""" This module defines all possible actions on the simulation """ import traci from model import Area def compute_edge_weight(edge_id): """ Sum the different pollutant emissions on the edge with the identifier edge_id :param edge_id: The edge ID :return: The sum (in mg) of all pollutant emissions """ co2 = traci.edge.getCO2Emission(edge_id) co = traci.edge.getCOEmission(edge_id) nox = traci.edge.getNOxEmission(edge_id) hc = traci.edge.getHCEmission(edge_id) pmx = traci.edge.getPMxEmission(edge_id) return co2 + co + nox + hc + pmx def adjust_edges_weights(area): """ Changes the edge weight of all edges into the area :param area: The Area object :return: """ area.weight_adjusted = True for lane in area._lanes: edge_id = traci.lane.getEdgeID(lane.lane_id) weight = compute_edge_weight(edge_id) # by default edges weight = length/mean speed traci.edge.setEffort(edge_id, weight) for veh_id in traci.vehicle.getIDList(): traci.vehicle.rerouteEffort(veh_id) def limit_speed_into_area(area: Area, speed_rf): """ Limit the speed into the area by speed_rf factor :param area: The Area object :param speed_rf: The speed reduction factor (must be positive) :return: """ area.limited_speed = True for lane in area._lanes: traci.lane.setMaxSpeed(lane.lane_id, speed_rf * lane.initial_max_speed) def modifyLogic(logic, rf): """ Change the logic of a traffic light by decreasing the overall duration of the traffic light :param logic: The Logic object :param rf: The reduction factor (must be positive) :return: A new Logic object with all phases modified """ new_phases = [] for phase in logic._phases: new_phase = traci.trafficlight.Phase(phase.duration * rf, phase.minDuration * rf, phase.maxDuration * rf, phase.phaseDef) new_phases.append(new_phase) return traci.trafficlight.Logic("new-program", 0, 0, 0, new_phases) def adjust_traffic_light_phase_duration(area, reduction_factor): """ Set all logics modification on traffic lights into the area :param area: The Area object :param reduction_factor: The reduction factor (must be positive) :return: """ area.tls_adjusted = True for tl in area._tls: for logic in tl._logics: traci.trafficlights.setCompleteRedYellowGreenDefinition(tl.tl_id, modifyLogic(logic, reduction_factor)) def count_vehicles_in_area(area): """ Count the vehicles number into the area :param area: The Area object :return: The number of vehicles into the area """ vehicles_in_area = 0 for lane in area._lanes: vehicles_in_area += traci.lane.getLastStepVehicleNumber(lane.lane_id) return vehicles_in_area def lock_area(area): """ Prohibits access to the area to a particular vehicle class NOT FIXED : Some vehicles continue to go into the area if they can not turn around and then will stay blocked there as long as "lock_area" will not be reversed :param area: The Area object :return: """ area.locked = True for lane in area._lanes: # The passenger class is an example, you have to adapt this code traci.lane.setDisallowed(lane.lane_id, 'passenger') def reverse_actions(area): """ Reverse all actions made in an area :param area: The Area object :return: """ # Reset max speed to original if area.limited_speed: area.limited_speed = False for lane in area._lanes: traci.lane.setMaxSpeed(lane.lane_id, lane.initial_max_speed) # Reset traffic lights initial duration if area.tls_adjusted: area.tls_adjusted = False for tl in area._tls: for initial_logic in tl._logics: traci.trafficlights.setCompleteRedYellowGreenDefinition(tl.tl_id, initial_logic._logic) # Unlock the area if area.locked: area.locked = False for lane in area._lanes: traci.lane.setAllowed(lane.lane_id, []) # empty means all classes are allowed