HA 2024.9.3 and issue 508 (#510)

* HA 2024.9.3 and issue 508

* Fix strings trailing spaces

---------

Co-authored-by: Jean-Marc Collin <jean-marc.collin-extern@renault.com>

.vscode/settings.json

@@ -4,7 +4,6 @@
         "editor.formatOnSave": true,
         "editor.formatOnSaveMode": "modifications"
     },
-    "pylint.lintOnChange": false,
     "files.associations": {
         "*.yaml": "home-assistant"
     },

README-fr.md

@@ -212,7 +212,7 @@ En conséquence toute la phase de paramètrage d'un VTherm a été profondemment
 </details>
 
 # Merci pour la bière [buymecoffee](https://www.buymeacoffee.com/jmcollin78)
-Un grand merci à @salabur, @pvince83, @bergoglio, @EPicLURcher, @ecolorado66, @Kriss1670, @maia, @f.maymil, @moutte69, @Jerome, @Gunnar M, @Greg.o, @John Burgess, @abyssmal, @capinfo26, @Helge, @MattG @Mexx62, @Someone, @Lajull, @giopeco, @fredericselier, @philpagan, @studiogriffanti, @Edwin, @Sebbou, @Gerard R., @John Burgess, @Sylvoliv, @cdenfert pour les bières. Ca fait très plaisir et ça m'encourage à continuer !
+Un grand merci à @salabur, @pvince83, @bergoglio, @EPicLURcher, @ecolorado66, @Kriss1670, @maia, @f.maymil, @moutte69, @Jerome, @Gunnar M, @Greg.o, @John Burgess, @abyssmal, @capinfo26, @Helge, @MattG @Mexx62, @Someone, @Lajull, @giopeco, @fredericselier, @philpagan, @studiogriffanti, @Edwin, @Sebbou, @Gerard R., @John Burgess, @Sylvoliv, @cdenfert, @stephane.l, @jms92100 pour les bières. Ca fait très plaisir et ça m'encourage à continuer !
 
 
 # Quand l'utiliser et ne pas l'utiliser
@@ -1202,9 +1202,9 @@ Une carte spéciale pour le Versatile Thermostat a été développée (sur la ba
 ## Encore mieux avec le composant Scheduler !
 
 Afin de profiter de toute la puissance du Versatile Thermostat, je vous invite à l'utiliser avec https://github.com/nielsfaber/scheduler-component
-En effet, le composant scheduler propose une gestion de la base climatique sur les modes prédéfinis. Cette fonctionnalité a un intérêt limité avec le thermostat générique mais elle devient très puissante avec le thermostat Awesome :
+En effet, le composant scheduler propose une gestion de la base climatique sur les modes prédéfinis. Cette fonctionnalité a un intérêt limité avec le thermostat générique mais elle devient très puissante avec le Versatile Thermostat :
 
-À partir d'ici, je suppose que vous avez installé Awesome Thermostat et Scheduler Component.
+À partir d'ici, je suppose que vous avez installé Versatile Thermostat et Scheduler Component.
 
 Dans Scheduler, ajoutez un planning :
 

README.md

@@ -213,7 +213,7 @@ Consequently, the entire configuration phase of a VTherm has been profoundly mod
 </details>
 
 # Thanks for the beer [buymecoffee](https://www.buymeacoffee.com/jmcollin78)
-Many thanks to @salabur, @pvince83, @bergoglio, @EPicLURcher, @ecolorado66, @Kriss1670, @maia, @f.maymil, @moutte69, @Jerome, @Gunnar M, @Greg.o, @John Burgess, @abyssmal, @capinfo26, @Helge, @MattG, @MattG, @Mexx62, @Someone, @Lajull, @giopeco, @fredericselier, @philpagan, @studiogriffanti, @Edwin, @Sebbou, @Gerard R., @John Burgess, @Sylvoliv, @cdenfert for the beers. It's very nice and encourages me to continue!
+Many thanks to @salabur, @pvince83, @bergoglio, @EPicLURcher, @ecolorado66, @Kriss1670, @maia, @f.maymil, @moutte69, @Jerome, @Gunnar M, @Greg.o, @John Burgess, @abyssmal, @capinfo26, @Helge, @MattG, @MattG, @Mexx62, @Someone, @Lajull, @giopeco, @fredericselier, @philpagan, @studiogriffanti, @Edwin, @Sebbou, @Gerard R., @John Burgess, @Sylvoliv, @cdenfert, @stephane.l, @jms92100 for the beers. It's very nice and encourages me to continue!
 
 # When to use / not use
 This thermostat can control 3 types of equipment:

custom_components/versatile_thermostat/__init__.py

@@ -13,6 +13,7 @@ from homeassistant.const import SERVICE_RELOAD, EVENT_HOMEASSISTANT_STARTED
 
 from homeassistant.config_entries import ConfigEntry, ConfigType
 from homeassistant.core import HomeAssistant, CoreState, callback
+from homeassistant.helpers.service import async_register_admin_service
 
 from .base_thermostat import BaseThermostat
 
@@ -115,7 +116,8 @@ async def async_setup(
     else:
         hass.bus.async_listen_once(EVENT_HOMEASSISTANT_STARTED, _async_startup_internal)
 
-    hass.helpers.service.async_register_admin_service(
+    async_register_admin_service(
+        hass,
         DOMAIN,
         SERVICE_RELOAD,
         _handle_reload,

custom_components/versatile_thermostat/base_thermostat.py

@@ -22,7 +22,6 @@ from homeassistant.components.climate import ClimateEntity
 from homeassistant.helpers.restore_state import RestoreEntity
 from homeassistant.config_entries import ConfigEntry
 from homeassistant.helpers.device_registry import DeviceInfo, DeviceEntryType
-from homeassistant.helpers.typing import EventType as HASSEventType
 
 from homeassistant.helpers.event import (
     async_track_state_change_event,
@@ -737,37 +736,37 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
                 )
                 need_write_state = True
 
-            # try to acquire window entity state
-            if self._window_sensor_entity_id:
-                window_state = self.hass.states.get(self._window_sensor_entity_id)
-                if window_state and window_state.state not in (
-                    STATE_UNAVAILABLE,
-                    STATE_UNKNOWN,
-                ):
-                    self._window_state = window_state.state == STATE_ON
-                    _LOGGER.debug(
-                        "%s - Window state have been retrieved: %s",
-                        self,
-                        self._window_state,
-                    )
-                    need_write_state = True
+        # try to acquire window entity state
+        if self._window_sensor_entity_id:
+            window_state = self.hass.states.get(self._window_sensor_entity_id)
+            if window_state and window_state.state not in (
+                STATE_UNAVAILABLE,
+                STATE_UNKNOWN,
+            ):
+                self._window_state = window_state.state == STATE_ON
+                _LOGGER.debug(
+                    "%s - Window state have been retrieved: %s",
+                    self,
+                    self._window_state,
+                )
+                need_write_state = True
 
-            # try to acquire motion entity state
-            if self._motion_sensor_entity_id:
-                motion_state = self.hass.states.get(self._motion_sensor_entity_id)
-                if motion_state and motion_state.state not in (
-                    STATE_UNAVAILABLE,
-                    STATE_UNKNOWN,
-                ):
-                    self._motion_state = motion_state.state
-                    _LOGGER.debug(
-                        "%s - Motion state have been retrieved: %s",
-                        self,
-                        self._motion_state,
-                    )
-                    # recalculate the right target_temp in activity mode
-                    await self._async_update_motion_temp()
-                    need_write_state = True
+        # try to acquire motion entity state
+        if self._motion_sensor_entity_id:
+            motion_state = self.hass.states.get(self._motion_sensor_entity_id)
+            if motion_state and motion_state.state not in (
+                STATE_UNAVAILABLE,
+                STATE_UNKNOWN,
+            ):
+                self._motion_state = motion_state.state
+                _LOGGER.debug(
+                    "%s - Motion state have been retrieved: %s",
+                    self,
+                    self._motion_state,
+                )
+                # recalculate the right target_temp in activity mode
+                await self._async_update_motion_temp()
+                need_write_state = True
 
         if self._presence_on:
             # try to acquire presence entity state
@@ -1377,11 +1376,19 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
         if preset_mode == PRESET_POWER:
             return self._power_temp
         if preset_mode == PRESET_ACTIVITY:
-            motion_preset = (
-                self._motion_preset
-                if self._motion_state == STATE_ON
-                else self._no_motion_preset
-            )
+            if self._ac_mode and self._hvac_mode == HVACMode.COOL:
+                motion_preset = (
+                    self._motion_preset + PRESET_AC_SUFFIX
+                    if self._motion_state == STATE_ON
+                    else self._no_motion_preset + PRESET_AC_SUFFIX
+                )
+            else:
+                motion_preset = (
+                    self._motion_preset
+                    if self._motion_state == STATE_ON
+                    else self._no_motion_preset
+                )
+
             if motion_preset in self._presets:
                 return self._presets[motion_preset]
             else:
@@ -1646,6 +1653,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
                 _LOGGER.debug("%s - Motion delay condition is satisfied", self)
                 self._motion_state = new_state.state
                 if self._attr_preset_mode == PRESET_ACTIVITY:
+
                     new_preset = (
                         self._motion_preset
                         if self._motion_state == STATE_ON
@@ -1658,6 +1666,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
                     )
                     # We do not change the preset which is kept to ACTIVITY but only the target_temperature
                     # We take the presence into account
+
                     await self._async_internal_set_temperature(
                         self.find_preset_temp(new_preset)
                     )
@@ -1780,7 +1789,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
             _LOGGER.error("Unable to update external temperature from sensor: %s", ex)
 
     @callback
-    async def _async_power_changed(self, event: HASSEventType[EventStateChangedData]):
+    async def _async_power_changed(self, event: Event[EventStateChangedData]):
         """Handle power changes."""
         _LOGGER.debug("Thermostat %s - Receive new Power event", self.name)
         _LOGGER.debug(event)
@@ -1806,9 +1815,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
             _LOGGER.error("Unable to update current_power from sensor: %s", ex)
 
     @callback
-    async def _async_max_power_changed(
-        self, event: HASSEventType[EventStateChangedData]
-    ):
+    async def _async_max_power_changed(self, event: Event[EventStateChangedData]):
         """Handle power max changes."""
         _LOGGER.debug("Thermostat %s - Receive new Power Max event", self.name)
         _LOGGER.debug(event)
@@ -1833,9 +1840,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
             _LOGGER.error("Unable to update current_power from sensor: %s", ex)
 
     @callback
-    async def _async_presence_changed(
-        self, event: HASSEventType[EventStateChangedData]
-    ):
+    async def _async_presence_changed(self, event: Event[EventStateChangedData]):
         """Handle presence changes."""
         new_state = event.data.get("new_state")
         _LOGGER.info(
@@ -1896,16 +1901,23 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
         ):
             return
 
+        new_preset = (
+                        self._motion_preset
+                        if self._motion_state == STATE_ON
+                        else self._no_motion_preset
+                    )
+        _LOGGER.info(
+                    "%s - Motion condition have changes. New preset temp will be %s",
+                        self,
+                        new_preset,
+                    )
+        # We do not change the preset which is kept to ACTIVITY but only the target_temperature
+        # We take the presence into account
+
         await self._async_internal_set_temperature(
-            self._presets.get(
-                (
-                    self._motion_preset
-                    if self._motion_state == STATE_ON
-                    else self._no_motion_preset
-                ),
-                None,
-            )
+            self.find_preset_temp(new_preset)
         )
+
         _LOGGER.debug(
             "%s - regarding motion, target_temp have been set to %.2f",
             self,

custom_components/versatile_thermostat/keep_alive.py

@@ -10,6 +10,7 @@ the keep_alive setting of Home Assistant's Generic Thermostat integration:
 import logging
 from collections.abc import Awaitable, Callable
 from datetime import timedelta, datetime
+from time import monotonic
 
 from homeassistant.core import HomeAssistant, CALLBACK_TYPE
 from homeassistant.helpers.event import async_track_time_interval
@@ -18,6 +19,79 @@ from homeassistant.helpers.event import async_track_time_interval
 _LOGGER = logging.getLogger(__name__)
 
 
+class BackoffTimer:
+    """Exponential backoff timer with a non-blocking polling-style implementation.
+
+    Usage example:
+        timer = BackoffTimer(multiplier=1.5, upper_limit_sec=600)
+        while some_condition:
+            if timer.is_ready():
+                do_something()
+    """
+
+    def __init__(
+        self,
+        *,
+        multiplier=2.0,
+        lower_limit_sec=30,
+        upper_limit_sec=86400,
+        initially_ready=True,
+    ):
+        """Initialize a BackoffTimer instance.
+
+        Args:
+            multiplier (int, optional): Period multiplier applied when is_ready() is True.
+            lower_limit_sec (int, optional): Initial backoff period in seconds.
+            upper_limit_sec (int, optional): Maximum backoff period in seconds.
+            initially_ready (bool, optional): Whether is_ready() should return True the
+            first time it is called, or after a call to reset().
+        """
+        self._multiplier = multiplier
+        self._lower_limit_sec = lower_limit_sec
+        self._upper_limit_sec = upper_limit_sec
+        self._initially_ready = initially_ready
+
+        self._timestamp = 0
+        self._period_sec = self._lower_limit_sec
+
+    @property
+    def in_progress(self) -> bool:
+        """Whether the backoff timer is in progress (True after a call to is_ready())."""
+        return bool(self._timestamp)
+
+    def reset(self):
+        """Reset a BackoffTimer instance."""
+        self._timestamp = 0
+        self._period_sec = self._lower_limit_sec
+
+    def is_ready(self) -> bool:
+        """Check whether an exponentially increasing period of time has passed.
+
+        Whenever is_ready() returns True, the timer period is multiplied so that
+        it takes longer until is_ready() returns True again.
+        Returns:
+            bool: True if enough time has passed since one of the following events,
+            in relation to an instance of this class:
+            - The last time when this method returned True, if it ever did.
+            - Or else, when this method was first called after a call to reset().
+            - Or else, when this method was first called.
+            False otherwise.
+        """
+        now = monotonic()
+        if self._timestamp == 0:
+            self._timestamp = now
+            return self._initially_ready
+        elif now - self._timestamp >= self._period_sec:
+            self._timestamp = now
+            self._period_sec = max(
+                self._lower_limit_sec,
+                min(self._upper_limit_sec, self._period_sec * self._multiplier),
+            )
+            return True
+
+        return False
+
+
 class IntervalCaller:
     """Repeatedly call a given async action function at a given regular interval.
 
@@ -28,6 +102,7 @@ class IntervalCaller:
         self._hass = hass
         self._interval_sec = interval_sec
         self._remove_handle: CALLBACK_TYPE | None = None
+        self.backoff_timer = BackoffTimer()
 
     @property
     def interval_sec(self) -> float:

custom_components/versatile_thermostat/manifest.json

@@ -14,6 +14,6 @@
   "quality_scale": "silver",
   "requirements": [],
   "ssdp": [],
-  "version": "6.2.3",
+  "version": "6.3.0",
   "zeroconf": []
 }

custom_components/versatile_thermostat/number.py

@@ -283,7 +283,7 @@ class CentralConfigTemperatureNumber(
         self.entity_id = f"{NUMBER_DOMAIN}.{slugify(name)}_preset_{preset_name}"
         self._attr_unique_id = f"central_configuration_preset_{preset_name}"
         self._attr_device_class = NumberDeviceClass.TEMPERATURE
-        self._attr_native_unit_of_measurement = UnitOfTemperature.CELSIUS
+        self._attr_native_unit_of_measurement = hass.config.units.temperature_unit
 
         self._attr_native_step = entry_infos.get(CONF_STEP_TEMPERATURE, 0.5)
         self._attr_native_min_value = entry_infos.get(CONF_TEMP_MIN)
@@ -371,7 +371,7 @@ class CentralConfigTemperatureNumber(
         # TODO Kelvin ? It seems not because all internal values are stored in
         # ° Celsius but only the render in front can be in °K depending on the
         # user configuration.
-        return UnitOfTemperature.CELSIUS
+        return self.hass.config.units.temperature_unit
 
 
 class TemperatureNumber(  # pylint: disable=abstract-method
@@ -400,7 +400,7 @@ class TemperatureNumber(  # pylint: disable=abstract-method
 
         self._attr_unique_id = f"{self._device_name}_preset_{preset_name}"
         self._attr_device_class = NumberDeviceClass.TEMPERATURE
-        self._attr_native_unit_of_measurement = UnitOfTemperature.CELSIUS
+        self._attr_native_unit_of_measurement = hass.config.units.temperature_unit
 
         self._has_central_main_attributes = entry_infos.get(
             CONF_USE_MAIN_CENTRAL_CONFIG, False
@@ -498,7 +498,7 @@ class TemperatureNumber(  # pylint: disable=abstract-method
     def native_unit_of_measurement(self) -> str | None:
         """The unit of measurement"""
         if not self.my_climate:
-            return UnitOfTemperature.CELSIUS
+            return self.hass.config.units.temperature_unit
         return self.my_climate.temperature_unit
 
     def init_min_max_step(self, entry_infos=None):

custom_components/versatile_thermostat/prop_algorithm.py

@@ -70,9 +70,9 @@ class PropAlgorithm:
             if hvac_mode == HVACMode.COOL:
                 delta_temp = current_temp - target_temp
                 delta_ext_temp = (
-                    ext_current_temp
+                    ext_current_temp - target_temp
                     if ext_current_temp is not None
-                    else 0 - target_temp
+                    else 0
                 )
             else:
                 delta_temp = target_temp - current_temp

custom_components/versatile_thermostat/sensor.py

@@ -570,7 +570,7 @@ class RegulatedTemperatureSensor(VersatileThermostatBaseEntity, SensorEntity):
     @property
     def native_unit_of_measurement(self) -> str | None:
         if not self.my_climate:
-            return UnitOfTemperature.CELSIUS
+            return self.hass.config.units.temperature_unit
         return self.my_climate.temperature_unit
 
     @property
@@ -621,7 +621,7 @@ class EMATemperatureSensor(VersatileThermostatBaseEntity, SensorEntity):
     @property
     def native_unit_of_measurement(self) -> str | None:
         if not self.my_climate:
-            return UnitOfTemperature.CELSIUS
+            return self.hass.config.units.temperature_unit
         return self.my_climate.temperature_unit
 
     @property

custom_components/versatile_thermostat/strings.json

@@ -90,7 +90,7 @@
           "auto_regulation_periode_min": "Regulation minimum period",
           "auto_regulation_use_device_temp": "Use internal temperature of the underlying",
           "inverse_switch_command": "Inverse switch command",
-          "auto_fan_mode": " Auto fan mode"
+          "auto_fan_mode": "Auto fan mode"
         },
         "data_description": {
           "heater_entity_id": "Mandatory heater entity id",
@@ -113,7 +113,7 @@
           "auto_regulation_periode_min": "Duration in minutes between two regulation update",
           "auto_regulation_use_device_temp": "Use the eventual internal temperature sensor of the underlying to speedup the self-regulation",
           "inverse_switch_command": "For switch with pilot wire and diode you may need to inverse the command",
-          "auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
+          "auto_fan_mode": "Automatically activate fan when huge heating/cooling is necessary"
         }
       },
       "tpi": {
@@ -325,7 +325,7 @@
           "auto_regulation_periode_min": "Regulation minimum period",
           "auto_regulation_use_device_temp": "Use internal temperature of the underlying",
           "inverse_switch_command": "Inverse switch command",
-          "auto_fan_mode": " Auto fan mode"
+          "auto_fan_mode": "Auto fan mode"
         },
         "data_description": {
           "heater_entity_id": "Mandatory heater entity id",
@@ -348,7 +348,7 @@
           "auto_regulation_periode_min": "Duration in minutes between two regulation update",
           "auto_regulation_use_device_temp": "Use the eventual internal temperature sensor of the underlying to speedup the self-regulation",
           "inverse_switch_command": "For switch with pilot wire and diode you may need to invert the command",
-          "auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
+          "auto_fan_mode": "Automatically activate fan when huge heating/cooling is necessary"
         }
       },
       "tpi": {

custom_components/versatile_thermostat/thermostat_climate.py

@@ -3,13 +3,12 @@
 import logging
 from datetime import timedelta, datetime
 
-from homeassistant.core import HomeAssistant, State, callback
+from homeassistant.core import Event, HomeAssistant, State, callback
 from homeassistant.helpers.event import (
     async_track_state_change_event,
     async_track_time_interval,
     EventStateChangedData,
 )
-from homeassistant.helpers.typing import EventType as HASSEventType
 from homeassistant.components.climate import (
     HVACAction,
     HVACMode,
@@ -168,11 +167,17 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
 
         _LOGGER.info("%s - regulation calculation will be done", self)
 
+        # use _attr_target_temperature_step to round value if _auto_regulation_dtemp is equal to 0
+        regulation_step = self._auto_regulation_dtemp if self._auto_regulation_dtemp else self._attr_target_temperature_step
+        _LOGGER.debug("%s - usage of regulation_step: %.2f ",
+                      self,
+                      regulation_step)
+        
         new_regulated_temp = round_to_nearest(
             self._regulation_algo.calculate_regulated_temperature(
                 self.current_temperature, self._cur_ext_temp
             ),
-            self._auto_regulation_dtemp,
+            regulation_step,
         )
         dtemp = new_regulated_temp - self._regulated_target_temp
 
@@ -216,7 +221,7 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
             ):
                 offset_temp = device_temp - self.current_temperature
 
-            target_temp = round_to_nearest(self.regulated_target_temp + offset_temp, self._auto_regulation_dtemp)
+            target_temp = round_to_nearest(self.regulated_target_temp + offset_temp, regulation_step)
 
             _LOGGER.debug(
                 "%s - The device offset temp for regulation is %.2f - internal temp is %.2f. New target is %.2f",
@@ -594,7 +599,7 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
         )
 
     @callback
-    async def _async_climate_changed(self, event: HASSEventType[EventStateChangedData]):
+    async def _async_climate_changed(self, event: Event[EventStateChangedData]):
         """Handle unerdlying climate state changes.
         This method takes the underlying values and update the VTherm with them.
         To avoid loops (issues #121 #101 #95 #99), we discard the event if it is received
@@ -894,10 +899,7 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
     @property
     def temperature_unit(self) -> str:
         """Return the unit of measurement."""
-        if self.underlying_entity(0):
-            return self.underlying_entity(0).temperature_unit
-
-        return self._unit
+        return self.hass.config.units.temperature_unit
 
     @property
     def supported_features(self):

custom_components/versatile_thermostat/thermostat_switch.py

@@ -2,12 +2,11 @@
 
 """ A climate over switch classe """
 import logging
-from homeassistant.core import callback
+from homeassistant.core import Event, callback
 from homeassistant.helpers.event import (
     async_track_state_change_event,
     EventStateChangedData,
 )
-from homeassistant.helpers.typing import EventType as HASSEventType
 from homeassistant.components.climate import HVACMode
 
 from .const import (
@@ -212,7 +211,7 @@ class ThermostatOverSwitch(BaseThermostat[UnderlyingSwitch]):
         )
 
     @callback
-    def _async_switch_changed(self, event: HASSEventType[EventStateChangedData]):
+    def _async_switch_changed(self, event: Event[EventStateChangedData]):
         """Handle heater switch state changes."""
         new_state = event.data.get("new_state")
         old_state = event.data.get("old_state")

custom_components/versatile_thermostat/thermostat_valve.py

@@ -8,8 +8,7 @@ from homeassistant.helpers.event import (
     async_track_time_interval,
     EventStateChangedData,
 )
-from homeassistant.helpers.typing import EventType as HASSEventType
-from homeassistant.core import HomeAssistant, callback
+from homeassistant.core import Event, HomeAssistant, callback
 from homeassistant.components.climate import HVACMode
 
 from .base_thermostat import BaseThermostat, ConfigData
@@ -149,7 +148,7 @@ class ThermostatOverValve(BaseThermostat[UnderlyingValve]):  # pylint: disable=a
         )
 
     @callback
-    async def _async_valve_changed(self, event: HASSEventType[EventStateChangedData]):
+    async def _async_valve_changed(self, event: Event[EventStateChangedData]):
         """Handle unerdlying valve state changes.
         This method just log the change. It changes nothing to avoid loops.
         """

custom_components/versatile_thermostat/translations/el.json

@@ -43,7 +43,7 @@
           "auto_regulation_dtemp": "Όριο ρύθμισης",
           "auto_regulation_periode_min": "Ελάχιστη περίοδος ρύθμισης",
           "inverse_switch_command": "Αντίστροφη εντολή διακόπτη",
-          "auto_fan_mode": " Auto fan mode"
+          "auto_fan_mode": "Auto fan mode"
         },
         "data_description": {
           "heater_entity_id": "Υποχρεωτική ταυτότητα οντότητας θερμαντήρα",
@@ -64,7 +64,7 @@
           "auto_regulation_dtemp": "Το όριο σε ° κάτω από το οποίο η αλλαγή θερμοκρασίας δεν θα αποστέλλεται",
           "auto_regulation_periode_min": "Διάρκεια σε λεπτά μεταξύ δύο ενημερώσεων ρύθμισης",
           "inverse_switch_command": "Για διακόπτη με πιλοτικό καλώδιο και δίοδο μπορεί να χρειαστεί να αντιστρέψετε την εντολή",
-          "auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
+          "auto_fan_mode": "Automatically activate fan when huge heating/cooling is necessary"
         }
       },
       "tpi": {
@@ -216,7 +216,7 @@
           "auto_regulation_dtemp": "Όριο ρύθμισης",
           "auto_regulation_periode_min": "Ελάχιστη περίοδος ρύθμισης",
           "inverse_switch_command": "Αντίστροφη εντολή διακόπτη",
-          "auto_fan_mode": " Auto fan mode"
+          "auto_fan_mode": "Auto fan mode"
         },
         "data_description": {
           "heater_entity_id": "Υποχρεωτική ταυτότητα οντότητας θερμαντήρα",
@@ -237,7 +237,7 @@
           "auto_regulation_dtemp": "Το κατώφλι σε °C κάτω από το οποίο η αλλαγή της θερμοκρασίας δεν θα αποστέλλεται",
           "auto_regulation_periode_min": "Διάρκεια σε λεπτά μεταξύ δύο ενημερώσεων ρύθμισης",
           "inverse_switch_command": "Για διακόπτες με πιλοτικό καλώδιο και δίοδο μπορεί να χρειαστεί να αντιστραφεί η εντολή",
-          "auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
+          "auto_fan_mode": "Automatically activate fan when huge heating/cooling is necessary"
         }
       },
       "tpi": {

custom_components/versatile_thermostat/translations/en.json

@@ -90,7 +90,7 @@
           "auto_regulation_periode_min": "Regulation minimum period",
           "auto_regulation_use_device_temp": "Use internal temperature of the underlying",
           "inverse_switch_command": "Inverse switch command",
-          "auto_fan_mode": " Auto fan mode"
+          "auto_fan_mode": "Auto fan mode"
         },
         "data_description": {
           "heater_entity_id": "Mandatory heater entity id",
@@ -113,7 +113,7 @@
           "auto_regulation_periode_min": "Duration in minutes between two regulation update",
           "auto_regulation_use_device_temp": "Use the eventual internal temperature sensor of the underlying to speedup the self-regulation",
           "inverse_switch_command": "For switch with pilot wire and diode you may need to inverse the command",
-          "auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
+          "auto_fan_mode": "Automatically activate fan when huge heating/cooling is necessary"
         }
       },
       "tpi": {
@@ -325,7 +325,7 @@
           "auto_regulation_periode_min": "Regulation minimum period",
           "auto_regulation_use_device_temp": "Use internal temperature of the underlying",
           "inverse_switch_command": "Inverse switch command",
-          "auto_fan_mode": " Auto fan mode"
+          "auto_fan_mode": "Auto fan mode"
         },
         "data_description": {
           "heater_entity_id": "Mandatory heater entity id",
@@ -348,7 +348,7 @@
           "auto_regulation_periode_min": "Duration in minutes between two regulation update",
           "auto_regulation_use_device_temp": "Use the eventual internal temperature sensor of the underlying to speedup the self-regulation",
           "inverse_switch_command": "For switch with pilot wire and diode you may need to invert the command",
-          "auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
+          "auto_fan_mode": "Automatically activate fan when huge heating/cooling is necessary"
         }
       },
       "tpi": {

custom_components/versatile_thermostat/translations/fr.json

@@ -337,7 +337,7 @@
           "auto_regulation_periode_min": "Période minimale de régulation",
           "auto_regulation_use_device_temp": "Utiliser la température interne du sous-jacent",
           "inverse_switch_command": "Inverser la commande",
-          "auto_fan_mode": " Auto fan mode"
+          "auto_fan_mode": "Auto fan mode"
         },
         "data_description": {
           "heater_entity_id": "Entity id du 1er radiateur obligatoire",

custom_components/versatile_thermostat/translations/it.json

@@ -42,7 +42,7 @@
           "valve_entity4_id": "Quarta valvola",
           "auto_regulation_mode": "Autoregolamentazione",
           "inverse_switch_command": "Comando inverso",
-          "auto_fan_mode": " Auto fan mode"
+          "auto_fan_mode": "Auto fan mode"
         },
         "data_description": {
           "heater_entity_id": "Entity id obbligatoria del primo riscaldatore",
@@ -62,7 +62,7 @@
           "valve_entity4_id": "Entity id della quarta valvola",
           "auto_regulation_mode": "Regolazione automatica della temperatura target",
           "inverse_switch_command": "Inverte il controllo dell'interruttore per un'installazione con filo pilota e diodo",
-          "auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
+          "auto_fan_mode": "Automatically activate fan when huge heating/cooling is necessary"
         }
       },
       "tpi": {
@@ -206,7 +206,7 @@
           "valve_entity4_id": "Quarta valvola",
           "auto_regulation_mode": "Autoregolamentazione",
           "inverse_switch_command": "Comando inverso",
-          "auto_fan_mode": " Auto fan mode"
+          "auto_fan_mode": "Auto fan mode"
         },
         "data_description": {
           "heater_entity_id": "Entity id obbligatoria del primo riscaldatore",
@@ -226,7 +226,7 @@
           "valve_entity4_id": "Entity id della quarta valvola",
           "auto_regulation_mode": "Autoregolamentazione",
           "inverse_switch_command": "Inverte il controllo dell'interruttore per un'installazione con filo pilota e diodo",
-          "auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
+          "auto_fan_mode": "Automatically activate fan when huge heating/cooling is necessary"
         }
       },
       "tpi": {

custom_components/versatile_thermostat/translations/sk.json

@@ -12,6 +12,25 @@
           "thermostat_type": "Len jeden centrálny typ konfigurácie je možný"
         }
       },
+      "menu": {
+        "title": "Menu",
+        "description": "Nakonfigurujte si termostat. Po zadaní všetkých požadovaných parametrov budete môcť dokončiť konfiguráciu.",
+        "menu_options": {
+          "main": "Hlavné atribúty",
+          "central_boiler": "Centrálny kotol",
+          "type": "Podklady",
+          "tpi": "TPI parametre",
+          "features": "Vlastnosti",
+          "presets": "Predvoľby",
+          "window": "Detekcia okien",
+          "motion": "Detekcia pohybu",
+          "power": "Správa napájania",
+          "presence": "Detekcia prítomnosti",
+          "advanced": "Pokročilé parametre",
+          "finalize": "Všetko hotové",
+          "configuration_not_complete": "Konfigurácia nie je dokončená"
+        }
+      },
       "main": {
         "title": "Pridajte nový všestranný termostat",
         "description": "Hlavné povinné atribúty",
@@ -19,22 +38,32 @@
           "name": "Názov",
           "thermostat_type": "Termostat typ",
           "temperature_sensor_entity_id": "ID entity snímača teploty",
+          "last_seen_temperature_sensor_entity_id": "Dátum posledného zobrazenia izbovej teploty",
           "external_temperature_sensor_entity_id": "ID entity externého snímača teploty",
           "cycle_min": "Trvanie cyklu (minúty)",
           "temp_min": "Minimálna povolená teplota",
           "temp_max": "Maximálna povolená teplota",
+          "step_temperature": "Krok teploty",
           "device_power": "Napájanie zariadenia",
           "use_central_mode": "Povoliť ovládanie centrálnou entitou (potrebná centrálna konfigurácia)",
+          "use_main_central_config": "Použite dodatočnú centrálnu hlavnú konfiguráciu. Začiarknite, ak chcete použiť centrálnu hlavnú konfiguráciu (vonkajšia teplota, min, max, krok, ...).",
+          "used_by_controls_central_boiler": "Používa sa centrálnym kotlom. Skontrolujte, či má mať tento VTherm ovládanie na centrálnom kotli"
+        },
+        "data_description": {
+          "temperature_sensor_entity_id": "ID entity snímača izbovej teploty",
+          "last_seen_temperature_sensor_entity_id": "Naposledy videný snímač izbovej teploty ID entity. Mal by to byť snímač dátumu a času",
+          "external_temperature_sensor_entity_id": "ID entity snímača vonkajšej teploty. Nepoužíva sa, ak je zvolená centrálna konfigurácia"
+        }
+      },
+      "features": {
+        "title": "Vlastnosti",
+        "description": "Vlastnosti termostatu",
+        "data": {
           "use_window_feature": "Použite detekciu okien",
           "use_motion_feature": "Použite detekciu pohybu",
           "use_power_feature": "Použite správu napájania",
           "use_presence_feature": "Použite detekciu prítomnosti",
-          "use_main_central_config": "Použite centrálnu hlavnú konfiguráciu"
-        },
-        "data_description": {
-          "use_central_mode": "Zaškrtnutím povolíte ovládanie VTherm pomocou vybraných entít central_mode",
-          "use_main_central_config": "Začiarknite, ak chcete použiť centrálnu hlavnú konfiguráciu. Zrušte začiarknutie, ak chcete použiť špecifickú hlavnú konfiguráciu pre tento VTherm",
-          "external_temperature_sensor_entity_id": "ID entity snímača vonkajšej teploty. Nepoužíva sa, ak je zvolená centrálna konfigurácia"
+          "use_central_boiler_feature": "Použite centrálny kotol. Začiarknutím tohto políčka pridáte ovládanie do centrálneho kotla. Po zaškrtnutí tohto políčka budete musieť nakonfigurovať VTherm, ktorý bude mať ovládanie centrálneho kotla, aby sa prejavilo. Ak jeden VTherm vyžaduje ohrev, kotol sa zapne. Ak žiadny VTherm nevyžaduje ohrev, kotol sa vypne. Príkazy na zapnutie/vypnutie centrálneho kotla sú uvedené na príslušnej konfiguračnej stránke"
         }
       },
       "type": {
@@ -45,6 +74,7 @@
           "heater_entity2_id": "2. spínač ohrievača",
           "heater_entity3_id": "3. spínač ohrievača",
           "heater_entity4_id": "4. spínač ohrievača",
+          "heater_keep_alive": "Prepnite interval udržiavania v sekundách",
           "proportional_function": "Algoritmus",
           "climate_entity_id": "1. základná klíma",
           "climate_entity2_id": "2. základná klíma",
@@ -58,6 +88,7 @@
           "auto_regulation_mode": "Samoregulácia",
           "auto_regulation_dtemp": "Regulačný prah",
           "auto_regulation_periode_min": "Regulačné minimálne obdobie",
+          "auto_regulation_use_device_temp": "Použite vnútornú teplotu podkladu",
           "inverse_switch_command": "Inverzný prepínací príkaz",
           "auto_fan_mode": "Režim automatického ventilátora"
         },
@@ -66,6 +97,7 @@
           "heater_entity2_id": "Voliteľné ID entity 2. ohrievača. Ak sa nepoužíva, nechajte prázdne",
           "heater_entity3_id": "Voliteľné ID entity 3. ohrievača. Ak sa nepoužíva, nechajte prázdne",
           "heater_entity4_id": "Voliteľné ID entity 4. ohrievača. Ak sa nepoužíva, nechajte prázdne",
+          "heater_keep_alive": "Voliteľný interval obnovy stavu spínača ohrievača. Ak to nie je potrebné, nechajte prázdne.",
           "proportional_function": "Algoritmus, ktorý sa má použiť (TPI je zatiaľ jediný)",
           "climate_entity_id": "ID základnej klimatickej entity",
           "climate_entity2_id": "2. základné identifikačné číslo klimatickej entity",
@@ -79,6 +111,7 @@
           "auto_regulation_mode": "Automatické nastavenie cieľovej teploty",
           "auto_regulation_dtemp": "Hranica v °, pod ktorou sa zmena teploty neodošle",
           "auto_regulation_periode_min": "Trvanie v minútach medzi dvoma aktualizáciami predpisov",
+          "auto_regulation_use_device_temp": "Na urýchlenie samoregulácie použite prípadný vnútorný snímač teploty podkladu",
           "inverse_switch_command": "V prípade spínača s pilotným vodičom a diódou možno budete musieť príkaz invertovať",
           "auto_fan_mode": "Automaticky aktivujte ventilátor, keď je potrebné veľké vykurovanie/chladenie"
         }
@@ -101,24 +134,7 @@
         "title": "Predvoľby",
         "description": "Pre každú predvoľbu zadajte cieľovú teplotu (0, ak chcete predvoľbu ignorovať)",
         "data": {
-          "eco_temp": "Teplota v predvoľbe Eco",
-          "comfort_temp": "Prednastavená teplota v komfortnom režime",
-          "boost_temp": "Teplota v prednastavení Boost",
-          "frost_temp": "Teplota v prednastavení Frost protection",
-          "eco_ac_temp": "Teplota v režime Eco prednastavená pre režim AC",
-          "comfort_ac_temp": "Teplota v režime Comfort je prednastavená pre režim AC",
-          "boost_ac_temp": "Prednastavená teplota v režime Boost pre režim AC",
           "use_presets_central_config": "Použite konfiguráciu centrálnych predvolieb"
-        },
-        "data_description": {
-          "eco_temp": "Teplota v predvoľbe Eco",
-          "comfort_temp": "Prednastavená teplota v komfortnom režime",
-          "boost_temp": "Teplota v prednastavení Boost",
-          "frost_temp": "Teplota v prednastavenej ochrane proti mrazu",
-          "eco_ac_temp": "Teplota v režime Eco prednastavená pre režim AC",
-          "comfort_ac_temp": "Teplota v režime Comfort je prednastavená pre režim AC",
-          "boost_ac_temp": "Prednastavená teplota v režime Boost pre režim AC",
-          "use_presets_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálnych predvolieb. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu predvolieb pre tento VTherm"
         }
       },
       "window": {
@@ -130,7 +146,8 @@
           "window_auto_open_threshold": "Prah poklesu teploty pre automatickú detekciu otvoreného okna (v °/hodina)",
           "window_auto_close_threshold": "Prahová hodnota zvýšenia teploty pre koniec automatickej detekcie (v °/hodina)",
           "window_auto_max_duration": "Maximálne trvanie automatickej detekcie otvoreného okna (v min)",
-          "use_window_central_config": "Použite centrálnu konfiguráciu okna"
+          "use_window_central_config": "Použite centrálnu konfiguráciu okna",
+          "window_action": "Akcia"
         },
         "data_description": {
           "window_sensor_entity_id": "Nechajte prázdne, ak nemáte použiť žiadny okenný senzor",
@@ -138,7 +155,8 @@
           "window_auto_open_threshold": "Odporúčaná hodnota: medzi 3 a 10. Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
           "window_auto_close_threshold": "Odporúčaná hodnota: 0. Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
           "window_auto_max_duration": "Odporúčaná hodnota: 60 (jedna hodina). Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
-          "use_window_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálneho okna. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu okna pre tento VTherm"
+          "use_window_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálneho okna. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu okna pre tento VTherm",
+          "window_action": "Akcia, ktorá sa má vykonať, ak sa okno zistí ako otvorené"
         }
       },
       "motion": {
@@ -181,26 +199,11 @@
         "title": "Riadenie prítomnosti",
         "description": "Atribúty správy prítomnosti.\nPoskytuje senzor prítomnosti vášho domova (pravda, ak je niekto prítomný).\nPotom zadajte buď predvoľbu, ktorá sa má použiť, keď je senzor prítomnosti nepravdivý, alebo posun teploty, ktorý sa má použiť.\nAk je zadaná predvoľba, posun sa nepoužije.\nAk sa nepoužije, ponechajte zodpovedajúce entity_id prázdne.",
         "data": {
-          "presence_sensor_entity_id": "ID entity senzora prítomnosti",
-          "eco_away_temp": "Teplota v prednastavenej Eco, keď nie je žiadna prítomnosť",
-          "comfort_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný",
-          "boost_away_temp": "Prednastavená teplota v režime Boost, keď nie je prítomný",
-          "frost_away_temp": "Prednastavená teplota v režime Frost protection, keď nie je prítomný",
-          "eco_ac_away_temp": "Teplota v prednastavenej Eco, keď nie je prítomná v režime AC",
-          "comfort_ac_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný v režime AC",
-          "boost_ac_away_temp": "Teplota v prednastavenom Boost, keď nie je prítomný v režime AC",
-          "use_presence_central_config": "Použite centrálnu konfiguráciu prítomnosti"
+          "presence_sensor_entity_id": "Senzora prítomnosti",
+          "use_presence_central_config": "Použite konfiguráciu centrálnej prítomnosti teploty. Ak chcete použiť špecifické teplotné entity, zrušte výber"
         },
         "data_description": {
-          "presence_sensor_entity_id": "ID entity senzora prítomnosti",
-          "eco_away_temp": "Teplota v prednastavenej Eco, keď nie je žiadna prítomnosť",
-          "comfort_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný",
-          "boost_away_temp": "Prednastavená teplota v režime Boost, keď nie je prítomný",
-          "frost_away_temp": "Teplota v Prednastavená ochrana pred mrazom, keď nie je prítomný",
-          "eco_ac_away_temp": "Teplota v prednastavenej Eco, keď nie je prítomná v režime AC",
-          "comfort_ac_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný v režime AC",
-          "boost_ac_away_temp": "Teplota v prednastavenom Boost, keď nie je prítomný v režime AC",
-          "use_presence_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálnej prítomnosti. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu prítomnosti pre tento VTherm"
+          "presence_sensor_entity_id": "ID entity senzora prítomnosti"
         }
       },
       "advanced": {
@@ -244,6 +247,25 @@
           "thermostat_type": "Je možný len jeden centrálny typ konfigurácie"
         }
       },
+      "menu": {
+        "title": "Menu",
+        "description": "Nakonfigurujte si termostat. Po zadaní všetkých požadovaných parametrov budete môcť dokončiť konfiguráciu.",
+        "menu_options": {
+          "main": "Hlavné atribúty",
+          "central_boiler": "Centrálny kotol",
+          "type": "Podklady",
+          "tpi": "TPI parametre",
+          "features": "Vlastnosti",
+          "presets": "Predvoľby",
+          "window": "Detekcia okien",
+          "motion": "Detekcia pohybu",
+          "power": "Správa napájania",
+          "presence": "Detekcia prítomnosti",
+          "advanced": "Pokročilé parametre",
+          "finalize": "Všetko hotové",
+          "configuration_not_complete": "Konfigurácia nie je dokončená"
+        }
+      },
       "main": {
         "title": "Hlavný - {name}",
         "description": "Hlavné povinné atribúty",
@@ -251,22 +273,32 @@
           "name": "Názov",
           "thermostat_type": "Termostat typ",
           "temperature_sensor_entity_id": "ID entity snímača teploty",
+          "last_seen_temperature_sensor_entity_id": "Dátum posledného zobrazenia izbovej teploty",
           "external_temperature_sensor_entity_id": "ID entity externého snímača teploty",
           "cycle_min": "Trvanie cyklu (minúty)",
           "temp_min": "Minimálna povolená teplota",
           "temp_max": "Maximálna povolená teplota",
+          "step_temperature": "Krok teploty",
           "device_power": "Výkon zariadenia (kW)",
-          "use_central_mode": "Povoliť ovládanie centrálnou entitou (potrebná centrálna konfigurácia)",
+          "use_central_mode": "Povoliť ovládanie centrálnou entitou (vyžaduje centrálnu konfiguráciu). Zaškrtnutím povolíte ovládanie VTherm pomocou vybraných entít central_mode.",
+          "use_main_central_config": "Použite dodatočnú centrálnu hlavnú konfiguráciu. Začiarknite, ak chcete použiť centrálnu hlavnú konfiguráciu (vonkajšia teplota, min, max, krok, ...).",
+          "used_by_controls_central_boiler": "Používa sa centrálnym kotlom. Skontrolujte, či má mať tento VTherm ovládanie na centrálnom kotli"
+        },
+        "data_description": {
+          "temperature_sensor_entity_id": "ID entity snímača izbovej teploty",
+          "last_seen_temperature_sensor_entity_id": "Naposledy videný snímač izbovej teploty ID entity. Mal by to byť snímač dátumu a času",
+          "external_temperature_sensor_entity_id": "ID entity snímača vonkajšej teploty. Nepoužíva sa, ak je zvolená centrálna konfigurácia"
+        }
+      },
+      "features": {
+        "title": "Vlastnosti - {name}",
+        "description": "Vlastnosti termostatu",
+        "data": {
           "use_window_feature": "Použite detekciu okien",
           "use_motion_feature": "Použite detekciu pohybu",
           "use_power_feature": "Použite správu napájania",
           "use_presence_feature": "Použite detekciu prítomnosti",
-          "use_main_central_config": "Použite centrálnu hlavnú konfiguráciu"
-        },
-        "data_description": {
-          "use_central_mode": "Zaškrtnutím povolíte ovládanie VTherm pomocou vybraných entít central_mode",
-          "use_main_central_config": "Začiarknite, ak chcete použiť centrálnu hlavnú konfiguráciu. Ak chcete použiť špecifickú konfiguráciu pre tento VTherm, zrušte začiarknutie",
-          "external_temperature_sensor_entity_id": "ID entity snímača vonkajšej teploty. Nepoužíva sa, ak je zvolená centrálna konfigurácia"
+          "use_central_boiler_feature": "Použite centrálny kotol. Začiarknutím tohto políčka pridáte ovládanie do centrálneho kotla. Po zaškrtnutí tohto políčka budete musieť nakonfigurovať VTherm, ktorý bude mať ovládanie centrálneho kotla, aby sa prejavilo. Ak jeden VTherm vyžaduje ohrev, kotol sa zapne. Ak žiadny VTherm nevyžaduje ohrev, kotol sa vypne. Príkazy na zapnutie/vypnutie centrálneho kotla sú uvedené na príslušnej konfiguračnej stránke"
         }
       },
       "type": {
@@ -277,6 +309,7 @@
           "heater_entity2_id": "2. spínač ohrievača",
           "heater_entity3_id": "3. spínač ohrievača",
           "heater_entity4_id": "4. spínač ohrievača",
+          "heater_keep_alive": "Prepnite interval udržiavania v sekundách",
           "proportional_function": "Algoritmus",
           "climate_entity_id": "Základná klíma",
           "climate_entity2_id": "2. základná klíma",
@@ -290,6 +323,7 @@
           "auto_regulation_mode": "Samoregulácia",
           "auto_regulation_dtemp": "Regulačný prah",
           "auto_regulation_periode_min": "Regulačné minimálne obdobie",
+          "auto_regulation_use_device_temp": "Použite vnútornú teplotu podkladu",
           "inverse_switch_command": "Inverzný prepínací príkaz",
           "auto_fan_mode": "Režim automatického ventilátora"
         },
@@ -298,6 +332,7 @@
           "heater_entity2_id": "Voliteľné ID entity 2. ohrievača. Ak sa nepoužíva, nechajte prázdne",
           "heater_entity3_id": "Voliteľné ID entity 3. ohrievača. Ak sa nepoužíva, nechajte prázdne",
           "heater_entity4_id": "Voliteľné ID entity 4. ohrievača. Ak sa nepoužíva, nechajte prázdne",
+          "heater_keep_alive": "Voliteľný interval obnovy stavu spínača ohrievača. Ak to nie je potrebné, nechajte prázdne.",
           "proportional_function": "Algoritmus, ktorý sa má použiť (TPI je zatiaľ jediný)",
           "climate_entity_id": "ID základnej klimatickej entity",
           "climate_entity2_id": "2. základný identifikátor klimatickej entity",
@@ -311,6 +346,7 @@
           "auto_regulation_mode": "Automatické nastavenie cieľovej teploty",
           "auto_regulation_dtemp": "Hranica v °, pod ktorou sa zmena teploty neodošle",
           "auto_regulation_periode_min": "Trvanie v minútach medzi dvoma aktualizáciami predpisov",
+          "auto_regulation_use_device_temp": "Na urýchlenie samoregulácie použite prípadný vnútorný snímač teploty podkladu",
           "inverse_switch_command": "V prípade spínača s pilotným vodičom a diódou možno budete musieť príkaz invertovať",
           "auto_fan_mode": "Automaticky aktivujte ventilátor, keď je potrebné veľké vykurovanie/chladenie"
         }
@@ -333,24 +369,7 @@
         "title": "Predvoľby - {name}",
         "description": "Pre každú predvoľbu zadajte cieľovú teplotu (0, ak chcete predvoľbu ignorovať)",
         "data": {
-          "eco_temp": "Teplota v predvoľbe Eco",
-          "comfort_temp": "Prednastavená teplota v komfortnom režime",
-          "boost_temp": "Teplota v prednastavení Boost",
-          "frost_temp": "Teplota v prednastavení Frost protection",
-          "eco_ac_temp": "Teplota v režime Eco prednastavená pre režim AC",
-          "comfort_ac_temp": "Teplota v režime Comfort je prednastavená pre režim AC",
-          "boost_ac_temp": "Prednastavená teplota v režime Boost pre režim AC",
           "use_presets_central_config": "Použite konfiguráciu centrálnych predvolieb"
-        },
-        "data_description": {
-          "eco_temp": "Teplota v predvoľbe Eco",
-          "comfort_temp": "Prednastavená teplota v komfortnom režime",
-          "boost_temp": "Teplota v prednastavení Boost",
-          "frost_temp": "Teplota v prednastavenej ochrane proti mrazu",
-          "eco_ac_temp": "Teplota v režime Eco prednastavená pre režim AC",
-          "comfort_ac_temp": "Teplota v režime Comfort je prednastavená pre režim AC",
-          "boost_ac_temp": "Prednastavená teplota v režime Boost pre režim AC",
-          "use_presets_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálnych predvolieb. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu predvolieb pre tento VTherm"
         }
       },
       "window": {
@@ -362,7 +381,8 @@
           "window_auto_open_threshold": "Prah poklesu teploty pre automatickú detekciu otvoreného okna (v °/hodina)",
           "window_auto_close_threshold": "Prahová hodnota zvýšenia teploty pre koniec automatickej detekcie (v °/hodina)",
           "window_auto_max_duration": "Maximálne trvanie automatickej detekcie otvoreného okna (v min)",
-          "use_window_central_config": "Použite centrálnu konfiguráciu okna"
+          "use_window_central_config": "Použite centrálnu konfiguráciu okna",
+          "window_action": "Akcia"
         },
         "data_description": {
           "window_sensor_entity_id": "Nechajte prázdne, ak nemáte použiť žiadny okenný senzor",
@@ -370,7 +390,8 @@
           "window_auto_open_threshold": "Odporúčaná hodnota: medzi 3 a 10. Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
           "window_auto_close_threshold": "Odporúčaná hodnota: 0. Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
           "window_auto_max_duration": "Odporúčaná hodnota: 60 (jedna hodina). Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
-          "use_window_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálneho okna. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu okna pre tento VTherm"
+          "use_window_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálneho okna. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu okna pre tento VTherm",
+          "window_action": "Akcia, ktorá sa má vykonať, ak sa okno zistí ako otvorené"
         }
       },
       "motion": {
@@ -410,29 +431,14 @@
         }
       },
       "presence": {
-        "title": "Riadenie prítomnosti",
-        "description": "Atribúty správy prítomnosti.\nPoskytuje senzor prítomnosti vášho domova (pravda, ak je niekto prítomný).\nPotom zadajte buď predvoľbu, ktorá sa má použiť, keď je senzor prítomnosti nepravdivý, alebo posun teploty, ktorý sa má použiť.\nAk je zadaná predvoľba, posun sa nepoužije.\nAk sa nepoužije, ponechajte zodpovedajúce entity_id prázdne.",
+        "title": "Prítommnosť - {name}",
+        "description": "Atribúty riadenia prítomnosti.\nPoskytuje senzor prítomnosti vášho domova (pravda, je niekto prítomný) a poskytuje zodpovedajúce prednastavené nastavenie teploty.",
         "data": {
-          "presence_sensor_entity_id": "ID entity senzora prítomnosti (pravda je prítomná)",
-          "eco_away_temp": "Teplota v prednastavenej Eco, keď nie je žiadna prítomnosť",
-          "comfort_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný",
-          "boost_away_temp": "Prednastavená teplota v režime Boost, keď nie je prítomný",
-          "frost_away_temp": "Prednastavená teplota v režime Frost protection, keď nie je prítomný",
-          "eco_ac_away_temp": "Teplota v prednastavenej Eco, keď nie je prítomná v režime AC",
-          "comfort_ac_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný v režime AC",
-          "boost_ac_away_temp": "Teplota v prednastavenom Boost, keď nie je prítomný v režime AC",
-          "use_presence_central_config": "Použite centrálnu konfiguráciu prítomnosti"
+          "presence_sensor_entity_id": "Senzor prítomnosti",
+          "use_presence_central_config": "Použite konfiguráciu centrálnej prítomnosti teploty. Ak chcete použiť špecifické entity teploty, zrušte začiarknutie"
         },
         "data_description": {
-          "presence_sensor_entity_id": "ID entity senzora prítomnosti",
-          "eco_away_temp": "Teplota v prednastavenej Eco, keď nie je žiadna prítomnosť",
-          "comfort_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný",
-          "boost_away_temp": "Prednastavená teplota v režime Boost, keď nie je prítomný",
-          "frost_away_temp": "Teplota v Prednastavená ochrana pred mrazom, keď nie je prítomný",
-          "eco_ac_away_temp": "Teplota v prednastavenej Eco, keď nie je prítomná v režime AC",
-          "comfort_ac_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný v režime AC",
-          "boost_ac_away_temp": "Teplota v prednastavenom Boost, keď nie je prítomný v režime AC",
-          "use_presence_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálnej prítomnosti. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu prítomnosti pre tento VTherm"
+          "presence_sensor_entity_id": "ID entity senzora prítomnosti"
         }
       },
       "advanced": {
@@ -458,7 +464,8 @@
       "unknown": "Neočakávaná chyba",
       "unknown_entity": "Neznáme ID entity",
       "window_open_detection_method": "Mala by sa použiť iba jedna metóda detekcie otvoreného okna. Použite senzor alebo automatickú detekciu cez teplotný prah, ale nie oboje",
-      "no_central_config": "Nemôžete zaškrtnúť „použiť centrálnu konfiguráciu“, pretože sa nenašla žiadna centrálna konfigurácia. Aby ste ho mohli používať, musíte si vytvoriť všestranný termostat typu „Central Configuration“."
+      "no_central_config": "Nemôžete zaškrtnúť „použiť centrálnu konfiguráciu“, pretože sa nenašla žiadna centrálna konfigurácia. Aby ste ho mohli používať, musíte si vytvoriť všestranný termostat typu „Central Configuration“.",
+      "service_configuration_format": "Formát konfigurácie služby je nesprávny"
     },
     "abort": {
       "already_configured": "Zariadenie je už nakonfigurované"
@@ -491,6 +498,22 @@
         "auto_fan_high": "Vysoký",
         "auto_fan_turbo": "Turbo"
       }
+    },
+    "window_action": {
+      "options": {
+        "window_turn_off": "Vypnúť",
+        "window_fan_only": "Len ventilátor",
+        "window_frost_temp": "Ochrana pred mrazom",
+        "window_eco_temp": "Eco"
+      }
+    },
+    "presets": {
+      "options": {
+        "frost": "Ochrana proti mrazu",
+        "eco": "Eco",
+        "comfort": "Komfort",
+        "boost": "Boost"
+      }
     }
   },
   "entity": {
@@ -506,6 +529,53 @@
           }
         }
       }
+    },
+    "number": {
+      "frost_temp": {
+        "name": "Mráz"
+      },
+      "eco_temp": {
+        "name": "Eco"
+      },
+      "comfort_temp": {
+        "name": "Komfort"
+      },
+      "boost_temp": {
+        "name": "Boost"
+      },
+      "frost_ac_temp": {
+        "name": "Mráz ac"
+      },
+      "eco_ac_temp": {
+        "name": "Eco ac"
+      },
+      "comfort_ac_temp": {
+        "name": "Komfort ac"
+      },
+      "boost_ac_temp": {
+        "name": "Boost ac"
+      },
+      "frost_away_temp": {
+        "name": "Mráz mimo"
+      },
+      "eco_away_temp": {
+        "name": "Eko mimo"
+      },
+      "comfort_away_temp": {
+        "name": "Komfort mimo"
+      },
+      "boost_away_temp": {
+        "name": "Boost mimo"
+      },
+      "eco_ac_away_temp": {
+        "name": "Eco ac mimo"
+      },
+      "comfort_ac_away_temp": {
+        "name": "Komfort ac mimo"
+      },
+      "boost_ac_away_temp": {
+        "name": "Boost ac mimo"
+      }
     }
   }
 }

custom_components/versatile_thermostat/underlyings.py

@@ -5,7 +5,7 @@ import logging
 from typing import Any
 from enum import StrEnum
 
-from homeassistant.const import ATTR_ENTITY_ID, STATE_ON, UnitOfTemperature
+from homeassistant.const import ATTR_ENTITY_ID, STATE_ON, STATE_UNAVAILABLE
 from homeassistant.core import State
 
 from homeassistant.exceptions import ServiceNotFound
@@ -30,6 +30,7 @@ from homeassistant.components.number import SERVICE_SET_VALUE
 
 from homeassistant.helpers.entity_component import EntityComponent
 from homeassistant.helpers.event import async_call_later
+from homeassistant.util.unit_conversion import TemperatureConverter
 
 from .const import UnknownEntity, overrides
 from .keep_alive import IntervalCaller
@@ -252,7 +253,28 @@ class UnderlyingSwitch(UnderlyingEntity):
 
     async def _keep_alive_callback(self):
         """Keep alive: Turn on if already turned on, turn off if already turned off."""
-        await (self.turn_on() if self.is_device_active else self.turn_off())
+        timer = self._keep_alive.backoff_timer
+        state: State | None = self._hass.states.get(self._entity_id)
+        # Normal, expected state.state values are "on" and "off". An absent
+        # underlying MQTT switch was observed to produce either state == None
+        # or state.state == STATE_UNAVAILABLE ("unavailable").
+        if state is None or state.state == STATE_UNAVAILABLE:
+            if timer.is_ready():
+                _LOGGER.warning(
+                    "Entity %s is not available (state: %s). Will keep trying "
+                    "keep alive calls, but won't log this condition every time.",
+                    self._entity_id,
+                    state.state if state else "None",
+                )
+        else:
+            if timer.in_progress:
+                timer.reset()
+                _LOGGER.warning(
+                    "Entity %s has recovered (state: %s).",
+                    self._entity_id,
+                    state.state,
+                )
+            await (self.turn_on() if self.is_device_active else self.turn_off())
 
     # @overrides this breaks some unit tests TypeError: object MagicMock can't be used in 'await' expression
     async def turn_off(self):
@@ -590,12 +612,22 @@ class UnderlyingClimate(UnderlyingEntity):
         if not self.is_initialized:
             return
 
-        data = {
-            ATTR_ENTITY_ID: self._entity_id,
-            "temperature": self.cap_sent_value(temperature),
-            "target_temp_high": max_temp,
-            "target_temp_low": min_temp,
-        }
+        # Issue 508 we have to take care of service set_temperature or set_range
+        target_temp = self.cap_sent_value(temperature)
+        if (
+            ClimateEntityFeature.TARGET_TEMPERATURE_RANGE
+            in self._underlying_climate.supported_features
+        ):
+            data = {
+                ATTR_ENTITY_ID: self._entity_id,
+                "target_temp_high": target_temp,
+                "target_temp_low": target_temp,
+            }
+        else:
+            data = {
+                ATTR_ENTITY_ID: self._entity_id,
+                "temperature": target_temp,
+            }
 
         await self._hass.services.async_call(
             CLIMATE_DOMAIN,
@@ -663,7 +695,7 @@ class UnderlyingClimate(UnderlyingEntity):
     def temperature_unit(self) -> str:
         """Get the temperature_unit"""
         if not self.is_initialized:
-            return UnitOfTemperature.CELSIUS
+            return self._hass.config.units.temperature_unit
         return self._underlying_climate.temperature_unit
 
     @property
@@ -704,7 +736,7 @@ class UnderlyingClimate(UnderlyingEntity):
         if not hasattr(self._underlying_climate, "current_temperature"):
             return None
 
-        return self._underlying_climate.current_temperature
+        return self._hass.states.get(self._entity_id).attributes.get("current_temperature")
 
     def turn_aux_heat_on(self) -> None:
         """Turn auxiliary heater on."""
@@ -731,8 +763,12 @@ class UnderlyingClimate(UnderlyingEntity):
             self._underlying_climate.min_temp is not None
             and self._underlying_climate is not None
         ):
-            min_val = self._underlying_climate.min_temp
-            max_val = self._underlying_climate.max_temp
+            min_val = TemperatureConverter.convert(
+                self._underlying_climate.min_temp, self._underlying_climate.temperature_unit, self._hass.config.units.temperature_unit
+            )
+            max_val = TemperatureConverter.convert(
+                self._underlying_climate.max_temp, self._underlying_climate.temperature_unit, self._hass.config.units.temperature_unit
+            )
 
             new_value = max(min_val, min(value, max_val))
         else:

hacs.json

@@ -3,5 +3,5 @@
     "content_in_root": false,
     "render_readme": true,
     "hide_default_branch": false,
-    "homeassistant": "2024.4.3"
+    "homeassistant": "2024.9.3"
 }

requirements_dev.txt

@@ -1 +1 @@
-homeassistant==2024.4.3
+homeassistant==2024.9.3

tests/commons.py

@@ -435,6 +435,86 @@ class MagicMockClimate(MagicMock):
         return 19
 
 
+class MagicMockClimateWithTemperatureRange(MagicMock):
+    """A Magic Mock class for a underlying climate entity"""
+
+    @property
+    def temperature_unit(self):  # pylint: disable=missing-function-docstring
+        return UnitOfTemperature.CELSIUS
+
+    @property
+    def hvac_mode(self):  # pylint: disable=missing-function-docstring
+        return HVACMode.HEAT
+
+    @property
+    def hvac_action(self):  # pylint: disable=missing-function-docstring
+        return HVACAction.IDLE
+
+    @property
+    def target_temperature(self):  # pylint: disable=missing-function-docstring
+        return 15
+
+    @property
+    def current_temperature(self):  # pylint: disable=missing-function-docstring
+        return 14
+
+    @property
+    def target_temperature_step(  # pylint: disable=missing-function-docstring
+        self,
+    ) -> float | None:
+        return 0.5
+
+    @property
+    def target_temperature_high(  # pylint: disable=missing-function-docstring
+        self,
+    ) -> float | None:
+        return 35
+
+    @property
+    def target_temperature_low(  # pylint: disable=missing-function-docstring
+        self,
+    ) -> float | None:
+        return 7
+
+    @property
+    def hvac_modes(  # pylint: disable=missing-function-docstring
+        self,
+    ) -> list[str] | None:
+        return [HVACMode.HEAT, HVACMode.OFF, HVACMode.COOL]
+
+    @property
+    def fan_modes(  # pylint: disable=missing-function-docstring
+        self,
+    ) -> list[str] | None:
+        return None
+
+    @property
+    def swing_modes(  # pylint: disable=missing-function-docstring
+        self,
+    ) -> list[str] | None:
+        return None
+
+    @property
+    def fan_mode(self) -> str | None:  # pylint: disable=missing-function-docstring
+        return None
+
+    @property
+    def swing_mode(self) -> str | None:  # pylint: disable=missing-function-docstring
+        return None
+
+    @property
+    def supported_features(self):  # pylint: disable=missing-function-docstring
+        return ClimateEntityFeature.TARGET_TEMPERATURE_RANGE
+
+    @property
+    def min_temp(self):  # pylint: disable=missing-function-docstring
+        return 10
+
+    @property
+    def max_temp(self):  # pylint: disable=missing-function-docstring
+        return 31
+
+
 class MockSwitch(SwitchEntity):
     """A fake switch to be used instead real switch"""
 

tests/test_auto_regulation.py

@@ -544,3 +544,116 @@ async def test_over_climate_regulation_use_device_temp(
                     ),
                 ]
             )
+
+@pytest.mark.parametrize("expected_lingering_tasks", [True])
+@pytest.mark.parametrize("expected_lingering_timers", [True])
+async def test_over_climate_regulation_dtemp_null(
+    hass: HomeAssistant, skip_hass_states_is_state, skip_send_event
+):
+    """Test the regulation of an over climate thermostat with no Dtemp limitation"""
+
+    entry = MockConfigEntry(
+        domain=DOMAIN,
+        title="TheOverClimateMockName",
+        unique_id="uniqueId",
+        # This is include a medium regulation
+        data=PARTIAL_CLIMATE_AC_CONFIG | {CONF_AUTO_REGULATION_DTEMP: 0, CONF_STEP_TEMPERATURE: 0.1},
+    )
+
+    tz = get_tz(hass)  # pylint: disable=invalid-name
+    now: datetime = datetime.now(tz=tz)
+    fake_underlying_climate = MockClimate(hass, "mockUniqueId", "MockClimateName", {})
+
+    # Creates the regulated VTherm over climate
+    # change temperature so that the heating will start
+    event_timestamp = now - timedelta(minutes=20)
+
+    with patch(
+        "custom_components.versatile_thermostat.commons.NowClass.get_now",
+        return_value=event_timestamp,
+    ), patch(
+        "custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
+        return_value=fake_underlying_climate,
+    ):
+        entity = await create_thermostat(hass, entry, "climate.theoverclimatemockname")
+
+        assert entity
+        assert isinstance(entity, ThermostatOverClimate)
+
+        assert entity.name == "TheOverClimateMockName"
+        assert entity.is_over_climate is True
+        assert entity.is_regulated is True
+
+        # Activate the heating by changing HVACMode and temperature
+        # Select a hvacmode, presence and preset
+        await entity.async_set_hvac_mode(HVACMode.HEAT)
+        assert entity.hvac_mode is HVACMode.HEAT
+        assert entity.hvac_action == HVACAction.OFF
+
+        # change temperature so that the heating will start
+        await send_temperature_change_event(entity, 15, event_timestamp)
+        await send_ext_temperature_change_event(entity, 10, event_timestamp)
+
+        # set manual target temp
+        event_timestamp = now - timedelta(minutes=17)
+        with patch(
+            "custom_components.versatile_thermostat.commons.NowClass.get_now",
+            return_value=event_timestamp,
+        ):
+            await entity.async_set_temperature(temperature=20)
+
+            fake_underlying_climate.set_hvac_action(
+                HVACAction.HEATING
+            )  # simulate under cooling
+            assert entity.hvac_action == HVACAction.HEATING
+            assert entity.preset_mode == PRESET_NONE  # Manual mode
+
+            # the regulated temperature should be lower
+            assert entity.regulated_target_temp > entity.target_temperature
+            assert (
+                entity.regulated_target_temp == 20 + 2.4
+            )  # In medium we could go up to +3 degre
+            assert entity.hvac_action == HVACAction.HEATING
+
+        # change temperature so that the regulated temperature should slow down
+        event_timestamp = now - timedelta(minutes=15)
+        with patch(
+            "custom_components.versatile_thermostat.commons.NowClass.get_now",
+            return_value=event_timestamp,
+        ):
+            await send_temperature_change_event(entity, 19, event_timestamp)
+            await send_ext_temperature_change_event(entity, 10, event_timestamp)
+
+            # the regulated temperature should be greater
+            assert entity.regulated_target_temp > entity.target_temperature
+            assert (
+                entity.regulated_target_temp == 20 + 0.9
+            ) 
+
+            # change temperature so that the regulated temperature should slow down
+        event_timestamp = now - timedelta(minutes=13)
+        with patch(
+            "custom_components.versatile_thermostat.commons.NowClass.get_now",
+            return_value=event_timestamp,
+        ):
+            await send_temperature_change_event(entity, 20, event_timestamp)
+            await send_ext_temperature_change_event(entity, 10, event_timestamp)
+
+            # the regulated temperature should be greater
+            assert entity.regulated_target_temp > entity.target_temperature
+            assert (
+                entity.regulated_target_temp == 20 + 0.5
+            ) 
+
+        old_regulated_temp = entity.regulated_target_temp
+        # Test if a small temperature change is taken into account : change temperature so that dtemp < 0.5 and time is > period_min (+ 3min)
+        event_timestamp = now - timedelta(minutes=10)
+        with patch(
+            "custom_components.versatile_thermostat.commons.NowClass.get_now",
+            return_value=event_timestamp,
+        ):
+            await send_temperature_change_event(entity, 19.6, event_timestamp)
+            await send_ext_temperature_change_event(entity, 10, event_timestamp)
+
+            # the regulated temperature should be greater. This does not work if dtemp is not null
+            assert entity.regulated_target_temp > old_regulated_temp

tests/test_bugs.py

@@ -657,8 +657,8 @@ async def test_bug_272(
                     {
                         "entity_id": "climate.mock_climate",
                         "temperature": 17.5,
-                        "target_temp_high": 30,
-                        "target_temp_low": 15,
+                        # "target_temp_high": 30,
+                        # "target_temp_low": 15,
                     },
                 ),
             ]
@@ -687,8 +687,8 @@ async def test_bug_272(
                     {
                         "entity_id": "climate.mock_climate",
                         "temperature": 15,  # the minimum acceptable
-                        "target_temp_high": 30,
-                        "target_temp_low": 15,
+                        # "target_temp_high": 30,
+                        # "target_temp_low": 15,
                     },
                 ),
             ]
@@ -714,8 +714,8 @@ async def test_bug_272(
                     {
                         "entity_id": "climate.mock_climate",
                         "temperature": 19,  # the maximum acceptable
-                        "target_temp_high": 30,
-                        "target_temp_low": 15,
+                        # "target_temp_high": 30,
+                        # "target_temp_low": 15,
                     },
                 ),
             ]
@@ -924,3 +924,92 @@ async def test_bug_339(
     assert api.nb_active_device_for_boiler == 1
 
     entity.remove_thermostat()
+
+
+@pytest.mark.parametrize("expected_lingering_timers", [True])
+async def test_bug_508(
+    hass: HomeAssistant,
+    skip_hass_states_is_state,
+    skip_turn_on_off_heater,
+    skip_send_event,
+):
+    """Test that it not possible to set the target temperature under the min_temp setting"""
+
+    tz = get_tz(hass)  # pylint: disable=invalid-name
+    now: datetime = datetime.now(tz=tz)
+
+    entry = MockConfigEntry(
+        domain=DOMAIN,
+        title="TheOverClimateMockName",
+        unique_id="uniqueId",
+        # default value are min 15°, max 31°, step 0.1
+        data=PARTIAL_CLIMATE_CONFIG,  # 5 minutes security delay
+    )
+
+    # Min_temp is 10 and max_temp is 31 and features contains TARGET_TEMPERATURE_RANGE
+    fake_underlying_climate = MagicMockClimateWithTemperatureRange()
+
+    with patch(
+        "custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
+    ), patch(
+        "custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
+        return_value=fake_underlying_climate,
+    ), patch(
+        "homeassistant.core.ServiceRegistry.async_call"
+    ) as mock_service_call:
+        entity = await create_thermostat(hass, entry, "climate.theoverclimatemockname")
+
+        assert entity
+
+        assert entity.name == "TheOverClimateMockName"
+        assert entity.is_over_climate is True
+        assert entity.hvac_mode is HVACMode.OFF
+        # The VTherm value and not the underlying value
+        assert entity.target_temperature_step == 0.1
+        assert entity.target_temperature == entity.min_temp
+        assert entity.is_regulated is True
+
+        assert mock_service_call.call_count == 0
+
+        # Set the hvac_mode to HEAT
+        await entity.async_set_hvac_mode(HVACMode.HEAT)
+
+        # Not In the accepted interval -> should be converted into 10 (the min) and send with target_temp_high and target_temp_low
+        await entity.async_set_temperature(temperature=8.5)
+
+        # MagicMock climate is already HEAT by default. So there is no SET_HAVC_MODE call
+        assert mock_service_call.call_count == 1
+        mock_service_call.assert_has_calls(
+            [
+                call.async_call(
+                    "climate",
+                    SERVICE_SET_TEMPERATURE,
+                    {
+                        "entity_id": "climate.mock_climate",
+                        # "temperature": 17.5,
+                        "target_temp_high": 10,
+                        "target_temp_low": 10,
+                    },
+                ),
+            ]
+        )
+
+    with patch("homeassistant.core.ServiceRegistry.async_call") as mock_service_call:
+        # Not In the accepted interval -> should be converted into 10 (the min) and send with target_temp_high and target_temp_low
+        await entity.async_set_temperature(temperature=32)
+
+        # MagicMock climate is already HEAT by default. So there is no SET_HAVC_MODE call
+        assert mock_service_call.call_count == 1
+        mock_service_call.assert_has_calls(
+            [
+                call.async_call(
+                    "climate",
+                    SERVICE_SET_TEMPERATURE,
+                    {
+                        "entity_id": "climate.mock_climate",
+                        "target_temp_high": 31,
+                        "target_temp_low": 31,
+                    },
+                ),
+            ]
+        )

tests/test_central_boiler.py

@@ -69,7 +69,7 @@ async def test_add_a_central_config_with_boiler(
     assert api.nb_active_device_for_boiler == 0
 
     assert api.nb_active_device_for_boiler_threshold_entity is not None
-    assert api.nb_active_device_for_boiler_threshold is 1  # the default value is 1
+    assert api.nb_active_device_for_boiler_threshold == 1  # the default value is 1
 
 
 async def test_update_central_boiler_state_simple(

tests/test_central_config.py

@@ -514,4 +514,4 @@ async def test_migration_of_central_config(
     assert api.nb_active_device_for_boiler == 0
 
     assert api.nb_active_device_for_boiler_threshold_entity is not None
-    assert api.nb_active_device_for_boiler_threshold is 1  # the default value is 1
+    assert api.nb_active_device_for_boiler_threshold == 1  # the default value is 1

tests/test_movement.py

@@ -83,7 +83,7 @@ async def test_movement_management_time_not_enough(
         await send_ext_temperature_change_event(entity, 10, event_timestamp)
 
         await send_presence_change_event(entity, True, False, event_timestamp)
-        assert entity.presence_state is "on"
+        assert entity.presence_state == "on"
 
     # starts detecting motion with time not enough
     with patch(
@@ -110,7 +110,7 @@ async def test_movement_management_time_not_enough(
         assert entity.target_temperature == 18
         # state is not changed if time is not enough
         assert entity.motion_state is None
-        assert entity.presence_state is "on"
+        assert entity.presence_state == "on"
 
         assert mock_send_event.call_count == 0
         # Change is not confirmed
@@ -141,8 +141,8 @@ async def test_movement_management_time_not_enough(
         assert entity.preset_mode is PRESET_ACTIVITY
         # because motion is detected yet
         assert entity.target_temperature == 19
-        assert entity.motion_state is "on"
-        assert entity.presence_state is "on"
+        assert entity.motion_state == "on"
+        assert entity.presence_state == "on"
 
     # stop detecting motion with off delay too low
     with patch(
@@ -167,8 +167,8 @@ async def test_movement_management_time_not_enough(
         assert entity.preset_mode is PRESET_ACTIVITY
         # because no motion is detected yet
         assert entity.target_temperature == 19
-        assert entity.motion_state is "on"
-        assert entity.presence_state is "on"
+        assert entity.motion_state == "on"
+        assert entity.presence_state == "on"
 
         assert mock_send_event.call_count == 0
         # The heater must heat now
@@ -199,8 +199,8 @@ async def test_movement_management_time_not_enough(
         assert entity.preset_mode is PRESET_ACTIVITY
         # because no motion is detected yet
         assert entity.target_temperature == 18
-        assert entity.motion_state is "off"
-        assert entity.presence_state is "on"
+        assert entity.motion_state == "off"
+        assert entity.presence_state == "on"
 
         assert mock_send_event.call_count == 0
         # The heater must stop heating now
@@ -280,7 +280,7 @@ async def test_movement_management_time_enough_and_presence(
         await send_ext_temperature_change_event(entity, 10, event_timestamp)
 
         await send_presence_change_event(entity, True, False, event_timestamp)
-        assert entity.presence_state is "on"
+        assert entity.presence_state == "on"
 
     # starts detecting motion
     with patch(
@@ -302,8 +302,8 @@ async def test_movement_management_time_enough_and_presence(
         assert entity.preset_mode is PRESET_ACTIVITY
         # because motion is detected yet -> switch to Boost mode
         assert entity.target_temperature == 19
-        assert entity.motion_state is "on"
-        assert entity.presence_state is "on"
+        assert entity.motion_state == "on"
+        assert entity.presence_state == "on"
 
         assert mock_send_event.call_count == 0
         # Change is confirmed. Heater should be started
@@ -331,8 +331,8 @@ async def test_movement_management_time_enough_and_presence(
         assert entity.preset_mode is PRESET_ACTIVITY
         # because no motion is detected yet
         assert entity.target_temperature == 18
-        assert entity.motion_state is "off"
-        assert entity.presence_state is "on"
+        assert entity.motion_state == "off"
+        assert entity.presence_state == "on"
 
         assert mock_send_event.call_count == 0
         assert mock_heater_on.call_count == 0
@@ -412,7 +412,7 @@ async def test_movement_management_time_enoughand_not_presence(
         await send_ext_temperature_change_event(entity, 10, event_timestamp)
 
         await send_presence_change_event(entity, False, True, event_timestamp)
-        assert entity.presence_state is "off"
+        assert entity.presence_state == "off"
 
     # starts detecting motion
     with patch(
@@ -434,8 +434,8 @@ async def test_movement_management_time_enoughand_not_presence(
         assert entity.preset_mode is PRESET_ACTIVITY
         # because motion is detected yet -> switch to Boost away mode
         assert entity.target_temperature == 19.1
-        assert entity.motion_state is "on"
-        assert entity.presence_state is "off"
+        assert entity.motion_state == "on"
+        assert entity.presence_state == "off"
 
         assert mock_send_event.call_count == 0
         # Change is confirmed. Heater should be started
@@ -463,8 +463,8 @@ async def test_movement_management_time_enoughand_not_presence(
         assert entity.preset_mode is PRESET_ACTIVITY
         # because no motion is detected yet
         assert entity.target_temperature == 18.1
-        assert entity.motion_state is "off"
-        assert entity.presence_state is "off"
+        assert entity.motion_state == "off"
+        assert entity.presence_state == "off"
 
         assert mock_send_event.call_count == 0
         # 18.1 starts heating with a low on_percent
@@ -546,7 +546,7 @@ async def test_movement_management_with_stop_during_condition(
         await send_ext_temperature_change_event(entity, 10, event_timestamp)
 
         await send_presence_change_event(entity, False, True, event_timestamp)
-        assert entity.presence_state is "off"
+        assert entity.presence_state == "off"
 
     # starts detecting motion
     with patch(
@@ -569,7 +569,7 @@ async def test_movement_management_with_stop_during_condition(
         # because motion is detected yet -> switch to Boost mode
         assert entity.target_temperature == 18
         assert entity.motion_state is None
-        assert entity.presence_state is "off"
+        assert entity.presence_state == "off"
 
         # Send a stop detection
         event_timestamp = now - timedelta(minutes=4)
@@ -580,7 +580,7 @@ async def test_movement_management_with_stop_during_condition(
         assert entity.preset_mode is PRESET_ACTIVITY
         assert entity.target_temperature == 18
         assert entity.motion_state is None
-        assert entity.presence_state is "off"
+        assert entity.presence_state == "off"
 
         # Resend a start detection
         event_timestamp = now - timedelta(minutes=3)
@@ -592,10 +592,10 @@ async def test_movement_management_with_stop_during_condition(
         # still no motion detected
         assert entity.target_temperature == 18
         assert entity.motion_state is None
-        assert entity.presence_state is "off"
+        assert entity.presence_state == "off"
 
         await try_condition1(None)
         # We should have switch this time
         assert entity.target_temperature == 19 # Boost
-        assert entity.motion_state is "on"     # switch to movement on
-        assert entity.presence_state is "off"  # Non change
+        assert entity.motion_state == "on"     # switch to movement on
+        assert entity.presence_state == "off"  # Non change

tests/test_switch_keep_alive.py

@@ -6,6 +6,7 @@ from unittest.mock import ANY, _Call, call, patch
 from datetime import datetime, timedelta
 from typing import cast
 
+from custom_components.versatile_thermostat.keep_alive import BackoffTimer
 from custom_components.versatile_thermostat.thermostat_switch import (
     ThermostatOverSwitch,
 )
@@ -52,6 +53,7 @@ class CommonMocks:
     hass: HomeAssistant
     thermostat: ThermostatOverSwitch
     mock_is_state: MagicMock
+    mock_get_state: MagicMock
     mock_service_call: MagicMock
     mock_async_track_time_interval: MagicMock
     mock_send_event: MagicMock
@@ -73,15 +75,18 @@ async def common_mocks(
         thermostat = cast(ThermostatOverSwitch, await create_thermostat(
             hass, config_entry, "climate.theoverswitchmockname"
         ))
-        yield CommonMocks(
-            config_entry=config_entry,
-            hass=hass,
-            thermostat=thermostat,
-            mock_is_state=mock_is_state,
-            mock_service_call=mock_service_call,
-            mock_async_track_time_interval=mock_async_track_time_interval,
-            mock_send_event=mock_send_event,
-        )
+        with patch("homeassistant.core.StateMachine.get") as mock_get_state:
+            mock_get_state.return_value.state = "off"
+            yield CommonMocks(
+                config_entry=config_entry,
+                hass=hass,
+                thermostat=thermostat,
+                mock_is_state=mock_is_state,
+                mock_get_state=mock_get_state,
+                mock_service_call=mock_service_call,
+                mock_async_track_time_interval=mock_async_track_time_interval,
+                mock_send_event=mock_send_event,
+            )
         # Clean the entity
         thermostat.remove_thermostat()
 
@@ -256,3 +261,123 @@ class TestKeepAlive:
                 call("switch", SERVICE_TURN_OFF, {"entity_id": "switch.mock_switch"}),
             ],
         )
+
+
+class TestBackoffTimer:
+    """Test the keep_alive.BackoffTimer helper class."""
+
+    def test_exponential_period_increase(self):
+        """Test that consecutive calls to is_ready() produce increasing wait periods."""
+        with patch(
+            "custom_components.versatile_thermostat.keep_alive.monotonic"
+        ) as mock_monotonic:
+            timer = BackoffTimer(
+                multiplier=2,
+                lower_limit_sec=30,
+                upper_limit_sec=86400,
+                initially_ready=True,
+            )
+            mock_monotonic.return_value = 100
+            assert timer.is_ready()
+            mock_monotonic.return_value = 129
+            assert not timer.is_ready()
+            mock_monotonic.return_value = 130
+            assert timer.is_ready()
+            mock_monotonic.return_value = 188
+            assert not timer.is_ready()
+            mock_monotonic.return_value = 189
+            assert not timer.is_ready()
+            mock_monotonic.return_value = 190
+            assert timer.is_ready()
+            mock_monotonic.return_value = 309
+            assert not timer.is_ready()
+
+    def test_the_upper_limit_option(self):
+        """Test the timer.in_progress property and the effect of timer.reset()."""
+        with patch(
+            "custom_components.versatile_thermostat.keep_alive.monotonic"
+        ) as mock_monotonic:
+            timer = BackoffTimer(
+                multiplier=2,
+                lower_limit_sec=30,
+                upper_limit_sec=50,
+                initially_ready=True,
+            )
+            mock_monotonic.return_value = 100
+            assert timer.is_ready()
+            mock_monotonic.return_value = 129
+            assert not timer.is_ready()
+            mock_monotonic.return_value = 130
+            assert timer.is_ready()
+            mock_monotonic.return_value = 178
+            assert not timer.is_ready()
+            mock_monotonic.return_value = 179
+            assert not timer.is_ready()
+            mock_monotonic.return_value = 180
+            assert timer.is_ready()
+            mock_monotonic.return_value = 229
+            assert not timer.is_ready()
+            mock_monotonic.return_value = 230
+            assert timer.is_ready()
+
+    def test_the_lower_limit_option(self):
+        """Test the timer.in_progress property and the effect of timer.reset()."""
+        with patch(
+            "custom_components.versatile_thermostat.keep_alive.monotonic"
+        ) as mock_monotonic:
+            timer = BackoffTimer(
+                multiplier=0.5,
+                lower_limit_sec=30,
+                upper_limit_sec=50,
+                initially_ready=True,
+            )
+            mock_monotonic.return_value = 100
+            assert timer.is_ready()
+            mock_monotonic.return_value = 129
+            assert not timer.is_ready()
+            mock_monotonic.return_value = 130
+            assert timer.is_ready()
+            mock_monotonic.return_value = 158
+            assert not timer.is_ready()
+            mock_monotonic.return_value = 159
+            assert not timer.is_ready()
+            mock_monotonic.return_value = 160
+            assert timer.is_ready()
+
+    def test_initial_is_ready_result(self):
+        """Test that the first call to is_ready() produces the initially_ready option value."""
+        with patch(
+            "custom_components.versatile_thermostat.keep_alive.monotonic"
+        ) as mock_monotonic:
+            for initial in [True, False]:
+                timer = BackoffTimer(
+                    multiplier=2,
+                    lower_limit_sec=30,
+                    upper_limit_sec=86400,
+                    initially_ready=initial,
+                )
+                mock_monotonic.return_value = 100
+                assert timer.is_ready() == initial
+                assert not timer.is_ready()
+
+    def test_in_progress_and_reset(self):
+        """Test the timer.in_progress property and the effect of timer.reset()."""
+        with patch(
+            "custom_components.versatile_thermostat.keep_alive.monotonic"
+        ) as mock_monotonic:
+            timer = BackoffTimer(
+                multiplier=2,
+                lower_limit_sec=30,
+                upper_limit_sec=86400,
+                initially_ready=True,
+            )
+            mock_monotonic.return_value = 100
+            assert not timer.in_progress
+            assert timer.is_ready()
+            assert timer.in_progress
+            assert not timer.is_ready()
+            timer.reset()
+            assert not timer.in_progress
+            assert timer.is_ready()
+            assert timer.in_progress
+            assert not timer.is_ready()