59 myTeleportsWrongLane(0),
61 myTotalDepartureDelay(0),
63 myDefaultVTypeMayBeDeleted(true),
64 myDefaultPedTypeMayBeDeleted(true),
65 myWaitingForPerson(0),
66 myWaitingForContainer(0),
112 const bool ignoreStopErrors,
const bool fromRouteFile) {
130 for (std::vector<MSDevice*>::const_iterator i = veh->
getDevices().begin(); i != veh->
getDevices().end(); ++i) {
131 (*i)->generateOutput();
171 it->second->getParameter().write(out);
180 (*it).second->saveState(out);
258 assert(vehType != 0);
289 return it2->second->get(rng);
304 into.push_back((*i).first);
307 into.push_back((*i).first);
315 myWaiting[edge] = std::vector<SUMOVehicle*>();
324 std::vector<SUMOVehicle*>::iterator it = std::find(
myWaiting[edge].begin(),
myWaiting[edge].end(), vehicle);
336 std::vector<SUMOVehicle*> waitingTooFarAway;
337 for (std::vector<SUMOVehicle*>::const_iterator it =
myWaiting[edge].begin(); it !=
myWaiting[edge].end(); ++it) {
338 const std::string& line = (*it)->
getParameter().
line ==
"" ? (*it)->getParameter().id : (*it)->getParameter().line;
339 double vehiclePosition = (*it)->getPositionOnLane();
342 if (lines.count(line)) {
343 if ((position - 10 <= vehiclePosition) && (vehiclePosition <= position + 10)) {
345 }
else if ((*it)->isStoppedTriggered() ||
352 waitingTooFarAway.push_back(*it);
357 for (std::vector<SUMOVehicle*>::iterator it = waitingTooFarAway.begin(); it != waitingTooFarAway.end(); ++it) {
358 WRITE_WARNING(ridingID +
" at edge '" + edge->
getID() +
"' position " +
toString(position) +
" cannot use waiting vehicle '" + (*it)->getID() +
"' at position " +
toString((*it)->getPositionOnLane()) +
" because it is too far away.");
368 WRITE_WARNING(
"Vehicle " + i->first +
" aborted waiting for a person or a container that will never come.");
375 frac = frac < 0 ?
myScale : frac;
376 if (frac < 0 || frac == 1.) {
381 const int base = (int)frac;
382 const int resolution = 1000;
383 const int intFrac = (int)floor((frac - base) * resolution + 0.5);
385 if (((loaded % resolution) * intFrac) % resolution < intFrac) {
The departure is person triggered.
The vehicle has departed (was inserted into the network)
bool myDefaultPedTypeMayBeDeleted
Whether no pedestrian type was loaded.
bool checkVType(const std::string &id)
Checks whether the vehicle type (distribution) may be added.
OutputDevice & writeAttr(const SumoXMLAttr attr, const T &val)
writes a named attribute
void addWaiting(const MSEdge *const edge, SUMOVehicle *vehicle)
Adds a vehicle to the list of waiting vehiclse to a given edge.
Representation of a vehicle in the micro simulation.
virtual void deleteVehicle(SUMOVehicle *v, bool discard=false)
Deletes the vehicle.
SUMOTime computeRandomDepartOffset() const
compute (optional) random offset to the departure time
int myTeleportsWrongLane
The number of teleports due to vehicles stuck on the wrong lane.
int myEndedVehNo
The number of removed vehicles.
static bool teleportOnCollision()
Represents a generic random distribution.
int myDiscarded
The number of vehicles which were discarded while loading.
Structure representing possible vehicle parameter.
std::map< const MSEdge *const, std::vector< SUMOVehicle * > > myWaiting
the lists of waiting vehicles to a given edge
bool hasVTypeDistribution(const std::string &id) const
Asks for a vehicle type distribution.
static MTRand * getParsingRNG()
SUMOVehicle * getVehicle(const std::string &id) const
Returns the vehicle with the given id.
int getQuota(double frac=-1) const
Returns the number of instances of the current vehicle that shall be emitted considering that "frac" ...
MSVehicleControl()
Constructor.
weights: time range begin
static MSNet * getInstance()
Returns the pointer to the unique instance of MSNet (singleton).
VehicleDictType myVehicleDict
Dictionary of vehicles.
virtual bool addVehicle(const std::string &id, SUMOVehicle *v)
Tries to insert the vehicle into the internal vehicle container.
VTypeDictType myVTypeDict
Dictionary of vehicle types.
int myTeleportsJam
The number of teleports due to jam.
void removeWaiting(const MSEdge *const edge, SUMOVehicle *vehicle)
Removes a vehicle from the list of waiting vehicles to a given edge.
const std::string & getID() const
Returns the id.
bool myDefaultVTypeMayBeDeleted
Whether no vehicle type was loaded.
double myMaxSpeedFactor
The maximum speed factor for all vehicles in the network.
const std::string DEFAULT_VTYPE_ID
void setState(int runningVehNo, int loadedVehNo, int endedVehNo, double totalDepartureDelay, double totalTravelTime)
Sets the current state variables as loaded from the stream.
static MSVehicleType * build(SUMOVTypeParameter &from)
Builds the microsim vehicle type described by the given parameter.
#define WRITE_WARNING(msg)
The car-following model and parameter.
bool isStoppedInRange(double pos) const
return whether the given position is within range of the current stop
static OptionsCont & getOptions()
Retrieves the options.
A road/street connecting two junctions.
virtual const std::vector< MSDevice * > & getDevices() const =0
Returns this vehicle's devices.
const MSCFModel & getCarFollowModel() const
Returns the vehicle type's car following model definition (const version)
The vehicle arrived at his destination (is deleted)
std::string toString(const T &t, std::streamsize accuracy=gPrecision)
Representation of a vehicle.
std::string getString(const std::string &name) const
Returns the string-value of the named option (only for Option_String)
void removeVType(const MSVehicleType *vehType)
double myTotalTravelTime
The aggregated time vehicles needed to aacomplish their route (in seconds)
virtual SUMOVehicle * buildVehicle(SUMOVehicleParameter *defs, const MSRoute *route, const MSVehicleType *type, const bool ignoreStopErrors, const bool fromRouteFile=true)
Builds a vehicle, increases the number of built vehicles.
SUMOTime depart
The vehicle's departure time.
int myLoadedVehNo
The number of build vehicles.
SUMOTime string2time(const std::string &r)
SUMOVehicle * getWaitingVehicle(const MSEdge *const edge, const std::set< std::string > &lines, const double position, const std::string ridingID)
SUMOTime myMaxRandomDepartOffset
The maximum random offset to be added to vehicles departure times (non-negative)
void saveState(OutputDevice &out)
Saves the current state into the given stream.
double getMaxDecel() const
Get the vehicle type's maximum deceleration [m/s^2].
int myRunningVehNo
The number of vehicles within the network (build and inserted but not removed)
virtual double getChosenSpeedFactor() const =0
double getFloat(const std::string &name) const
Returns the double-value of the named option (only for Option_Float)
vehicle is a passenger car (a "normal" car)
void insertVTypeIDs(std::vector< std::string > &into) const
Inserts ids of all known vehicle types and vehicle type distributions to the given vector...
std::string line
The vehicle's line (mainly for public transport)
void abortWaiting()
informes about all waiting vehicles (deletion in destructor)
The vehicle was built, but has not yet departed.
bool addVType(MSVehicleType *vehType)
Adds a vehicle type.
double myTotalDepartureDelay
The aggregated time vehicles had to wait for departure (in seconds)
int setParameter
Information for the router which parameter were set.
trigger: the time of the step
void addStops(const bool ignoreStopErrors)
Adds stops to the built vehicle.
void scheduleVehicleRemoval(SUMOVehicle *veh)
Removes a vehicle after it has ended.
Structure representing possible vehicle parameter.
VTypeDistDictType myVTypeDistDict
A distribution of vehicle types (probability->vehicle type)
virtual SUMOTime getDeparture() const =0
Returns this vehicle's real departure time.
int myCollisions
The number of collisions.
const std::string DEFAULT_PEDTYPE_ID
static OutputDevice & getDeviceByOption(const std::string &name)
Returns the device described by the option.
virtual const SUMOVehicleParameter & getParameter() const =0
Returns the vehicle's parameter (including departure definition)
virtual ~MSVehicleControl()
Destructor.
A storage for options typed value containers)
bool addVTypeDistribution(const std::string &id, RandomDistributor< MSVehicleType *> *vehTypeDistribution)
Adds a vehicle type distribution.
const std::string & getID() const
Returns the name of the vehicle type.
void informVehicleStateListener(const SUMOVehicle *const vehicle, VehicleState to)
Informs all added listeners about a vehicle's state change.
Static storage of an output device and its base (abstract) implementation.
bool closeTag()
Closes the most recently opened tag.
double computeChosenSpeedDeviation(MTRand *rng, const double minDev=-1.) const
Computes and returns the speed deviation.
void vehicleDeparted(const SUMOVehicle &v)
Informs this control about a vehicle's departure.
double myScale
The scaling factor (especially for inc-dua)
double myMinDeceleration
The minimum deceleration capability for all vehicles in the network.
int myTeleportsYield
The number of teleports due to vehicles stuck on a minor road.
MSVehicleType * getVType(const std::string &id=DEFAULT_VTYPE_ID, MTRand *rng=0)
Returns the named vehicle type or a sample from the named distribution.
const int VTYPEPARS_VEHICLECLASS_SET
distribution of a vehicle type
int getTeleportCount() const
return the number of teleports (including collisions)
virtual const std::string & getID() const =0
Get the vehicle's ID.
vehicles ignoring classes
OutputDevice & openTag(const std::string &xmlElement)
Opens an XML tag.
virtual const MSVehicleType & getVehicleType() const =0
Returns the vehicle's type.