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EOS/tests/test_class_ems_2.py
Bobby Noelte 80bfe4d0f0
Improve caching. (#431) 
* Move the caching module to core.

Add an in memory cache that for caching function and method results
during an energy management run (optimization run). Two decorators
are provided for methods and functions.

* Improve the file cache store by load and save functions.

Make EOS load the cache file store on startup and save it on shutdown.
Add a cyclic task that cleans the cache file store from outdated cache files.

* Improve startup of EOSdash by EOS

Make EOS starting EOSdash adhere to path configuration given in EOS.
The whole environment from EOS is now passed to EOSdash.
Should also prevent test errors due to unwanted/ wrong config file creation.

Both servers now provide a health endpoint that can be used to detect whether
the server is running. This is also used for testing now.

* Improve startup of EOS

EOS now has got an energy management task that runs shortly after startup.
It tries to execute energy management runs with predictions newly fetched
or initialized from cached data on first run.

* Improve shutdown of EOS

EOS has now a shutdown task that shuts EOS down gracefully with some
time delay to allow REST API requests for shutdwon or restart to be fully serviced.

* Improve EMS

Add energy management task for repeated energy management controlled by
startup delay and interval configuration parameters.
Translate EnergieManagementSystem to english EnergyManagement.

* Add administration endpoints

  - endpoints to control caching from REST API.
  - endpoints to control server restart (will not work on Windows) and shutdown from REST API

* Improve doc generation

Use "\n" linenend convention also on Windows when generating doc files.
Replace Windows specific 127.0.0.1 address by standard 0.0.0.0.

* Improve test support (to be able to test caching)

  - Add system test option to pytest for running tests with "real" resources
  - Add new test fixture to start server for test class and test function
  - Make kill signal adapt to Windows/ Linux
  - Use consistently "\n" for lineends when writing text files in  doc test
  - Fix test_logging under Windows
  - Fix conftest config_default_dirs test fixture under Windows

From @Lasall

* Improve Windows support

 - Use 127.0.0.1 as default config host (model defaults) and
   addionally redirect 0.0.0.0 to localhost on Windows (because default
   config file still has 0.0.0.0).
 - Update install/startup instructions as package installation is
   required atm.

Signed-off-by: Bobby Noelte <b0661n0e17e@gmail.com>
2025-02-12 21:35:51 +01:00

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import numpy as np
import pytest
from akkudoktoreos.core.ems import (
EnergyManagement,
EnergyManagementParameters,
SimulationResult,
get_ems,
)
from akkudoktoreos.devices.battery import (
Battery,
ElectricVehicleParameters,
SolarPanelBatteryParameters,
)
from akkudoktoreos.devices.generic import HomeAppliance, HomeApplianceParameters
from akkudoktoreos.devices.inverter import Inverter, InverterParameters
start_hour = 0
# Example initialization of necessary components
@pytest.fixture
def create_ems_instance(devices_eos, config_eos) -> EnergyManagement:
"""Fixture to create an EnergyManagement instance with given test parameters."""
# Assure configuration holds the correct values
config_eos.merge_settings_from_dict(
{"prediction": {"hours": 48}, "optimization": {"hours": 24}}
)
assert config_eos.prediction.hours == 48
# Initialize the battery and the inverter
akku = Battery(
SolarPanelBatteryParameters(
device_id="pv1", capacity_wh=5000, initial_soc_percentage=80, min_soc_percentage=10
)
)
akku.reset()
devices_eos.add_device(akku)
inverter = Inverter(
InverterParameters(device_id="iv1", max_power_wh=10000, battery_id=akku.device_id)
)
devices_eos.add_device(inverter)
# Household device (currently not used, set to None)
home_appliance = HomeAppliance(
HomeApplianceParameters(
device_id="dishwasher1",
consumption_wh=2000,
duration_h=2,
)
)
home_appliance.set_starting_time(2)
devices_eos.add_device(home_appliance)
# Example initialization of electric car battery
eauto = Battery(
ElectricVehicleParameters(
device_id="ev1", capacity_wh=26400, initial_soc_percentage=100, min_soc_percentage=100
),
)
devices_eos.add_device(eauto)
devices_eos.post_setup()
# Parameters based on previous example data
pv_prognose_wh = [0.0] * config_eos.prediction.hours
pv_prognose_wh[10] = 5000.0
pv_prognose_wh[11] = 5000.0
strompreis_euro_pro_wh = [0.001] * config_eos.prediction.hours
strompreis_euro_pro_wh[0:10] = [0.00001] * 10
strompreis_euro_pro_wh[11:15] = [0.00005] * 4
strompreis_euro_pro_wh[20] = 0.00001
einspeiseverguetung_euro_pro_wh = [0.00007] * len(strompreis_euro_pro_wh)
preis_euro_pro_wh_akku = 0.0001
gesamtlast = [
676.71,
876.19,
527.13,
468.88,
531.38,
517.95,
483.15,
472.28,
1011.68,
995.00,
1053.07,
1063.91,
1320.56,
1132.03,
1163.67,
1176.82,
1216.22,
1103.78,
1129.12,
1178.71,
1050.98,
988.56,
912.38,
704.61,
516.37,
868.05,
694.34,
608.79,
556.31,
488.89,
506.91,
804.89,
1141.98,
1056.97,
992.46,
1155.99,
827.01,
1257.98,
1232.67,
871.26,
860.88,
1158.03,
1222.72,
1221.04,
949.99,
987.01,
733.99,
592.97,
]
# Initialize the energy management system with the respective parameters
ems = get_ems()
ems.set_parameters(
EnergyManagementParameters(
pv_prognose_wh=pv_prognose_wh,
strompreis_euro_pro_wh=strompreis_euro_pro_wh,
einspeiseverguetung_euro_pro_wh=einspeiseverguetung_euro_pro_wh,
preis_euro_pro_wh_akku=preis_euro_pro_wh_akku,
gesamtlast=gesamtlast,
),
inverter=inverter,
ev=eauto,
home_appliance=home_appliance,
)
ac = np.full(config_eos.prediction.hours, 0.0)
ac[20] = 1
ems.set_akku_ac_charge_hours(ac)
dc = np.full(config_eos.prediction.hours, 0.0)
dc[11] = 1
ems.set_akku_dc_charge_hours(dc)
return ems
def test_simulation(create_ems_instance):
"""Test the EnergyManagement simulation method."""
ems = create_ems_instance
# Simulate starting from hour 0 (this value can be adjusted)
result = ems.simulate(start_hour=start_hour)
# --- Pls do not remove! ---
# visualisiere_ergebnisse(
# ems.gesamtlast,
# ems.pv_prognose_wh,
# ems.strompreis_euro_pro_wh,
# result,
# ems.akku.discharge_array+ems.akku.charge_array,
# None,
# ems.pv_prognose_wh,
# start_hour,
# 48,
# np.full(48, 0.0),
# filename="visualization_results.pdf",
# extra_data=None,
# )
# Assertions to validate results
assert result is not None, "Result should not be None"
assert isinstance(result, dict), "Result should be a dictionary"
assert SimulationResult(**result) is not None
assert "Last_Wh_pro_Stunde" in result, "Result should contain 'Last_Wh_pro_Stunde'"
"""
Check the result of the simulation based on expected values.
"""
# Example result returned from the simulation (used for assertions)
assert result is not None, "Result should not be None."
# Check that the result is a dictionary
assert isinstance(result, dict), "Result should be a dictionary."
# Verify that the expected keys are present in the result
expected_keys = [
"Last_Wh_pro_Stunde",
"Netzeinspeisung_Wh_pro_Stunde",
"Netzbezug_Wh_pro_Stunde",
"Kosten_Euro_pro_Stunde",
"akku_soc_pro_stunde",
"Einnahmen_Euro_pro_Stunde",
"Gesamtbilanz_Euro",
"EAuto_SoC_pro_Stunde",
"Gesamteinnahmen_Euro",
"Gesamtkosten_Euro",
"Verluste_Pro_Stunde",
"Gesamt_Verluste",
"Home_appliance_wh_per_hour",
]
for key in expected_keys:
assert key in result, f"The key '{key}' should be present in the result."
# Check the length of the main arrays
assert (
len(result["Last_Wh_pro_Stunde"]) == 48
), "The length of 'Last_Wh_pro_Stunde' should be 48."
assert (
len(result["Netzeinspeisung_Wh_pro_Stunde"]) == 48
), "The length of 'Netzeinspeisung_Wh_pro_Stunde' should be 48."
assert (
len(result["Netzbezug_Wh_pro_Stunde"]) == 48
), "The length of 'Netzbezug_Wh_pro_Stunde' should be 48."
assert (
len(result["Kosten_Euro_pro_Stunde"]) == 48
), "The length of 'Kosten_Euro_pro_Stunde' should be 48."
assert (
len(result["akku_soc_pro_stunde"]) == 48
), "The length of 'akku_soc_pro_stunde' should be 48."
# Verfify DC and AC Charge Bins
assert (
abs(result["akku_soc_pro_stunde"][2] - 44.70681818181818) < 1e-5
), "'akku_soc_pro_stunde[2]' should be 44.70681818181818."
assert (
abs(result["akku_soc_pro_stunde"][10] - 10.0) < 1e-5
), "'akku_soc_pro_stunde[10]' should be 10."
assert (
abs(result["Netzeinspeisung_Wh_pro_Stunde"][10] - 3946.93) < 1e-3
), "'Netzeinspeisung_Wh_pro_Stunde[11]' should be 3946.93."
assert (
abs(result["Netzeinspeisung_Wh_pro_Stunde"][11] - 0.0) < 1e-3
), "'Netzeinspeisung_Wh_pro_Stunde[11]' should be 0.0."
assert (
abs(result["akku_soc_pro_stunde"][20] - 10) < 1e-5
), "'akku_soc_pro_stunde[20]' should be 10."
assert (
abs(result["Last_Wh_pro_Stunde"][20] - 6050.98) < 1e-3
), "'Last_Wh_pro_Stunde[20]' should be 6050.98."
print("All tests passed successfully.")
def test_set_parameters(create_ems_instance):
"""Test the set_parameters method of EnergyManagement."""
ems = create_ems_instance
# Check if parameters are set correctly
assert ems.load_energy_array is not None, "load_energy_array should not be None"
assert ems.pv_prediction_wh is not None, "pv_prediction_wh should not be None"
assert ems.elect_price_hourly is not None, "elect_price_hourly should not be None"
assert (
ems.elect_revenue_per_hour_arr is not None
), "elect_revenue_per_hour_arr should not be None"
def test_set_akku_discharge_hours(create_ems_instance):
"""Test the set_akku_discharge_hours method of EnergyManagement."""
ems = create_ems_instance
discharge_hours = np.full(ems.config.prediction.hours, 1.0)
ems.set_akku_discharge_hours(discharge_hours)
assert np.array_equal(
ems.battery.discharge_array, discharge_hours
), "Discharge hours should be set correctly"
def test_set_akku_ac_charge_hours(create_ems_instance):
"""Test the set_akku_ac_charge_hours method of EnergyManagement."""
ems = create_ems_instance
ac_charge_hours = np.full(ems.config.prediction.hours, 1.0)
ems.set_akku_ac_charge_hours(ac_charge_hours)
assert np.array_equal(
ems.ac_charge_hours, ac_charge_hours
), "AC charge hours should be set correctly"
def test_set_akku_dc_charge_hours(create_ems_instance):
"""Test the set_akku_dc_charge_hours method of EnergyManagement."""
ems = create_ems_instance
dc_charge_hours = np.full(ems.config.prediction.hours, 1.0)
ems.set_akku_dc_charge_hours(dc_charge_hours)
assert np.array_equal(
ems.dc_charge_hours, dc_charge_hours
), "DC charge hours should be set correctly"
def test_set_ev_charge_hours(create_ems_instance):
"""Test the set_ev_charge_hours method of EnergyManagement."""
ems = create_ems_instance
ev_charge_hours = np.full(ems.config.prediction.hours, 1.0)
ems.set_ev_charge_hours(ev_charge_hours)
assert np.array_equal(
ems.ev_charge_hours, ev_charge_hours
), "EV charge hours should be set correctly"
def test_reset(create_ems_instance):
"""Test the reset method of EnergyManagement."""
ems = create_ems_instance
ems.reset()
assert ems.ev.current_soc_percentage() == 100, "EV SOC should be reset to initial value"
assert (
ems.battery.current_soc_percentage() == 80
), "Battery SOC should be reset to initial value"
def test_simulate_start_now(create_ems_instance):
"""Test the simulate_start_now method of EnergyManagement."""
ems = create_ems_instance
result = ems.simulate_start_now()
assert result is not None, "Result should not be None"
assert isinstance(result, dict), "Result should be a dictionary"
assert "Last_Wh_pro_Stunde" in result, "Result should contain 'Last_Wh_pro_Stunde'"
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