61 const std::string& name,
62 const std::vector<int>& groupids,
66 const std::vector<int>& vehicleTypes)
67 : myID(id), myName(name), myGroupIDs(groupids),
68 myEdgeID(edgeid), myLane(laneno), myPosition(position),
69 myVehicleTypes(vehicleTypes) {}
89 SignalDictType::iterator i =
myDict.find(lsaid);
94 SSignalDictType::iterator j = (*i).second.find(
id);
95 if (j == (*i).second.end()) {
105 SignalDictType::iterator i =
myDict.find(lsaid);
109 SSignalDictType::iterator j = (*i).second.find(
id);
110 if (j == (*i).second.end()) {
119 for (SignalDictType::iterator i =
myDict.begin(); i !=
myDict.end(); i++) {
120 for (SSignalDictType::iterator j = (*i).second.begin(); j != (*i).second.end(); j++) {
130 SignalDictType::iterator i =
myDict.find(tlid);
154 for (std::vector<NBEdge::Connection>::iterator i = connections.begin(); i != connections.end(); i++) {
163 for (std::vector<NBEdge::Connection>::iterator i = connections.begin(); i != connections.end(); i++) {
174 if (tmpFrom != 0 && tmpTo != 0) {
176 assignedConnections.push_back(
NBConnection(tmpFrom, -1, tmpTo, -1));
209 const std::string& name,
210 bool isGreenBegin,
const std::vector<double>& times,
213 myFirstIsRed(!isGreenBegin), myTRedYellow(tredyellow),
214 myTYellow(tyellow) {}
223 GroupDictType::iterator i =
myDict.find(lsaid);
228 SGroupDictType::iterator j = (*i).second.find(
id);
229 if (j == (*i).second.end()) {
247 GroupDictType::iterator i =
myDict.find(lsaid);
251 SGroupDictType::iterator j = (*i).second.find(
id);
252 if (j == (*i).second.end()) {
260 for (GroupDictType::iterator i =
myDict.begin(); i !=
myDict.end(); i++) {
261 for (SGroupDictType::iterator j = (*i).second.begin(); j != (*i).second.end(); j++) {
271 GroupDictType::iterator i =
myDict.find(tlid);
284 std::string
id = toString<int>(
myID);
286 for (std::vector<double>::const_iterator i =
myTimes.begin(); i !=
myTimes.end(); i++) {
312 const std::string& name,
SUMOTime absdur,
328 const std::string& name,
SUMOTime absdur,
340 DictType::iterator i =
myDict.find(
id);
351 DictType::iterator i =
myDict.find(
id);
361 for (DictType::iterator i =
myDict.begin(); i !=
myDict.end(); i++) {
379 for (DictType::iterator i =
myDict.begin(); i !=
myDict.end(); i++) {
387 std::string
id = toString<int>(tl->
myID);
392 WRITE_ERROR(
"Error on adding a traffic light\n Must be a multiple id ('" +
id +
"')");
398 for (SGroupDictType::const_iterator j = sgs.begin(); j != sgs.end(); j++) {
399 if (!(*j).second->addTo(def)) {
400 WRITE_WARNING(
"The signal group '" + toString<int>((*j).first) +
"' could not be assigned to tl '" + toString<int>(tl->
myID) +
"'.");
407 for (SSignalDictType::const_iterator k = signals.begin(); k != signals.end(); k++) {
408 if (!(*k).second->addTo(ec, def)) {
409 WRITE_WARNING(
"The signal '" + toString<int>((*k).first) +
"' could not be assigned to tl '" + toString<int>(tl->
myID) +
"'.");
416 WRITE_WARNING(
"Could not set " + toString<int>(ref) +
" of " + toString<int>((
int)
myDict.size()) +
" traffic lights.");
418 if (ref_groups != 0) {
419 WRITE_WARNING(
"Could not set " + toString<int>(ref_groups) +
" of " + toString<int>(no_groups) +
" groups.");
421 if (ref_signals != 0) {
422 WRITE_WARNING(
"Could not set " + toString<int>(ref_signals) +
" of " + toString<int>(no_signals) +
" signals.");
Position getPosition() const
bool around(const Position &p, double offset=0) const
Returns the information whether the position vector describes a polygon lying around the given point...
NIVissimTLSignalGroup(int id, const std::string &name, bool isGreenBegin, const std::vector< double > ×, SUMOTime tredyellow, SUMOTime tyellow)
A structure which describes a connection between edges or lanes.
void setSignalYellowTimes(const std::string &groupid, SUMOTime tRedYellow, SUMOTime tYellow)
Sets the times the light is yellow or red/yellow.
int toLane
The lane the connections yields in.
static bool dictionary(int id, NIVissimAbstractEdge *e)
NBEdge * toEdge
The edge the connections yields in.
NIVissimTL(int id, const std::string &type, const std::string &name, SUMOTime absdur, SUMOTime offset)
std::map< int, NIVissimTL * > DictType
void addSignalGroupPhaseBegin(const std::string &groupid, SUMOTime time, TLColor color)
Sets the information about the begin of a phase.
static SSignalDictType getSignalsFor(int tlid)
A container for traffic light definitions and built programs.
A loaded (complete) traffic light logic.
The representation of a single edge during network building.
std::string getType() const
NIVissimTLSignalGroup * myCurrentGroup
std::map< int, SSignalDictType > SignalDictType
TLColor
An enumeration of possible tl-signal states.
static bool dictionary(int id, NIVissimConnection *o)
static bool dictionary(int lsaid, int id, NIVissimTLSignal *o)
#define WRITE_WARNING(msg)
std::map< int, SGroupDictType > GroupDictType
bool addTo(NBEdgeCont &ec, NBLoadedTLDef *node) const
int getFromEdgeID() const
std::vector< Connection > getConnectionsFromLane(int lane) const
Returns connections from a given lane.
std::map< int, NIVissimTLSignal * > SSignalDictType
std::string toString(const T &t, std::streamsize accuracy=gPrecision)
bool addToSignalGroup(const std::string &groupid, const NBConnection &connection)
Adds a connection to a signal group.
NBEdge * retrievePossiblySplit(const std::string &id, bool downstream) const
Tries to retrieve an edge, even if it is splitted.
int getNumLanes() const
Returns the number of lanes.
A point in 2D or 3D with translation and scaling methods.
static bool dictionary(int id, const std::string &type, const std::string &name, SUMOTime absdur, SUMOTime offset)
static bool dictionary(int lsaid, int id, NIVissimTLSignalGroup *o)
std::vector< double > myTimes
void setCycleDuration(int cycleDur)
Sets the duration of a cycle.
static bool dict_SetSignals(NBTrafficLightLogicCont &tlc, NBEdgeCont &ec)
Storage for edges, including some functionality operating on multiple edges.
std::map< int, NIVissimTLSignalGroup * > SGroupDictType
std::vector< int > myGroupIDs
bool lanesWereAssigned() const
Check if lanes were assigned.
std::vector< NBConnection > NBConnectionVector
Definition of a connection vector.
static GroupDictType myDict
bool addTo(NBLoadedTLDef *node) const
static SignalDictType myDict
NIVissimTLSignal(int id, const std::string &name, const std::vector< int > &groupids, int edgeid, int laneno, double position, const std::vector< int > &assignedVehicleTypes)
void addSignalGroup(const std::string &id)
Adds a signal group.
bool insert(NBTrafficLightDefinition *logic, bool forceInsert=false)
Adds a logic definition to the dictionary.
static SGroupDictType getGroupsFor(int tlid)
bool isWithin(const PositionVector &poly) const