def title_text(data_col):
"""Get a text string for the title of the sunpath."""
title_array = ['{} ({})'.format(data_col.header.data_type,
data_col.header.unit)]
for key, val in data_col.header.metadata.items():
title_array.append('{}: {}'.format(key, val))
return '\n'.join(title_array)
if all_required_inputs(ghenv.Component):
# process all of the global inputs for the sunpath
if north_ is not None: # process the north_
try:
north_ = math.degrees(
to_vector2d(north_).angle_clockwise(Vector2D(0, 1)))
except AttributeError: # north angle instead of vector
north_ = float(north_)
else:
north_ = 0
if _center_pt_ is not None: # process the center point into a Point2D
center_pt, center_pt3d = to_point2d(_center_pt_), to_point3d(_center_pt_)
z = _center_pt_.Z
else:
center_pt, center_pt3d = Point2D(), Point3D()
z = 0
_scale_ = 1 if _scale_ is None else _scale_ # process the scale into a radius
radius = (100 * _scale_) / conversion_to_meters()
solar_time_ = False if solar_time_ is None else solar_time_ # process solat time
# create a intersection of the input _hoys_ and the data hoys
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
_timestep_ = _timestep_ if _timestep_ is not None else 6
# set the default timestep
_terrain_ = _terrain_.title() if _terrain_ is not None else 'City'
# return final simulation parameters
sim_par = SimulationParameter(output=_output_,
run_period=_run_period_,
timestep=_timestep_,
simulation_control=_sim_control_,
shadow_calculation=_shadow_calc_,
sizing_parameter=_sizing_,
terrain_type=_terrain_)
# set the north if it is not defaulted
if _north_ is not None:
try:
sim_par.north_vector = to_vector2d(_north_)
except AttributeError: # north angle instead of vector
sim_par.north_angle = float(_north_)
try:
from honeybee_radiance.lightsource.sky import ClimateBased
except ImportError as e:
raise ImportError('\nFailed to import honeybee_radiance:\n\t{}'.format(e))
try: # import ladybug_rhino dependencies
from ladybug_rhino.grasshopper import all_required_inputs
from ladybug_rhino.togeometry import to_vector2d
except ImportError as e:
raise ImportError('\nFailed to import ladybug_rhino:\n\t{}'.format(e))
import math
if all_required_inputs(ghenv.Component):
# process the north input
north_ = north_ or 0
try: # it's a vector
north_ = math.degrees(to_vector2d(north_).angle_clockwise(Vector2D(0, 1)))
except AttributeError: # north angle instead of vector
north_ = float(north_)
# set default values if they are not set
_month_ = _month_ or 6
_day_ = _day_ or 21
_hour_ = _hour_ or 12
# create the sky object
sky = ClimateBased.from_location(
_location, _month_, _day_, _hour_, _dir_rad, _diff_rad, north_)
'the Model with the "HB Assign Grids and Views" component.'
give_warning(ghenv.Component, msg)
print(msg)
all_grids = [
g.display_name for g in _model.properties.radiance.sensor_grids
]
if len(_sensor_grids_) == 0 or _sensor_grids_[0] is None:
_sensor_grids_ = all_grids # use all the Model's sensor grids
else:
for grid in _sensor_grids_:
assert grid in all_grids, \
'Sensor grid "{}" was not found in the Model.'.format(grid)
assert isinstance(_wea,
Wea), 'Expected Wea object. Got {}.'.format(type(_wea))
try:
north_vector = to_vector2d(north_)
north_angle = math.degrees(north_vector.angle_clockwise(Vector2D(0,
1)))
except AttributeError: # north angle instead of vector
north_angle = float(north_)
# this part is an optional step for each recipe to process the model for luigi input
def default_simulation_path(self):
return os.path.join(hb_folders.default_simulation_folder,
self._info['inputs']['model'].identifier,
'Radiance')
def process_inputs(inputs, folder):
model_fold = os.path.join(folder, 'model')
if os.path.isdir(model_fold):
nukedir(model_fold,
