Usermod fixes

- 4LD: prevent corruption on fast Rotary changes
- Rotary: implement ISR for I2C reading
This commit is contained in:
Blaz Kristan 2023-06-03 17:01:29 +02:00
parent 24537c4fdc
commit b6d9fd8030
2 changed files with 115 additions and 41 deletions

View File

@ -1,11 +1,16 @@
#pragma once #pragma once
#include "wled.h" #include "wled.h"
#undef U8X8_NO_HW_I2C // borrowed from WLEDMM: we do want I2C hardware drivers - if possible
#include <U8x8lib.h> // from https://github.com/olikraus/u8g2/ #include <U8x8lib.h> // from https://github.com/olikraus/u8g2/
#include "4LD_wled_fonts.c" #include "4LD_wled_fonts.c"
#ifndef FLD_ESP32_NO_THREADS
#define FLD_ESP32_USE_THREADS // comment out to use 0.13.x behviour without parallel update task - slower, but more robust. May delay other tasks like LEDs or audioreactive!!
#endif
// //
// Insired by the usermod_v2_four_line_display // Inspired by the usermod_v2_four_line_display
// //
// v2 usermod for using 128x32 or 128x64 i2c // v2 usermod for using 128x32 or 128x64 i2c
// OLED displays to provide a four line display // OLED displays to provide a four line display
@ -88,9 +93,11 @@ typedef enum {
class FourLineDisplayUsermod : public Usermod { class FourLineDisplayUsermod : public Usermod {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
public: public:
FourLineDisplayUsermod() { if (!instance) instance = this; } FourLineDisplayUsermod() { if (!instance) instance = this; }
static FourLineDisplayUsermod* getInstance(void) { return instance; } static FourLineDisplayUsermod* getInstance(void) { return instance; }
#endif
private: private:
@ -215,9 +222,7 @@ class FourLineDisplayUsermod : public Usermod {
void loop(); void loop();
//function to update lastredraw //function to update lastredraw
void updateRedrawTime() { inline void updateRedrawTime() { lastRedraw = millis(); }
lastRedraw = millis();
}
/** /**
* Redraw the screen (but only if things have changed * Redraw the screen (but only if things have changed
@ -352,10 +357,13 @@ const char FourLineDisplayUsermod::_showSeconds[] PROGMEM = "showSeconds";
const char FourLineDisplayUsermod::_busClkFrequency[] PROGMEM = "i2c-freq-kHz"; const char FourLineDisplayUsermod::_busClkFrequency[] PROGMEM = "i2c-freq-kHz";
const char FourLineDisplayUsermod::_contrastFix[] PROGMEM = "contrastFix"; const char FourLineDisplayUsermod::_contrastFix[] PROGMEM = "contrastFix";
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
FourLineDisplayUsermod *FourLineDisplayUsermod::instance = nullptr; FourLineDisplayUsermod *FourLineDisplayUsermod::instance = nullptr;
#endif
// some displays need this to properly apply contrast // some displays need this to properly apply contrast
void FourLineDisplayUsermod::setVcomh(bool highContrast) { void FourLineDisplayUsermod::setVcomh(bool highContrast) {
if (type == NONE || !enabled) return;
u8x8_t *u8x8_struct = u8x8->getU8x8(); u8x8_t *u8x8_struct = u8x8->getU8x8();
u8x8_cad_StartTransfer(u8x8_struct); u8x8_cad_StartTransfer(u8x8_struct);
u8x8_cad_SendCmd(u8x8_struct, 0x0db); //address of value u8x8_cad_SendCmd(u8x8_struct, 0x0db); //address of value
@ -364,6 +372,7 @@ void FourLineDisplayUsermod::setVcomh(bool highContrast) {
} }
void FourLineDisplayUsermod::startDisplay() { void FourLineDisplayUsermod::startDisplay() {
if (type == NONE || !enabled) return;
lineHeight = u8x8->getRows() > 4 ? 2 : 1; lineHeight = u8x8->getRows() > 4 ? 2 : 1;
DEBUG_PRINTLN(F("Starting display.")); DEBUG_PRINTLN(F("Starting display."));
u8x8->setBusClock(ioFrequency); // can be used for SPI too u8x8->setBusClock(ioFrequency); // can be used for SPI too
@ -590,7 +599,7 @@ void FourLineDisplayUsermod::connected() {
* Da loop. * Da loop.
*/ */
void FourLineDisplayUsermod::loop() { void FourLineDisplayUsermod::loop() {
#ifndef ARDUINO_ARCH_ESP32 #if !(defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS))
if (!enabled || strip.isUpdating()) return; if (!enabled || strip.isUpdating()) return;
unsigned long now = millis(); unsigned long now = millis();
if (now < nextUpdate) return; if (now < nextUpdate) return;
@ -716,6 +725,11 @@ void FourLineDisplayUsermod::redraw(bool forceRedraw) {
} }
void FourLineDisplayUsermod::updateBrightness() { void FourLineDisplayUsermod::updateBrightness() {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing || lockRedraw) return;
#endif
knownBrightness = bri; knownBrightness = bri;
if (overlayUntil == 0) { if (overlayUntil == 0) {
lockRedraw = true; lockRedraw = true;
@ -728,6 +742,11 @@ void FourLineDisplayUsermod::updateBrightness() {
} }
void FourLineDisplayUsermod::updateSpeed() { void FourLineDisplayUsermod::updateSpeed() {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing || lockRedraw) return;
#endif
knownEffectSpeed = effectSpeed; knownEffectSpeed = effectSpeed;
if (overlayUntil == 0) { if (overlayUntil == 0) {
lockRedraw = true; lockRedraw = true;
@ -740,6 +759,11 @@ void FourLineDisplayUsermod::updateSpeed() {
} }
void FourLineDisplayUsermod::updateIntensity() { void FourLineDisplayUsermod::updateIntensity() {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing || lockRedraw) return;
#endif
knownEffectIntensity = effectIntensity; knownEffectIntensity = effectIntensity;
if (overlayUntil == 0) { if (overlayUntil == 0) {
lockRedraw = true; lockRedraw = true;
@ -752,6 +776,11 @@ void FourLineDisplayUsermod::updateIntensity() {
} }
void FourLineDisplayUsermod::drawStatusIcons() { void FourLineDisplayUsermod::drawStatusIcons() {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing || lockRedraw) return;
#endif
uint8_t col = 15; uint8_t col = 15;
uint8_t row = 0; uint8_t row = 0;
lockRedraw = true; lockRedraw = true;
@ -775,6 +804,11 @@ void FourLineDisplayUsermod::setMarkLine(byte newMarkLineNum, byte newMarkColNum
//Draw the arrow for the current setting beiong changed //Draw the arrow for the current setting beiong changed
void FourLineDisplayUsermod::drawArrow() { void FourLineDisplayUsermod::drawArrow() {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing || lockRedraw) return;
#endif
lockRedraw = true; lockRedraw = true;
if (markColNum != 255 && markLineNum !=255) drawGlyph(markColNum, markLineNum*lineHeight, 21, u8x8_4LineDisplay_WLED_icons_1x1); if (markColNum != 255 && markLineNum !=255) drawGlyph(markColNum, markLineNum*lineHeight, 21, u8x8_4LineDisplay_WLED_icons_1x1);
lockRedraw = false; lockRedraw = false;
@ -783,6 +817,11 @@ void FourLineDisplayUsermod::drawArrow() {
//Display the current effect or palette (desiredEntry) //Display the current effect or palette (desiredEntry)
// on the appropriate line (row). // on the appropriate line (row).
void FourLineDisplayUsermod::showCurrentEffectOrPalette(int inputEffPal, const char *qstring, uint8_t row) { void FourLineDisplayUsermod::showCurrentEffectOrPalette(int inputEffPal, const char *qstring, uint8_t row) {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing || lockRedraw) return;
#endif
char lineBuffer[MAX_JSON_CHARS]; char lineBuffer[MAX_JSON_CHARS];
if (overlayUntil == 0) { if (overlayUntil == 0) {
lockRedraw = true; lockRedraw = true;
@ -851,9 +890,11 @@ void FourLineDisplayUsermod::showCurrentEffectOrPalette(int inputEffPal, const c
bool FourLineDisplayUsermod::wakeDisplay() { bool FourLineDisplayUsermod::wakeDisplay() {
if (type == NONE || !enabled) return false; if (type == NONE || !enabled) return false;
if (displayTurnedOff) { if (displayTurnedOff) {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis(); unsigned long now = millis();
while (drawing && millis()-now < 250) delay(1); // wait if someone else is drawing while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing) return false; if (drawing || lockRedraw) return false;
#endif
lockRedraw = true; lockRedraw = true;
clear(); clear();
// Turn the display back on // Turn the display back on
@ -870,9 +911,11 @@ bool FourLineDisplayUsermod::wakeDisplay() {
* Used in Rotary Encoder usermod. * Used in Rotary Encoder usermod.
*/ */
void FourLineDisplayUsermod::overlay(const char* line1, long showHowLong, byte glyphType) { void FourLineDisplayUsermod::overlay(const char* line1, long showHowLong, byte glyphType) {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis(); unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing) return; if (drawing || lockRedraw) return;
#endif
lockRedraw = true; lockRedraw = true;
// Turn the display back on // Turn the display back on
if (!wakeDisplay()) clear(); if (!wakeDisplay()) clear();
@ -895,9 +938,11 @@ void FourLineDisplayUsermod::overlay(const char* line1, long showHowLong, byte g
* Clears the screen and prints. * Clears the screen and prints.
*/ */
void FourLineDisplayUsermod::overlayLogo(long showHowLong) { void FourLineDisplayUsermod::overlayLogo(long showHowLong) {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis(); unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing) return; if (drawing || lockRedraw) return;
#endif
lockRedraw = true; lockRedraw = true;
// Turn the display back on // Turn the display back on
if (!wakeDisplay()) clear(); if (!wakeDisplay()) clear();
@ -957,9 +1002,11 @@ void FourLineDisplayUsermod::overlayLogo(long showHowLong) {
* Used in Auto Save usermod * Used in Auto Save usermod
*/ */
void FourLineDisplayUsermod::overlay(const char* line1, const char* line2, long showHowLong) { void FourLineDisplayUsermod::overlay(const char* line1, const char* line2, long showHowLong) {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis(); unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing) return; if (drawing || lockRedraw) return;
#endif
lockRedraw = true; lockRedraw = true;
// Turn the display back on // Turn the display back on
if (!wakeDisplay()) clear(); if (!wakeDisplay()) clear();
@ -979,9 +1026,11 @@ void FourLineDisplayUsermod::overlay(const char* line1, const char* line2, long
} }
void FourLineDisplayUsermod::networkOverlay(const char* line1, long showHowLong) { void FourLineDisplayUsermod::networkOverlay(const char* line1, long showHowLong) {
#if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
unsigned long now = millis(); unsigned long now = millis();
while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing while (drawing && millis()-now < 125) delay(1); // wait if someone else is drawing
if (drawing) return; if (drawing || lockRedraw) return;
#endif
lockRedraw = true; lockRedraw = true;
String line; String line;
@ -1098,7 +1147,7 @@ bool FourLineDisplayUsermod::handleButton(uint8_t b) {
#define ARDUINO_RUNNING_CORE 1 #define ARDUINO_RUNNING_CORE 1
#endif #endif
void FourLineDisplayUsermod::onUpdateBegin(bool init) { void FourLineDisplayUsermod::onUpdateBegin(bool init) {
#ifdef ARDUINO_ARCH_ESP32 #if defined(ARDUINO_ARCH_ESP32) && defined(FLD_ESP32_USE_THREADS)
if (init && Display_Task) { if (init && Display_Task) {
vTaskSuspend(Display_Task); // update is about to begin, disable task to prevent crash vTaskSuspend(Display_Task); // update is about to begin, disable task to prevent crash
} else { } else {

View File

@ -57,6 +57,10 @@
#define PCF8574_ADDRESS 0x20 // some may start at 0x38 #define PCF8574_ADDRESS 0x20 // some may start at 0x38
#endif #endif
#ifndef PCF8574_INT_PIN
#define PCF8574_INT_PIN -1 // GPIO connected to INT pin on PCF8574
#endif
// The last UI state, remove color and saturation option if display not active (too many options) // The last UI state, remove color and saturation option if display not active (too many options)
#ifdef USERMOD_FOUR_LINE_DISPLAY #ifdef USERMOD_FOUR_LINE_DISPLAY
#define LAST_UI_STATE 11 #define LAST_UI_STATE 11
@ -125,6 +129,21 @@ static int re_qstringCmp(const void *ap, const void *bp) {
} }
static volatile uint8_t pcfPortData = 0; // port expander port state
static volatile uint8_t addrPcf8574 = PCF8574_ADDRESS; // has to be accessible in ISR
// Interrupt routine to read I2C rotary state
// if we are to use PCF8574 port expander we will need to rely on interrupts as polling I2C every 2ms
// is a waste of resources and causes 4LD to fail.
// in such case rely on ISR to read pin values and store them into static variable
static void IRAM_ATTR i2cReadingISR() {
Wire.requestFrom(addrPcf8574, 1U);
if (Wire.available()) {
pcfPortData = Wire.read();
}
}
class RotaryEncoderUIUsermod : public Usermod { class RotaryEncoderUIUsermod : public Usermod {
private: private:
@ -186,7 +205,7 @@ class RotaryEncoderUIUsermod : public Usermod {
bool enabled; bool enabled;
bool usePcf8574; bool usePcf8574;
uint8_t addrPcf8574; int8_t pinIRQ;
// strings to reduce flash memory usage (used more than twice) // strings to reduce flash memory usage (used more than twice)
static const char _name[]; static const char _name[];
@ -199,6 +218,7 @@ class RotaryEncoderUIUsermod : public Usermod {
static const char _applyToAll[]; static const char _applyToAll[];
static const char _pcf8574[]; static const char _pcf8574[];
static const char _pcfAddress[]; static const char _pcfAddress[];
static const char _pcfINTpin[];
/** /**
* readPin() - read rotary encoder pin value * readPin() - read rotary encoder pin value
@ -254,7 +274,7 @@ class RotaryEncoderUIUsermod : public Usermod {
, initDone(false) , initDone(false)
, enabled(true) , enabled(true)
, usePcf8574(USE_PCF8574) , usePcf8574(USE_PCF8574)
, addrPcf8574(PCF8574_ADDRESS) , pinIRQ(PCF8574_INT_PIN)
{} {}
/* /*
@ -356,15 +376,7 @@ class RotaryEncoderUIUsermod : public Usermod {
*/ */
byte RotaryEncoderUIUsermod::readPin(uint8_t pin) { byte RotaryEncoderUIUsermod::readPin(uint8_t pin) {
if (usePcf8574) { if (usePcf8574) {
byte _data = 0; return (pcfPortData>>pin) & 1;
if (pin < 8) {
Wire.requestFrom(addrPcf8574, 1U);
if (Wire.available()) {
_data = Wire.read();
_data = (_data>>pin) & 1;
}
}
return _data;
} else { } else {
return digitalRead(pin); return digitalRead(pin);
} }
@ -460,14 +472,25 @@ void RotaryEncoderUIUsermod::setup()
{ {
DEBUG_PRINTLN(F("Usermod Rotary Encoder init.")); DEBUG_PRINTLN(F("Usermod Rotary Encoder init."));
if (!usePcf8574) { if (usePcf8574) {
if ((i2c_sda == i2c_scl && i2c_sda == -1) || pinA<0 || pinB<0 || pinC<0) {
DEBUG_PRINTLN(F("I2C and/or PCF8574 pins unused, disabling."));
enabled = false;
return;
} else {
if (pinIRQ >= 0 && pinManager.allocatePin(pinIRQ, false, PinOwner::UM_RotaryEncoderUI)) {
attachInterrupt(pinIRQ, i2cReadingISR, CHANGE); // RISING, FALLING, CHANGE, ONLOW, ONHIGH
DEBUG_PRINTLN(F("Interrupt attached."));
} else {
DEBUG_PRINTLN(F("Unable to allocate interrupt pin, disabling."));
pinIRQ = -1;
enabled = false;
return;
}
}
} else {
PinManagerPinType pins[3] = { { pinA, false }, { pinB, false }, { pinC, false } }; PinManagerPinType pins[3] = { { pinA, false }, { pinB, false }, { pinC, false } };
if (!pinManager.allocateMultiplePins(pins, 3, PinOwner::UM_RotaryEncoderUI)) { if (!pinManager.allocateMultiplePins(pins, 3, PinOwner::UM_RotaryEncoderUI)) {
// BUG: configuring this usermod with conflicting pins
// will cause it to de-allocate pins it does not own
// (at second config)
// This is the exact type of bug solved by pinManager
// tracking the owner tags....
pinA = pinB = pinC = -1; pinA = pinB = pinC = -1;
enabled = false; enabled = false;
return; return;
@ -479,12 +502,6 @@ void RotaryEncoderUIUsermod::setup()
pinMode(pinA, USERMOD_ROTARY_ENCODER_GPIO); pinMode(pinA, USERMOD_ROTARY_ENCODER_GPIO);
pinMode(pinB, USERMOD_ROTARY_ENCODER_GPIO); pinMode(pinB, USERMOD_ROTARY_ENCODER_GPIO);
pinMode(pinC, USERMOD_ROTARY_ENCODER_GPIO); pinMode(pinC, USERMOD_ROTARY_ENCODER_GPIO);
} else {
if ((i2c_sda == i2c_scl && i2c_sda == -1) || pinA<0 || pinB<0 || pinC<0) {
DEBUG_PRINTLN(F("Pins unused, disabling."));
enabled = false;
return;
}
} }
loopTime = millis(); loopTime = millis();
@ -536,7 +553,7 @@ void RotaryEncoderUIUsermod::loop()
currentEffectAndPaletteInitialized = false; currentEffectAndPaletteInitialized = false;
} }
if (currentTime >= (loopTime + 20)) // 20ms since last check of encoder = 50Hz if (currentTime >= (loopTime + 2)) // 2ms since last check of encoder = 500Hz
{ {
bool buttonPressed = !readPin(pinC); //0=pressed, 1=released bool buttonPressed = !readPin(pinC); //0=pressed, 1=released
if (buttonPressed) { if (buttonPressed) {
@ -645,8 +662,6 @@ void RotaryEncoderUIUsermod::loop()
} }
} }
Enc_A_prev = Enc_A; // Store value of A for next time Enc_A_prev = Enc_A; // Store value of A for next time
DEBUG_PRINTF("Inputs: A:%d B:%d SW:%d\n", (int)Enc_A, (int)Enc_B, (int)!buttonPressed);
loopTime = currentTime; // Updates loopTime loopTime = currentTime; // Updates loopTime
} }
} }
@ -1051,6 +1066,7 @@ void RotaryEncoderUIUsermod::addToConfig(JsonObject &root) {
top[FPSTR(_applyToAll)] = applyToAll; top[FPSTR(_applyToAll)] = applyToAll;
top[FPSTR(_pcf8574)] = usePcf8574; top[FPSTR(_pcf8574)] = usePcf8574;
top[FPSTR(_pcfAddress)] = addrPcf8574; top[FPSTR(_pcfAddress)] = addrPcf8574;
top[FPSTR(_pcfINTpin)] = pinIRQ;
DEBUG_PRINTLN(F("Rotary Encoder config saved.")); DEBUG_PRINTLN(F("Rotary Encoder config saved."));
} }
@ -1074,6 +1090,7 @@ bool RotaryEncoderUIUsermod::readFromConfig(JsonObject &root) {
int8_t newDTpin = top[FPSTR(_DT_pin)] | pinA; int8_t newDTpin = top[FPSTR(_DT_pin)] | pinA;
int8_t newCLKpin = top[FPSTR(_CLK_pin)] | pinB; int8_t newCLKpin = top[FPSTR(_CLK_pin)] | pinB;
int8_t newSWpin = top[FPSTR(_SW_pin)] | pinC; int8_t newSWpin = top[FPSTR(_SW_pin)] | pinC;
int8_t newIRQpin = top[FPSTR(_pcfINTpin)] | pinIRQ;
bool oldPcf8574 = usePcf8574; bool oldPcf8574 = usePcf8574;
presetHigh = top[FPSTR(_presetHigh)] | presetHigh; presetHigh = top[FPSTR(_presetHigh)] | presetHigh;
@ -1097,8 +1114,15 @@ bool RotaryEncoderUIUsermod::readFromConfig(JsonObject &root) {
} else { } else {
DEBUG_PRINTLN(F(" config (re)loaded.")); DEBUG_PRINTLN(F(" config (re)loaded."));
// changing parameters from settings page // changing parameters from settings page
if (pinA!=newDTpin || pinB!=newCLKpin || pinC!=newSWpin) { if (pinA!=newDTpin || pinB!=newCLKpin || pinC!=newSWpin || pinIRQ!=newIRQpin) {
if (!oldPcf8574) { if (oldPcf8574) {
if (pinIRQ >= 0) {
detachInterrupt(pinIRQ);
pinManager.deallocatePin(pinIRQ, PinOwner::UM_RotaryEncoderUI);
DEBUG_PRINTLN(F("Deallocated old IRQ pin."));
}
pinIRQ = newIRQpin;
} else {
pinManager.deallocatePin(pinA, PinOwner::UM_RotaryEncoderUI); pinManager.deallocatePin(pinA, PinOwner::UM_RotaryEncoderUI);
pinManager.deallocatePin(pinB, PinOwner::UM_RotaryEncoderUI); pinManager.deallocatePin(pinB, PinOwner::UM_RotaryEncoderUI);
pinManager.deallocatePin(pinC, PinOwner::UM_RotaryEncoderUI); pinManager.deallocatePin(pinC, PinOwner::UM_RotaryEncoderUI);
@ -1115,7 +1139,7 @@ bool RotaryEncoderUIUsermod::readFromConfig(JsonObject &root) {
} }
} }
// use "return !top["newestParameter"].isNull();" when updating Usermod with new features // use "return !top["newestParameter"].isNull();" when updating Usermod with new features
return !top[FPSTR(_pcf8574)].isNull(); return !top[FPSTR(_pcfINTpin)].isNull();
} }
@ -1130,3 +1154,4 @@ const char RotaryEncoderUIUsermod::_presetLow[] PROGMEM = "preset-low";
const char RotaryEncoderUIUsermod::_applyToAll[] PROGMEM = "apply-2-all-seg"; const char RotaryEncoderUIUsermod::_applyToAll[] PROGMEM = "apply-2-all-seg";
const char RotaryEncoderUIUsermod::_pcf8574[] PROGMEM = "use-PCF8574"; const char RotaryEncoderUIUsermod::_pcf8574[] PROGMEM = "use-PCF8574";
const char RotaryEncoderUIUsermod::_pcfAddress[] PROGMEM = "PCF8574-address"; const char RotaryEncoderUIUsermod::_pcfAddress[] PROGMEM = "PCF8574-address";
const char RotaryEncoderUIUsermod::_pcfINTpin[] PROGMEM = "PCF8574-INT-pin";