def test_set(self):
"""Test setting value."""
xknx = XKNX()
remote_value = RemoteValueColorRGBW(
xknx, group_address=GroupAddress("1/2/3"))
self.loop.run_until_complete(remote_value.set((100, 101, 102, 103)))
self.assertEqual(xknx.telegrams.qsize(), 1)
telegram = xknx.telegrams.get_nowait()
self.assertEqual(
telegram,
Telegram(
destination_address=GroupAddress("1/2/3"),
payload=GroupValueWrite(
DPTArray((0x64, 0x65, 0x66, 0x67, 0x00, 0x0F))),
),
)
self.loop.run_until_complete(remote_value.set((100, 101, 104, 105)))
self.assertEqual(xknx.telegrams.qsize(), 1)
telegram = xknx.telegrams.get_nowait()
self.assertEqual(
telegram,
Telegram(
destination_address=GroupAddress("1/2/3"),
payload=GroupValueWrite(
DPTArray((0x64, 0x65, 0x68, 0x69, 0x00, 0x0F))),
),
)
def test_process(self):
"""Test process telegram."""
xknx = XKNX(loop=self.loop)
remote_value = RemoteValueColorRGBW(xknx, group_address=GroupAddress("1/2/3"))
telegram = Telegram(
group_address=GroupAddress("1/2/3"),
payload=DPTArray((0x64, 0x65, 0x66, 0x67, 0x00, 0x0F)),
)
self.loop.run_until_complete(remote_value.process(telegram))
self.assertEqual(remote_value.value, [100, 101, 102, 103])
async def test_to_process_error(self):
"""Test process errornous telegram."""
xknx = XKNX()
remote_value = RemoteValueColorRGBW(xknx, group_address=GroupAddress("1/2/3"))
telegram = Telegram(
destination_address=GroupAddress("1/2/3"),
payload=GroupValueWrite(DPTBinary(1)),
)
assert await remote_value.process(telegram) is False
telegram = Telegram(
destination_address=GroupAddress("1/2/3"),
payload=GroupValueWrite(DPTArray((0x64, 0x65, 0x66))),
)
assert await remote_value.process(telegram) is False
telegram = Telegram(
destination_address=GroupAddress("1/2/3"),
payload=GroupValueWrite(
DPTArray((0x00, 0x00, 0x0F, 0x64, 0x65, 0x66, 0x67))
),
)
assert await remote_value.process(telegram) is False
assert remote_value.value is None
def test_from_knx(self):
"""Test from_knx function with normal operation."""
xknx = XKNX()
remote_value = RemoteValueColorRGBW(xknx)
self.assertEqual(
remote_value.from_knx(
DPTArray((0x64, 0x65, 0x66, 0x7F, 0x00, 0x00))),
[0, 0, 0, 0],
)
self.assertEqual(
remote_value.from_knx(
DPTArray((0x64, 0x65, 0x66, 0x7F, 0x00, 0x0F))),
[100, 101, 102, 127],
)
self.assertEqual(
remote_value.from_knx(
DPTArray((0x64, 0x65, 0x66, 0x7F, 0x00, 0x00))),
[100, 101, 102, 127],
)
self.assertEqual(
remote_value.from_knx(
DPTArray((0xFF, 0x65, 0x66, 0xFF, 0x00, 0x09))),
[255, 101, 102, 255],
)
self.assertEqual(
remote_value.from_knx(
DPTArray((0x64, 0x65, 0x66, 0x7F, 0x00, 0x01))),
[255, 101, 102, 127],
)
async def test_process(self):
"""Test process telegram."""
xknx = XKNX()
remote_value = RemoteValueColorRGBW(xknx, group_address=GroupAddress("1/2/3"))
telegram = Telegram(
destination_address=GroupAddress("1/2/3"),
payload=GroupValueWrite(DPTArray((0x64, 0x65, 0x66, 0x67, 0x00, 0x0F))),
)
await remote_value.process(telegram)
assert remote_value.value == (100, 101, 102, 103)
def test_to_knx(self):
"""Test to_knx function with normal operation."""
xknx = XKNX()
remote_value = RemoteValueColorRGBW(xknx)
input_list = [100, 101, 102, 127]
input_tuple = (100, 101, 102, 127)
expected = DPTArray((0x64, 0x65, 0x66, 0x7F, 0x00, 0x0F))
self.assertEqual(remote_value.to_knx(input_tuple), expected)
self.assertEqual(remote_value.to_knx(input_list), expected)
self.assertEqual(remote_value.to_knx(input_tuple + (15, )), expected)
self.assertEqual(remote_value.to_knx(input_list + [15]), expected)
self.assertEqual(remote_value.to_knx(input_tuple + (0, 15)), expected)
self.assertEqual(remote_value.to_knx(input_list + [0, 15]), expected)
def test_set(self):
"""Test setting value."""
xknx = XKNX(loop=self.loop)
remote_value = RemoteValueColorRGBW(
xknx, group_address=GroupAddress("1/2/3"))
self.loop.run_until_complete(
asyncio.Task(remote_value.set((100, 101, 102, 103))))
self.assertEqual(xknx.telegrams.qsize(), 1)
telegram = xknx.telegrams.get_nowait()
self.assertEqual(
telegram,
Telegram(GroupAddress('1/2/3'),
payload=DPTArray((0x64, 0x65, 0x66, 0x67, 0x00, 0x0f))))
self.loop.run_until_complete(
asyncio.Task(remote_value.set((100, 101, 104, 105))))
self.assertEqual(xknx.telegrams.qsize(), 1)
telegram = xknx.telegrams.get_nowait()
self.assertEqual(
telegram,
Telegram(GroupAddress('1/2/3'),
payload=DPTArray((0x64, 0x65, 0x68, 0x69, 0x00, 0x0f))))
def test_to_process_error(self):
"""Test process errornous telegram."""
xknx = XKNX(loop=self.loop)
remote_value = RemoteValueColorRGBW(
xknx, group_address=GroupAddress("1/2/3"))
with self.assertRaises(CouldNotParseTelegram):
telegram = Telegram(group_address=GroupAddress("1/2/3"),
payload=DPTBinary(1))
self.loop.run_until_complete(
asyncio.Task(remote_value.process(telegram)))
with self.assertRaises(CouldNotParseTelegram):
telegram = Telegram(group_address=GroupAddress("1/2/3"),
payload=DPTArray((0x64, 0x65, 0x66)))
self.loop.run_until_complete(
asyncio.Task(remote_value.process(telegram)))
with self.assertRaises(CouldNotParseTelegram):
telegram = Telegram(group_address=GroupAddress("1/2/3"),
payload=DPTArray((0x00, 0x00, 0x0f, 0x64, 0x65,
0x66, 0x67)))
self.loop.run_until_complete(
asyncio.Task(remote_value.process(telegram)))
async def test_set(self):
"""Test setting value."""
xknx = XKNX()
remote_value = RemoteValueColorRGBW(xknx, group_address=GroupAddress("1/2/3"))
await remote_value.set((100, 101, 102, 103))
assert xknx.telegrams.qsize() == 1
telegram = xknx.telegrams.get_nowait()
assert telegram == Telegram(
destination_address=GroupAddress("1/2/3"),
payload=GroupValueWrite(DPTArray((0x64, 0x65, 0x66, 0x67, 0x00, 0x0F))),
)
await remote_value.set((100, 101, 104, 105))
assert xknx.telegrams.qsize() == 1
telegram = xknx.telegrams.get_nowait()
assert telegram == Telegram(
destination_address=GroupAddress("1/2/3"),
payload=GroupValueWrite(DPTArray((0x64, 0x65, 0x68, 0x69, 0x00, 0x0F))),
)
def test_from_knx(self):
"""Test from_knx function with normal operation."""
xknx = XKNX()
remote_value = RemoteValueColorRGBW(xknx)
assert remote_value.from_knx(
DPTArray((0x64, 0x65, 0x66, 0x7F, 0x00, 0x00))) == (0, 0, 0, 0)
assert remote_value.from_knx(
DPTArray(
(0x64, 0x65, 0x66, 0x7F, 0x00, 0x0F))) == (100, 101, 102, 127)
assert remote_value.from_knx(
DPTArray(
(0x64, 0x65, 0x66, 0x7F, 0x00, 0x00))) == (100, 101, 102, 127)
assert remote_value.from_knx(
DPTArray(
(0xFF, 0x65, 0x66, 0xFF, 0x00, 0x09))) == (255, 101, 102, 255)
assert remote_value.from_knx(
DPTArray(
(0x64, 0x65, 0x66, 0x7F, 0x00, 0x01))) == (255, 101, 102, 127)
async def main():
"""Connect to KNX/IP bus and set different colors."""
xknx = XKNX()
await xknx.start()
rgbw = RemoteValueColorRGBW(
xknx,
group_address="1/1/40",
group_address_state="1/1/41",
device_name="RGBWLight",
)
await rgbw.set([255, 255, 255, 0, 15]) # cold-white
await asyncio.sleep(1)
await rgbw.set([0, 0, 0, 255, 15]) # warm-white
await asyncio.sleep(1)
await rgbw.set([0, 0, 0, 0, 15]) # off
await asyncio.sleep(1)
await rgbw.set([255, 0, 0, 0]) # red
await asyncio.sleep(1)
await rgbw.set([0, 255, 0, 0]) # green
await asyncio.sleep(1)
await rgbw.set([0, 0, 255, 0]) # blue
await asyncio.sleep(1)
await rgbw.set([0, 0, 0, 0, 15]) # off
await asyncio.sleep(1)
await rgbw.set([255, 255, 0, 0, 15])
await asyncio.sleep(1)
await rgbw.set([0, 255, 255, 0, 15])
await asyncio.sleep(1)
await rgbw.set([255, 0, 255, 0, 15])
await asyncio.sleep(1)
await rgbw.set([0, 0, 0, 0, 15]) # off
await asyncio.sleep(1)
await xknx.stop()
async def test_to_process_error(self):
"""Test process errornous telegram."""
xknx = XKNX()
remote_value = RemoteValueColorRGBW(
xknx, group_address=GroupAddress("1/2/3"))
with pytest.raises(CouldNotParseTelegram):
telegram = Telegram(
destination_address=GroupAddress("1/2/3"),
payload=GroupValueWrite(DPTBinary(1)),
)
await remote_value.process(telegram)
with pytest.raises(CouldNotParseTelegram):
telegram = Telegram(
destination_address=GroupAddress("1/2/3"),
payload=GroupValueWrite(DPTArray((0x64, 0x65, 0x66))),
)
await remote_value.process(telegram)
with pytest.raises(CouldNotParseTelegram):
telegram = Telegram(
destination_address=GroupAddress("1/2/3"),
payload=GroupValueWrite(
DPTArray((0x00, 0x00, 0x0F, 0x64, 0x65, 0x66, 0x67))),
)
await remote_value.process(telegram)
def test_to_knx_error(self):
"""Test to_knx function with wrong parametern."""
xknx = XKNX()
remote_value = RemoteValueColorRGBW(xknx)
with self.assertRaises(ConversionError):
remote_value.to_knx((101, 102, 103))
with self.assertRaises(ConversionError):
remote_value.to_knx((0, 0, 15, 101, 102, 103, 104))
with self.assertRaises(ConversionError):
remote_value.to_knx((256, 101, 102, 103))
with self.assertRaises(ConversionError):
remote_value.to_knx((100, 256, 102, 103))
with self.assertRaises(ConversionError):
remote_value.to_knx((100, 101, 256, 103))
with self.assertRaises(ConversionError):
remote_value.to_knx((100, 101, 102, 256))
with self.assertRaises(ConversionError):
remote_value.to_knx((100, -101, 102, 103))
with self.assertRaises(ConversionError):
remote_value.to_knx(("100", 101, 102, 103))
with self.assertRaises(ConversionError):
remote_value.to_knx("100, 101, 102, 103")
def __init__(
self,
xknx: XKNX,
name: str,
group_address_switch: GroupAddressesType | None = None,
group_address_switch_state: GroupAddressesType | None = None,
group_address_brightness: GroupAddressesType | None = None,
group_address_brightness_state: GroupAddressesType | None = None,
group_address_color: GroupAddressesType | None = None,
group_address_color_state: GroupAddressesType | None = None,
group_address_rgbw: GroupAddressesType | None = None,
group_address_rgbw_state: GroupAddressesType | None = None,
group_address_tunable_white: GroupAddressesType | None = None,
group_address_tunable_white_state: GroupAddressesType | None = None,
group_address_color_temperature: GroupAddressesType | None = None,
group_address_color_temperature_state: GroupAddressesType
| None = None,
group_address_switch_red: GroupAddressesType | None = None,
group_address_switch_red_state: GroupAddressesType | None = None,
group_address_brightness_red: GroupAddressesType | None = None,
group_address_brightness_red_state: GroupAddressesType | None = None,
group_address_switch_green: GroupAddressesType | None = None,
group_address_switch_green_state: GroupAddressesType | None = None,
group_address_brightness_green: GroupAddressesType | None = None,
group_address_brightness_green_state: GroupAddressesType | None = None,
group_address_switch_blue: GroupAddressesType | None = None,
group_address_switch_blue_state: GroupAddressesType | None = None,
group_address_brightness_blue: GroupAddressesType | None = None,
group_address_brightness_blue_state: GroupAddressesType | None = None,
group_address_switch_white: GroupAddressesType | None = None,
group_address_switch_white_state: GroupAddressesType | None = None,
group_address_brightness_white: GroupAddressesType | None = None,
group_address_brightness_white_state: GroupAddressesType | None = None,
min_kelvin: int | None = None,
max_kelvin: int | None = None,
device_updated_cb: DeviceCallbackType | None = None,
):
"""Initialize Light class."""
super().__init__(xknx, name, device_updated_cb)
self.switch = RemoteValueSwitch(
xknx,
group_address_switch,
group_address_switch_state,
device_name=self.name,
feature_name="State",
after_update_cb=self.after_update,
)
self.brightness = RemoteValueScaling(
xknx,
group_address_brightness,
group_address_brightness_state,
device_name=self.name,
feature_name="Brightness",
after_update_cb=self.after_update,
range_from=0,
range_to=255,
)
self.color = RemoteValueColorRGB(
xknx,
group_address_color,
group_address_color_state,
device_name=self.name,
after_update_cb=self.after_update,
)
self.rgbw = RemoteValueColorRGBW(
xknx,
group_address_rgbw,
group_address_rgbw_state,
device_name=self.name,
after_update_cb=self.after_update,
)
self.tunable_white = RemoteValueScaling(
xknx,
group_address_tunable_white,
group_address_tunable_white_state,
device_name=self.name,
feature_name="Tunable white",
after_update_cb=self.after_update,
range_from=0,
range_to=255,
)
self.color_temperature = RemoteValueDpt2ByteUnsigned(
xknx,
group_address_color_temperature,
group_address_color_temperature_state,
device_name=self.name,
feature_name="Color temperature",
after_update_cb=self.after_update,
)
self.red = _SwitchAndBrightness(
xknx,
self.name,
"red",
group_address_switch_red,
group_address_switch_red_state,
group_address_brightness_red,
group_address_brightness_red_state,
self.after_update,
)
self.green = _SwitchAndBrightness(
xknx,
self.name,
"green",
group_address_switch_green,
group_address_switch_green_state,
group_address_brightness_green,
group_address_brightness_green_state,
self.after_update,
)
self.blue = _SwitchAndBrightness(
xknx,
self.name,
"blue",
group_address_switch_blue,
group_address_switch_blue_state,
group_address_brightness_blue,
group_address_brightness_blue_state,
self.after_update,
)
self.white = _SwitchAndBrightness(
xknx,
self.name,
"white",
group_address_switch_white,
group_address_switch_white_state,
group_address_brightness_white,
group_address_brightness_white_state,
self.after_update,
)
self.min_kelvin = min_kelvin
self.max_kelvin = max_kelvin
def __init__(self,
xknx,
name,
group_address_switch=None,
group_address_switch_state=None,
group_address_brightness=None,
group_address_brightness_state=None,
group_address_color=None,
group_address_color_state=None,
group_address_rgbw=None,
group_address_rgbw_state=None,
group_address_tunable_white=None,
group_address_tunable_white_state=None,
group_address_color_temperature=None,
group_address_color_temperature_state=None,
min_kelvin=None,
max_kelvin=None,
device_updated_cb=None):
"""Initialize Light class."""
# pylint: disable=too-many-arguments
super().__init__(xknx, name, device_updated_cb)
self.switch = RemoteValueSwitch(xknx,
group_address_switch,
group_address_switch_state,
device_name=self.name,
feature_name="State",
after_update_cb=self.after_update)
self.brightness = RemoteValueScaling(xknx,
group_address_brightness,
group_address_brightness_state,
device_name=self.name,
feature_name="Brightness",
after_update_cb=self.after_update,
range_from=0,
range_to=255)
self.color = RemoteValueColorRGB(xknx,
group_address_color,
group_address_color_state,
device_name=self.name,
after_update_cb=self.after_update)
self.rgbw = RemoteValueColorRGBW(xknx,
group_address_rgbw,
group_address_rgbw_state,
device_name=self.name,
after_update_cb=self.after_update)
self.tunable_white = RemoteValueScaling(
xknx,
group_address_tunable_white,
group_address_tunable_white_state,
device_name=self.name,
feature_name="Tunable white",
after_update_cb=self.after_update,
range_from=0,
range_to=255)
self.color_temperature = RemoteValueDpt2ByteUnsigned(
xknx,
group_address_color_temperature,
group_address_color_temperature_state,
device_name=self.name,
feature_name="Color temperature",
after_update_cb=self.after_update)
self.min_kelvin = min_kelvin
self.max_kelvin = max_kelvin
class Light(Device):
"""Class for managing a light."""
# pylint: disable=too-many-locals
DEFAULT_MIN_KELVIN = 2700 # 370 mireds
DEFAULT_MAX_KELVIN = 6000 # 166 mireds
def __init__(self,
xknx,
name,
group_address_switch=None,
group_address_switch_state=None,
group_address_brightness=None,
group_address_brightness_state=None,
group_address_color=None,
group_address_color_state=None,
group_address_rgbw=None,
group_address_rgbw_state=None,
group_address_tunable_white=None,
group_address_tunable_white_state=None,
group_address_color_temperature=None,
group_address_color_temperature_state=None,
min_kelvin=None,
max_kelvin=None,
device_updated_cb=None):
"""Initialize Light class."""
# pylint: disable=too-many-arguments
super().__init__(xknx, name, device_updated_cb)
self.switch = RemoteValueSwitch(xknx,
group_address_switch,
group_address_switch_state,
device_name=self.name,
feature_name="State",
after_update_cb=self.after_update)
self.brightness = RemoteValueScaling(xknx,
group_address_brightness,
group_address_brightness_state,
device_name=self.name,
feature_name="Brightness",
after_update_cb=self.after_update,
range_from=0,
range_to=255)
self.color = RemoteValueColorRGB(xknx,
group_address_color,
group_address_color_state,
device_name=self.name,
after_update_cb=self.after_update)
self.rgbw = RemoteValueColorRGBW(xknx,
group_address_rgbw,
group_address_rgbw_state,
device_name=self.name,
after_update_cb=self.after_update)
self.tunable_white = RemoteValueScaling(
xknx,
group_address_tunable_white,
group_address_tunable_white_state,
device_name=self.name,
feature_name="Tunable white",
after_update_cb=self.after_update,
range_from=0,
range_to=255)
self.color_temperature = RemoteValueDpt2ByteUnsigned(
xknx,
group_address_color_temperature,
group_address_color_temperature_state,
device_name=self.name,
feature_name="Color temperature",
after_update_cb=self.after_update)
self.min_kelvin = min_kelvin
self.max_kelvin = max_kelvin
def _iter_remote_values(self):
"""Iterate the devices RemoteValue classes."""
yield from (self.switch, self.brightness, self.color, self.rgbw,
self.tunable_white, self.color_temperature)
@property
def supports_brightness(self):
"""Return if light supports brightness."""
return self.brightness.initialized
@property
def supports_color(self):
"""Return if light supports color."""
return self.color.initialized
@property
def supports_rgbw(self):
"""Return if light supports RGBW."""
return self.rgbw.initialized
@property
def supports_tunable_white(self):
"""Return if light supports tunable white / relative color temperature."""
return self.tunable_white.initialized
@property
def supports_color_temperature(self):
"""Return if light supports absolute color temperature."""
return self.color_temperature.initialized
@classmethod
def from_config(cls, xknx, name, config):
"""Initialize object from configuration structure."""
group_address_switch = \
config.get('group_address_switch')
group_address_switch_state = \
config.get('group_address_switch_state')
group_address_brightness = \
config.get('group_address_brightness')
group_address_brightness_state = \
config.get('group_address_brightness_state')
group_address_color = \
config.get('group_address_color')
group_address_color_state = \
config.get('group_address_color_state')
group_address_rgbw = \
config.get('group_address_rgbw')
group_address_rgbw_state = \
config.get('group_address_rgbw_state')
group_address_tunable_white = \
config.get('group_address_tunable_white')
group_address_tunable_white_state = \
config.get('group_address_tunable_white_state')
group_address_color_temperature = \
config.get('group_address_color_temperature')
group_address_color_temperature_state = \
config.get('group_address_color_temperature_state')
min_kelvin = \
config.get('min_kelvin', Light.DEFAULT_MIN_KELVIN)
max_kelvin = \
config.get('max_kelvin', Light.DEFAULT_MAX_KELVIN)
return cls(
xknx,
name,
group_address_switch=group_address_switch,
group_address_switch_state=group_address_switch_state,
group_address_brightness=group_address_brightness,
group_address_brightness_state=group_address_brightness_state,
group_address_color=group_address_color,
group_address_color_state=group_address_color_state,
group_address_rgbw=group_address_rgbw,
group_address_rgbw_state=group_address_rgbw_state,
group_address_tunable_white=group_address_tunable_white,
group_address_tunable_white_state=group_address_tunable_white_state,
group_address_color_temperature=group_address_color_temperature,
group_address_color_temperature_state=
group_address_color_temperature_state,
min_kelvin=min_kelvin,
max_kelvin=max_kelvin)
def __str__(self):
"""Return object as readable string."""
str_brightness = '' if not self.supports_brightness else \
' brightness="{0}"'.format(
self.brightness.group_addr_str())
str_color = '' if not self.supports_color else \
' color="{0}"'.format(
self.color.group_addr_str())
str_rgbw = '' if not self.supports_rgbw else \
' rgbw="{0}"'.format(
self.rgbw.group_addr_str())
str_tunable_white = '' if not self.supports_tunable_white else \
' tunable white="{0}"'.format(
self.tunable_white.group_addr_str())
str_color_temperature = '' if not self.supports_color_temperature else \
' color temperature="{0}"'.format(
self.color_temperature.group_addr_str())
return '<Light name="{0}" ' \
'switch="{1}"{2}{3}{4}{5}{6} />' \
.format(
self.name,
self.switch.group_addr_str(),
str_brightness,
str_color,
str_rgbw,
str_tunable_white,
str_color_temperature)
@property
def state(self):
"""Return the current switch state of the device."""
# None will return False
return bool(self.switch.value)
async def set_on(self):
"""Switch light on."""
await self.switch.on()
async def set_off(self):
"""Switch light off."""
await self.switch.off()
@property
def current_brightness(self):
"""Return current brightness of light."""
return self.brightness.value
async def set_brightness(self, brightness):
"""Set brightness of light."""
if not self.supports_brightness:
self.xknx.logger.warning("Dimming not supported for device %s",
self.get_name())
return
await self.brightness.set(brightness)
@property
def current_color(self):
"""
Return current color of light.
If the device supports RGBW, get the current RGB+White values instead.
"""
if self.supports_rgbw:
if not self.rgbw.value:
return None, None
return self.rgbw.value[:3], self.rgbw.value[3]
return self.color.value, None
async def set_color(self, color, white=None):
"""
Set color of a light device.
If also the white value is given and the device supports RGBW,
set all four values.
"""
if white is not None:
if self.supports_rgbw:
await self.rgbw.set(list(color) + [white])
return
self.xknx.logger.warning("RGBW not supported for device %s",
self.get_name())
else:
if self.supports_color:
await self.color.set(color)
return
self.xknx.logger.warning("Colors not supported for device %s",
self.get_name())
@property
def current_tunable_white(self):
"""Return current relative color temperature of light."""
return self.tunable_white.value
async def set_tunable_white(self, tunable_white):
"""Set relative color temperature of light."""
if not self.supports_tunable_white:
self.xknx.logger.warning(
"Tunable white not supported for device %s", self.get_name())
return
await self.tunable_white.set(tunable_white)
@property
def current_color_temperature(self):
"""Return current absolute color temperature of light."""
return self.color_temperature.value
async def set_color_temperature(self, color_temperature):
"""Set absolute color temperature of light."""
if not self.supports_color_temperature:
self.xknx.logger.warning(
"Absolute Color Temperature not supported for device %s",
self.get_name())
return
await self.color_temperature.set(color_temperature)
async def do(self, action):
"""Execute 'do' commands."""
if action == "on":
await self.set_on()
elif action == "off":
await self.set_off()
elif action.startswith("brightness:"):
await self.set_brightness(int(action[11:]))
elif action.startswith("tunable_white:"):
await self.set_tunable_white(int(action[14:]))
elif action.startswith("color_temperature:"):
await self.set_color_temperature(int(action[18:]))
else:
self.xknx.logger.warning(
"Could not understand action %s for device %s", action,
self.get_name())
async def process_group_write(self, telegram):
"""Process incoming GROUP WRITE telegram."""
for remote_value in self._iter_remote_values():
await remote_value.process(telegram)
def __eq__(self, other):
"""Equal operator."""
return self.__dict__ == other.__dict__
