gilles/versatile_thermostat
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

Compare commits

base: gilles:6.5.0.beta1
Branches Tags
gilles:main gilles:jmcollin78/issue902 gilles:jmcollin78/issue903 gilles:jmcollin78/issue829 gilles:issue-683-window_action_froze_doesnt_restore_previous_temp gilles:issue_662-disabling-aut-start-stop-when-vtherm-is-off
gilles:7.2.2.beta3 gilles:7.2.2.beta2 gilles:7.2.2.beta1 gilles:7.2.1 gilles:7.2.0 gilles:7.2.0beta2 gilles:7.2.0beta1 gilles:7.1.6 gilles:7.1.6beta1 gilles:7.1.5 gilles:7.1.4 gilles:7.1.4.beta1 gilles:7.1.3 gilles:7.1.3.beta2 gilles:7.1.3.beta1 gilles:7.1.2 gilles:7.1.2.beta1 gilles:7.1.1 gilles:7.1.0 gilles:7.1.0.beta3 gilles:7.1.0.beta2 gilles:7.1.0.beta1 gilles:7.0.0 gilles:7.0.0.beta1 gilles:6.8.4.beta3 gilles:6.8.4 gilles:6.8.4.beta2 gilles:6.8.4.beta1 gilles:6.8.3 gilles:6.8.2 gilles:6.8.2.beta1 gilles:6.8.1 gilles:6.8.0 gilles:6.8.0.beta12 gilles:6.8.0.beta11 gilles:6.8.0.beta9 gilles:6.8.0.beta8 gilles:6.8.0.beta10 gilles:6.8.0.beta7 gilles:6.8.0.beta6 gilles:6.8.0.beta5 gilles:6.8.0.beta4 gilles:6.8.0.beta3 gilles:6.8.0.beta2 gilles:6.8.0.beta1 gilles:6.7.0 gilles:6.6.3.beta1 gilles:6.6.2 gilles:6.6.1 gilles:6.6.1.beta2 gilles:6.6.1.beta1 gilles:6.6.0 gilles:6.6.0.beta1 gilles:6.5.0 gilles:6.5.0.beta6 gilles:6.5.0.beta5 gilles:6.5.0.beta4 gilles:6.5.0.beta3 gilles:6.5.0.beta1 gilles:6.5.0.beta2 gilles:6.4.1 gilles:6.4.1.beta1 gilles:6.4.0 gilles:6.4.0.beta1 gilles:6.3.5 gilles:6.3.4.beta5 gilles:6.3.4 gilles:6.3.4.beta4 gilles:6.3.4.beta3 gilles:6.3.4.beta2 gilles:6.3.4.beta1 gilles:6.3.3 gilles:6.3.2 gilles:6.3.1 gilles:6.3.0 gilles:6.3.0.beta2 gilles:6.3.0.beta1 gilles:6.2.9 gilles:6.2.8 gilles:6.2.7 gilles:6.2.6 gilles:6.2.5 gilles:6.2.4.beta2 gilles:6.2.4 gilles:6.2.4.beta1 gilles:6.2.3 gilles:6.2.2 gilles:6.2.1 gilles:6.2.0 gilles:6.1.0 gilles:6.1.0.beta1 gilles:6.0.4 gilles:6.0.3 gilles:6.0.2 gilles:6.0.1 gilles:6.0.0 gilles:6.0.0.alpha1 gilles:5.4.2 gilles:5.4.1 gilles:5.4.0.beta3 gilles:5.4.0.alpha5 gilles:5.4.0.alpha4 gilles:5.4.0.alpha3 gilles:5.4.0-beta2 gilles:5.4.0-beta1 gilles:5.3.3 gilles:5.3.3.beta4 gilles:5.3.3.beta3 gilles:5.3.3.beta2 gilles:5.3.3.beta1 gilles:5.2.3.beta1 gilles:5.2.2 gilles:5.2.1 gilles:5.2.0 gilles:5.2.0-alpha1 gilles:5.1.1 gilles:5.1.0 gilles:5.1.0.beta1 gilles:5.0.1 gilles:5.0.0 gilles:5.0.0-alpha1 gilles:4.3.0 gilles:4.2.1 gilles:4.2.0 gilles:4.2.0.beta1 gilles:4.2.0.alpha8 gilles:4.2.0.alpha7 gilles:4.2.0.alpha6 gilles:4.2.0.alpha5 gilles:4.2.0.alpha4 gilles:4.2.0.alpha3 gilles:4.2.0.alpha2 gilles:4.2.0.alpha1 gilles:4.1.0 gilles:4.0.4 gilles:4.0.3 gilles:4.0.2 gilles:4.0.1 gilles:4.0.0 gilles:3.8.1 gilles:3.8.0 gilles:3.8.0.beta4 gilles:3.8.0.beta3 gilles:3.8.0.beta2 gilles:3.8.0.beta1 gilles:3.8.0.alpha1 gilles:3.7.0 gilles:3.7.0.beta3 gilles:3.7.0.beta2 gilles:3.7.0.beta1 gilles:3.6.0 gilles:3.6.0.beta4 gilles:3.6.0.beta3 gilles:3.6.0.beta2 gilles:3.6.0.beta1 gilles:3.5.4beta1 gilles:3.5.4 gilles:3.5.4alpha1 gilles:3.5.3 gilles:3.5.3.beta6 gilles:3.5.3.beta4 gilles:3.5.3.beta3 gilles:3.5.3.beta2 gilles:3.5.3.beta5 gilles:3.5.3.beta1 gilles:3.5.2 gilles:3.5.1 gilles:3.5.1.beta1 gilles:3.5.0 gilles:3.4.0 gilles:3.3.7 gilles:3.3.6.beta2 gilles:3.3.6.beta1 gilles:3.3.5 gilles:3.3.4 gilles:3.3.3 gilles:3.3.2 gilles:3.3.1 gilles:3.3.0 gilles:3.2.6 gilles:3.2.5 gilles:3.2.4 gilles:3.2.3 gilles:3.2.2 gilles:3.2.1 gilles:3.2.0.beta3 gilles:3.2.0.beta2 gilles:3.2.0.beta1 gilles:3.2.0 gilles:3.1.1 gilles:3.1.0 gilles:3.1.0.beta1 gilles:3.1.0.alpha2 gilles:3.1.0.alpha1 gilles:3.0.0 gilles:3.0.0.beta3 gilles:3.0.0.beta2 gilles:3.0.0.beta1 gilles:2.3.0 gilles:2.3.0.beta3 gilles:2.3.0.beta2 gilles:2.3.0.beta1 gilles:2.2.1 gilles:2.2.0 gilles:2.2.0.beta4 gilles:2.2.0.beta3 gilles:2.2.0.beta2 gilles:2.2.0.beta1 gilles:2.0.1 gilles:2.0.0 gilles:2.0.0.beta8 gilles:2.0.0.beta7 gilles:2.0.0.beta6 gilles:2.0.0.beta5 gilles:2.0.0.beta4 gilles:2.0.0.beta3 gilles:2.0.0.beta2 gilles:2.0.0.beta1 gilles:1.1.0 gilles:1.1.0.beta3 gilles:1.1.0.beta2 gilles:1.1.0-beta1 gilles:1.0.0 gilles:1.0.0beta3 gilles:1.0.0beta2 gilles:1.0.0beta1 gilles:0.2.beta6 gilles:0.2.0 gilles:0.2.beta5 gilles:0.2.beta4 gilles:0.2.beta3 gilles:0.2.beta2 gilles:0.2.beta1 gilles:0.1.2 gilles:0.1.1 gilles:0.1.0 gilles:0.0.1
..
compare: gilles:6.0.0.alpha1
Branches Tags
gilles:main gilles:jmcollin78/issue902 gilles:jmcollin78/issue903 gilles:jmcollin78/issue829 gilles:issue-683-window_action_froze_doesnt_restore_previous_temp gilles:issue_662-disabling-aut-start-stop-when-vtherm-is-off
gilles:7.2.2.beta3 gilles:7.2.2.beta2 gilles:7.2.2.beta1 gilles:7.2.1 gilles:7.2.0 gilles:7.2.0beta2 gilles:7.2.0beta1 gilles:7.1.6 gilles:7.1.6beta1 gilles:7.1.5 gilles:7.1.4 gilles:7.1.4.beta1 gilles:7.1.3 gilles:7.1.3.beta2 gilles:7.1.3.beta1 gilles:7.1.2 gilles:7.1.2.beta1 gilles:7.1.1 gilles:7.1.0 gilles:7.1.0.beta3 gilles:7.1.0.beta2 gilles:7.1.0.beta1 gilles:7.0.0 gilles:7.0.0.beta1 gilles:6.8.4.beta3 gilles:6.8.4 gilles:6.8.4.beta2 gilles:6.8.4.beta1 gilles:6.8.3 gilles:6.8.2 gilles:6.8.2.beta1 gilles:6.8.1 gilles:6.8.0 gilles:6.8.0.beta12 gilles:6.8.0.beta11 gilles:6.8.0.beta9 gilles:6.8.0.beta8 gilles:6.8.0.beta10 gilles:6.8.0.beta7 gilles:6.8.0.beta6 gilles:6.8.0.beta5 gilles:6.8.0.beta4 gilles:6.8.0.beta3 gilles:6.8.0.beta2 gilles:6.8.0.beta1 gilles:6.7.0 gilles:6.6.3.beta1 gilles:6.6.2 gilles:6.6.1 gilles:6.6.1.beta2 gilles:6.6.1.beta1 gilles:6.6.0 gilles:6.6.0.beta1 gilles:6.5.0 gilles:6.5.0.beta6 gilles:6.5.0.beta5 gilles:6.5.0.beta4 gilles:6.5.0.beta3 gilles:6.5.0.beta1 gilles:6.5.0.beta2 gilles:6.4.1 gilles:6.4.1.beta1 gilles:6.4.0 gilles:6.4.0.beta1 gilles:6.3.5 gilles:6.3.4.beta5 gilles:6.3.4 gilles:6.3.4.beta4 gilles:6.3.4.beta3 gilles:6.3.4.beta2 gilles:6.3.4.beta1 gilles:6.3.3 gilles:6.3.2 gilles:6.3.1 gilles:6.3.0 gilles:6.3.0.beta2 gilles:6.3.0.beta1 gilles:6.2.9 gilles:6.2.8 gilles:6.2.7 gilles:6.2.6 gilles:6.2.5 gilles:6.2.4.beta2 gilles:6.2.4 gilles:6.2.4.beta1 gilles:6.2.3 gilles:6.2.2 gilles:6.2.1 gilles:6.2.0 gilles:6.1.0 gilles:6.1.0.beta1 gilles:6.0.4 gilles:6.0.3 gilles:6.0.2 gilles:6.0.1 gilles:6.0.0 gilles:6.0.0.alpha1 gilles:5.4.2 gilles:5.4.1 gilles:5.4.0.beta3 gilles:5.4.0.alpha5 gilles:5.4.0.alpha4 gilles:5.4.0.alpha3 gilles:5.4.0-beta2 gilles:5.4.0-beta1 gilles:5.3.3 gilles:5.3.3.beta4 gilles:5.3.3.beta3 gilles:5.3.3.beta2 gilles:5.3.3.beta1 gilles:5.2.3.beta1 gilles:5.2.2 gilles:5.2.1 gilles:5.2.0 gilles:5.2.0-alpha1 gilles:5.1.1 gilles:5.1.0 gilles:5.1.0.beta1 gilles:5.0.1 gilles:5.0.0 gilles:5.0.0-alpha1 gilles:4.3.0 gilles:4.2.1 gilles:4.2.0 gilles:4.2.0.beta1 gilles:4.2.0.alpha8 gilles:4.2.0.alpha7 gilles:4.2.0.alpha6 gilles:4.2.0.alpha5 gilles:4.2.0.alpha4 gilles:4.2.0.alpha3 gilles:4.2.0.alpha2 gilles:4.2.0.alpha1 gilles:4.1.0 gilles:4.0.4 gilles:4.0.3 gilles:4.0.2 gilles:4.0.1 gilles:4.0.0 gilles:3.8.1 gilles:3.8.0 gilles:3.8.0.beta4 gilles:3.8.0.beta3 gilles:3.8.0.beta2 gilles:3.8.0.beta1 gilles:3.8.0.alpha1 gilles:3.7.0 gilles:3.7.0.beta3 gilles:3.7.0.beta2 gilles:3.7.0.beta1 gilles:3.6.0 gilles:3.6.0.beta4 gilles:3.6.0.beta3 gilles:3.6.0.beta2 gilles:3.6.0.beta1 gilles:3.5.4beta1 gilles:3.5.4 gilles:3.5.4alpha1 gilles:3.5.3 gilles:3.5.3.beta6 gilles:3.5.3.beta4 gilles:3.5.3.beta3 gilles:3.5.3.beta2 gilles:3.5.3.beta5 gilles:3.5.3.beta1 gilles:3.5.2 gilles:3.5.1 gilles:3.5.1.beta1 gilles:3.5.0 gilles:3.4.0 gilles:3.3.7 gilles:3.3.6.beta2 gilles:3.3.6.beta1 gilles:3.3.5 gilles:3.3.4 gilles:3.3.3 gilles:3.3.2 gilles:3.3.1 gilles:3.3.0 gilles:3.2.6 gilles:3.2.5 gilles:3.2.4 gilles:3.2.3 gilles:3.2.2 gilles:3.2.1 gilles:3.2.0.beta3 gilles:3.2.0.beta2 gilles:3.2.0.beta1 gilles:3.2.0 gilles:3.1.1 gilles:3.1.0 gilles:3.1.0.beta1 gilles:3.1.0.alpha2 gilles:3.1.0.alpha1 gilles:3.0.0 gilles:3.0.0.beta3 gilles:3.0.0.beta2 gilles:3.0.0.beta1 gilles:2.3.0 gilles:2.3.0.beta3 gilles:2.3.0.beta2 gilles:2.3.0.beta1 gilles:2.2.1 gilles:2.2.0 gilles:2.2.0.beta4 gilles:2.2.0.beta3 gilles:2.2.0.beta2 gilles:2.2.0.beta1 gilles:2.0.1 gilles:2.0.0 gilles:2.0.0.beta8 gilles:2.0.0.beta7 gilles:2.0.0.beta6 gilles:2.0.0.beta5 gilles:2.0.0.beta4 gilles:2.0.0.beta3 gilles:2.0.0.beta2 gilles:2.0.0.beta1 gilles:1.1.0 gilles:1.1.0.beta3 gilles:1.1.0.beta2 gilles:1.1.0-beta1 gilles:1.0.0 gilles:1.0.0beta3 gilles:1.0.0beta2 gilles:1.0.0beta1 gilles:0.2.beta6 gilles:0.2.0 gilles:0.2.beta5 gilles:0.2.beta4 gilles:0.2.beta3 gilles:0.2.beta2 gilles:0.2.beta1 gilles:0.1.2 gilles:0.1.1 gilles:0.1.0 gilles:0.0.1

15 Commits
6.5.0.beta ... 6.0.0.alph

Author SHA1 Message Date
Jean-Marc Collin
ee432dd5cd All developped and tests ok 2024-03-10 17:59:43 +00:00
Jean-Marc Collin
7fbdc2f0b8 With new menu. Testus KO 2024-03-10 09:46:28 +00:00
Jean-Marc Collin
744bfdb9fe Validation tests ok 2024-03-09 15:06:58 +00:00
Jean-Marc Collin
d8bc2fc3d3 Cleaning and fixing Issues 2024-03-09 10:57:13 +00:00
Jean-Marc Collin
a396c8831f With central config temp change ok 2024-03-09 08:45:33 +00:00
Jean-Marc Collin
267a39b14d All testus ok 2024-03-06 18:31:04 +00:00
Jean-Marc Collin
14a3abf402 Many but not all testus ok 2024-03-06 18:04:44 +00:00
Jean-Marc Collin
6fa616775e Update central config Number temp entity 2024-03-05 18:19:52 +00:00
Jean-Marc Collin
d2eb581a19 Beers 2024-03-05 18:18:53 +00:00
Jean-Marc Collin
15c02e9722 FIX some testus. Some others are still KO 2024-03-03 20:35:38 +00:00
Jean-Marc Collin
156d19666c With calculation of VTherm temp entities + test ok 2024-03-03 19:06:59 +00:00
Jean-Marc Collin
ea6f2d5579 Init temperature number for central configuration + testus ok 2024-03-03 15:03:20 +00:00
Jean-Marc Collin
4478d65ad4 Python12 env rebuild 2024-02-25 17:18:14 +00:00
Jean-Marc Collin
f7da58d841 Add temp entities initialization 2024-02-16 15:26:12 +00:00
Jean-Marc Collin
8526b7d7ac HA 2024.2.b4 2024-02-16 15:26:12 +00:00
62 changed files with 1471 additions and 6107 deletions
Expand all files Collapse all files

41
.devcontainer/configuration.yaml
View File

@@ -1,30 +1,11 @@
default_config:
recorder:
auto_purge: true
purge_keep_days: 1
commit_interval: 5
include:
domains:
- input_boolean
- input_number
- switch
- climate
- sensor
- binary_sensor
- number
- input_select
- versatile_thermostat
logger:
default: warning
default: info
logs:
custom_components.versatile_thermostat: debug
# custom_components.versatile_thermostat.underlyings: info
# custom_components.versatile_thermostat.climate: info
# custom_components.versatile_thermostat.base_thermostat: debug
custom_components.versatile_thermostat.sensor: info
custom_components.versatile_thermostat.binary_sensor: info
custom_components.versatile_thermostat.underlyings: debug
custom_components.versatile_thermostat.climate: debug
# If you need to debug uncommment the line below (doc: https://www.home-assistant.io/integrations/debugpy/)
debugpy:
@@ -185,12 +166,16 @@ climate:
heater: input_boolean.fake_heater_switch3
target_sensor: input_number.fake_temperature_sensor1
input_datetime:
fake_last_seen:
name: Last seen temp sensor
icon: mdi:update
has_date: true
has_time: true
recorder:
commit_interval: 1
include:
domains:
- input_boolean
- input_number
- switch
- climate
- sensor
- binary_sensor
template:
- binary_sensor:

2
.github/workflows/testus.yaml vendored
View File

@@ -17,7 +17,7 @@ jobs:
- name: Set up Python
uses: actions/setup-python@v2
with:
python-version: 3.12
python-version: 3.11
- name: Install dependencies
run: |

1
.vscode/settings.json vendored
View File

@@ -4,6 +4,7 @@
"editor.formatOnSave": true,
"editor.formatOnSaveMode": "modifications"
},
"pylint.lintOnChange": false,
"files.associations": {
"*.yaml": "home-assistant"
},

270
README-fr.md
View File

@@ -8,11 +8,7 @@
> ![Tip](images/tips.png) Cette intégration de thermostat vise à simplifier considérablement vos automatisations autour de la gestion du chauffage. Parce que tous les événements autour du chauffage classiques sont gérés nativement par le thermostat (personne à la maison ?, activité détectée dans une pièce ?, fenêtre ouverte ?, délestage de courant ?), vous n'avez pas à vous encombrer de scripts et d'automatismes compliqués pour gérer vos climats. ;-).
- [Changements dans la version 6.0](#changements-dans-la-version-60)
- [Entités de température pour les pre-réglages](#entités-de-température-pour-les-pre-réglages)
- [Dans le cas d'une configuration centrale](#dans-le-cas-dune-configuration-centrale)
- [Refonte du menu de configuration](#refonte-du-menu-de-configuration)
- [Les options de menu 'Configuration incomplète' et 'Finaliser'](#les-options-de-menu-configuration-incomplète-et-finaliser)
- [Changements majeurs dans la version 5.0](#changements-majeurs-dans-la-version-50)
- [Merci pour la bière buymecoffee](#merci-pour-la-bière-buymecoffee)
- [Quand l'utiliser et ne pas l'utiliser](#quand-lutiliser-et-ne-pas-lutiliser)
- [Incompatibilités](#incompatibilités)
@@ -23,7 +19,7 @@
- [Configuration](#configuration)
- [Création d'un nouveau Versatile Thermostat](#création-dun-nouveau-versatile-thermostat)
- [Choix des attributs de base](#choix-des-attributs-de-base)
- [Sélectionnez des entités pilotées (sous-jacents)](#sélectionnez-des-entités-pilotées-sous-jacents)
- [Sélectionnez des entités pilotées](#sélectionnez-des-entités-pilotées)
- [Pour un thermostat de type ```thermostat_over_switch```](#pour-un-thermostat-de-type-thermostat_over_switch)
- [Pour un thermostat de type ```thermostat_over_climate```:](#pour-un-thermostat-de-type-thermostat_over_climate)
- [L'auto-régulation](#lauto-régulation)
@@ -33,13 +29,13 @@
- [Le mode auto-fan](#le-mode-auto-fan)
- [Pour un thermostat de type ```thermostat_over_valve```:](#pour-un-thermostat-de-type-thermostat_over_valve)
- [Configurez les coefficients de l'algorithme TPI](#configurez-les-coefficients-de-lalgorithme-tpi)
- [Configurer les températures préréglées](#configurer-les-températures-préréglées)
- [Configurer la température préréglée](#configurer-la-température-préréglée)
- [Configurer les portes/fenêtres en allumant/éteignant les thermostats](#configurer-les-portesfenêtres-en-allumantéteignant-les-thermostats)
- [Le mode capteur](#le-mode-capteur)
- [Le mode auto](#le-mode-auto)
- [Configurer le mode d'activité ou la détection de mouvement](#configurer-le-mode-dactivité-ou-la-détection-de-mouvement)
- [Configurer la gestion de la puissance](#configurer-la-gestion-de-la-puissance)
- [Configurer la présence (ou l'absence)](#configurer-la-présence-ou-labsence)
- [Configurer la présence ou l'occupation](#configurer-la-présence-ou-loccupation)
- [Configuration avancée](#configuration-avancée)
- [Le contrôle centralisé](#le-contrôle-centralisé)
- [Le contrôle d'une chaudière centrale](#le-contrôle-dune-chaudière-centrale)
@@ -75,7 +71,6 @@
- [Dépannages](#dépannages)
- [Utilisation d'un Heatzy](#utilisation-dun-heatzy)
- [Utilisation d'un radiateur avec un fil pilote](#utilisation-dun-radiateur-avec-un-fil-pilote)
- [Utilisation d'un radiateur avec un fil pilote](#utilisation-dun-radiateur-avec-un-fil-pilote-1)
- [Seul le premier radiateur chauffe](#seul-le-premier-radiateur-chauffe)
- [Le radiateur chauffe alors que la température de consigne est dépassée ou ne chauffe pas alors que la température de la pièce est bien en-dessous de la consigne](#le-radiateur-chauffe-alors-que-la-température-de-consigne-est-dépassée-ou-ne-chauffe-pas-alors-que-la-température-de-la-pièce-est-bien-en-dessous-de-la-consigne)
- [Type `over_switch` ou `over_valve`](#type-over_switch-ou-over_valve)
@@ -91,10 +86,7 @@
Ce composant personnalisé pour Home Assistant est une mise à niveau et est une réécriture complète du composant "Awesome thermostat" (voir [Github](https://github.com/dadge/awesome_thermostat)) avec l'ajout de fonctionnalités.
> ![Nouveau](images/new-icon.png) _*Historique des dernières versions*_
> * **Release 6.0** :
> - Ajout d'entités du domaine Number permettant de configurer les températures des presets [354](https://github.com/jmcollin78/versatile_thermostat/issues/354)
> - Refonte complète du menu de configuration pour supprimer les températures et utililsation d'un menu au lieu d'un tunnel de configuration [354](https://github.com/jmcollin78/versatile_thermostat/issues/354)
> ![Nouveau](images/new-icon.png) _*Nouveautés*_
> * **Release 5.4** :
> - Ajout du pas de température [#311](https://github.com/jmcollin78/versatile_thermostat/issues/311),
> - ajout de seuils de régulation pour les `over_valve` pour éviter de trop vider la batterie des TRV [#338](https://github.com/jmcollin78/versatile_thermostat/issues/338),
@@ -104,7 +96,6 @@ Ce composant personnalisé pour Home Assistant est une mise à niveau et est une
> * **Release 5.2** : Ajout d'un `central_mode` permettant de piloter tous les VTherms de façon centralisée [#158](https://github.com/jmcollin78/versatile_thermostat/issues/158).
> * **Release 5.1** : Limitation des valeurs envoyées aux valves et au température envoyées au climate sous-jacent.
> * **Release 5.0** : Ajout d'une configuration centrale permettant de mettre en commun les attributs qui peuvent l'être [#239](https://github.com/jmcollin78/versatile_thermostat/issues/239).
<details>
<summary>Autres versions</summary>
@@ -126,76 +117,8 @@ Ce composant personnalisé pour Home Assistant est une mise à niveau et est une
> * **release majeure 2.0** : ajout du thermostat "over climate" permettant de transformer n'importe quel thermostat en Versatile Thermostat et lui ajouter toutes les fonctions de ce dernier.
</details>
# Changements dans la version 6.0
## Entités de température pour les pre-réglages
Les températures des presets sont maintenant directement acessibles sous la forme d'entités reliés au VTherm.
Exemple :
![Entités température](images/temp-entities-1.png)
Les entités Boost, Confort, Eco et Hors-gel permettent de régler directement les températures de ces présets sans avoir à reconfigurer le VTHerm dans les écrans de configuration.
Ces modifications sont persistentent à un redémarrage et sont prises en compte immédiatement par le VTherm.
En fonction des fonctions activées, la liste des températures peut être plus ou moins complète :
1. Si la gestion de présence est activée, les presets en cas d'absence sont créés. Ils sont suffixés par 'abs' pour absence,
2. Si la gestion de la climatisation (Mode AC) est activé, les presets en mode clim sont créés. Ils sont suffixés par 'clim' pour climatisation. Seul le preset Hors gel n'a pas d'équivalent en mode clim,
3. Les différentes combinaison absent et clim peuvent être créés en fonction de la configuration du VTherm
Si un VTherm utilise les preset de la configuration centrale, ces entités ne sont pas créées, car les températures des presets sont gérés par la configuration centrale.
### Dans le cas d'une configuration centrale
Si vous avez configuré une configuration centrale, celle-ci possède aussi ses propres presets qui répondent au même règles qu'énoncées ci-dessus.
Exemple d'une configuration centrale avec gestion de présence et mode AC (climatisation) :
![Entités température](images/temp-entities-2.png)
Dans le cas d'un changement d'une température de la configuration centrale, tous les VTherm qui utilisent ce preset sont immédiatement mis à jour.
## Refonte du menu de configuration
Le menu de configuration a été totalement revu. Il s'adapte dynamiquement aux choix de l'utilisateur et permet d'accéder directement aux réglages de la fonction voulue sans avoir à dérouler tous le tunnel de configuration.
Pour créer un nouveau VTherm, il faudra d'abord choisir le type de VTherm :
![Choix VTherm](images/config-main0.png)
Puis, vous accédez maintenant au menu de configuration suivant :
![VTherm menu](images/config-menu.png)
Chaque partie à configurer est accessible directement, sans avoir à dérouler tout le tunnel de configuration comme précédemment.
Vous noterez l'option de menu nommée `Fonctions` qui permet de choisir quelles fonctions vont être implémentées pour ce VTherm :
![VTherm fonctions](images/config-features.png)
En fonction de vos choix, le menu principal s'adaptera pour ajouter les options nécessaires.
Exemple de menu avec toutes les fonctions cochées :
![VTherm menu](images/config-menu-all-options.png)
Vous pouvez constater que les options 'Détection des ouvertures', 'Détection de mouvement', 'Gestion de la puissance' et 'Gestion de présence' ont été ajoutées. Vous pouvez alors les configurer.
### Les options de menu 'Configuration incomplète' et 'Finaliser'
La dernière option du menu est spéciale. Elle permet de valider la création du VTherm lorsque toutes les fonctions ont été correctement configurées.
Si l'une options n'est pas correctement configurée, la dernière option est la suivante :
![Configuration incomplète](images/config-not-complete.png)
Sa sélection ne fait rien mais vous empêche de finaliser la création (resp. la modification) du VTherm.
**Vous devez alors chercher dans les options laquelle manque**.
Une fois que toute la configuration est valide, la dernière option se transforme en :
![Configuration complète](images/config-complete.png)
Cliquez sur cette option pour créér (resp. modifier) le VTherm :
![Configuration terminée](images/config-terminate.png)
<details>
<summary>Changements dans la version 5.0</summary>
# Changements majeurs dans la version 5.0
![Nouveau](images/new-icon.png)
Vous pouvez maintenant définir une configuration centrale qui va vous permettre de mettre en commun sur tous vos VTherms (ou seulement une partie), certains attributs. Pour utiliser cette possibilité, vous devez :
1. Créer un VTherm de type "Configuration Centrale",
@@ -209,10 +132,10 @@ Lors d'un changement sur la configuration centrale, tous les VTherms seront rech
En conséquence toute la phase de paramètrage d'un VTherm a été profondemment modifiée pour pouvoir utiliser la configuration centrale ou surcharger les valeurs de la configuration centrale par des valeurs propre au VTherm en cours de configuration.
</details>
**Note :** les copies d'écran de la configuration d'un VTherm n'ont pas été mises à jour.
# Merci pour la bière [buymecoffee](https://www.buymeacoffee.com/jmcollin78)
Un grand merci à @salabur, @pvince83, @bergoglio, @EPicLURcher, @ecolorado66, @Kriss1670, @maia, @f.maymil, @moutte69, @Jerome, @Gunnar M, @Greg.o, @John Burgess, @abyssmal, @capinfo26, @Helge, @MattG @Mexx62, @Someone, @Lajull, @giopeco, @fredericselier, @philpagan, @studiogriffanti, @Edwin, @Sebbou, @Gerard R., @John Burgess, @Sylvoliv, @cdenfert, @stephane.l, @jms92100 pour les bières. Ca fait très plaisir et ça m'encourage à continuer !
Un grand merci à @salabur, @pvince83, @bergoglio, @EPicLURcher, @ecolorado66, @Kriss1670, @maia, @f.maymil, @moutte69, @Jerome, @Gunnar M, @Greg.o, @John Burgess, @abyssmal, @capinfo26, @Helge, @MattG @Mexx62, @Someone, @Lajull, @giopeco, @fredericselier, @philpagan, @studiogriffanti, @Edwin, @Sebbou pour les bières. Ca fait très plaisir et ça m'encourage à continuer !
# Quand l'utiliser et ne pas l'utiliser
@@ -236,7 +159,6 @@ Certains thermostat de type TRV sont réputés incompatibles avec le Versatile T
3. les thermostats de type Heatzy qui ne supportent pas les commandes de type set_temperature
4. les thermostats de type Rointe ont tendance a se réveiller tout seul. Le reste fonctionne normalement.
5. les TRV de type Aqara SRTS-A01 et MOES TV01-ZB qui n'ont pas le retour d'état `hvac_action` permettant de savoir si elle chauffe ou pas. Donc les retours d'état sont faussés, le reste à l'air fonctionnel.
6. La clim Airwell avec l'intégration "Midea AC LAN". Si 2 commandes de VTherm sont trop rapprochées, la clim s'arrête d'elle même.
# Pourquoi une nouvelle implémentation du thermostat ?
@@ -287,30 +209,18 @@ Ce composant nommé __Versatile thermostat__ gère les cas d'utilisation suivant
> 3. En plus de cette configuration centralisée, tous les VTherm peuvent être contrôlées par une seule entité de type `select`. Cette fonction est nommé `central_mode`. Cela permet de stopper / démarrer / mettre en hors gel / etc tous les VTherms en une seule fois. Pour chaque VTherm, l'utilisateur indique si il est concerné par ce `central_mode`.
<details>
<summary>Création d'un nouveau Versatile Thermostat</summary>
## Création d'un nouveau Versatile Thermostat
Cliquez sur le bouton Ajouter une intégration dans la page d'intégration
![image](images/add-an-integration.png)
puis
![image](images/config-main0.png)
La configuration peut être modifiée via la même interface. Sélectionnez simplement le thermostat à modifier, appuyez sur "Configurer" et vous pourrez modifier certains paramètres ou la configuration.
Suivez ensuite les étapes de configuration en sélectionnant dans le menu l'option à configurer.
</details>
<details>
<summary>Choix des attributs de base</summary>
Suivez ensuite les étapes de configuration comme suit :
## Choix des attributs de base
Choisisez le menu "Principaux attributs".
![image](images/config-main0.png)
![image](images/config-main.png)
@@ -328,13 +238,8 @@ Donnez les principaux attributs obligatoires :
> ![Astuce](images/tips.png) _*Notes*_
> 1. avec les types ```over_switch``` et ```over_valve```, les calculs sont effectués à chaque cycle. Donc en cas de changement de conditions, il faudra attendre le prochain cycle pour voir un changement. Pour cette raison, le cycle ne doit pas être trop long. **5 min est une bonne valeur**,
> 2. si le cycle est trop court, le radiateur ne pourra jamais atteindre la température cible. Pour le radiateur à accumulation par exemple il sera sollicité inutilement.
</details>
<details>
<summary>Sélectionnez des entités pilotées (sous-jacents)</summary>
## Sélectionnez des entités pilotées (sous-jacents)
## Sélectionnez des entités pilotées
En fonction de votre choix sur le type de thermostat, vous devrez choisir une ou plusieurs entités de type `switch`, `climate` ou `number`. Seules les entités compatibles avec le type sont présentées.
> ![Astuce](images/tips.png) _*Comment choisir le type*_
@@ -516,14 +421,10 @@ Vous pouvez choisir jusqu'à entité du domaine ```number``` ou ```ìnput_number
L'algorithme à utiliser est aujourd'hui limité à TPI est disponible. Voir [algorithme](#algorithme).
Il est possible de choisir un thermostat over valve qui commande une climatisation en cochant la case "AC Mode". Dans ce cas, seul le mode refroidissement sera visible.
</details>
<details>
<summary>Configurez les coefficients de l'algorithme TPI</summary>
## Configurez les coefficients de l'algorithme TPI
Si vous avez choisi un thermostat de type ```over_switch``` ou ```over_valve``` et que vous sélectionnez l'option "TPI" vous menu, vous arriverez sur cette page :
Si vous avez choisi un thermostat de type ```over_switch``` ou ```over_valve``` vous arriverez sur cette page :
![image](images/config-tpi.png)
@@ -533,12 +434,11 @@ Vous devez donner :
Pour plus d'informations sur l'algorithme TPI et son réglage, veuillez vous référer à [algorithm](#algorithm).
</details>
<details>
<summary>Configurer les températures préréglées</summary>
## Configurer la température préréglée
Cliquez sur 'Valider' sur la page précédente et vous y arriverez :
## Configurer les températures préréglées
![image](images/config-presets.png)
Le mode préréglé (preset) vous permet de préconfigurer la température ciblée. Utilisé en conjonction avec Scheduler (voir [scheduler](#even-better-with-scheduler-component) vous aurez un moyen puissant et simple d'optimiser la température par rapport à la consommation électrique de votre maison. Les préréglages gérés sont les suivants :
- **Eco** : l'appareil est en mode d'économie d'énergie
@@ -549,21 +449,14 @@ Le mode préréglé (preset) vous permet de préconfigurer la température cibl
**Aucun** est toujours ajouté dans la liste des modes, car c'est un moyen de ne pas utiliser les preset mais une **température manuelle** à la place.
Les pré-réglages se font (depuis v6.0) directement depuis les entités du VTherm ou de la configuration centrale si vous utilisez la configuration centrale.
> ![Astuce](images/tips.png) _*Notes*_
> 1. En modifiant manuellement la température cible, réglez le préréglage sur Aucun (pas de préréglage). De cette façon, vous pouvez toujours définir une température cible même si aucun préréglage n'est disponible.
> 2. Le préréglage standard ``Away`` est un préréglage caché qui n'est pas directement sélectionnable. Versatile Thermostat utilise la gestion de présence ou la gestion de mouvement pour régler automatiquement et dynamiquement la température cible en fonction d'une présence dans le logement ou d'une activité dans la pièce. Voir [gestion de la présence](#configure-the-presence-management).
> 3. Si vous utilisez la gestion du délestage, vous verrez un préréglage caché nommé ``power``. Le préréglage de l'élément chauffant est réglé sur « puissance » lorsque des conditions de surpuissance sont rencontrées et que le délestage est actif pour cet élément chauffant. Voir [gestion de l'alimentation](#configure-the-power-management).
> 4. si vous utilisez la configuration avancée, vous verrez le préréglage défini sur ``sécurité`` si la température n'a pas pu être récupérée après un certain délai
> 5. Si vous ne souhaitez pas utiliser le préréglage, indiquez 0 comme température. Le préréglage sera alors ignoré et ne s'affichera pas dans le composant front
</details>
<details>
<summary>Configurer les portes/fenêtres en allumant/éteignant les thermostats</summary>
## Configurer les portes/fenêtres en allumant/éteignant les thermostats
Vous devez avoir choisi la fonctionnalité ```Avec détection des ouvertures``` dans la première page pour arriver sur cette page.
La détecttion des ouvertures peut se faire de 2 manières:
1. soit avec un capteur placé sur l'ouverture (mode capteur),
@@ -603,13 +496,8 @@ Et c'est tout ! votre thermostat s'éteindra lorsque les fenêtres seront ouvert
> 2. Si vous n'avez pas de capteur de fenêtre/porte dans votre chambre, laissez simplement l'identifiant de l'entité du capteur vide,
> 3. **Un seul mode est permis**. On ne peut pas configurer un thermostat avec un capteur et une détection automatique. Les 2 modes risquant de se contredire, il n'est pas possible d'avoir les 2 modes en même temps,
> 4. Il est déconseillé d'utiliser le mode automatique pour un équipement soumis à des variations de température fréquentes et normales (couloirs, zones ouvertes, ...)
</details>
<details>
<summary>Configurer le mode d'activité ou la détection de mouvement</summary>
## Configurer le mode d'activité ou la détection de mouvement
Si vous avez choisi la fonctionnalité ```Avec détection de mouvement```, cliquez sur 'Valider' sur la page précédente et vous y arriverez :
![image](images/config-motion.png)
@@ -634,10 +522,6 @@ Pour que cela fonctionne, le thermostat doit être en mode préréglé « Activ
> ![Astuce](images/tips.png) _*Notes*_
1. Sachez que comme pour les autres modes prédéfinis, ``Activity`` ne sera proposé que s'il est correctement configuré. En d'autres termes, les 4 clés de configuration doivent être définies si vous souhaitez voir l'activité dans l'interface de l'assistant domestique
</details>
<details>
<summary>Configurer la gestion de la puissance</summary>
## Configurer la gestion de la puissance
@@ -656,13 +540,8 @@ Cela vous permet de modifier la puissance maximale au fil du temps à l'aide d'u
> 3. Gardez toujours une marge, car la puissance max peut être brièvement dépassée en attendant le calcul du prochain cycle typiquement ou par des équipements non régulés.
> 4. Si vous ne souhaitez pas utiliser cette fonctionnalité, laissez simplement l'identifiant des entités vide
> 5. Si vous controlez plusieurs radiateurs, la **consommation électrique de votre chauffage** renseigné doit correspondre à la somme des puissances.
</details>
<details>
<summary>Configurer la présence (ou l'absence)</summary>
## Configurer la présence (ou l'absence)
## Configurer la présence ou l'occupation
Si sélectionnée en première page, cette fonction vous permet de modifier dynamiquement la température de tous les préréglages du thermostat configurés lorsque personne n'est à la maison ou lorsque quelqu'un rentre à la maison. Pour cela, vous devez configurer la température qui sera utilisée pour chaque préréglage lorsque la présence est désactivée. Lorsque le capteur de présence s'éteint, ces températures seront utilisées. Lorsqu'il se rallume, la température "normale" configurée pour le préréglage est utilisée. Voir [gestion des préréglages](#configure-the-preset-temperature).
Pour configurer la présence remplissez ce formulaire :
@@ -681,13 +560,8 @@ ATTENTION : les groupes de personnes ne fonctionnent pas en tant que capteur de
> ![Astuce](images/tips.png) _*Notes*_
> 1. le changement de température est immédiat et se répercute sur le volet avant. Le calcul prendra en compte la nouvelle température cible au prochain calcul du cycle,
> 2. vous pouvez utiliser le capteur direct person.xxxx ou un groupe de capteurs de Home Assistant. Le capteur de présence gère les états ``on`` ou ``home`` comme présents et les états ``off`` ou ``not_home`` comme absents.
</details>
<details>
<summary>Configuration avancée</summary>
## Configuration avancée
Ces paramètres permettent d'affiner le réglage du thermostat.
Le formulaire de configuration avancée est le suivant :
@@ -719,13 +593,8 @@ Voir [exemple de réglages](#examples-tuning) pour avoir des exemples de réglag
> 3. Un service est disponible qui permet de régler les 3 paramètres de sécurité. Ca peut servir à adapter la fonction de sécurité à votre usage,
> 4. Pour un usage naturel, le ``security_default_on_percent`` doit être inférieur à ``security_min_on_percent``,
> 5. Les thermostats de type ``thermostat_over_climate`` ne sont pas concernés par le mode security.
</details>
<details>
<summary>Le contrôle centralisé</summary>
## Le contrôle centralisé
Depuis la release 5.2, si vous avez défini une configuration centralisée, vous avez une nouvelle entité nommée `select.central_mode` qui permet de piloter tous les VTherms avec une seule action. Pour qu'un VTherm soit contrôlable de façon centralisée, il faut que son attribut de configuration nommé `use_central_mode` soit vrai.
Cette entité se présente sous la forme d'une liste de choix qui contient les choix suivants :
@@ -739,13 +608,8 @@ Il est donc possible de contrôler tous les VTherms (que ceux que l'on désigne
Exemple de rendu :
![central_mode](images/central_mode.png)
</details>
<details>
<summary>Le contrôle d'une chaudière centrale</summary>
## Le contrôle d'une chaudière centrale
Depuis la release 5.3, vous avez la possibilité de contrôler une chaudière centralisée. A partir du moment où il est possible de déclencher ou stopper cette chaudière depuis Home Assistant, alors Versatile Thermostat va pouvoir la commander directement.
Le principe mis en place est globalement le suivant :
@@ -844,10 +708,6 @@ context:
> ![Astuce](images/tips.png) _*Notes*_
> Le contrôle par du logiciel ou du matériel de type domotique d'une chaudière centrale peut induire des risques pour son bon fonctionnement. Assurez-vous avant d'utiliser ces fonctions, que votre chaudière possède bien des fonctions de sécurité et que celles-ci fonctionnent. Allumer une chaudière si tous les robinets sont fermés peut générer de la sur-pression par exemple.
</details>
<details>
<summary>Synthèse des paramètres</summary>
## Synthèse des paramètres
@@ -883,7 +743,13 @@ context:
| ``ac_mode`` | utilisation de l'air conditionné (AC) ? | X | X | X | - |
| ``tpi_coef_int`` | Coefficient à utiliser pour le delta de température interne | X | - | X | X |
| ``tpi_coef_ext`` | Coefficient à utiliser pour le delta de température externe | X | - | X | X |
| ``frost_temp`` | Température en preset Hors-gel | X | X | X | X |
| ``frost_tp`` | Température en preset Hors-gel | X | X | X | X |
| ``eco_temp`` | Température en preset Eco | X | X | X | X |
| ``comfort_temp`` | Température en preset Confort | X | X | X | X |
| ``boost_temp`` | Température en preset Boost | X | X | X | X |
| ``eco_ac_temp`` | Température en preset Eco en mode AC | X | X | X | X |
| ``comfort_ac_temp`` | Température en preset Confort en mode AC | X | X | X | X |
| ``boost_ac_temp`` | Température en preset Boost en mode AC | X | X | X | X |
| ``window_sensor_entity_id`` | Détecteur d'ouverture (entity id) | X | X | X | - |
| ``window_delay`` | Délai avant extinction (secondes) | X | X | X | X |
| ``window_auto_open_threshold`` | Seuil haut de chute de température pour la détection automatique (en °/min) | X | X | X | X |
@@ -898,6 +764,13 @@ context:
| ``max_power_sensor_entity_id`` | Capteur de puissance Max (entity id) | X | X | X | X |
| ``power_temp`` | Température si délestaqe | X | X | X | X |
| ``presence_sensor_entity_id`` | Capteur de présence entity id (true si quelqu'un est présent) | X | X | X | - |
| ``frost_ay_temp`` | Température en preset Hors-gel en cas d'absence | X | X | X | X |
| ``eco_away_temp`` | Température en preset Eco en cas d'absence | X | X | X | X |
| ``comfort_away_temp`` | Température en preset Comfort en cas d'absence | X | X | X | X |
| ``boost_away_temp`` | Température en preset Boost en cas d'absence | X | X | X | X |
| ``eco_ac_away_temp`` | Température en preset Eco en cas d'absence en mode AC | X | X | X | X |
| ``comfort_ac_away_temp`` | Température en preset Comfort en cas d'absence en mode AC | X | X | X | X |
| ``boost_ac_away_temp`` | Température en preset Boost en cas d'absence en mode AC | X | X | X | X |
| ``minimal_activation_delay`` | Délai minimal d'activation | X | - | - | X |
| ``security_delay_min`` | Délai maximal entre 2 mesures de températures | X | - | X | X |
| ``security_min_on_percent`` | Pourcentage minimal de puissance pour passer en mode sécurité | X | - | X | X |
@@ -907,11 +780,10 @@ context:
| ``inverse_switch_command`` | Inverse la commande du switch (pour switch avec fil pilote) | X | - | - | - |
| ``auto_fan_mode`` | Mode de ventilation automatique | - | X | - | - |
| ``auto_regulation_use_device_temp`` | Utilisation de la température interne du sous-jacent | - | X | - | - |
| ``use_central_boiler_feature`` | Ajout du controle d'une chaudière centrale | - | - | - | X |
| ``add_central_boiler_control`` | Ajout du controle d'une chaudière centrale | - | - | - | X |
| ``central_boiler_activation_service`` | Service d'activation de la chaudière | - | - | - | X |
| ``central_boiler_deactivation_service`` | Service de desactivation de la chaudière | - | - | - | X |
| ``used_by_controls_central_boiler`` | Indique si le VTherm contrôle la chaudière centrale | X | X | X | - |
</details>
# Exemples de réglage
@@ -1202,9 +1074,9 @@ Une carte spéciale pour le Versatile Thermostat a été développée (sur la ba
## Encore mieux avec le composant Scheduler !
Afin de profiter de toute la puissance du Versatile Thermostat, je vous invite à l'utiliser avec https://github.com/nielsfaber/scheduler-component
En effet, le composant scheduler propose une gestion de la base climatique sur les modes prédéfinis. Cette fonctionnalité a un intérêt limité avec le thermostat générique mais elle devient très puissante avec le Versatile Thermostat :
En effet, le composant scheduler propose une gestion de la base climatique sur les modes prédéfinis. Cette fonctionnalité a un intérêt limité avec le thermostat générique mais elle devient très puissante avec le thermostat Awesome :
À partir d'ici, je suppose que vous avez installé Versatile Thermostat et Scheduler Component.
À partir d'ici, je suppose que vous avez installé Awesome Thermostat et Scheduler Component.
Dans Scheduler, ajoutez un planning :
@@ -1439,11 +1311,7 @@ Si vous souhaitez contribuer, veuillez lire les [directives de contribution](CON
# Dépannages
<details>
<summary>Utilisation d'un Heatzy</summary>
## Utilisation d'un Heatzy
L'utilisation d'un Heatzy est possible à la condition d'utiliser un switch virtuel sur ce modèle :
```
- platform: template
@@ -1472,10 +1340,6 @@ L'utilisation d'un Heatzy est possible à la condition d'utiliser un switch virt
preset_mode: "eco"
```
Merci à @gael pour cet exemple.
</details>
<details>
<summary>Utilisation d'un radiateur avec un fil pilote</summary>
## Utilisation d'un radiateur avec un fil pilote
Comme pour le Heatzy ci-dessus vous pouvez utiliser un switch virtuel qui va changer le preset de votre radiateur en fonction de l'état d'allumage du VTherm.
@@ -1497,58 +1361,10 @@ Exemple :
icon_template: "{% if is_state('switch.radiateur_soan', 'on') %}mdi:radiator-disabled{% else %}mdi:radiator{% endif %}"
```
</details>
<details>
<summary>Utilisation d'un radiateur avec un module Nodon</summary>
## Utilisation d'un radiateur avec un fil pilote
Comme pour le Heatzy ci-dessus vous pouvez utiliser un switch virtuel qui va changer le preset de votre radiateur en fonction de l'état d'allumage du VTherm.
Exemple :
```
- platform: template
switches:
chauffage_chb_parents:
unique_id: chauffage_chb_parents
friendly_name: Chauffage chambre parents
value_template: "{{ is_state('select.fp_chb_parents_pilot_wire_mode', 'comfort') }}"
icon_template: >-
{% if is_state('select.fp_chb_parents_pilot_wire_mode', 'comfort') %}
mdi:radiator
{% elif is_state('select.fp_chb_parents_pilot_wire_mode', 'frost_protection') %}
mdi:snowflake
{% else %}
mdi:radiator-disabled
{% endif %}
turn_on:
service: select.select_option
target:
entity_id: select.fp_chb_parents_pilot_wire_mode
data:
option: comfort
turn_off:
service: select.select_option
target:
entity_id: select.fp_chb_parents_pilot_wire_mode
data:
option: eco
```
</details>
<details>
<summary>Seul le premier radiateur chauffe</summary>
## Seul le premier radiateur chauffe
En mode `over_switch` si plusieurs radiateurs sont configurés pour un même VTherm, l'alllumage va se faire de façon séquentiel pour lisser au plus possible les pics de consommation.
Cela est tout à fait normal et voulu. C'est décrit ici : [Pour un thermostat de type ```thermostat_over_switch```](#pour-un-thermostat-de-type-thermostat_over_switch)
</details>
<details>
<summary>Le radiateur chauffe alors que la température de consigne est dépassée ou ne chauffe pas alors que la température de la pièce est bien en-dessous de la consigne</summary>
## Le radiateur chauffe alors que la température de consigne est dépassée ou ne chauffe pas alors que la température de la pièce est bien en-dessous de la consigne
### Type `over_switch` ou `over_valve`
@@ -1560,10 +1376,7 @@ Avec un VTherm de type `over_climate`, la régulation est faite par le `climate`
Exemple de discussion autour de ces sujets: [#348](https://github.com/jmcollin78/versatile_thermostat/issues/348), [#316](https://github.com/jmcollin78/versatile_thermostat/issues/316), [#312](https://github.com/jmcollin78/versatile_thermostat/discussions/312), [#278](https://github.com/jmcollin78/versatile_thermostat/discussions/278)
Pour s'en sortir, VTherm est équipé d'une fonction nommée auto-régulation qui permet d'adapter la consigne envoyée au sous-jacent jusqu'à ce que la consigne soit respectée. Cette fonction permet de compenser le biais de mesure des thermomètres internes. Si le biais est important la régulation doit être importante. Voir [L'auto-régulation](#lauto-régulation) pour configurer l'auto-régulation.
</details>
<details>
<summary>Régler les paramètres de détection d'ouverture de fenêtre en mode auto</summary>
## Régler les paramètres de détection d'ouverture de fenêtre en mode auto
@@ -1584,10 +1397,6 @@ versatile_thermostat:
```
Ces paramètres sont sensibles et assez difficiles à régler. Merci de ne les utiliser que si vous savez ce que vous faites et que vos mesures de température ne sont pas déjà lisses.
</details>
<details>
<summary>Pourquoi mon Versatile Thermostat se met en Securite ?</summary>
## Pourquoi mon Versatile Thermostat se met en Securite ?
Le mode sécurité n'est possible que sur les VTherm `over_switch` et `over_valve`. Il survient lorsqu'un des 2 thermomètres qui donne la température de la pièce ou la température extérieure n'a pas envoyé de valeur depuis plus de `security_delay_min` minutes et que le radiateur chauffait à au moins `security_min_on_percent`.
@@ -1635,13 +1444,8 @@ Cela va dépendre de la cause du problème :
2. Si le paramètre `security_delay_min` est trop petit, cela rsique de générer beaucoup de fausses alertes. Une valeur correcte est de l'ordre de 60 min, surtout si vous avez des capteurs de température à pile.
3. Certains capteurs de température, n'envoie pas de mesure si la température n'a pas changée. Donc en cas de température très stable pendant longtemps, le mode sécurité peut se déclencher. Ce n'est pas très grave puisqu'il s'enlève dès que le VTherm reçoit à nouveau une température. Sur certain thermomètre (TuYA par exemple), on peut forcer le délai max entre 2 mesures. Il conviendra de mettre un délai max < `security_delay_min`,
4. Dès que la température sera a nouveau reçue le mode sécurité s'enlèvera et les valeurs précédentes de preset, température cible et mode seront restaurées.
</details>
<details>
<summary>Utilisation d'un groupe de personnes comme capteur de présence</summary>
## Utilisation d'un groupe de personnes comme capteur de présence
Malheureusement, les groupes de personnes ne sont pas reconnus comme des capteurs de présence. On ne peut donc pas les utiliser directement dans VTherm.
Le contournement est de créer un template de binary_sensor avec le code suivant :
@@ -1662,10 +1466,6 @@ Fichier `configuration.yaml`:
template: !include templates.yaml
...
```
</details>
<details>
<summary>Activer les logs du Versatile Thermostat</summary>
## Activer les logs du Versatile Thermostat
Des fois, vous aurez besoin d'activer les logs pour afiner les analyses. Pour cela, éditer le fichier `logger.yaml` de votre configuration et configurer les logs comme suit :
@@ -1676,8 +1476,6 @@ logs:
```
Vous devez recharger la configuration yaml (Outils de dev / Yaml / Toute la configuration Yaml) ou redémarrer Home Assistant pour que ce changement soit pris en compte.
</details>
***
[versatile_thermostat]: https://github.com/jmcollin78/versatile_thermostat

291
README.md
View File

@@ -8,12 +8,7 @@
> ![Tip](images/tips.png) This thermostat integration aims to drastically simplify your automations around climate management. Because all classical events in climate are natively handled by the thermostat (nobody at home ?, activity detected in a room ?, window open ?, power shedding ?), you don't have to build over complicated scripts and automations to manage your climates ;-).
- [Changes in version 6.0](#changes-in-version-60)
- [Temperature entities for presets](#temperature-entities-for-presets)
- [In the case of a central configuration](#in-the-case-of-a-central-configuration)
- [Redesign of the configuration menu](#redesign-of-the-configuration-menu)
- [The 'Incomplete configuration' and 'Finalize' menu options](#the-incomplete-configuration-and-finalize-menu-options)
- [Changements dans la version 5.0](#changements-dans-la-version-50)
- [Major changes in version 5.0](#major-changes-in-version-50)
- [Thanks for the beer buymecoffee](#thanks-for-the-beer-buymecoffee)
- [When to use / not use](#when-to-use--not-use)
- [Incompatibilities](#incompatibilities)
@@ -49,7 +44,7 @@
- [The events](#the-events)
- [Warning](#warning)
- [Parameter summary](#parameter-summary)
- [Tuning examples](#tuning-examples)
- [Examples tuning](#examples-tuning)
- [Electrical heater](#electrical-heater)
- [Central heating (gaz or fuel heating system)](#central-heating-gaz-or-fuel-heating-system)
- [Temperature sensor will battery](#temperature-sensor-will-battery)
@@ -76,7 +71,6 @@
- [Troubleshooting](#troubleshooting)
- [Using a Heatzy](#using-a-heatzy)
- [Using a Heatsink with a Pilot Wire](#using-a-heatsink-with-a-pilot-wire)
- [Using a heater with a Nodon module](#using-a-heater-with-a-nodon-module)
- [Only the first radiator heats](#only-the-first-radiator-heats)
- [The radiator heats up even though the setpoint temperature is exceeded or does not heat up even though the room temperature is well below the setpoint](#the-radiator-heats-up-even-though-the-setpoint-temperature-is-exceeded-or-does-not-heat-up-even-though-the-room-temperature-is-well-below-the-setpoint)
- [Type `over_switch` or `over_valve`](#type-over_switch-or-over_valve)
@@ -92,10 +86,7 @@
This custom component for Home Assistant is an upgrade and is a complete rewrite of the component "Awesome thermostat" (see [Github](https://github.com/dadge/awesome_thermostat)) with addition of features.
>![New](images/new-icon.png) _*Latest releases*_
> * **Release 6.0**:
> - Added entities from the Number domain to configure preset temperatures [354](https://github.com/jmcollin78/versatile_thermostat/issues/354)
> - Complete redesign of the configuration menu to remove temperatures and use a menu instead of a configuration tunnel [354](https://github.com/jmcollin78/versatile_thermostat/issues/354)
>![New](images/new-icon.png) _*News*_
> * **Release 5.4**:
> - Added temperature step [#311](https://github.com/jmcollin78/versatile_thermostat/issues/311),
> - addition of regulation thresholds for the `over_valve` to avoid draining the TRV battery too much [#338](https://github.com/jmcollin78/versatile_thermostat/issues/338),
@@ -126,78 +117,8 @@ This custom component for Home Assistant is an upgrade and is a complete rewrite
> * **major release 2.0**: addition of the "over climate" thermostat allowing you to transform any thermostat into a Versatile Thermostat and add all the functions of the latter.
</details>
# Changes in version 6.0
## Temperature entities for presets
Preset temperatures are now directly accessible in the form of entities linked to VTherm.
Example :
![Temperature entities](images/temp-entities-1.png)
The Boost, Comfort, Eco and Frost Protection entities allow you to directly adjust the temperatures of these presets without having to reconfigure the VTHerm in the configuration screens.
These modifications persist after a restart and are taken into account immediately by VTherm.
Depending on the functions activated, the list of temperatures may be more or less complete:
1. If presence management is activated, absence presets are created. They are suffixed with 'abs' for absence,
2. If air conditioning management (AC Mode) is activated, air conditioning mode presets are created. They are suffixed with 'clim' for air conditioning. Only the Frost protection preset has no equivalent in air conditioning mode,
3. The different absent and air conditioning combinations can be created depending on the configuration of the VTherm
If a VTherm uses the presets of the central configuration, these entities are not created, because the temperatures of the presets are managed by the central configuration.
### In the case of a central configuration
If you have configured a central configuration, this also has its own presets which meet the same rules as stated above.
Example of a central configuration with presence management and AC (air conditioning) mode:
![Temperature entities](images/temp-entities-2.png)
In the case of a change of a central configuration temperature, all VTherms that use this preset are immediately updated.
## Redesign of the configuration menu
The configuration menu has been completely revised. It dynamically adapts to the user's choices and allows direct access to the settings of the desired function without having to go through the entire configuration tunnel.
To create a new VTherm, you will first need to choose the type of VTherm:
![VTherm choice](images/config-main0.png)
Then, you now access the following configuration menu:
![VTherm menu](images/config-menu.png)
Each part to be configured is directly accessible, without having to go through the entire configuration tunnel as before.
You will note the menu option named `Functions` which allows you to choose which functions will be implemented for this VTherm:
![VTherm features](images/config-features.png)
Depending on your choices, the main menu will adapt to add the necessary options.
Example of menu with all functions checked:
![VTherm menu](images/config-menu-all-options.png)
You can see that the 'Opening detection', 'Motion detection', 'Power management' and 'Presence management' options have been added. You can then configure them.
### The 'Incomplete configuration' and 'Finalize' menu options
The last menu option is special. It allows you to validate the creation of the VTherm when all the functions have been correctly configured.
If one option is not configured correctly, the last option is:
![Incomplete configuration](images/config-not-complete.png)
Its selection does nothing but prevents you from finalizing the creation (resp. modification) of the VTherm.
**You must then search in the options which one is missing**.
Once all configuration is valid, the last option changes to:
![Complete configuration](images/config-complete.png)
Click on this option to create (resp. modify) the VTherm:
![Configuration Complete](images/config-terminate.png)
<details>
<summary>Changements dans la version 5.0</summary>
# Changements dans la version 5.0
# Major changes in version 5.0
![New](images/new-icon.png)
You can now define a central configuration which will allow you to share certain attributes on all your VTherms (or only part of them). To use this possibility, you must:
1. Create a VTherm of type “Central Configuration”,
@@ -210,10 +131,11 @@ The configurable attributes in the central configuration are listed here: [Param
When changing the central configuration, all VTherms will be reloaded to take these changes into account.
Consequently, the entire configuration phase of a VTherm has been profoundly modified to be able to use the central configuration or overload the values of the central configuration with values specific to the VTherm being configured.
</details>
**Note:** the VTherm configuration screenshots have not been updated.
# Thanks for the beer [buymecoffee](https://www.buymeacoffee.com/jmcollin78)
Many thanks to @salabur, @pvince83, @bergoglio, @EPicLURcher, @ecolorado66, @Kriss1670, @maia, @f.maymil, @moutte69, @Jerome, @Gunnar M, @Greg.o, @John Burgess, @abyssmal, @capinfo26, @Helge, @MattG, @MattG, @Mexx62, @Someone, @Lajull, @giopeco, @fredericselier, @philpagan, @studiogriffanti, @Edwin, @Sebbou, @Gerard R., @John Burgess, @Sylvoliv, @cdenfert, @stephane.l, @jms92100 for the beers. It's very nice and encourages me to continue!
Many thanks to @salabur, @pvince83, @bergoglio, @EPicLURcher, @ecolorado66, @Kriss1670, @maia, @f.maymil, @moutte69, @Jerome, @Gunnar M, @Greg.o, @John Burgess, @abyssmal, @capinfo26, @Helge, @MattG, @MattG, @Mexx62, @Someone, @Lajull, @giopeco, @fredericselier, @philpagan, @studiogriffanti, @Edwin, @Sebbou for the beers. It's very nice and encourages me to continue!
# When to use / not use
This thermostat can control 3 types of equipment:
@@ -237,7 +159,6 @@ Some TRV type thermostats are known to be incompatible with the Versatile Thermo
3. Thermostat of type Heatzy which doesn't supports the set_temperature command.
4. Thermostats of type Rointe tends to awake alone even if VTherm turns it off. Others functions works fine.
5. TRV of type Aqara SRTS-A01 and MOES TV01-ZB which doesn't have the return state `hvac_action` allowing to know if it is heating or not. So return states are not available. Others features, seems to work normally.
6. The Airwell with the "Midea AC LAN" integration. If two orders are too close, the device shut off.
# Why another thermostat implementation ?
@@ -288,27 +209,17 @@ This component named __Versatile thermostat__ manage the following use cases :
> 3. In addition to this centralized configuration, all VTherms can be controlled by a single entity of type `select`. This function is named `central_mode`. This allows you to stop / start / freeze / etc. all VTherms at once. For each VTherm, the user indicates whether he is affected by this `central_mode`.
<details>
<summary>Creation of a new Versatile Thermostat</summary>
## Creation of a new Versatile Thermostat
Click on Add integration button in the integration page
![image](images/add-an-integration.png)
The configuration can be change through the same interface. Simply select the thermostat to change, hit "Configure" and you will be able to change some parameters or configuration.
Then choose the type of VTherm you want to create:
![image](images/config-main0.png)
</details>
<details>
<summary>Minimal configuration update</summary>
Then follow the configurations steps as follow:
## Minimal configuration update
Then choose the “Main attributes” menu.
![image](images/config-main0.png)
![image](images/config-main.png)
@@ -326,13 +237,8 @@ Give the main mandatory attributes:
> ![Tip](images/tips.png) _*Notes*_
> 1. With the ```thermostat_over_switch``` type, calculation are done at each cycle. So in case of conditions change, you will have to wait for the next cycle to see a change. For this reason, the cycle should not be too long. **5 min is a good value**,
> 2. if the cycle is too short, the heater could never reach the target temperature. For the storage radiator for example it will be used unnecessarily.
</details>
<details>
<summary>Select the driven entity</summary>
## Select the driven entity
Depending on your choice of thermostat type, you will need to choose one or more `switch`, `climate` or `number` type entities. Only entities compatible with the type are presented.
> ![Tip](images/tips.png) _*How to choose the type*_
@@ -468,16 +374,21 @@ and of course, configure the VTherm's self-regulation mode in **Expert** mode. A
For the changes to be taken into account, you must either **completely restart Home Assistant** or just the **Versatile Thermostat integration** (Dev tools / Yaml / reloading the configuration / Versatile Thermostat).
#### Internal temperature compensation
Sometimes, a devices internal temperature sensor (like in a TRV or AC) can give inaccurate readings, especially if its too close to a heat source. This can cause the device to stop heating too soon.
For example:
1. target temperature: 20 °C, room temperature: 18 °C,
2. devices internal sensor: 22 °C
3. If the target temperature is increased to 21 °C, the device wont heat because it thinks its already warm (internal temperature is 22°C).
Sometimes, it happens that the internal thermometer of the underlying (TRV, air conditioning, etc.) is so wrong that self-regulation is not enough to regulate.
This happens when the internal thermometer is too close to the heat source. The internal temperature then rises much faster than the room temperature, which generates faults in the regulation.
Example :
1. the room temperature is 18°, the setpoint is 20°,
2. the internal temperature of the equipment is 22°,
3. if VTherm sends 21° as setpoint (= 20° + 1° auto-regulation), then the equipment will not heat because its internal temperature (22°) is above the setpoint (21°)
The Adjust Setpoint for Room vs. TRV Temperature feature fixes this by adding the temperature difference between the room and the devices internal reading to the target. In this case, VTherm would adjust the target to 25°C (21°C + 4°C difference), forcing the device to continue heating.
To overcome this, a new optional option was added in version 5.4: ![Use of internal temperature](images/config-use-internal-temp.png)
This adjustment is specific to each device, making the heating system more accurate and avoiding issues from faulty sensor readings.
See ![Use of internal temperature](images/config-use-internal-temp.png)
When enabled, this function will add the difference between the internal temperature and the room temperature to the setpoint to force heating.
In the example above, the difference is +4° (22° - 18°), so VTherm will send 25° (21°+4°) to the equipment forcing it to heat up.
This difference is calculated for each underlying because each has its own internal temperature. Think of a VTherm which would be connected to 3 TRVs each with its internal temperature for example.
We then obtain much more effective self-regulation which avoids the pitfall of large variations in faulty internal temperature.
#### synthesis of the self-regulation algorithm
The self-regulation algorithm can be summarized as follows:
@@ -507,24 +418,15 @@ The algorithm to use is currently limited to TPI is available. See [algorithm](#
It is possible to choose an over valve thermostat which controls air conditioning by checking the "AC Mode" box. In this case, only the cooling mode will be visible.
</details>
<details>
<summary>Configure the TPI algorithm coefficients</summary>
## Configure the TPI algorithm coefficients
Ff you choose a ```over_switch``` or ```over_valve``` thermostat and select the "TPI" menu option, you will get there:
click on 'Validate' on the previous page, and if you choose a ```over_switch``` or ```over_valve``` thermostat and you will get there:
![image](images/config-tpi.png)
For more informations on the TPI algorithm and tuned please refer to [algorithm](#algorithm).
</details>
<details>
<summary>Configure the preset temperature</summary>
## Configure the preset temperature
Click on 'Validate' on the previous page and you will get there:
![image](images/config-presets.png)
The preset mode allows you to pre-configurate targeted temperature. Used in conjonction with Scheduler (see [scheduler](#even-better-with-scheduler-component) you will have a powerfull and simple way to optimize the temperature vs electrical consumption of your hous. Preset handled are the following :
- **Eco** : device is running an energy-saving mode
@@ -535,8 +437,6 @@ The preset mode allows you to pre-configurate targeted temperature. Used in conj
**None** is always added in the list of modes, as it is a way to not use the presets modes but a **manual temperature** instead.
The pre-settings are made (since v6.0) directly from the VTherm entities or from the central configuration if you use the central configuration.
> ![Tip](images/tips.png) _*Notes*_
> 1. Changing manually the target temperature, set the preset to None (no preset). This way you can always set a target temperature even if no preset are available.
> 2. standard ``Away`` preset is a hidden preset which is not directly selectable. Versatile Thermostat uses the presence management or movement management to set automatically and dynamically the target temperature depending on a presence in the home or an activity in the room. See [presence management](#configure-the-presence-management).
@@ -544,13 +444,7 @@ The pre-settings are made (since v6.0) directly from the VTherm entities or from
> 4. if you uses the advanced configuration you will see the preset set to ``safety`` if the temperature could not be retrieved after a certain delay
> 5. ff you don't want to use the preseet, give 0 as temperature. The preset will then been ignored and will not displayed in the front component
</details>
<details>
<summary>Configure the doors/windows turning on/off the thermostats</summary>
## Configure the doors/windows turning on/off the thermostats
You must have chosen the ```With opening detection``` feature on the first page to arrive on this page.
The detection of openings can be done in 2 ways:
1. either with a sensor placed on the opening (sensor mode),
@@ -590,11 +484,6 @@ And that's all ! your thermostat will turn off when the windows are open and tur
> 3. **Only one mode is allowed**. You cannot configure a thermostat with a sensor and automatic detection. The 2 modes may contradict each other, it is not possible to have the 2 modes at the same time,
> 4. It is not recommended to use the automatic mode for equipment subject to frequent and normal temperature variations (corridors, open areas, ...)
</details>
<details>
<summary>Configure the activity mode or motion detection</summary>
## Configure the activity mode or motion detection
If you choose the ```Motion management``` feature, lick on 'Validate' on the previous page and you will get there:
![image](images/config-motion.png)
@@ -619,11 +508,6 @@ For this to work, the climate thermostat should be in ``Activity`` preset mode.
> ![Tip](images/tips.png) _*Notes*_
> 1. Be aware that as for the others preset modes, ``Activity`` will only be proposed if it's correctly configure. In other words, the 4 configuration keys have to be set if you want to see Activity in home assistant Interface
</details>
<details>
<summary>Configure the power management</summary>
## Configure the power management
If you choose the ```Power management``` feature, click on 'Validate' on the previous page and you will get there:
@@ -641,13 +525,8 @@ This allows you to change the max power along time using a Scheduler or whatever
> 3. Always keep a margin, because max power can be briefly exceeded while waiting for the next cycle calculation typically or by not regulated equipement.
> 4. If you don't want to use this feature, just leave the entities id empty
> 5. If you control several heaters, the **power consumption of your heater** setup should be the sum of the power.
</details>
<details>
<summary>Configure presence or occupancy</summary>
## Configure presence or occupancy
If selected on the first page, this feature allows you to dynamically change the temperature of all configured thermostat presets when no one is home or when someone comes home. To do this, you must configure the temperature that will be used for each preset when presence is disabled. When the presence sensor turns off, these temperatures will be used. When it turns back on, the "normal" temperature configured for the preset is used. See [preset management](#configure-the-preset-temperature).
To configure presence, complete this form:
@@ -667,13 +546,7 @@ ATTENTION: groups of people do not function as a presence sensor. They are not r
> 1. the change in temperature is immediate and is reflected on the front shutter. The calculation will take into account the new target temperature at the next calculation of the cycle,
> 2. you can use the person.xxxx direct sensor or a group of Home Assistant sensors. The presence sensor manages the ``on`` or ``home`` states as present and the ``off`` or ``not_home`` states as absent.
</details>
<details>
<summary>Advanced configuration</summary>
## Advanced configuration
Those parameters allows to fine tune the thermostat.
The advanced configuration form is the following:
@@ -706,13 +579,7 @@ See [example tuning](#examples-tuning) for common tuning examples
> 4. For natural usage, the ``security_default_on_percent`` should be less than ``security_min_on_percent``,
> 5. Thermostat of type ``thermostat_over_climate`` are not concerned by the safety feature.
</details>
<details>
<summary>Centralized control</summary>
## Centralized control
Since release 5.2, if you have defined a centralized configuration, you have a new entity named `select.central_mode` which allows you to control all VTherms with a single action. For a VTherm to be centrally controllable, its configuration attribute named `use_central_mode` must be true.
This entity is presented in the form of a list of choices which contains the following choices:
@@ -727,13 +594,7 @@ Example rendering:
![central_mode](images/central_mode.png)
</details>
<details>
<summary>Control of a central boiler</summary>
## Control of a central boiler
Since release 5.3, you have the possibility of controlling a centralized boiler. From the moment it is possible to start or stop this boiler from Home Assistant, then Versatile Thermostat will be able to control it directly.
The principle put in place is generally as follows:
@@ -833,11 +694,6 @@ context:
> ![Tip](images/tips.png) _*Notes*_
> Controlling a central boiler using software or hardware such as home automation can pose risks to its proper functioning. Before using these functions, make sure that your boiler has safety functions and that they are working. Turning on a boiler if all the taps are closed can generate excess pressure, for example.
</details>
<details>
<summary>Parameter summary</summary>
## Parameter summary
| Parameter | Description | "over switch" | "over climate" | "over valve" | "central configuration" |
@@ -872,6 +728,13 @@ context:
| ``ac_mode`` | Use the Air Conditioning (AC) mode | X | X | X | - |
| ``tpi_coef_int`` | Coefficient to use for internal temperature delta | X | - | X | X |
| ``tpi_coef_ext`` | Coefficient to use for external temperature delta | X | - | X | X |
| ``frost_temp`` | Temperature in frost protection preset | X | X | X | X |
| ``eco_temp`` | Temperature in Eco preset | X | X | X | X |
| ``comfort_temp`` | Temperature in Comfort preset | X | X | X | X |
| ``boost_temp`` | Temperature in Boost preset | X | X | X | X |
| ``eco_ac_temp`` | Temperature in Eco preset for AC mode | X | X | X | X |
| ``comfort_ac_temp`` | Temperature in Comfort preset for AC mode | X | X | X | X |
| ``boost_ac_temp`` | Temperature in Boost preset for AC mode | X | X | X | X |
| ``window_sensor_entity_id`` | Window sensor entity id | X | X | X | - |
| ``window_delay`` | Window sensor delay (seconds) | X | X | X | X |
| ``window_auto_open_threshold`` | Temperature decrease threshold for automatic window open detection (in °/min) | X | X | X | X |
@@ -886,6 +749,13 @@ context:
| ``max_power_sensor_entity_id`` | Max power sensor entity id | X | X | X | X |
| ``power_temp`` | Temperature for Power shedding | X | X | X | X |
| ``presence_sensor_entity_id`` | Presence sensor entity id | X | X | X | X |
| ``frost_away_temp`` | Temperature in Frost protection preset when no presence | X | X | X | X |
| ``eco_away_temp`` | Temperature in Eco preset when no presence | X | X | X | X |
| ``comfort_away_temp`` | Temperature in Comfort preset when no presence | X | X | X | X |
| ``boost_away_temp`` | Temperature in Boost preset when no presence | X | X | X | X |
| ``eco_ac_away_temp`` | Temperature in Eco preset when no presence in AC mode | X | X | X | X |
| ``comfort_ac_away_temp`` | Temperature in Comfort preset when no presence in AC mode | X | X | X | X |
| ``boost_ac_away_temp`` | Temperature in Boost preset when no presence in AC mode | X | X | X | X |
| ``minimal_activation_delay`` | Minimal activation delay | X | - | X | X |
| ``security_delay_min`` | Safety delay (in minutes) | X | - | X | X |
| ``security_min_on_percent`` | Minimal power percent to enable safety mode | X | - | X | X |
@@ -896,13 +766,13 @@ context:
| ``inverse_switch_command`` | Inverse the switch command (for pilot wire switch) | X | - | - | - |
| ``auto_fan_mode`` | Auto fan mode | - | X | - | - |
| ``auto_regulation_use_device_temp`` | Use the internal temperature of the underlying device | - | X | - | - |
| ``use_central_boiler_feature`` | Add the control of a central boiler | - | - | - | X |
| ``add_central_boiler_control`` | Add the control of a central boiler | - | - | - | X |
| ``central_boiler_activation_service`` | Activation service of the boiler | - | - | - | X |
| ``central_boiler_deactivation_service`` | Deactivaiton service of the boiler | - | - | - | X |
| ``used_by_controls_central_boiler`` | Indicate if the VTherm control the central boiler | X | X | X | - |
</details>
# Tuning examples
# Examples tuning
## Electrical heater
- cycle: between 5 and 10 minutes,
@@ -1425,11 +1295,7 @@ If you want to contribute to this please read the [Contribution guidelines](CONT
# Troubleshooting
<details>
<summary>Using a Heatzy</summary>
## Using a Heatzy
The use of a Heatzy is possible provided you use a virtual switch on this model:
```
- platform:template
@@ -1459,11 +1325,6 @@ The use of a Heatzy is possible provided you use a virtual switch on this model:
```
Thanks to @gael for this example.
</details>
<details>
<summary>Using a Heatsink with a Pilot Wire</summary>
## Using a Heatsink with a Pilot Wire
As with the Heatzy above you can use a virtual switch which will change the preset of your radiator depending on the ignition state of the VTherm.
Example :
@@ -1483,56 +1344,10 @@ Example :
entity_id: switch.radiateur_soan
icon_template: "{% if is_state('switch.radiateur_soan', 'on') %}mdi:radiator-disabled{% else %}mdi:radiator{% endif %}"
```
</details>
<details>
<summary>Using a heater with a Nodon</summary>
## Using a heater with a Nodon module
As for the heatzy module above you can use a virtual switch which will change the preset of your heater depending of the state of the VTherm.
Example :
```
- platform: template
switches:
chauffage_chb_parents:
unique_id: chauffage_chb_parents
friendly_name: Chauffage chambre parents
value_template: "{{ is_state('select.fp_chb_parents_pilot_wire_mode', 'comfort') }}"
icon_template: >-
{% if is_state('select.fp_chb_parents_pilot_wire_mode', 'comfort') %}
mdi:radiator
{% elif is_state('select.fp_chb_parents_pilot_wire_mode', 'frost_protection') %}
mdi:snowflake
{% else %}
mdi:radiator-disabled
{% endif %}
turn_on:
service: select.select_option
target:
entity_id: select.fp_chb_parents_pilot_wire_mode
data:
option: comfort
turn_off:
service: select.select_option
target:
entity_id: select.fp_chb_parents_pilot_wire_mode
data:
option: eco
```
</details>
<details>
<summary>Only the first radiator heats</summary>
## Only the first radiator heats
In `over_switch` mode if several radiators are configured for the same VTherm, switching on will be done sequentially to smooth out consumption peaks as much as possible.
This is completely normal and desired. It is described here: [For a thermostat of type ``thermostat_over_switch```](#for-a-thermostat-of-type-thermostat_over_switch)v
</details>
<details>
<summary>The radiator heats up even though the setpoint temperature is exceeded or does not heat up even though the room temperature is well below the setpoint</summary>
## The radiator heats up even though the setpoint temperature is exceeded or does not heat up even though the room temperature is well below the setpoint
@@ -1545,10 +1360,6 @@ With an `over_climate` type VTherm, the regulation is done by the underlying `cl
Example of discussion around these topics: [#348](https://github.com/jmcollin78/versatile_thermostat/issues/348), [#316](https://github.com/jmcollin78/versatile_thermostat/issues/316), [#312](https://github.com/jmcollin78/versatile_thermostat/discussions/312 ), [#278](https://github.com/jmcollin78/versatile_thermostat/discussions/278)
To get around this, VTherm is equipped with a function called self-regulation which allows the instruction sent to the underlying to be adapted until the target temperature is respected. This function compensates for the measurement bias of internal thermometers. If the bias is important the regulation must be important. See [Self-regulation](#self-regulation) to configure self-regulation.
</details>
<details>
<summary>Adjust window opening detection parameters in auto mode</summary>
## Adjust window opening detection parameters in auto mode
@@ -1569,13 +1380,8 @@ versatile_thermostat:
```
These parameters are sensitive and quite difficult to adjust. Please only use them if you know what you are doing and your temperature measurements are not already smooth.
</details>
<details>
<summary>Why does my Versatile Thermostat go into Safety?</summary>
## Why does my Versatile Thermostat go into Safety?
Safety mode is only possible on VTherm `over_switch` and `over_valve`. It occurs when one of the 2 thermometers which gives the room temperature or the outside temperature has not sent a value for more than `security_delay_min` minutes and the radiator was heating at least `security_min_on_percent`.
As the algorithm is based on temperature measurements, if they are no longer received by the VTherm, there is a risk of overheating and fire. To avoid this, when the conditions mentioned above are detected, heating is limited to the `security_default_on_percent` parameter. This value must therefore be reasonably low. It helps prevent a fire while avoiding completely cutting off the radiator (risk of freezing).
@@ -1621,13 +1427,8 @@ This will depend on the cause of the problem:
2. If the `security_delay_min` parameter is too small, it risks generating a lot of false alerts. A correct value is around 60 min, especially if you have battery-powered temperature sensors.
3. Some temperature sensors do not send a measurement if the temperature has not changed. So in the event of a very stable temperature for a long time, the safety mode may be triggered. This is not very serious since it is removed as soon as the VTherm receives a temperature again. On certain thermometers (TuYA for example), you can force the maximum delay between 2 measurements. It will be appropriate to set a max delay < `security_delay_min`,
4. As soon as the temperature is received again the safety mode will be removed and the previous values of preset, target temperature and mode will be restored.
</details>
<details>
<summary>Using a group of people as a presence sensor</summary>
## Using a group of people as a presence sensor
Unfortunately, groups of people are not recognized as presence sensors. We cannot therefore use them directly in VTherm.
The workaround is to create a binary_sensor template with the following code:
@@ -1648,10 +1449,6 @@ You will note in this example, the use of an input_boolean named force_presence
template: !include templates.yaml
...
```
</details>
<details>
<summary>Enable Versatile Thermostat logs</summary>
## Enable Versatile Thermostat logs
Sometimes you will need to enable logs to refine the analyses. To do this, edit the `logger.yaml` file of your configuration and configure the logs as follows:
@@ -1661,8 +1458,6 @@ logs:
custom_components.versatile_thermostat: info
```
You must reload the yaml configuration (Dev Tools / Yaml / All Yaml configuration) or restart Home Assistant for this change to take effect.
</details>
***

58
custom_components/versatile_thermostat/__init__.py
View File

@@ -1,5 +1,4 @@
"""The Versatile Thermostat integration."""
from __future__ import annotations
from typing import Dict
@@ -13,15 +12,12 @@ from homeassistant.const import SERVICE_RELOAD, EVENT_HOMEASSISTANT_STARTED
from homeassistant.config_entries import ConfigEntry, ConfigType
from homeassistant.core import HomeAssistant, CoreState, callback
from homeassistant.helpers.service import async_register_admin_service
from .base_thermostat import BaseThermostat
from .const import (
DOMAIN,
PLATFORMS,
CONFIG_VERSION,
CONFIG_MINOR_VERSION,
CONF_AUTO_REGULATION_LIGHT,
CONF_AUTO_REGULATION_MEDIUM,
CONF_AUTO_REGULATION_STRONG,
@@ -31,13 +27,6 @@ from .const import (
CONF_SAFETY_MODE,
CONF_THERMOSTAT_CENTRAL_CONFIG,
CONF_THERMOSTAT_TYPE,
CONF_USE_WINDOW_FEATURE,
CONF_USE_MOTION_FEATURE,
CONF_USE_PRESENCE_FEATURE,
CONF_USE_POWER_FEATURE,
CONF_USE_CENTRAL_BOILER_FEATURE,
CONF_POWER_SENSOR,
CONF_PRESENCE_SENSOR,
)
from .vtherm_api import VersatileThermostatAPI
@@ -108,16 +97,13 @@ async def async_setup(
"VersatileThermostat - HA is started, initialize all links between VTherm entities"
)
await api.init_vtherm_links()
await api.notify_central_mode_change()
await api.reload_central_boiler_entities_list()
if hass.state == CoreState.running:
await _async_startup_internal()
else:
hass.bus.async_listen_once(EVENT_HOMEASSISTANT_STARTED, _async_startup_internal)
async_register_admin_service(
hass,
hass.helpers.service.async_register_admin_service(
DOMAIN,
SERVICE_RELOAD,
_handle_reload,
@@ -160,9 +146,8 @@ async def async_setup_entry(hass: HomeAssistant, entry: ConfigEntry) -> bool:
await hass.config_entries.async_forward_entry_setups(entry, PLATFORMS)
if hass.state == CoreState.running:
await api.reload_central_boiler_entities_list()
await api.init_vtherm_links()
await api.reload_central_boiler_entities_list()
await api.init_vtherm_links()
return True
@@ -195,40 +180,15 @@ async def async_unload_entry(hass: HomeAssistant, entry: ConfigEntry) -> bool:
# Example migration function
async def async_migrate_entry(hass: HomeAssistant, config_entry: ConfigEntry):
"""Migrate old entry."""
_LOGGER.debug(
"Migrating from version %s/%s", config_entry.version, config_entry.minor_version
)
_LOGGER.debug("Migrating from version %s", config_entry.version)
if (
config_entry.version != CONFIG_VERSION
or config_entry.minor_version != CONFIG_MINOR_VERSION
):
_LOGGER.debug(
"Migration to %s/%s is needed", CONFIG_VERSION, CONFIG_MINOR_VERSION
)
if config_entry.version == 1:
new = {**config_entry.data}
# TO DO: modify Config Entry data if there will be something to migrate
if (
config_entry.data.get(CONF_THERMOSTAT_TYPE)
== CONF_THERMOSTAT_CENTRAL_CONFIG
):
new[CONF_USE_WINDOW_FEATURE] = True
new[CONF_USE_MOTION_FEATURE] = True
new[CONF_USE_POWER_FEATURE] = new.get(CONF_POWER_SENSOR, None) is not None
new[CONF_USE_PRESENCE_FEATURE] = (
new.get(CONF_PRESENCE_SENSOR, None) is not None
)
config_entry.version = 2
hass.config_entries.async_update_entry(config_entry, data=new)
new[CONF_USE_CENTRAL_BOILER_FEATURE] = new.get(
"add_central_boiler_control", False
) or new.get(CONF_USE_CENTRAL_BOILER_FEATURE, False)
hass.config_entries.async_update_entry(
config_entry,
data=new,
version=CONFIG_VERSION,
minor_version=CONFIG_MINOR_VERSION,
)
_LOGGER.info("Migration to version %s successful", config_entry.version)
_LOGGER.info("Migration to version %s successful", config_entry.version)
return True

223
custom_components/versatile_thermostat/auto_start_stop_algorithm.py
View File

@@ -1,223 +0,0 @@
# pylint: disable=line-too-long
""" This file implements the Auto start/stop algorithm as described here: https://github.com/jmcollin78/versatile_thermostat/issues/585
"""
import logging
from datetime import datetime, timedelta
from typing import Literal
from homeassistant.components.climate import HVACMode
from .const import (
AUTO_START_STOP_LEVEL_NONE,
AUTO_START_STOP_LEVEL_FAST,
AUTO_START_STOP_LEVEL_MEDIUM,
AUTO_START_STOP_LEVEL_SLOW,
CONF_AUTO_START_STOP_LEVELS,
TYPE_AUTO_START_STOP_LEVELS,
)
_LOGGER = logging.getLogger(__name__)
# Some constant to make algorithm depending of level
DT_MIN = {
AUTO_START_STOP_LEVEL_NONE: 0, # Not used
AUTO_START_STOP_LEVEL_SLOW: 30,
AUTO_START_STOP_LEVEL_MEDIUM: 15,
AUTO_START_STOP_LEVEL_FAST: 7,
}
# the measurement cycle (2 min)
CYCLE_SEC = 120
ERROR_THRESHOLD = {
AUTO_START_STOP_LEVEL_NONE: 0, # Not used
AUTO_START_STOP_LEVEL_SLOW: 10, # 10 cycle above 1° or 5 cycle above 2°, ...
AUTO_START_STOP_LEVEL_MEDIUM: 5, # 5 cycle above 1° or 3 cycle above 2°, ..., 1 cycle above 5°
AUTO_START_STOP_LEVEL_FAST: 2, # 2 cycle above 1° or 1 cycle above 2°
}
AUTO_START_STOP_ACTION_OFF = "turnOff"
AUTO_START_STOP_ACTION_ON = "turnOn"
AUTO_START_STOP_ACTION_NOTHING = "nothing"
AUTO_START_STOP_ACTIONS = Literal[ # pylint: disable=invalid-name
AUTO_START_STOP_ACTION_OFF,
AUTO_START_STOP_ACTION_ON,
AUTO_START_STOP_ACTION_NOTHING,
]
class AutoStartStopDetectionAlgorithm:
"""The class that implements the algorithm listed above"""
_dt: float | None = None
_level: str = AUTO_START_STOP_LEVEL_NONE
_accumulated_error: float = 0
_error_threshold: float | None = None
_last_calculation_date: datetime | None = None
def __init__(self, level: TYPE_AUTO_START_STOP_LEVELS, vtherm_name) -> None:
"""Initalize a new algorithm with the right constants"""
self._vtherm_name = vtherm_name
self._init_level(level)
def _init_level(self, level: TYPE_AUTO_START_STOP_LEVELS):
"""Initialize a new level"""
if level == self._level:
return
self._level = level
if self._level != AUTO_START_STOP_LEVEL_NONE:
self._dt = DT_MIN[level]
self._error_threshold = ERROR_THRESHOLD[level]
# reset accumulated error if we change the level
self._accumulated_error = 0
def calculate_action(
self,
hvac_mode: HVACMode | None,
saved_hvac_mode: HVACMode | None,
target_temp: float,
current_temp: float,
slope_min: float,
now: datetime,
) -> AUTO_START_STOP_ACTIONS:
"""Calculate an eventual action to do depending of the value in parameter"""
if self._level == AUTO_START_STOP_LEVEL_NONE:
_LOGGER.debug(
"%s - auto-start/stop is disabled",
self,
)
return AUTO_START_STOP_ACTION_NOTHING
if (
hvac_mode is None
or target_temp is None
or current_temp is None
or slope_min is None
):
_LOGGER.debug(
"%s - No all mandatory parameters are set. Disable auto-start/stop",
self,
)
return AUTO_START_STOP_ACTION_NOTHING
_LOGGER.debug(
"%s - calculate_action: hvac_mode=%s, saved_hvac_mode=%s, target_temp=%s, current_temp=%s, slope_min=%s at %s",
self,
hvac_mode,
saved_hvac_mode,
target_temp,
current_temp,
slope_min,
now,
)
# Calculate the error factor (P)
error = target_temp - current_temp
# reduce the error considering the dt between the last measurement
if self._last_calculation_date is not None:
dtmin = (now - self._last_calculation_date).total_seconds() / CYCLE_SEC
# ignore two calls too near (< 2,5 min)
if dtmin <= 0.5:
_LOGGER.debug(
"%s - new calculation of auto_start_stop (%s) is too near of the last one (%s). Forget it",
self,
now,
self._last_calculation_date,
)
return AUTO_START_STOP_ACTION_NOTHING
error = error * dtmin
# If the error have change its sign, reset smoothly the accumulated error
if error * self._accumulated_error < 0:
self._accumulated_error = self._accumulated_error / 2.0
self._accumulated_error += error
# Capping of the error
self._accumulated_error = min(
self._error_threshold,
max(-self._error_threshold, self._accumulated_error),
)
self._last_calculation_date = now
# Check to turn-off
# When we hit the threshold, that mean we can turn off
if hvac_mode == HVACMode.HEAT:
if self._accumulated_error <= -self._error_threshold:
_LOGGER.info(
"%s - We need to stop, there is no need for heating for a long time.",
)
return AUTO_START_STOP_ACTION_OFF
else:
_LOGGER.debug(
"%s - nothing to do, we are heating",
)
return AUTO_START_STOP_ACTION_NOTHING
if hvac_mode == HVACMode.COOL:
if self._accumulated_error >= self._error_threshold:
_LOGGER.info(
"%s - We need to stop, there is no need for cooling for a long time.",
)
return AUTO_START_STOP_ACTION_OFF
else:
_LOGGER.debug(
"%s - nothing to do, we are cooling",
)
return AUTO_START_STOP_ACTION_NOTHING
# check to turn on
if hvac_mode == HVACMode.OFF and saved_hvac_mode == HVACMode.HEAT:
if current_temp + slope_min * self._dt <= target_temp:
_LOGGER.info(
"%s - We need to start, because it will be time to heat",
)
return AUTO_START_STOP_ACTION_ON
else:
_LOGGER.debug(
"%s - nothing to do, we don't need to heat soon",
)
return AUTO_START_STOP_ACTION_NOTHING
if hvac_mode == HVACMode.OFF and saved_hvac_mode == HVACMode.COOL:
if current_temp + slope_min * self._dt >= target_temp:
_LOGGER.info(
"%s - We need to start, because it will be time to cool",
)
return AUTO_START_STOP_ACTION_ON
else:
_LOGGER.debug(
"%s - nothing to do, we don't need to cool soon",
)
return AUTO_START_STOP_ACTION_NOTHING
_LOGGER.debug(
"%s - nothing to do, no conditions applied",
)
return AUTO_START_STOP_ACTION_NOTHING
def set_level(self, level: TYPE_AUTO_START_STOP_LEVELS):
"""Set a new level"""
self._init_level(level)
@property
def dt_min(self) -> float:
"""Get the dt value"""
return self._dt
@property
def accumulated_error(self) -> float:
"""Get the accumulated error value"""
return self._accumulated_error
@property
def level(self) -> TYPE_AUTO_START_STOP_LEVELS:
"""Get the level value"""
return self._level
def __str__(self) -> str:
return f"AutoStartStopDetectionAlgorithm-{self._vtherm_name}"

530
custom_components/versatile_thermostat/base_thermostat.py
View File

@@ -7,22 +7,22 @@ import logging
from datetime import timedelta, datetime
from types import MappingProxyType
from typing import Any, TypeVar, Generic
from typing import Any
from homeassistant.util import dt as dt_util
from homeassistant.core import (
HomeAssistant,
callback,
CoreState,
Event,
State,
)
from homeassistant.components.climate import ClimateEntity
from homeassistant.helpers.restore_state import RestoreEntity
from homeassistant.helpers.entity import Entity
from homeassistant.config_entries import ConfigEntry
from homeassistant.helpers.device_registry import DeviceInfo, DeviceEntryType
from homeassistant.helpers.typing import EventType as HASSEventType
from homeassistant.helpers.event import (
async_track_state_change_event,
@@ -58,6 +58,7 @@ from homeassistant.const import (
STATE_UNKNOWN,
STATE_OFF,
STATE_ON,
EVENT_HOMEASSISTANT_START,
STATE_HOME,
STATE_NOT_HOME,
)
@@ -67,7 +68,6 @@ from .const import (
DEVICE_MANUFACTURER,
CONF_POWER_SENSOR,
CONF_TEMP_SENSOR,
CONF_LAST_SEEN_TEMP_SENSOR,
CONF_EXTERNAL_TEMP_SENSOR,
CONF_MAX_POWER_SENSOR,
CONF_WINDOW_SENSOR,
@@ -140,7 +140,6 @@ from .ema import ExponentialMovingAverage
_LOGGER = logging.getLogger(__name__)
ConfigData = MappingProxyType[str, Any]
T = TypeVar("T", bound=UnderlyingEntity)
def get_tz(hass: HomeAssistant):
@@ -149,7 +148,7 @@ def get_tz(hass: HomeAssistant):
return dt_util.get_time_zone(hass.config.time_zone)
class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
class BaseThermostat(ClimateEntity, RestoreEntity):
"""Representation of a base class for all Versatile Thermostat device."""
_entity_component_unrecorded_attributes = (
@@ -215,9 +214,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
super().__init__()
# To remove some silly warning event if code is fixed
self._enable_turn_on_off_backwards_compatibility = False
self._hass = hass
self._entry_infos = None
self._attr_extra_state_attributes = {}
@@ -242,9 +238,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
self._motion_call_cancel = None
self._cur_temp = None
self._ac_mode = None
self._temp_sensor_entity_id = None
self._last_seen_temp_sensor_entity_id = None
self._ext_temp_sensor_entity_id = None
self._last_ext_temperature_measure = None
self._last_temperature_measure = None
self._cur_ext_temp = None
@@ -282,7 +275,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
self._last_change_time = None
self._underlyings: list[T] = []
self._underlyings: list[UnderlyingEntity] = []
self._ema_temp = None
self._ema_algo = None
@@ -299,7 +292,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
self._presets: dict[str, Any] = {} # presets
self._presets_away: dict[str, Any] = {} # presets_away
self._attr_preset_modes: list[str] = []
self._attr_preset_modes: list[str] | None
self._use_central_config_temperature = False
@@ -396,9 +389,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
self._proportional_function = entry_infos.get(CONF_PROP_FUNCTION)
self._temp_sensor_entity_id = entry_infos.get(CONF_TEMP_SENSOR)
self._last_seen_temp_sensor_entity_id = entry_infos.get(
CONF_LAST_SEEN_TEMP_SENSOR
)
self._ext_temp_sensor_entity_id = entry_infos.get(CONF_EXTERNAL_TEMP_SENSOR)
self._power_sensor_entity_id = entry_infos.get(CONF_POWER_SENSOR)
self._max_power_sensor_entity_id = entry_infos.get(CONF_MAX_POWER_SENSOR)
@@ -531,7 +521,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
self._overpowering_state = None
self._presence_state = None
self._total_energy = None
self._total_energy = 0
# Read the parameter from configuration.yaml if it exists
short_ema_params = DEFAULT_SHORT_EMA_PARAMS
@@ -580,15 +570,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
)
)
if self._last_seen_temp_sensor_entity_id:
self.async_on_remove(
async_track_state_change_event(
self.hass,
[self._last_seen_temp_sensor_entity_id],
self._async_last_seen_temperature_changed,
)
)
if self._ext_temp_sensor_entity_id:
self.async_on_remove(
async_track_state_change_event(
@@ -644,8 +625,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
self.async_on_remove(self.remove_thermostat)
# issue 428. Link to others entities will start at link
# await self.async_startup()
await self.async_startup()
def remove_thermostat(self):
"""Called when the thermostat will be removed"""
@@ -653,157 +633,155 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
for under in self._underlyings:
under.remove_entity()
async def async_startup(self, central_configuration):
async def async_startup(self):
"""Triggered on startup, used to get old state and set internal states accordingly"""
_LOGGER.debug("%s - Calling async_startup", self)
_LOGGER.debug("%s - Calling async_startup_internal", self)
need_write_state = False
@callback
async def _async_startup_internal(*_):
_LOGGER.debug("%s - Calling async_startup_internal", self)
need_write_state = False
# Initialize all UnderlyingEntities
self.init_underlyings()
temperature_state = self.hass.states.get(self._temp_sensor_entity_id)
if temperature_state and temperature_state.state not in (
STATE_UNAVAILABLE,
STATE_UNKNOWN,
):
_LOGGER.debug(
"%s - temperature sensor have been retrieved: %.1f",
self,
float(temperature_state.state),
)
await self._async_update_temp(temperature_state)
need_write_state = True
if self._ext_temp_sensor_entity_id:
ext_temperature_state = self.hass.states.get(
self._ext_temp_sensor_entity_id
)
if ext_temperature_state and ext_temperature_state.state not in (
STATE_UNAVAILABLE,
STATE_UNKNOWN,
):
_LOGGER.debug(
"%s - external temperature sensor have been retrieved: %.1f",
self,
float(ext_temperature_state.state),
)
await self._async_update_ext_temp(ext_temperature_state)
else:
_LOGGER.debug(
"%s - external temperature sensor have NOT been retrieved cause unknown or unavailable",
self,
)
else:
_LOGGER.debug(
"%s - external temperature sensor have NOT been retrieved cause no external sensor",
self,
)
if self._pmax_on:
# try to acquire current power and power max
current_power_state = self.hass.states.get(self._power_sensor_entity_id)
if current_power_state and current_power_state.state not in (
STATE_UNAVAILABLE,
STATE_UNKNOWN,
):
self._current_power = float(current_power_state.state)
_LOGGER.debug(
"%s - Current power have been retrieved: %.3f",
self,
self._current_power,
)
need_write_state = True
# Try to acquire power max
current_power_max_state = self.hass.states.get(
self._max_power_sensor_entity_id
)
if current_power_max_state and current_power_max_state.state not in (
STATE_UNAVAILABLE,
STATE_UNKNOWN,
):
self._current_power_max = float(current_power_max_state.state)
_LOGGER.debug(
"%s - Current power max have been retrieved: %.3f",
self,
self._current_power_max,
)
need_write_state = True
# try to acquire window entity state
if self._window_sensor_entity_id:
window_state = self.hass.states.get(self._window_sensor_entity_id)
if window_state and window_state.state not in (
STATE_UNAVAILABLE,
STATE_UNKNOWN,
):
self._window_state = window_state.state == STATE_ON
_LOGGER.debug(
"%s - Window state have been retrieved: %s",
self,
self._window_state,
)
need_write_state = True
# try to acquire motion entity state
if self._motion_sensor_entity_id:
motion_state = self.hass.states.get(self._motion_sensor_entity_id)
if motion_state and motion_state.state not in (
STATE_UNAVAILABLE,
STATE_UNKNOWN,
):
self._motion_state = motion_state.state
_LOGGER.debug(
"%s - Motion state have been retrieved: %s",
self,
self._motion_state,
)
# recalculate the right target_temp in activity mode
await self._async_update_motion_temp()
need_write_state = True
if self._presence_on:
# try to acquire presence entity state
presence_state = self.hass.states.get(self._presence_sensor_entity_id)
if presence_state and presence_state.state not in (
STATE_UNAVAILABLE,
STATE_UNKNOWN,
):
await self._async_update_presence(presence_state.state)
_LOGGER.debug(
"%s - Presence have been retrieved: %s",
self,
presence_state.state,
)
need_write_state = True
if need_write_state:
self.async_write_ha_state()
if self._prop_algorithm:
self._prop_algorithm.calculate(
self._target_temp,
self._cur_temp,
self._cur_ext_temp,
self._hvac_mode or HVACMode.OFF,
)
self.reset_last_change_time()
await self.get_my_previous_state()
await self.init_presets(central_configuration)
# Initialize all UnderlyingEntities
self.init_underlyings()
temperature_state = self.hass.states.get(self._temp_sensor_entity_id)
if temperature_state and temperature_state.state not in (
STATE_UNAVAILABLE,
STATE_UNKNOWN,
):
_LOGGER.debug(
"%s - temperature sensor have been retrieved: %.1f",
self,
float(temperature_state.state),
)
await self._async_update_temp(temperature_state)
need_write_state = True
if self._ext_temp_sensor_entity_id:
ext_temperature_state = self.hass.states.get(
self._ext_temp_sensor_entity_id
)
if ext_temperature_state and ext_temperature_state.state not in (
STATE_UNAVAILABLE,
STATE_UNKNOWN,
):
_LOGGER.debug(
"%s - external temperature sensor have been retrieved: %.1f",
self,
float(ext_temperature_state.state),
)
await self._async_update_ext_temp(ext_temperature_state)
else:
_LOGGER.debug(
"%s - external temperature sensor have NOT been retrieved cause unknown or unavailable",
self,
)
if self.hass.state == CoreState.running:
await _async_startup_internal()
else:
_LOGGER.debug(
"%s - external temperature sensor have NOT been retrieved cause no external sensor",
self,
self.hass.bus.async_listen_once(
EVENT_HOMEASSISTANT_START, _async_startup_internal
)
if self._pmax_on:
# try to acquire current power and power max
current_power_state = self.hass.states.get(self._power_sensor_entity_id)
if current_power_state and current_power_state.state not in (
STATE_UNAVAILABLE,
STATE_UNKNOWN,
):
self._current_power = float(current_power_state.state)
_LOGGER.debug(
"%s - Current power have been retrieved: %.3f",
self,
self._current_power,
)
need_write_state = True
# Try to acquire power max
current_power_max_state = self.hass.states.get(
self._max_power_sensor_entity_id
)
if current_power_max_state and current_power_max_state.state not in (
STATE_UNAVAILABLE,
STATE_UNKNOWN,
):
self._current_power_max = float(current_power_max_state.state)
_LOGGER.debug(
"%s - Current power max have been retrieved: %.3f",
self,
self._current_power_max,
)
need_write_state = True
# try to acquire window entity state
if self._window_sensor_entity_id:
window_state = self.hass.states.get(self._window_sensor_entity_id)
if window_state and window_state.state not in (
STATE_UNAVAILABLE,
STATE_UNKNOWN,
):
self._window_state = window_state.state == STATE_ON
_LOGGER.debug(
"%s - Window state have been retrieved: %s",
self,
self._window_state,
)
need_write_state = True
# try to acquire motion entity state
if self._motion_sensor_entity_id:
motion_state = self.hass.states.get(self._motion_sensor_entity_id)
if motion_state and motion_state.state not in (
STATE_UNAVAILABLE,
STATE_UNKNOWN,
):
self._motion_state = motion_state.state
_LOGGER.debug(
"%s - Motion state have been retrieved: %s",
self,
self._motion_state,
)
# recalculate the right target_temp in activity mode
await self._async_update_motion_temp()
need_write_state = True
if self._presence_on:
# try to acquire presence entity state
presence_state = self.hass.states.get(self._presence_sensor_entity_id)
if presence_state and presence_state.state not in (
STATE_UNAVAILABLE,
STATE_UNKNOWN,
):
await self._async_update_presence(presence_state.state)
_LOGGER.debug(
"%s - Presence have been retrieved: %s",
self,
presence_state.state,
)
need_write_state = True
if need_write_state:
self.async_write_ha_state()
if self._prop_algorithm:
self._prop_algorithm.calculate(
self._target_temp,
self._cur_temp,
self._cur_ext_temp,
self._hvac_mode or HVACMode.OFF,
)
self.hass.create_task(self._check_initial_state())
self.reset_last_change_time()
# if self.hass.state == CoreState.running:
# await _async_startup_internal()
# else:
# self.hass.bus.async_listen_once(
# EVENT_HOMEASSISTANT_START, _async_startup_internal
# )
def init_underlyings(self):
"""Initialize all underlyings. Should be overriden if necessary"""
@@ -843,23 +821,23 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
# Never restore a Power or Security preset
if old_preset_mode is not None and old_preset_mode not in HIDDEN_PRESETS:
# old_preset_mode in self._attr_preset_modes
self._attr_preset_mode = old_preset_mode
self._attr_preset_mode = old_state.attributes.get(ATTR_PRESET_MODE)
self.save_preset_mode()
else:
self._attr_preset_mode = PRESET_NONE
if old_state.state in [
if not self._hvac_mode and old_state.state in [
HVACMode.OFF,
HVACMode.HEAT,
HVACMode.COOL,
]:
self._hvac_mode = old_state.state
else:
if not self._hvac_mode:
self._hvac_mode = HVACMode.OFF
self._hvac_mode = HVACMode.OFF
old_total_energy = old_state.attributes.get(ATTR_TOTAL_ENERGY)
self._total_energy = old_total_energy if old_total_energy else 0
if old_total_energy:
self._total_energy = old_total_energy
self.restore_specific_previous_state(old_state)
else:
@@ -872,7 +850,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
_LOGGER.warning(
"No previously saved temperature, setting to %s", self._target_temp
)
self._total_energy = 0
self._saved_target_temp = self._target_temp
@@ -1062,10 +1039,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
@property
def total_energy(self) -> float | None:
"""Returns the total energy calculated for this thermostast"""
if self._total_energy is not None:
return round(self._total_energy, 2)
else:
return None
return round(self._total_energy, 2)
@property
def device_power(self) -> float | None:
@@ -1161,17 +1135,10 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
return len(self._underlyings)
@property
def underlying_entities(self) -> list | None:
def underlying_entities(self) -> int:
"""Returns the underlying entities"""
return self._underlyings
def find_underlying_by_entity_id(self, entity_id: str) -> Entity | None:
"""Get the underlying entity by a entity_id"""
for under in self._underlyings:
if under.entity_id == entity_id:
return under
return None
@property
def is_on(self) -> bool:
"""True if the VTherm is on (! HVAC_OFF)"""
@@ -1244,7 +1211,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
)
# If AC is on maybe we have to change the temperature in force mode, but not in frost mode (there is no Frost protection possible in AC mode)
if self._hvac_mode in [HVACMode.COOL, HVACMode.HEAT, HVACMode.HEAT_COOL] and self.preset_mode != PRESET_NONE:
if self._hvac_mode == HVACMode.COOL and self.preset_mode != PRESET_NONE:
if self.preset_mode != PRESET_FROST_PROTECTION:
await self._async_set_preset_mode_internal(self.preset_mode, True)
else:
@@ -1267,31 +1234,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
self, preset_mode: str, overwrite_saved_preset=True
):
"""Set new preset mode."""
# Wer accept a new preset when:
# 1. last_central_mode is not set,
# 2. or last_central_mode is AUTO,
# 3. or last_central_mode is CENTRAL_MODE_FROST_PROTECTION and preset_mode is PRESET_FROST_PROTECTION (to be abel to re-set the preset_mode)
accept = self._last_central_mode in [
None,
CENTRAL_MODE_AUTO,
CENTRAL_MODE_COOL_ONLY,
CENTRAL_MODE_HEAT_ONLY,
CENTRAL_MODE_STOPPED,
] or (
self._last_central_mode == CENTRAL_MODE_FROST_PROTECTION
and preset_mode == PRESET_FROST_PROTECTION
)
if not accept:
_LOGGER.info(
"%s - Impossible to change the preset to %s because central mode is %s",
self,
preset_mode,
self._last_central_mode,
)
return
await self._async_set_preset_mode_internal(
preset_mode, force=False, overwrite_saved_preset=overwrite_saved_preset
)
@@ -1383,23 +1325,13 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
if preset_mode == PRESET_POWER:
return self._power_temp
if preset_mode == PRESET_ACTIVITY:
if self._ac_mode and self._hvac_mode == HVACMode.COOL:
motion_preset = (
self._motion_preset + PRESET_AC_SUFFIX
if self._motion_state == STATE_ON
else self._no_motion_preset + PRESET_AC_SUFFIX
)
else:
motion_preset = (
return self._presets[
(
self._motion_preset
if self._motion_state == STATE_ON
else self._no_motion_preset
)
if motion_preset in self._presets:
return self._presets[motion_preset]
else:
return None
]
else:
# Select _ac presets if in COOL Mode (or over_switch with _ac_mode)
if self._ac_mode and self._hvac_mode == HVACMode.COOL:
@@ -1459,8 +1391,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
"""Set the target temperature and the target temperature of underlying climate if any
For testing purpose you can pass an event_timestamp.
"""
if temperature:
self._target_temp = temperature
self._target_temp = temperature
return
def get_state_date_or_now(self, state: State) -> datetime:
@@ -1503,44 +1434,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
await self.async_control_heating(force=False)
return dearm_window_auto
@callback
async def _async_last_seen_temperature_changed(self, event: Event):
"""Handle last seen temperature sensor changes."""
new_state: State = event.data.get("new_state")
_LOGGER.debug(
"%s - Last seen temperature changed. Event.new_state is %s",
self,
new_state,
)
if new_state is None or new_state.state in (STATE_UNAVAILABLE, STATE_UNKNOWN):
return
# try to extract the datetime (from state)
try:
# Convertir la chaîne au format ISO 8601 en objet datetime
self._last_temperature_measure = self.get_last_updated_date_or_now(
new_state
)
self.reset_last_change_time()
_LOGGER.debug(
"%s - new last_temperature_measure is now: %s",
self,
self._last_temperature_measure,
)
# try to restart if we were in safety mode
if self._security_state:
await self.check_safety()
except ValueError as err:
# La conversion a échoué, la chaîne n'est pas au format ISO 8601
_LOGGER.warning(
"%s - impossible to convert last seen datetime %s. Error is: %s",
self,
new_state.state,
err,
)
async def _async_ext_temperature_changed(self, event: Event):
"""Handle external temperature opf the sensor changes."""
new_state: State = event.data.get("new_state")
@@ -1654,32 +1547,12 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
if not long_enough:
_LOGGER.debug(
"Motion delay condition is not satisfied (the sensor have change its state during the delay). Check motion sensor state"
"Motion delay condition is not satisfied. Ignore motion event"
)
# Get sensor current state
motion_state = self.hass.states.get(self._motion_sensor_entity_id)
_LOGGER.debug(
"%s - motion_state=%s, new_state.state=%s",
self,
motion_state.state,
new_state.state,
)
if (
motion_state.state == new_state.state
and new_state.state == STATE_ON
):
_LOGGER.debug(
"%s - the motion sensor is finally 'on' after the delay", self
)
long_enough = True
else:
long_enough = False
if long_enough:
else:
_LOGGER.debug("%s - Motion delay condition is satisfied", self)
self._motion_state = new_state.state
if self._attr_preset_mode == PRESET_ACTIVITY:
new_preset = (
self._motion_preset
if self._motion_state == STATE_ON
@@ -1692,17 +1565,11 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
)
# We do not change the preset which is kept to ACTIVITY but only the target_temperature
# We take the presence into account
await self._async_internal_set_temperature(
self.find_preset_temp(new_preset)
)
self.recalculate()
await self.async_control_heating(force=True)
else:
self._motion_state = (
STATE_ON if new_state.state == STATE_OFF else STATE_OFF
)
self._motion_call_cancel = None
im_on = self._motion_state == STATE_ON
@@ -1820,7 +1687,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
_LOGGER.error("Unable to update external temperature from sensor: %s", ex)
@callback
async def _async_power_changed(self, event: Event[EventStateChangedData]):
async def _async_power_changed(self, event: HASSEventType[EventStateChangedData]):
"""Handle power changes."""
_LOGGER.debug("Thermostat %s - Receive new Power event", self.name)
_LOGGER.debug(event)
@@ -1846,7 +1713,9 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
_LOGGER.error("Unable to update current_power from sensor: %s", ex)
@callback
async def _async_max_power_changed(self, event: Event[EventStateChangedData]):
async def _async_max_power_changed(
self, event: HASSEventType[EventStateChangedData]
):
"""Handle power max changes."""
_LOGGER.debug("Thermostat %s - Receive new Power Max event", self.name)
_LOGGER.debug(event)
@@ -1871,7 +1740,9 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
_LOGGER.error("Unable to update current_power from sensor: %s", ex)
@callback
async def _async_presence_changed(self, event: Event[EventStateChangedData]):
async def _async_presence_changed(
self, event: HASSEventType[EventStateChangedData]
):
"""Handle presence changes."""
new_state = event.data.get("new_state")
_LOGGER.info(
@@ -1932,23 +1803,15 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
):
return
new_preset = (
self._motion_preset
if self._motion_state == STATE_ON
else self._no_motion_preset
)
_LOGGER.info(
"%s - Motion condition have changes. New preset temp will be %s",
self,
new_preset,
)
# We do not change the preset which is kept to ACTIVITY but only the target_temperature
# We take the presence into account
await self._async_internal_set_temperature(
self.find_preset_temp(new_preset)
self._presets[
(
self._motion_preset
if self._motion_state == STATE_ON
else self._no_motion_preset
)
]
)
_LOGGER.debug(
"%s - regarding motion, target_temp have been set to %.2f",
self,
@@ -2135,17 +1998,13 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
self._device_power,
)
# issue 407 - power_consumption_max is power we need to add. If already active we don't need to add more power
if self.is_device_active:
power_consumption_max = 0
if self.is_over_climate:
power_consumption_max = self._device_power
else:
if self.is_over_climate:
power_consumption_max = self._device_power
else:
power_consumption_max = max(
self._device_power / self.nb_underlying_entities,
self._device_power * self._prop_algorithm.on_percent,
)
power_consumption_max = max(
self._device_power / self.nb_underlying_entities,
self._device_power * self._prop_algorithm.on_percent,
)
ret = (self._current_power + power_consumption_max) >= self._current_power_max
if not self._overpowering_state and ret and self._hvac_mode != HVACMode.OFF:
@@ -2214,8 +2073,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
new_central_mode,
)
first_init = self._last_central_mode is None
self._last_central_mode = new_central_mode
def save_all():
@@ -2224,7 +2081,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
self.save_hvac_mode()
if new_central_mode == CENTRAL_MODE_AUTO:
if self.window_state is not STATE_ON and not first_init:
if self.window_state is not STATE_ON:
await self.restore_hvac_mode()
await self.restore_preset_mode()
@@ -2373,12 +2230,12 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
self._security_state = True
self.save_hvac_mode()
self.save_preset_mode()
if self._prop_algorithm:
self._prop_algorithm.set_security(self._security_default_on_percent)
await self._async_set_preset_mode_internal(PRESET_SECURITY)
# Turn off the underlying climate or heater if security default on_percent is 0
if self.is_over_climate or self._security_default_on_percent <= 0.0:
await self.async_set_hvac_mode(HVACMode.OFF, False)
if self._prop_algorithm:
self._prop_algorithm.set_security(self._security_default_on_percent)
self.send_event(
EventType.SECURITY_EVENT,
@@ -2405,12 +2262,12 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
self._saved_preset_mode,
)
self._security_state = False
if self._prop_algorithm:
self._prop_algorithm.unset_security()
# Restore hvac_mode if previously saved
if self.is_over_climate or self._security_default_on_percent <= 0.0:
await self.restore_hvac_mode(False)
await self.restore_preset_mode()
if self._prop_algorithm:
self._prop_algorithm.unset_security()
self.send_event(
EventType.SECURITY_EVENT,
{
@@ -2640,7 +2497,7 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
"""update the entity if the config entry have been updated
Note: this don't work either
"""
_LOGGER.info("%s - The config entry have been updated", self)
_LOGGER.info("%s - The config entry have been updated")
async def service_set_presence(self, presence: str):
"""Called by a service call:
@@ -2838,11 +2695,4 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
if self._attr_preset_mode:
await self._async_set_preset_mode_internal(self._attr_preset_mode, True)
async def async_turn_off(self) -> None:
await self.async_set_hvac_mode(HVACMode.OFF)
async def async_turn_on(self) -> None:
if self._ac_mode:
await self.async_set_hvac_mode(HVACMode.COOL)
else:
await self.async_set_hvac_mode(HVACMode.HEAT)
self.hass.create_task(self._check_initial_state())

13
custom_components/versatile_thermostat/binary_sensor.py
View File

@@ -39,7 +39,6 @@ from .const import (
CONF_USE_WINDOW_FEATURE,
CONF_THERMOSTAT_TYPE,
CONF_THERMOSTAT_CENTRAL_CONFIG,
CONF_USE_CENTRAL_BOILER_FEATURE,
CONF_CENTRAL_BOILER_ACTIVATION_SRV,
CONF_CENTRAL_BOILER_DEACTIVATION_SRV,
overrides,
@@ -64,13 +63,10 @@ async def async_setup_entry(
name = entry.data.get(CONF_NAME)
vt_type = entry.data.get(CONF_THERMOSTAT_TYPE)
entities = None
if vt_type == CONF_THERMOSTAT_CENTRAL_CONFIG:
if entry.data.get(CONF_USE_CENTRAL_BOILER_FEATURE):
entities = [
CentralBoilerBinarySensor(hass, unique_id, name, entry.data),
]
entities = [
CentralBoilerBinarySensor(hass, unique_id, name, entry.data),
]
else:
entities = [
SecurityBinarySensor(hass, unique_id, name, entry.data),
@@ -85,8 +81,7 @@ async def async_setup_entry(
if entry.data.get(CONF_USE_POWER_FEATURE):
entities.append(OverpoweringBinarySensor(hass, unique_id, name, entry.data))
if entities:
async_add_entities(entities, True)
async_add_entities(entities, True)
class SecurityBinarySensor(VersatileThermostatBaseEntity, BinarySensorEntity):

7
custom_components/versatile_thermostat/climate.py
View File

@@ -72,13 +72,6 @@ async def async_setup_entry(
entity = ThermostatOverClimate(hass, unique_id, name, entry.data)
elif vt_type == CONF_THERMOSTAT_VALVE:
entity = ThermostatOverValve(hass, unique_id, name, entry.data)
else:
_LOGGER.error(
"Cannot create Versatile Thermostat name=%s of type %s which is unknown",
name,
vt_type,
)
return
async_add_entities([entity], True)

2
custom_components/versatile_thermostat/commons.py
View File

@@ -235,7 +235,7 @@ class VersatileThermostatBaseEntity(Entity):
)
)
else:
_LOGGER.debug("%s - no entity to listen. Try later", self)
_LOGGER.warning("%s - no entity to listen. Try later", self)
self._cancel_call = async_call_later(
self.hass, timedelta(seconds=1), try_find_climate
)

239
custom_components/versatile_thermostat/config_flow.py
View File

@@ -74,9 +74,7 @@ def add_suggested_values_to_schema(
class VersatileThermostatBaseConfigFlow(FlowHandler):
"""The base Config flow class. Used to put some code in commons."""
VERSION = CONFIG_VERSION
MINOR_VERSION = CONFIG_MINOR_VERSION
VERSION = 1
_infos: dict
_placeholders = {
CONF_NAME: "",
@@ -99,38 +97,21 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
def _init_feature_flags(self, _):
"""Fix features selection depending to infos"""
is_central_config = (
self._infos.get(CONF_THERMOSTAT_TYPE) == CONF_THERMOSTAT_CENTRAL_CONFIG
)
is_empty: bool = False # TODO remove this not bool(infos)
self._infos[CONF_USE_WINDOW_FEATURE] = (
self._infos.get(CONF_USE_WINDOW_CENTRAL_CONFIG)
is_empty
or self._infos.get(CONF_WINDOW_SENSOR) is not None
or self._infos.get(CONF_WINDOW_AUTO_OPEN_THRESHOLD) is not None
)
self._infos[CONF_USE_MOTION_FEATURE] = self._infos.get(
CONF_USE_MOTION_FEATURE
) and (self._infos.get(CONF_MOTION_SENSOR) is not None or is_central_config)
self._infos[CONF_USE_POWER_FEATURE] = self._infos.get(
CONF_USE_POWER_CENTRAL_CONFIG
) or (
self._infos[CONF_USE_MOTION_FEATURE] = (
is_empty or self._infos.get(CONF_MOTION_SENSOR) is not None
)
self._infos[CONF_USE_POWER_FEATURE] = is_empty or (
self._infos.get(CONF_POWER_SENSOR) is not None
and self._infos.get(CONF_MAX_POWER_SENSOR) is not None
)
self._infos[CONF_USE_PRESENCE_FEATURE] = (
self._infos.get(CONF_USE_PRESENCE_CENTRAL_CONFIG)
or self._infos.get(CONF_PRESENCE_SENSOR) is not None
)
self._infos[CONF_USE_CENTRAL_BOILER_FEATURE] = (
self._infos.get(CONF_CENTRAL_BOILER_ACTIVATION_SRV) is not None
and self._infos.get(CONF_CENTRAL_BOILER_DEACTIVATION_SRV) is not None
)
self._infos[CONF_USE_AUTO_START_STOP_FEATURE] = (
self._infos.get(CONF_USE_AUTO_START_STOP_FEATURE) is True
and self._infos.get(CONF_THERMOSTAT_TYPE) == CONF_THERMOSTAT_CLIMATE
is_empty or self._infos.get(CONF_PRESENCE_SENSOR) is not None
)
def _init_central_config_flags(self, infos):
@@ -215,7 +196,7 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
raise NoCentralConfig(conf)
# Check the service for central boiler format
if self._infos.get(CONF_USE_CENTRAL_BOILER_FEATURE):
if self._infos.get(CONF_ADD_CENTRAL_BOILER_CONTROL):
for conf in [
CONF_CENTRAL_BOILER_ACTIVATION_SRV,
CONF_CENTRAL_BOILER_DEACTIVATION_SRV,
@@ -227,95 +208,65 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
def check_config_complete(self, infos) -> bool:
"""True if the config is now complete (ie all mandatory attributes are set)"""
is_central_config = (
infos.get(CONF_THERMOSTAT_TYPE) == CONF_THERMOSTAT_CENTRAL_CONFIG
)
if is_central_config:
if (
infos.get(CONF_NAME) is None
or infos.get(CONF_EXTERNAL_TEMP_SENSOR) is None
):
return False
if (
infos.get(CONF_NAME) is None
or infos.get(CONF_TEMP_SENSOR) is None
or infos.get(CONF_CYCLE_MIN) is None
):
return False
if infos.get(CONF_USE_POWER_FEATURE, False) is True and (
if (
infos.get(CONF_USE_MAIN_CENTRAL_CONFIG, False) is False
and infos.get(CONF_EXTERNAL_TEMP_SENSOR) is None
):
return False
if (
infos.get(CONF_THERMOSTAT_TYPE) == CONF_THERMOSTAT_SWITCH
and infos.get(CONF_HEATER, None) is None
):
return False
if (
infos.get(CONF_THERMOSTAT_TYPE) == CONF_THERMOSTAT_CLIMATE
and infos.get(CONF_CLIMATE, None) is None
):
return False
if (
infos.get(CONF_THERMOSTAT_TYPE) == CONF_THERMOSTAT_VALVE
and infos.get(CONF_VALVE, None) is None
):
return False
if (
infos.get(CONF_USE_MOTION_FEATURE, False) is True
and infos.get(CONF_MOTION_SENSOR, None) is None
):
return False
if (
infos.get(CONF_USE_POWER_FEATURE, False) is True
and infos.get(CONF_USE_POWER_CENTRAL_CONFIG, False) is False
and (
infos.get(CONF_POWER_SENSOR, None) is None
or infos.get(CONF_MAX_POWER_SENSOR, None) is None
):
return False
)
):
return False
if (
infos.get(CONF_USE_PRESENCE_FEATURE, False) is True
and infos.get(CONF_PRESENCE_SENSOR, None) is None
):
return False
if (
infos.get(CONF_USE_PRESENCE_FEATURE, False) is True
and infos.get(CONF_USE_PRESENCE_CENTRAL_CONFIG, False) is False
and infos.get(CONF_PRESENCE_SENSOR, None) is None
):
return False
if self._infos[CONF_USE_CENTRAL_BOILER_FEATURE] and (
not self._infos.get(CONF_CENTRAL_BOILER_ACTIVATION_SRV, False)
or len(self._infos.get(CONF_CENTRAL_BOILER_ACTIVATION_SRV)) <= 0
or not self._infos.get(CONF_CENTRAL_BOILER_DEACTIVATION_SRV, False)
or len(self._infos.get(CONF_CENTRAL_BOILER_DEACTIVATION_SRV)) <= 0
):
return False
else:
if (
infos.get(CONF_NAME) is None
or infos.get(CONF_TEMP_SENSOR) is None
or infos.get(CONF_CYCLE_MIN) is None
):
return False
if (
infos.get(CONF_USE_MAIN_CENTRAL_CONFIG, False) is False
and infos.get(CONF_EXTERNAL_TEMP_SENSOR) is None
):
return False
if (
infos.get(CONF_THERMOSTAT_TYPE) == CONF_THERMOSTAT_SWITCH
and infos.get(CONF_HEATER, None) is None
):
return False
if (
infos.get(CONF_THERMOSTAT_TYPE) == CONF_THERMOSTAT_CLIMATE
and infos.get(CONF_CLIMATE, None) is None
):
return False
if (
infos.get(CONF_THERMOSTAT_TYPE) == CONF_THERMOSTAT_VALVE
and infos.get(CONF_VALVE, None) is None
):
return False
if (
infos.get(CONF_USE_MOTION_FEATURE, False) is True
and infos.get(CONF_MOTION_SENSOR, None) is None
):
return False
if (
infos.get(CONF_USE_POWER_FEATURE, False) is True
and infos.get(CONF_USE_POWER_CENTRAL_CONFIG, False) is False
and (
infos.get(CONF_POWER_SENSOR, None) is None
or infos.get(CONF_MAX_POWER_SENSOR, None) is None
)
):
return False
if (
infos.get(CONF_USE_PRESENCE_FEATURE, False) is True
and infos.get(CONF_USE_PRESENCE_CENTRAL_CONFIG, False) is False
and infos.get(CONF_PRESENCE_SENSOR, None) is None
):
return False
if (
infos.get(CONF_USE_ADVANCED_CENTRAL_CONFIG, False) is False
and infos.get(CONF_MINIMAL_ACTIVATION_DELAY, -1) == -1
):
return False
if (
infos.get(CONF_USE_ADVANCED_CENTRAL_CONFIG, False) is False
and infos.get(CONF_MINIMAL_ACTIVATION_DELAY, -1) == -1
):
return False
return True
@@ -355,8 +306,6 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
errors[str(err)] = "no_central_config"
except ServiceConfigurationError as err:
errors[str(err)] = "service_configuration_format"
except ConfigurationNotCompleteError as err:
errors["base"] = "configuration_not_complete"
except Exception: # pylint: disable=broad-except
_LOGGER.exception("Unexpected exception")
errors["base"] = "unknown"
@@ -387,28 +336,17 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
"user", STEP_USER_DATA_SCHEMA, user_input, self.async_step_menu
)
async def async_step_configuration_not_complete(
self, user_input: dict | None = None
) -> FlowResult:
"""A fake step to handle the incomplete configuration flow"""
return await self.async_step_menu(user_input)
async def async_step_menu(self, user_input: dict | None = None) -> FlowResult:
"""Handle the flow steps"""
_LOGGER.debug("Into ConfigFlow.async_step_menu user_input=%s", user_input)
is_central_config = (
self._infos[CONF_THERMOSTAT_TYPE] == CONF_THERMOSTAT_CENTRAL_CONFIG
)
menu_options = ["main", "type"]
if self._infos[CONF_THERMOSTAT_TYPE] == CONF_THERMOSTAT_CENTRAL_CONFIG:
menu_options.append("central_boiler")
else:
menu_options.append("features")
menu_options = ["main", "features"]
if not is_central_config:
menu_options.append("type")
if (
self._infos.get(CONF_PROP_FUNCTION) == PROPORTIONAL_FUNCTION_TPI
or is_central_config
):
if self._infos.get(CONF_PROP_FUNCTION) == PROPORTIONAL_FUNCTION_TPI:
menu_options.append("tpi")
if self._infos[CONF_THERMOSTAT_TYPE] in [
@@ -418,12 +356,6 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
]:
menu_options.append("presets")
if (
is_central_config
and self._infos.get(CONF_USE_CENTRAL_BOILER_FEATURE) is True
):
menu_options.append("central_boiler")
if self._infos[CONF_USE_WINDOW_FEATURE] is True:
menu_options.append("window")
@@ -436,20 +368,10 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
if self._infos[CONF_USE_PRESENCE_FEATURE] is True:
menu_options.append("presence")
if self._infos.get(CONF_USE_AUTO_START_STOP_FEATURE) is True and self._infos[
CONF_THERMOSTAT_TYPE
] in [
CONF_THERMOSTAT_CLIMATE,
]:
menu_options.append("auto_start_stop")
menu_options.append("advanced")
if self.check_config_complete(self._infos):
menu_options.append("finalize")
else:
_LOGGER.info("The configuration is not terminated")
menu_options.append("configuration_not_complete")
return self.async_show_menu(
step_id="menu",
@@ -532,29 +454,13 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
"""Handle the Type flow steps"""
_LOGGER.debug("Into ConfigFlow.async_step_features user_input=%s", user_input)
schema = STEP_FEATURES_DATA_SCHEMA
if self._infos[CONF_THERMOSTAT_TYPE] == CONF_THERMOSTAT_CENTRAL_CONFIG:
schema = STEP_CENTRAL_FEATURES_DATA_SCHEMA
elif self._infos[CONF_THERMOSTAT_TYPE] == CONF_THERMOSTAT_CLIMATE:
schema = STEP_CLIMATE_FEATURES_DATA_SCHEMA
return await self.generic_step(
"features",
schema,
STEP_FEATURES_DATA_SCHEMA,
user_input,
self.async_step_menu,
)
async def async_step_auto_start_stop(self, user_input: dict | None = None) -> FlowResult:
""" Handle the Auto start stop step"""
_LOGGER.debug("Into ConfigFlow.async_step_auto_start_stop user_input=%s", user_input)
schema = STEP_AUTO_START_STOP
self._infos[COMES_FROM] = None
next_step = self.async_step_menu
return await self.generic_step("auto_start_stop", schema, user_input, next_step)
async def async_step_tpi(self, user_input: dict | None = None) -> FlowResult:
"""Handle the TPI flow steps"""
_LOGGER.debug("Into ConfigFlow.async_step_tpi user_input=%s", user_input)
@@ -890,11 +796,6 @@ class VersatileThermostatOptionsFlowHandler(
if not self._infos[CONF_USE_PRESENCE_FEATURE]:
self._infos[CONF_USE_PRESENCE_CENTRAL_CONFIG] = False
self._infos[CONF_PRESENCE_SENSOR] = None
if not self._infos[CONF_USE_CENTRAL_BOILER_FEATURE]:
self._infos[CONF_CENTRAL_BOILER_ACTIVATION_SRV] = None
self._infos[CONF_CENTRAL_BOILER_DEACTIVATION_SRV] = None
if not self._infos[CONF_USE_AUTO_START_STOP_FEATURE]:
self._infos[CONF_AUTO_START_STOP_LEVEL] = AUTO_START_STOP_LEVEL_NONE
_LOGGER.info(
"Recreating entry %s due to configuration change. New config is now: %s",

44
custom_components/versatile_thermostat/config_schema.py
View File

@@ -16,10 +16,6 @@ from homeassistant.components.input_number import (
DOMAIN as INPUT_NUMBER_DOMAIN,
)
from homeassistant.components.input_datetime import (
DOMAIN as INPUT_DATETIME_DOMAIN,
)
from homeassistant.components.person import DOMAIN as PERSON_DOMAIN
from homeassistant.components.binary_sensor import DOMAIN as BINARY_SENSOR_DOMAIN
@@ -46,11 +42,6 @@ STEP_MAIN_DATA_SCHEMA = vol.Schema( # pylint: disable=invalid-name
vol.Required(CONF_TEMP_SENSOR): selector.EntitySelector(
selector.EntitySelectorConfig(domain=[SENSOR_DOMAIN, INPUT_NUMBER_DOMAIN]),
),
vol.Optional(CONF_LAST_SEEN_TEMP_SENSOR): selector.EntitySelector(
selector.EntitySelectorConfig(
domain=[SENSOR_DOMAIN, INPUT_DATETIME_DOMAIN]
),
),
vol.Required(CONF_CYCLE_MIN, default=5): cv.positive_int,
vol.Optional(CONF_DEVICE_POWER, default="1"): vol.Coerce(float),
vol.Required(CONF_USE_MAIN_CENTRAL_CONFIG, default=True): cv.boolean,
@@ -68,26 +59,6 @@ STEP_FEATURES_DATA_SCHEMA = vol.Schema( # pylint: disable=invalid-name
}
)
STEP_CLIMATE_FEATURES_DATA_SCHEMA = vol.Schema( # pylint: disable=invalid-name
{
vol.Optional(CONF_USE_WINDOW_FEATURE, default=False): cv.boolean,
vol.Optional(CONF_USE_MOTION_FEATURE, default=False): cv.boolean,
vol.Optional(CONF_USE_POWER_FEATURE, default=False): cv.boolean,
vol.Optional(CONF_USE_PRESENCE_FEATURE, default=False): cv.boolean,
vol.Optional(CONF_USE_AUTO_START_STOP_FEATURE, default=False): cv.boolean,
}
)
STEP_CENTRAL_FEATURES_DATA_SCHEMA = vol.Schema( # pylint: disable=invalid-name
{
vol.Optional(CONF_USE_WINDOW_FEATURE, default=False): cv.boolean,
vol.Optional(CONF_USE_MOTION_FEATURE, default=False): cv.boolean,
vol.Optional(CONF_USE_POWER_FEATURE, default=False): cv.boolean,
vol.Optional(CONF_USE_PRESENCE_FEATURE, default=False): cv.boolean,
vol.Optional(CONF_USE_CENTRAL_BOILER_FEATURE, default=False): cv.boolean,
}
)
STEP_CENTRAL_MAIN_DATA_SCHEMA = vol.Schema( # pylint: disable=invalid-name
{
vol.Required(CONF_EXTERNAL_TEMP_SENSOR): selector.EntitySelector(
@@ -96,6 +67,7 @@ STEP_CENTRAL_MAIN_DATA_SCHEMA = vol.Schema( # pylint: disable=invalid-name
vol.Required(CONF_TEMP_MIN, default=7): vol.Coerce(float),
vol.Required(CONF_TEMP_MAX, default=35): vol.Coerce(float),
vol.Required(CONF_STEP_TEMPERATURE, default=0.1): vol.Coerce(float),
vol.Required(CONF_ADD_CENTRAL_BOILER_CONTROL, default=False): cv.boolean,
}
)
@@ -206,20 +178,6 @@ STEP_THERMOSTAT_VALVE = vol.Schema( # pylint: disable=invalid-name
}
)
STEP_AUTO_START_STOP = vol.Schema( # pylint: disable=invalid-name
{
vol.Optional(
CONF_AUTO_START_STOP_LEVEL, default=AUTO_START_STOP_LEVEL_NONE
): selector.SelectSelector(
selector.SelectSelectorConfig(
options=CONF_AUTO_START_STOP_LEVELS,
translation_key="auto_start_stop",
mode="dropdown",
)
),
}
)
STEP_TPI_DATA_SCHEMA = vol.Schema( # pylint: disable=invalid-name
{
vol.Required(CONF_USE_TPI_CENTRAL_CONFIG, default=True): cv.boolean,

37
custom_components/versatile_thermostat/const.py
View File

@@ -2,7 +2,6 @@
"""Constants for the Versatile Thermostat integration."""
import logging
from typing import Literal
from enum import Enum
from homeassistant.const import CONF_NAME, Platform
@@ -23,9 +22,6 @@ from .prop_algorithm import (
_LOGGER = logging.getLogger(__name__)
CONFIG_VERSION = 1
CONFIG_MINOR_VERSION = 2
PRESET_TEMP_SUFFIX = "_temp"
PRESET_AC_SUFFIX = "_ac"
PRESET_ECO_AC = PRESET_ECO + PRESET_AC_SUFFIX
@@ -60,7 +56,6 @@ CONF_HEATER_3 = "heater_entity3_id"
CONF_HEATER_4 = "heater_entity4_id"
CONF_HEATER_KEEP_ALIVE = "heater_keep_alive"
CONF_TEMP_SENSOR = "temperature_sensor_entity_id"
CONF_LAST_SEEN_TEMP_SENSOR = "last_seen_temperature_sensor_entity_id"
CONF_EXTERNAL_TEMP_SENSOR = "external_temperature_sensor_entity_id"
CONF_POWER_SENSOR = "power_sensor_entity_id"
CONF_MAX_POWER_SENSOR = "max_power_sensor_entity_id"
@@ -97,8 +92,6 @@ CONF_USE_WINDOW_FEATURE = "use_window_feature"
CONF_USE_MOTION_FEATURE = "use_motion_feature"
CONF_USE_PRESENCE_FEATURE = "use_presence_feature"
CONF_USE_POWER_FEATURE = "use_power_feature"
CONF_USE_CENTRAL_BOILER_FEATURE = "use_central_boiler_feature"
CONF_USE_AUTO_START_STOP_FEATURE = "use_auto_start_stop_feature"
CONF_AC_MODE = "ac_mode"
CONF_WINDOW_AUTO_OPEN_THRESHOLD = "window_auto_open_threshold"
CONF_WINDOW_AUTO_CLOSE_THRESHOLD = "window_auto_close_threshold"
@@ -141,32 +134,13 @@ CONF_USE_ADVANCED_CENTRAL_CONFIG = "use_advanced_central_config"
CONF_USE_CENTRAL_MODE = "use_central_mode"
CONF_ADD_CENTRAL_BOILER_CONTROL = "add_central_boiler_control"
CONF_CENTRAL_BOILER_ACTIVATION_SRV = "central_boiler_activation_service"
CONF_CENTRAL_BOILER_DEACTIVATION_SRV = "central_boiler_deactivation_service"
CONF_USED_BY_CENTRAL_BOILER = "used_by_controls_central_boiler"
CONF_WINDOW_ACTION = "window_action"
CONF_AUTO_START_STOP_LEVEL = "auto_start_stop_level"
AUTO_START_STOP_LEVEL_NONE = "auto_start_stop_none"
AUTO_START_STOP_LEVEL_SLOW = "auto_start_stop_slow"
AUTO_START_STOP_LEVEL_MEDIUM = "auto_start_stop_medium"
AUTO_START_STOP_LEVEL_FAST = "auto_start_stop_fast"
CONF_AUTO_START_STOP_LEVELS = [
AUTO_START_STOP_LEVEL_NONE,
AUTO_START_STOP_LEVEL_SLOW,
AUTO_START_STOP_LEVEL_MEDIUM,
AUTO_START_STOP_LEVEL_FAST,
]
# For explicit typing purpose only
TYPE_AUTO_START_STOP_LEVELS = Literal[ # pylint: disable=invalid-name
AUTO_START_STOP_LEVEL_FAST,
AUTO_START_STOP_LEVEL_MEDIUM,
AUTO_START_STOP_LEVEL_SLOW,
AUTO_START_STOP_LEVEL_NONE,
]
DEFAULT_SHORT_EMA_PARAMS = {
"max_alpha": 0.5,
# In sec
@@ -279,7 +253,6 @@ ALL_CONF = (
CONF_USE_MOTION_FEATURE,
CONF_USE_PRESENCE_FEATURE,
CONF_USE_POWER_FEATURE,
CONF_USE_CENTRAL_BOILER_FEATURE,
CONF_AC_MODE,
CONF_VALVE,
CONF_VALVE_2,
@@ -300,6 +273,7 @@ ALL_CONF = (
CONF_USE_PRESENCE_CENTRAL_CONFIG,
CONF_USE_ADVANCED_CENTRAL_CONFIG,
CONF_USE_CENTRAL_MODE,
CONF_ADD_CENTRAL_BOILER_CONTROL,
CONF_USED_BY_CENTRAL_BOILER,
CONF_CENTRAL_BOILER_ACTIVATION_SRV,
CONF_CENTRAL_BOILER_DEACTIVATION_SRV,
@@ -352,7 +326,7 @@ CONF_WINDOW_ACTIONS = [
CONF_WINDOW_ECO_TEMP,
]
SUPPORT_FLAGS = ClimateEntityFeature.TARGET_TEMPERATURE | ClimateEntityFeature.TURN_OFF | ClimateEntityFeature.TURN_ON
SUPPORT_FLAGS = ClimateEntityFeature.TARGET_TEMPERATURE
SERVICE_SET_PRESENCE = "set_presence"
SERVICE_SET_PRESET_TEMPERATURE = "set_preset_temperature"
@@ -467,7 +441,6 @@ class EventType(Enum):
CENTRAL_BOILER_EVENT: str = "versatile_thermostat_central_boiler_event"
PRESET_EVENT: str = "versatile_thermostat_preset_event"
WINDOW_AUTO_EVENT: str = "versatile_thermostat_window_auto_event"
AUTO_START_STOP_EVENT: str = "versatile_thermostat_auto_start_stop_event"
def send_vtherm_event(hass, event_type: EventType, entity, data: dict):
@@ -495,10 +468,6 @@ class ServiceConfigurationError(HomeAssistantError):
"""Error in the service configuration to control the central boiler"""
class ConfigurationNotCompleteError(HomeAssistantError):
"""Error the configuration is not complete"""
class overrides: # pylint: disable=invalid-name
"""An annotation to inform overrides"""

88
custom_components/versatile_thermostat/keep_alive.py
View File

@@ -10,7 +10,6 @@ the keep_alive setting of Home Assistant's Generic Thermostat integration:
import logging
from collections.abc import Awaitable, Callable
from datetime import timedelta, datetime
from time import monotonic
from homeassistant.core import HomeAssistant, CALLBACK_TYPE
from homeassistant.helpers.event import async_track_time_interval
@@ -19,95 +18,16 @@ from homeassistant.helpers.event import async_track_time_interval
_LOGGER = logging.getLogger(__name__)
class BackoffTimer:
"""Exponential backoff timer with a non-blocking polling-style implementation.
Usage example:
timer = BackoffTimer(multiplier=1.5, upper_limit_sec=600)
while some_condition:
if timer.is_ready():
do_something()
"""
def __init__(
self,
*,
multiplier=2.0,
lower_limit_sec=30,
upper_limit_sec=86400,
initially_ready=True,
):
"""Initialize a BackoffTimer instance.
Args:
multiplier (int, optional): Period multiplier applied when is_ready() is True.
lower_limit_sec (int, optional): Initial backoff period in seconds.
upper_limit_sec (int, optional): Maximum backoff period in seconds.
initially_ready (bool, optional): Whether is_ready() should return True the
first time it is called, or after a call to reset().
"""
self._multiplier = multiplier
self._lower_limit_sec = lower_limit_sec
self._upper_limit_sec = upper_limit_sec
self._initially_ready = initially_ready
self._timestamp = 0
self._period_sec = self._lower_limit_sec
@property
def in_progress(self) -> bool:
"""Whether the backoff timer is in progress (True after a call to is_ready())."""
return bool(self._timestamp)
def reset(self):
"""Reset a BackoffTimer instance."""
self._timestamp = 0
self._period_sec = self._lower_limit_sec
def is_ready(self) -> bool:
"""Check whether an exponentially increasing period of time has passed.
Whenever is_ready() returns True, the timer period is multiplied so that
it takes longer until is_ready() returns True again.
Returns:
bool: True if enough time has passed since one of the following events,
in relation to an instance of this class:
- The last time when this method returned True, if it ever did.
- Or else, when this method was first called after a call to reset().
- Or else, when this method was first called.
False otherwise.
"""
now = monotonic()
if self._timestamp == 0:
self._timestamp = now
return self._initially_ready
elif now - self._timestamp >= self._period_sec:
self._timestamp = now
self._period_sec = max(
self._lower_limit_sec,
min(self._upper_limit_sec, self._period_sec * self._multiplier),
)
return True
return False
class IntervalCaller:
"""Repeatedly call a given async action function at a given regular interval.
Convenience wrapper around Home Assistant's `async_track_time_interval` function.
"""
def __init__(self, hass: HomeAssistant, interval_sec: float) -> None:
def __init__(self, hass: HomeAssistant, interval_sec: int) -> None:
self._hass = hass
self._interval_sec = interval_sec
self._remove_handle: CALLBACK_TYPE | None = None
self.backoff_timer = BackoffTimer()
@property
def interval_sec(self) -> float:
"""Return the calling interval in seconds."""
return self._interval_sec
def cancel(self):
"""Cancel the regular calls to the action function."""
@@ -123,11 +43,7 @@ class IntervalCaller:
async def callback(_time: datetime):
try:
_LOGGER.debug(
"Calling keep-alive action '%s' (%ss interval)",
action.__name__,
self._interval_sec,
)
_LOGGER.debug("Calling keep-alive action")
await action()
except Exception as e: # pylint: disable=broad-exception-caught
_LOGGER.error(e)

2
custom_components/versatile_thermostat/manifest.json
View File

@@ -14,6 +14,6 @@
"quality_scale": "silver",
"requirements": [],
"ssdp": [],
"version": "6.5.0",
"version": "5.4.1",
"zeroconf": []
}

145
custom_components/versatile_thermostat/number.py
View File

@@ -11,15 +11,13 @@ from homeassistant.components.number import (
NumberMode,
NumberDeviceClass,
DOMAIN as NUMBER_DOMAIN,
DEFAULT_MAX_VALUE,
DEFAULT_MIN_VALUE,
DEFAULT_STEP,
)
from homeassistant.components.climate import (
PRESET_BOOST,
PRESET_COMFORT,
PRESET_ECO,
)
from homeassistant.components.sensor import UnitOfTemperature
from homeassistant.helpers.device_registry import DeviceInfo, DeviceEntryType
from homeassistant.config_entries import ConfigEntry
@@ -53,9 +51,7 @@ from .const import (
CONF_USE_PRESETS_CENTRAL_CONFIG,
CONF_USE_PRESENCE_CENTRAL_CONFIG,
CONF_USE_PRESENCE_FEATURE,
CONF_USE_CENTRAL_BOILER_FEATURE,
overrides,
CONF_USE_MAIN_CENTRAL_CONFIG,
)
PRESET_ICON_MAPPING = {
@@ -95,96 +91,77 @@ async def async_setup_entry(
unique_id = entry.entry_id
name = entry.data.get(CONF_NAME)
vt_type = entry.data.get(CONF_THERMOSTAT_TYPE)
# is_central_boiler = entry.data.get(CONF_USE_CENTRAL_BOILER_FEATURE)
# is_central_boiler = entry.data.get(CONF_ADD_CENTRAL_BOILER_CONTROL)
entities = []
if vt_type != CONF_THERMOSTAT_CENTRAL_CONFIG:
# Creates non central temperature entities
if not entry.data.get(CONF_USE_PRESETS_CENTRAL_CONFIG, False):
for preset in CONF_PRESETS_VALUES:
entities.append(
TemperatureNumber(
hass, unique_id, name, preset, False, False, entry.data
)
)
if entry.data.get(CONF_AC_MODE, False):
for preset in CONF_PRESETS_WITH_AC_VALUES:
_LOGGER.debug(
"%s - configuring Number non central, AC, non AWAY for preset %s",
name,
preset,
)
entities.append(
TemperatureNumber(
hass, unique_id, name, preset, True, False, entry.data
)
)
else:
for preset in CONF_PRESETS_VALUES:
_LOGGER.debug(
"%s - configuring Number non central, non AC, non AWAY for preset %s",
name,
preset,
)
entities.append(
TemperatureNumber(
hass, unique_id, name, preset, False, False, entry.data
)
)
if entry.data.get(
CONF_USE_PRESENCE_FEATURE, False
) is True and not entry.data.get(CONF_USE_PRESENCE_CENTRAL_CONFIG, False):
for preset in CONF_PRESETS_AWAY_VALUES:
entities.append(
TemperatureNumber(
hass, unique_id, name, preset, False, True, entry.data
)
)
if entry.data.get(CONF_AC_MODE, False):
for preset in CONF_PRESETS_AWAY_WITH_AC_VALUES:
_LOGGER.debug(
"%s - configuring Number non central, AC, AWAY for preset %s",
name,
preset,
)
entities.append(
TemperatureNumber(
hass, unique_id, name, preset, True, True, entry.data
)
)
else:
for preset in CONF_PRESETS_AWAY_VALUES:
_LOGGER.debug(
"%s - configuring Number non central, non AC, AWAY for preset %s",
name,
preset,
)
entities.append(
TemperatureNumber(
hass, unique_id, name, preset, False, True, entry.data
)
)
# For central config only
else:
if entry.data.get(CONF_USE_CENTRAL_BOILER_FEATURE):
entities.append(
ActivateBoilerThresholdNumber(hass, unique_id, name, entry.data)
)
for preset in CONF_PRESETS_VALUES:
entities.append(
ActivateBoilerThresholdNumber(hass, unique_id, name, entry.data)
CentralConfigTemperatureNumber(
hass, unique_id, name, preset, False, False, entry.data
)
)
for preset in CONF_PRESETS_WITH_AC_VALUES:
_LOGGER.debug(
"%s - configuring Number central, AC, non AWAY for preset %s",
name,
preset,
)
entities.append(
CentralConfigTemperatureNumber(
hass, unique_id, name, preset, True, False, entry.data
)
)
for preset in CONF_PRESETS_AWAY_WITH_AC_VALUES:
_LOGGER.debug(
"%s - configuring Number central, AC, AWAY for preset %s", name, preset
for preset in CONF_PRESETS_AWAY_VALUES:
entities.append(
CentralConfigTemperatureNumber(
hass, unique_id, name, preset, False, True, entry.data
)
)
for preset in CONF_PRESETS_AWAY_WITH_AC_VALUES:
entities.append(
CentralConfigTemperatureNumber(
hass, unique_id, name, preset, True, True, entry.data
)
)
if len(entities) > 0:
async_add_entities(entities, True)
async_add_entities(entities, True)
class ActivateBoilerThresholdNumber(
@@ -279,10 +256,10 @@ class CentralConfigTemperatureNumber(
# self._attr_name = name
self._attr_translation_key = preset_name
self.entity_id = f"{NUMBER_DOMAIN}.{slugify(name)}_preset_{preset_name}"
self._attr_unique_id = f"central_configuration_preset_{preset_name}"
self.entity_id = f"{NUMBER_DOMAIN}.{slugify(name)}_{preset_name}"
self._attr_unique_id = f"central_configuration_{preset_name}"
self._attr_device_class = NumberDeviceClass.TEMPERATURE
self._attr_native_unit_of_measurement = hass.config.units.temperature_unit
self._attr_native_unit_of_measurement = UnitOfTemperature.CELSIUS
self._attr_native_step = entry_infos.get(CONF_STEP_TEMPERATURE, 0.5)
self._attr_native_min_value = entry_infos.get(CONF_TEMP_MIN)
@@ -344,10 +321,7 @@ class CentralConfigTemperatureNumber(
async def async_set_native_value(self, value: float) -> None:
"""The value have change from the Number Entity in UI"""
float_value = float(value)
old_value = (
None if self._attr_native_value is None else float(self._attr_native_value)
)
old_value = float(self._attr_native_value)
if float_value == old_value:
return
@@ -359,7 +333,7 @@ class CentralConfigTemperatureNumber(
# We have to reload all VTherm for which uses the central configuration
api: VersatileThermostatAPI = VersatileThermostatAPI.get_vtherm_api(self.hass)
# Update the VTherms which have temperature in central config
self.hass.create_task(api.init_vtherm_preset_with_central())
self.hass.create_task(api.init_vtherm_links(only_use_central=True))
def __str__(self):
return f"VersatileThermostat-{self.name}"
@@ -370,7 +344,7 @@ class CentralConfigTemperatureNumber(
# TODO Kelvin ? It seems not because all internal values are stored in
# ° Celsius but only the render in front can be in °K depending on the
# user configuration.
return self.hass.config.units.temperature_unit
return UnitOfTemperature.CELSIUS
class TemperatureNumber( # pylint: disable=abstract-method
@@ -395,17 +369,15 @@ class TemperatureNumber( # pylint: disable=abstract-method
super().__init__(hass, unique_id, name)
self._attr_translation_key = preset_name
self.entity_id = f"{NUMBER_DOMAIN}.{slugify(name)}_preset_{preset_name}"
self.entity_id = f"{NUMBER_DOMAIN}.{slugify(name)}_{preset_name}"
self._attr_unique_id = f"{self._device_name}_preset_{preset_name}"
self._attr_unique_id = f"{self._device_name}_{preset_name}"
self._attr_device_class = NumberDeviceClass.TEMPERATURE
self._attr_native_unit_of_measurement = hass.config.units.temperature_unit
self._attr_native_unit_of_measurement = UnitOfTemperature.CELSIUS
self._has_central_main_attributes = entry_infos.get(
CONF_USE_MAIN_CENTRAL_CONFIG, False
)
self.init_min_max_step(entry_infos)
self._attr_native_step = entry_infos.get(CONF_STEP_TEMPERATURE, 0.5)
self._attr_native_min_value = entry_infos.get(CONF_TEMP_MIN)
self._attr_native_max_value = entry_infos.get(CONF_TEMP_MAX)
# Initialize the values if included into the entry_infos. This will do
# the temperature migration.
@@ -467,9 +439,7 @@ class TemperatureNumber( # pylint: disable=abstract-method
return
float_value = float(value)
old_value = (
None if self._attr_native_value is None else float(self._attr_native_value)
)
old_value = float(self._attr_native_value)
if float_value == old_value:
return
@@ -486,10 +456,6 @@ class TemperatureNumber( # pylint: disable=abstract-method
)
)
# We set the min, max and step from central config if relevant because it is possible
# that central config was not loaded at startup
self.init_min_max_step()
def __str__(self):
return f"VersatileThermostat-{self.name}"
@@ -497,28 +463,5 @@ class TemperatureNumber( # pylint: disable=abstract-method
def native_unit_of_measurement(self) -> str | None:
"""The unit of measurement"""
if not self.my_climate:
return self.hass.config.units.temperature_unit
return UnitOfTemperature.CELSIUS
return self.my_climate.temperature_unit
def init_min_max_step(self, entry_infos=None):
"""Initialize min, max and step value from config or from central config"""
if self._has_central_main_attributes:
vthermapi: VersatileThermostatAPI = VersatileThermostatAPI.get_vtherm_api()
central_config = vthermapi.find_central_configuration()
if central_config:
self._attr_native_step = central_config.data.get(CONF_STEP_TEMPERATURE)
self._attr_native_min_value = central_config.data.get(CONF_TEMP_MIN)
self._attr_native_max_value = central_config.data.get(CONF_TEMP_MAX)
return
if entry_infos:
self._attr_native_step = entry_infos.get(
CONF_STEP_TEMPERATURE, DEFAULT_STEP
)
self._attr_native_min_value = entry_infos.get(
CONF_TEMP_MIN, DEFAULT_MIN_VALUE
)
self._attr_native_max_value = entry_infos.get(
CONF_TEMP_MAX, DEFAULT_MAX_VALUE
)

74
custom_components/versatile_thermostat/prop_algorithm.py
View File

@@ -1,5 +1,4 @@
""" The TPI calculation module """
# pylint: disable='line-too-long'
import logging
from homeassistant.components.climate import HVACMode
@@ -15,11 +14,6 @@ PROPORTIONAL_MIN_DURATION_SEC = 10
FUNCTION_TYPE = [PROPORTIONAL_FUNCTION_ATAN, PROPORTIONAL_FUNCTION_LINEAR]
def is_number(value):
"""check if value is a number"""
return isinstance(value, (int, float))
class PropAlgorithm:
"""This class aims to do all calculation of the Proportional alogorithm"""
@@ -30,43 +24,16 @@ class PropAlgorithm:
tpi_coef_ext,
cycle_min: int,
minimal_activation_delay: int,
vtherm_entity_id: str = None,
) -> None:
"""Initialisation of the Proportional Algorithm"""
_LOGGER.debug(
"%s - Creation new PropAlgorithm function_type: %s, tpi_coef_int: %s, tpi_coef_ext: %s, cycle_min:%d, minimal_activation_delay:%d", # pylint: disable=line-too-long
vtherm_entity_id,
"Creation new PropAlgorithm function_type: %s, tpi_coef_int: %s, tpi_coef_ext: %s, cycle_min:%d, minimal_activation_delay:%d", # pylint: disable=line-too-long
function_type,
tpi_coef_int,
tpi_coef_ext,
cycle_min,
minimal_activation_delay,
)
# Issue 506 - check parameters
if (
vtherm_entity_id is None
or not is_number(tpi_coef_int)
or not is_number(tpi_coef_ext)
or not is_number(cycle_min)
or not is_number(minimal_activation_delay)
or function_type != PROPORTIONAL_FUNCTION_TPI
):
_LOGGER.error(
"%s - configuration is wrong. function_type=%s, entity_id is %s, tpi_coef_int is %s, tpi_coef_ext is %s, cycle_min is %s, minimal_activation_delay is %s",
vtherm_entity_id,
function_type,
vtherm_entity_id,
tpi_coef_int,
tpi_coef_ext,
cycle_min,
minimal_activation_delay,
)
raise TypeError(
"TPI parameters are not set correctly. VTherm will not work as expected. Please reconfigure it correctly. See previous log for values"
)
self._vtherm_entity_id = vtherm_entity_id
self._function = function_type
self._tpi_coef_int = tpi_coef_int
self._tpi_coef_ext = tpi_coef_ext
@@ -90,19 +57,16 @@ class PropAlgorithm:
if target_temp is None or current_temp is None:
log = _LOGGER.debug if hvac_mode == HVACMode.OFF else _LOGGER.warning
log(
"%s - Proportional algorithm: calculation is not possible cause target_temp (%s) or current_temp (%s) is null. Heating/cooling will be disabled. This could be normal at startup", # pylint: disable=line-too-long
self._vtherm_entity_id,
target_temp,
current_temp,
"Proportional algorithm: calculation is not possible cause target_temp or current_temp is null. Heating/cooling will be disabled" # pylint: disable=line-too-long
)
self._calculated_on_percent = 0
else:
if hvac_mode == HVACMode.COOL:
delta_temp = current_temp - target_temp
delta_ext_temp = (
ext_current_temp - target_temp
ext_current_temp
if ext_current_temp is not None
else 0
else 0 - target_temp
)
else:
delta_temp = target_temp - current_temp
@@ -119,8 +83,7 @@ class PropAlgorithm:
)
else:
_LOGGER.warning(
"%s - Proportional algorithm: unknown %s function. Heating will be disabled",
self._vtherm_entity_id,
"Proportional algorithm: unknown %s function. Heating will be disabled",
self._function,
)
self._calculated_on_percent = 0
@@ -128,8 +91,7 @@ class PropAlgorithm:
self._calculate_internal()
_LOGGER.debug(
"%s - heating percent calculated for current_temp %.1f, ext_current_temp %.1f and target_temp %.1f is %.2f, on_time is %d (sec), off_time is %d (sec)", # pylint: disable=line-too-long
self._vtherm_entity_id,
"heating percent calculated for current_temp %.1f, ext_current_temp %.1f and target_temp %.1f is %.2f, on_time is %d (sec), off_time is %d (sec)", # pylint: disable=line-too-long
current_temp if current_temp else -9999.0,
ext_current_temp if ext_current_temp else -9999.0,
target_temp if target_temp else -9999.0,
@@ -148,12 +110,11 @@ class PropAlgorithm:
self._calculated_on_percent = 0
if self._security:
self._on_percent = self._default_on_percent
_LOGGER.info(
"%s - Security is On using the default_on_percent %f",
self._vtherm_entity_id,
self._on_percent,
_LOGGER.debug(
"Security is On using the default_on_percent %f",
self._default_on_percent,
)
self._on_percent = self._default_on_percent
else:
_LOGGER.debug(
"Security is Off using the calculated_on_percent %f",
@@ -167,8 +128,13 @@ class PropAlgorithm:
if self._on_time_sec < self._minimal_activation_delay:
if self._on_time_sec > 0:
_LOGGER.info(
"%s - No heating period due to heating period too small (%f < %f)",
self._vtherm_entity_id,
"No heating period due to heating period too small (%f < %f)",
self._on_time_sec,
self._minimal_activation_delay,
)
else:
_LOGGER.debug(
"No heating period due to heating period too small (%f < %f)",
self._on_time_sec,
self._minimal_activation_delay,
)
@@ -178,18 +144,12 @@ class PropAlgorithm:
def set_security(self, default_on_percent: float):
"""Set a default value for on_percent (used for safety mode)"""
_LOGGER.info(
"%s - Proportional Algo - set security to ON", self._vtherm_entity_id
)
self._security = True
self._default_on_percent = default_on_percent
self._calculate_internal()
def unset_security(self):
"""Unset the safety mode"""
_LOGGER.info(
"%s - Proportional Algo - set security to OFF", self._vtherm_entity_id
)
self._security = False
self._calculate_internal()

50
custom_components/versatile_thermostat/select.py
View File

@@ -3,20 +3,21 @@
""" Implements the VersatileThermostat select component """
import logging
from homeassistant.core import HomeAssistant
from homeassistant.const import EVENT_HOMEASSISTANT_START
from homeassistant.core import HomeAssistant, CoreState, callback
from homeassistant.components.climate import ClimateEntity, DOMAIN as CLIMATE_DOMAIN
from homeassistant.components.select import SelectEntity
from homeassistant.helpers.device_registry import DeviceInfo, DeviceEntryType
from homeassistant.config_entries import ConfigEntry
from homeassistant.helpers.restore_state import RestoreEntity
from homeassistant.helpers.entity_platform import AddEntitiesCallback
from homeassistant.helpers.entity_component import EntityComponent
from custom_components.versatile_thermostat.base_thermostat import (
BaseThermostat,
ConfigData,
)
from custom_components.versatile_thermostat.vtherm_api import VersatileThermostatAPI
from .const import (
DOMAIN,
DEVICE_MANUFACTURER,
@@ -95,20 +96,17 @@ class CentralModeSelect(SelectEntity, RestoreEntity):
if old_state is not None:
self._attr_current_option = old_state.state
api: VersatileThermostatAPI = VersatileThermostatAPI.get_vtherm_api(self.hass)
api.register_central_mode_select(self)
@callback
async def _async_startup_internal(*_):
_LOGGER.debug("%s - Calling async_startup_internal", self)
await self.notify_central_mode_change()
# @callback
# async def _async_startup_internal(*_):
# _LOGGER.debug("%s - Calling async_startup_internal", self)
# await self.notify_central_mode_change()
#
# if self.hass.state == CoreState.running:
# await _async_startup_internal()
# else:
# self.hass.bus.async_listen_once(
# EVENT_HOMEASSISTANT_START, _async_startup_internal
# )
if self.hass.state == CoreState.running:
await _async_startup_internal()
else:
self.hass.bus.async_listen_once(
EVENT_HOMEASSISTANT_START, _async_startup_internal
)
@overrides
async def async_select_option(self, option: str) -> None:
@@ -122,17 +120,19 @@ class CentralModeSelect(SelectEntity, RestoreEntity):
self._attr_current_option = option
await self.notify_central_mode_change(old_central_mode=old_option)
@overrides
def select_option(self, option: str) -> None:
"""Change the selected option"""
# Update the VTherms which have temperature in central config
self.hass.create_task(self.async_select_option(option))
async def notify_central_mode_change(self, old_central_mode: str | None = None):
"""Notify all VTherm that the central_mode have change"""
api: VersatileThermostatAPI = VersatileThermostatAPI.get_vtherm_api(self.hass)
# Update all VTherm states
await api.notify_central_mode_change(old_central_mode)
component: EntityComponent[ClimateEntity] = self.hass.data[CLIMATE_DOMAIN]
for entity in component.entities:
if isinstance(entity, BaseThermostat):
_LOGGER.debug(
"Changing the central_mode. We have find %s to update",
entity.name,
)
await entity.check_central_mode(
self._attr_current_option, old_central_mode
)
def __str__(self) -> str:
return f"VersatileThermostat-{self.name}"

24
custom_components/versatile_thermostat/sensor.py
View File

@@ -49,7 +49,7 @@ from .const import (
CONF_THERMOSTAT_CLIMATE,
CONF_THERMOSTAT_TYPE,
CONF_THERMOSTAT_CENTRAL_CONFIG,
CONF_USE_CENTRAL_BOILER_FEATURE,
CONF_ADD_CENTRAL_BOILER_CONTROL,
overrides,
)
@@ -75,10 +75,11 @@ async def async_setup_entry(
entities = None
if vt_type == CONF_THERMOSTAT_CENTRAL_CONFIG:
if entry.data.get(CONF_USE_CENTRAL_BOILER_FEATURE):
if entry.data.get(CONF_ADD_CENTRAL_BOILER_CONTROL):
entities = [
NbActiveDeviceForBoilerSensor(hass, unique_id, name, entry.data)
]
async_add_entities(entities, True)
else:
entities = [
LastTemperatureSensor(hass, unique_id, name, entry.data),
@@ -107,7 +108,6 @@ async def async_setup_entry(
RegulatedTemperatureSensor(hass, unique_id, name, entry.data)
)
if entities:
async_add_entities(entities, True)
@@ -125,15 +125,15 @@ class EnergySensor(VersatileThermostatBaseEntity, SensorEntity):
"""Called when my climate have change"""
_LOGGER.debug("%s - climate state change", self._attr_unique_id)
energy = self.my_climate.total_energy
if energy is None:
return
if math.isnan(energy) or math.isinf(energy):
if math.isnan(self.my_climate.total_energy) or math.isinf(
self.my_climate.total_energy
):
raise ValueError(f"Sensor has illegal state {self.my_climate.total_energy}")
old_state = self._attr_native_value
self._attr_native_value = round(energy, self.suggested_display_precision)
self._attr_native_value = round(
self.my_climate.total_energy, self.suggested_display_precision
)
if old_state != self._attr_native_value:
self.async_write_ha_state()
return
@@ -570,7 +570,7 @@ class RegulatedTemperatureSensor(VersatileThermostatBaseEntity, SensorEntity):
@property
def native_unit_of_measurement(self) -> str | None:
if not self.my_climate:
return self.hass.config.units.temperature_unit
return UnitOfTemperature.CELSIUS
return self.my_climate.temperature_unit
@property
@@ -621,7 +621,7 @@ class EMATemperatureSensor(VersatileThermostatBaseEntity, SensorEntity):
@property
def native_unit_of_measurement(self) -> str | None:
if not self.my_climate:
return self.hass.config.units.temperature_unit
return UnitOfTemperature.CELSIUS
return self.my_climate.temperature_unit
@property
@@ -730,7 +730,7 @@ class NbActiveDeviceForBoilerSensor(SensorEntity):
entity.name,
)
if (
entity.hvac_mode in [HVACMode.HEAT, HVACMode.AUTO]
entity.hvac_mode == HVACMode.HEAT
and entity.hvac_action == HVACAction.HEATING
):
for under in entity.underlying_entities:

94
custom_components/versatile_thermostat/strings.json
View File

@@ -14,7 +14,7 @@
},
"menu": {
"title": "Menu",
"description": "Configure your thermostat. You will be able to finalize the configuration when all required parameters are entered.",
"description": "Configure your thermostat. You will be able to finalize the configuration when all needed parameters are valued.",
"menu_options": {
"main": "Main attributes",
"central_boiler": "Central boiler",
@@ -27,9 +27,7 @@
"power": "Power management",
"presence": "Presence detection",
"advanced": "Advanced parameters",
"auto_start_stop": "Auto start and stop",
"finalize": "All done",
"configuration_not_complete": "Configuration not complete"
"finalize": "All done"
}
},
"main": {
@@ -38,21 +36,19 @@
"data": {
"name": "Name",
"thermostat_type": "Thermostat type",
"temperature_sensor_entity_id": "Room temperature",
"last_seen_temperature_sensor_entity_id": "Last seen room temperature datetime",
"temperature_sensor_entity_id": "Room temperature sensor entity id",
"external_temperature_sensor_entity_id": "Outdoor temperature sensor entity id",
"cycle_min": "Cycle duration (minutes)",
"temp_min": "Minimum temperature allowed",
"temp_max": "Maximum temperature allowed",
"temp_min": "Minimal temperature allowed",
"temp_max": "Maximal temperature allowed",
"step_temperature": "Temperature step",
"device_power": "Device power",
"use_central_mode": "Enable the control by central entity (requires central config). Check to enable the control of the VTherm with the select central_mode entities.",
"use_central_mode": "Enable the control by central entity (need central config). Check to enable the control of the VTherm with the select central_mode entities.",
"use_main_central_config": "Use additional central main configuration. Check to use the central main configuration (outdoor temperature, min, max, step, ...).",
"add_central_boiler_control": "Add a central boiler. Check to add a control to your central boiler. You will have to configure the VTherm which will have a control of the central boiler after seecting this checkbox to take effect. If one VTherm need heating, the boiler will be turned on. If no VTherm needs heating, the boiler will be turned off. Commands for turning on/off the central boiler are given in the next configuration page",
"used_by_controls_central_boiler": "Used by central boiler. Check if this VTherm should have control on the central boiler"
},
"data_description": {
"temperature_sensor_entity_id": "Room temperature sensor entity id",
"last_seen_temperature_sensor_entity_id": "Last seen room temperature sensor entity id. Should be datetime sensor",
"external_temperature_sensor_entity_id": "Outdoor temperature sensor entity id. Not used if central configuration is selected"
}
},
@@ -63,9 +59,7 @@
"use_window_feature": "Use window detection",
"use_motion_feature": "Use motion detection",
"use_power_feature": "Use power management",
"use_presence_feature": "Use presence detection",
"use_central_boiler_feature": "Use a central boiler. Check to add a control to your central boiler. You will have to configure the VTherm which will have a control of the central boiler after seecting this checkbox to take effect. If one VTherm requires heating, the boiler will be turned on. If no VTherm requires heating, the boiler will be turned off. Commands for turning on/off the central boiler are given in the related configuration page",
"use_auto_start_stop_feature": "Use the auto start and stop feature"
"use_presence_feature": "Use presence detection"
}
},
"type": {
@@ -89,16 +83,16 @@
"valve_entity4_id": "4th valve number",
"auto_regulation_mode": "Self-regulation",
"auto_regulation_dtemp": "Regulation threshold",
"auto_regulation_periode_min": "Regulation minimum period",
"auto_regulation_periode_min": "Regulation minimal period",
"auto_regulation_use_device_temp": "Use internal temperature of the underlying",
"inverse_switch_command": "Inverse switch command",
"auto_fan_mode": "Auto fan mode"
"auto_fan_mode": " Auto fan mode"
},
"data_description": {
"heater_entity_id": "Mandatory heater entity id",
"heater_entity2_id": "Optional 2nd Heater entity id. Leave empty if not required",
"heater_entity3_id": "Optional 3rd Heater entity id. Leave empty if not required",
"heater_entity4_id": "Optional 4th Heater entity id. Leave empty if not required",
"heater_entity2_id": "Optional 2nd Heater entity id. Leave empty if not used",
"heater_entity3_id": "Optional 3rd Heater entity id. Leave empty if not used",
"heater_entity4_id": "Optional 4th Heater entity id. Leave empty if not used",
"heater_keep_alive": "Optional heater switch state refresh interval. Leave empty if not required.",
"proportional_function": "Algorithm to use (TPI is the only one for now)",
"climate_entity_id": "Underlying climate entity id",
@@ -115,7 +109,7 @@
"auto_regulation_periode_min": "Duration in minutes between two regulation update",
"auto_regulation_use_device_temp": "Use the eventual internal temperature sensor of the underlying to speedup the self-regulation",
"inverse_switch_command": "For switch with pilot wire and diode you may need to inverse the command",
"auto_fan_mode": "Automatically activate fan when huge heating/cooling is necessary"
"auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
}
},
"tpi": {
@@ -134,7 +128,7 @@
},
"presets": {
"title": "Presets",
"description": "Select if the thermostat will use central preset - deselect for the thermostat to have its own presets",
"description": "Check if the thermostat will use central presets. Uncheck and the thermostat will have its own preset entities",
"data": {
"use_presets_central_config": "Use central presets configuration"
}
@@ -157,8 +151,8 @@
"window_auto_open_threshold": "Recommended value: between 3 and 10. Leave empty if automatic window open detection is not used",
"window_auto_close_threshold": "Recommended value: 0. Leave empty if automatic window open detection is not used",
"window_auto_max_duration": "Recommended value: 60 (one hour). Leave empty if automatic window open detection is not used",
"use_window_central_config": "Select to use the central window configuration. Deselect to use a specific window configuration for this VTherm",
"window_action": "Action to perform if window is deteted as open"
"use_window_central_config": "Check to use the central window configuration. Uncheck to use a specific window configuration for this VTherm",
"window_action": "Action to do if window is deteted as open"
}
},
"motion": {
@@ -183,7 +177,7 @@
},
"power": {
"title": "Power management",
"description": "Power management attributes.\nGives the power and max power sensor of your home.\nSpecify the power consumption of the heater when on.\nAll sensors and device power should use the same unit (kW or W).",
"description": "Power management attributes.\nGives the power and max power sensor of your home.\nThen specify the power consumption of the heater when on.\nAll sensors and device power should have the same unit (kW or W).",
"data": {
"power_sensor_entity_id": "Power",
"max_power_sensor_entity_id": "Max power",
@@ -202,7 +196,7 @@
"description": "Presence management attributes.\nGives the a presence sensor of your home (true is someone is present) and give the corresponding temperature preset setting.",
"data": {
"presence_sensor_entity_id": "Presence sensor",
"use_presence_central_config": "Use central presence temperature configuration. Deselect to use specific temperature entities"
"use_presence_central_config": "Use central presence temperature configuration. Uncheck to use specific temperature entities"
},
"data_description": {
"presence_sensor_entity_id": "Presence sensor entity id"
@@ -212,16 +206,16 @@
"title": "Advanced parameters",
"description": "Configuration of advanced parameters. Leave the default values if you don't know what you are doing.\nThese parameters can lead to very poor temperature control or bad power regulation.",
"data": {
"minimal_activation_delay": "Minimum activation delay",
"minimal_activation_delay": "Minimal activation delay",
"security_delay_min": "Safety delay (in minutes)",
"security_min_on_percent": "Minimum power percent to enable safety mode",
"security_min_on_percent": "Minimal power percent to enable safety mode",
"security_default_on_percent": "Power percent to use in safety mode",
"use_advanced_central_config": "Use central advanced configuration"
},
"data_description": {
"minimal_activation_delay": "Delay in seconds under which the equipment will not be activated",
"security_delay_min": "Maximum allowed delay in minutes between two temperature measurements. Above this delay the thermostat will turn to a safety off state",
"security_min_on_percent": "Minimum heating percent value for safety preset activation. Below this amount of power percent the thermostat won't go into safety preset",
"security_min_on_percent": "Minimal heating percent value for safety preset activation. Below this amount of power percent the thermostat won't go into safety preset",
"security_default_on_percent": "The default heating power percent value in safety preset. Set to 0 to switch off heater in safety preset",
"use_advanced_central_config": "Check to use the central advanced configuration. Uncheck to use a specific advanced configuration for this VTherm"
}
@@ -231,7 +225,7 @@
"unknown": "Unexpected error",
"unknown_entity": "Unknown entity id",
"window_open_detection_method": "Only one window open detection method should be used. Use either window sensor or automatic detection through temperature threshold but not both",
"no_central_config": "You cannot select 'use central configuration' because no central configuration was found. You need to create a Versatile Thermostat of type 'Central Configuration' to use it."
"no_central_config": "You cannot check 'use central configuration' because no central configuration was found. You need to create a Versatile Thermostat of type 'Central Configuration' to use it."
},
"abort": {
"already_configured": "Device is already configured"
@@ -251,7 +245,7 @@
},
"menu": {
"title": "Menu",
"description": "Configure your thermostat. You will be able to finalize the configuration when all required parameters are entered.",
"description": "Configure your thermostat. You will be able to finalize the configuration when all needed parameters are valued.",
"menu_options": {
"main": "Main attributes",
"central_boiler": "Central boiler",
@@ -264,9 +258,7 @@
"power": "Power management",
"presence": "Presence detection",
"advanced": "Advanced parameters",
"auto_start_stop": "Auto start and stop",
"finalize": "All done",
"configuration_not_complete": "Configuration not complete"
"finalize": "All done"
}
},
"main": {
@@ -275,21 +267,19 @@
"data": {
"name": "Name",
"thermostat_type": "Thermostat type",
"temperature_sensor_entity_id": "Room temperature",
"last_seen_temperature_sensor_entity_id": "Last seen room temperature datetime",
"temperature_sensor_entity_id": "Room temperature sensor entity id",
"external_temperature_sensor_entity_id": "Outdoor temperature sensor entity id",
"cycle_min": "Cycle duration (minutes)",
"temp_min": "Minimum temperature allowed",
"temp_max": "Maximum temperature allowed",
"temp_min": "Minimal temperature allowed",
"temp_max": "Maximal temperature allowed",
"step_temperature": "Temperature step",
"device_power": "Device power",
"use_central_mode": "Enable the control by central entity (requires central config). Check to enable the control of the VTherm with the select central_mode entities.",
"use_central_mode": "Enable the control by central entity (need central config). Check to enable the control of the VTherm with the select central_mode entities.",
"use_main_central_config": "Use additional central main configuration. Check to use the central main configuration (outdoor temperature, min, max, step, ...).",
"add_central_boiler_control": "Add a central boiler. Check to add a control to your central boiler. You will have to configure the VTherm which will have a control of the central boiler after seecting this checkbox to take effect. If one VTherm need heating, the boiler will be turned on. If no VTherm needs heating, the boiler will be turned off. Commands for turning on/off the central boiler are given in the next configuration page",
"used_by_controls_central_boiler": "Used by central boiler. Check if this VTherm should have control on the central boiler"
},
"data_description": {
"temperature_sensor_entity_id": "Room temperature sensor entity id",
"last_seen_temperature_sensor_entity_id": "Last seen room temperature sensor entity id. Should be datetime sensor",
"external_temperature_sensor_entity_id": "Outdoor temperature sensor entity id. Not used if central configuration is selected"
}
},
@@ -300,9 +290,7 @@
"use_window_feature": "Use window detection",
"use_motion_feature": "Use motion detection",
"use_power_feature": "Use power management",
"use_presence_feature": "Use presence detection",
"use_central_boiler_feature": "Use a central boiler. Check to add a control to your central boiler. You will have to configure the VTherm which will have a control of the central boiler after seecting this checkbox to take effect. If one VTherm requires heating, the boiler will be turned on. If no VTherm requires heating, the boiler will be turned off. Commands for turning on/off the central boiler are given in the related configuration page",
"use_auto_start_stop_feature": "Use the auto start and stop feature"
"use_presence_feature": "Use presence detection"
}
},
"type": {
@@ -326,10 +314,10 @@
"valve_entity4_id": "4th valve number",
"auto_regulation_mode": "Self-regulation",
"auto_regulation_dtemp": "Regulation threshold",
"auto_regulation_periode_min": "Regulation minimum period",
"auto_regulation_periode_min": "Regulation minimal period",
"auto_regulation_use_device_temp": "Use internal temperature of the underlying",
"inverse_switch_command": "Inverse switch command",
"auto_fan_mode": "Auto fan mode"
"auto_fan_mode": " Auto fan mode"
},
"data_description": {
"heater_entity_id": "Mandatory heater entity id",
@@ -352,7 +340,7 @@
"auto_regulation_periode_min": "Duration in minutes between two regulation update",
"auto_regulation_use_device_temp": "Use the eventual internal temperature sensor of the underlying to speedup the self-regulation",
"inverse_switch_command": "For switch with pilot wire and diode you may need to invert the command",
"auto_fan_mode": "Automatically activate fan when huge heating/cooling is necessary"
"auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
}
},
"tpi": {
@@ -449,16 +437,16 @@
"title": "Advanced - {name}",
"description": "Advanced parameters. Leave the default values if you don't know what you are doing.\nThese parameters can lead to very poor temperature control or bad power regulation.",
"data": {
"minimal_activation_delay": "Minimum activation delay",
"minimal_activation_delay": "Minimal activation delay",
"security_delay_min": "Safety delay (in minutes)",
"security_min_on_percent": "Minimum power percent to enable safety mode",
"security_min_on_percent": "Minimal power percent to enable safety mode",
"security_default_on_percent": "Power percent to use in safety mode",
"use_advanced_central_config": "Use central advanced configuration"
},
"data_description": {
"minimal_activation_delay": "Delay in seconds under which the equipment will not be activated",
"security_delay_min": "Maximum allowed delay in minutes between two temperature measurements. Above this delay the thermostat will turn to a safety off state",
"security_min_on_percent": "Minimum heating percent value for safety preset activation. Below this amount of power percent the thermostat won't go into safety preset",
"security_min_on_percent": "Minimal heating percent value for safety preset activation. Below this amount of power percent the thermostat won't go into safety preset",
"security_default_on_percent": "The default heating power percent value in safety preset. Set to 0 to switch off heater in safety preset",
"use_advanced_central_config": "Check to use the central advanced configuration. Uncheck to use a specific advanced configuration for this VTherm"
}
@@ -518,14 +506,6 @@
"comfort": "Comfort",
"boost": "Boost"
}
},
"auto_start_stop": {
"options": {
"auto_start_stop_none": "No auto start/stop",
"auto_start_stop_slow": "Slow detection",
"auto_start_stop_medium": "Medium detection",
"auto_start_stop_fast": "Fast detection"
}
}
},
"entity": {

379
custom_components/versatile_thermostat/thermostat_climate.py
View File

@@ -3,13 +3,13 @@
import logging
from datetime import timedelta, datetime
from homeassistant.const import STATE_ON
from homeassistant.core import Event, HomeAssistant, State, callback
from homeassistant.core import HomeAssistant, State, callback
from homeassistant.helpers.event import (
async_track_state_change_event,
async_track_time_interval,
EventStateChangedData,
)
from homeassistant.helpers.typing import EventType as HASSEventType
from homeassistant.components.climate import (
HVACAction,
HVACMode,
@@ -49,31 +49,16 @@ from .const import (
RegulationParamStrong,
AUTO_FAN_DTEMP_THRESHOLD,
AUTO_FAN_DEACTIVATED_MODES,
CONF_AUTO_START_STOP_LEVEL,
AUTO_START_STOP_LEVEL_NONE,
TYPE_AUTO_START_STOP_LEVELS,
UnknownEntity,
EventType,
)
from .vtherm_api import VersatileThermostatAPI
from .underlyings import UnderlyingClimate
from .auto_start_stop_algorithm import (
AutoStartStopDetectionAlgorithm,
AUTO_START_STOP_ACTION_OFF,
AUTO_START_STOP_ACTION_ON,
)
_LOGGER = logging.getLogger(__name__)
HVAC_ACTION_ON = [ # pylint: disable=invalid-name
HVACAction.COOLING,
HVACAction.DRYING,
HVACAction.FAN,
HVACAction.HEATING,
]
class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
class ThermostatOverClimate(BaseThermostat):
"""Representation of a base class for a Versatile Thermostat over a climate"""
_auto_regulation_mode: str | None = None
@@ -89,8 +74,6 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
# The fan_mode name depending of the current_mode
_auto_activated_fan_mode: str | None = None
_auto_deactivated_fan_mode: str | None = None
_auto_start_stop_level: TYPE_AUTO_START_STOP_LEVELS = AUTO_START_STOP_LEVEL_NONE
_auto_start_stop_algo: AutoStartStopDetectionAlgorithm | None = None
_entity_component_unrecorded_attributes = (
BaseThermostat._entity_component_unrecorded_attributes.union(
@@ -109,9 +92,6 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
"auto_activated_fan_mode",
"auto_deactivated_fan_mode",
"auto_regulation_use_device_temp",
"auto_start_stop_level",
"auto_start_stop_dtemp",
"auto_start_stop_dtmin",
}
)
)
@@ -126,61 +106,6 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
self._regulated_target_temp = self.target_temperature
self._last_regulation_change = NowClass.get_now(hass)
@overrides
def post_init(self, config_entry: ConfigData):
"""Initialize the Thermostat"""
super().post_init(config_entry)
for climate in [
CONF_CLIMATE,
CONF_CLIMATE_2,
CONF_CLIMATE_3,
CONF_CLIMATE_4,
]:
if config_entry.get(climate):
self._underlyings.append(
UnderlyingClimate(
hass=self._hass,
thermostat=self,
climate_entity_id=config_entry.get(climate),
)
)
self.choose_auto_regulation_mode(
config_entry.get(CONF_AUTO_REGULATION_MODE)
if config_entry.get(CONF_AUTO_REGULATION_MODE) is not None
else CONF_AUTO_REGULATION_NONE
)
self._auto_regulation_dtemp = (
config_entry.get(CONF_AUTO_REGULATION_DTEMP)
if config_entry.get(CONF_AUTO_REGULATION_DTEMP) is not None
else 0.5
)
self._auto_regulation_period_min = (
config_entry.get(CONF_AUTO_REGULATION_PERIOD_MIN)
if config_entry.get(CONF_AUTO_REGULATION_PERIOD_MIN) is not None
else 5
)
self._auto_fan_mode = (
config_entry.get(CONF_AUTO_FAN_MODE)
if config_entry.get(CONF_AUTO_FAN_MODE) is not None
else CONF_AUTO_FAN_NONE
)
self._auto_regulation_use_device_temp = config_entry.get(
CONF_AUTO_REGULATION_USE_DEVICE_TEMP, False
)
self._auto_start_stop_level = config_entry.get(
CONF_AUTO_START_STOP_LEVEL, AUTO_START_STOP_LEVEL_NONE
)
# Instanciate the auto start stop algo
self._auto_start_stop_algo = AutoStartStopDetectionAlgorithm(
self._auto_start_stop_level, self.name
)
@property
def is_over_climate(self) -> bool:
"""True if the Thermostat is over_climate"""
@@ -218,17 +143,7 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
"""Sends the regulated temperature to all underlying"""
if self.hvac_mode == HVACMode.OFF:
_LOGGER.debug(
"%s - don't send regulated temperature cause VTherm is off ", self
)
return
if self.target_temperature is None:
_LOGGER.warning(
"%s - don't send regulated temperature cause VTherm target_temp (%s) is None. This should be a temporary warning message.",
self,
self.target_temperature,
)
_LOGGER.debug("%s - don't send regulated temperature cause VTherm is off ")
return
_LOGGER.info(
@@ -253,19 +168,12 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
_LOGGER.info("%s - regulation calculation will be done", self)
# use _attr_target_temperature_step to round value if _auto_regulation_dtemp is equal to 0
regulation_step = self._auto_regulation_dtemp if self._auto_regulation_dtemp else self._attr_target_temperature_step
_LOGGER.debug("%s - usage regulation_step: %.2f ", self, regulation_step)
if self.current_temperature is not None:
new_regulated_temp = round_to_nearest(
self._regulation_algo.calculate_regulated_temperature(
self.current_temperature, self._cur_ext_temp
),
regulation_step,
)
else:
new_regulated_temp = self.target_temperature
new_regulated_temp = round_to_nearest(
self._regulation_algo.calculate_regulated_temperature(
self.current_temperature, self._cur_ext_temp
),
self._auto_regulation_dtemp,
)
dtemp = new_regulated_temp - self._regulated_target_temp
if not force and abs(dtemp) < self._auto_regulation_dtemp:
@@ -290,16 +198,25 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
offset_temp = 0
device_temp = 0
if (
# current_temperature is set
self.current_temperature is not None
# regulation can use the device_temp
and self.auto_regulation_use_device_temp
self.auto_regulation_use_device_temp
# and we have access to the device temp
and (device_temp := under.underlying_current_temperature) is not None
# and target is not reach (ie we need regulation)
and (
(
self.hvac_mode == HVACMode.COOL
and self.target_temperature < self.current_temperature
)
or (
self.hvac_mode == HVACMode.HEAT
and self.target_temperature > self.current_temperature
)
)
):
offset_temp = device_temp - self.current_temperature
target_temp = round_to_nearest(self.regulated_target_temp + offset_temp, regulation_step)
target_temp = round_to_nearest(self.regulated_target_temp + offset_temp, self._auto_regulation_dtemp)
_LOGGER.debug(
"%s - The device offset temp for regulation is %.2f - internal temp is %.2f. New target is %.2f",
@@ -360,6 +277,53 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
)
await self.async_set_fan_mode(self._auto_deactivated_fan_mode)
@overrides
def post_init(self, config_entry: ConfigData):
"""Initialize the Thermostat"""
super().post_init(config_entry)
for climate in [
CONF_CLIMATE,
CONF_CLIMATE_2,
CONF_CLIMATE_3,
CONF_CLIMATE_4,
]:
if config_entry.get(climate):
self._underlyings.append(
UnderlyingClimate(
hass=self._hass,
thermostat=self,
climate_entity_id=config_entry.get(climate),
)
)
self.choose_auto_regulation_mode(
config_entry.get(CONF_AUTO_REGULATION_MODE)
if config_entry.get(CONF_AUTO_REGULATION_MODE) is not None
else CONF_AUTO_REGULATION_NONE
)
self._auto_regulation_dtemp = (
config_entry.get(CONF_AUTO_REGULATION_DTEMP)
if config_entry.get(CONF_AUTO_REGULATION_DTEMP) is not None
else 0.5
)
self._auto_regulation_period_min = (
config_entry.get(CONF_AUTO_REGULATION_PERIOD_MIN)
if config_entry.get(CONF_AUTO_REGULATION_PERIOD_MIN) is not None
else 5
)
self._auto_fan_mode = (
config_entry.get(CONF_AUTO_FAN_MODE)
if config_entry.get(CONF_AUTO_FAN_MODE) is not None
else CONF_AUTO_FAN_NONE
)
self._auto_regulation_use_device_temp = config_entry.get(
CONF_AUTO_REGULATION_USE_DEVICE_TEMP, False
)
def choose_auto_regulation_mode(self, auto_regulation_mode: str):
"""Choose or change the regulation mode"""
self._auto_regulation_mode = auto_regulation_mode
@@ -572,13 +536,6 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
self.auto_regulation_use_device_temp
)
self._attr_extra_state_attributes["auto_start_stop_level"] = (
self._auto_start_stop_algo.level
)
self._attr_extra_state_attributes["auto_start_stop_dtmin"] = (
self._auto_start_stop_algo.dt_min
)
self.async_write_ha_state()
_LOGGER.debug(
"%s - Calling update_custom_attributes: %s",
@@ -624,11 +581,7 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
):
added_energy = self._device_power * self._underlying_climate_delta_t
if self._total_energy is None:
self._total_energy = added_energy
else:
self._total_energy += added_energy
self._total_energy += added_energy
_LOGGER.debug(
"%s - added energy is %.3f . Total energy is now: %.3f",
self,
@@ -637,7 +590,7 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
)
@callback
async def _async_climate_changed(self, event: Event[EventStateChangedData]):
async def _async_climate_changed(self, event: HASSEventType[EventStateChangedData]):
"""Handle unerdlying climate state changes.
This method takes the underlying values and update the VTherm with them.
To avoid loops (issues #121 #101 #95 #99), we discard the event if it is received
@@ -650,8 +603,7 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
async def end_climate_changed(changes: bool):
"""To end the event management"""
if changes:
# already done by update_custom_attribute
# self.async_write_ha_state()
self.async_write_ha_state()
self.update_custom_attributes()
await self.async_control_heating()
@@ -660,15 +612,6 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
if not new_state:
return
# Find the underlying which have change
under = self.find_underlying_by_entity_id(new_state.entity_id)
if not under:
_LOGGER.warning(
"We have a receive an event from entity %s which is NOT one of our underlying entities. This is not normal and should be reported to the developper of the integration"
)
return
changes = False
new_hvac_mode = new_state.state
@@ -703,67 +646,20 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
new_state.last_updated if new_state and new_state.last_updated else None
)
new_target_temp = (
new_state.attributes.get("temperature")
if new_state and new_state.attributes
else None
)
last_sent_temperature = under.last_sent_temperature or 0
under_temp_diff = (
(new_target_temp - last_sent_temperature) if new_target_temp else 0
)
if -1 < under_temp_diff < 1:
under_temp_diff = 0
# Issue 99 - some AC turn hvac_mode=cool and hvac_action=idle when sending a HVACMode_OFF command
# Issue 114 - Remove this because hvac_mode is now managed by local _hvac_mode and use idle action as is
# if self._hvac_mode == HVACMode.OFF and new_hvac_action == HVACAction.IDLE:
# _LOGGER.debug("The underlying switch to idle instead of OFF. We will consider it as OFF")
# new_hvac_mode = HVACMode.OFF
# Forget event when the event holds no real changes
if (
new_hvac_mode == self._hvac_mode
and new_hvac_action == old_hvac_action
and under_temp_diff == 0
and (new_fan_mode is None or new_fan_mode == self._attr_fan_mode)
):
_LOGGER.debug(
"%s - a underlying state change event is received but no real change have been found. Forget the event",
self,
)
return
# Forget event when the new target temperature is out of range
if (
not new_target_temp is None
and not self._attr_min_temp is None
and not self._attr_max_temp is None
and not (self._attr_min_temp <= new_target_temp <= self._attr_max_temp)
):
_LOGGER.debug(
"%s - underlying sent a target temperature (%s) which is out of configured min/max range (%s / %s). The value will be ignored",
self,
new_target_temp,
self._attr_min_temp,
self._attr_max_temp,
)
return
# A real changes have to be managed
_LOGGER.info(
"%s - Underlying climate %s have changed. new_hvac_mode is %s (vs %s), new_hvac_action=%s (vs %s), new_target_temp=%s (vs %s), new_fan_mode=%s (vs %s)",
"%s - Underlying climate %s changed. Event.new_hvac_mode is %s, current_hvac_mode=%s, new_hvac_action=%s, old_hvac_action=%s",
self,
under.entity_id,
new_state.entity_id,
new_hvac_mode,
self._hvac_mode,
new_hvac_action,
old_hvac_action,
new_target_temp,
self.target_temperature,
new_fan_mode,
self._attr_fan_mode,
)
_LOGGER.debug(
@@ -777,6 +673,12 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
)
# Interpretation of hvac action
HVAC_ACTION_ON = [ # pylint: disable=invalid-name
HVACAction.COOLING,
HVACAction.DRYING,
HVACAction.FAN,
HVACAction.HEATING,
]
if old_hvac_action not in HVAC_ACTION_ON and new_hvac_action in HVAC_ACTION_ON:
self._underlying_climate_start_hvac_action_date = (
self.get_last_updated_date_or_now(new_state)
@@ -809,7 +711,6 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
)
changes = True
# Filter new state when received just after a change from VTherm
# Issue #120 - Some TRV are changing target temperature a very long time (6 sec) after the change.
# In that case a loop is possible if a user change multiple times during this 6 sec.
if new_state_date_updated and self._last_change_time:
@@ -822,7 +723,6 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
await end_climate_changed(changes)
return
# Update all underlyings hvac_mode state if it has change
if (
new_hvac_mode
in [
@@ -837,6 +737,7 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
]
and self._hvac_mode != new_hvac_mode
):
# Update all underlyings state
# Issue #334 - if all underlyings are not aligned with the same hvac_mode don't change the underlying and wait they are aligned
if self.is_over_climate:
for under in self._underlyings:
@@ -867,28 +768,27 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
self._attr_fan_mode = new_fan_mode
changes = True
# try to manage new target temperature set if state if no other changes have been found
if not changes:
# try to manage new target temperature set if state
_LOGGER.debug(
"Do temperature check. under.last_sent_temperature is %s, new_target_temp is %s",
under.last_sent_temperature,
new_target_temp,
"Do temperature check. temperature is %s, new_state.attributes is %s",
self.target_temperature,
new_state.attributes,
)
# if the underlying have change its target temperature
if under_temp_diff != 0:
if (
# we do not change target temperature on regulated VTherm
not self.is_regulated
and new_state.attributes
and (new_target_temp := new_state.attributes.get("temperature"))
and new_target_temp != self.target_temperature
):
_LOGGER.info(
"%s - Target temp in underlying have change to %s (vs %s)",
"%s - Target temp in underlying have change to %s",
self,
new_target_temp,
under.last_sent_temperature,
)
await self.async_set_temperature(temperature=new_target_temp)
changes = True
else:
_LOGGER.debug(
"%s - Forget the eventual underlying temperature change there is no real change",
self,
)
await end_climate_changed(changes)
@@ -897,61 +797,6 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
"""The main function used to run the calculation at each cycle"""
ret = await super().async_control_heating(force, _)
# Check if we need to auto start/stop the Vtherm
action = self._auto_start_stop_algo.calculate_action(
self.hvac_mode,
self._saved_hvac_mode,
self.target_temperature,
self.current_temperature,
self._window_auto_algo.last_slope,
self.now
)
_LOGGER.debug("%s - auto_start_stop action is %s", self, action)
if action == AUTO_START_STOP_ACTION_OFF:
_LOGGER.info(
"%s - Turning OFF the Vtherm due to auto-start-stop conditions", self
)
await self.async_turn_off()
# Send an event
self.send_event(
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "stop",
"cause": "Auto stop conditions reached",
"hvac_mode": self.hvac_mode,
"saved_hvac_mode": self._saved_hvac_mode,
"target_temperature": self.target_temperature,
"current_temperature": self.current_temperature,
"temperature_slope": self._window_auto_algo.last_slope,
},
)
# Stop here
return ret
elif action == AUTO_START_STOP_ACTION_ON:
_LOGGER.info(
"%s - Turning ON the Vtherm due to auto-start-stop conditions", self
)
await self.async_turn_on()
# Send an event
self.send_event(
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "start",
"cause": "Auto start conditions reached",
"hvac_mode": self.hvac_mode,
"saved_hvac_mode": self._saved_hvac_mode,
"target_temperature": self.target_temperature,
"current_temperature": self.current_temperature,
"temperature_slope": self._window_auto_algo.last_slope,
},
)
# Continue the normal async_control_heating
# Send the regulated temperature to the underlyings
await self._send_regulated_temperature()
if self._auto_fan_mode and self._auto_fan_mode != CONF_AUTO_FAN_NONE:
@@ -1045,7 +890,10 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
@property
def temperature_unit(self) -> str:
"""Return the unit of measurement."""
return self.hass.config.units.temperature_unit
if self.underlying_entity(0):
return self.underlying_entity(0).temperature_unit
return self._unit
@property
def supported_features(self):
@@ -1105,11 +953,6 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
return False
return True
@property
def auto_start_stop_level(self) -> TYPE_AUTO_START_STOP_LEVELS:
"""Return the auto start/stop level."""
return self._auto_start_stop_level
@overrides
def init_underlyings(self):
"""Init the underlyings if not already done"""
@@ -1241,29 +1084,3 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
self.choose_auto_fan_mode(CONF_AUTO_FAN_TURBO)
self.update_custom_attributes()
@overrides
async def async_turn_off(self) -> None:
# if window is open, don't overwrite the saved_hvac_mode
if self.window_state != STATE_ON:
self.save_hvac_mode()
await self.async_set_hvac_mode(HVACMode.OFF)
@overrides
async def async_turn_on(self) -> None:
# don't turn_on if window is open
if self.window_state == STATE_ON:
_LOGGER.info(
"%s - refuse to turn on because window is open. We keep the save_hvac_mode",
self,
)
return
if self._saved_hvac_mode is not None: # pylint: disable=protected-access
await self.restore_hvac_mode(True)
else:
if self._ac_mode:
await self.async_set_hvac_mode(HVACMode.COOL)
else:
await self.async_set_hvac_mode(HVACMode.HEAT)

25
custom_components/versatile_thermostat/thermostat_switch.py
View File

@@ -2,11 +2,12 @@
""" A climate over switch classe """
import logging
from homeassistant.core import Event, callback
from homeassistant.core import callback
from homeassistant.helpers.event import (
async_track_state_change_event,
EventStateChangedData,
)
from homeassistant.helpers.typing import EventType as HASSEventType
from homeassistant.components.climate import HVACMode
from .const import (
@@ -26,7 +27,7 @@ from .prop_algorithm import PropAlgorithm
_LOGGER = logging.getLogger(__name__)
class ThermostatOverSwitch(BaseThermostat[UnderlyingSwitch]):
class ThermostatOverSwitch(BaseThermostat):
"""Representation of a base class for a Versatile Thermostat over a switch."""
_entity_component_unrecorded_attributes = (
@@ -87,7 +88,6 @@ class ThermostatOverSwitch(BaseThermostat[UnderlyingSwitch]):
self._tpi_coef_ext,
self._cycle_min,
self._minimal_activation_delay,
self.name,
)
lst_switches = [config_entry.get(CONF_HEATER)]
@@ -136,11 +136,11 @@ class ThermostatOverSwitch(BaseThermostat[UnderlyingSwitch]):
"""Custom attributes"""
super().update_custom_attributes()
under0: UnderlyingSwitch = self._underlyings[0]
self._attr_extra_state_attributes["is_over_switch"] = self.is_over_switch
self._attr_extra_state_attributes["is_inversed"] = self.is_inversed
self._attr_extra_state_attributes["keep_alive_sec"] = under0.keep_alive_sec
self._attr_extra_state_attributes["underlying_switch_0"] = under0.entity_id
self._attr_extra_state_attributes["underlying_switch_0"] = self._underlyings[
0
].entity_id
self._attr_extra_state_attributes["underlying_switch_1"] = (
self._underlyings[1].entity_id if len(self._underlyings) > 1 else None
)
@@ -186,8 +186,7 @@ class ThermostatOverSwitch(BaseThermostat[UnderlyingSwitch]):
self._hvac_mode or HVACMode.OFF,
)
self.update_custom_attributes()
# already done bu update_custom_attributes
# self.async_write_ha_state()
self.async_write_ha_state()
@overrides
def incremente_energy(self):
@@ -199,13 +198,7 @@ class ThermostatOverSwitch(BaseThermostat[UnderlyingSwitch]):
if not self.is_over_climate and self.mean_cycle_power is not None:
added_energy = self.mean_cycle_power * float(self._cycle_min) / 60.0
if self._total_energy is None:
self._total_energy = added_energy
else:
self._total_energy += added_energy
self.update_custom_attributes()
self._total_energy += added_energy
_LOGGER.debug(
"%s - added energy is %.3f . Total energy is now: %.3f",
self,
@@ -214,7 +207,7 @@ class ThermostatOverSwitch(BaseThermostat[UnderlyingSwitch]):
)
@callback
def _async_switch_changed(self, event: Event[EventStateChangedData]):
def _async_switch_changed(self, event: HASSEventType[EventStateChangedData]):
"""Handle heater switch state changes."""
new_state = event.data.get("new_state")
old_state = event.data.get("old_state")

67
custom_components/versatile_thermostat/thermostat_valve.py
View File

@@ -8,7 +8,8 @@ from homeassistant.helpers.event import (
async_track_time_interval,
EventStateChangedData,
)
from homeassistant.core import Event, HomeAssistant, callback
from homeassistant.helpers.typing import EventType as HASSEventType
from homeassistant.core import HomeAssistant, callback
from homeassistant.components.climate import HVACMode
from .base_thermostat import BaseThermostat, ConfigData
@@ -30,27 +31,29 @@ from .underlyings import UnderlyingValve
_LOGGER = logging.getLogger(__name__)
class ThermostatOverValve(BaseThermostat[UnderlyingValve]): # pylint: disable=abstract-method
class ThermostatOverValve(BaseThermostat): # pylint: disable=abstract-method
"""Representation of a class for a Versatile Thermostat over a Valve"""
_entity_component_unrecorded_attributes = BaseThermostat._entity_component_unrecorded_attributes.union( # pylint: disable=protected-access
frozenset(
{
"is_over_valve",
"underlying_valve_0",
"underlying_valve_1",
"underlying_valve_2",
"underlying_valve_3",
"on_time_sec",
"off_time_sec",
"cycle_min",
"function",
"tpi_coef_int",
"tpi_coef_ext",
"auto_regulation_dpercent",
"auto_regulation_period_min",
"last_calculation_timestamp",
}
_entity_component_unrecorded_attributes = (
BaseThermostat._entity_component_unrecorded_attributes.union(
frozenset(
{
"is_over_valve",
"underlying_valve_0",
"underlying_valve_1",
"underlying_valve_2",
"underlying_valve_3",
"on_time_sec",
"off_time_sec",
"cycle_min",
"function",
"tpi_coef_int",
"tpi_coef_ext",
"auto_regulation_dpercent",
"auto_regulation_period_min",
"last_calculation_timestamp",
}
)
)
)
@@ -102,7 +105,6 @@ class ThermostatOverValve(BaseThermostat[UnderlyingValve]): # pylint: disable=a
self._tpi_coef_ext,
self._cycle_min,
self._minimal_activation_delay,
self.name,
)
lst_valves = [config_entry.get(CONF_VALVE)]
@@ -146,7 +148,7 @@ class ThermostatOverValve(BaseThermostat[UnderlyingValve]): # pylint: disable=a
)
@callback
async def _async_valve_changed(self, event: Event[EventStateChangedData]):
async def _async_valve_changed(self, event: HASSEventType[EventStateChangedData]):
"""Handle unerdlying valve state changes.
This method just log the change. It changes nothing to avoid loops.
"""
@@ -239,16 +241,10 @@ class ThermostatOverValve(BaseThermostat[UnderlyingValve]): # pylint: disable=a
max(0, min(self.proportional_algorithm.on_percent, 1)) * 100
)
# Issue 533 - don't filter with dtemp if valve should be close. Else it will never close
if new_valve_percent < self._auto_regulation_dpercent:
new_valve_percent = 0
dpercent = new_valve_percent - self.valve_open_percent
if (
new_valve_percent > 0
and -1 * self._auto_regulation_dpercent
<= dpercent
< self._auto_regulation_dpercent
dpercent >= -1 * self._auto_regulation_dpercent
and dpercent < self._auto_regulation_dpercent
):
_LOGGER.debug(
"%s - do not calculate TPI because regulation_dpercent (%.1f) is not exceeded",
@@ -270,8 +266,7 @@ class ThermostatOverValve(BaseThermostat[UnderlyingValve]): # pylint: disable=a
self._last_calculation_timestamp = now
self.update_custom_attributes()
# already done in update_custom_attributes
# self.async_write_ha_state()
self.async_write_ha_state()
@overrides
def incremente_energy(self):
@@ -283,13 +278,7 @@ class ThermostatOverValve(BaseThermostat[UnderlyingValve]): # pylint: disable=a
if not self.is_over_climate and self.mean_cycle_power is not None:
added_energy = self.mean_cycle_power * float(self._cycle_min) / 60.0
if self._total_energy is None:
self._total_energy = added_energy
else:
self._total_energy += added_energy
self.update_custom_attributes()
self._total_energy += added_energy
_LOGGER.debug(
"%s - added energy is %.3f . Total energy is now: %.3f",
self,

8
custom_components/versatile_thermostat/translations/el.json
View File

@@ -43,7 +43,7 @@
"auto_regulation_dtemp": "Όριο ρύθμισης",
"auto_regulation_periode_min": "Ελάχιστη περίοδος ρύθμισης",
"inverse_switch_command": "Αντίστροφη εντολή διακόπτη",
"auto_fan_mode": "Auto fan mode"
"auto_fan_mode": " Auto fan mode"
},
"data_description": {
"heater_entity_id": "Υποχρεωτική ταυτότητα οντότητας θερμαντήρα",
@@ -64,7 +64,7 @@
"auto_regulation_dtemp": "Το όριο σε ° κάτω από το οποίο η αλλαγή θερμοκρασίας δεν θα αποστέλλεται",
"auto_regulation_periode_min": "Διάρκεια σε λεπτά μεταξύ δύο ενημερώσεων ρύθμισης",
"inverse_switch_command": "Για διακόπτη με πιλοτικό καλώδιο και δίοδο μπορεί να χρειαστεί να αντιστρέψετε την εντολή",
"auto_fan_mode": "Automatically activate fan when huge heating/cooling is necessary"
"auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
}
},
"tpi": {
@@ -216,7 +216,7 @@
"auto_regulation_dtemp": "Όριο ρύθμισης",
"auto_regulation_periode_min": "Ελάχιστη περίοδος ρύθμισης",
"inverse_switch_command": "Αντίστροφη εντολή διακόπτη",
"auto_fan_mode": "Auto fan mode"
"auto_fan_mode": " Auto fan mode"
},
"data_description": {
"heater_entity_id": "Υποχρεωτική ταυτότητα οντότητας θερμαντήρα",
@@ -237,7 +237,7 @@
"auto_regulation_dtemp": "Το κατώφλι σε °C κάτω από το οποίο η αλλαγή της θερμοκρασίας δεν θα αποστέλλεται",
"auto_regulation_periode_min": "Διάρκεια σε λεπτά μεταξύ δύο ενημερώσεων ρύθμισης",
"inverse_switch_command": "Για διακόπτες με πιλοτικό καλώδιο και δίοδο μπορεί να χρειαστεί να αντιστραφεί η εντολή",
"auto_fan_mode": "Automatically activate fan when huge heating/cooling is necessary"
"auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
}
},
"tpi": {

94
custom_components/versatile_thermostat/translations/en.json
View File

@@ -14,7 +14,7 @@
},
"menu": {
"title": "Menu",
"description": "Configure your thermostat. You will be able to finalize the configuration when all required parameters are entered.",
"description": "Configure your thermostat. You will be able to finalize the configuration when all needed parameters are valued.",
"menu_options": {
"main": "Main attributes",
"central_boiler": "Central boiler",
@@ -27,9 +27,7 @@
"power": "Power management",
"presence": "Presence detection",
"advanced": "Advanced parameters",
"auto_start_stop": "Auto start and stop",
"finalize": "All done",
"configuration_not_complete": "Configuration not complete"
"finalize": "All done"
}
},
"main": {
@@ -38,21 +36,19 @@
"data": {
"name": "Name",
"thermostat_type": "Thermostat type",
"temperature_sensor_entity_id": "Room temperature",
"last_seen_temperature_sensor_entity_id": "Last seen room temperature datetime",
"temperature_sensor_entity_id": "Room temperature sensor entity id",
"external_temperature_sensor_entity_id": "Outdoor temperature sensor entity id",
"cycle_min": "Cycle duration (minutes)",
"temp_min": "Minimum temperature allowed",
"temp_max": "Maximum temperature allowed",
"temp_min": "Minimal temperature allowed",
"temp_max": "Maximal temperature allowed",
"step_temperature": "Temperature step",
"device_power": "Device power",
"use_central_mode": "Enable the control by central entity (requires central config). Check to enable the control of the VTherm with the select central_mode entities.",
"use_central_mode": "Enable the control by central entity (need central config). Check to enable the control of the VTherm with the select central_mode entities.",
"use_main_central_config": "Use additional central main configuration. Check to use the central main configuration (outdoor temperature, min, max, step, ...).",
"add_central_boiler_control": "Add a central boiler. Check to add a control to your central boiler. You will have to configure the VTherm which will have a control of the central boiler after seecting this checkbox to take effect. If one VTherm need heating, the boiler will be turned on. If no VTherm needs heating, the boiler will be turned off. Commands for turning on/off the central boiler are given in the next configuration page",
"used_by_controls_central_boiler": "Used by central boiler. Check if this VTherm should have control on the central boiler"
},
"data_description": {
"temperature_sensor_entity_id": "Room temperature sensor entity id",
"last_seen_temperature_sensor_entity_id": "Last seen room temperature sensor entity id. Should be datetime sensor",
"external_temperature_sensor_entity_id": "Outdoor temperature sensor entity id. Not used if central configuration is selected"
}
},
@@ -63,9 +59,7 @@
"use_window_feature": "Use window detection",
"use_motion_feature": "Use motion detection",
"use_power_feature": "Use power management",
"use_presence_feature": "Use presence detection",
"use_central_boiler_feature": "Use a central boiler. Check to add a control to your central boiler. You will have to configure the VTherm which will have a control of the central boiler after seecting this checkbox to take effect. If one VTherm requires heating, the boiler will be turned on. If no VTherm requires heating, the boiler will be turned off. Commands for turning on/off the central boiler are given in the related configuration page",
"use_auto_start_stop_feature": "Use the auto start and stop feature"
"use_presence_feature": "Use presence detection"
}
},
"type": {
@@ -89,16 +83,16 @@
"valve_entity4_id": "4th valve number",
"auto_regulation_mode": "Self-regulation",
"auto_regulation_dtemp": "Regulation threshold",
"auto_regulation_periode_min": "Regulation minimum period",
"auto_regulation_periode_min": "Regulation minimal period",
"auto_regulation_use_device_temp": "Use internal temperature of the underlying",
"inverse_switch_command": "Inverse switch command",
"auto_fan_mode": "Auto fan mode"
"auto_fan_mode": " Auto fan mode"
},
"data_description": {
"heater_entity_id": "Mandatory heater entity id",
"heater_entity2_id": "Optional 2nd Heater entity id. Leave empty if not required",
"heater_entity3_id": "Optional 3rd Heater entity id. Leave empty if not required",
"heater_entity4_id": "Optional 4th Heater entity id. Leave empty if not required",
"heater_entity2_id": "Optional 2nd Heater entity id. Leave empty if not used",
"heater_entity3_id": "Optional 3rd Heater entity id. Leave empty if not used",
"heater_entity4_id": "Optional 4th Heater entity id. Leave empty if not used",
"heater_keep_alive": "Optional heater switch state refresh interval. Leave empty if not required.",
"proportional_function": "Algorithm to use (TPI is the only one for now)",
"climate_entity_id": "Underlying climate entity id",
@@ -115,7 +109,7 @@
"auto_regulation_periode_min": "Duration in minutes between two regulation update",
"auto_regulation_use_device_temp": "Use the eventual internal temperature sensor of the underlying to speedup the self-regulation",
"inverse_switch_command": "For switch with pilot wire and diode you may need to inverse the command",
"auto_fan_mode": "Automatically activate fan when huge heating/cooling is necessary"
"auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
}
},
"tpi": {
@@ -134,7 +128,7 @@
},
"presets": {
"title": "Presets",
"description": "Select if the thermostat will use central preset - deselect for the thermostat to have its own presets",
"description": "Check if the thermostat will use central presets. Uncheck and the thermostat will have its own preset entities",
"data": {
"use_presets_central_config": "Use central presets configuration"
}
@@ -157,8 +151,8 @@
"window_auto_open_threshold": "Recommended value: between 3 and 10. Leave empty if automatic window open detection is not used",
"window_auto_close_threshold": "Recommended value: 0. Leave empty if automatic window open detection is not used",
"window_auto_max_duration": "Recommended value: 60 (one hour). Leave empty if automatic window open detection is not used",
"use_window_central_config": "Select to use the central window configuration. Deselect to use a specific window configuration for this VTherm",
"window_action": "Action to perform if window is deteted as open"
"use_window_central_config": "Check to use the central window configuration. Uncheck to use a specific window configuration for this VTherm",
"window_action": "Action to do if window is deteted as open"
}
},
"motion": {
@@ -183,7 +177,7 @@
},
"power": {
"title": "Power management",
"description": "Power management attributes.\nGives the power and max power sensor of your home.\nSpecify the power consumption of the heater when on.\nAll sensors and device power should use the same unit (kW or W).",
"description": "Power management attributes.\nGives the power and max power sensor of your home.\nThen specify the power consumption of the heater when on.\nAll sensors and device power should have the same unit (kW or W).",
"data": {
"power_sensor_entity_id": "Power",
"max_power_sensor_entity_id": "Max power",
@@ -202,7 +196,7 @@
"description": "Presence management attributes.\nGives the a presence sensor of your home (true is someone is present) and give the corresponding temperature preset setting.",
"data": {
"presence_sensor_entity_id": "Presence sensor",
"use_presence_central_config": "Use central presence temperature configuration. Deselect to use specific temperature entities"
"use_presence_central_config": "Use central presence temperature configuration. Uncheck to use specific temperature entities"
},
"data_description": {
"presence_sensor_entity_id": "Presence sensor entity id"
@@ -212,16 +206,16 @@
"title": "Advanced parameters",
"description": "Configuration of advanced parameters. Leave the default values if you don't know what you are doing.\nThese parameters can lead to very poor temperature control or bad power regulation.",
"data": {
"minimal_activation_delay": "Minimum activation delay",
"minimal_activation_delay": "Minimal activation delay",
"security_delay_min": "Safety delay (in minutes)",
"security_min_on_percent": "Minimum power percent to enable safety mode",
"security_min_on_percent": "Minimal power percent to enable safety mode",
"security_default_on_percent": "Power percent to use in safety mode",
"use_advanced_central_config": "Use central advanced configuration"
},
"data_description": {
"minimal_activation_delay": "Delay in seconds under which the equipment will not be activated",
"security_delay_min": "Maximum allowed delay in minutes between two temperature measurements. Above this delay the thermostat will turn to a safety off state",
"security_min_on_percent": "Minimum heating percent value for safety preset activation. Below this amount of power percent the thermostat won't go into safety preset",
"security_min_on_percent": "Minimal heating percent value for safety preset activation. Below this amount of power percent the thermostat won't go into safety preset",
"security_default_on_percent": "The default heating power percent value in safety preset. Set to 0 to switch off heater in safety preset",
"use_advanced_central_config": "Check to use the central advanced configuration. Uncheck to use a specific advanced configuration for this VTherm"
}
@@ -231,7 +225,7 @@
"unknown": "Unexpected error",
"unknown_entity": "Unknown entity id",
"window_open_detection_method": "Only one window open detection method should be used. Use either window sensor or automatic detection through temperature threshold but not both",
"no_central_config": "You cannot select 'use central configuration' because no central configuration was found. You need to create a Versatile Thermostat of type 'Central Configuration' to use it."
"no_central_config": "You cannot check 'use central configuration' because no central configuration was found. You need to create a Versatile Thermostat of type 'Central Configuration' to use it."
},
"abort": {
"already_configured": "Device is already configured"
@@ -251,7 +245,7 @@
},
"menu": {
"title": "Menu",
"description": "Configure your thermostat. You will be able to finalize the configuration when all required parameters are entered.",
"description": "Configure your thermostat. You will be able to finalize the configuration when all needed parameters are valued.",
"menu_options": {
"main": "Main attributes",
"central_boiler": "Central boiler",
@@ -264,9 +258,7 @@
"power": "Power management",
"presence": "Presence detection",
"advanced": "Advanced parameters",
"auto_start_stop": "Auto start and stop",
"finalize": "All done",
"configuration_not_complete": "Configuration not complete"
"finalize": "All done"
}
},
"main": {
@@ -275,21 +267,19 @@
"data": {
"name": "Name",
"thermostat_type": "Thermostat type",
"temperature_sensor_entity_id": "Room temperature",
"last_seen_temperature_sensor_entity_id": "Last seen room temperature datetime",
"temperature_sensor_entity_id": "Room temperature sensor entity id",
"external_temperature_sensor_entity_id": "Outdoor temperature sensor entity id",
"cycle_min": "Cycle duration (minutes)",
"temp_min": "Minimum temperature allowed",
"temp_max": "Maximum temperature allowed",
"temp_min": "Minimal temperature allowed",
"temp_max": "Maximal temperature allowed",
"step_temperature": "Temperature step",
"device_power": "Device power",
"use_central_mode": "Enable the control by central entity (requires central config). Check to enable the control of the VTherm with the select central_mode entities.",
"use_central_mode": "Enable the control by central entity (need central config). Check to enable the control of the VTherm with the select central_mode entities.",
"use_main_central_config": "Use additional central main configuration. Check to use the central main configuration (outdoor temperature, min, max, step, ...).",
"add_central_boiler_control": "Add a central boiler. Check to add a control to your central boiler. You will have to configure the VTherm which will have a control of the central boiler after seecting this checkbox to take effect. If one VTherm need heating, the boiler will be turned on. If no VTherm needs heating, the boiler will be turned off. Commands for turning on/off the central boiler are given in the next configuration page",
"used_by_controls_central_boiler": "Used by central boiler. Check if this VTherm should have control on the central boiler"
},
"data_description": {
"temperature_sensor_entity_id": "Room temperature sensor entity id",
"last_seen_temperature_sensor_entity_id": "Last seen room temperature sensor entity id. Should be datetime sensor",
"external_temperature_sensor_entity_id": "Outdoor temperature sensor entity id. Not used if central configuration is selected"
}
},
@@ -300,9 +290,7 @@
"use_window_feature": "Use window detection",
"use_motion_feature": "Use motion detection",
"use_power_feature": "Use power management",
"use_presence_feature": "Use presence detection",
"use_central_boiler_feature": "Use a central boiler. Check to add a control to your central boiler. You will have to configure the VTherm which will have a control of the central boiler after seecting this checkbox to take effect. If one VTherm requires heating, the boiler will be turned on. If no VTherm requires heating, the boiler will be turned off. Commands for turning on/off the central boiler are given in the related configuration page",
"use_auto_start_stop_feature": "Use the auto start and stop feature"
"use_presence_feature": "Use presence detection"
}
},
"type": {
@@ -326,10 +314,10 @@
"valve_entity4_id": "4th valve number",
"auto_regulation_mode": "Self-regulation",
"auto_regulation_dtemp": "Regulation threshold",
"auto_regulation_periode_min": "Regulation minimum period",
"auto_regulation_periode_min": "Regulation minimal period",
"auto_regulation_use_device_temp": "Use internal temperature of the underlying",
"inverse_switch_command": "Inverse switch command",
"auto_fan_mode": "Auto fan mode"
"auto_fan_mode": " Auto fan mode"
},
"data_description": {
"heater_entity_id": "Mandatory heater entity id",
@@ -352,7 +340,7 @@
"auto_regulation_periode_min": "Duration in minutes between two regulation update",
"auto_regulation_use_device_temp": "Use the eventual internal temperature sensor of the underlying to speedup the self-regulation",
"inverse_switch_command": "For switch with pilot wire and diode you may need to invert the command",
"auto_fan_mode": "Automatically activate fan when huge heating/cooling is necessary"
"auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
}
},
"tpi": {
@@ -449,16 +437,16 @@
"title": "Advanced - {name}",
"description": "Advanced parameters. Leave the default values if you don't know what you are doing.\nThese parameters can lead to very poor temperature control or bad power regulation.",
"data": {
"minimal_activation_delay": "Minimum activation delay",
"minimal_activation_delay": "Minimal activation delay",
"security_delay_min": "Safety delay (in minutes)",
"security_min_on_percent": "Minimum power percent to enable safety mode",
"security_min_on_percent": "Minimal power percent to enable safety mode",
"security_default_on_percent": "Power percent to use in safety mode",
"use_advanced_central_config": "Use central advanced configuration"
},
"data_description": {
"minimal_activation_delay": "Delay in seconds under which the equipment will not be activated",
"security_delay_min": "Maximum allowed delay in minutes between two temperature measurements. Above this delay the thermostat will turn to a safety off state",
"security_min_on_percent": "Minimum heating percent value for safety preset activation. Below this amount of power percent the thermostat won't go into safety preset",
"security_min_on_percent": "Minimal heating percent value for safety preset activation. Below this amount of power percent the thermostat won't go into safety preset",
"security_default_on_percent": "The default heating power percent value in safety preset. Set to 0 to switch off heater in safety preset",
"use_advanced_central_config": "Check to use the central advanced configuration. Uncheck to use a specific advanced configuration for this VTherm"
}
@@ -518,14 +506,6 @@
"comfort": "Comfort",
"boost": "Boost"
}
},
"auto_start_stop": {
"options": {
"auto_start_stop_none": "No auto start/stop",
"auto_start_stop_slow": "Slow detection",
"auto_start_stop_medium": "Medium detection",
"auto_start_stop_fast": "Fast detection"
}
}
},
"entity": {

48
custom_components/versatile_thermostat/translations/fr.json
View File

@@ -27,9 +27,7 @@
"power": "Gestion de la puissance",
"presence": "Détection de présence",
"advanced": "Paramètres avancés",
"auto_start_stop": "Allumage/extinction automatique",
"finalize": "Finaliser la création",
"configuration_not_complete": "Configuration incomplète"
"finalize": "Finaliser la création"
}
},
"main": {
@@ -38,9 +36,8 @@
"data": {
"name": "Nom",
"thermostat_type": "Type de thermostat",
"temperature_sensor_entity_id": "Capteur de température",
"last_seen_temperature_sensor_entity_id": "Dernière vue capteur de température",
"external_temperature_sensor_entity_id": "Capteur de température exterieure",
"temperature_sensor_entity_id": "Température sensor entity id",
"external_temperature_sensor_entity_id": "Température exterieure sensor entity id",
"cycle_min": "Durée du cycle (minutes)",
"temp_min": "Température minimale permise",
"temp_max": "Température maximale permise",
@@ -48,12 +45,11 @@
"device_power": "Puissance de l'équipement",
"use_central_mode": "Autoriser le controle par une entity centrale ('nécessite une config. centrale`). Cochez pour autoriser le contrôle du VTherm par la liste déroulante 'central_mode' de l'entité configuration centrale.",
"use_main_central_config": "Utiliser la configuration centrale supplémentaire. Cochez pour utiliser la configuration centrale supplémentaire (température externe, min, max, pas, ...)",
"add_central_boiler_control": "Ajouter une chaudière centrale. Cochez pour ajouter un controle sur une chaudière centrale. Vous devrez ensuite configurer les VTherms qui commande la chaudière centrale pour que cette option prenne effet. Si au moins un des VTherm a besoin de chauffer, la chaudière centrale sera activée. Si aucun VTherm n'a besoin de chauffer, elle sera éteinte. Les commandes pour allumer/éteindre la chaudière centrale sont données dans la page de configuration suivante.",
"used_by_controls_central_boiler": "Utilisé par la chaudière centrale. Cochez si ce VTherm doit contrôler la chaudière centrale."
},
"data_description": {
"temperature_sensor_entity_id": "Id d'entité du capteur de température",
"last_seen_temperature_sensor_entity_id": "Id d'entité du capteur donnant la date et heure de dernière vue capteur de température. L'état doit être au format date heure (ex: 2024-03-31T17:07:03+00:00)",
"external_temperature_sensor_entity_id": "Entity id du capteur de température extérieure. Non utilisé si une configuration centrale est définie"
"external_temperature_sensor_entity_id": "Entity id du capteur de température extérieure."
}
},
"features": {
@@ -63,9 +59,7 @@
"use_window_feature": "Avec détection des ouvertures",
"use_motion_feature": "Avec détection de mouvement",
"use_power_feature": "Avec gestion de la puissance",
"use_presence_feature": "Avec détection de présence",
"use_central_boiler_feature": "Ajouter une chaudière centrale. Cochez pour ajouter un controle sur une chaudière centrale. Vous devrez ensuite configurer les VTherms qui commande la chaudière centrale pour que cette option prenne effet. Si au moins un des VTherm a besoin de chauffer, la chaudière centrale sera activée. Si aucun VTherm n'a besoin de chauffer, elle sera éteinte. Les commandes pour allumer/éteindre la chaudière centrale sont données dans la page de configuration suivante.",
"use_auto_start_stop_feature": "Avec démarrage et extinction automatique"
"use_presence_feature": "Avec détection de présence"
}
},
"type": {
@@ -276,9 +270,7 @@
"power": "Gestion de la puissance",
"presence": "Détection de présence",
"advanced": "Paramètres avancés",
"auto_start_stop": "Allumage/extinction automatique",
"finalize": "Finaliser les modifications",
"configuration_not_complete": "Configuration incomplète"
"finalize": "Finaliser les modifications"
}
},
"main": {
@@ -287,22 +279,20 @@
"data": {
"name": "Nom",
"thermostat_type": "Type de thermostat",
"temperature_sensor_entity_id": "Capteur de température",
"last_seen_temperature_sensor_entity_id": "Dernière vue capteur de température",
"external_temperature_sensor_entity_id": "Capteur de température exterieure",
"temperature_sensor_entity_id": "Température sensor entity id",
"external_temperature_sensor_entity_id": "Température exterieure sensor entity id",
"cycle_min": "Durée du cycle (minutes)",
"temp_min": "Température minimale permise",
"temp_max": "Température maximale permise",
"step_temperature": "Pas de température",
"device_power": "Puissance de l'équipement",
"use_central_mode": "Autoriser le controle par une entity centrale ('nécessite une config. centrale`). Cochez pour autoriser le contrôle du VTherm par la liste déroulante 'central_mode' de l'entité configuration centrale.",
"use_main_central_config": "Utiliser la configuration centrale supplémentaire. Cochez pour utiliser la configuration centrale supplémentaire (température externe, min, max, pas, ...)",
"use_main_central_config": "Utiliser la configuration centrale supplémentaire. Cochez pour utiliser la configuration centrale supplémentaire (température externe, min, max, pas, ...).",
"add_central_boiler_control": "Ajouter une chaudière centrale. Cochez pour ajouter un controle sur une chaudière centrale. Vous devrez ensuite configurer les VTherms qui commande la chaudière centrale pour que cette option prenne effet. Si au moins un des VTherm a besoin de chauffer, la chaudière centrale sera activée. Si aucun VTherm n'a besoin de chauffer, elle sera éteinte. Les commandes pour allumer/éteindre la chaudière centrale sont données dans la page de configuration suivante.",
"used_by_controls_central_boiler": "Utilisé par la chaudière centrale. Cochez si ce VTherm doit contrôler la chaudière centrale."
},
"data_description": {
"temperature_sensor_entity_id": "Id d'entité du capteur de température",
"last_seen_temperature_sensor_entity_id": "Id d'entité du capteur donnant la date et heure de dernière vue capteur de température. L'état doit être au format date heure (ex: 2024-03-31T17:07:03+00:00)",
"external_temperature_sensor_entity_id": "Entity id du capteur de température extérieure. Non utilisé si une configuration centrale est définie"
"external_temperature_sensor_entity_id": "Entity id du capteur de température extérieure. N'est pas utilisé si la configuration centrale est utilisée."
}
},
"features": {
@@ -312,9 +302,7 @@
"use_window_feature": "Avec détection des ouvertures",
"use_motion_feature": "Avec détection de mouvement",
"use_power_feature": "Avec gestion de la puissance",
"use_presence_feature": "Avec détection de présence",
"use_central_boiler_feature": "Ajouter une chaudière centrale. Cochez pour ajouter un controle sur une chaudière centrale. Vous devrez ensuite configurer les VTherms qui commande la chaudière centrale pour que cette option prenne effet. Si au moins un des VTherm a besoin de chauffer, la chaudière centrale sera activée. Si aucun VTherm n'a besoin de chauffer, elle sera éteinte. Les commandes pour allumer/éteindre la chaudière centrale sont données dans la page de configuration suivante.",
"use_auto_start_stop_feature": "Avec démarrage et extinction automatique"
"use_presence_feature": "Avec détection de présence"
}
},
"type": {
@@ -341,7 +329,7 @@
"auto_regulation_periode_min": "Période minimale de régulation",
"auto_regulation_use_device_temp": "Utiliser la température interne du sous-jacent",
"inverse_switch_command": "Inverser la commande",
"auto_fan_mode": "Auto fan mode"
"auto_fan_mode": " Auto fan mode"
},
"data_description": {
"heater_entity_id": "Entity id du 1er radiateur obligatoire",
@@ -536,14 +524,6 @@
"comfort": "Confort",
"boost": "Renforcé (boost)"
}
},
"auto_start_stop": {
"options": {
"auto_start_stop_none": "No auto start/stop",
"auto_start_stop_slow": "Slow detection",
"auto_start_stop_medium": "Medium detection",
"auto_start_stop_fast": "Fast detection"
}
}
},
"entity": {

8
custom_components/versatile_thermostat/translations/it.json
View File

@@ -42,7 +42,7 @@
"valve_entity4_id": "Quarta valvola",
"auto_regulation_mode": "Autoregolamentazione",
"inverse_switch_command": "Comando inverso",
"auto_fan_mode": "Auto fan mode"
"auto_fan_mode": " Auto fan mode"
},
"data_description": {
"heater_entity_id": "Entity id obbligatoria del primo riscaldatore",
@@ -62,7 +62,7 @@
"valve_entity4_id": "Entity id della quarta valvola",
"auto_regulation_mode": "Regolazione automatica della temperatura target",
"inverse_switch_command": "Inverte il controllo dell'interruttore per un'installazione con filo pilota e diodo",
"auto_fan_mode": "Automatically activate fan when huge heating/cooling is necessary"
"auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
}
},
"tpi": {
@@ -206,7 +206,7 @@
"valve_entity4_id": "Quarta valvola",
"auto_regulation_mode": "Autoregolamentazione",
"inverse_switch_command": "Comando inverso",
"auto_fan_mode": "Auto fan mode"
"auto_fan_mode": " Auto fan mode"
},
"data_description": {
"heater_entity_id": "Entity id obbligatoria del primo riscaldatore",
@@ -226,7 +226,7 @@
"valve_entity4_id": "Entity id della quarta valvola",
"auto_regulation_mode": "Autoregolamentazione",
"inverse_switch_command": "Inverte il controllo dell'interruttore per un'installazione con filo pilota e diodo",
"auto_fan_mode": "Automatically activate fan when huge heating/cooling is necessary"
"auto_fan_mode": " Automatically activate fan when huge heating/cooling is necessary"
}
},
"tpi": {

250
custom_components/versatile_thermostat/translations/sk.json
View File

@@ -12,25 +12,6 @@
"thermostat_type": "Len jeden centrálny typ konfigurácie je možný"
}
},
"menu": {
"title": "Menu",
"description": "Nakonfigurujte si termostat. Po zadaní všetkých požadovaných parametrov budete môcť dokončiť konfiguráciu.",
"menu_options": {
"main": "Hlavné atribúty",
"central_boiler": "Centrálny kotol",
"type": "Podklady",
"tpi": "TPI parametre",
"features": "Vlastnosti",
"presets": "Predvoľby",
"window": "Detekcia okien",
"motion": "Detekcia pohybu",
"power": "Správa napájania",
"presence": "Detekcia prítomnosti",
"advanced": "Pokročilé parametre",
"finalize": "Všetko hotové",
"configuration_not_complete": "Konfigurácia nie je dokončená"
}
},
"main": {
"title": "Pridajte nový všestranný termostat",
"description": "Hlavné povinné atribúty",
@@ -38,32 +19,22 @@
"name": "Názov",
"thermostat_type": "Termostat typ",
"temperature_sensor_entity_id": "ID entity snímača teploty",
"last_seen_temperature_sensor_entity_id": "Dátum posledného zobrazenia izbovej teploty",
"external_temperature_sensor_entity_id": "ID entity externého snímača teploty",
"cycle_min": "Trvanie cyklu (minúty)",
"temp_min": "Minimálna povolená teplota",
"temp_max": "Maximálna povolená teplota",
"step_temperature": "Krok teploty",
"device_power": "Napájanie zariadenia",
"use_central_mode": "Povoliť ovládanie centrálnou entitou (potrebná centrálna konfigurácia)",
"use_main_central_config": "Použite dodatočnú centrálnu hlavnú konfiguráciu. Začiarknite, ak chcete použiť centrálnu hlavnú konfiguráciu (vonkajšia teplota, min, max, krok, ...).",
"used_by_controls_central_boiler": "Používa sa centrálnym kotlom. Skontrolujte, či má mať tento VTherm ovládanie na centrálnom kotli"
},
"data_description": {
"temperature_sensor_entity_id": "ID entity snímača izbovej teploty",
"last_seen_temperature_sensor_entity_id": "Naposledy videný snímač izbovej teploty ID entity. Mal by to byť snímač dátumu a času",
"external_temperature_sensor_entity_id": "ID entity snímača vonkajšej teploty. Nepoužíva sa, ak je zvolená centrálna konfigurácia"
}
},
"features": {
"title": "Vlastnosti",
"description": "Vlastnosti termostatu",
"data": {
"use_window_feature": "Použite detekciu okien",
"use_motion_feature": "Použite detekciu pohybu",
"use_power_feature": "Použite správu napájania",
"use_presence_feature": "Použite detekciu prítomnosti",
"use_central_boiler_feature": "Použite centrálny kotol. Začiarknutím tohto políčka pridáte ovládanie do centrálneho kotla. Po zaškrtnutí tohto políčka budete musieť nakonfigurovať VTherm, ktorý bude mať ovládanie centrálneho kotla, aby sa prejavilo. Ak jeden VTherm vyžaduje ohrev, kotol sa zapne. Ak žiadny VTherm nevyžaduje ohrev, kotol sa vypne. Príkazy na zapnutie/vypnutie centrálneho kotla sú uvedené na príslušnej konfiguračnej stránke"
"use_main_central_config": "Použite centrálnu hlavnú konfiguráciu"
},
"data_description": {
"use_central_mode": "Zaškrtnutím povolíte ovládanie VTherm pomocou vybraných entít central_mode",
"use_main_central_config": "Začiarknite, ak chcete použiť centrálnu hlavnú konfiguráciu. Zrušte začiarknutie, ak chcete použiť špecifickú hlavnú konfiguráciu pre tento VTherm",
"external_temperature_sensor_entity_id": "ID entity snímača vonkajšej teploty. Nepoužíva sa, ak je zvolená centrálna konfigurácia"
}
},
"type": {
@@ -74,7 +45,6 @@
"heater_entity2_id": "2. spínač ohrievača",
"heater_entity3_id": "3. spínač ohrievača",
"heater_entity4_id": "4. spínač ohrievača",
"heater_keep_alive": "Prepnite interval udržiavania v sekundách",
"proportional_function": "Algoritmus",
"climate_entity_id": "1. základná klíma",
"climate_entity2_id": "2. základná klíma",
@@ -88,7 +58,6 @@
"auto_regulation_mode": "Samoregulácia",
"auto_regulation_dtemp": "Regulačný prah",
"auto_regulation_periode_min": "Regulačné minimálne obdobie",
"auto_regulation_use_device_temp": "Použite vnútornú teplotu podkladu",
"inverse_switch_command": "Inverzný prepínací príkaz",
"auto_fan_mode": "Režim automatického ventilátora"
},
@@ -97,7 +66,6 @@
"heater_entity2_id": "Voliteľné ID entity 2. ohrievača. Ak sa nepoužíva, nechajte prázdne",
"heater_entity3_id": "Voliteľné ID entity 3. ohrievača. Ak sa nepoužíva, nechajte prázdne",
"heater_entity4_id": "Voliteľné ID entity 4. ohrievača. Ak sa nepoužíva, nechajte prázdne",
"heater_keep_alive": "Voliteľný interval obnovy stavu spínača ohrievača. Ak to nie je potrebné, nechajte prázdne.",
"proportional_function": "Algoritmus, ktorý sa má použiť (TPI je zatiaľ jediný)",
"climate_entity_id": "ID základnej klimatickej entity",
"climate_entity2_id": "2. základné identifikačné číslo klimatickej entity",
@@ -111,7 +79,6 @@
"auto_regulation_mode": "Automatické nastavenie cieľovej teploty",
"auto_regulation_dtemp": "Hranica v °, pod ktorou sa zmena teploty neodošle",
"auto_regulation_periode_min": "Trvanie v minútach medzi dvoma aktualizáciami predpisov",
"auto_regulation_use_device_temp": "Na urýchlenie samoregulácie použite prípadný vnútorný snímač teploty podkladu",
"inverse_switch_command": "V prípade spínača s pilotným vodičom a diódou možno budete musieť príkaz invertovať",
"auto_fan_mode": "Automaticky aktivujte ventilátor, keď je potrebné veľké vykurovanie/chladenie"
}
@@ -134,7 +101,24 @@
"title": "Predvoľby",
"description": "Pre každú predvoľbu zadajte cieľovú teplotu (0, ak chcete predvoľbu ignorovať)",
"data": {
"eco_temp": "Teplota v predvoľbe Eco",
"comfort_temp": "Prednastavená teplota v komfortnom režime",
"boost_temp": "Teplota v prednastavení Boost",
"frost_temp": "Teplota v prednastavení Frost protection",
"eco_ac_temp": "Teplota v režime Eco prednastavená pre režim AC",
"comfort_ac_temp": "Teplota v režime Comfort je prednastavená pre režim AC",
"boost_ac_temp": "Prednastavená teplota v režime Boost pre režim AC",
"use_presets_central_config": "Použite konfiguráciu centrálnych predvolieb"
},
"data_description": {
"eco_temp": "Teplota v predvoľbe Eco",
"comfort_temp": "Prednastavená teplota v komfortnom režime",
"boost_temp": "Teplota v prednastavení Boost",
"frost_temp": "Teplota v prednastavenej ochrane proti mrazu",
"eco_ac_temp": "Teplota v režime Eco prednastavená pre režim AC",
"comfort_ac_temp": "Teplota v režime Comfort je prednastavená pre režim AC",
"boost_ac_temp": "Prednastavená teplota v režime Boost pre režim AC",
"use_presets_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálnych predvolieb. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu predvolieb pre tento VTherm"
}
},
"window": {
@@ -146,8 +130,7 @@
"window_auto_open_threshold": "Prah poklesu teploty pre automatickú detekciu otvoreného okna (v °/hodina)",
"window_auto_close_threshold": "Prahová hodnota zvýšenia teploty pre koniec automatickej detekcie (v °/hodina)",
"window_auto_max_duration": "Maximálne trvanie automatickej detekcie otvoreného okna (v min)",
"use_window_central_config": "Použite centrálnu konfiguráciu okna",
"window_action": "Akcia"
"use_window_central_config": "Použite centrálnu konfiguráciu okna"
},
"data_description": {
"window_sensor_entity_id": "Nechajte prázdne, ak nemáte použiť žiadny okenný senzor",
@@ -155,8 +138,7 @@
"window_auto_open_threshold": "Odporúčaná hodnota: medzi 3 a 10. Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
"window_auto_close_threshold": "Odporúčaná hodnota: 0. Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
"window_auto_max_duration": "Odporúčaná hodnota: 60 (jedna hodina). Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
"use_window_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálneho okna. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu okna pre tento VTherm",
"window_action": "Akcia, ktorá sa má vykonať, ak sa okno zistí ako otvorené"
"use_window_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálneho okna. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu okna pre tento VTherm"
}
},
"motion": {
@@ -199,11 +181,26 @@
"title": "Riadenie prítomnosti",
"description": "Atribúty správy prítomnosti.\nPoskytuje senzor prítomnosti vášho domova (pravda, ak je niekto prítomný).\nPotom zadajte buď predvoľbu, ktorá sa má použiť, keď je senzor prítomnosti nepravdivý, alebo posun teploty, ktorý sa má použiť.\nAk je zadaná predvoľba, posun sa nepoužije.\nAk sa nepoužije, ponechajte zodpovedajúce entity_id prázdne.",
"data": {
"presence_sensor_entity_id": "Senzora prítomnosti",
"use_presence_central_config": "Použite konfiguráciu centrálnej prítomnosti teploty. Ak chcete použiť špecifické teplotné entity, zrušte výber"
"presence_sensor_entity_id": "ID entity senzora prítomnosti",
"eco_away_temp": "Teplota v prednastavenej Eco, keď nie je žiadna prítomnosť",
"comfort_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný",
"boost_away_temp": "Prednastavená teplota v režime Boost, keď nie je prítomný",
"frost_away_temp": "Prednastavená teplota v režime Frost protection, keď nie je prítomný",
"eco_ac_away_temp": "Teplota v prednastavenej Eco, keď nie je prítomná v režime AC",
"comfort_ac_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný v režime AC",
"boost_ac_away_temp": "Teplota v prednastavenom Boost, keď nie je prítomný v režime AC",
"use_presence_central_config": "Použite centrálnu konfiguráciu prítomnosti"
},
"data_description": {
"presence_sensor_entity_id": "ID entity senzora prítomnosti"
"presence_sensor_entity_id": "ID entity senzora prítomnosti",
"eco_away_temp": "Teplota v prednastavenej Eco, keď nie je žiadna prítomnosť",
"comfort_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný",
"boost_away_temp": "Prednastavená teplota v režime Boost, keď nie je prítomný",
"frost_away_temp": "Teplota v Prednastavená ochrana pred mrazom, keď nie je prítomný",
"eco_ac_away_temp": "Teplota v prednastavenej Eco, keď nie je prítomná v režime AC",
"comfort_ac_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný v režime AC",
"boost_ac_away_temp": "Teplota v prednastavenom Boost, keď nie je prítomný v režime AC",
"use_presence_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálnej prítomnosti. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu prítomnosti pre tento VTherm"
}
},
"advanced": {
@@ -247,25 +244,6 @@
"thermostat_type": "Je možný len jeden centrálny typ konfigurácie"
}
},
"menu": {
"title": "Menu",
"description": "Nakonfigurujte si termostat. Po zadaní všetkých požadovaných parametrov budete môcť dokončiť konfiguráciu.",
"menu_options": {
"main": "Hlavné atribúty",
"central_boiler": "Centrálny kotol",
"type": "Podklady",
"tpi": "TPI parametre",
"features": "Vlastnosti",
"presets": "Predvoľby",
"window": "Detekcia okien",
"motion": "Detekcia pohybu",
"power": "Správa napájania",
"presence": "Detekcia prítomnosti",
"advanced": "Pokročilé parametre",
"finalize": "Všetko hotové",
"configuration_not_complete": "Konfigurácia nie je dokončená"
}
},
"main": {
"title": "Hlavný - {name}",
"description": "Hlavné povinné atribúty",
@@ -273,32 +251,22 @@
"name": "Názov",
"thermostat_type": "Termostat typ",
"temperature_sensor_entity_id": "ID entity snímača teploty",
"last_seen_temperature_sensor_entity_id": "Dátum posledného zobrazenia izbovej teploty",
"external_temperature_sensor_entity_id": "ID entity externého snímača teploty",
"cycle_min": "Trvanie cyklu (minúty)",
"temp_min": "Minimálna povolená teplota",
"temp_max": "Maximálna povolená teplota",
"step_temperature": "Krok teploty",
"device_power": "Výkon zariadenia (kW)",
"use_central_mode": "Povoliť ovládanie centrálnou entitou (vyžaduje centrálnu konfiguráciu). Zaškrtnutím povolíte ovládanie VTherm pomocou vybraných entít central_mode.",
"use_main_central_config": "Použite dodatočnú centrálnu hlavnú konfiguráciu. Začiarknite, ak chcete použiť centrálnu hlavnú konfiguráciu (vonkajšia teplota, min, max, krok, ...).",
"used_by_controls_central_boiler": "Používa sa centrálnym kotlom. Skontrolujte, či má mať tento VTherm ovládanie na centrálnom kotli"
},
"data_description": {
"temperature_sensor_entity_id": "ID entity snímača izbovej teploty",
"last_seen_temperature_sensor_entity_id": "Naposledy videný snímač izbovej teploty ID entity. Mal by to byť snímač dátumu a času",
"external_temperature_sensor_entity_id": "ID entity snímača vonkajšej teploty. Nepoužíva sa, ak je zvolená centrálna konfigurácia"
}
},
"features": {
"title": "Vlastnosti - {name}",
"description": "Vlastnosti termostatu",
"data": {
"use_central_mode": "Povoliť ovládanie centrálnou entitou (potrebná centrálna konfigurácia)",
"use_window_feature": "Použite detekciu okien",
"use_motion_feature": "Použite detekciu pohybu",
"use_power_feature": "Použite správu napájania",
"use_presence_feature": "Použite detekciu prítomnosti",
"use_central_boiler_feature": "Použite centrálny kotol. Začiarknutím tohto políčka pridáte ovládanie do centrálneho kotla. Po zaškrtnutí tohto políčka budete musieť nakonfigurovať VTherm, ktorý bude mať ovládanie centrálneho kotla, aby sa prejavilo. Ak jeden VTherm vyžaduje ohrev, kotol sa zapne. Ak žiadny VTherm nevyžaduje ohrev, kotol sa vypne. Príkazy na zapnutie/vypnutie centrálneho kotla sú uvedené na príslušnej konfiguračnej stránke"
"use_main_central_config": "Použite centrálnu hlavnú konfiguráciu"
},
"data_description": {
"use_central_mode": "Zaškrtnutím povolíte ovládanie VTherm pomocou vybraných entít central_mode",
"use_main_central_config": "Začiarknite, ak chcete použiť centrálnu hlavnú konfiguráciu. Ak chcete použiť špecifickú konfiguráciu pre tento VTherm, zrušte začiarknutie",
"external_temperature_sensor_entity_id": "ID entity snímača vonkajšej teploty. Nepoužíva sa, ak je zvolená centrálna konfigurácia"
}
},
"type": {
@@ -309,7 +277,6 @@
"heater_entity2_id": "2. spínač ohrievača",
"heater_entity3_id": "3. spínač ohrievača",
"heater_entity4_id": "4. spínač ohrievača",
"heater_keep_alive": "Prepnite interval udržiavania v sekundách",
"proportional_function": "Algoritmus",
"climate_entity_id": "Základná klíma",
"climate_entity2_id": "2. základná klíma",
@@ -323,7 +290,6 @@
"auto_regulation_mode": "Samoregulácia",
"auto_regulation_dtemp": "Regulačný prah",
"auto_regulation_periode_min": "Regulačné minimálne obdobie",
"auto_regulation_use_device_temp": "Použite vnútornú teplotu podkladu",
"inverse_switch_command": "Inverzný prepínací príkaz",
"auto_fan_mode": "Režim automatického ventilátora"
},
@@ -332,7 +298,6 @@
"heater_entity2_id": "Voliteľné ID entity 2. ohrievača. Ak sa nepoužíva, nechajte prázdne",
"heater_entity3_id": "Voliteľné ID entity 3. ohrievača. Ak sa nepoužíva, nechajte prázdne",
"heater_entity4_id": "Voliteľné ID entity 4. ohrievača. Ak sa nepoužíva, nechajte prázdne",
"heater_keep_alive": "Voliteľný interval obnovy stavu spínača ohrievača. Ak to nie je potrebné, nechajte prázdne.",
"proportional_function": "Algoritmus, ktorý sa má použiť (TPI je zatiaľ jediný)",
"climate_entity_id": "ID základnej klimatickej entity",
"climate_entity2_id": "2. základný identifikátor klimatickej entity",
@@ -346,7 +311,6 @@
"auto_regulation_mode": "Automatické nastavenie cieľovej teploty",
"auto_regulation_dtemp": "Hranica v °, pod ktorou sa zmena teploty neodošle",
"auto_regulation_periode_min": "Trvanie v minútach medzi dvoma aktualizáciami predpisov",
"auto_regulation_use_device_temp": "Na urýchlenie samoregulácie použite prípadný vnútorný snímač teploty podkladu",
"inverse_switch_command": "V prípade spínača s pilotným vodičom a diódou možno budete musieť príkaz invertovať",
"auto_fan_mode": "Automaticky aktivujte ventilátor, keď je potrebné veľké vykurovanie/chladenie"
}
@@ -369,7 +333,24 @@
"title": "Predvoľby - {name}",
"description": "Pre každú predvoľbu zadajte cieľovú teplotu (0, ak chcete predvoľbu ignorovať)",
"data": {
"eco_temp": "Teplota v predvoľbe Eco",
"comfort_temp": "Prednastavená teplota v komfortnom režime",
"boost_temp": "Teplota v prednastavení Boost",
"frost_temp": "Teplota v prednastavení Frost protection",
"eco_ac_temp": "Teplota v režime Eco prednastavená pre režim AC",
"comfort_ac_temp": "Teplota v režime Comfort je prednastavená pre režim AC",
"boost_ac_temp": "Prednastavená teplota v režime Boost pre režim AC",
"use_presets_central_config": "Použite konfiguráciu centrálnych predvolieb"
},
"data_description": {
"eco_temp": "Teplota v predvoľbe Eco",
"comfort_temp": "Prednastavená teplota v komfortnom režime",
"boost_temp": "Teplota v prednastavení Boost",
"frost_temp": "Teplota v prednastavenej ochrane proti mrazu",
"eco_ac_temp": "Teplota v režime Eco prednastavená pre režim AC",
"comfort_ac_temp": "Teplota v režime Comfort je prednastavená pre režim AC",
"boost_ac_temp": "Prednastavená teplota v režime Boost pre režim AC",
"use_presets_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálnych predvolieb. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu predvolieb pre tento VTherm"
}
},
"window": {
@@ -381,8 +362,7 @@
"window_auto_open_threshold": "Prah poklesu teploty pre automatickú detekciu otvoreného okna (v °/hodina)",
"window_auto_close_threshold": "Prahová hodnota zvýšenia teploty pre koniec automatickej detekcie (v °/hodina)",
"window_auto_max_duration": "Maximálne trvanie automatickej detekcie otvoreného okna (v min)",
"use_window_central_config": "Použite centrálnu konfiguráciu okna",
"window_action": "Akcia"
"use_window_central_config": "Použite centrálnu konfiguráciu okna"
},
"data_description": {
"window_sensor_entity_id": "Nechajte prázdne, ak nemáte použiť žiadny okenný senzor",
@@ -390,8 +370,7 @@
"window_auto_open_threshold": "Odporúčaná hodnota: medzi 3 a 10. Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
"window_auto_close_threshold": "Odporúčaná hodnota: 0. Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
"window_auto_max_duration": "Odporúčaná hodnota: 60 (jedna hodina). Ak sa nepoužíva automatická detekcia otvoreného okna, nechajte prázdne",
"use_window_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálneho okna. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu okna pre tento VTherm",
"window_action": "Akcia, ktorá sa má vykonať, ak sa okno zistí ako otvorené"
"use_window_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálneho okna. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu okna pre tento VTherm"
}
},
"motion": {
@@ -431,14 +410,29 @@
}
},
"presence": {
"title": "Prítommnosť - {name}",
"description": "Atribúty riadenia prítomnosti.\nPoskytuje senzor prítomnosti vášho domova (pravda, je niekto prítomný) a poskytuje zodpovedajúce prednastavené nastavenie teploty.",
"title": "Riadenie prítomnosti",
"description": "Atribúty správy prítomnosti.\nPoskytuje senzor prítomnosti vášho domova (pravda, ak je niekto prítomný).\nPotom zadajte buď predvoľbu, ktorá sa má použiť, keď je senzor prítomnosti nepravdivý, alebo posun teploty, ktorý sa má použiť.\nAk je zadaná predvoľba, posun sa nepoužije.\nAk sa nepoužije, ponechajte zodpovedajúce entity_id prázdne.",
"data": {
"presence_sensor_entity_id": "Senzor prítomnosti",
"use_presence_central_config": "Použite konfiguráciu centrálnej prítomnosti teploty. Ak chcete použiť špecifické entity teploty, zrušte začiarknutie"
"presence_sensor_entity_id": "ID entity senzora prítomnosti (pravda je prítomná)",
"eco_away_temp": "Teplota v prednastavenej Eco, keď nie je žiadna prítomnosť",
"comfort_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný",
"boost_away_temp": "Prednastavená teplota v režime Boost, keď nie je prítomný",
"frost_away_temp": "Prednastavená teplota v režime Frost protection, keď nie je prítomný",
"eco_ac_away_temp": "Teplota v prednastavenej Eco, keď nie je prítomná v režime AC",
"comfort_ac_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný v režime AC",
"boost_ac_away_temp": "Teplota v prednastavenom Boost, keď nie je prítomný v režime AC",
"use_presence_central_config": "Použite centrálnu konfiguráciu prítomnosti"
},
"data_description": {
"presence_sensor_entity_id": "ID entity senzora prítomnosti"
"presence_sensor_entity_id": "ID entity senzora prítomnosti",
"eco_away_temp": "Teplota v prednastavenej Eco, keď nie je žiadna prítomnosť",
"comfort_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný",
"boost_away_temp": "Prednastavená teplota v režime Boost, keď nie je prítomný",
"frost_away_temp": "Teplota v Prednastavená ochrana pred mrazom, keď nie je prítomný",
"eco_ac_away_temp": "Teplota v prednastavenej Eco, keď nie je prítomná v režime AC",
"comfort_ac_away_temp": "Teplota v režime Comfort je prednastavená, keď nie je prítomný v režime AC",
"boost_ac_away_temp": "Teplota v prednastavenom Boost, keď nie je prítomný v režime AC",
"use_presence_central_config": "Začiarknite, ak chcete použiť konfiguráciu centrálnej prítomnosti. Zrušte začiarknutie, ak chcete použiť špecifickú konfiguráciu prítomnosti pre tento VTherm"
}
},
"advanced": {
@@ -464,8 +458,7 @@
"unknown": "Neočakávaná chyba",
"unknown_entity": "Neznáme ID entity",
"window_open_detection_method": "Mala by sa použiť iba jedna metóda detekcie otvoreného okna. Použite senzor alebo automatickú detekciu cez teplotný prah, ale nie oboje",
"no_central_config": "Nemôžete zaškrtnúť „použiť centrálnu konfiguráciu“, pretože sa nenašla žiadna centrálna konfigurácia. Aby ste ho mohli používať, musíte si vytvoriť všestranný termostat typu „Central Configuration“.",
"service_configuration_format": "Formát konfigurácie služby je nesprávny"
"no_central_config": "Nemôžete zaškrtnúť „použiť centrálnu konfiguráciu“, pretože sa nenašla žiadna centrálna konfigurácia. Aby ste ho mohli používať, musíte si vytvoriť všestranný termostat typu „Central Configuration“."
},
"abort": {
"already_configured": "Zariadenie je už nakonfigurované"
@@ -498,22 +491,6 @@
"auto_fan_high": "Vysoký",
"auto_fan_turbo": "Turbo"
}
},
"window_action": {
"options": {
"window_turn_off": "Vypnúť",
"window_fan_only": "Len ventilátor",
"window_frost_temp": "Ochrana pred mrazom",
"window_eco_temp": "Eco"
}
},
"presets": {
"options": {
"frost": "Ochrana proti mrazu",
"eco": "Eco",
"comfort": "Komfort",
"boost": "Boost"
}
}
},
"entity": {
@@ -529,53 +506,6 @@
}
}
}
},
"number": {
"frost_temp": {
"name": "Mráz"
},
"eco_temp": {
"name": "Eco"
},
"comfort_temp": {
"name": "Komfort"
},
"boost_temp": {
"name": "Boost"
},
"frost_ac_temp": {
"name": "Mráz ac"
},
"eco_ac_temp": {
"name": "Eco ac"
},
"comfort_ac_temp": {
"name": "Komfort ac"
},
"boost_ac_temp": {
"name": "Boost ac"
},
"frost_away_temp": {
"name": "Mráz mimo"
},
"eco_away_temp": {
"name": "Eko mimo"
},
"comfort_away_temp": {
"name": "Komfort mimo"
},
"boost_away_temp": {
"name": "Boost mimo"
},
"eco_ac_away_temp": {
"name": "Eco ac mimo"
},
"comfort_ac_away_temp": {
"name": "Komfort ac mimo"
},
"boost_ac_away_temp": {
"name": "Boost ac mimo"
}
}
}
}

170
custom_components/versatile_thermostat/underlyings.py
View File

@@ -5,7 +5,7 @@ import logging
from typing import Any
from enum import StrEnum
from homeassistant.const import ATTR_ENTITY_ID, STATE_ON, STATE_UNAVAILABLE
from homeassistant.const import ATTR_ENTITY_ID, STATE_ON, UnitOfTemperature
from homeassistant.core import State
from homeassistant.exceptions import ServiceNotFound
@@ -30,7 +30,6 @@ from homeassistant.components.number import SERVICE_SET_VALUE
from homeassistant.helpers.entity_component import EntityComponent
from homeassistant.helpers.event import async_call_later
from homeassistant.util.unit_conversion import TemperatureConverter
from .const import UnknownEntity, overrides
from .keep_alive import IntervalCaller
@@ -189,7 +188,7 @@ class UnderlyingSwitch(UnderlyingEntity):
thermostat: Any,
switch_entity_id: str,
initial_delay_sec: int,
keep_alive_sec: float,
keep_alive_sec: int,
) -> None:
"""Initialize the underlying switch"""
@@ -218,11 +217,6 @@ class UnderlyingSwitch(UnderlyingEntity):
"""Tells if the switch command should be inversed"""
return self._thermostat.is_inversed
@property
def keep_alive_sec(self) -> float:
"""Return the switch keep-alive interval in seconds."""
return self._keep_alive.interval_sec
@overrides
def startup(self):
super().startup()
@@ -253,28 +247,7 @@ class UnderlyingSwitch(UnderlyingEntity):
async def _keep_alive_callback(self):
"""Keep alive: Turn on if already turned on, turn off if already turned off."""
timer = self._keep_alive.backoff_timer
state: State | None = self._hass.states.get(self._entity_id)
# Normal, expected state.state values are "on" and "off". An absent
# underlying MQTT switch was observed to produce either state == None
# or state.state == STATE_UNAVAILABLE ("unavailable").
if state is None or state.state == STATE_UNAVAILABLE:
if timer.is_ready():
_LOGGER.warning(
"Entity %s is not available (state: %s). Will keep trying "
"keep alive calls, but won't log this condition every time.",
self._entity_id,
state.state if state else "None",
)
else:
if timer.in_progress:
timer.reset()
_LOGGER.warning(
"Entity %s has recovered (state: %s).",
self._entity_id,
state.state,
)
await (self.turn_on() if self.is_device_active else self.turn_off())
await (self.turn_on() if self.is_device_active else self.turn_off())
# @overrides this breaks some unit tests TypeError: object MagicMock can't be used in 'await' expression
async def turn_off(self):
@@ -488,7 +461,6 @@ class UnderlyingClimate(UnderlyingEntity):
entity_id=climate_entity_id,
)
self._underlying_climate = None
self._last_sent_temperature = None
def find_underlying_climate(self) -> ClimateEntity:
"""Find the underlying climate entity"""
@@ -509,8 +481,8 @@ class UnderlyingClimate(UnderlyingEntity):
self._underlying_climate,
)
else:
_LOGGER.info(
"%s - Cannot find the underlying climate entity: %s. Thermostat will not be operational. Will try later.",
_LOGGER.error(
"%s - Cannot find the underlying climate entity: %s. Thermostat will not be operational",
self,
self.entity_id,
)
@@ -550,11 +522,14 @@ class UnderlyingClimate(UnderlyingEntity):
def is_device_active(self):
"""If the toggleable device is currently active."""
if self.is_initialized:
return self.hvac_mode != HVACMode.OFF and self.hvac_action not in [
HVACAction.IDLE,
HVACAction.OFF,
None,
]
return (
self._underlying_climate.hvac_mode != HVACMode.OFF
and self._underlying_climate.hvac_action
not in [
HVACAction.IDLE,
HVACAction.OFF,
]
)
else:
return None
@@ -610,24 +585,12 @@ class UnderlyingClimate(UnderlyingEntity):
if not self.is_initialized:
return
# Issue 508 we have to take care of service set_temperature or set_range
target_temp = self.cap_sent_value(temperature)
if (
ClimateEntityFeature.TARGET_TEMPERATURE_RANGE
in self._underlying_climate.supported_features
):
data = {
ATTR_ENTITY_ID: self._entity_id,
"target_temp_high": target_temp,
"target_temp_low": target_temp,
# issue 518 - we should send also the target temperature, even in TARGET RANGE
"temperature": target_temp,
}
else:
data = {
ATTR_ENTITY_ID: self._entity_id,
"temperature": target_temp,
}
data = {
ATTR_ENTITY_ID: self._entity_id,
"temperature": self.cap_sent_value(temperature),
"target_temp_high": max_temp,
"target_temp_low": min_temp,
}
await self._hass.services.async_call(
CLIMATE_DOMAIN,
@@ -635,48 +598,12 @@ class UnderlyingClimate(UnderlyingEntity):
data,
)
self._last_sent_temperature = target_temp
@property
def last_sent_temperature(self) -> float | None:
"""Get the last send temperature. None if no temperature have been sent yet"""
return self._last_sent_temperature
@property
def hvac_action(self) -> HVACAction | None:
"""Get the hvac action of the underlying"""
if not self.is_initialized:
return None
hvac_action = self._underlying_climate.hvac_action
if hvac_action is None:
target = (
self.underlying_target_temperature
or self._thermostat.target_temperature
)
current = (
self.underlying_current_temperature
or self._thermostat.current_temperature
)
hvac_mode = self.hvac_mode
_LOGGER.debug(
"%s - hvac_action simulation target=%s, current=%s, hvac_mode=%s",
self,
target,
current,
hvac_mode,
)
hvac_action = HVACAction.IDLE
if target is not None and current is not None:
dtemp = target - current
if hvac_mode == HVACMode.COOL and dtemp < 0:
hvac_action = HVACAction.COOLING
elif hvac_mode in [HVACMode.HEAT, HVACMode.HEAT_COOL] and dtemp > 0:
hvac_action = HVACAction.HEATING
return hvac_action
return self._underlying_climate.hvac_action
@property
def hvac_mode(self) -> HVACMode | None:
@@ -731,7 +658,7 @@ class UnderlyingClimate(UnderlyingEntity):
def temperature_unit(self) -> str:
"""Get the temperature_unit"""
if not self.is_initialized:
return self._hass.config.units.temperature_unit
return UnitOfTemperature.CELSIUS
return self._underlying_climate.temperature_unit
@property
@@ -756,19 +683,11 @@ class UnderlyingClimate(UnderlyingEntity):
return self._underlying_climate.target_temperature_low
@property
def underlying_target_temperature(self) -> float:
"""Get the target_temperature"""
def is_aux_heat(self) -> bool:
"""Get the is_aux_heat"""
if not self.is_initialized:
return None
if not hasattr(self._underlying_climate, "target_temperature"):
return None
else:
return self._underlying_climate.target_temperature
# return self._hass.states.get(self._entity_id).attributes.get(
# "target_temperature"
# )
return False
return self._underlying_climate.is_aux_heat
@property
def underlying_current_temperature(self) -> float | None:
@@ -779,17 +698,8 @@ class UnderlyingClimate(UnderlyingEntity):
if not hasattr(self._underlying_climate, "current_temperature"):
return None
else:
return self._underlying_climate.current_temperature
# return self._hass.states.get(self._entity_id).attributes.get("current_temperature")
@property
def is_aux_heat(self) -> bool:
"""Get the is_aux_heat"""
if not self.is_initialized:
return False
return self._underlying_climate.is_aux_heat
return self._underlying_climate.current_temperature
def turn_aux_heat_on(self) -> None:
"""Turn auxiliary heater on."""
@@ -816,12 +726,8 @@ class UnderlyingClimate(UnderlyingEntity):
self._underlying_climate.min_temp is not None
and self._underlying_climate is not None
):
min_val = TemperatureConverter.convert(
self._underlying_climate.min_temp, self._underlying_climate.temperature_unit, self._hass.config.units.temperature_unit
)
max_val = TemperatureConverter.convert(
self._underlying_climate.max_temp, self._underlying_climate.temperature_unit, self._hass.config.units.temperature_unit
)
min_val = self._underlying_climate.min_temp
max_val = self._underlying_climate.max_temp
new_value = max(min_val, min(value, max_val))
else:
@@ -869,19 +775,15 @@ class UnderlyingValve(UnderlyingEntity):
"""Send the percent open to the underlying valve"""
# This may fails if called after shutdown
try:
data = {"value": self._percent_open}
target = {ATTR_ENTITY_ID: self._entity_id}
data = {ATTR_ENTITY_ID: self._entity_id, "value": self._percent_open}
domain = self._entity_id.split(".")[0]
await self._hass.services.async_call(
domain=domain,
service=SERVICE_SET_VALUE,
service_data=data,
target=target,
domain,
SERVICE_SET_VALUE,
data,
)
except ServiceNotFound as err:
_LOGGER.error(err)
# This could happens in unit test if input_number domain is not yet loaded
# raise err
async def turn_off(self):
"""Turn heater toggleable device off."""
@@ -933,10 +835,8 @@ class UnderlyingValve(UnderlyingEntity):
):
"""We use this function to change the on_percent"""
if force:
# self._percent_open = self.cap_sent_value(self._percent_open)
# await self.send_percent_open()
# avoid to send 2 times the same value at startup
self.set_valve_open_percent()
self._percent_open = self.cap_sent_value(self._percent_open)
await self.send_percent_open()
@overrides
def cap_sent_value(self, value) -> float:
@@ -952,7 +852,7 @@ class UnderlyingValve(UnderlyingEntity):
min_val = valve_state.attributes["min"]
max_val = valve_state.attributes["max"]
new_value = round(max(min_val, min(value / 100 * max_val, max_val)))
new_value = round(max(min_val, min(value, max_val)))
else:
_LOGGER.debug("%s - no min and max attributes on underlying", self)
new_value = value

68
custom_components/versatile_thermostat/vtherm_api.py
View File

@@ -57,7 +57,6 @@ class VersatileThermostatAPI(dict):
self._threshold_number_entity = None
self._nb_active_number_entity = None
self._central_configuration = None
self._central_mode_select = None
# A dict that will store all Number entities which holds the temperature
self._number_temperatures = dict()
@@ -150,8 +149,8 @@ class VersatileThermostatAPI(dict):
return entity.state
return None
async def init_vtherm_links(self):
"""Initialize all VTherms entities links
async def init_vtherm_links(self, only_use_central=False):
"""INitialize all VTherms entities links
This method is called when HA is fully started (and all entities should be initialized)
Or when we need to reload all VTherm links (with Number temp entities, central boiler, ...)
"""
@@ -163,34 +162,12 @@ class VersatileThermostatAPI(dict):
)
if component:
for entity in component.entities:
# if hasattr(entity, "init_presets"):
# if (
# only_use_central is False
# or entity.use_central_config_temperature
# ):
# await entity.init_presets(self.find_central_configuration())
# A little hack to test if the climate is a VTherm. Cannot use isinstance due to circular dependency of BaseThermostat
if (
entity.device_info
and entity.device_info.get("model", None) == DOMAIN
):
await entity.async_startup(self.find_central_configuration())
async def init_vtherm_preset_with_central(self):
"""Init all VTherm presets when the VTherm uses central temperature"""
# Initialization of all preset for all VTherm
component: EntityComponent[ClimateEntity] = self._hass.data.get(
CLIMATE_DOMAIN, None
)
if component:
for entity in component.entities:
if (
entity.device_info
and entity.device_info.get("model", None) == DOMAIN
and entity.use_central_config_temperature
):
await entity.init_presets(self.find_central_configuration())
if hasattr(entity, "init_presets"):
if (
only_use_central is False
or entity.use_central_config_temperature
):
await entity.init_presets(self.find_central_configuration())
async def reload_central_boiler_binary_listener(self):
"""Reloads the BinarySensor entity which listen to the number of
@@ -203,27 +180,6 @@ class VersatileThermostatAPI(dict):
if self._nb_active_number_entity is not None:
await self._nb_active_number_entity.listen_vtherms_entities()
def register_central_mode_select(self, central_mode_select):
"""Register the select entity which holds the central_mode"""
self._central_mode_select = central_mode_select
async def notify_central_mode_change(self, old_central_mode: str | None = None):
"""Notify all VTherm that the central_mode have change"""
if self._central_mode_select is None:
return
# Update all VTherm states
component: EntityComponent[ClimateEntity] = self.hass.data[CLIMATE_DOMAIN]
for entity in component.entities:
if entity.device_info and entity.device_info.get("model", None) == DOMAIN:
_LOGGER.debug(
"Changing the central_mode. We have find %s to update",
entity.name,
)
await entity.check_central_mode(
self._central_mode_select.state, old_central_mode
)
@property
def self_regulation_expert(self):
"""Get the self regulation params"""
@@ -273,14 +229,6 @@ class VersatileThermostatAPI(dict):
return None
return int(self._threshold_number_entity.native_value)
@property
def central_mode(self) -> str | None:
"""Get the current central mode or None"""
if self._central_mode_select:
return self._central_mode_select.state
else:
return None
@property
def hass(self):
"""Get the HomeAssistant object"""

2
hacs.json
View File

@@ -3,5 +3,5 @@
"content_in_root": false,
"render_readme": true,
"hide_default_branch": false,
"homeassistant": "2024.10.4"
"homeassistant": "2023.12.1"
}

BIN
images/config-complete.png
View File

Binary file not shown.
Side by Side

Before

Width:  |  Height:  |  Size: 3.1 KiB

BIN
images/config-features.png
View File

Binary file not shown.
Side by Side

Before

Width:  |  Height:  |  Size: 23 KiB

BIN
images/config-menu-all-options.png
View File

Binary file not shown.
Side by Side

Before

Width:  |  Height:  |  Size: 40 KiB

BIN
images/config-menu.png
View File

Binary file not shown.
Side by Side

Before

Width:  |  Height:  |  Size: 28 KiB

BIN
images/config-not-complete.png
View File

Binary file not shown.
Side by Side

Before

Width:  |  Height:  |  Size: 3.6 KiB

BIN
images/config-terminate.png
View File

Binary file not shown.
Side by Side

Before

Width:  |  Height:  |  Size: 19 KiB

BIN
images/temp-entities-1.png
View File

Binary file not shown.
Side by Side

Before

Width:  |  Height:  |  Size: 24 KiB

BIN
images/temp-entities-2.png
View File

Binary file not shown.
Side by Side

Before

Width:  |  Height:  |  Size: 46 KiB

2
requirements_dev.txt
View File

@@ -1 +1 @@
homeassistant==2024.10.4
homeassistant==2024.2.1

4
scripts/starts_ha.sh
View File

@@ -26,8 +26,8 @@ fi
export PYTHONPATH="${PYTHONPATH}:${PWD}/custom_components"
## Link custom_components into config
# rm -f ${PWD}/config/custom_components
# ln -s ${PWD}/custom_components ${PWD}/config/
rm -f ${PWD}/config/custom_components
ln -s ${PWD}/custom_components ${PWD}/config/
# Start Home Assistant
hass --config "${PWD}/config" --debug

162
tests/commons.py
View File

@@ -1,4 +1,4 @@
# pylint: disable=wildcard-import, unused-wildcard-import, protected-access, unused-argument, line-too-long, abstract-method, too-many-lines, redefined-builtin
# pylint: disable=wildcard-import, unused-wildcard-import, protected-access, unused-argument, line-too-long, abstract-method
""" Some common resources """
import asyncio
@@ -194,7 +194,7 @@ FULL_CENTRAL_CONFIG = {
CONF_SECURITY_DELAY_MIN: 61,
CONF_SECURITY_MIN_ON_PERCENT: 0.5,
CONF_SECURITY_DEFAULT_ON_PERCENT: 0.2,
CONF_USE_CENTRAL_BOILER_FEATURE: False,
CONF_ADD_CENTRAL_BOILER_CONTROL: False,
}
FULL_CENTRAL_CONFIG_WITH_BOILER = {
@@ -235,7 +235,7 @@ FULL_CENTRAL_CONFIG_WITH_BOILER = {
CONF_SECURITY_DELAY_MIN: 61,
CONF_SECURITY_MIN_ON_PERCENT: 0.5,
CONF_SECURITY_DEFAULT_ON_PERCENT: 0.2,
CONF_USE_CENTRAL_BOILER_FEATURE: True,
CONF_ADD_CENTRAL_BOILER_CONTROL: True,
CONF_CENTRAL_BOILER_ACTIVATION_SRV: "switch.pompe_chaudiere/switch.turn_on",
CONF_CENTRAL_BOILER_DEACTIVATION_SRV: "switch.pompe_chaudiere/switch.turn_off",
}
@@ -435,86 +435,6 @@ class MagicMockClimate(MagicMock):
return 19
class MagicMockClimateWithTemperatureRange(MagicMock):
"""A Magic Mock class for a underlying climate entity"""
@property
def temperature_unit(self): # pylint: disable=missing-function-docstring
return UnitOfTemperature.CELSIUS
@property
def hvac_mode(self): # pylint: disable=missing-function-docstring
return HVACMode.HEAT
@property
def hvac_action(self): # pylint: disable=missing-function-docstring
return HVACAction.IDLE
@property
def target_temperature(self): # pylint: disable=missing-function-docstring
return 15
@property
def current_temperature(self): # pylint: disable=missing-function-docstring
return 14
@property
def target_temperature_step( # pylint: disable=missing-function-docstring
self,
) -> float | None:
return 0.5
@property
def target_temperature_high( # pylint: disable=missing-function-docstring
self,
) -> float | None:
return 35
@property
def target_temperature_low( # pylint: disable=missing-function-docstring
self,
) -> float | None:
return 7
@property
def hvac_modes( # pylint: disable=missing-function-docstring
self,
) -> list[str] | None:
return [HVACMode.HEAT, HVACMode.OFF, HVACMode.COOL]
@property
def fan_modes( # pylint: disable=missing-function-docstring
self,
) -> list[str] | None:
return None
@property
def swing_modes( # pylint: disable=missing-function-docstring
self,
) -> list[str] | None:
return None
@property
def fan_mode(self) -> str | None: # pylint: disable=missing-function-docstring
return None
@property
def swing_mode(self) -> str | None: # pylint: disable=missing-function-docstring
return None
@property
def supported_features(self): # pylint: disable=missing-function-docstring
return ClimateEntityFeature.TARGET_TEMPERATURE_RANGE
@property
def min_temp(self): # pylint: disable=missing-function-docstring
return 10
@property
def max_temp(self): # pylint: disable=missing-function-docstring
return 31
class MockSwitch(SwitchEntity):
"""A fake switch to be used instead real switch"""
@@ -552,14 +472,7 @@ class MockNumber(NumberEntity):
"""A fake switch to be used instead real switch"""
def __init__( # pylint: disable=unused-argument, dangerous-default-value
self,
hass: HomeAssistant,
unique_id,
name,
min=0,
max=100,
step=1,
entry_infos={},
self, hass: HomeAssistant, unique_id, name, entry_infos={}
):
"""Init the switch"""
super().__init__()
@@ -569,9 +482,7 @@ class MockNumber(NumberEntity):
self.entity_id = self.platform + "." + unique_id
self._name = name
self._attr_native_value = 0
self._attr_native_min_value = min
self._attr_native_max_value = max
self._attr_step = step
self._attr_native_min_value = 0
@property
def name(self) -> str:
@@ -669,31 +580,6 @@ async def send_temperature_change_event(
return dearm_window_auto
async def send_last_seen_temperature_change_event(
entity: BaseThermostat, date, sleep=True
):
"""Sending a new last seen event simulating a change on last seen temperature sensor"""
_LOGGER.info(
"------- Testu: sending send_last_seen_temperature_change_event, date=%s on %s",
date,
entity,
)
last_seen_event = Event(
EVENT_STATE_CHANGED,
{
"new_state": State(
entity_id=entity.entity_id,
state=date,
last_changed=date,
last_updated=date,
)
},
)
await entity._async_last_seen_temperature_changed(last_seen_event)
if sleep:
await asyncio.sleep(0.1)
async def send_ext_temperature_change_event(
entity: BaseThermostat, new_temp, date, sleep=True
):
@@ -931,7 +817,6 @@ async def send_climate_change_event_with_temperature(
date,
temperature,
sleep=True,
underlying_entity_id=None,
):
"""Sending a new climate event simulating a change on the underlying climate state"""
_LOGGER.info(
@@ -944,21 +829,18 @@ async def send_climate_change_event_with_temperature(
temperature,
entity,
)
if not underlying_entity_id:
underlying_entity_id = entity.entity_id
climate_event = Event(
EVENT_STATE_CHANGED,
{
"new_state": State(
entity_id=underlying_entity_id,
entity_id=entity.entity_id,
state=new_hvac_mode,
attributes={"hvac_action": new_hvac_action, "temperature": temperature},
last_changed=date,
last_updated=date,
),
"old_state": State(
entity_id=underlying_entity_id,
entity_id=entity.entity_id,
state=old_hvac_mode,
attributes={"hvac_action": old_hvac_action},
last_changed=date,
@@ -988,7 +870,7 @@ async def set_climate_preset_temp(
NUMBER_DOMAIN
+ "."
+ entity.entity_id.split(".")[1]
+ "_preset_"
+ "_"
+ temp_number_name
+ PRESET_TEMP_SUFFIX
)
@@ -1000,31 +882,3 @@ async def set_climate_preset_temp(
)
if temp_entity:
await temp_entity.async_set_native_value(temp)
else:
_LOGGER.warning(
"commons tests set_cliamte_preset_temp: cannot find number entity with entity_id '%s'",
number_entity_id,
)
async def set_all_climate_preset_temp(
hass, vtherm: BaseThermostat, temps: dict, number_entity_base_name: str
):
"""Initialize all temp of preset for a VTherm entity"""
# We initialize
for preset_name, value in temps.items():
await set_climate_preset_temp(vtherm, preset_name, value)
# Search the number entity to control it is correctly set
number_entity_name = (
f"number.{number_entity_base_name}_preset_{preset_name}{PRESET_TEMP_SUFFIX}"
)
temp_entity: NumberEntity = search_entity(
hass,
number_entity_name,
NUMBER_DOMAIN,
)
assert temp_entity
# Because set_value is not implemented in Number class (really don't understand why...)
assert temp_entity.state == value

133
tests/test_auto_regulation.py
View File

@@ -53,6 +53,18 @@ async def test_over_climate_regulation(
return_value=fake_underlying_climate,
):
entity = await create_thermostat(hass, entry, "climate.theoverclimatemockname")
# entry.add_to_hass(hass)
# await hass.config_entries.async_setup(entry.entry_id)
# assert entry.state is ConfigEntryState.LOADED
#
# def find_my_entity(entity_id) -> ClimateEntity:
# """Find my new entity"""
# component: EntityComponent[ClimateEntity] = hass.data[CLIMATE_DOMAIN]
# for entity in component.entities:
# if entity.entity_id == entity_id:
# return entity
#
# entity: ThermostatOverClimate = find_my_entity("climate.theoverclimatemockname")
assert entity
assert isinstance(entity, ThermostatOverClimate)
@@ -151,6 +163,18 @@ async def test_over_climate_regulation_ac_mode(
return_value=fake_underlying_climate,
):
entity = await create_thermostat(hass, entry, "climate.theoverclimatemockname")
# entry.add_to_hass(hass)
# await hass.config_entries.async_setup(entry.entry_id)
# assert entry.state is ConfigEntryState.LOADED
#
# def find_my_entity(entity_id) -> ClimateEntity:
# """Find my new entity"""
# component: EntityComponent[ClimateEntity] = hass.data[CLIMATE_DOMAIN]
# for entity in component.entities:
# if entity.entity_id == entity_id:
# return entity
#
# entity: ThermostatOverClimate = find_my_entity("climate.theoverclimatemockname")
assert entity
assert isinstance(entity, ThermostatOverClimate)
@@ -520,112 +544,3 @@ async def test_over_climate_regulation_use_device_temp(
),
]
)
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_over_climate_regulation_dtemp_null(
hass: HomeAssistant, skip_hass_states_is_state, skip_send_event
):
"""Test the regulation of an over climate thermostat with no Dtemp limitation"""
entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverClimateMockName",
unique_id="uniqueId",
# This is include a medium regulation
data=PARTIAL_CLIMATE_AC_CONFIG | {CONF_AUTO_REGULATION_DTEMP: 0, CONF_STEP_TEMPERATURE: 0.1},
)
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
fake_underlying_climate = MockClimate(hass, "mockUniqueId", "MockClimateName", {})
# Creates the regulated VTherm over climate
# change temperature so that the heating will start
event_timestamp = now - timedelta(minutes=20)
with patch(
"custom_components.versatile_thermostat.commons.NowClass.get_now",
return_value=event_timestamp,
), patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=fake_underlying_climate,
):
entity = await create_thermostat(hass, entry, "climate.theoverclimatemockname")
assert entity
assert isinstance(entity, ThermostatOverClimate)
assert entity.name == "TheOverClimateMockName"
assert entity.is_over_climate is True
assert entity.is_regulated is True
# Activate the heating by changing HVACMode and temperature
# Select a hvacmode, presence and preset
await entity.async_set_hvac_mode(HVACMode.HEAT)
assert entity.hvac_mode is HVACMode.HEAT
assert entity.hvac_action == HVACAction.OFF
# change temperature so that the heating will start
await send_temperature_change_event(entity, 15, event_timestamp)
await send_ext_temperature_change_event(entity, 10, event_timestamp)
# set manual target temp
event_timestamp = now - timedelta(minutes=17)
with patch(
"custom_components.versatile_thermostat.commons.NowClass.get_now",
return_value=event_timestamp,
):
await entity.async_set_temperature(temperature=20)
fake_underlying_climate.set_hvac_action(
HVACAction.HEATING
) # simulate under cooling
assert entity.hvac_action == HVACAction.HEATING
assert entity.preset_mode == PRESET_NONE # Manual mode
# the regulated temperature should be lower
assert entity.regulated_target_temp > entity.target_temperature
assert (
entity.regulated_target_temp == 20 + 2.4
) # In medium we could go up to +3 degre
assert entity.hvac_action == HVACAction.HEATING
# change temperature so that the regulated temperature should slow down
event_timestamp = now - timedelta(minutes=15)
with patch(
"custom_components.versatile_thermostat.commons.NowClass.get_now",
return_value=event_timestamp,
):
await send_temperature_change_event(entity, 19, event_timestamp)
await send_ext_temperature_change_event(entity, 10, event_timestamp)
# the regulated temperature should be greater
assert entity.regulated_target_temp > entity.target_temperature
assert entity.regulated_target_temp == 20 + 0.9
# change temperature so that the regulated temperature should slow down
event_timestamp = now - timedelta(minutes=13)
with patch(
"custom_components.versatile_thermostat.commons.NowClass.get_now",
return_value=event_timestamp,
):
await send_temperature_change_event(entity, 20, event_timestamp)
await send_ext_temperature_change_event(entity, 10, event_timestamp)
# the regulated temperature should be greater
assert entity.regulated_target_temp > entity.target_temperature
assert entity.regulated_target_temp == 20 + 0.5
old_regulated_temp = entity.regulated_target_temp
# Test if a small temperature change is taken into account : change temperature so that dtemp < 0.5 and time is > period_min (+ 3min)
event_timestamp = now - timedelta(minutes=10)
with patch(
"custom_components.versatile_thermostat.commons.NowClass.get_now",
return_value=event_timestamp,
):
await send_temperature_change_event(entity, 19.6, event_timestamp)
await send_ext_temperature_change_event(entity, 10, event_timestamp)
# the regulated temperature should be greater. This does not work if dtemp is not null
assert entity.regulated_target_temp > old_regulated_temp

923
tests/test_auto_start_stop.py
View File

@@ -1,923 +0,0 @@
# pylint: disable=wildcard-import, unused-wildcard-import, protected-access, unused-argument, line-too-long, unused-variable
""" Test the Auto Start Stop algorithm management """
from datetime import datetime, timedelta
import logging
from unittest.mock import patch, call
from homeassistant.components.climate import HVACMode
from custom_components.versatile_thermostat.thermostat_climate import (
ThermostatOverClimate,
)
from custom_components.versatile_thermostat.auto_start_stop_algorithm import (
AutoStartStopDetectionAlgorithm,
AUTO_START_STOP_ACTION_NOTHING,
AUTO_START_STOP_ACTION_OFF,
AUTO_START_STOP_ACTION_ON,
)
from .commons import * # pylint: disable=wildcard-import, unused-wildcard-import
logging.getLogger().setLevel(logging.DEBUG)
async def test_auto_start_stop_algo_slow_heat_off(hass: HomeAssistant):
"""Testing directly the algorithm in Slow level"""
algo: AutoStartStopDetectionAlgorithm = AutoStartStopDetectionAlgorithm(
AUTO_START_STOP_LEVEL_SLOW, "testu"
)
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
assert algo._dt == 30
assert algo._vtherm_name == "testu"
# 1. should not stop (accumulated_error too low)
ret = algo.calculate_action(
hvac_mode=HVACMode.HEAT,
saved_hvac_mode=HVACMode.OFF,
target_temp=21,
current_temp=22,
slope_min=0.1,
now=now,
)
assert ret == AUTO_START_STOP_ACTION_NOTHING
assert algo.accumulated_error == -1
# 2. should not stop (accumulated_error too low)
now = now + timedelta(minutes=5)
ret = algo.calculate_action(
hvac_mode=HVACMode.HEAT,
saved_hvac_mode=HVACMode.OFF,
target_temp=21,
current_temp=23,
slope_min=0.1,
now=now,
)
assert ret == AUTO_START_STOP_ACTION_NOTHING
assert algo.accumulated_error == -6
# 3. should not stop (accumulated_error too low)
now = now + timedelta(minutes=2)
ret = algo.calculate_action(
hvac_mode=HVACMode.HEAT,
saved_hvac_mode=HVACMode.OFF,
target_temp=21,
current_temp=23,
slope_min=0.1,
now=now,
)
assert algo.accumulated_error == -8
assert ret == AUTO_START_STOP_ACTION_NOTHING
# 4 .No change on accumulated error because the new measure is too near the last one
now = now + timedelta(minutes=1)
ret = algo.calculate_action(
hvac_mode=HVACMode.HEAT,
saved_hvac_mode=HVACMode.OFF,
target_temp=21,
current_temp=23,
slope_min=0.1,
now=now,
)
assert algo.accumulated_error == -8
assert ret == AUTO_START_STOP_ACTION_NOTHING
# 5. should stop now because accumulated_error is > ERROR_THRESHOLD for slow (10)
now = now + timedelta(minutes=4)
ret = algo.calculate_action(
hvac_mode=HVACMode.HEAT,
saved_hvac_mode=HVACMode.OFF,
target_temp=21,
current_temp=22,
slope_min=0.1,
now=now,
)
assert algo.accumulated_error == -10
assert ret == AUTO_START_STOP_ACTION_OFF
# 6. inverse the temperature (target > current) -> accumulated_error should be divided by 2
now = now + timedelta(minutes=2)
ret = algo.calculate_action(
hvac_mode=HVACMode.HEAT,
saved_hvac_mode=HVACMode.OFF,
target_temp=22,
current_temp=21,
slope_min=-0.1,
now=now,
)
assert algo.accumulated_error == -4 # -10/2 + 1
assert ret == AUTO_START_STOP_ACTION_NOTHING
# 7. change level to slow (no real change) -> error_accumulated should not reset to 0
algo.set_level(AUTO_START_STOP_LEVEL_SLOW)
assert algo.accumulated_error == -4
# 8. change level -> error_accumulated should reset to 0
algo.set_level(AUTO_START_STOP_LEVEL_FAST)
assert algo.accumulated_error == 0
async def test_auto_start_stop_algo_medium_cool_off(hass: HomeAssistant):
"""Testing directly the algorithm in Slow level"""
algo: AutoStartStopDetectionAlgorithm = AutoStartStopDetectionAlgorithm(
AUTO_START_STOP_LEVEL_MEDIUM, "testu"
)
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
assert algo._dt == 15
assert algo._vtherm_name == "testu"
# 1. should not stop (accumulated_error too low)
ret = algo.calculate_action(
hvac_mode=HVACMode.COOL,
saved_hvac_mode=HVACMode.OFF,
target_temp=22,
current_temp=21,
slope_min=0.1,
now=now,
)
assert ret == AUTO_START_STOP_ACTION_NOTHING
assert algo.accumulated_error == 1
# 2. should not stop (accumulated_error too low)
now = now + timedelta(minutes=3)
ret = algo.calculate_action(
hvac_mode=HVACMode.COOL,
saved_hvac_mode=HVACMode.OFF,
target_temp=23,
current_temp=21,
slope_min=0.1,
now=now,
)
assert ret == AUTO_START_STOP_ACTION_NOTHING
assert algo.accumulated_error == 4
# 2. should stop
now = now + timedelta(minutes=5)
ret = algo.calculate_action(
hvac_mode=HVACMode.COOL,
saved_hvac_mode=HVACMode.OFF,
target_temp=23,
current_temp=21,
slope_min=0.1,
now=now,
)
assert ret == AUTO_START_STOP_ACTION_OFF
assert algo.accumulated_error == 5 # should be 9 but is capped at error threshold
# 6. inverse the temperature (target > current) -> accumulated_error should be divided by 2
now = now + timedelta(minutes=2)
ret = algo.calculate_action(
hvac_mode=HVACMode.COOL,
saved_hvac_mode=HVACMode.OFF,
target_temp=21,
current_temp=22,
slope_min=-0.1,
now=now,
)
assert algo.accumulated_error == 1.5 # 5/2 - 1
assert ret == AUTO_START_STOP_ACTION_NOTHING
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_auto_start_stop_none_vtherm(
hass: HomeAssistant, skip_hass_states_is_state
):
"""Test than auto-start/stop is disabled with a real over_climate VTherm in NONE level"""
# vtherm_api: VersatileThermostatAPI = VersatileThermostatAPI.get_vtherm_api(hass)
# The temperatures to set
temps = {
"frost": 7.0,
"eco": 17.0,
"comfort": 19.0,
"boost": 21.0,
"eco_ac": 27.0,
"comfort_ac": 25.0,
"boost_ac": 23.0,
"frost_away": 7.1,
"eco_away": 17.1,
"comfort_away": 19.1,
"boost_away": 21.1,
"eco_ac_away": 27.1,
"comfort_ac_away": 25.1,
"boost_ac_away": 23.1,
}
config_entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverClimateMockName",
unique_id="overClimateUniqueId",
data={
CONF_NAME: "overClimate",
CONF_TEMP_SENSOR: "sensor.mock_temp_sensor",
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_CLIMATE,
CONF_EXTERNAL_TEMP_SENSOR: "sensor.mock_ext_temp_sensor",
CONF_CYCLE_MIN: 5,
CONF_TEMP_MIN: 15,
CONF_TEMP_MAX: 30,
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_PRESENCE_FEATURE: True,
CONF_PRESENCE_SENSOR: "binary_sensor.presence_sensor",
CONF_CLIMATE: "climate.mock_climate",
CONF_MINIMAL_ACTIVATION_DELAY: 30,
CONF_SECURITY_DELAY_MIN: 5,
CONF_SECURITY_MIN_ON_PERCENT: 0.3,
CONF_AUTO_FAN_MODE: CONF_AUTO_FAN_TURBO,
CONF_AC_MODE: True,
CONF_AUTO_START_STOP_LEVEL: AUTO_START_STOP_LEVEL_NONE,
},
)
fake_underlying_climate = MockClimate(
hass=hass,
unique_id="mock_climate",
name="mock_climate",
hvac_modes=[HVACMode.OFF, HVACMode.COOL, HVACMode.HEAT],
)
with patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=fake_underlying_climate,
):
vtherm: ThermostatOverClimate = await create_thermostat(
hass, config_entry, "climate.overclimate"
)
assert vtherm is not None
# Initialize all temps
await set_all_climate_preset_temp(hass, vtherm, temps, "overclimate")
# Check correct initialization of auto_start_stop attributes
assert (
vtherm._attr_extra_state_attributes["auto_start_stop_level"]
== AUTO_START_STOP_LEVEL_NONE
)
assert vtherm._attr_extra_state_attributes["auto_start_stop_dtmin"] is None
# 1. Vtherm auto-start/stop should be in NONE mode
assert vtherm.auto_start_stop_level == AUTO_START_STOP_LEVEL_NONE
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_auto_start_stop_medium_heat_vtherm(
hass: HomeAssistant, skip_hass_states_is_state
):
"""Test than auto-start/stop works with a real over_climate VTherm in MEDIUM level"""
# vtherm_api: VersatileThermostatAPI = VersatileThermostatAPI.get_vtherm_api(hass)
# The temperatures to set
temps = {
"frost": 7.0,
"eco": 17.0,
"comfort": 19.0,
"boost": 21.0,
"eco_ac": 27.0,
"comfort_ac": 25.0,
"boost_ac": 23.0,
"frost_away": 7.1,
"eco_away": 17.1,
"comfort_away": 19.1,
"boost_away": 21.1,
"eco_ac_away": 27.1,
"comfort_ac_away": 25.1,
"boost_ac_away": 23.1,
}
config_entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverClimateMockName",
unique_id="overClimateUniqueId",
data={
CONF_NAME: "overClimate",
CONF_TEMP_SENSOR: "sensor.mock_temp_sensor",
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_CLIMATE,
CONF_EXTERNAL_TEMP_SENSOR: "sensor.mock_ext_temp_sensor",
CONF_CYCLE_MIN: 5,
CONF_TEMP_MIN: 15,
CONF_TEMP_MAX: 30,
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_PRESENCE_FEATURE: True,
CONF_PRESENCE_SENSOR: "binary_sensor.presence_sensor",
CONF_CLIMATE: "climate.mock_climate",
CONF_MINIMAL_ACTIVATION_DELAY: 30,
CONF_SECURITY_DELAY_MIN: 5,
CONF_SECURITY_MIN_ON_PERCENT: 0.3,
CONF_AUTO_FAN_MODE: CONF_AUTO_FAN_TURBO,
CONF_AC_MODE: True,
CONF_AUTO_START_STOP_LEVEL: AUTO_START_STOP_LEVEL_MEDIUM,
},
)
fake_underlying_climate = MockClimate(
hass=hass,
unique_id="mock_climate",
name="mock_climate",
hvac_modes=[HVACMode.OFF, HVACMode.COOL, HVACMode.HEAT],
)
with patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=fake_underlying_climate,
):
vtherm: ThermostatOverClimate = await create_thermostat(
hass, config_entry, "climate.overclimate"
)
assert vtherm is not None
# Initialize all temps
await set_all_climate_preset_temp(hass, vtherm, temps, "overclimate")
# Check correct initialization of auto_start_stop attributes
assert (
vtherm._attr_extra_state_attributes["auto_start_stop_level"]
== AUTO_START_STOP_LEVEL_MEDIUM
)
assert vtherm._attr_extra_state_attributes["auto_start_stop_dtmin"] == 15
# 1. Vtherm auto-start/stop should be in MEDIUM mode
assert vtherm.auto_start_stop_level == AUTO_START_STOP_LEVEL_MEDIUM
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
# 2. Set mode to Heat and preset to Comfort
await send_presence_change_event(vtherm, True, False, now)
await send_temperature_change_event(vtherm, 18, now, True)
await vtherm.async_set_hvac_mode(HVACMode.HEAT)
await vtherm.async_set_preset_mode(PRESET_COMFORT)
await hass.async_block_till_done()
assert vtherm.target_temperature == 19.0
# VTherm should be heating
assert vtherm.hvac_mode == HVACMode.HEAT
# 3. Set current temperature to 19 5 min later
now = now + timedelta(minutes=5)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
vtherm._set_now(now)
await send_temperature_change_event(vtherm, 19, now, True)
await hass.async_block_till_done()
# VTherm should still be heating
assert vtherm.hvac_mode == HVACMode.HEAT
assert mock_send_event.call_count == 0
assert (
vtherm._auto_start_stop_algo.accumulated_error == 0
) # target = current = 19
# 4. Set current temperature to 20 5 min later
now = now + timedelta(minutes=5)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
vtherm._set_now(now)
await send_temperature_change_event(vtherm, 20, now, True)
await hass.async_block_till_done()
# VTherm should still be heating
assert vtherm.hvac_mode == HVACMode.HEAT
assert mock_send_event.call_count == 0
# accumulated_error = target - current = -1 x 5 min / 2
assert vtherm._auto_start_stop_algo.accumulated_error == -2.5
# 5. Set current temperature to 21 5 min later -> should turn off
now = now + timedelta(minutes=5)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
vtherm._set_now(now)
await send_temperature_change_event(vtherm, 21, now, True)
await hass.async_block_till_done()
# VTherm should have been stopped
assert vtherm.hvac_mode == HVACMode.OFF
# accumulated_error = -2.5 + target - current = -2 x 5 min / 2 capped to 5
assert vtherm._auto_start_stop_algo.accumulated_error == -5
# a message should have been sent
assert mock_send_event.call_count >= 1
mock_send_event.assert_has_calls(
[
call(
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "stop",
"cause": "Auto stop conditions reached",
"hvac_mode": HVACMode.OFF,
"saved_hvac_mode": HVACMode.HEAT,
"target_temperature": 19.0,
"current_temperature": 21.0,
"temperature_slope": 10.03,
},
)
]
)
mock_send_event.assert_has_calls(
[
call(
EventType.HVAC_MODE_EVENT,
{
"hvac_mode": HVACMode.OFF,
},
)
]
)
# 6. Set temperature to small over the target, so that it will stay to OFF
now = now + timedelta(minutes=10)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
vtherm._set_now(now)
await send_temperature_change_event(vtherm, 19.5, now, True)
await hass.async_block_till_done()
# accumulated_error = .... capped to -5
assert vtherm._auto_start_stop_algo.accumulated_error == -5
# VTherm should stay stopped cause slope is too low to allow the turn to On
assert vtherm.hvac_mode == HVACMode.OFF
# 7. Set temperature to over the target, so that it will turn to heat
now = now + timedelta(minutes=20)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
vtherm._set_now(now)
await send_temperature_change_event(vtherm, 18, now, True)
await hass.async_block_till_done()
# accumulated_error = -5/2 + target - current = 1 x 20 min / 2 capped to 5
assert vtherm._auto_start_stop_algo.accumulated_error == 5
# VTherm should have been stopped
assert vtherm.hvac_mode == HVACMode.HEAT
# a message should have been sent
assert mock_send_event.call_count >= 1
mock_send_event.assert_has_calls(
[
call(
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "start",
"cause": "Auto start conditions reached",
"hvac_mode": HVACMode.HEAT,
"saved_hvac_mode": HVACMode.HEAT, # saved don't change
"target_temperature": 19.0,
"current_temperature": 18.0,
"temperature_slope": -2.06,
},
)
]
)
mock_send_event.assert_has_calls(
[
call(
EventType.HVAC_MODE_EVENT,
{
"hvac_mode": HVACMode.HEAT,
},
)
]
)
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_auto_start_stop_fast_ac_vtherm(
hass: HomeAssistant, skip_hass_states_is_state
):
"""Test than auto-start/stop works with a real over_climate VTherm in FAST level and AC mode"""
# vtherm_api: VersatileThermostatAPI = VersatileThermostatAPI.get_vtherm_api(hass)
# The temperatures to set
temps = {
"frost": 7.0,
"eco": 17.0,
"comfort": 19.0,
"boost": 21.0,
"eco_ac": 27.0,
"comfort_ac": 25.0,
"boost_ac": 23.0,
"frost_away": 7.1,
"eco_away": 17.1,
"comfort_away": 19.1,
"boost_away": 21.1,
"eco_ac_away": 27.1,
"comfort_ac_away": 25.1,
"boost_ac_away": 23.1,
}
config_entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverClimateMockName",
unique_id="overClimateUniqueId",
data={
CONF_NAME: "overClimate",
CONF_TEMP_SENSOR: "sensor.mock_temp_sensor",
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_CLIMATE,
CONF_EXTERNAL_TEMP_SENSOR: "sensor.mock_ext_temp_sensor",
CONF_CYCLE_MIN: 5,
CONF_TEMP_MIN: 15,
CONF_TEMP_MAX: 30,
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_PRESENCE_FEATURE: True,
CONF_PRESENCE_SENSOR: "binary_sensor.presence_sensor",
CONF_CLIMATE: "climate.mock_climate",
CONF_MINIMAL_ACTIVATION_DELAY: 30,
CONF_SECURITY_DELAY_MIN: 5,
CONF_SECURITY_MIN_ON_PERCENT: 0.3,
CONF_AUTO_FAN_MODE: CONF_AUTO_FAN_TURBO,
CONF_AC_MODE: True,
CONF_AUTO_START_STOP_LEVEL: AUTO_START_STOP_LEVEL_FAST,
},
)
fake_underlying_climate = MockClimate(
hass=hass,
unique_id="mock_climate",
name="mock_climate",
hvac_modes=[HVACMode.OFF, HVACMode.COOL, HVACMode.HEAT],
)
with patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=fake_underlying_climate,
):
vtherm: ThermostatOverClimate = await create_thermostat(
hass, config_entry, "climate.overclimate"
)
assert vtherm is not None
# Initialize all temps
await set_all_climate_preset_temp(hass, vtherm, temps, "overclimate")
# Check correct initialization of auto_start_stop attributes
assert (
vtherm._attr_extra_state_attributes["auto_start_stop_level"]
== AUTO_START_STOP_LEVEL_FAST
)
assert vtherm._attr_extra_state_attributes["auto_start_stop_dtmin"] == 7
# 1. Vtherm auto-start/stop should be in MEDIUM mode
assert vtherm.auto_start_stop_level == AUTO_START_STOP_LEVEL_FAST
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
# 2. Set mode to Heat and preset to Comfort
await send_presence_change_event(vtherm, True, False, now)
await send_temperature_change_event(vtherm, 27, now, True)
await vtherm.async_set_hvac_mode(HVACMode.COOL)
await vtherm.async_set_preset_mode(PRESET_COMFORT)
await hass.async_block_till_done()
assert vtherm.target_temperature == 25.0
# VTherm should be heating
assert vtherm.hvac_mode == HVACMode.COOL
# 3. Set current temperature to 19 5 min later
now = now + timedelta(minutes=5)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
vtherm._set_now(now)
await send_temperature_change_event(vtherm, 25, now, True)
await hass.async_block_till_done()
# VTherm should still be heating
assert vtherm.hvac_mode == HVACMode.COOL
assert mock_send_event.call_count == 0
assert (
vtherm._auto_start_stop_algo.accumulated_error == 0 # target = current = 25
)
# 4. Set current temperature to 23 5 min later -> should turn off
now = now + timedelta(minutes=5)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
vtherm._set_now(now)
await send_temperature_change_event(vtherm, 23, now, True)
await hass.async_block_till_done()
# VTherm should have been stopped
assert vtherm.hvac_mode == HVACMode.OFF
# accumulated_error = target - current = 2 x 5 min / 2 capped to 2
assert vtherm._auto_start_stop_algo.accumulated_error == 2
# a message should have been sent
assert mock_send_event.call_count >= 1
mock_send_event.assert_has_calls(
[
call(
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "stop",
"cause": "Auto stop conditions reached",
"hvac_mode": HVACMode.OFF,
"saved_hvac_mode": HVACMode.COOL,
"target_temperature": 25.0,
"current_temperature": 23.0,
"temperature_slope": -16.8,
},
)
]
)
mock_send_event.assert_has_calls(
[
call(
EventType.HVAC_MODE_EVENT,
{
"hvac_mode": HVACMode.OFF,
},
)
]
)
# 5. Set temperature to over the target, but slope is too low -> no change
now = now + timedelta(minutes=20)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
vtherm._set_now(now)
await send_temperature_change_event(vtherm, 26, now, True)
await hass.async_block_till_done()
# accumulated_error = 2/2 + target - current = -1 x 20 min / 2 capped to 2
assert vtherm._auto_start_stop_algo.accumulated_error == -2
# VTherm should have been stopped
assert vtherm.hvac_mode == HVACMode.OFF
# a message should have been sent
assert mock_send_event.call_count == 0
# 6. Set temperature to over the target, so that it will turn to COOL
now = now + timedelta(minutes=5)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
vtherm._set_now(now)
await send_temperature_change_event(vtherm, 26.5, now, True)
await hass.async_block_till_done()
# accumulated_error = 2/2 + target - current = -1 x 20 min / 2 capped to 2
assert vtherm._auto_start_stop_algo.accumulated_error == -2
# VTherm should have been stopped
assert vtherm.hvac_mode == HVACMode.COOL
# a message should have been sent
assert mock_send_event.call_count >= 1
mock_send_event.assert_has_calls(
[
call(
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "start",
"cause": "Auto start conditions reached",
"hvac_mode": HVACMode.COOL,
"saved_hvac_mode": HVACMode.COOL, # saved don't change
"target_temperature": 25.0,
"current_temperature": 26.5,
"temperature_slope": 5.74,
},
)
]
)
mock_send_event.assert_has_calls(
[
call(
EventType.HVAC_MODE_EVENT,
{
"hvac_mode": HVACMode.COOL,
},
)
]
)
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_auto_start_stop_medium_heat_vtherm_preset_change(
hass: HomeAssistant, skip_hass_states_is_state
):
"""Test than auto-start/stop restart a VTherm stopped upon preset_change (in fast mode)"""
# vtherm_api: VersatileThermostatAPI = VersatileThermostatAPI.get_vtherm_api(hass)
# The temperatures to set
temps = {
"frost": 7.0,
"eco": 17.0,
"comfort": 19.0,
"boost": 21.0,
"eco_ac": 27.0,
"comfort_ac": 25.0,
"boost_ac": 23.0,
"frost_away": 7.1,
"eco_away": 17.1,
"comfort_away": 19.1,
"boost_away": 21.1,
"eco_ac_away": 27.1,
"comfort_ac_away": 25.1,
"boost_ac_away": 23.1,
}
config_entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverClimateMockName",
unique_id="overClimateUniqueId",
data={
CONF_NAME: "overClimate",
CONF_TEMP_SENSOR: "sensor.mock_temp_sensor",
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_CLIMATE,
CONF_EXTERNAL_TEMP_SENSOR: "sensor.mock_ext_temp_sensor",
CONF_CYCLE_MIN: 5,
CONF_TEMP_MIN: 15,
CONF_TEMP_MAX: 30,
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_PRESENCE_FEATURE: True,
CONF_PRESENCE_SENSOR: "binary_sensor.presence_sensor",
CONF_CLIMATE: "climate.mock_climate",
CONF_MINIMAL_ACTIVATION_DELAY: 30,
CONF_SECURITY_DELAY_MIN: 5,
CONF_SECURITY_MIN_ON_PERCENT: 0.3,
CONF_AUTO_FAN_MODE: CONF_AUTO_FAN_TURBO,
CONF_AC_MODE: True,
CONF_AUTO_START_STOP_LEVEL: AUTO_START_STOP_LEVEL_FAST,
},
)
fake_underlying_climate = MockClimate(
hass=hass,
unique_id="mock_climate",
name="mock_climate",
hvac_modes=[HVACMode.OFF, HVACMode.COOL, HVACMode.HEAT],
)
with patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=fake_underlying_climate,
):
vtherm: ThermostatOverClimate = await create_thermostat(
hass, config_entry, "climate.overclimate"
)
assert vtherm is not None
# Initialize all temps
await set_all_climate_preset_temp(hass, vtherm, temps, "overclimate")
# Check correct initialization of auto_start_stop attributes
assert (
vtherm._attr_extra_state_attributes["auto_start_stop_level"]
== AUTO_START_STOP_LEVEL_FAST
)
assert vtherm._attr_extra_state_attributes["auto_start_stop_dtmin"] == 7
# 1. Vtherm auto-start/stop should be in MEDIUM mode
assert vtherm.auto_start_stop_level == AUTO_START_STOP_LEVEL_FAST
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
# 2. Set mode to Heat and preset to Comfort
await send_presence_change_event(vtherm, True, False, now)
await send_temperature_change_event(vtherm, 16, now, True)
await vtherm.async_set_hvac_mode(HVACMode.HEAT)
await vtherm.async_set_preset_mode(PRESET_ECO)
await hass.async_block_till_done()
assert vtherm.target_temperature == 17.0
# VTherm should be heating
assert vtherm.hvac_mode == HVACMode.HEAT
# 3. Set current temperature to 21 5 min later to auto-stop
now = now + timedelta(minutes=5)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
vtherm._set_now(now)
await send_temperature_change_event(vtherm, 19, now, True)
await hass.async_block_till_done()
# VTherm should have been stopped
assert vtherm.hvac_mode == HVACMode.OFF
assert vtherm._auto_start_stop_algo.accumulated_error == -2
# a message should have been sent
assert mock_send_event.call_count >= 1
mock_send_event.assert_has_calls(
[
call(
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "stop",
"cause": "Auto stop conditions reached",
"hvac_mode": HVACMode.OFF,
"saved_hvac_mode": HVACMode.HEAT,
"target_temperature": 17.0,
"current_temperature": 19.0,
"temperature_slope": 18.0,
},
)
]
)
mock_send_event.assert_has_calls(
[
call(
EventType.HVAC_MODE_EVENT,
{
"hvac_mode": HVACMode.OFF,
},
)
]
)
# 4.1 reduce the slope (because slope is smoothed and was very high)
now = now + timedelta(minutes=5)
await send_temperature_change_event(vtherm, 19, now, True)
now = now + timedelta(minutes=5)
await send_temperature_change_event(vtherm, 18, now, True)
now = now + timedelta(minutes=5)
await send_temperature_change_event(vtherm, 17, now, True)
# 4. Change preset to auto restart the Vtherm
now = now + timedelta(minutes=10)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
vtherm._set_now(now)
await vtherm.async_set_preset_mode(PRESET_BOOST)
await hass.async_block_till_done()
assert vtherm.target_temperature == 21
assert vtherm._auto_start_stop_algo.accumulated_error == 2
# VTherm should have been restarted
assert vtherm.hvac_mode == HVACMode.HEAT
# a message should have been sent
assert mock_send_event.call_count >= 1
mock_send_event.assert_has_calls(
[
call(
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "start",
"cause": "Auto start conditions reached",
"hvac_mode": HVACMode.HEAT,
"saved_hvac_mode": HVACMode.HEAT, # saved don't change
"target_temperature": 21.0,
"current_temperature": 17.0,
"temperature_slope": -5.19,
},
)
]
)
mock_send_event.assert_has_calls(
[
call(
EventType.HVAC_MODE_EVENT,
{
"hvac_mode": HVACMode.HEAT,
},
)
]
)

835
tests/test_bugs.py
View File

@@ -1,34 +1,97 @@
# pylint: disable=wildcard-import, unused-wildcard-import, protected-access, unused-argument, line-too-long, too-many-lines
# pylint: disable=wildcard-import, unused-wildcard-import, protected-access, unused-argument, line-too-long
""" Test the Window management """
import asyncio
from unittest.mock import patch, call, PropertyMock
from unittest.mock import patch, call
from datetime import datetime, timedelta
import logging
from homeassistant.const import STATE_ON, STATE_OFF
from homeassistant.core import HomeAssistant
from homeassistant.components.climate import (
SERVICE_SET_TEMPERATURE,
)
from custom_components.versatile_thermostat.config_flow import (
VersatileThermostatBaseConfigFlow,
)
from custom_components.versatile_thermostat.thermostat_climate import (
ThermostatOverClimate,
)
from custom_components.versatile_thermostat.thermostat_switch import (
ThermostatOverSwitch,
)
from .commons import *
logging.getLogger().setLevel(logging.DEBUG)
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_56(
hass: HomeAssistant,
skip_hass_states_is_state,
skip_turn_on_off_heater,
skip_send_event,
):
"""Test that in over_climate mode there is no error when underlying climate is not available"""
the_mock_underlying = MagicMockClimate()
with patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=None, # dont find the underlying climate
):
entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverClimateMockName",
unique_id="uniqueId",
data={
CONF_NAME: "TheOverClimateMockName",
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_CLIMATE,
CONF_TEMP_SENSOR: "sensor.mock_temp_sensor",
CONF_EXTERNAL_TEMP_SENSOR: "sensor.mock_ext_temp_sensor",
CONF_CYCLE_MIN: 5,
CONF_TEMP_MIN: 15,
CONF_TEMP_MAX: 30,
"eco_temp": 17,
"comfort_temp": 18,
"boost_temp": 19,
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_PRESENCE_FEATURE: False,
CONF_CLIMATE: "climate.mock_climate",
CONF_MINIMAL_ACTIVATION_DELAY: 30,
CONF_SECURITY_DELAY_MIN: 5,
CONF_SECURITY_MIN_ON_PERCENT: 0.3,
},
)
entity: BaseThermostat = await create_thermostat(
hass, entry, "climate.theoverclimatemockname"
)
assert entity
# cause the underlying climate was not found
assert entity.is_over_climate is True
assert entity.underlying_entity(0)._underlying_climate is None
# Should not failed
entity.update_custom_attributes()
# try to call async_control_heating
try:
ret = await entity.async_control_heating()
# an exception should be send
assert ret is False
except Exception: # pylint: disable=broad-exception-caught
assert False
# This time the underlying will be found
with patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=the_mock_underlying, # dont find the underlying climate
):
# try to call async_control_heating
try:
await entity.async_control_heating()
except UnknownEntity:
assert False
except Exception: # pylint: disable=broad-exception-caught
assert False
# Should not failed
entity.update_custom_attributes()
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_63(
@@ -128,6 +191,391 @@ async def test_bug_64(
assert entity
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_66(
hass: HomeAssistant,
skip_hass_states_is_state,
skip_turn_on_off_heater,
skip_send_event,
):
"""Test that it should be possible to open/close the window rapidly without side effect"""
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverSwitchMockName",
unique_id="uniqueId",
data={
CONF_NAME: "TheOverSwitchMockName",
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_SWITCH,
CONF_TEMP_SENSOR: "sensor.mock_temp_sensor",
CONF_EXTERNAL_TEMP_SENSOR: "sensor.mock_ext_temp_sensor",
CONF_CYCLE_MIN: 5,
CONF_TEMP_MIN: 15,
CONF_TEMP_MAX: 30,
"eco_temp": 17,
"comfort_temp": 18,
"boost_temp": 19,
CONF_USE_WINDOW_FEATURE: True,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_PRESENCE_FEATURE: False,
CONF_HEATER: "switch.mock_switch",
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_TPI_COEF_INT: 0.3,
CONF_TPI_COEF_EXT: 0.01,
CONF_MINIMAL_ACTIVATION_DELAY: 30,
CONF_SECURITY_DELAY_MIN: 5,
CONF_SECURITY_MIN_ON_PERCENT: 0.5,
CONF_SECURITY_DEFAULT_ON_PERCENT: 0.1, # !! here
CONF_DEVICE_POWER: 200,
CONF_WINDOW_SENSOR: "binary_sensor.mock_window_sensor",
CONF_WINDOW_DELAY: 0, # important to not been obliged to wait
},
)
entity: BaseThermostat = await create_thermostat(
hass, entry, "climate.theoverswitchmockname"
)
assert entity
await entity.async_set_hvac_mode(HVACMode.HEAT)
await entity.async_set_preset_mode(PRESET_BOOST)
assert entity.hvac_mode is HVACMode.HEAT
assert entity.preset_mode is PRESET_BOOST
assert entity.target_temperature == 19
assert entity.window_state is STATE_OFF
# Open the window and let the thermostat shut down
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_on"
) as mock_heater_on, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"homeassistant.helpers.condition.state", return_value=True
) as mock_condition, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
return_value=True,
):
await send_temperature_change_event(entity, 15, now)
try_window_condition = await send_window_change_event(
entity, True, False, now, False
)
# simulate the call to try_window_condition
await try_window_condition(None)
assert mock_send_event.call_count == 1
assert mock_heater_on.call_count == 1
assert mock_heater_off.call_count >= 1
assert mock_condition.call_count == 1
assert entity.window_state == STATE_ON
# Close the window but too shortly
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_on"
) as mock_heater_on, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"homeassistant.helpers.condition.state", return_value=False
) as mock_condition, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
return_value=False,
):
event_timestamp = now + timedelta(minutes=1)
try_window_condition = await send_window_change_event(
entity, False, True, event_timestamp
)
# simulate the call to try_window_condition
await try_window_condition(None)
# window state should not have change
assert entity.window_state == STATE_ON
# Reopen immediatly with sufficient time
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_on"
) as mock_heater_on, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"homeassistant.helpers.condition.state", return_value=True
) as mock_condition, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
return_value=False,
):
try_window_condition = await send_window_change_event(
entity, True, False, event_timestamp
)
# simulate the call to try_window_condition
await try_window_condition(None)
# still no change
assert entity.window_state == STATE_ON
assert entity.hvac_mode == HVACMode.OFF
# Close the window but with sufficient time this time
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_on"
) as mock_heater_on, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"homeassistant.helpers.condition.state", return_value=True
) as mock_condition, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
return_value=False,
):
event_timestamp = now + timedelta(minutes=2)
try_window_condition = await send_window_change_event(
entity, False, True, event_timestamp
)
# simulate the call to try_window_condition
await try_window_condition(None)
# window state should be Off this time and old state should have been restored
assert entity.window_state == STATE_OFF
assert entity.hvac_mode is HVACMode.HEAT
assert entity.preset_mode is PRESET_BOOST
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_82(
hass: HomeAssistant,
skip_hass_states_is_state,
skip_turn_on_off_heater,
skip_send_event,
):
"""Test that when a underlying climate is not available the VTherm doesn't go into safety mode"""
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverClimateMockName",
unique_id="uniqueId",
data=PARTIAL_CLIMATE_CONFIG, # 5 minutes security delay
)
fake_underlying_climate = MockUnavailableClimate(
hass, "mockUniqueId", "MockClimateName", {}
)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=fake_underlying_climate,
) as mock_find_climate:
entity = await create_thermostat(hass, entry, "climate.theoverclimatemockname")
# entry.add_to_hass(hass)
# await hass.config_entries.async_setup(entry.entry_id)
# assert entry.state is ConfigEntryState.LOADED
#
# def find_my_entity(entity_id) -> ClimateEntity:
# """Find my new entity"""
# component: EntityComponent[ClimateEntity] = hass.data[CLIMATE_DOMAIN]
# for entity in component.entities:
# if entity.entity_id == entity_id:
# return entity
#
# entity = find_my_entity("climate.theoverclimatemockname")
assert entity
assert entity.name == "TheOverClimateMockName"
assert entity.is_over_climate is True
# assert entity.hvac_action is HVACAction.OFF
assert entity.hvac_mode is HVACMode.OFF
# assert entity.hvac_mode is None
assert entity.target_temperature == entity.min_temp
assert entity.preset_modes == [
PRESET_NONE,
PRESET_FROST_PROTECTION,
PRESET_ECO,
PRESET_COMFORT,
PRESET_BOOST,
]
assert entity.preset_mode is PRESET_NONE
assert entity._security_state is False
# should have been called with EventType.PRESET_EVENT and EventType.HVAC_MODE_EVENT
assert mock_send_event.call_count == 2
mock_send_event.assert_has_calls(
[
call.send_event(EventType.PRESET_EVENT, {"preset": PRESET_NONE}),
call.send_event(
EventType.HVAC_MODE_EVENT,
{"hvac_mode": HVACMode.OFF},
),
]
)
assert mock_find_climate.call_count == 1
assert mock_find_climate.mock_calls[0] == call()
mock_find_climate.assert_has_calls([call.find_underlying_entity()])
# Force safety mode
assert entity._last_ext_temperature_measure is not None
assert entity._last_temperature_measure is not None
assert (
entity._last_temperature_measure.astimezone(tz) - now
).total_seconds() < 1
assert (
entity._last_ext_temperature_measure.astimezone(tz) - now
).total_seconds() < 1
# Tries to turns on the Thermostat
await entity.async_set_hvac_mode(HVACMode.HEAT)
assert entity.hvac_mode == HVACMode.HEAT
# 2. activate security feature when date is expired
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_on"
):
event_timestamp = now - timedelta(minutes=6)
# set temperature to 15 so that on_percent will be > security_min_on_percent (0.2)
await send_temperature_change_event(entity, 15, event_timestamp)
# Should stay False
assert entity.security_state is False
assert entity.preset_mode == "none"
assert entity._saved_preset_mode == "none"
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_101(
hass: HomeAssistant,
skip_hass_states_is_state,
skip_turn_on_off_heater,
skip_send_event,
):
"""Test that when a underlying climate target temp is changed, the VTherm change its own temperature target and switch to manual"""
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverClimateMockName",
unique_id="uniqueId",
data=PARTIAL_CLIMATE_NOT_REGULATED_CONFIG, # 5 minutes security delay
)
# Underlying is in HEAT mode but should be shutdown at startup
fake_underlying_climate = MockClimate(
hass, "mockUniqueId", "MockClimateName", {}, HVACMode.HEAT, HVACAction.HEATING
)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=fake_underlying_climate,
) as mock_find_climate, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.set_hvac_mode"
) as mock_underlying_set_hvac_mode:
entity = await create_thermostat(hass, entry, "climate.theoverclimatemockname")
# entry.add_to_hass(hass)
# await hass.config_entries.async_setup(entry.entry_id)
# assert entry.state is ConfigEntryState.LOADED
#
# def find_my_entity(entity_id) -> ClimateEntity:
# """Find my new entity"""
# component: EntityComponent[ClimateEntity] = hass.data[CLIMATE_DOMAIN]
# for entity in component.entities:
# if entity.entity_id == entity_id:
# return entity
#
# entity = find_my_entity("climate.theoverclimatemockname")
assert entity
assert entity.name == "TheOverClimateMockName"
assert entity.is_over_climate is True
assert entity.hvac_mode is HVACMode.OFF
# because in MockClimate HVACAction is HEATING if hvac_mode is not set
assert entity.hvac_action is HVACAction.HEATING
# Underlying should have been shutdown
assert mock_underlying_set_hvac_mode.call_count == 1
mock_underlying_set_hvac_mode.assert_has_calls(
[
call.set_hvac_mode(HVACMode.OFF),
]
)
assert entity.target_temperature == entity.min_temp
assert entity.preset_mode is PRESET_NONE
# should have been called with EventType.PRESET_EVENT and EventType.HVAC_MODE_EVENT
assert mock_send_event.call_count == 2
mock_send_event.assert_has_calls(
[
call.send_event(EventType.PRESET_EVENT, {"preset": PRESET_NONE}),
call.send_event(
EventType.HVAC_MODE_EVENT,
{"hvac_mode": HVACMode.OFF},
),
]
)
assert mock_find_climate.call_count == 1
assert mock_find_climate.mock_calls[0] == call()
mock_find_climate.assert_has_calls([call.find_underlying_entity()])
# Force preset mode
await entity.async_set_hvac_mode(HVACMode.HEAT)
assert entity.hvac_mode == HVACMode.HEAT
await entity.async_set_preset_mode(PRESET_COMFORT)
assert entity.preset_mode == PRESET_COMFORT
# 2. Change the target temp of underlying thermostat at now -> the event will be disgarded because to fast (to avoid loop cf issue 121)
await send_climate_change_event_with_temperature(
entity,
HVACMode.HEAT,
HVACMode.HEAT,
HVACAction.OFF,
HVACAction.OFF,
now,
12.75,
)
# Should NOT have been switched to Manual preset
assert entity.target_temperature == 17
assert entity.preset_mode is PRESET_COMFORT
# 2. Change the target temp of underlying thermostat at 11 sec later -> the event will be taken
# Wait 11 sec
event_timestamp = now + timedelta(seconds=11)
assert entity.is_regulated is False
await send_climate_change_event_with_temperature(
entity,
HVACMode.HEAT,
HVACMode.HEAT,
HVACAction.OFF,
HVACAction.OFF,
event_timestamp,
12.75,
)
assert entity.target_temperature == 12.75
assert entity.preset_mode is PRESET_NONE
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_272(
@@ -207,8 +655,8 @@ async def test_bug_272(
{
"entity_id": "climate.mock_climate",
"temperature": 17.5,
# "target_temp_high": 30,
# "target_temp_low": 15,
"target_temp_high": 30,
"target_temp_low": 15,
},
),
]
@@ -237,8 +685,8 @@ async def test_bug_272(
{
"entity_id": "climate.mock_climate",
"temperature": 15, # the minimum acceptable
# "target_temp_high": 30,
# "target_temp_low": 15,
"target_temp_high": 30,
"target_temp_low": 15,
},
),
]
@@ -264,352 +712,9 @@ async def test_bug_272(
{
"entity_id": "climate.mock_climate",
"temperature": 19, # the maximum acceptable
# "target_temp_high": 30,
# "target_temp_low": 15,
"target_temp_high": 30,
"target_temp_low": 15,
},
),
]
)
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_407(hass: HomeAssistant, skip_hass_states_is_state):
"""Test the followin case in power management:
1. a heater is active (heating). So the power consumption takes the heater power into account. We suppose the power consumption is near the threshold,
2. the user switch preset let's say from Comfort to Boost,
3. expected: no shredding should occur because the heater was already active,
4. constated: the heater goes into shredding.
"""
entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverSwitchMockName",
unique_id="uniqueId",
data={
CONF_NAME: "TheOverSwitchMockName",
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_SWITCH,
CONF_TEMP_SENSOR: "sensor.mock_temp_sensor",
CONF_EXTERNAL_TEMP_SENSOR: "sensor.mock_ext_temp_sensor",
CONF_CYCLE_MIN: 5,
CONF_TEMP_MIN: 15,
CONF_TEMP_MAX: 30,
"eco_temp": 17,
"comfort_temp": 18,
"boost_temp": 19,
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: True,
CONF_USE_PRESENCE_FEATURE: False,
CONF_HEATER: "switch.mock_switch",
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_TPI_COEF_INT: 0.3,
CONF_TPI_COEF_EXT: 0.01,
CONF_MINIMAL_ACTIVATION_DELAY: 30,
CONF_SECURITY_DELAY_MIN: 5,
CONF_SECURITY_MIN_ON_PERCENT: 0.3,
CONF_POWER_SENSOR: "sensor.mock_power_sensor",
CONF_MAX_POWER_SENSOR: "sensor.mock_power_max_sensor",
CONF_DEVICE_POWER: 100,
CONF_PRESET_POWER: 12,
},
)
entity: ThermostatOverSwitch = await create_thermostat(
hass, entry, "climate.theoverswitchmockname"
)
assert entity
tpi_algo = entity._prop_algorithm
assert tpi_algo
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
await send_temperature_change_event(entity, 16, now)
await send_ext_temperature_change_event(entity, 10, now)
# 1. An already active heater will not switch to overpowering
with patch(
"homeassistant.core.ServiceRegistry.async_call"
) as mock_service_call, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
await entity.async_set_hvac_mode(HVACMode.HEAT)
await entity.async_set_preset_mode(PRESET_COMFORT)
assert entity.hvac_mode is HVACMode.HEAT
assert entity.preset_mode is PRESET_COMFORT
assert entity.overpowering_state is None
assert entity.target_temperature == 18
# waits that the heater starts
await asyncio.sleep(0.1)
assert mock_service_call.call_count >= 1
assert entity.is_device_active is True
# Send power max mesurement
await send_max_power_change_event(entity, 110, datetime.now())
# Send power mesurement (theheater is already in the power measurement)
await send_power_change_event(entity, 100, datetime.now())
# No overpowering yet
assert await entity.check_overpowering() is False
# All configuration is complete and power is < power_max
assert entity.preset_mode is PRESET_COMFORT
assert entity.overpowering_state is False
assert entity.is_device_active is True
# 2. An already active heater that switch preset will not switch to overpowering
with patch(
"homeassistant.core.ServiceRegistry.async_call"
) as mock_service_call, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
# change preset to Boost
await entity.async_set_preset_mode(PRESET_BOOST)
# waits that the heater starts
await asyncio.sleep(0.1)
assert await entity.check_overpowering() is False
assert entity.hvac_mode is HVACMode.HEAT
assert entity.preset_mode is PRESET_BOOST
assert entity.overpowering_state is False
assert entity.target_temperature == 19
assert mock_service_call.call_count >= 1
# 3. if heater is stopped (is_device_active==False), then overpowering should be started
with patch(
"homeassistant.core.ServiceRegistry.async_call"
) as mock_service_call, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=False,
):
# change preset to Boost
await entity.async_set_preset_mode(PRESET_COMFORT)
# waits that the heater starts
await asyncio.sleep(0.1)
assert await entity.check_overpowering() is True
assert entity.hvac_mode is HVACMode.HEAT
assert entity.preset_mode is PRESET_POWER
assert entity.overpowering_state is True
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_500_1(hass: HomeAssistant, init_vtherm_api) -> None:
"""Test that the form is served with no input"""
config = {
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_SWITCH,
CONF_USE_WINDOW_CENTRAL_CONFIG: True,
CONF_USE_POWER_CENTRAL_CONFIG: True,
CONF_USE_PRESENCE_CENTRAL_CONFIG: True,
CONF_USE_MOTION_FEATURE: True,
CONF_MOTION_SENSOR: "sensor.theMotionSensor",
}
flow = VersatileThermostatBaseConfigFlow(config)
assert flow._infos[CONF_USE_WINDOW_FEATURE] is True
assert flow._infos[CONF_USE_POWER_FEATURE] is True
assert flow._infos[CONF_USE_PRESENCE_FEATURE] is True
assert flow._infos[CONF_USE_MOTION_FEATURE] is True
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_500_2(hass: HomeAssistant, init_vtherm_api) -> None:
"""Test that the form is served with no input"""
config = {
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_SWITCH,
CONF_USE_WINDOW_CENTRAL_CONFIG: False,
CONF_USE_POWER_CENTRAL_CONFIG: False,
CONF_USE_PRESENCE_CENTRAL_CONFIG: False,
CONF_USE_MOTION_FEATURE: False,
}
flow = VersatileThermostatBaseConfigFlow(config)
assert flow._infos[CONF_USE_WINDOW_FEATURE] is False
assert flow._infos[CONF_USE_POWER_FEATURE] is False
assert flow._infos[CONF_USE_PRESENCE_FEATURE] is False
assert flow._infos[CONF_USE_MOTION_FEATURE] is False
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_500_3(hass: HomeAssistant, init_vtherm_api) -> None:
"""Test that the form is served with no input"""
config = {
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_SWITCH,
CONF_USE_WINDOW_CENTRAL_CONFIG: False,
CONF_WINDOW_SENSOR: "sensor.theWindowSensor",
CONF_USE_POWER_CENTRAL_CONFIG: False,
CONF_POWER_SENSOR: "sensor.thePowerSensor",
CONF_MAX_POWER_SENSOR: "sensor.theMaxPowerSensor",
CONF_USE_PRESENCE_CENTRAL_CONFIG: False,
CONF_PRESENCE_SENSOR: "sensor.thePresenceSensor",
CONF_USE_MOTION_FEATURE: True, # motion sensor need to be checked AND a motion sensor set
CONF_MOTION_SENSOR: "sensor.theMotionSensor",
}
flow = VersatileThermostatBaseConfigFlow(config)
assert flow._infos[CONF_USE_WINDOW_FEATURE] is True
assert flow._infos[CONF_USE_POWER_FEATURE] is True
assert flow._infos[CONF_USE_PRESENCE_FEATURE] is True
assert flow._infos[CONF_USE_MOTION_FEATURE] is True
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_465(hass: HomeAssistant, skip_hass_states_is_state):
"""Test store and restore hvac_mode on toggle hvac state"""
# vtherm_api: VersatileThermostatAPI = VersatileThermostatAPI.get_vtherm_api(hass)
# The temperatures to set
temps = {
"frost": 7.0,
"eco": 17.0,
"comfort": 19.0,
"boost": 21.0,
"eco_ac": 27.0,
"comfort_ac": 25.0,
"boost_ac": 23.0,
"frost_away": 7.1,
"eco_away": 17.1,
"comfort_away": 19.1,
"boost_away": 21.1,
"eco_ac_away": 27.1,
"comfort_ac_away": 25.1,
"boost_ac_away": 23.1,
}
# 0. initialisation
config_entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverClimateMockName",
unique_id="overClimateUniqueId",
data={
CONF_NAME: "overClimate",
CONF_TEMP_SENSOR: "sensor.mock_temp_sensor",
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_CLIMATE,
CONF_EXTERNAL_TEMP_SENSOR: "sensor.mock_ext_temp_sensor",
CONF_CYCLE_MIN: 5,
CONF_TEMP_MIN: 15,
CONF_TEMP_MAX: 30,
CONF_USE_WINDOW_FEATURE: True,
CONF_WINDOW_SENSOR: "binary_sensor.window_sensor",
CONF_WINDOW_ACTION: CONF_WINDOW_TURN_OFF,
CONF_WINDOW_DELAY: 1,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_PRESENCE_FEATURE: True,
CONF_PRESENCE_SENSOR: "binary_sensor.presence_sensor",
CONF_CLIMATE: "climate.mock_climate",
CONF_MINIMAL_ACTIVATION_DELAY: 30,
CONF_SECURITY_DELAY_MIN: 5,
CONF_SECURITY_MIN_ON_PERCENT: 0.3,
CONF_AUTO_FAN_MODE: CONF_AUTO_FAN_TURBO,
CONF_AC_MODE: True,
},
)
fake_underlying_climate = MockClimate(
hass=hass,
unique_id="mock_climate",
name="mock_climate",
hvac_modes=[HVACMode.OFF, HVACMode.COOL, HVACMode.HEAT, HVACMode.FAN_ONLY],
)
with patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=fake_underlying_climate,
):
vtherm: ThermostatOverClimate = await create_thermostat(
hass, config_entry, "climate.overclimate"
)
assert vtherm is not None
await set_all_climate_preset_temp(hass, vtherm, temps, "overclimate")
now: datetime = datetime.now(tz=get_tz(hass))
# 1. Set mode to Heat and preset to Comfort
await send_presence_change_event(vtherm, True, False, datetime.now())
await vtherm.async_set_hvac_mode(HVACMode.HEAT)
await vtherm.async_set_preset_mode(PRESET_BOOST)
await hass.async_block_till_done()
assert vtherm.target_temperature == 21.0
# 2. Toggle the VTherm state
await vtherm.async_toggle()
await hass.async_block_till_done()
assert vtherm.hvac_mode == HVACMode.OFF
# 3. (re)Toggle the VTherm state
await vtherm.async_toggle()
await hass.async_block_till_done()
assert vtherm.hvac_mode == HVACMode.HEAT
# 4. Toggle from COOL
await vtherm.async_set_hvac_mode(HVACMode.COOL)
await hass.async_block_till_done()
assert vtherm.target_temperature == 23.0
# 5. Toggle the VTherm state
await vtherm.async_toggle()
await hass.async_block_till_done()
assert vtherm.hvac_mode == HVACMode.OFF
# 6. (re)Toggle the VTherm state
await vtherm.async_toggle()
await hass.async_block_till_done()
assert vtherm.hvac_mode == HVACMode.COOL
###
# Same test with an open window and initial state is COOL
#
# 7. open the window
with patch("homeassistant.helpers.condition.state", return_value=True):
try_window_condition = await send_window_change_event(
vtherm, True, False, now, False
)
await try_window_condition(None)
await hass.async_block_till_done()
assert vtherm.window_state is STATE_ON
assert vtherm.hvac_mode == HVACMode.OFF
# 8. call toggle -> we should stay in OFF (command is ignored)
await vtherm.async_toggle()
await hass.async_block_till_done()
assert vtherm.hvac_mode == HVACMode.OFF
# 9. Close the window (we should come back to Cool this time)
now = now + timedelta(minutes=2)
with patch("homeassistant.helpers.condition.state", return_value=True):
try_window_condition = await send_window_change_event(
vtherm, False, True, now, False
)
await try_window_condition(None)
await hass.async_block_till_done()
assert vtherm.window_state is STATE_OFF
assert vtherm.hvac_mode == HVACMode.COOL
# 9. call toggle -> we should come back in OFF
await vtherm.async_toggle()
await hass.async_block_till_done()
assert vtherm.hvac_mode == HVACMode.OFF

81
tests/test_central_boiler.py
View File

@@ -69,7 +69,7 @@ async def test_add_a_central_config_with_boiler(
assert api.nb_active_device_for_boiler == 0
assert api.nb_active_device_for_boiler_threshold_entity is not None
assert api.nb_active_device_for_boiler_threshold == 1 # the default value is 1
assert api.nb_active_device_for_boiler_threshold is 1 # the default value is 1
async def test_update_central_boiler_state_simple(
@@ -731,7 +731,7 @@ async def test_update_central_boiler_state_simple_climate(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=climate1,
):
entity: ThermostatOverClimate = await create_thermostat(
entity: ThermostatOverValve = await create_thermostat(
hass, entry, "climate.theoverclimatemockname"
)
assert entity
@@ -842,80 +842,3 @@ async def test_update_central_boiler_state_simple_climate(
assert boiler_binary_sensor.state == STATE_OFF
entity.remove_thermostat()
async def test_bug_339(
hass: HomeAssistant,
# skip_hass_states_is_state,
init_central_config_with_boiler_fixture,
):
"""Test that the counter of active Vtherm in central boiler is
correctly updated with underlying is in auto and device is active
"""
api = VersatileThermostatAPI.get_vtherm_api(hass)
climate1 = MockClimate(
hass=hass,
unique_id="climate1",
name="theClimate1",
hvac_mode=HVACMode.AUTO,
hvac_modes=[HVACMode.AUTO, HVACMode.OFF, HVACMode.HEAT, HVACMode.COOL],
hvac_action=HVACAction.HEATING,
)
entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverClimateMockName",
unique_id="uniqueId",
data={
CONF_NAME: "TheOverClimateMockName",
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_CLIMATE,
CONF_TEMP_SENSOR: "sensor.mock_temp_sensor",
CONF_EXTERNAL_TEMP_SENSOR: "sensor.mock_ext_temp_sensor",
CONF_CYCLE_MIN: 5,
CONF_TEMP_MIN: 8,
CONF_TEMP_MAX: 18,
"frost_temp": 10,
"eco_temp": 17,
"comfort_temp": 18,
"boost_temp": 21,
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_PRESENCE_FEATURE: False,
CONF_CLIMATE: climate1.entity_id,
CONF_MINIMAL_ACTIVATION_DELAY: 30,
CONF_SECURITY_DELAY_MIN: 5,
CONF_SECURITY_MIN_ON_PERCENT: 0.3,
CONF_SECURITY_DEFAULT_ON_PERCENT: 0.1,
CONF_USE_MAIN_CENTRAL_CONFIG: True,
CONF_USE_PRESETS_CENTRAL_CONFIG: True,
CONF_USE_ADVANCED_CENTRAL_CONFIG: True,
CONF_USED_BY_CENTRAL_BOILER: True,
},
)
with patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=climate1,
):
entity: ThermostatOverValve = await create_thermostat(
hass, entry, "climate.theoverclimatemockname"
)
assert entity
assert entity.name == "TheOverClimateMockName"
assert entity.is_over_climate
assert entity.underlying_entities[0].entity_id == "climate.climate1"
assert api.nb_active_device_for_boiler_threshold == 1
await entity.async_set_hvac_mode(HVACMode.AUTO)
# Simulate a state change in underelying
await api.nb_active_device_for_boiler_entity.calculate_nb_active_devices(None)
# The VTherm should be active
assert entity.underlying_entity(0).is_device_active is True
assert entity.is_device_active is True
assert api.nb_active_device_for_boiler == 1
entity.remove_thermostat()

66
tests/test_central_config.py
View File

@@ -66,7 +66,7 @@ async def test_add_a_central_config(hass: HomeAssistant, skip_hass_states_is_sta
CONF_SECURITY_DELAY_MIN: 61,
CONF_SECURITY_MIN_ON_PERCENT: 0.5,
CONF_SECURITY_DEFAULT_ON_PERCENT: 0.2,
CONF_USE_CENTRAL_BOILER_FEATURE: False,
CONF_ADD_CENTRAL_BOILER_CONTROL: False,
},
)
@@ -94,8 +94,8 @@ async def test_add_a_central_config(hass: HomeAssistant, skip_hass_states_is_sta
assert api.nb_active_device_for_boiler_entity is None
assert api.nb_active_device_for_boiler is None
assert api.nb_active_device_for_boiler_threshold_entity is None
assert api.nb_active_device_for_boiler_threshold is None
assert api.nb_active_device_for_boiler_threshold_entity is not None
assert api.nb_active_device_for_boiler_threshold == 1 # the default value
# @pytest.mark.parametrize("expected_lingering_tasks", [True])
@@ -455,63 +455,3 @@ async def test_over_switch_with_central_config_but_no_central_config(
# in case of error we stays in main
assert result["step_id"] == "main"
assert result["errors"] == {"use_main_central_config": "no_central_config"}
async def test_migration_of_central_config(
hass: HomeAssistant,
skip_hass_states_is_state,
):
"""Tests the clean_central_config_doubon of base_thermostat"""
central_config_entry = MockConfigEntry(
version=CONFIG_VERSION,
# An old minor version
minor_version=1,
domain=DOMAIN,
title="TheCentralConfigMockName",
unique_id="centralConfigUniqueId",
data={
CONF_NAME: CENTRAL_CONFIG_NAME,
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_CENTRAL_CONFIG,
CONF_EXTERNAL_TEMP_SENSOR: "sensor.mock_ext_temp_sensor",
CONF_TEMP_MIN: 15,
CONF_TEMP_MAX: 30,
CONF_STEP_TEMPERATURE: 0.1,
CONF_TPI_COEF_INT: 0.5,
CONF_TPI_COEF_EXT: 0.02,
CONF_MINIMAL_ACTIVATION_DELAY: 11,
CONF_SECURITY_DELAY_MIN: 61,
CONF_SECURITY_MIN_ON_PERCENT: 0.5,
CONF_SECURITY_DEFAULT_ON_PERCENT: 0.2,
# The old central_boiler parameter
"add_central_boiler_control": True,
CONF_CENTRAL_BOILER_ACTIVATION_SRV: "switch.pompe_chaudiere/switch.turn_on",
CONF_CENTRAL_BOILER_DEACTIVATION_SRV: "switch.pompe_chaudiere/switch.turn_off",
},
)
central_config_entry.add_to_hass(hass)
await hass.config_entries.async_setup(central_config_entry.entry_id)
assert central_config_entry.state is ConfigEntryState.LOADED
entity: ThermostatOverClimate = search_entity(
hass, "climate.thecentralconfigmockname", "climate"
)
assert entity is None
assert count_entities(hass, "climate.thecentralconfigmockname", "climate") == 0
# Test that VTherm API find the CentralConfig
api = VersatileThermostatAPI.get_vtherm_api(hass)
central_configuration = api.find_central_configuration()
assert central_configuration is not None
assert central_config_entry.data.get(CONF_USE_CENTRAL_BOILER_FEATURE) is True
# Test that VTherm API have any central boiler entities
# It should have been migrated and initialized
assert api.nb_active_device_for_boiler_entity is not None
assert api.nb_active_device_for_boiler == 0
assert api.nb_active_device_for_boiler_threshold_entity is not None
assert api.nb_active_device_for_boiler_threshold == 1 # the default value is 1

2
tests/test_central_mode.py
View File

@@ -23,7 +23,7 @@ from .const import * # pylint: disable=wildcard-import, unused-wildcard-import
# @pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
# @pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_config_with_central_mode_true(
hass: HomeAssistant, skip_hass_states_is_state
):

279
tests/test_config_flow.py
View File

@@ -27,7 +27,7 @@ async def test_show_form(hass: HomeAssistant, init_vtherm_api) -> None:
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
# Disable this test which don't work anymore (kill the pytest !)
@pytest.mark.skip
# @pytest.mark.skip
async def test_user_config_flow_over_switch(
hass: HomeAssistant, skip_hass_states_get, init_central_config
): # pylint: disable=unused-argument
@@ -48,11 +48,10 @@ async def test_user_config_flow_over_switch(
assert result["step_id"] == "menu"
assert result["menu_options"] == [
"main",
"features",
"type",
"features",
"presets",
"advanced",
"configuration_not_complete",
]
assert result.get("errors") is None
@@ -98,8 +97,8 @@ async def test_user_config_flow_over_switch(
assert result["step_id"] == "menu"
assert result["menu_options"] == [
"main",
"features",
"type",
"features",
"tpi",
"presets",
"advanced",
@@ -157,8 +156,8 @@ async def test_user_config_flow_over_switch(
assert result.get("errors") is None
assert result["menu_options"] == [
"main",
"features",
"type",
"features",
"tpi",
"presets",
"window",
@@ -166,7 +165,6 @@ async def test_user_config_flow_over_switch(
"power",
"presence",
"advanced",
"configuration_not_complete",
# "finalize" : because for motion we need an motion sensor
]
@@ -217,8 +215,8 @@ async def test_user_config_flow_over_switch(
assert result["step_id"] == "menu"
assert result["menu_options"] == [
"main",
"features",
"type",
"features",
"tpi",
"presets",
"window",
@@ -280,14 +278,12 @@ async def test_user_config_flow_over_switch(
CONF_USE_POWER_CENTRAL_CONFIG: True,
CONF_USE_PRESENCE_CENTRAL_CONFIG: True,
CONF_USE_ADVANCED_CENTRAL_CONFIG: True,
CONF_USE_AUTO_START_STOP_FEATURE: False,
CONF_USE_CENTRAL_MODE: True,
CONF_USED_BY_CENTRAL_BOILER: False,
CONF_USE_WINDOW_FEATURE: True,
CONF_USE_MOTION_FEATURE: True,
CONF_USE_POWER_FEATURE: True,
CONF_USE_PRESENCE_FEATURE: True,
CONF_USE_CENTRAL_BOILER_FEATURE: False,
}
)
assert result["result"]
@@ -300,11 +296,11 @@ async def test_user_config_flow_over_switch(
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
# TODO this test fails when run in // but works alone
# @pytest.mark.skip
@pytest.mark.skip
async def test_user_config_flow_over_climate(
hass: HomeAssistant, skip_hass_states_get
): # pylint: disable=unused-argument
"""Test the config flow with all thermostat_over_climate features and never use central config.
"""Test the config flow with all thermostat_over_switch features and never use central config.
We don't use any features"""
# await create_central_config(hass)
@@ -324,11 +320,10 @@ async def test_user_config_flow_over_climate(
assert result["step_id"] == "menu"
assert result["menu_options"] == [
"main",
"features",
"type",
"features",
"presets",
"advanced",
"configuration_not_complete",
]
assert result.get("errors") is None
@@ -392,11 +387,10 @@ async def test_user_config_flow_over_climate(
assert result["step_id"] == "menu"
assert result["menu_options"] == [
"main",
"features",
"type",
"features",
"presets",
"advanced",
"configuration_not_complete",
# "finalize", # because we need Advanced default parameters
]
assert result.get("errors") is None
@@ -436,11 +430,10 @@ async def test_user_config_flow_over_climate(
assert result.get("errors") is None
assert result["menu_options"] == [
"main",
"features",
"type",
"features",
"presets",
"advanced",
"configuration_not_complete",
# "finalize", finalize is not present waiting for advanced configuration
]
@@ -473,8 +466,8 @@ async def test_user_config_flow_over_climate(
assert result.get("errors") is None
assert result["menu_options"] == [
"main",
"features",
"type",
"features",
"presets",
"advanced",
"finalize", # Now finalize is present
@@ -500,8 +493,6 @@ async def test_user_config_flow_over_climate(
CONF_USE_POWER_FEATURE: False,
CONF_USE_PRESENCE_FEATURE: False,
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_AUTO_START_STOP_FEATURE: False,
CONF_USE_CENTRAL_BOILER_FEATURE: False,
CONF_USE_TPI_CENTRAL_CONFIG: False,
CONF_USE_WINDOW_CENTRAL_CONFIG: False,
CONF_USE_MOTION_CENTRAL_CONFIG: False,
@@ -879,251 +870,3 @@ async def test_user_config_flow_over_4_switches(
assert result["result"].version == 1
assert result["result"].title == "TheOver4SwitchMockName"
assert isinstance(result["result"], ConfigEntry)
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
# TODO this test fails when run in // but works alone
# @pytest.mark.skip
async def test_user_config_flow_over_climate_auto_start_stop(
hass: HomeAssistant, skip_hass_states_get
): # pylint: disable=unused-argument
"""Test the config flow with auto_start_stop thermostat_over_climate features."""
# await create_central_config(hass)
# 1. start a config flow in over_climate
result = await hass.config_entries.flow.async_init(
DOMAIN, context={"source": SOURCE_USER}
)
assert result["type"] == FlowResultType.FORM
assert result["step_id"] == SOURCE_USER
result = await hass.config_entries.flow.async_configure(
result["flow_id"],
user_input={
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_CLIMATE,
},
)
assert result["type"] == FlowResultType.MENU
assert result["step_id"] == "menu"
assert result["menu_options"] == [
"main",
"features",
"type",
"presets",
"advanced",
"configuration_not_complete",
]
assert result.get("errors") is None
# 2. Add auto-start-stop feature
result = await hass.config_entries.flow.async_configure(
result["flow_id"], user_input={"next_step_id": "features"}
)
assert result["type"] == FlowResultType.FORM
assert result["step_id"] == "features"
assert result.get("errors") == {}
result = await hass.config_entries.flow.async_configure(
result["flow_id"],
user_input={
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_PRESENCE_FEATURE: False,
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_AUTO_START_STOP_FEATURE: True,
},
)
assert result["type"] == FlowResultType.MENU
assert result["step_id"] == "menu"
assert result.get("errors") is None
assert result["menu_options"] == [
"main",
"features",
"type",
"presets",
"auto_start_stop",
"advanced",
"configuration_not_complete",
# "finalize", finalize is not present waiting for advanced configuration
]
# 3. Configure auto-start-stop attributes
result = await hass.config_entries.flow.async_configure(
result["flow_id"], user_input={"next_step_id": "auto_start_stop"}
)
assert result["type"] == FlowResultType.FORM
assert result["step_id"] == "auto_start_stop"
assert result.get("errors") == {}
result = await hass.config_entries.flow.async_configure(
result["flow_id"],
user_input={
CONF_AUTO_START_STOP_LEVEL: AUTO_START_STOP_LEVEL_MEDIUM,
},
)
assert result["type"] == FlowResultType.MENU
assert result["step_id"] == "menu"
assert result.get("errors") is None
# 4. Configure main attributes
result = await hass.config_entries.flow.async_configure(
result["flow_id"], user_input={"next_step_id": "main"}
)
assert result["type"] == FlowResultType.FORM
assert result["step_id"] == "main"
assert result.get("errors") == {}
result = await hass.config_entries.flow.async_configure(
result["flow_id"],
user_input={
CONF_NAME: "TheOverClimateMockName",
CONF_TEMP_SENSOR: "sensor.mock_temp_sensor",
CONF_CYCLE_MIN: 5,
CONF_DEVICE_POWER: 1,
CONF_USE_MAIN_CENTRAL_CONFIG: False,
CONF_USE_CENTRAL_MODE: True,
# Keep default values which are False
},
)
assert result["type"] == FlowResultType.FORM
assert result["step_id"] == "main"
assert result.get("errors") == {}
result = await hass.config_entries.flow.async_configure(
result["flow_id"],
user_input={
CONF_EXTERNAL_TEMP_SENSOR: "sensor.mock_ext_temp_sensor",
CONF_TEMP_MIN: 15,
CONF_TEMP_MAX: 30,
CONF_STEP_TEMPERATURE: 0.1,
# Keep default values which are False
},
)
assert result["type"] == FlowResultType.MENU
assert result["step_id"] == "menu"
assert result.get("errors") is None
# 5. Configure type attributes
result = await hass.config_entries.flow.async_configure(
result["flow_id"], user_input={"next_step_id": "type"}
)
assert result["type"] == FlowResultType.FORM
assert result["step_id"] == "type"
assert result.get("errors") == {}
result = await hass.config_entries.flow.async_configure(
result["flow_id"],
user_input={
CONF_CLIMATE: "climate.mock_climate",
CONF_AC_MODE: False,
CONF_AUTO_REGULATION_MODE: CONF_AUTO_REGULATION_STRONG,
CONF_AUTO_REGULATION_DTEMP: 0.5,
CONF_AUTO_REGULATION_PERIOD_MIN: 2,
CONF_AUTO_FAN_MODE: CONF_AUTO_FAN_HIGH,
CONF_AUTO_REGULATION_USE_DEVICE_TEMP: False,
},
)
assert result["type"] == FlowResultType.MENU
assert result["step_id"] == "menu"
assert result["menu_options"] == [
"main",
"features",
"type",
"presets",
"auto_start_stop",
"advanced",
"configuration_not_complete",
# "finalize", # because we need Advanced default parameters
]
assert result.get("errors") is None
result = await hass.config_entries.flow.async_configure(
result["flow_id"], user_input={"next_step_id": "presets"}
)
assert result["type"] == FlowResultType.FORM
assert result["step_id"] == "presets"
assert result.get("errors") == {}
result = await hass.config_entries.flow.async_configure(
result["flow_id"], user_input={CONF_USE_PRESETS_CENTRAL_CONFIG: False}
)
assert result["type"] == FlowResultType.MENU
assert result["step_id"] == "menu"
assert result.get("errors") is None
# 6. configure advanced attributes
result = await hass.config_entries.flow.async_configure(
result["flow_id"], user_input={"next_step_id": "advanced"}
)
assert result["type"] == FlowResultType.FORM
assert result["step_id"] == "advanced"
assert result.get("errors") == {}
result = await hass.config_entries.flow.async_configure(
result["flow_id"],
user_input={CONF_USE_ADVANCED_CENTRAL_CONFIG: False},
)
assert result["type"] == FlowResultType.FORM
assert result["step_id"] == "advanced"
assert result.get("errors") == {}
result = await hass.config_entries.flow.async_configure(
result["flow_id"],
user_input={
CONF_MINIMAL_ACTIVATION_DELAY: 10,
CONF_SECURITY_DELAY_MIN: 5,
CONF_SECURITY_MIN_ON_PERCENT: 0.4,
CONF_SECURITY_DEFAULT_ON_PERCENT: 0.3,
},
)
assert result["type"] == FlowResultType.MENU
assert result["step_id"] == "menu"
assert result.get("errors") is None
assert result["menu_options"] == [
"main",
"features",
"type",
"presets",
"auto_start_stop",
"advanced",
"finalize", # Now finalize is present
]
result = await hass.config_entries.flow.async_configure(
result["flow_id"], user_input={"next_step_id": "finalize"}
)
assert result["type"] == FlowResultType.CREATE_ENTRY
assert result.get("errors") is None
assert result[
"data"
] == MOCK_TH_OVER_CLIMATE_USER_CONFIG | MOCK_TH_OVER_CLIMATE_MAIN_CONFIG | MOCK_TH_OVER_CLIMATE_CENTRAL_MAIN_CONFIG | MOCK_TH_OVER_CLIMATE_TYPE_CONFIG | {
CONF_MINIMAL_ACTIVATION_DELAY: 10,
CONF_SECURITY_DELAY_MIN: 5,
CONF_SECURITY_MIN_ON_PERCENT: 0.4,
CONF_SECURITY_DEFAULT_ON_PERCENT: 0.3,
} | MOCK_DEFAULT_FEATURE_CONFIG | {
CONF_USE_MAIN_CENTRAL_CONFIG: False,
CONF_USE_TPI_CENTRAL_CONFIG: False,
CONF_USE_PRESETS_CENTRAL_CONFIG: False,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_PRESENCE_FEATURE: False,
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_AUTO_START_STOP_FEATURE: False,
CONF_USE_CENTRAL_BOILER_FEATURE: False,
CONF_USE_TPI_CENTRAL_CONFIG: False,
CONF_USE_WINDOW_CENTRAL_CONFIG: False,
CONF_USE_MOTION_CENTRAL_CONFIG: False,
CONF_USE_POWER_CENTRAL_CONFIG: False,
CONF_USE_PRESENCE_CENTRAL_CONFIG: False,
CONF_USE_ADVANCED_CENTRAL_CONFIG: False,
CONF_USED_BY_CENTRAL_BOILER: False,
CONF_USE_AUTO_START_STOP_FEATURE: True,
CONF_AUTO_START_STOP_LEVEL: AUTO_START_STOP_LEVEL_MEDIUM,
}
assert result["result"]
assert result["result"].domain == DOMAIN
assert result["result"].version == 1
assert result["result"].title == "TheOverClimateMockName"
assert isinstance(result["result"], ConfigEntry)

136
tests/test_last_seen.py
View File

@@ -1,136 +0,0 @@
# pylint: disable=wildcard-import, unused-wildcard-import, protected-access, unused-argument, line-too-long
""" Test the Security featrure """
from unittest.mock import patch, call
from datetime import timedelta, datetime
import logging
from custom_components.versatile_thermostat.thermostat_switch import (
ThermostatOverSwitch,
)
from .commons import * # pylint: disable=wildcard-import, unused-wildcard-import
logging.getLogger().setLevel(logging.DEBUG)
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_last_seen_feature(hass: HomeAssistant, skip_hass_states_is_state):
"""Test the last_ssen feature
1. creates a thermostat and check that security is off
2. activate security feature when date is expired
3. change the last seen sensor
4. check that security is off
"""
tz = get_tz(hass) # pylint: disable=invalid-name
entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverSwitchMockName",
unique_id="uniqueId",
data={
"name": "TheOverSwitchMockName",
"thermostat_type": "thermostat_over_switch",
"temperature_sensor_entity_id": "sensor.mock_temp_sensor",
"last_seen_temperature_sensor_entity_id": "sensor.mock_last_seen_temp_sensor",
"external_temperature_sensor_entity_id": "sensor.mock_ext_temp_sensor",
"cycle_min": 5,
"temp_min": 15,
"temp_max": 30,
"frost_temp": 7,
"eco_temp": 17,
"comfort_temp": 18,
"boost_temp": 19,
"use_window_feature": False,
"use_motion_feature": False,
"use_power_feature": False,
"use_presence_feature": False,
"heater_entity_id": "switch.mock_switch",
"proportional_function": "tpi",
"tpi_coef_int": 0.3,
"tpi_coef_ext": 0.01,
"minimal_activation_delay": 30,
"security_delay_min": 5, # 5 minutes
"security_min_on_percent": 0.2,
"security_default_on_percent": 0.1,
},
)
# 1. creates a thermostat and check that security is off
now: datetime = datetime.now(tz=tz)
entity: ThermostatOverSwitch = await create_thermostat(
hass, entry, "climate.theoverswitchmockname"
)
assert entity
assert entity._security_state is False
assert entity.preset_mode is not PRESET_SECURITY
assert entity._last_ext_temperature_measure is not None
assert entity._last_temperature_measure is not None
assert (entity._last_temperature_measure.astimezone(tz) - now).total_seconds() < 1
assert (
entity._last_ext_temperature_measure.astimezone(tz) - now
).total_seconds() < 1
# set a preset
assert entity.preset_mode is PRESET_NONE
await entity.async_set_preset_mode(PRESET_COMFORT)
assert entity.preset_mode is PRESET_COMFORT
# Turn On the thermostat
assert entity.hvac_mode == HVACMode.OFF
await entity.async_set_hvac_mode(HVACMode.HEAT)
assert entity.hvac_mode == HVACMode.HEAT
# 2. activate security feature when date is expired
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_on"
) as mock_heater_on:
event_timestamp = now - timedelta(minutes=6)
# set temperature to 15 so that on_percent will be > security_min_on_percent (0.2)
await send_temperature_change_event(entity, 15, event_timestamp)
assert entity.security_state is True
assert entity.preset_mode == PRESET_SECURITY
assert mock_send_event.call_count == 3
mock_send_event.assert_has_calls(
[
call.send_event(EventType.PRESET_EVENT, {"preset": PRESET_SECURITY}),
call.send_event(
EventType.TEMPERATURE_EVENT,
{
"last_temperature_measure": event_timestamp.isoformat(),
"last_ext_temperature_measure": entity._last_ext_temperature_measure.isoformat(),
"current_temp": 15,
"current_ext_temp": None,
"target_temp": 18,
},
),
call.send_event(
EventType.SECURITY_EVENT,
{
"type": "start",
"last_temperature_measure": event_timestamp.isoformat(),
"last_ext_temperature_measure": entity._last_ext_temperature_measure.isoformat(),
"current_temp": 15,
"current_ext_temp": None,
"target_temp": 18,
},
),
],
any_order=True,
)
assert mock_heater_on.call_count == 1
# 3. change the last seen sensor
event_timestamp = now - timedelta(minutes=4)
await send_last_seen_temperature_change_event(entity, event_timestamp)
assert entity.security_state is False
assert entity.preset_mode is PRESET_COMFORT
assert entity._last_temperature_measure == event_timestamp

212
tests/test_movement.py
View File

@@ -83,7 +83,7 @@ async def test_movement_management_time_not_enough(
await send_ext_temperature_change_event(entity, 10, event_timestamp)
await send_presence_change_event(entity, True, False, event_timestamp)
assert entity.presence_state == "on"
assert entity.presence_state is "on"
# starts detecting motion with time not enough
with patch(
@@ -97,12 +97,7 @@ async def test_movement_management_time_not_enough(
return_value=False,
), patch(
"homeassistant.helpers.condition.state", return_value=False
) as mock_condition, patch(
"homeassistant.core.StateMachine.get",
return_value=State(
entity_id="binary_sensor.mock_motion_sensor", state=STATE_OFF
),
):
) as mock_condition:
event_timestamp = now - timedelta(minutes=4)
try_condition = await send_motion_change_event(entity, True, False, event_timestamp)
@@ -114,8 +109,8 @@ async def test_movement_management_time_not_enough(
# because no motion is detected yet
assert entity.target_temperature == 18
# state is not changed if time is not enough
assert entity.motion_state is STATE_OFF
assert entity.presence_state == STATE_ON
assert entity.motion_state is None
assert entity.presence_state is "on"
assert mock_send_event.call_count == 0
# Change is not confirmed
@@ -146,8 +141,8 @@ async def test_movement_management_time_not_enough(
assert entity.preset_mode is PRESET_ACTIVITY
# because motion is detected yet
assert entity.target_temperature == 19
assert entity.motion_state == STATE_ON
assert entity.presence_state == STATE_ON
assert entity.motion_state is "on"
assert entity.presence_state is "on"
# stop detecting motion with off delay too low
with patch(
@@ -161,24 +156,19 @@ async def test_movement_management_time_not_enough(
return_value=True,
) as mock_device_active, patch(
"homeassistant.helpers.condition.state", return_value=False
) as mock_condition, patch(
"homeassistant.core.StateMachine.get",
return_value=State(
entity_id="binary_sensor.mock_motion_sensor", state=STATE_OFF
),
):
) as mock_condition:
event_timestamp = now - timedelta(minutes=2)
try_condition = await send_motion_change_event(entity, False, True, event_timestamp)
# Will return False -> we will stay to movement On
# Will return False -> we will stay to movement On
await try_condition(None)
assert entity.hvac_mode is HVACMode.HEAT
assert entity.preset_mode is PRESET_ACTIVITY
# because no motion is detected yet
assert entity.target_temperature == 19
assert entity.motion_state == STATE_ON
assert entity.presence_state == STATE_ON
assert entity.motion_state is "on"
assert entity.presence_state is "on"
assert mock_send_event.call_count == 0
# The heater must heat now
@@ -202,15 +192,15 @@ async def test_movement_management_time_not_enough(
event_timestamp = now - timedelta(minutes=1)
try_condition = await send_motion_change_event(entity, False, True, event_timestamp)
# Will return True -> we will switch to movement Off
# Will return True -> we will switch to movement Off
await try_condition(None)
assert entity.hvac_mode is HVACMode.HEAT
assert entity.preset_mode is PRESET_ACTIVITY
# because no motion is detected yet
assert entity.target_temperature == 18
assert entity.motion_state == STATE_OFF
assert entity.presence_state == STATE_ON
assert entity.motion_state is "off"
assert entity.presence_state is "on"
assert mock_send_event.call_count == 0
# The heater must stop heating now
@@ -224,7 +214,7 @@ async def test_movement_management_time_not_enough(
async def test_movement_management_time_enough_and_presence(
hass: HomeAssistant, skip_hass_states_is_state
):
"""Test the Motion management when time is not enough"""
"""Test the Presence management when time is not enough"""
entry = MockConfigEntry(
domain=DOMAIN,
@@ -290,7 +280,7 @@ async def test_movement_management_time_enough_and_presence(
await send_ext_temperature_change_event(entity, 10, event_timestamp)
await send_presence_change_event(entity, True, False, event_timestamp)
assert entity.presence_state == "on"
assert entity.presence_state is "on"
# starts detecting motion
with patch(
@@ -312,8 +302,8 @@ async def test_movement_management_time_enough_and_presence(
assert entity.preset_mode is PRESET_ACTIVITY
# because motion is detected yet -> switch to Boost mode
assert entity.target_temperature == 19
assert entity.motion_state == "on"
assert entity.presence_state == "on"
assert entity.motion_state is "on"
assert entity.presence_state is "on"
assert mock_send_event.call_count == 0
# Change is confirmed. Heater should be started
@@ -341,8 +331,8 @@ async def test_movement_management_time_enough_and_presence(
assert entity.preset_mode is PRESET_ACTIVITY
# because no motion is detected yet
assert entity.target_temperature == 18
assert entity.motion_state == "off"
assert entity.presence_state == "on"
assert entity.motion_state is "off"
assert entity.presence_state is "on"
assert mock_send_event.call_count == 0
assert mock_heater_on.call_count == 0
@@ -422,7 +412,7 @@ async def test_movement_management_time_enoughand_not_presence(
await send_ext_temperature_change_event(entity, 10, event_timestamp)
await send_presence_change_event(entity, False, True, event_timestamp)
assert entity.presence_state == "off"
assert entity.presence_state is "off"
# starts detecting motion
with patch(
@@ -444,8 +434,8 @@ async def test_movement_management_time_enoughand_not_presence(
assert entity.preset_mode is PRESET_ACTIVITY
# because motion is detected yet -> switch to Boost away mode
assert entity.target_temperature == 19.1
assert entity.motion_state == "on"
assert entity.presence_state == "off"
assert entity.motion_state is "on"
assert entity.presence_state is "off"
assert mock_send_event.call_count == 0
# Change is confirmed. Heater should be started
@@ -473,8 +463,8 @@ async def test_movement_management_time_enoughand_not_presence(
assert entity.preset_mode is PRESET_ACTIVITY
# because no motion is detected yet
assert entity.target_temperature == 18.1
assert entity.motion_state == "off"
assert entity.presence_state == "off"
assert entity.motion_state is "off"
assert entity.presence_state is "off"
assert mock_send_event.call_count == 0
# 18.1 starts heating with a low on_percent
@@ -489,7 +479,7 @@ async def test_movement_management_time_enoughand_not_presence(
async def test_movement_management_with_stop_during_condition(
hass: HomeAssistant, skip_hass_states_is_state
):
"""Test the Motion management when the movement sensor switch to off and then to on during the test condition"""
"""Test the Presence management when the movement sensor switch to off and then to on during the test condition"""
entry = MockConfigEntry(
domain=DOMAIN,
@@ -556,7 +546,7 @@ async def test_movement_management_with_stop_during_condition(
await send_ext_temperature_change_event(entity, 10, event_timestamp)
await send_presence_change_event(entity, False, True, event_timestamp)
assert entity.presence_state == "off"
assert entity.presence_state is "off"
# starts detecting motion
with patch(
@@ -568,13 +558,9 @@ async def test_movement_management_with_stop_during_condition(
) as mock_heater_off, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
return_value=True,
), patch(
"homeassistant.helpers.condition.state", return_value=True
): # Not needed for this test
), patch("homeassistant.helpers.condition.state", return_value=True): # Not needed for this test
event_timestamp = now - timedelta(minutes=5)
try_condition1 = await send_motion_change_event(
entity, True, False, event_timestamp
)
try_condition1 = await send_motion_change_event(entity, True, False, event_timestamp)
assert try_condition1 is not None
@@ -583,155 +569,33 @@ async def test_movement_management_with_stop_during_condition(
# because motion is detected yet -> switch to Boost mode
assert entity.target_temperature == 18
assert entity.motion_state is None
assert entity.presence_state == "off"
assert entity.presence_state is "off"
# Send a stop detection
event_timestamp = now - timedelta(minutes=4)
try_condition = await send_motion_change_event(
entity, False, True, event_timestamp
)
assert try_condition is None # The timer should not have been stopped
try_condition = await send_motion_change_event(entity, False, True, event_timestamp)
assert try_condition is None # The timer should not have been stopped
assert entity.hvac_mode is HVACMode.HEAT
assert entity.preset_mode is PRESET_ACTIVITY
assert entity.target_temperature == 18
assert entity.motion_state is None
assert entity.presence_state == "off"
assert entity.presence_state is "off"
# Resend a start detection
event_timestamp = now - timedelta(minutes=3)
try_condition = await send_motion_change_event(
entity, True, False, event_timestamp
)
assert (
try_condition is None
) # The timer should not have been restarted (we keep the first one)
try_condition = await send_motion_change_event(entity, True, False, event_timestamp)
assert try_condition is None # The timer should not have been restarted (we keep the first one)
assert entity.hvac_mode is HVACMode.HEAT
assert entity.preset_mode is PRESET_ACTIVITY
# still no motion detected
assert entity.target_temperature == 18
assert entity.motion_state is None
assert entity.presence_state == "off"
assert entity.presence_state is "off"
await try_condition1(None)
# We should have switch this time
assert entity.target_temperature == 19 # Boost
assert entity.motion_state == "on" # switch to movement on
assert entity.presence_state == "off" # Non change
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_movement_management_with_stop_during_condition_last_state_on(
hass: HomeAssistant, skip_hass_states_is_state
):
"""Test the Motion management when the movement sensor switch to off and then to on during the test condition"""
entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverSwitchMockName",
unique_id="uniqueId",
data={
CONF_NAME: "TheOverSwitchMockName",
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_SWITCH,
CONF_TEMP_SENSOR: "sensor.mock_temp_sensor",
CONF_EXTERNAL_TEMP_SENSOR: "sensor.mock_ext_temp_sensor",
CONF_CYCLE_MIN: 5,
CONF_TEMP_MIN: 15,
CONF_TEMP_MAX: 30,
"eco_temp": 17,
"comfort_temp": 18,
"boost_temp": 19,
"eco_away_temp": 17,
"comfort_away_temp": 18,
"boost_away_temp": 19,
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_MOTION_FEATURE: True,
CONF_USE_POWER_FEATURE: False,
CONF_USE_PRESENCE_FEATURE: False,
CONF_HEATER: "switch.mock_switch",
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_TPI_COEF_INT: 0.3,
CONF_TPI_COEF_EXT: 0.01,
CONF_MINIMAL_ACTIVATION_DELAY: 30,
CONF_SECURITY_DELAY_MIN: 5,
CONF_SECURITY_MIN_ON_PERCENT: 0.3,
CONF_MOTION_SENSOR: "binary_sensor.mock_motion_sensor",
CONF_MOTION_DELAY: 10,
CONF_MOTION_OFF_DELAY: 30,
CONF_MOTION_PRESET: "boost",
CONF_NO_MOTION_PRESET: "comfort",
},
)
entity: BaseThermostat = await create_thermostat(
hass, entry, "climate.theoverswitchmockname"
)
assert entity
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
# 0. start heating, in boost mode. We block the control_heating to avoid running a cycle
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.async_control_heating"
):
await entity.async_set_hvac_mode(HVACMode.HEAT)
await entity.async_set_preset_mode(PRESET_ACTIVITY)
assert entity.hvac_mode is HVACMode.HEAT
assert entity.preset_mode is PRESET_ACTIVITY
# because no motion is detected yet
assert entity.target_temperature == 18
assert entity.motion_state is None
event_timestamp = now - timedelta(minutes=6)
await send_temperature_change_event(entity, 18, event_timestamp)
await send_ext_temperature_change_event(entity, 10, event_timestamp)
# 1. starts detecting motion but the sensor is off
with patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
return_value=True,
), patch("homeassistant.helpers.condition.state", return_value=False), patch(
"homeassistant.core.StateMachine.get",
return_value=State(
entity_id="binary_sensor.mock_motion_sensor", state=STATE_OFF
),
):
event_timestamp = now - timedelta(minutes=5)
try_condition1 = await send_motion_change_event(
entity, True, False, event_timestamp
)
assert try_condition1 is not None
await try_condition1(None)
# because no motion is detected yet -> condition.state is False and sensor is not active
assert entity.target_temperature == 18
assert entity.motion_state is STATE_OFF
# 2. starts detecting motion but the sensor is on
with patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
return_value=True,
), patch("homeassistant.helpers.condition.state", return_value=False), patch(
"homeassistant.core.StateMachine.get",
return_value=State(
entity_id="binary_sensor.mock_motion_sensor", state=STATE_ON
),
):
event_timestamp = now - timedelta(minutes=5)
try_condition1 = await send_motion_change_event(
entity, True, False, event_timestamp
)
assert try_condition1 is not None
await try_condition1(None)
# because no motion is detected yet -> condition.state is False and sensor is not active
assert entity.target_temperature == 19
assert entity.motion_state is STATE_ON
assert entity.target_temperature == 19 # Boost
assert entity.motion_state is "on" # switch to movement on
assert entity.presence_state is "off" # Non change

1
tests/test_multiple_switch.py
View File

@@ -596,7 +596,6 @@ async def test_multiple_climates_underlying_changes(
HVACAction.IDLE,
HVACAction.OFF,
event_timestamp,
underlying_entity_id="switch.mock_climate3",
)
# Should be call for all Switch

633
tests/test_overclimate.py
View File

@@ -1,633 +0,0 @@
# pylint: disable=wildcard-import, unused-wildcard-import, protected-access, unused-argument, line-too-long, too-many-lines
""" Test the Window management """
from unittest.mock import patch, call
from datetime import datetime, timedelta
import logging
from homeassistant.core import HomeAssistant
from homeassistant.components.climate import (
SERVICE_SET_TEMPERATURE,
)
from custom_components.versatile_thermostat.thermostat_climate import (
ThermostatOverClimate,
)
from .commons import *
logging.getLogger().setLevel(logging.DEBUG)
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_56(
hass: HomeAssistant,
skip_hass_states_is_state,
skip_turn_on_off_heater,
skip_send_event,
):
"""Test that in over_climate mode there is no error when underlying climate is not available"""
the_mock_underlying = MagicMockClimate()
with patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=None, # dont find the underlying climate
):
entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverClimateMockName",
unique_id="uniqueId",
data={
CONF_NAME: "TheOverClimateMockName",
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_CLIMATE,
CONF_TEMP_SENSOR: "sensor.mock_temp_sensor",
CONF_EXTERNAL_TEMP_SENSOR: "sensor.mock_ext_temp_sensor",
CONF_CYCLE_MIN: 5,
CONF_TEMP_MIN: 15,
CONF_TEMP_MAX: 30,
"eco_temp": 17,
"comfort_temp": 18,
"boost_temp": 19,
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_PRESENCE_FEATURE: False,
CONF_CLIMATE: "climate.mock_climate",
CONF_MINIMAL_ACTIVATION_DELAY: 30,
CONF_SECURITY_DELAY_MIN: 5,
CONF_SECURITY_MIN_ON_PERCENT: 0.3,
},
)
entity: BaseThermostat = await create_thermostat(
hass, entry, "climate.theoverclimatemockname"
)
assert entity
# cause the underlying climate was not found
assert entity.is_over_climate is True
assert entity.underlying_entity(0)._underlying_climate is None
# Should not failed
entity.update_custom_attributes()
# try to call async_control_heating
try:
ret = await entity.async_control_heating()
# an exception should be send
assert ret is False
except Exception: # pylint: disable=broad-exception-caught
assert False
# This time the underlying will be found
with patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=the_mock_underlying, # dont find the underlying climate
):
# try to call async_control_heating
try:
await entity.async_control_heating()
except UnknownEntity:
assert False
except Exception: # pylint: disable=broad-exception-caught
assert False
# Should not failed
entity.update_custom_attributes()
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_82(
hass: HomeAssistant,
skip_hass_states_is_state,
skip_turn_on_off_heater,
skip_send_event,
):
"""Test that when a underlying climate is not available the VTherm doesn't go into safety mode"""
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverClimateMockName",
unique_id="uniqueId",
data=PARTIAL_CLIMATE_CONFIG, # 5 minutes security delay
)
fake_underlying_climate = MockUnavailableClimate(
hass, "mockUniqueId", "MockClimateName", {}
)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=fake_underlying_climate,
) as mock_find_climate:
entity = await create_thermostat(hass, entry, "climate.theoverclimatemockname")
assert entity
assert entity.name == "TheOverClimateMockName"
assert entity.is_over_climate is True
# assert entity.hvac_action is HVACAction.OFF
assert entity.hvac_mode is HVACMode.OFF
# assert entity.hvac_mode is None
assert entity.target_temperature == entity.min_temp
assert entity.preset_modes == [
PRESET_NONE,
PRESET_FROST_PROTECTION,
PRESET_ECO,
PRESET_COMFORT,
PRESET_BOOST,
]
assert entity.preset_mode is PRESET_NONE
assert entity._security_state is False
# should have been called with EventType.PRESET_EVENT and EventType.HVAC_MODE_EVENT
assert mock_send_event.call_count == 2
mock_send_event.assert_has_calls(
[
call.send_event(EventType.PRESET_EVENT, {"preset": PRESET_NONE}),
call.send_event(
EventType.HVAC_MODE_EVENT,
{"hvac_mode": HVACMode.OFF},
),
]
)
assert mock_find_climate.call_count == 1
assert mock_find_climate.mock_calls[0] == call()
mock_find_climate.assert_has_calls([call.find_underlying_entity()])
# Force safety mode
assert entity._last_ext_temperature_measure is not None
assert entity._last_temperature_measure is not None
assert (
entity._last_temperature_measure.astimezone(tz) - now
).total_seconds() < 1
assert (
entity._last_ext_temperature_measure.astimezone(tz) - now
).total_seconds() < 1
# Tries to turns on the Thermostat
await entity.async_set_hvac_mode(HVACMode.HEAT)
assert entity.hvac_mode == HVACMode.HEAT
# 2. activate security feature when date is expired
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_on"
):
event_timestamp = now - timedelta(minutes=6)
# set temperature to 15 so that on_percent will be > security_min_on_percent (0.2)
await send_temperature_change_event(entity, 15, event_timestamp)
# Should stay False
assert entity.security_state is False
assert entity.preset_mode == "none"
assert entity._saved_preset_mode == "none"
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_101(
hass: HomeAssistant,
skip_hass_states_is_state,
skip_turn_on_off_heater,
skip_send_event,
):
"""Test that when a underlying climate target temp is changed, the VTherm change its own temperature target and switch to manual"""
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverClimateMockName",
unique_id="uniqueId",
data=PARTIAL_CLIMATE_NOT_REGULATED_CONFIG, # 5 minutes security delay
)
# Underlying is in HEAT mode but should be shutdown at startup
fake_underlying_climate = MockClimate(
hass, "mockUniqueId", "MockClimateName", {}, HVACMode.HEAT, HVACAction.HEATING
)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=fake_underlying_climate,
) as mock_find_climate, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.set_hvac_mode"
) as mock_underlying_set_hvac_mode:
entity = await create_thermostat(hass, entry, "climate.theoverclimatemockname")
assert entity
assert entity.name == "TheOverClimateMockName"
assert entity.is_over_climate is True
assert entity.hvac_mode is HVACMode.OFF
# because in MockClimate HVACAction is HEATING if hvac_mode is not set
assert entity.hvac_action is HVACAction.HEATING
# Underlying should have been shutdown
assert mock_underlying_set_hvac_mode.call_count == 1
mock_underlying_set_hvac_mode.assert_has_calls(
[
call.set_hvac_mode(HVACMode.OFF),
]
)
assert entity.target_temperature == entity.min_temp
assert entity.preset_mode is PRESET_NONE
# should have been called with EventType.PRESET_EVENT and EventType.HVAC_MODE_EVENT
assert mock_send_event.call_count == 2
mock_send_event.assert_has_calls(
[
call.send_event(EventType.PRESET_EVENT, {"preset": PRESET_NONE}),
call.send_event(
EventType.HVAC_MODE_EVENT,
{"hvac_mode": HVACMode.OFF},
),
]
)
assert mock_find_climate.call_count == 1
assert mock_find_climate.mock_calls[0] == call()
mock_find_climate.assert_has_calls([call.find_underlying_entity()])
# 1. Force preset mode
await entity.async_set_hvac_mode(HVACMode.HEAT)
assert entity.hvac_mode == HVACMode.HEAT
await entity.async_set_preset_mode(PRESET_COMFORT)
assert entity.preset_mode == PRESET_COMFORT
# 2. Change the target temp of underlying thermostat at now -> the event will be disgarded because to fast (to avoid loop cf issue 121)
await send_climate_change_event_with_temperature(
entity,
HVACMode.HEAT,
HVACMode.HEAT,
HVACAction.OFF,
HVACAction.OFF,
now,
entity.min_temp + 1,
True,
"climate.mock_climate", # the underlying climate entity id
)
# Should NOT have been switched to Manual preset
assert entity.target_temperature == 17
assert entity.preset_mode is PRESET_COMFORT
# 3. Change the target temp of underlying thermostat at 11 sec later -> the event will be taken
# Wait 11 sec
event_timestamp = now + timedelta(seconds=11)
assert entity.is_regulated is False
await send_climate_change_event_with_temperature(
entity,
HVACMode.HEAT,
HVACMode.HEAT,
HVACAction.OFF,
HVACAction.OFF,
event_timestamp,
entity.min_temp + 1,
True,
"climate.mock_climate", # the underlying climate entity id
)
assert entity.target_temperature == entity.min_temp + 1
assert entity.preset_mode is PRESET_NONE
# 4. Change the target temp with < 1 value. The value should not be taken
# Wait 11 sec
event_timestamp = now + timedelta(seconds=11)
await send_climate_change_event_with_temperature(
entity,
HVACMode.HEAT,
HVACMode.HEAT,
HVACAction.OFF,
HVACAction.OFF,
event_timestamp,
entity.min_temp + 1.5,
True,
"climate.mock_climate", # the underlying climate entity id
)
assert entity.target_temperature == entity.min_temp + 1
assert entity.preset_mode is PRESET_NONE
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_508(
hass: HomeAssistant,
skip_hass_states_is_state,
skip_turn_on_off_heater,
skip_send_event,
):
"""Test that it not possible to set the target temperature under the min_temp setting"""
entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverClimateMockName",
unique_id="uniqueId",
# default value are min 15°, max 31°, step 0.1
data=PARTIAL_CLIMATE_CONFIG, # 5 minutes security delay
)
# Min_temp is 10 and max_temp is 31 and features contains TARGET_TEMPERATURE_RANGE
fake_underlying_climate = MagicMockClimateWithTemperatureRange()
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
), patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=fake_underlying_climate,
), patch(
"homeassistant.core.ServiceRegistry.async_call"
) as mock_service_call:
entity = await create_thermostat(hass, entry, "climate.theoverclimatemockname")
assert entity
assert entity.name == "TheOverClimateMockName"
assert entity.is_over_climate is True
assert entity.hvac_mode is HVACMode.OFF
# The VTherm value and not the underlying value
assert entity.target_temperature_step == 0.1
assert entity.target_temperature == entity.min_temp
assert entity.is_regulated is True
assert mock_service_call.call_count == 0
# Set the hvac_mode to HEAT
await entity.async_set_hvac_mode(HVACMode.HEAT)
# Not In the accepted interval -> should be converted into 10 (the min) and send with target_temp_high and target_temp_low
await entity.async_set_temperature(temperature=8.5)
# MagicMock climate is already HEAT by default. So there is no SET_HAVC_MODE call
assert mock_service_call.call_count == 1
mock_service_call.assert_has_calls(
[
call.async_call(
"climate",
SERVICE_SET_TEMPERATURE,
{
"entity_id": "climate.mock_climate",
# "temperature": 17.5,
"target_temp_high": 10,
"target_temp_low": 10,
"temperature": 10,
},
),
]
)
with patch("homeassistant.core.ServiceRegistry.async_call") as mock_service_call:
# Not In the accepted interval -> should be converted into 10 (the min) and send with target_temp_high and target_temp_low
await entity.async_set_temperature(temperature=32)
# MagicMock climate is already HEAT by default. So there is no SET_HAVC_MODE call
assert mock_service_call.call_count == 1
mock_service_call.assert_has_calls(
[
call.async_call(
"climate",
SERVICE_SET_TEMPERATURE,
{
"entity_id": "climate.mock_climate",
"target_temp_high": 31,
"target_temp_low": 31,
"temperature": 31,
},
),
]
)
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_524(hass: HomeAssistant, skip_hass_states_is_state):
"""Test when switching from Cool to Heat the new temperature in Heat mode should be used"""
# vtherm_api: VersatileThermostatAPI = VersatileThermostatAPI.get_vtherm_api(hass)
# The temperatures to set
temps = {
"frost": 7.0,
"eco": 17.0,
"comfort": 19.0,
"boost": 21.0,
"eco_ac": 27.0,
"comfort_ac": 25.0,
"boost_ac": 23.0,
"frost_away": 7.1,
"eco_away": 17.1,
"comfort_away": 19.1,
"boost_away": 21.1,
"eco_ac_away": 27.1,
"comfort_ac_away": 25.1,
"boost_ac_away": 23.1,
}
config_entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverClimateMockName",
unique_id="overClimateUniqueId",
data={
CONF_NAME: "overClimate",
CONF_TEMP_SENSOR: "sensor.mock_temp_sensor",
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_CLIMATE,
CONF_EXTERNAL_TEMP_SENSOR: "sensor.mock_ext_temp_sensor",
CONF_CYCLE_MIN: 5,
CONF_TEMP_MIN: 15,
CONF_TEMP_MAX: 30,
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_PRESENCE_FEATURE: True,
CONF_PRESENCE_SENSOR: "binary_sensor.presence_sensor",
CONF_CLIMATE: "climate.mock_climate",
CONF_MINIMAL_ACTIVATION_DELAY: 30,
CONF_SECURITY_DELAY_MIN: 5,
CONF_SECURITY_MIN_ON_PERCENT: 0.3,
CONF_AUTO_FAN_MODE: CONF_AUTO_FAN_TURBO,
CONF_AC_MODE: True,
},
# | temps,
)
fake_underlying_climate = MockClimate(
hass=hass,
unique_id="mock_climate",
name="mock_climate",
hvac_modes=[HVACMode.OFF, HVACMode.COOL, HVACMode.HEAT, HVACMode.FAN_ONLY],
)
with patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=fake_underlying_climate,
):
vtherm: ThermostatOverClimate = await create_thermostat(
hass, config_entry, "climate.overclimate"
)
assert vtherm is not None
# We search for NumberEntities
for preset_name, value in temps.items():
await set_climate_preset_temp(vtherm, preset_name, value)
temp_entity: NumberEntity = search_entity(
hass,
"number.overclimate_preset_" + preset_name + PRESET_TEMP_SUFFIX,
NUMBER_DOMAIN,
)
assert temp_entity
# Because set_value is not implemented in Number class (really don't understand why...)
assert temp_entity.state == value
# 1. Set mode to Heat and preset to Comfort
await send_presence_change_event(vtherm, True, False, datetime.now())
await vtherm.async_set_hvac_mode(HVACMode.HEAT)
await vtherm.async_set_preset_mode(PRESET_COMFORT)
await hass.async_block_till_done()
assert vtherm.target_temperature == 19.0
# 2. Only change the HVAC_MODE (and keep preset to comfort)
await vtherm.async_set_hvac_mode(HVACMode.COOL)
await hass.async_block_till_done()
assert vtherm.target_temperature == 25.0
# 3. Only change the HVAC_MODE (and keep preset to comfort)
await vtherm.async_set_hvac_mode(HVACMode.HEAT)
await hass.async_block_till_done()
assert vtherm.target_temperature == 19.0
# 4. Change presence to off
await send_presence_change_event(vtherm, False, True, datetime.now())
await hass.async_block_till_done()
assert vtherm.target_temperature == 19.1
# 5. Change hvac_mode to AC
await vtherm.async_set_hvac_mode(HVACMode.COOL)
await hass.async_block_till_done()
assert vtherm.target_temperature == 25.1
# 6. Change presence to on
await send_presence_change_event(vtherm, True, False, datetime.now())
await hass.async_block_till_done()
assert vtherm.target_temperature == 25
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_ignore_temp_outside_minmax_range(
hass: HomeAssistant,
skip_hass_states_is_state,
skip_turn_on_off_heater,
skip_send_event,
):
"""Test that when a underlying climate target temp is changed, the VTherm ignores the target temp if it is outside the min/max range"""
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverClimateMockName",
unique_id="uniqueId",
data=PARTIAL_CLIMATE_NOT_REGULATED_CONFIG, # 5 minutes security delay
)
# Underlying is in HEAT mode but should be shutdown at startup
fake_underlying_climate = MockClimate(
hass, "mockUniqueId", "MockClimateName", {}, HVACMode.HEAT, HVACAction.HEATING
)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=fake_underlying_climate,
) as mock_find_climate, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.set_hvac_mode"
) as mock_underlying_set_hvac_mode:
entity = await create_thermostat(hass, entry, "climate.theoverclimatemockname")
assert entity
assert entity.name == "TheOverClimateMockName"
assert entity.is_over_climate is True
assert entity.hvac_mode is HVACMode.OFF
# because in MockClimate HVACAction is HEATING if hvac_mode is not set
assert entity.hvac_action is HVACAction.HEATING
# Underlying should have been shutdown
assert mock_underlying_set_hvac_mode.call_count == 1
mock_underlying_set_hvac_mode.assert_has_calls(
[
call.set_hvac_mode(HVACMode.OFF),
]
)
assert entity.target_temperature == entity.min_temp
assert entity.preset_mode is PRESET_NONE
# should have been called with EventType.PRESET_EVENT and EventType.HVAC_MODE_EVENT
assert mock_send_event.call_count == 2
mock_send_event.assert_has_calls(
[
call.send_event(EventType.PRESET_EVENT, {"preset": PRESET_NONE}),
call.send_event(
EventType.HVAC_MODE_EVENT,
{"hvac_mode": HVACMode.OFF},
),
]
)
assert mock_find_climate.call_count == 1
assert mock_find_climate.mock_calls[0] == call()
mock_find_climate.assert_has_calls([call.find_underlying_entity()])
# 1. Force preset mode
await entity.async_set_hvac_mode(HVACMode.HEAT)
assert entity.hvac_mode == HVACMode.HEAT
await entity.async_set_preset_mode(PRESET_COMFORT)
assert entity.preset_mode == PRESET_COMFORT
# 1. Try to set the target temperature to a below min_temp -> should be ignored
# Wait 11 sec
event_timestamp = now + timedelta(seconds=11)
assert entity.is_regulated is False
await send_climate_change_event_with_temperature(
entity,
HVACMode.HEAT,
HVACMode.HEAT,
HVACAction.OFF,
HVACAction.OFF,
event_timestamp,
entity.min_temp - 1,
True,
"climate.mock_climate", # the underlying climate entity id
)
assert entity.target_temperature == 17
# 2. Try to set the target temperature to a above max_temp -> should be ignored
event_timestamp = event_timestamp + timedelta(seconds=11)
assert entity.is_regulated is False
await send_climate_change_event_with_temperature(
entity,
HVACMode.HEAT,
HVACMode.HEAT,
HVACAction.OFF,
HVACAction.OFF,
event_timestamp,
entity.max_temp + 1,
True,
"climate.mock_climate", # the underlying climate entity id
)
assert entity.target_temperature == 17

2
tests/test_power.py
View File

@@ -433,7 +433,6 @@ async def test_power_management_energy_over_climate(
new_hvac_action=HVACAction.HEATING,
old_hvac_action=HVACAction.OFF,
date=event_timestamp,
underlying_entity_id="climate.mock_climate",
)
# We have the start event and not the end event
assert (entity._underlying_climate_start_hvac_action_date - now).total_seconds() < 1
@@ -449,7 +448,6 @@ async def test_power_management_energy_over_climate(
new_hvac_action=HVACAction.IDLE,
old_hvac_action=HVACAction.HEATING,
date=now,
underlying_entity_id="climate.mock_climate",
)
# We have the end event -> we should have some power and on_percent
assert entity._underlying_climate_start_hvac_action_date is None

2
tests/test_sensors.py
View File

@@ -283,7 +283,6 @@ async def test_sensors_over_climate(
new_hvac_action=HVACAction.HEATING,
old_hvac_action=HVACAction.OFF,
date=event_timestamp,
underlying_entity_id="climate.mock_climate",
)
# Send a climate_change event with HVACAction=IDLE (end of heating)
@@ -294,7 +293,6 @@ async def test_sensors_over_climate(
new_hvac_action=HVACAction.IDLE,
old_hvac_action=HVACAction.HEATING,
date=now,
underlying_entity_id="climate.mock_climate",
)
# 60 minutes heating with 1.5 kW heating -> 1.5 kWh

3
tests/test_start.py
View File

@@ -254,9 +254,6 @@ async def test_over_switch_deactivate_preset(
CONF_HEATER_KEEP_ALIVE: 0,
CONF_SECURITY_DELAY_MIN: 10,
CONF_MINIMAL_ACTIVATION_DELAY: 10,
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_TPI_COEF_INT: 0.6,
CONF_TPI_COEF_EXT: 0.01,
},
)

143
tests/test_switch_keep_alive.py
View File

@@ -6,7 +6,6 @@ from unittest.mock import ANY, _Call, call, patch
from datetime import datetime, timedelta
from typing import cast
from custom_components.versatile_thermostat.keep_alive import BackoffTimer
from custom_components.versatile_thermostat.thermostat_switch import (
ThermostatOverSwitch,
)
@@ -53,7 +52,6 @@ class CommonMocks:
hass: HomeAssistant
thermostat: ThermostatOverSwitch
mock_is_state: MagicMock
mock_get_state: MagicMock
mock_service_call: MagicMock
mock_async_track_time_interval: MagicMock
mock_send_event: MagicMock
@@ -75,18 +73,15 @@ async def common_mocks(
thermostat = cast(ThermostatOverSwitch, await create_thermostat(
hass, config_entry, "climate.theoverswitchmockname"
))
with patch("homeassistant.core.StateMachine.get") as mock_get_state:
mock_get_state.return_value.state = "off"
yield CommonMocks(
config_entry=config_entry,
hass=hass,
thermostat=thermostat,
mock_is_state=mock_is_state,
mock_get_state=mock_get_state,
mock_service_call=mock_service_call,
mock_async_track_time_interval=mock_async_track_time_interval,
mock_send_event=mock_send_event,
)
yield CommonMocks(
config_entry=config_entry,
hass=hass,
thermostat=thermostat,
mock_is_state=mock_is_state,
mock_service_call=mock_service_call,
mock_async_track_time_interval=mock_async_track_time_interval,
mock_send_event=mock_send_event,
)
# Clean the entity
thermostat.remove_thermostat()
@@ -261,123 +256,3 @@ class TestKeepAlive:
call("switch", SERVICE_TURN_OFF, {"entity_id": "switch.mock_switch"}),
],
)
class TestBackoffTimer:
"""Test the keep_alive.BackoffTimer helper class."""
def test_exponential_period_increase(self):
"""Test that consecutive calls to is_ready() produce increasing wait periods."""
with patch(
"custom_components.versatile_thermostat.keep_alive.monotonic"
) as mock_monotonic:
timer = BackoffTimer(
multiplier=2,
lower_limit_sec=30,
upper_limit_sec=86400,
initially_ready=True,
)
mock_monotonic.return_value = 100
assert timer.is_ready()
mock_monotonic.return_value = 129
assert not timer.is_ready()
mock_monotonic.return_value = 130
assert timer.is_ready()
mock_monotonic.return_value = 188
assert not timer.is_ready()
mock_monotonic.return_value = 189
assert not timer.is_ready()
mock_monotonic.return_value = 190
assert timer.is_ready()
mock_monotonic.return_value = 309
assert not timer.is_ready()
def test_the_upper_limit_option(self):
"""Test the timer.in_progress property and the effect of timer.reset()."""
with patch(
"custom_components.versatile_thermostat.keep_alive.monotonic"
) as mock_monotonic:
timer = BackoffTimer(
multiplier=2,
lower_limit_sec=30,
upper_limit_sec=50,
initially_ready=True,
)
mock_monotonic.return_value = 100
assert timer.is_ready()
mock_monotonic.return_value = 129
assert not timer.is_ready()
mock_monotonic.return_value = 130
assert timer.is_ready()
mock_monotonic.return_value = 178
assert not timer.is_ready()
mock_monotonic.return_value = 179
assert not timer.is_ready()
mock_monotonic.return_value = 180
assert timer.is_ready()
mock_monotonic.return_value = 229
assert not timer.is_ready()
mock_monotonic.return_value = 230
assert timer.is_ready()
def test_the_lower_limit_option(self):
"""Test the timer.in_progress property and the effect of timer.reset()."""
with patch(
"custom_components.versatile_thermostat.keep_alive.monotonic"
) as mock_monotonic:
timer = BackoffTimer(
multiplier=0.5,
lower_limit_sec=30,
upper_limit_sec=50,
initially_ready=True,
)
mock_monotonic.return_value = 100
assert timer.is_ready()
mock_monotonic.return_value = 129
assert not timer.is_ready()
mock_monotonic.return_value = 130
assert timer.is_ready()
mock_monotonic.return_value = 158
assert not timer.is_ready()
mock_monotonic.return_value = 159
assert not timer.is_ready()
mock_monotonic.return_value = 160
assert timer.is_ready()
def test_initial_is_ready_result(self):
"""Test that the first call to is_ready() produces the initially_ready option value."""
with patch(
"custom_components.versatile_thermostat.keep_alive.monotonic"
) as mock_monotonic:
for initial in [True, False]:
timer = BackoffTimer(
multiplier=2,
lower_limit_sec=30,
upper_limit_sec=86400,
initially_ready=initial,
)
mock_monotonic.return_value = 100
assert timer.is_ready() == initial
assert not timer.is_ready()
def test_in_progress_and_reset(self):
"""Test the timer.in_progress property and the effect of timer.reset()."""
with patch(
"custom_components.versatile_thermostat.keep_alive.monotonic"
) as mock_monotonic:
timer = BackoffTimer(
multiplier=2,
lower_limit_sec=30,
upper_limit_sec=86400,
initially_ready=True,
)
mock_monotonic.return_value = 100
assert not timer.in_progress
assert timer.is_ready()
assert timer.in_progress
assert not timer.is_ready()
timer.reset()
assert not timer.in_progress
assert timer.is_ready()
assert timer.in_progress
assert not timer.is_ready()

44
tests/test_temp_number.py
View File

@@ -78,8 +78,7 @@ async def test_add_number_for_central_config(
CONF_SECURITY_DELAY_MIN: 61,
CONF_SECURITY_MIN_ON_PERCENT: 0.5,
CONF_SECURITY_DEFAULT_ON_PERCENT: 0.2,
CONF_USE_CENTRAL_BOILER_FEATURE: False,
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_ADD_CENTRAL_BOILER_CONTROL: False,
}
| temps,
)
@@ -92,7 +91,7 @@ async def test_add_number_for_central_config(
for preset_name, value in temps.items():
temp_entity = search_entity(
hass,
"number.central_configuration_preset_" + preset_name,
"number.central_configuration_" + preset_name,
NUMBER_DOMAIN,
)
assert temp_entity
@@ -157,7 +156,6 @@ async def test_add_number_for_central_config_without_temp(
CONF_TEMP_MAX: 30,
CONF_TPI_COEF_INT: 0.5,
CONF_TPI_COEF_EXT: 0.02,
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_WINDOW_DELAY: 15,
CONF_WINDOW_AUTO_OPEN_THRESHOLD: 4,
CONF_WINDOW_AUTO_CLOSE_THRESHOLD: 1,
@@ -173,7 +171,7 @@ async def test_add_number_for_central_config_without_temp(
CONF_SECURITY_DELAY_MIN: 61,
CONF_SECURITY_MIN_ON_PERCENT: 0.5,
CONF_SECURITY_DEFAULT_ON_PERCENT: 0.2,
CONF_USE_CENTRAL_BOILER_FEATURE: False,
CONF_ADD_CENTRAL_BOILER_CONTROL: False,
},
# | temps,
)
@@ -186,7 +184,7 @@ async def test_add_number_for_central_config_without_temp(
for preset_name, value in temps.items():
temp_entity = search_entity(
hass,
"number.central_configuration_preset_" + preset_name,
"number.central_configuration_" + preset_name,
NUMBER_DOMAIN,
)
assert temp_entity
@@ -252,7 +250,6 @@ async def test_add_number_for_central_config_without_temp_ac_mode(
CONF_AC_MODE: True,
CONF_TPI_COEF_INT: 0.5,
CONF_TPI_COEF_EXT: 0.02,
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_WINDOW_DELAY: 15,
CONF_WINDOW_AUTO_OPEN_THRESHOLD: 4,
CONF_WINDOW_AUTO_CLOSE_THRESHOLD: 1,
@@ -268,7 +265,7 @@ async def test_add_number_for_central_config_without_temp_ac_mode(
CONF_SECURITY_DELAY_MIN: 61,
CONF_SECURITY_MIN_ON_PERCENT: 0.5,
CONF_SECURITY_DEFAULT_ON_PERCENT: 0.2,
CONF_USE_CENTRAL_BOILER_FEATURE: False,
CONF_ADD_CENTRAL_BOILER_CONTROL: False,
},
# | temps,
)
@@ -281,7 +278,7 @@ async def test_add_number_for_central_config_without_temp_ac_mode(
for preset_name, value in temps.items():
temp_entity = search_entity(
hass,
"number.central_configuration_preset_" + preset_name,
"number.central_configuration_" + preset_name,
NUMBER_DOMAIN,
)
assert temp_entity
@@ -346,7 +343,6 @@ async def test_add_number_for_central_config_without_temp_restore(
CONF_AC_MODE: False,
CONF_TPI_COEF_INT: 0.5,
CONF_TPI_COEF_EXT: 0.02,
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_WINDOW_DELAY: 15,
CONF_WINDOW_AUTO_OPEN_THRESHOLD: 4,
CONF_WINDOW_AUTO_CLOSE_THRESHOLD: 1,
@@ -362,7 +358,7 @@ async def test_add_number_for_central_config_without_temp_restore(
CONF_SECURITY_DELAY_MIN: 61,
CONF_SECURITY_MIN_ON_PERCENT: 0.5,
CONF_SECURITY_DEFAULT_ON_PERCENT: 0.2,
CONF_USE_CENTRAL_BOILER_FEATURE: False,
CONF_ADD_CENTRAL_BOILER_CONTROL: False,
},
# | temps,
)
@@ -380,7 +376,7 @@ async def test_add_number_for_central_config_without_temp_restore(
for preset_name, value in temps.items():
temp_entity = search_entity(
hass,
"number.central_configuration_preset_" + preset_name,
"number.central_configuration_" + preset_name,
NUMBER_DOMAIN,
)
assert temp_entity
@@ -445,7 +441,6 @@ async def test_add_number_for_over_switch_use_central(
CONF_AC_MODE: False,
CONF_TPI_COEF_INT: 0.5,
CONF_TPI_COEF_EXT: 0.02,
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_USE_PRESENCE_CENTRAL_CONFIG: True,
CONF_USE_ADVANCED_CENTRAL_CONFIG: True,
CONF_USE_MAIN_CENTRAL_CONFIG: True,
@@ -473,7 +468,7 @@ async def test_add_number_for_over_switch_use_central(
for preset_name, _ in temps.items():
temp_entity = search_entity(
hass,
"number.central_configuration_preset_" + preset_name,
"number.central_configuration_" + preset_name,
NUMBER_DOMAIN,
)
assert temp_entity is None
@@ -555,7 +550,7 @@ async def test_add_number_for_over_switch_use_central_presence(
for preset_name, value in temps.items():
temp_entity = search_entity(
hass,
"number.theoverswitchvtherm_preset_" + preset_name,
"number.theoverswitchvtherm_" + preset_name,
NUMBER_DOMAIN,
)
assert temp_entity
@@ -671,7 +666,6 @@ async def test_add_number_for_over_switch_use_central_presets_and_restore(
CONF_AC_MODE: False,
CONF_TPI_COEF_INT: 0.5,
CONF_TPI_COEF_EXT: 0.02,
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_CYCLE_MIN: 5,
CONF_HEATER: "switch.mock_switch1",
CONF_USE_PRESENCE_FEATURE: True,
@@ -706,7 +700,7 @@ async def test_add_number_for_over_switch_use_central_presets_and_restore(
for preset_name, value in temps.items():
temp_entity = search_entity(
hass,
"number.theoverswitchvtherm_preset_" + preset_name,
"number.theoverswitchvtherm_" + preset_name,
NUMBER_DOMAIN,
)
assert temp_entity
@@ -794,7 +788,6 @@ async def test_change_central_config_temperature(
CONF_TEMP_MAX: 30,
CONF_TPI_COEF_INT: 0.5,
CONF_TPI_COEF_EXT: 0.02,
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_CYCLE_MIN: 5,
CONF_VALVE: "switch.mock_valve",
CONF_USE_PRESENCE_FEATURE: True,
@@ -830,7 +823,6 @@ async def test_change_central_config_temperature(
CONF_TPI_COEF_INT: 0.5,
CONF_TPI_COEF_EXT: 0.02,
CONF_CYCLE_MIN: 5,
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_VALVE: "switch.mock_valve",
CONF_USE_PRESENCE_FEATURE: True,
CONF_USE_PRESENCE_CENTRAL_CONFIG: False,
@@ -870,7 +862,7 @@ async def test_change_central_config_temperature(
# 2. change the central_config temp Number entity value
temp_entity = search_entity(
hass,
"number.central_configuration_preset_" + preset_name + PRESET_TEMP_SUFFIX,
"number.central_configuration_" + preset_name + PRESET_TEMP_SUFFIX,
NUMBER_DOMAIN,
)
@@ -913,7 +905,6 @@ async def test_change_vtherm_temperature(
CONF_TPI_COEF_INT: 0.5,
CONF_TPI_COEF_EXT: 0.02,
CONF_CYCLE_MIN: 5,
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_VALVE: "switch.mock_valve",
CONF_USE_PRESENCE_FEATURE: True,
CONF_USE_PRESENCE_CENTRAL_CONFIG: True,
@@ -948,7 +939,6 @@ async def test_change_vtherm_temperature(
CONF_TPI_COEF_INT: 0.5,
CONF_TPI_COEF_EXT: 0.02,
CONF_CYCLE_MIN: 5,
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_VALVE: "switch.mock_valve",
CONF_USE_PRESENCE_FEATURE: True,
CONF_USE_PRESENCE_CENTRAL_CONFIG: False,
@@ -988,7 +978,7 @@ async def test_change_vtherm_temperature(
# 2. change the central_config temp Number entity value
temp_entity = search_entity(
hass,
"number.central_configuration_preset_" + preset_name + PRESET_TEMP_SUFFIX,
"number.central_configuration_" + preset_name + PRESET_TEMP_SUFFIX,
NUMBER_DOMAIN,
)
@@ -1032,7 +1022,6 @@ async def test_change_vtherm_temperature_with_presence(
CONF_TEMP_MAX: 30,
CONF_TPI_COEF_INT: 0.5,
CONF_TPI_COEF_EXT: 0.02,
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_CYCLE_MIN: 5,
CONF_AC_MODE: True,
CONF_VALVE: "switch.mock_valve",
@@ -1074,7 +1063,6 @@ async def test_change_vtherm_temperature_with_presence(
CONF_TEMP_MAX: 30,
CONF_TPI_COEF_INT: 0.5,
CONF_TPI_COEF_EXT: 0.02,
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_CYCLE_MIN: 5,
CONF_VALVE: "switch.mock_valve",
CONF_USE_PRESENCE_FEATURE: True,
@@ -1098,7 +1086,7 @@ async def test_change_vtherm_temperature_with_presence(
preset_name = "boost"
temp_entity = search_entity(
hass,
"number.theovervalvevtherm_preset_" + preset_name + "_ac_away_temp",
"number.theovervalvevtherm_" + preset_name + "_ac_away_temp",
NUMBER_DOMAIN,
)
assert temp_entity
@@ -1111,7 +1099,7 @@ async def test_change_vtherm_temperature_with_presence(
# 2. change the temp Number entity value for each VTherm
temp_entity = search_entity(
hass,
"number.theovervalvevtherm_preset_" + preset_name + "_ac_away_temp",
"number.theovervalvevtherm_" + preset_name + "_ac_away_temp",
NUMBER_DOMAIN,
)
@@ -1136,7 +1124,7 @@ async def test_change_vtherm_temperature_with_presence(
# 3. We change now the current preset temp
temp_entity = search_entity(
hass,
"number.theovervalvevtherm_preset_" + preset_name + "_ac_temp",
"number.theovervalvevtherm_" + preset_name + "_ac_temp",
NUMBER_DOMAIN,
)

125
tests/test_tpi.py
View File

@@ -3,10 +3,7 @@
from homeassistant.components.climate import HVACMode
from custom_components.versatile_thermostat.base_thermostat import BaseThermostat
from custom_components.versatile_thermostat.prop_algorithm import (
PropAlgorithm,
PROPORTIONAL_FUNCTION_TPI,
)
from custom_components.versatile_thermostat.prop_algorithm import PropAlgorithm
from .commons import * # pylint: disable=wildcard-import, unused-wildcard-import
@@ -124,123 +121,3 @@ async def test_tpi_calculation(
assert tpi_algo.calculated_on_percent == 0
assert tpi_algo.on_time_sec == 0
assert tpi_algo.off_time_sec == 300
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_wrong_tpi_parameters(
hass: HomeAssistant, skip_hass_states_is_state: None
): # pylint: disable=unused-argument
"""Test the wrong TPI parameters"""
# Nominal case
try:
algo = PropAlgorithm(
PROPORTIONAL_FUNCTION_TPI,
0.6,
0.01,
5,
1,
"entity_id",
)
# We should not be there
assert True
except TypeError as e:
# the normal case
assert False
# Test TPI function
try:
algo = PropAlgorithm(
"WRONG",
1,
0,
2,
3,
"entity_id",
)
# We should not be there
assert False
except TypeError as e:
# the normal case
pass
# Test coef_int
try:
algo = PropAlgorithm(
PROPORTIONAL_FUNCTION_TPI,
None,
0,
2,
3,
"entity_id",
)
# We should not be there
assert False
except TypeError as e:
# the normal case
pass
# Test coef_ext
try:
algo = PropAlgorithm(
PROPORTIONAL_FUNCTION_TPI,
0.6,
None,
2,
3,
"entity_id",
)
# We should not be there
assert False
except TypeError as e:
# the normal case
pass
# Test cycle_min
try:
algo = PropAlgorithm(
PROPORTIONAL_FUNCTION_TPI,
0.6,
0.00001,
None,
3,
"entity_id",
)
# We should not be there
assert False
except TypeError as e:
# the normal case
pass
# Test minimal_activation_delay
try:
algo = PropAlgorithm(
PROPORTIONAL_FUNCTION_TPI,
0.6,
0.00001,
0,
None,
"entity_id",
)
# We should not be there
assert False
except TypeError as e:
# the normal case
pass
# Test vtherm_entity_id
try:
algo = PropAlgorithm(
PROPORTIONAL_FUNCTION_TPI,
0.6,
0.00001,
0,
12,
None,
)
# We should not be there
assert False
except TypeError as e:
# the normal case
pass

252
tests/test_valve.py
View File

@@ -6,6 +6,10 @@ from datetime import datetime, timedelta
from homeassistant.core import HomeAssistant, State
from homeassistant.components.climate import HVACAction, HVACMode
from homeassistant.config_entries import ConfigEntryState
from homeassistant.helpers.entity_component import EntityComponent
from homeassistant.components.climate import ClimateEntity, DOMAIN as CLIMATE_DOMAIN
from pytest_homeassistant_custom_component.common import MockConfigEntry
@@ -70,12 +74,22 @@ async def test_over_valve_full_start(
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
# 1. create the entity
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
entry.add_to_hass(hass)
await hass.config_entries.async_setup(entry.entry_id)
assert entry.state is ConfigEntryState.LOADED
entity = await create_thermostat(hass, entry, "climate.theovervalvemockname")
def find_my_entity(entity_id) -> ClimateEntity:
"""Find my new entity"""
component: EntityComponent[ClimateEntity] = hass.data[CLIMATE_DOMAIN]
for entity in component.entities:
if entity.entity_id == entity_id:
return entity
# The name is in the CONF and not the title of the entry
entity: ThermostatOverValve = find_my_entity("climate.theovervalvemockname")
assert entity
assert isinstance(entity, ThermostatOverValve)
@@ -116,7 +130,7 @@ async def test_over_valve_full_start(
]
)
# 2. Set the HVACMode to HEAT, with manual preset and target_temp to 18 before receiving temperature
# Set the HVACMode to HEAT, with manual preset and target_temp to 18 before receiving temperature
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
@@ -144,7 +158,7 @@ async def test_over_valve_full_start(
# Nothing have changed cause we don't have room and external temperature
assert mock_send_event.call_count == 1
# 3. Set temperature and external temperature
# Set temperature and external temperature
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
@@ -167,18 +181,14 @@ async def test_over_valve_full_start(
mock_service_call.assert_has_calls(
[
call.async_call(
domain="number",
service="set_value",
service_data={"value": 90},
target={"entity_id": "number.mock_valve"},
# {"entity_id": "number.mock_valve", "value": 90},
"number",
"set_value",
{"entity_id": "number.mock_valve", "value": 90},
),
call.async_call(
domain="number",
service="set_value",
service_data={"value": 98},
target={"entity_id": "number.mock_valve"},
# {"entity_id": "number.mock_valve", "value": 98},
"number",
"set_value",
{"entity_id": "number.mock_valve", "value": 98},
),
]
)
@@ -206,7 +216,7 @@ async def test_over_valve_full_start(
assert entity.is_device_active is True
assert entity.hvac_action == HVACAction.HEATING
# 4. Change internal temperature
# Change internal temperature
expected_state = State(
entity_id="number.mock_valve", state="0", attributes={"min": 10, "max": 50}
)
@@ -231,10 +241,9 @@ async def test_over_valve_full_start(
mock_service_call.assert_has_calls(
[
call.async_call(
domain="number",
service="set_value",
service_data={"value": 10},
target={"entity_id": "number.mock_valve"},
"number",
"set_value",
{"entity_id": "number.mock_valve", "value": 10},
)
]
)
@@ -245,18 +254,20 @@ async def test_over_valve_full_start(
mock_service_call.assert_has_calls(
[
call.async_call(
domain="number",
service="set_value",
service_data={"value": 10},
target={"entity_id": "number.mock_valve"}, # the min allowed value
"number",
"set_value",
{
"entity_id": "number.mock_valve",
"value": 10,
}, # the min allowed value
),
call.async_call(
domain="number",
service="set_value",
service_data={
"value": 34
}, # 34 is 50 x open_percent (69%) and is the max allowed value
target={"entity_id": "number.mock_valve"},
"number",
"set_value",
{
"entity_id": "number.mock_valve",
"value": 50,
}, # the max allowed value
),
]
)
@@ -275,9 +286,9 @@ async def test_over_valve_full_start(
assert entity.is_device_active is True
assert entity.hvac_action == HVACAction.HEATING
# 5. Test window open/close (with a normal min/max so that is_device_active is False when open_percent is 0)
# Test window open/close (with a normal min/max so that is_device_active is False when open_percent is 0)
expected_state = State(
entity_id="number.mock_valve", state="0", attributes={"min": 0, "max": 255}
entity_id="number.mock_valve", state="0", attributes={"min": 0, "max": 99}
)
with patch(
@@ -455,10 +466,9 @@ async def test_over_valve_regulation(
mock_service_call.assert_has_calls(
[
call.async_call(
domain="number",
service="set_value",
service_data={"value": 90},
target={"entity_id": "number.mock_valve"},
"number",
"set_value",
{"entity_id": "number.mock_valve", "value": 90},
),
]
)
@@ -514,10 +524,9 @@ async def test_over_valve_regulation(
mock_service_call.assert_has_calls(
[
call.async_call(
domain="number",
service="set_value",
service_data={"value": 96},
target={"entity_id": "number.mock_valve"},
"number",
"set_value",
{"entity_id": "number.mock_valve", "value": 96},
),
]
)
@@ -547,168 +556,3 @@ async def test_over_valve_regulation(
assert mock_service_call.call_count == 0
assert mock_send_event.call_count == 0
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_533(
hass: HomeAssistant, skip_hass_states_is_state
): # pylint: disable=unused-argument
"""Test that with an over_valve and _auto_regulation_dpercent is set that the valve could close totally"""
# vtherm_api: VersatileThermostatAPI = VersatileThermostatAPI.get_vtherm_api(hass)
# The temperatures to set
temps = {
"frost": 7.0,
"eco": 17.0,
"comfort": 19.0,
"boost": 21.0,
}
config_entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverValveMockName",
unique_id="overValveUniqueId",
data={
CONF_NAME: "overValve",
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_VALVE,
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_TPI_COEF_INT: 0.5,
CONF_TPI_COEF_EXT: 0,
CONF_TEMP_SENSOR: "sensor.mock_temp_sensor",
CONF_EXTERNAL_TEMP_SENSOR: "sensor.mock_ext_temp_sensor",
CONF_CYCLE_MIN: 5,
CONF_TEMP_MIN: 15,
CONF_TEMP_MAX: 30,
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_PRESENCE_FEATURE: False,
CONF_VALVE: "number.mock_valve",
CONF_AUTO_REGULATION_DTEMP: 10, # This parameter makes the bug
CONF_MINIMAL_ACTIVATION_DELAY: 30,
CONF_SECURITY_DELAY_MIN: 60,
},
# | temps,
)
# Not used because number is not registred so we can use directly the underlying number
# fake_underlying_number = MockNumber(
# hass=hass, unique_id="mock_number", name="mock_number"
# )
vtherm: ThermostatOverValve = await create_thermostat(
hass, config_entry, "climate.overvalve"
)
assert vtherm is not None
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
# Set all temps and check they are correctly initialized
await set_all_climate_preset_temp(hass, vtherm, temps, "overvalve")
await send_temperature_change_event(vtherm, 15, now)
await send_ext_temperature_change_event(vtherm, 15, now)
# 1. Set mode to Heat and preset to Comfort
await vtherm.async_set_hvac_mode(HVACMode.HEAT)
with patch(
"homeassistant.core.StateMachine.get",
return_value=State(
entity_id="number.mock_valve",
state="100",
attributes={"min": 0, "max": 100},
),
), patch("homeassistant.core.ServiceRegistry.async_call") as mock_service_call:
await vtherm.async_set_preset_mode(PRESET_COMFORT)
await hass.async_block_till_done()
assert vtherm.target_temperature == 19.0
assert mock_service_call.call_count == 1
mock_service_call.assert_has_calls(
[
call.async_call(
domain="number",
service="set_value",
service_data={"value": 100},
target={"entity_id": "number.mock_valve"},
),
]
)
# 2. set current temperature to 18 -> still 50% open, so there is a call
now = now + timedelta(minutes=1)
with patch(
"homeassistant.core.StateMachine.get",
return_value=State(
entity_id="number.mock_valve",
state="100",
attributes={"min": 0, "max": 100},
),
), patch("homeassistant.core.ServiceRegistry.async_call") as mock_service_call:
await send_temperature_change_event(vtherm, 18, now)
await hass.async_block_till_done()
assert mock_service_call.call_count == 1
mock_service_call.assert_has_calls(
[
call.async_call(
domain="number",
service="set_value",
service_data={"value": 50},
target={"entity_id": "number.mock_valve"},
),
]
)
# 3. set current temperature to 18.8 -> still 10% open, so there is one call
now = now + timedelta(minutes=1)
with patch(
"homeassistant.core.StateMachine.get",
return_value=State(
entity_id="number.mock_valve",
state="50",
attributes={"min": 0, "max": 100},
),
), patch("homeassistant.core.ServiceRegistry.async_call") as mock_service_call:
await send_temperature_change_event(vtherm, 18.8, now)
await hass.async_block_till_done()
assert mock_service_call.call_count == 1
mock_service_call.assert_has_calls(
[
call.async_call(
domain="number",
service="set_value",
service_data={"value": 10},
target={"entity_id": "number.mock_valve"},
),
]
)
# 4. set current temperature to 19 -> should have 0% open and one call to set the 0
now = now + timedelta(minutes=1)
with patch(
"homeassistant.core.StateMachine.get",
return_value=State(
entity_id="number.mock_valve",
state="10", # the previous value
attributes={"min": 0, "max": 100},
),
), patch("homeassistant.core.ServiceRegistry.async_call") as mock_service_call:
await send_temperature_change_event(vtherm, 19, now)
await hass.async_block_till_done()
assert mock_service_call.call_count == 1
mock_service_call.assert_has_calls(
[
call.async_call(
domain="number",
service="set_value",
service_data={"value": 0},
target={"entity_id": "number.mock_valve"},
),
]
)

184
tests/test_window.py
View File

@@ -168,7 +168,6 @@ async def test_window_management_time_enough(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=False,
):
await send_temperature_change_event(entity, 15, datetime.now())
@@ -189,7 +188,6 @@ async def test_window_management_time_enough(
"homeassistant.helpers.condition.state", return_value=True
) as mock_condition, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
await send_window_change_event(entity, True, False, datetime.now())
@@ -218,7 +216,6 @@ async def test_window_management_time_enough(
"homeassistant.helpers.condition.state", return_value=True
) as mock_condition, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=False,
):
try_function = await send_window_change_event(
@@ -322,7 +319,6 @@ async def test_window_auto_fast(hass: HomeAssistant, skip_hass_states_is_state):
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
event_timestamp = event_timestamp + timedelta(minutes=1)
@@ -345,7 +341,6 @@ async def test_window_auto_fast(hass: HomeAssistant, skip_hass_states_is_state):
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
event_timestamp = event_timestamp + timedelta(minutes=1)
@@ -519,7 +514,6 @@ async def test_window_auto_fast_and_sensor(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
event_timestamp = event_timestamp + timedelta(minutes=1)
@@ -542,7 +536,6 @@ async def test_window_auto_fast_and_sensor(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
event_timestamp = event_timestamp + timedelta(minutes=1)
@@ -653,7 +646,6 @@ async def test_window_auto_auto_stop(hass: HomeAssistant, skip_hass_states_is_st
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.set_hvac_mode"
) as mock_set_hvac_mode, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
event_timestamp = event_timestamp + timedelta(minutes=1)
@@ -697,8 +689,7 @@ async def test_window_auto_auto_stop(hass: HomeAssistant, skip_hass_states_is_st
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.set_hvac_mode"
) as mock_set_hvac_mode, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
return_value=False,
):
# simulate the expiration of the delay
await dearm_window_auto(None)
@@ -792,7 +783,6 @@ async def test_window_auto_no_on_percent(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
event_timestamp = event_timestamp + timedelta(minutes=1)
@@ -815,7 +805,6 @@ async def test_window_auto_no_on_percent(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
event_timestamp = event_timestamp + timedelta(minutes=1)
@@ -901,7 +890,6 @@ async def test_window_bypass(hass: HomeAssistant, skip_hass_states_is_state):
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=False,
):
await send_temperature_change_event(entity, 15, datetime.now())
@@ -928,7 +916,6 @@ async def test_window_bypass(hass: HomeAssistant, skip_hass_states_is_state):
"homeassistant.helpers.condition.state", return_value=True
) as mock_condition, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
await send_window_change_event(entity, True, False, datetime.now())
@@ -954,7 +941,6 @@ async def test_window_bypass(hass: HomeAssistant, skip_hass_states_is_state):
"homeassistant.helpers.condition.state", return_value=True
) as mock_condition, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=False,
):
try_function = await send_window_change_event(
@@ -1052,7 +1038,6 @@ async def test_window_auto_bypass(hass: HomeAssistant, skip_hass_states_is_state
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
event_timestamp = event_timestamp + timedelta(minutes=1)
@@ -1077,7 +1062,6 @@ async def test_window_auto_bypass(hass: HomeAssistant, skip_hass_states_is_state
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
event_timestamp = event_timestamp + timedelta(minutes=1)
@@ -1161,7 +1145,6 @@ async def test_window_bypass_reactivate(hass: HomeAssistant, skip_hass_states_is
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=False,
):
await send_temperature_change_event(entity, 15, datetime.now())
@@ -1182,7 +1165,6 @@ async def test_window_bypass_reactivate(hass: HomeAssistant, skip_hass_states_is
"homeassistant.helpers.condition.state", return_value=True
) as mock_condition, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
await send_window_change_event(entity, True, False, datetime.now())
@@ -1209,7 +1191,6 @@ async def test_window_bypass_reactivate(hass: HomeAssistant, skip_hass_states_is
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=False,
):
await entity.service_set_window_bypass_state(True)
@@ -1607,7 +1588,6 @@ async def test_window_action_eco_temp(hass: HomeAssistant, skip_hass_states_is_s
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
event_timestamp = event_timestamp + timedelta(minutes=1)
@@ -1629,7 +1609,6 @@ async def test_window_action_eco_temp(hass: HomeAssistant, skip_hass_states_is_s
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
event_timestamp = event_timestamp + timedelta(minutes=1)
@@ -1804,7 +1783,6 @@ async def test_window_action_frost_temp(hass: HomeAssistant, skip_hass_states_is
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
event_timestamp = event_timestamp + timedelta(minutes=1)
@@ -1826,7 +1804,6 @@ async def test_window_action_frost_temp(hass: HomeAssistant, skip_hass_states_is
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
new_callable=PropertyMock,
return_value=True,
):
event_timestamp = event_timestamp + timedelta(minutes=1)
@@ -1925,162 +1902,3 @@ async def test_window_action_frost_temp(hass: HomeAssistant, skip_hass_states_is
# Clean the entity
entity.remove_thermostat()
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_66(
hass: HomeAssistant,
skip_hass_states_is_state,
skip_turn_on_off_heater,
skip_send_event,
):
"""Test that it should be possible to open/close the window rapidly without side effect"""
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
entry = MockConfigEntry(
domain=DOMAIN,
title="TheOverSwitchMockName",
unique_id="uniqueId",
data={
CONF_NAME: "TheOverSwitchMockName",
CONF_THERMOSTAT_TYPE: CONF_THERMOSTAT_SWITCH,
CONF_TEMP_SENSOR: "sensor.mock_temp_sensor",
CONF_EXTERNAL_TEMP_SENSOR: "sensor.mock_ext_temp_sensor",
CONF_CYCLE_MIN: 5,
CONF_TEMP_MIN: 15,
CONF_TEMP_MAX: 30,
"eco_temp": 17,
"comfort_temp": 18,
"boost_temp": 19,
CONF_USE_WINDOW_FEATURE: True,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_PRESENCE_FEATURE: False,
CONF_HEATER: "switch.mock_switch",
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_TPI_COEF_INT: 0.3,
CONF_TPI_COEF_EXT: 0.01,
CONF_MINIMAL_ACTIVATION_DELAY: 30,
CONF_SECURITY_DELAY_MIN: 5,
CONF_SECURITY_MIN_ON_PERCENT: 0.5,
CONF_SECURITY_DEFAULT_ON_PERCENT: 0.1, # !! here
CONF_DEVICE_POWER: 200,
CONF_WINDOW_SENSOR: "binary_sensor.mock_window_sensor",
CONF_WINDOW_DELAY: 0, # important to not been obliged to wait
},
)
entity: BaseThermostat = await create_thermostat(
hass, entry, "climate.theoverswitchmockname"
)
assert entity
await entity.async_set_hvac_mode(HVACMode.HEAT)
await entity.async_set_preset_mode(PRESET_BOOST)
assert entity.hvac_mode is HVACMode.HEAT
assert entity.preset_mode is PRESET_BOOST
assert entity.target_temperature == 19
assert entity.window_state is STATE_OFF
# Open the window and let the thermostat shut down
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_on"
) as mock_heater_on, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"homeassistant.helpers.condition.state", return_value=True
) as mock_condition, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
return_value=True,
):
await send_temperature_change_event(entity, 15, now)
try_window_condition = await send_window_change_event(
entity, True, False, now, False
)
# simulate the call to try_window_condition
await try_window_condition(None)
assert mock_send_event.call_count == 1
assert mock_heater_on.call_count == 1
assert mock_heater_off.call_count >= 1
assert mock_condition.call_count == 1
assert entity.window_state == STATE_ON
# Close the window but too shortly
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_on"
) as mock_heater_on, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"homeassistant.helpers.condition.state", return_value=False
) as mock_condition, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
return_value=False,
):
event_timestamp = now + timedelta(minutes=1)
try_window_condition = await send_window_change_event(
entity, False, True, event_timestamp
)
# simulate the call to try_window_condition
await try_window_condition(None)
# window state should not have change
assert entity.window_state == STATE_ON
# Reopen immediatly with sufficient time
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_on"
) as mock_heater_on, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"homeassistant.helpers.condition.state", return_value=True
) as mock_condition, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
return_value=False,
):
try_window_condition = await send_window_change_event(
entity, True, False, event_timestamp
)
# simulate the call to try_window_condition
await try_window_condition(None)
# still no change
assert entity.window_state == STATE_ON
assert entity.hvac_mode == HVACMode.OFF
# Close the window but with sufficient time this time
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_on"
) as mock_heater_on, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.turn_off"
) as mock_heater_off, patch(
"homeassistant.helpers.condition.state", return_value=True
) as mock_condition, patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingSwitch.is_device_active",
return_value=False,
):
event_timestamp = now + timedelta(minutes=2)
try_window_condition = await send_window_change_event(
entity, False, True, event_timestamp
)
# simulate the call to try_window_condition
await try_window_condition(None)
# window state should be Off this time and old state should have been restored
assert entity.window_state == STATE_OFF
assert entity.hvac_mode is HVACMode.HEAT
assert entity.preset_mode is PRESET_BOOST