"""Support for monitoring a Sense energy sensor."""
from homeassistant.components.sensor import STATE_CLASS_MEASUREMENT, SensorEntity
from homeassistant.const import (
ATTR_ATTRIBUTION,
DEVICE_CLASS_POWER,
ENERGY_KILO_WATT_HOUR,
POWER_WATT,
VOLT,
)
from homeassistant.core import callback
from homeassistant.helpers.dispatcher import async_dispatcher_connect
from .const import (
ACTIVE_NAME,
ACTIVE_TYPE,
ATTRIBUTION,
CONSUMPTION_ID,
CONSUMPTION_NAME,
DOMAIN,
ICON,
MDI_ICONS,
PRODUCTION_ID,
PRODUCTION_NAME,
SENSE_DATA,
SENSE_DEVICE_UPDATE,
SENSE_DEVICES_DATA,
SENSE_DISCOVERED_DEVICES_DATA,
SENSE_TRENDS_COORDINATOR,
)
class SensorConfig:
"""Data structure holding sensor configuration."""
def __init__(self, name, sensor_type):
"""Sensor name and type to pass to API."""
self.name = name
self.sensor_type = sensor_type
# Sensor types/ranges
ACTIVE_SENSOR_TYPE = SensorConfig(ACTIVE_NAME, ACTIVE_TYPE)
# Sensor types/ranges
TRENDS_SENSOR_TYPES = {
"daily": SensorConfig("Daily", "DAY"),
"weekly": SensorConfig("Weekly", "WEEK"),
"monthly": SensorConfig("Monthly", "MONTH"),
"yearly": SensorConfig("Yearly", "YEAR"),
}
# Production/consumption variants
SENSOR_VARIANTS = [PRODUCTION_ID, CONSUMPTION_ID]
def sense_to_mdi(sense_icon):
"""Convert sense icon to mdi icon."""
return "mdi:{}".format(MDI_ICONS.get(sense_icon, "power-plug"))
async def async_setup_entry(hass, config_entry, async_add_entities):
"""Set up the Sense sensor."""
data = hass.data[DOMAIN][config_entry.entry_id][SENSE_DATA]
sense_devices_data = hass.data[DOMAIN][config_entry.entry_id][SENSE_DEVICES_DATA]
trends_coordinator = hass.data[DOMAIN][config_entry.entry_id][
SENSE_TRENDS_COORDINATOR
]
# Request only in case it takes longer
# than 60s
await trends_coordinator.async_request_refresh()
sense_monitor_id = data.sense_monitor_id
sense_devices = hass.data[DOMAIN][config_entry.entry_id][
SENSE_DISCOVERED_DEVICES_DATA
]
devices = [
SenseEnergyDevice(sense_devices_data, device, sense_monitor_id)
for device in sense_devices
if device["tags"]["DeviceListAllowed"] == "true"
]
for var in SENSOR_VARIANTS:
name = ACTIVE_SENSOR_TYPE.name
sensor_type = ACTIVE_SENSOR_TYPE.sensor_type
is_production = var == PRODUCTION_ID
unique_id = f"{sense_monitor_id}-active-{var}"
devices.append(
SenseActiveSensor(
data, name, sensor_type, is_production, sense_monitor_id, var, unique_id
)
)
for i in range(len(data.active_voltage)):
devices.append(SenseVoltageSensor(data, i, sense_monitor_id))
for type_id in TRENDS_SENSOR_TYPES:
typ = TRENDS_SENSOR_TYPES[type_id]
for var in SENSOR_VARIANTS:
name = typ.name
sensor_type = typ.sensor_type
is_production = var == PRODUCTION_ID
unique_id = f"{sense_monitor_id}-{type_id}-{var}"
devices.append(
SenseTrendsSensor(
data,
name,
sensor_type,
is_production,
trends_coordinator,
unique_id,
)
)
async_add_entities(devices)
class SenseActiveSensor(SensorEntity):
"""Implementation of a Sense energy sensor."""
_attr_icon = ICON
_attr_unit_of_measurement = POWER_WATT
_attr_extra_state_attributes = {ATTR_ATTRIBUTION: ATTRIBUTION}
_attr_should_poll = False
_attr_available = False
_attr_state_class = STATE_CLASS_MEASUREMENT
def __init__(
self,
data,
name,
sensor_type,
is_production,
sense_monitor_id,
sensor_id,
unique_id,
):
"""Initialize the Sense sensor."""
name_type = PRODUCTION_NAME if is_production else CONSUMPTION_NAME
self._attr_name = f"{name} {name_type}"
self._attr_unique_id = unique_id
self._data = data
self._sense_monitor_id = sense_monitor_id
self._sensor_type = sensor_type
self._is_production = is_production
async def async_added_to_hass(self):
"""Register callbacks."""
self.async_on_remove(
async_dispatcher_connect(
self.hass,
f"{SENSE_DEVICE_UPDATE}-{self._sense_monitor_id}",
self._async_update_from_data,
)
)
@callback
def _async_update_from_data(self):
"""Update the sensor from the data. Must not do I/O."""
new_state = round(
self._data.active_solar_power
if self._is_production
else self._data.active_power
)
if self._attr_available and self._attr_state == new_state:
return
self._attr_state = new_state
self._attr_available = True
self.async_write_ha_state()
class SenseVoltageSensor(SensorEntity):
"""Implementation of a Sense energy voltage sensor."""
_attr_unit_of_measurement = VOLT
_attr_extra_state_attributes = {ATTR_ATTRIBUTION: ATTRIBUTION}
_attr_icon = ICON
_attr_should_poll = False
_attr_available = False
def __init__(
self,
data,
index,
sense_monitor_id,
):
"""Initialize the Sense sensor."""
line_num = index + 1
self._attr_name = f"L{line_num} Voltage"
self._attr_unique_id = f"{sense_monitor_id}-L{line_num}"
self._data = data
self._sense_monitor_id = sense_monitor_id
self._voltage_index = index
async def async_added_to_hass(self):
"""Register callbacks."""
self.async_on_remove(
async_dispatcher_connect(
self.hass,
f"{SENSE_DEVICE_UPDATE}-{self._sense_monitor_id}",
self._async_update_from_data,
)
)
@callback
def _async_update_from_data(self):
"""Update the sensor from the data. Must not do I/O."""
new_state = round(self._data.active_voltage[self._voltage_index], 1)
if self._attr_available and self._attr_state == new_state:
return
self._attr_available = True
self._attr_state = new_state
self.async_write_ha_state()
class SenseTrendsSensor(SensorEntity):
"""Implementation of a Sense energy sensor."""
_attr_unit_of_measurement = ENERGY_KILO_WATT_HOUR
_attr_extra_state_attributes = {ATTR_ATTRIBUTION: ATTRIBUTION}
_attr_icon = ICON
_attr_should_poll = False
def __init__(
self,
data,
name,
sensor_type,
is_production,
trends_coordinator,
unique_id,
):
"""Initialize the Sense sensor."""
name_type = PRODUCTION_NAME if is_production else CONSUMPTION_NAME
self._attr_name = f"{name} {name_type}"
self._attr_unique_id = unique_id
self._data = data
self._sensor_type = sensor_type
self._coordinator = trends_coordinator
self._is_production = is_production
self._had_any_update = False
@property
def state(self):
"""Return the state of the sensor."""
return round(self._data.get_trend(self._sensor_type, self._is_production), 1)
@property
def available(self):
"""Return if entity is available."""
return self._had_any_update and self._coordinator.last_update_success
@callback
def _async_update(self):
"""Track if we had an update so we do not report zero data."""
self._had_any_update = True
self.async_write_ha_state()
async def async_update(self):
"""Update the entity.
Only used by the generic entity update service.
"""
await self._coordinator.async_request_refresh()
async def async_added_to_hass(self):
"""When entity is added to hass."""
self.async_on_remove(self._coordinator.async_add_listener(self._async_update))
class SenseEnergyDevice(SensorEntity):
"""Implementation of a Sense energy device."""
_attr_available = False
_attr_state_class = STATE_CLASS_MEASUREMENT
_attr_unit_of_measurement = POWER_WATT
_attr_extra_state_attributes = {ATTR_ATTRIBUTION: ATTRIBUTION}
_attr_device_class = DEVICE_CLASS_POWER
_attr_should_poll = False
def __init__(self, sense_devices_data, device, sense_monitor_id):
"""Initialize the Sense binary sensor."""
self._attr_name = f"{device['name']} {CONSUMPTION_NAME}"
self._id = device["id"]
self._sense_monitor_id = sense_monitor_id
self._attr_unique_id = f"{sense_monitor_id}-{self._id}-{CONSUMPTION_ID}"
self._attr_icon = sense_to_mdi(device["icon"])
self._sense_devices_data = sense_devices_data
async def async_added_to_hass(self):
"""Register callbacks."""
self.async_on_remove(
async_dispatcher_connect(
self.hass,
f"{SENSE_DEVICE_UPDATE}-{self._sense_monitor_id}",
self._async_update_from_data,
)
)
@callback
def _async_update_from_data(self):
"""Get the latest data, update state. Must not do I/O."""
device_data = self._sense_devices_data.get_device_by_id(self._id)
if not device_data or "w" not in device_data:
new_state = 0
else:
new_state = int(device_data["w"])
if self._attr_available and self._attr_state == new_state:
return
self._attr_state = new_state
self._attr_available = True
self.async_write_ha_state()