def test_simulation_control_dict_methods():
"""Test the to/from dict methods."""
daylight_save = DaylightSavingTime(Date(3, 10), Date(11, 3))
ds_dict = daylight_save.to_dict()
new_daylight_save = DaylightSavingTime.from_dict(ds_dict)
assert new_daylight_save == daylight_save
assert ds_dict == new_daylight_save.to_dict()
def test_simulation_control_init_from_idf():
"""Test the initialization of SimulationControl from_idf."""
daylight_save = DaylightSavingTime(Date(3, 10), Date(11, 3))
idf_str = daylight_save.to_idf()
rebuilt_daylight_save = DaylightSavingTime.from_idf(idf_str)
assert daylight_save == rebuilt_daylight_save
assert rebuilt_daylight_save.to_idf() == idf_str
def test_daylight_saving_time_equality():
"""Test the equality of DaylightSavingTime objects."""
daylight_save = DaylightSavingTime()
daylight_save_dup = daylight_save.duplicate()
daylight_save_alt = DaylightSavingTime(Date(3, 10), Date(11, 3))
assert daylight_save is daylight_save
assert daylight_save is not daylight_save_dup
assert daylight_save == daylight_save_dup
daylight_save_dup.start_date = Date(3, 10)
assert daylight_save != daylight_save_dup
assert daylight_save != daylight_save_alt
def test_daylight_saving_time_init():
"""Test the initialization of DaylightSavingTime and basic properties."""
daylight_save = DaylightSavingTime()
str(daylight_save) # test the string representation
assert daylight_save.start_date == Date(3, 12)
assert daylight_save.end_date == Date(11, 5)
def simulation_par_detailed(directory):
sim_par = SimulationParameter()
output = SimulationOutput()
output.add_zone_energy_use()
output.include_html = True
output.reporting_frequency = 'Daily'
output.add_summary_report('Annual Building Utility Performance Summary')
output.add_summary_report('Climatic Data Summary')
output.add_summary_report('Envelope Summary')
sim_par.output = output
run_period = RunPeriod(Date(1, 1), Date(6, 21))
run_period.daylight_saving_time = DaylightSavingTime(Date(3, 12), Date(11, 5))
run_period.start_day_of_week = 'Monday'
run_period.holidays = [Date(1, 1), Date(3, 17), Date(7, 4)]
sim_par.run_period = run_period
sim_par.timestep = 4
sim_control_alt = SimulationControl(run_for_sizing_periods=True,
run_for_run_periods=False)
sim_par.simulation_control = sim_control_alt
shadow_calc_alt = ShadowCalculation(
solar_distribution='FullInteriorAndExteriorWithReflections',
calculation_method='PixelCounting', calculation_update_method='Timestep')
sim_par.shadow_calculation = shadow_calc_alt
sizing_alt = SizingParameter(None, 1, 1)
relative_path = './scripts/ddy/chicago.ddy'
sizing_alt.add_from_ddy_996_004(relative_path)
sim_par.sizing_parameter = sizing_alt
dest_file = os.path.join(directory, 'simulation_par_detailed.json')
with open(dest_file, 'w') as fp:
json.dump(sim_par.to_dict(), fp, indent=4)
def test_simulation_parameter_to_dict_detailed():
"""Test the to_dict method with a detailed SimulationParameter."""
sim_par = SimulationParameter()
output = SimulationOutput()
output.add_zone_energy_use()
output.include_html = True
output.reporting_frequency = 'Daily'
output.add_summary_report('Annual Building Utility Performance Summary')
output.add_summary_report('Climatic Data Summary')
output.add_summary_report('Envelope Summary')
sim_par.output = output
run_period = RunPeriod(Date(1, 1), Date(6, 21))
run_period.daylight_saving_time = DaylightSavingTime(
Date(3, 12), Date(11, 5))
run_period.start_day_of_week = 'Monday'
run_period.holidays = [Date(1, 1), Date(3, 17), Date(7, 4)]
sim_par.run_period = run_period
sim_par.timestep = 4
sim_control_alt = SimulationControl(run_for_sizing_periods=True,
run_for_run_periods=False)
sim_par.simulation_control = sim_control_alt
shadow_calc_alt = ShadowCalculation(calculation_frequency=20)
sim_par.shadow_calculation = shadow_calc_alt
sizing_alt = SizingParameter(None, 1, 1)
relative_path = './tests/ddy/chicago.ddy'
sizing_alt.add_from_ddy_996_004(relative_path)
sim_par.sizing_parameter = sizing_alt
sim_par_dict = sim_par.to_dict()
assert 'outputs' in sim_par_dict['output']
assert 'holidays' in sim_par_dict['run_period']
assert 'daylight_saving_time' in sim_par_dict['run_period']
assert 'design_days' in sim_par_dict['sizing_parameter']
def test_run_period_setability():
"""Test the setting of properties of RunPeriod."""
run_period = RunPeriod()
run_period.start_date = Date(1, 1)
assert run_period.start_date == Date(1, 1)
run_period.end_date = Date(6, 21)
assert run_period.end_date == Date(6, 21)
run_period.start_day_of_week = 'Monday'
assert run_period.start_day_of_week == 'Monday'
run_period.holidays = (Date(1, 1), Date(3, 17))
assert run_period.holidays == (Date(1, 1), Date(3, 17))
run_period.daylight_saving_time = DaylightSavingTime()
assert run_period.daylight_saving_time == DaylightSavingTime()
run_period.is_leap_year = True
assert run_period.is_leap_year
def dict_to_simulation(sim_dict, raise_exception=True):
"""Get a Python object of any Simulation object from a dictionary.
Args:
sim_dict: A dictionary of any Honeybee energy simulation object. Note
that this should be a non-abridged dictionary to be valid.
raise_exception: Boolean to note whether an excpetion should be raised
if the object is not identified as a simulation object. Default: True.
Returns:
A Python object derived from the input sim_dict.
"""
try: # get the type key from the dictionary
sim_type = sim_dict['type']
except KeyError:
raise ValueError('Simulation dictionary lacks required "type" key.')
if sim_type == 'SimulationControl':
return SimulationControl.from_dict(sim_dict)
elif sim_type == 'RunPeriod':
return RunPeriod.from_dict(sim_dict)
elif sim_type == 'DaylightSavingTime':
return DaylightSavingTime.from_dict(sim_dict)
elif sim_type == 'ShadowCalculation':
return ShadowCalculation.from_dict(sim_dict)
elif sim_type == 'SizingParameter':
return SizingParameter.from_dict(sim_dict)
elif sim_type == 'SimulationOutput':
return SimulationOutput.from_dict(sim_dict)
elif sim_type == 'SimulationParameter':
return SimulationParameter.from_dict(sim_dict)
elif raise_exception:
raise ValueError(
'{} is not a recognized energy Simulation type'.format(sim_type))
def test_run_period_string_methods():
"""Test the to/from string methods."""
run_period = RunPeriod()
run_period.start_date = Date(1, 1)
run_period.end_date = Date(6, 21)
run_period.start_day_of_week = 'Monday'
run_period.holidays = (Date(1, 1), Date(3, 17))
run_period.daylight_saving_time = DaylightSavingTime()
new_run_period = RunPeriod.from_string(str(run_period))
assert new_run_period == run_period
def test_run_period_dict_methods():
"""Test the to/from dict methods."""
run_period = RunPeriod()
run_period.start_date = Date(1, 1)
run_period.end_date = Date(6, 21)
run_period.start_day_of_week = 'Monday'
run_period.holidays = (Date(1, 1), Date(3, 17))
run_period.daylight_saving_time = DaylightSavingTime()
rp_dict = run_period.to_dict()
new_run_period = RunPeriod.from_dict(rp_dict)
assert new_run_period == run_period
assert rp_dict == new_run_period.to_dict()
def test_run_period_init_from_idf():
"""Test the initialization of RunPeriod from_idf."""
run_period = RunPeriod()
run_period.start_date = Date(1, 1)
run_period.end_date = Date(6, 21)
run_period.start_day_of_week = 'Monday'
run_period.holidays = (Date(1, 1), Date(3, 17))
run_period.daylight_saving_time = DaylightSavingTime()
rp_str, holidays, dst = run_period.to_idf()
rebuilt_run_period = RunPeriod.from_idf(rp_str, holidays, dst)
assert run_period == rebuilt_run_period
assert rebuilt_run_period.to_idf() == (rp_str, holidays, dst)
def test_daylight_saving_time_setability():
"""Test the setting of properties of DaylightSavingTime."""
daylight_save = DaylightSavingTime()
daylight_save.start_date = Date(3, 10)
assert daylight_save.start_date == Date(3, 10)
daylight_save.end_date = Date(11, 3)
assert daylight_save.end_date == Date(11, 3)
with pytest.raises(AssertionError):
daylight_save.start_date = Date(11, 10)
with pytest.raises(AssertionError):
daylight_save.start_date = Date(3, 10, True)
except ImportError as e:
raise ImportError('\nFailed to import honeybee_energy:\n\t{}'.format(e))
# set default simulation outputs
if _output_ is None:
_output_ = SimulationOutput()
_output_.add_zone_energy_use()
# set default simulation run period
_run_period_ = RunPeriod.from_analysis_period(_run_period_) \
if _run_period_ is not None else RunPeriod()
# set the daylight savings if it is input
if daylight_saving_ is not None:
daylight_saving = DaylightSavingTime.from_analysis_period(daylight_saving_)
_run_period_.daylight_saving_time = daylight_saving
# set the holidays if requested.
if len(holidays_) != 0:
try:
dates = tuple(Date.from_date_string(date) for date in holidays_)
except ValueError:
dates = tuple(DateTime.from_date_time_string(date).date for date in holidays_)
_run_period_.holidays = dates
# set the start day of the week if it is input
if _start_dow_ is not None:
_run_period_.start_day_of_week = _start_dow_.title()
# set the default timestep
