EOS/tests/test_class_akku.py

import unittest
import numpy as np
from modules.class_akku import PVAkku

class TestPVAkku(unittest.TestCase):

    def setUp(self):
        # Initializing common parameters for tests
        self.kapazitaet_wh = 10000  # 10,000 Wh capacity
        self.lade_effizienz = 0.88
        self.entlade_effizienz = 0.88
        self.min_soc_prozent = 20  # Minimum SoC is 20%
        self.max_soc_prozent = 80  # Maximum SoC is 80%

    def test_initial_state_of_charge(self):
        akku = PVAkku(self.kapazitaet_wh, hours=1, start_soc_prozent=50, min_soc_prozent=self.min_soc_prozent, max_soc_prozent=self.max_soc_prozent)
        self.assertEqual(akku.ladezustand_in_prozent(), 50.0, "Initial SoC should be 50%")

    def test_discharge_below_min_soc(self):
        akku = PVAkku(self.kapazitaet_wh, hours=1, start_soc_prozent=50, min_soc_prozent=self.min_soc_prozent, max_soc_prozent=self.max_soc_prozent)
        akku.reset()
        # Try to discharge more energy than available above min_soc
        abgegeben_wh, verlust_wh = akku.energie_abgeben(5000, 0)  # Try to discharge 5000 Wh
        expected_soc = self.min_soc_prozent  # SoC should not drop below min_soc
        self.assertEqual(akku.ladezustand_in_prozent(), expected_soc, "SoC should not drop below min_soc after discharge")
        self.assertEqual(abgegeben_wh, 2640.0, "The energy discharged should be limited by min_soc")

    def test_charge_above_max_soc(self):
        akku = PVAkku(self.kapazitaet_wh, hours=1, start_soc_prozent=50, min_soc_prozent=self.min_soc_prozent, max_soc_prozent=self.max_soc_prozent)
        akku.reset()
        # Try to charge more energy than available up to max_soc
        geladen_wh, verlust_wh = akku.energie_laden(5000, 0)  # Try to charge 5000 Wh
        expected_soc = self.max_soc_prozent  # SoC should not exceed max_soc
        self.assertEqual(akku.ladezustand_in_prozent(), expected_soc, "SoC should not exceed max_soc after charge")
        self.assertEqual(geladen_wh, 3000.0, "The energy charged should be limited by max_soc")

    def test_charging_at_max_soc(self):
        akku = PVAkku(self.kapazitaet_wh, hours=1, start_soc_prozent=80, min_soc_prozent=self.min_soc_prozent, max_soc_prozent=self.max_soc_prozent)
        akku.reset()
        # Try to charge when SoC is already at max_soc
        geladen_wh, verlust_wh = akku.energie_laden(5000, 0)
        self.assertEqual(geladen_wh, 0.0, "No energy should be charged when at max_soc")
        self.assertEqual(akku.ladezustand_in_prozent(), self.max_soc_prozent, "SoC should remain at max_soc")

    def test_discharging_at_min_soc(self):
        akku = PVAkku(self.kapazitaet_wh, hours=1, start_soc_prozent=20, min_soc_prozent=self.min_soc_prozent, max_soc_prozent=self.max_soc_prozent)
        akku.reset()
        # Try to discharge when SoC is already at min_soc
        abgegeben_wh, verlust_wh = akku.energie_abgeben(5000, 0)
        self.assertEqual(abgegeben_wh, 0.0, "No energy should be discharged when at min_soc")
        self.assertEqual(akku.ladezustand_in_prozent(), self.min_soc_prozent, "SoC should remain at min_soc")

    def test_soc_limits(self):
        # Test to ensure that SoC never exceeds max_soc or drops below min_soc
        akku = PVAkku(self.kapazitaet_wh, hours=1, start_soc_prozent=50, min_soc_prozent=self.min_soc_prozent, max_soc_prozent=self.max_soc_prozent)
        akku.reset()
        akku.soc_wh = (self.max_soc_prozent / 100) * self.kapazitaet_wh + 1000  # Manually set SoC above max limit
        akku.soc_wh = min(akku.soc_wh, akku.max_soc_wh)
        self.assertLessEqual(akku.ladezustand_in_prozent(), self.max_soc_prozent, "SoC should not exceed max_soc")
        
        akku.soc_wh = (self.min_soc_prozent / 100) * self.kapazitaet_wh - 1000  # Manually set SoC below min limit
        akku.soc_wh = max(akku.soc_wh, akku.min_soc_wh)
        self.assertGreaterEqual(akku.ladezustand_in_prozent(), self.min_soc_prozent, "SoC should not drop below min_soc")

if __name__ == '__main__':
    unittest.main()