Light transition fixes (#2320)

esphome/components/light/addressable_light.cpp

@@ -62,10 +62,13 @@ void AddressableLightTransformer::start() {
 }
 
 optional<LightColorValues> AddressableLightTransformer::apply() {
-  // Don't try to transition over running effects, instead immediately use the target values. write_state() and the
-  // effects pick up the change from current_values.
+  float smoothed_progress = LightTransitionTransformer::smoothed_progress(this->get_progress_());
+
+  // When running an output-buffer modifying effect, don't try to transition individual LEDs, but instead just fade the
+  // LightColorValues. write_state() then picks up the change in brightness, and the color change is picked up by the
+  // effects which respect it.
   if (this->light_.is_effect_active())
-    return this->target_values_;
+    return LightColorValues::lerp(this->get_start_values(), this->get_target_values(), smoothed_progress);
 
   // Use a specialized transition for addressable lights: instead of using a unified transition for
   // all LEDs, we use the current state of each LED as the start.
@@ -75,8 +78,6 @@ optional<LightColorValues> AddressableLightTransformer::apply() {
   // Instead, we "fake" the look of the LERP by using an exponential average over time and using
   // dynamically-calculated alpha values to match the look.
 
-  float smoothed_progress = LightTransitionTransformer::smoothed_progress(this->get_progress_());
-
   float denom = (1.0f - smoothed_progress);
   float alpha = denom == 0.0f ? 0.0f : (smoothed_progress - this->last_transition_progress_) / denom;
 

esphome/components/light/light_state.cpp

@@ -121,6 +121,9 @@ void LightState::loop() {
     }
 
     if (this->transformer_->is_finished()) {
+      // if the transition has written directly to the output, current_values is outdated, so update it
+      this->current_values = this->transformer_->get_target_values();
+
       this->transformer_->stop();
       this->transformer_ = nullptr;
       this->target_state_reached_callback_.call();

esphome/components/light/transformers.h

@@ -12,12 +12,18 @@ namespace light {
 class LightTransitionTransformer : public LightTransformer {
  public:
   void start() override {
-    // When turning light on from off state, use colors from target state.
+    // When turning light on from off state, use target state and only increase brightness from zero.
     if (!this->start_values_.is_on() && this->target_values_.is_on()) {
       this->start_values_ = LightColorValues(this->target_values_);
       this->start_values_.set_brightness(0.0f);
     }
 
+    // When turning light off from on state, use source state and only decrease brightness to zero.
+    if (this->start_values_.is_on() && !this->target_values_.is_on()) {
+      this->target_values_ = LightColorValues(this->start_values_);
+      this->target_values_.set_brightness(0.0f);
+    }
+
     // When changing color mode, go through off state, as color modes are orthogonal and there can't be two active.
     if (this->start_values_.get_color_mode() != this->target_values_.get_color_mode()) {
       this->changing_color_mode_ = true;