 36
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#define offCounter 0
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#define MINUTE 60000
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#define MINUTE 60000
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#include <MIDI.h>
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#include <MIDI.h>
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#include <HID.h>
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#include <HID.h>
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MIDI_CREATE_DEFAULT_INSTANCE();
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MIDI_CREATE_DEFAULT_INSTANCE();
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typedef struct OctaveStatus {
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bool stat[12];
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int nOct;
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} octst;
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int note[12] = {
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int note[12] = {
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C, Db, D, Eb, E, F, Gb, G, Ab, A, Bb, B }; // Note Pins above
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C, Db, D, Eb, E, F, Gb, G, Ab, A, Bb, B }; // Note Pins above
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int octave[4] = {
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int octave[4] = {
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Oct1, Oct2, Oct3, Oct4 }; // Octave Pins above
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Oct1, Oct2, Oct3, Oct4 }; // Octave Pins above
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int noteCounter[49] = { 0 };
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boolean status[49] = { LOW };
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boolean flip[49] = { LOW };
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boolean buffer = LOW;
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int octBuffer;
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byte noteBuffer;
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byte velocity = 100; // Placeholder. Will need something to change it
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int channel = 7; // Placeholder. Will need something to change it
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int bpm = 120; // Placeholder. Will need something to change it
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int gate = 300; // Placeholder. Will need something to change it
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int clock = 0; // Used if arp to cycle through notes
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octst buff;
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bool kboard[49];
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bool raw; // Global Settings. RAW = signal is sent when key is detected
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byte velocity = 100;
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byte channel = 1;
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int bpm = 360;
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unsigned long nextBeat = 0;
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unsigned long nextBeat = 0;
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int step = 0;
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unsigned long gate = 50; //ms of keypress if arpeggiator
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int lastStep = 0;
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int npressed;
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boolean notePlayed = LOW;
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void setup() {
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void setup()
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{
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for (int cOctave = 0; cOctave < 4; cOctave++) {
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for (int cOctave = 0; cOctave < 4; cOctave++) {
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pinMode(octave[cOctave], OUTPUT);
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pinMode(octave[cOctave], OUTPUT);
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}
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}
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for (int cNote = 0; cNote < 12; cNote++) {
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for (int cNote = 0; cNote < 12; cNote++) {
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pinMode(note[cNote], INPUT);
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pinMode(note[cNote], INPUT);
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}
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}
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MIDI.begin(MIDI_CHANNEL_OFF);
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MIDI.begin(MIDI_CHANNEL_OFF);
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Serial.begin(115200);
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Serial.begin(115200);
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nextBeat = millis() + (MINUTE / bpm);
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}
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nextBeat = millis() + (MINUTE / bpm);
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pinMode(2, INPUT_PULLUP);
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for (int cStat = 0; cStat < 49; cStat++) kboard[cStat] = LOW;
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}
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void loop() {
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void loop() {
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if (millis() < nextBeat) return;
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npressed = 0;
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notePlayed = LOW;
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raw = digitalRead(2);
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while (notePlayed == LOW) {
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cleanScan();
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arp();
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}
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nextBeat += (MINUTE / bpm);
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}
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void cleanScan() {
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int c;
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for (c = 0; c < 49; c++) noteCounter[c] = 0;
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scan();
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for (c = 0; c < 49; c++) {
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if (status[c] == HIGH) noteCounter[c]++;
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}
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scan();
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for (c = 0; c < 49; c++) {
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if (status[c] == HIGH) noteCounter[c]++;
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}
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scan();
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for (c = 0; c < 49; c++) {
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if (status[c] == HIGH) noteCounter[c]++;
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}
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for (c = 0; c < 49; c++) {
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if (noteCounter[c] == 3) status[c] = HIGH;
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else status[c] = LOW;
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}
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}
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void send() {
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for (int c = 48; c >= 0; c--) {
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if (flip[c] == HIGH) {
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flip[c] = LOW;
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if (noteCounter[c] > 0) {
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noteCounter[c]--;
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}
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else {
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noteCounter[c] = offCounter;
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noteBuffer = c + noteOffset;
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if (status[c] == HIGH) {
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MIDI.sendNoteOn(noteBuffer, velocity, channel);
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}
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else if (status[c] == LOW) {
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MIDI.sendNoteOff(noteBuffer, velocity, channel);
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}
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}
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}
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}
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}
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void playNote(int c, boolean status) {
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if (status == HIGH) {
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MIDI.sendNoteOn(c + noteOffset, velocity, channel);
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}
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else if (status == LOW) {
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MIDI.sendNoteOff(c + noteOffset, velocity, channel);
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}
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}
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void arp() {
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step++;
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while (step < 49 && status[step] == LOW) {
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step++;
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}
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if (step == 49) {
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step = 0;
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}
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else {
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playNote(lastStep, LOW);
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playNote(step, HIGH);
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lastStep = step;
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notePlayed = HIGH;
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}
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return;
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}
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void scan() {
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for (int cOctave = 0; cOctave < 4; cOctave++) {
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for (int cOctave = 0; cOctave < 4; cOctave++) {
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octBuffer = 12 * cOctave;
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digitalWrite(octave[cOctave], HIGH);
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digitalWrite(octave[cOctave], HIGH);
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npressed += eval(scan(cOctave));
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for (int cNote = 0; cNote < 12; cNote++) {
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buffer = digitalRead(note[cNote]);
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if (buffer ^ status[cNote + octBuffer]) {
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status[cNote + octBuffer] = buffer;
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flip[cNote + octBuffer] = HIGH;
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}
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else {
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flip[cNote + octBuffer] = LOW;
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}
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}
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digitalWrite(octave[cOctave], LOW);
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digitalWrite(octave[cOctave], LOW);
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}
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}
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if (raw) {
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}
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nextBeat = millis();
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return;
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int nPressed() {
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}
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int c, n = 0;
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if (npressed < 1) return;
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for (c = 0; c < 49; c++) {
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if (millis() >= nextBeat) {
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if (status[c] == HIGH) {
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nextBeat += (MINUTE / bpm);
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n++;
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clock++;
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while (kboard[clock] == LOW) {
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clock++;
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if (clock == 49) clock = 0;
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}
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}
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playNote(clock, HIGH);
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delay(gate);
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playNote(clock, LOW);
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}
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}
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}
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}
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octst scan(int nOct) { // This function reads the 12 note pins and returns a struct
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int c; // with 1 bool for each note
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octst output;
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output.nOct = nOct;
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for (c = 0; c < 12; c++) {
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output.stat[c] = digitalRead(note[c]);
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}
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return output;
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}
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int eval(octst input) {
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int pressed = 0;
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int snote = input.nOct * 12;
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for (int c = 0; c < 12; c++) {
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if (input.stat[c] ^ kboard[c + snote]) {
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if (raw) playNote(c + snote, input.stat[c]);
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kboard[c + snote] = input.stat[c];
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}
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if (kboard[c + snote] == HIGH) pressed++;
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}
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return pressed;
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}
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void playNote(int c, bool status) {
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byte n = c + noteOffset;
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if (status == HIGH) {
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MIDI.sendNoteOn(n, velocity, channel);
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}
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else if (status == LOW) {
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MIDI.sendNoteOff(n, velocity, channel);
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}
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}
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