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from unittest import TestCase
import pytest
from miio import AirFreshT2017
from miio.airfresh_t2017 import (
MODEL_AIRFRESH_T2017,
AirFreshException,
AirFreshStatus,
DisplayOrientation,
OperationMode,
PtcLevel,
)
from .dummies import DummyDevice
class DummyAirFreshT2017(DummyDevice, AirFreshT2017):
def __init__(self, *args, **kwargs):
self.model = MODEL_AIRFRESH_T2017
self.state = {
"power": True,
"mode": "favourite",
"pm25": 1,
"co2": 550,
"temperature_outside": 24,
"favourite_speed": 241,
"control_speed": 241,
"filter_intermediate": 99,
"filter_inter_day": 89,
"filter_efficient": 99,
"filter_effi_day": 179,
"ptc_on": False,
"ptc_level": "low",
"ptc_status": False,
"child_lock": False,
"sound": True,
"display": False,
"screen_direction": "forward",
}
self.return_values = {
"get_prop": self._get_state,
"set_power": lambda x: self._set_state("power", [(x[0] == "on")]),
"set_mode": lambda x: self._set_state("mode", x),
"set_sound": lambda x: self._set_state("sound", [(x[0] == "on")]),
"set_child_lock": lambda x: self._set_state("child_lock", [(x[0] == "on")]),
"set_display": lambda x: self._set_state("display", [(x[0] == "on")]),
"set_screen_direction": lambda x: self._set_state("screen_direction", x),
"set_ptc_level": lambda x: self._set_state("ptc_level", x),
"set_favourite_speed": lambda x: self._set_state("favourite_speed", x),
"set_filter_reset": lambda x: self._set_filter_reset(x),
}
super().__init__(args, kwargs)
def _set_filter_reset(self, value: str):
if value[0] == "efficient":
self._set_state("filter_efficient", [100])
self._set_state("filter_effi_day", [180])
if value[0] == "intermediate":
self._set_state("filter_intermediate", [100])
self._set_state("filter_inter_day", [90])
@pytest.fixture(scope="class")
def airfresht2017(request):
request.cls.device = DummyAirFreshT2017()
# TODO add ability to test on a real device
@pytest.mark.usefixtures("airfresht2017")
class TestAirFreshT2017(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))
assert self.is_on() is True
assert (
self.state().temperature == self.device.start_state["temperature_outside"]
)
assert self.state().co2 == self.device.start_state["co2"]
assert self.state().pm25 == self.device.start_state["pm25"]
assert self.state().mode == OperationMode(self.device.start_state["mode"])
assert self.state().buzzer == self.device.start_state["sound"]
assert self.state().child_lock == self.device.start_state["child_lock"]
def test_set_mode(self):
def mode():
return self.device.status().mode
self.device.set_mode(OperationMode.Off)
assert mode() == OperationMode.Off
self.device.set_mode(OperationMode.Auto)
assert mode() == OperationMode.Auto
self.device.set_mode(OperationMode.Sleep)
assert mode() == OperationMode.Sleep
self.device.set_mode(OperationMode.Favorite)
assert mode() == OperationMode.Favorite
def test_set_display(self):
def display():
return self.device.status().display
self.device.set_display(True)
assert display() is True
self.device.set_display(False)
assert display() is False
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_reset_dust_filter(self):
def dust_filter_life_remaining():
return self.device.status().dust_filter_life_remaining
def dust_filter_life_remaining_days():
return self.device.status().dust_filter_life_remaining_days
self.device._reset_state()
assert dust_filter_life_remaining() != 100
assert dust_filter_life_remaining_days() != 90
self.device.reset_dust_filter()
assert dust_filter_life_remaining() == 100
assert dust_filter_life_remaining_days() == 90
def test_reset_upper_filter(self):
def upper_filter_life_remaining():
return self.device.status().upper_filter_life_remaining
def upper_filter_life_remaining_days():
return self.device.status().upper_filter_life_remaining_days
self.device._reset_state()
assert upper_filter_life_remaining() != 100
assert upper_filter_life_remaining_days() != 180
self.device.reset_upper_filter()
assert upper_filter_life_remaining() == 100
assert upper_filter_life_remaining_days() == 180
def test_set_favorite_speed(self):
def favorite_speed():
return self.device.status().favorite_speed
self.device.set_favorite_speed(60)
assert favorite_speed() == 60
self.device.set_favorite_speed(120)
assert favorite_speed() == 120
self.device.set_favorite_speed(240)
assert favorite_speed() == 240
self.device.set_favorite_speed(300)
assert favorite_speed() == 300
with pytest.raises(AirFreshException):
self.device.set_favorite_speed(-1)
with pytest.raises(AirFreshException):
self.device.set_favorite_speed(59)
with pytest.raises(AirFreshException):
self.device.set_favorite_speed(301)
def test_set_ptc_level(self):
def ptc_level():
return self.device.status().ptc_level
self.device.set_ptc_level(PtcLevel.Off)
assert ptc_level() == PtcLevel.Off
self.device.set_ptc_level(PtcLevel.Low)
assert ptc_level() == PtcLevel.Low
self.device.set_ptc_level(PtcLevel.Medium)
assert ptc_level() == PtcLevel.Medium
self.device.set_ptc_level(PtcLevel.High)
assert ptc_level() == PtcLevel.High
def test_set_display_orientation(self):
def display_orientation():
return self.device.status().display_orientation
self.device.set_display_orientation(DisplayOrientation.Portrait)
assert display_orientation() == DisplayOrientation.Portrait
self.device.set_display_orientation(DisplayOrientation.LandscapeLeft)
assert display_orientation() == DisplayOrientation.LandscapeLeft
self.device.set_display_orientation(DisplayOrientation.LandscapeRight)
assert display_orientation() == DisplayOrientation.LandscapeRight
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