Change Lektrico lifetime_energy sensor to float (#158880)

homeassistant/components/lektrico/binary_sensor.py

@@ -30,70 +30,70 @@ BINARY_SENSORS: tuple[LektricoBinarySensorEntityDescription, ...] = (
         translation_key="state_e_activated",
         entity_category=EntityCategory.DIAGNOSTIC,
         device_class=BinarySensorDeviceClass.PROBLEM,
-        value_fn=lambda data: bool(data["state_e_activated"]),
+        value_fn=lambda data: data["state_e_activated"],
     ),
     LektricoBinarySensorEntityDescription(
         key="overtemp",
         translation_key="overtemp",
         entity_category=EntityCategory.DIAGNOSTIC,
         device_class=BinarySensorDeviceClass.PROBLEM,
-        value_fn=lambda data: bool(data["overtemp"]),
+        value_fn=lambda data: data["overtemp"],
     ),
     LektricoBinarySensorEntityDescription(
         key="critical_temp",
         translation_key="critical_temp",
         entity_category=EntityCategory.DIAGNOSTIC,
         device_class=BinarySensorDeviceClass.PROBLEM,
-        value_fn=lambda data: bool(data["critical_temp"]),
+        value_fn=lambda data: data["critical_temp"],
     ),
     LektricoBinarySensorEntityDescription(
         key="overcurrent",
         translation_key="overcurrent",
         entity_category=EntityCategory.DIAGNOSTIC,
         device_class=BinarySensorDeviceClass.PROBLEM,
-        value_fn=lambda data: bool(data["overcurrent"]),
+        value_fn=lambda data: data["overcurrent"],
     ),
     LektricoBinarySensorEntityDescription(
         key="meter_fault",
         translation_key="meter_fault",
         entity_category=EntityCategory.DIAGNOSTIC,
         device_class=BinarySensorDeviceClass.PROBLEM,
-        value_fn=lambda data: bool(data["meter_fault"]),
+        value_fn=lambda data: data["meter_fault"],
     ),
     LektricoBinarySensorEntityDescription(
         key="undervoltage",
         translation_key="undervoltage",
         entity_category=EntityCategory.DIAGNOSTIC,
         device_class=BinarySensorDeviceClass.PROBLEM,
-        value_fn=lambda data: bool(data["undervoltage_error"]),
+        value_fn=lambda data: data["undervoltage_error"],
     ),
     LektricoBinarySensorEntityDescription(
         key="overvoltage",
         translation_key="overvoltage",
         entity_category=EntityCategory.DIAGNOSTIC,
         device_class=BinarySensorDeviceClass.PROBLEM,
-        value_fn=lambda data: bool(data["overvoltage_error"]),
+        value_fn=lambda data: data["overvoltage_error"],
     ),
     LektricoBinarySensorEntityDescription(
         key="rcd_error",
         translation_key="rcd_error",
         entity_category=EntityCategory.DIAGNOSTIC,
         device_class=BinarySensorDeviceClass.PROBLEM,
-        value_fn=lambda data: bool(data["rcd_error"]),
+        value_fn=lambda data: data["rcd_error"],
     ),
     LektricoBinarySensorEntityDescription(
         key="cp_diode_failure",
         translation_key="cp_diode_failure",
         entity_category=EntityCategory.DIAGNOSTIC,
         device_class=BinarySensorDeviceClass.PROBLEM,
-        value_fn=lambda data: bool(data["cp_diode_failure"]),
+        value_fn=lambda data: data["cp_diode_failure"],
     ),
     LektricoBinarySensorEntityDescription(
         key="contactor_failure",
         translation_key="contactor_failure",
         entity_category=EntityCategory.DIAGNOSTIC,
         device_class=BinarySensorDeviceClass.PROBLEM,
-        value_fn=lambda data: bool(data["contactor_failure"]),
+        value_fn=lambda data: data["contactor_failure"],
     ),
 )
 

homeassistant/components/lektrico/number.py

@@ -38,7 +38,7 @@ NUMBERS: tuple[LektricoNumberEntityDescription, ...] = (
         native_max_value=100,
         native_step=5,
         native_unit_of_measurement=PERCENTAGE,
-        value_fn=lambda data: int(data["led_max_brightness"]),
+        value_fn=lambda data: data["led_max_brightness"],
         set_value_fn=lambda data, value: data.set_led_max_brightness(value),
     ),
     LektricoNumberEntityDescription(
@@ -49,7 +49,7 @@ NUMBERS: tuple[LektricoNumberEntityDescription, ...] = (
         native_max_value=32,
         native_step=1,
         native_unit_of_measurement=UnitOfElectricCurrent.AMPERE,
-        value_fn=lambda data: int(data["dynamic_current"]),
+        value_fn=lambda data: data["dynamic_current"],
         set_value_fn=lambda data, value: data.set_dynamic_current(value),
     ),
 )

homeassistant/components/lektrico/sensor.py

@@ -79,7 +79,7 @@ SENSORS_FOR_CHARGERS: tuple[LektricoSensorEntityDescription, ...] = (
         translation_key="charging_time",
         device_class=SensorDeviceClass.DURATION,
         native_unit_of_measurement=UnitOfTime.SECONDS,
-        value_fn=lambda data: int(data["charging_time"]),
+        value_fn=lambda data: data["charging_time"],
     ),
     LektricoSensorEntityDescription(
         key="power",
@@ -87,20 +87,20 @@ SENSORS_FOR_CHARGERS: tuple[LektricoSensorEntityDescription, ...] = (
         state_class=SensorStateClass.MEASUREMENT,
         native_unit_of_measurement=UnitOfPower.WATT,
         suggested_unit_of_measurement=UnitOfPower.KILO_WATT,
-        value_fn=lambda data: float(data["instant_power"]),
+        value_fn=lambda data: data["instant_power"],
     ),
     LektricoSensorEntityDescription(
         key="energy",
         device_class=SensorDeviceClass.ENERGY,
         native_unit_of_measurement=UnitOfEnergy.KILO_WATT_HOUR,
-        value_fn=lambda data: float(data["session_energy"]) / 1000,
+        value_fn=lambda data: data["session_energy"] / 1000,
     ),
     LektricoSensorEntityDescription(
         key="temperature",
         device_class=SensorDeviceClass.TEMPERATURE,
         state_class=SensorStateClass.MEASUREMENT,
         native_unit_of_measurement=UnitOfTemperature.CELSIUS,
-        value_fn=lambda data: float(data["temperature"]),
+        value_fn=lambda data: data["temperature"],
     ),
     LektricoSensorEntityDescription(
         key="lifetime_energy",
@@ -108,14 +108,14 @@ SENSORS_FOR_CHARGERS: tuple[LektricoSensorEntityDescription, ...] = (
         state_class=SensorStateClass.TOTAL_INCREASING,
         device_class=SensorDeviceClass.ENERGY,
         native_unit_of_measurement=UnitOfEnergy.KILO_WATT_HOUR,
-        value_fn=lambda data: int(data["total_charged_energy"]),
+        value_fn=lambda data: data["total_charged_energy"],
     ),
     LektricoSensorEntityDescription(
         key="installation_current",
         translation_key="installation_current",
         device_class=SensorDeviceClass.CURRENT,
         native_unit_of_measurement=UnitOfElectricCurrent.AMPERE,
-        value_fn=lambda data: int(data["install_current"]),
+        value_fn=lambda data: data["install_current"],
     ),
     LektricoSensorEntityDescription(
         key="limit_reason",
@@ -137,7 +137,7 @@ SENSORS_FOR_LB_DEVICES: tuple[LektricoSensorEntityDescription, ...] = (
         device_class=SensorDeviceClass.CURRENT,
         state_class=SensorStateClass.MEASUREMENT,
         native_unit_of_measurement=UnitOfElectricCurrent.AMPERE,
-        value_fn=lambda data: int(data["breaker_curent"]),
+        value_fn=lambda data: data["breaker_curent"],
     ),
 )
 
@@ -146,14 +146,14 @@ SENSORS_FOR_1_PHASE: tuple[LektricoSensorEntityDescription, ...] = (
         key="voltage",
         device_class=SensorDeviceClass.VOLTAGE,
         native_unit_of_measurement=UnitOfElectricPotential.VOLT,
-        value_fn=lambda data: float(data["voltage_l1"]),
+        value_fn=lambda data: data["voltage_l1"],
     ),
     LektricoSensorEntityDescription(
         key="current",
         device_class=SensorDeviceClass.CURRENT,
         state_class=SensorStateClass.MEASUREMENT,
         native_unit_of_measurement=UnitOfElectricCurrent.AMPERE,
-        value_fn=lambda data: float(data["current_l1"]),
+        value_fn=lambda data: data["current_l1"],
     ),
 )
 
@@ -163,21 +163,21 @@ SENSORS_FOR_3_PHASE: tuple[LektricoSensorEntityDescription, ...] = (
         translation_key="voltage_l1",
         device_class=SensorDeviceClass.VOLTAGE,
         native_unit_of_measurement=UnitOfElectricPotential.VOLT,
-        value_fn=lambda data: float(data["voltage_l1"]),
+        value_fn=lambda data: data["voltage_l1"],
     ),
     LektricoSensorEntityDescription(
         key="voltage_l2",
         translation_key="voltage_l2",
         device_class=SensorDeviceClass.VOLTAGE,
         native_unit_of_measurement=UnitOfElectricPotential.VOLT,
-        value_fn=lambda data: float(data["voltage_l2"]),
+        value_fn=lambda data: data["voltage_l2"],
     ),
     LektricoSensorEntityDescription(
         key="voltage_l3",
         translation_key="voltage_l3",
         device_class=SensorDeviceClass.VOLTAGE,
         native_unit_of_measurement=UnitOfElectricPotential.VOLT,
-        value_fn=lambda data: float(data["voltage_l3"]),
+        value_fn=lambda data: data["voltage_l3"],
     ),
     LektricoSensorEntityDescription(
         key="current_l1",
@@ -185,7 +185,7 @@ SENSORS_FOR_3_PHASE: tuple[LektricoSensorEntityDescription, ...] = (
         device_class=SensorDeviceClass.CURRENT,
         state_class=SensorStateClass.MEASUREMENT,
         native_unit_of_measurement=UnitOfElectricCurrent.AMPERE,
-        value_fn=lambda data: float(data["current_l1"]),
+        value_fn=lambda data: data["current_l1"],
     ),
     LektricoSensorEntityDescription(
         key="current_l2",
@@ -193,7 +193,7 @@ SENSORS_FOR_3_PHASE: tuple[LektricoSensorEntityDescription, ...] = (
         device_class=SensorDeviceClass.CURRENT,
         state_class=SensorStateClass.MEASUREMENT,
         native_unit_of_measurement=UnitOfElectricCurrent.AMPERE,
-        value_fn=lambda data: float(data["current_l2"]),
+        value_fn=lambda data: data["current_l2"],
     ),
     LektricoSensorEntityDescription(
         key="current_l3",
@@ -201,7 +201,7 @@ SENSORS_FOR_3_PHASE: tuple[LektricoSensorEntityDescription, ...] = (
         device_class=SensorDeviceClass.CURRENT,
         state_class=SensorStateClass.MEASUREMENT,
         native_unit_of_measurement=UnitOfElectricCurrent.AMPERE,
-        value_fn=lambda data: float(data["current_l3"]),
+        value_fn=lambda data: data["current_l3"],
     ),
 )
 
@@ -213,14 +213,14 @@ SENSORS_FOR_LB_1_PHASE: tuple[LektricoSensorEntityDescription, ...] = (
         state_class=SensorStateClass.MEASUREMENT,
         native_unit_of_measurement=UnitOfPower.WATT,
         suggested_unit_of_measurement=UnitOfPower.KILO_WATT,
-        value_fn=lambda data: float(data["power_l1"]),
+        value_fn=lambda data: data["power_l1"],
     ),
     LektricoSensorEntityDescription(
         key="pf",
         device_class=SensorDeviceClass.POWER_FACTOR,
         state_class=SensorStateClass.MEASUREMENT,
         native_unit_of_measurement=PERCENTAGE,
-        value_fn=lambda data: float(data["power_factor_l1"]) * 100,
+        value_fn=lambda data: data["power_factor_l1"] * 100,
     ),
 )
 
@@ -233,7 +233,7 @@ SENSORS_FOR_LB_3_PHASE: tuple[LektricoSensorEntityDescription, ...] = (
         state_class=SensorStateClass.MEASUREMENT,
         native_unit_of_measurement=UnitOfPower.WATT,
         suggested_unit_of_measurement=UnitOfPower.KILO_WATT,
-        value_fn=lambda data: float(data["power_l1"]),
+        value_fn=lambda data: data["power_l1"],
     ),
     LektricoSensorEntityDescription(
         key="power_l2",
@@ -242,7 +242,7 @@ SENSORS_FOR_LB_3_PHASE: tuple[LektricoSensorEntityDescription, ...] = (
         state_class=SensorStateClass.MEASUREMENT,
         native_unit_of_measurement=UnitOfPower.WATT,
         suggested_unit_of_measurement=UnitOfPower.KILO_WATT,
-        value_fn=lambda data: float(data["power_l2"]),
+        value_fn=lambda data: data["power_l2"],
     ),
     LektricoSensorEntityDescription(
         key="power_l3",
@@ -251,7 +251,7 @@ SENSORS_FOR_LB_3_PHASE: tuple[LektricoSensorEntityDescription, ...] = (
         state_class=SensorStateClass.MEASUREMENT,
         native_unit_of_measurement=UnitOfPower.WATT,
         suggested_unit_of_measurement=UnitOfPower.KILO_WATT,
-        value_fn=lambda data: float(data["power_l3"]),
+        value_fn=lambda data: data["power_l3"],
     ),
     LektricoSensorEntityDescription(
         key="pf_l1",
@@ -259,7 +259,7 @@ SENSORS_FOR_LB_3_PHASE: tuple[LektricoSensorEntityDescription, ...] = (
         device_class=SensorDeviceClass.POWER_FACTOR,
         state_class=SensorStateClass.MEASUREMENT,
         native_unit_of_measurement=PERCENTAGE,
-        value_fn=lambda data: float(data["power_factor_l1"]) * 100,
+        value_fn=lambda data: data["power_factor_l1"] * 100,
     ),
     LektricoSensorEntityDescription(
         key="pf_l2",
@@ -267,7 +267,7 @@ SENSORS_FOR_LB_3_PHASE: tuple[LektricoSensorEntityDescription, ...] = (
         device_class=SensorDeviceClass.POWER_FACTOR,
         state_class=SensorStateClass.MEASUREMENT,
         native_unit_of_measurement=PERCENTAGE,
-        value_fn=lambda data: float(data["power_factor_l2"]) * 100,
+        value_fn=lambda data: data["power_factor_l2"] * 100,
     ),
     LektricoSensorEntityDescription(
         key="pf_l3",
@@ -275,7 +275,7 @@ SENSORS_FOR_LB_3_PHASE: tuple[LektricoSensorEntityDescription, ...] = (
         device_class=SensorDeviceClass.POWER_FACTOR,
         state_class=SensorStateClass.MEASUREMENT,
         native_unit_of_measurement=PERCENTAGE,
-        value_fn=lambda data: float(data["power_factor_l3"]) * 100,
+        value_fn=lambda data: data["power_factor_l3"] * 100,
     ),
 )
 

tests/components/lektrico/fixtures/get_info.json

@@ -4,7 +4,7 @@
   "instant_power": 0,
   "session_energy": 0.0,
   "temperature": 34.5,
-  "total_charged_energy": 0,
+  "total_charged_energy": 1.123,
   "install_current": 6,
   "current_limit_reason": "installation_current",
   "voltage_l1": 220.0,

tests/components/lektrico/snapshots/test_sensor.ambr

@@ -267,7 +267,7 @@
     'last_changed': <ANY>,
     'last_reported': <ANY>,
     'last_updated': <ANY>,
-    'state': '0',
+    'state': '1.123',
   })
 # ---
 # name: test_all_entities[sensor.1p7k_500006_limit_reason-entry]