checked results to validate model and some modifications according to that
This commit is contained in:
parent
cd5f56d48e
commit
85d3e0c7dc
@ -38,7 +38,6 @@ class LoadsCalculation:
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* (internal_temperature - external_temperature)
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load_transmitted_opaque += thermal_zone.additional_thermal_bridge_u_value * thermal_zone.footprint_area \
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* (internal_temperature - ambient_temperature)
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load_transmitted = load_transmitted_opaque + load_transmitted_transparent
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return load_transmitted
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@ -47,11 +46,11 @@ class LoadsCalculation:
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load_renovation_sensible = 0
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for usage in thermal_zone.usage_zones:
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load_renovation_sensible += AIR_DENSITY * AIR_HEAT_CAPACITY * usage.mechanical_air_change \
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* thermal_zone.volume * cte.HOUR_TO_MINUTES * cte.MINUTES_TO_SECONDS \
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* thermal_zone.volume / cte.HOUR_TO_MINUTES / cte.MINUTES_TO_SECONDS \
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* (internal_temperature - ambient_temperature)
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load_infiltration_sensible = AIR_DENSITY * AIR_HEAT_CAPACITY * thermal_zone.infiltration_rate_system_off \
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* thermal_zone.volume * cte.HOUR_TO_MINUTES * cte.MINUTES_TO_SECONDS \
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load_infiltration_sensible = AIR_DENSITY * AIR_HEAT_CAPACITY * float(thermal_zone.infiltration_rate_system_off) \
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* thermal_zone.volume / cte.HOUR_TO_MINUTES / cte.MINUTES_TO_SECONDS \
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* (internal_temperature - ambient_temperature)
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load_ventilation = load_renovation_sensible + load_infiltration_sensible
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@ -60,7 +59,8 @@ class LoadsCalculation:
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def get_heating_transmitted_load(self, ambient_temperature, ground_temperature):
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heating_load_transmitted = 0
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for thermal_zone in self._building.thermal_zones:
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for internal_zone in self._building.internal_zones:
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for thermal_zone in internal_zone.thermal_zones:
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internal_temperature = thermal_zone.thermal_control.mean_heating_set_point
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heating_load_transmitted += self._get_load_transmitted(thermal_zone, internal_temperature, ambient_temperature,
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ground_temperature)
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@ -68,7 +68,8 @@ class LoadsCalculation:
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def get_cooling_transmitted_load(self, ambient_temperature, ground_temperature):
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cooling_load_transmitted = 0
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for thermal_zone in self._building.thermal_zones:
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for internal_zone in self._building.internal_zones:
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for thermal_zone in internal_zone.thermal_zones:
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internal_temperature = thermal_zone.thermal_control.mean_cooling_set_point
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cooling_load_transmitted += self._get_load_transmitted(thermal_zone, internal_temperature, ambient_temperature,
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ground_temperature)
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@ -76,14 +77,16 @@ class LoadsCalculation:
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def get_heating_ventilation_load_sensible(self, ambient_temperature):
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heating_ventilation_load = 0
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for thermal_zone in self._building.thermal_zones:
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for internal_zone in self._building.internal_zones:
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for thermal_zone in internal_zone.thermal_zones:
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internal_temperature = thermal_zone.thermal_control.mean_heating_set_point
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heating_ventilation_load += self._get_load_ventilation(thermal_zone, internal_temperature, ambient_temperature)
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return heating_ventilation_load
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def get_cooling_ventilation_load_sensible(self, ambient_temperature):
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cooling_ventilation_load = 0
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for thermal_zone in self._building.thermal_zones:
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for internal_zone in self._building.internal_zones:
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for thermal_zone in internal_zone.thermal_zones:
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internal_temperature = thermal_zone.thermal_control.mean_cooling_set_point
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cooling_ventilation_load += self._get_load_ventilation(thermal_zone, internal_temperature, ambient_temperature)
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return cooling_ventilation_load
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@ -92,7 +95,8 @@ class LoadsCalculation:
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cooling_load_occupancy_sensible = 0
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cooling_load_lighting = 0
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cooling_load_equipment_sensible = 0
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for thermal_zone in self._building.thermal_zones:
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for internal_zone in self._building.internal_zones:
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for thermal_zone in internal_zone.thermal_zones:
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cooling_load_occupancy_sensible += (thermal_zone.occupancy.sensible_convective_internal_gain
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+ thermal_zone.occupancy.sensible_radiative_internal_gain) \
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* thermal_zone.footprint_area
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@ -105,12 +109,15 @@ class LoadsCalculation:
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internal_load = cooling_load_occupancy_sensible + cooling_load_lighting + cooling_load_equipment_sensible
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return internal_load
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def get_radiation_load(self, hour):
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def get_radiation_load(self, irradiance_format, hour):
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cooling_load_radiation = 0
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for thermal_zone in self._building.thermal_zones:
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for internal_zone in self._building.internal_zones:
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for thermal_zone in internal_zone.thermal_zones:
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for thermal_boundary in thermal_zone.thermal_boundaries:
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radiation = thermal_boundary.parent_surface.radiation[hour]
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for thermal_opening in thermal_boundary.thermal_openings:
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radiation = thermal_boundary.parent_surface.global_irradiance[cte.HOUR][irradiance_format][hour]
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print(radiation)
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print(thermal_opening.g_value, thermal_opening.area)
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cooling_load_radiation += thermal_opening.area * (1 - thermal_opening.frame_ratio) * thermal_opening.g_value \
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* radiation
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return cooling_load_radiation
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87
main.py
87
main.py
@ -1,87 +0,0 @@
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"""
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Peak loads calculation workflow
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SPDX - License - Identifier: LGPL - 3.0 - or -later
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Copyright © 2022 Concordia CERC group
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Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
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"""
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import glob
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import os
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import sys
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from pathlib import Path
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import helpers.constants as cte
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from imports.geometry_factory import GeometryFactory
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from imports.construction_factory import ConstructionFactory
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from imports.usage_factory import UsageFactory
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from loads_calculation import LoadsCalculation
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try:
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gml = ''
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for argument_tuple in sys.argv[1:]:
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print(argument_tuple)
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argument = argument_tuple.split(' ')
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option = argument[0]
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value = argument[1]
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if option == '-g':
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gml = value
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out_path = (Path(__file__).parent.parent / 'out_files')
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files = glob.glob(f'{out_path}/*')
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for file in files:
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if file != '.gitignore':
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os.remove(file)
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print('[simulation start]')
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city = GeometryFactory('citygml', gml).city
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print(f'city created from {gml}')
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for building in city.buildings:
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building.year_of_construction = 2006
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if building.function is None:
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building.function = 'large office'
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ConstructionFactory('nrel', city).enrich()
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print('enrich constructions... done')
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UsageFactory('comnet', city).enrich()
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print('enrich usage... done')
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print('calculating:')
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weather_format = 'epw'
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for building in city.buildings:
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ambient_temperature = building.external_temperature[cte.HOUR][[weather_format]]
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ground_temperature = 0
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heating_ambient_temperature = 100
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cooling_ambient_temperature = -100
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heating_calculation_hour = -1
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cooling_calculation_hour = -1
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for hour, temperature in enumerate(ambient_temperature):
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ground_temperature += temperature / 8760
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if temperature < heating_ambient_temperature:
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heating_ambient_temperature = temperature
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heating_calculation_hour = hour
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if temperature > cooling_ambient_temperature:
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cooling_ambient_temperature = temperature
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cooling_calculation_hour = hour
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loads = LoadsCalculation(building)
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heating_load_transmitted = loads.get_heating_transmitted_load(heating_ambient_temperature, ground_temperature)
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heating_load_ventilation_sensible = loads.get_heating_ventilation_load_sensible(heating_ambient_temperature)
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heating_load_ventilation_latent = 0
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heating_load = heating_load_transmitted + heating_load_ventilation_sensible + heating_load_ventilation_latent
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cooling_load_transmitted = loads.get_cooling_transmitted_load(cooling_ambient_temperature, ground_temperature)
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cooling_load_renovation_sensible = loads.get_cooling_ventilation_load_sensible(cooling_ambient_temperature)
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cooling_load_internal_gains_sensible = loads.get_internal_load_sensible()
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cooling_load_radiation = loads.get_radiation_load(cooling_calculation_hour)
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cooling_load_sensible = cooling_load_transmitted + cooling_load_renovation_sensible + cooling_load_radiation \
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+ cooling_load_internal_gains_sensible
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cooling_load_latent = 0
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cooling_load = cooling_load_sensible + cooling_load_latent
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print('[calculation end]')
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except Exception as ex:
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print(ex)
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print('error: ', ex)
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print('[simulation abort]')
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sys.stdout.flush()
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104
peak_loads.py
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104
peak_loads.py
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@ -0,0 +1,104 @@
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"""
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Peak loads calculation workflow
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SPDX - License - Identifier: LGPL - 3.0 - or -later
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Copyright © 2022 Concordia CERC group
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Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
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"""
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from pathlib import Path
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import helpers.constants as cte
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from loads_calculation import LoadsCalculation
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class PeakLoads:
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def __init__(self, city, path, weather_format, irradiance_format):
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self._city = city
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self._path = path
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self._weather_format = weather_format
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self._irradiance_format = irradiance_format
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self._results = []
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self._sanity_check()
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self._workflow()
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def _sanity_check(self):
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levels_of_detail = self._city.level_of_detail
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if levels_of_detail.geometry is None:
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raise Exception(f'Level of detail of geometry not assigned')
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if levels_of_detail.geometry < 1:
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raise Exception(f'Level of detail of geometry = {levels_of_detail.geometry}. Required minimum level 1')
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if levels_of_detail.construction is None:
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raise Exception(f'Level of detail of construction not assigned')
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if levels_of_detail.construction < 1:
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raise Exception(f'Level of detail of construction = {levels_of_detail.construction}. Required minimum level 1')
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if levels_of_detail.usage is None:
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raise Exception(f'Level of detail of usage not assigned')
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if levels_of_detail.usage < 1:
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raise Exception(f'Level of detail of usage = {levels_of_detail.usage}. Required minimum level 1')
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for building in self._city.buildings:
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if cte.HOUR not in building.external_temperature:
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raise Exception(f'Building {building.name} does not have external temperature assigned')
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for surface in building.surfaces:
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if surface.type != cte.GROUND:
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if cte.HOUR not in surface.global_irradiance:
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raise Exception(f'Building {building.name} does not have global irradiance on surfaces assigned')
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def _workflow(self):
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for building in self._city.buildings:
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ambient_temperature = building.external_temperature[cte.HOUR][self._weather_format]
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ground_temperature = 0
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heating_ambient_temperature = 100
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cooling_ambient_temperature = -100
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heating_calculation_hour = -1
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cooling_calculation_hour = -1
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for hour, temperature in enumerate(ambient_temperature):
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ground_temperature += temperature / 8760
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if temperature < heating_ambient_temperature:
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heating_ambient_temperature = temperature
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heating_calculation_hour = hour
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if temperature > cooling_ambient_temperature:
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cooling_ambient_temperature = temperature
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cooling_calculation_hour = hour
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loads = LoadsCalculation(building)
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heating_load_transmitted = loads.get_heating_transmitted_load(heating_ambient_temperature, ground_temperature)
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heating_load_ventilation_sensible = loads.get_heating_ventilation_load_sensible(heating_ambient_temperature)
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heating_load_ventilation_latent = 0
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heating_load = heating_load_transmitted + heating_load_ventilation_sensible + heating_load_ventilation_latent
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cooling_load_transmitted = loads.get_cooling_transmitted_load(cooling_ambient_temperature, ground_temperature)
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cooling_load_renovation_sensible = loads.get_cooling_ventilation_load_sensible(cooling_ambient_temperature)
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cooling_load_internal_gains_sensible = loads.get_internal_load_sensible()
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cooling_load_radiation = loads.get_radiation_load(self._irradiance_format, cooling_calculation_hour)
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cooling_load_sensible = cooling_load_transmitted + cooling_load_renovation_sensible - cooling_load_radiation \
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- cooling_load_internal_gains_sensible
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cooling_load_latent = 0
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cooling_load = cooling_load_sensible + cooling_load_latent
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self._results.append([building.name, heating_load, cooling_load])
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self._print_results()
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def _print_results(self):
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print_results = 'Peak loads in W'
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for results in self._results:
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print_results += '\n'
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print_results += f'{results[0]}, {results[1]}, {results[2]}\n'
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file = 'city name: ' + self._city.name + '\n'
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for building in self._city.buildings:
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file += '\n'
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file += 'name: ' + building.name + '\n'
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file += 'year of construction: ' + str(building.year_of_construction) + '\n'
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file += 'function: ' + building.function + '\n'
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file += 'floor area: ' + str(building.internal_zones[0].area) + '\n'
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file += 'storeys: ' + str(building.storeys_above_ground) + '\n'
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file += 'heated_volume: ' + str(0.85 * building.volume) + '\n'
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file += 'volume: ' + str(building.volume) + '\n'
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full_path_results = Path(self._path / 'peak_loads.csv').resolve()
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with open(full_path_results, 'w') as results_file:
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results_file.write(print_results)
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full_path_metadata = Path(self._path / 'metadata.csv').resolve()
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with open(full_path_metadata, 'w') as metadata_file:
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metadata_file.write(file)
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102
unittests/test_peak_loads_workflow.py
Normal file
102
unittests/test_peak_loads_workflow.py
Normal file
@ -0,0 +1,102 @@
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"""
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TestPeakLoadsWorkflow test
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SPDX - License - Identifier: LGPL - 3.0 - or -later
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Copyright © 2022 Concordia CERC group
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Project Coder Pilar Monsalvete Alvarez de Uribarri pilar.monsalvete@concordia.ca
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"""
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from pathlib import Path
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from unittest import TestCase
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import pandas as pd
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import helpers.constants as cte
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from helpers.monthly_values import MonthlyValues
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from imports.geometry_factory import GeometryFactory
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from imports.construction_factory import ConstructionFactory
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from imports.usage_factory import UsageFactory
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from imports.weather_factory import WeatherFactory
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from peak_loads import PeakLoads
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class TestPeakLoadsWorkflow(TestCase):
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"""
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TestPeakLoadsWorkflow class
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"""
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def setUp(self) -> None:
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"""
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Test setup
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:return: None
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"""
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self._city = None
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self._complete_city = None
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self._example_path = (Path(__file__).parent / 'tests_data').resolve()
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self._output_path = (Path(__file__).parent / 'tests_outputs').resolve()
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def _get_citygml(self, file):
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file_path = (self._example_path / file).resolve()
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self._city = GeometryFactory('citygml', path=file_path).city
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self.assertIsNotNone(self._city, 'city is none')
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return self._city
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@property
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def _read_sra_file(self) -> []:
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path = (self._example_path / "one_building_in_kelowna_sra_SW.out").resolve()
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_results = pd.read_csv(path, sep='\s+', header=0)
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id_building = ''
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header_building = []
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_radiation = []
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for column in _results.columns.values:
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if id_building != column.split(':')[1]:
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id_building = column.split(':')[1]
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if len(header_building) > 0:
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_radiation.append(pd.concat([MonthlyValues().month_hour, _results[header_building]], axis=1))
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header_building = [column]
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else:
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header_building.append(column)
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_radiation.append(pd.concat([MonthlyValues().month_hour, _results[header_building]], axis=1))
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return _radiation
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def _set_irradiance_surfaces(self, city, irradiance_format):
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"""
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saves in building surfaces the correspondent irradiance at different time-scales depending on the mode
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if building is None, it saves all buildings' surfaces in file, if building is specified, it saves only that
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specific building values
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:parameter city: city
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:return: none
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"""
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for radiation in self._read_sra_file:
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city_object_name = radiation.columns.values.tolist()[1].split(':')[1]
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building = city.city_object(city_object_name)
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for column in radiation.columns.values:
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if column == cte.MONTH:
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continue
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header_id = column
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surface_id = header_id.split(':')[2]
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surface = building.surface_by_id(surface_id)
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new_value = pd.DataFrame(radiation[[header_id]].to_numpy(), columns=[irradiance_format])
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surface.global_irradiance[cte.HOUR] = new_value
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def _enrich_city(self, city, weather_file, weather_format, irradiance_format, construction_format, usage_format):
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WeatherFactory(weather_format, city, file_name=weather_file).enrich()
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self._set_irradiance_surfaces(city, irradiance_format)
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for building in city.buildings:
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building.year_of_construction = 2006
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if building.function is None:
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building.function = cte.LARGE_OFFICE
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ConstructionFactory(construction_format, city).enrich()
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UsageFactory(usage_format, city).enrich()
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def test_workflow(self):
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outputs_path = (Path(__file__).parent / 'tests_outputs').resolve()
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gml_file = 'one_building_in_kelowna.gml'
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city = self._get_citygml(gml_file)
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weather_file = 'CAN_PQ_Montreal.Intl.AP.716270_CWEC.epw'
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weather_format = 'epw'
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irradiance_format = 'sra'
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construction_format = 'nrel'
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usage_format = 'comnet'
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self._enrich_city(city, weather_file, weather_format, irradiance_format, construction_format, usage_format)
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PeakLoads(city, outputs_path, weather_format, irradiance_format)
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4
unittests/tests_outputs/.gitignore
vendored
Normal file
4
unittests/tests_outputs/.gitignore
vendored
Normal file
@ -0,0 +1,4 @@
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# Ignore everything in this directory
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*
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# Except this file
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!.gitignore
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Loading…
Reference in New Issue
Block a user