esphome/esphomeyaml/components/sensor/__init__.py
Otto Winter 9fa95a9a21
Lint
2019-02-10 16:22:12 +01:00

263 lines
11 KiB
Python

import voluptuous as vol
from esphomeyaml import automation
from esphomeyaml.automation import CONDITION_REGISTRY
from esphomeyaml.components import mqtt
from esphomeyaml.components.mqtt import setup_mqtt_component
import esphomeyaml.config_validation as cv
from esphomeyaml.const import CONF_ABOVE, CONF_ACCURACY_DECIMALS, CONF_ALPHA, CONF_BELOW, \
CONF_DEBOUNCE, CONF_DELTA, CONF_EXPIRE_AFTER, CONF_EXPONENTIAL_MOVING_AVERAGE, CONF_FILTERS, \
CONF_FILTER_NAN, CONF_FILTER_OUT, CONF_HEARTBEAT, CONF_ICON, CONF_ID, CONF_INTERNAL, \
CONF_LAMBDA, CONF_MQTT_ID, CONF_MULTIPLY, CONF_OFFSET, CONF_ON_RAW_VALUE, CONF_ON_VALUE, \
CONF_ON_VALUE_RANGE, CONF_OR, CONF_SEND_EVERY, CONF_SEND_FIRST_AT, \
CONF_SLIDING_WINDOW_MOVING_AVERAGE, CONF_THROTTLE, CONF_TRIGGER_ID, CONF_UNIQUE, \
CONF_UNIT_OF_MEASUREMENT, CONF_WINDOW_SIZE
from esphomeyaml.core import CORE
from esphomeyaml.cpp_generator import Pvariable, add, get_variable, process_lambda, templatable
from esphomeyaml.cpp_types import App, Component, Nameable, PollingComponent, Trigger, \
esphomelib_ns, float_, optional
PLATFORM_SCHEMA = cv.PLATFORM_SCHEMA.extend({
})
def validate_recursive_filter(value):
return FILTERS_SCHEMA(value)
def validate_send_first_at(value):
send_first_at = value.get(CONF_SEND_FIRST_AT)
send_every = value[CONF_SEND_EVERY]
if send_first_at is not None and send_first_at > send_every:
raise vol.Invalid("send_first_at must be smaller than or equal to send_every! {} <= {}"
"".format(send_first_at, send_every))
return value
FILTER_KEYS = [CONF_OFFSET, CONF_MULTIPLY, CONF_FILTER_OUT, CONF_FILTER_NAN,
CONF_SLIDING_WINDOW_MOVING_AVERAGE, CONF_EXPONENTIAL_MOVING_AVERAGE, CONF_LAMBDA,
CONF_THROTTLE, CONF_DELTA, CONF_UNIQUE, CONF_HEARTBEAT, CONF_DEBOUNCE, CONF_OR]
FILTERS_SCHEMA = cv.ensure_list({
vol.Optional(CONF_OFFSET): cv.float_,
vol.Optional(CONF_MULTIPLY): cv.float_,
vol.Optional(CONF_FILTER_OUT): cv.float_,
vol.Optional(CONF_FILTER_NAN): None,
vol.Optional(CONF_SLIDING_WINDOW_MOVING_AVERAGE): vol.All(vol.Schema({
vol.Optional(CONF_WINDOW_SIZE, default=15): cv.positive_not_null_int,
vol.Optional(CONF_SEND_EVERY, default=15): cv.positive_not_null_int,
vol.Optional(CONF_SEND_FIRST_AT): cv.positive_not_null_int,
}), validate_send_first_at),
vol.Optional(CONF_EXPONENTIAL_MOVING_AVERAGE): vol.Schema({
vol.Optional(CONF_ALPHA, default=0.1): cv.positive_float,
vol.Optional(CONF_SEND_EVERY, default=15): cv.positive_not_null_int,
}),
vol.Optional(CONF_LAMBDA): cv.lambda_,
vol.Optional(CONF_THROTTLE): cv.positive_time_period_milliseconds,
vol.Optional(CONF_DELTA): cv.float_,
vol.Optional(CONF_UNIQUE): None,
vol.Optional(CONF_HEARTBEAT): cv.positive_time_period_milliseconds,
vol.Optional(CONF_DEBOUNCE): cv.positive_time_period_milliseconds,
vol.Optional(CONF_OR): validate_recursive_filter,
}, cv.has_exactly_one_key(*FILTER_KEYS))
# Base
sensor_ns = esphomelib_ns.namespace('sensor')
Sensor = sensor_ns.class_('Sensor', Nameable)
SensorPtr = Sensor.operator('ptr')
MQTTSensorComponent = sensor_ns.class_('MQTTSensorComponent', mqtt.MQTTComponent)
PollingSensorComponent = sensor_ns.class_('PollingSensorComponent', PollingComponent, Sensor)
EmptySensor = sensor_ns.class_('EmptySensor', Sensor)
EmptyPollingParentSensor = sensor_ns.class_('EmptyPollingParentSensor', EmptySensor)
# Triggers
SensorStateTrigger = sensor_ns.class_('SensorStateTrigger', Trigger.template(float_))
SensorRawStateTrigger = sensor_ns.class_('SensorRawStateTrigger', Trigger.template(float_))
ValueRangeTrigger = sensor_ns.class_('ValueRangeTrigger', Trigger.template(float_), Component)
# Filters
Filter = sensor_ns.class_('Filter')
SlidingWindowMovingAverageFilter = sensor_ns.class_('SlidingWindowMovingAverageFilter', Filter)
ExponentialMovingAverageFilter = sensor_ns.class_('ExponentialMovingAverageFilter', Filter)
LambdaFilter = sensor_ns.class_('LambdaFilter', Filter)
OffsetFilter = sensor_ns.class_('OffsetFilter', Filter)
MultiplyFilter = sensor_ns.class_('MultiplyFilter', Filter)
FilterOutValueFilter = sensor_ns.class_('FilterOutValueFilter', Filter)
FilterOutNANFilter = sensor_ns.class_('FilterOutNANFilter', Filter)
ThrottleFilter = sensor_ns.class_('ThrottleFilter', Filter)
DebounceFilter = sensor_ns.class_('DebounceFilter', Filter, Component)
HeartbeatFilter = sensor_ns.class_('HeartbeatFilter', Filter, Component)
DeltaFilter = sensor_ns.class_('DeltaFilter', Filter)
OrFilter = sensor_ns.class_('OrFilter', Filter)
UniqueFilter = sensor_ns.class_('UniqueFilter', Filter)
SensorInRangeCondition = sensor_ns.class_('SensorInRangeCondition', Filter)
SENSOR_SCHEMA = cv.MQTT_COMPONENT_SCHEMA.extend({
cv.GenerateID(CONF_MQTT_ID): cv.declare_variable_id(MQTTSensorComponent),
vol.Optional(CONF_UNIT_OF_MEASUREMENT): cv.string_strict,
vol.Optional(CONF_ICON): cv.icon,
vol.Optional(CONF_ACCURACY_DECIMALS): vol.Coerce(int),
vol.Optional(CONF_EXPIRE_AFTER): vol.All(cv.requires_component('mqtt'),
vol.Any(None, cv.positive_time_period_milliseconds)),
vol.Optional(CONF_FILTERS): FILTERS_SCHEMA,
vol.Optional(CONF_ON_VALUE): automation.validate_automation({
cv.GenerateID(CONF_TRIGGER_ID): cv.declare_variable_id(SensorStateTrigger),
}),
vol.Optional(CONF_ON_RAW_VALUE): automation.validate_automation({
cv.GenerateID(CONF_TRIGGER_ID): cv.declare_variable_id(SensorRawStateTrigger),
}),
vol.Optional(CONF_ON_VALUE_RANGE): automation.validate_automation({
cv.GenerateID(CONF_TRIGGER_ID): cv.declare_variable_id(ValueRangeTrigger),
vol.Optional(CONF_ABOVE): cv.float_,
vol.Optional(CONF_BELOW): cv.float_,
}, cv.has_at_least_one_key(CONF_ABOVE, CONF_BELOW)),
})
SENSOR_PLATFORM_SCHEMA = PLATFORM_SCHEMA.extend(SENSOR_SCHEMA.schema)
def setup_filter(config):
if CONF_OFFSET in config:
yield OffsetFilter.new(config[CONF_OFFSET])
elif CONF_MULTIPLY in config:
yield MultiplyFilter.new(config[CONF_MULTIPLY])
elif CONF_FILTER_OUT in config:
yield FilterOutValueFilter.new(config[CONF_FILTER_OUT])
elif CONF_FILTER_NAN in config:
yield FilterOutNANFilter.new()
elif CONF_SLIDING_WINDOW_MOVING_AVERAGE in config:
conf = config[CONF_SLIDING_WINDOW_MOVING_AVERAGE]
yield SlidingWindowMovingAverageFilter.new(conf[CONF_WINDOW_SIZE], conf[CONF_SEND_EVERY],
conf.get(CONF_SEND_FIRST_AT))
elif CONF_EXPONENTIAL_MOVING_AVERAGE in config:
conf = config[CONF_EXPONENTIAL_MOVING_AVERAGE]
yield ExponentialMovingAverageFilter.new(conf[CONF_ALPHA], conf[CONF_SEND_EVERY])
elif CONF_LAMBDA in config:
for lambda_ in process_lambda(config[CONF_LAMBDA], [(float_, 'x')],
return_type=optional.template(float_)):
yield None
yield LambdaFilter.new(lambda_)
elif CONF_THROTTLE in config:
yield ThrottleFilter.new(config[CONF_THROTTLE])
elif CONF_DELTA in config:
yield DeltaFilter.new(config[CONF_DELTA])
elif CONF_OR in config:
for filters in setup_filters(config[CONF_OR]):
yield None
yield OrFilter.new(filters)
elif CONF_HEARTBEAT in config:
yield App.register_component(HeartbeatFilter.new(config[CONF_HEARTBEAT]))
elif CONF_DEBOUNCE in config:
yield App.register_component(DebounceFilter.new(config[CONF_DEBOUNCE]))
elif CONF_UNIQUE in config:
yield UniqueFilter.new()
def setup_filters(config):
filters = []
for conf in config:
for filter in setup_filter(conf):
yield None
filters.append(filter)
yield filters
def setup_sensor_core_(sensor_var, config):
if CONF_INTERNAL in config:
add(sensor_var.set_internal(config[CONF_INTERNAL]))
if CONF_UNIT_OF_MEASUREMENT in config:
add(sensor_var.set_unit_of_measurement(config[CONF_UNIT_OF_MEASUREMENT]))
if CONF_ICON in config:
add(sensor_var.set_icon(config[CONF_ICON]))
if CONF_ACCURACY_DECIMALS in config:
add(sensor_var.set_accuracy_decimals(config[CONF_ACCURACY_DECIMALS]))
if CONF_FILTERS in config:
for filters in setup_filters(config[CONF_FILTERS]):
yield
add(sensor_var.set_filters(filters))
for conf in config.get(CONF_ON_VALUE, []):
rhs = sensor_var.make_state_trigger()
trigger = Pvariable(conf[CONF_TRIGGER_ID], rhs)
automation.build_automation(trigger, float_, conf)
for conf in config.get(CONF_ON_RAW_VALUE, []):
rhs = sensor_var.make_raw_state_trigger()
trigger = Pvariable(conf[CONF_TRIGGER_ID], rhs)
automation.build_automation(trigger, float_, conf)
for conf in config.get(CONF_ON_VALUE_RANGE, []):
rhs = sensor_var.make_value_range_trigger()
trigger = Pvariable(conf[CONF_TRIGGER_ID], rhs)
add(App.register_component(trigger))
if CONF_ABOVE in conf:
for template_ in templatable(conf[CONF_ABOVE], float_, float_):
yield
add(trigger.set_min(template_))
if CONF_BELOW in conf:
for template_ in templatable(conf[CONF_BELOW], float_, float_):
yield
add(trigger.set_max(template_))
automation.build_automation(trigger, float_, conf)
mqtt_ = sensor_var.Pget_mqtt()
if CONF_EXPIRE_AFTER in config:
if config[CONF_EXPIRE_AFTER] is None:
add(mqtt_.disable_expire_after())
else:
add(mqtt_.set_expire_after(config[CONF_EXPIRE_AFTER]))
setup_mqtt_component(mqtt_, config)
def setup_sensor(sensor_obj, config):
if not CORE.has_id(config[CONF_ID]):
sensor_obj = Pvariable(config[CONF_ID], sensor_obj, has_side_effects=True)
CORE.add_job(setup_sensor_core_, sensor_obj, config)
def register_sensor(var, config):
sensor_var = Pvariable(config[CONF_ID], var, has_side_effects=True)
add(App.register_sensor(sensor_var))
CORE.add_job(setup_sensor_core_, sensor_var, config)
BUILD_FLAGS = '-DUSE_SENSOR'
CONF_SENSOR_IN_RANGE = 'sensor.in_range'
SENSOR_IN_RANGE_CONDITION_SCHEMA = vol.All({
vol.Required(CONF_ID): cv.use_variable_id(Sensor),
vol.Optional(CONF_ABOVE): cv.float_,
vol.Optional(CONF_BELOW): cv.float_,
}, cv.has_at_least_one_key(CONF_ABOVE, CONF_BELOW))
@CONDITION_REGISTRY.register(CONF_SENSOR_IN_RANGE, SENSOR_IN_RANGE_CONDITION_SCHEMA)
def sensor_in_range_to_code(config, condition_id, arg_type, template_arg):
for var in get_variable(config[CONF_ID]):
yield None
rhs = var.make_sensor_in_range_condition(template_arg)
type = SensorInRangeCondition.template(arg_type)
cond = Pvariable(condition_id, rhs, type=type)
if CONF_ABOVE in config:
add(cond.set_min(config[CONF_ABOVE]))
if CONF_BELOW in config:
add(cond.set_max(config[CONF_BELOW]))
yield cond
def core_to_hass_config(data, config):
ret = mqtt.build_hass_config(data, 'sensor', config, include_state=True, include_command=False)
if ret is None:
return None
if CONF_UNIT_OF_MEASUREMENT in config:
ret['unit_of_measurement'] = config[CONF_UNIT_OF_MEASUREMENT]
if CONF_EXPIRE_AFTER in config:
expire = config[CONF_EXPIRE_AFTER]
if expire is not None:
ret['expire_after'] = expire.total_seconds
if CONF_ICON in config:
ret['icon'] = config[CONF_ICON]
return ret