Keytrack fully operationnel in four modes, with note retrigger option.

Function settings added : keymode (keytrack), retrigger (legato), detune, bitcrush, midi in & out channel setting.
All function settings are saved to eeprom.
Added optional detune for analog-like sound, with three level of setting.
pull/1/head
Pierre-Loup Martin 5 years ago
parent 0f7d25d8a4
commit f32837876b
  1. 10
      minimoog_mega_1/minimoog_mega_1.ino
  2. 24
      minimoog_teensy/function settings.txt
  3. 314
      minimoog_teensy/minimoog_teensy.ino

@ -78,7 +78,7 @@
// Constants
const uint8_t NUM_KEYS = 30;
const uint8_t MIDI_OFFSET = 48; // to be maybe modified
// const uint8_t MIDI_OFFSET = 48; // todo : move to teensy !
const uint8_t NUM_SWITCHES = 15;
const uint8_t NUM_POTS = 16;
@ -179,7 +179,7 @@ void setup(){
// Key initialisation
for(uint8_t i = 0; i < NUM_KEYS; ++i){
keys[i].begin(KEYS[i], INPUT_PULLUP);
keys[i].setDebounceDelay(12);
keys[i].setDebounceDelay(8);
}
// Switches initialisation
@ -239,11 +239,11 @@ void updateKeys(){
}
*/
keys[i].update();
uint8_t key = i + MIDI_OFFSET;
// uint8_t key = i + MIDI_OFFSET;
if(keys[i].justPressed()){
midi1.sendNoteOn(key, defaultVelocity, 1);
midi1.sendNoteOn(i, defaultVelocity, 1);
} else if(keys[i].justReleased()){
midi1.sendNoteOff(key, 0, 1);
midi1.sendNoteOff(i, 0, 1);
} else {
// do nothing
}

@ -0,0 +1,24 @@
Keyboard mode
first
last
lower
upper
Bitcrush
4 - 16
Midi in channel
1 - 16
Midi out channel
1 - 16
Retrigger
0 / 1
Detune
off
soft
medium
hard
reset

@ -47,15 +47,21 @@
#include <SPI.h>
#include <SD.h>
#include <SerialFlash.h>
#include <EEPROM.h>
#include "audio_setup.h"
#include "defs.h"
#include "MIDI.h"
#include "Timer.h"
// constants
const uint8_t KEYTRACK_MAX = 10;
// Mega1 sends midi note 0 for the lower note ; we offset it by for octave to get into the usefull range
const uint8_t MIDI_OFFSET = 48;
const uint8_t NUM_KEYS = 30;
const uint8_t MAX_OCTAVE = 10;
const uint8_t FILTER_MAX_OCTAVE = 5;
@ -73,6 +79,7 @@ const float MAX_MIX = 1.0;
const uint16_t RESO = 1024;
const uint16_t HALF_RESO = RESO / 2;
// To be put in Mega1 sketch, so it sends a value on 14 bits.
const int16_t PITCH_BEND_MIN = -168;
const int16_t PITCH_BEND_MAX = 134;
const int16_t PITCH_BEND_NEUTRAL = PITCH_BEND_MIN + (PITCH_BEND_MAX - PITCH_BEND_MIN) / 2;
@ -86,9 +93,19 @@ const uint16_t MOD_WHEEL_COURSE = MOD_WHEEL_MAX - MOD_WHEEL_MIN;
const uint8_t MEGA1_RST = 2;
const uint8_t MEGA2_RST = 18;
const uint16_t EE_BITCRUSH_ADD = 0;
const uint16_t EE_KEYBOARD_MODE_ADD = 1;
const uint16_t EE_MIDI_IN_CH_ADD = 2;
const uint16_t EE_MIDI_OUT_CH_ADD = 3;
const uint16_t EE_TRIGGER_ADD = 4;
const uint16_t EE_DETUNE_ADD = 5;
const uint16_t EE_DETUNE_TABLE_ADD = 20;
// variables
uint8_t midiChannel = 1;
uint8_t internalMidiChannel = 1;
uint8_t midiInChannel = 1;
uint8_t midiOutChannel = 1;
uint16_t glide = 0;
bool glideEn = 0;
@ -110,7 +127,8 @@ float egDecay = 0;
// Waveforms
uint8_t waveforms[6] = {WAVEFORM_SINE, WAVEFORM_TRIANGLE, WAVEFORM_SAWTOOTH,
WAVEFORM_SAWTOOTH_REVERSE, WAVEFORM_SQUARE, WAVEFORM_PULSE};
// detune table
float detuneTable[128];
// keyTrack
uint8_t keyTrackIndex = 0;
struct {
@ -123,21 +141,47 @@ int8_t nowPlaying = -1;
// double CC track
uint8_t ccTempValue[32];
enum function_t{
FUNCTION_KEYBOARD_MODE = 0,
FUNCTION_RETRIGGER,
FUNCTION_DETUNE,
FUNCTION_BITCRUSH,
FUNCTION_MIDI_IN_CHANNEL,
FUNCTION_MIDI_OUT_CHANNEL,
};
function_t currentFunction = FUNCTION_KEYBOARD_MODE;
enum keyMode_t{
KEY_FIRST = 0,
KEY_LOWER = 0,
KEY_FIRST,
KEY_LAST,
KEY_LOWER,
KEY_UPPER,
};
keyMode_t keyMode = KEY_UPPER;
keyMode_t keyMode = KEY_LAST;
enum detune_t{
DETUNE_OFF = 0,
DETUNE_SOFT,
DETUNE_MEDIUM,
DETUNE_HARD,
DETUNE_RESET,
};
detune_t detune = DETUNE_OFF;
float detuneCoeff[4] = {0, 0.1, 0.3, 0.5};
uint8_t bitCrushLevel = 16;
struct midiSettings : public midi::DefaultSettings{
// static const bool UseRunningStatus = true;
static const long BaudRate = 115200;
};
// The one we use on synth
// USB midi for sending and receiving to other device or computer.
// MIDI_CREATE_DEFAULT_INSTANCE();
// The ones we use on synth for internal communication between Mega and Teensy
MIDI_CREATE_CUSTOM_INSTANCE(HardwareSerial, Serial1, midi1, midiSettings);
MIDI_CREATE_CUSTOM_INSTANCE(HardwareSerial, Serial4, midi2, midiSettings);
@ -147,8 +191,8 @@ void setup() {
// Mega resets
pinMode(MEGA1_RST, OUTPUT);
pinMode(MEGA2_RST, OUTPUT);
digitalWrite(MEGA1_RST, 0);
digitalWrite(MEGA2_RST, 0);
digitalWrite(MEGA1_RST, 1);
digitalWrite(MEGA2_RST, 1);
// midi settings, start and callback
midi1.begin(1);
@ -161,19 +205,28 @@ void setup() {
midi2.begin(1);
midi2.turnThruOff();
midi2.setHandleControlChange(handleControlChange);
/*
Serial.begin(115200);
Serial.println("started...");
*/
AudioMemory(200);
digitalWrite(MEGA1_RST, 1);
digitalWrite(MEGA2_RST, 1);
delay(500);
// Getting the settings from "eeprom"
EEPROM.get(EE_BITCRUSH_ADD, bitCrushLevel);
EEPROM.get(EE_KEYBOARD_MODE_ADD, keyMode);
EEPROM.get(EE_MIDI_IN_CH_ADD, midiInChannel);
EEPROM.get(EE_MIDI_OUT_CH_ADD, midiOutChannel);
EEPROM.get(EE_TRIGGER_ADD, noteRetrigger);
EEPROM.get(EE_DETUNE_ADD, detune);
uint16_t address = EE_DETUNE_TABLE_ADD;
for(uint16_t i = 0; i < 128; ++i){
EEPROM.get(address, detuneTable[i]);
address += 4;
}
// TODO : check how to receive and transmit on different channels.
// MIDI.begin(midiInChannel);
// MIDI.turnThruOff();
midi1.sendControlChange(CC_ASK_FOR_DATA, 127, 1);
midi2.sendControlChange(CC_ASK_FOR_DATA, 127, 1);
AudioMemory(200);
// audio settings
// dc
@ -286,14 +339,18 @@ void loop() {
}
void noteOn(uint8_t note, uint8_t velocity, bool trigger = 1){
// MIDI.sendNoteOn(note, velocity, 1);
/*
Serial.print("playing :");
Serial.println(note);
*/
nowPlaying = note;
float fineTune = detuneTable[note] * detuneCoeff[detune];
float duration = (float)glideEn * (float)glide * 3.75;
float level = ((float)note + 12 * transpose) * HALFTONE_TO_DC;
level += fineTune;
float filterLevel = (((float)note - FILTER_BASE_NOTE) + (12 * transpose)) * FILTER_HALFTONE_TO_DC;
filterLevel += fineTune;
AudioNoInterrupts();
dcKeyTrack.amplitude(level, duration);
@ -306,6 +363,8 @@ void noteOn(uint8_t note, uint8_t velocity, bool trigger = 1){
}
void noteOff(){
// MIDI.sendNoteOff(nowPlaying, 0, 1);
AudioNoInterrupts();
filterEnvelope.noteOff();
mainEnvelope.noteOff();
@ -350,7 +409,7 @@ int8_t keyTrackGetUpper(uint8_t note){
return upperIndex;
}
int8_t keyTrackAddNote(uint8_t note, uint8_t velocity){
int8_t keyTrackAdd(uint8_t note, uint8_t velocity){
// We only keep count of a limited quantity of notes !
if (keyTrackIndex >= KEYTRACK_MAX) return -1;
/*
@ -365,7 +424,7 @@ int8_t keyTrackAddNote(uint8_t note, uint8_t velocity){
return keyTrackIndex++;
}
int8_t keyTrackRemoveNote(uint8_t note){
int8_t keyTrackRemove(uint8_t note){
int8_t update = -1;
for(uint8_t i = 0; i < keyTrackIndex; ++i){
if(keyTrack[i].key == note){
@ -396,6 +455,12 @@ void handleNoteOn(uint8_t channel, uint8_t note, uint8_t velocity){
Serial.print(note);
Serial.println(" on");
*/
if(function){
handleKeyboardFunction(note, 1);
return;
}
int8_t newIndex = -1;
int8_t lowerIndex = -1;
int8_t upperIndex = -1;
@ -403,13 +468,19 @@ void handleNoteOn(uint8_t channel, uint8_t note, uint8_t velocity){
// When KEY_FIRST, we play the note only if there is not one already playing
// But we keep track of all notes depressed !
case KEY_FIRST:
if(keyTrackAddNote(note, velocity) == 0)
if(keyTrackAdd(note, velocity) == 0)
noteOn(note, velocity);
break;
// When KEY_LAST, we play the new note anyway.
// And keep track. Of course.
case KEY_LAST:
if(keyTrackAddNote(note, velocity) >= 0) noteOn(note, velocity);
// if(keyTrackAdd(note, velocity) >= 0) noteOn(note, velocity);
newIndex = keyTrackAdd(note, velocity);
if(newIndex == 0){
noteOn(note, velocity, 1);
} else if(newIndex > 0){
noteOn(note, velocity, noteRetrigger);
}
break;
case KEY_LOWER:
// add note to the keytrack table.
@ -418,7 +489,7 @@ void handleNoteOn(uint8_t channel, uint8_t note, uint8_t velocity){
// if yes, do nothing.
// Serial.println("handle note on");
newIndex = keyTrackAddNote(note, velocity);
newIndex = keyTrackAdd(note, velocity);
lowerIndex = keyTrackGetLower(note);
/*
Serial.print("new : ");
@ -426,9 +497,11 @@ void handleNoteOn(uint8_t channel, uint8_t note, uint8_t velocity){
Serial.print("\tlower : ");
Serial.println(lowerIndex);
*/
if(newIndex >= 0){
if(lowerIndex == (keyTrackIndex - 1)){
if(newIndex == 0){
noteOn(note, velocity);
} else if(newIndex > 0){
noteOn(note, velocity, noteRetrigger);
}
}
break;
@ -437,11 +510,14 @@ void handleNoteOn(uint8_t channel, uint8_t note, uint8_t velocity){
// check if there is an upper one.
// If no, play the note.
// If yes, do nothing.
newIndex = keyTrackAddNote(note, velocity);
newIndex = keyTrackAdd(note, velocity);
upperIndex = keyTrackGetUpper(note);
if(newIndex >= 0){
if(upperIndex == (keyTrackIndex - 1)){
if(newIndex == 0){
noteOn(note, velocity);
} else if(newIndex > 0){
noteOn(note, velocity, noteRetrigger);
}
}
break;
@ -457,24 +533,32 @@ void handleNoteOff(uint8_t channel, uint8_t note, uint8_t velocity){
Serial.print(note);
Serial.println(" off");
*/
if(function){
// handleKeyboardFunction(note, 0);
return;
}
int8_t lowerIndex = -1;
int8_t upperIndex = -1;
int8_t newIndex = -1;
switch(keyMode){
case KEY_FIRST:
if(keyTrackRemoveNote(note) == 0){
noteOff();
if(keyTrackRemove(note) == 0){
if(keyTrackIndex > 0){
noteOn(keyTrack[0].key, keyTrack[0].velocity, noteRetrigger);
} else {
noteOff();
}
}
break;
case KEY_LAST:
if(keyTrackRemoveNote(note) == keyTrackIndex){
noteOff();
if(keyTrackRemove(note) == keyTrackIndex){
if(keyTrackIndex > 0){
noteOn(keyTrack[keyTrackIndex - 1].key,
keyTrack[keyTrackIndex - 1].velocity, noteRetrigger);
} else {
noteOff();
}
}
break;
@ -487,35 +571,35 @@ void handleNoteOff(uint8_t channel, uint8_t note, uint8_t velocity){
// Serial.println("handle note off");
lowerIndex = keyTrackGetLower(note);
newIndex = keyTrackRemoveNote(note);
newIndex = keyTrackRemove(note);
/*
Serial.print("new : ");
Serial.print(newIndex);
Serial.print("\tlower : ");
Serial.println(lowerIndex);
*/
if(newIndex == lowerIndex){
if(keyTrackIndex == 0){
noteOff();
}
if(keyTrackIndex > 0){
newIndex = keyTrackGetLower(note);
if(keyTrack[newIndex].key != nowPlaying){
noteOn(keyTrack[newIndex].key,
keyTrack[newIndex].velocity, noteRetrigger);
} else {
lowerIndex = keyTrackGetLower(note);
noteOn(keyTrack[lowerIndex].key,
keyTrack[lowerIndex].velocity, noteRetrigger);
}
}
break;
case KEY_UPPER:
upperIndex = keyTrackGetUpper(note);
newIndex = keyTrackRemoveNote(note);
newIndex = keyTrackRemove(note);
if(newIndex == upperIndex){
if(keyTrackIndex == 0){
noteOff();
}
if(keyTrackIndex > 0){
newIndex = keyTrackGetUpper(note);
if(keyTrack[newIndex].key != nowPlaying){
noteOn(keyTrack[newIndex].key,
keyTrack[newIndex].velocity, noteRetrigger);
} else {
upperIndex = keyTrackGetUpper(note);
noteOn(keyTrack[upperIndex].key,
keyTrack[upperIndex].velocity, noteRetrigger);
}
}
break;
@ -529,6 +613,7 @@ void handlePitchBend(uint8_t channel, int16_t bend){
dcPitchBend.amplitude(((float)bend - PITCH_BEND_NEUTRAL) / PITCH_BEND_COURSE);
// Pitch bend goes from -168 to 134.
// neutral at -11 from up, -24 from down. :/
// MIDI.sendPitchBend(bend - PITCH_BEND_NEUTRAL, 0);
/*
Serial.print("pitch bend :");
Serial.println(bend);
@ -536,6 +621,10 @@ void handlePitchBend(uint8_t channel, int16_t bend){
}
void handleControlChange(uint8_t channel, uint8_t command, uint8_t value){
if(function){
handleCCFunction(command, value);
return;
}
/*
Serial.print("control change ");
Serial.println(command);
@ -693,7 +782,7 @@ void handleControlChange(uint8_t channel, uint8_t command, uint8_t value){
case CC_FILTER_BAND_LSB:
// CC_51
AudioNoInterrupts();
bandMixer.gain(0, ((float)longValue - RESO) / RESO);
bandMixer.gain(0, ((float)RESO - (float)longValue) / RESO);
bandMixer.gain(1, (float)longValue / RESO);
AudioInterrupts();
break;
@ -831,8 +920,11 @@ void handleControlChange(uint8_t channel, uint8_t command, uint8_t value){
break;
case CC_FUNCTION:
// CC_113
if(value > 63){
if(value < 64){
noteOff();
keyTrackIndex = 0;
function = 1;
// Serial.println("enterring function mode");
} else {
function = 0;
}
@ -917,3 +1009,137 @@ void handleControlChange(uint8_t channel, uint8_t command, uint8_t value){
break;
}
}
void handleKeyboardFunction(uint8_t note, bool active){
// for testing, until the note sent from Mega is changed !
note++;
//
/*
Serial.print("key pressed : ");
Serial.println(note);
*/
// Change function
switch(note){
case 48:
// lower DO
currentFunction = FUNCTION_KEYBOARD_MODE;
// Serial.println("keyboard mode");
break;
case 50:
// lower RE
currentFunction = FUNCTION_RETRIGGER;
// Serial.println("retrigger");
break;
case 52:
// lower MI
currentFunction = FUNCTION_DETUNE;
// Serial.println("detune");
break;
case 53:
// lower FA
currentFunction = FUNCTION_BITCRUSH;
// Serial.println("bitcrush");
break;
case 55:
// lower SOL
currentFunction = FUNCTION_MIDI_IN_CHANNEL;
// Serial.println("midi in channel");
break;
case 57:
// lower LA
currentFunction = FUNCTION_MIDI_OUT_CHANNEL;
// Serial.println("midi out channel");
break;
case 59:
// lower Si
break;
default:
if(note < 60) return;
note -= 60;
break;
}
/*
const uint16_t EE_BITCRUSH_ADD = 0;
const uint16_t EE_KEYBOARD_MODE_ADD = 1;
const uint16_t EE_MIDI_IN_CH_ADD = 2;
const uint16_t EE_MIDI_OUT_CH_ADD = 3;
const uint16_t EE_TRIGGER_ADD = 4;
const uint16_t EE_DETUNE_ADD = 5;
const uint16_t EE_DETUNE_TABLE_ADD = 6;
*/
switch(currentFunction){
case FUNCTION_KEYBOARD_MODE:
if(note > KEY_UPPER) return;
keyMode = (keyMode_t)note;
EEPROM.put(EE_KEYBOARD_MODE_ADD, keyMode);
break;
case FUNCTION_RETRIGGER:
if(note > 1) return;
noteRetrigger = note;
EEPROM.put(EE_TRIGGER_ADD, noteRetrigger);
break;
case FUNCTION_DETUNE:
if(note > DETUNE_RESET) return;
if(note == DETUNE_RESET){
// run a new detuning table
resetDetuneTable();
} else {
detune = (detune_t)note;
EEPROM.put(EE_DETUNE_ADD, detune);
}
break;
case FUNCTION_BITCRUSH:
if(note > 12) return;
note += 4;
bitCrushOutput.bits(note);
EEPROM.put(EE_BITCRUSH_ADD, note);
break;
case FUNCTION_MIDI_IN_CHANNEL:
// change (usb) midi in channel
if(note > 16)return;
midiInChannel = note;
//MIDI.begin(midiInChannel);
EEPROM.put(EE_MIDI_IN_CH_ADD, midiInChannel);
break;
case FUNCTION_MIDI_OUT_CHANNEL:
// change (usb) midi out channel
if(note > 16)return;
midiOutChannel = note;
//MIDI.begin(midiInChannel);
EEPROM.put(EE_MIDI_OUT_CH_ADD, midiOutChannel);
break;
default:
break;
}
}
void handleCCFunction(uint8_t command, uint8_t value){
switch(command){
case CC_FUNCTION:
// CC_113
if(value < 64){
function = 1;
} else {
function = 0;
// Serial.println("exiting function mode");
}
break;
default:
break;
}
}
void resetDetuneTable(){
uint16_t address = EE_DETUNE_TABLE_ADD;
randomSeed(millis());
for(uint8_t i = 0; i < 128; ++i){
float value = (random() - 0x3FFFFFFF) / (float)0x3FFFFFFF;
value *= HALFTONE_TO_DC;
EEPROM.put(address, value);
address += 4;
Serial.println(value, 5);
}
}
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