Files
EOS/tests/test_pvforecastakkudoktor.py
Bobby Noelte eb9e966de9 fix: move data management to async (#1015)
FAstAPI is an async framework. Data may be imported and exported, load and save, set and get
asynchronously. Prevent interleaving data operations to corrupt the data. In the previous design
sync and async data access was intermixed leading to data corruption.

The basic data classes DataSequence and DataContainer and the derived classes like Provider and
Measurement now are async. Data access is protected by several async locks.

To support the async design of the data classes the database interface became async.

The energy management is also adapted to the new async design. Optimization is still off-loaded
to another thread, but the prepration for the optimization and the post optimization actions now
follow the async design.

Adapter operations are now also protected by async locks.

Tests were adapted to the async design and new tests were created.

Besides this major fix several other improvements and fixes are included in this PR.

* fix: key_to_dict/list/array only regard data records with key value set.

  Before the exclusion of no value data records was only done if the dropna flag was set.

* fix: test for visual result pdf generation

  Due to updates in the library the generated charts text was a little bit different.
  Adapt the test to create the comaprison pdf in the test data durectory and
  update the reference pdf.

* chore: Remove MutableMapping from DataSequence and DataContainer.

  Mutable Mapping does not fit to the now async design.

* chore: Add NoDB database backend

  This backend implements the full database backend interface but performs
  no actual persistence. It is intended for configurations where database
  persistence is disabled (`provider=None`).

* chore: Improve measurement data import testing with real world scenarios.

  Added two new endpoints to support testing.

* chore: Add mermaid to supported documentation tools

* chore: Add documentation about async design

* chore: Add documentation about generic data handling

  Covers the basics of measurement and prediction time series data handling.

* chore: Add empty lines around markdown lists.

* chore: sync pre-commit config to updated package versions

Signed-off-by: Bobby Noelte <b0661n0e17e@gmail.com>
2026-07-15 16:38:53 +02:00

363 lines
12 KiB
Python

import sys
from pathlib import Path
from unittest.mock import Mock, patch
import pytest
import pytest_asyncio
from loguru import logger
from akkudoktoreos.core.coreabc import get_ems, get_prediction
from akkudoktoreos.prediction.pvforecastakkudoktor import (
AkkudoktorForecastHorizon,
AkkudoktorForecastMeta,
AkkudoktorForecastValue,
PVForecastAkkudoktor,
PVForecastAkkudoktorDataRecord,
)
from akkudoktoreos.utils.datetimeutil import compare_datetimes, to_datetime, to_duration
DIR_TESTDATA = Path(__file__).absolute().parent.joinpath("testdata")
FILE_TESTDATA_PV_FORECAST_INPUT_1 = DIR_TESTDATA.joinpath("pv_forecast_input_1.json")
FILE_TESTDATA_PV_FORECAST_INPUT_SINGLE_PLANE = DIR_TESTDATA.joinpath(
"pv_forecast_input_single_plane.json"
)
FILE_TESTDATA_PV_FORECAST_RESULT_1 = DIR_TESTDATA.joinpath("pv_forecast_result_1.txt")
@pytest.fixture
def sample_settings(config_eos):
"""Fixture that adds settings data to the global config."""
settings = {
"general": {
"latitude": 52.52,
"longitude": 13.405,
},
"prediction": {
"hours": 48,
"historic_hours": 24,
},
"pvforecast": {
"provider": "PVForecastAkkudoktor",
"planes": [
{
"peakpower": 5.0,
"surface_azimuth": 170,
"surface_tilt": 7,
"userhorizon": [20, 27, 22, 20],
"inverter_paco": 10000,
},
{
"peakpower": 4.8,
"surface_azimuth": 90,
"surface_tilt": 7,
"userhorizon": [30, 30, 30, 50],
"inverter_paco": 10000,
},
{
"peakpower": 1.4,
"surface_azimuth": 140,
"surface_tilt": 60,
"userhorizon": [60, 30, 0, 30],
"inverter_paco": 2000,
},
{
"peakpower": 1.6,
"surface_azimuth": 185,
"surface_tilt": 45,
"userhorizon": [45, 25, 30, 60],
"inverter_paco": 1400,
},
],
},
}
# Merge settings to config
config_eos.merge_settings_from_dict(settings)
assert config_eos.pvforecast.provider == "PVForecastAkkudoktor"
return config_eos
@pytest.fixture
def sample_forecast_data():
"""Fixture that returns sample forecast data converted to pydantic model."""
with FILE_TESTDATA_PV_FORECAST_INPUT_1.open("r", encoding="utf-8", newline=None) as f_in:
input_data = f_in.read()
return PVForecastAkkudoktor._validate_data(input_data)
@pytest.fixture
def sample_forecast_data_raw():
"""Fixture that returns raw sample forecast data."""
with FILE_TESTDATA_PV_FORECAST_INPUT_1.open("r", encoding="utf-8", newline=None) as f_in:
input_data = f_in.read()
return input_data
@pytest.fixture
def sample_forecast_data_single_plane_raw():
"""Fixture that returns raw sample forecast data."""
with FILE_TESTDATA_PV_FORECAST_INPUT_SINGLE_PLANE.open(
"r", encoding="utf-8", newline=None
) as f_in:
input_data = f_in.read()
return input_data
@pytest.fixture
def sample_forecast_report():
"""Fixture that returns sample forecast data report."""
with FILE_TESTDATA_PV_FORECAST_RESULT_1.open("r", encoding="utf-8", newline=None) as f_res:
input_data = f_res.read()
return input_data
@pytest.fixture
def sample_forecast_start(sample_forecast_data):
"""Fixture that returns the start date of the sample forecast data."""
forecast_start = to_datetime(sample_forecast_data.values[0][0].datetime)
expected_datetime = to_datetime("2024-10-06T00:00:00.000+02:00")
assert compare_datetimes(to_datetime(forecast_start), expected_datetime).equal
timezone_name = sample_forecast_data.meta.timezone
assert timezone_name == "Europe/Berlin"
return forecast_start
@pytest.fixture
def provider():
"""Fixture that returns the PVForecastAkkudoktor instance from the prediction."""
prediction = get_prediction()
provider = prediction.provider_by_id("PVForecastAkkudoktor")
assert isinstance(provider, PVForecastAkkudoktor)
return provider
@pytest_asyncio.fixture
async def provider_empty_instance():
"""Fixture that returns an empty instance of PVForecast."""
empty_instance = PVForecastAkkudoktor()
await empty_instance.delete_by_datetime(start_datetime=None, end_datetime=None)
assert len(empty_instance) == 0
return empty_instance
# Sample data for testing
sample_horizon = AkkudoktorForecastHorizon(altitude=30, azimuthFrom=90, azimuthTo=180)
sample_meta = AkkudoktorForecastMeta(
lat=52.52,
lon=13.405,
power=[5000],
azimuth=[180],
tilt=[30],
timezone="Europe/Berlin",
albedo=0.25,
past_days=5,
inverterEfficiency=0.8,
powerInverter=[10000],
cellCoEff=-0.36,
range=True,
horizont=[[sample_horizon]],
horizontString=["sample_horizon"],
)
sample_value = AkkudoktorForecastValue(
datetime="2024-11-09T12:00:00",
dcPower=500.0,
power=480.0,
sunTilt=30.0,
sunAzimuth=180.0,
temperature=15.0,
relativehumidity_2m=50.0,
windspeed_10m=10.0,
)
sample_config_data = {
"general": {
"latitude": 52.52,
"longitude": 13.405,
},
"prediction": {
"hours": 48,
"historic_hours": 24,
},
"pvforecast": {
"provider": "PVForecastAkkudoktor",
"planes": [
{
"peakpower": 5.0,
"surface_azimuth": 180,
"surface_tilt": 30,
"inverter_paco": 10000,
}
],
},
}
# Tests for AkkudoktorForecastHorizon
def test_akkudoktor_forecast_horizon():
horizon = AkkudoktorForecastHorizon(altitude=30, azimuthFrom=90, azimuthTo=180)
assert horizon.altitude == 30
assert horizon.azimuthFrom == 90
assert horizon.azimuthTo == 180
# Tests for AkkudoktorForecastMeta
def test_akkudoktor_forecast_meta():
meta = sample_meta
assert meta.lat == 52.52
assert meta.lon == 13.405
assert meta.power == [5000]
assert meta.tilt == [30]
assert meta.timezone == "Europe/Berlin"
# Tests for AkkudoktorForecastValue
def test_akkudoktor_forecast_value():
value = sample_value
assert value.dcPower == 500.0
assert value.power == 480.0
assert value.temperature == 15.0
assert value.windspeed_10m == 10.0
# Tests for PVForecastAkkudoktorDataRecord
def test_pvforecast_akkudoktor_data_record():
record = PVForecastAkkudoktorDataRecord(
pvforecastakkudoktor_ac_power_measured=1000.0,
pvforecastakkudoktor_wind_speed_10m=10.0,
pvforecastakkudoktor_temp_air=15.0,
)
assert record.pvforecastakkudoktor_ac_power_measured == 1000.0
assert record.pvforecastakkudoktor_wind_speed_10m == 10.0
assert record.pvforecastakkudoktor_temp_air == 15.0
assert (
record.pvforecastakkudoktor_ac_power_any == 1000.0
) # Assuming AC power measured is preferred
@pytest.mark.asyncio
async def test_pvforecast_akkudoktor_validate_data(provider_empty_instance, sample_forecast_data_raw):
"""Test validation of PV forecast data on sample data."""
logger.info("The following errors are intentional and part of the test.")
with pytest.raises(
ValueError,
match="Field: meta\nError: Field required\nType: missing\nField: values\nError: Field required\nType: missing\n",
):
ret = provider_empty_instance._validate_data("{}")
data = provider_empty_instance._validate_data(sample_forecast_data_raw)
# everything worked
@pytest.mark.asyncio
async def test_pvforecast_akkudoktor_validate_data_single_plane(
provider_empty_instance, sample_forecast_data_single_plane_raw
):
"""Test validation of PV forecast data on sample data with a single plane."""
logger.info("The following errors are intentional and part of the test.")
with pytest.raises(
ValueError,
match="Field: meta\nError: Field required\nType: missing\nField: values\nError: Field required\nType: missing\n",
):
ret = provider_empty_instance._validate_data("{}")
data = provider_empty_instance._validate_data(sample_forecast_data_single_plane_raw)
# everything worked
@pytest.mark.asyncio
@patch("requests.get")
async def test_pvforecast_akkudoktor_update_with_sample_forecast(
mock_get, sample_settings, sample_forecast_data_raw, sample_forecast_start, provider
):
"""Test data processing using sample forecast data."""
# Mock response object
mock_response = Mock()
mock_response.status_code = 200
mock_response.content = sample_forecast_data_raw
mock_get.return_value = mock_response
# Test that update properly inserts data records
ems_eos = get_ems()
ems_eos.set_start_datetime(sample_forecast_start)
await provider.update_data(force_enable=True, force_update=True)
assert compare_datetimes(provider.ems_start_datetime, sample_forecast_start).equal
assert compare_datetimes(provider.records[0].date_time, to_datetime(sample_forecast_start)).equal
# Report Generation Test
@pytest.mark.asyncio
async def test_report_ac_power_and_measurement(provider, config_eos):
# Set the configuration
config_eos.merge_settings_from_dict(sample_config_data)
record = PVForecastAkkudoktorDataRecord(
pvforecastakkudoktor_ac_power_measured=900.0,
pvforecast_dc_power=450.0,
pvforecast_ac_power=400.0,
)
await provider.insert_by_datetime(record)
report = provider.report_ac_power_and_measurement()
assert "DC: 450.0" in report
assert "AC: 400.0" in report
assert "AC sampled: 900.0" in report
@pytest.mark.skipif(
sys.platform.startswith("win"), reason="'other_timezone' fixture not supported on Windows"
)
@pytest.mark.asyncio
@patch("requests.get")
async def test_timezone_behaviour(
mock_get,
sample_settings,
sample_forecast_data_raw,
sample_forecast_start,
provider,
set_other_timezone,
):
"""Test PVForecast in another timezone."""
mock_response = Mock()
mock_response.status_code = 200
mock_response.content = sample_forecast_data_raw
mock_get.return_value = mock_response
# sample forecast start in other timezone
other_timezone = set_other_timezone()
other_start_datetime = to_datetime(sample_forecast_start, in_timezone=other_timezone)
assert compare_datetimes(other_start_datetime, sample_forecast_start).equal
expected_datetime = to_datetime("2024-10-06T00:00:00+0200", in_timezone=other_timezone)
assert compare_datetimes(other_start_datetime, expected_datetime).equal
await provider.delete_by_datetime(start_datetime=None, end_datetime=None)
assert len(provider) == 0
ems_eos = get_ems()
ems_eos.set_start_datetime(other_start_datetime)
await provider.update_data(force_update=True)
assert compare_datetimes(provider.ems_start_datetime, other_start_datetime).equal
# Check wether first record starts at requested sample start time
assert compare_datetimes(provider.records[0].date_time, sample_forecast_start).equal
# Test updating AC power measurement for a specific date.
await provider.update_value(sample_forecast_start, "pvforecastakkudoktor_ac_power_measured", 1000)
# Check wether first record was filled with ac power measurement
assert provider.records[0].pvforecastakkudoktor_ac_power_measured == 1000
# Test fetching temperature forecast for a specific date.
other_end_datetime = other_start_datetime + to_duration("24 hours")
expected_end_datetime = to_datetime("2024-10-07T00:00:00+0200", in_timezone=other_timezone)
assert compare_datetimes(other_end_datetime, expected_end_datetime).equal
forecast_temps = await provider.key_to_series(
"pvforecastakkudoktor_temp_air", other_start_datetime, other_end_datetime
)
assert len(forecast_temps) == 23 # 24-1, first temperature is null
assert forecast_temps.iloc[0] == 6.5
assert forecast_temps.iloc[1] == 6.0
# Test fetching AC power forecast
other_end_datetime = other_start_datetime + to_duration("48 hours")
forecast_measured = await provider.key_to_series(
"pvforecastakkudoktor_ac_power_measured", other_start_datetime, other_end_datetime
)
assert len(forecast_measured) == 1
assert forecast_measured.iloc[0] == 1000.0 # changed before