"""Numeric integration of data coming from a source sensor over time.""" from __future__ import annotations from decimal import Decimal, DecimalException import logging import voluptuous as vol from homeassistant.components.sensor import ( PLATFORM_SCHEMA, SensorDeviceClass, SensorEntity, SensorStateClass, ) from homeassistant.config_entries import ConfigEntry from homeassistant.const import ( ATTR_DEVICE_CLASS, ATTR_UNIT_OF_MEASUREMENT, CONF_METHOD, CONF_NAME, CONF_UNIQUE_ID, STATE_UNAVAILABLE, STATE_UNKNOWN, TIME_DAYS, TIME_HOURS, TIME_MINUTES, TIME_SECONDS, ) from homeassistant.core import HomeAssistant, callback from homeassistant.helpers import config_validation as cv, entity_registry as er from homeassistant.helpers.entity_platform import AddEntitiesCallback from homeassistant.helpers.event import async_track_state_change_event from homeassistant.helpers.restore_state import RestoreEntity from homeassistant.helpers.typing import ConfigType, DiscoveryInfoType from .const import ( CONF_ROUND_DIGITS, CONF_SOURCE_SENSOR, CONF_UNIT_OF_MEASUREMENT, CONF_UNIT_PREFIX, CONF_UNIT_TIME, INTEGRATION_METHODS, METHOD_LEFT, METHOD_RIGHT, METHOD_TRAPEZOIDAL, ) # mypy: allow-untyped-defs, no-check-untyped-defs _LOGGER = logging.getLogger(__name__) ATTR_SOURCE_ID = "source" # SI Metric prefixes UNIT_PREFIXES = {None: 1, "k": 10**3, "M": 10**6, "G": 10**9, "T": 10**12} # SI Time prefixes UNIT_TIME = { TIME_SECONDS: 1, TIME_MINUTES: 60, TIME_HOURS: 60 * 60, TIME_DAYS: 24 * 60 * 60, } ICON = "mdi:chart-histogram" DEFAULT_ROUND = 3 PLATFORM_SCHEMA = vol.All( cv.deprecated(CONF_UNIT_OF_MEASUREMENT), PLATFORM_SCHEMA.extend( { vol.Optional(CONF_NAME): cv.string, vol.Optional(CONF_UNIQUE_ID): cv.string, vol.Required(CONF_SOURCE_SENSOR): cv.entity_id, vol.Optional(CONF_ROUND_DIGITS, default=DEFAULT_ROUND): vol.Coerce(int), vol.Optional(CONF_UNIT_PREFIX, default=None): vol.In(UNIT_PREFIXES), vol.Optional(CONF_UNIT_TIME, default=TIME_HOURS): vol.In(UNIT_TIME), vol.Optional(CONF_UNIT_OF_MEASUREMENT): cv.string, vol.Optional(CONF_METHOD, default=METHOD_TRAPEZOIDAL): vol.In( INTEGRATION_METHODS ), } ), ) async def async_setup_entry( hass: HomeAssistant, config_entry: ConfigEntry, async_add_entities: AddEntitiesCallback, ) -> None: """Initialize Integration - Riemann sum integral config entry.""" registry = er.async_get(hass) # Validate + resolve entity registry id to entity_id source_entity_id = er.async_validate_entity_id( registry, config_entry.options[CONF_SOURCE_SENSOR] ) unit_prefix = config_entry.options[CONF_UNIT_PREFIX] if unit_prefix == "none": unit_prefix = None integral = IntegrationSensor( integration_method=config_entry.options[CONF_METHOD], name=config_entry.title, round_digits=int(config_entry.options[CONF_ROUND_DIGITS]), source_entity=source_entity_id, unique_id=config_entry.entry_id, unit_of_measurement=None, unit_prefix=unit_prefix, unit_time=config_entry.options[CONF_UNIT_TIME], ) async_add_entities([integral]) async def async_setup_platform( hass: HomeAssistant, config: ConfigType, async_add_entities: AddEntitiesCallback, discovery_info: DiscoveryInfoType | None = None, ) -> None: """Set up the integration sensor.""" integral = IntegrationSensor( integration_method=config[CONF_METHOD], name=config.get(CONF_NAME), round_digits=config[CONF_ROUND_DIGITS], source_entity=config[CONF_SOURCE_SENSOR], unique_id=config.get(CONF_UNIQUE_ID), unit_of_measurement=config.get(CONF_UNIT_OF_MEASUREMENT), unit_prefix=config[CONF_UNIT_PREFIX], unit_time=config[CONF_UNIT_TIME], ) async_add_entities([integral]) class IntegrationSensor(RestoreEntity, SensorEntity): """Representation of an integration sensor.""" def __init__( self, *, integration_method: str, name: str | None, round_digits: int, source_entity: str, unique_id: str | None, unit_of_measurement: str | None, unit_prefix: str | None, unit_time: str, ) -> None: """Initialize the integration sensor.""" self._attr_unique_id = unique_id self._sensor_source_id = source_entity self._round_digits = round_digits self._state = None self._method = integration_method self._name = name if name is not None else f"{source_entity} integral" self._unit_template = ( f"{'' if unit_prefix is None else unit_prefix}{{}}{unit_time}" ) self._unit_of_measurement = unit_of_measurement self._unit_prefix = UNIT_PREFIXES[unit_prefix] self._unit_time = UNIT_TIME[unit_time] self._attr_state_class = SensorStateClass.TOTAL async def async_added_to_hass(self): """Handle entity which will be added.""" await super().async_added_to_hass() if state := await self.async_get_last_state(): try: self._state = Decimal(state.state) except (DecimalException, ValueError) as err: _LOGGER.warning("Could not restore last state: %s", err) else: self._attr_device_class = state.attributes.get(ATTR_DEVICE_CLASS) if self._unit_of_measurement is None: self._unit_of_measurement = state.attributes.get( ATTR_UNIT_OF_MEASUREMENT ) @callback def calc_integration(event): """Handle the sensor state changes.""" old_state = event.data.get("old_state") new_state = event.data.get("new_state") # We may want to update our state before an early return, # based on the source sensor's unit_of_measurement # or device_class. update_state = False if self._unit_of_measurement is None: unit = new_state.attributes.get(ATTR_UNIT_OF_MEASUREMENT) if unit is not None: self._unit_of_measurement = self._unit_template.format(unit) update_state = True if ( self.device_class is None and new_state.attributes.get(ATTR_DEVICE_CLASS) == SensorDeviceClass.POWER ): self._attr_device_class = SensorDeviceClass.ENERGY update_state = True if update_state: self.async_write_ha_state() if ( old_state is None or new_state is None or old_state.state in (STATE_UNKNOWN, STATE_UNAVAILABLE) or new_state.state in (STATE_UNKNOWN, STATE_UNAVAILABLE) ): return try: # integration as the Riemann integral of previous measures. area = 0 elapsed_time = ( new_state.last_updated - old_state.last_updated ).total_seconds() if self._method == METHOD_TRAPEZOIDAL: area = ( (Decimal(new_state.state) + Decimal(old_state.state)) * Decimal(elapsed_time) / 2 ) elif self._method == METHOD_LEFT: area = Decimal(old_state.state) * Decimal(elapsed_time) elif self._method == METHOD_RIGHT: area = Decimal(new_state.state) * Decimal(elapsed_time) integral = area / (self._unit_prefix * self._unit_time) assert isinstance(integral, Decimal) except ValueError as err: _LOGGER.warning("While calculating integration: %s", err) except DecimalException as err: _LOGGER.warning( "Invalid state (%s > %s): %s", old_state.state, new_state.state, err ) except AssertionError as err: _LOGGER.error("Could not calculate integral: %s", err) else: if isinstance(self._state, Decimal): self._state += integral else: self._state = integral self.async_write_ha_state() async_track_state_change_event( self.hass, [self._sensor_source_id], calc_integration ) @property def name(self): """Return the name of the sensor.""" return self._name @property def native_value(self): """Return the state of the sensor.""" if isinstance(self._state, Decimal): return round(self._state, self._round_digits) return self._state @property def native_unit_of_measurement(self): """Return the unit the value is expressed in.""" return self._unit_of_measurement @property def should_poll(self): """No polling needed.""" return False @property def extra_state_attributes(self): """Return the state attributes of the sensor.""" return {ATTR_SOURCE_ID: self._sensor_source_id} @property def icon(self): """Return the icon to use in the frontend.""" return ICON