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mirror of https://github.com/esphome/esphome.git synced 2025-10-23 12:13:49 +01:00

[light] Use bitmask instead of std::set for color modes (#11348)

This commit is contained in:
J. Nick Koston
2025-10-19 08:48:14 -10:00
committed by GitHub
parent a0922bc8b0
commit fdecda3d65
12 changed files with 308 additions and 59 deletions

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@@ -506,7 +506,7 @@ message ListEntitiesLightResponse {
string name = 3;
reserved 4; // Deprecated: was string unique_id
repeated ColorMode supported_color_modes = 12 [(container_pointer) = "std::set<light::ColorMode>"];
repeated ColorMode supported_color_modes = 12 [(container_pointer_no_template) = "light::ColorModeMask"];
// next four supports_* are for legacy clients, newer clients should use color modes
// Deprecated in API version 1.6
bool legacy_supports_brightness = 5 [deprecated=true];

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@@ -453,7 +453,6 @@ uint16_t APIConnection::try_send_light_state(EntityBase *entity, APIConnection *
bool is_single) {
auto *light = static_cast<light::LightState *>(entity);
LightStateResponse resp;
auto traits = light->get_traits();
auto values = light->remote_values;
auto color_mode = values.get_color_mode();
resp.state = values.is_on();
@@ -477,7 +476,8 @@ uint16_t APIConnection::try_send_light_info(EntityBase *entity, APIConnection *c
auto *light = static_cast<light::LightState *>(entity);
ListEntitiesLightResponse msg;
auto traits = light->get_traits();
msg.supported_color_modes = &traits.get_supported_color_modes_for_api_();
// Pass pointer to ColorModeMask so the iterator can encode actual ColorMode enum values
msg.supported_color_modes = &traits.get_supported_color_modes();
if (traits.supports_color_capability(light::ColorCapability::COLOR_TEMPERATURE) ||
traits.supports_color_capability(light::ColorCapability::COLD_WARM_WHITE)) {
msg.min_mireds = traits.get_min_mireds();

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@@ -70,4 +70,14 @@ extend google.protobuf.FieldOptions {
// init(size) before adding elements. This eliminates std::vector template overhead
// and is ideal when the exact size is known before populating the array.
optional bool fixed_vector = 50013 [default=false];
// container_pointer_no_template: Use a non-template container type for repeated fields
// Similar to container_pointer, but for containers that don't take template parameters.
// The container type is used as-is without appending element type.
// The container must have:
// - begin() and end() methods returning iterators
// - empty() method
// Example: [(container_pointer_no_template) = "light::ColorModeMask"]
// generates: const light::ColorModeMask *supported_color_modes{};
optional string container_pointer_no_template = 50014;
}

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@@ -790,7 +790,7 @@ class ListEntitiesLightResponse final : public InfoResponseProtoMessage {
#ifdef HAS_PROTO_MESSAGE_DUMP
const char *message_name() const override { return "list_entities_light_response"; }
#endif
const std::set<light::ColorMode> *supported_color_modes{};
const light::ColorModeMask *supported_color_modes{};
float min_mireds{0.0f};
float max_mireds{0.0f};
std::vector<std::string> effects{};

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@@ -104,5 +104,200 @@ constexpr ColorModeHelper operator|(ColorModeHelper lhs, ColorMode rhs) {
return static_cast<ColorMode>(static_cast<uint8_t>(lhs) | static_cast<uint8_t>(rhs));
}
// Type alias for raw color mode bitmask values
using color_mode_bitmask_t = uint16_t;
// Constants for ColorMode count and bit range
static constexpr int COLOR_MODE_COUNT = 10; // UNKNOWN through RGB_COLD_WARM_WHITE
static constexpr int MAX_BIT_INDEX = sizeof(color_mode_bitmask_t) * 8; // Number of bits in bitmask type
// Compile-time array of all ColorMode values in declaration order
// Bit positions (0-9) map directly to enum declaration order
static constexpr ColorMode COLOR_MODES[COLOR_MODE_COUNT] = {
ColorMode::UNKNOWN, // bit 0
ColorMode::ON_OFF, // bit 1
ColorMode::BRIGHTNESS, // bit 2
ColorMode::WHITE, // bit 3
ColorMode::COLOR_TEMPERATURE, // bit 4
ColorMode::COLD_WARM_WHITE, // bit 5
ColorMode::RGB, // bit 6
ColorMode::RGB_WHITE, // bit 7
ColorMode::RGB_COLOR_TEMPERATURE, // bit 8
ColorMode::RGB_COLD_WARM_WHITE, // bit 9
};
/// Map ColorMode enum values to bit positions (0-9)
/// Bit positions follow the enum declaration order
static constexpr int mode_to_bit(ColorMode mode) {
// Linear search through COLOR_MODES array
// Compiler optimizes this to efficient code since array is constexpr
for (int i = 0; i < COLOR_MODE_COUNT; ++i) {
if (COLOR_MODES[i] == mode)
return i;
}
return 0;
}
/// Map bit positions (0-9) to ColorMode enum values
/// Bit positions follow the enum declaration order
static constexpr ColorMode bit_to_mode(int bit) {
// Direct lookup in COLOR_MODES array
return (bit >= 0 && bit < COLOR_MODE_COUNT) ? COLOR_MODES[bit] : ColorMode::UNKNOWN;
}
/// Helper to compute capability bitmask at compile time
static constexpr color_mode_bitmask_t compute_capability_bitmask(ColorCapability capability) {
color_mode_bitmask_t mask = 0;
uint8_t cap_bit = static_cast<uint8_t>(capability);
// Check each ColorMode to see if it has this capability
for (int bit = 0; bit < COLOR_MODE_COUNT; ++bit) {
uint8_t mode_val = static_cast<uint8_t>(bit_to_mode(bit));
if ((mode_val & cap_bit) != 0) {
mask |= (1 << bit);
}
}
return mask;
}
// Number of ColorCapability enum values
static constexpr int COLOR_CAPABILITY_COUNT = 6;
/// Compile-time lookup table mapping ColorCapability to bitmask
/// This array is computed at compile time using constexpr
static constexpr color_mode_bitmask_t CAPABILITY_BITMASKS[] = {
compute_capability_bitmask(ColorCapability::ON_OFF), // 1 << 0
compute_capability_bitmask(ColorCapability::BRIGHTNESS), // 1 << 1
compute_capability_bitmask(ColorCapability::WHITE), // 1 << 2
compute_capability_bitmask(ColorCapability::COLOR_TEMPERATURE), // 1 << 3
compute_capability_bitmask(ColorCapability::COLD_WARM_WHITE), // 1 << 4
compute_capability_bitmask(ColorCapability::RGB), // 1 << 5
};
/// Bitmask for storing a set of ColorMode values efficiently.
/// Replaces std::set<ColorMode> to eliminate red-black tree overhead (~586 bytes).
class ColorModeMask {
public:
constexpr ColorModeMask() = default;
/// Support initializer list syntax: {ColorMode::RGB, ColorMode::WHITE}
constexpr ColorModeMask(std::initializer_list<ColorMode> modes) {
for (auto mode : modes) {
this->add(mode);
}
}
constexpr void add(ColorMode mode) { this->mask_ |= (1 << mode_to_bit(mode)); }
/// Add multiple modes at once using initializer list
constexpr void add(std::initializer_list<ColorMode> modes) {
for (auto mode : modes) {
this->add(mode);
}
}
constexpr bool contains(ColorMode mode) const { return (this->mask_ & (1 << mode_to_bit(mode))) != 0; }
constexpr size_t size() const {
// Count set bits using Brian Kernighan's algorithm
// More efficient for sparse bitmasks (typical case: 2-4 modes out of 10)
uint16_t n = this->mask_;
size_t count = 0;
while (n) {
n &= n - 1; // Clear the least significant set bit
count++;
}
return count;
}
constexpr bool empty() const { return this->mask_ == 0; }
/// Iterator support for API encoding
class Iterator {
public:
using iterator_category = std::forward_iterator_tag;
using value_type = ColorMode;
using difference_type = std::ptrdiff_t;
using pointer = const ColorMode *;
using reference = ColorMode;
constexpr Iterator(color_mode_bitmask_t mask, int bit) : mask_(mask), bit_(bit) { advance_to_next_set_bit_(); }
constexpr ColorMode operator*() const { return bit_to_mode(bit_); }
constexpr Iterator &operator++() {
++bit_;
advance_to_next_set_bit_();
return *this;
}
constexpr bool operator==(const Iterator &other) const { return bit_ == other.bit_; }
constexpr bool operator!=(const Iterator &other) const { return !(*this == other); }
private:
constexpr void advance_to_next_set_bit_() { bit_ = ColorModeMask::find_next_set_bit(mask_, bit_); }
color_mode_bitmask_t mask_;
int bit_;
};
constexpr Iterator begin() const { return Iterator(mask_, 0); }
constexpr Iterator end() const { return Iterator(mask_, MAX_BIT_INDEX); }
/// Get the raw bitmask value for API encoding
constexpr color_mode_bitmask_t get_mask() const { return this->mask_; }
/// Find the next set bit in a bitmask starting from a given position
/// Returns the bit position, or MAX_BIT_INDEX if no more bits are set
static constexpr int find_next_set_bit(color_mode_bitmask_t mask, int start_bit) {
int bit = start_bit;
while (bit < MAX_BIT_INDEX && !(mask & (1 << bit))) {
++bit;
}
return bit;
}
/// Find the first set bit in a bitmask and return the corresponding ColorMode
/// Used for optimizing compute_color_mode_() intersection logic
static constexpr ColorMode first_mode_from_mask(color_mode_bitmask_t mask) {
return bit_to_mode(find_next_set_bit(mask, 0));
}
/// Check if a ColorMode is present in a raw bitmask value
/// Useful for checking intersection results without creating a temporary ColorModeMask
static constexpr bool mask_contains(color_mode_bitmask_t mask, ColorMode mode) {
return (mask & (1 << mode_to_bit(mode))) != 0;
}
/// Check if any mode in the bitmask has a specific capability
/// Used for checking if a light supports a capability (e.g., BRIGHTNESS, RGB)
bool has_capability(ColorCapability capability) const {
// Lookup the pre-computed bitmask for this capability and check intersection with our mask
// ColorCapability values: 1, 2, 4, 8, 16, 32 -> array indices: 0, 1, 2, 3, 4, 5
// We need to convert the power-of-2 value to an index
uint8_t cap_val = static_cast<uint8_t>(capability);
#if defined(__GNUC__) || defined(__clang__)
// Use compiler intrinsic for efficient bit position lookup (O(1) vs O(log n))
int index = __builtin_ctz(cap_val);
#else
// Fallback for compilers without __builtin_ctz
int index = 0;
while (cap_val > 1) {
cap_val >>= 1;
++index;
}
#endif
return (this->mask_ & CAPABILITY_BITMASKS[index]) != 0;
}
private:
// Using uint16_t instead of uint32_t for more efficient iteration (fewer bits to scan).
// Currently only 10 ColorMode values exist, so 16 bits is sufficient.
// Can be changed to uint32_t if more than 16 color modes are needed in the future.
// Note: Due to struct padding, uint16_t and uint32_t result in same LightTraits size (12 bytes).
color_mode_bitmask_t mask_{0};
};
} // namespace light
} // namespace esphome

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@@ -406,7 +406,7 @@ void LightCall::transform_parameters_() {
}
}
ColorMode LightCall::compute_color_mode_() {
auto supported_modes = this->parent_->get_traits().get_supported_color_modes();
const auto &supported_modes = this->parent_->get_traits().get_supported_color_modes();
int supported_count = supported_modes.size();
// Some lights don't support any color modes (e.g. monochromatic light), leave it at unknown.
@@ -425,20 +425,19 @@ ColorMode LightCall::compute_color_mode_() {
// If no color mode is specified, we try to guess the color mode. This is needed for backward compatibility to
// pre-colormode clients and automations, but also for the MQTT API, where HA doesn't let us know which color mode
// was used for some reason.
std::set<ColorMode> suitable_modes = this->get_suitable_color_modes_();
// Compute intersection of suitable and supported modes using bitwise AND
color_mode_bitmask_t intersection = this->get_suitable_color_modes_mask_() & supported_modes.get_mask();
// Don't change if the current mode is suitable.
if (suitable_modes.count(current_mode) > 0) {
// Don't change if the current mode is in the intersection (suitable AND supported)
if (ColorModeMask::mask_contains(intersection, current_mode)) {
ESP_LOGI(TAG, "'%s': color mode not specified; retaining %s", this->parent_->get_name().c_str(),
LOG_STR_ARG(color_mode_to_human(current_mode)));
return current_mode;
}
// Use the preferred suitable mode.
for (auto mode : suitable_modes) {
if (supported_modes.count(mode) == 0)
continue;
if (intersection != 0) {
ColorMode mode = ColorModeMask::first_mode_from_mask(intersection);
ESP_LOGI(TAG, "'%s': color mode not specified; using %s", this->parent_->get_name().c_str(),
LOG_STR_ARG(color_mode_to_human(mode)));
return mode;
@@ -451,7 +450,7 @@ ColorMode LightCall::compute_color_mode_() {
LOG_STR_ARG(color_mode_to_human(color_mode)));
return color_mode;
}
std::set<ColorMode> LightCall::get_suitable_color_modes_() {
color_mode_bitmask_t LightCall::get_suitable_color_modes_mask_() {
bool has_white = this->has_white() && this->white_ > 0.0f;
bool has_ct = this->has_color_temperature();
bool has_cwww =
@@ -459,36 +458,44 @@ std::set<ColorMode> LightCall::get_suitable_color_modes_() {
bool has_rgb = (this->has_color_brightness() && this->color_brightness_ > 0.0f) ||
(this->has_red() || this->has_green() || this->has_blue());
// Build key from flags: [rgb][cwww][ct][white]
// Build key from flags: [rgb][cwww][ct][white]
#define KEY(white, ct, cwww, rgb) ((white) << 0 | (ct) << 1 | (cwww) << 2 | (rgb) << 3)
uint8_t key = KEY(has_white, has_ct, has_cwww, has_rgb);
switch (key) {
case KEY(true, false, false, false): // white only
return {ColorMode::WHITE, ColorMode::RGB_WHITE, ColorMode::RGB_COLOR_TEMPERATURE, ColorMode::COLD_WARM_WHITE,
ColorMode::RGB_COLD_WARM_WHITE};
return ColorModeMask({ColorMode::WHITE, ColorMode::RGB_WHITE, ColorMode::RGB_COLOR_TEMPERATURE,
ColorMode::COLD_WARM_WHITE, ColorMode::RGB_COLD_WARM_WHITE})
.get_mask();
case KEY(false, true, false, false): // ct only
return {ColorMode::COLOR_TEMPERATURE, ColorMode::RGB_COLOR_TEMPERATURE, ColorMode::COLD_WARM_WHITE,
ColorMode::RGB_COLD_WARM_WHITE};
return ColorModeMask({ColorMode::COLOR_TEMPERATURE, ColorMode::RGB_COLOR_TEMPERATURE, ColorMode::COLD_WARM_WHITE,
ColorMode::RGB_COLD_WARM_WHITE})
.get_mask();
case KEY(true, true, false, false): // white + ct
return {ColorMode::COLD_WARM_WHITE, ColorMode::RGB_COLOR_TEMPERATURE, ColorMode::RGB_COLD_WARM_WHITE};
return ColorModeMask(
{ColorMode::COLD_WARM_WHITE, ColorMode::RGB_COLOR_TEMPERATURE, ColorMode::RGB_COLD_WARM_WHITE})
.get_mask();
case KEY(false, false, true, false): // cwww only
return {ColorMode::COLD_WARM_WHITE, ColorMode::RGB_COLD_WARM_WHITE};
return ColorModeMask({ColorMode::COLD_WARM_WHITE, ColorMode::RGB_COLD_WARM_WHITE}).get_mask();
case KEY(false, false, false, false): // none
return {ColorMode::RGB_WHITE, ColorMode::RGB_COLOR_TEMPERATURE, ColorMode::RGB_COLD_WARM_WHITE, ColorMode::RGB,
ColorMode::WHITE, ColorMode::COLOR_TEMPERATURE, ColorMode::COLD_WARM_WHITE};
return ColorModeMask({ColorMode::RGB_WHITE, ColorMode::RGB_COLOR_TEMPERATURE, ColorMode::RGB_COLD_WARM_WHITE,
ColorMode::RGB, ColorMode::WHITE, ColorMode::COLOR_TEMPERATURE, ColorMode::COLD_WARM_WHITE})
.get_mask();
case KEY(true, false, false, true): // rgb + white
return {ColorMode::RGB_WHITE, ColorMode::RGB_COLOR_TEMPERATURE, ColorMode::RGB_COLD_WARM_WHITE};
return ColorModeMask({ColorMode::RGB_WHITE, ColorMode::RGB_COLOR_TEMPERATURE, ColorMode::RGB_COLD_WARM_WHITE})
.get_mask();
case KEY(false, true, false, true): // rgb + ct
case KEY(true, true, false, true): // rgb + white + ct
return {ColorMode::RGB_COLOR_TEMPERATURE, ColorMode::RGB_COLD_WARM_WHITE};
return ColorModeMask({ColorMode::RGB_COLOR_TEMPERATURE, ColorMode::RGB_COLD_WARM_WHITE}).get_mask();
case KEY(false, false, true, true): // rgb + cwww
return {ColorMode::RGB_COLD_WARM_WHITE};
return ColorModeMask({ColorMode::RGB_COLD_WARM_WHITE}).get_mask();
case KEY(false, false, false, true): // rgb only
return {ColorMode::RGB, ColorMode::RGB_WHITE, ColorMode::RGB_COLOR_TEMPERATURE, ColorMode::RGB_COLD_WARM_WHITE};
return ColorModeMask({ColorMode::RGB, ColorMode::RGB_WHITE, ColorMode::RGB_COLOR_TEMPERATURE,
ColorMode::RGB_COLD_WARM_WHITE})
.get_mask();
default:
return {}; // conflicting flags
return 0; // conflicting flags
}
#undef KEY

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@@ -1,7 +1,6 @@
#pragma once
#include "light_color_values.h"
#include <set>
namespace esphome {
@@ -186,8 +185,8 @@ class LightCall {
//// Compute the color mode that should be used for this call.
ColorMode compute_color_mode_();
/// Get potential color modes for this light call.
std::set<ColorMode> get_suitable_color_modes_();
/// Get potential color modes bitmask for this light call.
color_mode_bitmask_t get_suitable_color_modes_mask_();
/// Some color modes also can be set using non-native parameters, transform those calls.
void transform_parameters_();

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@@ -43,7 +43,6 @@ void LightJSONSchema::dump_json(LightState &state, JsonObject root) {
}
auto values = state.remote_values;
auto traits = state.get_output()->get_traits();
const auto color_mode = values.get_color_mode();
const char *mode_str = get_color_mode_json_str(color_mode);

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@@ -191,11 +191,9 @@ void LightState::current_values_as_brightness(float *brightness) {
this->current_values.as_brightness(brightness, this->gamma_correct_);
}
void LightState::current_values_as_rgb(float *red, float *green, float *blue, bool color_interlock) {
auto traits = this->get_traits();
this->current_values.as_rgb(red, green, blue, this->gamma_correct_, false);
}
void LightState::current_values_as_rgbw(float *red, float *green, float *blue, float *white, bool color_interlock) {
auto traits = this->get_traits();
this->current_values.as_rgbw(red, green, blue, white, this->gamma_correct_, false);
}
void LightState::current_values_as_rgbww(float *red, float *green, float *blue, float *cold_white, float *warm_white,
@@ -209,7 +207,6 @@ void LightState::current_values_as_rgbct(float *red, float *green, float *blue,
white_brightness, this->gamma_correct_);
}
void LightState::current_values_as_cwww(float *cold_white, float *warm_white, bool constant_brightness) {
auto traits = this->get_traits();
this->current_values.as_cwww(cold_white, warm_white, this->gamma_correct_, constant_brightness);
}
void LightState::current_values_as_ct(float *color_temperature, float *white_brightness) {

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@@ -2,7 +2,6 @@
#include "esphome/core/helpers.h"
#include "color_mode.h"
#include <set>
namespace esphome {
@@ -19,18 +18,17 @@ class LightTraits {
public:
LightTraits() = default;
const std::set<ColorMode> &get_supported_color_modes() const { return this->supported_color_modes_; }
void set_supported_color_modes(std::set<ColorMode> supported_color_modes) {
this->supported_color_modes_ = std::move(supported_color_modes);
const ColorModeMask &get_supported_color_modes() const { return this->supported_color_modes_; }
void set_supported_color_modes(ColorModeMask supported_color_modes) {
this->supported_color_modes_ = supported_color_modes;
}
void set_supported_color_modes(std::initializer_list<ColorMode> modes) {
this->supported_color_modes_ = ColorModeMask(modes);
}
bool supports_color_mode(ColorMode color_mode) const { return this->supported_color_modes_.count(color_mode); }
bool supports_color_mode(ColorMode color_mode) const { return this->supported_color_modes_.contains(color_mode); }
bool supports_color_capability(ColorCapability color_capability) const {
for (auto mode : this->supported_color_modes_) {
if (mode & color_capability)
return true;
}
return false;
return this->supported_color_modes_.has_capability(color_capability);
}
ESPDEPRECATED("get_supports_brightness() is deprecated, use color modes instead.", "v1.21")
@@ -59,19 +57,9 @@ class LightTraits {
void set_max_mireds(float max_mireds) { this->max_mireds_ = max_mireds; }
protected:
#ifdef USE_API
// The API connection is a friend class to access internal methods
friend class api::APIConnection;
// This method returns a reference to the internal color modes set.
// It is used by the API to avoid copying data when encoding messages.
// Warning: Do not use this method outside of the API connection code.
// It returns a reference to internal data that can be invalidated.
const std::set<ColorMode> &get_supported_color_modes_for_api_() const { return this->supported_color_modes_; }
#endif
std::set<ColorMode> supported_color_modes_{};
float min_mireds_{0};
float max_mireds_{0};
ColorModeMask supported_color_modes_{};
};
} // namespace light

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@@ -1415,7 +1415,13 @@ class RepeatedTypeInfo(TypeInfo):
super().__init__(field)
# Check if this is a pointer field by looking for container_pointer option
self._container_type = get_field_opt(field, pb.container_pointer, "")
self._use_pointer = bool(self._container_type)
# Check for non-template container pointer
self._container_no_template = get_field_opt(
field, pb.container_pointer_no_template, ""
)
self._use_pointer = bool(self._container_type) or bool(
self._container_no_template
)
# Check if this should use FixedVector instead of std::vector
self._use_fixed_vector = get_field_opt(field, pb.fixed_vector, False)
@@ -1434,12 +1440,18 @@ class RepeatedTypeInfo(TypeInfo):
@property
def cpp_type(self) -> str:
if self._container_no_template:
# Non-template container: use type as-is without appending template parameters
return f"const {self._container_no_template}*"
if self._use_pointer and self._container_type:
# For pointer fields, use the specified container type
# If the container type already includes the element type (e.g., std::set<climate::ClimateMode>)
# use it as-is, otherwise append the element type
# Two cases:
# 1. "std::set<climate::ClimateMode>" - Full type with template params, use as-is
# 2. "std::set" - No <>, append the element type
if "<" in self._container_type and ">" in self._container_type:
# Has template parameters specified, use as-is
return f"const {self._container_type}*"
# No <> at all, append element type
return f"const {self._container_type}<{self._ti.cpp_type}>*"
if self._use_fixed_vector:
return f"FixedVector<{self._ti.cpp_type}>"

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@@ -8,6 +8,7 @@ import asyncio
from typing import Any
from aioesphomeapi import LightState
from aioesphomeapi.model import ColorMode
import pytest
from .types import APIClientConnectedFactory, RunCompiledFunction
@@ -35,10 +36,51 @@ async def test_light_calls(
# Get the light entities
entities = await client.list_entities_services()
lights = [e for e in entities[0] if e.object_id.startswith("test_")]
assert len(lights) >= 2 # Should have RGBCW and RGB lights
assert len(lights) >= 3 # Should have RGBCW, RGB, and Binary lights
rgbcw_light = next(light for light in lights if "RGBCW" in light.name)
rgb_light = next(light for light in lights if "RGB Light" in light.name)
binary_light = next(light for light in lights if "Binary" in light.name)
# Test color mode encoding: Verify supported_color_modes contains actual ColorMode enum values
# not bit positions. This is critical - the iterator must convert bit positions to actual
# ColorMode enum values for API encoding.
# RGBCW light (rgbww platform) should support RGB_COLD_WARM_WHITE mode
assert ColorMode.RGB_COLD_WARM_WHITE in rgbcw_light.supported_color_modes, (
f"RGBCW light missing RGB_COLD_WARM_WHITE mode. Got: {rgbcw_light.supported_color_modes}"
)
# Verify it's the actual enum value, not bit position
assert ColorMode.RGB_COLD_WARM_WHITE.value in [
mode.value for mode in rgbcw_light.supported_color_modes
], (
f"RGBCW light has wrong color mode values. Expected {ColorMode.RGB_COLD_WARM_WHITE.value} "
f"(RGB_COLD_WARM_WHITE), got: {[mode.value for mode in rgbcw_light.supported_color_modes]}"
)
# RGB light should support RGB mode
assert ColorMode.RGB in rgb_light.supported_color_modes, (
f"RGB light missing RGB color mode. Got: {rgb_light.supported_color_modes}"
)
# Verify it's the actual enum value, not bit position
assert ColorMode.RGB.value in [
mode.value for mode in rgb_light.supported_color_modes
], (
f"RGB light has wrong color mode values. Expected {ColorMode.RGB.value} (RGB), got: "
f"{[mode.value for mode in rgb_light.supported_color_modes]}"
)
# Binary light (on/off only) should support ON_OFF mode
assert ColorMode.ON_OFF in binary_light.supported_color_modes, (
f"Binary light missing ON_OFF color mode. Got: {binary_light.supported_color_modes}"
)
# Verify it's the actual enum value, not bit position
assert ColorMode.ON_OFF.value in [
mode.value for mode in binary_light.supported_color_modes
], (
f"Binary light has wrong color mode values. Expected {ColorMode.ON_OFF.value} (ON_OFF), got: "
f"{[mode.value for mode in binary_light.supported_color_modes]}"
)
async def wait_for_state_change(key: int, timeout: float = 1.0) -> Any:
"""Wait for a state change for the given entity key."""