light: change naming order for cct vars

5 years ago · 6a3ef86c8f
--- a/code/espurna/light.ino
+++ b/code/espurna/light.ino
@ -59,13 +59,13 @@ unsigned char _light_brightness = Light::BRIGHTNESS_MAX;

 // Default to the Philips Hue value that HA also use.
 // https://developers.meethue.com/documentation/core-concepts
 long _light_mireds_cold = LIGHT_COLDWHITE_MIRED;
 long _light_mireds_warm = LIGHT_WARMWHITE_MIRED;
 long _light_cold_mireds = LIGHT_COLDWHITE_MIRED;
 long _light_warm_mireds = LIGHT_WARMWHITE_MIRED;

 long _light_kelvin_cold = (1000000L / _light_mireds_cold);
 long _light_kelvin_warm = (1000000L / _light_mireds_warm);
 long _light_cold_kelvin = (1000000L / _light_cold_mireds);
 long _light_warm_kelvin = (1000000L / _light_warm_mireds);

 long _light_mireds = lround((_light_mireds_cold + _light_mireds_warm) / 2L);
 long _light_mireds = lround((_light_cold_mireds + _light_warm_mireds) / 2L);

 using light_brightness_func_t = void();
 light_brightness_func_t* _light_brightness_func = nullptr;
@ -163,7 +163,7 @@ void _lightApplyBrightnessColor() {
    if (_light_use_cct) {

        // This change the range from 153-500 to 0-347 so we get a value between 0 and 1 in the end.
        double miredFactor = ((double) _light_mireds - (double) _light_mireds_cold)/((double) _light_mireds_warm - (double) _light_mireds_cold);
        double miredFactor = ((double) _light_mireds - (double) _light_cold_mireds)/((double) _light_warm_mireds - (double) _light_cold_mireds);

        // set cold white
        _light_channel[3].inputValue = 0;
@ -329,11 +329,11 @@ void _fromHSV(const char * hsv) {
 // https://github.com/stelgenhof/AiLight
 // Color temperature is measured in mireds (kelvin = 1e6/mired)
 long _toKelvin(const long mireds) {
    return constrain(static_cast<long>(1000000L / mireds), _light_kelvin_warm, _light_kelvin_cold);
    return constrain(static_cast<long>(1000000L / mireds), _light_warm_kelvin, _light_cold_kelvin);
 }

 long _toMireds(const long kelvin) {
    return constrain(static_cast<long>(lround(1000000L / kelvin)), _light_mireds_cold, _light_mireds_warm);
    return constrain(static_cast<long>(lround(1000000L / kelvin)), _light_cold_mireds, _light_warm_mireds);
 }

 void _lightMireds(const long kelvin) {
@ -344,7 +344,7 @@ void _lightMiredsCCT(const long kelvin) {
    _lightMireds(kelvin);

    // This change the range from 153-500 to 0-347 so we get a value between 0 and 1 in the end.
    const double factor = ((double) _light_mireds - (double) _light_mireds_cold)/((double) _light_mireds_warm - (double) _light_mireds_cold);
    const double factor = ((double) _light_mireds - (double) _light_cold_mireds)/((double) _light_warm_mireds - (double) _light_cold_mireds);
    _setCCTInputValue(
        lround(factor * Light::VALUE_MAX),
        lround(((double) 1.0 - factor) * Light::VALUE_MAX)
@ -1014,8 +1014,8 @@ void _lightWebSocketStatus(JsonObject& root) {
    if (_light_use_cct) {
        JsonObject& mireds = root.createNestedObject("mireds");
        mireds["value"] = _light_mireds;
        mireds["cold"] = _light_mireds_cold;
        mireds["warm"] = _light_mireds_warm;
        mireds["cold"] = _light_cold_mireds;
        mireds["warm"] = _light_warm_mireds;
        root["useCCT"] = _light_use_cct;
    }
    JsonArray& channels = root.createNestedArray("channels");
@ -1283,10 +1283,10 @@ void _lightConfigure() {
    }

    if (_light_use_cct) {
        _light_mireds_cold = getSetting("lightColdMired", LIGHT_COLDWHITE_MIRED).toInt();
        _light_mireds_warm = getSetting("lightWarmMired", LIGHT_WARMWHITE_MIRED).toInt();
        _light_kelvin_cold = (1000000L / _light_mireds_cold);
        _light_kelvin_warm = (1000000L / _light_mireds_warm);
        _light_cold_mireds = getSetting("lightColdMired", LIGHT_COLDWHITE_MIRED).toInt();
        _light_warm_mireds = getSetting("lightWarmMired", LIGHT_WARMWHITE_MIRED).toInt();
        _light_cold_kelvin = (1000000L / _light_cold_mireds);
        _light_warm_kelvin = (1000000L / _light_warm_mireds);
    }

    _light_use_gamma = getSetting("useGamma", LIGHT_USE_GAMMA).toInt() == 1;