void
NBNodeCont::joinTLS(NBTrafficLightLogicCont& tlc, SUMOReal maxdist) {
std::vector<std::set<NBNode*> > cands;
generateNodeClusters(maxdist, cands);
unsigned int index = 0;
for (std::vector<std::set<NBNode*> >::iterator i = cands.begin(); i != cands.end(); ++i) {
std::set<NBNode*>& c = (*i);
for (std::set<NBNode*>::iterator j = c.begin(); j != c.end();) {
if (!(*j)->isTLControlled()) {
c.erase(j++);
} else {
++j;
}
}
if (c.size() < 2) {
continue;
}
// figure out type of the joined TLS
Position dummyPos;
bool dummySetTL;
std::string dummyId;
TrafficLightType type;
analyzeCluster(c, dummyId, dummyPos, dummySetTL, type);
for (std::set<NBNode*>::iterator j = c.begin(); j != c.end(); ++j) {
std::set<NBTrafficLightDefinition*> tls = (*j)->getControllingTLS();
(*j)->removeTrafficLights();
for (std::set<NBTrafficLightDefinition*>::iterator k = tls.begin(); k != tls.end(); ++k) {
tlc.removeFully((*j)->getID());
}
}
std::string id = "joinedS_" + toString(index++);
std::vector<NBNode*> nodes;
for (std::set<NBNode*>::iterator j = c.begin(); j != c.end(); j++) {
nodes.push_back(*j);
}
NBTrafficLightDefinition* tlDef = new NBOwnTLDef(id, nodes, 0, type);
if (!tlc.insert(tlDef)) {
// actually, nothing should fail here
WRITE_WARNING("Could not build a joined tls.");
delete tlDef;
return;
}
}
}
void
NBNodeCont::guessTLs(OptionsCont& oc, NBTrafficLightLogicCont& tlc) {
// build list of definitely not tls-controlled junctions
std::vector<NBNode*> ncontrolled;
if (oc.isSet("tls.unset")) {
std::vector<std::string> notTLControlledNodes = oc.getStringVector("tls.unset");
for (std::vector<std::string>::const_iterator i = notTLControlledNodes.begin(); i != notTLControlledNodes.end(); ++i) {
NBNode* n = NBNodeCont::retrieve(*i);
if (n == 0) {
throw ProcessError(" The node '" + *i + "' to set as not-controlled is not known.");
}
std::set<NBTrafficLightDefinition*> tls = n->getControllingTLS();
for (std::set<NBTrafficLightDefinition*>::const_iterator j = tls.begin(); j != tls.end(); ++j) {
(*j)->removeNode(n);
}
n->removeTrafficLights();
ncontrolled.push_back(n);
}
}
TrafficLightType type = SUMOXMLDefinitions::TrafficLightTypes.get(OptionsCont::getOptions().getString("tls.default-type"));
// loop#1 checking whether the node shall be tls controlled,
// because it is assigned to a district
if (oc.exists("tls.taz-nodes") && oc.getBool("tls.taz-nodes")) {
for (NodeCont::iterator i = myNodes.begin(); i != myNodes.end(); i++) {
NBNode* cur = (*i).second;
if (cur->isNearDistrict() && find(ncontrolled.begin(), ncontrolled.end(), cur) == ncontrolled.end()) {
setAsTLControlled(cur, tlc, type);
}
}
}
// figure out which nodes mark the locations of TLS signals
// This assumes nodes are already joined
if (oc.exists("tls.guess-signals") && oc.getBool("tls.guess-signals")) {
// prepare candidate edges
const SUMOReal signalDist = oc.getFloat("tls.guess-signals.dist");
for (std::map<std::string, NBNode*>::const_iterator i = myNodes.begin(); i != myNodes.end(); ++i) {
NBNode* node = (*i).second;
if (node->isTLControlled() && node->geometryLike()) {
const EdgeVector& outgoing = node->getOutgoingEdges();
for (EdgeVector::const_iterator it_o = outgoing.begin(); it_o != outgoing.end(); ++it_o) {
(*it_o)->setSignalOffset((*it_o)->getLength());
}
}
}
// check which nodes should be controlled
for (std::map<std::string, NBNode*>::const_iterator i = myNodes.begin(); i != myNodes.end(); ++i) {
NBNode* node = i->second;
const EdgeVector& incoming = node->getIncomingEdges();
if (!node->isTLControlled() && incoming.size() > 1 && !node->geometryLike()) {
std::vector<NBNode*> signals;
bool isTLS = true;
for (EdgeVector::const_iterator it_i = incoming.begin(); it_i != incoming.end(); ++it_i) {
const NBEdge* inEdge = *it_i;
if (inEdge->getSignalOffset() == NBEdge::UNSPECIFIED_SIGNAL_OFFSET || inEdge->getSignalOffset() > signalDist) {
isTLS = false;
break;
}
if (inEdge->getSignalOffset() == inEdge->getLength()) {
signals.push_back(inEdge->getFromNode());
}
}
if (isTLS) {
for (std::vector<NBNode*>::iterator j = signals.begin(); j != signals.end(); ++j) {
std::set<NBTrafficLightDefinition*> tls = (*j)->getControllingTLS();
(*j)->removeTrafficLights();
for (std::set<NBTrafficLightDefinition*>::iterator k = tls.begin(); k != tls.end(); ++k) {
tlc.removeFully((*j)->getID());
}
}
NBTrafficLightDefinition* tlDef = new NBOwnTLDef("GS_" + node->getID(), node, 0, TLTYPE_STATIC);
// @todo patch endOffset for all incoming lanes according to the signal positions
if (!tlc.insert(tlDef)) {
// actually, nothing should fail here
WRITE_WARNING("Could not build joined tls '" + node->getID() + "'.");
delete tlDef;
return;
}
}
}
}
}
// maybe no tls shall be guessed
if (!oc.getBool("tls.guess")) {
return;
}
// guess joined tls first, if wished
if (oc.getBool("tls.join")) {
// get node clusters
std::vector<std::set<NBNode*> > cands;
generateNodeClusters(oc.getFloat("tls.join-dist"), cands);
// check these candidates (clusters) whether they should be controlled by a tls
for (std::vector<std::set<NBNode*> >::iterator i = cands.begin(); i != cands.end();) {
std::set<NBNode*>& c = (*i);
// regard only junctions which are not yet controlled and are not
// forbidden to be controlled
for (std::set<NBNode*>::iterator j = c.begin(); j != c.end();) {
if ((*j)->isTLControlled() || find(ncontrolled.begin(), ncontrolled.end(), *j) != ncontrolled.end()) {
c.erase(j++);
} else {
++j;
}
}
// check whether the cluster should be controlled
if (!shouldBeTLSControlled(c)) {
i = cands.erase(i);
} else {
++i;
}
}
// cands now only contain sets of junctions that shall be joined into being tls-controlled
unsigned int index = 0;
for (std::vector<std::set<NBNode*> >::iterator i = cands.begin(); i != cands.end(); ++i) {
std::vector<NBNode*> nodes;
for (std::set<NBNode*>::iterator j = (*i).begin(); j != (*i).end(); j++) {
nodes.push_back(*j);
}
std::string id = "joinedG_" + toString(index++);
NBTrafficLightDefinition* tlDef = new NBOwnTLDef(id, nodes, 0, type);
if (!tlc.insert(tlDef)) {
// actually, nothing should fail here
WRITE_WARNING("Could not build guessed, joined tls");
delete tlDef;
return;
}
}
}
// guess tls
for (NodeCont::iterator i = myNodes.begin(); i != myNodes.end(); i++) {
NBNode* cur = (*i).second;
// do nothing if already is tl-controlled
if (cur->isTLControlled()) {
continue;
}
// do nothing if in the list of explicit non-controlled junctions
if (find(ncontrolled.begin(), ncontrolled.end(), cur) != ncontrolled.end()) {
continue;
}
std::set<NBNode*> c;
c.insert(cur);
if (!shouldBeTLSControlled(c) || cur->getIncomingEdges().size() < 3) {
continue;
}
setAsTLControlled((*i).second, tlc, type);
}
}
