75const
double GNENet::Z_INITIALIZED = 1;
85#pragma warning(disable: 4355)
90 myNetBuilder(netBuilder),
91 myAttributeCarriers(new
GNENetHelper::AttributeCarriers(this)),
93 myJunctionIDCounter(0),
95 myNeedRecompute(true),
97 myAdditionalsSaved(true),
98 myTLSProgramsSaved(true),
99 myDemandElementsSaved(true),
100 myDataElementsSaved(true),
101 myUpdateGeometryEnabled(true),
102 myUpdateDataEnabled(true) {
106 WRITE_GLDEBUG(
"initJunctionsAndEdges function called in GNENet constructor");
126 WRITE_DEBUG(
"Deleting net builder in GNENet destructor");
155const std::map<std::string, int>&
238 const std::string& suggestedName,
bool wasSplit,
bool allowDuplicateGeom,
bool recomputeConnections) {
245 if (outgoingEdge->getToNode() == dest->
getNBNode() && outgoingEdge->getGeometry().size() == 2) {
246 if (!allowDuplicateGeom) {
256 if (oppositeEdges.size() > 0) {
258 if ((oppositeEdges.front()->getID().size() > 1) && (oppositeEdges.front()->getID().front() ==
'-')) {
259 edgeID = oppositeEdges.front()->getID().substr(1);
261 edgeID =
"-" + oppositeEdges.front()->getID();
270 edgeID = edgeID +
toString(counter);
273 edgeID = suggestedName;
274 }
else if (edgeInfix.size() > 0) {
279 edgeID = src->
getID() + edgeInfix + dest->
getID();
300 edge =
new GNEEdge(
this, nbe, wasSplit);
304 double defaultSpeed = oc.
getFloat(
"default.speed");
305 const std::string defaultType = oc.
getString(
"default.type");
306 const int defaultNrLanes = oc.
getInt(
"default.lanenumber");
307 const int defaultPriority = oc.
getInt(
"default.priority");
314 defaultNrLanes, defaultPriority,
315 defaultWidth, defaultOffset, spread);
317 edge =
new GNEEdge(
this, nbe, wasSplit);
323 if (recomputeConnections) {
391 std::vector<GNECrossing*> crossingsToRemove;
393 for (
const auto& junctionNeighbour : junctionNeighbours) {
395 for (
const auto& crossing : junctionNeighbour->getGNECrossings()) {
397 if (crossing->checkEdgeBelong(junctionNeighbour->getChildEdges())) {
398 crossingsToRemove.push_back(crossing);
403 for (
const auto& crossing : crossingsToRemove) {
408 for (
const auto& edge : incidentEdges) {
423 for (
const auto& lane : edge->
getLanes()) {
427 while (lane->getChildAdditionals().size() > 0) {
431 while (lane->getChildDemandElements().size() > 0) {
435 while (lane->getChildGenericDatas().size() > 0) {
450 if (person->getChildDemandElements().size() == 1) {
457 if (container->getChildDemandElements().size() == 1) {
474 if (recomputeConnections) {
503 for (
const auto& lane : which->
getLanes()) {
505 std::vector<GNEAdditional*> copyOfLaneAdditionals = lane->getChildAdditionals();
506 for (
const auto& additional : copyOfLaneAdditionals) {
510 std::vector<GNEDemandElement*> copyOfLaneDemandElements = lane->getChildDemandElements();
511 for (
const auto& demandElement : copyOfLaneDemandElements) {
515 std::vector<GNEGenericData*> copyOfLaneGenericDatas = lane->getChildGenericDatas();
516 for (
const auto& demandElement : copyOfLaneGenericDatas) {
560 deleteEdge(edge, undoList, recomputeConnections);
578 if (recomputeConnections) {
587 undoList->
add(
new GNEChange_Lane(edge, lane, laneAttrs,
false, recomputeConnections),
true);
653 throw ProcessError(
"Trying to delete a default Vehicle Type");
685 for (
const auto& dataInterval : copyOfDataIntervalChildren) {
698 for (
const auto& genericData : copyOfGenericDataChildren) {
740 if (recomputeConnections) {
745 undoList->
add(
new GNEChange_Lane(edge, newLane, laneAttrs,
true, recomputeConnections),
true);
753 bool addRestriction =
true;
756 for (
const auto& edgeLane : edge->
getLanes()) {
759 addRestriction =
false;
768 if (addRestriction) {
789 for (
const auto& lane : edge->
getLanes()) {
790 if (lane->isRestricted(vclass)) {
795 const int numLanes = (int)edge->
getLanes().size();
796 if (index > numLanes) {
806 }
else if (vclass ==
SVC_BUS) {
825 const int numLanes = (int)edge->
getLanes().size();
826 if (index > numLanes) {
842 for (
const auto& lane : edge->
getLanes()) {
843 if (lane->isRestricted(vclass)) {
858 if (newJunction ==
nullptr) {
868 std::pair<PositionVector, PositionVector> newGeoms = oldEdgeGeometry.
splitAt(edgeSplitPosition);
869 const double oldLength = oldEdgeGeometry.
length();
870 const double relativeLength1 = oldLength != 0 ? newGeoms.first.length() / oldLength : 1;
871 const double relativeLength2 = oldLength != 0 ? newGeoms.second.length() / oldLength : 1;
879 const std::string::size_type sep_index = baseName.rfind(
'.');
881 if (sep_index != std::string::npos) {
882 std::string posString = baseName.substr(sep_index + 1);
883 if (GNEAttributeCarrier::canParse<int>(posString.c_str())) {
885 posBase = GNEAttributeCarrier::parse<int>(posString.c_str());
886 baseName = baseName.substr(0, sep_index);
893 undoList, baseName +
toString(posBase + (
int)edgeSplitPosition),
true,
false,
false);
897 std::vector<NBNode::Crossing> affectedCrossings;
899 if (crossing->checkEdgeBelong(edge)) {
905 newEdges.push_back(secondPart->
getNBEdge());
907 newEdges.push_back(nbEdge);
910 nbC.
edges = newEdges;
911 affectedCrossings.push_back(nbC);
917 newGeoms.first.pop_back();
918 newGeoms.first.erase(newGeoms.first.begin());
923 newGeoms.second.pop_back();
924 newGeoms.second.erase(newGeoms.second.begin());
934 for (
int i = 0; i < (int)edge->
getLanes().size(); ++i) {
938 for (
const auto& nbC : affectedCrossings) {
943 for (
const auto& additional : childAdditionals) {
944 additional->splitEdgeGeometry(edgeSplitPosition, edge, secondPart, undoList);
947 for (
int i = 0; i < (int)edge->
getLanes().size(); i++) {
948 for (
const auto& additional : edge->
getLanes().at(i)->getChildAdditionals()) {
949 additional->splitEdgeGeometry(laneSplitPosition, edge->
getLanes().at(i), secondPart->
getLanes().at(i), undoList);
954 for (
const auto& demandElement : childDemandElements) {
955 demandElement->splitEdgeGeometry(edgeSplitPosition, edge, secondPart, undoList);
958 for (
int i = 0; i < (int)edge->
getLanes().size(); i++) {
959 for (
const auto& demandElement : edge->
getLanes().at(i)->getChildDemandElements()) {
960 demandElement->splitEdgeGeometry(laneSplitPosition, edge->
getLanes().at(i), secondPart->
getLanes().at(i), undoList);
975 newJunction =
splitEdge(edge, pos, undoList, newJunction);
977 splitEdge(oppositeEdge, pos, undoList, newJunction);
984 if (nbEdge->guessOpposite(
true)) {
998 assert(reversed != 0);
1010 if (!disconnected) {
1013 assert(reversed != 0);
1027 reversed =
createEdge(src, dest, edge, undoList,
"-" + edge->
getID(),
false,
true);
1028 assert(reversed != 0);
1048 for (
const auto& incomingNBEdge : incomingNBEdges) {
1059 for (
const auto& outgoingNBEdge : outgoingNBEdges) {
1077 for (
NBEdge* edge : roundabout) {
1078 if (edge->getFromNode() == junction->
getNBNode()) {
1080 for (
const auto& roundaboutEdge : roundabout) {
1109 std::vector<GNEEdge*> edges;
1116 std::reverse(edges.begin(), edges.end());
1118 const double lefthandSign = lefthand ? -1 : 1;
1119 std::vector<GNEJunction*> newJunctions;
1120 GNEEdge* prevOpposite =
nullptr;
1124 if (edge == prevOpposite) {
1125 newJunction = newJunctions.back();
1129 const double geomLength = edge->getNBEdge()->getGeometry().length2D();
1130 const double splitOffset = (edge->getToJunction() == junction
1131 ?
MAX2(POSITION_EPS, geomLength - radius)
1132 :
MIN2(geomLength - POSITION_EPS, radius));
1133 Position pos = edge->getNBEdge()->getGeometry().positionAtOffset2D(splitOffset);
1134 newJunction =
splitEdge(edge, pos, undoList, newJunction);
1135 if (newJunctions.empty() || newJunction != newJunctions.back()) {
1136 newJunctions.push_back(newJunction);
1143 for (
int i = 0; i < (int)newJunctions.size(); i++) {
1144 GNEJunction* from = newJunctions[(i + 1) % newJunctions.size()];
1152 int numSegments =
MAX2(2, (
int)ceil(angleDiff * radius / resolution));
1154 for (
int j = 1; j < numSegments; j++) {
1155 const double angle = angle1 + lefthandSign * j * angleDiff / numSegments;
1156 innerGeom.push_back(center +
Position(cos(angle) * radius, sin(angle) * radius));
1170 if (i.second->getPositionInView() == pos) {
1199 for (
int i = 0; i < (int)edgeType.second->getLaneTypes().size(); i++) {
1201 edgeType.second->getLaneTypes().at(i)->speed,
1202 edgeType.second->getLaneTypes().at(i)->permissions,
1203 edgeType.second->getLaneTypes().at(i)->width,
1204 edgeType.second->getLaneTypes().at(i)->attrs);
1237 for (
const auto& lane : edge.second->getLanes()) {
1238 lane->updateGeometry();
1272 if (volatileOptions) {
1273 window->
setStatusBarText(
"Forced computing junctions with volatile options ...");
1281 if (volatileOptions) {
1288 if (volatileOptions) {
1297 if (additionalPath !=
"") {
1301 if (!generalHandler.
parse()) {
1308 if (demandPath !=
"") {
1312 if (!handler.
parse()) {
1319 window->getApp()->endWaitCursor();
1336 for (
const auto& demandElement : demandElements.second) {
1337 demandElement->computePathElement();
1349 for (
const auto& genericData : genericDataTag.second) {
1350 genericData->computePathElement();
1365 for (
auto it : tlsDefs) {
1366 it->setParticipantsInformation();
1367 it->setTLControllingInformation();
1402 if (selectedJunctions.size() < 2) {
1407 std::set<NBNode*, ComparatorIdLess> cluster;
1408 for (
auto it : selectedJunctions) {
1409 cluster.insert(it->getNBNode());
1410 const EdgeVector& incoming = it->getNBNode()->getIncomingEdges();
1411 allIncoming.insert(allIncoming.end(), incoming.begin(), incoming.end());
1412 const EdgeVector& outgoing = it->getNBNode()->getOutgoingEdges();
1413 allOutgoing.insert(allOutgoing.end(), outgoing.begin(), outgoing.end());
1419 std::string
id =
"cluster";
1428 if ((i.second->getPositionInView() == pos) && (cluster.find(i.second->getNBNode()) == cluster.end())) {
1430 WRITE_DEBUG(
"Opening FXMessageBox 'Join non-selected junction'");
1432 FXuint answer = FXMessageBox::question(
getApp(), MBOX_YES_NO,
1439 WRITE_DEBUG(
"Closed FXMessageBox 'Join non-selected junction' with 'No'");
1440 }
else if (answer == 4) {
1441 WRITE_DEBUG(
"Closed FXMessageBox 'Join non-selected junction' with 'ESC'");
1446 WRITE_DEBUG(
"Closed FXMessageBox 'Join non-selected junction' with 'Yes'");
1456 pos.
setx(pos.
x() + 0.1);
1457 pos.
sety(pos.
y() + 0.1);
1473 std::vector<NBNode::Crossing> oldCrossings;
1474 for (
auto i : selectedJunctions) {
1475 while (i->getGNECrossings().size() > 0) {
1476 GNECrossing* crossing = i->getGNECrossings().front();
1483 for (
auto it : selectedJunctions) {
1484 it->setLogicValid(
false, undoList);
1487 for (
auto it : allIncoming) {
1492 for (
auto it : allOutgoing) {
1496 edgesWithin.insert(it);
1504 for (
auto nbc : oldCrossings) {
1506 for (
NBEdge* e : nbc.edges) {
1507 if (edgesWithin.count(e) != 0) {
1515 nbc.customTLIndex, nbc.customTLIndex2, nbc.customShape,
1516 false,
true),
true);
1521 for (
auto it : selectedJunctions) {
1528 if (pos != oldPos) {
1539 std::vector<GNECrossing*> myNetCrossings;
1541 myNetCrossings.reserve(myNetCrossings.size() + it.second->getGNECrossings().size());
1542 myNetCrossings.insert(myNetCrossings.end(), it.second->getGNECrossings().begin(), it.second->getGNECrossings().end());
1545 std::vector<GNECrossing*> myInvalidCrossings;
1546 for (
auto i = myNetCrossings.begin(); i != myNetCrossings.end(); i++) {
1547 if ((*i)->getNBCrossing()->valid ==
false) {
1548 myInvalidCrossings.push_back(*i);
1552 if (myInvalidCrossings.empty()) {
1554 WRITE_DEBUG(
"Opening FXMessageBox 'No crossing to remove'");
1556 FXMessageBox::warning(
getApp(), MBOX_OK,
1560 WRITE_DEBUG(
"Closed FXMessageBox 'No crossing to remove' with 'OK'");
1562 std::string plural = myInvalidCrossings.size() == 1 ? (
"") : (
"s");
1564 WRITE_DEBUG(
"Opening FXMessageBox 'clear crossings'");
1566 FXuint answer = FXMessageBox::question(
getApp(), MBOX_YES_NO,
1572 WRITE_DEBUG(
"Closed FXMessageBox 'clear crossings' with 'No'");
1573 }
else if (answer == 4) {
1574 WRITE_DEBUG(
"Closed FXMessageBox 'clear crossings' with 'ESC'");
1578 for (
auto i = myInvalidCrossings.begin(); i != myInvalidCrossings.end(); i++) {
1591 std::vector<GNEJunction*> toRemove;
1595 toRemove.push_back(junction);
1598 for (
auto it : toRemove) {
1608 std::vector<GNEDemandElement*> routesWithoutChildren;
1612 if (route->getChildDemandElements().empty()) {
1613 routesWithoutChildren.push_back(route);
1617 if (routesWithoutChildren.size() > 0) {
1621 for (
const auto& i : routesWithoutChildren) {
1634 std::set<std::pair<std::string, GNEDemandElement*> > mySortedRoutes;
1638 bool hasStops =
false;
1639 for (
const auto& stop : route->getChildDemandElements()) {
1640 if (stop->getTagProperty().isStop()) {
1649 std::vector<std::vector<GNEDemandElement*> > routesToMerge;
1650 auto index = mySortedRoutes.begin();
1652 for (
auto i = mySortedRoutes.begin(); i != mySortedRoutes.end(); i++) {
1653 if (routesToMerge.empty()) {
1654 routesToMerge.push_back({i->second});
1656 if (index->first == i->first) {
1657 routesToMerge.back().push_back(i->second);
1659 routesToMerge.push_back({i->second});
1665 bool thereIsRoutesToMerge =
false;
1666 for (
const auto& i : routesToMerge) {
1668 thereIsRoutesToMerge =
true;
1672 if (thereIsRoutesToMerge) {
1676 for (
const auto& i : routesToMerge) {
1679 for (
int j = 1; j < (int)i.size(); j++) {
1681 while (i.at(j)->getChildDemandElements().size() > 0) {
1682 i.at(j)->getChildDemandElements().front()->setAttribute(
SUMO_ATTR_ROUTE, i.at(0)->getID(), undoList);
1698 std::map<GNEDemandElement*, std::string> personPlanMap;
1700 for (
const auto& persontag : {
1704 if (person->getChildDemandElements().size() > 0) {
1708 while (personPlan) {
1726 if (personPlanMap.size() > 0) {
1730 for (
const auto& personPlan : personPlanMap) {
1743 std::vector<GNEDemandElement*> invalidDemandElements;
1750 invalidDemandElements.push_back(route);
1756 invalidDemandElements.push_back(flow);
1762 invalidDemandElements.push_back(trip);
1766 if (invalidDemandElements.size() > 0) {
1770 for (
const auto& invalidDemandElement : invalidDemandElements) {
1789 for (
auto j : toJoin) {
1795 for (
auto con : connections) {
1836 if (endpoints.size() < 2) {
1842 std::map<GNEEdge*, std::vector<NBEdge::Connection>> straightConnections;
1844 for (
const auto& c : e->getNBEdge()->getConnections()) {
1846 straightConnections[e].push_back(c);
1853 for (
const auto& pair : endpoints) {
1855 const std::string& origID = pair.second;
1857 std::string newID = origID !=
"" ? origID : newJunction->
getID();
1864 if (e->getNBEdge()->getGeometry().back().almostSame(pos) || e->getNBEdge()->getParameter(
"origTo") == newID) {
1871 if (e->getNBEdge()->getGeometry().front().almostSame(pos) || e->getNBEdge()->getParameter(
"origFrom") == newID) {
1876 if (newID != newJunction->
getID()) {
1880 WRITE_WARNING(
"Could not rename split node to '" + newID +
"'");
1886 for (
const auto& item : straightConnections) {
1888 std::map<NBEdge*, GNEEdge*> newEdges;
1889 for (
auto& c : item.second) {
1895 if (newEdges.count(c.toEdge) == 0) {
1897 newEdges[c.toEdge] = newEdge;
1900 newEdge = newEdges[c.toEdge];
1922 for (
auto i : connections) {
1945 while (additionalMap.second.size() > 0) {
1958 while (demandElementsMap.second.size() > 0) {
2031 if (filename.size() > 0) {
2033 std::vector<GNEAdditional*> invalidSingleLaneAdditionals;
2034 std::vector<GNEAdditional*> invalidMultiLaneAdditionals;
2037 for (
const auto& addditional : additionalPair.second) {
2039 if (addditional->getTagProperty().hasAttribute(
SUMO_ATTR_LANE) && !addditional->isAdditionalValid()) {
2040 invalidSingleLaneAdditionals.push_back(addditional);
2041 }
else if (addditional->getTagProperty().hasAttribute(
SUMO_ATTR_LANES) && !addditional->isAdditionalValid()) {
2042 invalidMultiLaneAdditionals.push_back(addditional);
2047 if (invalidSingleLaneAdditionals.size() > 0 || invalidMultiLaneAdditionals.size() > 0) {
2051 if (fixAdditionalElementsDialog.execute() == 0) {
2097 if (filename.size() > 0) {
2101 std::vector<GNEDemandElement*> invalidSingleLaneDemandElements;
2104 for (
const auto& demandElement : demandElementSet.second) {
2106 demandElement->computePathElement();
2109 invalidSingleLaneDemandElements.push_back(demandElement);
2114 if (invalidSingleLaneDemandElements.size() > 0) {
2118 if (fixDemandElementsDialog.execute() == 0) {
2126 WRITE_DEBUG(
"demand elements saved after dialog");
2164 if (filename.size() > 0) {
2185 double minimumBegin = 0;
2196 return minimumBegin;
2202 double maximumEnd = 0;
2209 if (interval->getAttributeDouble(
SUMO_ATTR_END) > maximumEnd) {
2281 std::map<double, std::map<std::pair<SumoXMLTag, std::string>,
GNEDemandElement*> > vehiclesSortedByDepart;
2283 for (
const auto& demandElement : demandElementTag.second) {
2284 if (demandElement->getTagProperty().isVehicle() || demandElement->getTagProperty().isPerson() || demandElement->getTagProperty().isContainer()) {
2286 const auto depart = GNEAttributeCarrier::parse<double>(demandElement->getBegin());
2288 vehiclesSortedByDepart[depart][std::make_pair(demandElement->getTagProperty().getTag(), demandElement->getID())] = demandElement;
2293 if (vehiclesSortedByDepart.size() > 0) {
2294 device << (
" <!-- Vehicles, persons and containers (sorted by depart) -->\n");
2295 for (
const auto& vehicleTag : vehiclesSortedByDepart) {
2296 for (
const auto& vehicle : vehicleTag.second) {
2297 vehicle.second->writeDemandElement(device);
2312 dataSet->writeDataSet(device);
2321 std::map<std::string, GNEAdditional*> sortedAdditionals;
2322 for (
const auto& tag : tags) {
2324 if (sortedAdditionals.count(additional->getID()) == 0) {
2325 sortedAdditionals[additional->getID()] = additional;
2331 for (
const auto& additional : sortedAdditionals) {
2332 additional.second->writeAdditional(device);
2339 std::map<std::string, GNEDemandElement*> sortedDemandElements;
2341 sortedDemandElements[demandElement->getID()] = demandElement;
2343 for (
const auto& demandElement : sortedDemandElements) {
2344 demandElement.second->writeDemandElement(device);
2351 std::map<std::string, GNEDemandElement*> sortedRoutes;
2353 if ((additionalFile && (route->getChildAdditionals().size() > 0)) ||
2354 (!additionalFile && (route->getChildAdditionals().size() == 0))) {
2355 sortedRoutes[route->getID()] = route;
2358 for (
const auto& route : sortedRoutes) {
2359 route.second->writeDemandElement(device);
2366 std::map<std::string, GNEDemandElement*> sortedElements;
2369 if ((additionalFile && (vTypeDistribution->getChildAdditionals().size() > 0)) ||
2370 (!additionalFile && (vTypeDistribution->getChildAdditionals().size() == 0))) {
2371 sortedElements[vTypeDistribution->getID()] = vTypeDistribution;
2374 for (
const auto& element : sortedElements) {
2375 element.second->writeDemandElement(device);
2377 sortedElements.clear();
2384 if ((vType->getParentDemandElements().size() == 0) && (!defaultVType || (defaultVType && defaultVTypeModified))) {
2385 if ((additionalFile && (vType->getChildAdditionals().size() > 0)) ||
2386 (!additionalFile && (vType->getChildAdditionals().size() == 0))) {
2387 sortedElements[vType->getID()] = vType;
2391 for (
const auto& element : sortedElements) {
2392 element.second->writeDemandElement(device);
2401 if (additionalFile && (vTypeDistribution->getChildAdditionals().size() > 0)) {
2402 device << (
" <!-- VTypes (used in calibratorFlows) -->\n");
2404 }
else if (!additionalFile && (vTypeDistribution->getChildAdditionals().size() == 0)) {
2405 device << (
" <!-- VTypes -->\n");
2415 if ((vType->getParentDemandElements().size() == 0) && (!defaultVType || (defaultVType && defaultVTypeModified))) {
2416 if (additionalFile && (vType->getChildAdditionals().size() > 0)) {
2417 device << (
" <!-- VTypes (used in calibratorFlows) -->\n");
2419 }
else if (!additionalFile && (vType->getChildAdditionals().size() == 0)) {
2420 device << (
" <!-- VTypes -->\n");
2432 if (additionalFile && (route->getChildAdditionals().size() > 0)) {
2433 device << (
" <!-- Routes (used in RouteProbReroutes and calibratorFlows) -->\n");
2435 }
else if (!additionalFile && (route->getChildAdditionals().size() == 0)) {
2436 device << (
" <!-- Routes -->\n");
2447 device << (
" <!-- RouteProbes -->\n");
2458 device << (
" <!-- Calibrators -->\n");
2470 device << (
" <!-- StoppingPlaces -->\n");
2482 device << (
" <!-- Detectors -->\n");
2499 device << (
" <!-- Other additionals -->\n");
2511 device << (
" <!-- Shapes -->\n");
2522 device << (
" <!-- TAZs -->\n");
2532 device << (
" <!-- Wires -->\n");
2553 device.
openTag(
"additionals");
2577 for (
int i = 0; i < (int)edgeType.second->getLaneTypes().size(); i++) {
2579 edgeType.second->getLaneTypes().at(i)->speed,
2580 edgeType.second->getLaneTypes().at(i)->permissions,
2581 edgeType.second->getLaneTypes().at(i)->width,
2582 edgeType.second->getLaneTypes().at(i)->attrs);
2621 dataInterval->updateGenericDataIDs();
2622 dataInterval->updateAttributeColors();
2665 throw ProcessError(
"Network size exceeds 1 Lightyear. Please reconsider your inputs.\n");
2674 for (
const auto& lane : edge.second->getLanes()) {
2675 lane->updateGeometry();
2687 edge.second->remakeGNEConnections();
2689 for (
const auto& connection : edge.second->getGNEConnections()) {
2690 connection->updateGeometry();
2699 std::set<std::string> liveExplicitTurnarounds;
2702 liveExplicitTurnarounds.insert(explicitTurnarounds);
2718 if (oc.
getBool(
"numerical-ids") || oc.
isSet(
"reserved-ids")) {
2722 if (!oc.
getBool(
"offset.disable-normalization")) {
2725 edge.second->updateGeometry();
2736 if (volatileOptions) {
2755 WRITE_GLDEBUG(
"initJunctionsAndEdges function called in computeAndUpdate(...) due recomputing with volatile options");
2762 WRITE_GLDEBUG(
"Add junctions during recomputing after calling myNetBuilder->compute(...)");
2765 junction.second->updateCenteringBoundary(
false);
2770 WRITE_GLDEBUG(
"Add edges during recomputing after calling myNetBuilder->compute(...)");
2773 edge.second->updateCenteringBoundary(
false);
2779 connection.second->remakeGNEConnections(
true);
2784 junction.second->setLogicValid(
true,
nullptr);
2786 junction.second->updateGeometryAfterNetbuild();
2788 junction.second->rebuildGNEWalkingAreas();
2793 edge.second->updateGeometry();
2804 std::vector<std::string> values = GNEAttributeCarrier::parse<std::vector<std::string> >(ac->
getAttribute(key));
2805 std::vector<std::string> newValues;
2806 for (
auto v : values) {
2807 newValues.push_back(v == which ? by : v);
@ GLO_NETWORK
The network - empty.
#define WRITE_MESSAGE(msg)
#define WRITE_WARNING(msg)
#define WRITE_GLDEBUG(msg)
std::set< NBEdge * > EdgeSet
container for unique edges
std::vector< NBEdge * > EdgeVector
container for (sorted) edges
const std::string & getVehicleClassNames(SVCPermissions permissions, bool expand)
Returns the ids of the given classes, divided using a ' '.
SUMOVehicleClass
Definition of vehicle classes to differ between different lane usage and authority types.
@ SVC_IGNORING
vehicles ignoring classes
@ SVC_BICYCLE
vehicle is a bicycle
@ SVC_BUS
vehicle is a bus
@ SVC_PEDESTRIAN
pedestrian
int SVCPermissions
bitset where each bit declares whether a certain SVC may use this edge/lane
SumoXMLTag
Numbers representing SUMO-XML - element names.
@ SUMO_TAG_TRACTION_SUBSTATION
A traction substation.
@ SUMO_TAG_REROUTER
A rerouter.
@ GNE_TAG_MULTI_LANE_AREA_DETECTOR
an e2 detector over multiple lanes (placed here due create Additional Frame)
@ SUMO_TAG_ROUTEPROBE
a routeprobe detector
@ SUMO_TAG_TAZ
a traffic assignment zone
@ SUMO_TAG_CHARGING_STATION
A Charging Station.
@ SUMO_TAG_VTYPE
description of a vehicle/person/container type
@ SUMO_TAG_ACCESS
An access point for a train stop.
@ SUMO_TAG_CONTAINER_STOP
A container stop.
@ SUMO_TAG_BUS_STOP
A bus stop.
@ SUMO_TAG_POI
begin/end of the description of a Point of interest
@ SUMO_TAG_OVERHEAD_WIRE_CLAMP
An overhead wire clamp (connection of wires in opposite directions)
@ GNE_TAG_POIGEO
Point of interest over view with GEO attributes.
@ SUMO_TAG_FLOW
a flow definitio nusing a from-to edges instead of a route (used by router)
@ SUMO_TAG_CONNECTION
connectio between two lanes
@ SUMO_TAG_PARKING_AREA
A parking area.
@ GNE_TAG_CALIBRATOR_LANE
A calibrator placed over lane.
@ SUMO_TAG_PARKING_SPACE
A parking space for a single vehicle within a parking area.
@ SUMO_TAG_JUNCTION
begin/end of the description of a junction
@ SUMO_TAG_CROSSING
crossing between edges for pedestrians
@ SUMO_TAG_ROUTE
begin/end of the description of a route
@ SUMO_TAG_POLY
begin/end of the description of a polygon
@ SUMO_TAG_OVERHEAD_WIRE_SECTION
An overhead wire section.
@ SUMO_TAG_TRAIN_STOP
A train stop (alias for bus stop)
@ SUMO_TAG_VTYPE_DISTRIBUTION
distribution of a vehicle type
@ SUMO_TAG_LANE
begin/end of the description of a single lane
@ SUMO_TAG_INSTANT_INDUCTION_LOOP
An instantenous induction loop.
@ GNE_TAG_POILANE
Point of interest over Lane.
@ SUMO_TAG_TYPE
type (edge)
@ SUMO_TAG_VAPORIZER
vaporizer of vehicles
@ SUMO_TAG_LANE_AREA_DETECTOR
alternative tag for e2 detector
@ GNE_TAG_ROUTE_EMBEDDED
embedded route (used in NETEDIT)
@ SUMO_TAG_INDUCTION_LOOP
alternative tag for e1 detector
@ SUMO_TAG_CALIBRATOR
A calibrator placed over edge.
@ SUMO_TAG_ENTRY_EXIT_DETECTOR
alternative tag for e3 detector
@ SUMO_TAG_VSS
A variable speed sign.
@ GNE_TAG_STOPPERSON_EDGE
@ SUMO_TAG_TRIP
a single trip definition (used by router)
@ SUMO_TAG_EDGE
begin/end of the description of an edge
LaneSpreadFunction
Numbers representing special SUMO-XML-attribute values Information how the edge's lateral offset shal...
@ STRAIGHT
The link is a straight direction.
SumoXMLNodeType
Numbers representing special SUMO-XML-attribute values for representing node- (junction-) types used ...
SumoXMLAttr
Numbers representing SUMO-XML - attributes.
@ GNE_ATTR_OPPOSITE
neighboring lane, simplified lane attr instead of child element
@ GNE_ATTR_SELECTED
element is selected
@ SUMO_ATTR_BEGIN
weights: time range begin
@ SUMO_ATTR_EDGES
the edges of a route
@ GNE_ATTR_DEFAULT_VTYPE
Flag to check if VType is a default VType.
@ SUMO_ATTR_SHAPE
edge: the shape in xml-definition
@ SUMO_ATTR_TLTYPE
node: the type of traffic light
@ GNE_ATTR_SHAPE_END
last coordinate of edge shape
@ SUMO_ATTR_END
weights: time range end
@ GNE_ATTR_DEFAULT_VTYPE_MODIFIED
Flag to check if a default VType was modified.
@ GNE_ATTR_SHAPE_START
first coordinate of edge shape
#define UNUSED_PARAMETER(x)
std::string toString(const T &t, std::streamsize accuracy=gPrecision)
A class that stores a 2D geometrical boundary.
void add(double x, double y, double z=0)
Makes the boundary include the given coordinate.
double ymin() const
Returns minimum y-coordinate.
void reset()
Resets the boundary.
double getHeight() const
Returns the height of the boundary (y-axis)
double getWidth() const
Returns the width of the boudary (x-axis)
An Element which don't belong to GNENet but has influence in the simulation.
The main window of the Netedit.
void enableSaveAdditionalsMenu()
enable save additionals
void setStatusBarText(const std::string &statusBarText)
set text of the statusBar
void disableSaveDemandElementsMenu()
disable save demand elements
void enableSaveDataElementsMenu()
enable save data elements
void disableSaveAdditionalsMenu()
disable save additionals
void enableSaveTLSProgramsMenu()
enable save TLS Programs
void disableSaveDataElementsMenu()
disable save data elements
void enableSaveDemandElementsMenu()
enable save demand elements
const std::string getID() const
get ID (all Attribute Carriers have one)
bool isAttributeCarrierSelected() const
check if attribute carrier is selected
const std::string & getTagStr() const
get tag assigned to this object in string format
const GNETagProperties & getTagProperty() const
get tagProperty associated with this Attribute Carrier
static std::string parseIDs(const std::vector< T > &ACs)
parses a list of specific Attribute Carriers into a string of IDs
virtual void setAttribute(SumoXMLAttr key, const std::string &value, GNEUndoList *undoList)=0
virtual std::string getAttribute(SumoXMLAttr key) const =0
virtual GUIGlObject * getGUIGlObject()=0
bool isList() const
return true if atribute is a list
the function-object for an editing operation (abstract base)
the function-object for an editing operation (abstract base)
NBConnection getNBConnection() const
get NBConnection
GNEEdge * getEdgeFrom() const
get the name of the edge the vehicles leave
NBEdge::Connection & getNBEdgeConnection() const
get Edge::Connection
This object is responsible for drawing a shape and for supplying a a popup menu. Messages are routete...
GNEJunction * getParentJunction() const
get parent Junction
NBNode::Crossing * getNBCrossing() const
get referente to NBode::Crossing
An Element which don't belong to GNENet but has influence in the simulation.
GNEDataSet * getDataSetParent() const
Returns a pointer to GNEDataSet parent.
const std::vector< GNEGenericData * > & getGenericDataChildren() const
get generic data children
const std::map< const double, GNEDataInterval * > & getDataIntervalChildren() const
get data interval children
An Element which don't belong to GNENet but has influence in the simulation.
GNEDemandElement * getNextChildDemandElement(const GNEDemandElement *demandElement) const
get next child demand element to the given demand element
virtual std::string getAttribute(SumoXMLAttr key) const =0
GNEDemandElement * getPreviousChildDemandElement(const GNEDemandElement *demandElement) const
get previous child demand element to the given demand element
A road/street connecting two junctions (netedit-version)
NBEdge * getNBEdge() const
returns the internal NBEdge
const std::vector< GNELane * > & getLanes() const
returns a reference to the lane vector
std::vector< GNEEdge * > getOppositeEdges() const
get opposite edges
GNEJunction * getFromJunction() const
get from Junction (only used to increase readability)
bool wasSplit()
whether this edge was created from a split
std::string getAttribute(SumoXMLAttr key) const
GNEJunction * getToJunction() const
get from Junction (only used to increase readability)
void setAttribute(SumoXMLAttr key, const std::string &value, GNEUndoList *undoList)
Dialog for edit rerouters.
Dialog for edit rerouters.
An Element which don't belong to GNENet but has influence in the simulation.
GNEDataInterval * getDataIntervalParent() const
get data interval parent
void addChildElement(T *element)
add child element
const std::vector< GNEDemandElement * > & getChildDemandElements() const
return child demand elements
const std::vector< GNEAdditional * > & getParentAdditionals() const
get parent additionals
const std::vector< GNEAdditional * > & getChildAdditionals() const
return child additionals
const std::vector< GNEGenericData * > & getChildGenericDatas() const
return child generic data elements
void clearInspectedAC()
Clear all current inspected ACs.
const std::vector< GNEEdge * > & getGNEIncomingEdges() const
Returns incoming GNEEdges.
const std::vector< GNECrossing * > & getGNECrossings() const
Returns GNECrossings.
std::string getAttribute(SumoXMLAttr key) const
void replaceIncomingConnections(GNEEdge *which, GNEEdge *by, GNEUndoList *undoList)
replace one edge by another in all tls connections
void markAsModified(GNEUndoList *undoList)
prevent re-guessing connections at this junction
void setAttribute(SumoXMLAttr key, const std::string &value, GNEUndoList *undoList)
void invalidateTLS(GNEUndoList *undoList, const NBConnection &deletedConnection=NBConnection::InvalidConnection, const NBConnection &addedConnection=NBConnection::InvalidConnection)
std::vector< GNEConnection * > getGNEConnections() const
Returns all GNEConnections vinculated with this junction.
Position getPositionInView() const
Returns position of hierarchical element in view.
void removeConnectionsFrom(GNEEdge *edge, GNEUndoList *undoList, bool updateTLS, int lane=-1)
remove all connections from the given edge
bool isValid(SumoXMLAttr key, const std::string &value)
const std::vector< GNEEdge * > & getGNEOutgoingEdges() const
Returns incoming GNEEdges.
void removeEdgeFromCrossings(GNEEdge *edge, GNEUndoList *undoList)
removes the given edge from all pedestrian crossings
NBNode * getNBNode() const
Return net build node.
std::vector< GNEJunction * > getJunctionNeighbours() const
return GNEJunction neighbours
void setLogicValid(bool valid, GNEUndoList *undoList, const std::string &status=FEATURE_GUESSED)
void removeConnectionsTo(GNEEdge *edge, GNEUndoList *undoList, bool updateTLS, int lane=-1)
remove all connections to the given edge
This lane is powered by an underlying GNEEdge and basically knows how to draw itself.
int getIndex() const
returns the index of the lane
void setAttribute(SumoXMLAttr key, const std::string &value, GNEUndoList *undoList)
GNEEdge * getParentEdge() const
get parent edge
struct used for saving all attribute carriers of net, in different formats
std::vector< GNEEdge * > retrieveEdges(GNEJunction *from, GNEJunction *to) const
get all edges by from and to GNEJunction
const std::map< SumoXMLTag, std::set< GNEGenericData * > > & getGenericDatas() const
get all generic datas
GNEEdgeType * registerEdgeType(GNEEdgeType *edgeType)
registers a edge in GNENet containers
GNELane * retrieveLane(const std::string &id, bool hardFail=true, bool checkVolatileChange=false) const
get lane by id
const std::map< SumoXMLTag, std::set< GNEDemandElement * > > & getDemandElements() const
get demand elements
void clearDemandElements()
clear demand elements
GNEEdge * registerEdge(GNEEdge *edge)
registers an edge with GNENet containers
void remapJunctionAndEdgeIds()
remap junction and edge IDs
void clearAdditionals()
clear additionals
GNEJunction * registerJunction(GNEJunction *junction)
registers a junction in GNENet containers
const std::set< GNEDataSet * > & getDataSets() const
get demand elements
GNEJunction * retrieveJunction(const std::string &id, bool hardFail=true) const
get junction by id
const std::map< std::string, GNEEdge * > & getEdges() const
map with the ID and pointer to edges of net
void addDefaultVTypes()
add default VTypes
const std::set< GNEDataInterval * > & getDataIntervals() const
get all data intervals of network
std::vector< GNEJunction * > getSelectedJunctions() const
return selected junctions
const std::map< SumoXMLTag, std::set< GNEAdditional * > > & getAdditionals() const
get additionals
GNEEdge * retrieveEdge(const std::string &id, bool hardFail=true) const
get edge by id
void clearEdges()
clear edges
const std::map< std::string, GNEJunction * > & getJunctions() const
get junctions
const std::map< std::string, GNEEdgeType * > & getEdgeTypes() const
map with the ID and pointer to edgeTypes of net
GNECrossing * retrieveCrossing(GNEAttributeCarrier *AC, bool hardFail=true) const
get Crossing by AC
void clearJunctions()
clear junctions
GNEConnection * retrieveConnection(const std::string &id, bool hardFail=true) const
get Connection by id
class for GNEChange_ReplaceEdgeInTLS
A NBNetBuilder extended by visualisation and editing capabilities.
void clearAdditionalElements(GNEUndoList *undoList)
clear additionals
void removeSolitaryJunctions(GNEUndoList *undoList)
removes junctions that have no edges
void deleteEdge(GNEEdge *edge, GNEUndoList *undoList, bool recomputeConnections)
removes edge
void saveJoined(OptionsCont &oc, const std::string &filename)
save log of joined junctions (and nothing else)
bool joinSelectedJunctions(GNEUndoList *undoList)
join selected junctions
double getDataSetIntervalMaximumEnd() const
get maximum interval
Boundary getCenteringBoundary() const
Returns the boundary to which the view shall be centered in order to show the object.
void saveDemandElements(const std::string &filename)
save demand element elements of the network
void deleteLane(GNELane *lane, GNEUndoList *undoList, bool recomputeConnections)
removes lane
bool writeRouteProbeComment(OutputDevice &device) const
write routeProbe comment
static const double Z_INITIALIZED
marker for whether the z-boundary is initialized
void deleteCrossing(GNECrossing *crossing, GNEUndoList *undoList)
remove crossing
SUMORTree & getGrid()
Returns the RTree used for visualisation speed-up.
GNEViewNet * myViewNet
The net to be notified of about changes.
void deleteAdditional(GNEAdditional *additional, GNEUndoList *undoList)
remove additional
bool myDataElementsSaved
Flag to check if data elements has to be saved.
void disableUpdateGeometry()
disable update geometry of elements after inserting or removing an element in net
void saveTLSPrograms(const std::string &filename)
save TLS Programs elements of the network
NBNetBuilder * getNetBuilder() const
get net builder
void addGLObjectIntoGrid(GNEAttributeCarrier *AC)
add GL Object into net
void reverseEdge(GNEEdge *edge, GNEUndoList *undoList)
reverse edge
bool writeTAZComment(OutputDevice &device) const
write TAZ comment
void removeGLObjectFromGrid(GNEAttributeCarrier *AC)
add GL Object into net
NBTrafficLightLogicCont & getTLLogicCont()
returns the tllcont of the underlying netbuilder
bool restrictLane(SUMOVehicleClass vclass, GNELane *lane, GNEUndoList *undoList)
transform lane to restricted lane
bool isNetSaved() const
return if net has to be saved
bool myNetSaved
Flag to check if net has to be saved.
bool myTLSProgramsSaved
Flag to check if shapes has to be saved.
void savePlain(OptionsCont &oc, const std::string &prefix)
save plain xml representation of the network (and nothing else)
void requireSaveNet(bool value)
inform that net has to be saved
GNEJunction * splitEdge(GNEEdge *edge, const Position &pos, GNEUndoList *undoList, GNEJunction *newJunction=0)
split edge at position by inserting a new junction
void setViewNet(GNEViewNet *viewNet)
Set the net to be notified of network changes.
bool writeCalibratorComment(OutputDevice &device) const
write calibrator comment
bool myNeedRecompute
whether the net needs recomputation
void saveAdditionalsConfirmed(const std::string &filename)
save additionals after confirming invalid objects
void deleteDemandElement(GNEDemandElement *demandElement, GNEUndoList *undoList)
remove demand element
void duplicateLane(GNELane *lane, GNEUndoList *undoList, bool recomputeConnections)
duplicates lane
const Boundary & getZBoundary() const
Returns the Z boundary (stored in the x() coordinate) values of 0 do not affect the boundary.
const Boundary & getBoundary() const
returns the bounder of the network
void saveEdgeTypes(const std::string &filename)
save edgeTypes elements of the network
void deleteNetworkElement(GNENetworkElement *networkElement, GNEUndoList *undoList)
delete network element
void computeAndUpdate(OptionsCont &oc, bool volatileOptions)
recompute the network and update lane geometries
SUMORTree myGrid
the rtree which contains all GUIGlObjects (so named for historical reasons)
void writeVTypes(OutputDevice &device, const bool additionalFile) const
write vTypes sorted by ID
void clearDataElements(GNEUndoList *undoList)
clear data elements
void deleteDataInterval(GNEDataInterval *dataInterval, GNEUndoList *undoList)
remove data interval
void deleteConnection(GNEConnection *connection, GNEUndoList *undoList)
remove connection
void clearDemandElements(GNEUndoList *undoList)
clear demand elements
void adjustPersonPlans(GNEUndoList *undoList)
adjust person plans
void requireSaveAdditionals(bool value)
inform that additionals has to be saved
void writeRoutes(OutputDevice &device, const bool additionalFile) const
write route sorted by ID
void cleanInvalidDemandElements(GNEUndoList *undoList)
clean invalid demand elements
bool myUpdateDataEnabled
Flag to enable or disable update data elements after inserting or removing element in net.
void cleanUnusedRoutes(GNEUndoList *undoList)
clean unused routes
NBNetBuilder * myNetBuilder
The internal netbuilder.
void removeExplicitTurnaround(std::string id)
remove edge id from the list of explicit turnarounds
void computeJunction(GNEJunction *junction)
trigger recomputation of junction shape and logic param[in] window The window to inform about delay
void resetJunctionConnections(GNEJunction *junction, GNEUndoList *undoList)
reset junction's connections
void replaceIncomingEdge(GNEEdge *which, GNEEdge *by, GNEUndoList *undoList)
replaces edge
void drawGL(const GUIVisualizationSettings &s) const
Draws the object.
void deleteGenericData(GNEGenericData *genericData, GNEUndoList *undoList)
remove generic data
GNENetHelper::AttributeCarriers * getAttributeCarriers() const
get all attribute carriers used in this net
void computeNetwork(GNEApplicationWindow *window, bool force=false, bool volatileOptions=false, std::string additionalPath="", std::string demandPath="", std::string dataPath="")
trigger full netbuild computation param[in] window The window to inform about delay param[in] force W...
GNEEdge * addReversedEdge(GNEEdge *edge, const bool disconnected, GNEUndoList *undoList)
add reversed edge
void changeEdgeEndpoints(GNEEdge *edge, const std::string &newSourceID, const std::string &newDestID)
modifies endpoins of the given edge
bool myUpdateGeometryEnabled
Flag to enable or disable update geometry of elements after inserting or removing element in net.
bool isAdditionalsSaved() const
check if additionals are saved
void initJunctionsAndEdges()
Init Junctions and edges.
bool writeWireComment(OutputDevice &device) const
write Wire comment
void splitEdgesBidi(GNEEdge *edge, GNEEdge *oppositeEdge, const Position &pos, GNEUndoList *undoList)
split all edges at position by inserting one new junction
void requireSaveTLSPrograms()
inform that TLS Programs has to be saved
unsigned int myEdgeIDCounter
void expandBoundary(const Boundary &newBoundary)
expand boundary
void disableUpdateData()
disable update data elements after inserting or removing an element in net
bool removeRestrictedLane(SUMOVehicleClass vclass, GNEEdge *edge, GNEUndoList *undoList)
remove restricted lane
void mergeJunctions(GNEJunction *moved, GNEJunction *target, GNEUndoList *undoList)
merge the given junctions edges between the given junctions will be deleted
GNEEdge * createEdge(GNEJunction *src, GNEJunction *dest, GNEEdge *edgeTemplate, GNEUndoList *undoList, const std::string &suggestedName="", bool wasSplit=false, bool allowDuplicateGeom=false, bool recomputeConnections=true)
creates a new edge (unless an edge with the same geometry already exists)
std::set< std::string > myExplicitTurnarounds
list of edge ids for which turn-arounds must be added explicitly
const std::map< std::string, int > & getEdgesAndNumberOfLanes() const
et edges and number of lanes
bool myAdditionalsSaved
Flag to check if additionals has to be saved.
bool writeStoppingPlaceComment(OutputDevice &device) const
write stoppingPlace comment
void addZValueInBoundary(const double z)
add Z in net boundary
static const std::map< SumoXMLAttr, std::string > EMPTY_HEADER
variable used for write headers in additional, demand and data elements
bool isUpdateGeometryEnabled() const
check if update geometry after inserting or removing has to be updated
bool addRestrictedLane(SUMOVehicleClass vclass, GNEEdge *edge, int index, GNEUndoList *undoList)
add restricted lane to edge
bool checkJunctionPosition(const Position &pos)
return true if there are already a Junction in the given position, false in other case
bool addGreenVergeLane(GNEEdge *edge, int index, GNEUndoList *undoList)
add restricted lane to edge
GUIParameterTableWindow * getParameterWindow(GUIMainWindow &app, GUISUMOAbstractView &parent)
Returns an own parameter window.
bool isNetRecomputed() const
check if net require recomputing
void writeAdditionalByType(OutputDevice &device, const std::vector< SumoXMLTag > tags) const
write additional element by type and sorted by ID
bool isUpdateDataEnabled() const
check if update data after inserting or removing has to be updated
bool writeShapesComment(OutputDevice &device) const
write shape comment
void deleteDataSet(GNEDataSet *dataSet, GNEUndoList *undoList)
remove data set
static void replaceInListAttribute(GNEAttributeCarrier *ac, SumoXMLAttr key, const std::string &which, const std::string &by, GNEUndoList *undoList)
replace in list attribute
bool cleanInvalidCrossings(GNEUndoList *undoList)
clear invalid crossings
void splitJunction(GNEJunction *junction, bool reconnect, GNEUndoList *undoList)
replace the selected junction by a list of junctions for each unique edge endpoint
void selectRoundabout(GNEJunction *junction, GNEUndoList *undoList)
select all roundabout edges and junctions for the current roundabout
void joinRoutes(GNEUndoList *undoList)
join routes
GUIGLObjectPopupMenu * getPopUpMenu(GUIMainWindow &app, GUISUMOAbstractView &parent)
Returns an own popup-menu.
bool writeRouteComment(OutputDevice &device, const bool additionalFile) const
write route comment
bool writeVTypeComment(OutputDevice &device, const bool additionalFile) const
write vType comment
void replaceJunctionByGeometry(GNEJunction *junction, GNEUndoList *undoList)
replace the selected junction by geometry node(s) and merge the edges
void requireSaveDemandElements(bool value)
inform that demand elements has to be saved
GNEPathManager * myPathManager
Path manager.
bool writeDetectorComment(OutputDevice &device) const
write detector comment
GNEPathManager * getPathManager()
get path manager
void createRoundabout(GNEJunction *junction, GNEUndoList *undoList)
transform the given junction into a roundabout
void writeDemandByType(OutputDevice &device, SumoXMLTag tag) const
write demand element by type and sorted by ID
void requireSaveDataElements(bool value)
inform that data sets has to be saved
void requireRecompute()
inform the net about the need for recomputation
GNEJunction * createJunction(const Position &pos, GNEUndoList *undoList)
creates a new junction
unsigned int myJunctionIDCounter
bool writeOtherAdditionalsComment(OutputDevice &device) const
write other additional comment
std::map< std::string, int > myEdgesAndNumberOfLanes
map with the Edges and their number of lanes
double getExaggeration(const GUIVisualizationSettings &s) const
return exaggeration associated with this GLObject
void addExplicitTurnaround(std::string id)
add edge id to the list of explicit turnarounds
void saveDataElements(const std::string &filename)
save data set elements of the network
void initGNEConnections()
initialize GNEConnections
void saveAdditionals(const std::string &filename)
save additional elements of the network
void deleteJunction(GNEJunction *junction, GNEUndoList *undoList)
removes junction and all incident edges
NBEdgeCont & getEdgeCont()
returns the NBEdgeCont of the underlying netbuilder
void saveNetwork(OptionsCont &oc)
save the network
GNENetHelper::AttributeCarriers * myAttributeCarriers
AttributeCarriers of net.
void computeDataElements(GNEApplicationWindow *window)
compute data elements param[in] window The window to inform about delay
FXApp * getApp()
get pointer to the main App
bool isDataElementsSaved() const
check if data sets are saved
void saveDataElementsConfirmed(const std::string &filename)
save data elements after confirming invalid objects
bool myDemandElementsSaved
Flag to check if demand elements has to be saved.
int getNumberOfTLSPrograms() const
get number of TLS Programs
GNEViewNet * getViewNet() const
get view net
void saveDemandElementsConfirmed(const std::string &filename)
save demand elements after confirming invalid objects
GNENet(NBNetBuilder *netBuilder)
Constructor.
void enableUpdateGeometry()
void clearJunctionConnections(GNEJunction *junction, GNEUndoList *undoList)
clear junction's connections
Boundary myZBoundary
the z boundary (stored in the x-coordinate), values of 0 are ignored
double getDataSetIntervalMinimumBegin() const
get minimum interval
void computeDemandElements(GNEApplicationWindow *window)
compute demand elements param[in] window The window to inform about delay
bool isDemandElementsSaved() const
check if demand elements are saved
void updatePathCalculator()
update path calculator (called when SuperModes Demand or Data is selected)
bool isPathCalculatorUpdated() const
check if pathCalculator is updated
PathCalculator * getPathCalculator()
obtain instance of PathCalculator
void invalidateJunctionPath(const GNEJunction *junction)
invalidate junction path
void invalidateLanePath(const GNELane *lane)
invalidate lane path
void clearDemandPaths()
clear demand paths
bool isShapeElement() const
return true if tag correspond to a shape
const GNEAttributeProperties & getAttributeProperties(SumoXMLAttr attr) const
get attribute (throw error if doesn't exist)
bool isPlacedInRTree() const
return true if Tag correspond to an element that has to be placed in RTREE
bool isStoppingPlace() const
return true if tag correspond to a detector (Only used to group all stoppingPlaces in the output XML)
bool isCalibrator() const
return true if tag correspond to a calibrator (Only used to group all detectors in the XML)
SumoXMLTag getTag() const
get Tag vinculated with this attribute Property
bool isDetector() const
return true if tag correspond to a shape (Only used to group all detectors in the XML)
bool isAdditionalPureElement() const
return true if tag correspond to a pure additional element
bool hasAttribute(SumoXMLAttr attr) const
check if current TagProperties owns the attribute "attr"
void end()
End undo command sub-group. If the sub-group is still empty, it will be deleted; otherwise,...
void begin(GUIIcon icon, const std::string &description)
Begin undo command sub-group with current supermode. This begins a new group of commands that are tre...
void add(GNEChange *command, bool doit=false, bool merge=true)
Add new command, executing it if desired. The new command will be merged with the previous command if...
void changeAttribute(GNEChange_Attribute *change)
special method for change attributes, avoid empty changes, always execute
const GNEViewNetHelper::EditModes & getEditModes() const
get edit modes
GNEViewParent * getViewParent() const
get the net object
GNEUndoList * getUndoList() const
get the undoList object
bool isAttributeCarrierInspected(const GNEAttributeCarrier *AC) const
check if attribute carrier is being inspected
void updateViewNet() const
Mark the entire GNEViewNet to be repainted later.
GNEApplicationWindow * getGNEAppWindows() const
get GNE Application Windows
GNEInspectorFrame * getInspectorFrame() const
get frame for inspect elements
const std::string & getMicrosimID() const
Returns the id of the object as known to microsim.
void buildCenterPopupEntry(GUIGLObjectPopupMenu *ret, bool addSeparator=true)
Builds an entry which allows to center to the object.
void buildPopupHeader(GUIGLObjectPopupMenu *ret, GUIMainWindow &app, bool addSeparator=true)
Builds the header.
void buildPositionCopyEntry(GUIGLObjectPopupMenu *ret, const GUIMainWindow &app) const
Builds an entry which allows to copy the cursor position if geo projection is used,...
void setNetObject(GUIGlObject *object)
Sets the given object as the "network" object.
static GUIGlObjectStorage gIDStorage
A single static instance of this class.
A window containing a gl-object's parameter.
void closeBuilding(const Parameterised *p=0)
Closes the building of the table.
void destroyPopup()
destroys the popup
Stores the information about how to visualize structures.
static const GeoConvHelper & getFinal()
the coordinate transformation for writing the location element and for tracking the original coordina...
static double angleDiff(const double angle1, const double angle2)
Returns the difference of the second angle to the first angle in radiants.
Storage for edges, including some functionality operating on multiple edges.
const std::set< EdgeSet > getRoundabouts() const
Returns the determined roundabouts.
NBEdge * retrieve(const std::string &id, bool retrieveExtracted=false) const
Returns the edge that has the given id.
std::vector< std::string > getAllNames() const
Returns all ids of known edges.
The representation of a single edge during network building.
SVCPermissions getPermissions(int lane=-1) const
get the union of allowed classes over all lanes or for a specific lane
const std::vector< Connection > & getConnections() const
Returns the connections.
double getLoadedLength() const
Returns the length was set explicitly or the computed length if it wasn't set.
void reinitNodes(NBNode *from, NBNode *to)
Resets nodes but keeps all other values the same (used when joining)
NBNode * getToNode() const
Returns the destination node of the edge.
static const double UNSPECIFIED_FRICTION
unspecified lane friction
Lane & getLaneStruct(int lane)
const PositionVector & getGeometry() const
Returns the geometry of the edge.
bool hasLoadedLength() const
Returns whether a length was set explicitly.
int getNumLanes() const
Returns the number of lanes.
void resetNodeBorder(const NBNode *node)
double getTotalWidth() const
Returns the combined width of all lanes of this edge.
std::string getLaneID(int lane) const
get lane ID
bool hasDefaultGeometryEndpointAtNode(const NBNode *node) const
Returns whether the geometry is terminated by the node positions This default may be violated by init...
static const double UNSPECIFIED_WIDTH
unspecified lane width
static const double UNSPECIFIED_OFFSET
unspecified lane offset
const PositionVector getInnerGeometry() const
Returns the geometry of the edge without the endpoints.
Instance responsible for building networks.
NBNodeCont & getNodeCont()
Returns a reference to the node container.
NBEdgeCont & getEdgeCont()
NBTypeCont & getTypeCont()
Returns a reference to the type container.
NBTrafficLightLogicCont & getTLLogicCont()
Returns a reference to the traffic light logics container.
void compute(OptionsCont &oc, const std::set< std::string > &explicitTurnarounds=std::set< std::string >(), bool mayAddOrRemove=true)
Performs the network building steps.
A definition of a pedestrian crossing.
PositionVector customShape
optional customShape for this crossing
int customTLIndex
the custom traffic light index of this crossing (if controlled)
bool priority
whether the pedestrians have priority
EdgeVector edges
The edges being crossed.
double width
This crossing's width.
void registerJoinedCluster(const NodeSet &cluster)
gets all joined clusters (see doc for myClusters2Join)
NBNode * retrieve(const std::string &id) const
Returns the node with the given name.
std::vector< std::string > getAllNames() const
get all node names
void analyzeCluster(NodeSet cluster, std::string &id, Position &pos, bool &hasTLS, TrafficLightType &type, SumoXMLNodeType &nodeType)
Represents a single node (junction) during network building.
LinkDirection getDirection(const NBEdge *const incoming, const NBEdge *const outgoing, bool leftHand=false) const
Returns the representation of the described stream's direction.
const std::set< NBTrafficLightDefinition * > & getControllingTLS() const
Returns the traffic lights that were assigned to this node (The set of tls that control this node)
static const double UNSPECIFIED_RADIUS
unspecified lane width
const EdgeVector & getIncomingEdges() const
Returns this node's incoming edges (The edges which yield in this node)
std::vector< std::pair< Position, std::string > > getEndPoints() const
return list of unique endpoint coordinates of all edges at this node
std::vector< std::pair< NBEdge *, NBEdge * > > getEdgesToJoin() const
get edges to join
const EdgeVector & getOutgoingEdges() const
Returns this node's outgoing edges (The edges which start at this node)
const Position & getPosition() const
const EdgeVector & getEdges() const
Returns all edges which participate in this node (Edges that start or end at this node)
void updateSurroundingGeometry()
update geometry of node and surrounding edges
double getRadius() const
Returns the turning radius of this node.
bool checkIsRemovable() const
check if node is removable
bool isTLControlled() const
Returns whether this node is controlled by any tls.
static void sortNodesEdges(NBNodeCont &nc, bool useNodeShape=false)
Sorts a node's edges clockwise regarding driving direction.
A container for traffic light definitions and built programs.
bool computeSingleLogic(OptionsCont &oc, NBTrafficLightDefinition *def)
Computes a specific traffic light logic (using by NETEDIT)
void writeEdgeTypes(OutputDevice &into) const
writes all EdgeTypes (and their lanes) as XML
void insertEdgeType(const std::string &id, int numLanes, double maxSpeed, int prio, SVCPermissions permissions, LaneSpreadFunction spreadType, double width, bool oneWayIsDefault, double sidewalkWidth, double bikeLaneWidth, double widthResolution, double maxWidth, double minWidth)
Adds a edgeType into the list.
void clearTypes()
clear types
void insertLaneType(const std::string &edgeTypeID, int index, double maxSpeed, SVCPermissions permissions, double width, const std::set< SumoXMLAttr > &attrs)
Adds a laneType into the list.
static void writeNetwork(const OptionsCont &oc, NBNetBuilder &nb)
Writes the network stored in the given net builder.
static void writeTrafficLights(OutputDevice &into, const NBTrafficLightLogicCont &tllCont)
writes the traffic light logics to the given device
static void writeJoinedJunctions(const std::string &filename, NBNodeCont &nc)
Writes the joined-juncionts to file.
static void writeNetwork(const OptionsCont &oc, const std::string &prefix, NBNetBuilder &nb)
Writes the network into XML-files (nodes, edges, connections, traffic lights)
A storage for options typed value containers)
bool isSet(const std::string &name, bool failOnNonExistant=true) const
Returns the information whether the named option is set.
double getFloat(const std::string &name) const
Returns the double-value of the named option (only for Option_Float)
int getInt(const std::string &name) const
Returns the int-value of the named option (only for Option_Integer)
std::string getString(const std::string &name) const
Returns the string-value of the named option (only for Option_String)
bool getBool(const std::string &name) const
Returns the boolean-value of the named option (only for Option_Bool)
static OptionsCont & getOptions()
Retrieves the options.
Static storage of an output device and its base (abstract) implementation.
void close()
Closes the device and removes it from the dictionary.
OutputDevice & openTag(const std::string &xmlElement)
Opens an XML tag.
bool closeTag(const std::string &comment="")
Closes the most recently opened tag and optionally adds a comment.
static OutputDevice & getDevice(const std::string &name, bool usePrefix=true)
Returns the described OutputDevice.
bool writeXMLHeader(const std::string &rootElement, const std::string &schemaFile, std::map< SumoXMLAttr, std::string > attrs=std::map< SumoXMLAttr, std::string >(), bool includeConfig=true)
Writes an XML header with optional configuration.
A point in 2D or 3D with translation and scaling methods.
void setx(double x)
set position x
double x() const
Returns the x-position.
double angleTo2D(const Position &other) const
returns the angle in the plane of the vector pointing from here to the other position
void sety(double y)
set position y
double y() const
Returns the y-position.
void append(const PositionVector &v, double sameThreshold=2.0)
double length() const
Returns the length.
double nearest_offset_to_point2D(const Position &p, bool perpendicular=true) const
return the nearest offest to point 2D
std::pair< PositionVector, PositionVector > splitAt(double where, bool use2D=false) const
Returns the two lists made when this list vector is splitted at the given point.
void move2side(double amount, double maxExtension=100)
move position vector to side using certain ammount
void push_back_noDoublePos(const Position &p)
insert in back a non double position
PositionVector reverse() const
reverse position vector
A RT-tree for efficient storing of SUMO's GL-objects.
void addAdditionalGLObject(GUIGlObject *o, const double exaggeration=1)
Adds an additional object (detector/shape/trigger) for visualisation.
void removeAdditionalGLObject(GUIGlObject *o, const double exaggeration=1)
Removes an additional object (detector/shape/trigger) from being visualised.
static std::string trim(const std::string s, const std::string &t=" \t\n")
remove leading and trailing whitespace
bool isCurrentSupermodeDemand() const
@check if current supermode is Demand
A structure which describes a connection between edges or lanes.
An (internal) definition of a single lane of an edge.