def test_create_shadowcalculation(self):
pyidf.validation_level = ValidationLevel.error
obj = ShadowCalculation()
# alpha
var_calculation_method = "AverageOverDaysInFrequency"
obj.calculation_method = var_calculation_method
# integer
var_calculation_frequency = 1
obj.calculation_frequency = var_calculation_frequency
# integer
var_maximum_figures_in_shadow_overlap_calculations = 200
obj.maximum_figures_in_shadow_overlap_calculations = var_maximum_figures_in_shadow_overlap_calculations
# alpha
var_polygon_clipping_algorithm = "ConvexWeilerAtherton"
obj.polygon_clipping_algorithm = var_polygon_clipping_algorithm
# alpha
var_sky_diffuse_modeling_algorithm = "SimpleSkyDiffuseModeling"
obj.sky_diffuse_modeling_algorithm = var_sky_diffuse_modeling_algorithm
idf = IDF()
idf.add(obj)
idf.save(self.path, check=False)
with open(self.path, mode='r') as f:
for line in f:
log.debug(line.strip())
idf2 = IDF(self.path)
self.assertEqual(idf2.shadowcalculations[0].calculation_method, var_calculation_method)
self.assertEqual(idf2.shadowcalculations[0].calculation_frequency, var_calculation_frequency)
self.assertEqual(idf2.shadowcalculations[0].maximum_figures_in_shadow_overlap_calculations, var_maximum_figures_in_shadow_overlap_calculations)
self.assertEqual(idf2.shadowcalculations[0].polygon_clipping_algorithm, var_polygon_clipping_algorithm)
self.assertEqual(idf2.shadowcalculations[0].sky_diffuse_modeling_algorithm, var_sky_diffuse_modeling_algorithm)
def test_create_shadowcalculation(self):
pyidf.validation_level = ValidationLevel.error
obj = ShadowCalculation()
# alpha
var_calculation_method = "AverageOverDaysInFrequency"
obj.calculation_method = var_calculation_method
# integer
var_calculation_frequency = 1
obj.calculation_frequency = var_calculation_frequency
# integer
var_maximum_figures_in_shadow_overlap_calculations = 200
obj.maximum_figures_in_shadow_overlap_calculations = var_maximum_figures_in_shadow_overlap_calculations
# alpha
var_polygon_clipping_algorithm = "ConvexWeilerAtherton"
obj.polygon_clipping_algorithm = var_polygon_clipping_algorithm
# alpha
var_sky_diffuse_modeling_algorithm = "SimpleSkyDiffuseModeling"
obj.sky_diffuse_modeling_algorithm = var_sky_diffuse_modeling_algorithm
idf = IDF()
idf.add(obj)
idf.save(self.path, check=False)
with open(self.path, mode='r') as f:
for line in f:
log.debug(line.strip())
idf2 = IDF(self.path)
self.assertEqual(idf2.shadowcalculations[0].calculation_method,
var_calculation_method)
self.assertEqual(idf2.shadowcalculations[0].calculation_frequency,
var_calculation_frequency)
self.assertEqual(
idf2.shadowcalculations[0].
maximum_figures_in_shadow_overlap_calculations,
var_maximum_figures_in_shadow_overlap_calculations)
self.assertEqual(idf2.shadowcalculations[0].polygon_clipping_algorithm,
var_polygon_clipping_algorithm)
self.assertEqual(
idf2.shadowcalculations[0].sky_diffuse_modeling_algorithm,
var_sky_diffuse_modeling_algorithm)
obj4 = SurfaceConvectionAlgorithmInside()
obj4.algorithm = "TARP"
idf.add(obj4)
obj5 = SurfaceConvectionAlgorithmOutside()
obj5.algorithm = "TARP"
idf.add(obj5)
obj6 = HeatBalanceAlgorithm()
obj6.algorithm = "ConductionTransferFunction"
idf.add(obj6)
obj7 = ShadowCalculation()
obj7.calculation_method = "AverageOverDaysInFrequency"
obj7.calculation_frequency = 20
idf.add(obj7)
obj8 = SimulationControl()
obj8.do_zone_sizing_calculation = "No"
obj8.do_system_sizing_calculation = "No"
obj8.do_plant_sizing_calculation = "No"
obj8.run_simulation_for_sizing_periods = "Yes"
obj8.run_simulation_for_weather_file_run_periods = "No"
idf.add(obj8)
obj9 = SiteLocation()
obj9.name = "CHICAGO_IL_USA TMY2-94846"
obj9.latitude = 41.78
obj9.longitude = -87.75
obj9.time_zone = -6.0
obj4 = SurfaceConvectionAlgorithmInside()
obj4.algorithm = "TARP"
idf.add(obj4)
obj5 = SurfaceConvectionAlgorithmOutside()
obj5.algorithm = "TARP"
idf.add(obj5)
obj6 = HeatBalanceAlgorithm()
obj6.algorithm = "ConductionTransferFunction"
idf.add(obj6)
obj7 = ShadowCalculation()
obj7.calculation_method = "AverageOverDaysInFrequency"
obj7.calculation_frequency = 20
idf.add(obj7)
obj8 = SimulationControl()
obj8.do_zone_sizing_calculation = "No"
obj8.do_system_sizing_calculation = "No"
obj8.do_plant_sizing_calculation = "No"
obj8.run_simulation_for_sizing_periods = "Yes"
obj8.run_simulation_for_weather_file_run_periods = "No"
idf.add(obj8)
obj9 = SiteLocation()
obj9.name = "CHICAGO_IL_USA TMY2-94846"
obj9.latitude = 41.78
obj9.longitude = -87.75
obj9.time_zone = -6.0