Oleksiy/GravityFW
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

added encoder acceleration. still needs fine-tuning

Browse Source
This commit is contained in:
Oleksiy
2025-04-06 22:51:57 +03:00
parent 395fa1ef1f
commit 8116b1182a
3 changed files with 160 additions and 46 deletions
Download Patch File Download Diff File Expand all files Collapse all files

115
Extra/EncoderTest/EncoderTest.ino Normal file
View File

@ -0,0 +1,115 @@
#define ENC_D1_PIN 17
#define ENC_D2_PIN 4
bool reverseEnc = false;
uint8_t encoderStatus;
uint32_t encoderCheckTime = 0;
uint32_t encoderTimeBetweenPulses = 0;
bool encoderDirectionOld; //0 = -, 1 = +, Old because current direction can be determined by encoderChange
int8_t encoderChange = 0;
uint8_t encoderBurstCount = 0;
void checkEncoderStatus() {
bool pin1Status = digitalRead(ENC_D1_PIN);
bool pin2Status = digitalRead(ENC_D2_PIN);
uint8_t newStatus = (pin1Status << 1) | pin2Status;
switch(encoderStatus) { // encoderStatus & 0b00000011 - to check only 2 last bits
case 0b00:
if (newStatus == 0b01) {
encoderChange++;
} else if (newStatus == 0b10) {
encoderChange--;
}
break;
case 0b01:
if (newStatus == 0b11) {
encoderChange++;
} else if (newStatus == 0b00) {
encoderChange--;
}
break;
case 0b11:
if (newStatus == 0b10) {
encoderChange++;
} else if (newStatus == 0b01) {
encoderChange--;
}
break;
case 0b10:
if (newStatus == 0b00) {
encoderChange++;
} else if (newStatus == 0b11) {
encoderChange--;
}
break;
}
//encoderStatus = (encoderStatus << 2); //previous status is now stored in bits 2 and 3
encoderStatus = bitWrite(encoderStatus, 1, pin1Status);
encoderStatus = bitWrite(encoderStatus, 0, pin2Status); //This can probably be more optimizied with bit logic
uint32_t currentTime = millis();
encoderTimeBetweenPulses = currentTime - encoderCheckTime;
encoderCheckTime = currentTime;
}
void setup() {
Serial.begin(9600);
pinMode(ENC_D1_PIN, INPUT_PULLUP);
pinMode(ENC_D2_PIN, INPUT_PULLUP);
//Enabling PinChange Interrupts for the encoder
//pins 17 (PC3/PCINT11) and 4 (PD4/PCINT20), ports C and D
PCICR |= 0b00000110;
PCMSK1 |= 0b00001000;
PCMSK2 |= 0b00010000;
checkEncoderStatus();
}
void loop() {
checkInputs();
}
//Encoder interrupts
ISR (PCINT1_vect) {
checkEncoderStatus();
}
ISR (PCINT2_vect) {
checkEncoderStatus();
}
void checkInputs() {
//encoder
// things to try:
// count "burst" changes and apply acceleration (test the period between ticks in a new sketch)
if (encoderChange != 0) {
if (!reverseEnc) {
encoderChange = encoderChange * -1;
}
if (((encoderChange > 0) != encoderDirectionOld) && encoderTimeBetweenPulses < 200) { //filter out encoder "jumps"
encoderChange = 0;
}
encoderDirectionOld = (encoderChange > 0);
//encoder acceleration
if (encoderTimeBetweenPulses < 50) {
encoderBurstCount++;
} else {
encoderBurstCount = 0;
}
if (encoderBurstCount > 2) {
encoderChange = encoderChange * 2;
}
Serial.print("Change: " + String(encoderChange));
Serial.println(", Period " + String(encoderTimeBetweenPulses));
}
}

24
Software/Gravity/Gravity.ino
View File

@ -1,5 +1,4 @@
#include <Wire.h> #include <Wire.h>
//#include <RotaryEncoder.h>
#include <FlexiTimer2.h> #include <FlexiTimer2.h>
#include <EEPROM.h> #include <EEPROM.h>
#include <U8g2lib.h> #include <U8g2lib.h>
@ -51,7 +50,7 @@ bool rotateScreen = true;
uint16_t CV1Calibration = 512; uint16_t CV1Calibration = 512;
uint16_t CV2Calibration = 512; uint16_t CV2Calibration = 512;
bool showDone = false;
const int subDivs[20] = { -24, -12, -8, -6, -4, -3, -2, 1, 2, 3, 4, 5, 6, 7, 8, 16, 24, 32, 64, 128 }; //positive - divide, negative - multiply, 0 - off const int subDivs[20] = { -24, -12, -8, -6, -4, -3, -2, 1, 2, 3, 4, 5, 6, 7, 8, 16, 24, 32, 64, 128 }; //positive - divide, negative - multiply, 0 - off
@ -128,6 +127,7 @@ byte menuItem = 0;
bool menuItemSelected = false; bool menuItemSelected = false;
byte lastMenuItem = 3; byte lastMenuItem = 3;
byte displayScreen = 0; //0 - main, 1 - sequencer, 2 - settings byte displayScreen = 0; //0 - main, 1 - sequencer, 2 - settings
bool showDone = false;
bool playBtnPushed = false; bool playBtnPushed = false;
bool shiftBtnPushed = false; bool shiftBtnPushed = false;
@ -151,7 +151,6 @@ int extTriggerCount;
//unsigned long lastInteractionTime; // used for display timeout //unsigned long lastInteractionTime; // used for display timeout
U8G2_SSD1306_128X64_NONAME_2_HW_I2C u8g2(U8G2_R2, SCL, SDA, U8X8_PIN_NONE); U8G2_SSD1306_128X64_NONAME_2_HW_I2C u8g2(U8G2_R2, SCL, SDA, U8X8_PIN_NONE);
//RotaryEncoder encoder(ENC_D1_PIN, ENC_D2_PIN, RotaryEncoder::LatchMode::TWO03);
//Font //Font
const PROGMEM uint8_t velvetscreen[437] U8G2_FONT_SECTION("velvetscreen") = const PROGMEM uint8_t velvetscreen[437] U8G2_FONT_SECTION("velvetscreen") =
@ -210,6 +209,15 @@ void setup() {
pinMode(clockOutPin, OUTPUT); pinMode(clockOutPin, OUTPUT);
pinMode(ENC_D1_PIN, INPUT_PULLUP);
pinMode(ENC_D2_PIN, INPUT_PULLUP);
//Enabling PinChange Interrupts for the encoder
//pins 17 (PC3/PCINT11) and 4 (PD4/PCINT20), ports C and D
PCICR |= 0b00000110;
PCMSK1 |= 0b00001000;
PCMSK2 |= 0b00010000;
loadState(); loadState();
u8g2.begin(); u8g2.begin();
@ -222,14 +230,6 @@ void setup() {
resetClocks(); resetClocks();
pinMode(ENC_D1_PIN, INPUT_PULLUP);
pinMode(ENC_D2_PIN, INPUT_PULLUP);
//Enabling PinChange Interrupts for the encoder
//pins 17 (PC3/PCINT11) and 4 (PD4/PCINT20), ports C and D
PCICR |= 0b00000110;
PCMSK1 |= 0b00001000;
PCMSK2 |= 0b00010000;
FlexiTimer2::set(1, 1.0 / 10000, clock); // 1.0/1000 = 1ms period. If other than 1ms calculateBPMTiming() might need tweaking FlexiTimer2::set(1, 1.0 / 10000, clock); // 1.0/1000 = 1ms period. If other than 1ms calculateBPMTiming() might need tweaking
FlexiTimer2::start(); FlexiTimer2::start();
} }
@ -254,6 +254,8 @@ uint32_t encoderCheckTime = 0;
uint32_t encoderTimeBetweenPulses = 0; uint32_t encoderTimeBetweenPulses = 0;
bool encoderDirectionOld; //0 = -, 1 = +, Old because current direction can be determined by encoderChange bool encoderDirectionOld; //0 = -, 1 = +, Old because current direction can be determined by encoderChange
int8_t encoderChange = 0; int8_t encoderChange = 0;
uint8_t encoderBurstCount = 0;
void checkEncoderStatus() { void checkEncoderStatus() {
bool pin1Status = digitalRead(ENC_D1_PIN); bool pin1Status = digitalRead(ENC_D1_PIN);
bool pin2Status = digitalRead(ENC_D2_PIN); bool pin2Status = digitalRead(ENC_D2_PIN);

67
Software/Gravity/Interactions.ino
View File

@ -88,33 +88,30 @@ void checkInputs() {
} }
//encoder //encoder
// things to try:
// 1 - make checkInputs one if-else chain and move the encoder part to the first condition
// 2 - count "burst" changes and apply acceleration
// 3 - pinchange interrupts? https://github.com/mathertel/RotaryEncoder/blob/master/examples/InterruptRotator/InterruptRotator.ino
//encoder.tick();
//int encPosition = 0;//encoder.getPosition();
//int8_t encDirection = 0;//(int)(encoder.getDirection());
if (encoderChange != 0) { if (encoderChange != 0) {
int change = encoderChange;
if (!reverseEnc) { if (!reverseEnc) {
change = change * -1; encoderChange = encoderChange * -1;
} }
/*unsigned long ms = 0;//encoder.getMillisBetweenRotations();
if (encDirectionOld == encDirection && ms < 18) { //encoder acceleration if (((encoderChange > 0) != encoderDirectionOld) && encoderTimeBetweenPulses < 150) { //filter out encoder "jumps"
change = change * 5; encoderChange = 0;
} /* else if (encDirectionOld == encDirection && ms < 80) {
change = change * 2;
} else */
if (((encoderChange > 0) != encoderDirectionOld) && encoderTimeBetweenPulses < 200) { //filter out encoder "jumps"
change = 0;
} }
encoderDirectionOld = (encoderChange > 0); encoderDirectionOld = (encoderChange > 0);
//encoder acceleration
if (encoderTimeBetweenPulses < 60) {
encoderBurstCount++;
} else {
encoderBurstCount = 0;
}
if (encoderBurstCount > 2) { //
encoderChange = encoderChange * 3; // These two params need to be finetuned to feel natural
}
if (displayScreen == 0) { if (displayScreen == 0) {
byte channelCV; byte channelCV;
if (!insideTab && !shiftBtnPushed) { //Change tab if (!insideTab && !shiftBtnPushed) { //Change tab
displayTab = displayTab + change; displayTab = displayTab + encoderChange;
if (displayTab > 100) { //to address "negative" numbers if (displayTab > 100) { //to address "negative" numbers
displayTab = 0; displayTab = 0;
} else if (displayTab > 6) { } else if (displayTab > 6) {
@ -124,7 +121,7 @@ void checkInputs() {
|| (insideTab && menuItem == 0 || (insideTab && menuItem == 0
&& (menuItemSelected || shiftBtnPushed))) && (menuItemSelected || shiftBtnPushed)))
&& displayTab == 0 && masterClockMode == 0) { //Change BPM && displayTab == 0 && masterClockMode == 0) { //Change BPM
bpm = bpm + change; bpm = bpm + encoderChange;
if (bpm > MAXBPM) { if (bpm > MAXBPM) {
bpm = MAXBPM; bpm = MAXBPM;
} else if (bpm < MINBPM) { } else if (bpm < MINBPM) {
@ -137,7 +134,7 @@ void checkInputs() {
&& (menuItemSelected || shiftBtnPushed))) && (menuItemSelected || shiftBtnPushed)))
&& displayTab != 0 && displayTab != 0
&& channels[displayTab - 1].mode == 0) { && channels[displayTab - 1].mode == 0) {
channels[displayTab - 1].subDiv = channels[displayTab - 1].subDiv - change; channels[displayTab - 1].subDiv = channels[displayTab - 1].subDiv -encoderChange;
//channels[displayTab - 1].offset = 0; //channels[displayTab - 1].offset = 0;
if (channels[displayTab - 1].subDiv > 100) { if (channels[displayTab - 1].subDiv > 100) {
channels[displayTab - 1].subDiv = 0; channels[displayTab - 1].subDiv = 0;
@ -162,7 +159,7 @@ void checkInputs() {
&& (menuItemSelected || shiftBtnPushed))) && (menuItemSelected || shiftBtnPushed)))
&& displayTab != 0 && displayTab != 0
&& channels[displayTab - 1].mode == 1) { //Change Random && channels[displayTab - 1].mode == 1) { //Change Random
channels[displayTab - 1].random = channels[displayTab - 1].random + change; channels[displayTab - 1].random = channels[displayTab - 1].random + encoderChange;
if (channels[displayTab - 1].random > 100) { if (channels[displayTab - 1].random > 100) {
channels[displayTab - 1].random = 0; channels[displayTab - 1].random = 0;
} else if (channels[displayTab - 1].random > 9) { } else if (channels[displayTab - 1].random > 9) {
@ -174,7 +171,7 @@ void checkInputs() {
&& (menuItemSelected || shiftBtnPushed))) && (menuItemSelected || shiftBtnPushed)))
&& displayTab != 0 && displayTab != 0
&& channels[displayTab - 1].mode == 2) { //Change SEQ pattern && channels[displayTab - 1].mode == 2) { //Change SEQ pattern
channels[displayTab - 1].seqPattern = channels[displayTab - 1].seqPattern + change; channels[displayTab - 1].seqPattern = channels[displayTab - 1].seqPattern + encoderChange;
if (channels[displayTab - 1].seqPattern > 100) { if (channels[displayTab - 1].seqPattern > 100) {
channels[displayTab - 1].seqPattern = 0; channels[displayTab - 1].seqPattern = 0;
} else if (channels[displayTab - 1].seqPattern > 15) { } else if (channels[displayTab - 1].seqPattern > 15) {
@ -182,7 +179,7 @@ void checkInputs() {
} }
saveState(); saveState();
} else if (insideTab && !shiftBtnPushed && !menuItemSelected) { } else if (insideTab && !shiftBtnPushed && !menuItemSelected) {
menuItem = menuItem + change; menuItem = menuItem + encoderChange;
if (menuItem > 100) { //for "negative" values if (menuItem > 100) { //for "negative" values
menuItem = 0; menuItem = 0;
} else if (menuItem > lastMenuItem) { } else if (menuItem > lastMenuItem) {
@ -196,7 +193,7 @@ void checkInputs() {
isPlaying = false; isPlaying = false;
} }
masterClockMode = masterClockMode + change; masterClockMode = masterClockMode + encoderChange;
if (masterClockMode > 100) { if (masterClockMode > 100) {
masterClockMode = 0; masterClockMode = 0;
} else if (masterClockMode > 2) { //Set to 1 to hide MIDI mode } else if (masterClockMode > 2) { //Set to 1 to hide MIDI mode
@ -208,7 +205,7 @@ void checkInputs() {
&& displayTab == 0 && displayTab == 0
&& menuItem == 2 && menuItem == 2
&& masterClockMode == 0) { //Modulation channel && masterClockMode == 0) { //Modulation channel
bpmModulationChannel = bpmModulationChannel + change; bpmModulationChannel = bpmModulationChannel + encoderChange;
if (bpmModulationChannel == 0 || bpmModulationChannel == 1) { if (bpmModulationChannel == 0 || bpmModulationChannel == 1) {
bpmModulationRange = 1; bpmModulationRange = 1;
} else if (bpmModulationChannel > 100) { } else if (bpmModulationChannel > 100) {
@ -223,7 +220,7 @@ void checkInputs() {
&& displayTab == 0 && displayTab == 0
&& menuItem == 2 && menuItem == 2
&& masterClockMode == 1) { //PPQN && masterClockMode == 1) { //PPQN
extClockPPQN = extClockPPQN + change; extClockPPQN = extClockPPQN + encoderChange;
if (extClockPPQN > 100) { if (extClockPPQN > 100) {
extClockPPQN = 0; extClockPPQN = 0;
} else if (extClockPPQN > 1) { } else if (extClockPPQN > 1) {
@ -234,7 +231,7 @@ void checkInputs() {
&& (menuItemSelected || shiftBtnPushed) && (menuItemSelected || shiftBtnPushed)
&& displayTab == 0 && displayTab == 0
&& menuItem == 3) { //Modulation range && menuItem == 3) { //Modulation range
bpmModulationRange = bpmModulationRange + change; bpmModulationRange = bpmModulationRange + encoderChange;
if (bpmModulationRange == 0) { if (bpmModulationRange == 0) {
bpmModulationRange = 1; bpmModulationRange = 1;
} else if (bpmModulationRange > 100) { } else if (bpmModulationRange > 100) {
@ -247,7 +244,7 @@ void checkInputs() {
&& (menuItemSelected || shiftBtnPushed) && (menuItemSelected || shiftBtnPushed)
&& displayTab != 0 && displayTab != 0
&& menuItem == 1) { //Channel Mode && menuItem == 1) { //Channel Mode
channels[displayTab - 1].mode = channels[displayTab - 1].mode + change; channels[displayTab - 1].mode = channels[displayTab - 1].mode + encoderChange;
if (channels[displayTab - 1].mode > 100) { if (channels[displayTab - 1].mode > 100) {
channels[displayTab - 1].mode = 0; channels[displayTab - 1].mode = 0;
} else if (channels[displayTab - 1].mode > 2) { } else if (channels[displayTab - 1].mode > 2) {
@ -260,7 +257,7 @@ void checkInputs() {
&& (menuItemSelected || shiftBtnPushed) && (menuItemSelected || shiftBtnPushed)
&& displayTab != 0 && menuItem == 2 && displayTab != 0 && menuItem == 2
&& channels[displayTab - 1].mode == 0) { //Offset && channels[displayTab - 1].mode == 0) { //Offset
channels[displayTab - 1].offset = channels[displayTab - 1].offset + change; channels[displayTab - 1].offset = channels[displayTab - 1].offset + encoderChange;
if (channels[displayTab - 1].offset == 255) { // 0 - 1 for uint8 is 255 if (channels[displayTab - 1].offset == 255) { // 0 - 1 for uint8 is 255
channels[displayTab - 1].offset = 0; channels[displayTab - 1].offset = 0;
} else if (channels[displayTab - 1].offset > channelPulsesPerCycle[displayTab-1]) { } else if (channels[displayTab - 1].offset > channelPulsesPerCycle[displayTab-1]) {
@ -272,7 +269,7 @@ void checkInputs() {
&& displayTab != 0 && displayTab != 0
&& menuItem == 2 && menuItem == 2
&& channels[displayTab - 1].mode == 1) { //SUBDIV for RANDOM && channels[displayTab - 1].mode == 1) { //SUBDIV for RANDOM
channels[displayTab - 1].subDiv = channels[displayTab - 1].subDiv - change; channels[displayTab - 1].subDiv = channels[displayTab - 1].subDiv - encoderChange;
if (channels[displayTab - 1].subDiv > 200) { if (channels[displayTab - 1].subDiv > 200) {
channels[displayTab - 1].subDiv = 0; channels[displayTab - 1].subDiv = 0;
} else if (channels[displayTab - 1].subDiv > (sizeof(subDivs) / sizeof(int)) - 1) { } else if (channels[displayTab - 1].subDiv > (sizeof(subDivs) / sizeof(int)) - 1) {
@ -294,7 +291,7 @@ void checkInputs() {
} else { } else {
channelCV = 0; channelCV = 0;
} }
channelCV = channelCV + change; channelCV = channelCV + encoderChange;
if (channelCV == 0 || channelCV > 100) { if (channelCV == 0 || channelCV > 100) {
channelCV = 0; channelCV = 0;
channels[displayTab - 1].CV1Target = 0; channels[displayTab - 1].CV1Target = 0;
@ -316,7 +313,7 @@ void checkInputs() {
} else { } else {
channelCV = 0; channelCV = 0;
} }
channelCV = channelCV + change; channelCV = channelCV + encoderChange;
if (channelCV == 0 || channelCV > 100) { if (channelCV == 0 || channelCV > 100) {
channelCV = 0; channelCV = 0;
channels[displayTab - 1].CV1Target = 0; channels[displayTab - 1].CV1Target = 0;
@ -338,7 +335,7 @@ void checkInputs() {
} else { } else {
channelCV = 0; channelCV = 0;
} }
channelCV = channelCV + change; channelCV = channelCV + encoderChange;
if (channelCV == 0 || channelCV > 100) { if (channelCV == 0 || channelCV > 100) {
channelCV = 0; channelCV = 0;
channels[displayTab - 1].CV1Target = 0; channels[displayTab - 1].CV1Target = 0;
@ -354,14 +351,14 @@ void checkInputs() {
saveState(); saveState();
} }
} else if (displayScreen == 1 && !isRecording) { } else if (displayScreen == 1 && !isRecording) {
stepNumSelected = stepNumSelected + change; stepNumSelected = stepNumSelected + encoderChange;
if (stepNumSelected > 100) { if (stepNumSelected > 100) {
stepNumSelected = 15; stepNumSelected = 15;
} else if (stepNumSelected > 15) { } else if (stepNumSelected > 15) {
stepNumSelected = 0; stepNumSelected = 0;
} }
} else if (displayScreen == 2 && !shiftBtnPushed) { } else if (displayScreen == 2 && !shiftBtnPushed) {
menuItem = menuItem + change; menuItem = menuItem + encoderChange;
if (menuItem > 100) { //for "negative" values if (menuItem > 100) { //for "negative" values
menuItem = 0; menuItem = 0;
} else if (menuItem > lastMenuItem) { } else if (menuItem > lastMenuItem) {