Eclipse SUMO - Simulation of Urban MObility
MSMeanData_Emissions.cpp
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1 /****************************************************************************/
2 // Eclipse SUMO, Simulation of Urban MObility; see https://eclipse.dev/sumo
3 // Copyright (C) 2001-2024 German Aerospace Center (DLR) and others.
4 // This program and the accompanying materials are made available under the
5 // terms of the Eclipse Public License 2.0 which is available at
6 // https://www.eclipse.org/legal/epl-2.0/
7 // This Source Code may also be made available under the following Secondary
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9 // Public License 2.0 are satisfied: GNU General Public License, version 2
10 // or later which is available at
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12 // SPDX-License-Identifier: EPL-2.0 OR GPL-2.0-or-later
13 /****************************************************************************/
19 // Emission data collector for edges/lanes that
20 /****************************************************************************/
21 #include <config.h>
22 
23 #include <limits>
24 #include <microsim/MSNet.h>
25 #include <microsim/MSLane.h>
26 #include <microsim/MSVehicle.h>
27 #include <microsim/MSVehicleControl.h>
28 #include <utils/common/SUMOTime.h>
29 #include <utils/common/ToString.h>
30 #include <utils/iodevices/OutputDevice.h>
31 #include "MSMeanData_Emissions.h"
32 #include <utils/emissions/PollutantsInterface.h>
33 
34 
35 // ===========================================================================
36 // method definitions
37 // ===========================================================================
38 // ---------------------------------------------------------------------------
39 // MSMeanData_Emissions::MSLaneMeanDataValues - methods
40 // ---------------------------------------------------------------------------
41 MSMeanData_Emissions::MSLaneMeanDataValues::MSLaneMeanDataValues(MSLane* const lane,
42  const double length, const bool doAdd,
43  const MSMeanData_Emissions* parent)
44  : MSMeanData::MeanDataValues(lane, length, doAdd, parent),
45  myEmissions() {}
46 
47 
48 MSMeanData_Emissions::MSLaneMeanDataValues::~MSLaneMeanDataValues() {
49 }
50 
51 
52 void
53 MSMeanData_Emissions::MSLaneMeanDataValues::reset(bool) {
54  sampleSeconds = 0.;
55  travelledDistance = 0.;
56  myEmissions = PollutantsInterface::Emissions();
57  resetTime = SIMSTEP;
58 }
59 
60 
61 void
62 MSMeanData_Emissions::MSLaneMeanDataValues::addTo(MSMeanData::MeanDataValues& val) const {
63  MSLaneMeanDataValues& v = (MSLaneMeanDataValues&) val;
64  v.sampleSeconds += sampleSeconds;
65  v.travelledDistance += travelledDistance;
66  v.myEmissions.addScaled(myEmissions);
67 }
68 
69 
70 void
71 MSMeanData_Emissions::MSLaneMeanDataValues::notifyMoveInternal(const SUMOTrafficObject& veh, const double frontOnLane, const double /*timeOnLane*/, const double meanSpeedFrontOnLane, const double /*meanSpeedVehicleOnLane*/, const double travelledDistanceFrontOnLane, const double /*travelledDistanceVehicleOnLane*/, const double /*meanLengthOnLane*/) {
72  if (myParent != nullptr && !myParent->vehicleApplies(veh)) {
73  return;
74  }
75  if (veh.isVehicle()) {
76  sampleSeconds += frontOnLane;
77  travelledDistance += travelledDistanceFrontOnLane;
78  const double a = veh.getAcceleration();
79  myEmissions.addScaled(PollutantsInterface::computeAll(veh.getVehicleType().getEmissionClass(),
80  // XXX: recheck, which value to use here for the speed. (Leo) Refs. #2579
81  meanSpeedFrontOnLane, a, veh.getSlope(),
82  static_cast<const SUMOVehicle&>(veh).getEmissionParameters()), frontOnLane);
83  }
84 }
85 
86 bool
87 MSMeanData_Emissions::MSLaneMeanDataValues::notifyIdle(SUMOTrafficObject& veh) {
88  if (veh.isVehicle()) {
89  myEmissions.addScaled(PollutantsInterface::computeAll(veh.getVehicleType().getEmissionClass(),
90  0., 0., 0.,
91  static_cast<const SUMOVehicle&>(veh).getEmissionParameters()), TS);
92  }
93  return true;
94 }
95 
96 
97 void
98 MSMeanData_Emissions::MSLaneMeanDataValues::write(OutputDevice& dev, long long int attributeMask, const SUMOTime period,
99  const int /*numLanes*/, const double /*speedLimit*/, const double defaultTravelTime, const int /*numVehicles*/) const {
100  const double normFactor = double(3600. / STEPS2TIME(period) / myLaneLength);
101  dev.writeOptionalAttr(SUMO_ATTR_CO_ABS, OutputDevice::realString(myEmissions.CO, 6), attributeMask);
102  dev.writeOptionalAttr(SUMO_ATTR_CO2_ABS, OutputDevice::realString(myEmissions.CO2, 6), attributeMask);
103  dev.writeOptionalAttr(SUMO_ATTR_HC_ABS, OutputDevice::realString(myEmissions.HC, 6), attributeMask);
104  dev.writeOptionalAttr(SUMO_ATTR_PMX_ABS, OutputDevice::realString(myEmissions.PMx, 6), attributeMask);
105  dev.writeOptionalAttr(SUMO_ATTR_NOX_ABS, OutputDevice::realString(myEmissions.NOx, 6), attributeMask);
106  dev.writeOptionalAttr(SUMO_ATTR_FUEL_ABS, OutputDevice::realString(myEmissions.fuel, 6), attributeMask);
107  dev.writeOptionalAttr(SUMO_ATTR_ELECTRICITY_ABS, OutputDevice::realString(myEmissions.electricity, 6), attributeMask);
108  if (attributeMask == 0) {
109  dev << "\n ";
110  }
111  dev.writeOptionalAttr(SUMO_ATTR_CO_NORMED, OutputDevice::realString(normFactor * myEmissions.CO, 6), attributeMask);
112  dev.writeOptionalAttr(SUMO_ATTR_CO2_NORMED, OutputDevice::realString(normFactor * myEmissions.CO2, 6), attributeMask);
113  dev.writeOptionalAttr(SUMO_ATTR_HC_NORMED, OutputDevice::realString(normFactor * myEmissions.HC, 6), attributeMask);
114  dev.writeOptionalAttr(SUMO_ATTR_PMX_NORMED, OutputDevice::realString(normFactor * myEmissions.PMx, 6), attributeMask);
115  dev.writeOptionalAttr(SUMO_ATTR_NOX_NORMED, OutputDevice::realString(normFactor * myEmissions.NOx, 6), attributeMask);
116  dev.writeOptionalAttr(SUMO_ATTR_FUEL_NORMED, OutputDevice::realString(normFactor * myEmissions.fuel, 6), attributeMask);
117  dev.writeOptionalAttr(SUMO_ATTR_ELECTRICITY_NORMED, OutputDevice::realString(normFactor * myEmissions.electricity, 6), attributeMask);
118 
119  if (sampleSeconds > myParent->getMinSamples()) {
120  double vehFactor = myParent->getMaxTravelTime() / sampleSeconds;
121  double traveltime = myParent->getMaxTravelTime();
122  if (travelledDistance > 0.f) {
123  vehFactor = MIN2(vehFactor, myLaneLength / travelledDistance);
124  traveltime = MIN2(traveltime, myLaneLength * sampleSeconds / travelledDistance);
125  }
126  if (attributeMask == 0) {
127  dev << "\n ";
128  }
129  dev.writeOptionalAttr(SUMO_ATTR_TRAVELTIME, OutputDevice::realString(traveltime), attributeMask);
130  dev.writeOptionalAttr(SUMO_ATTR_CO_PERVEH, OutputDevice::realString(vehFactor * myEmissions.CO, 6), attributeMask);
131  dev.writeOptionalAttr(SUMO_ATTR_CO2_PERVEH, OutputDevice::realString(vehFactor * myEmissions.CO2, 6), attributeMask);
132  dev.writeOptionalAttr(SUMO_ATTR_HC_PERVEH, OutputDevice::realString(vehFactor * myEmissions.HC, 6), attributeMask);
133  dev.writeOptionalAttr(SUMO_ATTR_PMX_PERVEH, OutputDevice::realString(vehFactor * myEmissions.PMx, 6), attributeMask);
134  dev.writeOptionalAttr(SUMO_ATTR_NOX_PERVEH, OutputDevice::realString(vehFactor * myEmissions.NOx, 6), attributeMask);
135  dev.writeOptionalAttr(SUMO_ATTR_FUEL_PERVEH, OutputDevice::realString(vehFactor * myEmissions.fuel, 6), attributeMask);
136  dev.writeOptionalAttr(SUMO_ATTR_ELECTRICITY_PERVEH, OutputDevice::realString(vehFactor * myEmissions.electricity, 6), attributeMask);
137  } else if (defaultTravelTime >= 0.) {
138  const MSVehicleType* t = MSNet::getInstance()->getVehicleControl().getVType();
139  const double speed = MIN2(myLaneLength / defaultTravelTime, t->getMaxSpeed());
140 
141  if (attributeMask == 0) {
142  dev << "\n ";
143  }
144  dev.writeOptionalAttr(SUMO_ATTR_TRAVELTIME, OutputDevice::realString(defaultTravelTime), attributeMask);
145  dev.writeOptionalAttr(SUMO_ATTR_CO_PERVEH, OutputDevice::realString(PollutantsInterface::computeDefault(t->getEmissionClass(), PollutantsInterface::CO, speed, t->getCarFollowModel().getMaxAccel(), 0, defaultTravelTime, t->getEmissionParameters()), 6), attributeMask);
146  dev.writeOptionalAttr(SUMO_ATTR_CO2_PERVEH, OutputDevice::realString(PollutantsInterface::computeDefault(t->getEmissionClass(), PollutantsInterface::CO2, speed, t->getCarFollowModel().getMaxAccel(), 0, defaultTravelTime, t->getEmissionParameters()), 6), attributeMask);
147  dev.writeOptionalAttr(SUMO_ATTR_HC_PERVEH, OutputDevice::realString(PollutantsInterface::computeDefault(t->getEmissionClass(), PollutantsInterface::HC, speed, t->getCarFollowModel().getMaxAccel(), 0, defaultTravelTime, t->getEmissionParameters()), 6), attributeMask);
148  dev.writeOptionalAttr(SUMO_ATTR_PMX_PERVEH, OutputDevice::realString(PollutantsInterface::computeDefault(t->getEmissionClass(), PollutantsInterface::PM_X, speed, t->getCarFollowModel().getMaxAccel(), 0, defaultTravelTime, t->getEmissionParameters()), 6), attributeMask);
149  dev.writeOptionalAttr(SUMO_ATTR_NOX_PERVEH, OutputDevice::realString(PollutantsInterface::computeDefault(t->getEmissionClass(), PollutantsInterface::NO_X, speed, t->getCarFollowModel().getMaxAccel(), 0, defaultTravelTime, t->getEmissionParameters()), 6), attributeMask);
150  dev.writeOptionalAttr(SUMO_ATTR_FUEL_PERVEH, OutputDevice::realString(PollutantsInterface::computeDefault(t->getEmissionClass(), PollutantsInterface::FUEL, speed, t->getCarFollowModel().getMaxAccel(), 0, defaultTravelTime, t->getEmissionParameters()), 6), attributeMask);
151  dev.writeOptionalAttr(SUMO_ATTR_ELECTRICITY_PERVEH, OutputDevice::realString(PollutantsInterface::computeDefault(t->getEmissionClass(), PollutantsInterface::ELEC, speed, t->getCarFollowModel().getMaxAccel(), 0, defaultTravelTime, t->getEmissionParameters()), 6), attributeMask);
152  }
153  dev.closeTag();
154 }
155 
156 
157 
158 // ---------------------------------------------------------------------------
159 // MSMeanData_Emissions - methods
160 // ---------------------------------------------------------------------------
161 MSMeanData_Emissions::MSMeanData_Emissions(const std::string& id,
162  const SUMOTime dumpBegin,
163  const SUMOTime dumpEnd,
164  const bool useLanes, const bool withEmpty,
165  const bool printDefaults,
166  const bool withInternal,
167  const bool trackVehicles,
168  const double maxTravelTime,
169  const double minSamples,
170  const std::string& vTypes,
171  const std::string& writeAttributes,
172  const std::vector<MSEdge*>& edges,
173  bool aggregate) :
174  MSMeanData(id, dumpBegin, dumpEnd, useLanes, withEmpty, printDefaults,
175  withInternal, trackVehicles, 0, maxTravelTime, minSamples, vTypes, writeAttributes, edges, aggregate)
176 { }
177 
178 
179 MSMeanData_Emissions::~MSMeanData_Emissions() {}
180 
181 
182 MSMeanData::MeanDataValues*
183 MSMeanData_Emissions::createValues(MSLane* const lane, const double length, const bool doAdd) const {
184  return new MSLaneMeanDataValues(lane, length, doAdd, this);
185 }
186 
187 
188 /****************************************************************************/
SUMOTime
long long int SUMOTime
Definition: GUI.h:35
MSMeanData_Emissions.h
STEPS2TIME
#define STEPS2TIME(x)
Definition: SUMOTime.h:55
SIMSTEP
#define SIMSTEP
Definition: SUMOTime.h:61
TS
#define TS
Definition: SUMOTime.h:42
SUMO_ATTR_NOX_ABS
@ SUMO_ATTR_NOX_ABS
Definition: SUMOXMLDefinitions.h:837
SUMO_ATTR_FUEL_PERVEH
@ SUMO_ATTR_FUEL_PERVEH
Definition: SUMOXMLDefinitions.h:852
SUMO_ATTR_HC_NORMED
@ SUMO_ATTR_HC_NORMED
Definition: SUMOXMLDefinitions.h:842
SUMO_ATTR_FUEL_NORMED
@ SUMO_ATTR_FUEL_NORMED
Definition: SUMOXMLDefinitions.h:845
SUMO_ATTR_CO_PERVEH
@ SUMO_ATTR_CO_PERVEH
Definition: SUMOXMLDefinitions.h:847
SUMO_ATTR_ELECTRICITY_ABS
@ SUMO_ATTR_ELECTRICITY_ABS
Definition: SUMOXMLDefinitions.h:839
SUMO_ATTR_PMX_PERVEH
@ SUMO_ATTR_PMX_PERVEH
Definition: SUMOXMLDefinitions.h:850
SUMO_ATTR_HC_PERVEH
@ SUMO_ATTR_HC_PERVEH
Definition: SUMOXMLDefinitions.h:849
SUMO_ATTR_CO2_NORMED
@ SUMO_ATTR_CO2_NORMED
Definition: SUMOXMLDefinitions.h:841
SUMO_ATTR_NOX_NORMED
@ SUMO_ATTR_NOX_NORMED
Definition: SUMOXMLDefinitions.h:844
SUMO_ATTR_TRAVELTIME
@ SUMO_ATTR_TRAVELTIME
Definition: SUMOXMLDefinitions.h:828
SUMO_ATTR_PMX_ABS
@ SUMO_ATTR_PMX_ABS
Definition: SUMOXMLDefinitions.h:836
SUMO_ATTR_ELECTRICITY_PERVEH
@ SUMO_ATTR_ELECTRICITY_PERVEH
Definition: SUMOXMLDefinitions.h:853
SUMO_ATTR_CO_ABS
@ SUMO_ATTR_CO_ABS
MSMeanData_Emissions.
Definition: SUMOXMLDefinitions.h:833
SUMO_ATTR_FUEL_ABS
@ SUMO_ATTR_FUEL_ABS
Definition: SUMOXMLDefinitions.h:838
SUMO_ATTR_CO_NORMED
@ SUMO_ATTR_CO_NORMED
Definition: SUMOXMLDefinitions.h:840
SUMO_ATTR_NOX_PERVEH
@ SUMO_ATTR_NOX_PERVEH
Definition: SUMOXMLDefinitions.h:851
SUMO_ATTR_HC_ABS
@ SUMO_ATTR_HC_ABS
Definition: SUMOXMLDefinitions.h:835
SUMO_ATTR_CO2_PERVEH
@ SUMO_ATTR_CO2_PERVEH
Definition: SUMOXMLDefinitions.h:848
SUMO_ATTR_PMX_NORMED
@ SUMO_ATTR_PMX_NORMED
Definition: SUMOXMLDefinitions.h:843
SUMO_ATTR_ELECTRICITY_NORMED
@ SUMO_ATTR_ELECTRICITY_NORMED
Definition: SUMOXMLDefinitions.h:846
SUMO_ATTR_CO2_ABS
@ SUMO_ATTR_CO2_ABS
Definition: SUMOXMLDefinitions.h:834
MIN2
T MIN2(T a, T b)
Definition: StdDefs.h:76
MSCFModel::getMaxAccel
double getMaxAccel() const
Get the vehicle type's maximum acceleration [m/s^2].
Definition: MSCFModel.h:256
MSLane
Representation of a lane in the micro simulation.
Definition: MSLane.h:84
MSMeanData::MeanDataValues
Data structure for mean (aggregated) edge/lane values.
Definition: MSMeanData.h:66
MSMeanData::MeanDataValues::travelledDistance
double travelledDistance
The sum of the distances the vehicles travelled.
Definition: MSMeanData.h:190
MSMeanData_Emissions::MSLaneMeanDataValues
Data structure for mean (aggregated) edge/lane values.
Definition: MSMeanData_Emissions.h:62
MSMeanData_Emissions::MSLaneMeanDataValues::MSLaneMeanDataValues
MSLaneMeanDataValues(MSLane *const lane, const double length, const bool doAdd, const MSMeanData_Emissions *parent)
Constructor.
Definition: MSMeanData_Emissions.cpp:41
MSMeanData_Emissions::MSLaneMeanDataValues::notifyIdle
bool notifyIdle(SUMOTrafficObject &veh)
Computes idling emission values and adds them to the aggregate emission sums.
Definition: MSMeanData_Emissions.cpp:87
MSMeanData_Emissions::MSLaneMeanDataValues::myEmissions
PollutantsInterface::Emissions myEmissions
Collected values.
Definition: MSMeanData_Emissions.h:117
MSMeanData_Emissions::MSLaneMeanDataValues::reset
void reset(bool afterWrite=false)
Resets values so they may be used for the next interval.
Definition: MSMeanData_Emissions.cpp:53
MSMeanData_Emissions::MSLaneMeanDataValues::~MSLaneMeanDataValues
virtual ~MSLaneMeanDataValues()
Destructor.
Definition: MSMeanData_Emissions.cpp:48
MSMeanData_Emissions::MSLaneMeanDataValues::addTo
void addTo(MSMeanData::MeanDataValues &val) const
Add the values of this to the given one and store them there.
Definition: MSMeanData_Emissions.cpp:62
MSMeanData_Emissions::MSLaneMeanDataValues::write
void write(OutputDevice &dev, long long int attributeMask, const SUMOTime period, const int numLanes, const double speedLimit, const double defaultTravelTime, const int numVehicles=-1) const
Writes output values into the given stream.
Definition: MSMeanData_Emissions.cpp:98
MSMeanData_Emissions::MSLaneMeanDataValues::notifyMoveInternal
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.
Definition: MSMeanData_Emissions.cpp:71
MSMeanData_Emissions
Emission data collector for edges/lanes.
Definition: MSMeanData_Emissions.h:53
MSMeanData_Emissions::createValues
MSMeanData::MeanDataValues * createValues(MSLane *const lane, const double length, const bool doAdd) const
Create an instance of MeanDataValues.
Definition: MSMeanData_Emissions.cpp:183
MSMeanData_Emissions::~MSMeanData_Emissions
virtual ~MSMeanData_Emissions()
Destructor.
Definition: MSMeanData_Emissions.cpp:179
MSMeanData_Emissions::MSMeanData_Emissions
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, const std::vector< MSEdge * > &edges, bool aggregate)
Constructor.
Definition: MSMeanData_Emissions.cpp:161
MSMeanData
Data collector for edges/lanes.
Definition: MSMeanData.h:57
MSNet::getInstance
static MSNet * getInstance()
Returns the pointer to the unique instance of MSNet (singleton).
Definition: MSNet.cpp:184
MSNet::getVehicleControl
MSVehicleControl & getVehicleControl()
Returns the vehicle control.
Definition: MSNet.h:378
MSVehicleControl::getVType
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.
Definition: MSVehicleControl.cpp:434
MSVehicleType
The car-following model and parameter.
Definition: MSVehicleType.h:63
MSVehicleType::getMaxSpeed
double getMaxSpeed() const
Get vehicle's (technical) maximum speed [m/s].
Definition: MSVehicleType.h:159
MSVehicleType::getEmissionParameters
const EnergyParams * getEmissionParameters() const
retrieve parameters for the energy consumption model
Definition: MSVehicleType.h:641
MSVehicleType::getEmissionClass
SUMOEmissionClass getEmissionClass() const
Get this vehicle type's emission class.
Definition: MSVehicleType.h:198
MSVehicleType::getCarFollowModel
const MSCFModel & getCarFollowModel() const
Returns the vehicle type's car following model definition (const version)
Definition: MSVehicleType.h:138
OutputDevice
Static storage of an output device and its base (abstract) implementation.
Definition: OutputDevice.h:61
OutputDevice::realString
static std::string realString(const double v, const int precision=gPrecision)
Helper method for string formatting.
Definition: OutputDevice.cpp:186
OutputDevice::writeOptionalAttr
OutputDevice & writeOptionalAttr(const SumoXMLAttr attr, const T &val, long long int attributeMask)
writes a named attribute unless filtered
Definition: OutputDevice.h:271
OutputDevice::closeTag
bool closeTag(const std::string &comment="")
Closes the most recently opened tag and optionally adds a comment.
Definition: OutputDevice.cpp:281
PollutantsInterface::computeDefault
static double computeDefault(const SUMOEmissionClass c, const EmissionType e, const double v, const double a, const double slope, const double tt, const EnergyParams *param)
Returns the amount of emitted pollutant given the vehicle type and default values for the state (in m...
Definition: PollutantsInterface.cpp:369
PollutantsInterface::computeAll
static Emissions computeAll(const SUMOEmissionClass c, const double v, const double a, const double slope, const EnergyParams *param)
Returns the amount of all emitted pollutants given the vehicle type and state (in mg/s or ml/s for fu...
Definition: PollutantsInterface.cpp:360
SUMOTrafficObject
Representation of a vehicle, person, or container.
Definition: SUMOTrafficObject.h:54
SUMOTrafficObject::isVehicle
virtual bool isVehicle() const
Whether it is a vehicle.
Definition: SUMOTrafficObject.h:67
SUMOTrafficObject::getAcceleration
virtual double getAcceleration() const =0
Returns the object's acceleration.
SUMOTrafficObject::getSlope
virtual double getSlope() const =0
Returns the slope of the road at object's position in degrees.
SUMOTrafficObject::getVehicleType
virtual const MSVehicleType & getVehicleType() const =0
Returns the object's "vehicle" type.
SUMOVehicle
Representation of a vehicle.
Definition: SUMOVehicle.h:62
SUMOVehicle::getEmissionParameters
virtual EnergyParams * getEmissionParameters() const =0
Returns the vehicle's emission model parameter.
PollutantsInterface::Emissions
Storage for collected values of all emission types.
Definition: PollutantsInterface.h:62
PollutantsInterface::Emissions::addScaled
void addScaled(const Emissions &a, const double scale=1.)
Add the values of the other struct to this one, scaling the values if needed.
Definition: PollutantsInterface.cpp:82