HappyCodingRobot · October 6, 2020 09:52
diff --git a/esphome_neopixel_clock_effect.yaml b/esphome_neopixel_clock_effect.yaml
 esphome:
  # [...]
  on_boot:
    priority: -10
    then:
      # enable clock effect after boot
      - light.turn_on: 
          id: light_ring
          brightness: 100%
          effect: Clock

 globals:
  - id: clock_brightness
    type: int
    restore_value: yes
    initial_value: '255'
  - id: clock_indicators_enabled
    type: bool
    restore_value: yes
    initial_value: 'true'
    
 switch:
  - platform: template
    name: "Clock Indicators"
    lambda: !lambda |-
      return id(clock_indicators_enabled);
    turn_on_action:
      globals.set:
        id: clock_indicators_enabled
        value: 'true'
    turn_off_action: 
      globals.set:
        id: clock_indicators_enabled
        value: 'false'

 light:
  - id: light_ring
    internal: False
    platform: neopixelbus
    type: GRB
    variant: SK6812 # WS2812X
    pin: RX #GPIO23
    num_leds: 60
    method: ESP8266_DMA
    name: "NeoPixel Light"
    color_correct: [50%, 50%, 50%]
    effects:
      - addressable_lambda:
          name: "Clock"
          update_interval: 32ms
          lambda: |-

            static boolean initialized;
            static ESPColor clock_ring_colors [60];
            if (initialized == false) {
              std::fill_n(clock_ring_colors, it.size(), ESPColor::BLACK);
              initialized = true;
            }

            auto time = id(sntp_time).now();
            if (!time.is_valid()) {
              return;
            }

            // calculate led indices
            int second_idx = (int) (time.second * (it.size() / 60));
            int minute_idx = (int) (time.minute * (it.size() / 60));
            int hour_idx = (int) ((time.hour % 12) * (it.size() / 12));
            int hour_inc_min_idx = hour_idx + (int) (((float) time.minute / 12) * (it.size() / 60));

            // fade out old colors
            for (int i = 0; i < it.size(); i++) {
              ESPColor old_color = clock_ring_colors[i];
              
              // fade out color
              int amount = 5;
              int red = old_color.red;
              int green = old_color.green;
              int blue = old_color.blue;
              int white = old_color.white;

              if (red < amount) { red = 0; } else { red -= amount; }
              if (green < amount) { green = 0; } else { green -= amount; }
              if (blue < amount) { blue = 0; } else { blue -= amount; }
              ESPColor new_color = ESPColor(red, green, blue, 0);

              clock_ring_colors[i] = new_color;
            }

            int indicator_brightness = id(clock_brightness) / 3;
            ESPColor indicator_color = ESPColor(indicator_brightness, indicator_brightness, indicator_brightness);

            // calculate colors
            ESPColor second_color = ESPColor(id(clock_brightness), 0, 0);

            ESPColor minute_color = ESPColor(0, id(clock_brightness), 0);
            if (minute_idx == second_idx) {
              minute_color += second_color;
            }

            ESPColor hour_color = ESPColor(0, 0, id(clock_brightness));
            if (hour_inc_min_idx == minute_idx) {
              // if seconds are also the same this will already contain the second color
              hour_color += minute_color;
            } else if (hour_inc_min_idx == second_idx) {
              hour_color += second_color;
            }

            if (id(clock_indicators_enabled)) {
              for (int i = 0; i < it.size(); i += (int) ((float) it.size() / 12)) {
                clock_ring_colors[i] = indicator_color;
              }
            }

            // set colors
            clock_ring_colors[second_idx] = second_color;
            clock_ring_colors[minute_idx] = minute_color;
            clock_ring_colors[hour_inc_min_idx] = hour_color;

            // apply colors to light
            for (int i = 0; i < it.size(); i++) {
              it[i] = clock_ring_colors[i];
            }
	esphome:
	# [...]
	on_boot:
	priority: -10
	then:
	# enable clock effect after boot
	- light.turn_on:
	id: light_ring
	brightness: 100%
	effect: Clock

	globals:
	- id: clock_brightness
	type: int
	restore_value: yes
	initial_value: '255'
	- id: clock_indicators_enabled
	type: bool
	restore_value: yes
	initial_value: 'true'

	switch:
	- platform: template
	name: "Clock Indicators"
	lambda: !lambda \|-
	return id(clock_indicators_enabled);
	turn_on_action:
	globals.set:
	id: clock_indicators_enabled
	value: 'true'
	turn_off_action:
	globals.set:
	id: clock_indicators_enabled
	value: 'false'

	light:
	- id: light_ring
	internal: False
	platform: neopixelbus
	type: GRB
	variant: SK6812 # WS2812X
	pin: RX #GPIO23
	num_leds: 60
	method: ESP8266_DMA
	name: "NeoPixel Light"
	color_correct: [50%, 50%, 50%]
	effects:
	- addressable_lambda:
	name: "Clock"
	update_interval: 32ms
	lambda: \|-

	static boolean initialized;
	static ESPColor clock_ring_colors [60];
	if (initialized == false) {
	std::fill_n(clock_ring_colors, it.size(), ESPColor::BLACK);
	initialized = true;
	}

	auto time = id(sntp_time).now();
	if (!time.is_valid()) {
	return;
	}

	// calculate led indices
	int second_idx = (int) (time.second * (it.size() / 60));
	int minute_idx = (int) (time.minute * (it.size() / 60));
	int hour_idx = (int) ((time.hour % 12) * (it.size() / 12));
	int hour_inc_min_idx = hour_idx + (int) (((float) time.minute / 12) * (it.size() / 60));

	// fade out old colors
	for (int i = 0; i < it.size(); i++) {
	ESPColor old_color = clock_ring_colors[i];

	// fade out color
	int amount = 5;
	int red = old_color.red;
	int green = old_color.green;
	int blue = old_color.blue;
	int white = old_color.white;

	if (red < amount) { red = 0; } else { red -= amount; }
	if (green < amount) { green = 0; } else { green -= amount; }
	if (blue < amount) { blue = 0; } else { blue -= amount; }
	ESPColor new_color = ESPColor(red, green, blue, 0);

	clock_ring_colors[i] = new_color;
	}

	int indicator_brightness = id(clock_brightness) / 3;
	ESPColor indicator_color = ESPColor(indicator_brightness, indicator_brightness, indicator_brightness);

	// calculate colors
	ESPColor second_color = ESPColor(id(clock_brightness), 0, 0);

	ESPColor minute_color = ESPColor(0, id(clock_brightness), 0);
	if (minute_idx == second_idx) {
	minute_color += second_color;
	}

	ESPColor hour_color = ESPColor(0, 0, id(clock_brightness));
	if (hour_inc_min_idx == minute_idx) {
	// if seconds are also the same this will already contain the second color
	hour_color += minute_color;
	} else if (hour_inc_min_idx == second_idx) {
	hour_color += second_color;
	}

	if (id(clock_indicators_enabled)) {
	for (int i = 0; i < it.size(); i += (int) ((float) it.size() / 12)) {
	clock_ring_colors[i] = indicator_color;
	}
	}

	// set colors
	clock_ring_colors[second_idx] = second_color;
	clock_ring_colors[minute_idx] = minute_color;
	clock_ring_colors[hour_inc_min_idx] = hour_color;

	// apply colors to light
	for (int i = 0; i < it.size(); i++) {
	it[i] = clock_ring_colors[i];
	}