supply_model_conf.update({
"city": args.cities[0],
"data_source_id": args.data_source_ids[0],
"n_vehicles": int(args.num_vehicles[0]),
"tot_n_charging_poles": int(args.tot_n_charging_poles[0]),
"n_charging_zones": int(args.n_charging_zones[0]),
"distributed_cps":t_or_f,
"cps_placement_policy":args.cps_placement_policy,
"n_relocation_workers":int(args.n_relocation_workers)
})
supply_model = SupplyModel(supply_model_conf, int(*args.year))
vehicles_soc_dict, vehicles_zones, available_vehicles_dict = supply_model.init_vehicles()
supply_model.init_charging_poles()
supply_model.init_relocation()
##Salvare su file le strutture dati
#se c'è il saveflag salvo nel path che mi dice
if args.folder_name != "":
folder = args.folder_name[0]
else:
if same_parameters(default, args):
#salvo nella cartella di default
folder = "default_supply_model"
else:
folder = input("In which folder do you want to save the model? [type NO to not save]\t")
if folder == "NO":
exit(0)
class SimInput:
def __init__(self, conf_dict):
self.demand_model_config = conf_dict["sim_general_conf"]
self.sim_scenario_conf = conf_dict["sim_scenario_conf"]
supply_model = conf_dict["supply_model_object"]
self.demand_model_folder = conf_dict["demand_model_folder"]
self.city = self.demand_model_config["city"]
demand_model_path = os.path.join(
os.path.dirname(os.path.dirname(os.path.dirname(__file__))),
"demand_modelling", "demand_models",
self.demand_model_config["city"], self.demand_model_folder)
#demand modelling
self.grid = pickle.Unpickler(
open(os.path.join(demand_model_path, "grid.pickle"), "rb")).load()
self.grid_matrix = pickle.Unpickler(
open(os.path.join(demand_model_path, "grid_matrix.pickle"),
"rb")).load()
self.avg_out_flows_train = pickle.Unpickler(
open(os.path.join(demand_model_path, "avg_out_flows_train.pickle"),
"rb")).load()
self.avg_in_flows_train = pickle.Unpickler(
open(os.path.join(demand_model_path, "avg_in_flows_train.pickle"),
"rb")).load()
self.valid_zones = pickle.Unpickler(
open(os.path.join(demand_model_path, "valid_zones.pickle"),
"rb")).load()
self.neighbors_dict = pickle.Unpickler(
open(os.path.join(demand_model_path, "neighbors_dict.pickle"),
"rb")).load()
self.integers_dict = pickle.Unpickler(
open(os.path.join(demand_model_path, "integers_dict.pickle"),
"rb")).load()
self.closest_valid_zone = pickle.Unpickler(
open(os.path.join(demand_model_path, "closest_valid_zone.pickle"),
"rb")).load()
self.avg_request_rate = self.integers_dict["avg_request_rate"]
self.n_vehicles_original = self.integers_dict["n_vehicles_original"]
self.avg_speed_mean = self.integers_dict["avg_speed_mean"]
self.avg_speed_std = self.integers_dict["avg_speed_std"]
self.avg_speed_kmh_mean = self.integers_dict["avg_speed_kmh_mean"]
self.avg_speed_kmh_std = self.integers_dict["avg_speed_kmh_std"]
self.max_driving_distance = self.integers_dict["max_driving_distance"]
self.max_in_flow = self.integers_dict["max_in_flow"]
self.max_out_flow = self.integers_dict["max_out_flow"]
if self.demand_model_config["sim_technique"] == "traceB":
self.bookings = pickle.Unpickler(
open(os.path.join(demand_model_path, "bookings_test.pickle"),
"rb")).load()
self.booking_requests_list = self.get_booking_requests_list()
elif self.demand_model_config["sim_technique"] == "eventG":
self.request_rates = pickle.Unpickler(
open(os.path.join(demand_model_path, "request_rates.pickle"),
"rb")).load()
self.trip_kdes = pickle.Unpickler(
open(os.path.join(demand_model_path, "trip_kdes.pickle"),
"rb")).load()
#supply model
if "n_requests" in self.sim_scenario_conf.keys():
# 30 => 1 month
self.desired_avg_rate = self.sim_scenario_conf[
"n_requests"] / 30 / 24 / 3600
self.rate_ratio = self.desired_avg_rate / self.avg_request_rate
self.sim_scenario_conf["requests_rate_factor"] = self.rate_ratio
if "n_vehicles" in self.sim_scenario_conf.keys():
self.n_vehicles_sim = self.sim_scenario_conf["n_vehicles"]
elif "n_vehicles_factor" in self.sim_scenario_conf.keys():
self.n_vehicles_sim = int(
self.n_vehicles_original *
self.sim_scenario_conf["n_vehicles_factor"])
elif "fleet_load_factor" in self.sim_scenario_conf.keys():
self.n_vehicles_sim = int(
self.sim_scenario_conf["n_requests"] /
self.sim_scenario_conf["fleet_load_factor"])
if "tot_n_charging_poles" in self.sim_scenario_conf.keys():
self.tot_n_charging_poles = self.sim_scenario_conf[
"tot_n_charging_poles"]
elif "n_poles_n_vehicles_factor" in self.sim_scenario_conf.keys():
self.tot_n_charging_poles = abs(
self.n_vehicles_sim *
self.sim_scenario_conf["n_poles_n_vehicles_factor"])
elif self.sim_scenario_conf["cps_placement_policy"] == "old_manual":
self.tot_n_charging_poles = len(
self.sim_scenario_conf["cps_zones"]) * 4
if self.sim_scenario_conf["distributed_cps"]:
if "cps_zones_percentage" in self.sim_scenario_conf and self.sim_scenario_conf[
"cps_placement_policy"] != "real_positions":
self.n_charging_zones = int(
self.sim_scenario_conf["cps_zones_percentage"] *
len(self.valid_zones))
elif "n_charging_zones" in self.sim_scenario_conf and self.sim_scenario_conf[
"cps_placement_policy"] != "real_positions":
self.n_charging_zones = self.sim_scenario_conf[
"n_charging_zones"]
self.sim_scenario_conf["cps_zones_percentage"] = 1 / len(
self.valid_zones)
elif "cps_zones" in self.sim_scenario_conf and self.sim_scenario_conf[
"cps_placement_policy"] != "real_positions":
self.n_charging_zones = len(
self.sim_scenario_conf["cps_zones"])
elif self.sim_scenario_conf[
"cps_placement_policy"] == "real_positions":
self.n_charging_zones = 0
elif self.sim_scenario_conf["battery_swap"]:
self.n_charging_zones = 0
self.tot_n_charging_poles = 0
self.n_charging_poles_by_zone = {}
self.vehicles_soc_dict = {}
self.vehicles_zones = {}
self.start = None
self.zones_cp_distances = pd.Series()
self.closest_cp_zone = pd.Series()
self.supply_model_conf = dict()
self.supply_model_conf.update(self.sim_scenario_conf)
self.supply_model_conf.update({
"city":
self.city,
"data_source_id":
self.demand_model_config['data_source_id'],
"n_vehicles":
self.n_vehicles_sim,
"tot_n_charging_poles":
self.tot_n_charging_poles,
"n_charging_zones":
self.n_charging_zones,
})
if supply_model is not None:
#nel caso venga fornito un supply model questo sovrascrive tutto. Eventualmente sollevare eccezioni/warning se i parametri non son compatibili
self.supply_model = supply_model
self.n_vehicles_sim = supply_model.n_vehicles_sim
else:
self.supply_model = SupplyModel(
self.supply_model_conf,
self.demand_model_config["year"],
demand_model_folder=self.demand_model_folder)
def get_booking_requests_list(self):
return self.bookings[[
"origin_id",
"destination_id",
"start_time",
"end_time",
"ia_timeout",
"euclidean_distance",
"driving_distance",
"date",
"hour",
"duration",
]].dropna().to_dict("records")
def init_vehicles(self):
return self.supply_model.init_vehicles()
def init_charging_poles(self):
return self.supply_model.init_charging_poles()
def init_relocation(self):
return self.supply_model.init_relocation()
def init_workers(self):
pass