127 const std::string& streetName,
const std::string& edgeType,
int priority);
139 void initialize(
const std::vector<MSLane*>* lanes);
201 inline const std::set<MSTransportable*>&
getPersons()
const {
436 }
else if (veh != 0) {
617 std::set<MSTransportable*>::iterator i =
myPersons.find(p);
630 std::set<MSTransportable*>::iterator i =
myContainers.find(container);
685 static void insertIDs(std::vector<std::string>& into);
701 const std::string& rid);
711 const std::string& rid);
bool myAmDelayed
whether this edge had a vehicle with less than max speed on it
double getDepartPosBound(const MSVehicle &veh, bool upper=true) const
return upper bound for the depart position on this edge
int getNumPredecessors() const
Returns the number of edges this edge is connected to.
const std::vector< double > getSubLaneSides() const
Returns the right side offsets of this edge's sublanes.
bool allowsLaneChanging()
bool insertVehicle(SUMOVehicle &v, SUMOTime time, const bool checkOnly=false, const bool forceCheck=false) const
Tries to insert the given vehicle into the network.
std::set< MSTransportable * > myContainers
Containers on the edge.
Representation of a vehicle in the micro simulation.
static void insertIDs(std::vector< std::string > &into)
Inserts IDs of all known edges into the given vector.
Sorts edges by their ids.
int getPriority() const
Returns the priority of the edge.
void addSuccessor(MSEdge *edge)
Adds an edge to the list of edges which may be reached from this edge and to the incoming of the othe...
MSLane * parallelLane(const MSLane *const lane, int offset) const
Returns the lane with the given offset parallel to the given lane one or 0 if it does not exist...
double getLengthGeometryFactor() const
return shape.length() / myLength
SUMOVehicleClass
Definition of vehicle classes to differ between different lane usage and authority types...
static int dictSize()
Returns the number of edges.
virtual void unlock() const
release exclusive access to the mesoscopic state
void recalcCache()
Recalculates the cached values.
const MSEdgeVector & getPredecessors() const
The base class for an intersection.
static MSEdgeVector myEdges
Static list of edges.
const EdgeBasicFunction myFunction
the purpose of the edge
int SVCPermissions
bitset where each bit declares whether a certain SVC may use this edge/lane
void setCrossingEdges(const std::vector< std::string > &crossingEdges)
Sets the crossed edge ids for a crossing edge.
ClassedAllowedLanesCont myClassedAllowed
From vehicle class to lanes allowed to be used by it.
virtual ~MSEdge()
Destructor.
const std::vector< MSLane * > * allowedLanes(const MSEdge &destination, SUMOVehicleClass vclass=SVC_IGNORING) const
Get the allowed lanes to reach the destination-edge.
The edge is a macroscopic connector (source/sink)
bool isRoundabout() const
const std::vector< MSLane * > & getLanes() const
Returns this edge's lanes.
static MSNet * getInstance()
Returns the pointer to the unique instance of MSNet (singleton).
std::string myEdgeType
the type of the edge (optionally used during network creation)
const std::vector< std::string > & getCrossingEdges() const
Gets the crossed edge ids.
double getMeanSpeed() const
get the mean speed
transportable_by_position_sorter(SUMOTime timestep)
constructor
static bool dictionary(const std::string &id, MSEdge *edge)
Inserts edge into the static dictionary Returns true if the key id isn't already in the dictionary...
std::vector< double > mySublaneSides
the right side for each sublane on this edge
const int myNumericalID
This edge's numerical id.
SUMOTime incVaporization(SUMOTime t)
Enables vaporization.
void initialize(const std::vector< MSLane *> *lanes)
Initialize the edge.
std::vector< const MSEdge * > ConstMSEdgeVector
const std::string & getID() const
Returns the id.
int myVaporizationRequests
Vaporizer counter.
EdgeBasicFunction
Defines possible edge types.
double getLength() const
return the length of the edge
const MSJunction * getToJunction() const
std::vector< MSTransportable * > getSortedPersons(SUMOTime timestep, bool includeRiding=false) const
Returns this edge's persons sorted by pos.
SUMOTime decVaporization(SUMOTime t)
Disables vaporization.
int getNumericalID() const
Returns the numerical id of the edge.
double getSpeedLimit() const
Returns the speed limit of the edge The speed limit of the first lane is retured; should probably be...
The purpose of the edge is not known.
bool hasLaneChanger() const
std::map< std::string, MSEdge *> DictType
definition of the static dictionary type
bool isVaporizing() const
Returns whether vehicles on this edge shall be vaporized.
int getNumSuccessors() const
Returns the number of edges that may be reached from this edge.
const std::string & getEdgeType() const
Returns the type of the edge.
int operator()(const MSEdge *const e1, const MSEdge *const e2) const
comparing operator
double getCurrentTravelTime(const double minSpeed=NUMERICAL_EPS) const
Computes and returns the current travel time for this edge.
MSEdge & operator=(const MSEdge &)
assignment operator.
Performs lane changing of vehicles.
A road/street connecting two junctions.
SUMOTime myLastFailedInsertionTime
The time of last insertion failure.
std::map< SUMOVehicleClass, MSEdgeVector > myClassesSuccessorMap
The successors available for a given vClass.
void rebuildAllowedLanes()
double myLength
the length of the edge (cached value for speedup)
The edge is a district edge.
Representation of a vehicle.
static double getTravelTimeStatic(const MSEdge *const edge, const SUMOVehicle *const veh, double time)
Returns the travel time for the given edge.
static double getTravelTime(const MSEdge *const e, const SUMOVehicle *const v, double t)
Returns the travel time to pass an edge.
AllowedLanesCont myAllowed
Associative container from destination-edge to allowed-lanes.
bool hasMinorLink() const
whether any lane has a minor link
std::map< SUMOVehicleClass, AllowedLanesCont > ClassedAllowedLanesCont
Map from vehicle types to lanes that may be used to reach one of the next edges.
static void clear()
Clears the dictionary.
SVCPermissions myMinimumPermissions
The intersection of lane permissions for this edge.
virtual void addPerson(MSTransportable *p) const
const std::set< MSTransportable * > & getPersons() const
Returns this edge's persons set.
MSEdgeVector mySuccessors
The succeeding edges.
double getMinimumTravelTime(const SUMOVehicle *const veh) const
returns the minimum travel time for the given vehicle
MSJunction * myToJunction
MSLaneChanger * myLaneChanger
This member will do the lane-change.
double getRoutingSpeed() const
Returns the averaged speed used by the routing device.
MSEdge(const std::string &id, int numericalID, const EdgeBasicFunction function, const std::string &streetName, const std::string &edgeType, int priority)
Constructor.
MSLane * leftLane(const MSLane *const lane) const
Returns the lane left to the one given, 0 if the given lane is leftmost.
MSLane * getDepartLane(MSVehicle &veh) const
Finds a depart lane for the given vehicle parameters.
virtual void removePerson(MSTransportable *p) const
SUMOTime getLastFailedInsertionTime() const
Returns the last time a vehicle could not be inserted.
const std::vector< MSLane * > * myLanes
Container for the edge's lane; should be sorted: (right-hand-traffic) the more left the lane...
EdgeBasicFunction getPurpose() const
Returns the edge type (EdgeBasicFunction)
bool isCrossing() const
return whether this edge is a pedestrian crossing
bool isInternal() const
return whether this edge is an internal edge
An upper class for objects with additional parameters.
virtual void removeContainer(MSTransportable *container) const
Remove container from myContainers.
bool canChangeToOpposite()
whether this edge allows changing to the opposite direction edge
const std::string & getStreetName() const
Returns the street name of the edge.
Base class for objects which have an id.
const MSEdge * getInternalFollowingEdge(const MSEdge *followerAfterInternal) const
double getVehicleMaxSpeed(const SUMOVehicle *const veh) const
Returns the maximum speed the vehicle may use on this edge.
SVCPermissions myCombinedPermissions
The union of lane permissions for this edge.
The edge is a pedestrian walking area (a special type of internal edge)
void buildLaneChanger()
Has to be called after all sucessors and predecessors have been set (after closeBuilding()) ...
Structure representing possible vehicle parameter.
bool prohibits(const SUMOVehicle *const vehicle) const
Returns whether the vehicle (class) is not allowed on the edge.
virtual void addContainer(MSTransportable *container) const
Add a container to myContainers.
static const MSEdgeVector & getAllEdges()
Returns all edges with a numerical id.
virtual void changeLanes(SUMOTime t)
Performs lane changing on this edge.
The edge is a normal street.
const MSJunction * getFromJunction() const
bool myAmRoundabout
whether this edge belongs to a roundabout
The edge is a pedestrian crossing (a special type of internal edge)
double myWidth
Edge width [m].
std::string myStreetName
the real-world name of this edge (need not be unique)
MSJunction * myFromJunction
the junctions for this edge
double getInternalFollowingLengthTo(const MSEdge *followerAfterInternal) const
returns the length of all internal edges on the junction until reaching the non-internal edge followe...
const MSEdgeVector & getSuccessors() const
Returns the following edges.
void setMaxSpeed(double val) const
Sets a new maximum speed for all lanes (used by TraCI and MSCalibrator)
void setJunctions(MSJunction *from, MSJunction *to)
virtual void lock() const
grant exclusive access to the mesoscopic state
by_id_sorter()
constructor
std::map< const MSEdge *, std::vector< MSLane * > *> AllowedLanesCont
Suceeding edges (keys) and allowed lanes to reach these edges (values).
const int myPriority
the priority of the edge (used during network creation)
bool isWalkingArea() const
return whether this edge is walking area
std::vector< std::string > myCrossingEdges
The crossed edges id for a crossing edge. On not crossing edges it is empty.
static DictType myDict
Static dictionary to associate string-ids with objects.
Static storage of an output device and its base (abstract) implementation.
Sorts transportables by their positions.
double getDistanceTo(const MSEdge *other) const
optimistic air distance heuristic for use in routing
std::vector< MSEdge * > MSEdgeVector
SVCPermissions getPermissions() const
The edge is an internal edge.
MSEdgeVector myPredecessors
The preceeding edges.
std::vector< MSTransportable * > getSortedContainers(SUMOTime timestep, bool includeRiding=false) const
Returns this edge's containers sorted by pos.
Representation of a lane in the micro simulation.
MSLane * rightLane(const MSLane *const lane) const
Returns the lane right to the one given, 0 if the given lane is rightmost.
double myEmptyTraveltime
the traveltime on the empty edge (cached value for speedup)
MSLane * getFreeLane(const std::vector< MSLane *> *allowed, const SUMOVehicleClass vclass, double departPos) const
Finds the emptiest lane allowing the vehicle class.
static void parseEdgesList(const std::string &desc, ConstMSEdgeVector &into, const std::string &rid)
Parses the given string assuming it contains a list of edge ids divided by spaces.
const std::vector< MSLane * > * getAllowedLanesWithDefault(const AllowedLanesCont &c, const MSEdge *dest) const
lookup in map and return 0 if not found
vehicles ignoring classes
SUMOVehicleClass getVehicleClass() const
Get this vehicle type's vehicle class.
std::set< int > myFailedInsertionMemory
A cache for the rejected insertion attempts. Used to assure that no further insertion attempts are ma...
std::set< MSTransportable * > myPersons
Persons on the edge for drawing and pushbutton.
void setLastFailedInsertionTime(SUMOTime time) const
Sets the last time a vehicle could not be inserted.
virtual const MSVehicleType & getVehicleType() const =0
Returns the vehicle's type.
double getWidth() const
Returns the edges's width (sum over all lanes)