void
MSRouteHandler::myEndElement(SumoXMLTag element) throw(ProcessError) {
switch (element) {
case SUMO_TAG_ROUTE:
closeRoute();
break;
case SUMO_TAG_PERSON:
closePerson();
delete myVehicleParameter;
myVehicleParameter = 0;
break;
case SUMO_TAG_VEHICLE:
if (myVehicleParameter->repetitionNumber>0) {
myVehicleParameter->repetitionNumber++; // for backwards compatibility
// it is a flow, thus no break here
} else {
closeVehicle();
delete myVehicleParameter;
myVehicleParameter = 0;
break;
}
case SUMO_TAG_FLOW:
closeFlow();
break;
case SUMO_TAG_VTYPE_DISTRIBUTION:
closeVehicleTypeDistribution();
break;
case SUMO_TAG_ROUTE_DISTRIBUTION:
closeRouteDistribution();
break;
case SUMO_TAG_VTYPE: {
SUMOVehicleParserHelper::closeVTypeParsing(*myCurrentVType);
MSVehicleType *vehType = MSVehicleType::build(*myCurrentVType);
delete myCurrentVType;
myCurrentVType = 0;
if (!MSNet::getInstance()->getVehicleControl().addVType(vehType)) {
std::string id = vehType->getID();
delete vehType;
#ifdef HAVE_MESOSIM
if (!MSGlobals::gStateLoaded) {
#endif
throw ProcessError("Another vehicle type (or distribution) with the id '" + id + "' exists.");
#ifdef HAVE_MESOSIM
}
#endif
} else {
if (myCurrentVTypeDistribution != 0) {
myCurrentVTypeDistribution->add(vehType->getDefaultProbability(), vehType);
}
}
}
break;
default:
break;
}
}
void
RORouteHandler::myStartElement(int element,
const SUMOSAXAttributes& attrs) {
SUMORouteHandler::myStartElement(element, attrs);
switch (element) {
case SUMO_TAG_PERSON:
myActivePlan = new OutputDevice_String(false, 1);
myActivePlanSize = 0;
myActivePlan->openTag(SUMO_TAG_PERSON);
(*myActivePlan) << attrs;
break;
case SUMO_TAG_RIDE: {
myActivePlan->openTag(SUMO_TAG_RIDE);
(*myActivePlan) << attrs;
myActivePlan->closeTag();
myActivePlanSize++;
break;
}
case SUMO_TAG_WALK: {
if (attrs.hasAttribute(SUMO_ATTR_EDGES)) {
// copy walk as it is
// XXX allow --repair?
myActivePlan->openTag(SUMO_TAG_WALK);
(*myActivePlan) << attrs;
myActivePlan->closeTag();
myActivePlanSize++;
} else {
routePedestrian(attrs, *myActivePlan);
}
break;
}
case SUMO_TAG_FLOW:
myActiveRouteProbability = DEFAULT_VEH_PROB;
parseFromViaTo("flow", attrs);
break;
case SUMO_TAG_TRIP: {
myActiveRouteProbability = DEFAULT_VEH_PROB;
parseFromViaTo("trip", attrs);
closeVehicle();
}
break;
default:
break;
}
// parse embedded vtype information
if (myCurrentVType != 0 && element != SUMO_TAG_VTYPE) {
SUMOVehicleParserHelper::parseVTypeEmbedded(*myCurrentVType, element, attrs);
return;
}
}
void
SUMORouteHandler::myEndElement(int element) {
switch (element) {
case SUMO_TAG_ROUTE:
closeRoute();
break;
case SUMO_TAG_PERSON:
closePerson();
delete myVehicleParameter;
myVehicleParameter = 0;
break;
case SUMO_TAG_CONTAINER:
closeContainer();
delete myVehicleParameter;
myVehicleParameter = 0;
break;
case SUMO_TAG_VEHICLE:
if (myVehicleParameter->repetitionNumber > 0) {
myVehicleParameter->repetitionNumber++; // for backwards compatibility
// it is a flow, thus no break here
} else {
closeVehicle();
delete myVehicleParameter;
myVehicleParameter = 0;
break;
}
case SUMO_TAG_FLOW:
closeFlow();
break;
case SUMO_TAG_VTYPE_DISTRIBUTION:
closeVehicleTypeDistribution();
break;
case SUMO_TAG_ROUTE_DISTRIBUTION:
closeRouteDistribution();
break;
case SUMO_TAG_VTYPE:
SUMOVehicleParserHelper::closeVTypeParsing(*myCurrentVType);
break;
case SUMO_TAG_INTERVAL:
myBeginDefault = string2time(OptionsCont::getOptions().getString("begin"));
myEndDefault = string2time(OptionsCont::getOptions().getString("end"));
break;
default:
break;
}
}
void
RORouteHandler::myStartElement(int element,
const SUMOSAXAttributes& attrs) {
SUMORouteHandler::myStartElement(element, attrs);
switch (element) {
case SUMO_TAG_PERSON:
myActivePlan = new OutputDevice_String(false, 1);
myActivePlan->openTag(SUMO_TAG_PERSON);
(*myActivePlan) << attrs;
break;
case SUMO_TAG_RIDE: {
myActivePlan->openTag(SUMO_TAG_RIDE);
(*myActivePlan) << attrs;
myActivePlan->closeTag();
break;
}
case SUMO_TAG_WALK: {
myActivePlan->openTag(SUMO_TAG_WALK);
(*myActivePlan) << attrs;
myActivePlan->closeTag();
break;
}
case SUMO_TAG_FLOW:
parseFromTo("flow", attrs);
break;
case SUMO_TAG_TRIP: {
parseFromTo("trip", attrs);
closeVehicle();
}
break;
default:
break;
}
// parse embedded vtype information
if (myCurrentVType != 0 && element != SUMO_TAG_VTYPE) {
SUMOVehicleParserHelper::parseVTypeEmbedded(*myCurrentVType, element, attrs);
return;
}
}
void
RORouteHandler::myEndElement(int element) {
SUMORouteHandler::myEndElement(element);
switch (element) {
case SUMO_TAG_VTYPE:
if (myNet.addVehicleType(myCurrentVType)) {
if (myCurrentVTypeDistribution != 0) {
myCurrentVTypeDistribution->add(myCurrentVType, myCurrentVType->defaultProbability);
}
}
myCurrentVType = 0;
break;
case SUMO_TAG_TRIP:
closeRoute(true);
closeVehicle();
delete myVehicleParameter;
myVehicleParameter = 0;
myInsertStopEdgesAt = -1;
break;
default:
break;
}
}
void
SUMORouteHandler::myEndElement(int element) {
switch (element) {
case SUMO_TAG_ROUTE:
closeRoute();
break;
case SUMO_TAG_PERSON:
closePerson();
delete myVehicleParameter;
myVehicleParameter = 0;
break;
case SUMO_TAG_VEHICLE:
if (myVehicleParameter->repetitionNumber > 0) {
myVehicleParameter->repetitionNumber++; // for backwards compatibility
// it is a flow, thus no break here
} else {
closeVehicle();
delete myVehicleParameter;
myVehicleParameter = 0;
break;
}
case SUMO_TAG_FLOW:
closeFlow();
break;
case SUMO_TAG_VTYPE_DISTRIBUTION:
closeVehicleTypeDistribution();
break;
case SUMO_TAG_ROUTE_DISTRIBUTION:
closeRouteDistribution();
break;
case SUMO_TAG_VTYPE:
SUMOVehicleParserHelper::closeVTypeParsing(*myCurrentVType);
break;
default:
break;
}
}
void MSRouteHandler::myStartElement
(int element, const SUMOSAXAttributes& attrs)
{
if(oc.getLoadVerbosity()>1)
std::cout << "----> MSRouteHandler::myStartElement" << std::endl;
switch (element) {
case SUMO_TAG_VEHICLE:
delete myVehicleParameter;
myVehicleParameter = SUMOVehicleParserHelper::parseVehicleAttributes(attrs);
if(oc.getLoadVerbosity()>1)
std::cout << "[110] MSRouteHandler::myStartElement\n myVehiclePar"
"ameter->vtypeid=" << myVehicleParameter->vtypeid
<< "\n myVehicleParameter->id=" << myVehicleParameter
->id << std::endl;
/*TASK
* This could be the first place where we can process the
* electric or nonelectric characteristics of the vehicles
*/
if((myVehicleParameter->id.substr(0, 4)=="elec") ||//DEPRECATED(MANTAIN)
(myVehicleParameter->id.substr(0, 6)=="SHelec")||//DEPRECATED(MANTAIN)
(myVehicleParameter->id.substr(0, 6)=="SHElec")||
(myVehicleParameter->id.substr(0, 9)=="SHItaElec")||
(myVehicleParameter->id.substr(0, 9)=="SHGerElec")||
(myVehicleParameter->id.substr(0, 3)=="fev"))
{
//TASK (uprego) This should be safe, but I'm not completely sure
myVehicleParameter->vtypeid = DEFAULT_ELECVTYPE_ID;
// Electric cars turn green
myVehicleParameter->color = HIB_CAR_COLOR_GREEN;
}
else if((myVehicleParameter->id.substr(0, 4)=="norm")||//DEPRECATED(MANTAIN)
(myVehicleParameter->id.substr(0, 6)=="SHnorm")||//DEPRECATED(MANTAIN)
(myVehicleParameter->id.substr(0, 6)=="SHItaNorm")||
(myVehicleParameter->id.substr(0, 6)=="SHGerNorm")||
(myVehicleParameter->id.substr(0, 6)=="SHNorm"))
{
// Normal cars remain yellow
myVehicleParameter->color = HIB_CAR_COLOR_YELLOW_TRY;
}
else
{
/*
BUSCARLO EN LOS VEHICLES TO TRACK LIST !!!
IF ESTA
// CREARLE EL VTYPEID
ELSE
// Default yellow
myVehicleParameter->color = HIB_CAR_COLOR_YELLOW_TRY;
*/
myVehicleParameter->color=HIB_CAR_COLOR_YELLOW_TRY; // TASK TODO FIXME ALERT DANGER DELETEME
}
break;
case SUMO_TAG_PERSON:
delete myVehicleParameter;
myVehicleParameter = SUMOVehicleParserHelper::parseVehicleAttributes(attrs);
myActivePlan = new MSPerson::MSPersonPlan();
break;
case SUMO_TAG_RIDE: {
const std::string pid = myVehicleParameter->id;
bool ok = true;
MSEdge* from = 0;
if (attrs.hasAttribute(SUMO_ATTR_FROM)) {
const std::string fromID = attrs.getStringReporting(SUMO_ATTR_FROM, pid.c_str(), ok);
from = MSEdge::dictionary(fromID);
if (from == 0) {
throw ProcessError("The from edge '" + fromID + "' within a ride of person '" + pid + "' is not known.");
}
if (!myActivePlan->empty() && &myActivePlan->back()->getDestination() != from) {
throw ProcessError("Disconnected plan for person '" + myVehicleParameter->id + "' (" + fromID + "!=" + myActivePlan->back()->getDestination().getID() + ").");
}
if (myActivePlan->empty()) {
myActivePlan->push_back(new MSPerson::MSPersonStage_Waiting(*from, -1, myVehicleParameter->depart));
}
}
const std::string toID = attrs.getStringReporting(SUMO_ATTR_TO, pid.c_str(), ok);
MSEdge* to = MSEdge::dictionary(toID);
if (to == 0) {
throw ProcessError("The to edge '" + toID + "' within a ride of person '" + pid + "' is not known.");
}
const std::string desc = attrs.getStringReporting(SUMO_ATTR_LINES, pid.c_str(), ok);
StringTokenizer st(desc);
myActivePlan->push_back(new MSPerson::MSPersonStage_Driving(*to, st.getVector()));
break;
}
case SUMO_TAG_WALK: {
myActiveRoute.clear();
bool ok = true;
MSEdge::parseEdgesList(attrs.getStringReporting(SUMO_ATTR_EDGES, myVehicleParameter->id.c_str(), ok), myActiveRoute, myActiveRouteID);
if (myActiveRoute.empty()) {
throw ProcessError("No edges to walk for person '" + myVehicleParameter->id + "'.");
}
if (!myActivePlan->empty() && &myActivePlan->back()->getDestination() != myActiveRoute.front()) {
throw ProcessError("Disconnected plan for person '" + myVehicleParameter->id + "' (" + myActiveRoute.front()->getID() + "!=" + myActivePlan->back()->getDestination().getID() + ").");
}
if (myActivePlan->empty()) {
myActivePlan->push_back(new MSPerson::MSPersonStage_Waiting(*myActiveRoute.front(), -1, myVehicleParameter->depart));
}
const SUMOTime duration = attrs.getOptSUMOTimeReporting(SUMO_ATTR_DURATION, 0, ok, -1);
const SUMOReal speed = attrs.getOptSUMORealReporting(SUMO_ATTR_SPEED, 0, ok, -1);
myActivePlan->push_back(new MSPerson::MSPersonStage_Walking(myActiveRoute, duration, speed));
myActiveRoute.clear();
break;
}
case SUMO_TAG_FLOW:
delete myVehicleParameter;
myVehicleParameter = SUMOVehicleParserHelper::parseFlowAttributes(attrs);
if (attrs.hasAttribute(SUMO_ATTR_FROM) && attrs.hasAttribute(SUMO_ATTR_TO)) {
myActiveRouteID = "!" + myVehicleParameter->id;
bool ok = true;
MSEdge::parseEdgesList(attrs.getStringReporting(SUMO_ATTR_FROM, myVehicleParameter->id.c_str(), ok),
myActiveRoute, "for vehicle '" + myVehicleParameter->id + "'");
MSEdge::parseEdgesList(attrs.getStringReporting(SUMO_ATTR_TO, myVehicleParameter->id.c_str(), ok),
myActiveRoute, "for vehicle '" + myVehicleParameter->id + "'");
closeRoute();
}
break;
case SUMO_TAG_VTYPE__DEPRECATED:
if (!myHaveWarnedAboutDeprecatedVType) {
myHaveWarnedAboutDeprecatedVType = true;
WRITE_WARNING("'" + toString(SUMO_TAG_VTYPE__DEPRECATED) + "' is deprecated; please use '" + toString(SUMO_TAG_VTYPE) + "'.");
}
case SUMO_TAG_VTYPE:
myCurrentVType = SUMOVehicleParserHelper::beginVTypeParsing(attrs);
break;
case SUMO_TAG_VTYPE_DISTRIBUTION__DEPRECATED:
if (!myHaveWarnedAboutDeprecatedVTypeDistribution) {
myHaveWarnedAboutDeprecatedVTypeDistribution = true;
WRITE_WARNING("'" + toString(SUMO_TAG_VTYPE_DISTRIBUTION__DEPRECATED) + "' is deprecated; please use '" + toString(SUMO_TAG_VTYPE_DISTRIBUTION) + "'.");
}
case SUMO_TAG_VTYPE_DISTRIBUTION:
openVehicleTypeDistribution(attrs);
break;
case SUMO_TAG_ROUTE:
openRoute(attrs);
break;
case SUMO_TAG_ROUTE_DISTRIBUTION:
openRouteDistribution(attrs);
break;
case SUMO_TAG_STOP:
addStop(attrs);
break;
case SUMO_TAG_TRIP__DEPRECATED:
case SUMO_TAG_TRIP: {
bool ok = true;
myVehicleParameter = SUMOVehicleParserHelper::parseVehicleAttributes(attrs);
myVehicleParameter->setParameter |= VEHPARS_FORCE_REROUTE;
myActiveRouteID = "!" + myVehicleParameter->id;
if (attrs.hasAttribute(SUMO_ATTR_FROM) || !myVehicleParameter->wasSet(VEHPARS_TAZ_SET)) {
MSEdge::parseEdgesList(attrs.getStringReporting(SUMO_ATTR_FROM, myVehicleParameter->id.c_str(), ok),
myActiveRoute, "for vehicle '" + myVehicleParameter->id + "'");
MSEdge::parseEdgesList(attrs.getStringReporting(SUMO_ATTR_TO, myVehicleParameter->id.c_str(), ok),
myActiveRoute, "for vehicle '" + myVehicleParameter->id + "'");
} else {
const MSEdge* fromTaz = MSEdge::dictionary(myVehicleParameter->fromTaz + "-source");
if (fromTaz == 0) {
WRITE_ERROR("Source district '" + myVehicleParameter->fromTaz + "' not known for '" + myVehicleParameter->id + "'!");
} else if (fromTaz->getNoFollowing() == 0) {
WRITE_ERROR("Source district '" + myVehicleParameter->fromTaz + "' has no outgoing edges for '" + myVehicleParameter->id + "'!");
} else {
myActiveRoute.push_back(fromTaz->getFollower(0));
}
}
closeRoute();
closeVehicle();
}
break;
default:
break;
}
// parse embedded vtype information
if (myCurrentVType != 0 && element != SUMO_TAG_VTYPE && element != SUMO_TAG_VTYPE__DEPRECATED) {
SUMOVehicleParserHelper::parseVTypeEmbedded(*myCurrentVType, element, attrs);
return;
}
}
void
MSRouteHandler::myStartElement(int element,
const SUMOSAXAttributes& attrs) {
SUMORouteHandler::myStartElement(element, attrs);
switch (element) {
case SUMO_TAG_PERSON:
myActivePlan = new MSPerson::MSPersonPlan();
break;
case SUMO_TAG_RIDE: {
const std::string pid = myVehicleParameter->id;
bool ok = true;
MSEdge* from = 0;
const std::string desc = attrs.get<std::string>(SUMO_ATTR_LINES, pid.c_str(), ok);
StringTokenizer st(desc);
std::string bsID = attrs.getOpt<std::string>(SUMO_ATTR_BUS_STOP, 0, ok, "");
MSBusStop* bs = 0;
if (bsID != "") {
bs = MSNet::getInstance()->getBusStop(bsID);
if (bs == 0) {
throw ProcessError("Unknown bus stop '" + bsID + "' for person '" + myVehicleParameter->id + "'.");
}
}
if (attrs.hasAttribute(SUMO_ATTR_FROM)) {
const std::string fromID = attrs.get<std::string>(SUMO_ATTR_FROM, pid.c_str(), ok);
from = MSEdge::dictionary(fromID);
if (from == 0) {
throw ProcessError("The from edge '" + fromID + "' within a ride of person '" + pid + "' is not known.");
}
if (!myActivePlan->empty() && &myActivePlan->back()->getDestination() != from) {
throw ProcessError("Disconnected plan for person '" + myVehicleParameter->id + "' (" + fromID + "!=" + myActivePlan->back()->getDestination().getID() + ").");
}
if (myActivePlan->empty()) {
myActivePlan->push_back(new MSPerson::MSPersonStage_Waiting(
*from, -1, myVehicleParameter->depart, myVehicleParameter->departPos, "start"));
}
} else if (myActivePlan->empty()) {
throw ProcessError("The start edge within for person '" + pid + "' is not known.");
}
const std::string toID = attrs.get<std::string>(SUMO_ATTR_TO, pid.c_str(), ok);
MSEdge* to = MSEdge::dictionary(toID);
if (to == 0) {
throw ProcessError("The to edge '" + toID + "' within a ride of person '" + pid + "' is not known.");
}
myActivePlan->push_back(new MSPerson::MSPersonStage_Driving(*to, bs, st.getVector()));
break;
}
case SUMO_TAG_WALK: {
myActiveRoute.clear();
bool ok = true;
if (attrs.hasAttribute(SUMO_ATTR_EDGES)) {
MSEdge::parseEdgesList(attrs.get<std::string>(SUMO_ATTR_EDGES, myVehicleParameter->id.c_str(), ok), myActiveRoute, myActiveRouteID);
} else {
if (attrs.hasAttribute(SUMO_ATTR_FROM) && attrs.hasAttribute(SUMO_ATTR_TO)) {
const std::string fromID = attrs.get<std::string>(SUMO_ATTR_FROM, myVehicleParameter->id.c_str(), ok);
MSEdge* from = MSEdge::dictionary(fromID);
if (from == 0) {
throw ProcessError("The from edge '" + fromID + "' within a walk of person '" + myVehicleParameter->id + "' is not known.");
}
const std::string toID = attrs.get<std::string>(SUMO_ATTR_TO, myVehicleParameter->id.c_str(), ok);
MSEdge* to = MSEdge::dictionary(toID);
if (to == 0) {
throw ProcessError("The to edge '" + toID + "' within a walk of person '" + myVehicleParameter->id + "' is not known.");
}
MSNet::getInstance()->getRouterTT().compute(from, to, 0, 0, myActiveRoute); // @todo: only footways, current time?
}
}
if (myActiveRoute.empty()) {
throw ProcessError("No edges to walk for person '" + myVehicleParameter->id + "'.");
}
if (!myActivePlan->empty() && &myActivePlan->back()->getDestination() != myActiveRoute.front()) {
throw ProcessError("Disconnected plan for person '" + myVehicleParameter->id + "' (" + myActiveRoute.front()->getID() + "!=" + myActivePlan->back()->getDestination().getID() + ").");
}
SUMOReal departPos = attrs.getOpt<SUMOReal>(SUMO_ATTR_DEPARTPOS, myVehicleParameter->id.c_str(), ok, 0);
SUMOReal arrivalPos = attrs.getOpt<SUMOReal>(SUMO_ATTR_ARRIVALPOS, myVehicleParameter->id.c_str(), ok, -1);
const SUMOTime duration = attrs.getOptSUMOTimeReporting(SUMO_ATTR_DURATION, 0, ok, -1);
SUMOReal speed = DEFAULT_PERSON_SPEED;
if (attrs.hasAttribute(SUMO_ATTR_SPEED)) {
speed = attrs.getOpt<SUMOReal>(SUMO_ATTR_SPEED, 0, ok, speed);
if (speed < 0) {
throw ProcessError("Negative walking speed for '" + myVehicleParameter->id + "'.");
}
}
std::string bsID = attrs.getOpt<std::string>(SUMO_ATTR_BUS_STOP, 0, ok, "");
MSBusStop* bs = 0;
if (bsID != "") {
bs = MSNet::getInstance()->getBusStop(bsID);
if (bs == 0) {
throw ProcessError("Unknown bus stop '" + bsID + "' for person '" + myVehicleParameter->id + "'.");
}
}
if (myActivePlan->empty()) {
myActivePlan->push_back(new MSPerson::MSPersonStage_Waiting(
*myActiveRoute.front(), -1, myVehicleParameter->depart, departPos, "start"));
}
myActivePlan->push_back(new MSPerson::MSPersonStage_Walking(myActiveRoute, bs, duration, speed, departPos, arrivalPos));
myActiveRoute.clear();
break;
}
case SUMO_TAG_FLOW:
if (attrs.hasAttribute(SUMO_ATTR_FROM) && attrs.hasAttribute(SUMO_ATTR_TO)) {
myActiveRouteID = "!" + myVehicleParameter->id;
bool ok = true;
MSEdge::parseEdgesList(attrs.get<std::string>(SUMO_ATTR_FROM, myVehicleParameter->id.c_str(), ok),
myActiveRoute, "for vehicle '" + myVehicleParameter->id + "'");
MSEdge::parseEdgesList(attrs.get<std::string>(SUMO_ATTR_TO, myVehicleParameter->id.c_str(), ok),
myActiveRoute, "for vehicle '" + myVehicleParameter->id + "'");
closeRoute(true);
}
break;
case SUMO_TAG_TRIP: {
bool ok = true;
if (attrs.hasAttribute(SUMO_ATTR_FROM) || !myVehicleParameter->wasSet(VEHPARS_TAZ_SET)) {
MSEdge::parseEdgesList(attrs.get<std::string>(SUMO_ATTR_FROM, myVehicleParameter->id.c_str(), ok),
myActiveRoute, "for vehicle '" + myVehicleParameter->id + "'");
MSEdge::parseEdgesList(attrs.get<std::string>(SUMO_ATTR_TO, myVehicleParameter->id.c_str(), ok),
myActiveRoute, "for vehicle '" + myVehicleParameter->id + "'");
} else {
const MSEdge* fromTaz = MSEdge::dictionary(myVehicleParameter->fromTaz + "-source");
if (fromTaz == 0) {
WRITE_ERROR("Source district '" + myVehicleParameter->fromTaz + "' not known for '" + myVehicleParameter->id + "'!");
} else if (fromTaz->getNoFollowing() == 0) {
WRITE_ERROR("Source district '" + myVehicleParameter->fromTaz + "' has no outgoing edges for '" + myVehicleParameter->id + "'!");
} else {
myActiveRoute.push_back(fromTaz->getFollower(0));
}
}
closeRoute(true);
closeVehicle();
}
break;
default:
break;
}
// parse embedded vtype information
if (myCurrentVType != 0 && element != SUMO_TAG_VTYPE && element != SUMO_TAG_PARAM) {
SUMOVehicleParserHelper::parseVTypeEmbedded(*myCurrentVType, element, attrs);
return;
}
}
void
MSRouteHandler::myStartElement(SumoXMLTag element,
const SUMOSAXAttributes &attrs) throw(ProcessError) {
switch (element) {
case SUMO_TAG_VEHICLE:
delete myVehicleParameter;
myVehicleParameter = SUMOVehicleParserHelper::parseVehicleAttributes(attrs);
break;
case SUMO_TAG_PERSON:
delete myVehicleParameter;
myVehicleParameter = SUMOVehicleParserHelper::parseVehicleAttributes(attrs);
myActivePlan = new MSPerson::MSPersonPlan();
break;
case SUMO_TAG_RIDE: {
const std::string pid = myVehicleParameter->id;
bool ok = true;
MSEdge *from = 0;
if (attrs.hasAttribute(SUMO_ATTR_FROM)) {
const std::string fromID = attrs.getStringReporting(SUMO_ATTR_FROM, "ride", pid.c_str(), ok);
from = MSEdge::dictionary(fromID);
if (from==0) {
throw ProcessError("The from edge '" + fromID + "' within a ride of person '" + pid + "' is not known.");
}
if (myActivePlan->empty() || &myActivePlan->back()->getDestination() != from) {
myActivePlan->push_back(new MSPerson::MSPersonStage_Waiting(*from, -1, myVehicleParameter->depart));
}
}
const std::string toID = attrs.getStringReporting(SUMO_ATTR_TO, "ride", pid.c_str(), ok);
MSEdge *to = MSEdge::dictionary(toID);
if (to==0) {
throw ProcessError("The to edge '" + toID + "' within a ride of person '" + pid + "' is not known.");
}
const std::string desc = attrs.getStringReporting(SUMO_ATTR_LINES, "ride", pid.c_str(), ok);
StringTokenizer st(desc);
myActivePlan->push_back(new MSPerson::MSPersonStage_Driving(*to, st.getVector()));
break;
}
case SUMO_TAG_WALK: {
myActiveRoute.clear();
bool ok = true;
MSEdge::parseEdgesList(attrs.getStringReporting(SUMO_ATTR_EDGES, "walk", myVehicleParameter->id.c_str(), ok), myActiveRoute, myActiveRouteID);
if (myActiveRoute.empty()) {
throw ProcessError("No edges to walk for person '" + myVehicleParameter->id + "'.");
}
if (myActivePlan->empty() || &myActivePlan->back()->getDestination() != myActiveRoute.front()) {
myActivePlan->push_back(new MSPerson::MSPersonStage_Waiting(*myActiveRoute.front(), -1, myVehicleParameter->depart));
}
const SUMOTime duration = attrs.getOptSUMOTimeReporting(SUMO_ATTR_DURATION, "walk", 0, ok, -1);
const SUMOReal speed = attrs.getOptSUMORealReporting(SUMO_ATTR_SPEED, "walk", 0, ok, -1);
myActivePlan->push_back(new MSPerson::MSPersonStage_Walking(myActiveRoute, duration, speed));
myActiveRoute.clear();
break;
}
case SUMO_TAG_FLOW:
delete myVehicleParameter;
myVehicleParameter = SUMOVehicleParserHelper::parseFlowAttributes(attrs);
if (attrs.hasAttribute(SUMO_ATTR_FROM) && attrs.hasAttribute(SUMO_ATTR_TO)) {
myActiveRouteID = "!" + myVehicleParameter->id;
bool ok = true;
MSEdge::parseEdgesList(attrs.getStringReporting(SUMO_ATTR_FROM, "flow", myVehicleParameter->id.c_str(), ok), myActiveRoute, myActiveRouteID);
MSEdge::parseEdgesList(attrs.getStringReporting(SUMO_ATTR_TO, "flow", myVehicleParameter->id.c_str(), ok), myActiveRoute, myActiveRouteID);
closeRoute();
}
break;
case SUMO_TAG_VTYPE:
myCurrentVType = SUMOVehicleParserHelper::beginVTypeParsing(attrs);
break;
case SUMO_TAG_VTYPE_DISTRIBUTION:
openVehicleTypeDistribution(attrs);
break;
case SUMO_TAG_ROUTE:
openRoute(attrs);
break;
case SUMO_TAG_ROUTE_DISTRIBUTION:
openRouteDistribution(attrs);
break;
case SUMO_TAG_TRIPDEF: {
bool ok = true;
myVehicleParameter = SUMOVehicleParserHelper::parseVehicleAttributes(attrs);
myActiveRouteID = "!" + myVehicleParameter->id;
if (attrs.hasAttribute(SUMO_ATTR_FROM) || !myVehicleParameter->wasSet(VEHPARS_TAZ_SET)) {
MSEdge::parseEdgesList(attrs.getStringReporting(SUMO_ATTR_FROM, "tripdef", myVehicleParameter->id.c_str(), ok), myActiveRoute, myActiveRouteID);
MSEdge::parseEdgesList(attrs.getStringReporting(SUMO_ATTR_TO, "tripdef", myVehicleParameter->id.c_str(), ok), myActiveRoute, myActiveRouteID);
} else {
const MSEdge* fromTaz = MSEdge::dictionary(myVehicleParameter->fromTaz+"-source");
if (fromTaz == 0) {
WRITE_ERROR("Source district '" + myVehicleParameter->fromTaz + "' not known for '" + myVehicleParameter->id + "'!");
} else if (fromTaz->getNoFollowing() == 0) {
WRITE_ERROR("Source district '" + myVehicleParameter->fromTaz + "' has no outgoing edges for '" + myVehicleParameter->id + "'!");
} else {
myActiveRoute.push_back(fromTaz->getFollower(0));
}
}
closeRoute();
closeVehicle();
}
break;
default:
break;
}
// parse embedded vtype information
if (myCurrentVType!=0&&element!=SUMO_TAG_VTYPE) {
SUMOVehicleParserHelper::parseVTypeEmbedded(*myCurrentVType, element, attrs);
return;
}
if (element==SUMO_TAG_STOP) {
bool ok = true;
SUMOVehicleParameter::Stop stop;
// try to parse the assigne bus stop
stop.busstop = attrs.getOptStringReporting(SUMO_ATTR_BUS_STOP, "stop", 0, ok, "");
if (stop.busstop!="") {
// ok, we have obviously a bus stop
MSBusStop *bs = MSNet::getInstance()->getBusStop(stop.busstop);
if (bs!=0) {
const MSLane &l = bs->getLane();
stop.lane = l.getID();
stop.pos = bs->getEndLanePosition();
} else {
MsgHandler::getErrorInstance()->inform("The bus stop '" + stop.busstop + "' is not known.");
return;
}
} else {
// no, the lane and the position should be given
// get the lane
stop.lane = attrs.getOptStringReporting(SUMO_ATTR_LANE, "stop", 0, ok, "");
if (stop.lane!="") {
if (MSLane::dictionary(stop.lane)==0) {
MsgHandler::getErrorInstance()->inform("The lane '" + stop.lane + "' for a stop is not known.");
return;
}
} else {
MsgHandler::getErrorInstance()->inform("A stop must be placed on a bus stop or a lane.");
return;
}
// get the position
bool ok = true;
stop.pos = attrs.getSUMORealReporting(SUMO_ATTR_POSITION, "stop", 0, ok);
if (!ok) {
return;
}
}
// get the standing duration
if (!attrs.hasAttribute(SUMO_ATTR_DURATION) && !attrs.hasAttribute(SUMO_ATTR_UNTIL)) {
MsgHandler::getErrorInstance()->inform("The duration of a stop is not defined.");
return;
} else {
bool ok = true;
stop.duration = attrs.getOptSUMOTimeReporting(SUMO_ATTR_DURATION, "stop", 0, ok, -1);
stop.until = attrs.getOptSUMOTimeReporting(SUMO_ATTR_UNTIL, "stop", 0, ok, -1);
if (!ok) {
return;
}
if (stop.duration<0&&stop.until<0) {
MsgHandler::getErrorInstance()->inform("Neither the duration nor the end time is given for a stop.");
return;
}
}
if (myActiveRouteID != "") {
myActiveRouteStops.push_back(stop);
} else {
myVehicleParameter->stops.push_back(stop);
}
}
}
