kopia lustrzana https://github.com/Aircoookie/WLED
256 wiersze
8.8 KiB
C++
256 wiersze
8.8 KiB
C++
#pragma once
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#include "wled.h"
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/*
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* Usermod for analog clock
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*/
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extern Timezone* tz;
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class AnalogClockUsermod : public Usermod {
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private:
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static constexpr uint32_t refreshRate = 50; // per second
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static constexpr uint32_t refreshDelay = 1000 / refreshRate;
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struct Segment {
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// config
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int16_t firstLed = 0;
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int16_t lastLed = 59;
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int16_t centerLed = 0;
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// runtime
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int16_t size;
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Segment() {
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update();
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}
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void validateAndUpdate() {
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if (firstLed < 0 || firstLed >= strip.getLengthTotal() ||
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lastLed < firstLed || lastLed >= strip.getLengthTotal()) {
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*this = {};
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return;
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}
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if (centerLed < firstLed || centerLed > lastLed) {
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centerLed = firstLed;
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}
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update();
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}
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void update() {
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size = lastLed - firstLed + 1;
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}
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};
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// configuration (available in API and stored in flash)
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bool enabled = false;
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Segment mainSegment;
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bool hourMarksEnabled = true;
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uint32_t hourMarkColor = 0xFF0000;
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uint32_t hourColor = 0x0000FF;
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uint32_t minuteColor = 0x00FF00;
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bool secondsEnabled = true;
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Segment secondsSegment;
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uint32_t secondColor = 0xFF0000;
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bool blendColors = true;
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uint16_t secondsEffect = 0;
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// runtime
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bool initDone = false;
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uint32_t lastOverlayDraw = 0;
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void validateAndUpdate() {
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mainSegment.validateAndUpdate();
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secondsSegment.validateAndUpdate();
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if (secondsEffect < 0 || secondsEffect > 1) {
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secondsEffect = 0;
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}
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}
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int16_t adjustToSegment(double progress, Segment const& segment) {
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int16_t led = segment.centerLed + progress * segment.size;
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return led > segment.lastLed
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? segment.firstLed + led - segment.lastLed - 1
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: led;
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}
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void setPixelColor(uint16_t n, uint32_t c) {
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if (!blendColors) {
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strip.setPixelColor(n, c);
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} else {
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uint32_t oldC = strip.getPixelColor(n);
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strip.setPixelColor(n, qadd32(oldC, c));
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}
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}
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String colorToHexString(uint32_t c) {
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char buffer[9];
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sprintf(buffer, "%06X", c);
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return buffer;
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}
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bool hexStringToColor(String const& s, uint32_t& c, uint32_t def) {
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char *ep;
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unsigned long long r = strtoull(s.c_str(), &ep, 16);
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if (*ep == 0) {
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c = r;
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return true;
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} else {
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c = def;
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return false;
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}
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}
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void secondsEffectSineFade(int16_t secondLed, Toki::Time const& time) {
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uint32_t ms = time.ms % 1000;
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uint8_t b0 = (cos8(ms * 64 / 1000) - 128) * 2;
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setPixelColor(secondLed, gamma32(scale32(secondColor, b0)));
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uint8_t b1 = (sin8(ms * 64 / 1000) - 128) * 2;
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setPixelColor(inc(secondLed, 1, secondsSegment), gamma32(scale32(secondColor, b1)));
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}
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static inline uint32_t qadd32(uint32_t c1, uint32_t c2) {
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return RGBW32(
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qadd8(R(c1), R(c2)),
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qadd8(G(c1), G(c2)),
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qadd8(B(c1), B(c2)),
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qadd8(W(c1), W(c2))
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);
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}
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static inline uint32_t scale32(uint32_t c, fract8 scale) {
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return RGBW32(
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scale8(R(c), scale),
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scale8(G(c), scale),
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scale8(B(c), scale),
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scale8(W(c), scale)
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);
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}
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static inline int16_t dec(int16_t n, int16_t i, Segment const& seg) {
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return n - seg.firstLed >= i
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? n - i
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: seg.lastLed - seg.firstLed - i + n + 1;
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}
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static inline int16_t inc(int16_t n, int16_t i, Segment const& seg) {
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int16_t r = n + i;
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if (r > seg.lastLed) {
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return seg.firstLed + n - seg.lastLed;
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}
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return r;
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}
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public:
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AnalogClockUsermod() {
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}
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void setup() override {
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initDone = true;
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validateAndUpdate();
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}
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void loop() override {
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if (millis() - lastOverlayDraw > refreshDelay) {
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strip.trigger();
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}
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}
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void handleOverlayDraw() override {
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if (!enabled) {
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return;
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}
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lastOverlayDraw = millis();
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auto time = toki.getTime();
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double secondP = second(localTime) / 60.0;
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double minuteP = minute(localTime) / 60.0;
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double hourP = (hour(localTime) % 12) / 12.0 + minuteP / 12.0;
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if (hourMarksEnabled) {
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for (int Led = 0; Led <= 55; Led = Led + 5)
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{
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int16_t hourmarkled = adjustToSegment(Led / 60.0, mainSegment);
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setPixelColor(hourmarkled, hourMarkColor);
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}
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}
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if (secondsEnabled) {
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int16_t secondLed = adjustToSegment(secondP, secondsSegment);
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switch (secondsEffect) {
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case 0: // no effect
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setPixelColor(secondLed, secondColor);
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break;
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case 1: // fading seconds
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secondsEffectSineFade(secondLed, time);
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break;
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}
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// TODO: move to secondsTrailEffect
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// for (uint16_t i = 1; i < secondsTrail + 1; ++i) {
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// uint16_t trailLed = dec(secondLed, i, secondsSegment);
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// uint8_t trailBright = 255 / (secondsTrail + 1) * (secondsTrail - i + 1);
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// setPixelColor(trailLed, gamma32(scale32(secondColor, trailBright)));
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// }
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}
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setPixelColor(adjustToSegment(minuteP, mainSegment), minuteColor);
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setPixelColor(adjustToSegment(hourP, mainSegment), hourColor);
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}
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void addToConfig(JsonObject& root) override {
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validateAndUpdate();
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JsonObject top = root.createNestedObject("Analog Clock");
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top["Overlay Enabled"] = enabled;
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top["First LED (Main Ring)"] = mainSegment.firstLed;
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top["Last LED (Main Ring)"] = mainSegment.lastLed;
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top["Center/12h LED (Main Ring)"] = mainSegment.centerLed;
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top["Hour Marks Enabled"] = hourMarksEnabled;
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top["Hour Mark Color (RRGGBB)"] = colorToHexString(hourMarkColor);
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top["Hour Color (RRGGBB)"] = colorToHexString(hourColor);
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top["Minute Color (RRGGBB)"] = colorToHexString(minuteColor);
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top["Show Seconds"] = secondsEnabled;
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top["First LED (Seconds Ring)"] = secondsSegment.firstLed;
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top["Last LED (Seconds Ring)"] = secondsSegment.lastLed;
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top["Center/12h LED (Seconds Ring)"] = secondsSegment.centerLed;
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top["Second Color (RRGGBB)"] = colorToHexString(secondColor);
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top["Seconds Effect (0-1)"] = secondsEffect;
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top["Blend Colors"] = blendColors;
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}
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bool readFromConfig(JsonObject& root) override {
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JsonObject top = root["Analog Clock"];
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bool configComplete = !top.isNull();
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String color;
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configComplete &= getJsonValue(top["Overlay Enabled"], enabled, false);
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configComplete &= getJsonValue(top["First LED (Main Ring)"], mainSegment.firstLed, 0);
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configComplete &= getJsonValue(top["Last LED (Main Ring)"], mainSegment.lastLed, 59);
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configComplete &= getJsonValue(top["Center/12h LED (Main Ring)"], mainSegment.centerLed, 0);
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configComplete &= getJsonValue(top["Hour marks Enabled"], hourMarksEnabled, false);
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configComplete &= getJsonValue(top["Hour mark Color (RRGGBB)"], color, "FF0000") && hexStringToColor(color, hourMarkColor, 0x0000FF);
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configComplete &= getJsonValue(top["Hour Color (RRGGBB)"], color, "0000FF") && hexStringToColor(color, hourColor, 0x0000FF);
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configComplete &= getJsonValue(top["Minute Color (RRGGBB)"], color, "00FF00") && hexStringToColor(color, minuteColor, 0x00FF00);
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configComplete &= getJsonValue(top["Show Seconds"], secondsEnabled, true);
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configComplete &= getJsonValue(top["First LED (Seconds Ring)"], secondsSegment.firstLed, 0);
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configComplete &= getJsonValue(top["Last LED (Seconds Ring)"], secondsSegment.lastLed, 59);
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configComplete &= getJsonValue(top["Center/12h LED (Seconds Ring)"], secondsSegment.centerLed, 0);
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configComplete &= getJsonValue(top["Second Color (RRGGBB)"], color, "FF0000") && hexStringToColor(color, secondColor, 0xFF0000);
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configComplete &= getJsonValue(top["Seconds Effect (0-1)"], secondsEffect, 0);
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configComplete &= getJsonValue(top["Blend Colors"], blendColors, true);
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if (initDone) {
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validateAndUpdate();
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}
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return configComplete;
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}
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uint16_t getId() override {
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return USERMOD_ID_ANALOG_CLOCK;
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}
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}; |