"""
homeassistant.components.sun
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Provides functionality to keep track of the sun.
For more details about this component, please refer to the documentation at
https://home-assistant.io/components/sun.html
"""
import logging
from datetime import timedelta
import urllib
import homeassistant.util as util
import homeassistant.util.dt as dt_util
from homeassistant.helpers.event import track_point_in_utc_time
from homeassistant.helpers.entity import Entity
DEPENDENCIES = []
REQUIREMENTS = ['astral==0.8.1']
DOMAIN = "sun"
ENTITY_ID = "sun.sun"
CONF_ELEVATION = 'elevation'
STATE_ABOVE_HORIZON = "above_horizon"
STATE_BELOW_HORIZON = "below_horizon"
STATE_ATTR_NEXT_RISING = "next_rising"
STATE_ATTR_NEXT_SETTING = "next_setting"
_LOGGER = logging.getLogger(__name__)
def is_on(hass, entity_id=None):
""" Returns if the sun is currently up based on the statemachine. """
entity_id = entity_id or ENTITY_ID
return hass.states.is_state(entity_id, STATE_ABOVE_HORIZON)
def next_setting(hass, entity_id=None):
""" Returns the local datetime object of the next sun setting. """
utc_next = next_setting_utc(hass, entity_id)
return dt_util.as_local(utc_next) if utc_next else None
def next_setting_utc(hass, entity_id=None):
""" Returns the UTC datetime object of the next sun setting. """
entity_id = entity_id or ENTITY_ID
state = hass.states.get(ENTITY_ID)
try:
return dt_util.str_to_datetime(
state.attributes[STATE_ATTR_NEXT_SETTING])
except (AttributeError, KeyError):
# AttributeError if state is None
# KeyError if STATE_ATTR_NEXT_SETTING does not exist
return None
def next_rising(hass, entity_id=None):
""" Returns the local datetime object of the next sun rising. """
utc_next = next_rising_utc(hass, entity_id)
return dt_util.as_local(utc_next) if utc_next else None
def next_rising_utc(hass, entity_id=None):
""" Returns the UTC datetime object of the next sun rising. """
entity_id = entity_id or ENTITY_ID
state = hass.states.get(ENTITY_ID)
try:
return dt_util.str_to_datetime(
state.attributes[STATE_ATTR_NEXT_RISING])
except (AttributeError, KeyError):
# AttributeError if state is None
# KeyError if STATE_ATTR_NEXT_RISING does not exist
return None
def setup(hass, config):
""" Tracks the state of the sun. """
if None in (hass.config.latitude, hass.config.longitude):
_LOGGER.error("Latitude or longitude not set in Home Assistant config")
return False
latitude = util.convert(hass.config.latitude, float)
longitude = util.convert(hass.config.longitude, float)
errors = []
if latitude is None:
errors.append('Latitude needs to be a decimal value')
elif -90 > latitude < 90:
errors.append('Latitude needs to be -90 .. 90')
if longitude is None:
errors.append('Longitude needs to be a decimal value')
elif -180 > longitude < 180:
errors.append('Longitude needs to be -180 .. 180')
if errors:
_LOGGER.error('Invalid configuration received: %s', ", ".join(errors))
return False
platform_config = config.get(DOMAIN, {})
elevation = platform_config.get(CONF_ELEVATION)
from astral import Location, GoogleGeocoder
location = Location(('', '', latitude, longitude, hass.config.time_zone,
elevation or 0))
if elevation is None:
google = GoogleGeocoder()
try:
google._get_elevation(location) # pylint: disable=protected-access
_LOGGER.info(
'Retrieved elevation from Google: %s', location.elevation)
except urllib.error.URLError:
# If no internet connection available etc.
pass
sun = Sun(hass, location)
sun.point_in_time_listener(dt_util.utcnow())
return True
class Sun(Entity):
""" Represents the Sun. """
entity_id = ENTITY_ID
def __init__(self, hass, location):
self.hass = hass
self.location = location
self._state = self.next_rising = self.next_setting = None
@property
def should_poll(self):
""" We trigger updates ourselves after sunset/sunrise """
return False
@property
def name(self):
return "Sun"
@property
def state(self):
if self.next_rising > self.next_setting:
return STATE_ABOVE_HORIZON
return STATE_BELOW_HORIZON
@property
def state_attributes(self):
return {
STATE_ATTR_NEXT_RISING: dt_util.datetime_to_str(self.next_rising),
STATE_ATTR_NEXT_SETTING: dt_util.datetime_to_str(self.next_setting)
}
@property
def next_change(self):
""" Returns the datetime when the next change to the state is. """
return min(self.next_rising, self.next_setting)
def update_as_of(self, utc_point_in_time):
""" Calculate sun state at a point in UTC time. """
mod = -1
while True:
next_rising_dt = self.location.sunrise(
utc_point_in_time + timedelta(days=mod), local=False)
if next_rising_dt > utc_point_in_time:
break
mod += 1
mod = -1
while True:
next_setting_dt = (self.location.sunset(
utc_point_in_time + timedelta(days=mod), local=False))
if next_setting_dt > utc_point_in_time:
break
mod += 1
self.next_rising = next_rising_dt
self.next_setting = next_setting_dt
def point_in_time_listener(self, now):
""" Called when the state of the sun has changed. """
self.update_as_of(now)
self.update_ha_state()
# Schedule next update at next_change+1 second so sun state has changed
track_point_in_utc_time(
self.hass, self.point_in_time_listener,
self.next_change + timedelta(seconds=1))