def write_persontrip_xml(self, fd, id_trip, indent=2, method_routechoice=None):
# currently no routes are exported, only origin and destination edges
# if method_routechoice is None:
# method_routechoice = self.get_route_first
xmltag_person = 'person'
id_route = method_routechoice(id_trip)
fd.write(xm.start(xmltag_person, indent))
self.ids_sumo.write_xml(fd, id_trip)
self.times_depart.write_xml(fd, id_trip)
self.ids_vtype.write_xml(fd, id_trip)
fd.write(xm.stop())
fd.write(xm.start('walk', indent=indent+2))
# print 'write walk',id_trip,self.positions_depart[id_trip],self.positions_arrival[id_trip]
self.ids_edge_depart.write_xml(fd, id_trip)
if self.positions_depart[id_trip] > 0:
self.positions_depart.write_xml(fd, id_trip)
self.ids_edge_arrival.write_xml(fd, id_trip)
if self.positions_arrival[id_trip] > 0:
self.positions_arrival.write_xml(fd, id_trip)
fd.write(xm.stopit()) # ends walk
fd.write(xm.end(xmltag_person, indent=indent))
def write_persontrip_xml(self, fd, id_trip, indent=2, method_routechoice=None):
# currently no routes are exported, only origin and destination edges
# if method_routechoice == None:
# method_routechoice = self.get_route_first
xmltag_person = 'person'
id_route = method_routechoice(id_trip)
fd.write(xm.start(xmltag_person, indent))
self.ids_sumo.write_xml(fd, id_trip)
self.times_depart.write_xml(fd, id_trip)
self.ids_vtype.write_xml(fd, id_trip)
fd.write(xm.stop())
fd.write(xm.start('walk', indent=indent + 2))
# print 'write
# walk',id_trip,self.positions_depart[id_trip],self.positions_arrival[id_trip]
self.ids_edge_depart.write_xml(fd, id_trip)
if self.positions_depart[id_trip] > 0:
self.positions_depart.write_xml(fd, id_trip)
self.ids_edge_arrival.write_xml(fd, id_trip)
if self.positions_arrival[id_trip] > 0:
self.positions_arrival.write_xml(fd, id_trip)
fd.write(xm.stopit()) # ends walk
fd.write(xm.end(xmltag_person, indent=indent))
def write_prtvehicle_xml(self, fd, id_veh, time_begin, indent=2):
print 'write_prtvehicle_xml', id_veh, time_begin
# TODO: actually this should go in prtvehicles
#time_veh_wait_after_stop = 3600
net = self.get_scenario().net
#lanes = net.lanes
edges = net.edges
#ind_ride = rides.get_inds(id_stage)
#id_veh = rides.ids_veh[id_stage]
prtvehicles = self.prtvehicles
#ptstops = net.ptstops
#prtstops = self.parent.prtstops
#ids_prtstop = prtstops.get_ids()
#ids_ptstop = prtstops.ids_ptstop[id_prtstop]
# lanes.ids_edge[ptstops.ids_lane[ids_ptstop]],
#id_lane_from = parking.ids_lane[id_parking_from]
#laneindex_from = lanes.indexes[id_lane_from]
#pos_from = parking.positions[id_parking_from]
#id_parking_to = rides.ids_parking_to[id_stage]
#id_lane_to = parking.ids_lane[id_parking_to]
#laneindex_to = lanes.indexes[id_lane_to]
#pos_to = parking.positions[id_parking_to]
# write unique veh ID to prevent confusion with other veh declarations
fd.write(
xm.start('vehicle id="%s"' % prtvehicles.get_id_sumo(id_veh),
indent + 2))
fd.write(xm.num('depart', '%d' % time_begin))
fd.write(
xm.num('type',
self.parent.vtypes.ids_sumo[prtvehicles.ids_vtype[id_veh]]))
fd.write(xm.num('line', prtvehicles.get_id_line_xml()))
fd.write(xm.stop())
# write route
fd.write(xm.start('route', indent + 4))
# print ' edgeindex[ids_edge]',edgeindex[ids_edge]
fd.write(
xm.arr('edges',
[edges.ids_sumo[prtvehicles.ids_currentedge[id_veh]]]))
# does not seem to have an effect, always starts at base????
fd.write(xm.num('departPos', 'base'))
#fd.write(xm.num('departLane', laneindex_from ))
fd.write(xm.stopit())
# write depart stop
# fd.write(xm.start('stop',indent+4))
#fd.write(xm.num('lane', edges.ids_sumo[lanes.ids_edge[id_lane_from]]+'_%d'%laneindex_from ))
#fd.write(xm.num('duration', time_veh_wait_after_stop))
#fd.write(xm.num('startPos', pos_from ))
#fd.write(xm.num('endPos', pos_from + parking.lengths[id_parking_from]))
#fd.write(xm.num('triggered', "True"))
# fd.write(xm.stopit())
fd.write(xm.end('vehicle', indent + 2))
def write_flow_xml(self, fd, id_line, time_begin, indent=0):
#_idents = self.get_keys()
#_inds = self.get_inds_from_keys(_idents)
#_ids_egdes = self.cols.ids_edge[_inds]
# for _ind, _id_line, _ids_egde in zip(_inds, _idents, _ids_egdes):
#vtype = self.cols.vtype[id_line]
# write vehicle flow data
fd.write(xm.start('flow id="ptline.%s"' % id_line, indent))
for attrconfig in [
self.ids_vtype,
self.linenames,
self.times_begin,
self.times_end,
self.periods,
]:
# print ' attrconfig',attrconfig.attrname
attrconfig.write_xml(fd, id_line)
#fd.write(xm.num('begin', '%d'%self.times_begin[id_line]))
#fd.write(xm.num('end', '%d'%self.times_end[id_line]))
#fd.write(xm.num('period', '%d'%self.periods[id_line]))
#fd.write(xm.num('line', self.linenames[id_line]))
#fd.write(xm.num('type', self.ids_vtype[id_line]))
fd.write(xm.stop())
# write route
#ids_edge, duration = self.route(_id_line, vtype)
ids_edge = self.ids_edges[id_line]
if len(ids_edge) > 0:
fd.write(xm.start('route', indent + 2))
self.ids_edges.write_xml(fd, id_line)
# fd.write(xm.arr('edges',ids_egde,indent+4))
#fd.write(xm.num('departPos', pos_depart))
# depart lane is 1 , 0 would be on the side-walk)
#fd.write(xm.num('departLane', laneind_parking))
fd.write(xm.stopit())
# write stops
ids_stop = self.ids_stops[id_line]
if len(ids_stop) > 0:
stopnames = self.ids_stops.get_linktab().stopnames[ids_stop]
time_dwell = self.times_dwell[id_line]
for stopname in stopnames:
fd.write(xm.start('stop', indent + 2))
fd.write(xm.num('busStop', stopname))
fd.write(xm.num('duration', time_dwell))
fd.write(xm.stopit())
fd.write(xm.end('flow', indent))
def write_flow_xml(self, fd, id_line, time_begin, indent=0):
#_idents = self.get_keys()
#_inds = self.get_inds_from_keys(_idents)
#_ids_egdes = self.cols.ids_edge[_inds]
# for _ind, _id_line, _ids_egde in zip(_inds, _idents, _ids_egdes):
#vtype = self.cols.vtype[id_line]
# write vehicle flow data
fd.write(xm.start('flow id="ptline.%s"' % id_line, indent))
for attrconfig in [self.ids_vtype,
self.linenames,
self.times_begin,
self.times_end,
self.periods,
]:
# print ' attrconfig',attrconfig.attrname
attrconfig.write_xml(fd, id_line)
#fd.write(xm.num('begin', '%d'%self.times_begin[id_line]))
#fd.write(xm.num('end', '%d'%self.times_end[id_line]))
#fd.write(xm.num('period', '%d'%self.periods[id_line]))
#fd.write(xm.num('line', self.linenames[id_line]))
#fd.write(xm.num('type', self.ids_vtype[id_line]))
fd.write(xm.stop())
# write route
#ids_edge, duration = self.route(_id_line, vtype)
ids_edge = self.ids_edges[id_line]
if len(ids_edge) > 0:
fd.write(xm.start('route', indent+2))
self.ids_edges.write_xml(fd, id_line)
# fd.write(xm.arr('edges',ids_egde,indent+4))
#fd.write(xm.num('departPos', pos_depart))
# depart lane is 1 , 0 would be on the side-walk)
#fd.write(xm.num('departLane', laneind_parking))
fd.write(xm.stopit())
# write stops
ids_stop = self.ids_stops[id_line]
if len(ids_stop) > 0:
stopnames = self.ids_stops.get_linktab().stopnames[ids_stop]
time_dwell = self.times_dwell[id_line]
for stopname in stopnames:
fd.write(xm.start('stop', indent+2))
fd.write(xm.num('busStop', stopname))
fd.write(xm.num('duration', time_dwell))
fd.write(xm.stopit())
fd.write(xm.end('flow', indent))
def write_prtvehicle_xml(self, fd, id_veh, time_begin, indent=2):
print 'write_prtvehicle_xml', id_veh, time_begin
# TODO: actually this should go in prtvehicles
#time_veh_wait_after_stop = 3600
net = self.get_scenario().net
#lanes = net.lanes
edges = net.edges
#ind_ride = rides.get_inds(id_stage)
#id_veh = rides.ids_veh[id_stage]
prtvehicles = self.prtvehicles
#ptstops = net.ptstops
#prtstops = self.parent.prtstops
#ids_prtstop = prtstops.get_ids()
#ids_ptstop = prtstops.ids_ptstop[id_prtstop]
# lanes.ids_edge[ptstops.ids_lane[ids_ptstop]],
#id_lane_from = parking.ids_lane[id_parking_from]
#laneindex_from = lanes.indexes[id_lane_from]
#pos_from = parking.positions[id_parking_from]
#id_parking_to = rides.ids_parking_to[id_stage]
#id_lane_to = parking.ids_lane[id_parking_to]
#laneindex_to = lanes.indexes[id_lane_to]
#pos_to = parking.positions[id_parking_to]
# write unique veh ID to prevent confusion with other veh declarations
fd.write(xm.start('vehicle id="%s"' % prtvehicles.get_id_sumo(id_veh), indent+2))
fd.write(xm.num('depart', '%d' % time_begin))
fd.write(xm.num('type', self.parent.vtypes.ids_sumo[prtvehicles.ids_vtype[id_veh]]))
fd.write(xm.num('line', prtvehicles.get_id_line_xml()))
fd.write(xm.stop())
# write route
fd.write(xm.start('route', indent+4))
# print ' edgeindex[ids_edge]',edgeindex[ids_edge]
fd.write(xm.arr('edges', [edges.ids_sumo[prtvehicles.ids_currentedge[id_veh]]]))
# does not seem to have an effect, always starts at base????
fd.write(xm.num('departPos', 'base'))
#fd.write(xm.num('departLane', laneindex_from ))
fd.write(xm.stopit())
# write depart stop
# fd.write(xm.start('stop',indent+4))
#fd.write(xm.num('lane', edges.ids_sumo[lanes.ids_edge[id_lane_from]]+'_%d'%laneindex_from ))
#fd.write(xm.num('duration', time_veh_wait_after_stop))
#fd.write(xm.num('startPos', pos_from ))
#fd.write(xm.num('endPos', pos_from + parking.lengths[id_parking_from]))
#fd.write(xm.num('triggered', "True"))
# fd.write(xm.stopit())
fd.write(xm.end('vehicle', indent+2))
def write_xml(self, fd=None, indent=0):
# <detectors>
# <detectorDefinition id="<DETECTOR_ID>" lane="<LANE_ID>" pos="<POS>"/>
# ... further detectors ...
# </detectors>
print 'Detectors.write_xml'
fd.write(xm.begin('detectors', indent))
ids = self.get_ids()
scenario = self.get_scenario()
get_sumoinfo_from_id_lane = scenario.net.lanes.get_sumoinfo_from_id_lane
for id_detector, ids_lane, pos in zip(
ids,
self.ids_lanes[ids],
self.positions[ids],
):
print ' write id_detector', id_detector, 'ids_lane', ids_lane
if ids_lane is not None:
ind_lane = 0
for id_lane in ids_lane:
fd.write(xm.start('detectorDefinition', indent=indent+2))
fd.write(xm.num('id', self.get_id_xml_detector(id_detector, ind_lane)))
fd.write(xm.num('lane', get_sumoinfo_from_id_lane(id_lane)))
fd.write(xm.num('pos', pos))
fd.write(xm.stopit()) # ends detector defs
ind_lane += 1
fd.write(xm.end('detectors', indent))
def export_xml(self, fd, vtype, id_flow, indent=2):
"""
Generates a line for each edge with a flow.
id_flow is the flow count and is used to generate a unique flow id
TODO: better handling of mode and vtypes, distributions
"""
# <flow id="0" from="edge0" to="edge1" type= "vType" number="100"/>
ids_eges = []
ids_sumoeges = self.get_edges().ids_sumo
i = 0
# print 'Flows.export_xml
# vtypes,id_flow,len(self)',vtype,id_flow,len(self)
for id_edge, flow in zip(self.ids_edge.get_value(), self.flows.get_value()):
# print ' id_edge,flow',id_edge,flow
ids_eges.append(id_edge)
id_flow += 1
fd.write(xm.start("flow" + xm.num("id", id_flow), indent))
fd.write(xm.num("from", ids_sumoeges[id_edge]))
fd.write(xm.num("type", vtype))
fd.write(xm.num("number", int(flow)))
fd.write(xm.stopit())
i += 1
# print ' return ids_eges, id_flow',ids_eges, id_flow
return ids_eges, id_flow
def to_xml(self, id_stage, fd, indent=0):
#lanes = self.parent.get_scenario().net.lanes
scenario = self.parent.get_scenario()
edgeindex = scenario.net.edges.ids_sumo
parking = scenario.landuse.parking
ind = self.get_ind(id_stage)
fd.write(xm.start('ride', indent=indent))
id_edge_from, pos_from = parking.get_edge_pos_parking(
self.ids_parking_from.value[ind])
id_edge_to, pos_to = parking.get_edge_pos_parking(
self.ids_parking_to.value[ind])
# edgeindex.get_index_from_id(self.ids_edge_to.value[ind])
fd.write(xm.num('from', edgeindex[id_edge_from]))
fd.write(xm.num('to', edgeindex[id_edge_to]))
fd.write(xm.num('lines', self.ids_veh.value[ind]))
# if self.cols.pos_edge_from[ind]>0:
# fd.write(xm.num('departPos', self.cols.pos_edge_from[ind]))
# if self.cols.pos_edge_to[ind]>0:
# fd.write(xm.num('arrivalPos', self.cols.pos_edge_to[ind]))
fd.write(xm.stopit()) # ends stage
def write_xml(self, fd=None, indent=0):
# <busStop id="busstop4" lane="1/0to2/0_0" startPos="20" endPos="40" lines="100 101"/>
ids_stop = self.get_ids()
get_sumoinfo_from_id_lane = self.parent.lanes.get_sumoinfo_from_id_lane
for id_stop, id_lane, pos_from, pos_to, name_human, is_friendly_pos in zip(
self.stopnames[ids_stop],
self.ids_lane[ids_stop],
self.positions_from[ids_stop],
self.positions_to[ids_stop],
self.stopnames_human[ids_stop],
self.are_friendly_pos[ids_stop],
):
fd.write(xm.start('busStop', indent=indent))
fd.write(xm.num('id', id_stop))
fd.write(xm.num('lane', get_sumoinfo_from_id_lane(id_lane)))
fd.write(xm.num('startPos', pos_from))
fd.write(xm.num('endPos', pos_to))
# fd.write(xm.arr('lines',lines,indent+2))
if len(name_human) > 0:
fd.write(xm.num('name', name_human))
if is_friendly_pos:
fd.write(xm.num('friendlyPos', '1'))
else:
fd.write(xm.num('friendlyPos', '0'))
fd.write(xm.stopit()) # ends stop
def write_xml(self, fd=None, indent=0):
# <busStop id="busstop4" lane="1/0to2/0_0" startPos="20" endPos="40" lines="100 101"/>
ids_stop = self.get_ids()
get_sumoinfo_from_id_lane = self.parent.lanes.get_sumoinfo_from_id_lane
for id_stop, id_lane, pos_from, pos_to, name_human, is_friendly_pos in zip(
self.stopnames[ids_stop],
self.ids_lane[ids_stop],
self.positions_from[ids_stop],
self.positions_to[ids_stop],
self.stopnames_human[ids_stop],
self.are_friendly_pos[ids_stop],
):
fd.write(xm.start('busStop', indent=indent))
fd.write(xm.num('id', id_stop))
fd.write(xm.num('lane', get_sumoinfo_from_id_lane(id_lane)))
fd.write(xm.num('startPos', pos_from))
fd.write(xm.num('endPos', pos_to))
# fd.write(xm.arr('lines',lines,indent+2))
if len(name_human) > 0:
fd.write(xm.num('name', name_human))
if is_friendly_pos:
fd.write(xm.num('friendlyPos', '1'))
else:
fd.write(xm.num('friendlyPos', '0'))
fd.write(xm.stopit()) # ends stop
def export_xml(self, fd, indent=0):
# <edgeRelations>
# <interval begin="0" end="3600">
# <edgeRelation from="myEdge0" to="myEdge1" probability="0.2"/>
# <edgeRelation from="myEdge0" to="myEdge2" probability="0.7"/>
# <edgeRelation from="myEdge0" to="myEdge3" probability="0.1"/>
# ... any other edges ...
# </interval>
# ... some further intervals ...
# </edgeRelations>
fromedge_to_turnprobs = {}
for _id in self.get_ids():
id_fromedge = self.ids_fromedge[_id]
if not fromedge_to_turnprobs.has_key(id_fromedge):
fromedge_to_turnprobs[id_fromedge] = []
fromedge_to_turnprobs[id_fromedge].append((self.ids_toedge[_id], self.probabilities[_id]))
ids_sumoeges = self.get_edges().ids_sumo
fd.write(xm.begin('edgeRelations', indent))
for id_fromedge in fromedge_to_turnprobs.keys():
for id_toedge, turnprob in fromedge_to_turnprobs[id_fromedge]:
fd.write(xm.start('edgeRelation', indent+2))
fd.write(xm.num('from', ids_sumoeges[id_fromedge]))
fd.write(xm.num('to', ids_sumoeges[id_toedge]))
fd.write(xm.num('probability', turnprob))
fd.write(xm.stopit())
fd.write(xm.end('edgeRelations', indent))
def export_polyxml(self, filepath=None, encoding="UTF-8"):
"""
Export landuse facilities to SUMO poly.xml file.
"""
if filepath == None:
if self.parent is not None:
filepath = self.parent.get_rootfilepath() + ".poly.xml"
else:
filepath = os.path.join(os.getcwd(), "landuse.poly.xml")
print "export_polyxml", filepath
try:
fd = open(filepath, "w")
except:
print "WARNING in export_poly_xml: could not open", filepath
return False
# xmltag, xmltag_item, attrname_id = self.xmltag
xmltag_poly = "additional"
fd.write('<?xml version="1.0" encoding="%s"?>\n' % encoding)
fd.write(xm.begin(xmltag_poly))
indent = 2
fd.write(xm.start("location", indent + 2))
# print ' groups:',self.parent.net.get_attrsman().get_groups()
for attrconfig in self.parent.net.get_attrsman().get_group("location"):
# print ' locationconfig',attrconfig.attrname
attrconfig.write_xml(fd)
fd.write(xm.stopit())
self.facilities.write_xml(fd, indent=indent + 2, is_print_begin_end=False)
fd.write(xm.end(xmltag_poly))
fd.close()
return filepath
def to_xml(self, id_stage, fd, indent=0):
# <ride from="1/3to0/3" to="0/4to1/4" lines="train0"/>
ind = self.get_ind(id_stage)
fd.write(xm.start('ride', indent=indent))
# generate string with all vehicles of this line during entire
# simulation
ptlines = self.parent.get_ptlines()
id_line = self.cols.id_line[ind]
ids_veh = ptlines.get_ids_veh(id_line)
#landuse = self.parent.get_landuse()
#
#edge_from, pos_from = landuse.get_edge_pos_parking(self.cols.id_parking_from[ind])
#edge_to, pos_to = landuse.get_edge_pos_parking(self.cols.id_parking_to[ind])
ptstops = self.parent.get_ptstops()
fd.write(
xm.num('from', ptstops.get_id_edge(self.cols.id_stop_from[ind])))
fd.write(xm.num('to', ptstops.get_id_edge(self.cols.id_stop_to[ind])))
fd.write(xm.arr('lines', ids_veh))
# if self.cols.pos_edge_from[ind]>0:
# fd.write(xm.num('departPos', self.cols.pos_edge_from[ind]))
# if self.cols.pos_edge_to[ind]>0:
# fd.write(xm.num('arrivalPos', self.cols.pos_edge_to[ind]))
fd.write(xm.stopit()) # ends stage
def to_xml(self, id_stage, fd, indent=0):
# <ride from="1/3to0/3" to="0/4to1/4" lines="train0"/>
ind = self.get_ind(id_stage)
fd.write(xm.start('ride', indent=indent))
# generate string with all vehicles of this line during entire
# simulation
ptlines = self.parent.get_ptlines()
id_line = self.cols.id_line[ind]
ids_veh = ptlines.get_ids_veh(id_line)
#landuse = self.parent.get_landuse()
#
#edge_from, pos_from = landuse.get_edge_pos_parking(self.cols.id_parking_from[ind])
#edge_to, pos_to = landuse.get_edge_pos_parking(self.cols.id_parking_to[ind])
ptstops = self.parent.get_ptstops()
fd.write(xm.num('from', ptstops.get_id_edge(
self.cols.id_stop_from[ind])))
fd.write(xm.num('to', ptstops.get_id_edge(self.cols.id_stop_to[ind])))
fd.write(xm.arr('lines', ids_veh))
# if self.cols.pos_edge_from[ind]>0:
# fd.write(xm.num('departPos', self.cols.pos_edge_from[ind]))
# if self.cols.pos_edge_to[ind]>0:
# fd.write(xm.num('arrivalPos', self.cols.pos_edge_to[ind]))
fd.write(xm.stopit()) # ends stage
def to_xml(self, id_stage, fd, indent=0):
#lanes = self.parent.get_scenario().net.lanes
scenario = self.parent.get_scenario()
edgeindex = scenario.net.edges.ids_sumo
parking = scenario.landuse.parking
ind = self.get_ind(id_stage)
fd.write(xm.start('ride', indent=indent))
id_edge_from, pos_from = parking.get_edge_pos_parking(
self.ids_parking_from.value[ind])
id_edge_to, pos_to = parking.get_edge_pos_parking(
self.ids_parking_to.value[ind])
# edgeindex.get_index_from_id(self.ids_edge_to.value[ind])
fd.write(xm.num('from', edgeindex[id_edge_from]))
fd.write(xm.num('to', edgeindex[id_edge_to]))
fd.write(xm.num('lines', self.ids_veh.value[ind]))
# if self.cols.pos_edge_from[ind]>0:
# fd.write(xm.num('departPos', self.cols.pos_edge_from[ind]))
# if self.cols.pos_edge_to[ind]>0:
# fd.write(xm.num('arrivalPos', self.cols.pos_edge_to[ind]))
fd.write(xm.stopit()) # ends stage
def write_xml(self, fd=None, indent=0):
ft = self.generate_odflows()
scenario = self.parent.parent
ids_zone_sumo = scenario.landuse.zones.ids_sumo
get_vtype_for_mode = scenario.demand.vtypes.get_vtype_for_mode
ids = ft.get_ids()
fd.write(xm.begin('trips', indent))
self.parent.vtypes.write_xml(
fd,
indent=indent,
#ids = ids_vtype_selected,
is_print_begin_end=False)
for id_flow, time_start, time_end, id_mode, id_orig_sumo, id_dest_sumo, tripnumber in zip(
ids, ft.times_start[ids], ft.times_end[ids], ft.ids_mode[ids],
ids_zone_sumo[ft.ids_orig[ids]],
ids_zone_sumo[ft.ids_dest[ids]], ft.tripnumbers[ids]):
# <flow id="f" begin="0" end="100" number="23" fromTaz="taz1" toTaz="taz2"/>
fd.write(xm.start('flow', indent + 2))
fd.write(xm.num('id', id_flow))
fd.write(xm.num('begin', time_start))
fd.write(xm.num('end', time_end))
fd.write(xm.num('number', tripnumber))
fd.write(xm.num('fromTaz', id_orig_sumo))
fd.write(xm.num('toTaz', id_dest_sumo))
fd.write(
xm.num('type',
get_vtype_for_mode(id_mode=id_mode, is_sumoid=True)))
fd.write(xm.stopit())
fd.write(xm.end('trips', indent))
def export_xml(self, fd, indent=0):
#<fromEdge id="myEdge0">
# <toEdge id="myEdge1" probability="0.2"/>
# <toEdge id="myEdge2" probability="0.7"/>
# <toEdge id="myEdge3" probability="0.1"/>
#</fromEdge>
fromedge_to_turnprobs = {}
for _id in self.get_ids():
id_fromedge = self.ids_fromedge[_id]
if not fromedge_to_turnprobs.has_key(id_fromedge):
fromedge_to_turnprobs[id_fromedge] = []
fromedge_to_turnprobs[id_fromedge].append(
(self.ids_toedge[_id], self.probabilities[_id]))
ids_sumoeges = self.get_edges().ids_sumo
for id_fromedge in fromedge_to_turnprobs.keys():
fd.write(
xm.begin('fromEdge' + xm.num('id', ids_sumoeges[id_fromedge]),
indent))
for id_toedge, turnprob in fromedge_to_turnprobs[id_fromedge]:
fd.write(xm.start('toEdge', indent + 2))
fd.write(
xm.num('id', ids_sumoeges[id_toedge]) +
xm.num('probability', turnprob))
fd.write(xm.stopit())
fd.write(xm.end('fromEdge', indent))
def export_xml(self, fd, vtype, id_flow, indent=2):
"""
Generates a line for each edge with a flow.
id_flow is the flow count and is used to generate a unique flow id
TODO: better handling of mode and vtypes, distributions
"""
# <flow id="0" from="edge0" to="edge1" type= "vType" number="100"/>
ids_eges = []
ids_sumoeges = self.get_edges().ids_sumo
i = 0
# print 'Flows.export_xml
# vtypes,id_flow,len(self)',vtype,id_flow,len(self)
for id_edge, flow in zip(self.ids_edge.get_value(),
self.flows.get_value()):
# print ' id_edge,flow',id_edge,flow
ids_eges.append(id_edge)
id_flow += 1
fd.write(xm.start('flow' + xm.num('id', id_flow), indent))
fd.write(xm.num('from', ids_sumoeges[id_edge]))
fd.write(xm.num('type', vtype))
fd.write(xm.num('number', int(flow)))
fd.write(xm.stopit())
i += 1
# print ' return ids_eges, id_flow',ids_eges, id_flow
return ids_eges, id_flow
def _write_xml_body(self, fd, indent, objconfigs, idcolconfig_include_tab,
colconfigs, objcolconfigs, xmltag_item, attrconfig_id,
xmltag_id, ids, ids_xml):
print '_write_xml_body ident,ids', self.ident, ids
print ' xmltag_item,xmltag_id,attrconfig_id', xmltag_item, xmltag_id, attrconfig_id
# ids_xml not used here!!
if ids == None:
ids = self.get_ids()
for attrconfig in objconfigs:
attrconfig.get_value().write_xml(fd, indent + 2)
# check if columns contain objects
#objcolconfigs = []
scalarcolconfigs = colconfigs
# for attrconfig in colconfigs:
# if attrconfig.metatype == 'obj':
# objcolconfigs.append(attrconfig)
# else:
# scalarcolconfigs.append(attrconfig)
for _id in ids:
fd.write(xm.start(xmltag_item, indent + 2))
# print ' make tag and id',_id
if xmltag_id == '':
# no id tag will be written
pass
elif (attrconfig_id is None) & (xmltag_id is not None):
# use specified id tag and and specified id values
fd.write(xm.num(xmltag_id, id_xml))
elif (attrconfig_id is not None):
# use id tag and values of attrconfig_id
attrconfig_id.write_xml(fd, _id)
# print ' write
# columns',len(scalarcolconfigs)>0,len(idcolconfig_include_tab)>0,len(objcolconfigs)>0
for attrconfig in scalarcolconfigs:
# print ' scalarcolconfig',attrconfig.attrname
attrconfig.write_xml(fd, _id)
# insert lanechange model here:
fd.write(
xm.num('laneChangeModel', self.lanechangemodel.get_value()))
if (len(idcolconfig_include_tab) > 0) | (len(objcolconfigs) > 0):
fd.write(xm.stop())
for attrconfig in idcolconfig_include_tab:
# print ' include_tab',attrconfig.attrname
attrconfig.write_xml(fd, _id, indent + 4)
for attrconfig in objcolconfigs:
# print ' objcolconfig',attrconfig.attrname
attrconfig[_id].write_xml(fd, indent + 4)
fd.write(xm.end(xmltag_item, indent + 4))
else:
fd.write(xm.stopit())
def _write_xml_body(self, fd, indent, objconfigs, idcolconfig_include_tab, colconfigs,
objcolconfigs,
xmltag_item, attrconfig_id, xmltag_id, ids, ids_xml):
print '_write_xml_body ident,ids', self.ident, ids
print ' xmltag_item,xmltag_id,attrconfig_id', xmltag_item, xmltag_id, attrconfig_id
# ids_xml not used here!!
if ids == None:
ids = self.get_ids()
for attrconfig in objconfigs:
attrconfig.get_value().write_xml(fd, indent + 2)
# check if columns contain objects
#objcolconfigs = []
scalarcolconfigs = colconfigs
# for attrconfig in colconfigs:
# if attrconfig.metatype == 'obj':
# objcolconfigs.append(attrconfig)
# else:
# scalarcolconfigs.append(attrconfig)
for _id in ids:
fd.write(xm.start(xmltag_item, indent + 2))
# print ' make tag and id',_id
if xmltag_id == '':
# no id tag will be written
pass
elif (attrconfig_id is None) & (xmltag_id is not None):
# use specified id tag and and specified id values
fd.write(xm.num(xmltag_id, id_xml))
elif (attrconfig_id is not None):
# use id tag and values of attrconfig_id
attrconfig_id.write_xml(fd, _id)
# print ' write
# columns',len(scalarcolconfigs)>0,len(idcolconfig_include_tab)>0,len(objcolconfigs)>0
for attrconfig in scalarcolconfigs:
# print ' scalarcolconfig',attrconfig.attrname
attrconfig.write_xml(fd, _id)
# insert lanechange model here:
fd.write(xm.num('laneChangeModel', self.lanechangemodel.get_value()))
if (len(idcolconfig_include_tab) > 0) | (len(objcolconfigs) > 0):
fd.write(xm.stop())
for attrconfig in idcolconfig_include_tab:
# print ' include_tab',attrconfig.attrname
attrconfig.write_xml(fd, _id, indent + 4)
for attrconfig in objcolconfigs:
# print ' objcolconfig',attrconfig.attrname
attrconfig[_id].write_xml(fd, indent + 4)
fd.write(xm.end(xmltag_item, indent + 4))
else:
fd.write(xm.stopit())
def to_xml(self, id_stage, fd, indent=0):
# <stop lane="1/4to2/4_0" duration="20" startPos="40" actType="singing"/>
ind = self.get_ind(id_stage)
fd.write(xm.start('stop', indent=indent))
fd.write(xm.num('lane', self.cols.id_lane[ind]))
fd.write(xm.num('startPos', self.cols.pos_lane[ind]))
fd.write(xm.num('duration', self.cols.duration[ind]))
fd.write(xm.num('actType', self.cols.activity[ind]))
fd.write(xm.stopit()) # ends activity
def to_xml(self, id_stage, fd, indent=0):
# <stop lane="1/4to2/4_0" duration="20" startPos="40" actType="singing"/>
ind = self.get_ind(id_stage)
fd.write(xm.start('stop', indent=indent))
fd.write(xm.num('lane', self.cols.id_lane[ind]))
fd.write(xm.num('startPos', self.cols.pos_lane[ind]))
fd.write(xm.num('duration', self.cols.duration[ind]))
fd.write(xm.num('actType', self.cols.activity[ind]))
fd.write(xm.stopit()) # ends activity
def to_xml(self, id_stage, fd, indent=0):
#scenario = self.parent.get_scenario()
#edges = scenario.net.edges
edgeindex = self.ids_edge_from.get_linktab().ids_sumo
ind = self.get_ind(id_stage)
fd.write(xm.start('walk', indent=indent))
fd.write(xm.num('from', edgeindex[self.ids_edge_from.value[ind]]))
fd.write(xm.num('to', edgeindex[self.ids_edge_to.value[ind]]))
if self.positions_from.value[ind] > 0:
fd.write(xm.num('departPos', self.positions_from.value[ind]))
if self.positions_to[ind] > 0:
fd.write(xm.num('arrivalPos', self.positions_to.value[ind]))
fd.write(xm.stopit()) # ends walk
def to_xml(self, id_stage, fd, indent=0):
#scenario = self.parent.get_scenario()
#edges = scenario.net.edges
edgeindex = self.ids_edge_from.get_linktab().ids_sumo
ind = self.get_ind(id_stage)
fd.write(xm.start('walk', indent=indent))
fd.write(xm.num('from', edgeindex[self.ids_edge_from.value[ind]]))
fd.write(xm.num('to', edgeindex[self.ids_edge_to.value[ind]]))
if self.positions_from.value[ind] > 0:
fd.write(xm.num('departPos', self.positions_from.value[ind]))
if self.positions_to[ind] > 0:
fd.write(xm.num('arrivalPos', self.positions_to.value[ind]))
fd.write(xm.stopit()) # ends walk
def export_xml(self, fd, indent=0):
# <fromEdge id="myEdge0">
# <toEdge id="myEdge1" probability="0.2"/>
# <toEdge id="myEdge2" probability="0.7"/>
# <toEdge id="myEdge3" probability="0.1"/>
# </fromEdge>
fromedge_to_turnprobs = {}
for _id in self.get_ids():
id_fromedge = self.ids_fromedge[_id]
if not fromedge_to_turnprobs.has_key(id_fromedge):
fromedge_to_turnprobs[id_fromedge] = []
fromedge_to_turnprobs[id_fromedge].append((self.ids_toedge[_id], self.probabilities[_id]))
ids_sumoeges = self.get_edges().ids_sumo
for id_fromedge in fromedge_to_turnprobs.keys():
fd.write(xm.begin("fromEdge" + xm.num("id", ids_sumoeges[id_fromedge]), indent))
for id_toedge, turnprob in fromedge_to_turnprobs[id_fromedge]:
fd.write(xm.start("toEdge", indent + 2))
fd.write(xm.num("id", ids_sumoeges[id_toedge]) + xm.num("probability", turnprob))
fd.write(xm.stopit())
fd.write(xm.end("fromEdge", indent))
def write_xml(self, fd, indent=0, is_print_begin_end=True):
xmltag, xmltag_item, attrname_id = self.xmltag
layer_default = -1
fill_default = 1
ids_landusetype = self.ids_landusetype
landusecolors = self.get_landusetypes().colors
if is_print_begin_end:
fd.write(xm.begin(xmltag, indent))
attrsconfigs_write = [self.ids_sumo, self.osmkeys, self.shapes]
for _id in self.get_ids():
fd.write(xm.start(xmltag_item, indent + 2))
for attrsconfig in attrsconfigs_write:
attrsconfig.write_xml(fd, _id)
landusecolors.write_xml(fd, ids_landusetype[_id])
fd.write(xm.num("layer", layer_default))
fd.write(xm.num("fill", fill_default))
fd.write(xm.stopit())
if is_print_begin_end:
fd.write(xm.end(xmltag, indent))
def export_routes_xml(self, filepath=None, method_routechoice=None, encoding='UTF-8'):
"""
Export routes to SUMO xml file.
Method takes care of sorting trips by departure time.
"""
if method_routechoice == None:
method_routechoice = self.get_route_first
if filepath == None:
filepath = self.get_routefilepath()
print 'export_routes_xml', filepath
try:
fd = open(filepath, 'w')
except:
print 'WARNING in write_obj_to_xml: could not open', filepath
return False
xmltag_routes, xmltag_veh, attrname_id = (
"routes", "vehicle", "ids_sumo")
xmltag_trip = "trip"
xmltag_rou = "route"
fd.write('<?xml version="1.0" encoding="%s"?>\n' % encoding)
fd.write(xm.begin(xmltag_routes))
indent = 2
#ids_modes_used = set(self.parent.vtypes.ids_mode[self.ids_vtype.get_value()])
self.parent.vtypes.write_xml(fd, indent=indent,
ids=set(self.ids_vtype.get_value()),
is_print_begin_end=False
)
ids_mode = self.parent.vtypes.ids_mode
id_pedestrian = MODES['pedestrian']
routes = self.routes.get_value()
# here we could write the route info
# but we do write it inside each trip so that it can be parsed
# in the same way as duarouter output
# routes.write_xml( fd, indent=indent,
# attrconfigs_excluded = [routes.costs, routes.probabilities],
# is_print_begin_end = False)
# let's write trip info manually
tripconfigs = [self.ids_vtype,
self.times_depart,
self.ids_edge_depart,
self.ids_edge_arrival,
self.inds_lane_depart,
self.positions_depart,
self.speeds_depart,
self.inds_lane_arrival,
self.positions_arrival,
self.speeds_arrival,
]
routeconfigs = [routes.ids_edges,
routes.colors,
]
attrconfig_id = getattr(self.get_attrsman(), attrname_id)
xmltag_id = attrconfig_id.xmltag
for id_trip in self.times_depart.get_ids_sorted():
if ids_mode[self.ids_vtype[id_trip]] == id_pedestrian:
self.write_persontrip_xml(fd, id_trip,
method_routechoice=method_routechoice,
indent=indent + 2)
else:
id_route = method_routechoice(id_trip)
if id_route >= 0: # a valid route has been found
# init vehicle route only if valid route exists
fd.write(xm.start(xmltag_veh, indent + 2))
else:
# init trip instead of route
fd.write(xm.start(xmltag_trip, indent + 2))
# print ' make tag and id',_id
fd.write(xm.num(xmltag_id, attrconfig_id[id_trip]))
# print ' write
# columns',len(scalarcolconfigs)>0,len(idcolconfig_include_tab)>0,len(objcolconfigs)>0
for attrconfig in tripconfigs:
# print ' attrconfig',attrconfig.attrname
attrconfig.write_xml(fd, id_trip)
if id_route >= 0: # a valid route has been found
# write route id
#fd.write(xm.num('route', id_route ))
# instead of route id we write entire route here
fd.write(xm.stop())
fd.write(xm.start(xmltag_rou, indent + 4))
for attrconfig in routeconfigs:
# print ' attrconfig',attrconfig.attrname
attrconfig.write_xml(fd, id_route)
# end route and vehicle
fd.write(xm.stopit())
fd.write(xm.end(xmltag_veh, indent + 2))
else:
# end trip without route
fd.write(xm.stopit())
fd.write(xm.end(xmltag_routes))
fd.close()
return filepath
def export_amitranxml(self, filepath=None, encoding='UTF-8'):
"""
Export flows to Amitran format that defines the demand per OD pair in time slices for every vehicle type.
"""
print 'export_amitranxml', filepath, len(self)
if len(self) == 0:
return None
if filepath is None:
filepath = self.get_amitranfilepath()
try:
fd = open(filepath, 'w')
except:
print 'WARNING in export_sumoxml: could not open', filepath
return False
indent = 0
ft = self.generate_odflows()
scenario = self.parent.parent
ids_zone_sumo = scenario.landuse.zones.ids_sumo
get_vtype_for_mode = scenario.demand.vtypes.get_vtype_for_mode
ids = ft.get_ids()
fd.write(xm.begin('demand', indent))
# self.parent.vtypes.write_xml( fd, indent=indent,
# #ids = ids_vtype_selected,
# is_print_begin_end = False)
# <demand>
# <actorConfig id="0">
# <timeSlice duration="86400000" startTime="0">
# <odPair amount="100" destination="2" origin="1"/>
# </timeSlice>
# </actorConfig>
# </demand>
for id_flow, time_start, time_end, id_mode, id_orig_sumo, id_dest_sumo, tripnumber in zip(
ids, ft.times_start[ids], ft.times_end[ids], ft.ids_mode[ids],
ids_zone_sumo[ft.ids_orig[ids]],
ids_zone_sumo[ft.ids_dest[ids]], ft.tripnumbers[ids]):
fd.write(xm.start('actorConfig', indent + 2))
fd.write(
xm.num('id', get_vtype_for_mode(id_mode=id_mode,
is_sumoid=True)))
fd.write(xm.stop())
fd.write(xm.start('timeSlice', indent + 4))
fd.write(xm.num('duration', int(time_end - time_start)))
fd.write(xm.num('startTime', int(time_start)))
fd.write(xm.stop())
fd.write(xm.start('odPair', indent + 6))
fd.write(xm.num('origin', id_orig_sumo))
fd.write(xm.num('destination', id_dest_sumo))
fd.write(xm.num('amount', int(tripnumber)))
fd.write(xm.stopit())
fd.write(xm.end('timeSlice', indent + 4))
fd.write(xm.end('actorConfig', indent + 2))
fd.write(xm.end('demand', indent))
fd.close()
return filepath
def export_routes_xml(self, filepath=None, method_routechoice=None, encoding='UTF-8'):
"""
Export routes to SUMO xml file.
Method takes care of sorting trips by departure time.
"""
if method_routechoice is None:
method_routechoice = self.get_route_first
if filepath is None:
filepath = self.get_routefilepath()
print 'export_routes_xml', filepath
try:
fd = open(filepath, 'w')
except:
print 'WARNING in write_obj_to_xml: could not open', filepath
return False
xmltag_routes, xmltag_veh, attrname_id = ("routes", "vehicle", "ids_sumo")
xmltag_trip = "trip"
xmltag_rou = "route"
fd.write('<?xml version="1.0" encoding="%s"?>\n' % encoding)
fd.write(xm.begin(xmltag_routes))
indent = 2
#ids_modes_used = set(self.parent.vtypes.ids_mode[self.ids_vtype.get_value()])
self.parent.vtypes.write_xml(fd, indent=indent,
ids=set(self.ids_vtype.get_value()),
is_print_begin_end=False
)
ids_mode = self.parent.vtypes.ids_mode
id_pedestrian = MODES['pedestrian']
routes = self.routes.get_value()
# here we could write the route info
# but we do write it inside each trip so that it can be parsed
# in the same way as duarouter output
# routes.write_xml( fd, indent=indent,
# attrconfigs_excluded = [routes.costs, routes.probabilities],
# is_print_begin_end = False)
# let's write trip info manually
tripconfigs = [self.ids_vtype,
self.times_depart,
self.ids_edge_depart,
self.ids_edge_arrival,
self.inds_lane_depart,
self.positions_depart,
self.speeds_depart,
self.inds_lane_arrival,
self.positions_arrival,
self.speeds_arrival,
]
routeconfigs = [routes.ids_edges,
routes.colors,
]
attrconfig_id = getattr(self.get_attrsman(), attrname_id)
xmltag_id = attrconfig_id.xmltag
for id_trip in self.times_depart.get_ids_sorted():
if ids_mode[self.ids_vtype[id_trip]] == id_pedestrian:
self.write_persontrip_xml(fd, id_trip,
method_routechoice=method_routechoice,
indent=indent+2)
else:
id_route = method_routechoice(id_trip)
if id_route >= 0: # a valid route has been found
# init vehicle route only if valid route exists
fd.write(xm.start(xmltag_veh, indent+2))
else:
# init trip instead of route
fd.write(xm.start(xmltag_trip, indent+2))
# print ' make tag and id',_id
fd.write(xm.num(xmltag_id, attrconfig_id[id_trip]))
# print ' write columns',len(scalarcolconfigs)>0,len(idcolconfig_include_tab)>0,len(objcolconfigs)>0
for attrconfig in tripconfigs:
# print ' attrconfig',attrconfig.attrname
attrconfig.write_xml(fd, id_trip)
if id_route >= 0: # a valid route has been found
# write route id
#fd.write(xm.num('route', id_route ))
# instead of route id we write entire route here
fd.write(xm.stop())
fd.write(xm.start(xmltag_rou, indent+4))
for attrconfig in routeconfigs:
# print ' attrconfig',attrconfig.attrname
attrconfig.write_xml(fd, id_route)
# end route and vehicle
fd.write(xm.stopit())
fd.write(xm.end(xmltag_veh, indent+2))
else:
# end trip without route
fd.write(xm.stopit())
fd.write(xm.end(xmltag_routes))
fd.close()
return filepath
def _export_plans(self, fd, indent=0):
if len(self) == 0:
return
scenario = self.parent.get_scenario()
edges = scenario.net.edges
lanes = scenario.net.lanes
landuse = self.get_landuse()
# ptlines=self.get_ptlines()
persons = self # instance holding all arrays for persons
# instance holding all arrays for individual vehicles
ivehs = self.individualvehicles.value
parking = landuse.parking # instance holding all arrays for parking
plans = self.plans.value
# sort users by initial time
# print ' persons.times_start.value',persons.times_start.value
# print ' persons.get_inds()',persons.get_inds()
times_sorted = np.concatenate(
(persons.times_start.value.reshape(-1, 1), persons.get_inds().reshape(-1, 1)), 1).tolist()
times_sorted.sort()
# print ' times_sorted',times_sorted
inds_pers = np.array(times_sorted, int)[:, 1]
# print ' inds_pers',inds_pers
# used to start first vehcile appearance
time_first, ind_first = times_sorted[0]
vehindex = self.parent.vtypes.ids_sumo # vehindex.get_index_from_ids()
edgeindex = edges.ids_sumo
# pt
# self.parent.get_ptlines().to_routes(fd,2)
#----------------------
# write vehicles first
inds_veh = ivehs.get_inds()
for id_veh, id_vtype, ids_edge, ids_parking in zip(ivehs.get_ids(inds_veh), ivehs.ids_vtype.value[inds_veh], ivehs.routes.value[inds_veh], ivehs.ids_parkings.value[inds_veh]):
if (ids_edge != None) & (ids_parking != None):
if len(ids_edge) > 0:
# print " vehicle id=", id_veh,ids_edge, ids_parking
inds_parking = parking.get_inds(ids_parking)
# first depart position equals position of first parking
pos_depart = parking.positions.value[
inds_parking][0] # get pos of first parking
fd.write(xm.start('vehicle id="%s"' % id_veh, indent + 2))
fd.write(xm.num('depart', '%.1f' % time_first))
fd.write(xm.num('type', vehindex[id_vtype]))
fd.write(xm.stop())
# write route
fd.write(xm.start('route', indent + 4))
fd.write(xm.arr('edges', edgeindex[ids_edge], indent + 6))
fd.write(xm.num('departPos', pos_depart))
# depart lane is 1 , 0 would be on the side-walk)
fd.write(xm.num('departLane', lanes.indexes[
parking.ids_lane[ids_parking[0]]]))
fd.write(xm.stopit())
# write stops
ids_lane_parking = parking.ids_lane.value[inds_parking]
ids_edge_parking = lanes.ids_edge[ids_lane_parking]
laneindexes_parking = lanes.indexes[ids_lane_parking]
poss_end_parking = parking.positions[inds_parking]
poss_start_parking = poss_end_parking - \
parking.lengths[inds_parking]
for id_edge_parking, laneindex_parking, pos_start_parking, pos_end_parking in zip(ids_edge_parking, laneindexes_parking, poss_start_parking, poss_end_parking):
fd.write(xm.start('stop', indent + 4))
fd.write(xm.num('lane', edges.ids_sumo[
id_edge_parking] + '_%d' % laneindex_parking))
fd.write(xm.num('duration', 3000))
fd.write(xm.num('startPos', pos_start_parking))
fd.write(xm.num('endPos', pos_end_parking))
fd.write(xm.num('triggered', "True"))
fd.write(xm.stopit())
fd.write(xm.end('vehicle', indent + 2))
#----------------------
# write plans
# print ' inds_pers',inds_pers
# print ' times_start[inds_pers]',persons.times_start.value[inds_pers]
for time_start, id_pers, stages in zip(persons.times_start.value[inds_pers], persons.get_ids(inds_pers), plans.stagelists[persons.ids_plan.value[inds_pers]]):
print ' time_start,id_pers', time_start, id_pers, stages != None
if stages != None:
# TODO: self.persons.to_xml()??..pass all attrs?
fd.write(xm.start('person', indent=indent + 2))
fd.write(xm.num('id', id_pers))
fd.write(xm.num('depart', time_start))
fd.write(xm.num('type', 'pedestrian'))
fd.write(xm.stop())
for stage, id_stage in stages:
stage.to_xml(id_stage, fd, indent + 4)
fd.write(xm.end('person', indent=indent + 2))
def export_flows_and_turns(self,
flowfilepath,
turnsfilepath,
id_mode,
indent=0):
"""
Create the flow file and turn ratios file for a specific mode.
In the SUMOpy tunflow data structure, each mode has its own
flow and turnratio data.
"""
print '\n\n' + 79 * '_'
print 'export_flows_and_turns id_mode=', id_mode, 'ids_vtype=', self.parent.vtypes.select_by_mode(
id_mode)
print ' write flows', flowfilepath
fd = open(flowfilepath, 'w')
fd.write(xm.begin('flows', indent))
# write all possible vtypes for this mode
self.parent.vtypes.write_xml(
fd,
indent=indent,
ids=self.parent.vtypes.select_by_mode(id_mode),
is_print_begin_end=False)
id_flow = 0
ids_allsourceedges = []
time_start_min = +np.inf
time_end_max = -np.inf
for id_inter in self.get_ids():
time_start = self.times_start[id_inter]
time_end = self.times_end[id_inter]
fd.write(
xm.begin(
'interval' + xm.num('begin', time_start) +
xm.num('end', time_end), indent + 2))
ids_sourceedge, id_flow = self.turnflowmodes[
id_inter].export_flows_xml(fd, id_mode, id_flow, indent + 4)
# print ' got ids_sourceedge, id_flow',ids_sourceedge, id_flow
ids_allsourceedges += ids_sourceedge
if len(ids_sourceedge) > 0:
# print ' extend total time interval only for intervals with
# flow'
if time_start < time_start_min:
time_start_min = time_start
if time_end > time_end_max:
time_end_max = time_end
fd.write(xm.end('interval', indent + 2))
fd.write(xm.end('flows', indent))
fd.close()
# print ' write turndefs', turnsfilepath
fd = open(turnsfilepath, 'w')
fd.write(xm.begin('turns', indent))
for id_inter in self.get_ids():
time_start = self.times_start[id_inter]
time_end = self.times_end[id_inter]
fd.write(
xm.begin(
'interval' + xm.num('begin', time_start) +
xm.num('end', time_end), indent + 2))
self.turnflowmodes[id_inter].export_turns_xml(
fd, id_mode, indent + 4)
fd.write(xm.end('interval', indent + 2))
# take sink edges from sink zones
ids_sinkedge = self.get_sinkedges() # it's a set
# ...and remove source edges, otherwise vehicle will be inserted and
# immediately removed
# print ' ids_sinkedge',ids_sinkedge
# print ' ids_allsourceedges',ids_allsourceedges
ids_sinkedge = ids_sinkedge.difference(ids_allsourceedges)
ids_sumoedge = self.get_edges().ids_sumo
# print ' determined sink edges',list(ids_sinkedge)
if len(ids_sinkedge) > 0:
fd.write(xm.start('sink'))
fd.write(xm.arr('edges', ids_sumoedge[list(ids_sinkedge)]))
fd.write(xm.stopit())
fd.write(xm.end('turns', indent))
fd.close()
if len(ids_allsourceedges) == 0:
time_start_min = 0
time_end_max = 0
return time_start_min, time_end_max
def export_flows_and_turns(self, flowfilepath, turnsfilepath, id_mode, indent=0):
"""
Create the flow file and turn ratios file for a specific mode.
In the SUMOpy tunflow data structure, each mode has its own
flow and turnratio data.
"""
print "\n\n" + 79 * "_"
print "export_flows_and_turns id_mode=", id_mode, "ids_vtype=", self.parent.vtypes.select_by_mode(id_mode)
print " write flows", flowfilepath
fd = open(flowfilepath, "w")
fd.write(xm.begin("flows", indent))
# write all possible vtypes for this mode
self.parent.vtypes.write_xml(
fd, indent=indent, ids=self.parent.vtypes.select_by_mode(id_mode), is_print_begin_end=False
)
id_flow = 0
ids_allsourceedges = []
time_start_min = +np.inf
time_end_max = -np.inf
for id_inter in self.get_ids():
time_start = self.times_start[id_inter]
time_end = self.times_end[id_inter]
fd.write(xm.begin("interval" + xm.num("begin", time_start) + xm.num("end", time_end), indent + 2))
ids_sourceedge, id_flow = self.turnflowmodes[id_inter].export_flows_xml(fd, id_mode, id_flow, indent + 4)
# print ' got ids_sourceedge, id_flow',ids_sourceedge, id_flow
ids_allsourceedges += ids_sourceedge
if len(ids_sourceedge) > 0:
# print ' extend total time interval only for intervals with
# flow'
if time_start < time_start_min:
time_start_min = time_start
if time_end > time_end_max:
time_end_max = time_end
fd.write(xm.end("interval", indent + 2))
fd.write(xm.end("flows", indent))
fd.close()
# print ' write turndefs', turnsfilepath
fd = open(turnsfilepath, "w")
fd.write(xm.begin("turns", indent))
for id_inter in self.get_ids():
time_start = self.times_start[id_inter]
time_end = self.times_end[id_inter]
fd.write(xm.begin("interval" + xm.num("begin", time_start) + xm.num("end", time_end), indent + 2))
self.turnflowmodes[id_inter].export_turns_xml(fd, id_mode, indent + 4)
fd.write(xm.end("interval", indent + 2))
# take sink edges from sink zones
ids_sinkedge = self.get_sinkedges() # it's a set
# ...and remove source edges, otherwise vehicle will be inserted and
# immediately removed
# print ' ids_sinkedge',ids_sinkedge
# print ' ids_allsourceedges',ids_allsourceedges
ids_sinkedge = ids_sinkedge.difference(ids_allsourceedges)
ids_sumoedge = self.get_edges().ids_sumo
# print ' determined sink edges',list(ids_sinkedge)
if len(ids_sinkedge) > 0:
fd.write(xm.start("sink"))
fd.write(xm.arr("edges", ids_sumoedge[list(ids_sinkedge)]))
fd.write(xm.stopit())
fd.write(xm.end("turns", indent))
fd.close()
if len(ids_allsourceedges) == 0:
time_start_min = 0
time_end_max = 0
return time_start_min, time_end_max
def _export_plans(self, fd, indent=0):
if len(self) == 0:
return
scenario = self.parent.get_scenario()
edges = scenario.net.edges
lanes = scenario.net.lanes
landuse = self.get_landuse()
# ptlines=self.get_ptlines()
persons = self # instance holding all arrays for persons
# instance holding all arrays for individual vehicles
ivehs = self.individualvehicles.value
parking = landuse.parking # instance holding all arrays for parking
plans = self.plans.value
# sort users by initial time
# print ' persons.times_start.value',persons.times_start.value
# print ' persons.get_inds()',persons.get_inds()
times_sorted = np.concatenate((persons.times_start.value.reshape(
-1, 1), persons.get_inds().reshape(-1, 1)), 1).tolist()
times_sorted.sort()
# print ' times_sorted',times_sorted
inds_pers = np.array(times_sorted, int)[:, 1]
# print ' inds_pers',inds_pers
# used to start first vehcile appearance
time_first, ind_first = times_sorted[0]
vehindex = self.parent.vtypes.ids_sumo # vehindex.get_index_from_ids()
edgeindex = edges.ids_sumo
# pt
# self.parent.get_ptlines().to_routes(fd,2)
#----------------------
# write vehicles first
inds_veh = ivehs.get_inds()
for id_veh, id_vtype, ids_edge, ids_parking in zip(
ivehs.get_ids(inds_veh), ivehs.ids_vtype.value[inds_veh],
ivehs.routes.value[inds_veh],
ivehs.ids_parkings.value[inds_veh]):
if (ids_edge != None) & (ids_parking != None):
if len(ids_edge) > 0:
# print " vehicle id=", id_veh,ids_edge, ids_parking
inds_parking = parking.get_inds(ids_parking)
# first depart position equals position of first parking
pos_depart = parking.positions.value[inds_parking][
0] # get pos of first parking
fd.write(xm.start('vehicle id="%s"' % id_veh, indent + 2))
fd.write(xm.num('depart', '%.1f' % time_first))
fd.write(xm.num('type', vehindex[id_vtype]))
fd.write(xm.stop())
# write route
fd.write(xm.start('route', indent + 4))
fd.write(xm.arr('edges', edgeindex[ids_edge], indent + 6))
fd.write(xm.num('departPos', pos_depart))
# depart lane is 1 , 0 would be on the side-walk)
fd.write(
xm.num(
'departLane',
lanes.indexes[parking.ids_lane[ids_parking[0]]]))
fd.write(xm.stopit())
# write stops
ids_lane_parking = parking.ids_lane.value[inds_parking]
ids_edge_parking = lanes.ids_edge[ids_lane_parking]
laneindexes_parking = lanes.indexes[ids_lane_parking]
poss_end_parking = parking.positions[inds_parking]
poss_start_parking = poss_end_parking - \
parking.lengths[inds_parking]
for id_edge_parking, laneindex_parking, pos_start_parking, pos_end_parking in zip(
ids_edge_parking, laneindexes_parking,
poss_start_parking, poss_end_parking):
fd.write(xm.start('stop', indent + 4))
fd.write(
xm.num(
'lane', edges.ids_sumo[id_edge_parking] +
'_%d' % laneindex_parking))
fd.write(xm.num('duration', 3000))
fd.write(xm.num('startPos', pos_start_parking))
fd.write(xm.num('endPos', pos_end_parking))
fd.write(xm.num('triggered', "True"))
fd.write(xm.stopit())
fd.write(xm.end('vehicle', indent + 2))
#----------------------
# write plans
# print ' inds_pers',inds_pers
# print ' times_start[inds_pers]',persons.times_start.value[inds_pers]
for time_start, id_pers, stages in zip(
persons.times_start.value[inds_pers],
persons.get_ids(inds_pers),
plans.stagelists[persons.ids_plan.value[inds_pers]]):
print ' time_start,id_pers', time_start, id_pers, stages != None
if stages != None:
# TODO: self.persons.to_xml()??..pass all attrs?
fd.write(xm.start('person', indent=indent + 2))
fd.write(xm.num('id', id_pers))
fd.write(xm.num('depart', time_start))
fd.write(xm.num('type', 'pedestrian'))
fd.write(xm.stop())
for stage, id_stage in stages:
stage.to_xml(id_stage, fd, indent + 4)
fd.write(xm.end('person', indent=indent + 2))
def write_xml(self, fd, indent=0):
"""
Write simpla xml config file
"""
print 'Simplaconfig.write_xml'
fd.write(xm.begin(self.xmltag, indent))
attrsman = self.get_attrsman()
vtypes = self.parent.get_scenario().demand.vtypes
ids_sumo_vtypes = vtypes.ids_sumo
# <controlRate value="0.5" />
# <maxPlatoonGap value="15.0" />
# <catchupDist value="100.0" />
# <switchImpatienceFactor value="0.1" />
# <platoonSplitTime value="3.0" />
# <lcMode original="597" leader="597" follower="514" catchup="514" catchupFollower="514" />
# <speedFactor original="1.0" leader="1.0" follower="2.0" catchup="2.5" catchupFollower="3.0" />
# <verbosity value="1" />
# <vTypeMap original="passenger1" leader="leaderVTypeID" follower="followerVTypeID" catchup="catchupVTypeID" catchupFollower="catchupFollowerVTypeID" />
#ids_plattypes = ['catchup','follower','original']
#ids_plattypes = self._typemap.keys()
#ids_vtypes_plat_sumo = []
# for id_mode in self.ids_platoonmodes:
# ids_vtype_sumo= ids_sumo_vtypes[vtypes.select_by_mode(id_mode=id_mode)]
# #print ' id_mode',id_mode,'ids_vtype',ids_vtype.tolist()
# for id_vtype_sumo in ids_vtype_sumo:
# if id_vtype in ids_plattypes
# #if id_vtype_sumo.split('_')[-1] not in plattypes:
# ids_vtypes_plat_sumo.append(id_vtype_sumo)
ids_vtypes_plat_sumo = ids_sumo_vtypes[self._typemap.keys()]
fd.write(xm.start('vehicleSelectors', indent+2))
fd.write(xm.arr('value', ids_vtypes_plat_sumo, sep=','))
fd.write(xm.stopit())
fd.write(xm.start('lcMode', indent+2))
fd.write(xm.num('leader', self.lanechangemode_leader))
fd.write(xm.num('follower', self.lanechangemode_follower))
fd.write(xm.num('catchup', self.lanechangemode_catchup))
fd.write(xm.num('catchupFollower', self.lanechangemode_catchup_follower))
fd.write(xm.stopit())
fd.write(xm.start('speedFactor', indent+2))
fd.write(xm.num('original', 1.0))
fd.write(xm.num('leader', self.speedfactor_leader))
fd.write(xm.num('follower', self.speedfactor_follower))
fd.write(xm.num('catchup', self.speedfactor_catchup))
fd.write(xm.num('catchupFollower', self.speedfactor_catchup_follower))
fd.write(xm.stopit())
for plattypes in self._typemap.values():
fd.write(xm.start('vTypeMap', indent+2))
for plattype, id_vtype in plattypes.iteritems():
fd.write(xm.num(plattype, ids_sumo_vtypes[id_vtype]))
fd.write(xm.stopit())
for attrconfig in attrsman.get_configs():
if attrconfig.xmltag is not None:
if (attrconfig.xmltag == 'switchImpatienceFactor') & (attrconfig.get_value() < 0):
pass
else:
fd.write(xm.start(attrconfig.xmltag, indent+2))
fd.write(xm.num('value', attrconfig.format_value()))
fd.write(xm.stopit())
fd.write(xm.end(self.xmltag, indent))
