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- #pragma once
-
- #include "common.h"
- #include "color_instant_handler.h"
- #include "color_transition_handler.h"
-
- namespace esphome {
- namespace yeelight {
- namespace bs2 {
-
- /**
- * A LightOutput class for the Yeelight Bedside Lamp 2.
- *
- * The function of this class is to translate a required light state
- * into actual physicial GPIO output signals to drive the device's LED
- * circuitry. It forms the glue between the physical device and the
- * logical light color input.
- */
- class YeelightBS2LightOutput : public Component, public light::LightOutput {
- public:
- /** Sets the LEDC output for the red LED circuitry channel. */
- void set_red_output(ledc::LEDCOutput *red) { red_ = red; }
-
- /** Sets the LEDC output for the green LED circuitry channel. */
- void set_green_output(ledc::LEDCOutput *green) { green_ = green; }
-
- /** Sets the LEDC output for the blue LED circuitry channel. */
- void set_blue_output(ledc::LEDCOutput *blue) { blue_ = blue; }
-
- /** Sets the LEDC output for the white LED circuitry channel. */
- void set_white_output(ledc::LEDCOutput *white) { white_ = white; }
-
- /**
- * Sets the first GPIO binary output, used as internal master switch for
- * the LED light circuitry.
- */
- void set_master1_output(gpio::GPIOBinaryOutput *master1) { master1_ = master1; }
-
- /**
- * Set the second GPIO binary output, used as internal master switch for
- * the LED light circuitry.
- */
- void set_master2_output(gpio::GPIOBinaryOutput *master2) { master2_ = master2; }
-
- /**
- * Returns a LightTraits object, which is used to explain to the outside
- * world (e.g. Home Assistant) what features are supported by this device.
- */
- light::LightTraits get_traits() override
- {
- auto traits = light::LightTraits();
- traits.set_supports_rgb(true);
- traits.set_supports_color_temperature(true);
- traits.set_supports_brightness(true);
- traits.set_supports_rgb_white_value(false);
- traits.set_supports_color_interlock(true);
- traits.set_min_mireds(MIRED_MIN);
- traits.set_max_mireds(MIRED_MAX);
- return traits;
- }
-
- /**
- * Applies a requested light state to the physicial GPIO outputs.
- */
- void write_state(light::LightState *state)
- {
- auto values = state->current_values;
-
- // The color must either be set instantly, or the color is
- // transitioning to an end color. The transition handler will do its
- // own inspection to see if a transition is currently active or not.
- // Based on the outcome, use either the instant or transition handler.
- GPIOOutputs *delegate;
- if (transition_handler_->set_light_color_values(values)) {
- delegate = transition_handler_;
- } else {
- instant_handler_->set_light_color_values(values);
- delegate = instant_handler_;
- }
-
- // Note: one might think that it is more logical to turn on the LED
- // circuitry master switch after setting the individual channels,
- // but this is the order that was used by the original firmware. I
- // tried to stay as close as possible to the original behavior, so
- // that's why these GPIOs are turned on at this point.
- if (values.get_state() != 0)
- {
- master2_->turn_on();
- master1_->turn_on();
- }
-
- // Apply the current GPIO output levels from the selected handler.
- red_->set_level(delegate->red);
- green_->set_level(delegate->green);
- blue_->set_level(delegate->blue);
- white_->set_level(delegate->white);
-
- if (values.get_state() == 0)
- {
- master2_->turn_off();
- master1_->turn_off();
- }
- }
-
- protected:
- ledc::LEDCOutput *red_;
- ledc::LEDCOutput *green_;
- ledc::LEDCOutput *blue_;
- ledc::LEDCOutput *white_;
- esphome::gpio::GPIOBinaryOutput *master1_;
- esphome::gpio::GPIOBinaryOutput *master2_;
- GPIOOutputs *transition_handler_;
- GPIOOutputs *instant_handler_ = new ColorInstantHandler();
-
- friend class YeelightBS2LightState;
-
- /**
- * Called by the YeelightBS2LightState class, to set the object that can be
- * used to access the protected LightTransformer data from the LightState
- * object.
- */
- void set_transformer_inspector(LightStateTransformerInspector *exposer) {
- transition_handler_ = new ColorTransitionHandler(exposer);
- }
- };
-
- /**
- * This custom LightState class is used to provide access to the protected
- * LightTranformer information in the LightState class.
- *
- * This class is used by the ColorTransitionHandler class to inspect if
- * an ongoing light color transition is active in a LightState object.
- */
- class YeelightBS2LightState : public light::LightState, public LightStateTransformerInspector
- {
- public:
- YeelightBS2LightState(const std::string &name, YeelightBS2LightOutput *output) : light::LightState(name, output) {
- output->set_transformer_inspector(this);
- }
-
- bool is_active() { return this->transformer_ != nullptr; }
- bool is_transition() { return this->transformer_->is_transition(); }
- light::LightColorValues get_end_values() { return this->transformer_->get_end_values(); }
- float get_progress() { return this->transformer_->get_progress(); }
- };
-
- } // namespace bs2
- } // namespace yeelight
- } // namespace esphome
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