"""Statistics helper for sensor."""
from __future__ import annotations
import datetime
import itertools
import logging
from typing import Callable
from homeassistant.components.recorder import history, statistics
from homeassistant.components.sensor import (
ATTR_STATE_CLASS,
DEVICE_CLASS_BATTERY,
DEVICE_CLASS_ENERGY,
DEVICE_CLASS_HUMIDITY,
DEVICE_CLASS_MONETARY,
DEVICE_CLASS_PRESSURE,
DEVICE_CLASS_TEMPERATURE,
STATE_CLASS_MEASUREMENT,
)
from homeassistant.const import (
ATTR_DEVICE_CLASS,
ATTR_UNIT_OF_MEASUREMENT,
DEVICE_CLASS_POWER,
ENERGY_KILO_WATT_HOUR,
ENERGY_WATT_HOUR,
PERCENTAGE,
POWER_KILO_WATT,
POWER_WATT,
PRESSURE_BAR,
PRESSURE_HPA,
PRESSURE_INHG,
PRESSURE_MBAR,
PRESSURE_PA,
PRESSURE_PSI,
TEMP_CELSIUS,
TEMP_FAHRENHEIT,
TEMP_KELVIN,
)
from homeassistant.core import HomeAssistant, State
import homeassistant.util.dt as dt_util
import homeassistant.util.pressure as pressure_util
import homeassistant.util.temperature as temperature_util
from . import ATTR_LAST_RESET, DOMAIN
_LOGGER = logging.getLogger(__name__)
DEVICE_CLASS_OR_UNIT_STATISTICS = {
DEVICE_CLASS_BATTERY: {"mean", "min", "max"},
DEVICE_CLASS_ENERGY: {"sum"},
DEVICE_CLASS_HUMIDITY: {"mean", "min", "max"},
DEVICE_CLASS_MONETARY: {"sum"},
DEVICE_CLASS_POWER: {"mean", "min", "max"},
DEVICE_CLASS_PRESSURE: {"mean", "min", "max"},
DEVICE_CLASS_TEMPERATURE: {"mean", "min", "max"},
PERCENTAGE: {"mean", "min", "max"},
}
# Normalized units which will be stored in the statistics table
DEVICE_CLASS_UNITS = {
DEVICE_CLASS_ENERGY: ENERGY_KILO_WATT_HOUR,
DEVICE_CLASS_POWER: POWER_WATT,
DEVICE_CLASS_PRESSURE: PRESSURE_PA,
DEVICE_CLASS_TEMPERATURE: TEMP_CELSIUS,
}
UNIT_CONVERSIONS: dict[str, dict[str, Callable]] = {
# Convert energy to kWh
DEVICE_CLASS_ENERGY: {
ENERGY_KILO_WATT_HOUR: lambda x: x,
ENERGY_WATT_HOUR: lambda x: x / 1000,
},
# Convert power W
DEVICE_CLASS_POWER: {
POWER_WATT: lambda x: x,
POWER_KILO_WATT: lambda x: x * 1000,
},
# Convert pressure to Pa
# Note: pressure_util.convert is bypassed to avoid redundant error checking
DEVICE_CLASS_PRESSURE: {
PRESSURE_BAR: lambda x: x / pressure_util.UNIT_CONVERSION[PRESSURE_BAR],
PRESSURE_HPA: lambda x: x / pressure_util.UNIT_CONVERSION[PRESSURE_HPA],
PRESSURE_INHG: lambda x: x / pressure_util.UNIT_CONVERSION[PRESSURE_INHG],
PRESSURE_MBAR: lambda x: x / pressure_util.UNIT_CONVERSION[PRESSURE_MBAR],
PRESSURE_PA: lambda x: x / pressure_util.UNIT_CONVERSION[PRESSURE_PA],
PRESSURE_PSI: lambda x: x / pressure_util.UNIT_CONVERSION[PRESSURE_PSI],
},
# Convert temperature to °C
# Note: temperature_util.convert is bypassed to avoid redundant error checking
DEVICE_CLASS_TEMPERATURE: {
TEMP_CELSIUS: lambda x: x,
TEMP_FAHRENHEIT: temperature_util.fahrenheit_to_celsius,
TEMP_KELVIN: temperature_util.kelvin_to_celsius,
},
}
# Keep track of entities for which a warning about unsupported unit has been logged
WARN_UNSUPPORTED_UNIT = set()
def _get_entities(hass: HomeAssistant) -> list[tuple[str, str]]:
"""Get (entity_id, device_class) of all sensors for which to compile statistics."""
all_sensors = hass.states.all(DOMAIN)
entity_ids = []
for state in all_sensors:
if state.attributes.get(ATTR_STATE_CLASS) != STATE_CLASS_MEASUREMENT:
continue
if (
key := state.attributes.get(ATTR_DEVICE_CLASS)
) in DEVICE_CLASS_OR_UNIT_STATISTICS:
entity_ids.append((state.entity_id, key))
if (
key := state.attributes.get(ATTR_UNIT_OF_MEASUREMENT)
) in DEVICE_CLASS_OR_UNIT_STATISTICS:
entity_ids.append((state.entity_id, key))
return entity_ids
# Faster than try/except
# From https://stackoverflow.com/a/23639915
def _is_number(s: str) -> bool: # pylint: disable=invalid-name
"""Return True if string is a number."""
return s.replace(".", "", 1).isdigit()
def _time_weighted_average(
fstates: list[tuple[float, State]], start: datetime.datetime, end: datetime.datetime
) -> float:
"""Calculate a time weighted average.
The average is calculated by, weighting the states by duration in seconds between
state changes.
Note: there's no interpolation of values between state changes.
"""
old_fstate: float | None = None
old_start_time: datetime.datetime | None = None
accumulated = 0.0
for fstate, state in fstates:
# The recorder will give us the last known state, which may be well
# before the requested start time for the statistics
start_time = start if state.last_updated < start else state.last_updated
if old_start_time is None:
# Adjust start time, if there was no last known state
start = start_time
else:
duration = start_time - old_start_time
# Accumulate the value, weighted by duration until next state change
assert old_fstate is not None
accumulated += old_fstate * duration.total_seconds()
old_fstate = fstate
old_start_time = start_time
if old_fstate is not None:
# Accumulate the value, weighted by duration until end of the period
assert old_start_time is not None
duration = end - old_start_time
accumulated += old_fstate * duration.total_seconds()
return accumulated / (end - start).total_seconds()
def _normalize_states(
entity_history: list[State], key: str, entity_id: str
) -> tuple[str | None, list[tuple[float, State]]]:
"""Normalize units."""
unit = None
if key not in UNIT_CONVERSIONS:
# We're not normalizing this device class, return the state as they are
fstates = [
(float(el.state), el) for el in entity_history if _is_number(el.state)
]
if fstates:
unit = fstates[0][1].attributes.get(ATTR_UNIT_OF_MEASUREMENT)
return unit, fstates
fstates = []
for state in entity_history:
# Exclude non numerical states from statistics
if not _is_number(state.state):
continue
fstate = float(state.state)
unit = state.attributes.get(ATTR_UNIT_OF_MEASUREMENT)
# Exclude unsupported units from statistics
if unit not in UNIT_CONVERSIONS[key]:
if entity_id not in WARN_UNSUPPORTED_UNIT:
WARN_UNSUPPORTED_UNIT.add(entity_id)
_LOGGER.warning("%s has unknown unit %s", entity_id, unit)
continue
fstates.append((UNIT_CONVERSIONS[key][unit](fstate), state))
return DEVICE_CLASS_UNITS[key], fstates
def compile_statistics(
hass: HomeAssistant, start: datetime.datetime, end: datetime.datetime
) -> dict:
"""Compile statistics for all entities during start-end.
Note: This will query the database and must not be run in the event loop
"""
result: dict = {}
entities = _get_entities(hass)
# Get history between start and end
history_list = history.get_significant_states( # type: ignore
hass, start - datetime.timedelta.resolution, end, [i[0] for i in entities]
)
for entity_id, key in entities:
wanted_statistics = DEVICE_CLASS_OR_UNIT_STATISTICS[key]
if entity_id not in history_list:
continue
entity_history = history_list[entity_id]
unit, fstates = _normalize_states(entity_history, key, entity_id)
if not fstates:
continue
result[entity_id] = {}
# Set meta data
result[entity_id]["meta"] = {
"unit_of_measurement": unit,
"has_mean": "mean" in wanted_statistics,
"has_sum": "sum" in wanted_statistics,
}
# Make calculations
stat: dict = {}
if "max" in wanted_statistics:
stat["max"] = max(*itertools.islice(zip(*fstates), 1))
if "min" in wanted_statistics:
stat["min"] = min(*itertools.islice(zip(*fstates), 1))
if "mean" in wanted_statistics:
stat["mean"] = _time_weighted_average(fstates, start, end)
if "sum" in wanted_statistics:
last_reset = old_last_reset = None
new_state = old_state = None
_sum = 0
last_stats = statistics.get_last_statistics(hass, 1, entity_id)
if entity_id in last_stats:
# We have compiled history for this sensor before, use that as a starting point
last_reset = old_last_reset = last_stats[entity_id][0]["last_reset"]
new_state = old_state = last_stats[entity_id][0]["state"]
_sum = last_stats[entity_id][0]["sum"]
for fstate, state in fstates:
if "last_reset" not in state.attributes:
continue
if (last_reset := state.attributes["last_reset"]) != old_last_reset:
# The sensor has been reset, update the sum
if old_state is not None:
_sum += new_state - old_state
# ..and update the starting point
new_state = fstate
old_last_reset = last_reset
old_state = new_state
else:
new_state = fstate
if last_reset is None or new_state is None or old_state is None:
# No valid updates
result.pop(entity_id)
continue
# Update the sum with the last state
_sum += new_state - old_state
stat["last_reset"] = dt_util.parse_datetime(last_reset)
stat["sum"] = _sum
stat["state"] = new_state
result[entity_id]["stat"] = stat
return result
def list_statistic_ids(hass: HomeAssistant, statistic_type: str | None = None) -> dict:
"""Return statistic_ids and meta data."""
entities = _get_entities(hass)
statistic_ids = {}
for entity_id, key in entities:
provided_statistics = DEVICE_CLASS_OR_UNIT_STATISTICS[key]
if statistic_type is not None and statistic_type not in provided_statistics:
continue
state = hass.states.get(entity_id)
assert state
if "sum" in provided_statistics and ATTR_LAST_RESET not in state.attributes:
continue
native_unit = state.attributes.get(ATTR_UNIT_OF_MEASUREMENT)
if key not in UNIT_CONVERSIONS:
statistic_ids[entity_id] = native_unit
continue
if native_unit not in UNIT_CONVERSIONS[key]:
continue
statistics_unit = DEVICE_CLASS_UNITS[key]
statistic_ids[entity_id] = statistics_unit
return statistic_ids