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compare: gilles:6.5.0.beta1
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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

7 Commits
6.8.0.beta ... 6.5.0.beta

Author SHA1 Message Date
Jean-Marc Collin
32b0bcce19 + comment 2024-10-31 11:48:52 +00:00
Jean-Marc Collin
d971cc6aed Add change_preset test 2024-10-31 11:48:01 +00:00
Jean-Marc Collin
5bcbbb2d84 All is fine 2024-10-31 11:27:38 +00:00
Jean-Marc Collin
7854b44a2e Change algo 2024-10-29 21:48:47 +00:00
Jean-Marc Collin
3219fd293e With config flow ok 2024-10-27 10:42:30 +00:00
Jean-Marc Collin
db3afdf887 Auto start/stop alog and testu + ConfigFlow 2024-10-27 10:05:15 +00:00
Jean-Marc Collin
17ebf629e6 Migrate to HA 2024.10.4 2024-10-27 10:05:14 +00:00
31 changed files with 1011 additions and 2709 deletions
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1
.devcontainer/configuration.yaml
View File

@@ -152,7 +152,6 @@ climate:
name: Underlying thermostat2
heater: input_boolean.fake_heater_switch3
target_sensor: input_number.fake_temperature_sensor1
ac_mode: false
- platform: generic_thermostat
name: Underlying thermostat3
heater: input_boolean.fake_heater_switch3

2
.github/ISSUE_TEMPLATE/issue.md vendored
View File

@@ -4,8 +4,6 @@ about: Create a report to help us improve
---
> Please read carefuly this instructions and fill this form before writing an issue. It helps me to help you.
<!-- This template will allow the maintainer to be efficient and post the more accurante response as possible. There is many types / modes / configuration possible, so the analysis can be very tricky. If don't follow this template, your issue could be rejected without any message. Please help me to help you. -->
<!-- Before you open a new issue, search through the existing issues to see if others have had the same problem.

87
README-fr.md
View File

@@ -13,7 +13,6 @@
- [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 dans la version 5.0](#changements-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)
@@ -32,7 +31,6 @@
- [Compensation de la température interne](#compensation-de-la-température-interne)
- [Synthèse de l'algorithme d'auto-régulation](#synthèse-de-lalgorithme-dauto-régulation)
- [Le mode auto-fan](#le-mode-auto-fan)
- [Le démarrage / arrêt automatique](#le-démarrage--arrêt-automatique)
- [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)
@@ -94,9 +92,6 @@ Ce composant personnalisé pour Home Assistant est une mise à niveau et est une
> ![Nouveau](images/new-icon.png) _*Historique des dernières versions*_
> * **Release 6.5** :
> - Ajout d'une nouvelle fonction permettant l'arrêt et la relance automatique d'un VTherm `over_climate` [585](https://github.com/jmcollin78/versatile_thermostat/issues/585)
> - Amélioration de la gestion des ouvertures au démarrage. Permet de mémoriser et de recalculer l'état d'une ouverture au redémarage de Home Assistant [504](https://github.com/jmcollin78/versatile_thermostat/issues/504)
> * **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)
@@ -105,14 +100,14 @@ Ce composant personnalisé pour Home Assistant est une mise à niveau et est une
> - 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),
> - ajout d'une option permettant d'utiliser la température interne d'un TRV pour forcer l' auto-régulation [#348](https://github.com/jmcollin78/versatile_thermostat/issues/348),
> - ajout d'une fonction de keep-alive pour les VTherm `over_switch` [#345](https://github.com/jmcollin78/versatile_thermostat/issues/345)
<details>
<summary>Autres versions</summary>
> * **Release 5.3** : Ajout d'une fonction de pilotage d'une chaudière centrale [#234](https://github.com/jmcollin78/versatile_thermostat/issues/234) - plus d'infos ici: [Le contrôle d'une chaudière centrale](#le-contrôle-dune-chaudière-centrale). Ajout de la possibilité de désactiver le mode sécurité pour le thermomètre extérieur [#343](https://github.com/jmcollin78/versatile_thermostat/issues/343)
> * **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>
> * **Release 4.3** : Ajout d'un mode auto-fan pour le type `over_climate` permettant d'activer la ventilation si l'écart de température est important [#223](https://github.com/jmcollin78/versatile_thermostat/issues/223).
> * **Release 4.2** : Le calcul de la pente de la courbe de température se fait maintenant en °/heure et non plus en °/min [#242](https://github.com/jmcollin78/versatile_thermostat/issues/242). Correction de la détection automatique des ouvertures par l'ajout d'un lissage de la courbe de température .
> * **Release 4.1** : Ajout d'un mode de régulation **Expert** dans lequel l'utilisateur peut spécifier ses propres paramètres d'auto-régulation au lieu d'utiliser les pre-programmés [#194](https://github.com/jmcollin78/versatile_thermostat/issues/194).
@@ -131,8 +126,6 @@ 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>
<details>
<summary>Changements dans la version 6.0</summary>
# Changements dans la version 6.0
## Entités de température pour les pre-réglages
@@ -200,13 +193,10 @@ Une fois que toute la configuration est valide, la dernière option se transform
Cliquez sur cette option pour créér (resp. modifier) le VTherm :
![Configuration terminée](images/config-terminate.png)
</details>
<details>
<summary>Changements dans la version 5.0</summary>
# Changements dans la version 5.0
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",
2. Saisir les attributs de cette configuration centrale
@@ -247,7 +237,6 @@ Certains thermostat de type TRV sont réputés incompatibles avec le Versatile T
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.
7. Les climates basés sur l'intégration Overkiz ne fonctionnent pas. Il parait impossible d'éteindre ni même de changer la température sur ces systèmes.
# Pourquoi une nouvelle implémentation du thermostat ?
@@ -298,6 +287,9 @@ 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
@@ -311,6 +303,10 @@ puis
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>
## Choix des attributs de base
@@ -332,6 +328,10 @@ 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)
@@ -510,23 +510,16 @@ Il faut évidemment que votre équipement sous-jacent soit équipée d'une venti
Si votre équipement ne comprend pas le mode Turbo, le mode Forte` sera utilisé en remplacement.
Une fois l'écart de température redevenu faible, la ventilation se mettra dans un mode "normal" qui dépend de votre équipement à savoir (dans l'ordre) : `Silence (mute)`, `Auto (auto)`, `Faible (low)`. La première valeur qui est possible pour votre équipement sera choisie.
#### Le démarrage / arrêt automatique
Cette fonction a été introduite en 6.5.0. Elle permet d'autoriser VTherm a stopper un équipement qui n'a pas besoin d'être allumé et de le redémarrer lorsque les conditions le réclame. Cette fonction est munie de 3 réglages qui permettent d'arrêter / relancer plus ou moins rapidement l'équipement.
Pour l'utiliser, vous devez :
1. Ajouter la fonction `Avec démmarrage et extinction automatique` dans le menu 'Fonctions',
2. Paramétrer le niveau de détection dans l'option 'Allumage/extinction automatique' qui s'affiche lorsque la fonction a été activée. Vous choisissez le niveau de détection entre 'Lent', 'Moyen' et 'Rapide'. Les arrêts/relances seront plus nombreux avec le niveau 'Rapide'.
Une fois paramétré, vous aurez maintenant une nouvelle entité de type `switch` qui vous permet d'autoriser ou non l'arrêt/relance automatique sans toucher à la configuration. Cette entité est disponible sur l'appareil VTherm et se nomme `switch.<name>_enable_auto_start_stop`. Cochez la pour autoriser le démarrage et extinction automatique.
L'algorithme de détection est décrit [ici](https://github.com/jmcollin78/versatile_thermostat/issues/585).
### Pour un thermostat de type ```thermostat_over_valve```:
![image](images/config-linked-entity3.png)
Vous pouvez choisir jusqu'à entité du domaine ```number``` ou ```ìnput_number``` qui vont commander les vannes.
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
@@ -540,6 +533,10 @@ 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 les températures préréglées
@@ -560,6 +557,10 @@ Les pré-réglages se font (depuis v6.0) directement depuis les entités du VThe
> 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
@@ -602,6 +603,10 @@ 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
@@ -629,6 +634,10 @@ 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
@@ -647,6 +656,10 @@ 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)
@@ -668,6 +681,10 @@ 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
@@ -685,8 +702,6 @@ Mettre ce paramètre à ``0.00`` déclenchera le préréglage sécurité quelque
Le quatrième param§tre (``security_default_on_percent``) est la valeur de ``on_percent`` qui sera utilisée lorsque le thermostat passe en mode ``security``. Si vous mettez ``0`` alors le thermostat sera coupé lorsqu'il passe en mode ``security``, mettre 0,2% par exemple permet de garder un peu de chauffage (20% dans ce cas), même en mode ``security``. Ca évite de retrouver son logement totalement gelé lors d'une panne de thermomètre.
Note: les paramètres `security_min_on_percent` et `security_default_on_percent` ne s'applique pas aux VTherms `over_climate`.
Depuis la version 5.3 il est possible de désactiver la mise en sécurité suite à une absence de données du thermomètre extérieure. En effet, celui-ci ayant la plupart du temps un impact faible sur la régulation (dépendant de votre paramètrage), il est possible qu'il soit absent sans mettre en danger le logement. Pour cela, il faut ajouter les lignes suivantes dans votre `configuration.yaml` :
```
versatile_thermostat:
@@ -704,6 +719,10 @@ 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
@@ -720,6 +739,10 @@ 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
@@ -821,6 +844,7 @@ 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>
@@ -887,8 +911,6 @@ context:
| ``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 | - |
| ``use_auto_start_stop_feature`` | Indique si la fonction de démarrage/extinction automatique est activée | - | X | - | - |
| ``auto_start_stop_lvel`` | Le niveau de détection de l'auto start/stop | - | X | - | - |
</details>
# Exemples de réglage
@@ -1146,9 +1168,6 @@ Les attributs personnalisés sont les suivants :
| ``is_controlled_by_central_mode`` | True si le VTherm peut être controlé de façon centrale |
| ``last_central_mode`` | Le dernier mode central utilisé (None si le VTherm n'est pas controlé en central) |
| ``is_used_by_central_boiler`` | Indique si le VTherm peut contrôler la chaudière centrale |
| ``auto_start_stop_enable`` | Indique si le VTherm est autorisé à s'auto démarrer/arrêter |
| ``auto_start_stop_level`` | Indique le niveau d'auto start/stop |
| ``hvac_off_reason`` | Indique la raison de l'arrêt (hvac_off) du VTherm. Ce peut être Window, Auto-start/stop ou Manuel |
# Quelques résultats
@@ -1571,7 +1590,7 @@ Ces paramètres sont sensibles et assez difficiles à régler. Merci de ne les u
<summary>Pourquoi mon Versatile Thermostat se met en Securite ?</summary>
## Pourquoi mon Versatile Thermostat se met en Securite ?
Le mode sécurité est possible sur tous les types de VTherm . 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`.
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`.
Comme l'algorithme est basé sur les mesures de température, si elles ne sont plus reçues par le VTherm, il y a un risque de surchauffe et d'incendie. Pour éviter ça, lorsque les conditions rappelées ci-dessus sont détectées, la chauffe est limité au paramètre `security_default_on_percent`. Cette valeur doit donc être raisonnablement faible (10% est une bonne valeur). Elle permet d'éviter un incendie tout en évitant de couper totalement le radiateur (risque de gel).

304
README.md
View File

@@ -13,7 +13,7 @@
- [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)
- [Changes in release 5.0](#changes-in-release-50)
- [Changements dans la version 5.0](#changements-dans-la-version-50)
- [Thanks for the beer buymecoffee](#thanks-for-the-beer-buymecoffee)
- [When to use / not use](#when-to-use--not-use)
- [Incompatibilities](#incompatibilities)
@@ -32,7 +32,6 @@
- [Internal temperature compensation](#internal-temperature-compensation)
- [synthesis of the self-regulation algorithm](#synthesis-of-the-self-regulation-algorithm)
- [Auto-fan mode](#auto-fan-mode)
- [Automatic start/stop](#automatic-startstop)
- [For a thermostat of type ```thermostat_over_valve```:](#for-a-thermostat-of-type-thermostat_over_valve)
- [Configure the TPI algorithm coefficients](#configure-the-tpi-algorithm-coefficients)
- [Configure the preset temperature](#configure-the-preset-temperature)
@@ -94,9 +93,6 @@
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 6.5** :
> - Added a new function allowing the automatic shutdown and restart of a VTherm `over_climate` [585](https://github.com/jmcollin78/versatile_thermostat/issues/585)
> - Improved management of openings at startup. Allows to memorize and recalculate the state of an opening when restarting Home Assistant [504](https://github.com/jmcollin78/versatile_thermostat/issues/504)
> * **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)
@@ -105,13 +101,13 @@ This custom component for Home Assistant is an upgrade and is a complete rewrite
> - 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),
> - added an option allowing the internal temperature of a TRV to be used to force self-regulation [#348](https://github.com/jmcollin78/versatile_thermostat/issues/348),
> - added a keep-alive function for VTherm `over_switch` [#345](https://github.com/jmcollin78/versatile_thermostat/issues/345)
<details>
<summary>Others releases</summary>
> * **Release 5.3**: Added a central boiler control function [#234](https://github.com/jmcollin78/versatile_thermostat/issues/234) - more information here: [Controlling a central boiler](#controlling-a-central-boiler). Added the ability to disable security mode for outdoor thermometer [#343](https://github.com/jmcollin78/versatile_thermostat/issues/343)
> * **Release 5.2**: Added a `central_mode` allowing all VTherms to be controlled centrally [#158](https://github.com/jmcollin78/versatile_thermostat/issues/158).
> * **Release 5.1**: Limitation of the values sent to the valves and the temperature sent to the underlying climate.
> * **Release 5.0**: Added a central configuration allowing the sharing of attributes that can be shared [#239](https://github.com/jmcollin78/versatile_thermostat/issues/239).
<details>
<summary>Others releases</summary>
> * **Release 4.3**: Added an auto-fan mode for the `over_climate` type allowing ventilation to be activated if the temperature difference is significant [#223](https://github.com/jmcollin78/versatile_thermostat/issues/223).
> * **Release 4.2**: The calculation of the slope of the temperature curve is now done in °/hour and no longer in °/min [#242](https://github.com/jmcollin78/versatile_thermostat/issues/242). Correction of automatic detection of openings by adding smoothing of the temperature curve.
> * **Release 4.1**: Added an **Expert** regulation mode in which the user can specify their own auto-regulation parameters instead of using the pre-programmed ones [#194]( https://github.com/jmcollin78/versatile_thermostat/issues/194).
@@ -130,10 +126,6 @@ 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>
<details>
<summary>Changes in version 6.0</summary>
# Changes in version 6.0
## Temperature entities for presets
@@ -201,12 +193,11 @@ Once all configuration is valid, the last option changes to:
Click on this option to create (resp. modify) the VTherm:
![Configuration Complete](images/config-terminate.png)
</details>
<details>
<summary>Changes in release 5.0</summary>
<summary>Changements dans la version 5.0</summary>
# Changes in release 5.0
# Changements dans la version 5.0
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”,
@@ -247,7 +238,6 @@ Some TRV type thermostats are known to be incompatible with the Versatile Thermo
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.
7. System based on intégration Overkiz don't work as expected. It seems not possible to turn off nor sending setpoint on those systems.
# Why another thermostat implementation ?
@@ -298,6 +288,9 @@ 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
@@ -308,6 +301,11 @@ The configuration can be change through the same interface. Simply select the th
Then choose the type of VTherm you want to create:
![image](images/config-main0.png)
</details>
<details>
<summary>Minimal configuration update</summary>
## Minimal configuration update
Then choose the “Main attributes” menu.
@@ -328,6 +326,10 @@ 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
@@ -389,6 +391,82 @@ These three parameters make it possible to modulate the regulation and avoid mul
Self-regulation consists of forcing the equipment to go further by forcing its set temperature regularly. Its consumption can therefore be increased, as well as its wear.
#### Self-regulation in Expert mode
In **Expert** mode you can finely adjust the auto-regulation parameters to achieve your objectives and optimize as best as possible. The algorithm calculates the difference between the setpoint and the actual temperature of the room. This discrepancy is called error.
The adjustable parameters are as follows:
1. `kp`: the factor applied to the raw error,
2. `ki`: the factor applied to the accumulation of errors,
3. `k_ext`: the factor applied to the difference between the interior temperature and the exterior temperature,
4. `offset_max`: the maximum correction (offset) that the regulation can apply,
5. `stabilization_threshold`: a stabilization threshold which, when reached by the error, resets the accumulation of errors to 0,
6. `accumulated_error_threshold`: the maximum for error accumulation.
For tuning, these observations must be taken into account:
1. `kp * error` will give the offset linked to the raw error. This offset is directly proportional to the error and will be 0 when the target is reached,
2. the accumulation of the error makes it possible to correct the stabilization of the curve while there remains an error. The error accumulates and the offset therefore gradually increases which should eventually stabilize at the target temperature. For this fundamental parameter to have an effect it must not be too small. An average value is 30
3. `ki * accumulated_error_threshold` will give the maximum offset linked to the accumulation of the error,
4. `k_ext` allows a correction to be applied immediately (without waiting for errors to accumulate) when the outside temperature is very different from the target temperature. If the stabilization is done too high when the temperature differences are significant, it is because this parameter is too high. It should be possible to cancel completely to let the first 2 offsets take place
The pre-programmed values are as follows:
Slow régulation :
kp: 0.2 # 20% of the current internal regulation offset are caused by the current difference of target temperature and room temperature
ki: 0.8 / 288.0 # 80% of the current internal regulation offset are caused by the average offset of the past 24 hours
k_ext: 1.0 / 25.0 # this will add 1°C to the offset when it's 25°C colder outdoor than indoor
offset_max: 2.0 # limit to a final offset of -2°C to +2°C
stabilization_threshold: 0.0 # this needs to be disabled as otherwise the long term accumulated error will always be reset when the temp briefly crosses from/to below/above the target
accumulated_error_threshold: 2.0 * 288 # this allows up to 2°C long term offset in both directions
Light régulation :
kp: 0.2
ki: 0.05
k_ext: 0.05
offset_max: 1.5
stabilization_threshold: 0.1
accumulated_error_threshold: 10
Medium régulation :
kp: 0.3
ki: 0.05
k_ext: 0.1
offset_max: 2
stabilization_threshold: 0.1
accumulated_error_threshold: 20
Strong régulation :
"""Strong parameters for regulation
A set of parameters which doesn't take into account the external temp
and concentrate to internal temp error + accumulated error.
This should work for cold external conditions which else generates
high external_offset"""
kp: 0.4
ki: 0.08
k_ext: 0.0
offset_max: 5
stabilization_threshold: 0.1
accumulated_error_threshold: 50
To use Expert mode you must declare the values you want to use for each of these parameters in your `configuration.yaml` in the following form:
```
versatile_thermostat:
auto_regulation_expert:
kp: 0.4
ki: 0.08
k_ext: 0.0
offset_max: 5
stabilization_threshold: 0.1
accumulated_error_threshold: 50
```
and of course, configure the VTherm's self-regulation mode in **Expert** mode. All VTherms in Expert mode will use these same settings.
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:
@@ -422,17 +500,6 @@ Obviously your underlying equipment must be equipped with ventilation and be con
If your equipment does not include Turbo mode, Forte` mode will be used as a replacement.
Once the temperature difference becomes low again, the ventilation will go into a "normal" mode which depends on your equipment, namely (in order): `Silence (mute)`, `Auto (auto)`, `Low (low)`. The first value that is possible for your equipment will be chosen.
#### Automatic start/stop
This function was introduced in 6.5.0. It allows VTherm to stop equipment that does not need to be turned on and to restart it when conditions require it. This function has 3 settings that allow the equipment to be stopped/restarted more or less quickly.
To use it, you must:
1. Add the `Use the auto start and stop feature` function in the 'Features' menu,
2. Set the detection level in the `Auto start and stop` option that is displayed when the function has been activated. You choose the detection level between 'Slow', 'Medium' and 'Fast'. The 'Fast' level will result in more shutdowns/restarts.
Once configured, you will now have a new entity of type `switch` that allows you to authorize or not the automatic shutdown/restart without touching the configuration. This entity is available on the VTherm device and is called `switch.<name>_enable_auto_start_stop`. Check it to authorize the automatic startup and shutdown.
The detection algorithm is described [here](https://github.com/jmcollin78/versatile_thermostat/issues/585).
### For a thermostat of type ```thermostat_over_valve```:
![image](images/config-linked-entity3.png)
You can choose up to domain entity ```number``` or ```ìnput_number``` which will control the valves.
@@ -440,6 +507,11 @@ 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:
@@ -447,6 +519,11 @@ Ff you choose a ```over_switch``` or ```over_valve``` thermostat and select the
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
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 :
@@ -467,6 +544,11 @@ 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.
@@ -508,6 +590,11 @@ 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)
@@ -532,6 +619,11 @@ 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:
@@ -549,6 +641,10 @@ 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
@@ -571,6 +667,11 @@ 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.
@@ -587,8 +688,6 @@ Setting this parameter to ``0.00`` will trigger the safety preset regardless of
The fourth parameter (``security_default_on_percent``) is the ``on_percent`` value that will be used when the thermostat enters ``safety`` mode. If you put ``0`` then the thermostat will be cut off when it goes into ``safety`` mode, putting 0.2% for example allows you to keep a little heating (20% in this case), even in mode ``safety``. It avoids finding your home totally frozen during a thermometer failure.
Note: parameters `security_min_on_percent` et `security_default_on_percent` are not used by `over_climate` VTherm.
Since version 5.3 it is possible to deactivate the safety device following a lack of data from the outdoor thermometer. Indeed, this most of the time having a low impact on regulation (depending on your settings), it is possible that it is absent without endangering the home. To do this, you must add the following lines to your `configuration.yaml`:
```
versatile_thermostat:
@@ -607,6 +706,11 @@ 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.
@@ -623,6 +727,11 @@ 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.
@@ -724,112 +833,7 @@ 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.
## Expert Mode Settings
Expert Mode settings refer to Settings made in the Home Assistant `configuration.yaml` file under the `versatile_thermostat` section. You might have to add this section by yourself to the `configuration.yaml` file.
These settings are meant to be used only in **specific niche cases and with careful considerations**.
The following sections describe the available export mode settings in detail with examples on how to configure them. Be aware that these settings require a **complete restart** of Home Assistant or a **reload of Versatile Thermostat integration** (Dev tools / Yaml / reloading the configuration / Versatile Thermostat) to take effect.
### Self-regulation in Expert mode
In **Expert** mode you can finely adjust the auto-regulation parameters to achieve your objectives and optimize as best as possible. The algorithm calculates the difference between the setpoint and the actual temperature of the room. This discrepancy is called error.
The adjustable parameters are as follows:
1. `kp`: the factor applied to the raw error,
2. `ki`: the factor applied to the accumulation of errors,
3. `k_ext`: the factor applied to the difference between the interior temperature and the exterior temperature,
4. `offset_max`: the maximum correction (offset) that the regulation can apply,
5. `stabilization_threshold`: a stabilization threshold which, when reached by the error, resets the accumulation of errors to 0,
6. `accumulated_error_threshold`: the maximum for error accumulation.
For tuning, these observations must be taken into account:
1. `kp * error` will give the offset linked to the raw error. This offset is directly proportional to the error and will be 0 when the target is reached,
2. the accumulation of the error makes it possible to correct the stabilization of the curve while there remains an error. The error accumulates and the offset therefore gradually increases which should eventually stabilize at the target temperature. For this fundamental parameter to have an effect it must not be too small. An average value is 30
3. `ki * accumulated_error_threshold` will give the maximum offset linked to the accumulation of the error,
4. `k_ext` allows a correction to be applied immediately (without waiting for errors to accumulate) when the outside temperature is very different from the target temperature. If the stabilization is done too high when the temperature differences are significant, it is because this parameter is too high. It should be possible to cancel completely to let the first 2 offsets take place
The pre-programmed values are as follows:
Slow régulation :
kp: 0.2 # 20% of the current internal regulation offset are caused by the current difference of target temperature and room temperature
ki: 0.8 / 288.0 # 80% of the current internal regulation offset are caused by the average offset of the past 24 hours
k_ext: 1.0 / 25.0 # this will add 1°C to the offset when it's 25°C colder outdoor than indoor
offset_max: 2.0 # limit to a final offset of -2°C to +2°C
stabilization_threshold: 0.0 # this needs to be disabled as otherwise the long term accumulated error will always be reset when the temp briefly crosses from/to below/above the target
accumulated_error_threshold: 2.0 * 288 # this allows up to 2°C long term offset in both directions
Light régulation :
kp: 0.2
ki: 0.05
k_ext: 0.05
offset_max: 1.5
stabilization_threshold: 0.1
accumulated_error_threshold: 10
Medium régulation :
kp: 0.3
ki: 0.05
k_ext: 0.1
offset_max: 2
stabilization_threshold: 0.1
accumulated_error_threshold: 20
Strong régulation :
"""Strong parameters for regulation
A set of parameters which doesn't take into account the external temp
and concentrate to internal temp error + accumulated error.
This should work for cold external conditions which else generates
high external_offset"""
kp: 0.4
ki: 0.08
k_ext: 0.0
offset_max: 5
stabilization_threshold: 0.1
accumulated_error_threshold: 50
To use Expert mode you must declare the values you want to use for each of these parameters in your `configuration.yaml` in the following form:
```
versatile_thermostat:
auto_regulation_expert:
kp: 0.4
ki: 0.08
k_ext: 0.0
offset_max: 5
stabilization_threshold: 0.1
accumulated_error_threshold: 50
```
and of course, configure the VTherm's self-regulation mode in **Expert** mode. All VTherms in Expert mode will use these same settings.
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).
### On Time Clamping (max_on_percent)
The calculated on time percent can be limited to a maximum percentage of the cycle duration. This setting has to be made in expert mode and will be used for all Versatile Thermostats.
```
versatile_thermostat:
max_on_percent: 0.8
```
The example above limits the maximum ON time to 80% (0.8) of the cycle length. If the cycle length is for example 600 seconds (10min), the maximum ON time will be limited to 480 seconds (8min). The remaining 120 seconds of the cycle will always remain in the OFF state.
There are three debug attributes of interest regarding this feature:
* `max_on_percent` # clamping setting as configured in expert mode
* `calculated_on_percent` # calculated on percent without clamping applied
* `on_percent` # used on percent with clamping applied
</details>
<details>
<summary>Parameter summary</summary>
@@ -896,8 +900,6 @@ There are three debug attributes of interest regarding this feature:
| ``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 | - |
| ``use_auto_start_stop_feature`` | Indique si la fonction de démarrage/extinction automatique est activée | - | X | - | - |
| ``auto_start_stop_lvel`` | Le niveau de détection de l'auto start/stop | - | X | - | - |
</details>
# Tuning examples
@@ -1153,9 +1155,6 @@ Custom attributes are the following:
| ``is_controlled_by_central_mode`` | True if the VTherm can be centrally controlled |
| ``last_central_mode`` | The last central mode used (None if the VTherm is not centrally controlled) |
| ``is_used_by_central_boiler`` | Indicate if the VTherm can control the central boiler |
| ``auto_start_stop_enable`` | Indicate if the VTherm is allowed to do auto start and stop |
| ``auto_start_stop_level`` | Give the level of auto start/stop |
| ``hvac_off_reason`` | Give the reason of stop of the VTherm. This could be Window, Auto-start/stop or Manual |
# Some results
@@ -1279,13 +1278,9 @@ Replace values in [[ ]] by yours.
yaxis: y1
name: Ema
- entity: '[[climate]]'
attribute: on_percent
yaxis: y2
name: Power percent
fill: tozeroy
fillcolor: rgba(200, 10, 10, 0.3)
line:
color: rgba(200, 10, 10, 0.9)
attribute: regulated_target_temperature
yaxis: y1
name: Regulated T°
- entity: '[[slope]]'
name: Slope
fill: tozeroy
@@ -1310,19 +1305,12 @@ Replace values in [[ ]] by yours.
yaxis:
visible: true
position: 0
yaxis2:
visible: true
position: 0
fixedrange: true
range:
- 0
- 1
yaxis9:
visible: true
fixedrange: false
range:
- -2
- 2
- -0.5
- 0.5
position: 1
xaxis:
rangeselector:
@@ -1345,7 +1333,7 @@ Example of graph obtained with Plotly :
## And always better and better with the NOTIFIER daemon app to notify events
This automation uses the excellent App Daemon named NOTIFIER developed by Horizon Domotique that you will find in demonstration [here](https://www.youtube.com/watch?v=chJylIK0ASo&ab_channel=HorizonDomotique) and the code is [here](https://github.com/jlpouffier/home-assistant-config/blob/master/appdaemon/apps/notifier.py). It allows you to notify the users of the accommodation when one of the events affecting safety occurs on one of the Versatile Thermostats.
This automation uses the excellent App Daemon named NOTIFIER developed by Horizon Domotique that you will find in demonstration [here](https://www.youtube.com/watch?v=chJylIK0ASo&ab_channel=HorizonDomotique) and the code is [here](https ://github.com/jlpouffier/home-assistant-config/blob/master/appdaemon/apps/notifier.py). It allows you to notify the users of the accommodation when one of the events affecting safety occurs on one of the Versatile Thermostats.
This is a great example of using the notifications described here [notification](#notifications).
@@ -1588,7 +1576,7 @@ These parameters are sensitive and quite difficult to adjust. Please only use th
## Why does my Versatile Thermostat go into Safety?
Safety mode is possible on all VTherm's type. 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`.
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).

80
custom_components/versatile_thermostat/__init__.py
View File

@@ -38,23 +38,6 @@ from .const import (
CONF_USE_CENTRAL_BOILER_FEATURE,
CONF_POWER_SENSOR,
CONF_PRESENCE_SENSOR,
CONF_UNDERLYING_LIST,
CONF_HEATER,
CONF_HEATER_2,
CONF_HEATER_3,
CONF_HEATER_4,
CONF_CLIMATE,
CONF_CLIMATE_2,
CONF_CLIMATE_3,
CONF_CLIMATE_4,
CONF_VALVE,
CONF_VALVE_2,
CONF_VALVE_3,
CONF_VALVE_4,
CONF_THERMOSTAT_SWITCH,
CONF_THERMOSTAT_CLIMATE,
CONF_THERMOSTAT_VALVE,
CONF_MAX_ON_PERCENT,
)
from .vtherm_api import VersatileThermostatAPI
@@ -87,7 +70,6 @@ CONFIG_SCHEMA = vol.Schema(
CONF_AUTO_REGULATION_EXPERT: vol.Schema(SELF_REGULATION_PARAM_SCHEMA),
CONF_SHORT_EMA_PARAMS: vol.Schema(EMA_PARAM_SCHEMA),
CONF_SAFETY_MODE: vol.Schema(SAFETY_MODE_PARAM_SCHEMA),
vol.Optional(CONF_MAX_ON_PERCENT): vol.Coerce(float),
}
),
},
@@ -180,20 +162,13 @@ async def async_setup_entry(hass: HomeAssistant, entry: ConfigEntry) -> bool:
if hass.state == CoreState.running:
await api.reload_central_boiler_entities_list()
await api.init_vtherm_links(entry.entry_id)
await api.init_vtherm_links()
return True
async def update_listener(hass: HomeAssistant, entry: ConfigEntry) -> None:
"""Update listener."""
_LOGGER.debug(
"Calling update_listener entry: entry_id='%s', value='%s'",
entry.entry_id,
entry.data,
)
if entry.data.get(CONF_THERMOSTAT_TYPE) == CONF_THERMOSTAT_CENTRAL_CONFIG:
await reload_all_vtherm(hass)
else:
@@ -202,7 +177,7 @@ async def update_listener(hass: HomeAssistant, entry: ConfigEntry) -> None:
api: VersatileThermostatAPI = VersatileThermostatAPI.get_vtherm_api(hass)
if api is not None:
await api.reload_central_boiler_entities_list()
await api.init_vtherm_links(entry.entry_id)
await api.init_vtherm_links()
async def async_unload_entry(hass: HomeAssistant, entry: ConfigEntry) -> bool:
@@ -233,9 +208,10 @@ async def async_migrate_entry(hass: HomeAssistant, config_entry: ConfigEntry):
)
new = {**config_entry.data}
thermostat_type = config_entry.data.get(CONF_THERMOSTAT_TYPE)
if thermostat_type == CONF_THERMOSTAT_CENTRAL_CONFIG:
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
@@ -247,50 +223,6 @@ async def async_migrate_entry(hass: HomeAssistant, config_entry: ConfigEntry):
"add_central_boiler_control", False
) or new.get(CONF_USE_CENTRAL_BOILER_FEATURE, False)
if config_entry.data.get(CONF_UNDERLYING_LIST, None) is None:
underlying_list = []
if thermostat_type == CONF_THERMOSTAT_SWITCH:
underlying_list = [
config_entry.data.get(CONF_HEATER, None),
config_entry.data.get(CONF_HEATER_2, None),
config_entry.data.get(CONF_HEATER_3, None),
config_entry.data.get(CONF_HEATER_4, None),
]
elif thermostat_type == CONF_THERMOSTAT_CLIMATE:
underlying_list = [
config_entry.data.get(CONF_CLIMATE, None),
config_entry.data.get(CONF_CLIMATE_2, None),
config_entry.data.get(CONF_CLIMATE_3, None),
config_entry.data.get(CONF_CLIMATE_4, None),
]
elif thermostat_type == CONF_THERMOSTAT_VALVE:
underlying_list = [
config_entry.data.get(CONF_VALVE, None),
config_entry.data.get(CONF_VALVE_2, None),
config_entry.data.get(CONF_VALVE_3, None),
config_entry.data.get(CONF_VALVE_4, None),
]
new[CONF_UNDERLYING_LIST] = [
entity for entity in underlying_list if entity is not None
]
for key in [
CONF_HEATER,
CONF_HEATER_2,
CONF_HEATER_3,
CONF_HEATER_4,
CONF_CLIMATE,
CONF_CLIMATE_2,
CONF_CLIMATE_3,
CONF_CLIMATE_4,
CONF_VALVE,
CONF_VALVE_2,
CONF_VALVE_3,
CONF_VALVE_4,
]:
new.pop(key, None)
hass.config_entries.async_update_entry(
config_entry,
data=new,

64
custom_components/versatile_thermostat/auto_start_stop_algorithm.py
View File

@@ -3,7 +3,7 @@
"""
import logging
from datetime import datetime
from datetime import datetime, timedelta
from typing import Literal
from homeassistant.components.climate import HVACMode
@@ -13,6 +13,7 @@ from .const import (
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,
)
@@ -30,9 +31,6 @@ DT_MIN = {
# the measurement cycle (2 min)
CYCLE_SEC = 120
# A temp hysteresis to avoid rapid OFF/ON
TEMP_HYSTERESIS = 0.5
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°, ...
@@ -81,7 +79,7 @@ class AutoStartStopDetectionAlgorithm:
saved_hvac_mode: HVACMode | None,
target_temp: float,
current_temp: float,
slope_min: float | None,
slope_min: float,
now: datetime,
) -> AUTO_START_STOP_ACTIONS:
"""Calculate an eventual action to do depending of the value in parameter"""
@@ -92,6 +90,18 @@ class AutoStartStopDetectionAlgorithm:
)
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,
@@ -103,21 +113,14 @@ class AutoStartStopDetectionAlgorithm:
now,
)
if hvac_mode is None or target_temp is None or current_temp is None:
_LOGGER.debug(
"%s - No all mandatory parameters are set. Disable auto-start/stop",
self,
)
return AUTO_START_STOP_ACTION_NOTHING
# 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 (< 24 sec)
if dtmin <= 0.2:
# 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,
@@ -141,73 +144,59 @@ class AutoStartStopDetectionAlgorithm:
self._last_calculation_date = now
temp_at_dt = current_temp + slope_min * self._dt
# 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
and temp_at_dt >= target_temp + TEMP_HYSTERESIS
):
if self._accumulated_error <= -self._error_threshold:
_LOGGER.info(
"%s - We need to stop, there is no need for heating for a long time.",
self,
)
return AUTO_START_STOP_ACTION_OFF
else:
_LOGGER.debug("%s - nothing to do, we are heating", self)
_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
and temp_at_dt <= target_temp - TEMP_HYSTERESIS
):
if self._accumulated_error >= self._error_threshold:
_LOGGER.info(
"%s - We need to stop, there is no need for cooling for a long time.",
self,
)
return AUTO_START_STOP_ACTION_OFF
else:
_LOGGER.debug(
"%s - nothing to do, we are cooling",
self,
)
return AUTO_START_STOP_ACTION_NOTHING
# check to turn on
if hvac_mode == HVACMode.OFF and saved_hvac_mode == HVACMode.HEAT:
if temp_at_dt <= target_temp - TEMP_HYSTERESIS:
if current_temp + slope_min * self._dt <= target_temp:
_LOGGER.info(
"%s - We need to start, because it will be time to heat",
self,
)
return AUTO_START_STOP_ACTION_ON
else:
_LOGGER.debug(
"%s - nothing to do, we don't need to heat soon",
self,
)
return AUTO_START_STOP_ACTION_NOTHING
if hvac_mode == HVACMode.OFF and saved_hvac_mode == HVACMode.COOL:
if temp_at_dt >= target_temp + TEMP_HYSTERESIS:
if current_temp + slope_min * self._dt >= target_temp:
_LOGGER.info(
"%s - We need to start, because it will be time to cool",
self,
)
return AUTO_START_STOP_ACTION_ON
else:
_LOGGER.debug(
"%s - nothing to do, we don't need to cool soon",
self,
)
return AUTO_START_STOP_ACTION_NOTHING
_LOGGER.debug(
"%s - nothing to do, no conditions applied",
self,
)
return AUTO_START_STOP_ACTION_NOTHING
@@ -225,11 +214,6 @@ class AutoStartStopDetectionAlgorithm:
"""Get the accumulated error value"""
return self._accumulated_error
@property
def accumulated_error_threshold(self) -> float:
"""Get the accumulated error threshold value"""
return self._error_threshold
@property
def level(self) -> TYPE_AUTO_START_STOP_LEVELS:
"""Get the level value"""

245
custom_components/versatile_thermostat/base_thermostat.py
View File

@@ -19,10 +19,7 @@ from homeassistant.core import (
)
from homeassistant.components.climate import ClimateEntity
from homeassistant.helpers.restore_state import (
RestoreEntity,
async_get as restore_async_get,
)
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
@@ -65,7 +62,72 @@ from homeassistant.const import (
STATE_NOT_HOME,
)
from .const import * # pylint: disable=wildcard-import, unused-wildcard-import
from .const import (
DOMAIN,
DEVICE_MANUFACTURER,
CONF_POWER_SENSOR,
CONF_TEMP_SENSOR,
CONF_LAST_SEEN_TEMP_SENSOR,
CONF_EXTERNAL_TEMP_SENSOR,
CONF_MAX_POWER_SENSOR,
CONF_WINDOW_SENSOR,
CONF_WINDOW_DELAY,
CONF_WINDOW_AUTO_CLOSE_THRESHOLD,
CONF_WINDOW_AUTO_OPEN_THRESHOLD,
CONF_WINDOW_AUTO_MAX_DURATION,
CONF_MOTION_SENSOR,
CONF_MOTION_DELAY,
CONF_MOTION_OFF_DELAY,
CONF_MOTION_PRESET,
CONF_NO_MOTION_PRESET,
CONF_DEVICE_POWER,
CONF_PRESETS,
# CONF_PRESETS_AWAY,
# CONF_PRESETS_WITH_AC,
# CONF_PRESETS_AWAY_WITH_AC,
CONF_CYCLE_MIN,
CONF_PROP_FUNCTION,
CONF_TPI_COEF_INT,
CONF_TPI_COEF_EXT,
CONF_PRESENCE_SENSOR,
CONF_PRESET_POWER,
SUPPORT_FLAGS,
PRESET_FROST_PROTECTION,
PRESET_POWER,
PRESET_SECURITY,
PROPORTIONAL_FUNCTION_TPI,
PRESET_AWAY_SUFFIX,
CONF_SECURITY_DELAY_MIN,
CONF_SECURITY_MIN_ON_PERCENT,
CONF_SECURITY_DEFAULT_ON_PERCENT,
DEFAULT_SECURITY_MIN_ON_PERCENT,
DEFAULT_SECURITY_DEFAULT_ON_PERCENT,
CONF_MINIMAL_ACTIVATION_DELAY,
CONF_USE_MAIN_CENTRAL_CONFIG,
CONF_USE_TPI_CENTRAL_CONFIG,
CONF_USE_PRESETS_CENTRAL_CONFIG,
CONF_USE_WINDOW_CENTRAL_CONFIG,
CONF_USE_MOTION_CENTRAL_CONFIG,
CONF_USE_POWER_CENTRAL_CONFIG,
CONF_USE_PRESENCE_CENTRAL_CONFIG,
CONF_USE_ADVANCED_CENTRAL_CONFIG,
CONF_USE_PRESENCE_FEATURE,
CONF_TEMP_MAX,
CONF_TEMP_MIN,
HIDDEN_PRESETS,
CONF_AC_MODE,
EventType,
ATTR_MEAN_POWER_CYCLE,
ATTR_TOTAL_ENERGY,
PRESET_AC_SUFFIX,
DEFAULT_SHORT_EMA_PARAMS,
CENTRAL_MODE_AUTO,
CENTRAL_MODE_STOPPED,
CENTRAL_MODE_HEAT_ONLY,
CENTRAL_MODE_COOL_ONLY,
CENTRAL_MODE_FROST_PROTECTION,
send_vtherm_event,
)
from .config_schema import * # pylint: disable=wildcard-import, unused-wildcard-import
@@ -87,10 +149,6 @@ def get_tz(hass: HomeAssistant):
return dt_util.get_time_zone(hass.config.time_zone)
_LOGGER_ENERGY = logging.getLogger(
"custom_components.versatile_thermostat.energy_debug"
)
class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
"""Representation of a base class for all Versatile Thermostat device."""
@@ -141,8 +199,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
"is_device_active",
"target_temperature_step",
"is_used_by_central_boiler",
"temperature_slope",
"max_on_percent"
}
)
)
@@ -206,7 +262,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
self._attr_translation_key = "versatile_thermostat"
self._total_energy = None
_LOGGER_ENERGY.debug("%s - _init_ resetting energy to None", self)
# because energy of climate is calculated in the thermostat we have to keep that here and not in underlying entity
self._underlying_climate_start_hvac_action_date = None
@@ -248,8 +303,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
self._use_central_config_temperature = False
self._hvac_off_reason: HVAC_OFF_REASONS | None = None
self.post_init(entry_infos)
def clean_central_config_doublon(
@@ -479,7 +532,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
self._presence_state = None
self._total_energy = None
_LOGGER_ENERGY.debug("%s - post_init_ resetting energy to None", self)
# Read the parameter from configuration.yaml if it exists
short_ema_params = DEFAULT_SHORT_EMA_PARAMS
@@ -508,8 +560,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
entry_infos.get(CONF_WINDOW_ACTION) or CONF_WINDOW_TURN_OFF
)
self._max_on_percent = api._max_on_percent
_LOGGER.debug(
"%s - Creation of a new VersatileThermostat entity: unique_id=%s",
self,
@@ -597,24 +647,14 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
# issue 428. Link to others entities will start at link
# await self.async_startup()
async def async_will_remove_from_hass(self):
"""Try to force backup of entity"""
_LOGGER_ENERGY.debug(
"%s - force write before remove. Energy is %s", self, self.total_energy
)
# Force dump in background
await restore_async_get(self.hass).async_dump_states()
def remove_thermostat(self):
"""Called when the thermostat will be removed"""
_LOGGER.info("%s - Removing thermostat", self)
for under in self._underlyings:
under.remove_entity()
async def async_startup(self, central_configuration):
"""Triggered on startup, used to get old state and set internal states accordingly. This is triggered by
VTherm API"""
"""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)
@@ -808,29 +848,18 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
else:
self._attr_preset_mode = PRESET_NONE
# Restore old hvac_off_reason
self._hvac_off_reason = old_state.attributes.get(HVAC_OFF_REASON_NAME, None)
if old_state.state in [
HVACMode.OFF,
HVACMode.HEAT,
HVACMode.COOL,
]:
self._hvac_mode = old_state.state
# restpre also saved info so that window detection will work
self._saved_hvac_mode = old_state.attributes.get("saved_hvac_mode", None)
self._saved_preset_mode = old_state.attributes.get(
"saved_preset_mode", None
)
else:
if not self._hvac_mode:
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 is not None else 0
_LOGGER_ENERGY.debug(
"%s - get_my_previous_state restored energy is %s",
self,
self._total_energy,
)
self._total_energy = old_total_energy if old_total_energy else 0
self.restore_specific_previous_state(old_state)
else:
@@ -844,20 +873,13 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
"No previously saved temperature, setting to %s", self._target_temp
)
self._total_energy = 0
_LOGGER_ENERGY.debug(
"%s - get_my_previous_state no previous state energy is %s",
self,
self._total_energy,
)
if not self._hvac_mode:
self._hvac_mode = HVACMode.OFF
if not self.is_on and self.hvac_off_reason is None:
self.set_hvac_off_reason(HVAC_OFF_REASON_MANUAL)
self._saved_target_temp = self._target_temp
# Set default state to off
if not self._hvac_mode:
self._hvac_mode = HVACMode.OFF
self.send_event(EventType.PRESET_EVENT, {"preset": self._attr_preset_mode})
self.send_event(EventType.HVAC_MODE_EVENT, {"hvac_mode": self._hvac_mode})
@@ -965,6 +987,16 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
@property
def hvac_mode(self) -> HVACMode | None:
"""Return current operation."""
# Issue #114 - returns my current hvac_mode and not the underlying hvac_mode which could be different
# delta will be managed by climate_state_change event.
# if self.is_over_climate:
# if one not OFF -> return it
# else OFF
# for under in self._underlyings:
# if (mode := under.hvac_mode) not in [HVACMode.OFF]
# return mode
# return HVACMode.OFF
return self._hvac_mode
@property
@@ -1161,13 +1193,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
"""True if this VTHerm uses the central configuration temperature"""
return self._use_central_config_temperature
@property
def hvac_off_reason(self) -> HVAC_OFF_REASONS:
"""Returns the reason of the last switch to HVAC_OFF
This is useful for features that turns off the VTherm like
window detection or auto-start-stop"""
return self._hvac_off_reason
def underlying_entity_id(self, index=0) -> str | None:
"""The climate_entity_id. Added for retrocompatibility reason"""
if index < self.nb_underlying_entities:
@@ -1209,24 +1234,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
if hvac_mode is None:
return
def save_state():
self.reset_last_change_time()
self.update_custom_attributes()
self.async_write_ha_state()
self.send_event(EventType.HVAC_MODE_EVENT, {"hvac_mode": self._hvac_mode})
# If we already are in OFF, the manual OFF should just overwrite the reason and saved_hvac_mode
if self._hvac_mode == HVACMode.OFF and hvac_mode == HVACMode.OFF:
_LOGGER.info(
"%s - already in OFF. Change the reason to MANUAL and erase the saved_havc_mode"
)
self._hvac_off_reason = HVAC_OFF_REASON_MANUAL
self._saved_hvac_mode = HVACMode.OFF
save_state()
return
self._hvac_mode = hvac_mode
# Delegate to all underlying
@@ -1249,10 +1256,11 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
# Ensure we update the current operation after changing the mode
self.reset_last_temperature_time()
if self._hvac_mode != HVACMode.OFF:
self.set_hvac_off_reason(None)
self.reset_last_change_time()
save_state()
self.update_custom_attributes()
self.async_write_ha_state()
self.send_event(EventType.HVAC_MODE_EVENT, {"hvac_mode": self._hvac_mode})
@overrides
async def async_set_preset_mode(
@@ -1752,19 +1760,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
for under in self._underlyings:
await under.check_initial_state(self._hvac_mode)
# Prevent from starting a VTherm if window is open
if (
self.is_window_auto_enabled
and self._window_sensor_entity_id is not None
and self._hass.states.is_state(self._window_sensor_entity_id, STATE_ON)
and self.is_on
and self.window_action == CONF_WINDOW_TURN_OFF
):
_LOGGER.info("%s - the window is open. Prevent starting the VTherm")
self._window_auto_state = True
self.save_hvac_mode()
await self.async_set_hvac_mode(HVACMode.OFF)
# Starts the initial control loop (don't wait for an update of temperature)
await self.async_control_heating(force=True)
@@ -2101,10 +2096,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
self._hvac_mode,
)
def set_hvac_off_reason(self, hvac_off_reason: HVAC_OFF_REASONS):
"""Set the reason of hvac_off"""
self._hvac_off_reason = hvac_off_reason
async def restore_hvac_mode(self, need_control_heating=False):
"""Restore a previous hvac_mod"""
await self.async_set_hvac_mode(self._saved_hvac_mode, need_control_heating)
@@ -2236,34 +2227,27 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
if self.window_state is not STATE_ON and not first_init:
await self.restore_hvac_mode()
await self.restore_preset_mode()
elif self.window_state is STATE_ON and self.hvac_mode == HVACMode.OFF:
# do not restore but mark the reason of off with window detection
self.set_hvac_off_reason(HVAC_OFF_REASON_WINDOW_DETECTION)
return
if old_central_mode == CENTRAL_MODE_AUTO and self.window_state is not STATE_ON:
save_all()
if new_central_mode == CENTRAL_MODE_STOPPED:
if self.hvac_mode != HVACMode.OFF:
self.set_hvac_off_reason(HVAC_OFF_REASON_MANUAL)
await self.async_set_hvac_mode(HVACMode.OFF)
await self.async_set_hvac_mode(HVACMode.OFF)
return
if new_central_mode == CENTRAL_MODE_COOL_ONLY:
if HVACMode.COOL in self.hvac_modes:
await self.async_set_hvac_mode(HVACMode.COOL)
else:
self.set_hvac_off_reason(HVAC_OFF_REASON_MANUAL)
await self.async_set_hvac_mode(HVACMode.OFF)
return
if new_central_mode == CENTRAL_MODE_HEAT_ONLY:
if HVACMode.HEAT in self.hvac_modes:
await self.async_set_hvac_mode(HVACMode.HEAT)
# if not already off
elif self.hvac_mode != HVACMode.OFF:
self.set_hvac_off_reason(HVAC_OFF_REASON_MANUAL)
else:
await self.async_set_hvac_mode(HVACMode.OFF)
return
@@ -2277,7 +2261,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
PRESET_FROST_PROTECTION, overwrite_saved_preset=False
)
else:
self.set_hvac_off_reason(HVAC_OFF_REASON_MANUAL)
await self.async_set_hvac_mode(HVACMode.OFF)
return
@@ -2457,27 +2440,17 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
"""Change the window detection state.
new_state is on if an open window have been detected or off else
"""
if new_state is False:
if not new_state:
_LOGGER.info(
"%s - Window is closed. Restoring hvac_mode '%s' if stopped by window detection or temperature %s",
"%s - Window is closed. Restoring hvac_mode '%s' if central_mode is not STOPPED",
self,
self._saved_hvac_mode,
self._saved_target_temp,
)
if self._window_action in [CONF_WINDOW_FROST_TEMP, CONF_WINDOW_ECO_TEMP]:
await self._async_internal_set_temperature(self._saved_target_temp)
# default to TURN_OFF
elif self._window_action in [CONF_WINDOW_TURN_OFF]:
if (
self.last_central_mode != CENTRAL_MODE_STOPPED
and self.hvac_off_reason == HVAC_OFF_REASON_WINDOW_DETECTION
):
self.set_hvac_off_reason(None)
await self.restore_hvac_mode(True)
elif self._window_action in [CONF_WINDOW_FAN_ONLY]:
elif self._window_action in [CONF_WINDOW_TURN_OFF, CONF_WINDOW_FAN_ONLY]:
if self.last_central_mode != CENTRAL_MODE_STOPPED:
self.set_hvac_off_reason(None)
await self.restore_hvac_mode(True)
else:
_LOGGER.error(
@@ -2489,12 +2462,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
_LOGGER.info(
"%s - Window is open. Set hvac_mode to '%s'", self, HVACMode.OFF
)
if self._window_action == CONF_WINDOW_TURN_OFF and not self.is_on:
_LOGGER.debug(
"%s is already off. Forget turning off VTherm due to window detection"
)
return
if self.last_central_mode in [CENTRAL_MODE_AUTO, None]:
if self._window_action in [CONF_WINDOW_TURN_OFF, CONF_WINDOW_FAN_ONLY]:
self.save_hvac_mode()
@@ -2524,7 +2491,6 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
self.find_preset_temp(PRESET_ECO)
)
else: # default is to turn_off
self.set_hvac_off_reason(HVAC_OFF_REASON_WINDOW_DETECTION)
await self.async_set_hvac_mode(HVACMode.OFF)
async def async_control_heating(self, force=False, _=None) -> bool:
@@ -2667,27 +2633,8 @@ class BaseThermostat(ClimateEntity, RestoreEntity, Generic[T]):
"is_device_active": self.is_device_active,
"ema_temp": self._ema_temp,
"is_used_by_central_boiler": self.is_used_by_central_boiler,
"temperature_slope": round(self.last_temperature_slope or 0, 3),
"hvac_off_reason": self.hvac_off_reason,
"max_on_percent": self._max_on_percent,
}
_LOGGER_ENERGY.debug(
"%s - update_custom_attributes saved energy is %s",
self,
self.total_energy,
)
@overrides
def async_write_ha_state(self):
"""overrides to have log"""
_LOGGER_ENERGY.debug(
"%s - async_write_ha_state written state energy is %s",
self,
self._total_energy,
)
return super().async_write_ha_state()
@callback
def async_registry_entry_updated(self):
"""update the entity if the config entry have been updated

2
custom_components/versatile_thermostat/binary_sensor.py
View File

@@ -100,7 +100,7 @@ class SecurityBinarySensor(VersatileThermostatBaseEntity, BinarySensorEntity):
entry_infos,
) -> None:
"""Initialize the SecurityState Binary sensor"""
super().__init__(hass, unique_id, name)
super().__init__(hass, unique_id, entry_infos.get(CONF_NAME))
self._attr_name = "Security state"
self._attr_unique_id = f"{self._device_name}_security_state"
self._attr_is_on = False

1
custom_components/versatile_thermostat/commons.py
View File

@@ -17,6 +17,7 @@ from .const import DOMAIN, DEVICE_MANUFACTURER, ServiceConfigurationError
_LOGGER = logging.getLogger(__name__)
def get_tz(hass: HomeAssistant):
"""Get the current timezone"""

71
custom_components/versatile_thermostat/config_flow.py
View File

@@ -109,17 +109,17 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
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, False
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, False
CONF_USE_POWER_CENTRAL_CONFIG
) 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, False)
self._infos.get(CONF_USE_PRESENCE_CENTRAL_CONFIG)
or self._infos.get(CONF_PRESENCE_SENSOR) is not None
)
@@ -129,7 +129,7 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
)
self._infos[CONF_USE_AUTO_START_STOP_FEATURE] = (
self._infos.get(CONF_USE_AUTO_START_STOP_FEATURE, False) is True
self._infos.get(CONF_USE_AUTO_START_STOP_FEATURE) is True
and self._infos.get(CONF_THERMOSTAT_TYPE) == CONF_THERMOSTAT_CLIMATE
)
@@ -145,17 +145,12 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
CONF_USE_PRESETS_CENTRAL_CONFIG,
CONF_USE_PRESENCE_CENTRAL_CONFIG,
CONF_USE_ADVANCED_CENTRAL_CONFIG,
CONF_USE_CENTRAL_MODE,
):
if not is_empty:
current_config = self._infos.get(config, None)
self._infos[config] = self._central_config is not None and (
current_config is True or current_config is None
self._infos[config] = current_config is True or (
current_config is None and self._central_config is not None
)
# self._infos[config] = current_config is True or (
# current_config is None and self._central_config is not None
# )
else:
self._infos[config] = self._central_config is not None
@@ -170,7 +165,7 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
# check the heater_entity_id
for conf in [
CONF_UNDERLYING_LIST,
CONF_HEATER,
CONF_TEMP_SENSOR,
CONF_EXTERNAL_TEMP_SENSOR,
CONF_WINDOW_SENSOR,
@@ -178,17 +173,15 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
CONF_POWER_SENSOR,
CONF_MAX_POWER_SENSOR,
CONF_PRESENCE_SENSOR,
CONF_CLIMATE,
]:
d = data.get(conf, None) # pylint: disable=invalid-name
if not isinstance(d, list):
d = [d]
for e in d:
if e is not None and self.hass.states.get(e) is None:
_LOGGER.error(
"Entity id %s doesn't have any state. We cannot use it in the Versatile Thermostat configuration", # pylint: disable=line-too-long
e,
)
raise UnknownEntity(conf)
if d is not None and self.hass.states.get(d) is None:
_LOGGER.error(
"Entity id %s doesn't have any state. We cannot use it in the Versatile Thermostat configuration", # pylint: disable=line-too-long
d,
)
raise UnknownEntity(conf)
# Check that only one window feature is used
ws = self._infos.get(CONF_WINDOW_SENSOR) # pylint: disable=invalid-name
@@ -214,9 +207,6 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
CONF_USE_PRESENCE_CENTRAL_CONFIG,
CONF_USE_PRESETS_CENTRAL_CONFIG,
CONF_USE_ADVANCED_CENTRAL_CONFIG,
CONF_USE_CENTRAL_MODE,
# CONF_USE_CENTRAL_BOILER_FEATURE, this is for Central Config
CONF_USED_BY_CENTRAL_BOILER,
]:
if data.get(conf) is True:
_LOGGER.error(
@@ -280,8 +270,21 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
):
return False
if infos.get(CONF_UNDERLYING_LIST, None) is not None and not infos.get(
CONF_UNDERLYING_LIST, None
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
@@ -314,22 +317,6 @@ class VersatileThermostatBaseConfigFlow(FlowHandler):
):
return False
if (
infos.get(CONF_PROP_FUNCTION, None) == PROPORTIONAL_FUNCTION_TPI
and infos.get(CONF_USE_TPI_CENTRAL_CONFIG, False) is False
and (
infos.get(CONF_TPI_COEF_INT, None) is None
or infos.get(CONF_TPI_COEF_EXT) is None
)
):
return False
if (
infos.get(CONF_USE_PRESETS_CENTRAL_CONFIG, False) is True
and self._central_config is None
):
return False
return True
def merge_user_input(self, data_schema: vol.Schema, user_input: dict):

43
custom_components/versatile_thermostat/config_schema.py
View File

@@ -119,10 +119,17 @@ STEP_CENTRAL_BOILER_SCHEMA = vol.Schema(
STEP_THERMOSTAT_SWITCH = vol.Schema( # pylint: disable=invalid-name
{
vol.Required(CONF_UNDERLYING_LIST): selector.EntitySelector(
selector.EntitySelectorConfig(
domain=[SWITCH_DOMAIN, INPUT_BOOLEAN_DOMAIN], multiple=True
),
vol.Required(CONF_HEATER): selector.EntitySelector(
selector.EntitySelectorConfig(domain=[SWITCH_DOMAIN, INPUT_BOOLEAN_DOMAIN]),
),
vol.Optional(CONF_HEATER_2): selector.EntitySelector(
selector.EntitySelectorConfig(domain=[SWITCH_DOMAIN, INPUT_BOOLEAN_DOMAIN]),
),
vol.Optional(CONF_HEATER_3): selector.EntitySelector(
selector.EntitySelectorConfig(domain=[SWITCH_DOMAIN, INPUT_BOOLEAN_DOMAIN]),
),
vol.Optional(CONF_HEATER_4): selector.EntitySelector(
selector.EntitySelectorConfig(domain=[SWITCH_DOMAIN, INPUT_BOOLEAN_DOMAIN]),
),
vol.Optional(CONF_HEATER_KEEP_ALIVE): cv.positive_int,
vol.Required(CONF_PROP_FUNCTION, default=PROPORTIONAL_FUNCTION_TPI): vol.In(
@@ -137,8 +144,17 @@ STEP_THERMOSTAT_SWITCH = vol.Schema( # pylint: disable=invalid-name
STEP_THERMOSTAT_CLIMATE = vol.Schema( # pylint: disable=invalid-name
{
vol.Required(CONF_UNDERLYING_LIST): selector.EntitySelector(
selector.EntitySelectorConfig(domain=CLIMATE_DOMAIN, multiple=True),
vol.Required(CONF_CLIMATE): selector.EntitySelector(
selector.EntitySelectorConfig(domain=CLIMATE_DOMAIN),
),
vol.Optional(CONF_CLIMATE_2): selector.EntitySelector(
selector.EntitySelectorConfig(domain=CLIMATE_DOMAIN),
),
vol.Optional(CONF_CLIMATE_3): selector.EntitySelector(
selector.EntitySelectorConfig(domain=CLIMATE_DOMAIN),
),
vol.Optional(CONF_CLIMATE_4): selector.EntitySelector(
selector.EntitySelectorConfig(domain=CLIMATE_DOMAIN),
),
vol.Optional(CONF_AC_MODE, default=False): cv.boolean,
vol.Optional(
@@ -167,10 +183,17 @@ STEP_THERMOSTAT_CLIMATE = vol.Schema( # pylint: disable=invalid-name
STEP_THERMOSTAT_VALVE = vol.Schema( # pylint: disable=invalid-name
{
vol.Required(CONF_UNDERLYING_LIST): selector.EntitySelector(
selector.EntitySelectorConfig(
domain=[NUMBER_DOMAIN, INPUT_NUMBER_DOMAIN], multiple=True
),
vol.Required(CONF_VALVE): selector.EntitySelector(
selector.EntitySelectorConfig(domain=[NUMBER_DOMAIN, INPUT_NUMBER_DOMAIN]),
),
vol.Optional(CONF_VALVE_2): selector.EntitySelector(
selector.EntitySelectorConfig(domain=[NUMBER_DOMAIN, INPUT_NUMBER_DOMAIN]),
),
vol.Optional(CONF_VALVE_3): selector.EntitySelector(
selector.EntitySelectorConfig(domain=[NUMBER_DOMAIN, INPUT_NUMBER_DOMAIN]),
),
vol.Optional(CONF_VALVE_4): selector.EntitySelector(
selector.EntitySelectorConfig(domain=[NUMBER_DOMAIN, INPUT_NUMBER_DOMAIN]),
),
vol.Required(CONF_PROP_FUNCTION, default=PROPORTIONAL_FUNCTION_TPI): vol.In(
[

61
custom_components/versatile_thermostat/const.py
View File

@@ -23,8 +23,8 @@ from .prop_algorithm import (
_LOGGER = logging.getLogger(__name__)
CONFIG_VERSION = 2
CONFIG_MINOR_VERSION = 0
CONFIG_VERSION = 1
CONFIG_MINOR_VERSION = 2
PRESET_TEMP_SUFFIX = "_temp"
PRESET_AC_SUFFIX = "_ac"
@@ -52,10 +52,12 @@ PLATFORMS: list[Platform] = [
# Number should be after CLIMATE
Platform.NUMBER,
Platform.BINARY_SENSOR,
Platform.SWITCH,
]
CONF_UNDERLYING_LIST = "underlying_entity_ids"
CONF_HEATER = "heater_entity_id"
CONF_HEATER_2 = "heater_entity2_id"
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"
@@ -87,6 +89,10 @@ CONF_THERMOSTAT_CENTRAL_CONFIG = "thermostat_central_config"
CONF_THERMOSTAT_SWITCH = "thermostat_over_switch"
CONF_THERMOSTAT_CLIMATE = "thermostat_over_climate"
CONF_THERMOSTAT_VALVE = "thermostat_over_valve"
CONF_CLIMATE = "climate_entity_id"
CONF_CLIMATE_2 = "climate_entity2_id"
CONF_CLIMATE_3 = "climate_entity3_id"
CONF_CLIMATE_4 = "climate_entity4_id"
CONF_USE_WINDOW_FEATURE = "use_window_feature"
CONF_USE_MOTION_FEATURE = "use_motion_feature"
CONF_USE_PRESENCE_FEATURE = "use_presence_feature"
@@ -97,6 +103,10 @@ CONF_AC_MODE = "ac_mode"
CONF_WINDOW_AUTO_OPEN_THRESHOLD = "window_auto_open_threshold"
CONF_WINDOW_AUTO_CLOSE_THRESHOLD = "window_auto_close_threshold"
CONF_WINDOW_AUTO_MAX_DURATION = "window_auto_max_duration"
CONF_VALVE = "valve_entity_id"
CONF_VALVE_2 = "valve_entity2_id"
CONF_VALVE_3 = "valve_entity3_id"
CONF_VALVE_4 = "valve_entity4_id"
CONF_AUTO_REGULATION_MODE = "auto_regulation_mode"
CONF_AUTO_REGULATION_NONE = "auto_regulation_none"
CONF_AUTO_REGULATION_SLOW = "auto_regulation_slow"
@@ -116,24 +126,9 @@ CONF_AUTO_FAN_HIGH = "auto_fan_high"
CONF_AUTO_FAN_TURBO = "auto_fan_turbo"
CONF_STEP_TEMPERATURE = "step_temperature"
# Deprecated
CONF_HEATER = "heater_entity_id"
CONF_HEATER_2 = "heater_entity2_id"
CONF_HEATER_3 = "heater_entity3_id"
CONF_HEATER_4 = "heater_entity4_id"
CONF_CLIMATE = "climate_entity_id"
CONF_CLIMATE_2 = "climate_entity2_id"
CONF_CLIMATE_3 = "climate_entity3_id"
CONF_CLIMATE_4 = "climate_entity4_id"
CONF_VALVE = "valve_entity_id"
CONF_VALVE_2 = "valve_entity2_id"
CONF_VALVE_3 = "valve_entity3_id"
CONF_VALVE_4 = "valve_entity4_id"
# Global params into configuration.yaml
CONF_SHORT_EMA_PARAMS = "short_ema_params"
CONF_SAFETY_MODE = "safety_mode"
CONF_MAX_ON_PERCENT = "max_on_percent"
CONF_USE_MAIN_CENTRAL_CONFIG = "use_main_central_config"
CONF_USE_TPI_CENTRAL_CONFIG = "use_tpi_central_config"
@@ -172,16 +167,6 @@ TYPE_AUTO_START_STOP_LEVELS = Literal[ # pylint: disable=invalid-name
AUTO_START_STOP_LEVEL_NONE,
]
HVAC_OFF_REASON_NAME = "hvac_off_reason"
HVAC_OFF_REASON_MANUAL = "manual"
HVAC_OFF_REASON_AUTO_START_STOP = "auto_start_stop"
HVAC_OFF_REASON_WINDOW_DETECTION = "window_detection"
HVAC_OFF_REASONS = Literal[ # pylint: disable=invalid-name
HVAC_OFF_REASON_MANUAL,
HVAC_OFF_REASON_AUTO_START_STOP,
HVAC_OFF_REASON_WINDOW_DETECTION,
]
DEFAULT_SHORT_EMA_PARAMS = {
"max_alpha": 0.5,
# In sec
@@ -253,6 +238,10 @@ CONF_PRESETS_AWAY_WITH_AC_VALUES = list(CONF_PRESETS_AWAY_WITH_AC.values())
ALL_CONF = (
[
CONF_NAME,
CONF_HEATER,
CONF_HEATER_2,
CONF_HEATER_3,
CONF_HEATER_4,
CONF_HEATER_KEEP_ALIVE,
CONF_TEMP_SENSOR,
CONF_EXTERNAL_TEMP_SENSOR,
@@ -282,12 +271,20 @@ ALL_CONF = (
CONF_THERMOSTAT_TYPE,
CONF_THERMOSTAT_SWITCH,
CONF_THERMOSTAT_CLIMATE,
CONF_CLIMATE,
CONF_CLIMATE_2,
CONF_CLIMATE_3,
CONF_CLIMATE_4,
CONF_USE_WINDOW_FEATURE,
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,
CONF_VALVE_3,
CONF_VALVE_4,
CONF_AUTO_REGULATION_MODE,
CONF_AUTO_REGULATION_DTEMP,
CONF_AUTO_REGULATION_PERIOD_MIN,
@@ -355,11 +352,7 @@ CONF_WINDOW_ACTIONS = [
CONF_WINDOW_ECO_TEMP,
]
SUPPORT_FLAGS = (
ClimateEntityFeature.TARGET_TEMPERATURE
| ClimateEntityFeature.TURN_OFF
| ClimateEntityFeature.TURN_ON
)
SUPPORT_FLAGS = ClimateEntityFeature.TARGET_TEMPERATURE | ClimateEntityFeature.TURN_OFF | ClimateEntityFeature.TURN_ON
SERVICE_SET_PRESENCE = "set_presence"
SERVICE_SET_PRESET_TEMPERATURE = "set_preset_temperature"

18
custom_components/versatile_thermostat/icons.json
View File

@@ -1,18 +0,0 @@
{
"entity": {
"climate": {
"versatile_thermostat": {
"state_attributes": {
"preset_mode": {
"state": {
"shedding": "mdi:power-plug-off",
"safety": "mdi:shield-alert",
"none": "mdi:knob",
"frost": "mdi:snowflake"
}
}
}
}
}
}
}

2
custom_components/versatile_thermostat/manifest.json
View File

@@ -14,6 +14,6 @@
"quality_scale": "silver",
"requirements": [],
"ssdp": [],
"version": "6.7.0",
"version": "6.5.0",
"zeroconf": []
}

11
custom_components/versatile_thermostat/prop_algorithm.py
View File

@@ -31,7 +31,6 @@ class PropAlgorithm:
cycle_min: int,
minimal_activation_delay: int,
vtherm_entity_id: str = None,
max_on_percent: float = None,
) -> None:
"""Initialisation of the Proportional Algorithm"""
_LOGGER.debug(
@@ -79,7 +78,6 @@ class PropAlgorithm:
self._off_time_sec = self._cycle_min * 60
self._security = False
self._default_on_percent = 0
self._max_on_percent = max_on_percent
def calculate(
self,
@@ -163,15 +161,6 @@ class PropAlgorithm:
)
self._on_percent = self._calculated_on_percent
if self._max_on_percent is not None and self._on_percent > self._max_on_percent:
_LOGGER.debug(
"%s - Heating period clamped to %s (instead of %s) due to max_on_percent setting.",
self._vtherm_entity_id,
self._max_on_percent,
self._on_percent,
)
self._on_percent = self._max_on_percent
self._on_time_sec = self._on_percent * self._cycle_min * 60
# Do not heat for less than xx sec

55
custom_components/versatile_thermostat/strings.json
View File

@@ -72,10 +72,21 @@
"title": "Linked entities",
"description": "Linked entities attributes",
"data": {
"underlying_entity_ids": "The device(s) to be controlled",
"heater_entity_id": "1st heater switch",
"heater_entity2_id": "2nd heater switch",
"heater_entity3_id": "3rd heater switch",
"heater_entity4_id": "4th heater switch",
"heater_keep_alive": "Switch keep-alive interval in seconds",
"proportional_function": "Algorithm",
"climate_entity_id": "1st underlying climate",
"climate_entity2_id": "2nd underlying climate",
"climate_entity3_id": "3rd underlying climate",
"climate_entity4_id": "4th underlying climate",
"ac_mode": "AC mode",
"valve_entity_id": "1st valve number",
"valve_entity2_id": "2nd valve number",
"valve_entity3_id": "3rd valve number",
"valve_entity4_id": "4th valve number",
"auto_regulation_mode": "Self-regulation",
"auto_regulation_dtemp": "Regulation threshold",
"auto_regulation_periode_min": "Regulation minimum period",
@@ -84,10 +95,21 @@
"auto_fan_mode": "Auto fan mode"
},
"data_description": {
"underlying_entity_ids": "The device(s) to be controlled - 1 is required",
"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_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",
"climate_entity2_id": "2nd underlying climate entity id",
"climate_entity3_id": "3rd underlying climate entity id",
"climate_entity4_id": "4th underlying climate entity id",
"ac_mode": "Use the Air Conditioning (AC) mode",
"valve_entity_id": "1st valve number entity id",
"valve_entity2_id": "2nd valve number entity id",
"valve_entity3_id": "3rd valve number entity id",
"valve_entity4_id": "4th valve number entity id",
"auto_regulation_mode": "Auto adjustment of the target temperature",
"auto_regulation_dtemp": "The threshold in ° (or % for valve) under which the temperature change will not be sent",
"auto_regulation_periode_min": "Duration in minutes between two regulation update",
@@ -287,10 +309,21 @@
"title": "Entities - {name}",
"description": "Linked entities attributes",
"data": {
"underlying_entity_ids": "The device(s) to be controlled",
"heater_entity_id": "1st heater switch",
"heater_entity2_id": "2nd heater switch",
"heater_entity3_id": "3rd heater switch",
"heater_entity4_id": "4th heater switch",
"heater_keep_alive": "Switch keep-alive interval in seconds",
"proportional_function": "Algorithm",
"climate_entity_id": "1st underlying climate",
"climate_entity2_id": "2nd underlying climate",
"climate_entity3_id": "3rd underlying climate",
"climate_entity4_id": "4th underlying climate",
"ac_mode": "AC mode",
"valve_entity_id": "1st valve number",
"valve_entity2_id": "2nd valve number",
"valve_entity3_id": "3rd valve number",
"valve_entity4_id": "4th valve number",
"auto_regulation_mode": "Self-regulation",
"auto_regulation_dtemp": "Regulation threshold",
"auto_regulation_periode_min": "Regulation minimum period",
@@ -299,10 +332,21 @@
"auto_fan_mode": "Auto fan mode"
},
"data_description": {
"underlying_entity_ids": "The device(s) to be controlled - 1 is required",
"heater_entity_id": "Mandatory heater entity id",
"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",
"climate_entity2_id": "2nd underlying climate entity id",
"climate_entity3_id": "3rd underlying climate entity id",
"climate_entity4_id": "4th underlying climate entity id",
"ac_mode": "Use the Air Conditioning (AC) mode",
"valve_entity_id": "1st valve number entity id",
"valve_entity2_id": "2nd valve number entity id",
"valve_entity3_id": "3rd valve number entity id",
"valve_entity4_id": "4th valve number entity id",
"auto_regulation_mode": "Auto adjustment of the target temperature",
"auto_regulation_dtemp": "The threshold in ° (or % for valve) under which the temperature change will not be sent",
"auto_regulation_periode_min": "Duration in minutes between two regulation update",
@@ -492,8 +536,7 @@
"state": {
"power": "Shedding",
"security": "Safety",
"none": "Manual",
"frost": "Frost"
"none": "Manual"
}
}
}

168
custom_components/versatile_thermostat/switch.py
View File

@@ -1,168 +0,0 @@
## pylint: disable=unused-argument
""" Implements the VersatileThermostat select component """
import logging
from typing import Any
from homeassistant.core import HomeAssistant, callback
from homeassistant.components.switch import SwitchEntity
from homeassistant.config_entries import ConfigEntry
from homeassistant.helpers.restore_state import RestoreEntity
from homeassistant.helpers.entity_platform import AddEntitiesCallback
from .commons import VersatileThermostatBaseEntity
from .const import * # pylint: disable=unused-wildcard-import,wildcard-import
_LOGGER = logging.getLogger(__name__)
async def async_setup_entry(
hass: HomeAssistant,
entry: ConfigEntry,
async_add_entities: AddEntitiesCallback,
) -> None:
"""Set up the VersatileThermostat switches with config flow."""
_LOGGER.debug(
"Calling async_setup_entry entry=%s, data=%s", entry.entry_id, entry.data
)
unique_id = entry.entry_id
name = entry.data.get(CONF_NAME)
vt_type = entry.data.get(CONF_THERMOSTAT_TYPE)
auto_start_stop_feature = entry.data.get(CONF_USE_AUTO_START_STOP_FEATURE)
entities = []
if vt_type == CONF_THERMOSTAT_CLIMATE:
entities.append(FollowUnderlyingTemperatureChange(hass, unique_id, name, entry))
if auto_start_stop_feature is True:
# Creates a switch to enable the auto-start/stop
enable_entity = AutoStartStopEnable(hass, unique_id, name, entry)
entities.append(enable_entity)
async_add_entities(entities, True)
class AutoStartStopEnable(VersatileThermostatBaseEntity, SwitchEntity, RestoreEntity):
"""The that enables the ManagedDevice optimisation with"""
def __init__(
self, hass: HomeAssistant, unique_id: str, name: str, entry_infos: ConfigEntry
):
super().__init__(hass, unique_id, name)
self._attr_name = "Enable auto start/stop"
self._attr_unique_id = f"{self._device_name}_enable_auto_start_stop"
self._default_value = (
entry_infos.data.get(CONF_AUTO_START_STOP_LEVEL)
!= AUTO_START_STOP_LEVEL_NONE
)
self._attr_is_on = self._default_value
@property
def icon(self) -> str | None:
"""The icon"""
return "mdi:power-sleep"
async def async_added_to_hass(self):
await super().async_added_to_hass()
# Récupérer le dernier état sauvegardé de l'entité
last_state = await self.async_get_last_state()
# Si l'état précédent existe, vous pouvez l'utiliser
if last_state is not None:
self._attr_is_on = last_state.state == "on"
else:
# If no previous state set it to false by default
self._attr_is_on = self._default_value
self.update_my_state_and_vtherm()
def update_my_state_and_vtherm(self):
"""Update the auto_start_stop_enable flag in my VTherm"""
self.async_write_ha_state()
if self.my_climate is not None:
self.my_climate.set_auto_start_stop_enable(self._attr_is_on)
@callback
async def async_turn_on(self, **kwargs: Any) -> None:
"""Turn the entity on."""
self.turn_on()
@callback
async def async_turn_off(self, **kwargs: Any) -> None:
"""Turn the entity off."""
self.turn_off()
@overrides
def turn_off(self, **kwargs: Any):
self._attr_is_on = False
self.update_my_state_and_vtherm()
@overrides
def turn_on(self, **kwargs: Any):
self._attr_is_on = True
self.update_my_state_and_vtherm()
class FollowUnderlyingTemperatureChange(
VersatileThermostatBaseEntity, SwitchEntity, RestoreEntity
):
"""The that enables the ManagedDevice optimisation with"""
def __init__(
self, hass: HomeAssistant, unique_id: str, name: str, entry_infos: ConfigEntry
):
super().__init__(hass, unique_id, name)
self._attr_name = "Follow underlying temp change"
self._attr_unique_id = f"{self._device_name}_follow_underlying_temp_change"
self._attr_is_on = False
@property
def icon(self) -> str | None:
"""The icon"""
return "mdi:content-copy"
async def async_added_to_hass(self):
await super().async_added_to_hass()
# Récupérer le dernier état sauvegardé de l'entité
last_state = await self.async_get_last_state()
# Si l'état précédent existe, vous pouvez l'utiliser
if last_state is not None:
self._attr_is_on = last_state.state == "on"
else:
# If no previous state set it to false by default
self._attr_is_on = False
self.update_my_state_and_vtherm()
def update_my_state_and_vtherm(self):
"""Update the follow flag in my VTherm"""
self.async_write_ha_state()
if self.my_climate is not None:
self.my_climate.set_follow_underlying_temp_change(self._attr_is_on)
@callback
async def async_turn_on(self, **kwargs: Any) -> None:
"""Turn the entity on."""
self.turn_on()
@callback
async def async_turn_off(self, **kwargs: Any) -> None:
"""Turn the entity off."""
self.turn_off()
@overrides
def turn_off(self, **kwargs: Any):
self._attr_is_on = False
self.update_my_state_and_vtherm()
@overrides
def turn_on(self, **kwargs: Any):
self._attr_is_on = True
self.update_my_state_and_vtherm()

207
custom_components/versatile_thermostat/thermostat_climate.py
View File

@@ -20,7 +20,41 @@ from .commons import NowClass, round_to_nearest
from .base_thermostat import BaseThermostat, ConfigData
from .pi_algorithm import PITemperatureRegulator
from .const import * # pylint: disable=wildcard-import, unused-wildcard-import
from .const import (
overrides,
DOMAIN,
CONF_CLIMATE,
CONF_CLIMATE_2,
CONF_CLIMATE_3,
CONF_CLIMATE_4,
CONF_AUTO_REGULATION_MODE,
CONF_AUTO_REGULATION_NONE,
CONF_AUTO_REGULATION_SLOW,
CONF_AUTO_REGULATION_LIGHT,
CONF_AUTO_REGULATION_MEDIUM,
CONF_AUTO_REGULATION_STRONG,
CONF_AUTO_REGULATION_EXPERT,
CONF_AUTO_REGULATION_DTEMP,
CONF_AUTO_REGULATION_PERIOD_MIN,
CONF_AUTO_REGULATION_USE_DEVICE_TEMP,
CONF_AUTO_FAN_MODE,
CONF_AUTO_FAN_NONE,
CONF_AUTO_FAN_LOW,
CONF_AUTO_FAN_MEDIUM,
CONF_AUTO_FAN_HIGH,
CONF_AUTO_FAN_TURBO,
RegulationParamSlow,
RegulationParamLight,
RegulationParamMedium,
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
@@ -31,10 +65,6 @@ from .auto_start_stop_algorithm import (
)
_LOGGER = logging.getLogger(__name__)
_LOGGER_ENERGY = logging.getLogger(
"custom_components.versatile_thermostat.energy_debug"
)
HVAC_ACTION_ON = [ # pylint: disable=invalid-name
HVACAction.COOLING,
@@ -61,8 +91,6 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
_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
_is_auto_start_stop_enabled: bool = False
_follow_underlying_temp_change: bool = False
_entity_component_unrecorded_attributes = (
BaseThermostat._entity_component_unrecorded_attributes.union(
@@ -70,7 +98,10 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
{
"is_over_climate",
"start_hvac_action_date",
"underlying_entities",
"underlying_climate_0",
"underlying_climate_1",
"underlying_climate_2",
"underlying_climate_3",
"regulation_accumulated_error",
"auto_regulation_mode",
"auto_fan_mode",
@@ -79,11 +110,8 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
"auto_deactivated_fan_mode",
"auto_regulation_use_device_temp",
"auto_start_stop_level",
"auto_start_stop_dtemp",
"auto_start_stop_dtmin",
"auto_start_stop_enable",
"auto_start_stop_accumulated_error",
"auto_start_stop_accumulated_error_threshold",
"follow_underlying_temp_change",
}
)
)
@@ -103,15 +131,20 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
"""Initialize the Thermostat"""
super().post_init(config_entry)
for climate in config_entry.get(CONF_UNDERLYING_LIST):
self._underlyings.append(
UnderlyingClimate(
hass=self._hass,
thermostat=self,
climate_entity_id=climate,
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)
@@ -140,14 +173,9 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
CONF_AUTO_REGULATION_USE_DEVICE_TEMP, False
)
use_auto_start_stop = config_entry.get(CONF_USE_AUTO_START_STOP_FEATURE, False)
if use_auto_start_stop:
self._auto_start_stop_level = config_entry.get(
CONF_AUTO_START_STOP_LEVEL, AUTO_START_STOP_LEVEL_NONE
)
else:
self._auto_start_stop_level = AUTO_START_STOP_LEVEL_NONE
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
@@ -502,10 +530,18 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
self._attr_extra_state_attributes["start_hvac_action_date"] = (
self._underlying_climate_start_hvac_action_date
)
self._attr_extra_state_attributes["underlying_entities"] = [
underlying.entity_id for underlying in self._underlyings
]
self._attr_extra_state_attributes["underlying_climate_0"] = self._underlyings[
0
].entity_id
self._attr_extra_state_attributes["underlying_climate_1"] = (
self._underlyings[1].entity_id if len(self._underlyings) > 1 else None
)
self._attr_extra_state_attributes["underlying_climate_2"] = (
self._underlyings[2].entity_id if len(self._underlyings) > 2 else None
)
self._attr_extra_state_attributes["underlying_climate_3"] = (
self._underlyings[3].entity_id if len(self._underlyings) > 3 else None
)
if self.is_regulated:
self._attr_extra_state_attributes["is_regulated"] = self.is_regulated
@@ -536,30 +572,14 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
self.auto_regulation_use_device_temp
)
self._attr_extra_state_attributes["auto_start_stop_enable"] = (
self.auto_start_stop_enable
)
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._attr_extra_state_attributes["auto_start_stop_accumulated_error"] = (
self._auto_start_stop_algo.accumulated_error
)
self._attr_extra_state_attributes[
"auto_start_stop_accumulated_error_threshold"
] = self._auto_start_stop_algo.accumulated_error_threshold
self._attr_extra_state_attributes["follow_underlying_temp_change"] = (
self._follow_underlying_temp_change
)
self.async_write_ha_state()
_LOGGER.debug(
"%s - Calling update_custom_attributes: %s",
self,
@@ -606,18 +626,8 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
if self._total_energy is None:
self._total_energy = added_energy
_LOGGER_ENERGY.debug(
"%s - incremente_energy set energy is %s",
self,
self._total_energy,
)
else:
self._total_energy += added_energy
_LOGGER_ENERGY.debug(
"%s - incremente_energy incremented energy is %s",
self,
self._total_energy,
)
_LOGGER.debug(
"%s - added energy is %.3f . Total energy is now: %.3f",
@@ -725,7 +735,7 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
)
return
# Ignore new target temperature when out of range
# 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
@@ -739,8 +749,7 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
self._attr_min_temp,
self._attr_max_temp,
)
new_target_temp = None
under_temp_diff = 0
return
# A real changes have to be managed
_LOGGER.info(
@@ -859,12 +868,7 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
changes = True
# try to manage new target temperature set if state if no other changes have been found
# and if a target temperature have already been sent
if (
self._follow_underlying_temp_change
and not changes
and under.last_sent_temperature is not None
):
if not changes:
_LOGGER.debug(
"Do temperature check. under.last_sent_temperature is %s, new_target_temp is %s",
under.last_sent_temperature,
@@ -888,25 +892,25 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
await end_climate_changed(changes)
async def check_auto_start_stop(self):
"""Check the auto-start-stop and an eventual action
Return False if we should stop the control_heating method"""
slope = (self.last_temperature_slope or 0) / 60 # to have the slope in °/min
@overrides
async def async_control_heating(self, force=False, _=None) -> bool:
"""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,
slope,
self.now,
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 and self.is_on:
if action == AUTO_START_STOP_ACTION_OFF:
_LOGGER.info(
"%s - Turning OFF the Vtherm due to auto-start-stop conditions",
self,
"%s - Turning OFF the Vtherm due to auto-start-stop conditions", self
)
self.set_hvac_off_reason(HVAC_OFF_REASON_AUTO_START_STOP)
await self.async_turn_off()
# Send an event
@@ -914,20 +918,17 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "stop",
"name": self.name,
"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": round(slope, 3),
"accumulated_error": self._auto_start_stop_algo.accumulated_error,
"accumulated_error_threshold": self._auto_start_stop_algo.accumulated_error_threshold,
"temperature_slope": self._window_auto_algo.last_slope,
},
)
# Stop here
return False
return ret
elif action == AUTO_START_STOP_ACTION_ON:
_LOGGER.info(
"%s - Turning ON the Vtherm due to auto-start-stop conditions", self
@@ -939,35 +940,15 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "start",
"name": self.name,
"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": round(slope, 3),
"accumulated_error": self._auto_start_stop_algo.accumulated_error,
"accumulated_error_threshold": self._auto_start_stop_algo.accumulated_error_threshold,
"temperature_slope": self._window_auto_algo.last_slope,
},
)
self.update_custom_attributes()
return True
@overrides
async def async_control_heating(self, force=False, _=None) -> bool:
"""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
if self.auto_start_stop_enable:
continu = await self.check_auto_start_stop()
if not continu:
return ret
else:
_LOGGER.debug("%s - auto start/stop is disabled")
# Continue the normal async_control_heating
# Send the regulated temperature to the underlyings
@@ -978,16 +959,6 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
return ret
def set_auto_start_stop_enable(self, is_enabled: bool):
"""Enable/Disable the auto-start/stop feature"""
self._is_auto_start_stop_enabled = is_enabled
self.update_custom_attributes()
def set_follow_underlying_temp_change(self, follow: bool):
"""Set the flaf follow the underlying temperature changes"""
self._follow_underlying_temp_change = follow
self.update_custom_attributes()
@property
def auto_regulation_mode(self) -> str | None:
"""Get the regulation mode"""
@@ -1139,16 +1110,6 @@ class ThermostatOverClimate(BaseThermostat[UnderlyingClimate]):
"""Return the auto start/stop level."""
return self._auto_start_stop_level
@property
def auto_start_stop_enable(self) -> bool:
"""Returns the auto_start_stop_enable"""
return self._is_auto_start_stop_enabled
@property
def follow_underlying_temp_change(self) -> bool:
"""Get the follow underlying temp change flag"""
return self._follow_underlying_temp_change
@overrides
def init_underlyings(self):
"""Init the underlyings if not already done"""

51
custom_components/versatile_thermostat/thermostat_switch.py
View File

@@ -10,7 +10,10 @@ from homeassistant.helpers.event import (
from homeassistant.components.climate import HVACMode
from .const import (
CONF_UNDERLYING_LIST,
CONF_HEATER,
CONF_HEATER_2,
CONF_HEATER_3,
CONF_HEATER_4,
CONF_HEATER_KEEP_ALIVE,
CONF_INVERSE_SWITCH,
overrides,
@@ -21,9 +24,7 @@ from .underlyings import UnderlyingSwitch
from .prop_algorithm import PropAlgorithm
_LOGGER = logging.getLogger(__name__)
_LOGGER_ENERGY = logging.getLogger(
"custom_components.versatile_thermostat.energy_debug"
)
class ThermostatOverSwitch(BaseThermostat[UnderlyingSwitch]):
"""Representation of a base class for a Versatile Thermostat over a switch."""
@@ -34,7 +35,10 @@ class ThermostatOverSwitch(BaseThermostat[UnderlyingSwitch]):
{
"is_over_switch",
"is_inversed",
"underlying_entities",
"underlying_switch_0",
"underlying_switch_1",
"underlying_switch_2",
"underlying_switch_3",
"on_time_sec",
"off_time_sec",
"cycle_min",
@@ -42,7 +46,6 @@ class ThermostatOverSwitch(BaseThermostat[UnderlyingSwitch]):
"tpi_coef_int",
"tpi_coef_ext",
"power_percent",
"calculated_on_percent",
}
)
)
@@ -85,10 +88,15 @@ class ThermostatOverSwitch(BaseThermostat[UnderlyingSwitch]):
self._cycle_min,
self._minimal_activation_delay,
self.name,
max_on_percent=self._max_on_percent,
)
lst_switches = config_entry.get(CONF_UNDERLYING_LIST)
lst_switches = [config_entry.get(CONF_HEATER)]
if config_entry.get(CONF_HEATER_2):
lst_switches.append(config_entry.get(CONF_HEATER_2))
if config_entry.get(CONF_HEATER_3):
lst_switches.append(config_entry.get(CONF_HEATER_3))
if config_entry.get(CONF_HEATER_4):
lst_switches.append(config_entry.get(CONF_HEATER_4))
delta_cycle = self._cycle_min * 60 / len(lst_switches)
for idx, switch in enumerate(lst_switches):
@@ -132,10 +140,16 @@ class ThermostatOverSwitch(BaseThermostat[UnderlyingSwitch]):
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_entities"] = [
underlying.entity_id for underlying in self._underlyings
]
self._attr_extra_state_attributes["underlying_switch_0"] = under0.entity_id
self._attr_extra_state_attributes["underlying_switch_1"] = (
self._underlyings[1].entity_id if len(self._underlyings) > 1 else None
)
self._attr_extra_state_attributes["underlying_switch_2"] = (
self._underlyings[2].entity_id if len(self._underlyings) > 2 else None
)
self._attr_extra_state_attributes["underlying_switch_3"] = (
self._underlyings[3].entity_id if len(self._underlyings) > 3 else None
)
self._attr_extra_state_attributes[
"on_percent"
@@ -151,9 +165,6 @@ class ThermostatOverSwitch(BaseThermostat[UnderlyingSwitch]):
self._attr_extra_state_attributes["function"] = self._proportional_function
self._attr_extra_state_attributes["tpi_coef_int"] = self._tpi_coef_int
self._attr_extra_state_attributes["tpi_coef_ext"] = self._tpi_coef_ext
self._attr_extra_state_attributes[
"calculated_on_percent"
] = self._prop_algorithm.calculated_on_percent
self.async_write_ha_state()
_LOGGER.debug(
@@ -190,18 +201,8 @@ class ThermostatOverSwitch(BaseThermostat[UnderlyingSwitch]):
if self._total_energy is None:
self._total_energy = added_energy
_LOGGER_ENERGY.debug(
"%s - incremente_energy set energy is %s",
self,
self._total_energy,
)
else:
self._total_energy += added_energy
_LOGGER_ENERGY.debug(
"%s - incremente_energy increment energy is %s",
self,
self._total_energy,
)
self.update_custom_attributes()

53
custom_components/versatile_thermostat/thermostat_valve.py
View File

@@ -15,7 +15,10 @@ from .base_thermostat import BaseThermostat, ConfigData
from .prop_algorithm import PropAlgorithm
from .const import (
CONF_UNDERLYING_LIST,
CONF_VALVE,
CONF_VALVE_2,
CONF_VALVE_3,
CONF_VALVE_4,
# This is not really self-regulation but regulation here
CONF_AUTO_REGULATION_DTEMP,
CONF_AUTO_REGULATION_PERIOD_MIN,
@@ -25,9 +28,7 @@ from .const import (
from .underlyings import UnderlyingValve
_LOGGER = logging.getLogger(__name__)
_LOGGER_ENERGY = logging.getLogger(
"custom_components.versatile_thermostat.energy_debug"
)
class ThermostatOverValve(BaseThermostat[UnderlyingValve]): # pylint: disable=abstract-method
"""Representation of a class for a Versatile Thermostat over a Valve"""
@@ -36,7 +37,10 @@ class ThermostatOverValve(BaseThermostat[UnderlyingValve]): # pylint: disable=a
frozenset(
{
"is_over_valve",
"underlying_entities",
"underlying_valve_0",
"underlying_valve_1",
"underlying_valve_2",
"underlying_valve_3",
"on_time_sec",
"off_time_sec",
"cycle_min",
@@ -46,7 +50,6 @@ class ThermostatOverValve(BaseThermostat[UnderlyingValve]): # pylint: disable=a
"auto_regulation_dpercent",
"auto_regulation_period_min",
"last_calculation_timestamp",
"calculated_on_percent",
}
)
)
@@ -100,10 +103,15 @@ class ThermostatOverValve(BaseThermostat[UnderlyingValve]): # pylint: disable=a
self._cycle_min,
self._minimal_activation_delay,
self.name,
max_on_percent=self._max_on_percent,
)
lst_valves = config_entry.get(CONF_UNDERLYING_LIST)
lst_valves = [config_entry.get(CONF_VALVE)]
if config_entry.get(CONF_VALVE_2):
lst_valves.append(config_entry.get(CONF_VALVE_2))
if config_entry.get(CONF_VALVE_3):
lst_valves.append(config_entry.get(CONF_VALVE_3))
if config_entry.get(CONF_VALVE_4):
lst_valves.append(config_entry.get(CONF_VALVE_4))
for _, valve in enumerate(lst_valves):
self._underlyings.append(
@@ -155,10 +163,18 @@ class ThermostatOverValve(BaseThermostat[UnderlyingValve]): # pylint: disable=a
"valve_open_percent"
] = self.valve_open_percent
self._attr_extra_state_attributes["is_over_valve"] = self.is_over_valve
self._attr_extra_state_attributes["underlying_entities"] = [
underlying.entity_id for underlying in self._underlyings
]
self._attr_extra_state_attributes["underlying_valve_0"] = self._underlyings[
0
].entity_id
self._attr_extra_state_attributes["underlying_valve_1"] = (
self._underlyings[1].entity_id if len(self._underlyings) > 1 else None
)
self._attr_extra_state_attributes["underlying_valve_2"] = (
self._underlyings[2].entity_id if len(self._underlyings) > 2 else None
)
self._attr_extra_state_attributes["underlying_valve_3"] = (
self._underlyings[3].entity_id if len(self._underlyings) > 3 else None
)
self._attr_extra_state_attributes[
"on_percent"
@@ -184,9 +200,6 @@ class ThermostatOverValve(BaseThermostat[UnderlyingValve]): # pylint: disable=a
if self._last_calculation_timestamp
else None
)
self._attr_extra_state_attributes[
"calculated_on_percent"
] = self._prop_algorithm.calculated_on_percent
self.async_write_ha_state()
_LOGGER.debug(
@@ -272,18 +285,8 @@ class ThermostatOverValve(BaseThermostat[UnderlyingValve]): # pylint: disable=a
if self._total_energy is None:
self._total_energy = added_energy
_LOGGER_ENERGY.debug(
"%s - incremente_energy set energy is %s",
self,
self._total_energy,
)
else:
self._total_energy += added_energy
_LOGGER_ENERGY.debug(
"%s - get_my_previous_state increment energy is %s",
self,
self._total_energy,
)
self.update_custom_attributes()

59
custom_components/versatile_thermostat/translations/en.json
View File

@@ -64,7 +64,7 @@
"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 selecting 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_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"
}
},
@@ -72,10 +72,21 @@
"title": "Linked entities",
"description": "Linked entities attributes",
"data": {
"underlying_entity_ids": "The device(s) to be controlled",
"heater_entity_id": "1st heater switch",
"heater_entity2_id": "2nd heater switch",
"heater_entity3_id": "3rd heater switch",
"heater_entity4_id": "4th heater switch",
"heater_keep_alive": "Switch keep-alive interval in seconds",
"proportional_function": "Algorithm",
"climate_entity_id": "1st underlying climate",
"climate_entity2_id": "2nd underlying climate",
"climate_entity3_id": "3rd underlying climate",
"climate_entity4_id": "4th underlying climate",
"ac_mode": "AC mode",
"valve_entity_id": "1st valve number",
"valve_entity2_id": "2nd valve number",
"valve_entity3_id": "3rd valve number",
"valve_entity4_id": "4th valve number",
"auto_regulation_mode": "Self-regulation",
"auto_regulation_dtemp": "Regulation threshold",
"auto_regulation_periode_min": "Regulation minimum period",
@@ -84,10 +95,21 @@
"auto_fan_mode": "Auto fan mode"
},
"data_description": {
"underlying_entity_ids": "The device(s) to be controlled - 1 is required",
"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_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",
"climate_entity2_id": "2nd underlying climate entity id",
"climate_entity3_id": "3rd underlying climate entity id",
"climate_entity4_id": "4th underlying climate entity id",
"ac_mode": "Use the Air Conditioning (AC) mode",
"valve_entity_id": "1st valve number entity id",
"valve_entity2_id": "2nd valve number entity id",
"valve_entity3_id": "3rd valve number entity id",
"valve_entity4_id": "4th valve number entity id",
"auto_regulation_mode": "Auto adjustment of the target temperature",
"auto_regulation_dtemp": "The threshold in ° (or % for valve) under which the temperature change will not be sent",
"auto_regulation_periode_min": "Duration in minutes between two regulation update",
@@ -287,10 +309,21 @@
"title": "Entities - {name}",
"description": "Linked entities attributes",
"data": {
"underlying_entity_ids": "The device(s) to be controlled",
"heater_entity_id": "1st heater switch",
"heater_entity2_id": "2nd heater switch",
"heater_entity3_id": "3rd heater switch",
"heater_entity4_id": "4th heater switch",
"heater_keep_alive": "Switch keep-alive interval in seconds",
"proportional_function": "Algorithm",
"climate_entity_id": "1st underlying climate",
"climate_entity2_id": "2nd underlying climate",
"climate_entity3_id": "3rd underlying climate",
"climate_entity4_id": "4th underlying climate",
"ac_mode": "AC mode",
"valve_entity_id": "1st valve number",
"valve_entity2_id": "2nd valve number",
"valve_entity3_id": "3rd valve number",
"valve_entity4_id": "4th valve number",
"auto_regulation_mode": "Self-regulation",
"auto_regulation_dtemp": "Regulation threshold",
"auto_regulation_periode_min": "Regulation minimum period",
@@ -299,10 +332,21 @@
"auto_fan_mode": "Auto fan mode"
},
"data_description": {
"underlying_entity_ids": "The device(s) to be controlled - 1 is required",
"heater_entity_id": "Mandatory heater entity id",
"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",
"climate_entity2_id": "2nd underlying climate entity id",
"climate_entity3_id": "3rd underlying climate entity id",
"climate_entity4_id": "4th underlying climate entity id",
"ac_mode": "Use the Air Conditioning (AC) mode",
"valve_entity_id": "1st valve number entity id",
"valve_entity2_id": "2nd valve number entity id",
"valve_entity3_id": "3rd valve number entity id",
"valve_entity4_id": "4th valve number entity id",
"auto_regulation_mode": "Auto adjustment of the target temperature",
"auto_regulation_dtemp": "The threshold in ° (or % for valve) under which the temperature change will not be sent",
"auto_regulation_periode_min": "Duration in minutes between two regulation update",
@@ -492,8 +536,7 @@
"state": {
"power": "Shedding",
"security": "Safety",
"none": "Manual",
"frost": "Frost"
"none": "Manual"
}
}
}
@@ -547,4 +590,4 @@
}
}
}
}
}

3
custom_components/versatile_thermostat/translations/fr.json
View File

@@ -554,8 +554,7 @@
"state": {
"power": "Délestage",
"security": "Sécurité",
"none": "Manuel",
"frost": "Hors Gel"
"none": "Manuel"
}
}
}

3
custom_components/versatile_thermostat/translations/it.json
View File

@@ -364,8 +364,7 @@
"state": {
"power": "Ripartizione",
"security": "Sicurezza",
"none": "Manuale",
"frost": "Gelo"
"none": "Manuale"
}
}
}

14
custom_components/versatile_thermostat/vtherm_api.py
View File

@@ -15,7 +15,6 @@ from .const import (
CONF_SAFETY_MODE,
CONF_THERMOSTAT_TYPE,
CONF_THERMOSTAT_CENTRAL_CONFIG,
CONF_MAX_ON_PERCENT,
)
VTHERM_API_NAME = "vtherm_api"
@@ -61,7 +60,6 @@ class VersatileThermostatAPI(dict):
self._central_mode_select = None
# A dict that will store all Number entities which holds the temperature
self._number_temperatures = dict()
self._max_on_percent = None
def find_central_configuration(self):
"""Search for a central configuration"""
@@ -109,12 +107,6 @@ class VersatileThermostatAPI(dict):
if self._safety_mode:
_LOGGER.debug("We have found safet_mode params %s", self._safety_mode)
self._max_on_percent = config.get(CONF_MAX_ON_PERCENT)
if self._max_on_percent:
_LOGGER.debug(
"We have found max_on_percent setting %s", self._max_on_percent
)
def register_central_boiler(self, central_boiler_entity):
"""Register the central boiler entity. This is used by the CentralBoilerBinarySensor
class to register itself at creation"""
@@ -158,11 +150,10 @@ class VersatileThermostatAPI(dict):
return entity.state
return None
async def init_vtherm_links(self, entry_id=None):
async def init_vtherm_links(self):
"""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, ...)
If entry_id is set, only the VTherm of this entry will be reloaded
"""
await self.reload_central_boiler_binary_listener()
await self.reload_central_boiler_entities_list()
@@ -184,8 +175,7 @@ class VersatileThermostatAPI(dict):
entity.device_info
and entity.device_info.get("model", None) == DOMAIN
):
if entry_id is None or entry_id == entity.unique_id:
await entity.async_startup(self.find_central_configuration())
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"""

17
tests/const.py
View File

@@ -74,7 +74,7 @@ MOCK_TH_OVER_SWITCH_CENTRAL_MAIN_CONFIG = {
}
MOCK_TH_OVER_SWITCH_TYPE_CONFIG = {
CONF_UNDERLYING_LIST: ["switch.mock_switch"],
CONF_HEATER: "switch.mock_switch",
CONF_HEATER_KEEP_ALIVE: 0,
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_AC_MODE: False,
@@ -82,14 +82,17 @@ MOCK_TH_OVER_SWITCH_TYPE_CONFIG = {
}
MOCK_TH_OVER_SWITCH_AC_TYPE_CONFIG = {
CONF_UNDERLYING_LIST: ["switch.mock_air_conditioner"],
CONF_HEATER: "switch.mock_air_conditioner",
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_AC_MODE: True,
CONF_INVERSE_SWITCH: False,
}
MOCK_TH_OVER_4SWITCH_TYPE_CONFIG = {
CONF_UNDERLYING_LIST: ["switch.mock_4switch0", "switch.mock_4switch1","switch.mock_4switch2","switch.mock_4switch3"],
CONF_HEATER: "switch.mock_4switch0",
CONF_HEATER_2: "switch.mock_4switch1",
CONF_HEATER_3: "switch.mock_4switch2",
CONF_HEATER_4: "switch.mock_4switch3",
CONF_HEATER_KEEP_ALIVE: 0,
CONF_PROP_FUNCTION: PROPORTIONAL_FUNCTION_TPI,
CONF_AC_MODE: False,
@@ -102,7 +105,7 @@ MOCK_TH_OVER_SWITCH_TPI_CONFIG = {
}
MOCK_TH_OVER_CLIMATE_TYPE_CONFIG = {
CONF_UNDERLYING_LIST: ["climate.mock_climate"],
CONF_CLIMATE: "climate.mock_climate",
CONF_AC_MODE: False,
CONF_AUTO_REGULATION_MODE: CONF_AUTO_REGULATION_STRONG,
CONF_AUTO_REGULATION_DTEMP: 0.5,
@@ -112,7 +115,7 @@ MOCK_TH_OVER_CLIMATE_TYPE_CONFIG = {
}
MOCK_TH_OVER_CLIMATE_TYPE_USE_DEVICE_TEMP_CONFIG = {
CONF_UNDERLYING_LIST: ["climate.mock_climate"],
CONF_CLIMATE: "climate.mock_climate",
CONF_AC_MODE: False,
CONF_AUTO_REGULATION_MODE: CONF_AUTO_REGULATION_STRONG,
CONF_AUTO_REGULATION_DTEMP: 0.1,
@@ -122,13 +125,13 @@ MOCK_TH_OVER_CLIMATE_TYPE_USE_DEVICE_TEMP_CONFIG = {
}
MOCK_TH_OVER_CLIMATE_TYPE_NOT_REGULATED_CONFIG = {
CONF_UNDERLYING_LIST: ["climate.mock_climate"],
CONF_CLIMATE: "climate.mock_climate",
CONF_AC_MODE: False,
CONF_AUTO_REGULATION_MODE: CONF_AUTO_REGULATION_NONE,
}
MOCK_TH_OVER_CLIMATE_TYPE_AC_CONFIG = {
CONF_UNDERLYING_LIST: ["climate.mock_climate"],
CONF_CLIMATE: "climate.mock_climate",
CONF_AC_MODE: True,
CONF_AUTO_REGULATION_MODE: CONF_AUTO_REGULATION_STRONG,
CONF_AUTO_REGULATION_DTEMP: 0.5,

572
tests/test_auto_start_stop.py
View File

@@ -6,7 +6,6 @@ import logging
from unittest.mock import patch, call
from homeassistant.components.climate import HVACMode
from homeassistant.components.switch import DOMAIN as SWITCH_DOMAIN
from custom_components.versatile_thermostat.thermostat_climate import (
ThermostatOverClimate,
@@ -15,6 +14,7 @@ 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
@@ -72,7 +72,7 @@ async def test_auto_start_stop_algo_slow_heat_off(hass: HomeAssistant):
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(seconds=11)
now = now + timedelta(minutes=1)
ret = algo.calculate_action(
hvac_mode=HVACMode.HEAT,
saved_hvac_mode=HVACMode.OFF,
@@ -225,7 +225,6 @@ async def test_auto_start_stop_none_vtherm(
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_AUTO_START_STOP_FEATURE: False,
CONF_USE_PRESENCE_FEATURE: True,
CONF_PRESENCE_SENSOR: "binary_sensor.presence_sensor",
CONF_CLIMATE: "climate.mock_climate",
@@ -268,12 +267,6 @@ async def test_auto_start_stop_none_vtherm(
# 1. Vtherm auto-start/stop should be in NONE mode
assert vtherm.auto_start_stop_level == AUTO_START_STOP_LEVEL_NONE
# 2. We should not find any switch Enable entity
assert (
search_entity(hass, "switch.overclimate_enable_auto_start_stop", SWITCH_DOMAIN)
is None
)
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
@@ -317,7 +310,6 @@ async def test_auto_start_stop_medium_heat_vtherm(
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_AUTO_START_STOP_FEATURE: True,
CONF_USE_PRESENCE_FEATURE: True,
CONF_PRESENCE_SENSOR: "binary_sensor.presence_sensor",
CONF_CLIMATE: "climate.mock_climate",
@@ -358,13 +350,8 @@ async def test_auto_start_stop_medium_heat_vtherm(
assert vtherm._attr_extra_state_attributes["auto_start_stop_dtmin"] == 15
# 1. Vtherm auto-start/stop should be in MEDIUM mode and an enable entity should exists
# 1. Vtherm auto-start/stop should be in MEDIUM mode
assert vtherm.auto_start_stop_level == AUTO_START_STOP_LEVEL_MEDIUM
enable_entity = search_entity(
hass, "switch.overclimate_enable_auto_start_stop", SWITCH_DOMAIN
)
assert enable_entity is not None
assert enable_entity.state == STATE_ON
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
@@ -382,8 +369,6 @@ async def test_auto_start_stop_medium_heat_vtherm(
# 3. Set current temperature to 19 5 min later
now = now + timedelta(minutes=5)
# reset accumulated error (only for testing)
vtherm._auto_start_stop_algo._accumulated_error = 0
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
@@ -424,7 +409,6 @@ async def test_auto_start_stop_medium_heat_vtherm(
# VTherm should have been stopped
assert vtherm.hvac_mode == HVACMode.OFF
assert vtherm.hvac_off_reason == HVAC_OFF_REASON_AUTO_START_STOP
# accumulated_error = -2.5 + target - current = -2 x 5 min / 2 capped to 5
assert vtherm._auto_start_stop_algo.accumulated_error == -5
@@ -437,15 +421,12 @@ async def test_auto_start_stop_medium_heat_vtherm(
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "stop",
"name": "overClimate",
"cause": "Auto stop conditions reached",
"hvac_mode": HVACMode.OFF,
"saved_hvac_mode": HVACMode.HEAT,
"target_temperature": 19.0,
"current_temperature": 21.0,
"temperature_slope": 0.167,
"accumulated_error": -5,
"accumulated_error_threshold": 5,
"temperature_slope": 10.03,
},
)
]
@@ -476,7 +457,6 @@ async def test_auto_start_stop_medium_heat_vtherm(
# VTherm should stay stopped cause slope is too low to allow the turn to On
assert vtherm.hvac_mode == HVACMode.OFF
assert vtherm.hvac_off_reason == HVAC_OFF_REASON_AUTO_START_STOP
# 7. Set temperature to over the target, so that it will turn to heat
now = now + timedelta(minutes=20)
@@ -492,8 +472,6 @@ async def test_auto_start_stop_medium_heat_vtherm(
# VTherm should have been stopped
assert vtherm.hvac_mode == HVACMode.HEAT
assert vtherm.hvac_off_reason is None
# a message should have been sent
assert mock_send_event.call_count >= 1
mock_send_event.assert_has_calls(
@@ -502,15 +480,12 @@ async def test_auto_start_stop_medium_heat_vtherm(
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "start",
"name": "overClimate",
"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": -0.034,
"accumulated_error": 5,
"accumulated_error_threshold": 5,
"temperature_slope": -2.06,
},
)
]
@@ -570,10 +545,9 @@ async def test_auto_start_stop_fast_ac_vtherm(
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_AUTO_START_STOP_FEATURE: True,
CONF_USE_PRESENCE_FEATURE: True,
CONF_PRESENCE_SENSOR: "binary_sensor.presence_sensor",
CONF_UNDERLYING_LIST: ["climate.mock_climate"],
CONF_CLIMATE: "climate.mock_climate",
CONF_MINIMAL_ACTIVATION_DELAY: 30,
CONF_SECURITY_DELAY_MIN: 5,
CONF_SECURITY_MIN_ON_PERCENT: 0.3,
@@ -625,13 +599,11 @@ async def test_auto_start_stop_fast_ac_vtherm(
await hass.async_block_till_done()
assert vtherm.target_temperature == 25.0
# VTherm should be cooling
# VTherm should be heating
assert vtherm.hvac_mode == HVACMode.COOL
# 3. Set current temperature to 19 5 min later
now = now + timedelta(minutes=5)
# reset accumulated error for test
vtherm._auto_start_stop_algo._accumulated_error = 0
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
@@ -639,7 +611,7 @@ async def test_auto_start_stop_fast_ac_vtherm(
await send_temperature_change_event(vtherm, 25, now, True)
await hass.async_block_till_done()
# VTherm should still be cooling
# VTherm should still be heating
assert vtherm.hvac_mode == HVACMode.COOL
assert mock_send_event.call_count == 0
assert (
@@ -669,15 +641,12 @@ async def test_auto_start_stop_fast_ac_vtherm(
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "stop",
"name": "overClimate",
"cause": "Auto stop conditions reached",
"hvac_mode": HVACMode.OFF,
"saved_hvac_mode": HVACMode.COOL,
"target_temperature": 25.0,
"current_temperature": 23.0,
"temperature_slope": -0.28,
"accumulated_error": 2,
"accumulated_error_threshold": 2,
"temperature_slope": -16.8,
},
)
]
@@ -695,18 +664,18 @@ async def test_auto_start_stop_fast_ac_vtherm(
)
# 5. Set temperature to over the target, but slope is too low -> no change
now = now + timedelta(minutes=30)
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, 25.5, now, True)
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 stay stopped
# VTherm should have been stopped
assert vtherm.hvac_mode == HVACMode.OFF
# a message should have been sent
assert mock_send_event.call_count == 0
@@ -733,15 +702,12 @@ async def test_auto_start_stop_fast_ac_vtherm(
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "start",
"name": "overClimate",
"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": 0.112,
"accumulated_error": -2,
"accumulated_error_threshold": 2,
"temperature_slope": 5.74,
},
)
]
@@ -801,7 +767,6 @@ async def test_auto_start_stop_medium_heat_vtherm_preset_change(
CONF_USE_WINDOW_FEATURE: False,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_AUTO_START_STOP_FEATURE: True,
CONF_USE_PRESENCE_FEATURE: True,
CONF_PRESENCE_SENSOR: "binary_sensor.presence_sensor",
CONF_CLIMATE: "climate.mock_climate",
@@ -861,7 +826,6 @@ async def test_auto_start_stop_medium_heat_vtherm_preset_change(
# 3. Set current temperature to 21 5 min later to auto-stop
now = now + timedelta(minutes=5)
vtherm._auto_start_stop_algo._accumulated_error = 0
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
@@ -882,15 +846,12 @@ async def test_auto_start_stop_medium_heat_vtherm_preset_change(
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "stop",
"name": "overClimate",
"cause": "Auto stop conditions reached",
"hvac_mode": HVACMode.OFF,
"saved_hvac_mode": HVACMode.HEAT,
"target_temperature": 17.0,
"current_temperature": 19.0,
"temperature_slope": 0.3,
"accumulated_error": -2,
"accumulated_error_threshold": 2,
"temperature_slope": 18.0,
},
)
]
@@ -939,15 +900,12 @@ async def test_auto_start_stop_medium_heat_vtherm_preset_change(
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "start",
"name": "overClimate",
"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": -0.087,
"accumulated_error": 2,
"accumulated_error_threshold": 2,
"temperature_slope": -5.19,
},
)
]
@@ -963,503 +921,3 @@ async def test_auto_start_stop_medium_heat_vtherm_preset_change(
)
]
)
@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_enable_false(
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_AUTO_START_STOP_FEATURE: True,
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 FAST mode and enable should be on
assert vtherm.auto_start_stop_level == AUTO_START_STOP_LEVEL_FAST
enable_entity = search_entity(
hass, "switch.overclimate_enable_auto_start_stop", SWITCH_DOMAIN
)
assert enable_entity is not None
assert enable_entity.state == STATE_ON
assert vtherm._attr_extra_state_attributes.get("auto_start_stop_enable") is True
# 2. set enable to false
enable_entity.turn_off()
await hass.async_block_till_done()
assert enable_entity.state == STATE_OFF
assert vtherm._attr_extra_state_attributes.get("auto_start_stop_enable") is False
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
# 3. 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)
vtherm._auto_start_stop_algo._accumulated_error = 0
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 not have been stopped cause enable is false
assert vtherm.hvac_mode == HVACMode.HEAT
# Not calculated cause enable = false
assert vtherm._auto_start_stop_algo.accumulated_error == 0
# a message should have been sent
assert mock_send_event.call_count == 0
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_auto_start_stop_fast_heat_window(
hass: HomeAssistant, skip_hass_states_is_state
):
"""Test than auto-start/stop works with a real over_climate VTherm in FAST level and check
interaction with window openess detection"""
# 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: True,
CONF_WINDOW_SENSOR: "binary_sensor.window_sensor",
CONF_WINDOW_DELAY: 10,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_AUTO_START_STOP_FEATURE: True,
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 and an enable entity should exists
assert vtherm.auto_start_stop_level == AUTO_START_STOP_LEVEL_FAST
enable_entity = search_entity(
hass, "switch.overclimate_enable_auto_start_stop", SWITCH_DOMAIN
)
assert enable_entity is not None
assert enable_entity.state == STATE_ON
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
# 2. Set mode to Heat and preset to Comfort and close the window
send_window_change_event(vtherm, False, False, now, False)
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
# VTherm window_state should be off
assert vtherm.window_state == STATE_OFF
# 3. Set current temperature to 21 5 min later -> should turn off VTherm
now = now + timedelta(minutes=5)
# reset accumulated error (only for testing)
vtherm._auto_start_stop_algo._accumulated_error = 0
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 no more be heating
assert vtherm.hvac_mode == HVACMode.OFF
assert vtherm.hvac_off_reason == HVAC_OFF_REASON_AUTO_START_STOP
assert vtherm._saved_hvac_mode == HVACMode.HEAT
assert mock_send_event.call_count == 2
# 4. Open the window and wait for the delay
now = now + timedelta(minutes=2)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"homeassistant.helpers.condition.state", return_value=True
) as mock_condition:
vtherm._set_now(now)
try_function = await send_window_change_event(
vtherm, True, False, now, sleep=False
)
await try_function(None)
# Nothing should have change (window event is ignoed as we are already OFF)
assert vtherm.hvac_mode == HVACMode.OFF
assert vtherm.hvac_off_reason == HVAC_OFF_REASON_AUTO_START_STOP
assert vtherm._saved_hvac_mode == HVACMode.HEAT
mock_send_event.assert_not_called()
assert vtherm.window_state == STATE_ON
# 5. close the window
now = now + timedelta(minutes=2)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"homeassistant.helpers.condition.state", return_value=True
) as mock_condition:
vtherm._set_now(now)
try_function = await send_window_change_event(
vtherm, False, True, now, sleep=False
)
await try_function(None)
# The VTherm should stay off because the reason of off is auto-start-stop
assert vtherm.hvac_mode == HVACMode.OFF
assert vtherm.hvac_off_reason == HVAC_OFF_REASON_AUTO_START_STOP
assert vtherm._saved_hvac_mode == HVACMode.HEAT
assert mock_send_event.call_count == 0
assert vtherm.window_state == STATE_OFF
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_auto_start_stop_fast_heat_window_mixed(
hass: HomeAssistant, skip_hass_states_is_state
):
"""Test than auto-start/stop works with a real over_climate VTherm in FAST level and check
interaction with window openess detection
The case is when first window on, then auto-stop, then window off and then auto-start
"""
# 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: True,
CONF_WINDOW_SENSOR: "binary_sensor.window_sensor",
CONF_WINDOW_DELAY: 10,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_AUTO_START_STOP_FEATURE: True,
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 and an enable entity should exists
assert vtherm.auto_start_stop_level == AUTO_START_STOP_LEVEL_FAST
enable_entity = search_entity(
hass, "switch.overclimate_enable_auto_start_stop", SWITCH_DOMAIN
)
assert enable_entity is not None
assert enable_entity.state == STATE_ON
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
# 2. Set mode to Heat and preset to Comfort and close the window
send_window_change_event(vtherm, False, False, now, False)
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
# VTherm window_state should be off
assert vtherm.window_state == STATE_OFF
# 3. Open the window and wait for the delay
now = now + timedelta(minutes=2)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"homeassistant.helpers.condition.state", return_value=True
) as mock_condition:
vtherm._set_now(now)
try_function = await send_window_change_event(
vtherm, True, False, now, sleep=False
)
await try_function(None)
# Nothing should have change (window event is ignoed as we are already OFF)
assert vtherm.hvac_mode == HVACMode.OFF
assert vtherm.hvac_off_reason == HVAC_OFF_REASON_WINDOW_DETECTION
assert vtherm._saved_hvac_mode == HVACMode.HEAT
assert mock_send_event.call_count == 2
assert vtherm.window_state == STATE_ON
# 4. Set current temperature to 21 5 min later -> should turn off VTherm
now = now + timedelta(minutes=5)
# reset accumulated error (only for testing)
vtherm._auto_start_stop_algo._accumulated_error = 0
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 no more be heating
assert vtherm.hvac_mode == HVACMode.OFF
assert vtherm.hvac_off_reason == HVAC_OFF_REASON_WINDOW_DETECTION # No change
assert vtherm._saved_hvac_mode == HVACMode.HEAT
assert mock_send_event.call_count == 0 # No message
# 5. close the window
now = now + timedelta(minutes=2)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"homeassistant.helpers.condition.state", return_value=True
) as mock_condition:
vtherm._set_now(now)
try_function = await send_window_change_event(
vtherm, False, True, now, sleep=False
)
await try_function(None)
# The VTherm should turn on and off again due to auto-start-stop
assert vtherm.hvac_mode == HVACMode.OFF
assert vtherm.hvac_off_reason is HVAC_OFF_REASON_AUTO_START_STOP
assert vtherm._saved_hvac_mode == HVACMode.HEAT
assert vtherm.window_state == STATE_OFF
assert mock_send_event.call_count >= 2
mock_send_event.assert_has_calls(
[
call(EventType.HVAC_MODE_EVENT, {"hvac_mode": HVACMode.OFF}),
call(
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "stop",
"name": "overClimate",
"cause": "Auto stop conditions reached",
"hvac_mode": HVACMode.OFF,
"saved_hvac_mode": HVACMode.HEAT,
"target_temperature": 19.0,
"current_temperature": 21.0,
"temperature_slope": 0.214,
"accumulated_error": -2,
"accumulated_error_threshold": 2,
},
),
]
)

17
tests/test_central_mode.py
View File

@@ -630,7 +630,6 @@ async def test_climate_ac_only_change_central_mode_true(
},
)
# 1. set hvac_mode to COOL and preet ECO
with patch("homeassistant.core.ServiceRegistry.async_call"), patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.find_underlying_climate",
return_value=fake_underlying_climate,
@@ -983,8 +982,7 @@ async def test_switch_change_central_mode_true_with_cool_only_and_window(
await select_entity.async_select_option(CENTRAL_MODE_COOL_ONLY)
assert entity.last_central_mode is CENTRAL_MODE_COOL_ONLY
assert entity.hvac_mode is HVACMode.OFF
assert entity.hvac_off_reason == HVAC_OFF_REASON_MANUAL
await entity.async_set_hvac_mode(HVACMode.OFF)
await entity.async_set_preset_mode(PRESET_ACTIVITY)
assert entity._saved_hvac_mode == HVACMode.HEAT
assert entity._saved_preset_mode == PRESET_ACTIVITY
@@ -1002,14 +1000,12 @@ async def test_switch_change_central_mode_true_with_cool_only_and_window(
await try_function(None)
# The VTherm is already off -> window detection is ignored
assert mock_send_event.call_count == 0
# mock_send_event.assert_has_calls(
# [call.send_event(EventType.HVAC_MODE_EVENT, {"hvac_mode": HVACMode.OFF})]
# )
assert mock_send_event.call_count == 1
mock_send_event.assert_has_calls(
[call.send_event(EventType.HVAC_MODE_EVENT, {"hvac_mode": HVACMode.OFF})]
)
assert entity.hvac_mode == HVACMode.OFF
assert entity.hvac_off_reason == HVAC_OFF_REASON_MANUAL
assert entity.preset_mode == PRESET_ACTIVITY
assert entity._saved_hvac_mode == HVACMode.HEAT
assert entity._saved_preset_mode == PRESET_ACTIVITY
@@ -1025,8 +1021,6 @@ async def test_switch_change_central_mode_true_with_cool_only_and_window(
assert entity.last_central_mode is CENTRAL_MODE_AUTO
# No change
assert entity.hvac_mode == HVACMode.OFF
# We have to a reason of WINDOW_DETECTION
assert entity.hvac_off_reason == HVAC_OFF_REASON_WINDOW_DETECTION
assert entity.preset_mode == PRESET_ACTIVITY
assert entity._saved_hvac_mode == HVACMode.HEAT
assert entity._saved_preset_mode == PRESET_ACTIVITY
@@ -1052,7 +1046,6 @@ async def test_switch_change_central_mode_true_with_cool_only_and_window(
# We should stay off because central is STOPPED
assert entity.hvac_mode == HVACMode.HEAT
assert entity.hvac_off_reason is None
assert entity.preset_mode == PRESET_ACTIVITY
assert entity._saved_hvac_mode == HVACMode.HEAT
assert entity._saved_preset_mode == PRESET_ACTIVITY

881
tests/test_config_flow.py
View File

File diff suppressed because it is too large Load Diff

586
tests/test_overclimate.py
View File

@@ -11,16 +11,10 @@ from homeassistant.components.climate import (
SERVICE_SET_TEMPERATURE,
)
from homeassistant.components.switch import DOMAIN as SWITCH_DOMAIN
from custom_components.versatile_thermostat.thermostat_climate import (
ThermostatOverClimate,
)
from custom_components.versatile_thermostat.switch import (
FollowUnderlyingTemperatureChange,
)
from .commons import *
logging.getLogger().setLevel(logging.DEBUG)
@@ -201,7 +195,7 @@ async def test_bug_82(
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_underlying_change_follow(
async def test_bug_101(
hass: HomeAssistant,
skip_hass_states_is_state,
skip_turn_on_off_heater,
@@ -235,27 +229,12 @@ async def test_underlying_change_follow(
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
assert entity.follow_underlying_temp_change is False
follow_entity: FollowUnderlyingTemperatureChange = search_entity(
hass,
"switch.theoverclimatemockname_follow_underlying_temp_change",
SWITCH_DOMAIN,
)
assert follow_entity is not None
assert follow_entity.state is STATE_OFF
# follow the underlying temp change
follow_entity.turn_on()
assert entity.follow_underlying_temp_change is True
assert follow_entity.state is STATE_ON
# Underlying should have been shutdown
assert mock_underlying_set_hvac_mode.call_count == 1
mock_underlying_set_hvac_mode.assert_has_calls(
@@ -341,165 +320,6 @@ async def test_underlying_change_follow(
assert entity.preset_mode is PRESET_NONE
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_underlying_change_not_follow(
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
assert entity.target_temperature == 15
assert entity.preset_mode is PRESET_NONE
# default value
assert entity.follow_underlying_temp_change is False
follow_entity: FollowUnderlyingTemperatureChange = search_entity(
hass,
"switch.theoverclimatemockname_follow_underlying_temp_change",
SWITCH_DOMAIN,
)
assert follow_entity is not None
assert follow_entity.state is STATE_OFF
# follow the underlying temp change
follow_entity.turn_off()
assert entity.follow_underlying_temp_change is False
assert follow_entity.state is STATE_OFF
# 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
assert entity.target_temperature == 17
# 2. Change the target temp of underlying thermostat at 11 sec later to avoid temporal filter
event_timestamp = now + timedelta(seconds=30)
await send_climate_change_event_with_temperature(
entity,
HVACMode.HEAT,
HVACMode.HEAT,
HVACAction.OFF,
HVACAction.OFF,
event_timestamp,
21,
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
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_615(
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 don't change its own temperature target if no
target_temperature have already been sent"""
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
)
# 1. create the thermostat
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,
):
vtherm = await create_thermostat(hass, entry, "climate.theoverclimatemockname")
assert vtherm
assert vtherm.name == "TheOverClimateMockName"
assert vtherm.is_over_climate is True
assert vtherm.hvac_mode is HVACMode.OFF
# because in MockClimate HVACAction is HEATING if hvac_mode is not set
assert vtherm.hvac_action is HVACAction.HEATING
# Force a preset_mode without sending a temperature (as it was restored with a preset)
vtherm._attr_preset_mode = PRESET_BOOST
assert vtherm.target_temperature == vtherm.min_temp
assert vtherm.preset_mode is PRESET_BOOST
with patch(
"custom_components.versatile_thermostat.underlyings.UnderlyingClimate.set_hvac_mode"
) as mock_underlying_set_hvac_mode:
# 2. Change the target temp of underlying thermostat at now + 1 min
now = now + timedelta(minutes=1)
await send_climate_change_event_with_temperature(
vtherm,
HVACMode.OFF,
HVACMode.OFF,
HVACAction.OFF,
HVACAction.OFF,
now,
25,
True,
"climate.mock_climate", # the underlying climate entity id
)
# Should NOT have been taken the new target temp nor have change the preset
assert vtherm.target_temperature == vtherm.min_temp
assert vtherm.preset_mode is PRESET_BOOST
mock_underlying_set_hvac_mode.assert_not_called()
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_bug_508(
hass: HomeAssistant,
@@ -773,26 +593,13 @@ async def test_ignore_temp_outside_minmax_range(
assert mock_find_climate.mock_calls[0] == call()
mock_find_climate.assert_has_calls([call.find_underlying_entity()])
# 1. VTherm must follow the underlying's temperature changes
follow_entity: FollowUnderlyingTemperatureChange = search_entity(
hass,
"switch.theoverclimatemockname_follow_underlying_temp_change",
SWITCH_DOMAIN,
)
# follow the underlying temp change
follow_entity.turn_on()
assert entity.follow_underlying_temp_change is True
assert follow_entity.state is STATE_ON
# 2. Force preset mode
# 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
# 3. Try to set the target temperature to a below min_temp -> should be ignored
# 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
@@ -800,8 +607,8 @@ async def test_ignore_temp_outside_minmax_range(
entity,
HVACMode.HEAT,
HVACMode.HEAT,
HVACAction.HEATING,
HVACAction.HEATING,
HVACAction.OFF,
HVACAction.OFF,
event_timestamp,
entity.min_temp - 1,
True,
@@ -809,393 +616,18 @@ async def test_ignore_temp_outside_minmax_range(
)
assert entity.target_temperature == 17
# 4. Try to set the target temperature to a above max_temp -> should be ignored
# 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.HEATING,
HVACAction.HEATING,
HVACAction.OFF,
HVACAction.OFF,
event_timestamp,
entity.max_temp + 1,
True,
"climate.mock_climate", # the underlying climate entity id
)
assert entity.target_temperature == 17
# 5. Switch off the VTherm and receive an event from the underlying with a temp to be ignored,
# but an HVACAction to be taken into account
await entity.async_set_hvac_mode(HVACMode.OFF)
assert entity.hvac_mode == HVACMode.OFF
fake_underlying_climate.set_hvac_mode(HVACMode.OFF)
fake_underlying_climate.set_hvac_action(HVACAction.IDLE)
event_timestamp = event_timestamp + timedelta(seconds=11)
await send_climate_change_event_with_temperature(
entity,
HVACMode.OFF,
HVACMode.HEAT,
HVACAction.IDLE,
HVACAction.HEATING,
event_timestamp,
entity.min_temp - 1,
True,
"climate.mock_climate", # the underlying climate entity id
)
assert entity.target_temperature == 17
assert entity.hvac_action == HVACAction.IDLE
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_manual_hvac_off_should_take_the_lead_over_window(
hass: HomeAssistant, skip_hass_states_is_state
):
"""Test than a manual hvac_off is taken into account over a window hvac_off"""
# 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: True,
CONF_WINDOW_SENSOR: "binary_sensor.window_sensor",
CONF_WINDOW_DELAY: 10,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_AUTO_START_STOP_FEATURE: True,
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.auto_start_stop_level == AUTO_START_STOP_LEVEL_FAST
enable_entity = search_entity(
hass, "switch.overclimate_enable_auto_start_stop", SWITCH_DOMAIN
)
assert enable_entity is not None
assert enable_entity.state == STATE_ON
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
# 1. Set mode to Heat and preset to Comfort and close the window
send_window_change_event(vtherm, False, False, now, False)
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
# VTherm window_state should be off
assert vtherm.window_state == STATE_OFF
# 2. Open the window and wait for the delay
now = now + timedelta(minutes=2)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"homeassistant.helpers.condition.state", return_value=True
):
vtherm._set_now(now)
try_function = await send_window_change_event(
vtherm, True, False, now, sleep=False
)
await try_function(None)
# Nothing should have change (window event is ignoed as we are already OFF)
assert vtherm.hvac_mode == HVACMode.OFF
assert vtherm.hvac_off_reason == HVAC_OFF_REASON_WINDOW_DETECTION
assert vtherm._saved_hvac_mode == HVACMode.HEAT
assert mock_send_event.call_count == 2
assert vtherm.window_state == STATE_ON
# 3. Turn off manually the VTherm. This should be taken into account
now = now + timedelta(minutes=1)
vtherm._set_now(now)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
await vtherm.async_set_hvac_mode(HVACMode.OFF)
await hass.async_block_till_done()
# Should be off with reason MANUAL
assert vtherm.hvac_mode == HVACMode.OFF
assert vtherm.hvac_off_reason == HVAC_OFF_REASON_MANUAL
assert vtherm._saved_hvac_mode == HVACMode.OFF
# Window state should not change
assert vtherm.window_state == STATE_ON
assert mock_send_event.call_count == 1
mock_send_event.assert_has_calls(
[
call(EventType.HVAC_MODE_EVENT, {"hvac_mode": HVACMode.OFF}),
]
)
# 4. close the window -> we should stay off reason manual
now = now + timedelta(minutes=1)
vtherm._set_now(now)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"homeassistant.helpers.condition.state", return_value=True
):
try_function = await send_window_change_event(
vtherm, False, True, now, sleep=False
)
await try_function(None)
# The VTherm should turn on and off again due to auto-start-stop
assert vtherm.hvac_mode == HVACMode.OFF
assert vtherm.hvac_off_reason is HVAC_OFF_REASON_MANUAL
assert vtherm._saved_hvac_mode == HVACMode.OFF
assert vtherm.window_state == STATE_OFF
assert mock_send_event.call_count == 0
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])
async def test_manual_hvac_off_should_take_the_lead_over_auto_start_stop(
hass: HomeAssistant, skip_hass_states_is_state
):
"""Test than a manual hvac_off is taken into account over a auto-start/stop hvac_off"""
# 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: True,
CONF_WINDOW_SENSOR: "binary_sensor.window_sensor",
CONF_WINDOW_DELAY: 10,
CONF_USE_MOTION_FEATURE: False,
CONF_USE_POWER_FEATURE: False,
CONF_USE_AUTO_START_STOP_FEATURE: True,
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.auto_start_stop_level == AUTO_START_STOP_LEVEL_FAST
enable_entity = search_entity(
hass, "switch.overclimate_enable_auto_start_stop", SWITCH_DOMAIN
)
assert enable_entity is not None
assert enable_entity.state == STATE_ON
tz = get_tz(hass) # pylint: disable=invalid-name
now: datetime = datetime.now(tz=tz)
# 1. Set mode to Heat and preset to Comfort
send_window_change_event(vtherm, False, False, now, False)
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
# 2. Set current temperature to 21 5 min later -> should turn off VTherm
now = now + timedelta(minutes=5)
vtherm._set_now(now)
# reset accumulated error (only for testing)
vtherm._auto_start_stop_algo._accumulated_error = 0
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
await send_temperature_change_event(vtherm, 21, now, True)
await hass.async_block_till_done()
# VTherm should no more be heating
assert vtherm.hvac_mode == HVACMode.OFF
assert vtherm.hvac_off_reason == HVAC_OFF_REASON_AUTO_START_STOP
assert vtherm._saved_hvac_mode == HVACMode.HEAT
assert mock_send_event.call_count == 2 # turned to off
mock_send_event.assert_has_calls(
[
call(EventType.HVAC_MODE_EVENT, {"hvac_mode": HVACMode.OFF}),
call(
event_type=EventType.AUTO_START_STOP_EVENT,
data={
"type": "stop",
"name": "overClimate",
"cause": "Auto stop conditions reached",
"hvac_mode": HVACMode.OFF,
"saved_hvac_mode": HVACMode.HEAT,
"target_temperature": 19.0,
"current_temperature": 21.0,
"temperature_slope": 0.3,
"accumulated_error": -2,
"accumulated_error_threshold": 2,
},
),
]
)
# 3. Turn off manually the VTherm. This should be taken into account
now = now + timedelta(minutes=1)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event:
await vtherm.async_set_hvac_mode(HVACMode.OFF)
await hass.async_block_till_done()
# Should be off with reason MANUAL
assert vtherm.hvac_mode == HVACMode.OFF
assert vtherm.hvac_off_reason == HVAC_OFF_REASON_MANUAL
assert vtherm._saved_hvac_mode == HVACMode.OFF
assert mock_send_event.call_count == 1
mock_send_event.assert_has_calls(
[
call(EventType.HVAC_MODE_EVENT, {"hvac_mode": HVACMode.OFF}),
]
)
# 4. removes the auto-start/stop detection
now = now + timedelta(minutes=5)
vtherm._set_now(now)
with patch(
"custom_components.versatile_thermostat.base_thermostat.BaseThermostat.send_event"
) as mock_send_event, patch(
"homeassistant.helpers.condition.state", return_value=True
):
await send_temperature_change_event(vtherm, 15, now, True)
await hass.async_block_till_done()
# VTherm should no more be heating
assert vtherm.hvac_mode == HVACMode.OFF
assert vtherm.hvac_off_reason == HVAC_OFF_REASON_MANUAL
assert vtherm._saved_hvac_mode == HVACMode.OFF
assert mock_send_event.call_count == 0 # nothing have change

33
tests/test_tpi.py
View File

@@ -125,39 +125,6 @@ async def test_tpi_calculation(
assert tpi_algo.on_time_sec == 0
assert tpi_algo.off_time_sec == 300
"""
Test the max_on_percent clamping calculations
"""
tpi_algo._max_on_percent = 0.8
# no clamping
tpi_algo.calculate(15, 14.7, 15, HVACMode.HEAT)
assert tpi_algo.on_percent == 0.09
assert tpi_algo.calculated_on_percent == 0.09
assert tpi_algo.on_time_sec == 0
assert tpi_algo.off_time_sec == 300
# no clamping (calculated_on_percent = 0.79)
tpi_algo.calculate(15, 12.5, 11, HVACMode.HEAT)
assert tpi_algo.on_percent == 0.79
assert tpi_algo.calculated_on_percent == 0.79
assert tpi_algo.on_time_sec == 237
assert tpi_algo.off_time_sec == 63
# clamping to 80% (calculated_on_percent = 1)
tpi_algo.calculate(15, 10, 7, HVACMode.HEAT)
assert tpi_algo.on_percent == 0.8 # should be clamped to 80%
assert tpi_algo.calculated_on_percent == 1 # calculated percentage should not be affected by clamping
assert tpi_algo.on_time_sec == 240 # capped at 80%
assert tpi_algo.off_time_sec == 60
# clamping to 80% (calculated_on_percent = 0.81)
tpi_algo.calculate(15, 12.5, 9, HVACMode.HEAT)
assert tpi_algo.on_percent == 0.80 # should be clamped to 80%
assert tpi_algo.calculated_on_percent == 0.81 # calculated percentage should not be affected by clamping
assert tpi_algo.on_time_sec == 240 # capped at 80%
assert tpi_algo.off_time_sec == 60
@pytest.mark.parametrize("expected_lingering_tasks", [True])
@pytest.mark.parametrize("expected_lingering_timers", [True])

9
tests/test_window.py
View File

@@ -205,8 +205,6 @@ async def test_window_management_time_enough(
assert mock_heater_off.call_count == 2
assert mock_condition.call_count == 1
assert entity.hvac_mode is HVACMode.OFF
assert entity._saved_hvac_mode is HVACMode.HEAT
assert entity.hvac_off_reason == HVAC_OFF_REASON_WINDOW_DETECTION
assert entity.window_state == STATE_ON
# Close the window
@@ -244,9 +242,6 @@ async def test_window_management_time_enough(
any_order=False,
)
assert entity.preset_mode is PRESET_BOOST
assert entity.hvac_mode is HVACMode.HEAT
assert entity._saved_hvac_mode is HVACMode.HEAT # No change
assert entity.hvac_off_reason == None
# Clean the entity
entity.remove_thermostat()
@@ -1344,7 +1339,6 @@ async def test_window_action_fan_only(hass: HomeAssistant, skip_hass_states_is_s
# The underlying should be in FAN_ONLY hvac_mode
assert entity.hvac_mode is HVACMode.FAN_ONLY
assert entity._saved_hvac_mode is HVACMode.HEAT
assert entity.hvac_off_reason is None # Hvac is not off
assert entity.preset_mode is PRESET_COMFORT
# 3. Close the window
@@ -1363,7 +1357,7 @@ async def test_window_action_fan_only(hass: HomeAssistant, skip_hass_states_is_s
await try_function(None)
# Wait for initial delay of heater
await hass.async_block_till_done()
await asyncio.sleep(0.3)
assert entity.window_state == STATE_OFF
assert mock_send_event.call_count == 1
@@ -1385,7 +1379,6 @@ async def test_window_action_fan_only(hass: HomeAssistant, skip_hass_states_is_s
)
assert entity.hvac_mode is HVACMode.HEAT
assert entity.preset_mode is PRESET_COMFORT
assert entity.hvac_off_reason is None
# Clean the entity
entity.remove_thermostat()