diff --git a/esphome/components/thermostat/thermostat_climate.cpp b/esphome/components/thermostat/thermostat_climate.cpp index f05730b369..e2db3ca5e1 100644 --- a/esphome/components/thermostat/thermostat_climate.cpp +++ b/esphome/components/thermostat/thermostat_climate.cpp @@ -11,11 +11,11 @@ static const char *const TAG = "thermostat.climate"; void ThermostatClimate::setup() { if (this->use_startup_delay_) { // start timers so that no actions are called for a moment - this->start_timer_(thermostat::TIMER_COOLING_OFF); - this->start_timer_(thermostat::TIMER_FANNING_OFF); - this->start_timer_(thermostat::TIMER_HEATING_OFF); + this->start_timer_(thermostat::THERMOSTAT_TIMER_COOLING_OFF); + this->start_timer_(thermostat::THERMOSTAT_TIMER_FANNING_OFF); + this->start_timer_(thermostat::THERMOSTAT_TIMER_HEATING_OFF); if (this->supports_fan_only_action_uses_fan_mode_timer_) - this->start_timer_(thermostat::TIMER_FAN_MODE); + this->start_timer_(thermostat::THERMOSTAT_TIMER_FAN_MODE); } // add a callback so that whenever the sensor state changes we can take action this->sensor_->add_on_state_callback([this](float state) { @@ -307,9 +307,10 @@ climate::ClimateAction ThermostatClimate::compute_action_(const bool ignore_time return climate::CLIMATE_ACTION_OFF; } // do not change the action if an "ON" timer is running - if ((!ignore_timers) && - (this->timer_active_(thermostat::TIMER_IDLE_ON) || this->timer_active_(thermostat::TIMER_COOLING_ON) || - this->timer_active_(thermostat::TIMER_FANNING_ON) || this->timer_active_(thermostat::TIMER_HEATING_ON))) { + if ((!ignore_timers) && (this->timer_active_(thermostat::THERMOSTAT_TIMER_IDLE_ON) || + this->timer_active_(thermostat::THERMOSTAT_TIMER_COOLING_ON) || + this->timer_active_(thermostat::THERMOSTAT_TIMER_FANNING_ON) || + this->timer_active_(thermostat::THERMOSTAT_TIMER_HEATING_ON))) { return this->action; } @@ -444,18 +445,18 @@ void ThermostatClimate::switch_to_action_(climate::ClimateAction action, bool pu case climate::CLIMATE_ACTION_OFF: case climate::CLIMATE_ACTION_IDLE: if (this->idle_action_ready_()) { - this->start_timer_(thermostat::TIMER_IDLE_ON); + this->start_timer_(thermostat::THERMOSTAT_TIMER_IDLE_ON); if (this->action == climate::CLIMATE_ACTION_COOLING) - this->start_timer_(thermostat::TIMER_COOLING_OFF); + this->start_timer_(thermostat::THERMOSTAT_TIMER_COOLING_OFF); if (this->action == climate::CLIMATE_ACTION_FAN) { if (this->supports_fan_only_action_uses_fan_mode_timer_) { - this->start_timer_(thermostat::TIMER_FAN_MODE); + this->start_timer_(thermostat::THERMOSTAT_TIMER_FAN_MODE); } else { - this->start_timer_(thermostat::TIMER_FANNING_OFF); + this->start_timer_(thermostat::THERMOSTAT_TIMER_FANNING_OFF); } } if (this->action == climate::CLIMATE_ACTION_HEATING) - this->start_timer_(thermostat::TIMER_HEATING_OFF); + this->start_timer_(thermostat::THERMOSTAT_TIMER_HEATING_OFF); // trig = this->idle_action_trigger_; ESP_LOGVV(TAG, "Switching to IDLE/OFF action"); this->cooling_max_runtime_exceeded_ = false; @@ -465,10 +466,10 @@ void ThermostatClimate::switch_to_action_(climate::ClimateAction action, bool pu break; case climate::CLIMATE_ACTION_COOLING: if (this->cooling_action_ready_()) { - this->start_timer_(thermostat::TIMER_COOLING_ON); - this->start_timer_(thermostat::TIMER_COOLING_MAX_RUN_TIME); + this->start_timer_(thermostat::THERMOSTAT_TIMER_COOLING_ON); + this->start_timer_(thermostat::THERMOSTAT_TIMER_COOLING_MAX_RUN_TIME); if (this->supports_fan_with_cooling_) { - this->start_timer_(thermostat::TIMER_FANNING_ON); + this->start_timer_(thermostat::THERMOSTAT_TIMER_FANNING_ON); trig_fan = this->fan_only_action_trigger_; } this->cooling_max_runtime_exceeded_ = false; @@ -479,10 +480,10 @@ void ThermostatClimate::switch_to_action_(climate::ClimateAction action, bool pu break; case climate::CLIMATE_ACTION_HEATING: if (this->heating_action_ready_()) { - this->start_timer_(thermostat::TIMER_HEATING_ON); - this->start_timer_(thermostat::TIMER_HEATING_MAX_RUN_TIME); + this->start_timer_(thermostat::THERMOSTAT_TIMER_HEATING_ON); + this->start_timer_(thermostat::THERMOSTAT_TIMER_HEATING_MAX_RUN_TIME); if (this->supports_fan_with_heating_) { - this->start_timer_(thermostat::TIMER_FANNING_ON); + this->start_timer_(thermostat::THERMOSTAT_TIMER_FANNING_ON); trig_fan = this->fan_only_action_trigger_; } this->heating_max_runtime_exceeded_ = false; @@ -494,9 +495,9 @@ void ThermostatClimate::switch_to_action_(climate::ClimateAction action, bool pu case climate::CLIMATE_ACTION_FAN: if (this->fanning_action_ready_()) { if (this->supports_fan_only_action_uses_fan_mode_timer_) { - this->start_timer_(thermostat::TIMER_FAN_MODE); + this->start_timer_(thermostat::THERMOSTAT_TIMER_FAN_MODE); } else { - this->start_timer_(thermostat::TIMER_FANNING_ON); + this->start_timer_(thermostat::THERMOSTAT_TIMER_FANNING_ON); } trig = this->fan_only_action_trigger_; ESP_LOGVV(TAG, "Switching to FAN_ONLY action"); @@ -505,8 +506,8 @@ void ThermostatClimate::switch_to_action_(climate::ClimateAction action, bool pu break; case climate::CLIMATE_ACTION_DRYING: if (this->drying_action_ready_()) { - this->start_timer_(thermostat::TIMER_COOLING_ON); - this->start_timer_(thermostat::TIMER_FANNING_ON); + this->start_timer_(thermostat::THERMOSTAT_TIMER_COOLING_ON); + this->start_timer_(thermostat::THERMOSTAT_TIMER_FANNING_ON); trig = this->dry_action_trigger_; ESP_LOGVV(TAG, "Switching to DRYING action"); action_ready = true; @@ -549,14 +550,14 @@ void ThermostatClimate::switch_to_supplemental_action_(climate::ClimateAction ac switch (action) { case climate::CLIMATE_ACTION_OFF: case climate::CLIMATE_ACTION_IDLE: - this->cancel_timer_(thermostat::TIMER_COOLING_MAX_RUN_TIME); - this->cancel_timer_(thermostat::TIMER_HEATING_MAX_RUN_TIME); + this->cancel_timer_(thermostat::THERMOSTAT_TIMER_COOLING_MAX_RUN_TIME); + this->cancel_timer_(thermostat::THERMOSTAT_TIMER_HEATING_MAX_RUN_TIME); break; case climate::CLIMATE_ACTION_COOLING: - this->cancel_timer_(thermostat::TIMER_COOLING_MAX_RUN_TIME); + this->cancel_timer_(thermostat::THERMOSTAT_TIMER_COOLING_MAX_RUN_TIME); break; case climate::CLIMATE_ACTION_HEATING: - this->cancel_timer_(thermostat::TIMER_HEATING_MAX_RUN_TIME); + this->cancel_timer_(thermostat::THERMOSTAT_TIMER_HEATING_MAX_RUN_TIME); break; default: return; @@ -571,15 +572,15 @@ void ThermostatClimate::trigger_supplemental_action_() { switch (this->supplemental_action_) { case climate::CLIMATE_ACTION_COOLING: - if (!this->timer_active_(thermostat::TIMER_COOLING_MAX_RUN_TIME)) { - this->start_timer_(thermostat::TIMER_COOLING_MAX_RUN_TIME); + if (!this->timer_active_(thermostat::THERMOSTAT_TIMER_COOLING_MAX_RUN_TIME)) { + this->start_timer_(thermostat::THERMOSTAT_TIMER_COOLING_MAX_RUN_TIME); } trig = this->supplemental_cool_action_trigger_; ESP_LOGVV(TAG, "Calling supplemental COOLING action"); break; case climate::CLIMATE_ACTION_HEATING: - if (!this->timer_active_(thermostat::TIMER_HEATING_MAX_RUN_TIME)) { - this->start_timer_(thermostat::TIMER_HEATING_MAX_RUN_TIME); + if (!this->timer_active_(thermostat::THERMOSTAT_TIMER_HEATING_MAX_RUN_TIME)) { + this->start_timer_(thermostat::THERMOSTAT_TIMER_HEATING_MAX_RUN_TIME); } trig = this->supplemental_heat_action_trigger_; ESP_LOGVV(TAG, "Calling supplemental HEATING action"); @@ -657,7 +658,7 @@ void ThermostatClimate::switch_to_fan_mode_(climate::ClimateFanMode fan_mode, bo this->prev_fan_mode_trigger_->stop_action(); this->prev_fan_mode_trigger_ = nullptr; } - this->start_timer_(thermostat::TIMER_FAN_MODE); + this->start_timer_(thermostat::THERMOSTAT_TIMER_FAN_MODE); if (trig != nullptr) { trig->trigger(); } @@ -758,35 +759,44 @@ void ThermostatClimate::switch_to_swing_mode_(climate::ClimateSwingMode swing_mo bool ThermostatClimate::idle_action_ready_() { if (this->supports_fan_only_action_uses_fan_mode_timer_) { - return !(this->timer_active_(thermostat::TIMER_COOLING_ON) || this->timer_active_(thermostat::TIMER_FAN_MODE) || - this->timer_active_(thermostat::TIMER_HEATING_ON)); + return !(this->timer_active_(thermostat::THERMOSTAT_TIMER_COOLING_ON) || + this->timer_active_(thermostat::THERMOSTAT_TIMER_FAN_MODE) || + this->timer_active_(thermostat::THERMOSTAT_TIMER_HEATING_ON)); } - return !(this->timer_active_(thermostat::TIMER_COOLING_ON) || this->timer_active_(thermostat::TIMER_FANNING_ON) || - this->timer_active_(thermostat::TIMER_HEATING_ON)); + return !(this->timer_active_(thermostat::THERMOSTAT_TIMER_COOLING_ON) || + this->timer_active_(thermostat::THERMOSTAT_TIMER_FANNING_ON) || + this->timer_active_(thermostat::THERMOSTAT_TIMER_HEATING_ON)); } bool ThermostatClimate::cooling_action_ready_() { - return !(this->timer_active_(thermostat::TIMER_IDLE_ON) || this->timer_active_(thermostat::TIMER_FANNING_OFF) || - this->timer_active_(thermostat::TIMER_COOLING_OFF) || this->timer_active_(thermostat::TIMER_HEATING_ON)); + return !(this->timer_active_(thermostat::THERMOSTAT_TIMER_IDLE_ON) || + this->timer_active_(thermostat::THERMOSTAT_TIMER_FANNING_OFF) || + this->timer_active_(thermostat::THERMOSTAT_TIMER_COOLING_OFF) || + this->timer_active_(thermostat::THERMOSTAT_TIMER_HEATING_ON)); } bool ThermostatClimate::drying_action_ready_() { - return !(this->timer_active_(thermostat::TIMER_IDLE_ON) || this->timer_active_(thermostat::TIMER_FANNING_OFF) || - this->timer_active_(thermostat::TIMER_COOLING_OFF) || this->timer_active_(thermostat::TIMER_HEATING_ON)); + return !(this->timer_active_(thermostat::THERMOSTAT_TIMER_IDLE_ON) || + this->timer_active_(thermostat::THERMOSTAT_TIMER_FANNING_OFF) || + this->timer_active_(thermostat::THERMOSTAT_TIMER_COOLING_OFF) || + this->timer_active_(thermostat::THERMOSTAT_TIMER_HEATING_ON)); } -bool ThermostatClimate::fan_mode_ready_() { return !(this->timer_active_(thermostat::TIMER_FAN_MODE)); } +bool ThermostatClimate::fan_mode_ready_() { return !(this->timer_active_(thermostat::THERMOSTAT_TIMER_FAN_MODE)); } bool ThermostatClimate::fanning_action_ready_() { if (this->supports_fan_only_action_uses_fan_mode_timer_) { - return !(this->timer_active_(thermostat::TIMER_FAN_MODE)); + return !(this->timer_active_(thermostat::THERMOSTAT_TIMER_FAN_MODE)); } - return !(this->timer_active_(thermostat::TIMER_IDLE_ON) || this->timer_active_(thermostat::TIMER_FANNING_OFF)); + return !(this->timer_active_(thermostat::THERMOSTAT_TIMER_IDLE_ON) || + this->timer_active_(thermostat::THERMOSTAT_TIMER_FANNING_OFF)); } bool ThermostatClimate::heating_action_ready_() { - return !(this->timer_active_(thermostat::TIMER_IDLE_ON) || this->timer_active_(thermostat::TIMER_COOLING_ON) || - this->timer_active_(thermostat::TIMER_FANNING_OFF) || this->timer_active_(thermostat::TIMER_HEATING_OFF)); + return !(this->timer_active_(thermostat::THERMOSTAT_TIMER_IDLE_ON) || + this->timer_active_(thermostat::THERMOSTAT_TIMER_COOLING_ON) || + this->timer_active_(thermostat::THERMOSTAT_TIMER_FANNING_OFF) || + this->timer_active_(thermostat::THERMOSTAT_TIMER_HEATING_OFF)); } void ThermostatClimate::start_timer_(const ThermostatClimateTimerIndex timer_index) { @@ -1162,43 +1172,43 @@ void ThermostatClimate::set_heat_overrun(float overrun) { this->heating_overrun_ void ThermostatClimate::set_supplemental_cool_delta(float delta) { this->supplemental_cool_delta_ = delta; } void ThermostatClimate::set_supplemental_heat_delta(float delta) { this->supplemental_heat_delta_ = delta; } void ThermostatClimate::set_cooling_maximum_run_time_in_sec(uint32_t time) { - this->timer_[thermostat::TIMER_COOLING_MAX_RUN_TIME].time = + this->timer_[thermostat::THERMOSTAT_TIMER_COOLING_MAX_RUN_TIME].time = 1000 * (time < this->min_timer_duration_ ? this->min_timer_duration_ : time); } void ThermostatClimate::set_cooling_minimum_off_time_in_sec(uint32_t time) { - this->timer_[thermostat::TIMER_COOLING_OFF].time = + this->timer_[thermostat::THERMOSTAT_TIMER_COOLING_OFF].time = 1000 * (time < this->min_timer_duration_ ? this->min_timer_duration_ : time); } void ThermostatClimate::set_cooling_minimum_run_time_in_sec(uint32_t time) { - this->timer_[thermostat::TIMER_COOLING_ON].time = + this->timer_[thermostat::THERMOSTAT_TIMER_COOLING_ON].time = 1000 * (time < this->min_timer_duration_ ? this->min_timer_duration_ : time); } void ThermostatClimate::set_fan_mode_minimum_switching_time_in_sec(uint32_t time) { - this->timer_[thermostat::TIMER_FAN_MODE].time = + this->timer_[thermostat::THERMOSTAT_TIMER_FAN_MODE].time = 1000 * (time < this->min_timer_duration_ ? this->min_timer_duration_ : time); } void ThermostatClimate::set_fanning_minimum_off_time_in_sec(uint32_t time) { - this->timer_[thermostat::TIMER_FANNING_OFF].time = + this->timer_[thermostat::THERMOSTAT_TIMER_FANNING_OFF].time = 1000 * (time < this->min_timer_duration_ ? this->min_timer_duration_ : time); } void ThermostatClimate::set_fanning_minimum_run_time_in_sec(uint32_t time) { - this->timer_[thermostat::TIMER_FANNING_ON].time = + this->timer_[thermostat::THERMOSTAT_TIMER_FANNING_ON].time = 1000 * (time < this->min_timer_duration_ ? this->min_timer_duration_ : time); } void ThermostatClimate::set_heating_maximum_run_time_in_sec(uint32_t time) { - this->timer_[thermostat::TIMER_HEATING_MAX_RUN_TIME].time = + this->timer_[thermostat::THERMOSTAT_TIMER_HEATING_MAX_RUN_TIME].time = 1000 * (time < this->min_timer_duration_ ? this->min_timer_duration_ : time); } void ThermostatClimate::set_heating_minimum_off_time_in_sec(uint32_t time) { - this->timer_[thermostat::TIMER_HEATING_OFF].time = + this->timer_[thermostat::THERMOSTAT_TIMER_HEATING_OFF].time = 1000 * (time < this->min_timer_duration_ ? this->min_timer_duration_ : time); } void ThermostatClimate::set_heating_minimum_run_time_in_sec(uint32_t time) { - this->timer_[thermostat::TIMER_HEATING_ON].time = + this->timer_[thermostat::THERMOSTAT_TIMER_HEATING_ON].time = 1000 * (time < this->min_timer_duration_ ? this->min_timer_duration_ : time); } void ThermostatClimate::set_idle_minimum_time_in_sec(uint32_t time) { - this->timer_[thermostat::TIMER_IDLE_ON].time = + this->timer_[thermostat::THERMOSTAT_TIMER_IDLE_ON].time = 1000 * (time < this->min_timer_duration_ ? this->min_timer_duration_ : time); } void ThermostatClimate::set_sensor(sensor::Sensor *sensor) { this->sensor_ = sensor; } @@ -1327,13 +1337,14 @@ void ThermostatClimate::dump_config() { " Minimum Off Time: %" PRIu32 "s\n" " Minimum Run Time: %" PRIu32 "s", this->cooling_deadband_, this->cooling_overrun_, - this->timer_duration_(thermostat::TIMER_COOLING_OFF) / 1000, - this->timer_duration_(thermostat::TIMER_COOLING_ON) / 1000); - if ((this->supplemental_cool_delta_ > 0) || (this->timer_duration_(thermostat::TIMER_COOLING_MAX_RUN_TIME) > 0)) { + this->timer_duration_(thermostat::THERMOSTAT_TIMER_COOLING_OFF) / 1000, + this->timer_duration_(thermostat::THERMOSTAT_TIMER_COOLING_ON) / 1000); + if ((this->supplemental_cool_delta_ > 0) || + (this->timer_duration_(thermostat::THERMOSTAT_TIMER_COOLING_MAX_RUN_TIME) > 0)) { ESP_LOGCONFIG(TAG, " Maximum Run Time: %" PRIu32 "s\n" " Supplemental Delta: %.1f°C", - this->timer_duration_(thermostat::TIMER_COOLING_MAX_RUN_TIME) / 1000, + this->timer_duration_(thermostat::THERMOSTAT_TIMER_COOLING_MAX_RUN_TIME) / 1000, this->supplemental_cool_delta_); } } @@ -1345,13 +1356,14 @@ void ThermostatClimate::dump_config() { " Minimum Off Time: %" PRIu32 "s\n" " Minimum Run Time: %" PRIu32 "s", this->heating_deadband_, this->heating_overrun_, - this->timer_duration_(thermostat::TIMER_HEATING_OFF) / 1000, - this->timer_duration_(thermostat::TIMER_HEATING_ON) / 1000); - if ((this->supplemental_heat_delta_ > 0) || (this->timer_duration_(thermostat::TIMER_HEATING_MAX_RUN_TIME) > 0)) { + this->timer_duration_(thermostat::THERMOSTAT_TIMER_HEATING_OFF) / 1000, + this->timer_duration_(thermostat::THERMOSTAT_TIMER_HEATING_ON) / 1000); + if ((this->supplemental_heat_delta_ > 0) || + (this->timer_duration_(thermostat::THERMOSTAT_TIMER_HEATING_MAX_RUN_TIME) > 0)) { ESP_LOGCONFIG(TAG, " Maximum Run Time: %" PRIu32 "s\n" " Supplemental Delta: %.1f°C", - this->timer_duration_(thermostat::TIMER_HEATING_MAX_RUN_TIME) / 1000, + this->timer_duration_(thermostat::THERMOSTAT_TIMER_HEATING_MAX_RUN_TIME) / 1000, this->supplemental_heat_delta_); } } @@ -1360,15 +1372,15 @@ void ThermostatClimate::dump_config() { " Fan Parameters:\n" " Minimum Off Time: %" PRIu32 "s\n" " Minimum Run Time: %" PRIu32 "s", - this->timer_duration_(thermostat::TIMER_FANNING_OFF) / 1000, - this->timer_duration_(thermostat::TIMER_FANNING_ON) / 1000); + this->timer_duration_(thermostat::THERMOSTAT_TIMER_FANNING_OFF) / 1000, + this->timer_duration_(thermostat::THERMOSTAT_TIMER_FANNING_ON) / 1000); } if (this->supports_fan_mode_on_ || this->supports_fan_mode_off_ || this->supports_fan_mode_auto_ || this->supports_fan_mode_low_ || this->supports_fan_mode_medium_ || this->supports_fan_mode_high_ || this->supports_fan_mode_middle_ || this->supports_fan_mode_focus_ || this->supports_fan_mode_diffuse_ || this->supports_fan_mode_quiet_) { ESP_LOGCONFIG(TAG, " Minimum Fan Mode Switching Time: %" PRIu32 "s", - this->timer_duration_(thermostat::TIMER_FAN_MODE) / 1000); + this->timer_duration_(thermostat::THERMOSTAT_TIMER_FAN_MODE) / 1000); } ESP_LOGCONFIG(TAG, " Minimum Idle Time: %" PRIu32 "s\n" @@ -1381,7 +1393,7 @@ void ThermostatClimate::dump_config() { " FAN_ONLY: %s\n" " FAN_ONLY_ACTION_USES_FAN_MODE_TIMER: %s\n" " FAN_ONLY_COOLING: %s", - this->timer_[thermostat::TIMER_IDLE_ON].time / 1000, YESNO(this->supports_auto_), + this->timer_[thermostat::THERMOSTAT_TIMER_IDLE_ON].time / 1000, YESNO(this->supports_auto_), YESNO(this->supports_heat_cool_), YESNO(this->supports_heat_), YESNO(this->supports_cool_), YESNO(this->supports_dry_), YESNO(this->supports_fan_only_), YESNO(this->supports_fan_only_action_uses_fan_mode_timer_), YESNO(this->supports_fan_only_cooling_)); diff --git a/esphome/components/thermostat/thermostat_climate.h b/esphome/components/thermostat/thermostat_climate.h index e2c7b00266..526f07116e 100644 --- a/esphome/components/thermostat/thermostat_climate.h +++ b/esphome/components/thermostat/thermostat_climate.h @@ -14,17 +14,17 @@ namespace esphome { namespace thermostat { enum ThermostatClimateTimerIndex : uint8_t { - TIMER_COOLING_MAX_RUN_TIME = 0, - TIMER_COOLING_OFF = 1, - TIMER_COOLING_ON = 2, - TIMER_FAN_MODE = 3, - TIMER_FANNING_OFF = 4, - TIMER_FANNING_ON = 5, - TIMER_HEATING_MAX_RUN_TIME = 6, - TIMER_HEATING_OFF = 7, - TIMER_HEATING_ON = 8, - TIMER_IDLE_ON = 9, - TIMER_COUNT = 10, + THERMOSTAT_TIMER_COOLING_MAX_RUN_TIME = 0, + THERMOSTAT_TIMER_COOLING_OFF = 1, + THERMOSTAT_TIMER_COOLING_ON = 2, + THERMOSTAT_TIMER_FAN_MODE = 3, + THERMOSTAT_TIMER_FANNING_OFF = 4, + THERMOSTAT_TIMER_FANNING_ON = 5, + THERMOSTAT_TIMER_HEATING_MAX_RUN_TIME = 6, + THERMOSTAT_TIMER_HEATING_OFF = 7, + THERMOSTAT_TIMER_HEATING_ON = 8, + THERMOSTAT_TIMER_IDLE_ON = 9, + THERMOSTAT_TIMER_COUNT = 10, }; enum OnBootRestoreFrom : uint8_t { @@ -467,7 +467,7 @@ class ThermostatClimate : public climate::Climate, public Component { std::string default_custom_preset_{}; /// Climate action timers - std::array timer_{ + std::array timer_{ ThermostatClimateTimer(false, 0, 0, std::bind(&ThermostatClimate::cooling_max_run_time_timer_callback_, this)), ThermostatClimateTimer(false, 0, 0, std::bind(&ThermostatClimate::cooling_off_timer_callback_, this)), ThermostatClimateTimer(false, 0, 0, std::bind(&ThermostatClimate::cooling_on_timer_callback_, this)),