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@ -51,7 +51,7 @@ bool _light_use_cct = false; |
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bool _light_use_gamma = false; |
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unsigned long _light_steps_left = 1; |
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unsigned char _light_brightness = Light::BRIGHTNESS_MAX; |
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unsigned int _light_mireds = lround((LIGHT_COLDWHITE_MIRED+LIGHT_WARMWHITE_MIRED)/2); |
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unsigned int _light_mireds = lround((Light::MIREDS_COLDWHITE + Light::MIREDS_WARMWHITE) / 2); |
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using light_brightness_func_t = void(); |
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light_brightness_func_t* _light_brightness_func = nullptr; |
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@ -135,7 +135,7 @@ void _lightApplyBrightnessColor() { |
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if (_light_use_cct) { |
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// This change the range from 153-500 to 0-347 so we get a value between 0 and 1 in the end.
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double miredFactor = ((double) _light_mireds - (double) LIGHT_COLDWHITE_MIRED)/((double) LIGHT_WARMWHITE_MIRED - (double) LIGHT_COLDWHITE_MIRED); |
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double miredFactor = ((double) _light_mireds - (double) Light::MIREDS_COLDWHITE)/((double) Light::MIREDS_WARMWHITE - (double) Light::MIREDS_COLDWHITE); |
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// set cold white
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_light_channel[3].inputValue = 0; |
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@ -281,7 +281,7 @@ void _fromHSV(const char * hsv) { |
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double f = (h - floor(h)); |
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double s = (double) value[1] / 100.0; |
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_light_brightness = lround((double) value[2] * (static_cast<double>(Light::BRIGHTNESS_MAX) / 100.0)); // (255/100)
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_light_brightness = lround((double) value[2] * (static_cast<double>(Light::BRIGHTNESS_MAX) / 100.0)); // (default 255/100)
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unsigned char p = lround(Light::VALUE_MAX * (1.0 - s)); |
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unsigned char q = lround(Light::VALUE_MAX * (1.0 - s * f)); |
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unsigned char t = lround(Light::VALUE_MAX * (1.0 - s * (1.0 - f))); |
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@ -319,10 +319,10 @@ void _fromKelvin(unsigned long kelvin) { |
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if(!_light_use_cct) return; |
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_light_mireds = constrain(static_cast<unsigned int>(lround(1000000UL / kelvin)), Light::MIREDS_MIN, Light::MIREDS_MAX); |
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_light_mireds = constrain(static_cast<unsigned int>(lround(1000000UL / kelvin)), Light::MIREDS_COLDWHITE, Light::MIREDS_WARMWHITE); |
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// This change the range from 153-500 to 0-347 so we get a value between 0 and 1 in the end.
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double factor = ((double) _light_mireds - (double) LIGHT_COLDWHITE_MIRED)/((double) LIGHT_WARMWHITE_MIRED - (double) LIGHT_COLDWHITE_MIRED); |
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double factor = ((double) _light_mireds - (double) Light::MIREDS_COLDWHITE)/((double) Light::MIREDS_WARMWHITE - (double) Light::MIREDS_COLDWHITE); |
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unsigned char warm = lround(factor * Light::VALUE_MAX); |
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unsigned char cold = lround(((double) 1.0 - factor) * Light::VALUE_MAX); |
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@ -331,7 +331,7 @@ void _fromKelvin(unsigned long kelvin) { |
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return; |
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} |
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_light_mireds = constrain(static_cast<unsigned int>(lround(1000000UL / kelvin)), Light::MIREDS_MIN, Light::MIREDS_MAX); |
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_light_mireds = constrain(static_cast<unsigned int>(lround(1000000UL / kelvin)), Light::MIREDS_COLDWHITE, Light::MIREDS_WARMWHITE); |
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if (_light_use_cct) { |
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_setRGBInputValue(Light::VALUE_MAX, Light::VALUE_MAX, Light::VALUE_MAX); |
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@ -358,7 +358,7 @@ void _fromKelvin(unsigned long kelvin) { |
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// Color temperature is measured in mireds (kelvin = 1e6/mired)
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void _fromMireds(unsigned long mireds) { |
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unsigned long kelvin = constrain(static_cast<unsigned int>(1000000UL / mireds), Light::KELVIN_MIN, Light::KELVIN_MAX); |
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unsigned long kelvin = constrain(static_cast<unsigned int>(1000000UL / mireds), Light::KELVIN_WARMWHITE, Light::KELVIN_COLDWHITE); |
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_fromKelvin(kelvin); |
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} |
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