42 const double length,
const bool doAdd,
55 travelledDistance = 0.;
71 if (myParent !=
nullptr && !myParent->vehicleApplies(veh)) {
75 sampleSeconds += timeOnLane;
76 travelledDistance += travelledDistanceVehicleOnLane;
80 meanSpeedVehicleOnLane, a, veh.
getSlope(),
98 const double ,
const double ,
const double defaultTravelTime,
const int )
const {
99 const double normFactor = double(3600. /
STEPS2TIME(period) / myLaneLength);
107 if (attributeMask == 0) {
118 if (sampleSeconds > myParent->getMinSamples()) {
119 double vehFactor = myParent->getMaxTravelTime() / sampleSeconds;
120 double traveltime = myParent->getMaxTravelTime();
121 if (travelledDistance > 0.f) {
122 vehFactor =
MIN2(vehFactor, myLaneLength / travelledDistance);
123 traveltime =
MIN2(traveltime, myLaneLength * sampleSeconds / travelledDistance);
125 if (attributeMask == 0) {
136 }
else if (defaultTravelTime >= 0.) {
138 const double speed =
MIN2(myLaneLength / defaultTravelTime, t->
getMaxSpeed());
140 if (attributeMask == 0) {
163 const bool useLanes,
const bool withEmpty,
164 const bool printDefaults,
165 const bool withInternal,
166 const bool trackVehicles,
167 const double maxTravelTime,
168 const double minSamples,
169 const std::string& vTypes,
170 const std::string& writeAttributes) :
171 MSMeanData(id, dumpBegin, dumpEnd, useLanes, withEmpty, printDefaults,
172 withInternal, trackVehicles, 0, maxTravelTime, minSamples, vTypes, writeAttributes)
@ SUMO_ATTR_ELECTRICITY_ABS
@ SUMO_ATTR_ELECTRICITY_PERVEH
@ SUMO_ATTR_CO_ABS
MSMeanData_Emissions.
@ SUMO_ATTR_ELECTRICITY_NORMED
double getMaxAccel() const
Get the vehicle type's maximum acceleration [m/s^2].
Representation of a lane in the micro simulation.
Data structure for mean (aggregated) edge/lane values.
double travelledDistance
The sum of the distances the vehicles travelled.
Data structure for mean (aggregated) edge/lane values.
void write(OutputDevice &dev, long long int attributeMask, const SUMOTime period, const double numLanes, const double speedLimit, const double defaultTravelTime, const int numVehicles=-1) const
Writes output values into the given stream.
MSLaneMeanDataValues(MSLane *const lane, const double length, const bool doAdd, const MSMeanData_Emissions *parent)
Constructor.
bool notifyIdle(SUMOTrafficObject &veh)
Computes idling emission values and adds them to the aggregate emission sums.
PollutantsInterface::Emissions myEmissions
Collected values.
void reset(bool afterWrite=false)
Resets values so they may be used for the next interval.
virtual ~MSLaneMeanDataValues()
Destructor.
void addTo(MSMeanData::MeanDataValues &val) const
Add the values of this to the given one and store them there.
void notifyMoveInternal(const SUMOTrafficObject &veh, const double, const double timeOnLane, const double, const double meanSpeedVehicleOnLane, const double travelledDistanceFrontOnLane, const double travelledDistanceVehicleOnLane, const double)
Internal notification about the vehicle moves.
Emission data collector for edges/lanes.
MSMeanData::MeanDataValues * createValues(MSLane *const lane, const double length, const bool doAdd) const
Create an instance of MeanDataValues.
MSMeanData_Emissions(const std::string &id, const SUMOTime dumpBegin, const SUMOTime dumpEnd, const bool useLanes, const bool withEmpty, const bool printDefaults, const bool withInternal, const bool trackVehicles, const double minSamples, const double maxTravelTime, const std::string &vTypes, const std::string &writeAttributes)
Constructor.
virtual ~MSMeanData_Emissions()
Destructor.
Data collector for edges/lanes.
static MSNet * getInstance()
Returns the pointer to the unique instance of MSNet (singleton).
MSVehicleControl & getVehicleControl()
Returns the vehicle control.
MSVehicleType * getVType(const std::string &id=DEFAULT_VTYPE_ID, SumoRNG *rng=nullptr, bool readOnly=false)
Returns the named vehicle type or a sample from the named distribution.
The car-following model and parameter.
double getMaxSpeed() const
Get vehicle's maximum speed [m/s].
SUMOEmissionClass getEmissionClass() const
Get this vehicle type's emission class.
const MSCFModel & getCarFollowModel() const
Returns the vehicle type's car following model definition (const version)
Static storage of an output device and its base (abstract) implementation.
static std::string realString(const double v, const int precision=gPrecision)
Helper method for string formatting.
OutputDevice & writeOptionalAttr(const SumoXMLAttr attr, const T &val, long long int attributeMask)
writes a named attribute unless filtered
bool closeTag(const std::string &comment="")
Closes the most recently opened tag and optionally adds a comment.
static double computeDefault(const SUMOEmissionClass c, const EmissionType e, const double v, const double a, const double slope, const double tt, const EnergyParams *param=0)
Returns the amount of emitted pollutant given the vehicle type and default values for the state (in m...
static Emissions computeAll(const SUMOEmissionClass c, const double v, const double a, const double slope, const EnergyParams *param=0)
Returns the amount of all emitted pollutants given the vehicle type and state (in mg/s or ml/s for fu...
Representation of a vehicle, person, or container.
virtual bool isVehicle() const
Whether it is a vehicle.
virtual double getAcceleration() const =0
Returns the object's acceleration.
virtual double getSlope() const =0
Returns the slope of the road at object's position in degrees.
virtual const MSVehicleType & getVehicleType() const =0
Returns the object's "vehicle" type.
Representation of a vehicle.
virtual const EnergyParams * getEmissionParameters() const =0
Returns the vehicle's emission model parameter.
Storage for collected values of all emission types.
void addScaled(const Emissions &a, const double scale=1.)
Add the values of the other struct to this one, scaling the values if needed.