def make_model(images_dir=os.path.join(base_dir, 'images')): # create the maps: print 'creating the maps' mapfile = get_datafile(os.path.join(base_dir, './MassBayMap.bna')) gnome_map = MapFromBNA(mapfile, refloat_halflife=1) # hours renderer = Renderer(mapfile, images_dir, size=(800, 800), projection_class=GeoProjection) print 'initializing the model' start_time = datetime(2013, 3, 12, 10, 0) # 15 minutes in seconds # Default to now, rounded to the nearest hour model = Model(time_step=900, start_time=start_time, duration=timedelta(days=1), map=gnome_map, uncertain=False) print 'adding outputters' model.outputters += renderer netcdf_file = os.path.join(base_dir, 'script_boston.nc') scripting.remove_netcdf(netcdf_file) model.outputters += NetCDFOutput(netcdf_file, which_data='all') print 'adding a RandomMover:' model.movers += RandomMover(diffusion_coef=100000) print 'adding a wind mover:' series = np.zeros((2, ), dtype=datetime_value_2d) series[0] = (start_time, (5, 180)) series[1] = (start_time + timedelta(hours=18), (5, 180)) w_mover = WindMover(Wind(timeseries=series, units='m/s')) model.movers += w_mover model.environment += w_mover.wind print 'adding a cats shio mover:' curr_file = get_datafile(os.path.join(base_dir, r"./EbbTides.cur")) tide_file = get_datafile(os.path.join(base_dir, r"./EbbTidesShio.txt")) c_mover = CatsMover(curr_file, tide=Tide(tide_file)) # this is the value in the file (default) c_mover.scale_refpoint = (-70.8875, 42.321333) c_mover.scale = True c_mover.scale_value = -1 model.movers += c_mover # TODO: cannot add this till environment base class is created model.environment += c_mover.tide print 'adding a cats ossm mover:' # ossm_file = get_datafile(os.path.join(base_dir, # r"./MerrimackMassCoastOSSM.txt")) curr_file = get_datafile( os.path.join(base_dir, r"./MerrimackMassCoast.cur")) tide_file = get_datafile( os.path.join(base_dir, r"./MerrimackMassCoastOSSM.txt")) c_mover = CatsMover(curr_file, tide=Tide(tide_file)) # but do need to scale (based on river stage) c_mover.scale = True c_mover.scale_refpoint = (-70.65, 42.58333) c_mover.scale_value = 1. model.movers += c_mover model.environment += c_mover.tide print 'adding a cats mover:' curr_file = get_datafile(os.path.join(base_dir, r"MassBaySewage.cur")) c_mover = CatsMover(curr_file) # but do need to scale (based on river stage) c_mover.scale = True c_mover.scale_refpoint = (-70.78333, 42.39333) # the scale factor is 0 if user inputs no sewage outfall effects c_mover.scale_value = .04 model.movers += c_mover # pat1Angle 315; # pat1Speed 19.44; pat1SpeedUnits knots; # pat1ScaleToValue 0.138855 # # pat2Angle 225; # pat2Speed 19.44; pat2SpeedUnits knots; # pat2ScaleToValue 0.05121 # # scaleBy WindStress print "adding a component mover:" component_file1 = get_datafile(os.path.join(base_dir, r"./WAC10msNW.cur")) component_file2 = get_datafile(os.path.join(base_dir, r"./WAC10msSW.cur")) comp_mover = ComponentMover(component_file1, component_file2, w_mover.wind) # todo: callback did not work correctly below - fix! # comp_mover = ComponentMover(component_file1, # component_file2, # Wind(timeseries=series, units='m/s')) comp_mover.scale_refpoint = (-70.855, 42.275) comp_mover.pat1_angle = 315 comp_mover.pat1_speed = 19.44 comp_mover.pat1_speed_units = 1 comp_mover.pat1ScaleToValue = .138855 comp_mover.pat2_angle = 225 comp_mover.pat2_speed = 19.44 comp_mover.pat2_speed_units = 1 comp_mover.pat2ScaleToValue = .05121 model.movers += comp_mover print 'adding a spill' end_time = start_time + timedelta(hours=12) spill = point_line_release_spill(num_elements=1000, start_position=(-70.911432, 42.369142, 0.0), release_time=start_time, end_release_time=end_time) model.spills += spill return model
def make_model(images_dir=os.path.join(base_dir, 'images')): # create the maps: print 'creating the maps' mapfile = get_datafile(os.path.join(base_dir, './MassBayMap.bna')) gnome_map = MapFromBNA(mapfile, refloat_halflife=1) # hours renderer = Renderer(mapfile, images_dir, size=(800, 800), projection_class=GeoProjection) print 'initializing the model' start_time = datetime(2013, 3, 12, 10, 0) # 15 minutes in seconds # Default to now, rounded to the nearest hour model = Model(time_step=900, start_time=start_time, duration=timedelta(days=1), map=gnome_map, uncertain=False) print 'adding outputters' model.outputters += renderer netcdf_file = os.path.join(base_dir, 'script_boston.nc') scripting.remove_netcdf(netcdf_file) model.outputters += NetCDFOutput(netcdf_file, which_data='all') print 'adding a RandomMover:' model.movers += RandomMover(diffusion_coef=100000) print 'adding a wind mover:' series = np.zeros((2, ), dtype=datetime_value_2d) series[0] = (start_time, (5, 180)) series[1] = (start_time + timedelta(hours=18), (5, 180)) w_mover = WindMover(Wind(timeseries=series, units='m/s')) model.movers += w_mover model.environment += w_mover.wind print 'adding a cats shio mover:' curr_file = get_datafile(os.path.join(base_dir, r"./EbbTides.cur")) tide_file = get_datafile(os.path.join(base_dir, r"./EbbTidesShio.txt")) c_mover = CatsMover(curr_file, tide=Tide(tide_file)) # this is the value in the file (default) c_mover.scale_refpoint = (-70.8875, 42.321333) c_mover.scale = True c_mover.scale_value = -1 model.movers += c_mover # TODO: cannot add this till environment base class is created model.environment += c_mover.tide print 'adding a cats ossm mover:' # ossm_file = get_datafile(os.path.join(base_dir, # r"./MerrimackMassCoastOSSM.txt")) curr_file = get_datafile(os.path.join(base_dir, r"./MerrimackMassCoast.cur")) tide_file = get_datafile(os.path.join(base_dir, r"./MerrimackMassCoastOSSM.txt")) c_mover = CatsMover(curr_file, tide=Tide(tide_file)) # but do need to scale (based on river stage) c_mover.scale = True c_mover.scale_refpoint = (-70.65, 42.58333) c_mover.scale_value = 1. model.movers += c_mover model.environment += c_mover.tide print 'adding a cats mover:' curr_file = get_datafile(os.path.join(base_dir, r"MassBaySewage.cur")) c_mover = CatsMover(curr_file) # but do need to scale (based on river stage) c_mover.scale = True c_mover.scale_refpoint = (-70.78333, 42.39333) # the scale factor is 0 if user inputs no sewage outfall effects c_mover.scale_value = .04 model.movers += c_mover # pat1Angle 315; # pat1Speed 19.44; pat1SpeedUnits knots; # pat1ScaleToValue 0.138855 # # pat2Angle 225; # pat2Speed 19.44; pat2SpeedUnits knots; # pat2ScaleToValue 0.05121 # # scaleBy WindStress print "adding a component mover:" component_file1 = get_datafile(os.path.join(base_dir, r"./WAC10msNW.cur")) component_file2 = get_datafile(os.path.join(base_dir, r"./WAC10msSW.cur")) comp_mover = ComponentMover(component_file1, component_file2, w_mover.wind) # todo: callback did not work correctly below - fix! # comp_mover = ComponentMover(component_file1, # component_file2, # Wind(timeseries=series, units='m/s')) comp_mover.scale_refpoint = (-70.855, 42.275) comp_mover.pat1_angle = 315 comp_mover.pat1_speed = 19.44 comp_mover.pat1_speed_units = 1 comp_mover.pat1ScaleToValue = .138855 comp_mover.pat2_angle = 225 comp_mover.pat2_speed = 19.44 comp_mover.pat2_speed_units = 1 comp_mover.pat2ScaleToValue = .05121 model.movers += comp_mover print 'adding a spill' end_time = start_time + timedelta(hours=12) spill = point_line_release_spill(num_elements=1000, start_position=(-70.911432, 42.369142, 0.0), release_time=start_time, end_release_time=end_time) model.spills += spill return model