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test_airfresh.py
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test_airfresh.py
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from unittest import TestCase
import pytest
from miio.tests.dummies import DummyDevice
from .. import AirFresh
from ..airfresh import (
MODEL_AIRFRESH_VA2,
MODEL_AIRFRESH_VA4,
AirFreshStatus,
LedBrightness,
OperationMode,
)
class DummyAirFresh(DummyDevice, AirFresh):
def __init__(self, *args, **kwargs):
self._model = MODEL_AIRFRESH_VA2
self.state = {
"power": "on",
"ptc_state": None,
"temp_dec": 186,
"aqi": 10,
"average_aqi": 8,
"humidity": 62,
"co2": 350,
"buzzer": "off",
"child_lock": "off",
"led_level": 2,
"mode": "auto",
"motor1_speed": 354,
"use_time": 2457000,
"ntcT": None,
"app_extra": 1,
"f1_hour_used": 682,
"filter_life": 80,
"f_hour": 3500,
"favorite_level": None,
"led": "on",
}
self.return_values = {
"get_prop": self._get_state,
"set_power": lambda x: self._set_state("power", x),
"set_mode": lambda x: self._set_state("mode", x),
"set_buzzer": lambda x: self._set_state("buzzer", x),
"set_child_lock": lambda x: self._set_state("child_lock", x),
"set_led": lambda x: self._set_state("led", x),
"set_led_level": lambda x: self._set_state("led_level", x),
"reset_filter1": lambda x: (
self._set_state("f1_hour_used", [0]),
self._set_state("filter_life", [100]),
),
"set_app_extra": lambda x: self._set_state("app_extra", x),
}
super().__init__(args, kwargs)
@pytest.fixture(scope="class")
def airfresh(request):
# pytest 7.2.0 changed the handling of marks, see https://github.com/pytest-dev/pytest/issues/7792
# the result is subclass device attribute to be overridden for TestAirFreshVA4,
# this hack checks if we already have a device to avoid doing that
if getattr(request.cls, "device", None) is not None:
return
request.cls.device = DummyAirFresh()
# TODO add ability to test on a real device
@pytest.mark.usefixtures("airfresh")
class TestAirFresh(TestCase):
def is_on(self):
return self.device.status().is_on
def state(self):
return self.device.status()
def test_on(self):
self.device.off() # ensure off
assert self.is_on() is False
self.device.on()
assert self.is_on() is True
def test_off(self):
self.device.on() # ensure on
assert self.is_on() is True
self.device.off()
assert self.is_on() is False
def test_status(self):
self.device._reset_state()
assert repr(self.state()) == repr(
AirFreshStatus(self.device.start_state, MODEL_AIRFRESH_VA2)
)
assert self.is_on() is True
assert self.state().ptc is None
assert self.state().aqi == self.device.start_state["aqi"]
assert self.state().average_aqi == self.device.start_state["average_aqi"]
assert self.state().temperature == self.device.start_state["temp_dec"] / 10.0
assert self.state().ntc_temperature is None
assert self.state().humidity == self.device.start_state["humidity"]
assert self.state().co2 == self.device.start_state["co2"]
assert self.state().mode == OperationMode(self.device.start_state["mode"])
assert (
self.state().filter_life_remaining == self.device.start_state["filter_life"]
)
assert self.state().filter_hours_used == self.device.start_state["f1_hour_used"]
assert self.state().use_time == self.device.start_state["use_time"]
assert self.state().motor_speed == self.device.start_state["motor1_speed"]
assert self.state().led == (self.device.start_state["led"] == "on")
assert self.state().led_brightness == LedBrightness(
self.device.start_state["led_level"]
)
assert self.state().buzzer == (self.device.start_state["buzzer"] == "on")
assert self.state().child_lock == (
self.device.start_state["child_lock"] == "on"
)
assert self.state().extra_features == self.device.start_state["app_extra"]
def test_set_mode(self):
def mode():
return self.device.status().mode
self.device.set_mode(OperationMode.Auto)
assert mode() == OperationMode.Auto
self.device.set_mode(OperationMode.Silent)
assert mode() == OperationMode.Silent
self.device.set_mode(OperationMode.Interval)
assert mode() == OperationMode.Interval
self.device.set_mode(OperationMode.Low)
assert mode() == OperationMode.Low
self.device.set_mode(OperationMode.Middle)
assert mode() == OperationMode.Middle
self.device.set_mode(OperationMode.Strong)
assert mode() == OperationMode.Strong
def test_set_led(self):
def led():
return self.device.status().led
self.device.set_led(True)
assert led() is True
self.device.set_led(False)
assert led() is False
def test_set_led_brightness(self):
def led_brightness():
return self.device.status().led_brightness
self.device.set_led_brightness(LedBrightness.Bright)
assert led_brightness() == LedBrightness.Bright
self.device.set_led_brightness(LedBrightness.Dim)
assert led_brightness() == LedBrightness.Dim
self.device.set_led_brightness(LedBrightness.Off)
assert led_brightness() == LedBrightness.Off
def test_set_buzzer(self):
def buzzer():
return self.device.status().buzzer
self.device.set_buzzer(True)
assert buzzer() is True
self.device.set_buzzer(False)
assert buzzer() is False
def test_set_child_lock(self):
def child_lock():
return self.device.status().child_lock
self.device.set_child_lock(True)
assert child_lock() is True
self.device.set_child_lock(False)
assert child_lock() is False
def test_set_extra_features(self):
def extra_features():
return self.device.status().extra_features
self.device.set_extra_features(0)
assert extra_features() == 0
self.device.set_extra_features(1)
assert extra_features() == 1
self.device.set_extra_features(2)
assert extra_features() == 2
with pytest.raises(ValueError):
self.device.set_extra_features(-1)
def test_reset_filter(self):
def filter_hours_used():
return self.device.status().filter_hours_used
def filter_life_remaining():
return self.device.status().filter_life_remaining
self.device._reset_state()
assert filter_hours_used() != 0
assert filter_life_remaining() != 100
self.device.reset_filter()
assert filter_hours_used() == 0
assert filter_life_remaining() == 100
class DummyAirFreshVA4(DummyDevice, AirFresh):
def __init__(self, *args, **kwargs):
self._model = MODEL_AIRFRESH_VA4
self.state = {
"power": "on",
"ptc_state": "off",
"temp_dec": 18.6,
"aqi": 10,
"average_aqi": 8,
"humidity": 62,
"co2": 350,
"buzzer": "off",
"child_lock": "off",
"led_level": 2,
"mode": "auto",
"motor1_speed": 354,
"use_time": 2457000,
"ntcT": 33.53,
"app_extra": 1,
"f1_hour_used": 682,
"filter_life": 80,
"f_hour": 3500,
"favorite_level": None,
"led": "on",
}
self.return_values = {
"get_prop": self._get_state,
"set_power": lambda x: self._set_state("power", x),
"set_ptc_state": lambda x: self._set_state("ptc_state", x),
"set_mode": lambda x: self._set_state("mode", x),
"set_buzzer": lambda x: self._set_state("buzzer", x),
"set_child_lock": lambda x: self._set_state("child_lock", x),
"set_led": lambda x: self._set_state("led", x),
"set_led_level": lambda x: self._set_state("led_level", x),
"reset_filter1": lambda x: (
self._set_state("f1_hour_used", [0]),
self._set_state("filter_life", [100]),
),
"set_app_extra": lambda x: self._set_state("app_extra", x),
}
super().__init__(args, kwargs)
@pytest.fixture(scope="class")
def airfreshva4(request):
request.cls.device = DummyAirFreshVA4()
# TODO add ability to test on a real device
@pytest.mark.usefixtures("airfreshva4")
class TestAirFreshVA4(TestAirFresh):
def test_status(self):
self.device._reset_state()
assert repr(self.state()) == repr(
AirFreshStatus(self.device.start_state, MODEL_AIRFRESH_VA4)
)
assert self.is_on() is True
assert self.state().ptc == (self.device.start_state["ptc_state"] == "on")
assert self.state().aqi == self.device.start_state["aqi"]
assert self.state().average_aqi == self.device.start_state["average_aqi"]
assert self.state().temperature == self.device.start_state["temp_dec"]
assert self.state().ntc_temperature == self.device.start_state["ntcT"]
assert self.state().humidity == self.device.start_state["humidity"]
assert self.state().co2 == self.device.start_state["co2"]
assert self.state().mode == OperationMode(self.device.start_state["mode"])
assert (
self.state().filter_life_remaining == self.device.start_state["filter_life"]
)
assert self.state().filter_hours_used == self.device.start_state["f1_hour_used"]
assert self.state().use_time == self.device.start_state["use_time"]
assert self.state().motor_speed == self.device.start_state["motor1_speed"]
assert self.state().led == (self.device.start_state["led"] == "on")
assert self.state().led_brightness == LedBrightness(
self.device.start_state["led_level"]
)
assert self.state().buzzer == (self.device.start_state["buzzer"] == "on")
assert self.state().child_lock == (
self.device.start_state["child_lock"] == "on"
)
assert self.state().extra_features == self.device.start_state["app_extra"]
def test_set_ptc(self):
def ptc():
return self.device.status().ptc
self.device.set_ptc(True)
assert ptc() is True
self.device.set_ptc(False)
assert ptc() is False