158 lines
No EOL
4.2 KiB
C++
158 lines
No EOL
4.2 KiB
C++
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#include <Encoder.h>
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#include <Arduino.h>
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const int Channel1 = 9; //Output Channel 1
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const int Channel2 = 10; //Output Channel 2
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const int Channel3 = 11; //Output Channel 3
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const int Enc1P1 = 2; //Encoder 1 Pin 1 to Interrupt
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const int Enc2P1 = 3; //Encoder 2 Pin 1 to Interrupt
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const int Enc1P2 = 14; //Encoder 1 Pin 2 to non-Interrupting pin because we only have 2
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const int Enc2P2 = 15; //Encoder 2 Pin 2 to non-Interrupting pin because we only have 2
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const int Enc1Btn = 16; //Encoder 1 Button
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const int Enc2Btn = 17; //Encoder 2 Button
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const int ClockIn = 4; //Clock In
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const int ClockDetect = 7; //Detect clock jack
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const int DebounceTime = 10; //Debounce time in ms
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Encoder LeftEnc( Enc1P1, Enc1P2);
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Encoder RightEnc( Enc2P1, Enc2P2);
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int E1 = 0;
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int E2 = 0;
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bool E1Btn = false;
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bool E2Btn = false;
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bool ClockState = false;
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bool E1Prev, E2Prev, CDPrev, E1Click, E2Click, CDIn = false;
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unsigned int E1Bounce, E2Bounce, CDBounce = 0;
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unsigned long ClockPrev = 0;
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byte Input = 0;
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int PpQN = 24;
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float Clock = 120;
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float ClockTick = (1/((Clock * PpQN)/60)) * 1000;
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unsigned long ClockTime = 0;
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unsigned long LastStepTime = 0;
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long EncLeft, EncRight = 0;
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void setup() {
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//Open Serial for output prior to installing a screen
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Serial.begin( 115200 );
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Serial.println("Env Gen");
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randomSeed(analogRead(A7));
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pinMode(Enc1Btn, INPUT_PULLUP);
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pinMode(Enc2Btn, INPUT_PULLUP);
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pinMode(ClockIn, INPUT);
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pinMode(ClockDetect, INPUT_PULLUP);
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E1Btn = digitalRead(Enc1Btn);
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E1Prev = E1Btn;
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E2Btn = digitalRead(Enc2Btn);
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E2Prev = E2Btn;
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ClockState = digitalRead(ClockIn);
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CDPrev = digitalRead(ClockDetect);
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// Timer0 is already used for millis() - we'll just interrupt somewhere
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// in the middle and call the "Compare A" function below
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OCR0A = 0xAF;
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TIMSK0 |= _BV(OCIE0A);
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}
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void loop() {
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long newLEnc = LeftEnc.read();
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long newREnc = RightEnc.read();
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if (digitalRead(Enc1Btn) != E1Btn){
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if (E1Bounce == 0 & E1Click == false){
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Serial.println("E1Btn State Change");
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E1Btn = !E1Btn;
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E1Bounce = DebounceTime;
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E1Click = true;
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}
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}
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if (digitalRead(Enc2Btn) != E2Btn){
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if (E2Bounce == 0 & E2Click == false){
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Serial.println("E2Btn State Change");
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E2Btn = !E2Btn;
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E2Bounce = DebounceTime;
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E2Click = true;
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}
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}
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//false click handler
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E1Click = false;
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E2Click = false;
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bool newCD = digitalRead(ClockDetect);
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if (newCD != CDPrev){
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if (CDBounce == 0){
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Serial.println("Clock Jack Status Change");
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CDPrev = CDIn = newCD;
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CDBounce = DebounceTime << 4;
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}
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}
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if ( digitalRead(ClockIn) != ClockState){
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ClockState = !ClockState;
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if (ClockState){
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unsigned long tmpClock = micros();
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float clkInTick = tmpClock - ClockPrev;
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float newBPM = ((1.0/(clkInTick/1000000.0)) * 60.0)/(float)PpQN;
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ClockPrev = tmpClock;
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if (abs(Clock - newBPM) > 0.5){
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Clock = newBPM;
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String outputBPM = "New BPM: ";
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outputBPM.concat(newBPM);
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Serial.println(outputBPM);
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outputBPM = "Clock Tick: ";
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outputBPM.concat(clkInTick);
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Serial.println(outputBPM);
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ClockTick = (1/((Clock * PpQN)/60)) * 1000;
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}
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}
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}
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if (newLEnc != EncLeft || newREnc != EncRight){
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String output = "Left Enc Pos: ";
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output.concat(newLEnc);
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output.concat( ", Right Enc Pos: ");
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output.concat(newREnc);
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Serial.print(output);
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if (newLEnc != EncLeft){
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Clock = Clock + (((float)EncLeft - (float)newLEnc)/40.0);
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} else{
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Clock = Clock + ((EncRight - newREnc) * 2.5);
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}
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ClockTick = (1/((Clock * PpQN)/60)) * 1000;
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EncLeft = newLEnc;
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EncRight = newREnc;
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output = " Clock: ";
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output.concat(Clock);
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output.concat( " Clocktick: ");
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output.concat( ClockTick);
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Serial.println(output);
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}
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unsigned long currentTime = millis();
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}
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// Interrupt is called once a millisecond,
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SIGNAL(TIMER0_COMPA_vect)
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{
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E1Bounce = (E1Bounce - 1) & 0b10000000;
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E2Bounce = (E2Bounce - 1) & 0b10000000;
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CDBounce = (CDBounce - 1) & 0b10000000;
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} |