"""The test for sensor entity."""
from datetime import date, datetime, timezone
from decimal import Decimal
import pytest
from pytest import approx
from homeassistant.components.sensor import SensorDeviceClass
from homeassistant.const import (
ATTR_UNIT_OF_MEASUREMENT,
LENGTH_CENTIMETERS,
LENGTH_INCHES,
LENGTH_KILOMETERS,
LENGTH_MILES,
MASS_GRAMS,
MASS_OUNCES,
PRESSURE_HPA,
PRESSURE_INHG,
PRESSURE_KPA,
PRESSURE_MMHG,
SPEED_INCHES_PER_HOUR,
SPEED_KILOMETERS_PER_HOUR,
SPEED_MILES_PER_HOUR,
SPEED_MILLIMETERS_PER_DAY,
STATE_UNKNOWN,
TEMP_CELSIUS,
TEMP_FAHRENHEIT,
VOLUME_CUBIC_FEET,
VOLUME_CUBIC_METERS,
VOLUME_FLUID_OUNCE,
VOLUME_LITERS,
)
from homeassistant.core import State
from homeassistant.helpers import entity_registry as er
from homeassistant.helpers.restore_state import STORAGE_KEY as RESTORE_STATE_KEY
from homeassistant.setup import async_setup_component
from homeassistant.util import dt as dt_util
from homeassistant.util.unit_system import METRIC_SYSTEM, US_CUSTOMARY_SYSTEM
from tests.common import mock_restore_cache_with_extra_data
@pytest.mark.parametrize(
"unit_system,native_unit,state_unit,native_value,state_value",
[
(US_CUSTOMARY_SYSTEM, TEMP_FAHRENHEIT, TEMP_FAHRENHEIT, 100, 100),
(US_CUSTOMARY_SYSTEM, TEMP_CELSIUS, TEMP_FAHRENHEIT, 38, 100),
(METRIC_SYSTEM, TEMP_FAHRENHEIT, TEMP_CELSIUS, 100, 38),
(METRIC_SYSTEM, TEMP_CELSIUS, TEMP_CELSIUS, 38, 38),
],
)
async def test_temperature_conversion(
hass,
enable_custom_integrations,
unit_system,
native_unit,
state_unit,
native_value,
state_value,
):
"""Test temperature conversion."""
hass.config.units = unit_system
platform = getattr(hass.components, "test.sensor")
platform.init(empty=True)
platform.ENTITIES["0"] = platform.MockSensor(
name="Test",
native_value=str(native_value),
native_unit_of_measurement=native_unit,
device_class=SensorDeviceClass.TEMPERATURE,
)
entity0 = platform.ENTITIES["0"]
assert await async_setup_component(hass, "sensor", {"sensor": {"platform": "test"}})
await hass.async_block_till_done()
state = hass.states.get(entity0.entity_id)
assert float(state.state) == approx(float(state_value))
assert state.attributes[ATTR_UNIT_OF_MEASUREMENT] == state_unit
@pytest.mark.parametrize("device_class", (None, SensorDeviceClass.PRESSURE))
async def test_temperature_conversion_wrong_device_class(
hass, device_class, enable_custom_integrations
):
"""Test temperatures are not converted if the sensor has wrong device class."""
platform = getattr(hass.components, "test.sensor")
platform.init(empty=True)
platform.ENTITIES["0"] = platform.MockSensor(
name="Test",
native_value="0.0",
native_unit_of_measurement=TEMP_FAHRENHEIT,
device_class=device_class,
)
entity0 = platform.ENTITIES["0"]
assert await async_setup_component(hass, "sensor", {"sensor": {"platform": "test"}})
await hass.async_block_till_done()
# Check temperature is not converted
state = hass.states.get(entity0.entity_id)
assert state.state == "0.0"
assert state.attributes[ATTR_UNIT_OF_MEASUREMENT] == TEMP_FAHRENHEIT
@pytest.mark.parametrize("state_class", ("measurement", "total_increasing"))
async def test_deprecated_last_reset(
hass, caplog, enable_custom_integrations, state_class
):
"""Test warning on deprecated last reset."""
platform = getattr(hass.components, "test.sensor")
platform.init(empty=True)
platform.ENTITIES["0"] = platform.MockSensor(
name="Test", state_class=state_class, last_reset=dt_util.utc_from_timestamp(0)
)
assert await async_setup_component(hass, "sensor", {"sensor": {"platform": "test"}})
await hass.async_block_till_done()
assert (
"Entity sensor.test (<class 'custom_components.test.sensor.MockSensor'>) "
f"with state_class {state_class} has set last_reset. Setting last_reset for "
"entities with state_class other than 'total' is not supported. Please update "
"your configuration if state_class is manually configured, otherwise report it "
"to the custom integration author."
) in caplog.text
state = hass.states.get("sensor.test")
assert "last_reset" not in state.attributes
async def test_datetime_conversion(hass, caplog, enable_custom_integrations):
"""Test conversion of datetime."""
test_timestamp = datetime(2017, 12, 19, 18, 29, 42, tzinfo=timezone.utc)
test_local_timestamp = test_timestamp.astimezone(
dt_util.get_time_zone("Europe/Amsterdam")
)
test_date = date(2017, 12, 19)
platform = getattr(hass.components, "test.sensor")
platform.init(empty=True)
platform.ENTITIES["0"] = platform.MockSensor(
name="Test",
native_value=test_timestamp,
device_class=SensorDeviceClass.TIMESTAMP,
)
platform.ENTITIES["1"] = platform.MockSensor(
name="Test", native_value=test_date, device_class=SensorDeviceClass.DATE
)
platform.ENTITIES["2"] = platform.MockSensor(
name="Test", native_value=None, device_class=SensorDeviceClass.TIMESTAMP
)
platform.ENTITIES["3"] = platform.MockSensor(
name="Test", native_value=None, device_class=SensorDeviceClass.DATE
)
platform.ENTITIES["4"] = platform.MockSensor(
name="Test",
native_value=test_local_timestamp,
device_class=SensorDeviceClass.TIMESTAMP,
)
assert await async_setup_component(hass, "sensor", {"sensor": {"platform": "test"}})
await hass.async_block_till_done()
state = hass.states.get(platform.ENTITIES["0"].entity_id)
assert state.state == test_timestamp.isoformat()
state = hass.states.get(platform.ENTITIES["1"].entity_id)
assert state.state == test_date.isoformat()
state = hass.states.get(platform.ENTITIES["2"].entity_id)
assert state.state == STATE_UNKNOWN
state = hass.states.get(platform.ENTITIES["3"].entity_id)
assert state.state == STATE_UNKNOWN
state = hass.states.get(platform.ENTITIES["4"].entity_id)
assert state.state == test_timestamp.isoformat()
@pytest.mark.parametrize(
"device_class,state_value,provides",
[
(SensorDeviceClass.DATE, "2021-01-09", "date"),
(SensorDeviceClass.TIMESTAMP, "2021-01-09T12:00:00+00:00", "datetime"),
],
)
async def test_deprecated_datetime_str(
hass, caplog, enable_custom_integrations, device_class, state_value, provides
):
"""Test warning on deprecated str for a date(time) value."""
platform = getattr(hass.components, "test.sensor")
platform.init(empty=True)
platform.ENTITIES["0"] = platform.MockSensor(
name="Test", native_value=state_value, device_class=device_class
)
assert await async_setup_component(hass, "sensor", {"sensor": {"platform": "test"}})
await hass.async_block_till_done()
assert (
f"Invalid {provides}: sensor.test has {device_class} device class "
f"but provides state {state_value}:{type(state_value)}"
) in caplog.text
async def test_reject_timezoneless_datetime_str(
hass, caplog, enable_custom_integrations
):
"""Test rejection of timezone-less datetime objects as timestamp."""
test_timestamp = datetime(2017, 12, 19, 18, 29, 42, tzinfo=None)
platform = getattr(hass.components, "test.sensor")
platform.init(empty=True)
platform.ENTITIES["0"] = platform.MockSensor(
name="Test",
native_value=test_timestamp,
device_class=SensorDeviceClass.TIMESTAMP,
)
assert await async_setup_component(hass, "sensor", {"sensor": {"platform": "test"}})
await hass.async_block_till_done()
assert (
"Invalid datetime: sensor.test provides state '2017-12-19 18:29:42', "
"which is missing timezone information"
) in caplog.text
RESTORE_DATA = {
"str": {"native_unit_of_measurement": "°F", "native_value": "abc123"},
"int": {"native_unit_of_measurement": "°F", "native_value": 123},
"float": {"native_unit_of_measurement": "°F", "native_value": 123.0},
"date": {
"native_unit_of_measurement": "°F",
"native_value": {
"__type": "<class 'datetime.date'>",
"isoformat": date(2020, 2, 8).isoformat(),
},
},
"datetime": {
"native_unit_of_measurement": "°F",
"native_value": {
"__type": "<class 'datetime.datetime'>",
"isoformat": datetime(2020, 2, 8, 15, tzinfo=timezone.utc).isoformat(),
},
},
"Decimal": {
"native_unit_of_measurement": "°F",
"native_value": {
"__type": "<class 'decimal.Decimal'>",
"decimal_str": "123.4",
},
},
"BadDecimal": {
"native_unit_of_measurement": "°F",
"native_value": {
"__type": "<class 'decimal.Decimal'>",
"decimal_str": "123f",
},
},
}
# None | str | int | float | date | datetime | Decimal:
@pytest.mark.parametrize(
"native_value, native_value_type, expected_extra_data, device_class",
[
("abc123", str, RESTORE_DATA["str"], None),
(123, int, RESTORE_DATA["int"], SensorDeviceClass.TEMPERATURE),
(123.0, float, RESTORE_DATA["float"], SensorDeviceClass.TEMPERATURE),
(date(2020, 2, 8), dict, RESTORE_DATA["date"], SensorDeviceClass.DATE),
(
datetime(2020, 2, 8, 15, tzinfo=timezone.utc),
dict,
RESTORE_DATA["datetime"],
SensorDeviceClass.TIMESTAMP,
),
(Decimal("123.4"), dict, RESTORE_DATA["Decimal"], SensorDeviceClass.ENERGY),
],
)
async def test_restore_sensor_save_state(
hass,
enable_custom_integrations,
hass_storage,
native_value,
native_value_type,
expected_extra_data,
device_class,
):
"""Test RestoreSensor."""
platform = getattr(hass.components, "test.sensor")
platform.init(empty=True)
platform.ENTITIES["0"] = platform.MockRestoreSensor(
name="Test",
native_value=native_value,
native_unit_of_measurement=TEMP_FAHRENHEIT,
device_class=device_class,
)
entity0 = platform.ENTITIES["0"]
assert await async_setup_component(hass, "sensor", {"sensor": {"platform": "test"}})
await hass.async_block_till_done()
# Trigger saving state
await hass.async_stop()
assert len(hass_storage[RESTORE_STATE_KEY]["data"]) == 1
state = hass_storage[RESTORE_STATE_KEY]["data"][0]["state"]
assert state["entity_id"] == entity0.entity_id
extra_data = hass_storage[RESTORE_STATE_KEY]["data"][0]["extra_data"]
assert extra_data == expected_extra_data
assert type(extra_data["native_value"]) == native_value_type
@pytest.mark.parametrize(
"native_value, native_value_type, extra_data, device_class, uom",
[
("abc123", str, RESTORE_DATA["str"], None, "°F"),
(123, int, RESTORE_DATA["int"], SensorDeviceClass.TEMPERATURE, "°F"),
(123.0, float, RESTORE_DATA["float"], SensorDeviceClass.TEMPERATURE, "°F"),
(date(2020, 2, 8), date, RESTORE_DATA["date"], SensorDeviceClass.DATE, "°F"),
(
datetime(2020, 2, 8, 15, tzinfo=timezone.utc),
datetime,
RESTORE_DATA["datetime"],
SensorDeviceClass.TIMESTAMP,
"°F",
),
(
Decimal("123.4"),
Decimal,
RESTORE_DATA["Decimal"],
SensorDeviceClass.ENERGY,
"°F",
),
(None, type(None), None, None, None),
(None, type(None), {}, None, None),
(None, type(None), {"beer": 123}, None, None),
(
None,
type(None),
{"native_unit_of_measurement": "°F", "native_value": {}},
None,
None,
),
(None, type(None), RESTORE_DATA["BadDecimal"], SensorDeviceClass.ENERGY, None),
],
)
async def test_restore_sensor_restore_state(
hass,
enable_custom_integrations,
hass_storage,
native_value,
native_value_type,
extra_data,
device_class,
uom,
):
"""Test RestoreSensor."""
mock_restore_cache_with_extra_data(hass, ((State("sensor.test", ""), extra_data),))
platform = getattr(hass.components, "test.sensor")
platform.init(empty=True)
platform.ENTITIES["0"] = platform.MockRestoreSensor(
name="Test",
device_class=device_class,
)
entity0 = platform.ENTITIES["0"]
assert await async_setup_component(hass, "sensor", {"sensor": {"platform": "test"}})
await hass.async_block_till_done()
assert hass.states.get(entity0.entity_id)
assert entity0.native_value == native_value
assert type(entity0.native_value) == native_value_type
assert entity0.native_unit_of_measurement == uom
@pytest.mark.parametrize(
"device_class,native_unit,custom_unit,state_unit,native_value,custom_value",
[
# Smaller to larger unit, InHg is ~33x larger than hPa -> 1 more decimal
(
SensorDeviceClass.PRESSURE,
PRESSURE_HPA,
PRESSURE_INHG,
PRESSURE_INHG,
1000.0,
29.53,
),
(
SensorDeviceClass.PRESSURE,
PRESSURE_KPA,
PRESSURE_HPA,
PRESSURE_HPA,
1.234,
12.34,
),
(
SensorDeviceClass.PRESSURE,
PRESSURE_HPA,
PRESSURE_MMHG,
PRESSURE_MMHG,
1000,
750,
),
# Not a supported pressure unit
(
SensorDeviceClass.PRESSURE,
PRESSURE_HPA,
"peer_pressure",
PRESSURE_HPA,
1000,
1000,
),
(
SensorDeviceClass.TEMPERATURE,
TEMP_CELSIUS,
TEMP_FAHRENHEIT,
TEMP_FAHRENHEIT,
37.5,
99.5,
),
(
SensorDeviceClass.TEMPERATURE,
TEMP_FAHRENHEIT,
TEMP_CELSIUS,
TEMP_CELSIUS,
100,
38.0,
),
],
)
async def test_custom_unit(
hass,
enable_custom_integrations,
device_class,
native_unit,
custom_unit,
state_unit,
native_value,
custom_value,
):
"""Test custom unit."""
entity_registry = er.async_get(hass)
entry = entity_registry.async_get_or_create("sensor", "test", "very_unique")
entity_registry.async_update_entity_options(
entry.entity_id, "sensor", {"unit_of_measurement": custom_unit}
)
await hass.async_block_till_done()
platform = getattr(hass.components, "test.sensor")
platform.init(empty=True)
platform.ENTITIES["0"] = platform.MockSensor(
name="Test",
native_value=str(native_value),
native_unit_of_measurement=native_unit,
device_class=device_class,
unique_id="very_unique",
)
entity0 = platform.ENTITIES["0"]
assert await async_setup_component(hass, "sensor", {"sensor": {"platform": "test"}})
await hass.async_block_till_done()
state = hass.states.get(entity0.entity_id)
assert float(state.state) == approx(float(custom_value))
assert state.attributes[ATTR_UNIT_OF_MEASUREMENT] == state_unit
@pytest.mark.parametrize(
"native_unit,custom_unit,state_unit,native_value,custom_value,device_class",
[
# Distance
(
LENGTH_KILOMETERS,
LENGTH_MILES,
LENGTH_MILES,
1000,
621,
SensorDeviceClass.DISTANCE,
),
(
LENGTH_CENTIMETERS,
LENGTH_INCHES,
LENGTH_INCHES,
7.24,
2.85,
SensorDeviceClass.DISTANCE,
),
(
LENGTH_KILOMETERS,
"peer_distance",
LENGTH_KILOMETERS,
1000,
1000,
SensorDeviceClass.DISTANCE,
),
# Smaller to larger unit, InHg is ~33x larger than hPa -> 1 more decimal
(
PRESSURE_HPA,
PRESSURE_INHG,
PRESSURE_INHG,
1000.0,
29.53,
SensorDeviceClass.PRESSURE,
),
(
PRESSURE_KPA,
PRESSURE_HPA,
PRESSURE_HPA,
1.234,
12.34,
SensorDeviceClass.PRESSURE,
),
(
PRESSURE_HPA,
PRESSURE_MMHG,
PRESSURE_MMHG,
1000,
750,
SensorDeviceClass.PRESSURE,
),
# Not a supported pressure unit
(
PRESSURE_HPA,
"peer_pressure",
PRESSURE_HPA,
1000,
1000,
SensorDeviceClass.PRESSURE,
),
# Speed
(
SPEED_KILOMETERS_PER_HOUR,
SPEED_MILES_PER_HOUR,
SPEED_MILES_PER_HOUR,
100,
62,
SensorDeviceClass.SPEED,
),
(
SPEED_MILLIMETERS_PER_DAY,
SPEED_INCHES_PER_HOUR,
SPEED_INCHES_PER_HOUR,
78,
0.13,
SensorDeviceClass.SPEED,
),
(
SPEED_KILOMETERS_PER_HOUR,
"peer_distance",
SPEED_KILOMETERS_PER_HOUR,
100,
100,
SensorDeviceClass.SPEED,
),
# Volume
(
VOLUME_CUBIC_METERS,
VOLUME_CUBIC_FEET,
VOLUME_CUBIC_FEET,
100,
3531,
SensorDeviceClass.VOLUME,
),
(
VOLUME_FLUID_OUNCE,
VOLUME_LITERS,
VOLUME_LITERS,
78,
2.3,
SensorDeviceClass.VOLUME,
),
(
VOLUME_CUBIC_METERS,
"peer_distance",
VOLUME_CUBIC_METERS,
100,
100,
SensorDeviceClass.VOLUME,
),
# Weight
(
MASS_GRAMS,
MASS_OUNCES,
MASS_OUNCES,
100,
3.5,
SensorDeviceClass.WEIGHT,
),
(
MASS_OUNCES,
MASS_GRAMS,
MASS_GRAMS,
78,
2211,
SensorDeviceClass.WEIGHT,
),
(
MASS_GRAMS,
"peer_distance",
MASS_GRAMS,
100,
100,
SensorDeviceClass.WEIGHT,
),
],
)
async def test_custom_unit_change(
hass,
enable_custom_integrations,
native_unit,
custom_unit,
state_unit,
native_value,
custom_value,
device_class,
):
"""Test custom unit changes are picked up."""
entity_registry = er.async_get(hass)
platform = getattr(hass.components, "test.sensor")
platform.init(empty=True)
platform.ENTITIES["0"] = platform.MockSensor(
name="Test",
native_value=str(native_value),
native_unit_of_measurement=native_unit,
device_class=device_class,
unique_id="very_unique",
)
entity0 = platform.ENTITIES["0"]
assert await async_setup_component(hass, "sensor", {"sensor": {"platform": "test"}})
await hass.async_block_till_done()
state = hass.states.get(entity0.entity_id)
assert float(state.state) == approx(float(native_value))
assert state.attributes[ATTR_UNIT_OF_MEASUREMENT] == native_unit
entity_registry.async_update_entity_options(
"sensor.test", "sensor", {"unit_of_measurement": custom_unit}
)
await hass.async_block_till_done()
state = hass.states.get(entity0.entity_id)
assert float(state.state) == approx(float(custom_value))
assert state.attributes[ATTR_UNIT_OF_MEASUREMENT] == state_unit
entity_registry.async_update_entity_options(
"sensor.test", "sensor", {"unit_of_measurement": native_unit}
)
await hass.async_block_till_done()
state = hass.states.get(entity0.entity_id)
assert float(state.state) == approx(float(native_value))
assert state.attributes[ATTR_UNIT_OF_MEASUREMENT] == native_unit
entity_registry.async_update_entity_options("sensor.test", "sensor", None)
await hass.async_block_till_done()
state = hass.states.get(entity0.entity_id)
assert float(state.state) == approx(float(native_value))
assert state.attributes[ATTR_UNIT_OF_MEASUREMENT] == native_unit