""" Global configuration for the simulation """ import os import sys if 'SUMO_HOME' in os.environ: tools = os.path.join(os.environ['SUMO_HOME'], 'tools') sys.path.append(tools) else: sys.exit("please declare environment variable 'SUMO_HOME'") _SUMOCMD = 'sumo' # use 'sumo-gui' cmd for UI _SUMOCFG = "mulhouse_simulation/osm.sumocfg" CELLS_NUMBER = 10 EMISSIONS_THRESHOLD = 500000 n_steps = 200 #Limit the speed into areas when the threshold is exceeded limited_speed = 30 limit_speed_mode = False #Decrease all traffic lights duration into the area when the threshold is exceeded rf_trafficLights_duration = 1.4 adjust_traffic_light_mode = False #Immediately delete all vehicles in the simulation area remove_vehicles_mode = False #Vehicles are routed according to the less polluted route (HEAVY) weight_routing_mode = True #Lock the area when the threshold is exceeded (NOT FIXED) lock_area_mode = False #Weight routing mode cannot be combinated with other actions if weight_routing_mode: limit_speed_mode = False adjust_traffic_light_mode = False sumo_binary = os.path.join(os.environ['SUMO_HOME'], 'bin', _SUMOCMD) sumo_cmd = [sumo_binary, "-c", _SUMOCFG] # Total of emissions of all pollutants in mg for n steps of simulation without locking areas total_emissions200 = 43970763.15084749 total_emissions300 = 87382632.08217141 def get_basics_emissions(): if n_steps == 200: return total_emissions200 if n_steps == 300: return total_emissions300 def showConfig(): return (str(f'Grid : {CELLS_NUMBER}x{CELLS_NUMBER}\n') + str(f'step number = {n_steps}\n') + str(f'weight routing mode= {weight_routing_mode}\n') + str(f'limit speed mode = {limit_speed_mode}, limited speed to {limited_speed}\n') + str(f'adjust traffic light mode = {adjust_traffic_light_mode} , RF = {rf_trafficLights_duration}\n'))