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3 changed files with 28 additions and 181 deletions
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184
custom_components/sws12500/config_flow.py
View File

@ -1,15 +1,13 @@
"""Config flow for Sencor SWS 12500 Weather Station integration."""
import logging
from typing import Any
import voluptuous as vol
from homeassistant.config_entries import ConfigFlow, OptionsFlow
from homeassistant.const import UnitOfPrecipitationDepth, UnitOfVolumetricFlux
from homeassistant.core import callback
from homeassistant.exceptions import HomeAssistantError
import homeassistant.helpers.entity_registry as er
from .utils import long_term_units_in_statistics_meta, migrate_data
from .const import (
API_ID,
@ -17,18 +15,13 @@ from .const import (
DEV_DBG,
DOMAIN,
INVALID_CREDENTIALS,
MIG_FROM,
MIG_TO,
SENSOR_TO_MIGRATE,
SENSORS_TO_LOAD,
SENSOR_TO_MIGRATE,
WINDY_API_KEY,
WINDY_ENABLED,
WINDY_LOGGER_ENABLED,
WSLINK,
)
from .utils import long_term_units_in_statistics_meta, migrate_data
_LOGGER = logging.getLogger(__name__)
class CannotConnect(HomeAssistantError):
@ -48,23 +41,16 @@ class ConfigOptionsFlowHandler(OptionsFlow):
self.windy_data: dict[str, Any] = {}
self.windy_data_schema = {}
self.user_data: dict[str, Any] = {}
self.user_data: dict[str, str] = {}
self.user_data_schema = {}
self.sensors: dict[str, Any] = {}
self.migrate_schema = {}
self.migrate_sensor_select = {}
self.migrate_unit_selection = {}
self.count = 0
self.selected_sensor = ""
self.unit_values = [unit.value for unit in UnitOfVolumetricFlux]
self.unit_values.extend([unit.value for unit in UnitOfPrecipitationDepth])
@property
def config_entry(self):
return self.hass.config_entries.async_get_entry(self.handler)
async def _get_entry_data(self):
def _get_entry_data(self):
"""Get entry data."""
self.user_data: dict[str, Any] = {
@ -75,10 +61,10 @@ class ConfigOptionsFlowHandler(OptionsFlow):
}
self.user_data_schema = {
vol.Required(API_ID, default=self.user_data.get(API_ID, "")): str,
vol.Required(API_KEY, default=self.user_data.get(API_KEY, "")): str,
vol.Optional(WSLINK, default=self.user_data.get(WSLINK, False)): bool,
vol.Optional(DEV_DBG, default=self.user_data.get(DEV_DBG, False)): bool,
vol.Required(API_ID, default=self.user_data[API_ID] or ""): str,
vol.Required(API_KEY, default=self.user_data[API_KEY] or ""): str,
vol.Optional(WSLINK, default=self.user_data[WSLINK]): bool or False,
vol.Optional(DEV_DBG, default=self.user_data[DEV_DBG]): bool or False,
}
self.sensors: dict[str, Any] = {
@ -97,7 +83,7 @@ class ConfigOptionsFlowHandler(OptionsFlow):
self.windy_data_schema = {
vol.Optional(
WINDY_API_KEY, default=self.windy_data.get(WINDY_API_KEY, "")
WINDY_API_KEY, default=self.windy_data[WINDY_API_KEY] or ""
): str,
vol.Optional(WINDY_ENABLED, default=self.windy_data[WINDY_ENABLED]): bool
or False,
@ -107,34 +93,12 @@ class ConfigOptionsFlowHandler(OptionsFlow):
): bool or False,
}
self.migrate_sensor_select = {
self.migrate_schema = {
vol.Required(SENSOR_TO_MIGRATE): vol.In(
await self.load_sensors_to_migrate() or {}
long_term_units_in_statistics_meta() or {}
),
}
self.migrate_unit_selection = {
vol.Required(MIG_FROM): vol.In(self.unit_values),
vol.Required(MIG_TO): vol.In(self.unit_values),
vol.Optional("trigger_action", default=False): bool,
}
# "mm/d", "mm/h", "mm", "in/d", "in/h", "in"
async def load_sensors_to_migrate(self) -> dict[str, Any]:
"""Load sensors to migrate."""
sensor_statistics = await long_term_units_in_statistics_meta(self.hass)
entity_registry = er.async_get(self.hass)
sensors = entity_registry.entities.get_entries_for_config_entry_id(
self.config_entry.entry_id
)
return {
sensor.entity_id: f"{sensor.name or sensor.original_name} (current settings: {sensor.unit_of_measurement}, longterm stats unit: {sensor_statistics.get(sensor.entity_id)})"
for sensor in sensors
if sensor.unique_id in {"rain", "daily_rain"}
}
async def async_step_init(self, user_input=None):
"""Manage the options - show menu first."""
@ -146,7 +110,7 @@ class ConfigOptionsFlowHandler(OptionsFlow):
"""Manage basic options - credentials."""
errors = {}
await self._get_entry_data()
self._get_entry_data()
if user_input is None:
return self.async_show_form(
@ -183,7 +147,7 @@ class ConfigOptionsFlowHandler(OptionsFlow):
"""Manage windy options."""
errors = {}
await self._get_entry_data()
self._get_entry_data()
if user_input is None:
return self.async_show_form(
@ -196,7 +160,7 @@ class ConfigOptionsFlowHandler(OptionsFlow):
errors[WINDY_API_KEY] = "windy_key_required"
return self.async_show_form(
step_id="windy",
data_schema=vol.Schema(self.windy_data_schema),
data_schema=self.windy_data_schema,
errors=errors,
)
@ -211,17 +175,15 @@ class ConfigOptionsFlowHandler(OptionsFlow):
async def async_step_migration(self, user_input=None):
"""Migrate sensors."""
# hj
errors = {}
data_schema = vol.Schema(self.migrate_sensor_select)
data_schema.schema.update()
await self._get_entry_data()
self._get_entry_data()
if user_input is None:
return self.async_show_form(
step_id="migration",
data_schema=vol.Schema(self.migrate_sensor_select),
data_schema=vol.Schema(self.migrate_schema),
errors=errors,
description_placeholders={
"migration_status": "-",
@ -229,116 +191,18 @@ class ConfigOptionsFlowHandler(OptionsFlow):
},
)
self.selected_sensor = user_input.get(SENSOR_TO_MIGRATE)
return await self.async_step_migration_units()
async def async_step_migration_units(self, user_input=None):
"""Migrate unit step."""
registry = er.async_get(self.hass)
sensor_entry = registry.async_get(self.selected_sensor)
sensor_stats = await long_term_units_in_statistics_meta(self.hass)
default_unit = sensor_entry.unit_of_measurement if sensor_entry else None
if default_unit not in self.unit_values:
default_unit = self.unit_values[0]
data_schema = vol.Schema({
vol.Required(MIG_FROM, default=default_unit): vol.In(self.unit_values),
vol.Required(MIG_TO): vol.In(self.unit_values),
vol.Optional("trigger_action", default=False): bool,
})
if user_input is None:
return self.async_show_form(
step_id="migration_units",
data_schema=data_schema,
errors={},
description_placeholders={
"migration_sensor": sensor_entry.original_name,
"migration_stats": sensor_stats.get(self.selected_sensor),
},
)
if user_input.get("trigger_action"):
self.count = await migrate_data(
self.hass,
self.selected_sensor,
user_input.get(MIG_FROM),
user_input.get(MIG_TO),
# Akce se vykoná po zaškrtnutí
count = await self.hass.async_add_executor_job(
migrate_data, user_input.get(SENSOR_TO_MIGRATE)
)
registry.async_update_entity(self.selected_sensor,
unit_of_measurement=user_input.get(MIG_TO),
)
state = self.hass.states.get(self.selected_sensor)
if state:
_LOGGER.info("State attributes before update: %s", state.attributes)
attributes = dict(state.attributes)
attributes["unit_of_measurement"] = user_input.get(MIG_TO)
self.hass.states.async_set(self.selected_sensor, state.state, attributes)
_LOGGER.info("State attributes after update: %s", attributes)
options = {**self.config_entry.options, "reload_sensor": self.selected_sensor}
self.hass.config_entries.async_update_entry(self.config_entry, options=options)
await self.hass.config_entries.async_reload(self.config_entry.entry_id)
await self.hass.async_block_till_done()
_LOGGER.info("Migration complete for sensor %s: %s row updated, new measurement unit: %s, ",
self.selected_sensor,
self.count,
user_input.get(MIG_TO),
)
await self._get_entry_data()
sensor_entry = er.async_get(self.hass).async_get(self.selected_sensor)
sensor_stat = await self.load_sensors_to_migrate()
return self.async_show_form(
step_id="migration_complete",
data_schema=vol.Schema({}),
errors={},
description_placeholders={
"migration_sensor": sensor_entry.unit_of_measurement,
"migration_stats": sensor_stat.get(self.selected_sensor),
"migration_count": self.count,
},
)
# retain windy data
user_input.update(self.windy_data)
# retain user_data
user_input.update(self.user_data)
# retain senors
user_input.update(self.sensors)
return self.async_create_entry(title=DOMAIN, data=user_input)
async def async_step_migration_complete(self, user_input=None):
"""Migration complete."""
errors = {}
await self._get_entry_data()
sensor_entry = er.async_get(self.hass).async_get(self.selected_sensor)
sensor_stat = await self.load_sensors_to_migrate()
if user_input is None:
return self.async_show_form(
step_id="migration_complete",
data_schema=vol.Schema({}),
step_id="migration",
data_schema=vol.Schema(self.migrate_schema),
errors=errors,
description_placeholders={
"migration_sensor": sensor_entry.unit_of_measurement,
"migration_stats": sensor_stat.get(self.selected_sensor),
"migration_count": self.count,
"migration_status": user_input.get(SENSOR_TO_MIGRATE),
"migration_count": count,
},
)

8
custom_components/sws12500/sensors_wslink.py
View File

@ -170,7 +170,7 @@ SENSOR_TYPES_WSLINK: tuple[WeatherSensorEntityDescription, ...] = (
suggested_unit_of_measurement=UnitOfPrecipitationDepth.MILLIMETERS,
suggested_display_precision=2,
icon="mdi:weather-pouring",
translation_key=HOURLY_RAIN,
translation_key=DAILY_RAIN,
value_fn=lambda data: cast("float", data),
),
WeatherSensorEntityDescription(
@ -181,7 +181,7 @@ SENSOR_TYPES_WSLINK: tuple[WeatherSensorEntityDescription, ...] = (
suggested_unit_of_measurement=UnitOfPrecipitationDepth.MILLIMETERS,
suggested_display_precision=2,
icon="mdi:weather-pouring",
translation_key=WEEKLY_RAIN,
translation_key=DAILY_RAIN,
value_fn=lambda data: cast("float", data),
),
WeatherSensorEntityDescription(
@ -192,7 +192,7 @@ SENSOR_TYPES_WSLINK: tuple[WeatherSensorEntityDescription, ...] = (
suggested_unit_of_measurement=UnitOfPrecipitationDepth.MILLIMETERS,
suggested_display_precision=2,
icon="mdi:weather-pouring",
translation_key=MONTHLY_RAIN,
translation_key=DAILY_RAIN,
value_fn=lambda data: cast("float", data),
),
WeatherSensorEntityDescription(
@ -203,7 +203,7 @@ SENSOR_TYPES_WSLINK: tuple[WeatherSensorEntityDescription, ...] = (
suggested_unit_of_measurement=UnitOfPrecipitationDepth.MILLIMETERS,
suggested_display_precision=2,
icon="mdi:weather-pouring",
translation_key=YEARLY_RAIN,
translation_key=DAILY_RAIN,
value_fn=lambda data: cast("float", data),
),
WeatherSensorEntityDescription(

17
dev/custom_components/sws12500/data.py
View File

@ -1,17 +0,0 @@
"""Shared keys and helpers for storing integration runtime state in hass.data.
This integration uses `hass.data[DOMAIN][entry_id]` as a per-entry dictionary.
Keeping keys in one place prevents subtle bugs where different modules store
different value types under the same key.
"""
from __future__ import annotations
from typing import Final
# Per-entry dict keys stored under hass.data[DOMAIN][entry_id]
ENTRY_COORDINATOR: Final[str] = "coordinator"
ENTRY_ADD_ENTITIES: Final[str] = "async_add_entities"
ENTRY_DESCRIPTIONS: Final[str] = "sensor_descriptions"
ENTRY_LAST_OPTIONS: Final[str] = "last_options"