Eclipse SUMO - Simulation of Urban MObility
SUMOXMLDefinitions.cpp
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1 /****************************************************************************/
2 // Eclipse SUMO, Simulation of Urban MObility; see https://eclipse.org/sumo
3 // Copyright (C) 2002-2020 German Aerospace Center (DLR) and others.
4 // This program and the accompanying materials are made available under the
5 // terms of the Eclipse Public License 2.0 which is available at
6 // https://www.eclipse.org/legal/epl-2.0/
7 // This Source Code may also be made available under the following Secondary
8 // Licenses when the conditions for such availability set forth in the Eclipse
9 // Public License 2.0 are satisfied: GNU General Public License, version 2
10 // or later which is available at
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12 // SPDX-License-Identifier: EPL-2.0 OR GPL-2.0-or-later
13 /****************************************************************************/
23 // Definitions of elements and attributes known by SUMO
24 /****************************************************************************/
25 #include <config.h>
26 
27 #include <cassert>
30 
31 #include "SUMOXMLDefinitions.h"
32 
33 // ===========================================================================
34 // definitions
35 // ===========================================================================
36 
38  // Simulation elements
39  { "net", SUMO_TAG_NET },
40  { "edge", SUMO_TAG_EDGE },
41  { "lane", SUMO_TAG_LANE },
42  { "neigh", SUMO_TAG_NEIGH },
43  { "poi", SUMO_TAG_POI },
44  { "poiLane", SUMO_TAG_POILANE },
45  { "poly", SUMO_TAG_POLY },
46  { "junction", SUMO_TAG_JUNCTION },
47  { "restriction", SUMO_TAG_RESTRICTION },
48  { "meso", SUMO_TAG_MESO },
49  { "e1Detector", SUMO_TAG_E1DETECTOR },
50  { "inductionLoop", SUMO_TAG_INDUCTION_LOOP },
51  { "e2Detector", SUMO_TAG_E2DETECTOR },
52  { "e2MultilaneDetector", SUMO_TAG_E2DETECTOR_MULTILANE },
53  { "laneAreaDetector", SUMO_TAG_LANE_AREA_DETECTOR },
54  { "e3Detector", SUMO_TAG_E3DETECTOR },
55  { "entryExitDetector", SUMO_TAG_ENTRY_EXIT_DETECTOR },
56  { "edgeData", SUMO_TAG_MEANDATA_EDGE },
57  { "laneData", SUMO_TAG_MEANDATA_LANE },
58  { "detEntry", SUMO_TAG_DET_ENTRY },
59  { "detExit", SUMO_TAG_DET_EXIT },
60  { "edgeFollowDetector", SUMO_TAG_EDGEFOLLOWDETECTOR },
61  { "instantInductionLoop", SUMO_TAG_INSTANT_INDUCTION_LOOP },
62  { "variableSpeedSign", SUMO_TAG_VSS },
63  { "calibrator", SUMO_TAG_CALIBRATOR },
64  { "laneCalibrator", SUMO_TAG_LANECALIBRATOR },
65  { "rerouter", SUMO_TAG_REROUTER },
66  { "busStop", SUMO_TAG_BUS_STOP },
67  { "trainStop", SUMO_TAG_TRAIN_STOP },
68  { "ptLine", SUMO_TAG_PT_LINE },
69  { "access", SUMO_TAG_ACCESS },
70  { "containerStop", SUMO_TAG_CONTAINER_STOP },
71  { "parkingArea", SUMO_TAG_PARKING_AREA },
72  { "space", SUMO_TAG_PARKING_SPACE },
73  { "chargingStation", SUMO_TAG_CHARGING_STATION },
74  { "overheadWireSegment", SUMO_TAG_OVERHEAD_WIRE_SEGMENT },
75  { "overheadWire", SUMO_TAG_OVERHEAD_WIRE_SECTION },
76  { "tractionSubstation", SUMO_TAG_TRACTION_SUBSTATION },
77  { "overheadWireClamp", SUMO_TAG_OVERHEAD_WIRE_CLAMP },
78  { "vTypeProbe", SUMO_TAG_VTYPEPROBE },
79  { "routeProbe", SUMO_TAG_ROUTEPROBE },
80  { "routes", SUMO_TAG_ROUTES },
81  { "vehicle", SUMO_TAG_VEHICLE },
82  { "vType", SUMO_TAG_VTYPE },
83  { "pType", SUMO_TAG_PTYPE },
84  { "route", SUMO_TAG_ROUTE },
85  { "request", SUMO_TAG_REQUEST },
86  { "source", SUMO_TAG_SOURCE },
87  { "taz", SUMO_TAG_TAZ },
88  { "tazSource", SUMO_TAG_TAZSOURCE },
89  { "tazSink", SUMO_TAG_TAZSINK },
90  { "trafficLight", SUMO_TAG_TRAFFIC_LIGHT },
91  { "tlLogic", SUMO_TAG_TLLOGIC },
92  { "phase", SUMO_TAG_PHASE },
93  { "trip", SUMO_TAG_TRIP },
94  { "tripTAZ", SUMO_TAG_TRIP_TAZ },
95  { "flow", SUMO_TAG_FLOW },
96  { "flowCalibrator", SUMO_TAG_FLOW_CALIBRATOR },
97  { "flowState", SUMO_TAG_FLOWSTATE },
98  { "step", SUMO_TAG_STEP },
99  { "interval", SUMO_TAG_INTERVAL },
100  { "edgeRelation", SUMO_TAG_EDGEREL },
101  { "tazRelation", SUMO_TAG_TAZREL },
102  { "timedEvent", SUMO_TAG_TIMEDEVENT },
103  { "fromEdge", SUMO_TAG_FROMEDGE },
104  { "toEdge", SUMO_TAG_TOEDGE },
105  { "sink", SUMO_TAG_SINK },
106  { "param", SUMO_TAG_PARAM },
107  { "WAUT", SUMO_TAG_WAUT },
108  { "wautSwitch", SUMO_TAG_WAUT_SWITCH },
109  { "wautJunction", SUMO_TAG_WAUT_JUNCTION },
110  { "segment", SUMO_TAG_SEGMENT },
111  { "delete", SUMO_TAG_DEL },
112  { "stop", SUMO_TAG_STOP },
113  { "stopBusStop", SUMO_TAG_STOP_BUSSTOP },
114  { "stopContainerStop", SUMO_TAG_STOP_CONTAINERSTOP },
115  { "stopChargingStation", SUMO_TAG_STOP_CHARGINGSTATION },
116  { "stopParkingArea", SUMO_TAG_STOP_PARKINGAREA },
117  { "stopLane", SUMO_TAG_STOP_LANE },
118  { "destProbReroute", SUMO_TAG_DEST_PROB_REROUTE },
119  { "closingReroute", SUMO_TAG_CLOSING_REROUTE },
120  { "closingLaneReroute", SUMO_TAG_CLOSING_LANE_REROUTE },
121  { "routeProbReroute", SUMO_TAG_ROUTE_PROB_REROUTE },
122  { "parkingAreaReroute", SUMO_TAG_PARKING_ZONE_REROUTE },
123  { "polygonType", SUMO_TAG_POLYTYPE },
124  { "connection", SUMO_TAG_CONNECTION },
125  { "prohibition", SUMO_TAG_PROHIBITION },
126  { "split", SUMO_TAG_SPLIT },
127  { "node", SUMO_TAG_NODE },
128  { "type", SUMO_TAG_TYPE },
129  { "laneType", SUMO_TAG_LANETYPE },
130  { "detectorDefinition", SUMO_TAG_DETECTOR_DEFINITION },
131  { "routeDistribution", SUMO_TAG_ROUTE_DISTRIBUTION },
132  { "vTypeDistribution", SUMO_TAG_VTYPE_DISTRIBUTION },
133  { "vaporizer", SUMO_TAG_VAPORIZER },
134  { "roundabout", SUMO_TAG_ROUNDABOUT },
135  { "join", SUMO_TAG_JOIN },
136  { "joinExclude", SUMO_TAG_JOINEXCLUDE },
137  { "crossing", SUMO_TAG_CROSSING },
138  { "walkingArea", SUMO_TAG_WALKINGAREA },
139  { "stopOffset", SUMO_TAG_STOPOFFSET },
140  { "railSignalConstraints", SUMO_TAG_RAILSIGNAL_CONSTRAINTS },
141  { "predecessor", SUMO_TAG_PREDECESSOR },
142  { "insertionPredecessor", SUMO_TAG_INSERTION_PREDECESSOR },
143  { "railSignalConstraintTracker", SUMO_TAG_RAILSIGNAL_CONSTRAINT_TRACKER },
144  { "link", SUMO_TAG_LINK },
145  { "approaching", SUMO_TAG_APPROACHING },
146  // OSM
147  { "way", SUMO_TAG_WAY },
148  { "nd", SUMO_TAG_ND },
149  { "tag", SUMO_TAG_TAG },
150  { "relation", SUMO_TAG_RELATION },
151  { "member", SUMO_TAG_MEMBER },
152  // View
153  { "viewsettings", SUMO_TAG_VIEWSETTINGS },
154  { "decal", SUMO_TAG_VIEWSETTINGS_DECAL },
155  { "light", SUMO_TAG_VIEWSETTINGS_LIGHT },
156  { "scheme", SUMO_TAG_VIEWSETTINGS_SCHEME },
157  { "opengl", SUMO_TAG_VIEWSETTINGS_OPENGL },
158  { "background", SUMO_TAG_VIEWSETTINGS_BACKGROUND },
159  { "edges", SUMO_TAG_VIEWSETTINGS_EDGES },
160  { "vehicles", SUMO_TAG_VIEWSETTINGS_VEHICLES },
161  { "persons", SUMO_TAG_VIEWSETTINGS_PERSONS },
162  { "containers", SUMO_TAG_VIEWSETTINGS_CONTAINERS },
163  { "junctions", SUMO_TAG_VIEWSETTINGS_JUNCTIONS },
164  { "additionals", SUMO_TAG_VIEWSETTINGS_ADDITIONALS },
165  { "pois", SUMO_TAG_VIEWSETTINGS_POIS },
166  { "polys", SUMO_TAG_VIEWSETTINGS_POLYS },
167  { "legend", SUMO_TAG_VIEWSETTINGS_LEGEND },
168  { "event", SUMO_TAG_VIEWSETTINGS_EVENT },
170  { "include", SUMO_TAG_INCLUDE },
171  { "delay", SUMO_TAG_DELAY },
172  { "viewport", SUMO_TAG_VIEWPORT },
173  { "snapshot", SUMO_TAG_SNAPSHOT },
174  { "breakpoint", SUMO_TAG_BREAKPOINT },
175  { "location", SUMO_TAG_LOCATION },
176  { "colorScheme", SUMO_TAG_COLORSCHEME },
177  { "scalingScheme", SUMO_TAG_SCALINGSCHEME },
178  { "entry", SUMO_TAG_ENTRY },
179  { "rngState", SUMO_TAG_RNGSTATE },
180  { "rngLane", SUMO_TAG_RNGLANE },
181  { "vehicleTransfer", SUMO_TAG_VEHICLETRANSFER },
182  { "device", SUMO_TAG_DEVICE },
183  // Cars
184  { "carFollowing-IDM", SUMO_TAG_CF_IDM },
185  { "carFollowing-IDMM", SUMO_TAG_CF_IDMM },
186  { "carFollowing-Krauss", SUMO_TAG_CF_KRAUSS },
187  { "carFollowing-KraussPS", SUMO_TAG_CF_KRAUSS_PLUS_SLOPE },
188  { "carFollowing-KraussOrig1", SUMO_TAG_CF_KRAUSS_ORIG1 },
189  { "carFollowing-KraussX", SUMO_TAG_CF_KRAUSSX },
190  { "carFollowing-SmartSK", SUMO_TAG_CF_SMART_SK },
191  { "carFollowing-Daniel1", SUMO_TAG_CF_DANIEL1 },
192  { "carFollowing-PWagner2009", SUMO_TAG_CF_PWAGNER2009 },
193  { "carFollowing-BKerner", SUMO_TAG_CF_BKERNER },
194  { "carFollowing-Wiedemann", SUMO_TAG_CF_WIEDEMANN },
195  { "carFollowing-W99", SUMO_TAG_CF_W99 },
196  { "carFollowing-Rail", SUMO_TAG_CF_RAIL },
197  { "carFollowing-ACC", SUMO_TAG_CF_ACC },
198  { "carFollowing-CACC", SUMO_TAG_CF_CACC },
199  { "carFollowing-CC", SUMO_TAG_CF_CC },
200  // Person
201  { "person", SUMO_TAG_PERSON },
202  { "personTrip", SUMO_TAG_PERSONTRIP },
203  { "ride", SUMO_TAG_RIDE },
204  { "walk", SUMO_TAG_WALK },
205  { "personFlow", SUMO_TAG_PERSONFLOW },
206  // Data (Netedit)
207  { "dataSet", SUMO_TAG_DATASET },
208  { "dataInterval", SUMO_TAG_DATAINTERVAL },
209  // Transport
210  { "container", SUMO_TAG_CONTAINER },
211  { "transport", SUMO_TAG_TRANSPORT },
212  { "tranship", SUMO_TAG_TRANSHIP },
213  //Trajectories
214  { "trajectories", SUMO_TAG_TRAJECTORIES },
215  { "timestep", SUMO_TAG_TIMESTEP },
216  { "timeSlice", SUMO_TAG_TIMESLICE },
217  { "actorConfig", SUMO_TAG_ACTORCONFIG },
218  { "motionState", SUMO_TAG_MOTIONSTATE },
219  { "odPair", SUMO_TAG_OD_PAIR },
220  { "transportables", SUMO_TAG_TRANSPORTABLES },
221  // ActivityGen statistics file
222  { "general", AGEN_TAG_GENERAL },
223  { "street", AGEN_TAG_STREET },
224  { "workHours", AGEN_TAG_WORKHOURS },
225  { "opening", AGEN_TAG_OPENING },
226  { "closing", AGEN_TAG_CLOSING },
227  { "schools", AGEN_TAG_SCHOOLS },
228  { "school", AGEN_TAG_SCHOOL },
229  { "busStation", AGEN_TAG_BUSSTATION },
230  { "busLine", AGEN_TAG_BUSLINE },
231  { "stations", AGEN_TAG_STATIONS },
232  { "revStations", AGEN_TAG_REV_STATIONS },
233  { "station", AGEN_TAG_STATION },
234  { "frequency", AGEN_TAG_FREQUENCY },
235  { "population", AGEN_TAG_POPULATION },
236  { "bracket", AGEN_TAG_BRACKET },
237  { "cityGates", AGEN_TAG_CITYGATES },
238  { "entrance", AGEN_TAG_ENTRANCE },
239  { "parameters", AGEN_TAG_PARAM },
240  // NETEDIT
241  { "internalLane", GNE_TAG_INTERNAL_LANE },
242  { "rerouterSymbol", GNE_TAG_REROUTER_SYMBOL },
243  { "variableSpeedSignSymbol", GNE_TAG_VSS_SYMBOL },
244  { "vehicleWithRoute", GNE_TAG_VEHICLE_WITHROUTE },
245  { "routeEmbedded", GNE_TAG_ROUTE_EMBEDDED },
246  { "flowRoute", GNE_TAG_FLOW_ROUTE },
247  { "flowWithRoute", GNE_TAG_FLOW_WITHROUTE },
248  // GNE Person trips
249  { "personTrip: edge->edge", GNE_TAG_PERSONTRIP_EDGE_EDGE },
250  { "personTrip: edge->busStop", GNE_TAG_PERSONTRIP_EDGE_BUSSTOP },
251  { "personTrip: edge->stop", GNE_TAG_PERSONTRIP_EDGE_STOP },
252  { "personTrip: busStop->edge", GNE_TAG_PERSONTRIP_BUSSTOP_EDGE },
253  { "personTrip: busStop->busStop", GNE_TAG_PERSONTRIP_BUSSTOP_BUSSTOP },
254  { "personTrip: busStop->stop", GNE_TAG_PERSONTRIP_BUSSTOP_STOP },
255  { "personTrip: stop->edge", GNE_TAG_PERSONTRIP_STOP_EDGE },
256  { "personTrip: stop->busStop", GNE_TAG_PERSONTRIP_STOP_BUSSTOP },
257  { "personTrip: stop->stop", GNE_TAG_PERSONTRIP_STOP_STOP },
258  // GNE Walks
259  { "walk: edge->edge", GNE_TAG_WALK_EDGE_EDGE },
260  { "walk: edge->busStop", GNE_TAG_WALK_EDGE_BUSSTOP },
261  { "walk: edge->stop", GNE_TAG_WALK_EDGE_STOP },
262  { "walk: busStop->edge", GNE_TAG_WALK_BUSSTOP_EDGE },
263  { "walk: busStop->busStop", GNE_TAG_WALK_BUSSTOP_BUSSTOP },
264  { "walk: busStop->stop", GNE_TAG_WALK_BUSSTOP_STOP },
265  { "walk: stop->edge", GNE_TAG_WALK_STOP_EDGE },
266  { "walk: stop->busStop", GNE_TAG_WALK_STOP_BUSSTOP },
267  { "walk: stop->stop", GNE_TAG_WALK_STOP_STOP },
268  { "walk: edges", GNE_TAG_WALK_EDGES },
269  { "walk: route", GNE_TAG_WALK_ROUTE },
270  // GNE Rides
271  { "ride: edge->edge", GNE_TAG_RIDE_EDGE_EDGE },
272  { "ride: edge->busStop", GNE_TAG_RIDE_EDGE_BUSSTOP },
273  { "ride: edge->stop", GNE_TAG_RIDE_EDGE_STOP },
274  { "ride: busStop->edge", GNE_TAG_RIDE_BUSSTOP_EDGE },
275  { "ride: busStop->busStop", GNE_TAG_RIDE_BUSSTOP_BUSSTOP },
276  { "ride: busStop->stop", GNE_TAG_RIDE_BUSSTOP_STOP },
277  { "ride: stop->edge", GNE_TAG_RIDE_STOP_EDGE },
278  { "ride: stop->busStop", GNE_TAG_RIDE_STOP_BUSSTOP },
279  { "ride: stop->stop", GNE_TAG_RIDE_STOP_STOP },
280  // GNE person Stops
281  { "personStop: busStop", GNE_TAG_PERSONSTOP_BUSSTOP },
282  { "personStop: edge", GNE_TAG_PERSONSTOP_EDGE },
283  // Other
284  { "", SUMO_TAG_NOTHING } // -> must be the last one
285 };
286 
287 
289  // meta value for attribute enum
290  { "default", SUMO_ATTR_DEFAULT },
291  // meandata
292  { "sampledSeconds", SUMO_ATTR_SAMPLEDSECONDS },
293  { "density", SUMO_ATTR_DENSITY },
294  { "laneDensity", SUMO_ATTR_LANEDENSITY },
295  { "occupancy", SUMO_ATTR_OCCUPANCY },
296  { "waitingTime", SUMO_ATTR_WAITINGTIME },
297  { "timeLoss", SUMO_ATTR_TIMELOSS },
298  { "speed", SUMO_ATTR_SPEED },
299  { "departed", SUMO_ATTR_DEPARTED },
300  { "arrived", SUMO_ATTR_ARRIVED },
301  { "entered", SUMO_ATTR_ENTERED },
302  { "left", SUMO_ATTR_LEFT },
303  { "vaporized", SUMO_ATTR_VAPORIZED },
304  { "traveltime", SUMO_ATTR_TRAVELTIME },
305  { "laneChangedFrom", SUMO_ATTR_LANECHANGEDFROM },
306  { "laneChangedTo", SUMO_ATTR_LANECHANGEDTO },
307  { "overlapTraveltime", SUMO_ATTR_OVERLAPTRAVELTIME },
308  { "CO_abs", SUMO_ATTR_CO_ABS },
309  { "CO2_abs", SUMO_ATTR_CO2_ABS },
310  { "HC_abs", SUMO_ATTR_HC_ABS },
311  { "PMx_abs", SUMO_ATTR_PMX_ABS },
312  { "NOx_abs", SUMO_ATTR_NOX_ABS },
313  { "fuel_abs", SUMO_ATTR_FUEL_ABS },
314  { "electricity_abs", SUMO_ATTR_ELECTRICITY_ABS },
315  { "CO_normed", SUMO_ATTR_CO_NORMED },
316  { "CO2_normed", SUMO_ATTR_CO2_NORMED },
317  { "HC_normed", SUMO_ATTR_HC_NORMED },
318  { "PMx_normed", SUMO_ATTR_PMX_NORMED },
319  { "NOx_normed", SUMO_ATTR_NOX_NORMED },
320  { "fuel_normed", SUMO_ATTR_FUEL_NORMED },
321  { "electricity_normed", SUMO_ATTR_ELECTRICITY_NORMED },
322  { "CO_perVeh", SUMO_ATTR_CO_PERVEH },
323  { "CO2_perVeh", SUMO_ATTR_CO2_PERVEH },
324  { "HC_perVeh", SUMO_ATTR_HC_PERVEH },
325  { "PMx_perVeh", SUMO_ATTR_PMX_PERVEH },
326  { "NOx_perVeh", SUMO_ATTR_NOX_PERVEH },
327  { "fuel_perVeh", SUMO_ATTR_FUEL_PERVEH },
328  { "electricity_perVeh", SUMO_ATTR_ELECTRICITY_PERVEH },
329  { "noise", SUMO_ATTR_NOISE },
330  { "amount", SUMO_ATTR_AMOUNT },
331  { "averageSpeed", SUMO_ATTR_AVERAGESPEED },
332  // FCD
333  { "x", SUMO_ATTR_X },
334  { "y", SUMO_ATTR_Y },
335  { "z", SUMO_ATTR_Z },
336  { "angle", SUMO_ATTR_ANGLE },
337  { "type", SUMO_ATTR_TYPE },
338  { "pos", SUMO_ATTR_POSITION },
339  { "edge", SUMO_ATTR_EDGE },
340  { "lane", SUMO_ATTR_LANE },
341  { "slope", SUMO_ATTR_SLOPE },
342  { "signals", SUMO_ATTR_SIGNALS },
343  { "acceleration", SUMO_ATTR_ACCELERATION },
344  { "accelerationLat", SUMO_ATTR_ACCELERATION_LAT },
345  { "distance", SUMO_ATTR_DISTANCE },
346  { "leaderID", SUMO_ATTR_LEADER_ID },
347  { "leaderSpeed", SUMO_ATTR_LEADER_SPEED },
348  { "leaderGap", SUMO_ATTR_LEADER_GAP },
349 
350  // Edge
351  { "id", SUMO_ATTR_ID },
352  { "refId", SUMO_ATTR_REFID },
353  { "name", SUMO_ATTR_NAME },
354  { "version", SUMO_ATTR_VERSION },
355  { "priority", SUMO_ATTR_PRIORITY },
356  { "numLanes", SUMO_ATTR_NUMLANES },
357  { "oneway", SUMO_ATTR_ONEWAY },
358  { "width", SUMO_ATTR_WIDTH },
359  { "widthResolution", SUMO_ATTR_WIDTHRESOLUTION },
360  { "maxWidth", SUMO_ATTR_MAXWIDTH },
361  { "minWidth", SUMO_ATTR_MINWIDTH },
362  { "sidewalkWidth", SUMO_ATTR_SIDEWALKWIDTH },
363  { "bikeLaneWidth", SUMO_ATTR_BIKELANEWIDTH },
364  { "remove", SUMO_ATTR_REMOVE },
365  { "length", SUMO_ATTR_LENGTH },
366  { "bidi", SUMO_ATTR_BIDI },
367  // Split
368  { "idBefore", SUMO_ATTR_ID_BEFORE },
369  { "idAfter", SUMO_ATTR_ID_AFTER },
370  // Positions
371  { "centerX", SUMO_ATTR_CENTER_X },
372  { "centerY", SUMO_ATTR_CENTER_Y },
373  { "centerZ", SUMO_ATTR_CENTER_Z },
374 
375  { "key", SUMO_ATTR_KEY },
376  { "requestSize", SUMO_ATTR_REQUESTSIZE },
377  { "request", SUMO_ATTR_REQUEST },
378  { "response", SUMO_ATTR_RESPONSE },
379  { "programID", SUMO_ATTR_PROGRAMID },
380  { "offset", SUMO_ATTR_OFFSET },
381  { "endOffset", SUMO_ATTR_ENDOFFSET },
382  { "incLanes", SUMO_ATTR_INCLANES },
383  { "intLanes", SUMO_ATTR_INTLANES },
384 
385  { "weight", SUMO_ATTR_WEIGHT },
386  { "node", SUMO_ATTR_NODE },
387  { "edges", SUMO_ATTR_EDGES },
388  // Vehicle
389  { "depart", SUMO_ATTR_DEPART },
390  { "departLane", SUMO_ATTR_DEPARTLANE },
391  { "departPos", SUMO_ATTR_DEPARTPOS },
392  { "departPosLat", SUMO_ATTR_DEPARTPOS_LAT },
393  { "departSpeed", SUMO_ATTR_DEPARTSPEED },
394  { "departEdge", SUMO_ATTR_DEPARTEDGE },
395  { "arrivalLane", SUMO_ATTR_ARRIVALLANE },
396  { "arrivalPos", SUMO_ATTR_ARRIVALPOS },
397  { "arrivalPosLat", SUMO_ATTR_ARRIVALPOS_LAT },
398  { "arrivalSpeed", SUMO_ATTR_ARRIVALSPEED },
399  { "route", SUMO_ATTR_ROUTE },
400  { "maxSpeed", SUMO_ATTR_MAXSPEED },
401  { "maxSpeedLat", SUMO_ATTR_MAXSPEED_LAT },
402  { "latAlignment", SUMO_ATTR_LATALIGNMENT },
403  { "minGapLat", SUMO_ATTR_MINGAP_LAT },
404  { "accel", SUMO_ATTR_ACCEL },
405  { "decel", SUMO_ATTR_DECEL },
406  { "emergencyDecel", SUMO_ATTR_EMERGENCYDECEL },
407  { "apparentDecel", SUMO_ATTR_APPARENTDECEL },
408  { "actionStepLength", SUMO_ATTR_ACTIONSTEPLENGTH },
409  { "vClass", SUMO_ATTR_VCLASS },
410  { "vClasses", SUMO_ATTR_VCLASSES },
411  { "exceptions", SUMO_ATTR_EXCEPTIONS },
412  { "repno", SUMO_ATTR_REPNUMBER },
413  { "speedFactor", SUMO_ATTR_SPEEDFACTOR },
414  { "speedDev", SUMO_ATTR_SPEEDDEV },
415  { "laneChangeModel", SUMO_ATTR_LANE_CHANGE_MODEL },
416  { "carFollowModel", SUMO_ATTR_CAR_FOLLOW_MODEL },
417  { "minGap", SUMO_ATTR_MINGAP },
418  { "collisionMinGapFactor", SUMO_ATTR_COLLISION_MINGAP_FACTOR },
419  { "boardingDuration", SUMO_ATTR_BOARDING_DURATION },
420  { "loadingDuration", SUMO_ATTR_LOADING_DURATION },
421  { "maneuverAngleTimes", SUMO_ATTR_MANEUVER_ANGLE_TIMES },
422  // MSDevice_ElecHybrid
423  { "overheadWireChargingPower", SUMO_ATTR_OVERHEADWIRECHARGINGPOWER },
424  // OverheadWire
425  { "overheadWireSegment", SUMO_ATTR_OVERHEAD_WIRE_SEGMENT },
426  { "segments", SUMO_ATTR_OVERHEAD_WIRE_SECTION },
427  { "voltage", SUMO_ATTR_VOLTAGE },
428  { "voltageSource", SUMO_ATTR_VOLTAGESOURCE },
429  { "currentLimit", SUMO_ATTR_CURRENTLIMIT },
430  { "substationId", SUMO_ATTR_SUBSTATIONID },
431  { "wireResistivity", SUMO_ATTR_OVERHEAD_WIRE_RESISTIVITY },
432  { "forbiddenInnerLanes", SUMO_ATTR_OVERHEAD_WIRE_FORBIDDEN },
433  { "clamps", SUMO_ATTR_OVERHEAD_WIRE_CLAMPS },
434  { "idSegmentStartClamp", SUMO_ATTR_OVERHEAD_WIRE_CLAMP_START },
435  { "idSegmentEndClamp", SUMO_ATTR_OVERHEAD_WIRE_CLAMP_END },
436  // Charging Station
437  { "power", SUMO_ATTR_CHARGINGPOWER },
438  { "efficiency", SUMO_ATTR_EFFICIENCY },
439  { "chargeInTransit", SUMO_ATTR_CHARGEINTRANSIT },
440  { "chargeDelay", SUMO_ATTR_CHARGEDELAY},
441  // MSDevice_Battery
442  { "actualBatteryCapacity", SUMO_ATTR_ACTUALBATTERYCAPACITY },
443  { "maximumBatteryCapacity", SUMO_ATTR_MAXIMUMBATTERYCAPACITY },
444  { "maximumPower", SUMO_ATTR_MAXIMUMPOWER },
445  { "vehicleMass", SUMO_ATTR_VEHICLEMASS },
446  { "frontSurfaceArea", SUMO_ATTR_FRONTSURFACEAREA },
447  { "airDragCoefficient", SUMO_ATTR_AIRDRAGCOEFFICIENT },
448  { "internalMomentOfInertia", SUMO_ATTR_INTERNALMOMENTOFINERTIA },
449  { "radialDragCoefficient", SUMO_ATTR_RADIALDRAGCOEFFICIENT },
450  { "rollDragCoefficient", SUMO_ATTR_ROLLDRAGCOEFFICIENT },
451  { "constantPowerIntake", SUMO_ATTR_CONSTANTPOWERINTAKE },
452  { "propulsionEfficiency", SUMO_ATTR_PROPULSIONEFFICIENCY },
453  { "recuperationEfficiency", SUMO_ATTR_RECUPERATIONEFFICIENCY },
454  { "recuperationEfficiencyByDecel", SUMO_ATTR_RECUPERATIONEFFICIENCY_BY_DECELERATION },
455  { "stoppingTreshold", SUMO_ATTR_STOPPINGTRESHOLD },
456  // MSElecHybridExport
457  { "overheadWireId", SUMO_ATTR_OVERHEADWIREID },
458  { "tractionSubstationId", SUMO_ATTR_TRACTIONSUBSTATIONID },
459  { "current", SUMO_ATTR_CURRENTFROMOVERHEADWIRE },
460  { "circuitVoltage", SUMO_ATTR_VOLTAGEOFOVERHEADWIRE },
461  { "alphaCircuitSolver", SUMO_ATTR_ALPHACIRCUITSOLVER },
462  // MSBatteryExport
463  { "energyConsumed", SUMO_ATTR_ENERGYCONSUMED },
464  { "chargingStationId", SUMO_ATTR_CHARGINGSTATIONID },
465  { "energyCharged", SUMO_ATTR_ENERGYCHARGED },
466  { "energyChargedInTransit", SUMO_ATTR_ENERGYCHARGEDINTRANSIT },
467  { "energyChargedStopped", SUMO_ATTR_ENERGYCHARGEDSTOPPED },
468  { "posOnLane", SUMO_ATTR_POSONLANE },
469  { "timeStopped", SUMO_ATTR_TIMESTOPPED },
470  // ChargingStation output
471  { "chargingStatus", SUMO_ATTR_CHARGING_STATUS },
472  { "totalEnergyCharged", SUMO_ATTR_TOTALENERGYCHARGED },
473  { "chargingSteps", SUMO_ATTR_CHARGINGSTEPS },
474  { "totalEnergyChargedIntoVehicle", SUMO_ATTR_TOTALENERGYCHARGED_VEHICLE },
475  { "chargingBegin", SUMO_ATTR_CHARGINGBEGIN },
476  { "chargingEnd", SUMO_ATTR_CHARGINGEND },
477  { "partialCharge", SUMO_ATTR_PARTIALCHARGE },
478 
479  { "sigma", SUMO_ATTR_SIGMA },
480  { "tau", SUMO_ATTR_TAU },
481  { "tmp1", SUMO_ATTR_TMP1 },
482  { "tmp2", SUMO_ATTR_TMP2 },
483  { "tmp3", SUMO_ATTR_TMP3 },
484  { "tmp4", SUMO_ATTR_TMP4 },
485  { "tmp5", SUMO_ATTR_TMP5 },
486 
487  { "speedControlGain", SUMO_ATTR_SC_GAIN },
488  { "gapClosingControlGainSpeed", SUMO_ATTR_GCC_GAIN_SPEED },
489  { "gapClosingControlGainSpace", SUMO_ATTR_GCC_GAIN_SPACE },
490  { "gapControlGainSpeed", SUMO_ATTR_GC_GAIN_SPEED },
491  { "gapControlGainSpace", SUMO_ATTR_GC_GAIN_SPACE },
492  { "collisionAvoidanceGainSpeed", SUMO_ATTR_CA_GAIN_SPEED },
493  { "collisionAvoidanceGainSpace", SUMO_ATTR_CA_GAIN_SPACE },
494 
495  { "speedControlGainCACC", SUMO_ATTR_SC_GAIN_CACC },
496  { "gapClosingControlGainGap", SUMO_ATTR_GCC_GAIN_GAP_CACC },
497  { "gapClosingControlGainGapDot", SUMO_ATTR_GCC_GAIN_GAP_DOT_CACC },
498  { "gapControlGainGap", SUMO_ATTR_GC_GAIN_GAP_CACC },
499  { "gapControlGainGapDot", SUMO_ATTR_GC_GAIN_GAP_DOT_CACC },
500  { "tauCACCToACC", SUMO_ATTR_HEADWAY_TIME_CACC_TO_ACC },
501  { "collisionAvoidanceGainGap", SUMO_ATTR_CA_GAIN_GAP_CACC },
502  { "collisionAvoidanceGainGapDot", SUMO_ATTR_CA_GAIN_GAP_DOT_CACC },
503 
504  { "trainType", SUMO_ATTR_TRAIN_TYPE },
505 
506  { "lcStrategic", SUMO_ATTR_LCA_STRATEGIC_PARAM },
507  { "lcCooperative", SUMO_ATTR_LCA_COOPERATIVE_PARAM },
508  { "lcSpeedGain", SUMO_ATTR_LCA_SPEEDGAIN_PARAM },
509  { "lcKeepRight", SUMO_ATTR_LCA_KEEPRIGHT_PARAM },
510  { "lcSublane", SUMO_ATTR_LCA_SUBLANE_PARAM },
511  { "lcOpposite", SUMO_ATTR_LCA_OPPOSITE_PARAM },
512  { "lcPushy", SUMO_ATTR_LCA_PUSHY },
513  { "lcPushyGap", SUMO_ATTR_LCA_PUSHYGAP },
514  { "lcAssertive", SUMO_ATTR_LCA_ASSERTIVE },
515  { "lcImpatience", SUMO_ATTR_LCA_IMPATIENCE },
516  { "lcTimeToImpatience", SUMO_ATTR_LCA_TIME_TO_IMPATIENCE },
517  { "lcAccelLat", SUMO_ATTR_LCA_ACCEL_LAT },
518  { "lcTurnAlignmentDistance", SUMO_ATTR_LCA_TURN_ALIGNMENT_DISTANCE },
519  { "lcOvertakeRight", SUMO_ATTR_LCA_OVERTAKE_RIGHT },
520  { "lcLookaheadLeft", SUMO_ATTR_LCA_LOOKAHEADLEFT },
521  { "lcSpeedGainRight", SUMO_ATTR_LCA_SPEEDGAINRIGHT },
522  { "lcSpeedGainLookahead", SUMO_ATTR_LCA_SPEEDGAIN_LOOKAHEAD },
523  { "lcCooperativeRoundabout", SUMO_ATTR_LCA_COOPERATIVE_ROUNDABOUT },
524  { "lcCooperativeSpeed", SUMO_ATTR_LCA_COOPERATIVE_SPEED },
525  { "lcMaxSpeedLatStanding", SUMO_ATTR_LCA_MAXSPEEDLATSTANDING },
526  { "lcMaxSpeedLatFactor", SUMO_ATTR_LCA_MAXSPEEDLATFACTOR },
527  { "lcLaneDiscipline", SUMO_ATTR_LCA_LANE_DISCIPLINE },
528  { "lcSigma", SUMO_ATTR_LCA_SIGMA },
529  { "lcExperimental1", SUMO_ATTR_LCA_EXPERIMENTAL1 },
530 
531  { "jmCrossingGap", SUMO_ATTR_JM_CROSSING_GAP },
532  { "jmDriveAfterYellowTime", SUMO_ATTR_JM_DRIVE_AFTER_YELLOW_TIME },
533  { "jmDriveAfterRedTime", SUMO_ATTR_JM_DRIVE_AFTER_RED_TIME },
534  { "jmDriveRedSpeed", SUMO_ATTR_JM_DRIVE_RED_SPEED },
535  { "jmIgnoreKeepClearTime", SUMO_ATTR_JM_IGNORE_KEEPCLEAR_TIME },
536  { "jmIgnoreFoeSpeed", SUMO_ATTR_JM_IGNORE_FOE_SPEED },
537  { "jmIgnoreFoeProb", SUMO_ATTR_JM_IGNORE_FOE_PROB },
538  { "jmSigmaMinor", SUMO_ATTR_JM_SIGMA_MINOR },
539  { "jmStoplineGap", SUMO_ATTR_JM_STOPLINE_GAP },
540  { "jmTimegapMinor", SUMO_ATTR_JM_TIMEGAP_MINOR },
541 
542  { "last", SUMO_ATTR_LAST },
543  { "cost", SUMO_ATTR_COST },
544  { "costs", SUMO_ATTR_COSTS },
545  { "savings", SUMO_ATTR_SAVINGS },
546  { "probability", SUMO_ATTR_PROB },
547  { "count", SUMO_ATTR_COUNT },
548  { "probabilities", SUMO_ATTR_PROBS },
549  { "routes", SUMO_ATTR_ROUTES },
550  { "vTypes", SUMO_ATTR_VTYPES },
551 
552  { "lanes", SUMO_ATTR_LANES },
553  { "from", SUMO_ATTR_FROM },
554  { "to", SUMO_ATTR_TO },
555  { "fromLonLat", SUMO_ATTR_FROMLONLAT },
556  { "toLonLat", SUMO_ATTR_TOLONLAT },
557  { "fromXY", SUMO_ATTR_FROMXY },
558  { "toXY", SUMO_ATTR_TOXY },
559  { "fromJunction", SUMO_ATTR_FROMJUNCTION },
560  { "toJunction", SUMO_ATTR_TOJUNCTION },
561  { "period", SUMO_ATTR_PERIOD },
562  { "repeat", SUMO_ATTR_REPEAT },
563  { "cycleTime", SUMO_ATTR_CYCLETIME },
564  { "fromTaz", SUMO_ATTR_FROM_TAZ },
565  { "toTaz", SUMO_ATTR_TO_TAZ },
566  { "reroute", SUMO_ATTR_REROUTE },
567  { "personCapacity", SUMO_ATTR_PERSON_CAPACITY },
568  { "containerCapacity", SUMO_ATTR_CONTAINER_CAPACITY },
569  { "parkingLength", SUMO_ATTR_PARKING_LENGTH },
570  { "personNumber", SUMO_ATTR_PERSON_NUMBER },
571  { "containerNumber", SUMO_ATTR_CONTAINER_NUMBER },
572  { "modes", SUMO_ATTR_MODES },
573  { "walkFactor", SUMO_ATTR_WALKFACTOR },
574 
575  { "function", SUMO_ATTR_FUNCTION },
576  { "posLat", SUMO_ATTR_POSITION_LAT },
577  { "freq", SUMO_ATTR_FREQUENCY },
578  { "style", SUMO_ATTR_STYLE },
579  { "file", SUMO_ATTR_FILE },
580  { "junction", SUMO_ATTR_JUNCTION },
581  { "number", SUMO_ATTR_NUMBER },
582  { "duration", SUMO_ATTR_DURATION },
583  { "until", SUMO_ATTR_UNTIL },
584  { "arrival", SUMO_ATTR_ARRIVAL },
585  { "actualArrival", SUMO_ATTR_ACTUALARRIVAL },
586  { "extension", SUMO_ATTR_EXTENSION },
587  { "routeProbe", SUMO_ATTR_ROUTEPROBE },
588  { "crossingEdges", SUMO_ATTR_CROSSING_EDGES },
589  // Traffic light & Nodes
590  { "time", SUMO_ATTR_TIME },
591  { "begin", SUMO_ATTR_BEGIN },
592  { "end", SUMO_ATTR_END },
593  { "tl", SUMO_ATTR_TLID },
594  { "tlType", SUMO_ATTR_TLTYPE },
595  { "tlLayout", SUMO_ATTR_TLLAYOUT },
596  { "linkIndex", SUMO_ATTR_TLLINKINDEX },
597  { "linkIndex2", SUMO_ATTR_TLLINKINDEX2 },
598  { "shape", SUMO_ATTR_SHAPE },
599  { "spreadType", SUMO_ATTR_SPREADTYPE },
600  { "radius", SUMO_ATTR_RADIUS },
601  { "customShape", SUMO_ATTR_CUSTOMSHAPE },
602  { "keepClear", SUMO_ATTR_KEEP_CLEAR },
603  { "rightOfWay", SUMO_ATTR_RIGHT_OF_WAY },
604  { "fringe", SUMO_ATTR_FRINGE },
605  { "color", SUMO_ATTR_COLOR },
606  { "dir", SUMO_ATTR_DIR },
607  { "state", SUMO_ATTR_STATE },
608  { "layer", SUMO_ATTR_LAYER },
609  { "fill", SUMO_ATTR_FILL },
610  { "lineWidth", SUMO_ATTR_LINEWIDTH },
611  { "prefix", SUMO_ATTR_PREFIX },
612  { "discard", SUMO_ATTR_DISCARD },
613 
614  { "fromLane", SUMO_ATTR_FROM_LANE },
615  { "toLane", SUMO_ATTR_TO_LANE },
616  { "dest", SUMO_ATTR_DEST },
617  { "source", SUMO_ATTR_SOURCE },
618  { "via", SUMO_ATTR_VIA },
619  { "viaLonLat", SUMO_ATTR_VIALONLAT },
620  { "viaXY", SUMO_ATTR_VIAXY },
621  { "viaJunctions", SUMO_ATTR_VIAJUNCTIONS },
622  { "nodes", SUMO_ATTR_NODES },
623  { "visibility", SUMO_ATTR_VISIBILITY_DISTANCE },
624 
625  { "minDur", SUMO_ATTR_MINDURATION },
626  { "maxDur", SUMO_ATTR_MAXDURATION },
627  { "next", SUMO_ATTR_NEXT },
628  { "foes", SUMO_ATTR_FOES },
629  // E2 detector
630  { "cont", SUMO_ATTR_CONT },
631  { "contPos", SUMO_ATTR_CONTPOS },
632  { "timeThreshold", SUMO_ATTR_HALTING_TIME_THRESHOLD },
633  { "speedThreshold", SUMO_ATTR_HALTING_SPEED_THRESHOLD },
634  { "jamThreshold", SUMO_ATTR_JAM_DIST_THRESHOLD },
635  { "show", SUMO_ATTR_SHOW_DETECTOR },
636  // E3 detector
637  { "openEntry", SUMO_ATTR_OPEN_ENTRY },
638 
639  { "wautID", SUMO_ATTR_WAUT_ID },
640  { "junctionID", SUMO_ATTR_JUNCTION_ID },
641  { "procedure", SUMO_ATTR_PROCEDURE },
642  { "synchron", SUMO_ATTR_SYNCHRON },
643  { "refTime", SUMO_ATTR_REF_TIME },
644  { "startProg", SUMO_ATTR_START_PROG },
645  { "off", SUMO_ATTR_OFF },
646  { "friendlyPos", SUMO_ATTR_FRIENDLY_POS },
647  { "splitByType", SUMO_ATTR_SPLIT_VTYPE },
648  { "uncontrolled", SUMO_ATTR_UNCONTROLLED },
649  { "pass", SUMO_ATTR_PASS },
650  { "busStop", SUMO_ATTR_BUS_STOP },
651  { "containerStop", SUMO_ATTR_CONTAINER_STOP },
652  { "parkingArea", SUMO_ATTR_PARKING_AREA },
653  { "roadsideCapacity", SUMO_ATTR_ROADSIDE_CAPACITY },
654  { "onRoad", SUMO_ATTR_ONROAD },
655  { "chargingStation", SUMO_ATTR_CHARGING_STATION},
656  { "group", SUMO_ATTR_GROUP},
657  { "line", SUMO_ATTR_LINE },
658  { "lines", SUMO_ATTR_LINES },
659  { "tripId", SUMO_ATTR_TRIP_ID },
660  { "split", SUMO_ATTR_SPLIT },
661  { "join", SUMO_ATTR_JOIN },
662  { "intended", SUMO_ATTR_INTENDED },
663  { "value", SUMO_ATTR_VALUE },
664  { "prohibitor", SUMO_ATTR_PROHIBITOR },
665  { "prohibited", SUMO_ATTR_PROHIBITED },
666  { "allow", SUMO_ATTR_ALLOW },
667  { "disallow", SUMO_ATTR_DISALLOW },
668  { "prefer", SUMO_ATTR_PREFER },
669  { "controlledInner", SUMO_ATTR_CONTROLLED_INNER },
670  { "vehsPerHour", SUMO_ATTR_VEHSPERHOUR },
671  { "personsPerHour", SUMO_ATTR_PERSONSPERHOUR },
672  { "output", SUMO_ATTR_OUTPUT },
673  { "height", SUMO_ATTR_HEIGHT },
674  { "guiShape", SUMO_ATTR_GUISHAPE },
675  { "osgFile", SUMO_ATTR_OSGFILE },
676  { "imgFile", SUMO_ATTR_IMGFILE },
677  { "relativePath", SUMO_ATTR_RELATIVEPATH },
678  { "emissionClass", SUMO_ATTR_EMISSIONCLASS },
679  { "impatience", SUMO_ATTR_IMPATIENCE },
680  { "startPos", SUMO_ATTR_STARTPOS },
681  { "endPos", SUMO_ATTR_ENDPOS },
682  { "triggered", SUMO_ATTR_TRIGGERED },
683  { "containerTriggered", SUMO_ATTR_CONTAINER_TRIGGERED },
684  { "parking", SUMO_ATTR_PARKING },
685  { "expected", SUMO_ATTR_EXPECTED },
686  { "expectedContainers", SUMO_ATTR_EXPECTED_CONTAINERS },
687  { "index", SUMO_ATTR_INDEX },
688 
689  { "entering", SUMO_ATTR_ENTERING },
690  { "excludeEmpty", SUMO_ATTR_EXCLUDE_EMPTY },
691  { "withInternal", SUMO_ATTR_WITH_INTERNAL },
692  { "trackVehicles", SUMO_ATTR_TRACK_VEHICLES },
693  { "detectPersons", SUMO_ATTR_DETECT_PERSONS },
694  { "maxTraveltime", SUMO_ATTR_MAX_TRAVELTIME },
695  { "minSamples", SUMO_ATTR_MIN_SAMPLES },
696  { "writeAttributes", SUMO_ATTR_WRITE_ATTRIBUTES },
697 
698  { "lon", SUMO_ATTR_LON },
699  { "lat", SUMO_ATTR_LAT },
700  { "geo", SUMO_ATTR_GEO },
701  { "geoShape", SUMO_ATTR_GEOSHAPE },
702  { "lon/lat", SUMO_ATTR_GEOPOSITION },
703  { "k", SUMO_ATTR_K },
704  { "v", SUMO_ATTR_V },
705  { "ref", SUMO_ATTR_REF },
706  { "href", SUMO_ATTR_HREF },
707  { "zoom", SUMO_ATTR_ZOOM },
708  { "interpolated", SUMO_ATTR_INTERPOLATED },
709  { "threshold", SUMO_ATTR_THRESHOLD },
710 
711  { "netOffset", SUMO_ATTR_NET_OFFSET },
712  { "convBoundary", SUMO_ATTR_CONV_BOUNDARY },
713  { "origBoundary", SUMO_ATTR_ORIG_BOUNDARY },
714  { "projParameter", SUMO_ATTR_ORIG_PROJ },
715 
716  { "tauLast", SUMO_ATTR_CF_PWAGNER2009_TAULAST },
717  { "apProb", SUMO_ATTR_CF_PWAGNER2009_APPROB },
718  { "delta", SUMO_ATTR_CF_IDM_DELTA },
719  { "stepping", SUMO_ATTR_CF_IDM_STEPPING },
720  { "adaptFactor", SUMO_ATTR_CF_IDMM_ADAPT_FACTOR },
721  { "adaptTime", SUMO_ATTR_CF_IDMM_ADAPT_TIME },
722  { "phi", SUMO_ATTR_CF_KERNER_PHI },
723 
724  { "security", SUMO_ATTR_CF_WIEDEMANN_SECURITY },
725  { "estimation", SUMO_ATTR_CF_WIEDEMANN_ESTIMATION },
726  { "cc1", SUMO_ATTR_CF_W99_CC1 },
727  { "cc2", SUMO_ATTR_CF_W99_CC2 },
728  { "cc3", SUMO_ATTR_CF_W99_CC3 },
729  { "cc4", SUMO_ATTR_CF_W99_CC4 },
730  { "cc5", SUMO_ATTR_CF_W99_CC5 },
731  { "cc6", SUMO_ATTR_CF_W99_CC6 },
732  { "cc7", SUMO_ATTR_CF_W99_CC7 },
733  { "cc8", SUMO_ATTR_CF_W99_CC8 },
734  { "cc9", SUMO_ATTR_CF_W99_CC9 },
735 
736  { "ccDecel", SUMO_ATTR_CF_CC_CCDECEL },
737  { "constSpacing", SUMO_ATTR_CF_CC_CONSTSPACING },
738  { "kp", SUMO_ATTR_CF_CC_KP },
739  { "lambda", SUMO_ATTR_CF_CC_LAMBDA },
740  { "c1", SUMO_ATTR_CF_CC_C1 },
741  { "xi", SUMO_ATTR_CF_CC_XI },
742  { "omegaN", SUMO_ATTR_CF_CC_OMEGAN },
743  { "tauEngine", SUMO_ATTR_CF_CC_TAU },
744  { "lanesCount", SUMO_ATTR_CF_CC_LANES_COUNT },
745  { "ccAccel", SUMO_ATTR_CF_CC_CCACCEL },
746  { "ploegKp", SUMO_ATTR_CF_CC_PLOEG_KP },
747  { "ploegKd", SUMO_ATTR_CF_CC_PLOEG_KD },
748  { "ploegH", SUMO_ATTR_CF_CC_PLOEG_H },
749  { "flatbedKa", SUMO_ATTR_CF_CC_FLATBED_KA },
750  { "flatbedKv", SUMO_ATTR_CF_CC_FLATBED_KV },
751  { "flatbedKp", SUMO_ATTR_CF_CC_FLATBED_KP },
752  { "flatbedD", SUMO_ATTR_CF_CC_FLATBED_D },
753  { "flatbedH", SUMO_ATTR_CF_CC_FLATBED_H },
754 
755  { "generateWalks", SUMO_ATTR_GENERATE_WALKS },
756  { "actType", SUMO_ATTR_ACTTYPE },
757  { "junctionCornerDetail", SUMO_ATTR_CORNERDETAIL },
758  { "junctionLinkDetail", SUMO_ATTR_LINKDETAIL },
759  { "rectangularLaneCut", SUMO_ATTR_RECTANGULAR_LANE_CUT },
760  { "walkingareas", SUMO_ATTR_WALKINGAREAS },
761  { "lefthand", SUMO_ATTR_LEFTHAND },
762  { "limitTurnSpeed", SUMO_ATTR_LIMIT_TURN_SPEED },
763  { "checkLaneFoesAll", SUMO_ATTR_CHECKLANEFOES_ALL },
764  { "checkLaneFoesRoundabout", SUMO_ATTR_CHECKLANEFOES_ROUNDABOUT },
765  { "tlsIgnoreInternalJunctionJam", SUMO_ATTR_TLS_IGNORE_INTERNAL_JUNCTION_JAM },
766  { "avoidOverlap", SUMO_ATTR_AVOID_OVERLAP },
767 
768  { "actorConfig", SUMO_ATTR_ACTORCONFIG },
769  { "vehicle", SUMO_ATTR_VEHICLE },
770  { "startTime", SUMO_ATTR_STARTTIME },
771  { "vehicleClass", SUMO_ATTR_VEHICLECLASS },
772  { "fuel", SUMO_ATTR_FUEL },
773  { "origin", SUMO_ATTR_ORIGIN },
774  { "destination", SUMO_ATTR_DESTINATION },
775  { "visible", SUMO_ATTR_VISIBLE },
776  { "limit", SUMO_ATTR_LIMIT },
777  { "arrivalTime", SUMO_ATTR_ARRIVALTIME },
778  { "arrivalTimeBraking", SUMO_ATTR_ARRIVALTIMEBRAKING },
779  { "arrivalSpeedBraking", SUMO_ATTR_ARRIVALSPEEDBRAKING },
780 
781 #ifndef WIN32
782  { "commandPosix", SUMO_ATTR_COMMAND },
783 #else
784  { "commandWindows", SUMO_ATTR_COMMAND },
785 #endif
786 
787  // ActivityGen statistics file
788  { "inhabitants", AGEN_ATTR_INHABITANTS },
789  { "households", AGEN_ATTR_HOUSEHOLDS },
790  { "childrenAgeLimit", AGEN_ATTR_CHILDREN },
791  { "retirementAgeLimit", AGEN_ATTR_RETIREMENT },
792  { "carRate", AGEN_ATTR_CARS },
793  { "unemploymentRate", AGEN_ATTR_UNEMPLOYEMENT },
794  { "laborDemand", AGEN_ATTR_LABORDEMAND },
795  { "footDistanceLimit", AGEN_ATTR_MAX_FOOT_DIST },
796  { "incomingTraffic", AGEN_ATTR_IN_TRAFFIC },
797  { "incoming", AGEN_ATTR_INCOMING },
798  { "outgoingTraffic", AGEN_ATTR_OUT_TRAFFIC },
799  { "outgoing", AGEN_ATTR_OUTGOING },
800  { "population", AGEN_ATTR_POPULATION },
801  { "workPosition", AGEN_ATTR_OUT_WORKPOSITION },
802  { "hour", AGEN_ATTR_HOUR },
803  { "proportion", AGEN_ATTR_PROP },
804  { "capacity", AGEN_ATTR_CAPACITY },
805  { "opening", AGEN_ATTR_OPENING },
806  { "closing", AGEN_ATTR_CLOSING },
807  { "maxTripDuration", AGEN_ATTR_MAX_TRIP_DURATION },
808  { "rate", AGEN_ATTR_RATE },
809  { "beginAge", AGEN_ATTR_BEGINAGE },
810  { "endAge", AGEN_ATTR_ENDAGE },
811  { "peopleNbr", AGEN_ATTR_PEOPLENBR },
812  { "carPreference", AGEN_ATTR_CARPREF },
813  { "meanTimePerKmInCity", AGEN_ATTR_CITYSPEED },
814  { "freeTimeActivityRate", AGEN_ATTR_FREETIMERATE },
815  { "uniformRandomTraffic", AGEN_ATTR_UNI_RAND_TRAFFIC },
816  { "departureVariation", AGEN_ATTR_DEP_VARIATION },
817 
818  // NETEDIT Attributes
819  { "selected", GNE_ATTR_SELECTED },
820  { "modificationStatusNotForPrinting", GNE_ATTR_MODIFICATION_STATUS },
821  { "shapeStart", GNE_ATTR_SHAPE_START },
822  { "shapeEnd", GNE_ATTR_SHAPE_END },
823  { "bidiRail", GNE_ATTR_BIDIR },
824  { "blockMovement", GNE_ATTR_BLOCK_MOVEMENT },
825  { "blockShape", GNE_ATTR_BLOCK_SHAPE },
826  { "closedShape", GNE_ATTR_CLOSE_SHAPE },
827  { "parentItem", GNE_ATTR_PARENT },
828  { "dataSet", GNE_ATTR_DATASET },
829  { "genericParameter", GNE_ATTR_PARAMETERS },
830  { "defaultVTypeModified", GNE_ATTR_DEFAULT_VTYPE_MODIFIED },
831  { "centerAfterCreation", GNE_ATTR_CENTER_AFTER_CREATION },
832  { "fromBusStop", GNE_ATTR_FROM_BUSSTOP },
833  { "toBusStop", GNE_ATTR_TO_BUSSTOP },
834  { "fromStop", GNE_ATTR_FROM_STOP },
835  { "toStop", GNE_ATTR_TO_STOP },
836  { "opposite", GNE_ATTR_OPPOSITE },
837 
838  { "carriageLength", SUMO_ATTR_CARRIAGE_LENGTH },
839  { "locomotiveLength", SUMO_ATTR_LOCOMOTIVE_LENGTH },
840  { "carriageGap", SUMO_ATTR_CARRIAGE_GAP },
841 
842  { "targetLanes", SUMO_ATTR_TARGETLANE },
843  { "crossing", SUMO_ATTR_CROSSING },
844 
845  { "xmlns:xsi", SUMO_ATTR_XMLNS },
846  { "xsi:noNamespaceSchemaLocation", SUMO_ATTR_SCHEMA_LOCATION },
847 
848  //@name RNG state saving attributes
849  // @{
850  { "routeHandler", SUMO_ATTR_RNG_ROUTEHANDLER },
851  { "insertionControl", SUMO_ATTR_RNG_INSERTIONCONTROL },
852  { "device", SUMO_ATTR_RNG_DEVICE },
853  { "device.btreceiver", SUMO_ATTR_RNG_DEVICE_BT },
854  { "device.toc", SUMO_ATTR_RNG_DEVICE_TOC },
855  { "driverState", SUMO_ATTR_RNG_DRIVERSTATE },
856  // @}
857 
858  //@name meso edge type attributes
859  // @{
860  { "tauff", SUMO_ATTR_MESO_TAUFF },
861  { "taufj", SUMO_ATTR_MESO_TAUFJ },
862  { "taujf", SUMO_ATTR_MESO_TAUJF },
863  { "taujj", SUMO_ATTR_MESO_TAUJJ },
864  { "junctionControl", SUMO_ATTR_MESO_JUNCTION_CONTROL },
865  { "tlsPenalty", SUMO_ATTR_MESO_TLS_PENALTY },
866  { "tlsFlowPenalty", SUMO_ATTR_MESO_TLS_FLOW_PENALTY },
867  { "minorPenalty", SUMO_ATTR_MESO_MINOR_PENALTY },
868  { "overtaking", SUMO_ATTR_MESO_OVERTAKING },
869  // @}
870 
871  // Other
872  { "", SUMO_ATTR_NOTHING } //< must be the last one
873 };
874 
875 
876 const std::string SUMO_PARAM_ORIGID("origId");
877 
878 
880  {"traffic_light", SumoXMLNodeType::TRAFFIC_LIGHT},
881  {"traffic_light_unregulated", SumoXMLNodeType::TRAFFIC_LIGHT_NOJUNCTION},
882  {"traffic_light_right_on_red", SumoXMLNodeType::TRAFFIC_LIGHT_RIGHT_ON_RED},
883  {"rail_signal", SumoXMLNodeType::RAIL_SIGNAL},
884  {"rail_crossing", SumoXMLNodeType::RAIL_CROSSING},
885  {"priority", SumoXMLNodeType::PRIORITY},
886  {"priority_stop", SumoXMLNodeType::PRIORITY_STOP},
887  {"right_before_left", SumoXMLNodeType::RIGHT_BEFORE_LEFT},
888  {"allway_stop", SumoXMLNodeType::ALLWAY_STOP},
889  {"zipper", SumoXMLNodeType::ZIPPER},
890  {"district", SumoXMLNodeType::DISTRICT},
891  {"unregulated", SumoXMLNodeType::NOJUNCTION},
892  {"internal", SumoXMLNodeType::INTERNAL},
893  {"dead_end", SumoXMLNodeType::DEAD_END},
895  {"unknown", SumoXMLNodeType::UNKNOWN} //< must be the last one
896 };
897 
898 
900  {"unknown", SumoXMLEdgeFunc::UNKNOWN},
901  {"normal", SumoXMLEdgeFunc::NORMAL},
902  {"connector", SumoXMLEdgeFunc::CONNECTOR},
903  {"crossing", SumoXMLEdgeFunc::CROSSING},
904  {"walkingarea", SumoXMLEdgeFunc::WALKINGAREA},
905  {"internal", SumoXMLEdgeFunc::INTERNAL} //< must be the last one
906 };
907 
908 
910  {"right", LaneSpreadFunction::RIGHT }, // default: geometry is left edge border, lanes flare to the right
911  {"roadCenter", LaneSpreadFunction::ROADCENTER }, // geometry is center of the bidirectional road
912  {"center", LaneSpreadFunction::CENTER } // geometry is center of the edge (must be the last one)
913 };
914 
916  {"edgePriority", RightOfWay::EDGEPRIORITY },
917  {"default", RightOfWay::DEFAULT } // default (must be the last one)
918 };
919 
921  {"outer", FringeType::OUTER },
922  {"inner", FringeType::INNER },
923  {"default", FringeType::DEFAULT } // default (must be the last one)
924 };
925 
927  {"none", PersonMode::NONE},
928  {"walk", PersonMode::WALK},
929  {"bicycle", PersonMode::BICYCLE },
930  {"car", PersonMode::CAR },
931  {"taxi", PersonMode::TAXI },
932  {"public", PersonMode::PUBLIC} // (must be the last one)
933 };
934 
936  { "G", LINKSTATE_TL_GREEN_MAJOR },
937  { "g", LINKSTATE_TL_GREEN_MINOR },
938  { "r", LINKSTATE_TL_RED },
939  { "u", LINKSTATE_TL_REDYELLOW },
940  { "Y", LINKSTATE_TL_YELLOW_MAJOR },
941  { "y", LINKSTATE_TL_YELLOW_MINOR },
942  { "o", LINKSTATE_TL_OFF_BLINKING },
943  { "O", LINKSTATE_TL_OFF_NOSIGNAL },
944  { "M", LINKSTATE_MAJOR },
945  { "m", LINKSTATE_MINOR },
946  { "=", LINKSTATE_EQUAL },
947  { "s", LINKSTATE_STOP },
948  { "w", LINKSTATE_ALLWAY_STOP },
949  { "Z", LINKSTATE_ZIPPER },
950  { "-", LINKSTATE_DEADEND } //< must be the last one
951 };
952 
956  LINKSTATE_STOP, // used for SumoXMLNodeType::TRAFFIC_LIGHT_RIGHT_ON_RED
963 };
964 const std::string SUMOXMLDefinitions::ALLOWED_TLS_LINKSTATES(AllowedTLS_linkStatesInitializer, 9);
965 
967  { "s", LinkDirection::STRAIGHT },
968  { "t", LinkDirection::TURN },
970  { "l", LinkDirection::LEFT },
971  { "r", LinkDirection::RIGHT },
972  { "L", LinkDirection::PARTLEFT },
973  { "R", LinkDirection::PARTRIGHT },
974  { "invalid", LinkDirection::NODIR } //< must be the last one
975 };
976 
977 
979  { "static", TrafficLightType::STATIC },
980  { "railSignal", TrafficLightType::RAIL_SIGNAL },
981  { "railCrossing", TrafficLightType::RAIL_CROSSING },
982  { "actuated", TrafficLightType::ACTUATED },
983  { "delay_based", TrafficLightType::DELAYBASED },
984  { "sotl_phase", TrafficLightType::SOTL_PHASE },
985  { "sotl_platoon", TrafficLightType::SOTL_PLATOON },
986  { "sotl_request", TrafficLightType::SOTL_REQUEST },
987  { "sotl_wave", TrafficLightType::SOTL_WAVE },
988  { "sotl_marching", TrafficLightType::SOTL_MARCHING },
989  { "swarm", TrafficLightType::SWARM_BASED },
990  { "deterministic", TrafficLightType::HILVL_DETERMINISTIC },
991  { "off", TrafficLightType::OFF },
992  { "<invalid>", TrafficLightType::INVALID } //< must be the last one
993 };
994 
995 
997  { "opposites", TrafficLightLayout::OPPOSITES },
998  { "incoming", TrafficLightLayout::INCOMING },
999  { "alternateOneWay", TrafficLightLayout::ALTERNATE_ONEWAY },
1000  { "", TrafficLightLayout::DEFAULT } //< must be the last one
1001 };
1002 
1003 
1005  { "DK2008", LCM_DK2008 },
1006  { "LC2013", LCM_LC2013 },
1007  { "SL2015", LCM_SL2015 },
1008  { "default", LCM_DEFAULT } //< must be the last one
1009 };
1010 
1012  { "IDM", SUMO_TAG_CF_IDM },
1013  { "IDMM", SUMO_TAG_CF_IDMM },
1014  { "Krauss", SUMO_TAG_CF_KRAUSS },
1015  { "KraussPS", SUMO_TAG_CF_KRAUSS_PLUS_SLOPE },
1016  { "KraussOrig1", SUMO_TAG_CF_KRAUSS_ORIG1 },
1017  { "KraussX", SUMO_TAG_CF_KRAUSSX }, // experimental extensions to the Krauss model
1018  { "SmartSK", SUMO_TAG_CF_SMART_SK },
1019  { "Daniel1", SUMO_TAG_CF_DANIEL1 },
1020  { "PWagner2009", SUMO_TAG_CF_PWAGNER2009 },
1021  { "BKerner", SUMO_TAG_CF_BKERNER },
1022  { "Rail", SUMO_TAG_CF_RAIL },
1023  { "CC", SUMO_TAG_CF_CC },
1024  { "ACC", SUMO_TAG_CF_ACC },
1025  { "CACC", SUMO_TAG_CF_CACC },
1026  { "W99", SUMO_TAG_CF_W99 },
1027  { "Wiedemann", SUMO_TAG_CF_WIEDEMANN } //< must be the last one
1028 };
1029 
1031  { "right", LATALIGN_RIGHT },
1032  { "center", LATALIGN_CENTER },
1033  { "arbitrary", LATALIGN_ARBITRARY },
1034  { "nice", LATALIGN_NICE },
1035  { "compact", LATALIGN_COMPACT },
1036  { "left", LATALIGN_LEFT } //< must be the last one
1037 };
1038 
1040  { "stay", LCA_STAY },
1041  { "left", LCA_LEFT },
1042  { "right", LCA_RIGHT },
1043  { "strategic", LCA_STRATEGIC },
1044  { "cooperative", LCA_COOPERATIVE },
1045  { "speedGain", LCA_SPEEDGAIN },
1046  { "keepRight", LCA_KEEPRIGHT },
1047  { "sublane", LCA_SUBLANE },
1048  { "traci", LCA_TRACI },
1049  { "urgent", LCA_URGENT },
1050  { "overlapping", LCA_OVERLAPPING },
1051  { "blocked", LCA_BLOCKED },
1052  { "amBL", LCA_AMBLOCKINGLEADER },
1053  { "amBF", LCA_AMBLOCKINGFOLLOWER },
1054  { "amBB", LCA_AMBACKBLOCKER },
1055  { "amBBS", LCA_AMBACKBLOCKER_STANDING },
1056  { "MR", LCA_MRIGHT },
1057  { "ML", LCA_MLEFT },
1058 
1059  { "unknown", LCA_UNKNOWN } //< must be the last one
1060 };
1061 
1063  { "NGT400", TRAINTYPE_NGT400 },
1064  { "NGT400_16", TRAINTYPE_NGT400_16 },
1065  { "RB425", TRAINTYPE_RB425 },
1066  { "RB628", TRAINTYPE_RB628 },
1067  { "ICE1", TRAINTYPE_ICE1 },
1068  { "REDosto7", TRAINTYPE_REDOSTO7 },
1069  { "Freight", TRAINTYPE_FREIGHT },
1070  { "ICE3", TRAINTYPE_ICE3 }
1071 };
1072 
1073 
1076 
1079 
1082 
1085 
1088 
1091 
1094 
1097 
1100 
1103 
1106 
1109 
1112 
1115 
1118 
1121 
1124 
1125 
1126 std::string
1127 SUMOXMLDefinitions::getJunctionIDFromInternalEdge(const std::string internalEdge) {
1128  assert(internalEdge[0] == ':');
1129  return internalEdge.substr(1, internalEdge.rfind('_') - 1);
1130 }
1131 
1132 
1133 std::string
1134 SUMOXMLDefinitions::getEdgeIDFromLane(const std::string laneID) {
1135  return laneID.substr(0, laneID.rfind('_'));
1136 }
1137 
1138 
1139 bool
1140 SUMOXMLDefinitions::isValidNetID(const std::string& value) {
1141  return (value.size() > 0) && value.find_first_of(" \t\n\r|\\'\";,:!<>&*?") == std::string::npos;
1142 }
1143 
1144 
1145 bool
1146 SUMOXMLDefinitions::isValidVehicleID(const std::string& value) {
1147  return (value.size() > 0) && value.find_first_of(" \t\n\r|\\'\";,!<>&*?") == std::string::npos;
1148 }
1149 
1150 
1151 bool
1152 SUMOXMLDefinitions::isValidTypeID(const std::string& value) {
1153  return (value.size() > 0) && value.find_first_of(" \t\n\r|\\'\";,<>&*?") == std::string::npos;
1154 }
1155 
1156 bool
1157 SUMOXMLDefinitions::isValidAdditionalID(const std::string& value) {
1158  return (value.size() > 0) && value.find_first_of(" \t\n\r|\\'\";,!<>&*?") == std::string::npos;
1159 }
1160 
1161 bool
1162 SUMOXMLDefinitions::isValidDetectorID(const std::string& value) {
1163  // special case: ' ' allowed
1164  return (value.size() > 0) && value.find_first_of("\t\n\r|\\'\";,!<>&*?") == std::string::npos;
1165 }
1166 
1167 bool
1168 SUMOXMLDefinitions::isValidAttribute(const std::string& value) {
1169  return value.find_first_of("\t\n\r@$%^&/|\\{}*'\";<>") == std::string::npos;
1170 }
1171 
1172 
1173 bool
1174 SUMOXMLDefinitions::isValidFilename(const std::string& value) {
1175  return (value.find_first_of("\t\n\r@$%^&|{}*'\";<>") == std::string::npos);
1176 }
1177 
1178 
1179 bool
1180 SUMOXMLDefinitions::isValidListOfNetIDs(const std::string& value) {
1181  const std::vector<std::string>& typeIDs = StringTokenizer(value).getVector();
1182  if (typeIDs.empty()) {
1183  return false;
1184  } else {
1185  // check that gives IDs are valid
1186  for (auto i : typeIDs) {
1188  return false;
1189  }
1190  }
1191  return true;
1192  }
1193 }
1194 
1195 
1196 bool
1197 SUMOXMLDefinitions::isValidListOfTypeID(const std::string& value) {
1198  const std::vector<std::string>& typeIDs = StringTokenizer(value).getVector();
1199  if (typeIDs.empty()) {
1200  return false;
1201  } else {
1202  // check that gives IDs are valid
1203  for (const auto& i : typeIDs) {
1205  return false;
1206  }
1207  }
1208  return true;
1209  }
1210 }
1211 
1212 
1213 bool
1214 SUMOXMLDefinitions::isValidParameterKey(const std::string& value) {
1215  // Generic parameters keys cannot be empty
1216  if (value.empty()) {
1217  return false;
1218  } else {
1219  return isValidAttribute(value);
1220  }
1221 }
1222 
1223 /****************************************************************************/
const std::string SUMO_PARAM_ORIGID("origId")
@ TRAINTYPE_ICE1
@ TRAINTYPE_FREIGHT
@ TRAINTYPE_RB628
@ TRAINTYPE_NGT400
@ TRAINTYPE_NGT400_16
@ TRAINTYPE_ICE3
@ TRAINTYPE_REDOSTO7
@ TRAINTYPE_RB425
@ SUMO_TAG_TRACTION_SUBSTATION
A traction substation.
@ SUMO_TAG_PHASE
a single phase description
@ SUMO_TAG_INCLUDE
@ SUMO_TAG_RAILSIGNAL_CONSTRAINTS
Constraints on switching a rail signal.
@ GNE_TAG_WALK_BUSSTOP_BUSSTOP
@ SUMO_TAG_MEMBER
@ SUMO_TAG_LINK
Link information for state-saving.
@ GNE_TAG_PERSONTRIP_EDGE_EDGE
@ GNE_TAG_PERSONSTOP_BUSSTOP
@ SUMO_TAG_INTERVAL
an aggreagated-output interval
@ SUMO_TAG_CLOSING_REROUTE
reroute of type closing
@ GNE_TAG_RIDE_BUSSTOP_BUSSTOP
@ SUMO_TAG_TRANSPORTABLES
@ SUMO_TAG_TRIP_TAZ
a single trip definition that uses TAZs (used in NETEDIT)
@ SUMO_TAG_NET
root element of a network file
@ SUMO_TAG_STOP_CONTAINERSTOP
stop placed over a containerStop (used in netedit)
@ SUMO_TAG_APPROACHING
Link-approaching vehicle information for state-saving.
@ SUMO_TAG_REROUTER
A rerouter.
@ AGEN_TAG_CITYGATES
city entrances
@ SUMO_TAG_EDGEREL
a relation between two edges
@ AGEN_TAG_STATION
station for a certain vehicle
@ SUMO_TAG_ROUTES
root element of a route file
@ SUMO_TAG_INSERTION_PREDECESSOR
Predecessor constraint on insertion before rail signal.
@ SUMO_TAG_DATAINTERVAL
@ SUMO_TAG_STOPOFFSET
Information on vClass specific stop offsets at lane end.
@ AGEN_TAG_STREET
streets object
@ SUMO_TAG_WAUT_JUNCTION
@ SUMO_TAG_REQUEST
description of a logic request within the junction
@ SUMO_TAG_WAUT_SWITCH
@ SUMO_TAG_ROUTEPROBE
a routeprobe detector
@ GNE_TAG_WALK_EDGE_STOP
@ SUMO_TAG_CF_KRAUSS
@ SUMO_TAG_CF_BKERNER
@ SUMO_TAG_JOINEXCLUDE
join exlude operation
@ GNE_TAG_PERSONTRIP_BUSSTOP_EDGE
@ SUMO_TAG_DEVICE
@ SUMO_TAG_CF_KRAUSSX
@ SUMO_TAG_TAZ
a traffic assignment zone
@ AGEN_TAG_BRACKET
alternative definition for Population
@ SUMO_TAG_TIMEDEVENT
The definition of a periodic event.
@ SUMO_TAG_CF_CACC
@ AGEN_TAG_FREQUENCY
frequency of a object
@ SUMO_TAG_E2DETECTOR
an e2 detector
@ GNE_TAG_PERSONTRIP_STOP_EDGE
@ SUMO_TAG_CHARGING_STATION
A Charging Station.
@ SUMO_TAG_VTYPE
description of a vehicle type
@ SUMO_TAG_ACCESS
An access point for a train stop.
@ SUMO_TAG_E2DETECTOR_MULTILANE
an e2 detector over multiple lanes (used by Netedit)
@ SUMO_TAG_TIMESTEP
@ SUMO_TAG_WALK
@ SUMO_TAG_NOTHING
invalid tag
@ SUMO_TAG_CF_CC
@ SUMO_TAG_VIEWSETTINGS_POIS
@ SUMO_TAG_TRANSHIP
@ GNE_TAG_WALK_EDGES
@ SUMO_TAG_PT_LINE
A pt line.
@ SUMO_TAG_CONTAINER_STOP
A container stop.
@ GNE_TAG_RIDE_STOP_BUSSTOP
@ AGEN_TAG_SCHOOL
schools object
@ SUMO_TAG_RNGLANE
@ SUMO_TAG_COLORSCHEME
@ SUMO_TAG_STOP_CHARGINGSTATION
stop placed over a charging station (used in netedit)
@ SUMO_TAG_CF_KRAUSS_PLUS_SLOPE
@ SUMO_TAG_TAZSINK
a sink within a district (connection road)
@ SUMO_TAG_STOP_LANE
stop placed over a lane (used in netedit)
@ SUMO_TAG_CF_IDM
@ SUMO_TAG_BUS_STOP
A bus stop.
@ SUMO_TAG_POI
begin/end of the description of a Point of interest
@ SUMO_TAG_LANECALIBRATOR
A calibrator placed over lane (used in netedit)
@ SUMO_TAG_FLOWSTATE
a flow state definition (used when saving and loading simulatino state)
@ SUMO_TAG_MESO
edge-specific meso settings
@ GNE_TAG_INTERNAL_LANE
@ SUMO_TAG_CF_W99
@ SUMO_TAG_CF_RAIL
@ SUMO_TAG_STOP
stop for vehicles
@ SUMO_TAG_MEANDATA_LANE
a lane based mean data detector
@ SUMO_TAG_STEP
trigger: a step description
@ SUMO_TAG_PROHIBITION
prohibition of circulation between two edges
@ AGEN_TAG_CLOSING
closing for workingHours object
@ GNE_TAG_PERSONTRIP_EDGE_STOP
@ GNE_TAG_WALK_STOP_EDGE
@ SUMO_TAG_VEHICLE
description of a vehicle
@ SUMO_TAG_LOCATION
@ SUMO_TAG_VIEWSETTINGS_BACKGROUND
@ AGEN_TAG_POPULATION
population and children accompaniment brackets
@ GNE_TAG_FLOW_ROUTE
a flow definition using a route instead of a from-to edges route (used in NETEDIT)
@ SUMO_TAG_ROUTE_DISTRIBUTION
distribution of a route
@ SUMO_TAG_VIEWSETTINGS_LEGEND
@ AGEN_TAG_REV_STATIONS
rev stations for certain vehicles
@ SUMO_TAG_CF_SMART_SK
@ SUMO_TAG_RESTRICTION
begin/end of the description of an edge restriction
@ SUMO_TAG_OVERHEAD_WIRE_CLAMP
An overhead wire clamp (connection of wires in opposite directions)
@ SUMO_TAG_RAILSIGNAL_CONSTRAINT_TRACKER
Saved state for constraint tracker.
@ SUMO_TAG_RNGSTATE
@ SUMO_TAG_OD_PAIR
@ GNE_TAG_VSS_SYMBOL
VSS Symbol.
@ SUMO_TAG_ENTRY
@ AGEN_TAG_WORKHOURS
workingHours object
@ SUMO_TAG_CF_PWAGNER2009
@ SUMO_TAG_CF_KRAUSS_ORIG1
@ SUMO_TAG_VIEWSETTINGS_EVENT
@ SUMO_TAG_TOEDGE
Outgoing edge specification (jtrrouter)
@ SUMO_TAG_LANETYPE
lane type
@ SUMO_TAG_CF_WIEDEMANN
@ GNE_TAG_FLOW_WITHROUTE
description of a vehicle with an embedded route (used in NETEDIT)
@ SUMO_TAG_JOIN
Join operation.
@ SUMO_TAG_FLOW
a flow definitio nusing a from-to edges instead of a route (used by router)
@ GNE_TAG_RIDE_BUSSTOP_EDGE
@ SUMO_TAG_DELAY
@ SUMO_TAG_CONNECTION
connectio between two lanes
@ SUMO_TAG_PARKING_AREA
A parking area.
@ AGEN_TAG_SCHOOLS
school object
@ AGEN_TAG_STATIONS
stations for certain vehicles
@ SUMO_TAG_TRANSPORT
@ SUMO_TAG_PARKING_ZONE_REROUTE
entry for an alternative parking zone
@ GNE_TAG_RIDE_EDGE_EDGE
@ SUMO_TAG_ND
@ SUMO_TAG_ROUNDABOUT
roundabout defined in junction
@ AGEN_TAG_OPENING
opening for workingHours object
@ SUMO_TAG_WALKINGAREA
walking area for pedestrians
@ SUMO_TAG_ROUTE_PROB_REROUTE
probability of route of a reroute
@ GNE_TAG_WALK_BUSSTOP_STOP
@ SUMO_TAG_DET_ENTRY
an e3 entry point
@ SUMO_TAG_VIEWSETTINGS_OPENGL
@ GNE_TAG_PERSONSTOP_EDGE
@ SUMO_TAG_TLLOGIC
a traffic light logic
@ SUMO_TAG_SCALINGSCHEME
@ SUMO_TAG_VIEWSETTINGS_ADDITIONALS
@ SUMO_TAG_PARKING_SPACE
A parking space for a single vehicle within a parking area.
@ SUMO_TAG_TRAJECTORIES
@ SUMO_TAG_VIEWSETTINGS_EVENT_JAM_TIME
@ AGEN_TAG_GENERAL
ActivityGen Tags.
@ SUMO_TAG_CONTAINER
@ SUMO_TAG_JUNCTION
begin/end of the description of a junction
@ SUMO_TAG_MOTIONSTATE
@ SUMO_TAG_CROSSING
crossing between edges for pedestrians
@ GNE_TAG_PERSONTRIP_STOP_STOP
@ GNE_TAG_WALK_EDGE_EDGE
@ SUMO_TAG_VIEWSETTINGS_PERSONS
@ SUMO_TAG_VIEWSETTINGS_JUNCTIONS
@ SUMO_TAG_WAY
@ SUMO_TAG_EDGEFOLLOWDETECTOR
An edge-following detector.
@ SUMO_TAG_VIEWSETTINGS_VEHICLES
@ SUMO_TAG_ROUTE
begin/end of the description of a route
@ SUMO_TAG_MEANDATA_EDGE
an edge based mean data detector
@ SUMO_TAG_POLY
begin/end of the description of a polygon
@ SUMO_TAG_RIDE
@ SUMO_TAG_FROMEDGE
Incoming edge specification (jtrrouter)
@ SUMO_TAG_OVERHEAD_WIRE_SECTION
An overhead wire section.
@ GNE_TAG_PERSONTRIP_EDGE_BUSSTOP
@ SUMO_TAG_SINK
Sink(s) specification.
@ SUMO_TAG_VTYPEPROBE
a vtypeprobe detector
@ SUMO_TAG_SNAPSHOT
@ SUMO_TAG_TRAIN_STOP
A train stop (alias for bus stop)
@ SUMO_TAG_SOURCE
a source
@ SUMO_TAG_VIEWSETTINGS_EDGES
@ SUMO_TAG_OVERHEAD_WIRE_SEGMENT
An overhead wire segment.
@ SUMO_TAG_STOP_BUSSTOP
stop placed over a busStop (used in netedit)
@ SUMO_TAG_VTYPE_DISTRIBUTION
distribution of a vehicle type
@ SUMO_TAG_NODE
alternative definition for junction
@ SUMO_TAG_LANE
begin/end of the description of a single lane
@ GNE_TAG_WALK_BUSSTOP_EDGE
@ GNE_TAG_WALK_STOP_BUSSTOP
@ SUMO_TAG_INSTANT_INDUCTION_LOOP
An instantenous induction loop.
@ SUMO_TAG_BREAKPOINT
@ GNE_TAG_VEHICLE_WITHROUTE
@ GNE_TAG_RIDE_STOP_EDGE
@ GNE_TAG_RIDE_EDGE_BUSSTOP
@ GNE_TAG_PERSONTRIP_BUSSTOP_STOP
@ SUMO_TAG_POILANE
begin/end of the description of a Point of interest over Lane (used by Netedit)
@ SUMO_TAG_DEST_PROB_REROUTE
probability of destiny of a reroute
@ SUMO_TAG_DATASET
@ SUMO_TAG_VIEWSETTINGS_DECAL
@ SUMO_TAG_SEGMENT
segment of a lane
@ SUMO_TAG_PARAM
parameter associated to a certain key
@ SUMO_TAG_E1DETECTOR
an e1 detector
@ GNE_TAG_RIDE_STOP_STOP
@ GNE_TAG_PERSONTRIP_BUSSTOP_BUSSTOP
@ AGEN_TAG_ENTRANCE
alternative definition for city entrances
@ SUMO_TAG_VIEWSETTINGS_SCHEME
@ SUMO_TAG_PERSON
@ SUMO_TAG_DET_EXIT
an e3 exit point
@ SUMO_TAG_PERSONTRIP
@ SUMO_TAG_TYPE
type (edge)
@ SUMO_TAG_POLYTYPE
type of polygon
@ GNE_TAG_RIDE_BUSSTOP_STOP
@ SUMO_TAG_TIMESLICE
@ SUMO_TAG_VAPORIZER
vaporizer of vehicles
@ SUMO_TAG_LANE_AREA_DETECTOR
alternative tag for e2 detector
@ GNE_TAG_REROUTER_SYMBOL
Rerouter Symbol.
@ SUMO_TAG_STOP_PARKINGAREA
stop placed over a parking area (used in netedit)
@ SUMO_TAG_WAUT
@ SUMO_TAG_ACTORCONFIG
@ AGEN_TAG_PARAM
parameters
@ SUMO_TAG_VEHICLETRANSFER
@ SUMO_TAG_TAZREL
a relation between two TAZs
@ SUMO_TAG_DETECTOR_DEFINITION
definition of a detector
@ GNE_TAG_RIDE_EDGE_STOP
@ SUMO_TAG_TAZSOURCE
a source within a district (connection road)
@ GNE_TAG_WALK_STOP_STOP
@ GNE_TAG_PERSONTRIP_STOP_BUSSTOP
@ GNE_TAG_WALK_EDGE_BUSSTOP
@ SUMO_TAG_CLOSING_LANE_REROUTE
lane of a reroute of type closing
@ SUMO_TAG_RELATION
@ SUMO_TAG_PTYPE
description of a person type (used in NETEDIT)
@ AGEN_TAG_BUSSTATION
busStation and bus objects
@ GNE_TAG_ROUTE_EMBEDDED
embedded route (used in NETEDIT)
@ SUMO_TAG_NEIGH
begin/end of the description of a neighboring lane
@ SUMO_TAG_CF_IDMM
@ SUMO_TAG_INDUCTION_LOOP
alternative tag for e1 detector
@ SUMO_TAG_TRAFFIC_LIGHT
a traffic light
@ AGEN_TAG_BUSLINE
bus line
@ SUMO_TAG_VIEWSETTINGS
@ SUMO_TAG_CALIBRATOR
A calibrator placed over edge.
@ SUMO_TAG_VIEWPORT
@ SUMO_TAG_ENTRY_EXIT_DETECTOR
alternative tag for e3 detector
@ SUMO_TAG_SPLIT
split something
@ SUMO_TAG_DEL
delete certain element (note: DELETE is a macro)
@ SUMO_TAG_E3DETECTOR
an e3 detector
@ SUMO_TAG_VIEWSETTINGS_LIGHT
@ SUMO_TAG_VSS
A variable speed sign.
@ SUMO_TAG_FLOW_CALIBRATOR
a flow definition within in Calibrator (used in NETEDIT)
@ SUMO_TAG_VIEWSETTINGS_POLYS
@ SUMO_TAG_CF_DANIEL1
@ GNE_TAG_WALK_ROUTE
@ SUMO_TAG_PREDECESSOR
Predecessor constraint on switching a rail signal.
@ SUMO_TAG_VIEWSETTINGS_CONTAINERS
@ SUMO_TAG_PERSONFLOW
@ SUMO_TAG_TRIP
a single trip definition (used by router)
@ SUMO_TAG_TAG
@ SUMO_TAG_CF_ACC
@ SUMO_TAG_EDGE
begin/end of the description of an edge
@ LATALIGN_RIGHT
drive on the right side
@ LATALIGN_LEFT
drive on the left side
@ LATALIGN_CENTER
drive in the middle
@ LATALIGN_ARBITRARY
maintain the current alignment
@ LATALIGN_NICE
align with the closest sublane border
@ LATALIGN_COMPACT
align with the rightmost sublane that allows keeping the current speed
@ PARTLEFT
The link is a partial left direction.
@ RIGHT
The link is a (hard) right direction.
@ TURN
The link is a 180 degree turn.
@ LEFT
The link is a (hard) left direction.
@ STRAIGHT
The link is a straight direction.
@ TURN_LEFTHAND
The link is a 180 degree turn (left-hand network)
@ PARTRIGHT
The link is a partial right direction.
@ NODIR
The link has no direction (is a dead end link)
@ LINKSTATE_TL_REDYELLOW
The link has red light (must brake) but indicates upcoming green.
@ LINKSTATE_ALLWAY_STOP
This is an uncontrolled, all-way stop link.
@ LINKSTATE_MAJOR
This is an uncontrolled, major link, may pass.
@ LINKSTATE_STOP
This is an uncontrolled, minor link, has to stop.
@ LINKSTATE_TL_YELLOW_MAJOR
The link has yellow light, may pass.
@ LINKSTATE_TL_GREEN_MAJOR
The link has green light, may pass.
@ LINKSTATE_EQUAL
This is an uncontrolled, right-before-left link.
@ LINKSTATE_DEADEND
This is a dead end link.
@ LINKSTATE_ZIPPER
This is an uncontrolled, zipper-merge link.
@ LINKSTATE_TL_OFF_BLINKING
The link is controlled by a tls which is off and blinks, has to brake.
@ LINKSTATE_TL_YELLOW_MINOR
The link has yellow light, has to brake anyway.
@ LINKSTATE_TL_RED
The link has red light (must brake)
@ LINKSTATE_TL_GREEN_MINOR
The link has green light, has to brake.
@ LINKSTATE_MINOR
This is an uncontrolled, minor link, has to brake.
@ LINKSTATE_TL_OFF_NOSIGNAL
The link is controlled by a tls which is off, not blinking, may pass.
@ LCA_KEEPRIGHT
The action is due to the default of keeping right "Rechtsfahrgebot".
@ LCA_UNKNOWN
The action has not been determined.
@ LCA_BLOCKED
blocked in all directions
@ LCA_URGENT
The action is urgent (to be defined by lc-model)
@ LCA_STAY
Needs to stay on the current lane.
@ LCA_SUBLANE
used by the sublane model
@ LCA_AMBACKBLOCKER
@ LCA_AMBLOCKINGLEADER
@ LCA_COOPERATIVE
The action is done to help someone else.
@ LCA_OVERLAPPING
The vehicle is blocked being overlapping.
@ LCA_LEFT
Wants go to the left.
@ LCA_MRIGHT
@ LCA_STRATEGIC
The action is needed to follow the route (navigational lc)
@ LCA_AMBACKBLOCKER_STANDING
@ LCA_TRACI
The action is due to a TraCI request.
@ LCA_SPEEDGAIN
The action is due to the wish to be faster (tactical lc)
@ LCA_RIGHT
Wants go to the right.
@ LCA_MLEFT
@ LCA_AMBLOCKINGFOLLOWER
@ LCM_SL2015
@ LCM_LC2013
@ LCM_DEFAULT
@ LCM_DK2008
@ SUMO_ATTR_TMP4
@ SUMO_ATTR_CF_W99_CC9
@ SUMO_ATTR_GCC_GAIN_GAP_DOT_CACC
@ AGEN_ATTR_FREETIMERATE
@ SUMO_ATTR_CONTAINER_TRIGGERED
@ SUMO_ATTR_TRACTIONSUBSTATIONID
@ SUMO_ATTR_PREFER
@ SUMO_ATTR_NOX_ABS
@ SUMO_ATTR_STARTPOS
@ AGEN_ATTR_RETIREMENT
@ SUMO_ATTR_SOURCE
@ SUMO_ATTR_NODE
@ SUMO_ATTR_COSTS
@ SUMO_ATTR_PARKING
@ SUMO_ATTR_EXTENSION
@ SUMO_ATTR_CF_W99_CC5
@ SUMO_ATTR_FUEL_PERVEH
@ SUMO_ATTR_LCA_PUSHY
@ SUMO_ATTR_PARTIALCHARGE
energy provied by charging station at certain timestep
@ SUMO_ATTR_DISALLOW
@ SUMO_ATTR_LINES
@ SUMO_ATTR_CF_CC_FLATBED_KP
@ SUMO_ATTR_CONV_BOUNDARY
@ SUMO_ATTR_LAST
@ SUMO_ATTR_NUMBER
@ SUMO_ATTR_ALLOW
@ SUMO_ATTR_ARRIVALSPEED
@ SUMO_ATTR_AVERAGESPEED
@ SUMO_ATTR_GCC_GAIN_SPEED
@ SUMO_ATTR_LANE
@ SUMO_ATTR_NOISE
MSMeanData_Harmonoise.
@ SUMO_ATTR_NET_OFFSET
@ GNE_ATTR_FROM_BUSSTOP
from busStop (used by personPlans)
@ SUMO_ATTR_EMISSIONCLASS
@ SUMO_ATTR_REMOVE
@ SUMO_ATTR_JM_IGNORE_FOE_SPEED
@ SUMO_ATTR_ARRIVALLANE
@ SUMO_ATTR_DEPART
@ SUMO_ATTR_CONT
@ SUMO_ATTR_CF_CC_LAMBDA
@ SUMO_ATTR_NODES
a list of node ids, used for controlling joining
@ AGEN_ATTR_DEP_VARIATION
@ SUMO_ATTR_ORIG_BOUNDARY
@ SUMO_ATTR_DEPARTEDGE
@ SUMO_ATTR_CF_CC_FLATBED_D
@ SUMO_ATTR_MESO_TLS_FLOW_PENALTY
@ SUMO_ATTR_TLLINKINDEX2
link: the index of the opposite direction link of a pedestrian crossing
@ SUMO_ATTR_LON
@ SUMO_ATTR_RNG_INSERTIONCONTROL
@ GNE_ATTR_CENTER_AFTER_CREATION
flag to center camera after element creation
@ SUMO_ATTR_TOTALENERGYCHARGED
@ SUMO_ATTR_MESO_JUNCTION_CONTROL
@ SUMO_ATTR_REFID
@ SUMO_ATTR_HREF
@ SUMO_ATTR_VEHSPERHOUR
@ SUMO_ATTR_VIALONLAT
@ SUMO_ATTR_HC_NORMED
@ SUMO_ATTR_JM_IGNORE_KEEPCLEAR_TIME
@ SUMO_ATTR_SPEED
@ SUMO_ATTR_LCA_COOPERATIVE_SPEED
@ SUMO_ATTR_LINKDETAIL
@ AGEN_ATTR_LABORDEMAND
@ AGEN_ATTR_CAPACITY
@ SUMO_ATTR_FUEL_NORMED
@ SUMO_ATTR_CO_PERVEH
@ SUMO_ATTR_MAXIMUMPOWER
Maximum Power.
@ SUMO_ATTR_ARRIVALTIME
@ SUMO_ATTR_ENERGYCONSUMED
Energy consumed.
@ SUMO_ATTR_WAITINGTIME
@ SUMO_ATTR_OVERHEAD_WIRE_SECTION
@ SUMO_ATTR_WIDTHRESOLUTION
@ SUMO_ATTR_VALUE
@ AGEN_ATTR_CHILDREN
@ SUMO_ATTR_ENERGYCHARGEDSTOPPED
Energy charged stopped.
@ SUMO_ATTR_VIA
@ SUMO_ATTR_OVERLAPTRAVELTIME
@ SUMO_ATTR_CF_CC_FLATBED_KA
@ SUMO_ATTR_RNG_DRIVERSTATE
@ SUMO_ATTR_GEOPOSITION
@ SUMO_ATTR_CORNERDETAIL
@ SUMO_ATTR_CF_CC_PLOEG_KP
@ SUMO_ATTR_ELECTRICITY_ABS
@ SUMO_ATTR_THRESHOLD
@ SUMO_ATTR_CF_WIEDEMANN_SECURITY
@ SUMO_ATTR_LCA_ASSERTIVE
@ SUMO_ATTR_RADIUS
The turning radius at an intersection in m.
@ SUMO_ATTR_LCA_LANE_DISCIPLINE
@ SUMO_ATTR_TRAIN_TYPE
@ SUMO_ATTR_FILE
@ SUMO_ATTR_PMX_PERVEH
@ SUMO_ATTR_PROCEDURE
@ SUMO_ATTR_CONTAINER_STOP
@ SUMO_ATTR_RECTANGULAR_LANE_CUT
@ SUMO_ATTR_PARKING_AREA
@ SUMO_ATTR_VIAXY
@ GNE_ATTR_OPPOSITE
neighboring lane, simplified lane attr instead of child element
@ SUMO_ATTR_Y
@ SUMO_ATTR_CF_IDMM_ADAPT_TIME
@ SUMO_ATTR_SUBSTATIONID
id of a traction substation substation
@ SUMO_ATTR_FROM_LANE
@ SUMO_ATTR_LANE_CHANGE_MODEL
@ SUMO_ATTR_Z
@ SUMO_ATTR_CF_KERNER_PHI
@ SUMO_ATTR_EDGE
@ SUMO_ATTR_LCA_TURN_ALIGNMENT_DISTANCE
@ SUMO_ATTR_GC_GAIN_SPACE
@ SUMO_ATTR_JM_STOPLINE_GAP
@ SUMO_ATTR_FROMJUNCTION
@ SUMO_ATTR_STOPPINGTRESHOLD
Stopping treshold.
@ SUMO_ATTR_JAM_DIST_THRESHOLD
@ SUMO_ATTR_LANECHANGEDFROM
@ SUMO_ATTR_DEPARTPOS_LAT
@ SUMO_ATTR_PARKING_LENGTH
@ GNE_ATTR_BLOCK_MOVEMENT
block movement of a graphic element
@ SUMO_ATTR_MESO_OVERTAKING
@ SUMO_ATTR_BUS_STOP
@ SUMO_ATTR_POSONLANE
Position on lane.
@ SUMO_ATTR_TRACK_VEHICLES
@ SUMO_ATTR_HC_PERVEH
@ SUMO_ATTR_RESPONSE
@ SUMO_ATTR_LCA_PUSHYGAP
@ SUMO_ATTR_ENDPOS
@ SUMO_ATTR_CA_GAIN_GAP_CACC
@ SUMO_ATTR_TARGETLANE
@ SUMO_ATTR_LCA_LOOKAHEADLEFT
@ SUMO_ATTR_LIMIT_TURN_SPEED
@ SUMO_ATTR_CHECKLANEFOES_ROUNDABOUT
@ SUMO_ATTR_APPARENTDECEL
@ SUMO_ATTR_VOLTAGE
voltage of the traction substation [V]
@ GNE_ATTR_PARENT
parent of an additional element
@ SUMO_ATTR_MAXSPEED_LAT
@ SUMO_ATTR_OFFSET
@ SUMO_ATTR_GC_GAIN_GAP_DOT_CACC
@ SUMO_ATTR_LCA_SPEEDGAIN_PARAM
@ SUMO_ATTR_CO2_NORMED
@ SUMO_ATTR_X
@ SUMO_ATTR_ARRIVALPOS
@ AGEN_ATTR_OUTGOING
@ SUMO_ATTR_SPLIT
@ SUMO_ATTR_TMP3
@ SUMO_ATTR_AVOID_OVERLAP
@ SUMO_ATTR_ACTTYPE
@ SUMO_ATTR_ACTIONSTEPLENGTH
@ SUMO_ATTR_TLLAYOUT
node: the layout of the traffic light program
@ SUMO_ATTR_WAUT_ID
@ AGEN_ATTR_PEOPLENBR
@ SUMO_ATTR_CENTER_Y
@ SUMO_ATTR_CF_CC_PLOEG_H
@ SUMO_ATTR_MAXIMUMBATTERYCAPACITY
Maxium battery capacity.
@ GNE_ATTR_SELECTED
element is selected
@ SUMO_ATTR_PROBS
@ SUMO_ATTR_STYLE
@ SUMO_ATTR_NOX_NORMED
@ SUMO_ATTR_TRAVELTIME
@ SUMO_ATTR_CUSTOMSHAPE
whether a given shape is user-defined
@ SUMO_ATTR_LCA_IMPATIENCE
@ SUMO_ATTR_BEGIN
weights: time range begin
@ SUMO_ATTR_MINGAP
@ SUMO_ATTR_LCA_COOPERATIVE_ROUNDABOUT
@ SUMO_ATTR_INTLANES
@ SUMO_ATTR_SPLIT_VTYPE
@ SUMO_ATTR_WITH_INTERNAL
@ AGEN_ATTR_PROP
@ SUMO_ATTR_EDGES
the edges of a route
@ AGEN_ATTR_UNI_RAND_TRAFFIC
@ SUMO_ATTR_OFF
@ SUMO_ATTR_ROUTEPROBE
@ SUMO_ATTR_LINEWIDTH
@ GNE_ATTR_PARAMETERS
parameters "key1=value1|key2=value2|...|keyN=valueN"
@ SUMO_ATTR_CA_GAIN_GAP_DOT_CACC
@ SUMO_ATTR_POSITION_LAT
@ AGEN_ATTR_HOUSEHOLDS
@ SUMO_ATTR_PMX_ABS
@ SUMO_ATTR_FUEL
@ SUMO_ATTR_MINWIDTH
@ SUMO_ATTR_GENERATE_WALKS
@ SUMO_ATTR_JM_DRIVE_AFTER_RED_TIME
@ SUMO_ATTR_HEADWAY_TIME_CACC_TO_ACC
@ SUMO_ATTR_FRINGE
Fringe type of node.
@ SUMO_ATTR_START_PROG
@ SUMO_ATTR_ONEWAY
@ SUMO_ATTR_OVERHEAD_WIRE_FORBIDDEN
forbidden lanes for overhead wire segment
@ AGEN_ATTR_INHABITANTS
@ SUMO_ATTR_BIDI
@ SUMO_ATTR_CF_CC_OMEGAN
@ SUMO_ATTR_CONTAINER_NUMBER
@ SUMO_ATTR_EXPECTED
@ SUMO_ATTR_PROHIBITED
@ SUMO_ATTR_HALTING_TIME_THRESHOLD
@ SUMO_ATTR_CF_CC_C1
@ SUMO_ATTR_TOLONLAT
@ AGEN_ATTR_OPENING
@ SUMO_ATTR_ROLLDRAGCOEFFICIENT
Roll Drag coefficient.
@ SUMO_ATTR_ORIGIN
@ SUMO_ATTR_TMP2
@ SUMO_ATTR_GEO
@ SUMO_ATTR_LIMIT
@ SUMO_ATTR_OVERHEAD_WIRE_CLAMP_END
id of the overhead wire segment, to the end of which the overhead wire clamp is connected
@ SUMO_ATTR_CF_W99_CC8
@ SUMO_ATTR_PRIORITY
@ SUMO_ATTR_ELECTRICITY_PERVEH
@ SUMO_ATTR_CA_GAIN_SPACE
@ SUMO_ATTR_LINE
@ SUMO_ATTR_CHARGING_STATION
@ SUMO_ATTR_LOADING_DURATION
@ SUMO_ATTR_CF_IDM_DELTA
@ SUMO_ATTR_MESO_TAUFF
@ SUMO_ATTR_LCA_SPEEDGAIN_LOOKAHEAD
@ SUMO_ATTR_LCA_MAXSPEEDLATFACTOR
@ SUMO_ATTR_ARRIVED
@ SUMO_ATTR_MANEUVER_ANGLE_TIMES
Class specific timing values for vehicle manoeuvering through angle ranges.
@ SUMO_ATTR_V
@ SUMO_ATTR_ROUTES
@ SUMO_ATTR_CF_CC_CCACCEL
@ SUMO_ATTR_GEOSHAPE
@ SUMO_ATTR_NUMLANES
@ SUMO_ATTR_LANES
@ SUMO_ATTR_DEFAULT
@ SUMO_ATTR_ARRIVALSPEEDBRAKING
@ GNE_ATTR_MODIFICATION_STATUS
whether a feature has been loaded,guessed,modified or approved
@ SUMO_ATTR_MODES
@ GNE_ATTR_CLOSE_SHAPE
Close shape of a polygon (Used by GNEPolys)
@ SUMO_ATTR_CONSTANTPOWERINTAKE
Constant Power Intake.
@ SUMO_ATTR_VTYPES
@ SUMO_ATTR_CF_PWAGNER2009_TAULAST
@ SUMO_ATTR_ZOOM
@ SUMO_ATTR_TOTALENERGYCHARGED_VEHICLE
total energy charged into a single vehicle
@ SUMO_ATTR_DESTINATION
@ AGEN_ATTR_INCOMING
@ SUMO_ATTR_CF_CC_PLOEG_KD
@ SUMO_ATTR_CF_CC_TAU
@ SUMO_ATTR_SHAPE
edge: the shape in xml-definition
@ SUMO_ATTR_GC_GAIN_GAP_CACC
@ SUMO_ATTR_LANECHANGEDTO
@ SUMO_ATTR_OVERHEAD_WIRE_SEGMENT
@ SUMO_ATTR_DEPARTPOS
@ SUMO_ATTR_CAR_FOLLOW_MODEL
@ SUMO_ATTR_RECUPERATIONEFFICIENCY_BY_DECELERATION
Recuperation efficiency (by deceleration)
@ SUMO_ATTR_LEFTHAND
@ SUMO_ATTR_DECEL
@ SUMO_ATTR_SIGNALS
@ SUMO_ATTR_LCA_MAXSPEEDLATSTANDING
@ SUMO_ATTR_GROUP
@ SUMO_ATTR_JM_DRIVE_AFTER_YELLOW_TIME
@ SUMO_ATTR_DEST
@ SUMO_ATTR_LCA_KEEPRIGHT_PARAM
@ SUMO_ATTR_WEIGHT
@ SUMO_ATTR_NEXT
succesor phase index
@ SUMO_ATTR_RECUPERATIONEFFICIENCY
Recuperation efficiency (constant)
@ SUMO_ATTR_GUISHAPE
@ SUMO_ATTR_REROUTE
@ SUMO_ATTR_JM_IGNORE_FOE_PROB
@ SUMO_ATTR_RNG_DEVICE_TOC
@ SUMO_ATTR_LEADER_GAP
@ GNE_ATTR_TO_BUSSTOP
to busStop (used by personPlans)
@ SUMO_ATTR_VEHICLECLASS
@ SUMO_ATTR_MAX_TRAVELTIME
@ SUMO_ATTR_AIRDRAGCOEFFICIENT
Air drag coefficient.
@ SUMO_ATTR_TLTYPE
node: the type of traffic light
@ SUMO_ATTR_ACTORCONFIG
@ SUMO_ATTR_JUNCTION
@ SUMO_ATTR_CHARGEINTRANSIT
Allow/disallow charge in transit in Charging Stations.
@ SUMO_ATTR_ACCELERATION_LAT
@ SUMO_ATTR_COST
@ SUMO_ATTR_MESO_MINOR_PENALTY
@ SUMO_ATTR_INCLANES
@ AGEN_ATTR_OUT_TRAFFIC
@ SUMO_ATTR_CONTAINER_CAPACITY
@ SUMO_ATTR_INDEX
@ AGEN_ATTR_CARS
@ SUMO_ATTR_CO_ABS
MSMeanData_Emissions.
@ SUMO_ATTR_VCLASSES
@ SUMO_ATTR_FILL
Fill the polygon.
@ SUMO_ATTR_NAME
@ SUMO_ATTR_ARRIVAL
@ SUMO_ATTR_TIMELOSS
@ SUMO_ATTR_CF_CC_XI
@ SUMO_ATTR_EXCEPTIONS
@ SUMO_ATTR_ORIG_PROJ
@ SUMO_ATTR_REQUESTSIZE
@ SUMO_ATTR_PERIOD
@ SUMO_ATTR_LAYER
A layer number.
@ SUMO_ATTR_CHECKLANEFOES_ALL
@ SUMO_ATTR_LCA_COOPERATIVE_PARAM
@ SUMO_ATTR_FUEL_ABS
@ SUMO_ATTR_SPREADTYPE
The information about how to spread the lanes from the given position.
@ SUMO_ATTR_COMMAND
@ SUMO_ATTR_LCA_OPPOSITE_PARAM
@ SUMO_ATTR_TO_TAZ
@ SUMO_ATTR_CHARGINGSTATIONID
Charging Station ID.
@ SUMO_ATTR_CO_NORMED
@ SUMO_ATTR_SLOPE
@ SUMO_ATTR_STARTTIME
@ SUMO_ATTR_CF_CC_CCDECEL
@ SUMO_ATTR_HALTING_SPEED_THRESHOLD
@ SUMO_ATTR_FREQUENCY
@ SUMO_ATTR_PASS
@ SUMO_ATTR_DEPARTSPEED
@ SUMO_ATTR_GCC_GAIN_SPACE
@ SUMO_ATTR_ANGLE
@ SUMO_ATTR_ENDOFFSET
@ SUMO_ATTR_MINGAP_LAT
@ SUMO_ATTR_ENTERING
@ SUMO_ATTR_TRIP_ID
@ GNE_ATTR_SHAPE_END
last coordinate of edge shape
@ SUMO_ATTR_REF
@ SUMO_ATTR_EMERGENCYDECEL
@ SUMO_ATTR_OVERHEAD_WIRE_CLAMPS
overhead wire clamps for overhead wire segment
@ SUMO_ATTR_CF_CC_FLATBED_H
@ SUMO_ATTR_TO
@ SUMO_ATTR_FROM
@ SUMO_ATTR_CF_W99_CC3
@ SUMO_ATTR_XMLNS
@ SUMO_ATTR_CF_CC_LANES_COUNT
@ SUMO_ATTR_HEIGHT
@ SUMO_ATTR_END
weights: time range end
@ SUMO_ATTR_RNG_DEVICE_BT
@ SUMO_ATTR_LCA_SUBLANE_PARAM
@ SUMO_ATTR_JM_CROSSING_GAP
@ SUMO_ATTR_LCA_SIGMA
@ SUMO_ATTR_ROADSIDE_CAPACITY
@ SUMO_ATTR_ACCELERATION
@ SUMO_ATTR_CARRIAGE_LENGTH
@ SUMO_ATTR_LATALIGNMENT
@ SUMO_ATTR_FROM_TAZ
@ GNE_ATTR_FROM_STOP
from stop (used by personPlans)
@ SUMO_ATTR_CF_IDM_STEPPING
@ SUMO_ATTR_ARRIVALTIMEBRAKING
@ SUMO_ATTR_DEPARTLANE
@ SUMO_ATTR_CF_IDMM_ADAPT_FACTOR
@ SUMO_ATTR_ACTUALBATTERYCAPACITY
@ SUMO_ATTR_VEHICLEMASS
Vehicle mass.
@ AGEN_ATTR_CARPREF
@ SUMO_ATTR_PREFIX
@ SUMO_ATTR_VIAJUNCTIONS
@ SUMO_ATTR_CURRENTLIMIT
current limit of the traction substation [A]
@ SUMO_ATTR_BIKELANEWIDTH
@ SUMO_ATTR_IMPATIENCE
@ SUMO_ATTR_RADIALDRAGCOEFFICIENT
Radial drag coefficient.
@ SUMO_ATTR_COLLISION_MINGAP_FACTOR
@ SUMO_ATTR_LEADER_SPEED
@ SUMO_ATTR_ENERGYCHARGEDINTRANSIT
Energy charged in transit.
@ SUMO_ATTR_JOIN
@ SUMO_ATTR_TLID
link,node: the traffic light id responsible for this link
@ SUMO_ATTR_VCLASS
@ SUMO_ATTR_ACCEL
@ SUMO_ATTR_ENERGYCHARGED
tgotal of Energy charged
@ SUMO_ATTR_VAPORIZED
@ SUMO_ATTR_BOARDING_DURATION
@ SUMO_ATTR_DISTANCE
@ GNE_ATTR_DATASET
data set of a generic data
@ SUMO_ATTR_MESO_TAUJF
@ AGEN_ATTR_CITYSPEED
@ SUMO_ATTR_CF_CC_CONSTSPACING
@ SUMO_ATTR_FROMXY
@ SUMO_ATTR_NOX_PERVEH
@ SUMO_ATTR_CF_W99_CC2
@ SUMO_ATTR_OUTPUT
@ SUMO_ATTR_SHOW_DETECTOR
@ SUMO_ATTR_CF_W99_CC4
@ SUMO_ATTR_JM_SIGMA_MINOR
@ SUMO_ATTR_FOES
@ SUMO_ATTR_CF_W99_CC6
@ SUMO_ATTR_CHARGINGPOWER
@ SUMO_ATTR_ID_AFTER
@ SUMO_ATTR_PROB
@ GNE_ATTR_BIDIR
whether an edge is part of a bidirectional railway
@ SUMO_ATTR_FRIENDLY_POS
@ SUMO_ATTR_SIDEWALKWIDTH
@ SUMO_ATTR_SPEEDFACTOR
@ SUMO_ATTR_ACTUALARRIVAL
@ SUMO_ATTR_CA_GAIN_SPEED
@ GNE_ATTR_BLOCK_SHAPE
block shape of a graphic element (Used mainly in GNEShapes)
@ SUMO_ATTR_ONROAD
@ SUMO_ATTR_LAT
@ SUMO_ATTR_OVERHEAD_WIRE_CLAMP_START
id of the overhead wire segment, to the start of which the overhead wire clamp is connected
@ SUMO_ATTR_OVERHEAD_WIRE_RESISTIVITY
resistivity of overhead wires
@ SUMO_ATTR_WALKFACTOR
@ SUMO_ATTR_EXPECTED_CONTAINERS
@ SUMO_ATTR_TO_LANE
@ SUMO_ATTR_VEHICLE
@ SUMO_ATTR_MIN_SAMPLES
@ SUMO_ATTR_UNCONTROLLED
@ AGEN_ATTR_HOUR
@ SUMO_ATTR_HC_ABS
@ SUMO_ATTR_JUNCTION_ID
@ SUMO_ATTR_OCCUPANCY
@ SUMO_ATTR_ENTERED
@ SUMO_ATTR_SAMPLEDSECONDS
MSMeanData_Net.
@ SUMO_ATTR_TYPE
@ SUMO_ATTR_CF_CC_KP
@ SUMO_ATTR_CO2_PERVEH
@ SUMO_ATTR_CENTER_Z
@ SUMO_ATTR_SAVINGS
@ SUMO_ATTR_TOXY
@ SUMO_ATTR_LENGTH
@ AGEN_ATTR_CLOSING
@ AGEN_ATTR_OUT_WORKPOSITION
@ SUMO_ATTR_ROUTE
@ SUMO_ATTR_VERSION
@ SUMO_ATTR_CHARGINGSTEPS
number of steps that a vehicle is charging
@ SUMO_ATTR_CHARGINGEND
timesteps in which charging ends
@ SUMO_ATTR_DEPARTED
@ SUMO_ATTR_PERSON_NUMBER
@ AGEN_ATTR_ENDAGE
@ SUMO_ATTR_COLOR
A color information.
@ SUMO_ATTR_EFFICIENCY
Eficiency of the charge in Charging Stations.
@ SUMO_ATTR_CF_PWAGNER2009_APPROB
@ SUMO_ATTR_MAXSPEED
@ SUMO_ATTR_CHARGINGBEGIN
timestep in which charging begins
@ SUMO_ATTR_ID
@ SUMO_ATTR_SIGMA
@ SUMO_ATTR_VISIBLE
@ SUMO_ATTR_UNTIL
@ GNE_ATTR_DEFAULT_VTYPE_MODIFIED
Flag to check if a default VType was modified.
@ SUMO_ATTR_MAXDURATION
maximum duration of a phase
@ SUMO_ATTR_INTERPOLATED
@ SUMO_ATTR_RIGHT_OF_WAY
How to compute right of way.
@ SUMO_ATTR_K
@ SUMO_ATTR_TMP1
@ GNE_ATTR_SHAPE_START
first coordinate of edge shape
@ AGEN_ATTR_POPULATION
@ SUMO_ATTR_OSGFILE
@ SUMO_ATTR_LANEDENSITY
@ SUMO_ATTR_LCA_OVERTAKE_RIGHT
@ SUMO_ATTR_ARRIVALPOS_LAT
@ SUMO_ATTR_LCA_ACCEL_LAT
@ SUMO_ATTR_CF_W99_CC7
@ SUMO_ATTR_DISCARD
@ SUMO_ATTR_LCA_STRATEGIC_PARAM
@ SUMO_ATTR_PMX_NORMED
@ SUMO_ATTR_PROGRAMID
@ SUMO_ATTR_CF_W99_CC1
@ SUMO_ATTR_OVERHEADWIREID
@ SUMO_ATTR_ELECTRICITY_NORMED
@ SUMO_ATTR_TAU
@ SUMO_ATTR_FUNCTION
@ SUMO_ATTR_CROSSING
@ SUMO_ATTR_VOLTAGESOURCE
a voltage source on the overhead wire segment [bool]
@ SUMO_ATTR_CENTER_X
@ SUMO_ATTR_MAXWIDTH
@ SUMO_ATTR_MESO_TAUFJ
@ SUMO_ATTR_VISIBILITY_DISTANCE
foe visibility distance of a link
@ SUMO_ATTR_ALPHACIRCUITSOLVER
@ SUMO_ATTR_PROHIBITOR
@ SUMO_ATTR_OPEN_ENTRY
@ SUMO_ATTR_IMGFILE
@ AGEN_ATTR_MAX_TRIP_DURATION
@ SUMO_ATTR_RNG_ROUTEHANDLER
@ SUMO_ATTR_TRIGGERED
@ SUMO_ATTR_MESO_TAUJJ
@ SUMO_ATTR_CONTROLLED_INNER
@ SUMO_ATTR_DURATION
@ SUMO_ATTR_CONTPOS
@ SUMO_ATTR_WIDTH
@ SUMO_ATTR_DENSITY
@ SUMO_ATTR_CROSSING_EDGES
the edges crossed by a pedestrian crossing
@ SUMO_ATTR_FROMLONLAT
@ SUMO_ATTR_SYNCHRON
@ SUMO_ATTR_DIR
The abstract direction of a link.
@ SUMO_ATTR_RNG_DEVICE
@ SUMO_ATTR_TLS_IGNORE_INTERNAL_JUNCTION_JAM
@ SUMO_ATTR_PERSON_CAPACITY
@ SUMO_ATTR_TLLINKINDEX
link: the index of the link within the traffic light
@ SUMO_ATTR_CURRENTFROMOVERHEADWIRE
@ SUMO_ATTR_PROPULSIONEFFICIENCY
Propulsion efficiency.
@ SUMO_ATTR_GC_GAIN_SPEED
@ SUMO_ATTR_AMOUNT
MSMeanData_Amitran.
@ AGEN_ATTR_UNEMPLOYEMENT
@ SUMO_ATTR_MINDURATION
@ AGEN_ATTR_IN_TRAFFIC
@ SUMO_ATTR_LEADER_ID
@ SUMO_ATTR_REPNUMBER
@ SUMO_ATTR_REQUEST
@ SUMO_ATTR_GCC_GAIN_GAP_CACC
@ SUMO_ATTR_COUNT
@ AGEN_ATTR_RATE
@ SUMO_ATTR_MESO_TLS_PENALTY
@ SUMO_ATTR_KEY
@ SUMO_ATTR_REPEAT
@ SUMO_ATTR_REF_TIME
@ SUMO_ATTR_INTERNALMOMENTOFINERTIA
Internal moment of inertia.
@ SUMO_ATTR_INTENDED
@ SUMO_ATTR_KEEP_CLEAR
Whether vehicles must keep the junction clear.
@ AGEN_ATTR_MAX_FOOT_DIST
@ AGEN_ATTR_BEGINAGE
@ SUMO_ATTR_POSITION
@ SUMO_ATTR_LCA_EXPERIMENTAL1
@ SUMO_ATTR_LOCOMOTIVE_LENGTH
@ SUMO_ATTR_CO2_ABS
@ SUMO_ATTR_SCHEMA_LOCATION
@ SUMO_ATTR_SC_GAIN
@ SUMO_ATTR_TMP5
@ SUMO_ATTR_NOTHING
invalid attribute
@ SUMO_ATTR_TIMESTOPPED
Time stopped.
@ SUMO_ATTR_CYCLETIME
@ SUMO_ATTR_STATE
The state of a link.
@ SUMO_ATTR_SC_GAIN_CACC
@ SUMO_ATTR_JM_DRIVE_RED_SPEED
@ GNE_ATTR_TO_STOP
to stop (used by personPlans)
@ SUMO_ATTR_CHARGEDELAY
Delay in the charge of charging stations.
@ SUMO_ATTR_LCA_TIME_TO_IMPATIENCE
@ SUMO_ATTR_VOLTAGEOFOVERHEADWIRE
@ SUMO_ATTR_JM_TIMEGAP_MINOR
@ SUMO_ATTR_TIME
trigger: the time of the step
@ SUMO_ATTR_WALKINGAREAS
@ SUMO_ATTR_WRITE_ATTRIBUTES
@ SUMO_ATTR_FRONTSURFACEAREA
Front surface area.
@ SUMO_ATTR_CARRIAGE_GAP
@ SUMO_ATTR_ID_BEFORE
@ SUMO_ATTR_OVERHEADWIRECHARGINGPOWER
@ SUMO_ATTR_CF_CC_FLATBED_KV
@ SUMO_ATTR_TOJUNCTION
@ SUMO_ATTR_CHARGING_STATUS
@ SUMO_ATTR_DETECT_PERSONS
@ SUMO_ATTR_EXCLUDE_EMPTY
@ SUMO_ATTR_SPEEDDEV
@ SUMO_ATTR_CF_WIEDEMANN_ESTIMATION
@ SUMO_ATTR_RELATIVEPATH
@ SUMO_ATTR_LEFT
@ SUMO_ATTR_PERSONSPERHOUR
@ SUMO_ATTR_LCA_SPEEDGAINRIGHT
static StringBijection< LaneSpreadFunction > LaneSpreadFunctions
lane spread functions
static bool isValidTypeID(const std::string &value)
whether the given string is a valid id for an edge or vehicle type
static StringBijection< LaneSpreadFunction >::Entry laneSpreadFunctionValues[]
lane spread function values
static StringBijection< SumoXMLTag > CarFollowModels
car following models
static StringBijection< LaneChangeAction > LaneChangeActions
lane change actions
static StringBijection< SumoXMLNodeType > NodeTypes
node types
static std::string getEdgeIDFromLane(const std::string laneID)
return edge id when given the lane ID
static const char AllowedTLS_linkStatesInitializer[]
all allowed characters for phase state
static StringBijection< TrafficLightType > TrafficLightTypes
traffic light types
static StringBijection< LinkState >::Entry linkStateValues[]
link state values
static StringBijection< PersonMode > PersonModeValues
person modes
static StringBijection< LinkState > LinkStates
link states
static StringBijection< LaneChangeModel >::Entry laneChangeModelValues[]
lane change model values
static bool isValidVehicleID(const std::string &value)
whether the given string is a valid id for a vehicle or flow
static StringBijection< int >::Entry tags[]
The names of SUMO-XML elements (for passing to GenericSAXHandler)
static StringBijection< LateralAlignment >::Entry lateralAlignmentValues[]
lanteral alignment values
static bool isValidListOfNetIDs(const std::string &value)
whether the given string is a valid list of id for a network (empty aren't allowed)
static bool isValidFilename(const std::string &value)
whether the given string is a valid attribute for a filename (for example, a name)
static StringBijection< SumoXMLEdgeFunc >::Entry sumoEdgeFuncValues[]
edge function values
static const std::string ALLOWED_TLS_LINKSTATES
all allowed characters for phase state
static StringBijection< SumoXMLEdgeFunc > EdgeFunctions
edge functions
static bool isValidAdditionalID(const std::string &value)
whether the given string is a valid id for an additional object
static StringBijection< LaneChangeAction >::Entry laneChangeActionValues[]
lane change action values
static StringBijection< TrafficLightLayout > TrafficLightLayouts
traffic light layouts
static StringBijection< TrainType > TrainTypes
train types
static StringBijection< int >::Entry attrs[]
The names of SUMO-XML attributes (for passing to GenericSAXHandler)
static bool isValidDetectorID(const std::string &value)
whether the given string is a valid id for an detector
static StringBijection< PersonMode >::Entry personModeValuesInitializer[]
person mode values
static StringBijection< TrafficLightLayout >::Entry trafficLightLayoutValues[]
traffic light layout values
static bool isValidListOfTypeID(const std::string &value)
whether the given string is a valid list of ids for an edge or vehicle type (empty aren't allowed)
static StringBijection< FringeType >::Entry fringeTypeValuesInitializer[]
lane spread function values
static StringBijection< LinkDirection >::Entry linkDirectionValues[]
link direction values
static StringBijection< TrainType >::Entry trainTypeValues[]
train type values values
static StringBijection< int > Tags
The names of SUMO-XML elements for use in netbuild.
static StringBijection< TrafficLightType >::Entry trafficLightTypesValues[]
traffic light types values
static StringBijection< LaneChangeModel > LaneChangeModels
lane change models
static bool isValidNetID(const std::string &value)
whether the given string is a valid id for a network element
static StringBijection< SumoXMLTag >::Entry carFollowModelValues[]
car follwing model values
static bool isValidParameterKey(const std::string &value)
whether the given string is a valid key for a parameter
static StringBijection< RightOfWay > RightOfWayValues
righ of way algorithms
static StringBijection< LinkDirection > LinkDirections
link directions
static StringBijection< RightOfWay >::Entry rightOfWayValuesInitializer[]
lane spread function values
static StringBijection< SumoXMLNodeType >::Entry sumoNodeTypeValues[]
containers for the different SUMOXMLDefinitions
static std::string getJunctionIDFromInternalEdge(const std::string internalEdge)
return the junction id when given an edge of type internal, crossing or WalkingArea
static StringBijection< LateralAlignment > LateralAlignments
lateral alignments
static bool isValidAttribute(const std::string &value)
whether the given string is a valid attribute for a certain key (for example, a name)
static StringBijection< int > Attrs
The names of SUMO-XML attributes for use in netbuild.
static StringBijection< FringeType > FringeTypeValues
fringe types
std::vector< std::string > getVector()
return vector of strings