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sumo-emissions/sumo_project/data.py
2019-01-30 17:57:29 +01:00

123 lines
4.4 KiB
Python

"""
Created on 17 oct. 2018
@author: Axel Huynh-Phuc, Thibaud Gasser
"""
"""
This module is used for loading simulation data
"""
import json
import os
import traci
from typing import List
import jsonpickle
from parse import search
from shapely.geometry import LineString
from model import Area, Lane, TrafficLight, Phase, Logic
class Data:
def __init__(self, dump_name, map_bounds, areas_number,simulation_dir):
"""
Data constructor
:param dump_name : The dump name chosen by the user
:param map_bounds: The bounds of the simulated map
:param areas_number: The number of areas in line and row chosen by the user
:param simulation_dir: The directory which contains all files needed for SUMO
"""
self.dump_name = dump_name
self.map_bounds = map_bounds
self.areas_number = areas_number
self.dir = simulation_dir
def init_grid(self):
"""
Initialize the grid of the loaded map from the cfg file with areas_number x areas_number areas
"""
self.grid = list()
areas_number = self.areas_number
width = self.map_bounds[1][0] / areas_number
height = self.map_bounds[1][1] / areas_number
for i in range(areas_number):
for j in range(areas_number):
# bounds coordinates for the area : (xmin, ymin, xmax, ymax)
ar_bounds = ((i * width, j * height), (i * width, (j + 1) * height),
((i + 1) * width, (j + 1) * height), ((i + 1) * width, j * height))
name = 'Area ({},{})'.format(i, j)
area = Area(ar_bounds, name)
self.grid.append(area)
return self.grid
def get_all_lanes(self) -> List[Lane]:
"""
Recover and creates a list of Lane objects
:return: The lanes list
"""
lanes = []
for lane_id in traci.lane.getIDList():
polygon_lane = LineString(traci.lane.getShape(lane_id))
initial_max_speed = traci.lane.getMaxSpeed(lane_id)
lanes.append(Lane(lane_id, polygon_lane, initial_max_speed))
return lanes
def parse_phase(self, phase_repr):
"""
Because the SUMO object Phase does not contain accessors,
we parse the string representation to retrieve data members.
:param phase_repr: The Phase string representation
:return: An new Phase instance
"""
duration = search('duration: {:f}', phase_repr)
min_duration = search('minDuration: {:f}', phase_repr)
max_duration = search('maxDuration: {:f}', phase_repr)
phase_def = search('phaseDef: {}\n', phase_repr)
if phase_def is None:
phase_def = ''
else:
phase_def = phase_def[0]
return Phase(duration[0], min_duration[0], max_duration[0], phase_def)
def add_data_to_areas(self):
"""
Adds all recovered data to different areas
:param areas: The list of areas
:return:
"""
lanes = self.get_all_lanes()
for area in self.grid:
for lane in lanes: # add lanes
if area.rectangle.intersects(lane.polygon):
area.add_lane(lane)
for tl_id in traci.trafficlight.getIDList(): # add traffic lights
if lane.lane_id in traci.trafficlight.getControlledLanes(tl_id):
logics = []
for l in traci.trafficlight.getCompleteRedYellowGreenDefinition(tl_id): # add logics
phases = []
for phase in traci.trafficlight.Logic.getPhases(l): # add phases to logics
phases.append(self.parse_phase(phase.__repr__()))
logics.append(Logic(l, phases))
area.add_tl(TrafficLight(tl_id, logics))
def save(self):
"""
Save simulation data into a json file
:param dump_name: The name of your data dump
:return:
"""
dump_dir = 'files/dump'
if not os.path.exists(dump_dir):
os.mkdir(dump_dir)
s = json.dumps(json.loads(jsonpickle.encode(self)), indent=4) # for pretty JSON
with open(f'{dump_dir}/{self.dump_name}.json', 'w') as f:
f.write(s)