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/* interrupt routine for Rotary Encoders |
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tested with Noble RE0124PVB 17.7FINB-24 http://www.nobleusa.com/pdf/xre.pdf - available at pollin.de |
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and a few others, seems pretty universal |
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The average rotary encoder has three pins, seen from front: A C B |
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Clockwise rotation A(on)->B(on)->A(off)->B(off) |
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CounterCW rotation B(on)->A(on)->B(off)->A(off) |
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and may be a push switch with another two pins, pulled low at pin 8 in this case |
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raf@synapps.de 20120107 |
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*/ |
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// usually the rotary encoders three pins have the ground pin in the middle |
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enum PinAssignments { |
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encoderPinA = 2, // right |
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encoderPinB = 3, // left |
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clearButton = 8 // another two pins |
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}; |
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volatile unsigned int encoderPos = 0; // a counter for the dial |
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unsigned int lastReportedPos = 1; // change management |
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static boolean rotating = false; // debounce management |
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// interrupt service routine vars |
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boolean A_set = false; |
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boolean B_set = false; |
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void setup() { |
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pinMode(encoderPinA, INPUT); |
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pinMode(encoderPinB, INPUT); |
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pinMode(clearButton, INPUT); |
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// turn on pullup resistors |
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digitalWrite(encoderPinA, HIGH); |
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digitalWrite(encoderPinB, HIGH); |
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digitalWrite(clearButton, HIGH); |
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// encoder pin on interrupt 0 (pin 2) |
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attachInterrupt(0, doEncoderA, CHANGE); |
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// encoder pin on interrupt 1 (pin 3) |
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attachInterrupt(1, doEncoderB, CHANGE); |
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Serial.begin(9600); // output |
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} |
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// main loop, work is done by interrupt service routines, this one only prints stuff |
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void loop() { |
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rotating = true; // reset the debouncer |
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if (lastReportedPos != encoderPos) { |
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Serial.print("Index:"); |
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Serial.println(encoderPos, DEC); |
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lastReportedPos = encoderPos; |
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} |
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if (digitalRead(clearButton) == LOW ) { |
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encoderPos = 0; |
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} |
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} |
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// Interrupt on A changing state |
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void doEncoderA() { |
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// debounce |
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if ( rotating ) delay (1); // wait a little until the bouncing is done |
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// Test transition, did things really change? |
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if ( digitalRead(encoderPinA) != A_set ) { // debounce once more |
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A_set = !A_set; |
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// adjust counter + if A leads B |
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if ( A_set && !B_set ) |
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encoderPos += 1; |
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rotating = false; // no more debouncing until loop() hits again |
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} |
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} |
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// Interrupt on B changing state, same as A above |
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void doEncoderB() { |
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if ( rotating ) delay (1); |
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if ( digitalRead(encoderPinB) != B_set ) { |
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B_set = !B_set; |
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// adjust counter - 1 if B leads A |
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if ( B_set && !A_set ) |
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encoderPos -= 1; |
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rotating = false; |
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} |
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} |
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