167 lines
6.1 KiB
Python
Executable File
167 lines
6.1 KiB
Python
Executable File
"""Support for LCN covers."""
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import pypck
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from homeassistant.components.cover import CoverDevice
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from homeassistant.const import CONF_ADDRESS
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from . import LcnDevice
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from .const import CONF_CONNECTIONS, CONF_MOTOR, CONF_REVERSE_TIME, DATA_LCN
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from .helpers import get_connection
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async def async_setup_platform(hass, hass_config, async_add_entities,
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discovery_info=None):
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"""Setups the LCN cover platform."""
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if discovery_info is None:
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return
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devices = []
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for config in discovery_info:
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address, connection_id = config[CONF_ADDRESS]
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addr = pypck.lcn_addr.LcnAddr(*address)
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connections = hass.data[DATA_LCN][CONF_CONNECTIONS]
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connection = get_connection(connections, connection_id)
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address_connection = connection.get_address_conn(addr)
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if config[CONF_MOTOR] == 'OUTPUTS':
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devices.append(LcnOutputsCover(config, address_connection))
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else: # RELAYS
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devices.append(LcnRelayCover(config, address_connection))
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async_add_entities(devices)
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class LcnOutputsCover(LcnDevice, CoverDevice):
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"""Representation of a LCN cover connected to output ports."""
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def __init__(self, config, address_connection):
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"""Initialize the LCN cover."""
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super().__init__(config, address_connection)
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self.output_ids = [pypck.lcn_defs.OutputPort['OUTPUTUP'].value,
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pypck.lcn_defs.OutputPort['OUTPUTDOWN'].value]
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if CONF_REVERSE_TIME in config:
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self.reverse_time = pypck.lcn_defs.MotorReverseTime[
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config[CONF_REVERSE_TIME]]
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else:
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self.reverse_time = None
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self._closed = None
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self.state_up = False
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self.state_down = False
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async def async_added_to_hass(self):
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"""Run when entity about to be added to hass."""
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await super().async_added_to_hass()
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await self.address_connection.activate_status_request_handler(
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pypck.lcn_defs.OutputPort['OUTPUTUP'])
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await self.address_connection.activate_status_request_handler(
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pypck.lcn_defs.OutputPort['OUTPUTDOWN'])
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@property
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def is_closed(self):
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"""Return if the cover is closed."""
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return self._closed
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async def async_close_cover(self, **kwargs):
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"""Close the cover."""
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self._closed = True
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state = pypck.lcn_defs.MotorStateModifier.DOWN
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self.address_connection.control_motors_outputs(
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state)
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await self.async_update_ha_state()
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async def async_open_cover(self, **kwargs):
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"""Open the cover."""
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self._closed = False
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state = pypck.lcn_defs.MotorStateModifier.UP
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self.address_connection.control_motors_outputs(
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state, self.reverse_time)
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await self.async_update_ha_state()
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async def async_stop_cover(self, **kwargs):
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"""Stop the cover."""
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self._closed = None
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state = pypck.lcn_defs.MotorStateModifier.STOP
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self.address_connection.control_motors_outputs(
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state, self.reverse_time)
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await self.async_update_ha_state()
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def input_received(self, input_obj):
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"""Set cover states when LCN input object (command) is received."""
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if not isinstance(input_obj, pypck.inputs.ModStatusOutput) or \
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input_obj.get_output_id() not in self.output_ids:
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return
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if input_obj.get_output_id() == self.output_ids[0]:
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self.state_up = (input_obj.get_percent() > 0)
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else: # self.output_ids[1]
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self.state_down = (input_obj.get_percent() > 0)
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if self.state_up and not self.state_down:
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self._closed = False # Cover open
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elif self.state_down and not self.state_up:
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self._closed = True # Cover closed
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self.async_schedule_update_ha_state()
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class LcnRelayCover(LcnDevice, CoverDevice):
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"""Representation of a LCN cover connected to relays."""
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def __init__(self, config, address_connection):
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"""Initialize the LCN cover."""
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super().__init__(config, address_connection)
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self.motor = pypck.lcn_defs.MotorPort[config[CONF_MOTOR]]
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self.motor_port_onoff = self.motor.value * 2
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self.motor_port_updown = self.motor_port_onoff + 1
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self._closed = None
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async def async_added_to_hass(self):
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"""Run when entity about to be added to hass."""
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await super().async_added_to_hass()
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await self.address_connection.activate_status_request_handler(
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self.motor)
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@property
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def is_closed(self):
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"""Return if the cover is closed."""
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return self._closed
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async def async_close_cover(self, **kwargs):
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"""Close the cover."""
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self._closed = True
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states = [pypck.lcn_defs.MotorStateModifier.NOCHANGE] * 4
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states[self.motor.value] = pypck.lcn_defs.MotorStateModifier.DOWN
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self.address_connection.control_motors_relays(states)
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await self.async_update_ha_state()
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async def async_open_cover(self, **kwargs):
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"""Open the cover."""
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self._closed = False
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states = [pypck.lcn_defs.MotorStateModifier.NOCHANGE] * 4
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states[self.motor.value] = pypck.lcn_defs.MotorStateModifier.UP
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self.address_connection.control_motors_relays(states)
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await self.async_update_ha_state()
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async def async_stop_cover(self, **kwargs):
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"""Stop the cover."""
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self._closed = None
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states = [pypck.lcn_defs.MotorStateModifier.NOCHANGE] * 4
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states[self.motor.value] = pypck.lcn_defs.MotorStateModifier.STOP
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self.address_connection.control_motors_relays(states)
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await self.async_update_ha_state()
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def input_received(self, input_obj):
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"""Set cover states when LCN input object (command) is received."""
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if not isinstance(input_obj, pypck.inputs.ModStatusRelays):
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return
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states = input_obj.states # list of boolean values (relay on/off)
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if states[self.motor_port_onoff]: # motor is on
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self._closed = states[self.motor_port_updown] # set direction
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self.async_schedule_update_ha_state()
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