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# include "wled.h"
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/*
* Physical IO
*/
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# define WLED_DEBOUNCE_THRESHOLD 50 // only consider button input of at least 50ms as valid (debouncing)
# define WLED_LONG_PRESS 600 // long press if button is released after held for at least 600ms
# define WLED_DOUBLE_PRESS 350 // double press if another press within 350ms after a short press
# define WLED_LONG_REPEATED_ACTION 300 // how often a repeated action (e.g. dimming) is fired on long press on button IDs >0
# define WLED_LONG_AP 5000 // how long button 0 needs to be held to activate WLED-AP
# define WLED_LONG_FACTORY_RESET 10000 // how long button 0 needs to be held to trigger a factory reset
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static const char _mqtt_topic_button [ ] PROGMEM = " %s/button/%d " ; // optimize flash usage
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void shortPressAction ( uint8_t b )
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{
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if ( ! macroButton [ b ] ) {
switch ( b ) {
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case 0 : toggleOnOff ( ) ; stateUpdated ( CALL_MODE_BUTTON ) ; break ;
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case 1 : + + effectCurrent % = strip . getModeCount ( ) ; stateChanged = true ; colorUpdated ( CALL_MODE_BUTTON ) ; break ;
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}
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} else {
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applyPreset ( macroButton [ b ] , CALL_MODE_BUTTON_PRESET ) ;
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}
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// publish MQTT message
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if ( buttonPublishMqtt & & WLED_MQTT_CONNECTED ) {
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char subuf [ 64 ] ;
sprintf_P ( subuf , _mqtt_topic_button , mqttDeviceTopic , ( int ) b ) ;
mqtt - > publish ( subuf , 0 , false , " short " ) ;
}
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}
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void longPressAction ( uint8_t b )
{
if ( ! macroLongPress [ b ] ) {
switch ( b ) {
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case 0 : setRandomColor ( col ) ; colorUpdated ( CALL_MODE_BUTTON ) ; break ;
case 1 : bri + = 8 ; stateUpdated ( CALL_MODE_BUTTON ) ; buttonPressedTime [ b ] = millis ( ) ; break ; // repeatable action
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}
} else {
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applyPreset ( macroLongPress [ b ] , CALL_MODE_BUTTON_PRESET ) ;
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}
// publish MQTT message
if ( buttonPublishMqtt & & WLED_MQTT_CONNECTED ) {
char subuf [ 64 ] ;
sprintf_P ( subuf , _mqtt_topic_button , mqttDeviceTopic , ( int ) b ) ;
mqtt - > publish ( subuf , 0 , false , " long " ) ;
}
}
void doublePressAction ( uint8_t b )
{
if ( ! macroDoublePress [ b ] ) {
switch ( b ) {
//case 0: toggleOnOff(); colorUpdated(CALL_MODE_BUTTON); break; //instant short press on button 0 if no macro set
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case 1 : + + effectPalette % = strip . getPaletteCount ( ) ; colorUpdated ( CALL_MODE_BUTTON ) ; break ;
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}
} else {
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applyPreset ( macroDoublePress [ b ] , CALL_MODE_BUTTON_PRESET ) ;
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}
// publish MQTT message
if ( buttonPublishMqtt & & WLED_MQTT_CONNECTED ) {
char subuf [ 64 ] ;
sprintf_P ( subuf , _mqtt_topic_button , mqttDeviceTopic , ( int ) b ) ;
mqtt - > publish ( subuf , 0 , false , " double " ) ;
}
}
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bool isButtonPressed ( uint8_t i )
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{
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if ( btnPin [ i ] < 0 ) return false ;
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uint8_t pin = btnPin [ i ] ;
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switch ( buttonType [ i ] ) {
case BTN_TYPE_NONE :
case BTN_TYPE_RESERVED :
break ;
case BTN_TYPE_PUSH :
case BTN_TYPE_SWITCH :
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if ( digitalRead ( pin ) = = LOW ) return true ;
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break ;
case BTN_TYPE_PUSH_ACT_HIGH :
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case BTN_TYPE_PIR_SENSOR :
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if ( digitalRead ( pin ) = = HIGH ) return true ;
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break ;
case BTN_TYPE_TOUCH :
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# if defined(ARDUINO_ARCH_ESP32) && !defined(CONFIG_IDF_TARGET_ESP32C3)
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if ( touchRead ( pin ) < = touchThreshold ) return true ;
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# endif
break ;
}
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return false ;
}
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void handleSwitch ( uint8_t b )
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{
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// isButtonPressed() handles inverted/noninverted logic
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if ( buttonPressedBefore [ b ] ! = isButtonPressed ( b ) ) {
buttonPressedTime [ b ] = millis ( ) ;
buttonPressedBefore [ b ] = ! buttonPressedBefore [ b ] ;
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}
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if ( buttonLongPressed [ b ] = = buttonPressedBefore [ b ] ) return ;
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if ( millis ( ) - buttonPressedTime [ b ] > WLED_DEBOUNCE_THRESHOLD ) { //fire edge event only after 50ms without change (debounce)
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if ( ! buttonPressedBefore [ b ] ) { // on -> off
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if ( macroButton [ b ] ) applyPreset ( macroButton [ b ] , CALL_MODE_BUTTON_PRESET ) ;
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else { //turn on
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if ( ! bri ) { toggleOnOff ( ) ; stateUpdated ( CALL_MODE_BUTTON ) ; }
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}
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} else { // off -> on
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if ( macroLongPress [ b ] ) applyPreset ( macroLongPress [ b ] , CALL_MODE_BUTTON_PRESET ) ;
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else { //turn off
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if ( bri ) { toggleOnOff ( ) ; stateUpdated ( CALL_MODE_BUTTON ) ; }
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}
}
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// publish MQTT message
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if ( buttonPublishMqtt & & WLED_MQTT_CONNECTED ) {
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char subuf [ 64 ] ;
if ( buttonType [ b ] = = BTN_TYPE_PIR_SENSOR ) sprintf_P ( subuf , PSTR ( " %s/motion/%d " ) , mqttDeviceTopic , ( int ) b ) ;
else sprintf_P ( subuf , _mqtt_topic_button , mqttDeviceTopic , ( int ) b ) ;
mqtt - > publish ( subuf , 0 , false , ! buttonPressedBefore [ b ] ? " off " : " on " ) ;
}
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buttonLongPressed [ b ] = buttonPressedBefore [ b ] ; //save the last "long term" switch state
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}
}
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# define ANALOG_BTN_READ_CYCLE 250 // min time between two analog reading cycles
# define STRIP_WAIT_TIME 6 // max wait time in case of strip.isUpdating()
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# define POT_SMOOTHING 0.25f // smoothing factor for raw potentiometer readings
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# define POT_SENSITIVITY 4 // changes below this amount are noise (POT scratching, or ADC noise)
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void handleAnalog ( uint8_t b )
{
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static uint8_t oldRead [ WLED_MAX_BUTTONS ] = { 0 } ;
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static float filteredReading [ WLED_MAX_BUTTONS ] = { 0.0f } ;
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uint16_t rawReading ; // raw value from analogRead, scaled to 12bit
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# ifdef ESP8266
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rawReading = analogRead ( A0 ) < < 2 ; // convert 10bit read to 12bit
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# else
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rawReading = analogRead ( btnPin [ b ] ) ; // collect at full 12bit resolution
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# endif
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yield ( ) ; // keep WiFi task running - analog read may take several millis on ESP8266
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filteredReading [ b ] + = POT_SMOOTHING * ( ( float ( rawReading ) / 16.0f ) - filteredReading [ b ] ) ; // filter raw input, and scale to [0..255]
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uint16_t aRead = max ( min ( int ( filteredReading [ b ] ) , 255 ) , 0 ) ; // squash into 8bit
if ( aRead < = POT_SENSITIVITY ) aRead = 0 ; // make sure that 0 and 255 are used
if ( aRead > = 255 - POT_SENSITIVITY ) aRead = 255 ;
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if ( buttonType [ b ] = = BTN_TYPE_ANALOG_INVERTED ) aRead = 255 - aRead ;
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// remove noise & reduce frequency of UI updates
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if ( abs ( int ( aRead ) - int ( oldRead [ b ] ) ) < = POT_SENSITIVITY ) return ; // no significant change in reading
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// Unomment the next lines if you still see flickering related to potentiometer
// This waits until strip finishes updating (why: strip was not updating at the start of handleButton() but may have started during analogRead()?)
//unsigned long wait_started = millis();
//while(strip.isUpdating() && (millis() - wait_started < STRIP_WAIT_TIME)) {
// delay(1);
//}
//if (strip.isUpdating()) return; // give up
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oldRead [ b ] = aRead ;
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// if no macro for "short press" and "long press" is defined use brightness control
if ( ! macroButton [ b ] & & ! macroLongPress [ b ] ) {
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// if "double press" macro defines which option to change
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if ( macroDoublePress [ b ] > = 250 ) {
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// global brightness
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if ( aRead = = 0 ) {
briLast = bri ;
bri = 0 ;
} else {
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bri = aRead ;
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}
} else if ( macroDoublePress [ b ] = = 249 ) {
// effect speed
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effectSpeed = aRead ;
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} else if ( macroDoublePress [ b ] = = 248 ) {
// effect intensity
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effectIntensity = aRead ;
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} else if ( macroDoublePress [ b ] = = 247 ) {
// selected palette
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effectPalette = map ( aRead , 0 , 252 , 0 , strip . getPaletteCount ( ) - 1 ) ;
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effectPalette = constrain ( effectPalette , 0 , strip . getPaletteCount ( ) - 1 ) ; // map is allowed to "overshoot", so we need to contrain the result
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} else if ( macroDoublePress [ b ] = = 200 ) {
// primary color, hue, full saturation
colorHStoRGB ( aRead * 256 , 255 , col ) ;
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} else {
// otherwise use "double press" for segment selection
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Segment & seg = strip . getSegment ( macroDoublePress [ b ] ) ;
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if ( aRead = = 0 ) {
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seg . setOption ( SEG_OPTION_ON , false ) ; // off (use transition)
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} else {
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seg . setOpacity ( aRead ) ;
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seg . setOption ( SEG_OPTION_ON , true ) ; // on (use transition)
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}
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// this will notify clients of update (websockets,mqtt,etc)
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updateInterfaces ( CALL_MODE_BUTTON ) ;
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}
} else {
//TODO:
// we can either trigger a preset depending on the level (between short and long entries)
// or use it for RGBW direct control
}
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colorUpdated ( CALL_MODE_BUTTON ) ;
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}
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void handleButton ( )
{
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static unsigned long lastRead = 0UL ;
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static unsigned long lastRun = 0UL ;
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bool analog = false ;
unsigned long now = millis ( ) ;
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//if (strip.isUpdating()) return; // don't interfere with strip updates. Our button will still be there in 1ms (next cycle)
if ( strip . isUpdating ( ) & & ( millis ( ) - lastRun < 400 ) ) return ; // be niced, but avoid button starvation
lastRun = millis ( ) ;
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for ( uint8_t b = 0 ; b < WLED_MAX_BUTTONS ; b + + ) {
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# ifdef ESP8266
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if ( ( btnPin [ b ] < 0 & & ! ( buttonType [ b ] = = BTN_TYPE_ANALOG | | buttonType [ b ] = = BTN_TYPE_ANALOG_INVERTED ) ) | | buttonType [ b ] = = BTN_TYPE_NONE ) continue ;
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# else
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if ( btnPin [ b ] < 0 | | buttonType [ b ] = = BTN_TYPE_NONE ) continue ;
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# endif
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if ( usermods . handleButton ( b ) ) continue ; // did usermod handle buttons
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if ( ( buttonType [ b ] = = BTN_TYPE_ANALOG | | buttonType [ b ] = = BTN_TYPE_ANALOG_INVERTED ) & & now - lastRead > ANALOG_BTN_READ_CYCLE ) { // button is not a button but a potentiometer
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analog = true ;
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handleAnalog ( b ) ; continue ;
}
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//button is not momentary, but switch. This is only suitable on pins whose on-boot state does not matter (NOT gpio0)
if ( buttonType [ b ] = = BTN_TYPE_SWITCH | | buttonType [ b ] = = BTN_TYPE_PIR_SENSOR ) {
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handleSwitch ( b ) ; continue ;
}
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//momentary button logic
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if ( isButtonPressed ( b ) ) { //pressed
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if ( ! buttonPressedBefore [ b ] ) buttonPressedTime [ b ] = now ;
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buttonPressedBefore [ b ] = true ;
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if ( now - buttonPressedTime [ b ] > WLED_LONG_PRESS ) { //long press
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if ( ! buttonLongPressed [ b ] ) longPressAction ( b ) ;
else if ( b ) { //repeatable action (~3 times per s) on button > 0
longPressAction ( b ) ;
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buttonPressedTime [ b ] = now - WLED_LONG_REPEATED_ACTION ; //333ms
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}
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buttonLongPressed [ b ] = true ;
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}
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} else if ( ! isButtonPressed ( b ) & & buttonPressedBefore [ b ] ) { //released
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long dur = now - buttonPressedTime [ b ] ;
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if ( dur < WLED_DEBOUNCE_THRESHOLD ) { buttonPressedBefore [ b ] = false ; continue ; } //too short "press", debounce
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bool doublePress = buttonWaitTime [ b ] ; //did we have a short press before?
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buttonWaitTime [ b ] = 0 ;
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if ( b = = 0 & & dur > WLED_LONG_AP ) { // long press on button 0 (when released)
if ( dur > WLED_LONG_FACTORY_RESET ) { // factory reset if pressed > 10 seconds
WLED_FS . format ( ) ;
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# ifdef WLED_ADD_EEPROM_SUPPORT
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clearEEPROM ( ) ;
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# endif
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doReboot = true ;
} else {
WLED : : instance ( ) . initAP ( true ) ;
}
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} else if ( ! buttonLongPressed [ b ] ) { //short press
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//NOTE: this interferes with double click handling in usermods so usermod needs to implement full button handling
if ( b ! = 1 & & ! macroDoublePress [ b ] ) { //don't wait for double press on buttons without a default action if no double press macro set
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shortPressAction ( b ) ;
} else { //double press if less than 350 ms between current press and previous short press release (buttonWaitTime!=0)
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if ( doublePress ) {
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doublePressAction ( b ) ;
} else {
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buttonWaitTime [ b ] = now ;
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}
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}
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}
buttonPressedBefore [ b ] = false ;
buttonLongPressed [ b ] = false ;
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}
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//if 350ms elapsed since last short press release it is a short press
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if ( buttonWaitTime [ b ] & & now - buttonWaitTime [ b ] > WLED_DOUBLE_PRESS & & ! buttonPressedBefore [ b ] ) {
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buttonWaitTime [ b ] = 0 ;
shortPressAction ( b ) ;
}
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}
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if ( analog ) lastRead = now ;
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}
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// If enabled, RMT idle level is set to HIGH when off
// to prevent leakage current when using an N-channel MOSFET to toggle LED power
# ifdef ESP32_DATA_IDLE_HIGH
void esp32RMTInvertIdle ( )
{
bool idle_out ;
for ( uint8_t u = 0 ; u < busses . getNumBusses ( ) ; u + + )
{
if ( u > 7 ) return ; // only 8 RMT channels, TODO: ESP32 variants have less RMT channels
Bus * bus = busses . getBus ( u ) ;
if ( ! bus | | bus - > getLength ( ) = = 0 | | ! IS_DIGITAL ( bus - > getType ( ) ) | | IS_2PIN ( bus - > getType ( ) ) ) continue ;
//assumes that bus number to rmt channel mapping stays 1:1
rmt_channel_t ch = static_cast < rmt_channel_t > ( u ) ;
rmt_idle_level_t lvl ;
rmt_get_idle_level ( ch , & idle_out , & lvl ) ;
if ( lvl = = RMT_IDLE_LEVEL_HIGH ) lvl = RMT_IDLE_LEVEL_LOW ;
else if ( lvl = = RMT_IDLE_LEVEL_LOW ) lvl = RMT_IDLE_LEVEL_HIGH ;
else continue ;
rmt_set_idle_level ( ch , idle_out , lvl ) ;
}
}
# endif
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void handleIO ( )
{
handleButton ( ) ;
//set relay when LEDs turn on
if ( strip . getBrightness ( ) )
{
lastOnTime = millis ( ) ;
if ( offMode )
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{
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# ifdef ESP32_DATA_IDLE_HIGH
esp32RMTInvertIdle ( ) ;
# endif
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if ( rlyPin > = 0 ) {
pinMode ( rlyPin , OUTPUT ) ;
digitalWrite ( rlyPin , rlyMde ) ;
}
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offMode = false ;
}
} else if ( millis ( ) - lastOnTime > 600 )
{
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if ( ! offMode ) {
# ifdef ESP8266
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// turn off built-in LED if strip is turned off
// this will break digital bus so will need to be reinitialised on On
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PinOwner ledPinOwner = pinManager . getPinOwner ( LED_BUILTIN ) ;
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if ( ! strip . isOffRefreshRequired ( ) & & ( ledPinOwner = = PinOwner : : None | | ledPinOwner = = PinOwner : : BusDigital ) ) {
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pinMode ( LED_BUILTIN , OUTPUT ) ;
digitalWrite ( LED_BUILTIN , HIGH ) ;
}
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# endif
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# ifdef ESP32_DATA_IDLE_HIGH
esp32RMTInvertIdle ( ) ;
# endif
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if ( rlyPin > = 0 ) {
pinMode ( rlyPin , OUTPUT ) ;
digitalWrite ( rlyPin , ! rlyMde ) ;
}
}
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offMode = true ;
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}
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}