jeans/core
1
0
Fork 0
mirror of https://github.com/home-assistant/core.git synced 2025-08-21 19:30:02 +00:00
Code Issues Packages Projects Releases Wiki Activity
Files
.devcontainer
.github
.vscode
docs
homeassistant
machine
pylint
rootfs
script
tests
auth
backports
components
abode
accuweather
acmeda
adax
adguard
advantage_air
aemet
agent_dvr
air_quality
airly
airnow
airthings
airtouch4
airvisual
alarm_control_panel
alarmdecoder
alert
alexa
almond
ambee
amberelectric
ambiclimate
ambient_station
analytics
androidtv
apache_kafka
api
api_streams
apns
apple_tv
apprise
aprs
arcam_fmj
arlo
aseko_pool_live
asuswrt
atag
august
aurora
aurora_abb_powerone
auth
automation
awair
aws
axis
azure_devops
azure_event_hub
balboa
bayesian
binary_sensor
blackbird
blebox
blink
blueprint
bluetooth_le_tracker
bmw_connected_drive
bond
bosch_shc
braviatv
broadlink
brother
brunt
bsblan
buienradar
button
caldav
calendar
camera
canary
cast
cert_expiry
climacell
climate
cloud
cloudflare
co2signal
coinbase
color_extractor
comfoconnect
command_line
compensation
config
configurator
control4
conversation
coolmaster
coronavirus
counter
cover
cpuspeed
crownstone
daikin
darksky
datadog
debugpy
deconz
default_config
demo
denonavr
derivative
device_automation
device_sun_light_trigger
device_tracker
devolo_home_control
devolo_home_network
dexcom
dhcp
dialogflow
directv
discovery
dlna_dmr
doorbird
dsmr
dte_energy_bridge
duckdns
dunehd
dynalite
eafm
ecobee
econet
efergy
elgato
elkm1
elmax
emonitor
emulated_hue
emulated_kasa
emulated_roku
energy
enocean
enphase_envoy
environment_canada
epson
esphome
everlights
evil_genius_labs
ezviz
faa_delays
facebook
facebox
fail2ban
fan
feedreader
ffmpeg
fido
file
filesize
filter
fireservicerota
firmata
fjaraskupan
flic
flick_electric
flipr
flo
flume
flunearyou
flux
flux_led
folder
folder_watcher
foobot
forecast_solar
forked_daapd
foscam
freebox
freedns
freedompro
fritz
fritzbox
fritzbox_callmonitor
fronius
frontend
garages_amsterdam
gdacs
generic
generic_hygrostat
generic_thermostat
geo_json_events
geo_location
geo_rss_events
geofency
geonetnz_quakes
geonetnz_volcano
gios
glances
goalzero
gogogate2
goodwe
google
google_assistant
google_domains
google_pubsub
google_translate
google_travel_time
google_wifi
gpslogger
graphite
gree
greeneye_monitor
group
growatt_server
guardian
habitica
hangouts
harmony
hassio
hddtemp
heos
here_travel_time
hisense_aehw4a1
history
history_stats
hive
hlk_sw16
home_connect
home_plus_control
homeassistant
homekit
homekit_controller
homematic
homematicip_cloud
homewizard
honeywell
html5
http
huawei_lte
hue
huisbaasje
humidifier
hunterdouglas_powerview
hvv_departures
hyperion
ialarm
iaqualink
icloud
ifttt
ign_sismologia
image
image_processing
imap_email_content
influxdb
input_boolean
input_button
input_datetime
input_number
input_select
input_text
insteon
integration
intent
intent_script
ios
iotawatt
ipma
ipp
iqvia
islamic_prayer_times
isy994
izone
jellyfin
jewish_calendar
juicenet
keenetic_ndms2
kira
kmtronic
knx
kodi
konnected
kostal_plenticore
kraken
kulersky
lastfm
launch_library
lcn
light
litejet
litterrobot
local_file
local_ip
locative
lock
logbook
logentries
logger
logi_circle
london_air
lookin
lovelace
luftdaten
lutron_caseta
lyric
mailbox
mailgun
manual
manual_mqtt
marytts
maxcube
mazda
media_player
media_source
melcloud
melissa
meraki
met
met_eireann
meteo_france
meteoclimatic
metoffice
mfi
mhz19
microsoft_face
microsoft_face_detect
microsoft_face_identify
mikrotik
mill
min_max
minecraft_server
minio
mobile_app
mochad
modbus
modem_callerid
modern_forms
mold_indicator
monoprice
moon
motion_blinds
motioneye
mqtt
mqtt_eventstream
mqtt_json
mqtt_room
mqtt_statestream
mullvad
mutesync
my
myq
mysensors
mythicbeastsdns
nam
namecheapdns
nanoleaf
neato
ness_alarm
nest
netatmo
netgear
network
nexia
nextbus
nfandroidtv
nightscout
nina
nmap_tracker
no_ip
notify
notify_events
notion
nsw_fuel_station
nsw_rural_fire_service_feed
nuheat
nuki
numato
number
nut
nws
nx584
nzbget
octoprint
omnilogic
onboarding
oncue
ondilo_ico
onewire
onvif
open_meteo
openalpr_cloud
openalpr_local
openerz
opengarage
openhardwaremonitor
opentherm_gw
openuv
openweathermap
opnsense
overkiz
ovo_energy
owntracks
ozw
p1_monitor
panasonic_viera
panel_custom
panel_iframe
persistent_notification
person
philips_js
pi_hole
picnic
pilight
ping
plaato
plant
plex
plugwise
plum_lightpad
point
poolsense
powerwall
profiler
progettihwsw
prometheus
prosegur
proximity
ps4
push
pushbullet
pvoutput
pvpc_hourly_pricing
python_script
qld_bushfire
qwikswitch
rachio
radarr
rainforest_eagle
rainmachine
random
rdw
recollect_waste
recorder
reddit
remember_the_milk
remote
renault
rest
rest_command
rflink
rfxtrx
ridwell
ring
risco
rituals_perfume_genie
rmvtransport
roku
roomba
roon
rpi_power
rss_feed_template
rtsp_to_webrtc
ruckus_unleashed
safe_mode
samsungtv
scene
screenlogic
script
search
season
select
sense
senseme
sensibo
sensor
sentry
seventeentrack
sharkiq
shell_command
shelly
shopping_list
sia
sigfox
sighthound
signal_messenger
simplisafe
simulated
siren
slack
sleepiq
sma
smappee
smart_meter_texas
smarthab
smartthings
__init__.py
conftest.py
test_binary_sensor.py
test_climate.py
test_config_flow.py
test_cover.py
test_fan.py
test_init.py
test_light.py
test_lock.py
test_scene.py
test_sensor.py
test_smartapp.py
test_switch.py
smarttub
smhi
smtp
snips
solaredge
solarlog
soma
somfy
somfy_mylink
sonarr
songpal
sonos
soundtouch
spaceapi
spc
speedtestdotnet
spider
spotify
sql
squeezebox
srp_energy
ssdp
starline
startca
statistics
statsd
steamist
stookalert
stream
stt
subaru
sun
surepetcare
switch
switchbot
switcher_kis
syncthing
syncthru
synology_dsm
system_bridge
system_health
system_log
tado
tag
tailscale
tasmota
tcp
telegram
tellduslive
template
tesla_wall_connector
threshold
tibber
tile
time_date
timer
tod
tolo
tomato
toon
totalconnect
tplink
traccar
trace
tractive
tradfri
trafikverket_weatherstation
transmission
transport_nsw
trend
tts
tuya
twentemilieu
twilio
twinkly
twitch
uk_transport
unifi
unifi_direct
unifiprotect
universal
upb
upcloud
updater
upnp
uptime
uptimerobot
usb
usgs_earthquakes_feed
utility_meter
uvc
vacuum
vallox
velbus
venstar
vera
verisure
version
vesync
vicare
vilfo
vizio
vlc_telnet
voicerss
volumio
vultr
wake_on_lan
wallbox
water_heater
watttime
waze_travel_time
weather
webhook
webostv
websocket_api
wemo
whirlpool
whois
wiffi
wilight
withings
wled
wolflink
workday
worldclock
wsdot
xbox
xiaomi
xiaomi_aqara
xiaomi_miio
yale_smart_alarm
yamaha
yamaha_musiccast
yandex_transport
yandextts
yeelight
youless
zeroconf
zerproc
zha
zodiac
zone
zwave
zwave_js
__init__.py
conftest.py
fixtures
hassfest
helpers
mock
resources
scripts
test_util
testing_config
util
__init__.py
bandit.yaml
common.py
conftest.py
ignore_uncaught_exceptions.py
test_bootstrap.py
test_config.py
test_config_entries.py
test_core.py
test_data_entry_flow.py
test_exceptions.py
test_loader.py
test_main.py
test_requirements.py
test_runner.py
test_setup.py
test_test_fixtures.py
.core_files.yaml
.coveragerc
.dockerignore
.gitattributes
.gitignore
.hadolint.yaml
.ignore
.pre-commit-config.yaml
.prettierignore
.readthedocs.yml
.strict-typing
.yamllint
CLA.md
CODEOWNERS
CODE_OF_CONDUCT.md
CONTRIBUTING.md
Dockerfile
Dockerfile.dev
LICENSE.md
MANIFEST.in
README.rst
build.yaml
codecov.yml
mypy.ini
pyproject.toml
requirements.txt
requirements_all.txt
requirements_docs.txt
requirements_test.txt
requirements_test_all.txt
requirements_test_pre_commit.txt
setup.cfg
setup.py
tox.ini
ec1b45c922f710874c74cda257cefc47133c46c6
core/tests/components/smartthings/test_climate.py
Robert Hillis 85aeee7cc7 Add smartthings configuration_url ()
2021-11-14 20:37:40 +01:00

587 lines
21 KiB
Python
Raw Blame History

"""
Test for the SmartThings climate platform.
The only mocking required is of the underlying SmartThings API object so
real HTTP calls are not initiated during testing.
"""
from pysmartthings import Attribute, Capability
from pysmartthings.device import Status
import pytest
from homeassistant.components.climate.const import (
ATTR_CURRENT_HUMIDITY,
ATTR_CURRENT_TEMPERATURE,
ATTR_FAN_MODE,
ATTR_FAN_MODES,
ATTR_HVAC_ACTION,
ATTR_HVAC_MODE,
ATTR_HVAC_MODES,
ATTR_TARGET_TEMP_HIGH,
ATTR_TARGET_TEMP_LOW,
CURRENT_HVAC_IDLE,
DOMAIN as CLIMATE_DOMAIN,
HVAC_MODE_AUTO,
HVAC_MODE_COOL,
HVAC_MODE_DRY,
HVAC_MODE_FAN_ONLY,
HVAC_MODE_HEAT,
HVAC_MODE_HEAT_COOL,
HVAC_MODE_OFF,
SERVICE_SET_FAN_MODE,
SERVICE_SET_HVAC_MODE,
SERVICE_SET_TEMPERATURE,
SUPPORT_FAN_MODE,
SUPPORT_TARGET_TEMPERATURE,
SUPPORT_TARGET_TEMPERATURE_RANGE,
)
from homeassistant.components.smartthings import climate
from homeassistant.components.smartthings.const import DOMAIN
from homeassistant.const import (
ATTR_ENTITY_ID,
ATTR_SUPPORTED_FEATURES,
ATTR_TEMPERATURE,
SERVICE_TURN_OFF,
SERVICE_TURN_ON,
STATE_UNKNOWN,
)
from homeassistant.helpers import device_registry as dr, entity_registry as er
from .conftest import setup_platform
@pytest.fixture(name="legacy_thermostat")
def legacy_thermostat_fixture(device_factory):
"""Fixture returns a legacy thermostat."""
device = device_factory(
"Legacy Thermostat",
capabilities=[Capability.thermostat],
status={
Attribute.cooling_setpoint: 74,
Attribute.heating_setpoint: 68,
Attribute.thermostat_fan_mode: "auto",
Attribute.supported_thermostat_fan_modes: ["auto", "on"],
Attribute.thermostat_mode: "auto",
Attribute.supported_thermostat_modes: climate.MODE_TO_STATE.keys(),
Attribute.thermostat_operating_state: "idle",
},
)
device.status.attributes[Attribute.temperature] = Status(70, "F", None)
return device
@pytest.fixture(name="basic_thermostat")
def basic_thermostat_fixture(device_factory):
"""Fixture returns a basic thermostat."""
device = device_factory(
"Basic Thermostat",
capabilities=[
Capability.temperature_measurement,
Capability.thermostat_cooling_setpoint,
Capability.thermostat_heating_setpoint,
Capability.thermostat_mode,
],
status={
Attribute.cooling_setpoint: 74,
Attribute.heating_setpoint: 68,
Attribute.thermostat_mode: "off",
Attribute.supported_thermostat_modes: ["off", "auto", "heat", "cool"],
},
)
device.status.attributes[Attribute.temperature] = Status(70, "F", None)
return device
@pytest.fixture(name="thermostat")
def thermostat_fixture(device_factory):
"""Fixture returns a fully-featured thermostat."""
device = device_factory(
"Thermostat",
capabilities=[
Capability.temperature_measurement,
Capability.relative_humidity_measurement,
Capability.thermostat_cooling_setpoint,
Capability.thermostat_heating_setpoint,
Capability.thermostat_mode,
Capability.thermostat_operating_state,
Capability.thermostat_fan_mode,
],
status={
Attribute.cooling_setpoint: 74,
Attribute.heating_setpoint: 68,
Attribute.thermostat_fan_mode: "on",
Attribute.supported_thermostat_fan_modes: ["auto", "on"],
Attribute.thermostat_mode: "heat",
Attribute.supported_thermostat_modes: [
"auto",
"heat",
"cool",
"off",
"eco",
],
Attribute.thermostat_operating_state: "idle",
Attribute.humidity: 34,
},
)
device.status.attributes[Attribute.temperature] = Status(70, "F", None)
return device
@pytest.fixture(name="buggy_thermostat")
def buggy_thermostat_fixture(device_factory):
"""Fixture returns a buggy thermostat."""
device = device_factory(
"Buggy Thermostat",
capabilities=[
Capability.temperature_measurement,
Capability.thermostat_cooling_setpoint,
Capability.thermostat_heating_setpoint,
Capability.thermostat_mode,
],
status={
Attribute.thermostat_mode: "heating",
Attribute.cooling_setpoint: 74,
Attribute.heating_setpoint: 68,
},
)
device.status.attributes[Attribute.temperature] = Status(70, "F", None)
return device
@pytest.fixture(name="air_conditioner")
def air_conditioner_fixture(device_factory):
"""Fixture returns a air conditioner."""
device = device_factory(
"Air Conditioner",
capabilities=[
Capability.air_conditioner_mode,
Capability.demand_response_load_control,
Capability.air_conditioner_fan_mode,
Capability.power_consumption_report,
Capability.switch,
Capability.temperature_measurement,
Capability.thermostat_cooling_setpoint,
],
status={
Attribute.air_conditioner_mode: "auto",
Attribute.supported_ac_modes: [
"cool",
"dry",
"wind",
"auto",
"heat",
"fanOnly",
],
Attribute.drlc_status: {
"duration": 0,
"drlcLevel": -1,
"start": "1970-01-01T00:00:00Z",
"override": False,
},
Attribute.fan_mode: "medium",
Attribute.supported_ac_fan_modes: [
"auto",
"low",
"medium",
"high",
"turbo",
],
Attribute.power_consumption: {
"start": "2019-02-24T21:03:04Z",
"power": 0,
"energy": 500,
"end": "2019-02-26T02:05:55Z",
},
Attribute.switch: "on",
Attribute.cooling_setpoint: 23,
},
)
device.status.attributes[Attribute.temperature] = Status(24, "C", None)
return device
async def test_legacy_thermostat_entity_state(hass, legacy_thermostat):
"""Tests the state attributes properly match the thermostat type."""
await setup_platform(hass, CLIMATE_DOMAIN, devices=[legacy_thermostat])
state = hass.states.get("climate.legacy_thermostat")
assert state.state == HVAC_MODE_HEAT_COOL
assert (
state.attributes[ATTR_SUPPORTED_FEATURES]
== SUPPORT_FAN_MODE
| SUPPORT_TARGET_TEMPERATURE_RANGE
| SUPPORT_TARGET_TEMPERATURE
)
assert state.attributes[ATTR_HVAC_ACTION] == CURRENT_HVAC_IDLE
assert sorted(state.attributes[ATTR_HVAC_MODES]) == [
HVAC_MODE_AUTO,
HVAC_MODE_COOL,
HVAC_MODE_HEAT,
HVAC_MODE_HEAT_COOL,
HVAC_MODE_OFF,
]
assert state.attributes[ATTR_FAN_MODE] == "auto"
assert state.attributes[ATTR_FAN_MODES] == ["auto", "on"]
assert state.attributes[ATTR_TARGET_TEMP_LOW] == 20 # celsius
assert state.attributes[ATTR_TARGET_TEMP_HIGH] == 23.3 # celsius
assert state.attributes[ATTR_CURRENT_TEMPERATURE] == 21.1 # celsius
async def test_basic_thermostat_entity_state(hass, basic_thermostat):
"""Tests the state attributes properly match the thermostat type."""
await setup_platform(hass, CLIMATE_DOMAIN, devices=[basic_thermostat])
state = hass.states.get("climate.basic_thermostat")
assert state.state == HVAC_MODE_OFF
assert (
state.attributes[ATTR_SUPPORTED_FEATURES]
== SUPPORT_TARGET_TEMPERATURE_RANGE | SUPPORT_TARGET_TEMPERATURE
)
assert ATTR_HVAC_ACTION not in state.attributes
assert sorted(state.attributes[ATTR_HVAC_MODES]) == [
HVAC_MODE_COOL,
HVAC_MODE_HEAT,
HVAC_MODE_HEAT_COOL,
HVAC_MODE_OFF,
]
assert state.attributes[ATTR_CURRENT_TEMPERATURE] == 21.1 # celsius
async def test_thermostat_entity_state(hass, thermostat):
"""Tests the state attributes properly match the thermostat type."""
await setup_platform(hass, CLIMATE_DOMAIN, devices=[thermostat])
state = hass.states.get("climate.thermostat")
assert state.state == HVAC_MODE_HEAT
assert (
state.attributes[ATTR_SUPPORTED_FEATURES]
== SUPPORT_FAN_MODE
| SUPPORT_TARGET_TEMPERATURE_RANGE
| SUPPORT_TARGET_TEMPERATURE
)
assert state.attributes[ATTR_HVAC_ACTION] == CURRENT_HVAC_IDLE
assert sorted(state.attributes[ATTR_HVAC_MODES]) == [
HVAC_MODE_AUTO,
HVAC_MODE_COOL,
HVAC_MODE_HEAT,
HVAC_MODE_HEAT_COOL,
HVAC_MODE_OFF,
]
assert state.attributes[ATTR_FAN_MODE] == "on"
assert state.attributes[ATTR_FAN_MODES] == ["auto", "on"]
assert state.attributes[ATTR_TEMPERATURE] == 20 # celsius
assert state.attributes[ATTR_CURRENT_TEMPERATURE] == 21.1 # celsius
assert state.attributes[ATTR_CURRENT_HUMIDITY] == 34
async def test_buggy_thermostat_entity_state(hass, buggy_thermostat):
"""Tests the state attributes properly match the thermostat type."""
await setup_platform(hass, CLIMATE_DOMAIN, devices=[buggy_thermostat])
state = hass.states.get("climate.buggy_thermostat")
assert state.state == STATE_UNKNOWN
assert (
state.attributes[ATTR_SUPPORTED_FEATURES]
== SUPPORT_TARGET_TEMPERATURE_RANGE | SUPPORT_TARGET_TEMPERATURE
)
assert state.state is STATE_UNKNOWN
assert state.attributes[ATTR_TEMPERATURE] is None
assert state.attributes[ATTR_CURRENT_TEMPERATURE] == 21.1 # celsius
assert state.attributes[ATTR_HVAC_MODES] == []
async def test_buggy_thermostat_invalid_mode(hass, buggy_thermostat):
"""Tests when an invalid operation mode is included."""
buggy_thermostat.status.update_attribute_value(
Attribute.supported_thermostat_modes, ["heat", "emergency heat", "other"]
)
await setup_platform(hass, CLIMATE_DOMAIN, devices=[buggy_thermostat])
state = hass.states.get("climate.buggy_thermostat")
assert state.attributes[ATTR_HVAC_MODES] == [HVAC_MODE_HEAT]
async def test_air_conditioner_entity_state(hass, air_conditioner):
"""Tests when an invalid operation mode is included."""
await setup_platform(hass, CLIMATE_DOMAIN, devices=[air_conditioner])
state = hass.states.get("climate.air_conditioner")
assert state.state == HVAC_MODE_HEAT_COOL
assert (
state.attributes[ATTR_SUPPORTED_FEATURES]
== SUPPORT_FAN_MODE | SUPPORT_TARGET_TEMPERATURE
)
assert sorted(state.attributes[ATTR_HVAC_MODES]) == [
HVAC_MODE_COOL,
HVAC_MODE_DRY,
HVAC_MODE_FAN_ONLY,
HVAC_MODE_HEAT,
HVAC_MODE_HEAT_COOL,
HVAC_MODE_OFF,
]
assert state.attributes[ATTR_FAN_MODE] == "medium"
assert sorted(state.attributes[ATTR_FAN_MODES]) == [
"auto",
"high",
"low",
"medium",
"turbo",
]
assert state.attributes[ATTR_TEMPERATURE] == 23
assert state.attributes[ATTR_CURRENT_TEMPERATURE] == 24
assert state.attributes["drlc_status_duration"] == 0
assert state.attributes["drlc_status_level"] == -1
assert state.attributes["drlc_status_start"] == "1970-01-01T00:00:00Z"
assert state.attributes["drlc_status_override"] is False
assert state.attributes["power_consumption_start"] == "2019-02-24T21:03:04Z"
assert state.attributes["power_consumption_power"] == 0
assert state.attributes["power_consumption_energy"] == 500
assert state.attributes["power_consumption_end"] == "2019-02-26T02:05:55Z"
async def test_set_fan_mode(hass, thermostat, air_conditioner):
"""Test the fan mode is set successfully."""
await setup_platform(hass, CLIMATE_DOMAIN, devices=[thermostat, air_conditioner])
entity_ids = ["climate.thermostat", "climate.air_conditioner"]
await hass.services.async_call(
CLIMATE_DOMAIN,
SERVICE_SET_FAN_MODE,
{ATTR_ENTITY_ID: entity_ids, ATTR_FAN_MODE: "auto"},
blocking=True,
)
for entity_id in entity_ids:
state = hass.states.get(entity_id)
assert state.attributes[ATTR_FAN_MODE] == "auto", entity_id
async def test_set_hvac_mode(hass, thermostat, air_conditioner):
"""Test the hvac mode is set successfully."""
await setup_platform(hass, CLIMATE_DOMAIN, devices=[thermostat, air_conditioner])
entity_ids = ["climate.thermostat", "climate.air_conditioner"]
await hass.services.async_call(
CLIMATE_DOMAIN,
SERVICE_SET_HVAC_MODE,
{ATTR_ENTITY_ID: entity_ids, ATTR_HVAC_MODE: HVAC_MODE_COOL},
blocking=True,
)
for entity_id in entity_ids:
state = hass.states.get(entity_id)
assert state.state == HVAC_MODE_COOL, entity_id
async def test_ac_set_hvac_mode_from_off(hass, air_conditioner):
"""Test setting HVAC mode when the unit is off."""
air_conditioner.status.update_attribute_value(
Attribute.air_conditioner_mode, "heat"
)
air_conditioner.status.update_attribute_value(Attribute.switch, "off")
await setup_platform(hass, CLIMATE_DOMAIN, devices=[air_conditioner])
state = hass.states.get("climate.air_conditioner")
assert state.state == HVAC_MODE_OFF
await hass.services.async_call(
CLIMATE_DOMAIN,
SERVICE_SET_HVAC_MODE,
{
ATTR_ENTITY_ID: "climate.air_conditioner",
ATTR_HVAC_MODE: HVAC_MODE_HEAT_COOL,
},
blocking=True,
)
state = hass.states.get("climate.air_conditioner")
assert state.state == HVAC_MODE_HEAT_COOL
async def test_ac_set_hvac_mode_off(hass, air_conditioner):
"""Test the AC HVAC mode can be turned off set successfully."""
await setup_platform(hass, CLIMATE_DOMAIN, devices=[air_conditioner])
state = hass.states.get("climate.air_conditioner")
assert state.state != HVAC_MODE_OFF
await hass.services.async_call(
CLIMATE_DOMAIN,
SERVICE_SET_HVAC_MODE,
{ATTR_ENTITY_ID: "climate.air_conditioner", ATTR_HVAC_MODE: HVAC_MODE_OFF},
blocking=True,
)
state = hass.states.get("climate.air_conditioner")
assert state.state == HVAC_MODE_OFF
async def test_set_temperature_heat_mode(hass, thermostat):
"""Test the temperature is set successfully when in heat mode."""
thermostat.status.thermostat_mode = "heat"
await setup_platform(hass, CLIMATE_DOMAIN, devices=[thermostat])
await hass.services.async_call(
CLIMATE_DOMAIN,
SERVICE_SET_TEMPERATURE,
{ATTR_ENTITY_ID: "climate.thermostat", ATTR_TEMPERATURE: 21},
blocking=True,
)
state = hass.states.get("climate.thermostat")
assert state.state == HVAC_MODE_HEAT
assert state.attributes[ATTR_TEMPERATURE] == 21
assert thermostat.status.heating_setpoint == 69.8
async def test_set_temperature_cool_mode(hass, thermostat):
"""Test the temperature is set successfully when in cool mode."""
thermostat.status.thermostat_mode = "cool"
await setup_platform(hass, CLIMATE_DOMAIN, devices=[thermostat])
await hass.services.async_call(
CLIMATE_DOMAIN,
SERVICE_SET_TEMPERATURE,
{ATTR_ENTITY_ID: "climate.thermostat", ATTR_TEMPERATURE: 21},
blocking=True,
)
state = hass.states.get("climate.thermostat")
assert state.attributes[ATTR_TEMPERATURE] == 21
async def test_set_temperature(hass, thermostat):
"""Test the temperature is set successfully."""
thermostat.status.thermostat_mode = "auto"
await setup_platform(hass, CLIMATE_DOMAIN, devices=[thermostat])
await hass.services.async_call(
CLIMATE_DOMAIN,
SERVICE_SET_TEMPERATURE,
{
ATTR_ENTITY_ID: "climate.thermostat",
ATTR_TARGET_TEMP_HIGH: 25.5,
ATTR_TARGET_TEMP_LOW: 22.2,
},
blocking=True,
)
state = hass.states.get("climate.thermostat")
assert state.attributes[ATTR_TARGET_TEMP_HIGH] == 25.5
assert state.attributes[ATTR_TARGET_TEMP_LOW] == 22.2
async def test_set_temperature_ac(hass, air_conditioner):
"""Test the temperature is set successfully."""
await setup_platform(hass, CLIMATE_DOMAIN, devices=[air_conditioner])
await hass.services.async_call(
CLIMATE_DOMAIN,
SERVICE_SET_TEMPERATURE,
{ATTR_ENTITY_ID: "climate.air_conditioner", ATTR_TEMPERATURE: 27},
blocking=True,
)
state = hass.states.get("climate.air_conditioner")
assert state.attributes[ATTR_TEMPERATURE] == 27
async def test_set_temperature_ac_with_mode(hass, air_conditioner):
"""Test the temperature is set successfully."""
await setup_platform(hass, CLIMATE_DOMAIN, devices=[air_conditioner])
await hass.services.async_call(
CLIMATE_DOMAIN,
SERVICE_SET_TEMPERATURE,
{
ATTR_ENTITY_ID: "climate.air_conditioner",
ATTR_TEMPERATURE: 27,
ATTR_HVAC_MODE: HVAC_MODE_COOL,
},
blocking=True,
)
state = hass.states.get("climate.air_conditioner")
assert state.attributes[ATTR_TEMPERATURE] == 27
assert state.state == HVAC_MODE_COOL
async def test_set_temperature_ac_with_mode_from_off(hass, air_conditioner):
"""Test the temp and mode is set successfully when the unit is off."""
air_conditioner.status.update_attribute_value(
Attribute.air_conditioner_mode, "heat"
)
air_conditioner.status.update_attribute_value(Attribute.switch, "off")
await setup_platform(hass, CLIMATE_DOMAIN, devices=[air_conditioner])
assert hass.states.get("climate.air_conditioner").state == HVAC_MODE_OFF
await hass.services.async_call(
CLIMATE_DOMAIN,
SERVICE_SET_TEMPERATURE,
{
ATTR_ENTITY_ID: "climate.air_conditioner",
ATTR_TEMPERATURE: 27,
ATTR_HVAC_MODE: HVAC_MODE_COOL,
},
blocking=True,
)
state = hass.states.get("climate.air_conditioner")
assert state.attributes[ATTR_TEMPERATURE] == 27
assert state.state == HVAC_MODE_COOL
async def test_set_temperature_ac_with_mode_to_off(hass, air_conditioner):
"""Test the temp and mode is set successfully to turn off the unit."""
await setup_platform(hass, CLIMATE_DOMAIN, devices=[air_conditioner])
assert hass.states.get("climate.air_conditioner").state != HVAC_MODE_OFF
await hass.services.async_call(
CLIMATE_DOMAIN,
SERVICE_SET_TEMPERATURE,
{
ATTR_ENTITY_ID: "climate.air_conditioner",
ATTR_TEMPERATURE: 27,
ATTR_HVAC_MODE: HVAC_MODE_OFF,
},
blocking=True,
)
state = hass.states.get("climate.air_conditioner")
assert state.attributes[ATTR_TEMPERATURE] == 27
assert state.state == HVAC_MODE_OFF
async def test_set_temperature_with_mode(hass, thermostat):
"""Test the temperature and mode is set successfully."""
await setup_platform(hass, CLIMATE_DOMAIN, devices=[thermostat])
await hass.services.async_call(
CLIMATE_DOMAIN,
SERVICE_SET_TEMPERATURE,
{
ATTR_ENTITY_ID: "climate.thermostat",
ATTR_TARGET_TEMP_HIGH: 25.5,
ATTR_TARGET_TEMP_LOW: 22.2,
ATTR_HVAC_MODE: HVAC_MODE_HEAT_COOL,
},
blocking=True,
)
state = hass.states.get("climate.thermostat")
assert state.attributes[ATTR_TARGET_TEMP_HIGH] == 25.5
assert state.attributes[ATTR_TARGET_TEMP_LOW] == 22.2
assert state.state == HVAC_MODE_HEAT_COOL
async def test_set_turn_off(hass, air_conditioner):
"""Test the a/c is turned off successfully."""
await setup_platform(hass, CLIMATE_DOMAIN, devices=[air_conditioner])
state = hass.states.get("climate.air_conditioner")
assert state.state == HVAC_MODE_HEAT_COOL
await hass.services.async_call(
CLIMATE_DOMAIN, SERVICE_TURN_OFF, {"entity_id": "all"}, blocking=True
)
state = hass.states.get("climate.air_conditioner")
assert state.state == HVAC_MODE_OFF
async def test_set_turn_on(hass, air_conditioner):
"""Test the a/c is turned on successfully."""
air_conditioner.status.update_attribute_value(Attribute.switch, "off")
await setup_platform(hass, CLIMATE_DOMAIN, devices=[air_conditioner])
state = hass.states.get("climate.air_conditioner")
assert state.state == HVAC_MODE_OFF
await hass.services.async_call(
CLIMATE_DOMAIN, SERVICE_TURN_ON, {"entity_id": "all"}, blocking=True
)
state = hass.states.get("climate.air_conditioner")
assert state.state == HVAC_MODE_HEAT_COOL
async def test_entity_and_device_attributes(hass, thermostat):
"""Test the attributes of the entries are correct."""
await setup_platform(hass, CLIMATE_DOMAIN, devices=[thermostat])
entity_registry = er.async_get(hass)
device_registry = dr.async_get(hass)
entry = entity_registry.async_get("climate.thermostat")
assert entry
assert entry.unique_id == thermostat.device_id
entry = device_registry.async_get_device({(DOMAIN, thermostat.device_id)})
assert entry
assert entry.configuration_url == "https://account.smartthings.com"
assert entry.identifiers == {(DOMAIN, thermostat.device_id)}
assert entry.name == thermostat.label
assert entry.model == thermostat.device_type_name
assert entry.manufacturer == "Unavailable"
Reference in New Issue View Git Blame Copy Permalink