python-kasa/kasa/feature.py
Steven B 6616d68d42
Update documentation structure and start migrating to markdown (#934)
Starts structuring the documentation library usage into Tutorials, Guides, Explanations and Reference.
Continues migrating new docs from rst to markdown.
Extends the test framework discovery mocks to allow easy writing and testing of code examples.
2024-06-03 10:14:10 +01:00

203 lines
7.2 KiB
Python

"""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 :attr:`range_getter`, :attr:`Feature.minimum_value`,
#: and :attr:`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
#: Identifier
id: str
#: 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
def __post_init__(self):
"""Handle late-binding of members."""
# 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):
try:
value = self.value
choices = self.choices
except Exception as ex:
return f"Unable to read value ({self.id}): {ex}"
if self.type == Feature.Type.Choice:
if not isinstance(choices, list) or value not in choices:
_LOGGER.warning(
"Invalid value for for choice %s (%s): %s not in %s",
self.name,
self.id,
value,
choices,
)
return (
f"{self.name} ({self.id}): invalid value '{value}' not in {choices}"
)
value = " ".join(
[f"*{choice}*" if choice == value else choice for choice in choices]
)
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