def startElement(self, name, attrs):
if name == 'interval':
self._maxT = max(float(attrs['end']), self._maxT)
if name == 'edge':
edgeID = attrs['id']
CO = float(attrs['CO_perVeh'])
CO2 = float(attrs['CO2_perVeh'])
HC = float(attrs['HC_perVeh'])
PMx = float(attrs['PMx_perVeh'])
NOx = float(attrs['NOx_perVeh'])
fuel = float(attrs['fuel_perVeh'])
if edgeID[0] == ':':
nodeIDs = edgeID[1:edgeID.find('_')]
else:
fromNodeID = net.getEdge(edgeID)._from._id
toNodeID = net.getEdge(edgeID)._to._id
nodeIDs = [fromNodeID, toNodeID]
for nodeID in nodeIDs:
if nodeID not in self._nodeIntervalCO:
self._nodeIntervalCO[nodeID] = []
self._nodeIntervalCO2[nodeID] = []
self._nodeIntervalHC[nodeID] = []
self._nodeIntervalPMx[nodeID] = []
self._nodeIntervalNOx[nodeID] = []
self._nodeIntervalfuel[nodeID] = []
self._nodeIntervalCO[nodeID].append(CO)
self._nodeIntervalCO2[nodeID].append(CO2)
self._nodeIntervalHC[nodeID].append(HC)
self._nodeIntervalPMx[nodeID].append(PMx)
self._nodeIntervalNOx[nodeID].append(NOx)
self._nodeIntervalfuel[nodeID].append(fuel)
def startElement(self, name, attrs):
if name == "interval":
self._maxT = max(float(attrs["end"]), self._maxT)
if name == "edge":
edgeID = attrs["id"]
CO = float(attrs["CO_perVeh"])
CO2 = float(attrs["CO2_perVeh"])
HC = float(attrs["HC_perVeh"])
PMx = float(attrs["PMx_perVeh"])
NOx = float(attrs["NOx_perVeh"])
fuel = float(attrs["fuel_perVeh"])
if edgeID[0] == ":":
nodeIDs = edgeID[1 : edgeID.find("_")]
else:
fromNodeID = net.getEdge(edgeID)._from._id
toNodeID = net.getEdge(edgeID)._to._id
nodeIDs = [fromNodeID, toNodeID]
for nodeID in nodeIDs:
if nodeID not in self._nodeIntervalCO:
self._nodeIntervalCO[nodeID] = []
self._nodeIntervalCO2[nodeID] = []
self._nodeIntervalHC[nodeID] = []
self._nodeIntervalPMx[nodeID] = []
self._nodeIntervalNOx[nodeID] = []
self._nodeIntervalfuel[nodeID] = []
self._nodeIntervalCO[nodeID].append(CO)
self._nodeIntervalCO2[nodeID].append(CO2)
self._nodeIntervalHC[nodeID].append(HC)
self._nodeIntervalPMx[nodeID].append(PMx)
self._nodeIntervalNOx[nodeID].append(NOx)
self._nodeIntervalfuel[nodeID].append(fuel)
def startElement(self, name, attrs):
if name == 'interval':
self._maxT = max(float(attrs['end']), self._maxT)
if name == 'edge':
edgeID = attrs['id']
CO = float(attrs['CO_perVeh'])
CO2 = float(attrs['CO2_perVeh'])
HC = float(attrs['HC_perVeh'])
PMx = float(attrs['PMx_perVeh'])
NOx = float(attrs['NOx_perVeh'])
fuel = float(attrs['fuel_perVeh'])
if edgeID[0]==':':
nodeIDs = edgeID[1:edgeID.find('_')]
else:
fromNodeID = net.getEdge(edgeID)._from._id
toNodeID = net.getEdge(edgeID)._to._id
nodeIDs = [fromNodeID, toNodeID]
for nodeID in nodeIDs:
if nodeID not in self._nodeIntervalCO:
self._nodeIntervalCO[nodeID] = []
self._nodeIntervalCO2[nodeID] = []
self._nodeIntervalHC[nodeID] = []
self._nodeIntervalPMx[nodeID] = []
self._nodeIntervalNOx[nodeID] = []
self._nodeIntervalfuel[nodeID] = []
self._nodeIntervalCO[nodeID].append(CO)
self._nodeIntervalCO2[nodeID].append(CO2)
self._nodeIntervalHC[nodeID].append(HC)
self._nodeIntervalPMx[nodeID].append(PMx)
self._nodeIntervalNOx[nodeID].append(NOx)
self._nodeIntervalfuel[nodeID].append(fuel)
def getReachable(net, source_id, options):
if not net.hasEdge(source_id):
sys.exit("'%s' is not a valid edge id" % source_id)
source = net.getEdge(source_id)
fringe = [source]
found = set()
found.add(source)
while len(fringe) > 0:
new_fringe = []
for edge in fringe:
for reachable in edge.getOutgoing().iterkeys():
if not reachable in found:
found.add(reachable)
new_fringe.append(reachable)
fringe = new_fringe
print "%s of %s edges are reachable from edge '%s':" % (
len(found), len(net.getEdges()), source_id)
if options.selection_output:
with open(options.selection_output, 'w') as f:
for e in found:
f.write("edge:%s\n" % e.getID())
else:
print[e.getID() for e in found]
def getReachable(net, source_id, options, useIncoming=False):
if not net.hasEdge(source_id):
sys.exit("'{}' is not a valid edge id".format(source_id))
source = net.getEdge(source_id)
if options.vclass is not None and not source.allows(options.vclass):
sys.exit("'{}' does not allow {}".format(source_id, options.vclass))
fringe = [source]
found = set()
found.add(source)
while len(fringe) > 0:
new_fringe = []
for edge in fringe:
cands = edge.getIncoming() if useIncoming else edge.getOutgoing()
for reachable in cands:
if options.vclass is None or reachable.allows(options.vclass):
if reachable not in found:
found.add(reachable)
new_fringe.append(reachable)
fringe = new_fringe
if useIncoming:
print("{} of {} edges can reach edge '{}':".format(
len(found), len(net.getEdges()), source_id))
else:
print("{} of {} edges are reachable from edge '{}':".format(
len(found), len(net.getEdges()), source_id))
ids = sorted([e.getID() for e in found])
if options.selection_output:
with open(options.selection_output, 'w') as f:
for e in ids:
f.write("edge:{}\n".format(e))
else:
print(ids)
def getReachable(net, source_id, options):
if not net.hasEdge(source_id):
sys.exit("'%s' is not a valid edge id" % source_id)
source = net.getEdge(source_id)
fringe = [source]
found = set()
found.add(source)
while len(fringe) > 0:
new_fringe = []
for edge in fringe:
for reachable in edge.getOutgoing().iterkeys():
if not reachable in found:
found.add(reachable)
new_fringe.append(reachable)
fringe = new_fringe
print "%s of %s edges are reachable from edge '%s':" % (
len(found), len(net.getEdges()), source_id)
if options.selection_output:
with open(options.selection_output, 'w') as f:
for e in found:
f.write("edge:%s\n" % e.getID())
else:
print [e.getID() for e in found]
def getReachable(net, source_id, options, useIncoming=False):
if not net.hasEdge(source_id):
sys.exit("'{}' is not a valid edge id".format(source_id))
source = net.getEdge(source_id)
if options.vclass is not None and not source.allows(options.vclass):
sys.exit("'{}' does not allow {}".format(source_id, options.vclass))
fringe = [source]
found = set()
found.add(source)
while len(fringe) > 0:
new_fringe = []
for edge in fringe:
cands = edge.getIncoming() if useIncoming else edge.getOutgoing()
for reachable in cands:
if options.vclass is None or reachable.allows(options.vclass):
if not reachable in found:
found.add(reachable)
new_fringe.append(reachable)
fringe = new_fringe
if useIncoming:
print("{} of {} edges can reach edge '{}':".format(len(found), len(net.getEdges()), source_id))
else:
print("{} of {} edges are reachable from edge '{}':".format(len(found), len(net.getEdges()), source_id))
ids = sorted([e.getID() for e in found])
if options.selection_output:
with open(options.selection_output, 'w') as f:
for e in ids:
f.write("edge:{}\n".format(e))
else:
print(ids)
def getReachable(net, source_id, options, useIncoming=False):
if not net.hasEdge(source_id):
sys.exit("'%s' is not a valid edge id" % source_id)
source = net.getEdge(source_id)
if options.vclass is not None and not source.allows(options.vclass):
sys.exit("'%s' does not allow %s" % (source_id, options.vclass))
fringe = [source]
found = set()
found.add(source)
while len(fringe) > 0:
new_fringe = []
for edge in fringe:
cands = edge.getIncoming() if useIncoming else edge.getOutgoing()
for reachable in cands.iterkeys():
if options.vclass is None or reachable.allows(options.vclass):
if not reachable in found:
found.add(reachable)
new_fringe.append(reachable)
fringe = new_fringe
if useIncoming:
print "%s of %s edges can reach edge '%s':" % (
len(found), len(net.getEdges()), source_id)
else:
print "%s of %s edges are reachable from edge '%s':" % (
len(found), len(net.getEdges()), source_id)
if options.selection_output:
with open(options.selection_output, 'w') as f:
for e in sorted(found):
f.write("edge:%s\n" % e.getID())
else:
print[e.getID() for e in found]
def startElement(self, name, attrs):
if name == 'interval':
self._maxT = max(float(attrs['end']), self._maxT)
if name == 'edge':
edgeID = attrs['id']
noiseStr = attrs['noise']
if len(noiseStr) < 10:
noise = float(noiseStr)
else:
noise = 0
if edgeID[0] == ':':
nodeID = edgeID[1:edgeID.find('_')]
if nodeID not in self._nodeIntervalNoise:
self._nodeIntervalNoise[nodeID] = []
self._nodeIntervalNoise[nodeID].append(noise)
else:
fromNodeID = net.getEdge(edgeID)._from._id
if fromNodeID not in self._nodeIntervalNoise:
self._nodeIntervalNoise[fromNodeID] = []
self._nodeIntervalNoise[fromNodeID].append(noise)
toNodeID = net.getEdge(edgeID)._to._id
if toNodeID not in self._nodeIntervalNoise:
self._nodeIntervalNoise[toNodeID] = []
self._nodeIntervalNoise[toNodeID].append(noise)
def startElement(self, name, attrs):
if name == 'interval':
self._maxT = max(float(attrs['end']), self._maxT)
if name == 'edge':
edgeID = attrs['id']
noiseStr = attrs['noise']
if len(noiseStr) < 10:
noise = float(noiseStr)
else:
noise = 0
if edgeID[0]==':':
nodeID = edgeID[1:edgeID.find('_')]
if nodeID not in self._nodeIntervalNoise:
self._nodeIntervalNoise[nodeID] = []
self._nodeIntervalNoise[nodeID].append(noise)
else:
fromNodeID = net.getEdge(edgeID)._from._id
if fromNodeID not in self._nodeIntervalNoise:
self._nodeIntervalNoise[fromNodeID] = []
self._nodeIntervalNoise[fromNodeID].append(noise)
toNodeID = net.getEdge(edgeID)._to._id
if toNodeID not in self._nodeIntervalNoise:
self._nodeIntervalNoise[toNodeID] = []
self._nodeIntervalNoise[toNodeID].append(noise)
def startElement(self, name, attrs):
if name == "interval":
self._maxT = max(float(attrs["end"]), self._maxT)
if name == "edge":
edgeID = attrs["id"]
noiseStr = attrs["noise"]
if len(noiseStr) < 10:
noise = float(noiseStr)
else:
noise = 0
if edgeID[0] == ":":
nodeID = edgeID[1 : edgeID.find("_")]
if nodeID not in self._nodeIntervalNoise:
self._nodeIntervalNoise[nodeID] = []
self._nodeIntervalNoise[nodeID].append(noise)
else:
fromNodeID = net.getEdge(edgeID)._from._id
if fromNodeID not in self._nodeIntervalNoise:
self._nodeIntervalNoise[fromNodeID] = []
self._nodeIntervalNoise[fromNodeID].append(noise)
toNodeID = net.getEdge(edgeID)._to._id
if toNodeID not in self._nodeIntervalNoise:
self._nodeIntervalNoise[toNodeID] = []
self._nodeIntervalNoise[toNodeID].append(noise)
def getReachable(net, source_id, options, useIncoming=False):
if not net.hasEdge(source_id):
sys.exit("'{}' is not a valid edge id".format(source_id))
source = net.getEdge(source_id)
if options.vclass is not None and not source.allows(options.vclass):
sys.exit("'{}' does not allow {}".format(source_id, options.vclass))
fringe = [source]
found = set()
found.add(source)
while len(fringe) > 0:
new_fringe = []
for edge in fringe:
if options.vclass == "pedestrian":
cands = chain(chain(*edge.getIncoming().values()),
chain(*edge.getOutgoing().values()))
else:
cands = chain(*(edge.getIncoming().values(
) if useIncoming else edge.getOutgoing().values()))
#print("\n".join(map(str, list(cands))))
for conn in cands:
if options.vclass is None or (
conn.getFromLane().allows(options.vclass)
and conn.getToLane().allows(options.vclass)):
for reachable in [conn.getTo(), conn.getFrom()]:
if reachable not in found:
#print("added %s via %s" % (reachable, conn))
found.add(reachable)
new_fringe.append(reachable)
fringe = new_fringe
if useIncoming:
print("{} of {} edges can reach edge '{}':".format(
len(found), len(net.getEdges()), source_id))
else:
print("{} of {} edges are reachable from edge '{}':".format(
len(found), len(net.getEdges()), source_id))
ids = sorted([e.getID() for e in found])
if options.selection_output:
with open(options.selection_output, 'w') as f:
for e in ids:
f.write("edge:{}\n".format(e))
else:
print(ids)
def getReachable(net, source_id, options, useIncoming=False):
if not net.hasEdge(source_id):
sys.exit("'{}' is not a valid edge id".format(source_id))
source = net.getEdge(source_id)
if options.vclass is not None and not source.allows(options.vclass):
sys.exit("'{}' does not allow {}".format(source_id, options.vclass))
fringe = [source]
found = set()
found.add(source)
while len(fringe) > 0:
new_fringe = []
for edge in fringe:
if options.vclass == "pedestrian":
cands = chain(chain(*edge.getIncoming().values()), chain(*edge.getOutgoing().values()))
else:
cands = chain(*(edge.getIncoming().values() if useIncoming else edge.getOutgoing().values()))
# print("\n".join(map(str, list(cands))))
for conn in cands:
if options.vclass is None or (
conn.getFromLane().allows(options.vclass)
and conn.getToLane().allows(options.vclass)):
for reachable in [conn.getTo(), conn.getFrom()]:
if reachable not in found:
# print("added %s via %s" % (reachable, conn))
found.add(reachable)
new_fringe.append(reachable)
fringe = new_fringe
if useIncoming:
print("{} of {} edges can reach edge '{}':".format(
len(found), len(net.getEdges()), source_id))
else:
print("{} of {} edges are reachable from edge '{}':".format(
len(found), len(net.getEdges()), source_id))
ids = sorted([e.getID() for e in found])
if options.selection_output:
with open(options.selection_output, 'w') as f:
for e in ids:
f.write("edge:{}\n".format(e))
else:
print(ids)
colIndices[line[colIndex].strip()] = colIndex
secondFreeTime = "on2" in colIndices.keys() and "off2" in colIndices.keys()
else:
sgID = line[colIndices["id"]]
sg = SignalGroup(sgID,
transTimeOn=int(line[colIndices["transOn"]]),
transTimeOff=int(line[colIndices["transOff"]]),
debug=options.debug)
sg.addFreeTime(int(line[colIndices["on1"]]), int(line[colIndices["off1"]]))
if(secondFreeTime):
if(line[colIndices["on2"]] != "" and line[colIndices["off2"]] != ""):
sg.addFreeTime(int(line[colIndices["on2"]]), int(line[colIndices["off2"]]))
signalGroups[sgID] = sg
signalGroupOrder.append(sgID)
sgFromLinkEdge = getEdgeID(sgToLinks[sgID][0][0])
if net.getEdge(sgFromLinkEdge).getFunction() == "walkingarea":
sg._stop = 'r'
except Exception:
print("In file %s, line %s" % (inputFileName, i + 1), file=sys.stderr)
raise
# build everything together
tlLogic = TlLogic(key, subkey, cycleTime, offset, parameters=parameters, net=net, debug=options.debug)
tlLogic.addSignalGroups(signalGroups, signalGroupOrder)
tlLogic.setSignalGroupRelations(sgToLinks)
tlLogic.setFreeTime()
tlList.append(tlLogic)
writeXmlOutput(tlList, options.output)
# @date
# @version $Id$
from __future__ import absolute_import
from __future__ import print_function
import os
import sys
sys.path.append(os.path.join(os.environ['SUMO_HOME'], 'tools'))
import sumolib.net
net = sumolib.net.readNet(sys.argv[1], withInternal=True)
lane = net.getLane("SC_0")
print("connections from %s:\n%s" %
(lane.getID(), '\n'.join(list(map(str, lane.getOutgoing())))))
print("outgoing internal lanes of %s: %s" %
(lane.getID(),
[net.getLane(c.getViaLaneID()).getID() for c in lane.getOutgoing()]))
internal_edge = net.getEdge(":C_0")
internal_lane = net.getLane(":C_0_0")
internal_lane_cons = internal_lane.getOutgoing()
print("connections from %s:\n%s" %
(internal_lane.getID(), '\n'.join(map(str, internal_lane_cons))))
assert (internal_edge.getFunction() == 'internal')
assert (internal_edge.isSpecial())
assert (internal_lane.getEdge().isSpecial())
assert (internal_edge.getFromNode().getID() == "C")
assert (internal_edge.getToNode().getID() == "C")
SUMO, Simulation of Urban MObility; see http://sumo.dlr.de/
Copyright (C) 2008-2016 DLR (http://www.dlr.de/) and contributors
This file is part of SUMO.
SUMO is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
"""
from __future__ import absolute_import
from __future__ import print_function
import os
import sys
sys.path.append(os.path.join(os.environ['SUMO_HOME'], 'tools'))
import sumolib.net
net = sumolib.net.readNet(sys.argv[1], withInternal=True)
lane = net.getLane("SC_0")
print(map(str, lane.getOutgoing()))
internal_edge = net.getEdge(":C_0")
internal_lane = net.getLane(":C_0_0")
assert internal_edge.getFunction() == 'internal'
assert internal_edge.isInternal()
assert internal_lane.isInternal()
edge_count_dist = {}
output_str_list = []
dist_str_list = []
# Iterate through components to output and summarise
for idx, comp in enumerate(
sorted(components, key=lambda c: next(iter(c)))):
if options.selection_output:
with open("{}comp{}.txt".format(options.selection_output, idx),
'w') as f:
for e in comp:
f.write("edge:{}\n".format(e))
types = set()
if options.print_types:
for e in comp:
types.add(net.getEdge(e).getType())
if len(types) > 10:
break
edge_count = len(comp)
total += edge_count
if edge_count > max:
max = edge_count
max_idx = idx
if edge_count not in edge_count_dist:
edge_count_dist[edge_count] = 0
edge_count_dist[edge_count] += 1
output_str = "Component: #{} Edge Count: {}\n {}\n".format(
idx, edge_count, " ".join(comp))
if types:
