"""
Support for tracking the proximity of a device.
Component to monitor the proximity of devices to a particular zone and the
direction of travel.
For more details about this component, please refer to the documentation at
https://home-assistant.io/components/proximity/
"""
import logging
import voluptuous as vol
import homeassistant.helpers.config_validation as cv
from homeassistant.const import (
CONF_ZONE, CONF_DEVICES, CONF_UNIT_OF_MEASUREMENT)
from homeassistant.helpers.entity import Entity
from homeassistant.helpers.event import track_state_change
from homeassistant.util.distance import convert
from homeassistant.util.location import distance
_LOGGER = logging.getLogger(__name__)
ATTR_DIR_OF_TRAVEL = 'dir_of_travel'
ATTR_DIST_FROM = 'dist_to_zone'
ATTR_NEAREST = 'nearest'
CONF_IGNORED_ZONES = 'ignored_zones'
CONF_TOLERANCE = 'tolerance'
DEFAULT_DIR_OF_TRAVEL = 'not set'
DEFAULT_DIST_TO_ZONE = 'not set'
DEFAULT_NEAREST = 'not set'
DEFAULT_PROXIMITY_ZONE = 'home'
DEFAULT_TOLERANCE = 1
DEPENDENCIES = ['zone', 'device_tracker']
DOMAIN = 'proximity'
UNITS = ['km', 'm', 'mi', 'ft']
ZONE_SCHEMA = vol.Schema({
vol.Optional(CONF_ZONE, default=DEFAULT_PROXIMITY_ZONE): cv.string,
vol.Optional(CONF_DEVICES, default=[]):
vol.All(cv.ensure_list, [cv.entity_id]),
vol.Optional(CONF_IGNORED_ZONES, default=[]):
vol.All(cv.ensure_list, [cv.string]),
vol.Optional(CONF_TOLERANCE, default=DEFAULT_TOLERANCE): cv.positive_int,
vol.Optional(CONF_UNIT_OF_MEASUREMENT): vol.All(cv.string, vol.In(UNITS)),
})
CONFIG_SCHEMA = vol.Schema({
DOMAIN: vol.Schema({
cv.slug: ZONE_SCHEMA,
}),
}, extra=vol.ALLOW_EXTRA)
def setup_proximity_component(hass, name, config):
"""Set up the individual proximity component."""
ignored_zones = config.get(CONF_IGNORED_ZONES)
proximity_devices = config.get(CONF_DEVICES)
tolerance = config.get(CONF_TOLERANCE)
proximity_zone = name
unit_of_measurement = config.get(
CONF_UNIT_OF_MEASUREMENT, hass.config.units.length_unit)
zone_id = 'zone.{}'.format(config.get(CONF_ZONE))
proximity = Proximity(hass, proximity_zone, DEFAULT_DIST_TO_ZONE,
DEFAULT_DIR_OF_TRAVEL, DEFAULT_NEAREST,
ignored_zones, proximity_devices, tolerance,
zone_id, unit_of_measurement)
proximity.entity_id = '{}.{}'.format(DOMAIN, proximity_zone)
proximity.schedule_update_ha_state()
track_state_change(
hass, proximity_devices, proximity.check_proximity_state_change)
return True
def setup(hass, config):
"""Get the zones and offsets from configuration.yaml."""
for zone, proximity_config in config[DOMAIN].items():
setup_proximity_component(hass, zone, proximity_config)
return True
class Proximity(Entity):
"""Representation of a Proximity."""
def __init__(self, hass, zone_friendly_name, dist_to, dir_of_travel,
nearest, ignored_zones, proximity_devices, tolerance,
proximity_zone, unit_of_measurement):
"""Initialize the proximity."""
self.hass = hass
self.friendly_name = zone_friendly_name
self.dist_to = dist_to
self.dir_of_travel = dir_of_travel
self.nearest = nearest
self.ignored_zones = ignored_zones
self.proximity_devices = proximity_devices
self.tolerance = tolerance
self.proximity_zone = proximity_zone
self._unit_of_measurement = unit_of_measurement
@property
def name(self):
"""Return the name of the entity."""
return self.friendly_name
@property
def state(self):
"""Return the state."""
return self.dist_to
@property
def unit_of_measurement(self):
"""Return the unit of measurement of this entity."""
return self._unit_of_measurement
@property
def state_attributes(self):
"""Return the state attributes."""
return {
ATTR_DIR_OF_TRAVEL: self.dir_of_travel,
ATTR_NEAREST: self.nearest,
}
def check_proximity_state_change(self, entity, old_state, new_state):
"""Perform the proximity checking."""
entity_name = new_state.name
devices_to_calculate = False
devices_in_zone = ''
zone_state = self.hass.states.get(self.proximity_zone)
proximity_latitude = zone_state.attributes.get('latitude')
proximity_longitude = zone_state.attributes.get('longitude')
# Check for devices in the monitored zone.
for device in self.proximity_devices:
device_state = self.hass.states.get(device)
if device_state is None:
devices_to_calculate = True
continue
if device_state.state not in self.ignored_zones:
devices_to_calculate = True
# Check the location of all devices.
if (device_state.state).lower() == (self.friendly_name).lower():
device_friendly = device_state.name
if devices_in_zone != '':
devices_in_zone = devices_in_zone + ', '
devices_in_zone = devices_in_zone + device_friendly
# No-one to track so reset the entity.
if not devices_to_calculate:
self.dist_to = 'not set'
self.dir_of_travel = 'not set'
self.nearest = 'not set'
self.schedule_update_ha_state()
return
# At least one device is in the monitored zone so update the entity.
if devices_in_zone != '':
self.dist_to = 0
self.dir_of_travel = 'arrived'
self.nearest = devices_in_zone
self.schedule_update_ha_state()
return
# We can't check proximity because latitude and longitude don't exist.
if 'latitude' not in new_state.attributes:
return
# Collect distances to the zone for all devices.
distances_to_zone = {}
for device in self.proximity_devices:
# Ignore devices in an ignored zone.
device_state = self.hass.states.get(device)
if device_state.state in self.ignored_zones:
continue
# Ignore devices if proximity cannot be calculated.
if 'latitude' not in device_state.attributes:
continue
# Calculate the distance to the proximity zone.
dist_to_zone = distance(proximity_latitude,
proximity_longitude,
device_state.attributes['latitude'],
device_state.attributes['longitude'])
# Add the device and distance to a dictionary.
distances_to_zone[device] = round(
convert(dist_to_zone, 'm', self.unit_of_measurement), 1)
# Loop through each of the distances collected and work out the
# closest.
closest_device = None # type: str
dist_to_zone = None # type: float
for device in distances_to_zone:
if not dist_to_zone or distances_to_zone[device] < dist_to_zone:
closest_device = device
dist_to_zone = distances_to_zone[device]
# If the closest device is one of the other devices.
if closest_device != entity:
self.dist_to = round(distances_to_zone[closest_device])
self.dir_of_travel = 'unknown'
device_state = self.hass.states.get(closest_device)
self.nearest = device_state.name
self.schedule_update_ha_state()
return
# Stop if we cannot calculate the direction of travel (i.e. we don't
# have a previous state and a current LAT and LONG).
if old_state is None or 'latitude' not in old_state.attributes:
self.dist_to = round(distances_to_zone[entity])
self.dir_of_travel = 'unknown'
self.nearest = entity_name
self.schedule_update_ha_state()
return
# Reset the variables
distance_travelled = 0
# Calculate the distance travelled.
old_distance = distance(proximity_latitude, proximity_longitude,
old_state.attributes['latitude'],
old_state.attributes['longitude'])
new_distance = distance(proximity_latitude, proximity_longitude,
new_state.attributes['latitude'],
new_state.attributes['longitude'])
distance_travelled = round(new_distance - old_distance, 1)
# Check for tolerance
if distance_travelled < self.tolerance * -1:
direction_of_travel = 'towards'
elif distance_travelled > self.tolerance:
direction_of_travel = 'away_from'
else:
direction_of_travel = 'stationary'
# Update the proximity entity
self.dist_to = round(dist_to_zone)
self.dir_of_travel = direction_of_travel
self.nearest = entity_name
self.schedule_update_ha_state()
_LOGGER.debug('proximity.%s update entity: distance=%s: direction=%s: '
'device=%s', self.friendly_name, round(dist_to_zone),
direction_of_travel, entity_name)
_LOGGER.info('%s: proximity calculation complete', entity_name)