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194 lines
5.0 KiB
194 lines
5.0 KiB
// Acid StepSequencer, a Roland TB303 step sequencer engine clone
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// author: midilab contact@midilab.co
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// under MIT license
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#include "Arduino.h"
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#include <uClock.h>
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// Sequencer config
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#define STEP_MAX_SIZE 16
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#define NOTE_LENGTH 4 // min: 1 max: 5 DO NOT EDIT BEYOND!!!
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#define NOTE_VELOCITY 90
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#define ACCENT_VELOCITY 127
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// MIDI modes
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#define MIDI_CHANNEL 0 // 0 = channel 1
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#define MIDI_MODE
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//#define SERIAL_MODE
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// do not edit from here!
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#define NOTE_STACK_SIZE 3
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// MIDI clock, start, stop, note on and note off byte definitions - based on MIDI 1.0 Standards.
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#define MIDI_CLOCK 0xF8
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#define MIDI_START 0xFA
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#define MIDI_STOP 0xFC
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#define NOTE_ON 0x90
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#define NOTE_OFF 0x80
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// Sequencer data
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typedef struct
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{
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uint8_t note;
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bool accent;
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bool glide;
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bool rest;
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} SEQUENCER_STEP_DATA;
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typedef struct
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{
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uint8_t note;
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int8_t length;
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} STACK_NOTE_DATA;
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// main sequencer data
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SEQUENCER_STEP_DATA _sequencer[STEP_MAX_SIZE];
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STACK_NOTE_DATA _note_stack[NOTE_STACK_SIZE];
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uint16_t _step_length = STEP_MAX_SIZE;
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// make sure all above sequencer data are modified atomicly only
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// eg. ATOMIC(_sequencer[0].accent = true); ATOMIC(_step_length = 7);
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uint8_t _tmpSREG;
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#define ATOMIC(X) _tmpSREG = SREG; cli(); X; SREG = _tmpSREG;
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// shared data to be used for user interface feedback
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bool _playing = false;
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uint16_t _step = 0;
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void sendMidiMessage(uint8_t command, uint8_t byte1, uint8_t byte2)
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{
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// send midi message
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command = command | (uint8_t)MIDI_CHANNEL;
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Serial.write(command);
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Serial.write(byte1);
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Serial.write(byte2);
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}
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// The callback function wich will be called by uClock each Pulse of 16PPQN clock resolution. Each call represents exactly one step.
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void ClockOut16PPQN(uint32_t * tick)
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{
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uint16_t step, length;
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// get actual step.
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_step = *tick % _step_length;
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// send note on only if this step are not in rest mode
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if ( _sequencer[_step].rest == false ) {
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// check for glide event ahead of _step
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step = _step;
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for ( uint16_t i = 1; i < _step_length; i++ ) {
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++step;
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step = step % _step_length;
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if ( _sequencer[step].glide == true && _sequencer[step].rest == false ) {
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length = NOTE_LENGTH + (i * 6);
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break;
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} else if ( _sequencer[step].rest == false ) {
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length = NOTE_LENGTH;
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break;
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}
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}
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// find a free note stack to fit in
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for ( uint8_t i = 0; i < NOTE_STACK_SIZE; i++ ) {
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if ( _note_stack[i].length == -1 ) {
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_note_stack[i].note = _sequencer[_step].note;
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_note_stack[i].length = length;
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// send note on
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sendMidiMessage(NOTE_ON, _sequencer[_step].note, _sequencer[_step].accent ? ACCENT_VELOCITY : NOTE_VELOCITY);
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return;
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}
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}
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}
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}
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// The callback function wich will be called by uClock each Pulse of 96PPQN clock resolution.
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void ClockOut96PPQN(uint32_t * tick)
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{
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// Send MIDI_CLOCK to external hardware
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Serial.write(MIDI_CLOCK);
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// handle note on stack
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for ( uint8_t i = 0; i < NOTE_STACK_SIZE; i++ ) {
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if ( _note_stack[i].length != -1 ) {
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--_note_stack[i].length;
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if ( _note_stack[i].length == 0 ) {
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sendMidiMessage(NOTE_OFF, _note_stack[i].note, 0);
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_note_stack[i].length = -1;
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}
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}
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}
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// user feedback about sequence time events
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tempoInterface(tick);
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}
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// The callback function wich will be called when clock starts by using Clock.start() method.
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void onClockStart()
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{
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Serial.write(MIDI_START);
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_playing = true;
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}
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// The callback function wich will be called when clock stops by using Clock.stop() method.
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void onClockStop()
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{
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Serial.write(MIDI_STOP);
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// send all note off on sequencer stop
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for ( uint8_t i = 0; i < NOTE_STACK_SIZE; i++ ) {
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sendMidiMessage(NOTE_OFF, _note_stack[i].note, 0);
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_note_stack[i].length = -1;
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}
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_playing = false;
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}
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void setup()
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{
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// Initialize serial communication
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#ifdef MIDI_MODE
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// the default MIDI serial speed communication at 31250 bits per second
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Serial.begin(31250);
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#endif
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#ifdef SERIAL_MODE
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// for usage with a PC with a serial to MIDI bridge
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Serial.begin(115200);
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#endif
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// Inits the clock
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uClock.init();
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// Set the callback function for the clock output to send MIDI Sync message.
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uClock.setClock96PPQNOutput(ClockOut96PPQN);
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// Set the callback function for the step sequencer on 16ppqn
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uClock.setClock16PPQNOutput(ClockOut16PPQN);
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// Set the callback function for MIDI Start and Stop messages.
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uClock.setOnClockStartOutput(onClockStart);
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uClock.setOnClockStopOutput(onClockStop);
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// Set the clock BPM to 126 BPM
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uClock.setTempo(126);
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// initing sequencer data
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for ( uint16_t i = 0; i < STEP_MAX_SIZE; i++ ) {
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_sequencer[i].note = 48;
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_sequencer[i].accent = false;
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_sequencer[i].glide = false;
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_sequencer[i].rest = false;
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}
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// initing note stack data
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for ( uint8_t i = 0; i < NOTE_STACK_SIZE; i++ ) {
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_note_stack[i].note = 0;
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_note_stack[i].length = -1;
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}
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// pins, buttons, leds and pots config
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configureInterface();
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}
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// User interaction goes here
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void loop()
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{
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processInterface();
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}
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