python-kasa/kasa/feature.py

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"""Generic interface for defining device features."""
from __future__ import annotations
import logging
from dataclasses import dataclass
from enum import Enum, auto
from typing import TYPE_CHECKING, Any, Callable
if TYPE_CHECKING:
from .device import Device
_LOGGER = logging.getLogger(__name__)
@dataclass
class Feature:
"""Feature defines a generic interface for device features."""
class Type(Enum):
"""Type to help decide how to present the feature."""
#: Sensor is an informative read-only value
Sensor = auto()
#: BinarySensor is a read-only boolean
BinarySensor = auto()
#: Switch is a boolean setting
Switch = auto()
#: Action triggers some action on device
Action = auto()
#: Number defines a numeric setting
#: See :ref:`range_getter`, :ref:`minimum_value`, and :ref:`maximum_value`
Number = auto()
#: Choice defines a setting with pre-defined values
Choice = auto()
Unknown = -1
# TODO: unsure if this is a great idea..
Sensor = Type.Sensor
BinarySensor = Type.BinarySensor
Switch = Type.Switch
Action = Type.Action
Number = Type.Number
Choice = Type.Choice
class Category(Enum):
"""Category hint to allow feature grouping."""
#: Primary features control the device state directly.
#: Examples include turning the device on/off, or adjusting its brightness.
Primary = auto()
#: Config features change device behavior without immediate state changes.
Config = auto()
#: Informative/sensor features deliver some potentially interesting information.
Info = auto()
#: Debug features deliver more verbose information then informative features.
#: You may want to hide these per default to avoid cluttering your UI.
Debug = auto()
#: The default category if none is specified.
Unset = -1
#: Device instance required for getting and setting values
device: Device
#: User-friendly short description
name: str
#: Name of the property that allows accessing the value
attribute_getter: str | Callable | None = None
#: Name of the method that allows changing the value
attribute_setter: str | None = None
#: Container storing the data, this overrides 'device' for getters
container: Any = None
#: Icon suggestion
icon: str | None = None
#: Unit, if applicable
unit: str | None = None
#: Category hint for downstreams
category: Feature.Category = Category.Unset
#: Type of the feature
type: Feature.Type = Type.Sensor
# Display hints offer a way suggest how the value should be shown to users
#: Hint to help rounding the sensor values to given after-comma digits
precision_hint: int | None = None
# Number-specific attributes
#: Minimum value
minimum_value: int = 0
#: Maximum value
maximum_value: int = 2**16 # Arbitrary max
#: Attribute containing the name of the range getter property.
#: If set, this property will be used to set *minimum_value* and *maximum_value*.
range_getter: str | None = None
# Choice-specific attributes
#: List of choices as enum
choices: list[str] | None = None
#: Attribute name of the choices getter property.
#: If set, this property will be used to set *choices*.
choices_getter: str | None = None
#: Identifier
id: str | None = None
def __post_init__(self):
"""Handle late-binding of members."""
# Set id, if unset
if self.id is None:
self.id = self.name.lower().replace(" ", "_")
# Populate minimum & maximum values, if range_getter is given
container = self.container if self.container is not None else self.device
if self.range_getter is not None:
self.minimum_value, self.maximum_value = getattr(
container, self.range_getter
)
# Populate choices, if choices_getter is given
if self.choices_getter is not None:
self.choices = getattr(container, self.choices_getter)
# Set the category, if unset
if self.category is Feature.Category.Unset:
if self.attribute_setter:
self.category = Feature.Category.Config
else:
self.category = Feature.Category.Info
if self.category == Feature.Category.Config and self.type in [
Feature.Type.Sensor,
Feature.Type.BinarySensor,
]:
raise ValueError(
f"Invalid type for configurable feature: {self.name} ({self.id}):"
f" {self.type}"
)
@property
def value(self):
"""Return the current value."""
if self.type == Feature.Type.Action:
return "<Action>"
if self.attribute_getter is None:
raise ValueError("Not an action and no attribute_getter set")
container = self.container if self.container is not None else self.device
if isinstance(self.attribute_getter, Callable):
return self.attribute_getter(container)
return getattr(container, self.attribute_getter)
async def set_value(self, value):
"""Set the value."""
if self.attribute_setter is None:
raise ValueError("Tried to set read-only feature.")
if self.type == Feature.Type.Number: # noqa: SIM102
if value < self.minimum_value or value > self.maximum_value:
raise ValueError(
f"Value {value} out of range "
f"[{self.minimum_value}, {self.maximum_value}]"
)
elif self.type == Feature.Type.Choice: # noqa: SIM102
if value not in self.choices:
raise ValueError(
f"Unexpected value for {self.name}: {value}"
f" - allowed: {self.choices}"
)
container = self.container if self.container is not None else self.device
if self.type == Feature.Type.Action:
return await getattr(container, self.attribute_setter)()
return await getattr(container, self.attribute_setter)(value)
def __repr__(self):
value = self.value
if self.precision_hint is not None and value is not None:
value = round(self.value, self.precision_hint)
s = f"{self.name} ({self.id}): {value}"
if self.unit is not None:
s += f" {self.unit}"
if self.type == Feature.Type.Number:
s += f" (range: {self.minimum_value}-{self.maximum_value})"
return s