62 : myHandler(nullptr), myParkingArea(nullptr), myCurrentStop(nullptr) {}
84 WRITE_ERROR(
"Unknown edge ('" +
id +
"') referenced in a vaporizer.");
93 WRITE_ERROR(
"A vaporization begin time is negative (edge id='" +
id +
"').");
97 WRITE_ERROR(
"A vaporization ends before it starts (edge id='" +
id +
"').");
111 const std::string& base) {
122 std::vector<MSLane*> lanes;
123 for (
const std::string& laneID : attrs.
get<std::vector<std::string> >(
SUMO_ATTR_LANES,
id.c_str(), ok)) {
125 if (lane ==
nullptr) {
126 throw InvalidArgument(
"The lane '" + laneID +
"' to use within MSLaneSpeedTrigger '" +
id +
"' is not known.");
128 lanes.push_back(lane);
131 throw InvalidArgument(
"The lanes to use within MSLaneSpeedTrigger '" +
id +
"' are not known.");
133 if (lanes.size() == 0) {
134 throw InvalidArgument(
"No lane defined for MSLaneSpeedTrigger '" +
id +
"'.");
168 throw InvalidArgument(
"Invalid position for charging station '" +
id +
"'.");
171 buildChargingStation(net,
id, lane, frompos, topos, name, chargingPower, efficiency, chargeInTransit, chargeDelay);
189 MSLane*
const lane =
getLane(attrs,
"overheadWireSegment",
id);
190 if (lane ==
nullptr) {
191 WRITE_MESSAGE(
"The overheadWireSegment '" +
id +
"' was not created as it is attached to internal lane. It will be build automatically.");
196 WRITE_MESSAGE(
"The overheadWireSegment '" +
id +
"' not built as it is attached to internal lane. It will be build automatically.");
208 WRITE_MESSAGE(
"The overheadWireSegment '" +
id +
"' has wrong position. Automatically set from 0 to the length of the lane.");
216 WRITE_WARNING(
TL(
"Overhead wire solver (Eigen) not compiled in, expect errors in overhead wire simulation"))
230 if (substation ==
nullptr) {
231 throw InvalidArgument(
"Traction substation '" + substationId +
"' refereced by an OverheadWire Section is not known.");
233 throw InvalidArgument(
"Traction substation '" + substationId +
"' refereced by an OverheadWire Section is probably referenced twice (a known limitation of the actual version of overhead wire simulation).");
239 throw InvalidArgument(
"Segments referenced by Traction substation '" + substationId +
"' are not declared .");
245 for (
const std::string& laneID : forbiddenInnerLanesIDs) {
247 if (lane !=
nullptr) {
250 throw InvalidArgument(
"Unknown lane '" + laneID +
"' in Traction substation '" + substationId +
"'.");
259 std::vector<MSOverheadWire*> segments;
266 for (
const std::string& segmentID : segmentIDs) {
267 const MSLane* connection =
nullptr;
269 std::string neigboringOvrhdSegmentID;
272 if (ovrhdSegment ==
nullptr) {
273 throw InvalidArgument(
"The OverheadWireSegment with id='" + segmentID +
"' referenced by OverheadWireSegment for substation '" + substationId +
"' was not defined.");
277 if (!(ts == substation || ts ==
nullptr)) {
278 std::string tsName = ts->
getID();
279 throw InvalidArgument(
"The OverheadWireSegment '" + segmentID +
"' referenced by OverheadWireSegment for substation '" + substationId +
"' is already assigned to substation '" + tsName +
"'.");
287 const std::vector<std::pair<const MSLane*, const MSEdge*> > outgoingLanesAndEdges = lane->
getOutgoingViaLanes();
288 std::vector<const MSLane*> neigboringInnerLanes;
289 neigboringInnerLanes.reserve(outgoingLanesAndEdges.size());
290 for (
size_t it = 0; it < outgoingLanesAndEdges.size(); ++it) {
291 neigboringInnerLanes.push_back(outgoingLanesAndEdges[it].first);
296 for (std::vector<const MSLane*>::iterator it = neigboringInnerLanes.begin(); it != neigboringInnerLanes.end(); ++it) {
299 if (neigboringOvrhdSegmentID !=
"") {
303 neigboringOvrhdSegment =
nullptr;
304 neigboringOvrhdSegmentTractionSubstation =
nullptr;
307 if (neigboringOvrhdSegmentTractionSubstation == substation && !(*it)->isInternal()) {
309 if (connection !=
nullptr) {
321 for (std::vector<const MSLane*>::iterator it = neigboringInnerLanes.begin(); it != neigboringInnerLanes.end(); ++it) {
324 if (neigboringOvrhdSegmentID !=
"") {
328 neigboringOvrhdSegment =
nullptr;
329 neigboringOvrhdSegmentTractionSubstation =
nullptr;
332 if (neigboringOvrhdSegmentTractionSubstation == substation && !(*it)->isInternal()) {
334 if (connection !=
nullptr) {
348 for (
const std::string& segmentID : segmentIDs) {
353 for (
const std::string& segmentID : segmentIDs) {
354 if (segmentID ==
"") {
359 segments.push_back(ovrhdSegment);
367 for (
const std::string& clampID : clampIDs) {
369 if (clamp !=
nullptr) {
376 WRITE_WARNING(
"A connecting overhead wire start segment '" + clamp->
start->
getID() +
"' defined for overhead wire clamp '" + clampID +
"' is not assigned to the traction substation '" + substationId +
"'.");
378 WRITE_WARNING(
"A connecting overhead wire end segment '" + clamp->
end->
getID() +
"' defined for overhead wire clamp '" + clampID +
"' is not assigned to the traction substation '" + substationId +
"'.");
382 WRITE_WARNING(
"The overhead wire clamp '" + clampID +
"' defined in an overhead wire section was not assigned to the substation '" + substationId +
"'. Please define proper <overheadWireClamp .../> in additional files before defining overhead wire section.");
386 WRITE_WARNING(
TL(
"Overhead circuit solver requested, but solver support (Eigen) not compiled in."));
390 if (segments.size() == 0) {
391 throw InvalidArgument(
"No segments found for overHeadWireSection '" + substationId +
"'.");
395 segments[0]->getCircuit()->checkCircuit(substationId);
397 WRITE_WARNING(
TL(
"Cannot check circuit, overhead circuit solver support (Eigen) not compiled in."));
433 if (substation ==
nullptr) {
434 throw InvalidArgument(
"Traction substation '" + substationId +
"' using within an overheadWireClamp '" +
id +
"' is not known.");
442 if (ovrhdSegment_fromItsStart ==
nullptr) {
443 throw InvalidArgument(
"The overheadWireSegment '" + overhead_fromItsStart +
"' to use within overheadWireClamp '" +
id +
"' is not known.");
454 if (ovrhdSegment_fromItsEnd ==
nullptr) {
455 throw InvalidArgument(
"The overheadWireSegment '" + overhead_fromItsEnd +
"' to use within overheadWireClamp '" +
id +
"' is not known.");
462 if (substation->
findClamp(
id) ==
nullptr) {
463 substation->
addClamp(
id, ovrhdSegment_fromItsStart, ovrhdSegment_fromItsEnd);
465 WRITE_ERROR(
"The overhead wire clamp '" +
id +
"' is probably declared twice.")
469 WRITE_WARNING(
TL(
"Not building overhead wire clamps, overhead wire solver support (Eigen) not compiled in."));
472 WRITE_WARNING(
TL(
"Ignoring overhead wire clamps, they make no sense when overhead wire circuit solver is off."));
498 if (!ok || (
myHandler->
checkStopPos(frompos, topos, lane->getLength(), POSITION_EPS, friendlyPos) != SUMORouteHandler::StopPos::STOPPOS_VALID)) {
501 const std::vector<std::string>& lines = attrs.
getOpt<std::vector<std::string> >(
SUMO_ATTR_LINES,
id.c_str(), ok);
511 const int transportableCapacity = attrs.
getOpt<
int>(capacityAttr,
id.c_str(), ok, defaultCapacity);
514 buildStoppingPlace(net,
id, lines, lane, frompos, topos, element, ptStopName, transportableCapacity, parkingLength, color);
521 throw InvalidArgument(
"Could not add access outside a stopping place.");
566 throw InvalidArgument(
"Invalid position for parking area '" +
id +
"'.");
568 const std::vector<std::string>& lines = attrs.
getOpt<std::vector<std::string> >(
SUMO_ATTR_LINES,
id.c_str(), ok);
570 beginParkingArea(net,
id, lines, lane, frompos, topos, capacity, width, length, angle, name, onRoad, departPos);
603 const std::string& base) {
616 if (edge ==
nullptr) {
617 throw InvalidArgument(
"The edge " + edgeID +
" to use within the calibrator '" +
id +
"' is not known.");
620 lane =
getLane(attrs,
"calibrator",
id);
621 if (&lane->
getEdge() != edge) {
622 throw InvalidArgument(
"The edge " + edgeID +
" to use within the calibrator '" +
id
623 +
"' does not match the calibrator lane '" + lane->
getID() +
".");
627 lane =
getLane(attrs,
"calibrator",
id);
630 const double pos =
getPosition(attrs, lane,
"calibrator",
id, edge);
639 if (routeProbe !=
"") {
641 if (probe ==
nullptr) {
642 throw InvalidArgument(
"The routeProbe '" + routeProbe +
"' to use within the calibrator '" +
id +
"' is not known.");
646 if (lane !=
nullptr && edge->
getLanes().size() > 1) {
648 +
"' defined for lane '" + lane->
getID()
649 +
"' will collect data for all lanes of edge '" + edge->
getID() +
"'.");
656 MSCalibrator* trigger =
buildCalibrator(net,
id, edge, lane, pos, file, outfile, period, probe, invalidJamThreshold, vTypes);
673 for (
const std::string& edgeID : attrs.
get<std::vector<std::string> >(
SUMO_ATTR_EDGES,
id.c_str(), ok)) {
675 if (edge ==
nullptr) {
676 throw InvalidArgument(
"The edge '" + edgeID +
"' to use within MSTriggeredRerouter '" +
id +
"' is not known.");
678 edges.push_back(edge);
681 throw InvalidArgument(
"The edge to use within MSTriggeredRerouter '" +
id +
"' is not known.");
683 if (edges.size() == 0) {
684 throw InvalidArgument(
"No edges found for MSTriggeredRerouter '" +
id +
"'.");
691 throw InvalidArgument(
"Could not parse MSTriggeredRerouter '" +
id +
"'.");
704 const std::vector<MSLane*>& destLanes,
705 const std::string& file) {
714 const std::string& file,
715 const std::string& outfile,
718 const double invalidJamThreshold,
719 const std::string& vTypes) {
720 return new METriggeredCalibrator(
id, edge, pos, file, outfile, freq,
MSGlobals::gMesoNet->getSegmentForEdge(*edge, pos)->getLength(), probe, invalidJamThreshold, vTypes);
729 const std::string& file,
730 const std::string& outfile,
733 const double invalidJamThreshold,
734 const std::string& vTypes) {
735 return new MSCalibrator(
id, edge, lane, pos, file, outfile, freq, edge->
getLength(), probe, invalidJamThreshold, vTypes);
742 SUMOTime timeThreshold,
const std::string& vTypes) {
749 double frompos,
double topos,
const SumoXMLTag element, std::string ptStopName,
750 int personCapacity,
double parkingLength,
RGBColor& color) {
762 const std::vector<std::string>& lines,
763 MSLane* lane,
double frompos,
double topos,
764 unsigned int capacity,
765 double width,
double length,
double angle,
const std::string& name,
767 const std::string& departPos) {
769 MSParkingArea* stop =
new MSParkingArea(
id, lines, *lane, frompos, topos, capacity, width, length, angle, name, onRoad, departPos);
772 throw InvalidArgument(
"Could not build parking area '" +
id +
"'; probably declared twice.");
781 double width,
double length,
782 double angle,
double slope) {
787 throw InvalidArgument(
"Cannot not add lot entry to on-road parking area.");
790 throw InvalidArgument(
"Could not add lot entry outside a parking area.");
800 throw InvalidArgument(
"Could not end a parking area that is not opened.");
810 throw InvalidArgument(
"Could not end a stopping place that is not opened.");
817 double chargingPower,
double efficiency,
bool chargeInTransit,
SUMOTime chargeDelay) {
820 delete chargingStation;
821 throw InvalidArgument(
"Could not build charging station '" +
id +
"'; probably declared twice.");
828 bool voltageSource) {
831 delete overheadWireSegment;
832 throw InvalidArgument(
"Could not build overheadWireSegment '" +
id +
"'; probably declared twice.");
838 if (frontConnection == NULL && behindConnection == NULL) {
840 }
else if (frontConnection != NULL && behindConnection == NULL) {
843 }
else if (frontConnection == NULL && behindConnection != NULL) {
846 }
else if (frontConnection != NULL && behindConnection != NULL) {
857 delete myTractionSubstation;
858 throw InvalidArgument(
"Could not build traction substation '" +
id +
"'; probably declared twice.");
868 const std::string& base,
869 const bool allowEmpty) {
889 const std::string& tt,
890 const std::string& tid) {
894 if (lane ==
nullptr) {
902 throw InvalidArgument(
"The lane " + objectid +
" to use within the " + tt +
" '" + tid +
"' is not known.");
911 const std::string& tt,
const std::string& tid,
913 assert(lane != 0 || edge != 0);
926 pos = length - (double) 0.1;
928 if (lane !=
nullptr) {
929 throw InvalidArgument(
"The position of " + tt +
" '" + tid +
"' lies beyond the lane's '" + lane->
getID() +
"' length.");
931 throw InvalidArgument(
"The position of " + tt +
" '" + tid +
"' lies beyond the edges's '" + edge->
getID() +
"' length.");
std::vector< MSEdge * > MSEdgeVector
#define WRITE_MESSAGE(msg)
#define WRITE_WARNING(msg)
SUMOTime string2time(const std::string &r)
convert string to SUMOTime
@ SVC_PEDESTRIAN
pedestrian
SumoXMLTag
Numbers representing SUMO-XML - element names.
@ SUMO_TAG_REROUTER
A rerouter.
@ SUMO_TAG_ROUTEPROBE
a routeprobe detector
@ SUMO_TAG_CHARGING_STATION
A Charging Station.
@ SUMO_TAG_CONTAINER_STOP
A container stop.
@ SUMO_TAG_PARKING_AREA
A parking area.
@ SUMO_TAG_OVERHEAD_WIRE_SEGMENT
An overhead wire segment.
@ SUMO_TAG_CALIBRATOR
A calibrator placed over edge.
@ SUMO_TAG_VSS
A variable speed sign.
SumoXMLAttr
Numbers representing SUMO-XML - attributes.
@ SUMO_ATTR_SUBSTATIONID
id of a traction substation substation
@ SUMO_ATTR_JAM_DIST_THRESHOLD
@ SUMO_ATTR_PARKING_LENGTH
@ SUMO_ATTR_VOLTAGE
voltage of the traction substation [V]
@ SUMO_ATTR_BEGIN
weights: time range begin
@ SUMO_ATTR_EDGES
the edges of a route
@ SUMO_ATTR_OVERHEAD_WIRE_FORBIDDEN
forbidden lanes for overhead wire segment
@ SUMO_ATTR_HALTING_TIME_THRESHOLD
@ 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_CHARGEINTRANSIT
Allow/disallow charge in transit in Charging Stations.
@ SUMO_ATTR_CONTAINER_CAPACITY
@ SUMO_ATTR_OVERHEAD_WIRE_CLAMPS
overhead wire clamps for overhead wire segment
@ SUMO_ATTR_END
weights: time range end
@ SUMO_ATTR_ROADSIDE_CAPACITY
@ SUMO_ATTR_CURRENTLIMIT
current limit of the traction substation [A]
@ SUMO_ATTR_CHARGINGPOWER
@ 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_COLOR
A color information.
@ SUMO_ATTR_EFFICIENCY
Eficiency of the charge in Charging Stations.
@ SUMO_ATTR_VOLTAGESOURCE
a voltage source on the overhead wire segment [bool]
@ SUMO_ATTR_PERSON_CAPACITY
@ SUMO_ATTR_OVERHEAD_WIRE_SEGMENTS
@ SUMO_ATTR_CHARGEDELAY
Delay in the charge of charging stations.
#define UNUSED_PARAMETER(x)
std::string toString(const T &t, std::streamsize accuracy=gPrecision)
Base (microsim) event class.
static bool isAbsolute(const std::string &path)
Returns the information whether the given path is absolute.
static std::string getConfigurationRelative(const std::string &configPath, const std::string &path)
Returns the second path as a relative path to the first file.
void registerParent(const int tag, GenericSAXHandler *handler)
Assigning a parent handler which is enabled when the specified tag is closed.
Calibrates the flow on a segment to a specified one.
Calibrates the flow on a segment to a specified one.
const NamedObjectCont< MSDetectorFileOutput * > & getTypedDetectors(SumoXMLTag type) const
Returns the list of detectors of the given type.
A road/street connecting two junctions.
const std::vector< MSLane * > & getLanes() const
Returns this edge's lanes.
SUMOTime decVaporization(SUMOTime t)
Disables vaporization.
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....
SUMOTime incVaporization(SUMOTime t)
Enables vaporization.
virtual void addEvent(Command *operation, SUMOTime execTimeStep=-1)
Adds an Event.
static bool gOverheadWireSolver
static MELoop * gMesoNet
mesoscopic simulation infrastructure
static bool gUsingInternalLanes
Information whether the simulation regards internal lanes.
Representation of a lane in the micro simulation.
double getLength() const
Returns the lane's length.
const MSLane * getInternalFollowingLane(const MSLane *const) const
returns the internal lane leading to the given lane or nullptr, if there is none
bool allowsVehicleClass(SUMOVehicleClass vclass) const
const std::vector< std::pair< const MSLane *, const MSEdge * > > getOutgoingViaLanes() const
get the list of outgoing lanes
static bool dictionary(const std::string &id, MSLane *lane)
Static (sic!) container methods {.
std::vector< const MSLane * > getNormalIncomingLanes() const
get the list of all direct (disregarding internal predecessors) non-internal predecessor lanes of thi...
MSEdge & getEdge() const
Returns the lane's edge.
Changes the speed allowed on a set of lanes.
The simulated network and simulation perfomer.
bool addStoppingPlace(const SumoXMLTag category, MSStoppingPlace *stop)
Adds a stopping place.
MSDetectorControl & getDetectorControl()
Returns the detector control.
static MSNet * getInstance()
Returns the pointer to the unique instance of MSNet (singleton).
MSEventControl * getBeginOfTimestepEvents()
Returns the event control for events executed at the begin of a time step.
bool addTractionSubstation(MSTractionSubstation *substation)
Adds a traction substation.
std::string getStoppingPlaceID(const MSLane *lane, const double pos, const SumoXMLTag category) const
Returns the stop of the given category close to the given position.
MSStoppingPlace * getStoppingPlace(const std::string &id, const SumoXMLTag category) const
Returns the named stopping place of the given category.
MSTractionSubstation * findTractionSubstation(const std::string &substationId)
find electrical substation by its id
Definition of overhead wire segment.
MSTractionSubstation * getTractionSubstation() const
void setTractionSubstation(MSTractionSubstation *substation)
A lane area vehicles can halt at.
double getAngle() const
Returns the lot rectangle angle.
double getLength() const
Returns the lot rectangle length.
virtual void addLotEntry(double x, double y, double z, double width, double length, double angle, double slope)
Add a lot entry to parking area.
double getWidth() const
Returns the lot rectangle width.
bool parkOnRoad() const
whether vehicles park on the road
Writes routes of vehicles passing a certain edge.
A lane area vehicles can halt at.
int getTransportablesAbreast() const
virtual bool addAccess(MSLane *lane, const double pos, double length)
adds an access point to this stop
const MSLane & getLane() const
Returns the lane this stop is located at.
Traction substaction powering one or more overhead wire sections.
void addOverheadWireClampToCircuit(const std::string id, MSOverheadWire *startSegment, MSOverheadWire *endSegment)
void addClamp(const std::string &id, MSOverheadWire *startPos, MSOverheadWire *endPos)
bool isAnySectionPreviouslyDefined()
bool isForbidden(const MSLane *lane)
void addOverheadWireSegmentToCircuit(MSOverheadWire *newOverheadWireSegment)
OverheadWireClamp * findClamp(std::string id)
Find an overhead wire clamp by its ID.
void addForbiddenLane(MSLane *lane)
Reroutes vehicles passing an edge.
The XML-Handler for network loading.
virtual MSTriggeredRerouter * buildRerouter(MSNet &net, const std::string &id, MSEdgeVector &edges, double prob, bool off, SUMOTime timeThreshold, const std::string &vTypes)
builds an rerouter
NLTriggerBuilder()
Constructor.
virtual void buildOverheadWireClamp(MSNet &net, const std::string &id, MSLane *lane_start, MSLane *lane_end)
MSParkingArea * myParkingArea
definition of the currently parsed parking area
void parseAndBuildTractionSubstation(MSNet &net, const SUMOSAXAttributes &attrs)
Parses its values and builds a traction substation.
virtual void beginParkingArea(MSNet &net, const std::string &id, const std::vector< std::string > &lines, MSLane *lane, double frompos, double topos, unsigned int capacity, double width, double length, double angle, const std::string &name, bool onRoad, const std::string &departPos)
Begin a parking area.
void addAccess(MSNet &net, const SUMOSAXAttributes &attrs)
Parses the values and adds an access point to the currently parsed stopping place.
void parseAndBuildOverheadWireSegment(MSNet &net, const SUMOSAXAttributes &attrs)
Parses its values and builds an overhead wire segment.
void parseAndBuildCalibrator(MSNet &net, const SUMOSAXAttributes &attrs, const std::string &base)
Parses his values and builds a mesoscopic or microscopic calibrator.
double getPosition(const SUMOSAXAttributes &attrs, MSLane *lane, const std::string &tt, const std::string &tid, MSEdge *edge=0)
returns the position on the lane checking it
void buildInnerOverheadWireSegments(MSNet &net, const MSLane *connection, const MSLane *frontConnection, const MSLane *behindConnection)
Builds an overhead wire inner segments.
virtual MSLaneSpeedTrigger * buildLaneSpeedTrigger(MSNet &net, const std::string &id, const std::vector< MSLane * > &destLanes, const std::string &file)
Builds a lane speed trigger.
virtual void endParkingArea()
End a parking area.
void parseAndBuildLaneSpeedTrigger(MSNet &net, const SUMOSAXAttributes &attrs, const std::string &base)
Parses his values and builds a lane speed trigger.
void parseAndAddLotEntry(const SUMOSAXAttributes &attrs)
Parses his values and adds a lot entry to current parking area.
NLHandler * myHandler
The parent handler to set for subhandlers.
MSLane * getLane(const SUMOSAXAttributes &attrs, const std::string &tt, const std::string &tid)
Returns the lane defined by attribute "lane".
void buildVaporizer(const SUMOSAXAttributes &attrs)
Builds a vaporization.
void parseAndBuildRerouter(MSNet &net, const SUMOSAXAttributes &attrs)
Parses his values and builds a rerouter.
void parseAndBuildOverheadWireSection(MSNet &net, const SUMOSAXAttributes &attrs)
Parses its values and builds an overhead wire section.
void setHandler(NLHandler *handler)
Sets the parent handler to use for nested parsing.
virtual MSCalibrator * buildCalibrator(MSNet &net, const std::string &id, MSEdge *edge, MSLane *lane, double pos, const std::string &file, const std::string &outfile, const SUMOTime freq, const MSRouteProbe *probe, const double invalidJamThreshold, const std::string &vTypes)
builds a microscopic calibrator
virtual ~NLTriggerBuilder()
Destructor.
void buildTractionSubstation(MSNet &net, std::string id, double voltage, double currentLimit)
Builds a traction substation.
bool myHaveWarnedAboutEigen
void addLotEntry(double x, double y, double z, double width, double length, double angle, double slope)
Add a lot entry to current parking area.
void parseAndBuildChargingStation(MSNet &net, const SUMOSAXAttributes &attrs)
Parses his values and builds a charging station.
void parseAndBuildOverheadWireClamp(MSNet &net, const SUMOSAXAttributes &attrs)
Parses its values and builds an overhead wire clamp.
virtual void endStoppingPlace()
End a stopping place.
virtual void buildOverheadWireSegment(MSNet &net, const std::string &id, MSLane *lane, double frompos, double topos, bool voltageSource)
Builds an overhead wire segment.
MSStoppingPlace * myCurrentStop
The currently parsed stop to add access points to.
MSStoppingPlace * getCurrentStop()
virtual METriggeredCalibrator * buildMECalibrator(MSNet &net, const std::string &id, const MSEdge *edge, double pos, const std::string &file, const std::string &outfile, const SUMOTime freq, MSRouteProbe *probe, const double invalidJamThreshold, const std::string &vTypes)
builds a mesoscopic calibrator
virtual void buildStoppingPlace(MSNet &net, std::string id, std::vector< std::string > lines, MSLane *lane, double frompos, double topos, const SumoXMLTag element, std::string string, int personCapacity, double parkingLength, RGBColor &color)
Builds a stopping place.
virtual void buildChargingStation(MSNet &net, const std::string &id, MSLane *lane, double frompos, double topos, const std::string &name, double chargingPower, double efficiency, bool chargeInTransit, SUMOTime chargeDelay)
Builds a charging station.
void parseAndBuildStoppingPlace(MSNet &net, const SUMOSAXAttributes &attrs, const SumoXMLTag element)
Parses the values and builds a stopping places for busses, trains or container vehicles.
void parseAndBeginParkingArea(MSNet &net, const SUMOSAXAttributes &attrs)
Parses his values and builds a parking area.
std::string getFileName(const SUMOSAXAttributes &attrs, const std::string &base, const bool allowEmpty=false)
Helper method to obtain the filename.
const std::string & getID() const
Returns the id.
T get(const std::string &id) const
Retrieves an item.
static OptionsCont & getOptions()
Retrieves the options.
static const RGBColor INVISIBLE
static StopPos checkStopPos(double &startPos, double &endPos, const double laneLength, const double minLength, const bool friendlyPos)
check start and end position of a stop
Encapsulated SAX-Attributes.
SUMOTime getOptPeriod(const char *objectid, bool &ok, SUMOTime defaultValue, bool report=true) const
Tries to read the SUMOTime 'period' attribute.
T getOpt(int attr, const char *objectid, bool &ok, T defaultValue=T(), bool report=true) const
Tries to read given attribute assuming it is an int.
SUMOTime getOptSUMOTimeReporting(int attr, const char *objectid, bool &ok, SUMOTime defaultValue, bool report=true) const
Tries to read given attribute assuming it is a SUMOTime.
T get(int attr, const char *objectid, bool &ok, bool report=true) const
Tries to read given attribute assuming it is an int.
virtual bool hasAttribute(int id) const =0
Returns the information whether the named (by its enum-value) attribute is within the current list.
SUMOTime getSUMOTimeReporting(int attr, const char *objectid, bool &ok, bool report=true) const
Tries to read given attribute assuming it is a SUMOTime.
A wrapper for a Command function.