58 const std::vector<int>& connectors,
59 const std::vector<int>& disturbances,
61 : myID(id), myNodeID(nodeid), myTLID(tlid),
62 myConnectors(connectors), myDisturbances(disturbances),
63 myNBNode(0), myAmEdgeSplit(amEdgeSplitOnly) {}
73 DictType::iterator i =
myDict.find(
id);
85 const std::vector<int>& connectors,
86 const std::vector<int>& disturbances,
87 bool amEdgeSplitOnly) {
93 nodeid, tlid, connectors, disturbances, amEdgeSplitOnly);
101 DictType::iterator i =
myDict.find(
id);
112 return (
int)
myDict.size();
120 return toString<int>(
myID);
122 return toString<int>(
myID) +
"LSA " + toString<int>(
myTLID);
135 std::vector<int>::iterator i, j;
157 if (crossings.size() == 0) {
189 for (DictType::iterator i =
myDict.begin(); i !=
myDict.end(); i++) {
190 (*i).second->buildNBNode(nc);
205 for (DictType::iterator i =
myDict.begin(); i !=
myDict.end(); i++) {
211 if (ret != -1 && (*i).first != ret) {
227 for (DictType::iterator i =
myDict.begin(); i !=
myDict.end(); i++) {
233 if (ret != -1 && ret != (*i).first) {
249 for (DictType::iterator i =
myDict.begin(); i !=
myDict.end(); i++) {
251 into << std::endl << c->
myID <<
":";
259 into <<
"=======================" << std::endl;
279 for (DictType::iterator i =
myDict.begin(); i !=
myDict.end(); i++) {
280 const std::vector<int>& disturbances = (*i).second->myDisturbances;
282 for (std::vector<int>::const_iterator j = disturbances.begin(); j != disturbances.end(); j++) {
284 disturbance->
addToNode(node, dc, nc, ec);
293 for (DictType::iterator i =
myDict.begin(); i !=
myDict.end(); i++) {
NBNode * retrieve(const std::string &id) const
Returns the node with the given name.
static int getFromNode(int edgeid)
std::string getNodeName() const
static void dict_recheckEdgeChanges()
static bool dictionary(int id, NIVissimAbstractEdge *e)
NIVissimNodeCluster(int id, int nodeid, int tlid, const std::vector< int > &connectors, const std::vector< int > &disturbances, bool amEdgeSplitOnly)
A container for districts.
static bool dictionary(const std::string &name, const NIVissimExtendedEdgePoint &edge, const NIVissimExtendedEdgePoint &by)
bool addToNode(NBNode *node, NBDistrictCont &dc, NBNodeCont &nc, NBEdgeCont &ec)
static bool dictionary(int id, NIVissimNodeCluster *o)
static bool dictionary(int id, NIVissimConnection *o)
int getFromEdgeID() const
static void setCurrentVirtID(int id)
static void dict_addDisturbances(NBDistrictCont &dc, NBNodeCont &nc, NBEdgeCont &ec)
NBNode * getNBNode() const
A point in 2D or 3D with translation and scaling methods.
virtual void buildGeom()=0
Position getPolygonCenter() const
Returns the arithmetic of all corner points.
Storage for edges, including some functionality operating on multiple edges.
std::map< int, NIVissimNodeCluster * > DictType
static int getToNode(int edgeid)
Position crossesEdgeAtPoint(NIVissimAbstractEdge *c) const
static void _debugOut(std::ostream &into)
Position getToGeomPosition() const
std::vector< int > myConnectors
bool insert(const std::string &id, const Position &position, NBDistrict *district=0)
Inserts a node into the map.
bool crossesEdge(NIVissimAbstractEdge *c) const
static void buildNBNodes(NBNodeCont &nc)
Represents a single node (junction) during network building.
Position getFromGeomPosition() const
void buildNBNode(NBNodeCont &nc)
void push_back_noDoublePos(const Position &p)
insert in back a non double position
Container for nodes during the netbuilding process.
static void reportRefused()