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[mitsubishi_cn105] Add basic swing support (#15653)

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Co-authored-by: pre-commit-ci-lite[bot] <117423508+pre-commit-ci-lite[bot]@users.noreply.github.com>
Co-authored-by: Copilot Autofix powered by AI <175728472+Copilot@users.noreply.github.com>
This commit is contained in:
Boris Krivonog
2026-05-25 23:46:33 +02:00
committed by GitHub
parent 61e8830a3c
commit a257edba62
7 changed files with 286 additions and 1 deletions
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165
tests/components/mitsubishi_cn105/climate/mitsubishi_cn105_climate_tests.cpp Normal file
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@@ -0,0 +1,165 @@
#include "../common.h"
namespace esphome::mitsubishi_cn105::testing {
TEST(MitsubishiCN105ClimateTests, SupportedSwingModeOffLeavesTraitsEmpty) {
TestableMitsubishiCN105Climate sut;
sut.set_supported_swing_mode(climate::CLIMATE_SWING_OFF);
EXPECT_FALSE(sut.traits().get_supports_swing_modes());
}
TEST(MitsubishiCN105ClimateTests, SupportedSwingModeVerticalExposesOffAndVertical) {
TestableMitsubishiCN105Climate sut;
sut.set_supported_swing_mode(climate::CLIMATE_SWING_VERTICAL);
EXPECT_TRUE(sut.traits().supports_swing_mode(climate::CLIMATE_SWING_OFF));
EXPECT_TRUE(sut.traits().supports_swing_mode(climate::CLIMATE_SWING_VERTICAL));
EXPECT_FALSE(sut.traits().supports_swing_mode(climate::CLIMATE_SWING_HORIZONTAL));
EXPECT_FALSE(sut.traits().supports_swing_mode(climate::CLIMATE_SWING_BOTH));
}
TEST(MitsubishiCN105ClimateTests, SupportedSwingModeHorizontalExposesOffAndHorizontal) {
TestableMitsubishiCN105Climate sut;
sut.set_supported_swing_mode(climate::CLIMATE_SWING_HORIZONTAL);
EXPECT_TRUE(sut.traits().supports_swing_mode(climate::CLIMATE_SWING_OFF));
EXPECT_FALSE(sut.traits().supports_swing_mode(climate::CLIMATE_SWING_VERTICAL));
EXPECT_TRUE(sut.traits().supports_swing_mode(climate::CLIMATE_SWING_HORIZONTAL));
EXPECT_FALSE(sut.traits().supports_swing_mode(climate::CLIMATE_SWING_BOTH));
}
TEST(MitsubishiCN105ClimateTests, SupportedSwingModeBothExposesAllExpectedModes) {
TestableMitsubishiCN105Climate sut;
sut.set_supported_swing_mode(climate::CLIMATE_SWING_BOTH);
EXPECT_TRUE(sut.traits().supports_swing_mode(climate::CLIMATE_SWING_OFF));
EXPECT_TRUE(sut.traits().supports_swing_mode(climate::CLIMATE_SWING_VERTICAL));
EXPECT_TRUE(sut.traits().supports_swing_mode(climate::CLIMATE_SWING_HORIZONTAL));
EXPECT_TRUE(sut.traits().supports_swing_mode(climate::CLIMATE_SWING_BOTH));
}
TEST(MitsubishiCN105ClimateTests, ApplyValuesMapsVerticalSwingWhenSupported) {
TestableMitsubishiCN105Climate sut;
sut.set_supported_swing_mode(climate::CLIMATE_SWING_VERTICAL);
sut.status().vane_mode = MitsubishiCN105::VaneMode::SWING;
sut.status().wide_vane_mode = MitsubishiCN105::WideVaneMode::CENTER;
sut.apply_values_();
EXPECT_EQ(sut.swing_mode, climate::CLIMATE_SWING_VERTICAL);
}
TEST(MitsubishiCN105ClimateTests, ApplyValuesMapsHorizontalSwingWhenSupported) {
TestableMitsubishiCN105Climate sut;
sut.set_supported_swing_mode(climate::CLIMATE_SWING_HORIZONTAL);
sut.status().vane_mode = MitsubishiCN105::VaneMode::AUTO;
sut.status().wide_vane_mode = MitsubishiCN105::WideVaneMode::SWING;
sut.apply_values_();
EXPECT_EQ(sut.swing_mode, climate::CLIMATE_SWING_HORIZONTAL);
}
TEST(MitsubishiCN105ClimateTests, ApplyValuesMapsBothSwingWhenSupported) {
TestableMitsubishiCN105Climate sut;
sut.set_supported_swing_mode(climate::CLIMATE_SWING_BOTH);
sut.status().vane_mode = MitsubishiCN105::VaneMode::SWING;
sut.status().wide_vane_mode = MitsubishiCN105::WideVaneMode::SWING;
sut.apply_values_();
EXPECT_EQ(sut.swing_mode, climate::CLIMATE_SWING_BOTH);
}
TEST(MitsubishiCN105ClimateTests, ApplyValuesMapsSwingOffWhenNoSwingActive) {
TestableMitsubishiCN105Climate sut;
sut.set_supported_swing_mode(climate::CLIMATE_SWING_BOTH);
sut.status().vane_mode = MitsubishiCN105::VaneMode::POSITION_3;
sut.status().wide_vane_mode = MitsubishiCN105::WideVaneMode::CENTER;
sut.apply_values_();
EXPECT_EQ(sut.swing_mode, climate::CLIMATE_SWING_OFF);
}
TEST(MitsubishiCN105ClimateTests, ApplyValuesRemembersLastNonSwingPositions) {
TestableMitsubishiCN105Climate sut;
sut.set_supported_swing_mode(climate::CLIMATE_SWING_BOTH);
sut.status().vane_mode = MitsubishiCN105::VaneMode::POSITION_4;
sut.status().wide_vane_mode = MitsubishiCN105::WideVaneMode::RIGHT;
sut.apply_values_();
EXPECT_EQ(sut.last_non_swing_vane_mode_, MitsubishiCN105::VaneMode::POSITION_4);
EXPECT_EQ(sut.last_non_swing_wide_vane_mode_, MitsubishiCN105::WideVaneMode::RIGHT);
sut.status().vane_mode = MitsubishiCN105::VaneMode::SWING;
sut.status().wide_vane_mode = MitsubishiCN105::WideVaneMode::SWING;
sut.apply_values_();
EXPECT_EQ(sut.last_non_swing_vane_mode_, MitsubishiCN105::VaneMode::POSITION_4);
EXPECT_EQ(sut.last_non_swing_wide_vane_mode_, MitsubishiCN105::WideVaneMode::RIGHT);
EXPECT_EQ(sut.swing_mode, climate::CLIMATE_SWING_BOTH);
}
TEST(MitsubishiCN105ClimateTests, ApplyValuesDoesNotOverwriteRememberedPositionWithUnknownValues) {
TestableMitsubishiCN105Climate sut;
sut.set_supported_swing_mode(climate::CLIMATE_SWING_BOTH);
sut.last_non_swing_vane_mode_ = MitsubishiCN105::VaneMode::POSITION_2;
sut.last_non_swing_wide_vane_mode_ = MitsubishiCN105::WideVaneMode::LEFT;
sut.status().vane_mode = MitsubishiCN105::VaneMode::UNKNOWN;
sut.status().wide_vane_mode = MitsubishiCN105::WideVaneMode::UNKNOWN;
sut.apply_values_();
EXPECT_EQ(sut.last_non_swing_vane_mode_, MitsubishiCN105::VaneMode::POSITION_2);
EXPECT_EQ(sut.last_non_swing_wide_vane_mode_, MitsubishiCN105::WideVaneMode::LEFT);
EXPECT_EQ(sut.swing_mode, climate::CLIMATE_SWING_OFF);
}
TEST(MitsubishiCN105ClimateTests, ApplyValuesIgnoresUnsupportedVerticalSwingState) {
TestableMitsubishiCN105Climate sut;
sut.set_supported_swing_mode(climate::CLIMATE_SWING_HORIZONTAL);
sut.status().vane_mode = MitsubishiCN105::VaneMode::SWING;
sut.status().wide_vane_mode = MitsubishiCN105::WideVaneMode::CENTER;
sut.apply_values_();
EXPECT_EQ(sut.swing_mode, climate::CLIMATE_SWING_OFF);
}
TEST(MitsubishiCN105ClimateTests, ApplyValuesIgnoresUnsupportedHorizontalSwingState) {
TestableMitsubishiCN105Climate sut;
sut.set_supported_swing_mode(climate::CLIMATE_SWING_VERTICAL);
sut.status().vane_mode = MitsubishiCN105::VaneMode::AUTO;
sut.status().wide_vane_mode = MitsubishiCN105::WideVaneMode::SWING;
sut.apply_values_();
EXPECT_EQ(sut.swing_mode, climate::CLIMATE_SWING_OFF);
}
} // namespace esphome::mitsubishi_cn105::testing

11
tests/components/mitsubishi_cn105/common.h
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@@ -8,6 +8,7 @@
#include <vector>
#include "esphome/components/uart/uart_component.h"
#include "esphome/components/mitsubishi_cn105/mitsubishi_cn105.h"
#include "esphome/components/mitsubishi_cn105/mitsubishi_cn105_climate.h"
namespace esphome::mitsubishi_cn105::testing {
@@ -44,6 +45,7 @@ class TestableMitsubishiCN105 : public MitsubishiCN105 {
using MitsubishiCN105::State;
using MitsubishiCN105::UpdateFlag;
using MitsubishiCN105::state_;
using MitsubishiCN105::status_;
using MitsubishiCN105::operation_start_ms_;
using MitsubishiCN105::use_temperature_encoding_b_;
using MitsubishiCN105::set_wide_vane_high_bit_;
@@ -58,4 +60,13 @@ class TestableMitsubishiCN105 : public MitsubishiCN105 {
void set_current_time(uint32_t ms) { test_loop_time_ms = ms; }
};
class TestableMitsubishiCN105Climate : public MitsubishiCN105Climate {
public:
using MitsubishiCN105Climate::apply_values_;
using MitsubishiCN105Climate::last_non_swing_vane_mode_;
using MitsubishiCN105Climate::last_non_swing_wide_vane_mode_;
MitsubishiCN105::Status &status() { return static_cast<TestableMitsubishiCN105 &>(this->hp_).status_; }
};
} // namespace esphome::mitsubishi_cn105::testing

3
tests/components/mitsubishi_cn105/common.yaml
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@@ -3,6 +3,9 @@ climate:
id: ac
name: "AC Test"
uart_id: uart_bus
update_interval: 30s
current_temperature_min_interval: 120s
supported_swing_modes: BOTH
esphome:
on_boot: