version 2.0 breakchanges

pull/34/head
midilab 10 months ago
parent 38bde64519
commit 385d5cf301
  1. 39
      README.md
  2. 8
      examples/AVRUartSlaveMidiClockMonitor/AVRUartSlaveMidiClockMonitor.ino
  3. 30
      examples/AcidStepSequencer/AcidStepSequencer.ino
  4. 8
      examples/ESP32UartMasterMidiClock/ESP32UartMasterMidiClock.ino
  5. 8
      examples/LeonardoUsbSlaveMidiClockMonitor/LeonardoUsbSlaveMidiClockMonitor.ino
  6. 10
      examples/MidiClock/MidiClock.ino
  7. 8
      examples/STM32UartMasterMidiClock/STM32UartMasterMidiClock.ino
  8. 8
      examples/TeensyUsbMasterMidiClock/TeensyUsbMasterMidiClock.ino
  9. 8
      examples/TeensyUsbSlaveMidiClock/TeensyUsbSlaveMidiClock.ino
  10. 8
      examples/TeensyUsbSlaveMidiClockMonitor/TeensyUsbSlaveMidiClockMonitor.ino
  11. 8
      examples/XiaoUsbMasterMidiClock/XiaoUsbMasterMidiClock.ino

@ -18,6 +18,27 @@ The uClock library API operates through attached callback functions mechanism:
5. **onClockStartCallback()** on uClock Start event 5. **onClockStartCallback()** on uClock Start event
6. **onClockStopCallback()** on uClock Stop event 6. **onClockStopCallback()** on uClock Stop event
## uClock v2.0 Breakchanges
If you are comming from uClock version < 2.0 versions keep attention to the breakchanges so you can update your code to the new API interface changes:
#### setCallback functions name changing:
**setClock96PPQNOutput(onClock96PPQNOutputCallback)** is now setOnPPQN(onPPQNCallback) and his clock depends on the PPQN setup using setPPQN (clockPPQNResolution). For clock setup you now use a separeted callback via setOnSync24(onSync48Callback) or setOnSync24(onSync48Callback)
**setOnClockStartOutput(onClockStartCallback)** is now setOnClockStart(onClockStartCallback)
**setOnClockStopOutput(onClockStopCallback)** is now setOnClockStop(onClockStopCallback)
**setOnClockStartOutput(onClockStartCallback)** is now setOnClockStart(onClockStartCallback)
**setClock16PPQNOutput(ClockOut16PPQN)** is now setOnStep(onStepCall) and its not dependent on clock PPQN resolution
#### Tick resolution and sequencers
If you have write a sequencer using setClock16PPQNOutput only its ok to just change the API call to setOnStep, but if you were dependent on setClock96PPQNOutput you migth need to review you tick counting system depending on wich PPQN clock resolution you choose.
## Examples
You will find more complete examples on examples/ folder:
```c++ ```c++
#include <uClock.h> #include <uClock.h>
@ -71,7 +92,7 @@ Here is an example on how to create a simple MIDI Sync Box on Arduino boards
#define MIDI_START 0xFA #define MIDI_START 0xFA
#define MIDI_STOP 0xFC #define MIDI_STOP 0xFC
// The callback function wich will be called by Clock each Pulse of 96PPQN clock resolution. // The callback function wich will be called by Clock each Pulse of 24PPQN clock resolution.
void onSync24Callback(uint32_t tick) { void onSync24Callback(uint32_t tick) {
// Send MIDI_CLOCK to external gears // Send MIDI_CLOCK to external gears
Serial.write(MIDI_CLOCK); Serial.write(MIDI_CLOCK);
@ -168,7 +189,7 @@ A clone of Roland TB303 step sequencer main engine, here is an example with no u
// Sequencer config // Sequencer config
#define STEP_MAX_SIZE 16 #define STEP_MAX_SIZE 16
#define NOTE_LENGTH 4 // min: 1 max: 5 DO NOT EDIT BEYOND!!! #define NOTE_LENGTH 12 // min: 1 max: 23 DO NOT EDIT BEYOND!!! 12 = 50% on 96ppqn, same as original tb303. 62.5% for triplets time signature
#define NOTE_VELOCITY 90 #define NOTE_VELOCITY 90
#define ACCENT_VELOCITY 127 #define ACCENT_VELOCITY 127
@ -223,7 +244,7 @@ void sendMidiMessage(uint8_t command, uint8_t byte1, uint8_t byte2)
} }
// The callback function wich will be called by uClock each Pulse of 16PPQN clock resolution. Each call represents exactly one step. // The callback function wich will be called by uClock each Pulse of 16PPQN clock resolution. Each call represents exactly one step.
void ClockOut16PPQN(uint32_t tick) void onStepCallback(uint32_t tick)
{ {
uint16_t step; uint16_t step;
uint16_t length = NOTE_LENGTH; uint16_t length = NOTE_LENGTH;
@ -240,7 +261,7 @@ void ClockOut16PPQN(uint32_t tick)
++step; ++step;
step = step % _step_length; step = step % _step_length;
if ( _sequencer[step].glide == true && _sequencer[step].rest == false ) { if ( _sequencer[step].glide == true && _sequencer[step].rest == false ) {
length = NOTE_LENGTH + (i * 6); length = NOTE_LENGTH + (i * 24);
break; break;
} else if ( _sequencer[step].rest == false ) { } else if ( _sequencer[step].rest == false ) {
break; break;
@ -261,7 +282,7 @@ void ClockOut16PPQN(uint32_t tick)
} }
// The callback function wich will be called by uClock each Pulse of 96PPQN clock resolution. // The callback function wich will be called by uClock each Pulse of 96PPQN clock resolution.
void ClockOut96PPQN(uint32_t tick) void onPPQNCallback(uint32_t tick)
{ {
// Send MIDI_CLOCK to external hardware // Send MIDI_CLOCK to external hardware
Serial.write(MIDI_CLOCK); Serial.write(MIDI_CLOCK);
@ -307,14 +328,14 @@ void setup()
uClock.init(); uClock.init();
// Set the callback function for the clock output to send MIDI Sync message. // Set the callback function for the clock output to send MIDI Sync message.
uClock.setClock96PPQNOutput(ClockOut96PPQN); uClock.setOnPPQN(onPPQNCallback);
// Set the callback function for the step sequencer on 16ppqn // Set the callback function for the step sequencer on 16ppqn
uClock.setClock16PPQNOutput(ClockOut16PPQN); uClock.setOnStep(onStepCallback);
// Set the callback function for MIDI Start and Stop messages. // Set the callback function for MIDI Start and Stop messages.
uClock.setOnClockStartOutput(onClockStart); uClock.setOnClockStart(onClockStart);
uClock.setOnClockStopOutput(onClockStop); uClock.setOnClockStop(onClockStop);
// Set the clock BPM to 126 BPM // Set the clock BPM to 126 BPM
uClock.setTempo(126); uClock.setTempo(126);

@ -51,7 +51,7 @@ void handle_bpm_led(uint32_t tick) {
} }
// Internal clock handlers // Internal clock handlers
void ClockOut96PPQN(uint32_t tick) { void onSync24Callback(uint32_t tick) {
// Send MIDI_CLOCK to external gears // Send MIDI_CLOCK to external gears
MIDI.sendRealTime(MIDI_CLOCK); MIDI.sendRealTime(MIDI_CLOCK);
handle_bpm_led(tick); handle_bpm_led(tick);
@ -112,10 +112,10 @@ MIDI.setHandleClock(onExternalClock);
// uClock Setup // uClock Setup
// //
uClock.init(); uClock.init();
uClock.setClock96PPQNOutput(ClockOut96PPQN); uClock.setOnSync24(onSync24Callback);
// For MIDI Sync Start and Stop // For MIDI Sync Start and Stop
uClock.setOnClockStartOutput(onClockStart); uClock.setOnClockStart(onClockStart);
uClock.setOnClockStopOutput(onClockStop); uClock.setOnClockStop(onClockStop);
uClock.setMode(uClock.EXTERNAL_CLOCK); uClock.setMode(uClock.EXTERNAL_CLOCK);
//uClock.setTempo(136.5); //uClock.setTempo(136.5);
//uClock.start(); //uClock.start();

@ -6,7 +6,7 @@
// Sequencer config // Sequencer config
#define STEP_MAX_SIZE 16 #define STEP_MAX_SIZE 16
#define NOTE_LENGTH 4 // min: 1 max: 5 DO NOT EDIT BEYOND!!! #define NOTE_LENGTH 12 // min: 1 max: 23 DO NOT EDIT BEYOND!!! 12 = 50% on 96ppqn, same as original tb303. 62.5% for triplets time signature
#define NOTE_VELOCITY 90 #define NOTE_VELOCITY 90
#define ACCENT_VELOCITY 127 #define ACCENT_VELOCITY 127
@ -47,8 +47,7 @@ uint16_t _step_length = STEP_MAX_SIZE;
// make sure all above sequencer data are modified atomicly only // make sure all above sequencer data are modified atomicly only
// eg. ATOMIC(_sequencer[0].accent = true); ATOMIC(_step_length = 7); // eg. ATOMIC(_sequencer[0].accent = true); ATOMIC(_step_length = 7);
uint8_t _tmpSREG; #define ATOMIC(X) noInterrupts(); X; interrupts();
#define ATOMIC(X) _tmpSREG = SREG; cli(); X; SREG = _tmpSREG;
// shared data to be used for user interface feedback // shared data to be used for user interface feedback
bool _playing = false; bool _playing = false;
@ -63,8 +62,8 @@ void sendMidiMessage(uint8_t command, uint8_t byte1, uint8_t byte2)
Serial.write(byte2); Serial.write(byte2);
} }
// The callback function wich will be called by uClock each Pulse of 16PPQN clock resolution. Each call represents exactly one step. // Each call represents exactly one step.
void ClockOut16PPQN(uint32_t tick) void onStepCallback(uint32_t tick)
{ {
uint16_t step; uint16_t step;
uint16_t length = NOTE_LENGTH; uint16_t length = NOTE_LENGTH;
@ -102,11 +101,8 @@ void ClockOut16PPQN(uint32_t tick)
} }
// The callback function wich will be called by uClock each Pulse of 96PPQN clock resolution. // The callback function wich will be called by uClock each Pulse of 96PPQN clock resolution.
void ClockOut96PPQN(uint32_t tick) void onPPQNCallback(uint32_t tick)
{ {
// Send MIDI_CLOCK to external hardware
Serial.write(MIDI_CLOCK);
// handle note on stack // handle note on stack
for ( uint8_t i = 0; i < NOTE_STACK_SIZE; i++ ) { for ( uint8_t i = 0; i < NOTE_STACK_SIZE; i++ ) {
if ( _note_stack[i].length != -1 ) { if ( _note_stack[i].length != -1 ) {
@ -122,6 +118,11 @@ void ClockOut96PPQN(uint32_t tick)
tempoInterface(tick); tempoInterface(tick);
} }
void onSync24Callback(uint32_t tick) {
// Send MIDI_CLOCK to external gears
Serial.write(MIDI_CLOCK);
}
// The callback function wich will be called when clock starts by using Clock.start() method. // The callback function wich will be called when clock starts by using Clock.start() method.
void onClockStart() void onClockStart()
{ {
@ -157,14 +158,17 @@ void setup()
uClock.init(); uClock.init();
// Set the callback function for the clock output to send MIDI Sync message. // Set the callback function for the clock output to send MIDI Sync message.
uClock.setClock96PPQNOutput(ClockOut96PPQN); uClock.setOnPPQN(onPPQNCallback);
// for MIDI sync
uClock.setOnSync24(onSync24Callback);
// Set the callback function for the step sequencer on 16ppqn // Set the callback function for the step sequencer on 16ppqn
uClock.setClock16PPQNOutput(ClockOut16PPQN); uClock.setOnStep(onStepCallback);
// Set the callback function for MIDI Start and Stop messages. // Set the callback function for MIDI Start and Stop messages.
uClock.setOnClockStartOutput(onClockStart); uClock.setOnClockStart(onClockStart);
uClock.setOnClockStopOutput(onClockStop); uClock.setOnClockStop(onClockStop);
// Set the clock BPM to 126 BPM // Set the clock BPM to 126 BPM
uClock.setTempo(126); uClock.setTempo(126);

@ -34,7 +34,7 @@ void handle_bpm_led(uint32_t tick)
} }
// Internal clock handlers // Internal clock handlers
void ClockOut96PPQN(uint32_t tick) { void onSync24Callback(uint32_t tick) {
// Send MIDI_CLOCK to external gears // Send MIDI_CLOCK to external gears
Serial.write(MIDI_CLOCK); Serial.write(MIDI_CLOCK);
handle_bpm_led(tick); handle_bpm_led(tick);
@ -59,10 +59,10 @@ void setup() {
// Inits the clock // Inits the clock
uClock.init(); uClock.init();
// Set the callback function for the clock output to send MIDI Sync message. // Set the callback function for the clock output to send MIDI Sync message.
uClock.setClock96PPQNOutput(ClockOut96PPQN); uClock.setOnSync24(onSync24Callback);
// Set the callback function for MIDI Start and Stop messages. // Set the callback function for MIDI Start and Stop messages.
uClock.setOnClockStartOutput(onClockStart); uClock.setOnClockStart(onClockStart);
uClock.setOnClockStopOutput(onClockStop); uClock.setOnClockStop(onClockStop);
// Set the clock BPM to 126 BPM // Set the clock BPM to 126 BPM
uClock.setTempo(126); uClock.setTempo(126);
// Starts the clock, tick-tac-tick-tac... // Starts the clock, tick-tac-tick-tac...

@ -48,7 +48,7 @@ void handle_bpm_led(uint32_t tick)
} }
// Internal clock handlers // Internal clock handlers
void ClockOut96PPQN(uint32_t tick) { void onSync24Callback(uint32_t tick) {
// Send MIDI_CLOCK to external gears // Send MIDI_CLOCK to external gears
MIDI.sendRealTime(MIDI_CLOCK); MIDI.sendRealTime(MIDI_CLOCK);
handle_bpm_led(tick); handle_bpm_led(tick);
@ -103,10 +103,10 @@ void setup() {
// uClock Setup // uClock Setup
// //
uClock.init(); uClock.init();
uClock.setClock96PPQNOutput(ClockOut96PPQN); uClock.setOnSync24(onSync24Callback);
// For MIDI Sync Start and Stop // For MIDI Sync Start and Stop
uClock.setOnClockStartOutput(onClockStart); uClock.setOnClockStart(onClockStart);
uClock.setOnClockStopOutput(onClockStop); uClock.setOnClockStop(onClockStop);
uClock.setMode(uClock.EXTERNAL_CLOCK); uClock.setMode(uClock.EXTERNAL_CLOCK);
//uClock.setTempo(136.5); //uClock.setTempo(136.5);
//uClock.start(); //uClock.start();

@ -6,8 +6,8 @@
#define MIDI_START 0xFA #define MIDI_START 0xFA
#define MIDI_STOP 0xFC #define MIDI_STOP 0xFC
// The callback function wich will be called by Clock each Pulse of 96PPQN clock resolution. // The callback function wich will be called by Clock each Pulse of 24PPQN clock resolution.
void ClockOut96PPQN(uint32_t tick) void onSync24Callback(uint32_t tick)
{ {
// Send MIDI_CLOCK to external gears // Send MIDI_CLOCK to external gears
Serial.write(MIDI_CLOCK); Serial.write(MIDI_CLOCK);
@ -34,10 +34,10 @@ void setup()
// Inits the clock // Inits the clock
uClock.init(); uClock.init();
// Set the callback function for the clock output to send MIDI Sync message. // Set the callback function for the clock output to send MIDI Sync message.
uClock.setClock96PPQNOutput(ClockOut96PPQN); uClock.setOnSync24(onSync24Callback);
// Set the callback function for MIDI Start and Stop messages. // Set the callback function for MIDI Start and Stop messages.
uClock.setOnClockStartOutput(onClockStart); uClock.setOnClockStart(onClockStart);
uClock.setOnClockStopOutput(onClockStop); uClock.setOnClockStop(onClockStop);
// Set the clock BPM to 126 BPM // Set the clock BPM to 126 BPM
uClock.setTempo(126); uClock.setTempo(126);

@ -40,7 +40,7 @@ void handle_bpm_led(uint32_t tick)
} }
// Internal clock handlers // Internal clock handlers
void ClockOut96PPQN(uint32_t tick) { void onSync24Callback(uint32_t tick) {
// Send MIDI_CLOCK to external gear // Send MIDI_CLOCK to external gear
Serial1.write(MIDI_CLOCK); Serial1.write(MIDI_CLOCK);
handle_bpm_led(tick); handle_bpm_led(tick);
@ -67,10 +67,10 @@ void setup() {
// Inits the clock // Inits the clock
uClock.init(); uClock.init();
// Set the callback function for the clock output to send MIDI Sync message. // Set the callback function for the clock output to send MIDI Sync message.
uClock.setClock96PPQNOutput(ClockOut96PPQN); uClock.setOnSync24(onSync24Callback);
// Set the callback function for MIDI Start and Stop messages. // Set the callback function for MIDI Start and Stop messages.
uClock.setOnClockStartOutput(onClockStart); uClock.setOnClockStart(onClockStart);
uClock.setOnClockStopOutput(onClockStop); uClock.setOnClockStop(onClockStop);
// Set the clock BPM to 126 BPM // Set the clock BPM to 126 BPM
uClock.setTempo(120); uClock.setTempo(120);
// Starts the clock, tick-tac-tick-tac... // Starts the clock, tick-tac-tick-tac...

@ -36,7 +36,7 @@ void handle_bpm_led(uint32_t tick)
} }
// Internal clock handlers // Internal clock handlers
void ClockOut96PPQN(uint32_t tick) { void onSync24Callback(uint32_t tick) {
// Send MIDI_CLOCK to external gears // Send MIDI_CLOCK to external gears
usbMIDI.sendRealTime(usbMIDI.Clock); usbMIDI.sendRealTime(usbMIDI.Clock);
handle_bpm_led(tick); handle_bpm_led(tick);
@ -58,10 +58,10 @@ void setup() {
// Inits the clock // Inits the clock
uClock.init(); uClock.init();
// Set the callback function for the clock output to send MIDI Sync message. // Set the callback function for the clock output to send MIDI Sync message.
uClock.setClock96PPQNOutput(ClockOut96PPQN); uClock.setOnSync24(onSync24Callback);
// Set the callback function for MIDI Start and Stop messages. // Set the callback function for MIDI Start and Stop messages.
uClock.setOnClockStartOutput(onClockStart); uClock.setOnClockStart(onClockStart);
uClock.setOnClockStopOutput(onClockStop); uClock.setOnClockStop(onClockStop);
// Set the clock BPM to 126 BPM // Set the clock BPM to 126 BPM
uClock.setTempo(126); uClock.setTempo(126);
// Starts the clock, tick-tac-tick-tac... // Starts the clock, tick-tac-tick-tac...

@ -36,7 +36,7 @@ void handle_bpm_led(uint32_t tick)
} }
// Internal clock handlers // Internal clock handlers
void ClockOut96PPQN(uint32_t tick) { void onSync24Callback(uint32_t tick) {
// Send MIDI_CLOCK to external gears on other port? // Send MIDI_CLOCK to external gears on other port?
//usbMIDI.sendRealTime(usbMIDI.Clock); //usbMIDI.sendRealTime(usbMIDI.Clock);
handle_bpm_led(tick); handle_bpm_led(tick);
@ -79,10 +79,10 @@ void setup() {
// Inits the clock // Inits the clock
uClock.init(); uClock.init();
// Set the callback function for the clock output to send MIDI Sync message. // Set the callback function for the clock output to send MIDI Sync message.
uClock.setClock96PPQNOutput(ClockOut96PPQN); uClock.setOnSync24(onSync24Callback);
// Set the callback function for MIDI Start and Stop messages. // Set the callback function for MIDI Start and Stop messages.
uClock.setOnClockStartOutput(onClockStart); uClock.setOnClockStart(onClockStart);
uClock.setOnClockStopOutput(onClockStop); uClock.setOnClockStop(onClockStop);
// set to external sync mode // set to external sync mode
uClock.setMode(1); uClock.setMode(1);
} }

@ -50,7 +50,7 @@ void handle_bpm_led(uint32_t tick)
} }
// Internal clock handlers // Internal clock handlers
void ClockOut96PPQN(uint32_t tick) { void onSync24Callback(uint32_t tick) {
// Send MIDI_CLOCK to external gears // Send MIDI_CLOCK to external gears
usbMIDI.sendRealTime(MIDI_CLOCK); usbMIDI.sendRealTime(MIDI_CLOCK);
handle_bpm_led(tick); handle_bpm_led(tick);
@ -110,10 +110,10 @@ void setup() {
// //
// Setup our clock system // Setup our clock system
uClock.init(); uClock.init();
uClock.setClock96PPQNOutput(ClockOut96PPQN); uClock.setOnSync24(onSync24Callback);
// For MIDI Sync Start and Stop // For MIDI Sync Start and Stop
uClock.setOnClockStartOutput(onClockStart); uClock.setOnClockStart(onClockStart);
uClock.setOnClockStopOutput(onClockStop); uClock.setOnClockStop(onClockStop);
uClock.setMode(uClock.EXTERNAL_CLOCK); uClock.setMode(uClock.EXTERNAL_CLOCK);
// make use of 250us timer to handle midi input sync // make use of 250us timer to handle midi input sync
teensyTimer.begin(handleMidiInput, 250); teensyTimer.begin(handleMidiInput, 250);

@ -33,7 +33,7 @@ void handle_bpm_led(uint32_t tick)
} }
// Internal clock handlers // Internal clock handlers
void ClockOut96PPQN(uint32_t tick) { void onSync24Callback(uint32_t tick) {
// Send MIDI_CLOCK to external gears // Send MIDI_CLOCK to external gears
MIDI_USB.sendRealTime(midi::Clock); MIDI_USB.sendRealTime(midi::Clock);
handle_bpm_led(tick); handle_bpm_led(tick);
@ -57,10 +57,10 @@ void setup() {
// Inits the clock // Inits the clock
uClock.init(); uClock.init();
// Set the callback function for the clock output to send MIDI Sync message. // Set the callback function for the clock output to send MIDI Sync message.
uClock.setClock96PPQNOutput(ClockOut96PPQN); uClock.setOnSync24(onSync24Callback);
// Set the callback function for MIDI Start and Stop messages. // Set the callback function for MIDI Start and Stop messages.
uClock.setOnClockStartOutput(onClockStart); uClock.setOnClockStart(onClockStart);
uClock.setOnClockStopOutput(onClockStop); uClock.setOnClockStop(onClockStop);
// Set the clock BPM to 126 BPM // Set the clock BPM to 126 BPM
uClock.setTempo(126); uClock.setTempo(126);
// Starts the clock, tick-tac-tick-tac... // Starts the clock, tick-tac-tick-tac...

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