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https://github.com/Ahp06/SUMO_Emissions.git
synced 2024-11-21 19:16:30 +00:00
Added TrafficLight model and actions on traffic lights
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7972f4d794
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@ -36,7 +36,9 @@ def limit_speed_into_area(area: Area, vehicles: Iterable[Vehicle], max_speed):
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traci.lane.setMaxSpeed(lane.lane_id, max_speed/3.6)
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def adjust_traffic_light_phase_duration():
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'''for tl_id in traci.trafficlight.getIDList():
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print(traci.trafficlight.getCompleteRedYellowGreenDefinition(tl_id))'''
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def adjust_traffic_light_phase_duration(area,reduction_factor):
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for tl in area._tls:
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phaseDuration = traci.trafficlight.getPhaseDuration(tl.tl_id)
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traci.trafficlight.setPhaseDuration(tl.tl_id, phaseDuration*reduction_factor)
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@ -1,115 +1,121 @@
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from typing import List
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import traci
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from shapely.geometry import LineString
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import actions
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import config
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import sys
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from model import Area, Vehicle, Lane
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def init_grid(simulation_bounds, cells_number):
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grid = list()
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width = simulation_bounds[1][0] / cells_number
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height = simulation_bounds[1][1] / cells_number
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for i in range(cells_number):
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for j in range(cells_number):
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# bounds coordinates for the area : (xmin, ymin, xmax, ymax)
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ar_bounds = ((i * width, j * height), (i * width, (j + 1) * height),
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((i + 1) * width, (j + 1) * height), ((i + 1) * width, j * height))
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area = Area(ar_bounds)
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area.name = 'area ({},{})'.format(i, j)
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grid.append(area)
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traci.polygon.add(area.name, ar_bounds, (0, 255, 0))
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return grid
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def compute_vehicle_emissions(veh_id):
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return (traci.vehicle.getCOEmission(veh_id)
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+ traci.vehicle.getNOxEmission(veh_id)
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+ traci.vehicle.getHCEmission(veh_id)
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+ traci.vehicle.getPMxEmission(veh_id)
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+ traci.vehicle.getCO2Emission(veh_id))
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def get_all_vehicles() -> List[Vehicle]:
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vehicles = list()
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for veh_id in traci.vehicle.getIDList():
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veh_pos = traci.vehicle.getPosition(veh_id)
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vehicle = Vehicle(veh_id, veh_pos)
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vehicle.emissions = compute_vehicle_emissions(veh_id)
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vehicles.append(vehicle)
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return vehicles
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def get_all_lanes() -> List[Lane]:
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lanes = []
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for lane_id in traci.lane.getIDList():
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polygon_lane = LineString(traci.lane.getShape(lane_id))
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lanes.append(Lane(lane_id, polygon_lane))
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return lanes
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def get_emissions(grid: List[Area], vehicles: List[Vehicle]):
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for area in grid:
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for vehicle in vehicles:
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if vehicle.pos in area:
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area.emissions += vehicle.emissions
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if config.lock_mode and area.emissions > config.EMISSIONS_THRESHOLD and not area.locked:
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actions.limit_speed_into_area(area, vehicles,30)
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traci.polygon.setColor(area.name, (255, 0, 0))
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traci.polygon.setFilled(area.name, True)
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def add_lanes_to_areas(areas: List[Area]):
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lanes = get_all_lanes()
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for area in areas:
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for lane in lanes:
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if area.rectangle.intersects(lane.polygon):
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area.add_lane(lane)
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def main():
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grid = list()
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try:
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traci.start(config.sumo_cmd)
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grid = init_grid(traci.simulation.getNetBoundary(), config.CELLS_NUMBER)
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add_lanes_to_areas(grid)
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actions.adjust_traffic_light_phase_duration()
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step = 0
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while step < config.n_steps : #traci.simulation.getMinExpectedNumber() > 0:
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traci.simulationStep()
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vehicles = get_all_vehicles()
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get_emissions(grid, vehicles)
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if config.routing_mode:
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actions.adjust_edges_weights()
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# actions.rerouteAllVehicles()
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step += 1
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progress = round(step/config.n_steps*100,2)
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sys.stdout.write(f'Progress : {progress}%'+'\r')
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sys.stdout.flush()
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finally:
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traci.close(False)
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total_emissions = 0
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for area in grid:
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total_emissions += area.emissions
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#Total of emissions of all pollutants in mg for 200 steps of simulation without locking areas
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total_emissions200 = 43970763.15084749
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print("\n**** RESULTS ****")
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print(f'Total emissions = {total_emissions} mg')
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diff_with_lock = (total_emissions200 - total_emissions)/total_emissions200
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print(f'Reduction percentage of emissions = {diff_with_lock*100} %')
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print("With the configuration :\n" + str(config.showConfig()))
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if __name__ == '__main__':
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main()
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from typing import List
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import traci
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from shapely.geometry import LineString
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import actions
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import config
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import sys
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from model import Area, Vehicle, Lane , TrafficLight
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from traci import trafficlight
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def init_grid(simulation_bounds, cells_number):
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grid = list()
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width = simulation_bounds[1][0] / cells_number
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height = simulation_bounds[1][1] / cells_number
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for i in range(cells_number):
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for j in range(cells_number):
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# bounds coordinates for the area : (xmin, ymin, xmax, ymax)
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ar_bounds = ((i * width, j * height), (i * width, (j + 1) * height),
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((i + 1) * width, (j + 1) * height), ((i + 1) * width, j * height))
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area = Area(ar_bounds)
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area.name = 'area ({},{})'.format(i, j)
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grid.append(area)
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traci.polygon.add(area.name, ar_bounds, (0, 255, 0))
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return grid
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def compute_vehicle_emissions(veh_id):
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return (traci.vehicle.getCOEmission(veh_id)
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+ traci.vehicle.getNOxEmission(veh_id)
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+ traci.vehicle.getHCEmission(veh_id)
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+ traci.vehicle.getPMxEmission(veh_id)
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+ traci.vehicle.getCO2Emission(veh_id))
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def get_all_vehicles() -> List[Vehicle]:
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vehicles = list()
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for veh_id in traci.vehicle.getIDList():
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veh_pos = traci.vehicle.getPosition(veh_id)
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vehicle = Vehicle(veh_id, veh_pos)
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vehicle.emissions = compute_vehicle_emissions(veh_id)
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vehicles.append(vehicle)
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return vehicles
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def get_all_lanes() -> List[Lane]:
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lanes = []
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for lane_id in traci.lane.getIDList():
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polygon_lane = LineString(traci.lane.getShape(lane_id))
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lanes.append(Lane(lane_id, polygon_lane))
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return lanes
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def get_emissions(grid: List[Area], vehicles: List[Vehicle]):
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for area in grid:
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for vehicle in vehicles:
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if vehicle.pos in area:
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area.emissions += vehicle.emissions
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if config.lock_mode and area.emissions > config.EMISSIONS_THRESHOLD and not area.locked:
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actions.limit_speed_into_area(area, vehicles,30)
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actions.adjust_traffic_light_phase_duration(area, 0.5)
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traci.polygon.setColor(area.name, (255, 0, 0))
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traci.polygon.setFilled(area.name, True)
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def add_data_to_areas(areas: List[Area]):
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lanes = get_all_lanes()
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for area in areas:
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for lane in lanes:
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if area.rectangle.intersects(lane.polygon):
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area.add_lane(lane)
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for tl_id in traci.trafficlight.getIDList():
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if lane.lane_id in traci.trafficlight.getControlledLanes(tl_id):
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area.add_tl(TrafficLight(tl_id))
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def main():
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grid = list()
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try:
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traci.start(config.sumo_cmd)
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grid = init_grid(traci.simulation.getNetBoundary(), config.CELLS_NUMBER)
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add_data_to_areas(grid)
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step = 0
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while step < config.n_steps : #traci.simulation.getMinExpectedNumber() > 0:
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traci.simulationStep()
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vehicles = get_all_vehicles()
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get_emissions(grid, vehicles)
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if config.routing_mode:
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actions.adjust_edges_weights()
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# actions.rerouteAllVehicles()
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step += 1
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progress = round(step/config.n_steps*100,2)
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sys.stdout.write(f'Progress : {progress}%'+'\r')
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sys.stdout.flush()
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finally:
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traci.close(False)
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total_emissions = 0
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for area in grid:
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total_emissions += area.emissions
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#Total of emissions of all pollutants in mg for 200 steps of simulation without locking areas
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total_emissions200 = 43970763.15084749
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print("\n**** RESULTS ****")
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print(f'Total emissions = {total_emissions} mg')
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diff_with_lock = (total_emissions200 - total_emissions)/total_emissions200
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print(f'Reduction percentage of emissions = {diff_with_lock*100} %')
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print("With the configuration :\n" + str(config.showConfig()))
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if __name__ == '__main__':
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main()
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@ -1,64 +1,77 @@
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from typing import Tuple, Set
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from shapely.geometry import Point, LineString
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from shapely.geometry import Polygon
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from shapely.geometry.base import BaseGeometry
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class Lane:
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def __init__(self, lane_id: str, polygon: LineString):
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self.polygon = polygon
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self.lane_id = lane_id
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def __hash__(self):
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"""Overrides the default implementation"""
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return hash(self.lane_id)
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class Area:
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def __init__(self, coords, name=''):
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self.locked = False
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self.rectangle = Polygon(coords)
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self.name = name
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self.emissions = 0.0
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self._lanes: Set[Lane] = set()
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def __eq__(self, other):
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return self.rectangle.__eq__(other)
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def __contains__(self, item):
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return self.rectangle.contains(item)
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@property
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def bounds(self):
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return self.rectangle.bounds
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def intersects(self, other: BaseGeometry) -> bool:
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return self.rectangle.intersects(other)
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def add_lane(self, lane: Lane):
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self._lanes.add(lane)
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def remove_lane(self, lane: Lane):
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self._lanes.remove(lane)
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@classmethod
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def from_bounds(cls, xmin, ymin, xmax, ymax):
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return cls((
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(xmin, ymin),
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(xmin, ymax),
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(xmax, ymax),
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(xmax, ymin)))
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class Vehicle:
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def __init__(self, veh_id: int, pos: Tuple[float, float]):
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self.emissions: float = 0.0
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self.veh_id = veh_id
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self.pos = Point(pos)
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def __repr__(self) -> str:
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return str(self.__dict__)
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from typing import Tuple, Set
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from shapely.geometry import Point, LineString
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from shapely.geometry import Polygon
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from shapely.geometry.base import BaseGeometry
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class Lane:
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def __init__(self, lane_id: str, polygon: LineString):
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self.polygon = polygon
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self.lane_id = lane_id
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def __hash__(self):
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"""Overrides the default implementation"""
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return hash(self.lane_id)
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class TrafficLight:
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def __init__(self, tl_id: str):
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self.tl_id = tl_id
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def __hash__(self):
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"""Overrides the default implementation"""
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return hash(self.tl_id)
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class Area:
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def __init__(self, coords, name=''):
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self.locked = False
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self.rectangle = Polygon(coords)
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self.name = name
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self.emissions = 0.0
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self._lanes: Set[Lane] = set()
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self._tls: Set[TrafficLight] = set()
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def __eq__(self, other):
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return self.rectangle.__eq__(other)
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def __contains__(self, item):
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return self.rectangle.contains(item)
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@property
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def bounds(self):
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return self.rectangle.bounds
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def intersects(self, other: BaseGeometry) -> bool:
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return self.rectangle.intersects(other)
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def add_lane(self, lane: Lane):
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self._lanes.add(lane)
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def add_tl(self, tl: TrafficLight):
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self._tls.add(tl)
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def remove_lane(self, lane: Lane):
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self._lanes.remove(lane)
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@classmethod
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def from_bounds(cls, xmin, ymin, xmax, ymax):
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return cls((
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(xmin, ymin),
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(xmin, ymax),
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(xmax, ymax),
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(xmax, ymin)))
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class Vehicle:
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def __init__(self, veh_id: int, pos: Tuple[float, float]):
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self.emissions: float = 0.0
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self.veh_id = veh_id
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self.pos = Point(pos)
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def __repr__(self) -> str:
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return str(self.__dict__)
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