""" TestSystemsFactory SPDX - License - Identifier: LGPL - 3.0 - or -later Copyright © 2023 Concordia CERC group Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca """ import subprocess from pathlib import Path from unittest import TestCase import copy from typing import cast import hub.helpers.constants as cte from hub.exports.energy_building_exports_factory import EnergyBuildingsExportsFactory from hub.exports.exports_factory import ExportsFactory from hub.helpers.dictionaries import Dictionaries from hub.imports.construction_factory import ConstructionFactory from hub.imports.geometry_factory import GeometryFactory from hub.imports.weather_factory import WeatherFactory from hub.imports.results_factory import ResultFactory from hub.imports.usage_factory import UsageFactory from hub.imports.energy_systems_factory import EnergySystemsFactory from hub.city_model_structure.energy_systems.energy_system import EnergySystem from hub.city_model_structure.energy_systems.generation_system import GenerationSystem from hub.city_model_structure.energy_systems.distribution_system import DistributionSystem from hub.city_model_structure.energy_systems.emission_system import EmissionSystem from hub.city_model_structure.energy_systems.thermal_storage_system import ThermalStorageSystem from hub.city_model_structure.energy_systems.non_pv_generation_system import NonPvGenerationSystem class TestSystemsFactory(TestCase): """ TestSystemsFactory TestCase """ def setUp(self) -> None: """ Test setup :return: None """ self._example_path = (Path(__file__).parent / 'tests_data').resolve() self._output_path = (Path(__file__).parent / 'tests_outputs').resolve() file = 'test.geojson' file_path = (self._example_path / file).resolve() self._city = GeometryFactory('geojson', path=file_path, height_field='citygml_me', year_of_construction_field='ANNEE_CONS', function_field='CODE_UTILI', function_to_hub=Dictionaries().montreal_function_to_hub_function).city def test_montreal_custom_system_factory(self): """ Enrich the city with the construction information and verify it """ for building in self._city.buildings: building.energy_systems_archetype_name = 'system 1 gas' EnergySystemsFactory('montreal_custom', self._city).enrich() self.assertEqual(1, len(self._city.generic_energy_systems)) def test_montreal_custom_system_results(self): """ Enrich the city with the construction information and verify it """ ConstructionFactory('nrcan', self._city).enrich() UsageFactory('nrcan', self._city).enrich() WeatherFactory('epw', self._city).enrich() ExportsFactory('sra', self._city, self._output_path).export() sra_path = (self._output_path / f'{self._city.name}_sra.xml').resolve() subprocess.run(['sra', str(sra_path)]) ResultFactory('sra', self._city, self._output_path).enrich() EnergyBuildingsExportsFactory('insel_monthly_energy_balance', self._city, self._output_path).export() for building in self._city.buildings: insel_path = (self._output_path / f'{building.name}.insel') subprocess.run(['insel', str(insel_path)]) ResultFactory('insel_monthly_energy_balance', self._city, self._output_path).enrich() for building in self._city.buildings: building.energy_systems_archetype_name = 'northern community system' EnergySystemsFactory('montreal_custom', self._city).enrich() # Need to assign energy systems to buildings: for building in self._city.buildings: _building_energy_systems = [] for energy_system in building.energy_systems: if cte.HEATING in energy_system.demand_types: _generation_system = cast(NonPvGenerationSystem, energy_system.generation_systems[0]) _generation_system.heat_power = building.heating_peak_load[cte.YEAR][0] if cte.COOLING in energy_system.demand_types: _generation_system = cast(NonPvGenerationSystem, energy_system.generation_systems[0]) _generation_system.cooling_power = building.cooling_peak_load[cte.YEAR][0] for building in self._city.buildings: self.assertLess(0, building.heating_consumption[cte.YEAR][0]) self.assertLessEqual(0, building.cooling_consumption[cte.YEAR][0]) self.assertLess(0, building.domestic_hot_water_consumption[cte.YEAR][0]) self.assertLess(0, building.onsite_electrical_production[cte.YEAR][0]) def test_montreal_future_system_results(self): """ Enrich the city with the construction information and verify it """ ConstructionFactory('nrcan', self._city).enrich() UsageFactory('nrcan', self._city).enrich() WeatherFactory('epw', self._city).enrich() ExportsFactory('sra', self._city, self._output_path).export() sra_path = (self._output_path / f'{self._city.name}_sra.xml').resolve() subprocess.run(['sra', str(sra_path)]) ResultFactory('sra', self._city, self._output_path).enrich() EnergyBuildingsExportsFactory('insel_monthly_energy_balance', self._city, self._output_path).export() for building in self._city.buildings: insel_path = (self._output_path / f'{building.name}.insel') subprocess.run(['insel', str(insel_path)]) ResultFactory('insel_monthly_energy_balance', self._city, self._output_path).enrich() for building in self._city.buildings: building.energy_systems_archetype_name = ('Central Hydronic Air and Gas Source Heating System with Unitary Split ' 'Cooling and Air Source HP DHW and Grid Tied PV') EnergySystemsFactory('montreal_future', self._city).enrich() # Need to assign energy systems to buildings: for building in self._city.buildings: _building_energy_systems = [] for energy_system in building.energy_systems: if cte.HEATING in energy_system.demand_types: _generation_system = cast(NonPvGenerationSystem, energy_system.generation_systems[0]) _generation_system.nominal_heat_output = building.heating_peak_load[cte.YEAR][0] if cte.COOLING in energy_system.demand_types: _generation_system = cast(NonPvGenerationSystem, energy_system.generation_systems[0]) _generation_system.nominal_cooling_output = building.cooling_peak_load[cte.YEAR][0] for building in self._city.buildings: self.assertLess(0, building.heating_consumption[cte.YEAR][0]) self.assertLess(0, building.cooling_consumption[cte.YEAR][0]) self.assertLess(0, building.domestic_hot_water_consumption[cte.YEAR][0]) if 'PV' in building.energy_systems_archetype_name: self.assertLess(0, building.onsite_electrical_production[cte.YEAR][0]) def test_palma_system_results(self): """ Enrich the city with the construction information and verify it """ ConstructionFactory('nrcan', self._city).enrich() UsageFactory('nrcan', self._city).enrich() WeatherFactory('epw', self._city).enrich() ExportsFactory('sra', self._city, self._output_path).export() sra_path = (self._output_path / f'{self._city.name}_sra.xml').resolve() subprocess.run(['sra', str(sra_path)]) ResultFactory('sra', self._city, self._output_path).enrich() EnergyBuildingsExportsFactory('insel_monthly_energy_balance', self._city, self._output_path).export() for building in self._city.buildings: insel_path = (self._output_path / f'{building.name}.insel') subprocess.run(['insel', str(insel_path)]) ResultFactory('insel_monthly_energy_balance', self._city, self._output_path).enrich() for building in self._city.buildings: building.energy_systems_archetype_name = 'PV and heat pump' EnergySystemsFactory('palma', self._city).enrich() # Need to assign energy systems to buildings: for building in self._city.buildings: _building_energy_systems = [] for energy_system in building.energy_systems: if cte.HEATING in energy_system.demand_types: _generation_system = cast(NonPvGenerationSystem, energy_system.generation_systems[0]) _generation_system.nominal_heat_output = building.heating_peak_load[cte.YEAR][0] if cte.COOLING in energy_system.demand_types: _generation_system = cast(NonPvGenerationSystem, energy_system.generation_systems[0]) _generation_system.nominal_cooling_output = building.cooling_peak_load[cte.YEAR][0] for building in self._city.buildings: self.assertLess(0, building.heating_consumption[cte.YEAR][0]) self.assertLess(0, building.cooling_consumption[cte.YEAR][0]) self.assertLess(0, building.domestic_hot_water_consumption[cte.YEAR][0]) self.assertLess(0, building.onsite_electrical_production[cte.YEAR][0])