void
NIImporter_SUMO::addLane(const SUMOSAXAttributes& attrs) {
bool ok = true;
std::string id = attrs.getStringReporting(SUMO_ATTR_ID, 0, ok);
if (!ok) {
return;
}
if (!myCurrentEdge) {
WRITE_ERROR("Found lane '" + id + "' not within edge element");
return;
}
myCurrentLane = new LaneAttrs;
if (myCurrentEdge->func == toString(EDGEFUNC_INTERNAL)) {
return; // skip internal lanes
}
if (attrs.hasAttribute(SUMO_ATTR_MAXSPEED__DEPRECATED)) {
myCurrentLane->maxSpeed = attrs.getSUMORealReporting(SUMO_ATTR_MAXSPEED__DEPRECATED, id.c_str(), ok);
if (!myHaveWarnedAboutDeprecatedMaxSpeed) {
myHaveWarnedAboutDeprecatedMaxSpeed = true;
WRITE_WARNING("'" + toString(SUMO_ATTR_MAXSPEED__DEPRECATED) + "' is deprecated, please use '" + toString(SUMO_ATTR_SPEED) + "' instead.");
}
} else {
myCurrentLane->maxSpeed = attrs.getSUMORealReporting(SUMO_ATTR_SPEED, id.c_str(), ok);
}
myCurrentLane->allow = attrs.getOptStringReporting(SUMO_ATTR_ALLOW, id.c_str(), ok, "");
myCurrentLane->disallow = attrs.getOptStringReporting(SUMO_ATTR_DISALLOW, id.c_str(), ok, "");
myCurrentLane->width = attrs.getOptSUMORealReporting(SUMO_ATTR_WIDTH, id.c_str(), ok, (SUMOReal) NBEdge::UNSPECIFIED_WIDTH);
myCurrentLane->offset = attrs.getOptSUMORealReporting(SUMO_ATTR_ENDOFFSET, id.c_str(), ok, (SUMOReal) NBEdge::UNSPECIFIED_OFFSET);
myCurrentLane->shape = GeomConvHelper::parseShapeReporting(
attrs.getStringReporting(SUMO_ATTR_SHAPE, id.c_str(), ok),
attrs.getObjectType(), id.c_str(), ok, false);
// lane coordinates are derived (via lane spread) do not include them in convex boundary
NILoader::transformCoordinates(myCurrentLane->shape, false, myLocation);
}
void
NIImporter_SUMO::addJunction(const SUMOSAXAttributes &attrs) {
// get the id, report an error if not given or empty...
std::string id;
if (!attrs.setIDFromAttributes("junction", id)) {
return;
}
if (id[0]==':') {
return;
}
bool ok = true;
SUMOReal x = attrs.getOptSUMORealReporting(SUMO_ATTR_X, "junction", id.c_str(), ok, -1);
SUMOReal y = attrs.getOptSUMORealReporting(SUMO_ATTR_Y, "junction", id.c_str(), ok, -1);
// !!! this is too simplified! A proper error check should be done
if (x==-1||y==-1) {
MsgHandler::getErrorInstance()->inform("Junction '" + id + "' has an invalid position.");
return;
}
Position2D pos(x, y);
if (!GeoConvHelper::x2cartesian(pos)) {
MsgHandler::getErrorInstance()->inform("Unable to project coordinates for junction " + id + ".");
return;
}
NBNode *node = new NBNode(id, pos);
if (!myNodeCont.insert(node)) {
MsgHandler::getErrorInstance()->inform("Problems on adding junction '" + id + "'.");
delete node;
return;
}
}
void
NIXMLTypesHandler::myStartElement(SumoXMLTag element,
const SUMOSAXAttributes &attrs) throw(ProcessError) {
if (element!=SUMO_TAG_TYPE) {
return;
}
// get the id, report a warning if not given or empty...
std::string id;
if (!attrs.setIDFromAttributes("type", id), false) {
WRITE_WARNING("No type id given... Skipping.");
return;
}
// check deprecated (unused) attributes
if (!myHaveReportedAboutFunctionDeprecation&&attrs.hasAttribute(SUMO_ATTR_FUNCTION)) {
MsgHandler::getWarningInstance()->inform("While parsing type '" + id + "': 'function' is deprecated.\n All occurences are ignored.");
myHaveReportedAboutFunctionDeprecation = true;
}
bool ok = true;
int priority = attrs.getOptIntReporting(SUMO_ATTR_PRIORITY, "type", id.c_str(), ok, myTypeCont.getDefaultPriority());
int noLanes = attrs.getOptIntReporting(SUMO_ATTR_NOLANES, "type", id.c_str(), ok, myTypeCont.getDefaultNoLanes());
SUMOReal speed = attrs.getOptSUMORealReporting(SUMO_ATTR_SPEED, "type", id.c_str(), ok, (SUMOReal) myTypeCont.getDefaultSpeed());
bool discard = attrs.getOptBoolReporting(SUMO_ATTR_DISCARD, 0, 0, ok, false);
if (!ok) {
return;
}
// build the type
if (!myTypeCont.insert(id, noLanes, speed, priority)) {
MsgHandler::getErrorInstance()->inform("Duplicate type occured. ID='" + id + "'");
} else {
if (discard) {
myTypeCont.markAsToDiscard(id);
}
}
}
void
MSLaneSpeedTrigger::myStartElement(int element,
const SUMOSAXAttributes& attrs) {
// check whether the correct tag is read
if (element != SUMO_TAG_STEP) {
return;
}
// extract the values
bool ok = true;
SUMOTime next = attrs.getSUMOTimeReporting(SUMO_ATTR_TIME, getID().c_str(), ok);
SUMOReal speed = attrs.getOptSUMORealReporting(SUMO_ATTR_SPEED, getID().c_str(), ok, -1);
// check the values
if (next < 0) {
WRITE_ERROR("Wrong time in vss '" + getID() + "'.");
return;
}
if (speed < 0) {
WRITE_ERROR("Wrong speed in vss '" + getID() + "'.");
return;
}
// set the values for the next step if they are valid
if (myLoadedSpeeds.size() != 0 && myLoadedSpeeds.back().first == next) {
WRITE_WARNING("Time " + time2string(next) + " was set twice for vss '" + getID() + "'; replacing first entry.");
myLoadedSpeeds.back().second = speed;
} else {
myLoadedSpeeds.push_back(std::make_pair(next, speed));
}
}
void
NIImporter_SUMO::addLane(const SUMOSAXAttributes &attrs) {
myCurrentLane = new LaneAttrs;
bool ok = true;
myCurrentLane->maxSpeed = attrs.getOptSUMORealReporting(SUMO_ATTR_MAXSPEED, "lane", 0, ok, -1);
myCurrentLane->depart = attrs.getOptBoolReporting(SUMO_ATTR_DEPART, 0, 0, ok, false);
if (attrs.hasAttribute(SUMO_ATTR_SHAPE)) {
// @deprecated At some time, SUMO_ATTR_SHAPE will be mandatory
myCurrentLane->shape = GeomConvHelper::parseShapeReporting(attrs.getStringReporting(SUMO_ATTR_SHAPE, "lane", 0, ok), "lane", 0, ok, false);
}
}
void
NIImporter_SUMO::addLane(const SUMOSAXAttributes& attrs) {
bool ok = true;
std::string id = attrs.getStringReporting(SUMO_ATTR_ID, 0, ok);
if (!ok) {
return;
}
if (!myCurrentEdge) {
WRITE_ERROR("Found lane '" + id + "' not within edge element");
return;
}
myCurrentLane = new LaneAttrs;
if (myCurrentEdge->func == EDGEFUNC_INTERNAL) {
return; // skip internal lanes
}
myCurrentLane->maxSpeed = attrs.getSUMORealReporting(SUMO_ATTR_SPEED, id.c_str(), ok);
myCurrentLane->allow = attrs.getOptStringReporting(SUMO_ATTR_ALLOW, id.c_str(), ok, "");
myCurrentLane->disallow = attrs.getOptStringReporting(SUMO_ATTR_DISALLOW, id.c_str(), ok, "");
myCurrentLane->width = attrs.getOptSUMORealReporting(SUMO_ATTR_WIDTH, id.c_str(), ok, (SUMOReal) NBEdge::UNSPECIFIED_WIDTH);
myCurrentLane->offset = attrs.getOptSUMORealReporting(SUMO_ATTR_ENDOFFSET, id.c_str(), ok, (SUMOReal) NBEdge::UNSPECIFIED_OFFSET);
myCurrentLane->shape = attrs.getShapeReporting(SUMO_ATTR_SHAPE, id.c_str(), ok, false);
// lane coordinates are derived (via lane spread) do not include them in convex boundary
NILoader::transformCoordinates(myCurrentLane->shape, false, myLocation);
}
void
NIImporter_SUMO::addEdge(const SUMOSAXAttributes& attrs) {
// get the id, report an error if not given or empty...
bool ok = true;
std::string id = attrs.getStringReporting(SUMO_ATTR_ID, 0, ok);
if (!ok) {
return;
}
myCurrentEdge = new EdgeAttrs();
myCurrentEdge->builtEdge = 0;
myCurrentEdge->id = id;
// get the function
myCurrentEdge->func = attrs.getOptStringReporting(SUMO_ATTR_FUNCTION, id.c_str(), ok, "normal");
if (myCurrentEdge->func == toString(EDGEFUNC_INTERNAL)) {
return; // skip internal edges
}
// get the type
myCurrentEdge->type = attrs.getOptStringReporting(SUMO_ATTR_TYPE, id.c_str(), ok, "");
// get the origin and the destination node
myCurrentEdge->fromNode = attrs.getOptStringReporting(SUMO_ATTR_FROM, id.c_str(), ok, "");
myCurrentEdge->toNode = attrs.getOptStringReporting(SUMO_ATTR_TO, id.c_str(), ok, "");
myCurrentEdge->priority = attrs.getOptIntReporting(SUMO_ATTR_PRIORITY, id.c_str(), ok, -1);
myCurrentEdge->type = attrs.getOptStringReporting(SUMO_ATTR_TYPE, id.c_str(), ok, "");
myCurrentEdge->shape = GeomConvHelper::parseShapeReporting(
attrs.getOptStringReporting(SUMO_ATTR_SHAPE, id.c_str(), ok, ""),
attrs.getObjectType(), id.c_str(), ok, true);
NILoader::transformCoordinates(myCurrentEdge->shape, true, myLocation);
myCurrentEdge->length = attrs.getOptSUMORealReporting(SUMO_ATTR_LENGTH, id.c_str(), ok, NBEdge::UNSPECIFIED_LOADED_LENGTH);
myCurrentEdge->maxSpeed = 0;
myCurrentEdge->streetName = attrs.getOptStringReporting(SUMO_ATTR_NAME, id.c_str(), ok, "");
std::string lsfS = toString(LANESPREAD_RIGHT);
if (attrs.hasAttribute(SUMO_ATTR_SPREADFUNC__DEPRECATED)) {
lsfS = attrs.getStringReporting(SUMO_ATTR_SPREADFUNC__DEPRECATED, id.c_str(), ok);
if (!myHaveWarnedAboutDeprecatedSpreadType) {
WRITE_WARNING("'" + toString(SUMO_ATTR_SPREADFUNC__DEPRECATED) + "' is deprecated; please use '" + toString(SUMO_ATTR_SPREADTYPE) + "'.");
myHaveWarnedAboutDeprecatedSpreadType = true;
}
} else {
lsfS = attrs.getOptStringReporting(SUMO_ATTR_SPREADTYPE, id.c_str(), ok, lsfS);
}
if (SUMOXMLDefinitions::LaneSpreadFunctions.hasString(lsfS)) {
myCurrentEdge->lsf = SUMOXMLDefinitions::LaneSpreadFunctions.get(lsfS);
} else {
WRITE_ERROR("Unknown spreadType '" + lsfS + "' for edge '" + id + "'.");
}
}
void
MSRouteHandler::openRoute(const SUMOSAXAttributes& attrs) {
// check whether the id is really necessary
std::string rid;
if (myCurrentRouteDistribution != 0) {
myActiveRouteID = myCurrentRouteDistributionID + "#" + toString(myCurrentRouteDistribution->getProbs().size()); // !!! document this
rid = "distribution '" + myCurrentRouteDistributionID + "'";
} else if (myVehicleParameter != 0) {
// ok, a vehicle is wrapping the route,
// we may use this vehicle's id as default
myActiveRouteID = "!" + myVehicleParameter->id; // !!! document this
if (attrs.hasAttribute(SUMO_ATTR_ID)) {
WRITE_WARNING("Ids of internal routes are ignored (vehicle '" + myVehicleParameter->id + "').");
}
} else {
bool ok = true;
myActiveRouteID = attrs.getStringReporting(SUMO_ATTR_ID, 0, ok, false);
if (!ok) {
return;
}
rid = "'" + myActiveRouteID + "'";
}
if (myVehicleParameter != 0) { // have to do this here for nested route distributions
rid = "for vehicle '" + myVehicleParameter->id + "'";
}
bool ok = true;
if (attrs.hasAttribute(SUMO_ATTR_EDGES)) {
MSEdge::parseEdgesList(attrs.getStringReporting(SUMO_ATTR_EDGES, myActiveRouteID.c_str(), ok), myActiveRoute, rid);
}
myActiveRouteRefID = attrs.getOptStringReporting(SUMO_ATTR_REFID, myActiveRouteID.c_str(), ok, "");
if (attrs.hasAttribute(SUMO_ATTR_REFID__DEPRECATED)) {
myActiveRouteRefID = attrs.getOptStringReporting(SUMO_ATTR_REFID__DEPRECATED, myActiveRouteID.c_str(), ok, "");
if (!myHaveWarnedAboutDeprecatedRefID) {
myHaveWarnedAboutDeprecatedRefID = true;
WRITE_WARNING("'" + toString(SUMO_ATTR_REFID__DEPRECATED) + "' is deprecated, please use '" + toString(SUMO_ATTR_REFID) + "' instead.");
}
}
if (myActiveRouteRefID != "" && MSRoute::dictionary(myActiveRouteRefID) == 0) {
WRITE_ERROR("Invalid reference to route '" + myActiveRouteRefID + "' in route " + rid + ".");
}
myActiveRouteProbability = attrs.getOptSUMORealReporting(SUMO_ATTR_PROB, myActiveRouteID.c_str(), ok, DEFAULT_VEH_PROB);
myActiveRouteColor = attrs.hasAttribute(SUMO_ATTR_COLOR) ? RGBColor::parseColorReporting(attrs.getString(SUMO_ATTR_COLOR), attrs.getObjectType(), myActiveRouteID.c_str(), true, ok) : RGBColor::getDefaultColor();
}
void
MSRouteHandler::openRoute(const SUMOSAXAttributes &attrs) {
// check whether the id is really necessary
if (myVehicleParameter!=0) {
// ok, a vehicle is wrapping the route,
// we may use this vehicle's id as default
myActiveRouteID = "!" + myVehicleParameter->id; // !!! document this
} else {
bool ok = true;
myActiveRouteID = attrs.getStringReporting(SUMO_ATTR_ID, "route", 0, ok, false);
if (!ok) {
return;
}
}
bool ok = true;
if (attrs.hasAttribute(SUMO_ATTR_EDGES)) {
MSEdge::parseEdgesList(attrs.getStringReporting(SUMO_ATTR_EDGES, "route", myActiveRouteID.c_str(), ok), myActiveRoute, myActiveRouteID);
}
myActiveRouteProbability = attrs.getOptSUMORealReporting(SUMO_ATTR_PROB, "route", myActiveRouteID.c_str(), ok, DEFAULT_VEH_PROB);
myActiveRouteColor = attrs.hasAttribute(SUMO_ATTR_COLOR) ? RGBColor::parseColorReporting(attrs.getString(SUMO_ATTR_COLOR), "route", myActiveRouteID.c_str(), true, ok) : RGBColor::getDefaultColor();
}
void
MSLaneSpeedTrigger::myStartElement(SumoXMLTag element,
const SUMOSAXAttributes &attrs) throw(ProcessError) {
// check whether the correct tag is read
if (element!=SUMO_TAG_STEP) {
return;
}
// extract the values
bool ok = true;
SUMOTime next = attrs.getSUMOTimeReporting(SUMO_ATTR_TIME, "vss/step", getID().c_str(), ok);
SUMOReal speed = attrs.getOptSUMORealReporting(SUMO_ATTR_SPEED, "vss/step", getID().c_str(), ok, -1);
// check the values
if (next<0) {
MsgHandler::getErrorInstance()->inform("Wrong time in MSLaneSpeedTrigger in file '" + getFileName() + "'.");
return;
}
if (speed<0) {
MsgHandler::getErrorInstance()->inform("Wrong speed in MSLaneSpeedTrigger in file '" + getFileName() + "'.");
return;
}
// set the values for the next step as they are valid
myLoadedSpeeds.push_back(std::make_pair(next, speed));
}
void
NIXMLEdgesHandler::addEdge(const SUMOSAXAttributes& attrs) {
myIsUpdate = false;
bool ok = true;
// initialise the edge
myCurrentEdge = 0;
mySplits.clear();
// get the id, report an error if not given or empty...
myCurrentID = attrs.getStringReporting(SUMO_ATTR_ID, 0, ok);
if (!ok) {
return;
}
myCurrentEdge = myEdgeCont.retrieve(myCurrentID);
// check deprecated (unused) attributes
// use default values, first
myCurrentSpeed = myTypeCont.getSpeed("");
myCurrentPriority = myTypeCont.getPriority("");
myCurrentLaneNo = myTypeCont.getNumLanes("");
myPermissions = myTypeCont.getPermissions("");
myCurrentWidth = myTypeCont.getWidth("");
myCurrentOffset = NBEdge::UNSPECIFIED_OFFSET;
myCurrentType = "";
myShape = PositionVector();
myLanesSpread = LANESPREAD_RIGHT;
myLength = NBEdge::UNSPECIFIED_LOADED_LENGTH;
myCurrentStreetName = "";
myReinitKeepEdgeShape = false;
// check whether a type's values shall be used
if (attrs.hasAttribute(SUMO_ATTR_TYPE)) {
myCurrentType = attrs.getStringReporting(SUMO_ATTR_TYPE, myCurrentID.c_str(), ok);
if (!ok) {
return;
}
if (!myTypeCont.knows(myCurrentType)) {
WRITE_ERROR("Type '" + myCurrentType + "' used by edge '" + myCurrentID + "' was not defined.");
return;
}
myCurrentSpeed = myTypeCont.getSpeed(myCurrentType);
myCurrentPriority = myTypeCont.getPriority(myCurrentType);
myCurrentLaneNo = myTypeCont.getNumLanes(myCurrentType);
myPermissions = myTypeCont.getPermissions(myCurrentType);
myCurrentWidth = myTypeCont.getWidth(myCurrentType);
}
// use values from the edge to overwrite if existing, then
if (myCurrentEdge != 0) {
myIsUpdate = true;
if (!myHaveReportedAboutOverwriting) {
WRITE_MESSAGE("Duplicate edge id occured ('" + myCurrentID + "'); assuming overwriting is wished.");
myHaveReportedAboutOverwriting = true;
}
if (attrs.getOptBoolReporting(SUMO_ATTR_REMOVE, myCurrentID.c_str(), ok, false)) {
myEdgeCont.erase(myDistrictCont, myCurrentEdge);
myCurrentEdge = 0;
return;
}
myCurrentSpeed = myCurrentEdge->getSpeed();
myCurrentPriority = myCurrentEdge->getPriority();
myCurrentLaneNo = myCurrentEdge->getNumLanes();
myCurrentType = myCurrentEdge->getTypeID();
myPermissions = myCurrentEdge->getPermissions();
if (!myCurrentEdge->hasDefaultGeometry()) {
myShape = myCurrentEdge->getGeometry();
myReinitKeepEdgeShape = true;
}
myCurrentWidth = myCurrentEdge->getWidth();
myCurrentOffset = myCurrentEdge->getOffset();
myLanesSpread = myCurrentEdge->getLaneSpreadFunction();
if (myCurrentEdge->hasLoadedLength()) {
myLength = myCurrentEdge->getLoadedLength();
}
myCurrentStreetName = myCurrentEdge->getStreetName();
}
// speed, priority and the number of lanes have now default values;
// try to read the real values from the file
if (attrs.hasAttribute(SUMO_ATTR_SPEED)) {
myCurrentSpeed = attrs.getSUMORealReporting(SUMO_ATTR_SPEED, myCurrentID.c_str(), ok);
}
if (myOptions.getBool("speed-in-kmh")) {
myCurrentSpeed = myCurrentSpeed / (SUMOReal) 3.6;
}
// try to get the number of lanes
if (attrs.hasAttribute(SUMO_ATTR_NUMLANES)) {
myCurrentLaneNo = attrs.getIntReporting(SUMO_ATTR_NUMLANES, myCurrentID.c_str(), ok);
}
// try to get the priority
if (attrs.hasAttribute(SUMO_ATTR_PRIORITY)) {
myCurrentPriority = attrs.getIntReporting(SUMO_ATTR_PRIORITY, myCurrentID.c_str(), ok);
}
// try to get the width
if (attrs.hasAttribute(SUMO_ATTR_WIDTH)) {
myCurrentWidth = attrs.getSUMORealReporting(SUMO_ATTR_WIDTH, myCurrentID.c_str(), ok);
}
// try to get the width
if (attrs.hasAttribute(SUMO_ATTR_ENDOFFSET)) {
myCurrentOffset = attrs.getSUMORealReporting(SUMO_ATTR_ENDOFFSET, myCurrentID.c_str(), ok);
}
// try to get the street name
myCurrentStreetName = attrs.getOptStringReporting(SUMO_ATTR_NAME, myCurrentID.c_str(), ok, myCurrentStreetName);
// try to get the allowed/disallowed classes
if (attrs.hasAttribute(SUMO_ATTR_ALLOW) || attrs.hasAttribute(SUMO_ATTR_DISALLOW)) {
std::string allowS = attrs.hasAttribute(SUMO_ATTR_ALLOW) ? attrs.getStringSecure(SUMO_ATTR_ALLOW, "") : "";
std::string disallowS = attrs.hasAttribute(SUMO_ATTR_DISALLOW) ? attrs.getStringSecure(SUMO_ATTR_DISALLOW, "") : "";
// XXX matter of interpretation: should updated permissions replace or extend previously set permissions?
myPermissions = parseVehicleClasses(allowS, disallowS);
}
// try to set the nodes
if (!setNodes(attrs)) {
// return if this failed
return;
}
// try to get the shape
myShape = tryGetShape(attrs);
// try to get the spread type
myLanesSpread = tryGetLaneSpread(attrs);
// try to get the length
myLength = attrs.getOptSUMORealReporting(SUMO_ATTR_LENGTH, myCurrentID.c_str(), ok, myLength);
// insert the parsed edge into the edges map
if (!ok) {
return;
}
// check whether a previously defined edge shall be overwritten
if (myCurrentEdge != 0) {
myCurrentEdge->reinit(myFromNode, myToNode, myCurrentType, myCurrentSpeed,
myCurrentLaneNo, myCurrentPriority, myShape,
myCurrentWidth, myCurrentOffset,
myCurrentStreetName, myLanesSpread,
myReinitKeepEdgeShape);
} else {
// the edge must be allocated in dependence to whether a shape is given
if (myShape.size() == 0) {
myCurrentEdge = new NBEdge(myCurrentID, myFromNode, myToNode, myCurrentType, myCurrentSpeed,
myCurrentLaneNo, myCurrentPriority, myCurrentWidth, myCurrentOffset,
myCurrentStreetName, myLanesSpread);
} else {
myCurrentEdge = new NBEdge(myCurrentID, myFromNode, myToNode, myCurrentType, myCurrentSpeed,
myCurrentLaneNo, myCurrentPriority, myCurrentWidth, myCurrentOffset,
myShape, myCurrentStreetName, myLanesSpread,
myKeepEdgeShape);
}
}
myCurrentEdge->setLoadedLength(myLength);
myCurrentEdge->setPermissions(myPermissions);
}
void
GUISettingsHandler::myStartElement(SumoXMLTag element,
const SUMOSAXAttributes &attrs) throw(ProcessError) {
bool ok = true;
switch (element) {
case SUMO_TAG_DELAY:
myDelay = attrs.getOptSUMORealReporting(SUMO_ATTR_VALUE, "delay", 0, ok, myDelay);
break;
case SUMO_TAG_VIEWPORT:
myZoom = attrs.getOptSUMORealReporting(SUMO_ATTR_ZOOM, "viewport", 0, ok, myZoom);
myXPos = attrs.getOptSUMORealReporting(SUMO_ATTR_X, "viewport", 0, ok, myXPos);
myYPos = attrs.getOptSUMORealReporting(SUMO_ATTR_Y, "viewport", 0, ok, myYPos);
break;
case SUMO_TAG_SNAPSHOT: {
bool ok = true;
std::string file = attrs.getStringReporting(SUMO_ATTR_FILE, "snapshot", 0, ok);
if (file != "" && !FileHelpers::isAbsolute(file)) {
file = FileHelpers::getConfigurationRelative(getFileName(), file);
}
mySnapshots[attrs.getOptSUMOTimeReporting(SUMO_ATTR_TIME, "snapshot", file.c_str(), ok, 0)] = file;
}
break;
case SUMO_TAG_VIEWSETTINGS_SCHEME: {
bool ok = true;
mySettings.name = attrs.getOptStringReporting(SUMO_ATTR_NAME, 0, 0, ok, mySettings.name);
if (gSchemeStorage.contains(mySettings.name)) {
mySettings = gSchemeStorage.get(mySettings.name);
}
}
break;
case SUMO_TAG_VIEWSETTINGS_OPENGL:
mySettings.antialiase = TplConvert<char>::_2bool(attrs.getStringSecure("antialiase", toString(mySettings.antialiase)).c_str());
mySettings.dither = TplConvert<char>::_2bool(attrs.getStringSecure("dither", toString(mySettings.dither)).c_str());
break;
case SUMO_TAG_VIEWSETTINGS_BACKGROUND: {
bool ok = true;
mySettings.backgroundColor = RGBColor::parseColorReporting(attrs.getStringSecure("backgroundColor", toString(mySettings.backgroundColor)), "background", 0, true, ok);
mySettings.showGrid = TplConvert<char>::_2bool(attrs.getStringSecure("showGrid", toString(mySettings.showGrid)).c_str());
mySettings.gridXSize = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("gridXSize", toString(mySettings.gridXSize)).c_str());
mySettings.gridYSize = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("gridYSize", toString(mySettings.gridYSize)).c_str());
}
break;
case SUMO_TAG_VIEWSETTINGS_EDGES: {
bool ok = true;
int laneEdgeMode = TplConvert<char>::_2int(attrs.getStringSecure("laneEdgeMode", "0").c_str());
mySettings.laneShowBorders = TplConvert<char>::_2bool(attrs.getStringSecure("laneShowBorders", toString(mySettings.laneShowBorders)).c_str());
mySettings.showLinkDecals = TplConvert<char>::_2bool(attrs.getStringSecure("showLinkDecals", toString(mySettings.showLinkDecals)).c_str());
mySettings.showRails = TplConvert<char>::_2bool(attrs.getStringSecure("showRails", toString(mySettings.showRails)).c_str());
mySettings.drawEdgeName = TplConvert<char>::_2bool(attrs.getStringSecure("drawEdgeName", toString(mySettings.drawEdgeName)).c_str());
mySettings.edgeNameSize = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("edgeNameSize", toString(mySettings.edgeNameSize)).c_str());
mySettings.edgeNameColor = RGBColor::parseColorReporting(attrs.getStringSecure("edgeNameColor", toString(mySettings.edgeNameColor)), "edges", 0, true, ok);
mySettings.drawInternalEdgeName = TplConvert<char>::_2bool(attrs.getStringSecure("drawInternalEdgeName", toString(mySettings.drawInternalEdgeName)).c_str());
mySettings.internalEdgeNameSize = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("internalEdgeNameSize", toString(mySettings.internalEdgeNameSize)).c_str());
mySettings.internalEdgeNameColor = RGBColor::parseColorReporting(attrs.getStringSecure("internalEdgeNameColor", toString(mySettings.internalEdgeNameColor)), "edges", 0, true, ok);
mySettings.hideConnectors = TplConvert<char>::_2bool(attrs.getStringSecure("hideConnectors", toString(mySettings.hideConnectors)).c_str());
myCurrentColorer = element;
#ifdef HAVE_MESOSIM
mySettings.edgeColorer.setActive(laneEdgeMode);
#endif
mySettings.laneColorer.setActive(laneEdgeMode);
}
break;
case SUMO_TAG_COLORSCHEME:
myCurrentScheme = 0;
if (myCurrentColorer == SUMO_TAG_VIEWSETTINGS_EDGES) {
myCurrentScheme = mySettings.laneColorer.getSchemeByName(attrs.getStringSecure(SUMO_ATTR_NAME, ""));
#ifdef HAVE_MESOSIM
if (myCurrentScheme == 0) {
myCurrentScheme = mySettings.edgeColorer.getSchemeByName(attrs.getStringSecure(SUMO_ATTR_NAME, ""));
}
#endif
}
if (myCurrentColorer == SUMO_TAG_VIEWSETTINGS_VEHICLES) {
myCurrentScheme = mySettings.vehicleColorer.getSchemeByName(attrs.getStringSecure(SUMO_ATTR_NAME, ""));
}
if (myCurrentScheme && !myCurrentScheme->isFixed()) {
bool ok = true;
myCurrentScheme->setInterpolated(attrs.getOptBoolReporting(SUMO_ATTR_INTERPOLATED, "colorScheme", 0, ok, false));
myCurrentScheme->clear();
}
break;
case SUMO_TAG_ENTRY:
if (myCurrentScheme) {
bool ok = true;
std::string colorStr = attrs.getStringReporting(SUMO_ATTR_COLOR, "entry", 0, ok);
RGBColor color = RGBColor::parseColorReporting(colorStr, "edgeColoring", 0, true, ok);
if (myCurrentScheme->isFixed()) {
myCurrentScheme->setColor(attrs.getStringSecure(SUMO_ATTR_NAME, ""), color);
} else {
myCurrentScheme->addColor(color,
attrs.getSUMORealReporting(SUMO_ATTR_THRESHOLD, "entry", 0, ok));
}
}
break;
case SUMO_TAG_VIEWSETTINGS_VEHICLES:
mySettings.vehicleColorer.setActive(TplConvert<char>::_2int(attrs.getStringSecure("vehicleMode", "0").c_str()));
mySettings.vehicleQuality = TplConvert<char>::_2int(attrs.getStringSecure("vehicleQuality", toString(mySettings.vehicleQuality)).c_str());
mySettings.minVehicleSize = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("minVehicleSize", toString(mySettings.minVehicleSize)).c_str());
mySettings.vehicleExaggeration = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("vehicleExaggeration", toString(mySettings.vehicleExaggeration)).c_str());
mySettings.showBlinker = TplConvert<char>::_2bool(attrs.getStringSecure("showBlinker", toString(mySettings.showBlinker)).c_str());
mySettings.drawVehicleName = TplConvert<char>::_2bool(attrs.getStringSecure("drawVehicleName", toString(mySettings.drawVehicleName)).c_str());
mySettings.vehicleNameSize = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("vehicleNameSize", toString(mySettings.vehicleNameSize)).c_str());
mySettings.vehicleNameColor = RGBColor::parseColorReporting(attrs.getStringSecure("vehicleNameColor", toString(mySettings.vehicleNameColor)), "vehicles", 0, true, ok);
myCurrentColorer = element;
break;
case SUMO_TAG_VIEWSETTINGS_JUNCTIONS:
mySettings.junctionMode = TplConvert<char>::_2int(attrs.getStringSecure("junctionMode", toString(mySettings.junctionMode)).c_str());
mySettings.drawLinkTLIndex = TplConvert<char>::_2bool(attrs.getStringSecure("drawLinkTLIndex", toString(mySettings.drawLinkTLIndex)).c_str());
mySettings.drawLinkJunctionIndex = TplConvert<char>::_2bool(attrs.getStringSecure("drawLinkJunctionIndex", toString(mySettings.drawLinkJunctionIndex)).c_str());
mySettings.drawJunctionName = TplConvert<char>::_2bool(attrs.getStringSecure("drawJunctionName", toString(mySettings.drawJunctionName)).c_str());
mySettings.junctionNameSize = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("junctionNameSize", toString(mySettings.junctionNameSize)).c_str());
mySettings.junctionNameColor = RGBColor::parseColorReporting(attrs.getStringSecure("junctionNameColor", toString(mySettings.junctionNameColor)), "junctions", 0, true, ok);
mySettings.showLane2Lane = TplConvert<char>::_2bool(attrs.getStringSecure("showLane2Lane", toString(mySettings.showLane2Lane)).c_str());
break;
case SUMO_TAG_VIEWSETTINGS_ADDITIONALS:
mySettings.addMode = TplConvert<char>::_2int(attrs.getStringSecure("addMode", toString(mySettings.addMode)).c_str());
mySettings.minAddSize = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("minAddSize", toString(mySettings.minAddSize)).c_str());
mySettings.addExaggeration = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("addExaggeration", toString(mySettings.addExaggeration)).c_str());
mySettings.drawAddName = TplConvert<char>::_2bool(attrs.getStringSecure("drawAddName", toString(mySettings.drawAddName)).c_str());
mySettings.addNameSize = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("addNameSize", toString(mySettings.addNameSize)).c_str());
break;
case SUMO_TAG_VIEWSETTINGS_POIS:
mySettings.poiExaggeration = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("poiExaggeration", toString(mySettings.poiExaggeration)).c_str());
mySettings.minPOISize = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("minPOISize", toString(mySettings.minPOISize)).c_str());
mySettings.drawPOIName = TplConvert<char>::_2bool(attrs.getStringSecure("drawPOIName", toString(mySettings.drawPOIName)).c_str());
mySettings.poiNameSize = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("poiNameSize", toString(mySettings.poiNameSize)).c_str());
mySettings.poiNameColor = RGBColor::parseColorReporting(attrs.getStringSecure("poiNameColor", toString(mySettings.poiNameColor)), "pois", 0, true, ok);
break;
case SUMO_TAG_VIEWSETTINGS_LEGEND:
mySettings.showSizeLegend = TplConvert<char>::_2bool(attrs.getStringSecure("showSizeLegend", toString(mySettings.showSizeLegend)).c_str());
break;
case SUMO_TAG_VIEWSETTINGS_DECAL: {
GUISUMOAbstractView::Decal d;
d.filename = attrs.getStringSecure("filename", d.filename);
if (d.filename != "" && !FileHelpers::isAbsolute(d.filename)) {
d.filename = FileHelpers::getConfigurationRelative(getFileName(), d.filename);
}
d.centerX = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("centerX", toString(d.centerX)).c_str());
d.centerY = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("centerY", toString(d.centerY)).c_str());
d.width = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("width", toString(d.width)).c_str());
d.height = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("height", toString(d.height)).c_str());
d.rot = TplConvert<char>::_2SUMOReal(attrs.getStringSecure("rotation", toString(d.rot)).c_str());
d.initialised = false;
myDecals.push_back(d);
}
break;
}
}
// ------------ loading begin
void
MSTriggeredRerouter::myStartElement(SumoXMLTag element,
const SUMOSAXAttributes &attrs) throw(ProcessError) {
if (element==SUMO_TAG_INTERVAL) {
bool ok = true;
myCurrentIntervalBegin = attrs.getOptSUMOTimeReporting(SUMO_ATTR_BEGIN, "interval", 0, ok, -1);
myCurrentIntervalEnd = attrs.getOptSUMOTimeReporting(SUMO_ATTR_END, "interval", 0, ok, -1);
}
if (element==SUMO_TAG_DEST_PROB_REROUTE) {
// by giving probabilities of new destinations
// get the destination edge
std::string dest = attrs.getStringSecure(SUMO_ATTR_ID, "");
if (dest=="") {
throw ProcessError("MSTriggeredRerouter " + getID() + ": No destination edge id given.");
}
MSEdge *to = MSEdge::dictionary(dest);
if (to==0) {
throw ProcessError("MSTriggeredRerouter " + getID() + ": Destination edge '" + dest + "' is not known.");
}
// get the probability to reroute
bool ok = true;
SUMOReal prob = attrs.getOptSUMORealReporting(SUMO_ATTR_PROB, "rerouter/dest_prob_reroute", getID().c_str(), ok, 1.);
if (!ok) {
throw ProcessError();
}
if (prob<0) {
throw ProcessError("MSTriggeredRerouter " + getID() + ": Attribute 'probability' for destination '" + dest + "' is negative (must not).");
}
// add
myCurrentEdgeProb.add(prob, to);
}
if (element==SUMO_TAG_CLOSING_REROUTE) {
// by closing
std::string closed_id = attrs.getStringSecure(SUMO_ATTR_ID, "");
if (closed_id=="") {
throw ProcessError("MSTriggeredRerouter " + getID() + ": closed edge id given.");
}
MSEdge *closed = MSEdge::dictionary(closed_id);
if (closed==0) {
throw ProcessError("MSTriggeredRerouter " + getID() + ": Edge '" + closed_id + "' to close is not known.");
}
myCurrentClosed.push_back(closed);
}
if (element==SUMO_TAG_ROUTE_PROB_REROUTE) {
// by explicite rerouting using routes
// check if route exists
std::string routeStr = attrs.getStringSecure(SUMO_ATTR_ID, "");
if (routeStr=="") {
throw ProcessError("MSTriggeredRerouter " + getID() + ": No route id given.");
}
const MSRoute* route = MSRoute::dictionary(routeStr);
if (route == 0) {
throw ProcessError("MSTriggeredRerouter " + getID() + ": Route '" + routeStr + "' does not exist.");
}
// get the probability to reroute
bool ok = true;
SUMOReal prob = attrs.getOptSUMORealReporting(SUMO_ATTR_PROB, "rerouter/dest_prob_reroute", getID().c_str(), ok, 1.);
if (!ok) {
throw ProcessError();
}
if (prob<0) {
throw ProcessError("MSTriggeredRerouter " + getID() + ": Attribute 'probability' for route '" + routeStr + "' is negative (must not).");
}
// add
myCurrentRouteProb.add(prob, route);
}
}
void
MSRouteHandler::addStop(const SUMOSAXAttributes& attrs) {
bool ok = true;
std::string errorSuffix;
if (myActiveRouteID != "") {
errorSuffix = " in route '" + myActiveRouteID + "'.";
} else if (myActivePlan) {
errorSuffix = " in person '" + myVehicleParameter->id + "'.";
} else {
errorSuffix = " in vehicle '" + myVehicleParameter->id + "'.";
}
SUMOVehicleParameter::Stop stop;
// try to parse the assigned bus stop
if (attrs.hasAttribute(SUMO_ATTR_BUS_STOP__DEPRECATED)) {
stop.busstop = attrs.getStringReporting(SUMO_ATTR_BUS_STOP__DEPRECATED, 0, ok);
if (!myHaveWarnedAboutDeprecatedBusStop) {
myHaveWarnedAboutDeprecatedBusStop = true;
WRITE_WARNING("'bus_stop' is deprecated, please use 'busStop' instead.");
}
} else {
stop.busstop = attrs.getOptStringReporting(SUMO_ATTR_BUS_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.endPos = bs->getEndLanePosition();
stop.startPos = bs->getBeginLanePosition();
} else {
WRITE_ERROR("The bus stop '" + stop.busstop + "' is not known" + errorSuffix);
return;
}
} else {
// no, the lane and the position should be given
// get the lane
stop.lane = attrs.getOptStringReporting(SUMO_ATTR_LANE, 0, ok, "");
if (ok && stop.lane != "") {
if (MSLane::dictionary(stop.lane) == 0) {
WRITE_ERROR("The lane '" + stop.lane + "' for a stop is not known" + errorSuffix);
return;
}
} else {
WRITE_ERROR("A stop must be placed on a bus stop or a lane" + errorSuffix);
return;
}
if (myActivePlan &&
!myActivePlan->empty() &&
&myActivePlan->back()->getDestination() != &MSLane::dictionary(stop.lane)->getEdge()) {
throw ProcessError("Disconnected plan for person '" + myVehicleParameter->id + "' (" + MSLane::dictionary(stop.lane)->getEdge().getID() + "!=" + myActivePlan->back()->getDestination().getID() + ").");
}
stop.endPos = attrs.getOptSUMORealReporting(SUMO_ATTR_ENDPOS, 0, ok, MSLane::dictionary(stop.lane)->getLength());
if (attrs.hasAttribute(SUMO_ATTR_POSITION)) {
WRITE_WARNING("Deprecated attribute 'pos' in description of stop" + errorSuffix);
stop.endPos = attrs.getOptSUMORealReporting(SUMO_ATTR_POSITION, 0, ok, stop.endPos);
}
stop.startPos = attrs.getOptSUMORealReporting(SUMO_ATTR_STARTPOS, 0, ok, stop.endPos - 2 * POSITION_EPS);
if (attrs.hasAttribute(SUMO_ATTR_FRIENDLY_POS__DEPRECATED) && !myHaveWarnedAboutDeprecatedFriendlyPos) {
myHaveWarnedAboutDeprecatedFriendlyPos = true;
WRITE_WARNING("'" + toString(SUMO_ATTR_FRIENDLY_POS__DEPRECATED) + "' is deprecated, use '" + toString(SUMO_ATTR_FRIENDLY_POS) + "' instead.");
}
bool friendlyPos = attrs.hasAttribute(SUMO_ATTR_FRIENDLY_POS__DEPRECATED)
? attrs.getOptBoolReporting(SUMO_ATTR_FRIENDLY_POS__DEPRECATED, 0, ok, false)
: attrs.getOptBoolReporting(SUMO_ATTR_FRIENDLY_POS, 0, ok, false);
if (!ok || !checkStopPos(stop.startPos, stop.endPos, MSLane::dictionary(stop.lane)->getLength(), POSITION_EPS, friendlyPos)) {
WRITE_ERROR("Invalid start or end position for stop" + errorSuffix);
return;
}
}
// get the standing duration
if (!attrs.hasAttribute(SUMO_ATTR_DURATION) && !attrs.hasAttribute(SUMO_ATTR_UNTIL)) {
stop.triggered = attrs.getOptBoolReporting(SUMO_ATTR_TRIGGERED, 0, ok, true);
stop.duration = -1;
stop.until = -1;
} else {
stop.duration = attrs.getOptSUMOTimeReporting(SUMO_ATTR_DURATION, 0, ok, -1);
stop.until = attrs.getOptSUMOTimeReporting(SUMO_ATTR_UNTIL, 0, ok, -1);
if (!ok || (stop.duration < 0 && stop.until < 0)) {
WRITE_ERROR("Invalid duration or end time is given for a stop" + errorSuffix);
return;
}
stop.triggered = attrs.getOptBoolReporting(SUMO_ATTR_TRIGGERED, 0, ok, false);
}
stop.parking = attrs.getOptBoolReporting(SUMO_ATTR_PARKING, 0, ok, stop.triggered);
if (!ok) {
WRITE_ERROR("Invalid bool for 'triggered' or 'parking' for stop" + errorSuffix);
return;
}
const std::string idx = attrs.getOptStringReporting(SUMO_ATTR_INDEX, 0, ok, "end");
if (idx == "end") {
stop.index = STOP_INDEX_END;
} else if (idx == "fit") {
stop.index = STOP_INDEX_FIT;
} else {
stop.index = attrs.getIntReporting(SUMO_ATTR_INDEX, 0, ok);
if (!ok || stop.index < 0) {
WRITE_ERROR("Invalid 'index' for stop" + errorSuffix);
return;
}
}
if (myActiveRouteID != "") {
myActiveRouteStops.push_back(stop);
} else if (myActivePlan) {
myActivePlan->push_back(new MSPerson::MSPersonStage_Waiting(MSLane::dictionary(stop.lane)->getEdge(), stop.duration, stop.until));
} else {
myVehicleParameter->stops.push_back(stop);
}
}
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
PCLoaderXML::myStartElement(int element,
const SUMOSAXAttributes& attrs) {
if (element != SUMO_TAG_POI && element != SUMO_TAG_POLY) {
return;
}
if (element == SUMO_TAG_POI) {
bool ok = true;
// get the id, report an error if not given or empty...
std::string id = attrs.getStringReporting(SUMO_ATTR_ID, 0, ok);
SUMOReal x = attrs.getSUMORealReporting(SUMO_ATTR_X, id.c_str(), ok);
SUMOReal y = attrs.getSUMORealReporting(SUMO_ATTR_Y, id.c_str(), ok);
std::string type = attrs.getOptStringReporting(SUMO_ATTR_TYPE, id.c_str(), ok, myOptions.getString("type"));
if (!ok) {
return;
}
Position pos(x, y);
if (!GeoConvHelper::getProcessing().x2cartesian(pos)) {
WRITE_WARNING("Unable to project coordinates for POI '" + id + "'.");
}
// patch the values
bool discard = myOptions.getBool("discard");
SUMOReal layer = (SUMOReal)myOptions.getInt("layer");
RGBColor color;
if (myTypeMap.has(type)) {
const PCTypeMap::TypeDef& def = myTypeMap.get(type);
id = def.prefix + id;
type = def.id;
color = RGBColor::parseColor(def.color);
discard = def.discard;
layer = (SUMOReal)def.layer;
} else {
id = myOptions.getString("prefix") + id;
color = RGBColor::parseColor(myOptions.getString("color"));
}
layer = attrs.getOptSUMORealReporting(SUMO_ATTR_LAYER, id.c_str(), ok, layer);
if (attrs.hasAttribute(SUMO_ATTR_COLOR)) {
color = attrs.getColorReporting(id.c_str(), ok);
}
SUMOReal angle = attrs.getOptSUMORealReporting(SUMO_ATTR_ANGLE, id.c_str(), ok, Shape::DEFAULT_ANGLE);
std::string imgFile = attrs.getOptStringReporting(SUMO_ATTR_IMGFILE, id.c_str(), ok, Shape::DEFAULT_IMG_FILE);
if (imgFile != "" && !FileHelpers::isAbsolute(imgFile)) {
imgFile = FileHelpers::getConfigurationRelative(getFileName(), imgFile);
}
SUMOReal imgWidth = attrs.getOptSUMORealReporting(SUMO_ATTR_WIDTH, id.c_str(), ok, Shape::DEFAULT_IMG_WIDTH);
SUMOReal imgHeight = attrs.getOptSUMORealReporting(SUMO_ATTR_HEIGHT, id.c_str(), ok, Shape::DEFAULT_IMG_HEIGHT);
if (!ok) {
return;
}
if (!discard) {
bool ignorePrunning = false;
if (OptionsCont::getOptions().isInStringVector("prune.keep-list", id)) {
ignorePrunning = true;
}
PointOfInterest* poi = new PointOfInterest(id, type, color, pos, layer, angle, imgFile, imgWidth, imgHeight);
if (!myCont.insert(id, poi, (int)layer, ignorePrunning)) {
WRITE_ERROR("POI '" + id + "' could not be added.");
delete poi;
}
}
}
if (element == SUMO_TAG_POLY) {
bool discard = myOptions.getBool("discard");
SUMOReal layer = (SUMOReal)myOptions.getInt("layer");
bool ok = true;
std::string id = attrs.getOptStringReporting(SUMO_ATTR_ID, myCurrentID.c_str(), ok, "");
std::string type = attrs.getOptStringReporting(SUMO_ATTR_TYPE, myCurrentID.c_str(), ok, myOptions.getString("type"));
if (!ok) {
return;
}
RGBColor color;
if (myTypeMap.has(type)) {
const PCTypeMap::TypeDef& def = myTypeMap.get(type);
id = def.prefix + id;
type = def.id;
color = RGBColor::parseColor(def.color);
discard = def.discard;
layer = (SUMOReal)def.layer;
} else {
id = myOptions.getString("prefix") + id;
color = RGBColor::parseColor(myOptions.getString("color"));
}
layer = attrs.getOptSUMORealReporting(SUMO_ATTR_LAYER, id.c_str(), ok, layer);
if (attrs.hasAttribute(SUMO_ATTR_COLOR)) {
color = attrs.getColorReporting(id.c_str(), ok);
}
SUMOReal angle = attrs.getOptSUMORealReporting(SUMO_ATTR_ANGLE, id.c_str(), ok, Shape::DEFAULT_ANGLE);
std::string imgFile = attrs.getOptStringReporting(SUMO_ATTR_IMGFILE, id.c_str(), ok, Shape::DEFAULT_IMG_FILE);
if (imgFile != "" && !FileHelpers::isAbsolute(imgFile)) {
imgFile = FileHelpers::getConfigurationRelative(getFileName(), imgFile);
}
bool fill = attrs.getOptBoolReporting(SUMO_ATTR_FILL, id.c_str(), ok, false);
if (!ok) {
return;
}
if (!discard) {
bool ignorePrunning = false;
if (OptionsCont::getOptions().isInStringVector("prune.keep-list", id)) {
ignorePrunning = true;
}
myCurrentID = id;
myCurrentType = type;
myCurrentColor = color;
myCurrentIgnorePrunning = ignorePrunning;
myCurrentLayer = layer;
PositionVector pshape = attrs.getShapeReporting(SUMO_ATTR_SHAPE, myCurrentID.c_str(), ok, false);
if (!ok) {
return;
}
PositionVector shape;
for (PositionVector::ContType::const_iterator i = pshape.begin(); i != pshape.end(); ++i) {
Position pos((*i));
if (!GeoConvHelper::getProcessing().x2cartesian(pos)) {
WRITE_WARNING("Unable to project coordinates for polygon '" + myCurrentID + "'.");
}
shape.push_back(pos);
}
Polygon* poly = new Polygon(myCurrentID, myCurrentType, myCurrentColor, shape, fill, layer, angle, imgFile);
if (!myCont.insert(myCurrentID, poly, (int)myCurrentLayer, myCurrentIgnorePrunning)) {
WRITE_ERROR("Polygon '" + myCurrentID + "' could not be added.");
delete poly;
}
}
}
}
SUMOReal
NIXMLEdgesHandler::tryGetPosition(const SUMOSAXAttributes &attrs, SumoXMLAttr attrID,
const std::string &attrName) {
bool ok = true;
return attrs.getOptSUMORealReporting(attrID, "edge", myCurrentID.c_str(), ok, SUMOXML_INVALID_POSITION);
}
void
MSCalibrator::MSCalibrator_FileTriggeredChild::myStartElement(SumoXMLTag element,
const SUMOSAXAttributes &attrs) throw(ProcessError) {
if (element==SUMO_TAG_ROUTEDISTELEM) {
bool ok = true;
SUMOReal freq = attrs.getSUMORealReporting(SUMO_ATTR_PROB, "calibrator/routedistelem", myParent.getID().c_str(), ok);
std::string routeStr = attrs.getStringReporting(SUMO_ATTR_ID, "calibrator/routedistelem", myParent.getID().c_str(), ok);
if (ok) {
const MSRoute* route = MSRoute::dictionary(routeStr);
if (route == 0) {
throw ProcessError("MSTriggeredSource " + myParent.getID() + ": Route '" + routeStr + "' does not exist.");
}
if (freq<0) {
throw ProcessError("MSTriggeredSource " + myParent.getID() + ": Attribute \"probability\" is negative (must not).");
}
// Attributes ok, add to routeDist
myRouteDist.add(freq, route);
}
return;
}
// vehicle-type distributions
if (element==SUMO_TAG_VTYPEDISTELEM) {
// get the id, report an error if not given or empty...
std::string id;
if (!attrs.setIDFromAttributes("vtypedistelem", id)) {
return;
}
bool ok = true;
SUMOReal prob = attrs.getSUMORealReporting(SUMO_ATTR_PROB, "vtypedistelem", id.c_str(), ok);
if (ok) {
if (prob<=0) {
MsgHandler::getErrorInstance()->inform("False probability while parsing calibrator '" + myParent.getID() + "' (" + toString(prob) + ").");
return;
}
MSVehicleType *vtype = MSNet::getInstance()->getVehicleControl().getVType(id);
if (vtype==0) {
MsgHandler::getErrorInstance()->inform("Unknown vtype-object '" + id + "'.");
return;
}
myVTypeDist.add(prob, vtype);
}
}
if (element==SUMO_TAG_FLOW) {
bool ok = true;
SUMOReal no = attrs.getSUMORealReporting(SUMO_ATTR_NO, "flow", myParent.getID().c_str(), ok);
if (no<0) {
MsgHandler::getErrorInstance()->inform("Negative flow in calibrator '" + myParent.getID() + "'.");
return;
}
SUMOTime end = attrs.getOptSUMOTimeReporting(SUMO_ATTR_END, "flow", myParent.getID().c_str(), ok, -1);
if (!ok) {
return;
}
myFlow = (SUMOReal) no;
if (end==-1||end>=MSNet::getInstance()->getCurrentTimeStep()) {
if (myFlow>0) {
buildAndScheduleFlowVehicle();
MSNet::getInstance()->getEmissionEvents().addEvent(
new WrappingCommand<MSCalibrator::MSCalibrator_FileTriggeredChild>(this, &MSCalibrator::MSCalibrator_FileTriggeredChild::execute),
(SUMOTime)(1. / (myFlow / 3600.))+MSNet::getInstance()->getCurrentTimeStep(),
MSEventControl::ADAPT_AFTER_EXECUTION);
myHaveInitialisedFlow = true;
}
}
}
// check whethe the correct tag is read
if (element==SUMO_TAG_EMIT) {
bool ok = true;
SUMOTime depart = attrs.getSUMOTimeReporting(SUMO_ATTR_TIME, "emit", 0, ok);
SUMOReal departSpeed = attrs.getOptSUMORealReporting(SUMO_ATTR_SPEED, "emit", myParent.getID().c_str(), ok, -1);
if (!ok) {
return;
}
if (depart<myBeginTime) {
// do not process the vehicle if the emission time is before the simulation begin
return;
}
SUMOVehicleParameter* pars = new SUMOVehicleParameter();
pars->repetitionNumber = -1;
pars->repetitionOffset = -1;
pars->depart = depart;
pars->departSpeed = departSpeed;
// check and assign id
pars->id = attrs.getStringSecure(SUMO_ATTR_ID, "");
if (myVehicleControl.getVehicle(pars->id)!=0) {
WRITE_WARNING("MSTriggeredSource " + myParent.getID()+ ": Vehicle " + pars->id + " already exists.\n Generating a default id.");
pars->id = "";
}
if (pars->id=="") {
pars->id = myParent.getID() + "_" + toString(pars->depart) + "_" + toString(myRunningID++);
if (myVehicleControl.getVehicle(pars->id)!=0) {
WRITE_WARNING("MSTriggeredSource " + myParent.getID()+ ": Vehicle " + pars->id + " already exists.\n Continuing with next element.");
return;
}
}
// check and assign vehicle type
pars->vtypeid = attrs.getStringReporting(SUMO_ATTR_TYPE, "calibrator/routedistelem", myParent.getID().c_str(), ok, "");
MSVehicleType* aVehType = MSNet::getInstance()->getVehicleControl().getVType(pars->vtypeid);
if (aVehType == 0) {
if (myVTypeDist.getOverallProb()!=0) {
aVehType = myVTypeDist.get();
}
if (aVehType==0) {
aVehType = MSNet::getInstance()->getVehicleControl().getVType();
if (aVehType==0) {
WRITE_WARNING("MSTriggeredSource " + myParent.getID()+ ": no valid vehicle type exists.\n Continuing with next element.");
return;
}
}
}
// check and assign vehicle type
pars->routeid = attrs.getStringReporting(SUMO_ATTR_ROUTE, "calibrator/routedistelem", myParent.getID().c_str(), ok, "");
const MSRoute *aEmitRoute = MSRoute::dictionary(pars->routeid);
if (aEmitRoute==0) {
if (myRouteDist.getOverallProb()!=0) {
aEmitRoute = myRouteDist.get();
}
if (aEmitRoute==0) {
WRITE_WARNING("MSTriggeredSource " + myParent.getID()+ ": no valid route exsists.");
WRITE_WARNING("Continuing with next element.");
return;
}
}
// build vehicle
MSVehicle *veh = MSNet::getInstance()->getVehicleControl().buildVehicle(pars, aEmitRoute, aVehType);
myParent.schedule(this, veh, pars->departSpeed);
myHaveNext = true;
myOffset = SUMOTime(pars->depart);
}
// check whethe the correct tag is read
if (element==SUMO_TAG_RESET) {
myVTypeDist.clear();
myRouteDist.clear();
}
#if 0
#ifdef TM_CALIB
if (element==SUMO_TAG_CALIB) {
WRITE_WARNING("FOUND calib Tag!!!");
/*
MSNet::getInstance()->getEmissionEvents().addEvent(
new WrappingCommand<MSCalibrator::MSCalibrator_FileTriggeredChild>(this, &MSCalibrator::MSCalibrator_FileTriggeredChild::execute2),
//MSNet::getInstance()->getCurrentTimeStep() + 5,
10,
MSEventControl::ADAPT_AFTER_EXECUTION);
*/
}
#endif //TM_CALIB
#endif //0
}
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);
}
}
}
