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from collections import OrderedDict
from unittest import TestCase
import pytest
from miio import AirHumidifierJsq
from miio.airhumidifier import AirHumidifierException
from miio.airhumidifier_jsq import (
MODEL_HUMIDIFIER_JSQ001,
AirHumidifierStatus,
LedBrightness,
OperationMode,
)
from .dummies import DummyDevice
class DummyAirHumidifierJsq(DummyDevice, AirHumidifierJsq):
def __init__(self, *args, **kwargs):
self.model = MODEL_HUMIDIFIER_JSQ001
self.dummy_device_info = {
"life": 575661,
"token": "68ffffffffffffffffffffffffffffff",
"mac": "78:11:FF:FF:FF:FF",
"fw_ver": "1.3.9",
"hw_ver": "ESP8266",
"uid": "1111111111",
"model": self.model,
"mcu_fw_ver": "0001",
"wifi_fw_ver": "1.5.0-dev(7efd021)",
"ap": {"rssi": -71, "ssid": "ap", "bssid": "FF:FF:FF:FF:FF:FF"},
"netif": {
"gw": "192.168.0.1",
"localIp": "192.168.0.25",
"mask": "255.255.255.0",
},
"mmfree": 228248,
}
self.device_info = None
self.state = OrderedDict(
(
("temperature", 24),
("humidity", 29),
("mode", 3),
("buzzer", 1),
("child_lock", 1),
("led_brightness", 2),
("power", 1),
("no_water", 1),
("lid_opened", 1),
)
)
self.start_state = self.state.copy()
self.return_values = {
"get_props": self._get_state,
"set_start": lambda x: self._set_state("power", x),
"set_mode": lambda x: self._set_state("mode", x),
"set_brightness": lambda x: self._set_state("led_brightness", x),
"set_buzzer": lambda x: self._set_state("buzzer", x),
"set_lock": lambda x: self._set_state("child_lock", x),
"miIO.info": self._get_device_info,
}
super().__init__(args, kwargs)
def _get_device_info(self, _):
"""Return dummy device info."""
return self.dummy_device_info
def _get_state(self, props):
"""Return wanted properties"""
return list(self.state.values())
@pytest.fixture(scope="class")
def airhumidifier_jsq(request):
request.cls.device = DummyAirHumidifierJsq()
# TODO add ability to test on a real device
class Bunch:
def __init__(self, **kwds):
self.__dict__.update(kwds)
@pytest.mark.usefixtures("airhumidifier_jsq")
class TestAirHumidifierJsq(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(AirHumidifierStatus(self.device.start_state))
assert self.state().temperature == self.device.start_state["temperature"]
assert self.state().humidity == self.device.start_state["humidity"]
assert self.state().mode == OperationMode(self.device.start_state["mode"])
assert self.state().buzzer == (self.device.start_state["buzzer"] == 1)
assert self.state().child_lock == (self.device.start_state["child_lock"] == 1)
assert self.state().led_brightness == LedBrightness(
self.device.start_state["led_brightness"]
)
assert self.is_on() is True
assert self.state().no_water == (self.device.start_state["no_water"] == 1)
assert self.state().lid_opened == (self.device.start_state["lid_opened"] == 1)
def test_status_wrong_input(self):
def mode():
return self.device.status().mode
def led_brightness():
return self.device.status().led_brightness
self.device._reset_state()
self.device.state["mode"] = 10
assert mode() == OperationMode.Intelligent
self.device.state["mode"] = "smth"
assert mode() == OperationMode.Intelligent
self.device.state["led_brightness"] = 10
assert led_brightness() == LedBrightness.Off
self.device.state["led_brightness"] = "smth"
assert led_brightness() == LedBrightness.Off
def test_set_mode(self):
def mode():
return self.device.status().mode
self.device.set_mode(OperationMode.Intelligent)
assert mode() == OperationMode.Intelligent
self.device.set_mode(OperationMode.Level1)
assert mode() == OperationMode.Level1
self.device.set_mode(OperationMode.Level4)
assert mode() == OperationMode.Level4
def test_set_mode_wrong_input(self):
def mode():
return self.device.status().mode
self.device.set_mode(OperationMode.Level3)
assert mode() == OperationMode.Level3
with pytest.raises(AirHumidifierException) as excinfo:
self.device.set_mode(Bunch(value=10))
assert "10 is not a valid OperationMode value" == str(excinfo.value)
assert mode() == OperationMode.Level3
with pytest.raises(AirHumidifierException) as excinfo:
self.device.set_mode(Bunch(value=-1))
assert "-1 is not a valid OperationMode value" == str(excinfo.value)
assert mode() == OperationMode.Level3
with pytest.raises(AirHumidifierException) as excinfo:
self.device.set_mode(Bunch(value="smth"))
assert "smth is not a valid OperationMode value" == str(excinfo.value)
assert mode() == OperationMode.Level3
def test_set_led_brightness(self):
def led_brightness():
return self.device.status().led_brightness
self.device.set_led_brightness(LedBrightness.Off)
assert led_brightness() == LedBrightness.Off
self.device.set_led_brightness(LedBrightness.Low)
assert led_brightness() == LedBrightness.Low
self.device.set_led_brightness(LedBrightness.High)
assert led_brightness() == LedBrightness.High
def test_set_led_brightness_wrong_input(self):
def led_brightness():
return self.device.status().led_brightness
self.device.set_led_brightness(LedBrightness.Low)
assert led_brightness() == LedBrightness.Low
with pytest.raises(AirHumidifierException) as excinfo:
self.device.set_led_brightness(Bunch(value=10))
assert "10 is not a valid LedBrightness value" == str(excinfo.value)
assert led_brightness() == LedBrightness.Low
with pytest.raises(AirHumidifierException) as excinfo:
self.device.set_led_brightness(Bunch(value=-10))
assert "-10 is not a valid LedBrightness value" == str(excinfo.value)
assert led_brightness() == LedBrightness.Low
with pytest.raises(AirHumidifierException) as excinfo:
self.device.set_led_brightness(Bunch(value="smth"))
assert "smth is not a valid LedBrightness value" == str(excinfo.value)
assert led_brightness() == LedBrightness.Low
def test_set_led(self):
def led_brightness():
return self.device.status().led_brightness
self.device.set_led(True)
assert led_brightness() == LedBrightness.High
self.device.set_led(False)
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
# if user uses wrong type for buzzer value
self.device.set_buzzer(1)
assert buzzer() is True
self.device.set_buzzer(0)
assert buzzer() is False
self.device.set_buzzer("not_empty_str")
assert buzzer() is True
self.device.set_buzzer("on")
assert buzzer() is True
# all string values are considered to by True, even "off"
self.device.set_buzzer("off")
assert buzzer() is True
self.device.set_buzzer("")
assert buzzer() is False
def test_status_without_temperature(self):
self.device._reset_state()
self.device.state["temperature"] = None
assert self.state().temperature is None
def test_status_without_led_brightness(self):
self.device._reset_state()
self.device.state["led_brightness"] = None
assert self.state().led_brightness is LedBrightness.Off
def test_status_without_mode(self):
self.device._reset_state()
self.device.state["mode"] = None
assert self.state().mode is OperationMode.Intelligent
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
# if user uses wrong type for buzzer value
self.device.set_child_lock(1)
assert child_lock() is True
self.device.set_child_lock(0)
assert child_lock() is False
self.device.set_child_lock("not_empty_str")
assert child_lock() is True
self.device.set_child_lock("on")
assert child_lock() is True
# all string values are considered to by True, even "off"
self.device.set_child_lock("off")
assert child_lock() is True
self.device.set_child_lock("")
assert child_lock() is False
|
