def main(args=None): argParser = initOptions() options = argParser.parse_args(args=args) if not options.net: argParser.error("Option --net-file is mandatory") if (not options.trips and not options.routes and not options.flows) or (options.trips and options.routes): argParser.error( "Either --trips, --flows, or --routes have to be given!") duaBinary = sumolib.checkBinary("duarouter", options.path) sumoBinary = sumolib.checkBinary("sumo", options.path) if options.addweights and options.weightmemory: argParser.error( "Options --addweights and --weight-memory are mutually exclusive.") # make sure BOTH binaries are callable before we start try: subprocess.call(duaBinary, stdout=subprocess.PIPE) except OSError: sys.exit( "Error: Could not locate duarouter (%s).\nMake sure its on the search path or set environment variable DUAROUTER_BINARY\n" % duaBinary) try: subprocess.call(sumoBinary, stdout=subprocess.PIPE) except OSError: sys.exit( "Error: Could not locate sumo (%s).\nMake sure its on the search path or set environment variable SUMO_BINARY\n" % sumoBinary) sumo_args = assign_remaining_args(sumoBinary, 'sumo', options.remaining_args) dua_args = assign_remaining_args(duaBinary, 'duarouter', options.remaining_args) sys.stdout = sumolib.TeeFile(sys.stdout, open("stdout.log", "w+")) log = open("dua.log", "w+") if options.zip: if options.clean_alt: sys.exit( "Error: Please use either --zip or --clean-alt but not both.") try: subprocess.call("7z", stdout=open(os.devnull, 'wb')) except: sys.exit( "Error: Could not locate 7z, please make sure its on the search path." ) zipProcesses = {} zipLog = open("7zip.log", "w+") starttime = datetime.now() if options.trips: input_demands = options.trips.split(",") initial_type = "trip" elif options.flows: input_demands = options.flows.split(",") initial_type = "flow" else: input_demands = options.routes.split(",") initial_type = "route" if options.externalgawron: # avoid dependency on numpy for normal duaIterate from routeChoices import getRouteChoices, calFirstRouteProbs print('use externalgawron') edgesMap = {} if options.weightmemory: costmemory = CostMemory('traveltime', pessimism=options.pessimism, network_file=options.net) routesSuffix = ".xml" if options.binary: routesSuffix = ".sbx" if options.costmodifier != 'None': pyPath = os.path.abspath(os.path.dirname(sys.argv[0])) sys.path.append( os.path.join(pyPath, "..", "..", "..", "..", "..", "tools", "kkwSim")) from kkwCostModifier import costModifier print('Use the cost modifier for KKW simulation') if options.weightmemory and options.firstStep != 0: # load previous dump files when continuing a run print(">> Reassembling cost-memory from previous iteration steps") for step in range(0, options.firstStep): dumpfile = get_dumpfilename(options, step, "dump") print(">>> Loading %s" % dumpfile) costmemory.load_costs(dumpfile, step, get_scale(options, step)) avgTT = sumolib.miscutils.Statistics() for step in range(options.firstStep, options.lastStep): btimeA = datetime.now() print("> Executing step %s" % step) router_demands = input_demands simulation_demands = input_demands # demand files have regular names based on the basename and the step if not (options.skipFirstRouting and step == 0): simulation_demands = [ get_basename(f) + "_%03i.rou%s" % (step, routesSuffix) for f in input_demands ] if not ((options.skipFirstRouting and step == 1) or step == 0): router_demands = [ get_basename(f) + "_%03i.rou.alt%s" % (step - 1, routesSuffix) for f in input_demands ] if not (options.skipFirstRouting and step == options.firstStep): # call duarouter for router_input, output in zip(router_demands, simulation_demands): print(">> Running router on %s" % router_input) btime = datetime.now() print(">>> Begin time: %s" % btime) cfgname = writeRouteConf(duaBinary, step, options, dua_args, router_input, output, options.routefile, initial_type) log.flush() sys.stdout.flush() call([duaBinary, "-c", cfgname], log) if options.clean_alt and not router_input in input_demands: os.remove(router_input) etime = datetime.now() print(">>> End time: %s" % etime) print(">>> Duration: %s" % (etime - btime)) print("<<") # use the external gawron if options.externalgawron: ecomeasure = None if options.ecomeasure: ecomeasure = options.ecomeasure if step == options.firstStep + 1 and options.skipFirstRouting: if options.caloldprob: calFirstRouteProbs( "dump_000_%s.xml" % (options.aggregation), basename + "_001.rou.alt.xml", options.addweights, ecomeasure) else: shutil.copy(basename + "_001.rou.alt.xml", basename + "_001.rou.galt.xml") shutil.copy(basename + "_001.rou.xml", basename + "_001.grou.xml") if step == options.firstStep and not options.skipFirstRouting: shutil.copy(basename + "_000.rou.alt.xml", basename + "_000.rou.galt.xml") shutil.copy(basename + "_000.rou.xml", basename + "_000.grou.xml") else: print('step:', step) print('get externalgawron') dumpfile = "dump_%03i_%s.xml" % (step - 1, options.aggregation) if (not options.skipFirstRouting) or ( options.skipFirstRouting and step > 1): output, edgesMap = getRouteChoices( edgesMap, dumpfile, basename + "_%03i.rou.alt.xml" % step, options.net, options.addweights, options.gA, options.gBeta, step, ecomeasure) # simulation print(">> Running simulation") btime = datetime.now() print(">>> Begin time: %s" % btime) writeSUMOConf(sumoBinary, step, options, sumo_args, ",".join(simulation_demands)) # todo: change 'grou.xml' log.flush() sys.stdout.flush() call([sumoBinary, "-c", "iteration_%03i.sumocfg" % step], log) if options.tripinfoFilter: filterTripinfo(step, set(options.tripinfoFilter.split(","))) etime = datetime.now() print(">>> End time: %s" % etime) print(">>> Duration: %s" % (etime - btime)) print("<<") if options.weightmemory: print(">> Smoothing edge weights") costmemory.load_costs(get_dumpfilename(options, step, "dump"), step, get_scale(options, step)) costmemory.write_costs(get_weightfilename(options, step, "dump")) print(">>> Updated %s edges" % costmemory.loaded()) print(">>> Decayed %s unseen edges" % costmemory.decayed()) print(">>> Error avg:%s mean:%s" % (costmemory.avg_error(), costmemory.mean_error())) print(">>> Absolute Error avg:%s mean:%s" % (costmemory.avg_abs_error(), costmemory.mean_abs_error())) if options.costmodifier != 'None': currentDir = os.getcwd() costModifier(get_weightfilename(options, step, "dump"), step, "dump", options.aggregation, currentDir, options.costmodifier, 'dua-iterate') if options.zip and step - options.firstStep > 1: # this is a little hackish since we zip and remove all files by glob, which may have undesired side effects # also note that the 7z file does not have an "_" before the # iteration number in order to be not picked up by the remove for s in zipProcesses.keys(): if zipProcesses[s].poll() is not None: for f in glob.glob("*_%03i*" % s): try: os.remove(f) except: print("Could not remove %s" % f, file=zipLog) del zipProcesses[s] zipStep = step - 2 zipProcesses[zipStep] = subprocess.Popen( ["7z", "a", "iteration%03i.7z" % zipStep] + glob.glob("*_%03i*" % zipStep), stdout=zipLog, stderr=zipLog) converged = False if options.convDev: sum = 0. count = 0 for t in sumolib.output.parse_fast("tripinfo_%03i.xml" % step, 'tripinfo', ['duration']): sum += float(t.duration) count += 1 avgTT.add(sum / count) relStdDev = avgTT.relStdDev(options.convIt) print( "< relative travel time deviation in the last %s steps: %.05f" % (min(avgTT.count(), options.convIt), relStdDev)) if avgTT.count() >= options.convIt and relStdDev < options.convDev: converged = True print("< Step %s ended (duration: %s)" % (step, datetime.now() - btimeA)) print("------------------\n") log.flush() sys.stdout.flush() if converged: break if options.zip: for s in zipProcesses.keys(): zipProcesses[s].wait() for f in glob.glob("*_%03i*" % s): try: os.remove(f) except: print("Could not remove %s" % f, file=zipLog) zipLog.close() print("dua-iterate ended (duration: %s)" % (datetime.now() - starttime)) log.close()
def main(args=None): argParser = initOptions() options = argParser.parse_args(args=args) if not options.net: argParser.error("Option --net-file is mandatory") if (not options.trips and not options.routes and not options.flows) or (options.trips and options.routes): argParser.error( "Either --trips, --flows, or --routes have to be given!") duaBinary = sumolib.checkBinary("duarouter", options.path) sumoBinary = sumolib.checkBinary("sumo", options.path) if options.addweights and options.weightmemory: argParser.error( "Options --addweights and --weight-memory are mutually exclusive.") # make sure BOTH binaries are callable before we start try: subprocess.call(duaBinary, stdout=subprocess.PIPE) except OSError: sys.exit( "Error: Could not locate duarouter (%s).\nMake sure its on the search path or set environment variable DUAROUTER_BINARY\n" % duaBinary) try: subprocess.call(sumoBinary, stdout=subprocess.PIPE) except OSError: sys.exit( "Error: Could not locate sumo (%s).\nMake sure its on the search path or set environment variable SUMO_BINARY\n" % sumoBinary) sumo_args = assign_remaining_args( sumoBinary, 'sumo', options.remaining_args) dua_args = assign_remaining_args( duaBinary, 'duarouter', options.remaining_args) sys.stdout = sumolib.TeeFile(sys.stdout, open("stdout.log", "w+")) log = open("dua.log", "w+") if options.zip: if options.clean_alt: sys.exit( "Error: Please use either --zip or --clean-alt but not both.") try: subprocess.call("7z", stdout=open(os.devnull, 'wb')) except: sys.exit( "Error: Could not locate 7z, please make sure its on the search path.") zipProcesses = {} zipLog = open("7zip.log", "w+") starttime = datetime.now() if options.trips: input_demands = options.trips.split(",") initial_type = "trip" elif options.flows: input_demands = options.flows.split(",") initial_type = "flow" else: input_demands = options.routes.split(",") initial_type = "route" if options.externalgawron: # avoid dependency on numpy for normal duaIterate from routeChoices import getRouteChoices, calFirstRouteProbs print('use externalgawron') edgesMap = {} if options.weightmemory: costmemory = CostMemory('traveltime', pessimism=options.pessimism, network_file=options.net ) routesSuffix = ".xml" if options.binary: routesSuffix = ".sbx" if options.costmodifier != 'None': pyPath = os.path.abspath(os.path.dirname(sys.argv[0])) sys.path.append( os.path.join(pyPath, "..", "..", "..", "..", "..", "tools", "kkwSim")) from kkwCostModifier import costModifier print('Use the cost modifier for KKW simulation') if options.weightmemory and options.firstStep != 0: # load previous dump files when continuing a run print(">> Reassembling cost-memory from previous iteration steps") for step in range(0, options.firstStep): dumpfile = get_dumpfilename(options, step, "dump") print(">>> Loading %s" % dumpfile) costmemory.load_costs(dumpfile, step, get_scale(options, step)) avgTT = sumolib.miscutils.Statistics() for step in range(options.firstStep, options.lastStep): btimeA = datetime.now() print("> Executing step %s" % step) router_demands = input_demands simulation_demands = input_demands # demand files have regular names based on the basename and the step if not (options.skipFirstRouting and step == 0): simulation_demands = [ get_basename(f) + "_%03i.rou%s" % (step, routesSuffix) for f in input_demands] if not ((options.skipFirstRouting and step == 1) or step == 0): router_demands = [get_basename( f) + "_%03i.rou.alt%s" % (step - 1, routesSuffix) for f in input_demands] if not (options.skipFirstRouting and step == options.firstStep): # call duarouter for router_input, output in zip(router_demands, simulation_demands): print(">> Running router on %s" % router_input) btime = datetime.now() print(">>> Begin time: %s" % btime) cfgname = writeRouteConf(duaBinary, step, options, dua_args, router_input, output, options.routefile, initial_type) log.flush() sys.stdout.flush() call([duaBinary, "-c", cfgname], log) if options.clean_alt and not router_input in input_demands: os.remove(router_input) etime = datetime.now() print(">>> End time: %s" % etime) print(">>> Duration: %s" % (etime - btime)) print("<<") # use the external gawron if options.externalgawron: ecomeasure = None if options.ecomeasure: ecomeasure = options.ecomeasure if step == options.firstStep + 1 and options.skipFirstRouting: if options.caloldprob: calFirstRouteProbs("dump_000_%s.xml" % ( options.aggregation), basename + "_001.rou.alt.xml", options.addweights, ecomeasure) else: shutil.copy( basename + "_001.rou.alt.xml", basename + "_001.rou.galt.xml") shutil.copy( basename + "_001.rou.xml", basename + "_001.grou.xml") if step == options.firstStep and not options.skipFirstRouting: shutil.copy( basename + "_000.rou.alt.xml", basename + "_000.rou.galt.xml") shutil.copy( basename + "_000.rou.xml", basename + "_000.grou.xml") else: print('step:', step) print('get externalgawron') dumpfile = "dump_%03i_%s.xml" % ( step - 1, options.aggregation) if (not options.skipFirstRouting) or (options.skipFirstRouting and step > 1): output, edgesMap = getRouteChoices( edgesMap, dumpfile, basename + "_%03i.rou.alt.xml" % step, options.net, options.addweights, options.gA, options.gBeta, step, ecomeasure) # simulation print(">> Running simulation") btime = datetime.now() print(">>> Begin time: %s" % btime) writeSUMOConf(sumoBinary, step, options, sumo_args, ",".join(simulation_demands)) # todo: change 'grou.xml' log.flush() sys.stdout.flush() call([sumoBinary, "-c", "iteration_%03i.sumocfg" % step], log) if options.tripinfoFilter: filterTripinfo(step, set(options.tripinfoFilter.split(","))) etime = datetime.now() print(">>> End time: %s" % etime) print(">>> Duration: %s" % (etime - btime)) print("<<") if options.weightmemory: print(">> Smoothing edge weights") costmemory.load_costs( get_dumpfilename(options, step, "dump"), step, get_scale(options, step)) costmemory.write_costs(get_weightfilename(options, step, "dump")) print(">>> Updated %s edges" % costmemory.loaded()) print(">>> Decayed %s unseen edges" % costmemory.decayed()) print(">>> Error avg:%s mean:%s" % (costmemory.avg_error(), costmemory.mean_error())) print(">>> Absolute Error avg:%s mean:%s" % (costmemory.avg_abs_error(), costmemory.mean_abs_error())) if options.costmodifier != 'None': currentDir = os.getcwd() costModifier(get_weightfilename(options, step, "dump"), step, "dump", options.aggregation, currentDir, options.costmodifier, 'dua-iterate') if options.zip and step - options.firstStep > 1: # this is a little hackish since we zip and remove all files by glob, which may have undesired side effects # also note that the 7z file does not have an "_" before the # iteration number in order to be not picked up by the remove for s in zipProcesses.keys(): if zipProcesses[s].poll() is not None: for f in glob.glob("*_%03i*" % s): try: os.remove(f) except: print("Could not remove %s" % f, file=zipLog) del zipProcesses[s] zipStep = step - 2 zipProcesses[zipStep] = subprocess.Popen( ["7z", "a", "iteration%03i.7z" % zipStep] + glob.glob("*_%03i*" % zipStep), stdout=zipLog, stderr=zipLog) converged = False if options.convDev: sum = 0. count = 0 for t in sumolib.output.parse_fast("tripinfo_%03i.xml" % step, 'tripinfo', ['duration']): sum += float(t.duration) count += 1 avgTT.add(sum / count) relStdDev = avgTT.relStdDev(options.convIt) print("< relative travel time deviation in the last %s steps: %.05f" % ( min(avgTT.count(), options.convIt), relStdDev)) if avgTT.count() >= options.convIt and relStdDev < options.convDev: converged = True print("< Step %s ended (duration: %s)" % (step, datetime.now() - btimeA)) print("------------------\n") log.flush() sys.stdout.flush() if converged: break if options.zip: for s in zipProcesses.keys(): zipProcesses[s].wait() for f in glob.glob("*_%03i*" % s): try: os.remove(f) except: print("Could not remove %s" % f, file=zipLog) zipLog.close() print("dua-iterate ended (duration: %s)" % (datetime.now() - starttime)) log.close()
def main(args=None): optParser = initOptions() options, remaining_args = optParser.parse_args(args=args) if not options.net: optParser.error("Option --net-file is mandatory") if (not options.trips and not options.routes and not options.flows) or (options.trips and options.routes): optParser.error( "Either --trips, --flows, or --routes have to be given!") duaBinary = os.environ.get("DUAROUTER_BINARY", os.path.join(options.path, "duarouter")) if options.mesosim: sumoBinary = os.environ.get("SUMO_BINARY", os.path.join(options.path, "meso")) else: sumoBinary = os.environ.get("SUMO_BINARY", os.path.join(options.path, "sumo")) if options.addweights and options.weightmemory: optParser.error( "Options --addweights and --weight-memory are mutually exclusive.") # make sure BOTH binaries are callable before we start try: subprocess.call(duaBinary, stdout=subprocess.PIPE) except OSError: sys.exit( "Error: Could not locate duarouter (%s).\nMake sure its on the search path or set environment variable DUAROUTER_BINARY\n" % duaBinary) try: subprocess.call(sumoBinary, stdout=subprocess.PIPE) except OSError: sys.exit( "Error: Could not locate sumo (%s).\nMake sure its on the search path or set environment variable SUMO_BINARY\n" % sumoBinary) sumo_args = assign_remaining_args(sumoBinary, 'sumo', remaining_args) log = open("dua-log.txt", "w+") starttime = datetime.now() if options.trips: input_demands = options.trips.split(",") initial_type = "trip" elif options.flows: input_demands = options.flows.split(",") initial_type = "flow" else: input_demands = options.routes.split(",") initial_type = "route" if options.externalgawron: # avoid dependency on numpy for normal duaIterate from routeChoices import getRouteChoices, calFirstRouteProbs print('use externalgawron') edgesMap = {} if options.weightmemory: costmemory = CostMemory('traveltime', pessimism=options.pessimism, network_file=options.net) routesSuffix = ".xml" if options.binary: routesSuffix = ".sbx" if options.costmodifier != 'None': pyPath = os.path.abspath(os.path.dirname(sys.argv[0])) sys.path.append( os.path.join(pyPath, "..", "..", "..", "..", "..", "tools", "kkwSim")) from kkwCostModifier import costModifier print('Use the cost modifier for KKW simulation') if options.weightmemory and options.firstStep != 0: # load previous dump files when continuing a run print(">> Reassembling cost-memory from previous iteration steps") for step in range(0, options.firstStep): dumpfile = get_dumpfilename(options, step, "dump") print(">>> Loading %s" % dumpfile) costmemory.load_costs(dumpfile, step, get_scale(options, step)) for step in range(options.firstStep, options.lastStep): btimeA = datetime.now() print("> Executing step %s" % step) router_demands = input_demands simulation_demands = input_demands # demand files have regular names based on the basename and the step if not (options.skipFirstRouting and step == 0): simulation_demands = [ get_basename(f) + "_%03i.rou%s" % (step, routesSuffix) for f in input_demands ] if not ((options.skipFirstRouting and step == 1) or step == 0): router_demands = [ get_basename(f) + "_%03i.rou.alt%s" % (step - 1, routesSuffix) for f in input_demands ] if not (options.skipFirstRouting and step == options.firstStep): # call duarouter for router_input, output in zip(router_demands, simulation_demands): print(">> Running router on %s" % router_input) btime = datetime.now() print(">>> Begin time: %s" % btime) cfgname = writeRouteConf(step, options, router_input, output, options.routefile, initial_type) log.flush() call([duaBinary, "-c", cfgname], log) if options.clean_alt and not router_input in input_demands: os.remove(router_input) etime = datetime.now() print(">>> End time: %s" % etime) print(">>> Duration: %s" % (etime - btime)) print("<<") # use the external gawron if options.externalgawron: ecomeasure = None if options.ecomeasure: ecomeasure = options.ecomeasure if step == options.firstStep + 1 and options.skipFirstRouting: if options.caloldprob: calFirstRouteProbs( "dump_000_%s.xml" % (options.aggregation), basename + "_001.rou.alt.xml", options.addweights, ecomeasure) else: shutil.copy(basename + "_001.rou.alt.xml", basename + "_001.rou.galt.xml") shutil.copy(basename + "_001.rou.xml", basename + "_001.grou.xml") if step == options.firstStep and not options.skipFirstRouting: shutil.copy(basename + "_000.rou.alt.xml", basename + "_000.rou.galt.xml") shutil.copy(basename + "_000.rou.xml", basename + "_000.grou.xml") else: print('step:', step) print('get externalgawron') dumpfile = "dump_%03i_%s.xml" % (step - 1, options.aggregation) if (not options.skipFirstRouting) or ( options.skipFirstRouting and step > 1): output, edgesMap = getRouteChoices( edgesMap, dumpfile, basename + "_%03i.rou.alt.xml" % step, options.net, options.addweights, options.gA, options.gBeta, step, ecomeasure) # simulation print(">> Running simulation") btime = datetime.now() print(">>> Begin time: %s" % btime) writeSUMOConf(sumoBinary, step, options, sumo_args, ",".join(simulation_demands)) # todo: change 'grou.xml' log.flush() call([sumoBinary, "-c", "iteration_%03i.sumocfg" % step], log) if options.tripinfoFilter: filterTripinfo(step, set(options.tripinfoFilter.split(","))) etime = datetime.now() print(">>> End time: %s" % etime) print(">>> Duration: %s" % (etime - btime)) print("<<") if options.weightmemory: print(">> Smoothing edge weights") costmemory.load_costs(get_dumpfilename(options, step, "dump"), step, get_scale(options, step)) costmemory.write_costs(get_weightfilename(options, step, "dump")) print(">>> Updated %s edges" % costmemory.loaded()) print(">>> Decayed %s unseen edges" % costmemory.decayed()) print(">>> Error avg:%s mean:%s" % (costmemory.avg_error(), costmemory.mean_error())) print(">>> Absolute Error avg:%s mean:%s" % (costmemory.avg_abs_error(), costmemory.mean_abs_error())) if options.costmodifier != 'None': currentDir = os.getcwd() costModifier(get_weightfilename(options, step, "dump"), step, "dump", options.aggregation, currentDir, options.costmodifier, 'dua-iterate') print("< Step %s ended (duration: %s)" % (step, datetime.now() - btimeA)) print("------------------\n") log.flush() print("dua-iterate ended (duration: %s)" % (datetime.now() - starttime)) log.close()
def main(args=None): optParser = initOptions() options, remaining_args = optParser.parse_args(args=args) if not options.net: optParser.error("Option --net-file is mandatory") if (not options.trips and not options.routes and not options.flows) or (options.trips and options.routes): optParser.error("Either --trips, --flows, or --routes have to be given!") duaBinary = os.environ.get("DUAROUTER_BINARY", os.path.join(options.path, "duarouter")) if options.mesosim: sumoBinary = os.environ.get("SUMO_BINARY", os.path.join(options.path, "meso")) else: sumoBinary = os.environ.get("SUMO_BINARY", os.path.join(options.path, "sumo")) if options.addweights and options.weightmemory: optParser.error("Options --addweights and --weight-memory are mutually exclusive.") # make sure BOTH binaries are callable before we start try: subprocess.call(duaBinary, stdout=subprocess.PIPE) except OSError: sys.exit("Error: Could not locate duarouter (%s).\nMake sure its on the search path or set environment variable DUAROUTER_BINARY\n" % duaBinary) try: subprocess.call(sumoBinary, stdout=subprocess.PIPE) except OSError: sys.exit("Error: Could not locate sumo (%s).\nMake sure its on the search path or set environment variable SUMO_BINARY\n" % sumoBinary) sumo_args = assign_remaining_args(sumoBinary, 'sumo', remaining_args) log = open("dua-log.txt", "w+") starttime = datetime.now() if options.trips: input_demands = options.trips.split(",") initial_type = "trip" elif options.flows: input_demands = options.flows.split(",") initial_type = "flow" else: input_demands = options.routes.split(",") initial_type = "route" if options.externalgawron: # avoid dependency on numpy for normal duaIterate from routeChoices import getRouteChoices, calFirstRouteProbs print 'use externalgawron' edgesMap = {} if options.weightmemory: costmemory = CostMemory('traveltime') routesSuffix = ".xml" if options.binary: routesSuffix = ".sbx" for step in range(options.firstStep, options.lastStep): btimeA = datetime.now() print "> Executing step %s" % step # dua-router if options.skipFirstRouting and step == 0: files = input_demands else: files = [] for demand_file in input_demands: absPath = os.path.abspath(demand_file) basename = os.path.basename(demand_file) if 'alt' in basename: basename = basename[:-12] elif 'trips' in basename: basename = basename[:-10] else: basename = basename[:basename.find(".")] output = basename + "_%03i.rou%s" % (step, routesSuffix) if step > 0 and not (options.skipFirstRouting and step == 1): # output of previous step demand_file = basename + "_%03i.rou.alt%s" % (step-1, routesSuffix) print ">> Running router" btime = datetime.now() print ">>> Begin time: %s" % btime cfgname = writeRouteConf(step, options, demand_file, output, options.routefile, initial_type) log.flush() call([duaBinary, "-c", cfgname], log) if options.clean_alt and step != 0: os.remove(demand_file) etime = datetime.now() print ">>> End time: %s" % etime print ">>> Duration: %s" % (etime-btime) print "<<" # use the external gawron if options.externalgawron: ecomeasure = None if options.ecomeasure: ecomeasure = options.ecomeasure if step == 1 and options.skipFirstRouting: if options.caloldprob: calFirstRouteProbs("dump_000_%s.xml" % (options.aggregation), basename + "_001.rou.alt.xml",options.addweights,ecomeasure) else: shutil.copy(basename + "_001.rou.alt.xml", basename + "_001.rou.galt.xml") shutil.copy(basename + "_001.rou.xml", basename + "_001.grou.xml") if step == 0 and not options.skipFirstRouting: shutil.copy(basename + "_000.rou.alt.xml", basename + "_000.rou.galt.xml") shutil.copy(basename + "_000.rou.xml", basename + "_000.grou.xml") else: print 'step:', step print 'get externalgawron' dumpfile = "dump_%03i_%s.xml" % (step-1, options.aggregation) if (not options.skipFirstRouting) or (options.skipFirstRouting and step > 1): output, edgesMap = getRouteChoices(edgesMap,dumpfile,basename + "_%03i.rou.alt.xml" % step,options.net,options.addweights, options.gA, options.gBeta,step,ecomeasure) files.append(output) # simulation print ">> Running simulation" btime = datetime.now() print ">>> Begin time: %s" % btime writeSUMOConf(sumoBinary, step, options, sumo_args, ",".join(files)) # todo: change 'grou.xml' log.flush() call([sumoBinary, "-c", "iteration_%03i.sumocfg" % step], log) if options.tripinfoFilter: filterTripinfo(step, set(options.tripinfoFilter.split(","))) etime = datetime.now() print ">>> End time: %s" % etime print ">>> Duration: %s" % (etime-btime) print "<<" if options.weightmemory: print ">> Smoothing edge weights" costmemory.load_costs( get_dumpfilename(options, step,"dump"), step, get_scale(options, step)) costmemory.write_costs(get_weightfilename(options, step, "dump")) print ">>> Updated %s edges" % costmemory.loaded() print ">>> Decayed %s unseen edges" % costmemory.decayed() print ">>> Error avg:%s mean:%s" % (costmemory.avg_error(), costmemory.mean_error()) print ">>> Absolute Error avg:%s mean:%s" % (costmemory.avg_abs_error(), costmemory.mean_abs_error()) print "< Step %s ended (duration: %s)" % (step, datetime.now() - btimeA) print "------------------\n" log.flush() print "dua-iterate ended (duration: %s)" % (datetime.now() - starttime) log.close()
def main(args=None): optParser = initOptions() options, remaining_args = optParser.parse_args(args=args) if not options.net: optParser.error("Option --net-file is mandatory") if (not options.trips and not options.routes and not options.flows) or (options.trips and options.routes): optParser.error("Either --trips, --flows, or --routes have to be given!") duaBinary = os.environ.get("DUAROUTER_BINARY", os.path.join(options.path, "duarouter")) if options.mesosim: sumoBinary = os.environ.get("SUMO_BINARY", os.path.join(options.path, "meso")) else: sumoBinary = os.environ.get("SUMO_BINARY", os.path.join(options.path, "sumo")) if options.addweights and options.weightmemory: optParser.error("Options --addweights and --weight-memory are mutually exclusive.") # make sure BOTH binaries are callable before we start try: subprocess.call(duaBinary, stdout=subprocess.PIPE) except OSError: sys.exit("Error: Could not locate duarouter (%s).\nMake sure its on the search path or set environment variable DUAROUTER_BINARY\n" % duaBinary) try: subprocess.call(sumoBinary, stdout=subprocess.PIPE) except OSError: sys.exit("Error: Could not locate sumo (%s).\nMake sure its on the search path or set environment variable SUMO_BINARY\n" % sumoBinary) sumo_args = assign_remaining_args(sumoBinary, 'sumo', remaining_args) log = open("dua-log.txt", "w+") starttime = datetime.now() if options.trips: input_demands = options.trips.split(",") initial_type = "trip" elif options.flows: input_demands = options.flows.split(",") initial_type = "flow" else: input_demands = options.routes.split(",") initial_type = "route" if options.externalgawron: # avoid dependency on numpy for normal duaIterate from routeChoices import getRouteChoices, calFirstRouteProbs print('use externalgawron') edgesMap = {} if options.weightmemory: costmemory = CostMemory('traveltime' ,pessimism=options.pessimism ,network_file=options.net ) routesSuffix = ".xml" if options.binary: routesSuffix = ".sbx" if options.costmodifier != 'None': pyPath = os.path.abspath(os.path.dirname(sys.argv[0])) sys.path.append(os.path.join(pyPath, "..", "..", "..", "..","..", "tools", "kkwSim")) from kkwCostModifier import costModifier print('Use the cost modifier for KKW simulation') if options.weightmemory and options.firstStep != 0: # load previous dump files when continuing a run print(">> Reassembling cost-memory from previous iteration steps") for step in range(0, options.firstStep): dumpfile = get_dumpfilename(options, step,"dump") print(">>> Loading %s" % dumpfile) costmemory.load_costs(dumpfile, step, get_scale(options, step)) for step in range(options.firstStep, options.lastStep): btimeA = datetime.now() print("> Executing step %s" % step) router_demands = input_demands simulation_demands = input_demands # demand files have regular names based on the basename and the step if not (options.skipFirstRouting and step == 0): simulation_demands = [get_basename(f) + "_%03i.rou%s" % (step, routesSuffix) for f in input_demands] if not ((options.skipFirstRouting and step == 1) or step == 0): router_demands = [get_basename(f) + "_%03i.rou.alt%s" % (step-1, routesSuffix) for f in input_demands] if not (options.skipFirstRouting and step == options.firstStep): # call duarouter for router_input, output in zip(router_demands, simulation_demands): print(">> Running router on %s" % router_input) btime = datetime.now() print(">>> Begin time: %s" % btime) cfgname = writeRouteConf(step, options, router_input, output, options.routefile, initial_type) log.flush() call([duaBinary, "-c", cfgname], log) if options.clean_alt and not router_input in input_demands: os.remove(router_input) etime = datetime.now() print(">>> End time: %s" % etime) print(">>> Duration: %s" % (etime-btime)) print("<<") # use the external gawron if options.externalgawron: ecomeasure = None if options.ecomeasure: ecomeasure = options.ecomeasure if step == options.firstStep + 1 and options.skipFirstRouting: if options.caloldprob: calFirstRouteProbs("dump_000_%s.xml" % (options.aggregation), basename + "_001.rou.alt.xml",options.addweights,ecomeasure) else: shutil.copy(basename + "_001.rou.alt.xml", basename + "_001.rou.galt.xml") shutil.copy(basename + "_001.rou.xml", basename + "_001.grou.xml") if step == options.firstStep and not options.skipFirstRouting: shutil.copy(basename + "_000.rou.alt.xml", basename + "_000.rou.galt.xml") shutil.copy(basename + "_000.rou.xml", basename + "_000.grou.xml") else: print('step:', step) print('get externalgawron') dumpfile = "dump_%03i_%s.xml" % (step-1, options.aggregation) if (not options.skipFirstRouting) or (options.skipFirstRouting and step > 1): output, edgesMap = getRouteChoices(edgesMap,dumpfile,basename + "_%03i.rou.alt.xml" % step,options.net,options.addweights, options.gA, options.gBeta,step,ecomeasure) # simulation print(">> Running simulation") btime = datetime.now() print(">>> Begin time: %s" % btime) writeSUMOConf(sumoBinary, step, options, sumo_args, ",".join(simulation_demands)) # todo: change 'grou.xml' log.flush() call([sumoBinary, "-c", "iteration_%03i.sumocfg" % step], log) if options.tripinfoFilter: filterTripinfo(step, set(options.tripinfoFilter.split(","))) etime = datetime.now() print(">>> End time: %s" % etime) print(">>> Duration: %s" % (etime-btime)) print("<<") if options.weightmemory: print(">> Smoothing edge weights") costmemory.load_costs( get_dumpfilename(options, step,"dump"), step, get_scale(options, step)) costmemory.write_costs(get_weightfilename(options, step, "dump")) print(">>> Updated %s edges" % costmemory.loaded()) print(">>> Decayed %s unseen edges" % costmemory.decayed()) print(">>> Error avg:%s mean:%s" % (costmemory.avg_error(), costmemory.mean_error())) print(">>> Absolute Error avg:%s mean:%s" % (costmemory.avg_abs_error(), costmemory.mean_abs_error())) if options.costmodifier != 'None': currentDir = os.getcwd() costModifier(get_weightfilename(options, step, "dump"), step, "dump", options.aggregation, currentDir, options.costmodifier, 'dua-iterate') print("< Step %s ended (duration: %s)" % (step, datetime.now() - btimeA)) print("------------------\n") log.flush() print("dua-iterate ended (duration: %s)" % (datetime.now() - starttime)) log.close()
def main(args=None): optParser = initOptions() options, remaining_args = optParser.parse_args(args=args) if not options.net: optParser.error("Option --net-file is mandatory") if (not options.trips and not options.routes and not options.flows) or (options.trips and options.routes): optParser.error( "Either --trips, --flows, or --routes have to be given!") duaBinary = os.environ.get("DUAROUTER_BINARY", os.path.join(options.path, "duarouter")) if options.mesosim: sumoBinary = os.environ.get("SUMO_BINARY", os.path.join(options.path, "meso")) else: sumoBinary = os.environ.get("SUMO_BINARY", os.path.join(options.path, "sumo")) if options.addweights and options.weightmemory: optParser.error( "Options --addweights and --weight-memory are mutually exclusive.") # make sure BOTH binaries are callable before we start try: subprocess.call(duaBinary, stdout=subprocess.PIPE) except OSError: sys.exit( "Error: Could not locate duarouter (%s).\nMake sure its on the search path or set environment variable DUAROUTER_BINARY\n" % duaBinary) try: subprocess.call(sumoBinary, stdout=subprocess.PIPE) except OSError: sys.exit( "Error: Could not locate sumo (%s).\nMake sure its on the search path or set environment variable SUMO_BINARY\n" % sumoBinary) sumo_args = assign_remaining_args(sumoBinary, 'sumo', remaining_args) log = open("dua-log.txt", "w+") starttime = datetime.now() if options.trips: input_demands = options.trips.split(",") initial_type = "trip" elif options.flows: input_demands = options.flows.split(",") initial_type = "flow" else: input_demands = options.routes.split(",") initial_type = "route" if options.externalgawron: # avoid dependency on numpy for normal duaIterate from routeChoices import getRouteChoices, calFirstRouteProbs print 'use externalgawron' edgesMap = {} if options.weightmemory: costmemory = CostMemory('traveltime') routesSuffix = ".xml" if options.binary: routesSuffix = ".sbx" for step in range(options.firstStep, options.lastStep): btimeA = datetime.now() print "> Executing step %s" % step # dua-router if options.skipFirstRouting and step == 0: files = input_demands else: files = [] for demand_file in input_demands: absPath = os.path.abspath(demand_file) basename = os.path.basename(demand_file) if 'alt' in basename: basename = basename[:-12] elif 'trips' in basename: basename = basename[:-10] else: basename = basename[:basename.find(".")] output = basename + "_%03i.rou%s" % (step, routesSuffix) if step > 0 and not (options.skipFirstRouting and step == 1): # output of previous step demand_file = basename + "_%03i.rou.alt%s" % (step - 1, routesSuffix) print ">> Running router" btime = datetime.now() print ">>> Begin time: %s" % btime cfgname = writeRouteConf(step, options, demand_file, output, options.routefile, initial_type) log.flush() call([duaBinary, "-c", cfgname], log) if options.clean_alt and step != 0: os.remove(demand_file) etime = datetime.now() print ">>> End time: %s" % etime print ">>> Duration: %s" % (etime - btime) print "<<" # use the external gawron if options.externalgawron: ecomeasure = None if options.ecomeasure: ecomeasure = options.ecomeasure if step == 1 and options.skipFirstRouting: if options.caloldprob: calFirstRouteProbs( "dump_000_%s.xml" % (options.aggregation), basename + "_001.rou.alt.xml", options.addweights, ecomeasure) else: shutil.copy(basename + "_001.rou.alt.xml", basename + "_001.rou.galt.xml") shutil.copy(basename + "_001.rou.xml", basename + "_001.grou.xml") if step == 0 and not options.skipFirstRouting: shutil.copy(basename + "_000.rou.alt.xml", basename + "_000.rou.galt.xml") shutil.copy(basename + "_000.rou.xml", basename + "_000.grou.xml") else: print 'step:', step print 'get externalgawron' dumpfile = "dump_%03i_%s.xml" % (step - 1, options.aggregation) if (not options.skipFirstRouting) or ( options.skipFirstRouting and step > 1): output, edgesMap = getRouteChoices( edgesMap, dumpfile, basename + "_%03i.rou.alt.xml" % step, options.net, options.addweights, options.gA, options.gBeta, step, ecomeasure) files.append(output) # simulation print ">> Running simulation" btime = datetime.now() print ">>> Begin time: %s" % btime writeSUMOConf(sumoBinary, step, options, sumo_args, ",".join(files)) # todo: change 'grou.xml' log.flush() call([sumoBinary, "-c", "iteration_%03i.sumocfg" % step], log) if options.tripinfoFilter: filterTripinfo(step, set(options.tripinfoFilter.split(","))) etime = datetime.now() print ">>> End time: %s" % etime print ">>> Duration: %s" % (etime - btime) print "<<" if options.weightmemory: print ">> Smoothing edge weights" costmemory.load_costs(get_dumpfilename(options, step, "dump"), step, get_scale(options, step)) costmemory.write_costs(get_weightfilename(options, step, "dump")) print ">>> Updated %s edges" % costmemory.loaded() print ">>> Decayed %s unseen edges" % costmemory.decayed() print ">>> Error avg:%s mean:%s" % (costmemory.avg_error(), costmemory.mean_error()) print ">>> Absolute Error avg:%s mean:%s" % ( costmemory.avg_abs_error(), costmemory.mean_abs_error()) print "< Step %s ended (duration: %s)" % (step, datetime.now() - btimeA) print "------------------\n" log.flush() print "dua-iterate ended (duration: %s)" % (datetime.now() - starttime) log.close()
def main(args=None): argParser = initOptions() options = argParser.parse_args(args=args) if not options.net: argParser.error("Option --net-file is mandatory") if (not options.trips and not options.routes and not options.flows) or (options.trips and options.routes): argParser.error( "Either --trips, --flows, or --routes have to be given!") duaBinary = sumolib.checkBinary("duarouter", options.path) sumoBinary = sumolib.checkBinary("sumo", options.path) if options.addweights and options.weightmemory: argParser.error( "Options --addweights and --weight-memory are mutually exclusive.") if options.marginal_cost and not options.logit: print("Warning! --marginal-cost works best with --logit.", file=sys.stderr) # make sure BOTH binaries are callable before we start try: subprocess.call(duaBinary, stdout=subprocess.PIPE) except OSError: sys.exit(( "Error: Could not locate duarouter (%s).\nMake sure its on the search path or set environment " + "variable DUAROUTER_BINARY\n") % duaBinary) try: subprocess.call(sumoBinary, stdout=subprocess.PIPE) except OSError: sys.exit(( "Error: Could not locate sumo (%s).\nMake sure its on the search path or set environment " + "variable SUMO_BINARY\n") % sumoBinary) sumo_args = assign_remaining_args(sumoBinary, 'sumo', options.remaining_args) dua_args = assign_remaining_args(duaBinary, 'duarouter', options.remaining_args) index = -1 for i in range(len(dua_args)): if dua_args[i] == '--additional-files': index = i if index > -1: dua_args[index + 1] = ','.join([ prepend_relative("..", f) for f in dua_args[index + 1].split(',') ]) sys.stdout = sumolib.TeeFile(sys.stdout, open(options.log, "w+")) log = open(options.dualog, "w+") if options.zip: if options.clean_alt: sys.exit( "Error: Please use either --zip or --clean-alt but not both.") try: subprocess.call("7z", stdout=open(os.devnull, 'wb')) except Exception: sys.exit( "Error: Could not locate 7z, please make sure its on the search path." ) zipProcesses = {} zipLog = open("7zip.log", "w+") starttime = datetime.now() if options.trips: input_demands = options.trips.split(",") elif options.flows: input_demands = options.flows.split(",") else: input_demands = options.routes.split(",") if options.weightmemory: costmemory = CostMemory('traveltime', pessimism=options.pessimism, network_file=options.net) routesSuffix = ".xml" if options.gzip: routesSuffix = ".gz" if options.weightmemory and options.firstStep != 0: # load previous dump files when continuing a run print(">> Reassembling cost-memory from previous iteration steps") for step in range(0, options.firstStep): dumpfile = get_dumpfilename(options, step, "dump") print(">>> Loading %s" % dumpfile) costmemory.load_costs(dumpfile, step, get_scale(options, step)) avgTT = sumolib.miscutils.Statistics() for step in range(options.firstStep, options.lastStep): current_directory = os.getcwd() final_directory = os.path.join(current_directory, str(step)) if not os.path.exists(final_directory): os.makedirs(final_directory) btimeA = datetime.now() print("> Executing step %s" % step) router_demands = input_demands simulation_demands = input_demands # demand files have regular names based on the basename and the step if not (options.skipFirstRouting and step == 0): simulation_demands = [ get_basename(f) + "_%03i.rou%s" % (step, routesSuffix) for f in input_demands ] if not ((options.skipFirstRouting and step == 1) or step == 0): router_demands = [ str(step - 1) + os.sep + get_basename(f) + "_%03i.rou.alt%s" % (step - 1, routesSuffix) for f in input_demands ] if not (options.skipFirstRouting and step == options.firstStep): # call duarouter for router_input, output in zip(router_demands, simulation_demands): print(">> Running router on %s" % router_input) btime = datetime.now() print(">>> Begin time: %s" % btime) cfgname = writeRouteConf(duaBinary, step, options, dua_args, router_input, output, options.routefile) log.flush() sys.stdout.flush() if options.marginal_cost: calcMarginalCost(step, options) call([duaBinary, "-c", cfgname], log) if options.clean_alt and router_input not in input_demands: os.remove(router_input) etime = datetime.now() print(">>> End time: %s" % etime) print(">>> Duration: %s" % (etime - btime)) print("<<") # simulation print(">> Running simulation") btime = datetime.now() print(">>> Begin time: %s" % btime) writeSUMOConf(sumoBinary, step, options, sumo_args, ",".join(simulation_demands)) # todo: change 'grou.xml' log.flush() sys.stdout.flush() call([ sumoBinary, "-c", "%s%siteration_%03i.sumocfg" % (step, os.sep, step) ], log) if options.tripinfoFilter: filterTripinfo(step, options.tripinfoFilter.split(",")) etime = datetime.now() print(">>> End time: %s" % etime) print(">>> Duration: %s" % (etime - btime)) print("<<") if options.weightmemory: print(">> Smoothing edge weights") costmemory.load_costs( str(step) + os.sep + get_dumpfilename(options, step, "dump"), step, get_scale(options, step)) costmemory.write_costs( str(step) + os.sep + get_weightfilename(options, step, "dump")) print(">>> Updated %s edges" % costmemory.loaded()) print(">>> Decayed %s unseen edges" % costmemory.decayed()) print(">>> Error avg:%.12g mean:%.12g" % (costmemory.avg_error(), costmemory.mean_error())) print(">>> Absolute Error avg:%.12g mean:%.12g" % (costmemory.avg_abs_error(), costmemory.mean_abs_error())) if options.zip and step - options.firstStep > 1: # this is a little hackish since we zip and remove all files by glob, which may have undesired side effects # also note that the 7z file does not have an "_" before the # iteration number in order to be not picked up by the remove for s in list(zipProcesses.keys()): if zipProcesses[s].poll() is not None: for f in glob.glob("*_%03i*" % s): try: os.remove(f) except Exception: print("Could not remove %s" % f, file=zipLog) del zipProcesses[s] zipStep = step - 2 zipProcesses[zipStep] = subprocess.Popen( ["7z", "a", "iteration%03i.7z" % zipStep] + glob.glob("*_%03i*" % zipStep), stdout=zipLog, stderr=zipLog) converged = False if options.convDev: sum = 0. count = 0 for t in sumolib.output.parse_fast( str(step) + os.sep + "tripinfo_%03i.xml" % step, 'tripinfo', ['duration']): sum += float(t.duration) count += 1 avgTT.add(sum / count) relStdDev = avgTT.relStdDev(options.convIt) print( "< relative travel time deviation in the last %s steps: %.05f" % (min(avgTT.count(), options.convIt), relStdDev)) if avgTT.count() >= options.convIt and relStdDev < options.convDev: converged = True print("< Step %s ended (duration: %s)" % (step, datetime.now() - btimeA)) print("------------------\n") log.flush() sys.stdout.flush() if converged: break if options.zip: for s in zipProcesses.keys(): zipProcesses[s].wait() for f in glob.glob("*_%03i*" % s): try: os.remove(f) except Exception: print("Could not remove %s" % f, file=zipLog) zipLog.close() print("dua-iterate ended (duration: %s)" % (datetime.now() - starttime)) log.close()
def main(args=None): argParser = initOptions() options = argParser.parse_args(args=args) if not options.net: argParser.error("Option --net-file is mandatory") if (not options.trips and not options.routes and not options.flows) or (options.trips and options.routes): argParser.error( "Either --trips, --flows, or --routes have to be given!") duaBinary = sumolib.checkBinary("duarouter", options.path) sumoBinary = sumolib.checkBinary("sumo", options.path) if options.addweights and options.weightmemory: argParser.error( "Options --addweights and --weight-memory are mutually exclusive.") # make sure BOTH binaries are callable before we start try: subprocess.call(duaBinary, stdout=subprocess.PIPE) except OSError: sys.exit(( "Error: Could not locate duarouter (%s).\nMake sure its on the search path or set environment " + "variable DUAROUTER_BINARY\n") % duaBinary) try: subprocess.call(sumoBinary, stdout=subprocess.PIPE) except OSError: sys.exit(( "Error: Could not locate sumo (%s).\nMake sure its on the search path or set environment " + "variable SUMO_BINARY\n") % sumoBinary) sumo_args = assign_remaining_args(sumoBinary, 'sumo', options.remaining_args) dua_args = assign_remaining_args(duaBinary, 'duarouter', options.remaining_args) index = -1 for i in range(len(dua_args)): if dua_args[i] == '--additional-files': index = i if index > -1: dua_args[index + 1] = ','.join([ prepend_relative("..", f) for f in dua_args[index + 1].split(',') ]) sys.stdout = sumolib.TeeFile(sys.stdout, open(options.log, "w+")) log = open(options.dualog, "w+") if options.zip: if options.clean_alt: sys.exit( "Error: Please use either --zip or --clean-alt but not both.") try: subprocess.call("7z", stdout=open(os.devnull, 'wb')) except Exception: sys.exit( "Error: Could not locate 7z, please make sure its on the search path." ) zipProcesses = {} zipLog = open("7zip.log", "w+") starttime = datetime.now() if options.trips: input_demands = options.trips.split(",") elif options.flows: input_demands = options.flows.split(",") else: input_demands = options.routes.split(",") if options.externalgawron: # avoid dependency on numpy for normal duaIterate from routeChoices import getRouteChoices, calFirstRouteProbs print('use externalgawron') edgesMap = {} if options.weightmemory: costmemory = CostMemory('traveltime', pessimism=options.pessimism, network_file=options.net) routesSuffix = ".xml" if options.gzip: routesSuffix = ".gz" if options.weightmemory and options.firstStep != 0: # load previous dump files when continuing a run print(">> Reassembling cost-memory from previous iteration steps") for step in range(0, options.firstStep): dumpfile = get_dumpfilename(options, step, "dump") print(">>> Loading %s" % dumpfile) costmemory.load_costs(dumpfile, step, get_scale(options, step)) avgTT = sumolib.miscutils.Statistics() for step in range(options.firstStep, options.lastStep): current_directory = os.getcwd() final_directory = os.path.join(current_directory, str(step)) if not os.path.exists(final_directory): os.makedirs(final_directory) btimeA = datetime.now() print("> Executing step %s" % step) router_demands = input_demands simulation_demands = input_demands # demand files have regular names based on the basename and the step if not (options.skipFirstRouting and step == 0): simulation_demands = [ get_basename(f) + "_%03i.rou%s" % (step, routesSuffix) for f in input_demands ] if not ((options.skipFirstRouting and step == 1) or step == 0): router_demands = [ str(step - 1) + os.sep + get_basename(f) + "_%03i.rou.alt%s" % (step - 1, routesSuffix) for f in input_demands ] if not (options.skipFirstRouting and step == options.firstStep): # call duarouter for router_input, output in zip(router_demands, simulation_demands): print(">> Running router on %s" % router_input) btime = datetime.now() print(">>> Begin time: %s" % btime) cfgname = writeRouteConf(duaBinary, step, options, dua_args, router_input, output, options.routefile) log.flush() sys.stdout.flush() if options.SO: if options.logit: if step > 1: with open( os.path.join( str(step - 1), get_weightfilename( options, step - 1, "dump")), 'r') as sumo_cur: tree_sumo_cur = ET.parse(sumo_cur) root_sumo_cur = tree_sumo_cur.getroot() with open( os.path.join( str(step - 2), get_weightfilename( options, step - 2, "dump")), 'r') as sumo_prv: tree_sumo_prv = ET.parse(sumo_prv) root_sumo_prv = tree_sumo_prv.getroot() for interval_cur in root_sumo_cur: begin_cur = interval_cur.attrib.get("begin") for interval_prv in root_sumo_prv: begin_prv = interval_prv.attrib.get( "begin") for edge_cur in interval_cur.iter('edge'): for edge_prv in interval_prv.iter( 'edge'): if begin_cur == begin_prv and edge_cur.get( "id") == edge_prv.get( "id"): if edge_cur.get( "traveltime" ) is not None and edge_prv.get( "traveltime" ) is not None: veh_cur = round( float( edge_cur.get( "left") + edge_cur.get( "arrived")), 2) veh_prv = round( float( edge_prv.get( "left") + edge_prv.get( "arrived")), 2) tt_cur = round( float( edge_cur.get( "traveltime")), 2) tt_prv = round( float( edge_prv.get( "traveltime")), 2) dif_tt = abs(tt_cur - tt_prv) dif_veh = abs(veh_cur - veh_prv) if dif_veh != 0: margin = round( (dif_tt / dif_veh), 3) new_tt = round( (margin + tt_cur), 3) edge_cur.set( "traveltime", str(new_tt)) tree_sumo_cur.write( os.path.join( str(step - 1), get_weightfilename(options, step - 1, "dump"))) else: argParser.error( "SO assignment only works with logit route choice algorithm " "---> activate logit route choice algorithm") call([duaBinary, "-c", cfgname], log) if options.clean_alt and router_input not in input_demands: os.remove(router_input) etime = datetime.now() print(">>> End time: %s" % etime) print(">>> Duration: %s" % (etime - btime)) print("<<") # use the external gawron if options.externalgawron: basename = get_basename(router_input) if ((step > 0 and not options.skipFirstRouting) or step > 1): basename = basename[:-4] print('basename', basename) ecomeasure = None if options.eco_measure: ecomeasure = options.eco_measure if step == options.firstStep + 1 and options.skipFirstRouting: if options.caloldprob: calFirstRouteProbs( "dump_000_%s.xml" % (options.aggregation), basename + "_001.rou.alt.xml", options.addweights, ecomeasure) else: shutil.copy( str(1) + os.sep + basename + "_001.rou.alt.xml", ".." + os.sep + basename + "_001.rou.galt.xml") shutil.copy( str(step) + os.sep + basename + "_001.rou.xml", str(step) + os.sep + basename + "_001.grou.xml") if step == options.firstStep and not options.skipFirstRouting: shutil.copy( str(step) + os.sep + basename + "_000.rou.alt.xml", ".." + os.sep + basename + "_000.rou.galt.xml") shutil.copy( str(step) + os.sep + basename + "_000.rou.xml", ".." + os.sep + basename + "_000.grou.xml") else: print('step:', step) print('get externalgawron') dumpfile = str(step - 1) + os.sep + "dump_%03i_%s.xml" % ( step - 1, options.aggregation) shutil.copy( str(step - 1) + os.sep + basename + "_00%s.rou.alt.xml" % (step - 1), basename + "_00%s.rou.galt.xml" % (step - 1)) if (not options.skipFirstRouting) or ( options.skipFirstRouting and step > 1): output, edgesMap = getRouteChoices( edgesMap, dumpfile, str(step) + os.sep + basename + "_%03i.rou.alt.xml" % step, options.net, options.addweights, options.gA, options.gBeta, step, ecomeasure) # simulation print(">> Running simulation") btime = datetime.now() print(">>> Begin time: %s" % btime) writeSUMOConf(sumoBinary, step, options, sumo_args, ",".join(simulation_demands)) # todo: change 'grou.xml' log.flush() sys.stdout.flush() call([ sumoBinary, "-c", "%s%siteration_%03i.sumocfg" % (step, os.sep, step) ], log) if options.tripinfoFilter: filterTripinfo(step, options.tripinfoFilter.split(",")) etime = datetime.now() print(">>> End time: %s" % etime) print(">>> Duration: %s" % (etime - btime)) print("<<") if options.weightmemory: print(">> Smoothing edge weights") costmemory.load_costs( str(step) + os.sep + get_dumpfilename(options, step, "dump"), step, get_scale(options, step)) costmemory.write_costs( str(step) + os.sep + get_weightfilename(options, step, "dump")) print(">>> Updated %s edges" % costmemory.loaded()) print(">>> Decayed %s unseen edges" % costmemory.decayed()) print(">>> Error avg:%.12g mean:%.12g" % (costmemory.avg_error(), costmemory.mean_error())) print(">>> Absolute Error avg:%.12g mean:%.12g" % (costmemory.avg_abs_error(), costmemory.mean_abs_error())) if options.zip and step - options.firstStep > 1: # this is a little hackish since we zip and remove all files by glob, which may have undesired side effects # also note that the 7z file does not have an "_" before the # iteration number in order to be not picked up by the remove for s in list(zipProcesses.keys()): if zipProcesses[s].poll() is not None: for f in glob.glob("*_%03i*" % s): try: os.remove(f) except Exception: print("Could not remove %s" % f, file=zipLog) del zipProcesses[s] zipStep = step - 2 zipProcesses[zipStep] = subprocess.Popen( ["7z", "a", "iteration%03i.7z" % zipStep] + glob.glob("*_%03i*" % zipStep), stdout=zipLog, stderr=zipLog) converged = False if options.convDev: sum = 0. count = 0 for t in sumolib.output.parse_fast( str(step) + os.sep + "tripinfo_%03i.xml" % step, 'tripinfo', ['duration']): sum += float(t.duration) count += 1 avgTT.add(sum / count) relStdDev = avgTT.relStdDev(options.convIt) print( "< relative travel time deviation in the last %s steps: %.05f" % (min(avgTT.count(), options.convIt), relStdDev)) if avgTT.count() >= options.convIt and relStdDev < options.convDev: converged = True print("< Step %s ended (duration: %s)" % (step, datetime.now() - btimeA)) print("------------------\n") log.flush() sys.stdout.flush() if converged: break if options.zip: for s in zipProcesses.keys(): zipProcesses[s].wait() for f in glob.glob("*_%03i*" % s): try: os.remove(f) except Exception: print("Could not remove %s" % f, file=zipLog) zipLog.close() print("dua-iterate ended (duration: %s)" % (datetime.now() - starttime)) log.close()