71 Simulation::load(
const std::vector<std::string>& args) {
72 close(
"Libsumo issued load command.");
83 throw TraCIException(e.what());
89 Simulation::isLoaded() {
95 Simulation::step(
const double time) {
110 Simulation::close(
const std::string& reason) {
122 Simulation::subscribe(
const std::vector<int>& varIDs,
double begin,
double end) {
128 Simulation::getSubscriptionResults() {
129 return mySubscriptionResults[
""];
134 Simulation::getAllSubscriptionResults() {
135 return mySubscriptionResults;
140 Simulation::getAllContextSubscriptionResults() {
141 return myContextSubscriptionResults;
145 std::pair<int, std::string>
146 Simulation::getVersion() {
152 Simulation::getCurrentTime() {
158 Simulation::getTime() {
164 Simulation::getLoadedNumber() {
169 std::vector<std::string>
170 Simulation::getLoadedIDList() {
176 Simulation::getDepartedNumber() {
181 std::vector<std::string>
182 Simulation::getDepartedIDList() {
188 Simulation::getArrivedNumber() {
193 std::vector<std::string>
194 Simulation::getArrivedIDList() {
200 Simulation::getParkingStartingVehiclesNumber() {
205 std::vector<std::string>
206 Simulation::getParkingStartingVehiclesIDList() {
212 Simulation::getParkingEndingVehiclesNumber() {
217 std::vector<std::string>
218 Simulation::getParkingEndingVehiclesIDList() {
224 Simulation::getStopStartingVehiclesNumber() {
229 std::vector<std::string>
230 Simulation::getStopStartingVehiclesIDList() {
236 Simulation::getStopEndingVehiclesNumber() {
241 std::vector<std::string>
242 Simulation::getStopEndingVehiclesIDList() {
248 Simulation::getCollidingVehiclesNumber() {
253 std::vector<std::string>
254 Simulation::getCollidingVehiclesIDList() {
260 Simulation::getEmergencyStoppingVehiclesNumber() {
265 std::vector<std::string>
266 Simulation::getEmergencyStoppingVehiclesIDList() {
272 Simulation::getStartingTeleportNumber() {
277 std::vector<std::string>
278 Simulation::getStartingTeleportIDList() {
284 Simulation::getEndingTeleportNumber() {
289 std::vector<std::string>
290 Simulation::getEndingTeleportIDList() {
294 std::vector<std::string>
295 Simulation::getBusStopIDList() {
296 std::vector<std::string> result;
298 result.push_back(pair.first);
304 Simulation::getBusStopWaiting(
const std::string& stopID) {
307 throw TraCIException(
"Unknown bus stop '" + stopID +
"'.");
312 std::vector<std::string>
313 Simulation::getBusStopWaitingIDList(
const std::string& stopID) {
316 throw TraCIException(
"Unknown bus stop '" + stopID +
"'.");
319 std::vector<std::string> result;
320 for (std::vector<MSTransportable*>::iterator it = transportables.begin(); it != transportables.end(); it++) {
321 result.push_back((*it)->getID());
328 Simulation::getDeltaT() {
334 Simulation::getNetBoundary() {
348 Simulation::getMinExpectedNumber() {
358 Simulation::convert2D(
const std::string& edgeID,
double pos,
int laneIndex,
bool toGeo) {
369 Simulation::convert3D(
const std::string& edgeID,
double pos,
int laneIndex,
bool toGeo) {
379 Simulation::convertRoad(
double x,
double y,
bool isGeo,
const std::string& vClass) {
385 throw TraCIException(
"Unknown vehicle class '" + vClass +
"'.");
389 if (roadPos.first ==
nullptr) {
390 throw TraCIException(
"Cannot convert position to road.");
392 TraCIRoadPosition result;
393 result.edgeID = roadPos.first->getEdge().getID();
394 result.laneIndex = roadPos.first->getIndex();
395 result.pos = roadPos.second;
401 Simulation::convertGeo(
double x,
double y,
bool fromGeo) {
413 Simulation::getDistance2D(
double x1,
double y1,
double x2,
double y2,
bool isGeo,
bool isDriving) {
431 Simulation::getDistanceRoad(
const std::string& edgeID1,
double pos1,
const std::string& edgeID2,
double pos2,
bool isDriving) {
437 const Position p1 = roadPos1.first->geometryPositionAtOffset(roadPos1.second);
438 const Position p2 = roadPos2.first->geometryPositionAtOffset(roadPos2.second);
445 Simulation::findRoute(
const std::string& from,
const std::string& to,
const std::string& typeID,
const double depart,
const int routingMode) {
448 if (fromEdge ==
nullptr) {
449 throw TraCIException(
"Unknown from edge '" + from +
"'.");
452 if (toEdge ==
nullptr) {
453 throw TraCIException(
"Unknown to edge '" + from +
"'.");
457 if (type ==
nullptr) {
458 throw TraCIException(
"The vehicle type '" + typeID +
"' is not known.");
461 pars->
id =
"simulation.findRoute";
468 throw TraCIException(
"Invalid departure edge for vehicle type '" + type->
getID() +
"' (" + msg +
")");
473 throw TraCIException(
"Invalid departure edge for vehicle type '" + type->
getID() +
"' (" + e.what() +
")");
478 router.
compute(fromEdge, toEdge, vehicle, dep, edges);
479 for (
const MSEdge* e : edges) {
480 result.edges.push_back(e->getID());
482 result.travelTime = result.cost = router.
recomputeCosts(edges, vehicle, dep, &result.length);
483 if (vehicle !=
nullptr) {
490 std::vector<TraCIStage>
491 Simulation::findIntermodalRoute(
const std::string& from,
const std::string& to,
492 const std::string& modes,
double depart,
const int routingMode,
double speed,
double walkFactor,
493 double departPos,
double arrivalPos,
const double departPosLat,
494 const std::string& pType,
const std::string& vType,
const std::string& destStop) {
496 std::vector<TraCIStage> result;
498 if (fromEdge ==
nullptr) {
499 throw TraCIException(
"Unknown from edge '" + from +
"'.");
502 if (toEdge ==
nullptr) {
503 throw TraCIException(
"Unknown to edge '" + to +
"'.");
507 std::vector<SUMOVehicleParameter*> pars;
510 pars.back()->vtypeid = vType;
511 pars.back()->id = vType;
515 const std::string mode = st.next();
519 pars.back()->id = mode;
524 pars.back()->id = mode;
529 pars.back()->id = mode;
532 pars.push_back(
nullptr);
537 throw TraCIException(
"Unknown person mode '" + mode +
"'.");
541 pars.push_back(
nullptr);
552 if (walkFactor < 0) {
561 }
else if (arrivalPos < 0) {
564 if (departPos < 0 || departPos >= fromEdge->
getLength()) {
565 throw TraCIException(
"Invalid depart position " +
toString(departPos) +
" for edge '" + to +
"'.");
567 if (arrivalPos < 0 || arrivalPos >= toEdge->
getLength()) {
568 throw TraCIException(
"Invalid arrival position " +
toString(arrivalPos) +
" for edge '" + to +
"'.");
570 double minCost = std::numeric_limits<double>::max();
573 std::vector<TraCIStage> resultCand;
575 if (vehPar !=
nullptr) {
577 if (type ==
nullptr) {
578 throw TraCIException(
"Unknown vehicle type '" + vehPar->vtypeid +
"'.");
581 WRITE_WARNING(
"Ignoring vehicle type '" + type->
getID() +
"' when performing intermodal routing because it is not allowed on the start edge '" + from +
"'.");
589 std::vector<MSNet::MSIntermodalRouter::TripItem> items;
590 if (router.
compute(fromEdge, toEdge, departPos, arrivalPos, destStop,
591 speed * walkFactor, vehicle, modeSet, departStep, items, externalFactor)) {
593 for (std::vector<MSNet::MSIntermodalRouter::TripItem>::iterator it = items.begin(); it != items.end(); ++it) {
594 if (!it->edges.empty()) {
596 for (
const MSEdge* e : it->edges) {
597 resultCand.back().edges.push_back(e->
getID());
599 resultCand.back().travelTime = it->traveltime;
600 resultCand.back().cost = it->cost;
601 resultCand.back().length = it->length;
602 resultCand.back().intended = it->intended;
603 resultCand.back().depart = it->depart;
604 resultCand.back().departPos = it->departPos;
605 resultCand.back().arrivalPos = it->arrivalPos;
606 resultCand.back().description = it->description;
610 if (cost < minCost) {
615 if (vehicle !=
nullptr) {
624 Simulation::getParameter(
const std::string& objectID,
const std::string& key) {
626 const std::string attrName = key.substr(16);
629 throw TraCIException(
"Invalid chargingStation '" + objectID +
"'");
635 }
else if (attrName ==
"lane") {
640 throw TraCIException(
"Invalid chargingStation parameter '" + attrName +
"'");
643 const std::string attrName = key.substr(16);
646 throw TraCIException(
"Invalid overhead wire '" + objectID +
"'");
653 throw TraCIException(
"Invalid overhead wire parameter '" + attrName +
"'");
656 const std::string attrName = key.substr(12);
659 throw TraCIException(
"Invalid parkingArea '" + objectID +
"'");
661 if (attrName ==
"capacity") {
663 }
else if (attrName ==
"occupancy") {
667 }
else if (attrName ==
"lane") {
672 throw TraCIException(
"Invalid parkingArea parameter '" + attrName +
"'");
675 const std::string attrName = key.substr(8);
678 throw TraCIException(
"Invalid busStop '" + objectID +
"'");
682 }
else if (attrName ==
"lane") {
687 throw TraCIException(
"Invalid busStop parameter '" + attrName +
"'");
690 throw TraCIException(
"Parameter '" + key +
"' is not supported.");
696 Simulation::clearPending(
const std::string& routeID) {
702 Simulation::saveState(
const std::string& fileName) {
707 Simulation::loadState(
const std::string& fileName) {
720 throw TraCIException(
"Loading state from '" + fileName +
"' failed.");
728 Simulation::writeMessage(
const std::string& msg) {
733 std::shared_ptr<VariableWrapper>
734 Simulation::makeWrapper() {
735 return std::make_shared<Helper::SubscriptionWrapper>(handleVariable, mySubscriptionResults, myContextSubscriptionResults);
740 Simulation::handleVariable(
const std::string& objID,
const int variable, VariableWrapper* wrapper) {
743 return wrapper->wrapDouble(objID, variable, getTime());
745 return wrapper->wrapInt(objID, variable, (
int)getCurrentTime());
747 return wrapper->wrapInt(objID, variable, getLoadedNumber());
749 return wrapper->wrapStringList(objID, variable, getLoadedIDList());
751 return wrapper->wrapInt(objID, variable, getDepartedNumber());
753 return wrapper->wrapStringList(objID, variable, getDepartedIDList());
755 return wrapper->wrapInt(objID, variable, getStartingTeleportNumber());
757 return wrapper->wrapStringList(objID, variable, getStartingTeleportIDList());
759 return wrapper->wrapInt(objID, variable, getEndingTeleportNumber());
761 return wrapper->wrapStringList(objID, variable, getEndingTeleportIDList());
763 return wrapper->wrapInt(objID, variable, getArrivedNumber());
765 return wrapper->wrapStringList(objID, variable, getArrivedIDList());
767 return wrapper->wrapInt(objID, variable, getParkingStartingVehiclesNumber());
769 return wrapper->wrapStringList(objID, variable, getParkingStartingVehiclesIDList());
771 return wrapper->wrapInt(objID, variable, getParkingEndingVehiclesNumber());
773 return wrapper->wrapStringList(objID, variable, getParkingEndingVehiclesIDList());
775 return wrapper->wrapInt(objID, variable, getStopStartingVehiclesNumber());
777 return wrapper->wrapStringList(objID, variable, getStopStartingVehiclesIDList());
779 return wrapper->wrapInt(objID, variable, getStopEndingVehiclesNumber());
781 return wrapper->wrapStringList(objID, variable, getStopEndingVehiclesIDList());
783 return wrapper->wrapInt(objID, variable, getCollidingVehiclesNumber());
785 return wrapper->wrapStringList(objID, variable, getCollidingVehiclesIDList());
787 return wrapper->wrapInt(objID, variable, getEmergencyStoppingVehiclesNumber());
789 return wrapper->wrapStringList(objID, variable, getEmergencyStoppingVehiclesIDList());
791 return wrapper->wrapDouble(objID, variable, getDeltaT());
793 return wrapper->wrapInt(objID, variable, getMinExpectedNumber());
795 return wrapper->wrapInt(objID, variable, getBusStopWaiting(objID));
std::vector< const MSEdge * > ConstMSEdgeVector
#define WRITE_MESSAGE(msg)
#define WRITE_WARNING(msg)
#define PROGRESS_BEGIN_TIME_MESSAGE(msg)
#define PROGRESS_TIME_MESSAGE(before)
std::string time2string(SUMOTime t)
convert SUMOTime to string
SUMOTime string2time(const std::string &r)
convert string to SUMOTime
StringBijection< SUMOVehicleClass > SumoVehicleClassStrings(sumoVehicleClassStringInitializer, SVC_CUSTOM2, false)
SUMOVehicleClass
Definition of vehicle classes to differ between different lane usage and authority types.
@ SVC_IGNORING
vehicles ignoring classes
@ SVC_PASSENGER
vehicle is a passenger car (a "normal" car)
@ SVC_BICYCLE
vehicle is a bicycle
@ SVC_TAXI
vehicle is a taxi
@ SVC_BUS
vehicle is a bus
const std::string DEFAULT_TAXITYPE_ID
const std::string DEFAULT_PEDTYPE_ID
const std::string DEFAULT_VTYPE_ID
int SVCPermissions
bitset where each bit declares whether a certain SVC may use this edge/lane
const std::string DEFAULT_BIKETYPE_ID
@ SUMO_TAG_CHARGING_STATION
A Charging Station.
@ SUMO_TAG_BUS_STOP
A bus stop.
@ SUMO_TAG_PARKING_AREA
A parking area.
@ SUMO_TAG_OVERHEAD_WIRE_SEGMENT
An overhead wire segment.
@ SUMO_ATTR_TOTALENERGYCHARGED
#define UNUSED_PARAMETER(x)
std::string toString(const T &t, std::streamsize accuracy=gPrecision)
A class that stores a 2D geometrical boundary.
double ymin() const
Returns minimum y-coordinate.
double xmin() const
Returns minimum x-coordinate.
double zmin() const
Returns minimum z-coordinate.
double ymax() const
Returns maximum y-coordinate.
double xmax() const
Returns maximum x-coordinate.
double zmax() const
Returns maximum z-coordinate.
std::vector< double > & getParameter()
Returns the parameters of this distribution.
void cartesian2geo(Position &cartesian) const
Converts the given cartesian (shifted) position to its geo (lat/long) representation.
static const GeoConvHelper & getFinal()
the coordinate transformation for writing the location element and for tracking the original coordina...
const Boundary & getConvBoundary() const
Returns the converted boundary.
bool x2cartesian_const(Position &from) const
Converts the given coordinate into a cartesian using the previous initialisation.
bool compute(const E *from, const E *to, const double departPos, const double arrivalPos, const std::string stopID, const double speed, const V *const vehicle, const SVCPermissions modeSet, const SUMOTime msTime, std::vector< TripItem > &into, const double externalFactor=0.)
Builds the route between the given edges using the minimum effort at the given time The definition of...
double getTotalCharged() const
A road/street connecting two junctions.
SVCPermissions getPermissions() const
Returns the combined permissions of all lanes of this edge.
double getLength() const
return the length of the edge
static bool dictionary(const std::string &id, MSEdge *edge)
Inserts edge into the static dictionary Returns true if the key id isn't already in the dictionary....
void clearPendingVehicles(const std::string &route)
clears out all pending vehicles from a route, "" for all routes
int getPendingFlowCount() const
Returns the number of flows that are still active.
const Position geometryPositionAtOffset(double offset, double lateralOffset=0) const
The simulated network and simulation perfomer.
MSIntermodalRouter & getIntermodalRouter(const int rngIndex, const int routingMode=0, const MSEdgeVector &prohibited=MSEdgeVector()) const
@ VEHICLE_STATE_ENDING_TELEPORT
The vehicle ended being teleported.
@ VEHICLE_STATE_DEPARTED
The vehicle has departed (was inserted into the network)
@ VEHICLE_STATE_STARTING_PARKING
The vehicles starts to park.
@ VEHICLE_STATE_ENDING_STOP
The vehicle ends to stop.
@ VEHICLE_STATE_ARRIVED
The vehicle arrived at his destination (is deleted)
@ VEHICLE_STATE_COLLISION
The vehicle is involved in a collision.
@ VEHICLE_STATE_EMERGENCYSTOP
The vehicle had to brake harder than permitted.
@ VEHICLE_STATE_STARTING_TELEPORT
The vehicle started to teleport.
@ VEHICLE_STATE_STARTING_STOP
The vehicles starts to stop.
@ VEHICLE_STATE_ENDING_PARKING
The vehicle ends to park.
@ VEHICLE_STATE_BUILT
The vehicle was built, but has not yet departed.
static MSNet * getInstance()
Returns the pointer to the unique instance of MSNet (singleton).
virtual MSTransportableControl & getContainerControl()
Returns the container control.
SUMOAbstractRouter< MSEdge, SUMOVehicle > & getRouterTT(const int rngIndex, const MSEdgeVector &prohibited=MSEdgeVector()) const
MSVehicleControl & getVehicleControl()
Returns the vehicle control.
SUMOTime getCurrentTimeStep() const
Returns the current simulation step.
static bool hasInstance()
Returns whether the network was already constructed.
void closeSimulation(SUMOTime start, const std::string &reason="")
Closes the simulation (all files, connections, etc.)
MSStoppingPlace * getStoppingPlace(const std::string &id, const SumoXMLTag category) const
Returns the named stopping place of the given category.
void simulationStep()
Performs a single simulation step.
void setCurrentTimeStep(const SUMOTime step)
Sets the current simulation step (used by state loading)
bool hasContainers() const
Returns whether containers are simulated.
MSInsertionControl & getInsertionControl()
Returns the insertion control.
bool hasPersons() const
Returns whether persons are simulated.
virtual MSTransportableControl & getPersonControl()
Returns the person control.
void clearState(const SUMOTime step)
Resets events when quick-loading state.
Definition of overhead wire segment.
double getTotalCharged() const
A lane area vehicles can halt at.
int getCapacity() const
Returns the area capacity.
int getOccupancyIncludingBlocked() const
Returns the area occupancy.
static SUMOAbstractRouter< MSEdge, SUMOVehicle > & getRouterTT(const int rngIndex, SUMOVehicleClass svc, const MSEdgeVector &prohibited=MSEdgeVector())
return the router instance
Parser and output filter for routes and vehicles state saving and loading.
static void saveState(const std::string &file, SUMOTime step)
Saves the current state.
SUMOTime getTime() const
get time
A lane area vehicles can halt at.
std::vector< MSTransportable * > getTransportables() const
Returns the tranportables waiting on this stop.
int getTransportableNumber() const
Returns the number of transportables waiting on this stop.
const MSLane & getLane() const
Returns the lane this stop is located at.
const std::string & getMyName() const
int getActiveCount()
return the number of active transportable objects
The class responsible for building and deletion of vehicles.
bool hasVType(const std::string &id) const
Asks for existence of a vehicle type.
virtual void deleteVehicle(SUMOVehicle *v, bool discard=false)
Deletes the vehicle.
MSVehicleType * getVType(const std::string &id=DEFAULT_VTYPE_ID, std::mt19937 *rng=nullptr)
Returns the named vehicle type or a sample from the named distribution.
int getActiveVehicleCount() const
Returns the number of build vehicles that have not been removed or need to wait for a passenger or a ...
virtual SUMOVehicle * buildVehicle(SUMOVehicleParameter *defs, const MSRoute *route, MSVehicleType *type, const bool ignoreStopErrors, const bool fromRouteFile=true)
Builds a vehicle, increases the number of built vehicles.
The car-following model and parameter.
SUMOVehicleClass getVehicleClass() const
Get this vehicle type's vehicle class.
double getMaxSpeed() const
Get vehicle's maximum speed [m/s].
const Distribution_Parameterized & getSpeedFactor() const
Returns this type's speed factor.
const std::string & getID() const
Returns the name of the vehicle type.
const SUMOVTypeParameter & getParameter() const
static MsgHandler * getErrorInstance()
Returns the instance to add errors to.
static MSNet * init(const bool isLibsumo=false)
const std::string & getID() const
Returns the id.
double getFloat(const std::string &name) const
Returns the double-value of the named option (only for Option_Float)
static OptionsCont & getOptions()
Retrieves the options.
static void setArgs(int argc, char **argv)
Stores the command line arguments for later parsing.
const std::string getParameter(const std::string &key, const std::string defaultValue="") const
Returns the value for a given key.
bool knowsParameter(const std::string &key) const
Returns whether the parameter is known.
A point in 2D or 3D with translation and scaling methods.
double distanceTo(const Position &p2) const
returns the euclidean distance in 3 dimension
void setz(double z)
set position z
double recomputeCosts(const std::vector< const E * > &edges, const V *const v, SUMOTime msTime, double *lengthp=nullptr) const
virtual bool compute(const E *from, const E *to, const V *const vehicle, SUMOTime msTime, std::vector< const E * > &into, bool silent=false)=0
Builds the route between the given edges using the minimum effort at the given time The definition of...
virtual SUMOVehicleClass getVClass() const =0
Returns the object's access class.
Representation of a vehicle.
virtual void setChosenSpeedFactor(const double factor)=0
virtual bool hasValidRouteStart(std::string &msg)=0
checks wether the vehicle can depart on the first edge
Structure representing possible vehicle parameter.
std::string id
The vehicle's id.
bool hasNext()
returns the information whether further substrings exist
static double toDouble(const std::string &sData)
converts a string into the double value described by it by calling the char-type converter
static bool startsWith(const std::string &str, const std::string prefix)
Checks whether a given string starts with the prefix.
static void close()
Closes all of an applications subsystems.
static void close()
Closes the xml-subsystem.
static void init()
Initialises the xml-subsystem.
static bool runParser(GenericSAXHandler &handler, const std::string &file, const bool isNet=false, const bool isRoute=false)
Runs the given handler on the given file; returns if everything's ok.
static double getDrivingDistance(std::pair< const MSLane *, double > &roadPos1, std::pair< const MSLane *, double > &roadPos2)
static TraCIPosition makeTraCIPosition(const Position &position, const bool includeZ=false)
static void subscribe(const int commandId, const std::string &id, const std::vector< int > &variables, const double beginTime, const double endTime, const libsumo::TraCIResults ¶ms, const int contextDomain=0, const double range=0.)
static void clearVehicleStates()
static void clearSubscriptions()
static std::pair< MSLane *, double > convertCartesianToRoadMap(const Position &pos, const SUMOVehicleClass vClass)
static const std::vector< std::string > & getVehicleStateChanges(const MSNet::VehicleState state)
static void handleSubscriptions(const SUMOTime t)
static const MSLane * getLaneChecking(const std::string &edgeID, int laneIndex, double pos)
TRACI_CONST double INVALID_DOUBLE_VALUE
TRACI_CONST int VAR_MIN_EXPECTED_VEHICLES
TRACI_CONST int VAR_STOP_ENDING_VEHICLES_IDS
TRACI_CONST int CMD_SUBSCRIBE_SIM_VARIABLE
TRACI_CONST int VAR_ARRIVED_VEHICLES_NUMBER
TRACI_CONST int VAR_STOP_STARTING_VEHICLES_NUMBER
TRACI_CONST int VAR_DEPARTED_VEHICLES_NUMBER
std::map< int, std::shared_ptr< TraCIResult > > TraCIResults
{variable->value}
TRACI_CONST int VAR_COLLIDING_VEHICLES_NUMBER
TRACI_CONST int VAR_PARKING_ENDING_VEHICLES_IDS
TRACI_CONST int VAR_PARKING_STARTING_VEHICLES_IDS
TRACI_CONST int ROUTING_MODE_AGGREGATED
TRACI_CONST int TRACI_VERSION
TRACI_CONST int VAR_EMERGENCYSTOPPING_VEHICLES_IDS
std::map< std::string, TraCIResults > SubscriptionResults
{object->{variable->value}}
TRACI_CONST int VAR_DEPARTED_VEHICLES_IDS
TRACI_CONST int VAR_TELEPORT_ENDING_VEHICLES_NUMBER
TRACI_CONST int VAR_PARKING_ENDING_VEHICLES_NUMBER
TRACI_CONST int VAR_LOADED_VEHICLES_IDS
TRACI_CONST int VAR_DELTA_T
TRACI_CONST int STAGE_WALKING
TRACI_CONST int VAR_STOP_STARTING_VEHICLES_IDS
TRACI_CONST int VAR_STOP_ENDING_VEHICLES_NUMBER
TRACI_CONST int VAR_LOADED_VEHICLES_NUMBER
TRACI_CONST int VAR_TELEPORT_ENDING_VEHICLES_IDS
TRACI_CONST int VAR_COLLIDING_VEHICLES_IDS
TRACI_CONST int VAR_TELEPORT_STARTING_VEHICLES_NUMBER
std::map< std::string, SubscriptionResults > ContextSubscriptionResults
TRACI_CONST int VAR_TELEPORT_STARTING_VEHICLES_IDS
TRACI_CONST int VAR_BUS_STOP_WAITING
TRACI_CONST int VAR_TIME_STEP
TRACI_CONST int VAR_ARRIVED_VEHICLES_IDS
TRACI_CONST int STAGE_DRIVING
TRACI_CONST int VAR_PARKING_STARTING_VEHICLES_NUMBER
TRACI_CONST int VAR_EMERGENCYSTOPPING_VEHICLES_NUMBER