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Add support for state class measurement to energy cost sensor (#55962)

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Erik Montnemery 2021-09-08 21:46:28 +02:00 committed by GitHub
parent ee7202d10a
commit bb6c2093a2
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GPG key ID: 4AEE18F83AFDEB23
4 changed files with 332 additions and 36 deletions
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52
homeassistant/components/energy/sensor.py
View file

@ -1,13 +1,16 @@
"""Helper sensor for calculating utility costs."""
from __future__ import annotations
import copy
from dataclasses import dataclass
import logging
from typing import Any, Final, Literal, TypeVar, cast
from homeassistant.components.sensor import (
ATTR_LAST_RESET,
ATTR_STATE_CLASS,
DEVICE_CLASS_MONETARY,
STATE_CLASS_MEASUREMENT,
STATE_CLASS_TOTAL_INCREASING,
SensorEntity,
)
@ -18,14 +21,19 @@ from homeassistant.const import (
ENERGY_WATT_HOUR,
VOLUME_CUBIC_METERS,
)
from homeassistant.core import HomeAssistant, callback, split_entity_id
from homeassistant.core import HomeAssistant, State, callback, split_entity_id
from homeassistant.helpers.entity_platform import AddEntitiesCallback
from homeassistant.helpers.event import async_track_state_change_event
from homeassistant.helpers.typing import ConfigType, DiscoveryInfoType, StateType
from homeassistant.helpers.typing import ConfigType, DiscoveryInfoType
import homeassistant.util.dt as dt_util
from .const import DOMAIN
from .data import EnergyManager, async_get_manager
SUPPORTED_STATE_CLASSES = [
STATE_CLASS_MEASUREMENT,
STATE_CLASS_TOTAL_INCREASING,
]
_LOGGER = logging.getLogger(__name__)
@ -206,15 +214,16 @@ class EnergyCostSensor(SensorEntity):
f"{config[adapter.entity_energy_key]}_{adapter.entity_id_suffix}"
)
self._attr_device_class = DEVICE_CLASS_MONETARY
self._attr_state_class = STATE_CLASS_TOTAL_INCREASING
self._attr_state_class = STATE_CLASS_MEASUREMENT
self._config = config
self._last_energy_sensor_state: StateType | None = None
self._last_energy_sensor_state: State | None = None
self._cur_value = 0.0
def _reset(self, energy_state: StateType) -> None:
def _reset(self, energy_state: State) -> None:
"""Reset the cost sensor."""
self._attr_native_value = 0.0
self._cur_value = 0.0
self._attr_last_reset = dt_util.utcnow()
self._last_energy_sensor_state = energy_state
self.async_write_ha_state()
@ -228,9 +237,8 @@ class EnergyCostSensor(SensorEntity):
if energy_state is None:
return
if (
state_class := energy_state.attributes.get(ATTR_STATE_CLASS)
) != STATE_CLASS_TOTAL_INCREASING:
state_class = energy_state.attributes.get(ATTR_STATE_CLASS)
if state_class not in SUPPORTED_STATE_CLASSES:
if not self._wrong_state_class_reported:
self._wrong_state_class_reported = True
_LOGGER.warning(
@ -240,6 +248,13 @@ class EnergyCostSensor(SensorEntity):
)
return
# last_reset must be set if the sensor is STATE_CLASS_MEASUREMENT
if (
state_class == STATE_CLASS_MEASUREMENT
and ATTR_LAST_RESET not in energy_state.attributes
):
return
try:
energy = float(energy_state.state)
except ValueError:
@ -273,7 +288,7 @@ class EnergyCostSensor(SensorEntity):
if self._last_energy_sensor_state is None:
# Initialize as it's the first time all required entities are in place.
self._reset(energy_state.state)
self._reset(energy_state)
return
energy_unit = energy_state.attributes.get(ATTR_UNIT_OF_MEASUREMENT)
@ -298,20 +313,29 @@ class EnergyCostSensor(SensorEntity):
)
return
if reset_detected(
if state_class != STATE_CLASS_TOTAL_INCREASING and energy_state.attributes.get(
ATTR_LAST_RESET
) != self._last_energy_sensor_state.attributes.get(ATTR_LAST_RESET):
# Energy meter was reset, reset cost sensor too
energy_state_copy = copy.copy(energy_state)
energy_state_copy.state = "0.0"
self._reset(energy_state_copy)
elif state_class == STATE_CLASS_TOTAL_INCREASING and reset_detected(
self.hass,
cast(str, self._config[self._adapter.entity_energy_key]),
energy,
float(self._last_energy_sensor_state),
float(self._last_energy_sensor_state.state),
):
# Energy meter was reset, reset cost sensor too
self._reset(0)
energy_state_copy = copy.copy(energy_state)
energy_state_copy.state = "0.0"
self._reset(energy_state_copy)
# Update with newly incurred cost
old_energy_value = float(self._last_energy_sensor_state)
old_energy_value = float(self._last_energy_sensor_state.state)
self._cur_value += (energy - old_energy_value) * energy_price
self._attr_native_value = round(self._cur_value, 2)
self._last_energy_sensor_state = energy_state.state
self._last_energy_sensor_state = energy_state
async def async_added_to_hass(self) -> None:
"""Register callbacks."""

17
homeassistant/components/energy/validate.py
View file

@ -113,7 +113,11 @@ def _async_validate_usage_stat(
state_class = state.attributes.get("state_class")
if state_class != sensor.STATE_CLASS_TOTAL_INCREASING:
supported_state_classes = [
sensor.STATE_CLASS_MEASUREMENT,
sensor.STATE_CLASS_TOTAL_INCREASING,
]
if state_class not in supported_state_classes:
result.append(
ValidationIssue(
"entity_unexpected_state_class_total_increasing",
@ -140,16 +144,13 @@ def _async_validate_price_entity(
return
try:
value: float | None = float(state.state)
float(state.state)
except ValueError:
result.append(
ValidationIssue("entity_state_non_numeric", entity_id, state.state)
)
return
if value is not None and value < 0:
result.append(ValidationIssue("entity_negative_state", entity_id, value))
unit = state.attributes.get("unit_of_measurement")
if unit is None or not unit.endswith(
@ -203,7 +204,11 @@ def _async_validate_cost_entity(
state_class = state.attributes.get("state_class")
if state_class != sensor.STATE_CLASS_TOTAL_INCREASING:
supported_state_classes = [
sensor.STATE_CLASS_MEASUREMENT,
sensor.STATE_CLASS_TOTAL_INCREASING,
]
if state_class not in supported_state_classes:
result.append(
ValidationIssue(
"entity_unexpected_state_class_total_increasing", entity_id, state_class

288
tests/components/energy/test_sensor.py
View file

@ -78,7 +78,7 @@ async def test_cost_sensor_no_states(hass, hass_storage) -> None:
),
],
)
async def test_cost_sensor_price_entity(
async def test_cost_sensor_price_entity_total_increasing(
hass,
hass_storage,
hass_ws_client,
@ -90,7 +90,7 @@ async def test_cost_sensor_price_entity(
cost_sensor_entity_id,
flow_type,
) -> None:
"""Test energy cost price from sensor entity."""
"""Test energy cost price from total_increasing type sensor entity."""
def _compile_statistics(_):
return compile_statistics(hass, now, now + timedelta(seconds=1))
@ -137,6 +137,7 @@ async def test_cost_sensor_price_entity(
}
now = dt_util.utcnow()
last_reset_cost_sensor = now.isoformat()
# Optionally initialize dependent entities
if initial_energy is not None:
@ -153,7 +154,9 @@ async def test_cost_sensor_price_entity(
state = hass.states.get(cost_sensor_entity_id)
assert state.state == initial_cost
assert state.attributes[ATTR_DEVICE_CLASS] == DEVICE_CLASS_MONETARY
assert state.attributes[ATTR_STATE_CLASS] == STATE_CLASS_TOTAL_INCREASING
if initial_cost != "unknown":
assert state.attributes["last_reset"] == last_reset_cost_sensor
assert state.attributes[ATTR_STATE_CLASS] == "measurement"
assert state.attributes[ATTR_UNIT_OF_MEASUREMENT] == "EUR"
# Optional late setup of dependent entities
@ -169,7 +172,8 @@ async def test_cost_sensor_price_entity(
state = hass.states.get(cost_sensor_entity_id)
assert state.state == "0.0"
assert state.attributes[ATTR_DEVICE_CLASS] == DEVICE_CLASS_MONETARY
assert state.attributes[ATTR_STATE_CLASS] == STATE_CLASS_TOTAL_INCREASING
assert state.attributes["last_reset"] == last_reset_cost_sensor
assert state.attributes[ATTR_STATE_CLASS] == "measurement"
assert state.attributes[ATTR_UNIT_OF_MEASUREMENT] == "EUR"
# # Unique ID temp disabled
@ -186,6 +190,7 @@ async def test_cost_sensor_price_entity(
await hass.async_block_till_done()
state = hass.states.get(cost_sensor_entity_id)
assert state.state == "10.0" # 0 EUR + (10-0) kWh * 1 EUR/kWh = 10 EUR
assert state.attributes["last_reset"] == last_reset_cost_sensor
# Nothing happens when price changes
if price_entity is not None:
@ -200,6 +205,7 @@ async def test_cost_sensor_price_entity(
assert msg["success"]
state = hass.states.get(cost_sensor_entity_id)
assert state.state == "10.0" # 10 EUR + (10-10) kWh * 2 EUR/kWh = 10 EUR
assert state.attributes["last_reset"] == last_reset_cost_sensor
# Additional consumption is using the new price
hass.states.async_set(
@ -210,6 +216,7 @@ async def test_cost_sensor_price_entity(
await hass.async_block_till_done()
state = hass.states.get(cost_sensor_entity_id)
assert state.state == "19.0" # 10 EUR + (14.5-10) kWh * 2 EUR/kWh = 19 EUR
assert state.attributes["last_reset"] == last_reset_cost_sensor
# Check generated statistics
await async_wait_recording_done_without_instance(hass)
@ -226,6 +233,7 @@ async def test_cost_sensor_price_entity(
await hass.async_block_till_done()
state = hass.states.get(cost_sensor_entity_id)
assert state.state == "18.0" # 19 EUR + (14-14.5) kWh * 2 EUR/kWh = 18 EUR
assert state.attributes["last_reset"] == last_reset_cost_sensor
# Energy sensor is reset, with initial state at 4kWh, 0 kWh is used as zero-point
hass.states.async_set(
@ -236,6 +244,8 @@ async def test_cost_sensor_price_entity(
await hass.async_block_till_done()
state = hass.states.get(cost_sensor_entity_id)
assert state.state == "8.0" # 0 EUR + (4-0) kWh * 2 EUR/kWh = 8 EUR
assert state.attributes["last_reset"] != last_reset_cost_sensor
last_reset_cost_sensor = state.attributes["last_reset"]
# Energy use bumped to 10 kWh
hass.states.async_set(
@ -246,6 +256,213 @@ async def test_cost_sensor_price_entity(
await hass.async_block_till_done()
state = hass.states.get(cost_sensor_entity_id)
assert state.state == "20.0" # 8 EUR + (10-4) kWh * 2 EUR/kWh = 20 EUR
assert state.attributes["last_reset"] == last_reset_cost_sensor
# Check generated statistics
await async_wait_recording_done_without_instance(hass)
statistics = await hass.loop.run_in_executor(None, _compile_statistics, hass)
assert cost_sensor_entity_id in statistics
assert statistics[cost_sensor_entity_id]["stat"]["sum"] == 38.0
@pytest.mark.parametrize("initial_energy,initial_cost", [(0, "0.0"), (None, "unknown")])
@pytest.mark.parametrize(
"price_entity,fixed_price", [("sensor.energy_price", None), (None, 1)]
)
@pytest.mark.parametrize(
"usage_sensor_entity_id,cost_sensor_entity_id,flow_type",
[
("sensor.energy_consumption", "sensor.energy_consumption_cost", "flow_from"),
(
"sensor.energy_production",
"sensor.energy_production_compensation",
"flow_to",
),
],
)
@pytest.mark.parametrize("energy_state_class", ["measurement"])
async def test_cost_sensor_price_entity_total(
hass,
hass_storage,
hass_ws_client,
initial_energy,
initial_cost,
price_entity,
fixed_price,
usage_sensor_entity_id,
cost_sensor_entity_id,
flow_type,
energy_state_class,
) -> None:
"""Test energy cost price from total type sensor entity."""
def _compile_statistics(_):
return compile_statistics(hass, now, now + timedelta(seconds=1))
energy_attributes = {
ATTR_UNIT_OF_MEASUREMENT: ENERGY_KILO_WATT_HOUR,
ATTR_STATE_CLASS: energy_state_class,
}
await async_init_recorder_component(hass)
energy_data = data.EnergyManager.default_preferences()
energy_data["energy_sources"].append(
{
"type": "grid",
"flow_from": [
{
"stat_energy_from": "sensor.energy_consumption",
"entity_energy_from": "sensor.energy_consumption",
"stat_cost": None,
"entity_energy_price": price_entity,
"number_energy_price": fixed_price,
}
]
if flow_type == "flow_from"
else [],
"flow_to": [
{
"stat_energy_to": "sensor.energy_production",
"entity_energy_to": "sensor.energy_production",
"stat_compensation": None,
"entity_energy_price": price_entity,
"number_energy_price": fixed_price,
}
]
if flow_type == "flow_to"
else [],
"cost_adjustment_day": 0,
}
)
hass_storage[data.STORAGE_KEY] = {
"version": 1,
"data": energy_data,
}
now = dt_util.utcnow()
last_reset = dt_util.utc_from_timestamp(0).isoformat()
last_reset_cost_sensor = now.isoformat()
# Optionally initialize dependent entities
if initial_energy is not None:
hass.states.async_set(
usage_sensor_entity_id,
initial_energy,
{**energy_attributes, **{"last_reset": last_reset}},
)
hass.states.async_set("sensor.energy_price", "1")
with patch("homeassistant.util.dt.utcnow", return_value=now):
await setup_integration(hass)
state = hass.states.get(cost_sensor_entity_id)
assert state.state == initial_cost
assert state.attributes[ATTR_DEVICE_CLASS] == DEVICE_CLASS_MONETARY
if initial_cost != "unknown":
assert state.attributes["last_reset"] == last_reset_cost_sensor
assert state.attributes[ATTR_STATE_CLASS] == "measurement"
assert state.attributes[ATTR_UNIT_OF_MEASUREMENT] == "EUR"
# Optional late setup of dependent entities
if initial_energy is None:
with patch("homeassistant.util.dt.utcnow", return_value=now):
hass.states.async_set(
usage_sensor_entity_id,
"0",
{**energy_attributes, **{"last_reset": last_reset}},
)
await hass.async_block_till_done()
state = hass.states.get(cost_sensor_entity_id)
assert state.state == "0.0"
assert state.attributes[ATTR_DEVICE_CLASS] == DEVICE_CLASS_MONETARY
assert state.attributes["last_reset"] == last_reset_cost_sensor
assert state.attributes[ATTR_STATE_CLASS] == "measurement"
assert state.attributes[ATTR_UNIT_OF_MEASUREMENT] == "EUR"
# # Unique ID temp disabled
# # entity_registry = er.async_get(hass)
# # entry = entity_registry.async_get(cost_sensor_entity_id)
# # assert entry.unique_id == "energy_energy_consumption cost"
# Energy use bumped to 10 kWh
hass.states.async_set(
usage_sensor_entity_id,
"10",
{**energy_attributes, **{"last_reset": last_reset}},
)
await hass.async_block_till_done()
state = hass.states.get(cost_sensor_entity_id)
assert state.state == "10.0" # 0 EUR + (10-0) kWh * 1 EUR/kWh = 10 EUR
assert state.attributes["last_reset"] == last_reset_cost_sensor
# Nothing happens when price changes
if price_entity is not None:
hass.states.async_set(price_entity, "2")
await hass.async_block_till_done()
else:
energy_data = copy.deepcopy(energy_data)
energy_data["energy_sources"][0][flow_type][0]["number_energy_price"] = 2
client = await hass_ws_client(hass)
await client.send_json({"id": 5, "type": "energy/save_prefs", **energy_data})
msg = await client.receive_json()
assert msg["success"]
state = hass.states.get(cost_sensor_entity_id)
assert state.state == "10.0" # 10 EUR + (10-10) kWh * 2 EUR/kWh = 10 EUR
assert state.attributes["last_reset"] == last_reset_cost_sensor
# Additional consumption is using the new price
hass.states.async_set(
usage_sensor_entity_id,
"14.5",
{**energy_attributes, **{"last_reset": last_reset}},
)
await hass.async_block_till_done()
state = hass.states.get(cost_sensor_entity_id)
assert state.state == "19.0" # 10 EUR + (14.5-10) kWh * 2 EUR/kWh = 19 EUR
assert state.attributes["last_reset"] == last_reset_cost_sensor
# Check generated statistics
await async_wait_recording_done_without_instance(hass)
statistics = await hass.loop.run_in_executor(None, _compile_statistics, hass)
assert cost_sensor_entity_id in statistics
assert statistics[cost_sensor_entity_id]["stat"]["sum"] == 19.0
# Energy sensor has a small dip
hass.states.async_set(
usage_sensor_entity_id,
"14",
{**energy_attributes, **{"last_reset": last_reset}},
)
await hass.async_block_till_done()
state = hass.states.get(cost_sensor_entity_id)
assert state.state == "18.0" # 19 EUR + (14-14.5) kWh * 2 EUR/kWh = 18 EUR
assert state.attributes["last_reset"] == last_reset_cost_sensor
# Energy sensor is reset, with initial state at 4kWh, 0 kWh is used as zero-point
last_reset = (now + timedelta(seconds=1)).isoformat()
hass.states.async_set(
usage_sensor_entity_id,
"4",
{**energy_attributes, **{"last_reset": last_reset}},
)
await hass.async_block_till_done()
state = hass.states.get(cost_sensor_entity_id)
assert state.state == "8.0" # 0 EUR + (4-0) kWh * 2 EUR/kWh = 8 EUR
assert state.attributes["last_reset"] != last_reset_cost_sensor
last_reset_cost_sensor = state.attributes["last_reset"]
# Energy use bumped to 10 kWh
hass.states.async_set(
usage_sensor_entity_id,
"10",
{**energy_attributes, **{"last_reset": last_reset}},
)
await hass.async_block_till_done()
state = hass.states.get(cost_sensor_entity_id)
assert state.state == "20.0" # 8 EUR + (10-4) kWh * 2 EUR/kWh = 20 EUR
assert state.attributes["last_reset"] == last_reset_cost_sensor
# Check generated statistics
await async_wait_recording_done_without_instance(hass)
@ -285,6 +502,7 @@ async def test_cost_sensor_handle_wh(hass, hass_storage) -> None:
now = dt_util.utcnow()
# Initial state: 10kWh
hass.states.async_set(
"sensor.energy_consumption",
10000,
@ -297,7 +515,7 @@ async def test_cost_sensor_handle_wh(hass, hass_storage) -> None:
state = hass.states.get("sensor.energy_consumption_cost")
assert state.state == "0.0"
# Energy use bumped to 10 kWh
# Energy use bumped by 10 kWh
hass.states.async_set(
"sensor.energy_consumption",
20000,
@ -362,7 +580,7 @@ async def test_cost_sensor_handle_gas(hass, hass_storage) -> None:
async def test_cost_sensor_wrong_state_class(
hass, hass_storage, caplog, state_class
) -> None:
"""Test energy sensor rejects wrong state_class."""
"""Test energy sensor rejects state_class with wrong state_class."""
energy_attributes = {
ATTR_UNIT_OF_MEASUREMENT: ENERGY_KILO_WATT_HOUR,
ATTR_STATE_CLASS: state_class,
@ -418,3 +636,61 @@ async def test_cost_sensor_wrong_state_class(
state = hass.states.get("sensor.energy_consumption_cost")
assert state.state == STATE_UNKNOWN
@pytest.mark.parametrize("state_class", ["measurement"])
async def test_cost_sensor_state_class_measurement_no_reset(
hass, hass_storage, caplog, state_class
) -> None:
"""Test energy sensor rejects state_class with no last_reset."""
energy_attributes = {
ATTR_UNIT_OF_MEASUREMENT: ENERGY_KILO_WATT_HOUR,
ATTR_STATE_CLASS: state_class,
}
energy_data = data.EnergyManager.default_preferences()
energy_data["energy_sources"].append(
{
"type": "grid",
"flow_from": [
{
"stat_energy_from": "sensor.energy_consumption",
"entity_energy_from": "sensor.energy_consumption",
"stat_cost": None,
"entity_energy_price": None,
"number_energy_price": 0.5,
}
],
"flow_to": [],
"cost_adjustment_day": 0,
}
)
hass_storage[data.STORAGE_KEY] = {
"version": 1,
"data": energy_data,
}
now = dt_util.utcnow()
hass.states.async_set(
"sensor.energy_consumption",
10000,
energy_attributes,
)
with patch("homeassistant.util.dt.utcnow", return_value=now):
await setup_integration(hass)
state = hass.states.get("sensor.energy_consumption_cost")
assert state.state == STATE_UNKNOWN
# Energy use bumped to 10 kWh
hass.states.async_set(
"sensor.energy_consumption",
20000,
energy_attributes,
)
await hass.async_block_till_done()
state = hass.states.get("sensor.energy_consumption_cost")
assert state.state == STATE_UNKNOWN

11
tests/components/energy/test_validate.py
View file

@ -382,15 +382,6 @@ async def test_validation_grid_price_not_exist(hass, mock_energy_manager):
"value": "123,123.12",
},
),
(
"-100",
"$/kWh",
{
"type": "entity_negative_state",
"identifier": "sensor.grid_price_1",
"value": -100.0,
},
),
(
"123",
"$/Ws",
@ -414,7 +405,7 @@ async def test_validation_grid_price_errors(
hass.states.async_set(
"sensor.grid_price_1",
state,
{"unit_of_measurement": unit, "state_class": "total_increasing"},
{"unit_of_measurement": unit, "state_class": "measurement"},
)
await mock_energy_manager.async_update(
{