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mirror of https://github.com/Ahp06/SUMO_Emissions.git synced 2024-11-25 13:06:30 +00:00
sumo-emissions/configurator.py

223 lines
8.7 KiB
Python

# -*- coding: utf-8 -*-
import argparse
import os
import shutil
import subprocess
import tempfile
from xml.etree import ElementTree
import randomTrips
import sumolib
# Absolute path of the directory the script is in
SCRIPTDIR = os.path.dirname(__file__)
TEMPLATEDIR = os.path.join(SCRIPTDIR, 'templates')
vehicle_classes = {
'passenger': {
'--vehicle-class': 'passenger',
'--vclass': 'passenger',
'--prefix': 'veh',
'--min-distance': 300,
'--trip-attributes': 'departLane="best"',
},
'bus': {
'--vehicle-class': 'bus',
'--vclass': 'bus',
'--prefix': 'bus',
},
'truck': {
'--vehicle-class': 'truck',
'--vclass': 'truck',
'--prefix': 'truck',
'--min-distance': 600,
'--trip-attributes': 'departLane="best"',
}
}
class RandomTripsGenerator:
def __init__(self, netpath, routepath, output, vclass, density, *flags, **opts):
self.vclass = vclass
self.density = density
self.options = {
# Default options
'--net-file': netpath,
'--output-trip-file': output,
'--route-file': routepath,
**opts
}
self.flags = [*flags]
edges = sumolib.net.readNet(netpath).getEdges()
self._init_trips(edges, vclass, density)
self.options.update(vehicle_classes[self.vclass])
def add_option(self, opt_name, value):
self.options[opt_name] = value
def generate(self):
print(f'Generating trips for vehicle class {self.vclass} with density of {self.density} veh/km/h')
randomTrips.main(randomTrips.get_options(dict_to_list(self.options) + self.flags))
def _init_trips(self, edges, vclass, density):
"""
:param edges: foo.rou.xml
:param density: vehicle/km/h
"""
# calculate the total length of the available lanes
length = 0.
for edge in edges:
if edge.allows(vclass):
length += edge.getLaneNumber() * edge.getLength()
print(f'density = {density}')
period = 3600 / (length / 1000) / density
print(f'Period computed for network : {period}, vclass={self.vclass}')
self.flags.extend(['-p', period])
class StoreDictKeyPair(argparse.Action):
def __call__(self, parser, namespace, values, option_string=None):
pairs = {}
for kv in values:
k, v = kv.split("=")
pairs[k] = v
setattr(namespace, self.dest, pairs)
def load_netconvert_template(osm_input, out_name):
netconfig = ElementTree.parse(os.path.join(TEMPLATEDIR, 'simul.netcfg'))
root = netconfig.getroot()
root.find('input/osm-files').set('value', osm_input)
root.find('output/output-file').set('value', f'{out_name}.net.xml')
root.find('report/log').set('value', f'{out_name}.netconvert.log')
return netconfig
def load_polyconvert_template(osm_file, type_file, scenario_name):
polyconfig = ElementTree.parse(os.path.join(TEMPLATEDIR, 'simul.polycfg'))
root = polyconfig.getroot()
root.find('input/osm-files').set('value', osm_file)
root.find('input/net-file').set('value', f'{scenario_name}.net.xml')
root.find('input/type-file').set('value', type_file)
root.find('output/output-file').set('value', f'{scenario_name}.poly.xml')
root.find('report/log').set('value', f'{scenario_name}.polyconvert.log')
return polyconfig
def load_sumoconfig_template(simulation_name, routefiles=(), generate_polygons=False):
routefiles = routefiles or (f'{simulation_name}.rou.xml',)
sumoconfig = ElementTree.parse(os.path.join(TEMPLATEDIR, 'simul.sumocfg'))
root = sumoconfig.getroot()
root.find('input/net-file').set('value', f'{simulation_name}.net.xml')
root.find('input/route-files').set('value', ','.join(routefiles))
additional = root.find('input/additional-files')
if generate_polygons:
additional.set('value', f'{simulation_name}.poly.xml')
else:
root.find('input').remove(additional)
root.find('report/log').set('value', f'{simulation_name}.log')
return sumoconfig
def generate_scenario(osm_file, out_path, scenario_name, generate_polygons=False):
net_template = load_netconvert_template(osm_file, scenario_name)
with tempfile.TemporaryDirectory() as tmpdirname:
# Generate NETCONVERT configuration
netconfig = os.path.join(tmpdirname, f'{scenario_name}.netcfg')
net_template.write(netconfig)
# Copy typemaps to tempdir
shutil.copytree(os.path.join(TEMPLATEDIR, 'typemap'), os.path.join(tmpdirname, 'typemap'))
# Call NETCONVERT
print("Generate network...")
netconvertcmd = ['netconvert', '-c', netconfig]
subprocess.run(netconvertcmd, stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL)
# Optionaly generate polygons
if generate_polygons:
generate_polygons_(osm_file, scenario_name, tmpdirname)
# Move files to destination
ignore_patterns = shutil.ignore_patterns('*.polycfg', '*.netcfg', 'typemap')
shutil.copytree(tmpdirname, out_path, ignore=ignore_patterns)
def generate_polygons_(osm_file, scenario_name, dest):
polyconfig = os.path.join(dest, f'{scenario_name}.polycfg')
poly_template = load_polyconvert_template(osm_file, 'typemap/osmPolyconvert.typ.xml', scenario_name)
poly_template.write(polyconfig)
# Call POLYCONVERT
print('Generate polygons...')
polyconvert_cmd = ['polyconvert', '-c', polyconfig]
subprocess.run(polyconvert_cmd, stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL)
def generate_mobility(out_path, name, vclasses):
netfile = f'{name}.net.xml'
netpath = os.path.join(out_path, netfile)
output = os.path.join(out_path, f'{name}.trips.xml')
routefiles = []
end_time = 200
for vclass, density in vclasses.items():
# simname.bus.rou.xml, simname.passenger.rou.xml, ...
routefile = f'{name}.{vclass}.rou.xml'
routepath = os.path.join(out_path, routefile)
routefiles.append(routefile)
generator = RandomTripsGenerator(netpath, routepath, output, vclass, float(density), '-l', '--validate',
**{'--end': end_time})
generator.generate()
return routefiles
def generate_sumo_configuration(routefiles, path, scenario_name, generate_polygons=False):
sumo_template = load_sumoconfig_template(scenario_name, routefiles=routefiles, generate_polygons=False)
sumo_template.write(os.path.join(path, f'{scenario_name}.sumocfg'))
def generate_all(args):
simulation_name = args.name
simulation_dir = os.path.join(args.path, simulation_name)
osm_file = args.osmfile
logs_dir = os.path.join(simulation_dir, 'log')
generate_scenario(osm_file, simulation_dir, simulation_name, args.generate_polygons)
routefiles = generate_mobility(simulation_dir, simulation_name, args.vclasses)
generate_sumo_configuration(routefiles, simulation_dir, simulation_name, args.generate_polygons)
# Move all logs to logdir
move_logs(simulation_dir, logs_dir)
def move_logs(simulation_dir, logs_dir):
for f in os.listdir(simulation_dir):
if os.path.splitext(f)[1] == '.log':
shutil.move(os.path.join(simulation_dir, f), logs_dir)
def dict_to_list(d):
return [item for k in d for item in (k, d[k])]
def parse_command_line():
parser = argparse.ArgumentParser()
parser.add_argument('osmfile', help='Path to the .osm file to convert to a SUMO simulation')
parser.add_argument('--path', help='Where to generate the files')
parser.add_argument('--name', required=True, help='Name of the SUMO scenario to generate')
parser.add_argument('--generate-polygons', default=False, action='store_true', help='Whether to generate polygons '
'and POIs (defaults to false).')
parser.add_argument('--vclass', dest='vclasses', action=StoreDictKeyPair,
nargs="+", metavar="VCLASS=DENSITY",
help='Generate this vclass with given density, in pair form vclass=density. The density is '
'given in vehicles per hour per kilometer. For now, the following vehicle classes are '
'available: passenger, truck, bus.')
options = parser.parse_args()
# If no vehicle classes are specified, use 'passenger' as a default with a density of 10 cars/km/h.
options.vclasses = options.vclasses or {'passenger': 10}
# Delete simul_dir if it already exists
simul_dir = os.path.join(options.path, options.name)
if os.path.isdir(simul_dir):
input(f'{simul_dir} already exists ! Press Enter to delete...')
shutil.rmtree(simul_dir)
generate_all(options)
if __name__ == '__main__':
parse_command_line()