61 if (!needID || !
id.empty()) {
71 const bool hasXPH = hasVPH || hasPPH || hasCPH || hasPH;
86 if (hasXPH && !(hasVPH ^ hasPPH ^ hasCPH ^ hasPH)) {
92 "' has to be given in the definition of " +
toString(tag) +
" '" +
id +
"'.");
94 if (hasPeriod && hasXPH) {
97 "' and '" + attrs.
getName(PERHOUR) +
98 "' has to be given in the definition of "
101 if (hasPeriod && hasProb) {
105 "' has to be given in the definition of "
106 +
toString(tag) +
" '" +
id +
"'.");
108 if (hasProb && hasXPH) {
111 "' and '" + attrs.
getName(PERHOUR) +
112 "' has to be given in the definition of "
113 +
toString(tag) +
" '" +
id +
"'.");
115 if (hasPeriod || hasXPH || hasProb) {
116 if (hasEnd && hasNumber) {
127 +
toString(tag) +
" '" +
id +
"'.");
140 +
toString(tag) +
" '" +
id +
"'.");
146 flowParameter->
tag = tag;
148 flowParameter->
id = id;
167 bool poissonFlow =
false;
171 const std::string distName = description.substr(0, description.find(
'('));
172 if (distName ==
"exp") {
177 rate =
StringUtils::toDouble(description.substr(distName.size() + 1, description.size() - distName.size() - 2));
187 return handleVehicleError(hardFail, flowParameter,
"Invalid rate parameter for exponentially distributed period in the definition of " +
toString(tag) +
" '" +
id +
"'.");
203 const double vph = attrs.
get<
double>(PERHOUR,
id.c_str(), ok);
206 }
else if (vph <= 0) {
207 return handleVehicleError(hardFail, flowParameter,
"Invalid repetition rate in the definition of " +
toString(tag) +
" '" +
id +
"'.");
222 return handleVehicleError(hardFail, flowParameter,
"Invalid repetition probability in the definition of " +
toString(tag) +
" '" +
id +
"'.");
228 flowParameter->
depart = beginDefault;
238 std::string errorMsg;
244 if (flowParameter->
depart < 0) {
245 return handleVehicleError(hardFail, flowParameter,
"Negative begin time in the definition of " +
toString(tag) +
" '" +
id +
"'.");
263 return handleVehicleError(hardFail, flowParameter,
toString(tag) +
" '" +
id +
"' with triggered begin must define 'number'.");
267 }
else if ((endDefault ==
SUMOTime_MAX || endDefault < 0) && (!hasNumber || (!hasProb && !hasPeriod && !hasXPH))) {
268 WRITE_WARNING(
"Undefined end for " +
toString(tag) +
" '" +
id +
"', defaulting to 24hour duration.");
273 flow[0] = (char)::toupper((
char)flow[0]);
274 return handleVehicleError(hardFail, flowParameter, flow +
" '" +
id +
"' ends before its begin time.");
286 flow[0] = (char)::toupper((
char)flow[0]);
287 WRITE_WARNING(flow +
" '" +
id +
"' has no instances; will skip it.");
291 return handleVehicleError(hardFail, flowParameter,
"Negative repetition number in the definition of " +
toString(tag) +
" '" +
id +
"'.");
312 return handleVehicleError(hardFail, flowParameter,
"Invalid repetition rate in the definition of " +
toString(tag) +
" '" +
id +
"'.");
325 return flowParameter;
348 if (optionalID || !
id.empty()) {
351 vehicleParameter->
id = id;
371 const std::string helper = attrs.
get<std::string>(
SUMO_ATTR_DEPART, vehicleParameter->
id.c_str(), ok);
376 std::string departErrorMsg;
384 return vehicleParameter;
400 }
else if (
id.empty()) {
404 WRITE_ERROR(
"Invalid " +
toString(element) +
" id '" +
id +
"'. Contains invalid characters.");
416 const std::string element =
toString(tag);
646 }
else if (personNumber >= 0) {
659 }
else if (containerNumber >= 0) {
672 }
else if (speedFactor > 0) {
687 for (std::string check : checks) {
702 }
else if (calibratorSpeed >= 0 || calibratorSpeed == -1) {
739 }
else if (length <= 0) {
751 }
else if (minGap < 0) {
763 }
else if (maxSpeed <= 0) {
775 }
else if (desiredMaxSpeed <= 0) {
806 }
else if (speedDev < 0) {
816 return handleVehicleTypeError(hardFail, vType,
"Invalid speed distribution when parsing vType '" + vType->
id +
"' (" + error +
")");
845 }
else if (impatienceStr ==
"off") {
846 vType->
impatience = -std::numeric_limits<double>::max();
862 }
else if (width <= 0) {
865 vType->
width = width;
871 WRITE_WARNINGF(
TL(
"Pedestrian vType '%' width % is larger than pedestrian.striping.stripe-width and this may cause collisions with vehicles."),
id, vType->
width);
880 }
else if (height < 0) {
923 vType->
color = color;
931 const double defaultProbability = attrs.
get<
double>(
SUMO_ATTR_PROB, vType->
id.c_str(), ok);
934 }
else if (defaultProbability < 0) {
946 }
else if (lcmS ==
"JE2013") {
947 WRITE_WARNING(
TL(
"Lane change model 'JE2013' is deprecated. Using default model instead."));
954 return handleVehicleTypeError(hardFail, vType,
"Unknown lane change model '" + lcmS +
"' when parsing vType '" + vType->
id +
"'");
966 return handleVehicleTypeError(hardFail, vType,
"Unknown car following model '" + cfmValue +
"' when parsing vType '" + vType->
id +
"'");
974 }
else if (personCapacity < 0) {
986 }
else if (containerCapacity < 0) {
998 }
else if (boardingDuration < 0) {
1010 }
else if (loadingDuration < 0) {
1022 }
else if (scale < 0) {
1025 vType->
scale = scale;
1054 }
else if (maxSpeedLat <= 0) {
1066 }
else if (minGapLat < 0) {
1086 return handleVehicleTypeError(hardFail, vType,
"Unknown lateral alignment '" + alignS +
"' when parsing vType '" + vType->
id +
"';\n must be one of (\"right\", \"center\", \"arbitrary\", \"nice\", \"compact\", \"left\" or a float)");
1124 std::map<int, std::pair<SUMOTime, SUMOTime>> angleTimesMap;
1125 int tripletCount = 0;
1128 if (pos.
size() != 3) {
1129 WRITE_ERROR(
"maneuverAngleTimes format for vType '" + vtype->
id +
"' " + atm +
" contains an invalid triplet.");
1136 angleTimesMap[angle] = std::make_pair(t1, t2);
1138 WRITE_ERROR(
"Triplet '" + st.
get(tripletCount) +
"' for vType '" + vtype->
id +
"' maneuverAngleTimes cannot be parsed as 'int double double'");
1144 if (angleTimesMap.size() > 0) {
1146 for (
const auto& angleTime : angleTimesMap) {
1149 angleTimesMap.clear();
1160 CFAttrMap::const_iterator cf_it = allowedCFM.find(element);
1162 if (cf_it == allowedCFM.end()) {
1164 WRITE_ERROR(
"Unknown car following model " +
toString(element) +
" when parsing vType '" + into->
id +
"'");
1166 WRITE_ERROR(
"Unknown car following model when parsing vType '" + into->
id +
"'");
1176 for (
const auto& it : cf_it->second) {
1180 std::string parsedCFMAttribute = attrs.
get<std::string>(it, into->
id.c_str(), ok);
1187 WRITE_ERROR(
"Invalid train type '" + parsedCFMAttribute +
"' used in Car-Following-Attribute " +
toString(it));
1194 double CFMDoubleAttribute = -1;
1199 WRITE_ERROR(
"Invalid Car-Following-Model Attribute " +
toString(it) +
". Cannot be parsed to float");
1202 if (CFMDoubleAttribute <= 0) {
1203 WRITE_ERROR(
"Invalid Car-Following-Model Attribute " +
toString(it) +
". Must be greater than 0");
1210 double CFMDoubleAttribute = -1;
1215 WRITE_ERROR(
"Invalid Car-Following-Model Attribute " +
toString(it) +
". Cannot be parsed to float");
1225 if (CFMDoubleAttribute <= 0) {
1226 WRITE_ERROR(
"Invalid Car-Following-Model Attribute " +
toString(it) +
". Must be greater than 0");
1236 if ((CFMDoubleAttribute < 0) || (CFMDoubleAttribute > 1)) {
1237 WRITE_ERROR(
"Invalid Car-Following-Model Attribute " +
toString(it) +
". Only values between [0-1] are allowed");
1258 std::set<SumoXMLAttr> genericParams;
1267 std::set<SumoXMLAttr> kraussParams(genericParams);
1273 std::set<SumoXMLAttr> allParams(kraussParams);
1275 std::set<SumoXMLAttr> kraussXParams(kraussParams);
1282 allParams.insert(kraussXParams.begin(), kraussXParams.end());
1284 std::set<SumoXMLAttr> smartSKParams(genericParams);
1292 allParams.insert(smartSKParams.begin(), smartSKParams.end());
1294 std::set<SumoXMLAttr> daniel1Params(genericParams);
1302 allParams.insert(daniel1Params.begin(), daniel1Params.end());
1304 std::set<SumoXMLAttr> pwagParams(genericParams);
1309 allParams.insert(pwagParams.begin(), pwagParams.end());
1311 std::set<SumoXMLAttr> idmParams(genericParams);
1315 allParams.insert(idmParams.begin(), idmParams.end());
1317 std::set<SumoXMLAttr> eidmParams(genericParams);
1336 allParams.insert(eidmParams.begin(), eidmParams.end());
1338 std::set<SumoXMLAttr> idmmParams(genericParams);
1343 allParams.insert(idmmParams.begin(), idmmParams.end());
1345 std::set<SumoXMLAttr> bkernerParams(genericParams);
1349 allParams.insert(bkernerParams.begin(), bkernerParams.end());
1351 std::set<SumoXMLAttr> wiedemannParams(genericParams);
1355 allParams.insert(wiedemannParams.begin(), wiedemannParams.end());
1357 std::set<SumoXMLAttr> w99Params(genericParams);
1368 allParams.insert(w99Params.begin(), w99Params.end());
1370 std::set<SumoXMLAttr> railParams(genericParams);
1373 allParams.insert(railParams.begin(), railParams.end());
1375 std::set<SumoXMLAttr> ACCParams(genericParams);
1386 allParams.insert(ACCParams.begin(), ACCParams.end());
1388 std::set<SumoXMLAttr> CACCParams(genericParams);
1407 allParams.insert(CACCParams.begin(), CACCParams.end());
1409 std::set<SumoXMLAttr> ccParams(genericParams);
1429 allParams.insert(ccParams.begin(), ccParams.end());
1441 std::set<SumoXMLAttr> lc2013Params;
1463 std::set<SumoXMLAttr> sl2015Params = lc2013Params;
1474 std::set<SumoXMLAttr> noParams;
1482 for (
const auto& it : allowed) {
1486 std::string parsedLCMAttribute = attrs.
get<std::string>(it, into->
id.c_str(), ok);
1491 double LCMAttribute = -1;
1496 WRITE_ERROR(
"Invalid Lane-Change-Model Attribute " +
toString(it) +
". Cannot be parsed to float");
1512 if (LCMAttribute < 0) {
1513 WRITE_ERROR(
"Invalid Lane-Change-Model Attribute " +
toString(it) +
". Must be equal or greater than 0");
1523 if (LCMAttribute <= 0) {
1524 WRITE_ERROR(
"Invalid Lane-Change-Model Attribute " +
toString(it) +
". Must be greater than 0");
1534 if (LCMAttribute < -1 || LCMAttribute > 1) {
1535 WRITE_ERROR(
"Invalid Lane-Change-Model Attribute " +
toString(it) +
". Must be between -1 and 1");
1571 std::string parsedJMAttribute = attrs.
get<std::string>(it, into->
id.c_str(), ok);
1576 double JMAttribute = -1;
1581 WRITE_ERROR(
"Invalid Junction-Model Attribute " +
toString(it) +
". Cannot be parsed to float");
1585 if (JMAttribute != -1) {
1589 if ((JMAttribute < 0) || (JMAttribute > 1)) {
1590 WRITE_ERROR(
"Invalid Junction-Model Attribute " +
toString(it) +
". Only values between [0-1] are allowed");
1595 if (JMAttribute < 0) {
1596 WRITE_ERROR(
"Invalid Junction-Model Attribute " +
toString(it) +
". Must be equal or greater than 0");
1615 if (vclassS ==
"") {
1621 if (realName != vclassS) {
1622 WRITE_WARNING(
"The vehicle class '" + vclassS +
"' for " + attrs.
getObjectType() +
" '" +
id +
"' is deprecated, use '" + realName +
"' instead.");
1639 if (realName != vclassS) {
1640 WRITE_WARNING(
"The shape '" + vclassS +
"' for " + attrs.
getObjectType() +
" '" +
id +
"' is deprecated, use '" + realName +
"' instead.");
1662 result = maxPos / 2.;
1672 const std::string defaultError =
"The parameter action-step-length must be a non-negative multiple of the simulation step-length. ";
1679 }
else if (result %
DELTA_T != 0) {
1682 if (fabs(given * 1000. -
double(result)) > NUMERICAL_EPS) {
1692 if (vehicleParameter) {
1693 delete vehicleParameter;
1697 }
else if (message.size() > 0) {
1706 if (vehicleTypeParameter) {
1707 delete vehicleTypeParameter;
1711 }
else if (message.size() > 0) {
#define WRITE_WARNINGF(...)
#define WRITE_WARNING(msg)
SUMOTime string2time(const std::string &r)
convert string to SUMOTime
const long long int VTYPEPARS_TTT_SET
const long long int VTYPEPARS_SHAPE_SET
const long long int VTYPEPARS_LOADING_DURATION
const long long int VTYPEPARS_TTT_BIDI_SET
const long long int VTYPEPARS_SCALE_SET
const long long int VTYPEPARS_PERSON_CAPACITY
const long long int VTYPEPARS_CAR_FOLLOW_MODEL
const long long int VTYPEPARS_WIDTH_SET
const long long int VTYPEPARS_ACTIONSTEPLENGTH_SET
const long long int VTYPEPARS_MAXSPEED_LAT_SET
const long long int VTYPEPARS_MAXSPEED_SET
const long long int VTYPEPARS_EMISSIONCLASS_SET
const long long int VTYPEPARS_LATALIGNMENT_SET
const long long int VTYPEPARS_COLOR_SET
const long long int VTYPEPARS_LANE_CHANGE_MODEL_SET
const long long int VTYPEPARS_DESIRED_MAXSPEED_SET
const long long int VTYPEPARS_OSGFILE_SET
const long long int VTYPEPARS_MANEUVER_ANGLE_TIMES_SET
const long long int VTYPEPARS_SPEEDFACTOR_SET
const long long int VTYPEPARS_MINGAP_SET
const long long int VTYPEPARS_PROBABILITY_SET
const long long int VTYPEPARS_HEIGHT_SET
const long long int VTYPEPARS_BOARDING_DURATION
LatAlignmentDefinition
Possible ways to choose the lateral alignment, i.e., how vehicles align themselves within their lane.
const long long int VTYPEPARS_VEHICLECLASS_SET
const long long int VTYPEPARS_IMPATIENCE_SET
const long long int VTYPEPARS_LENGTH_SET
const long long int VTYPEPARS_IMGFILE_SET
const long long int VTYPEPARS_CONTAINER_CAPACITY
const long long int VTYPEPARS_MINGAP_LAT_SET
StringBijection< SUMOVehicleShape > SumoVehicleShapeStrings(sumoVehicleShapeStringInitializer, SUMOVehicleShape::UNKNOWN, false)
SUMOVehicleClass getVehicleClassID(const std::string &name)
Returns the class id of the abstract class given by its name.
StringBijection< SUMOVehicleClass > SumoVehicleClassStrings(sumoVehicleClassStringInitializer, SVC_CUSTOM2, false)
SUMOVehicleClass
Definition of vehicle classes to differ between different lane usage and authority types.
@ SVC_IGNORING
vehicles ignoring classes
@ SVC_PASSENGER
vehicle is a passenger car (a "normal" car)
@ SVC_BICYCLE
vehicle is a bicycle
@ SVC_PEDESTRIAN
pedestrian
const std::string DEFAULT_PEDTYPE_ID
SUMOVehicleShape
Definition of vehicle classes to differ between different appearances.
const std::string DEFAULT_CONTAINERTYPE_ID
const int VEHPARS_DEPARTEDGE_SET
const int VEHPARS_ARRIVALEDGE_SET
const int VEHPARS_PROB_SET
RouteIndexDefinition
Possible ways to choose the departure and arrival edge.
const int VEHPARS_VPH_SET
const int VEHPARS_END_SET
const int VEHPARS_ROUTE_SET
const int VEHPARS_COLOR_SET
DepartLaneDefinition
Possible ways to choose a lane on depart.
const int VEHPARS_TO_TAZ_SET
ArrivalSpeedDefinition
Possible ways to choose the arrival speed.
DepartPosLatDefinition
Possible ways to choose the lateral departure position.
DepartPosDefinition
Possible ways to choose the departure position.
const int VEHPARS_SPEEDFACTOR_SET
ArrivalLaneDefinition
Possible ways to choose the arrival lane.
const int VEHPARS_DEPARTPOS_SET
const int VEHPARS_CONTAINER_NUMBER_SET
const int VEHPARS_ARRIVALLANE_SET
DepartSpeedDefinition
Possible ways to choose the departure speed.
const int VEHPARS_DEPARTLANE_SET
const int VEHPARS_ARRIVALPOSLAT_SET
const int VEHPARS_FROM_TAZ_SET
const int VEHPARS_NUMBER_SET
const int VEHPARS_ARRIVALSPEED_SET
const int VEHPARS_CALIBRATORSPEED_SET
const int VEHPARS_FORCE_REROUTE
ArrivalPosDefinition
Possible ways to choose the arrival position.
@ RANDOM
The arrival position is chosen randomly.
@ MAX
The maximum arrival position is used.
@ DEFAULT
No information given; use default.
@ CENTER
Half the road length.
const int VEHPARS_LINE_SET
const int VEHPARS_PERSON_NUMBER_SET
const int VEHPARS_DEPARTSPEED_SET
const int VEHPARS_PERIOD_SET
ArrivalPosLatDefinition
Possible ways to choose the lateral arrival position.
const int VEHPARS_VTYPE_SET
const int VEHPARS_ARRIVALPOS_SET
@ TRIGGERED
The departure is person triggered.
const int VEHPARS_DEPARTPOSLAT_SET
SumoXMLTag
Numbers representing SUMO-XML - element names.
@ SUMO_TAG_VTYPE
description of a vehicle/person/container type
@ SUMO_TAG_NOTHING
invalid tag
@ SUMO_TAG_CF_KRAUSS_PLUS_SLOPE
@ SUMO_TAG_CF_PWAGNER2009
@ SUMO_TAG_CF_KRAUSS_ORIG1
@ SUMO_TAG_FLOW
a flow definitio nusing a from-to edges instead of a route (used by router)
SumoXMLAttr
Numbers representing SUMO-XML - attributes.
@ SUMO_ATTR_GCC_GAIN_GAP_DOT_CACC
@ SUMO_ATTR_CF_EIDM_T_ACC_MAX
@ SUMO_ATTR_STARTUP_DELAY
@ SUMO_ATTR_CF_EIDM_EPSILON_ACC
@ SUMO_ATTR_CF_CC_FLATBED_KP
@ SUMO_ATTR_GCC_GAIN_SPEED
@ SUMO_ATTR_EMISSIONCLASS
@ SUMO_ATTR_JM_IGNORE_FOE_SPEED
@ SUMO_ATTR_CF_CC_FLATBED_D
@ SUMO_ATTR_JM_IGNORE_KEEPCLEAR_TIME
@ SUMO_ATTR_LCA_COOPERATIVE_SPEED
@ SUMO_ATTR_CF_EIDM_T_LOOK_AHEAD
@ SUMO_ATTR_CF_CC_FLATBED_KA
@ SUMO_ATTR_CF_CC_PLOEG_KP
@ SUMO_ATTR_CF_WIEDEMANN_SECURITY
@ SUMO_ATTR_LCA_ASSERTIVE
@ SUMO_ATTR_LCA_LANE_DISCIPLINE
@ SUMO_ATTR_CF_EIDM_USEVEHDYNAMICS
@ SUMO_ATTR_CF_IDMM_ADAPT_TIME
@ SUMO_ATTR_LANE_CHANGE_MODEL
@ SUMO_ATTR_CF_KERNER_PHI
@ SUMO_ATTR_LCA_TURN_ALIGNMENT_DISTANCE
@ SUMO_ATTR_GC_GAIN_SPACE
@ SUMO_ATTR_JM_STOPLINE_GAP
@ SUMO_ATTR_DEPARTPOS_LAT
@ SUMO_ATTR_CF_EIDM_C_COOLNESS
@ SUMO_ATTR_CF_EIDM_SIG_ERROR
@ SUMO_ATTR_CA_GAIN_GAP_CACC
@ SUMO_ATTR_LCA_LOOKAHEADLEFT
@ SUMO_ATTR_APPARENTDECEL
@ SUMO_ATTR_GC_GAIN_GAP_DOT_CACC
@ SUMO_ATTR_LCA_SPEEDGAIN_PARAM
@ SUMO_ATTR_ACTIONSTEPLENGTH
@ SUMO_ATTR_CF_CC_PLOEG_H
@ SUMO_ATTR_LCA_MAXDISTLATSTANDING
@ SUMO_ATTR_LCA_IMPATIENCE
@ SUMO_ATTR_BEGIN
weights: time range begin
@ SUMO_ATTR_LCA_COOPERATIVE_ROUNDABOUT
@ SUMO_ATTR_CA_GAIN_GAP_DOT_CACC
@ SUMO_ATTR_JM_DRIVE_AFTER_RED_TIME
@ SUMO_ATTR_HEADWAY_TIME_CACC_TO_ACC
@ SUMO_ATTR_CONTAINER_NUMBER
@ SUMO_ATTR_CA_GAIN_SPACE
@ SUMO_ATTR_LOADING_DURATION
@ SUMO_ATTR_CF_EIDM_MAX_VEH_PREVIEW
@ SUMO_ATTR_LCA_SPEEDGAIN_LOOKAHEAD
@ SUMO_ATTR_LCA_MAXSPEEDLATFACTOR
@ SUMO_ATTR_MANEUVER_ANGLE_TIMES
Class specific timing values for vehicle manoeuvering through angle ranges.
@ SUMO_ATTR_CF_CC_CCACCEL
@ SUMO_ATTR_CONTAINERSPERHOUR
@ SUMO_ATTR_CF_EIDM_T_REACTION
@ SUMO_ATTR_CF_EIDM_T_PERSISTENCE_ESTIMATE
@ SUMO_ATTR_CF_PWAGNER2009_TAULAST
@ SUMO_ATTR_TIME_TO_TELEPORT_BIDI
@ SUMO_ATTR_CF_CC_PLOEG_KD
@ SUMO_ATTR_GC_GAIN_GAP_CACC
@ SUMO_ATTR_CF_EIDM_SIG_GAP
@ SUMO_ATTR_CAR_FOLLOW_MODEL
@ SUMO_ATTR_CF_EIDM_JERK_MAX
@ SUMO_ATTR_LCA_MAXSPEEDLATSTANDING
@ SUMO_ATTR_JM_DRIVE_AFTER_YELLOW_TIME
@ SUMO_ATTR_LCA_KEEPRIGHT_PARAM
@ SUMO_ATTR_DESIRED_MAXSPEED
@ SUMO_ATTR_JM_IGNORE_FOE_PROB
@ SUMO_ATTR_CONTAINER_CAPACITY
@ SUMO_ATTR_LCA_COOPERATIVE_PARAM
@ SUMO_ATTR_LCA_OPPOSITE_PARAM
@ SUMO_ATTR_CF_CC_CCDECEL
@ SUMO_ATTR_GCC_GAIN_SPACE
@ SUMO_ATTR_EMERGENCYDECEL
@ SUMO_ATTR_CF_CC_FLATBED_H
@ SUMO_ATTR_LCA_OVERTAKE_DELTASPEED_FACTOR
@ SUMO_ATTR_CF_CC_LANES_COUNT
@ SUMO_ATTR_END
weights: time range end
@ SUMO_ATTR_LCA_SUBLANE_PARAM
@ SUMO_ATTR_JM_CROSSING_GAP
@ SUMO_ATTR_CF_IDM_STEPPING
@ SUMO_ATTR_CF_IDMM_ADAPT_FACTOR
@ SUMO_ATTR_COLLISION_MINGAP_FACTOR
@ SUMO_ATTR_BOARDING_DURATION
@ SUMO_ATTR_CF_CC_CONSTSPACING
@ SUMO_ATTR_CF_EIDM_M_FLATNESS
@ SUMO_ATTR_JM_SIGMA_MINOR
@ SUMO_ATTR_CF_EIDM_M_BEGIN
@ SUMO_ATTR_CF_EIDM_T_PERSISTENCE_DRIVE
@ SUMO_ATTR_TIME_TO_TELEPORT
@ SUMO_ATTR_CA_GAIN_SPEED
@ SUMO_ATTR_CF_EIDM_SIG_LEADER
@ SUMO_ATTR_APPLYDRIVERSTATE
@ SUMO_ATTR_PERSON_NUMBER
@ SUMO_ATTR_COLOR
A color information.
@ SUMO_ATTR_CF_PWAGNER2009_APPROB
@ SUMO_ATTR_LCA_OVERTAKE_RIGHT
@ SUMO_ATTR_ARRIVALPOS_LAT
@ SUMO_ATTR_LCA_ACCEL_LAT
@ SUMO_ATTR_LCA_STRATEGIC_PARAM
@ SUMO_ATTR_INSERTIONCHECKS
@ SUMO_ATTR_JM_IGNORE_JUNCTION_FOE_PROB
@ SUMO_ATTR_PERSON_CAPACITY
@ SUMO_ATTR_GC_GAIN_SPEED
@ SUMO_ATTR_GCC_GAIN_GAP_CACC
@ SUMO_ATTR_LCA_KEEPRIGHT_ACCEPTANCE_TIME
@ SUMO_ATTR_LCA_EXPERIMENTAL1
@ SUMO_ATTR_JM_DRIVE_RED_SPEED
@ SUMO_ATTR_LCA_TIME_TO_IMPATIENCE
@ SUMO_ATTR_JM_TIMEGAP_MINOR
@ SUMO_ATTR_CF_CC_FLATBED_KV
@ SUMO_ATTR_CF_WIEDEMANN_ESTIMATION
@ SUMO_ATTR_PERSONSPERHOUR
@ SUMO_ATTR_LCA_SPEEDGAINRIGHT
std::string toString(const T &t, std::streamsize accuracy=gPrecision)
void parse(const std::string &description, const bool hardFail)
Overwrite by parsable distribution description.
std::vector< double > & getParameter()
Returns the parameters of this distribution.
bool isValid(std::string &error)
check whether the distribution is valid
static bool isAbsolute(const std::string &path)
Returns the information whether the given path is absolute.
static std::string getConfigurationRelative(const std::string &configPath, const std::string &path)
Returns the second path as a relative path to the first file.
static OptionsCont & getOptions()
Retrieves the options.
static SUMOEmissionClass getClassByName(const std::string &eClass, const SUMOVehicleClass vc=SVC_IGNORING)
Checks whether the string describes a known vehicle class.
static const RGBColor YELLOW
static const RGBColor DEFAULT_COLOR
The default color (for vehicle types and vehicles)
static double rand(SumoRNG *rng=nullptr)
Returns a random real number in [0, 1)
Encapsulated SAX-Attributes.
T getOpt(int attr, const char *objectid, bool &ok, T defaultValue=T(), bool report=true) const
Tries to read given attribute assuming it is an int.
virtual std::string getName(int attr) const =0
Converts the given attribute id into a man readable string.
T get(int attr, const char *objectid, bool &ok, bool report=true) const
Tries to read given attribute assuming it is an int.
const std::string & getObjectType() const
return the objecttype to which these attributes belong
virtual bool hasAttribute(int id) const =0
Returns the information whether the named (by its enum-value) attribute is within the current list.
SUMOTime getSUMOTimeReporting(int attr, const char *objectid, bool &ok, bool report=true) const
Tries to read given attribute assuming it is a SUMOTime.
Structure representing possible vehicle parameter.
double width
This class' width.
SubParams cfParameter
Car-following parameter.
double defaultProbability
The probability when being added to a distribution without an explicit probability.
SUMOTime actionStepLength
The vehicle type's default actionStepLength [ms], i.e. the interval between two control actions....
double height
This class' height.
double desiredMaxSpeed
The vehicle type's desired maximum speed [m/s].
SUMOEmissionClass emissionClass
The emission class of this vehicle.
double latAlignmentOffset
(optional) The vehicle's desired lateral alignment as offset in m from center line
double length
The physical vehicle length.
double maxSpeedLat
The vehicle type's maximum lateral speed [m/s].
long long int parametersSet
Information for the router which parameter were set.
double minGap
This class' free space in front of the vehicle itself.
std::string imgFile
Image file for this class.
SUMOVehicleShape shape
This class' shape.
int personCapacity
The person capacity of the vehicle.
Distribution_Parameterized speedFactor
The factor by which the maximum speed may deviate from the allowed max speed on the street.
double scale
individual scaling factor (-1 for undefined)
SUMOTime timeToTeleport
the custom time-to-teleport for this type
std::string osgFile
3D model file for this class
double maxSpeed
The vehicle type's (technical) maximum speed [m/s].
SUMOTime timeToTeleportBidi
the custom time-to-teleport.bidi for this type
int containerCapacity
The container capacity of the vehicle.
SUMOTime boardingDuration
The time a person needs to board the vehicle.
double minGapLat
The vehicle type's minimum lateral gap [m].
SUMOTime loadingDuration
The time a container needs to get loaded on the vehicle.
std::string id
The vehicle type's id.
SumoXMLTag cfModel
The enum-representation of the car-following model to use.
SubParams lcParameter
Lane-changing parameter.
LatAlignmentDefinition latAlignmentProcedure
Information on how the vehicle shall choose the lateral alignment.
SubParams jmParameter
Junction-model parameter.
double impatience
The vehicle's impatience (willingness to obstruct others)
std::map< int, std::pair< SUMOTime, SUMOTime > > myManoeuverAngleTimes
Map of manoeuver angles versus the times (entry, exit) to execute the manoeuver.
LaneChangeModel lcModel
The lane-change model to use.
static bool parseLatAlignment(const std::string &val, double &lao, LatAlignmentDefinition &lad)
Parses and validates a given latAlignment value.
Structure representing possible vehicle parameter.
double departPosLat
(optional) The lateral position the vehicle shall depart from
double arrivalPosLat
(optional) The lateral position the vehicle shall arrive on
double repetitionProbability
The probability for emitting a vehicle per second.
int parametersSet
Information for the router which parameter were set, TraCI may modify this (when changing color)
int departLane
(optional) The lane the vehicle shall depart from (index in edge)
ArrivalSpeedDefinition arrivalSpeedProcedure
Information how the vehicle's end speed shall be chosen.
double departSpeed
(optional) The initial speed of the vehicle
SumoXMLTag tag
The vehicle tag.
std::string vtypeid
The vehicle's type id.
SUMOTime repetitionOffset
The time offset between vehicle reinsertions.
double speedFactor
individual speedFactor (overriding distribution from vType)
static bool parseArrivalLane(const std::string &val, const std::string &element, const std::string &id, int &lane, ArrivalLaneDefinition &ald, std::string &error)
Validates a given arrivalLane value.
static bool parseArrivalPosLat(const std::string &val, const std::string &element, const std::string &id, double &pos, ArrivalPosLatDefinition &apd, std::string &error)
Validates a given arrivalPosLat value.
ArrivalLaneDefinition arrivalLaneProcedure
Information how the vehicle shall choose the lane to arrive on.
DepartLaneDefinition departLaneProcedure
Information how the vehicle shall choose the lane to depart from.
static bool parseDepartSpeed(const std::string &val, const std::string &element, const std::string &id, double &speed, DepartSpeedDefinition &dsd, std::string &error)
Validates a given departSpeed value.
static bool parseArrivalPos(const std::string &val, const std::string &element, const std::string &id, double &pos, ArrivalPosDefinition &apd, std::string &error)
Validates a given arrivalPos value.
int personNumber
The static number of persons in the vehicle when it departs (not including boarding persons)
static bool parseArrivalSpeed(const std::string &val, const std::string &element, const std::string &id, double &speed, ArrivalSpeedDefinition &asd, std::string &error)
Validates a given arrivalSpeed value.
RouteIndexDefinition arrivalEdgeProcedure
Information how the vehicle's final edge shall be chosen.
DepartPosLatDefinition departPosLatProcedure
Information how the vehicle shall choose the lateral departure position.
SUMOTime repetitionEnd
The time at which the flow ends (only needed when using repetitionProbability)
double departPos
(optional) The position the vehicle shall depart from
DepartSpeedDefinition departSpeedProcedure
Information how the vehicle's initial speed shall be chosen.
RGBColor color
The vehicle's color, TraCI may change this.
double arrivalPos
(optional) The position the vehicle shall arrive on
double calibratorSpeed
speed (used by calibrator flows
static bool parseDepartLane(const std::string &val, const std::string &element, const std::string &id, int &lane, DepartLaneDefinition &dld, std::string &error)
Validates a given departLane value.
std::string routeid
The vehicle's route id.
std::string id
The vehicle's id.
int departEdge
(optional) The initial edge within the route of the vehicle
static bool parseDepart(const std::string &val, const std::string &element, const std::string &id, SUMOTime &depart, DepartDefinition &dd, std::string &error, const std::string &attr="departure")
Validates a given depart value.
ArrivalPosDefinition arrivalPosProcedure
Information how the vehicle shall choose the arrival position.
static bool parseRouteIndex(const std::string &val, const std::string &element, const std::string &id, const SumoXMLAttr attr, int &edgeIndex, RouteIndexDefinition &rid, std::string &error)
Validates a given departEdge or arrivalEdge value.
static bool parseDepartPosLat(const std::string &val, const std::string &element, const std::string &id, double &pos, DepartPosLatDefinition &dpd, std::string &error)
Validates a given departPosLat value.
std::string toTaz
The vehicle's destination zone (district)
double arrivalSpeed
(optional) The final speed of the vehicle (not used yet)
static double interpretEdgePos(double pos, double maximumValue, SumoXMLAttr attr, const std::string &id, bool silent=false)
Interprets negative edge positions and fits them onto a given edge.
DepartDefinition departProcedure
Information how the vehicle shall choose the depart time.
static bool parseDepartPos(const std::string &val, const std::string &element, const std::string &id, double &pos, DepartPosDefinition &dpd, std::string &error)
Validates a given departPos value.
int insertionChecks
bitset of InsertionCheck
int arrivalEdge
(optional) The final edge within the route of the vehicle
std::string fromTaz
The vehicle's origin zone (district)
DepartPosDefinition departPosProcedure
Information how the vehicle shall choose the departure position.
std::string line
The vehicle's line (mainly for public transport)
int containerNumber
The static number of containers in the vehicle when it departs.
RouteIndexDefinition departEdgeProcedure
Information how the vehicle's initial edge shall be chosen.
ArrivalPosLatDefinition arrivalPosLatProcedure
Information how the vehicle shall choose the lateral arrival position.
static const CFAttrMap & getAllowedCFModelAttrs()
returns allowed attrs for each known CF-model (init on first use)
static SUMOVTypeParameter * beginVTypeParsing(const SUMOSAXAttributes &attrs, const bool hardFail, const std::string &file)
Starts to parse a vehicle type.
static bool parseLCParams(SUMOVTypeParameter *into, LaneChangeModel model, const SUMOSAXAttributes &attrs)
Parses lane change model attributes.
std::map< SumoXMLTag, std::set< SumoXMLAttr > > CFAttrMap
Car-Following attributes map.
static std::string parseID(const SUMOSAXAttributes &attrs, const SumoXMLTag element)
parse ID
static bool parseCFMParams(SUMOVTypeParameter *into, const SumoXMLTag element, const SUMOSAXAttributes &attrs, const bool nestedCFM)
Parses Car Following Mode params.
static SUMOTime processActionStepLength(double given)
Checks and converts given value for the action step length from seconds to miliseconds assuring it be...
std::map< LaneChangeModel, std::set< SumoXMLAttr > > LCAttrMap
Lane-Change-Model attributes map.
static void parseCommonAttributes(const SUMOSAXAttributes &attrs, SUMOVehicleParameter *ret, SumoXMLTag tag)
Parses attributes common to vehicles and flows.
static SUMOVTypeParameter * handleVehicleTypeError(const bool hardFail, SUMOVTypeParameter *vehicleTypeParameter, const std::string message="")
handle error loading SUMOVTypeParameter
static SUMOVehicleParameter * parseFlowAttributes(SumoXMLTag tag, const SUMOSAXAttributes &attrs, const bool hardFail, const bool needID, const SUMOTime beginDefault, const SUMOTime endDefault)
Parses a flow's attributes.
static bool parseAngleTimesMap(SUMOVTypeParameter *vtype, const std::string)
Parse string containing AngleTimes triplets (angle, entry time, exit time)
static SUMOVehicleShape parseGuiShape(const SUMOSAXAttributes &attrs, const std::string &id)
Parses the vehicle class.
static std::set< SumoXMLAttr > allowedJMAttrs
allowed attrs for the junction model
static SUMOVehicleClass parseVehicleClass(const SUMOSAXAttributes &attrs, const std::string &id)
Parses the vehicle class.
static double parseWalkPos(SumoXMLAttr attr, const bool hardFail, const std::string &id, double maxPos, const std::string &val, SumoRNG *rng=0)
parse departPos or arrivalPos for a walk
static LCAttrMap allowedLCModelAttrs
allowed attrs for each known LC-model
static SUMOVehicleParameter * handleVehicleError(const bool hardFail, SUMOVehicleParameter *vehicleParameter, const std::string message="")
handle error loading SUMOVehicleParameter
static SUMOVehicleParameter * parseVehicleAttributes(int element, const SUMOSAXAttributes &attrs, const bool hardFail, const bool optionalID=false, const bool skipDepart=false)
Parses a vehicle's attributes.
static CFAttrMap allowedCFModelAttrs
allowed attrs for each known CF-model
static bool parseJMParams(SUMOVTypeParameter *into, const SUMOSAXAttributes &attrs)
Parses junction model attributes.
static StringBijection< SumoXMLTag > CarFollowModels
car following models
static StringBijection< InsertionCheck > InsertionChecks
traffic light layouts
static bool isValidVehicleID(const std::string &value)
whether the given string is a valid id for a vehicle or flow
static StringBijection< TrainType > TrainTypes
train types
static StringBijection< int > Tags
The names of SUMO-XML elements for use in netbuild.
static StringBijection< LaneChangeModel > LaneChangeModels
lane change models
T get(const std::string &str) const
int size() const
returns the number of existing substrings
std::string get(int pos) const
returns the item at the given position
bool hasNext()
returns the information whether further substrings exist
std::string next()
returns the next substring when it exists. Otherwise the behaviour is undefined
static double toDouble(const std::string &sData)
converts a string into the double value described by it by calling the char-type converter
static int toInt(const std::string &sData)
converts a string into the integer value described by it by calling the char-type converter,...
auto get(const nlohmann::detail::iteration_proxy_value< IteratorType > &i) -> decltype(i.key())
struct for default values that depend of VClass
double maxSpeed
The vehicle type's maximum speed [m/s] (technical limit, not subject to speed deviation)