コード例 #1
0
void
MSNet::writeOutput() {
    // update detector values
    myDetectorControl->updateDetectors(myStep);
    // check state dumps
    if (OptionsCont::getOptions().isSet("netstate-dump")) {
        MSXMLRawOut::write(OutputDevice::getDeviceByOption("netstate-dump"), *myEdges, myStep);
    }
    // emission output
    if (OptionsCont::getOptions().isSet("emissions-output")) {
        std::string wt = myVehicleControl->getMeanWaitingTime() ? "-1.00" : time2string((SUMOTime) myVehicleControl->getMeanWaitingTime());
        std::string tt = myVehicleControl->getMeanTravelTime()<0 ? "-1.00" : time2string((SUMOTime) myVehicleControl->getMeanTravelTime());
        OutputDevice::getDeviceByOption("emissions-output")
        << "    <emission-state time=\"" << time2string(myStep) << "\" "
        << "loaded=\"" << myVehicleControl->getLoadedVehicleNo() << "\" "
        << "emitted=\"" << myVehicleControl->getEmittedVehicleNo() << "\" "
        << "running=\"" << myVehicleControl->getRunningVehicleNo() << "\" "
        << "waiting=\"" << myEmitter->getWaitingVehicleNo() << "\" "
        << "ended=\"" << myVehicleControl->getEndedVehicleNo() << "\" "
        << "meanWaitingTime=\"" << wt << "\" "
        << "meanTravelTime=\"" << tt << "\" ";
        if (myLogExecutionTime) {
            OutputDevice::getDeviceByOption("emissions-output")
            << "duration=\"" << mySimStepDuration << "\" ";
        }
        OutputDevice::getDeviceByOption("emissions-output") << "/>\n";
    }
    // write detector values
    myDetectorControl->writeOutput(myStep + DELTA_T, false);
}
コード例 #2
0
bool MSCalibrator::VehicleRemover::notifyEnter(SUMOTrafficObject& veh, Notification /* reason */, const MSLane* /* enteredLane */) {
    if (myParent == nullptr) {
        return false;
    }
    if (myParent->isActive()) {
        myParent->updateMeanData();
        const bool calibrateFlow = myParent->myCurrentStateInterval->q >= 0;
        const int totalWishedNum = myParent->totalWished();
        int adaptedNum = myParent->passed() + myParent->myClearedInJam;
        MSVehicle* vehicle = dynamic_cast<MSVehicle*>(&veh);
        if (calibrateFlow && adaptedNum > totalWishedNum) {
#ifdef MSCalibrator_DEBUG
            std::cout << time2string(MSNet::getInstance()->getCurrentTimeStep()) << " " << myParent->getID()
                      << " vaporizing " << vehicle->getID() << " to reduce flow\n";
#endif
            if (myParent->scheduleRemoval(vehicle)) {
                myParent->myRemoved++;
            }
        } else if (myParent->invalidJam(myLaneIndex)) {
#ifdef MSCalibrator_DEBUG
            std::cout << time2string(MSNet::getInstance()->getCurrentTimeStep()) << " " << myParent->getID()
                      << " vaporizing " << vehicle->getID() << " to clear jam\n";
#endif
            if (!myParent->myHaveWarnedAboutClearingJam) {
                WRITE_WARNING("Clearing jam at calibrator '" + myParent->myID + "' at time "
                              + time2string(MSNet::getInstance()->getCurrentTimeStep()));
                myParent->myHaveWarnedAboutClearingJam = true;
            }
            if (myParent->scheduleRemoval(vehicle)) {
                myParent->myClearedInJam++;
            }
        }
    }
    return true;
}
コード例 #3
0
void
MSRouteProbe::writeXMLOutput(OutputDevice& dev,
                             SUMOTime startTime, SUMOTime stopTime) {
    if (myCurrentRouteDistribution.second->getOverallProb() > 0) {
        dev.openTag("routeDistribution") << " id=\"" << getID() + "_" + time2string(startTime) << "\"";
        const std::vector<const MSRoute*>& routes = myCurrentRouteDistribution.second->getVals();
        const std::vector<SUMOReal>& probs = myCurrentRouteDistribution.second->getProbs();
        for (unsigned int j = 0; j < routes.size(); ++j) {
            const MSRoute* r = routes[j];
            dev.openTag("route") << " id=\"" << r->getID() + "_" + time2string(startTime) << "\" edges=\"";
            for (MSRouteIterator i = r->begin(); i != r->end(); ++i) {
                if (i != r->begin()) {
                    dev << " ";
                }
                dev << (*i)->getID();
            }
            dev << "\" probability=\"" << probs[j] << "\"";
            dev.closeTag();
        }
        dev.closeTag();
        if (myLastRouteDistribution.second != 0) {
            MSRoute::checkDist(myLastRouteDistribution.first);
        }
        myLastRouteDistribution = myCurrentRouteDistribution;
        myCurrentRouteDistribution.first = getID() + "_" + toString(stopTime);
        myCurrentRouteDistribution.second = new RandomDistributor<const MSRoute*>();
        MSRoute::dictionary(myCurrentRouteDistribution.first, myCurrentRouteDistribution.second, false);
    }
}
コード例 #4
0
ファイル: ODMatrix.cpp プロジェクト: fieryzig/sumo
void
ODMatrix::writeFlows(const SUMOTime begin, const SUMOTime end,
                     OutputDevice& dev, bool noVtype,
                     const std::string& prefix,
                     bool asProbability) {
    if (myContainer.size() == 0) {
        return;
    }
    int flowName = 0;
    sortByBeginTime();
    // recheck begin time
    for (std::vector<ODCell*>::const_iterator i = myContainer.begin(); i != myContainer.end(); ++i) {
        const ODCell* const c = *i;
        if (c->end > begin && c->begin < end) {
            dev.openTag(SUMO_TAG_FLOW).writeAttr(SUMO_ATTR_ID, prefix + toString(flowName++));
            dev.writeAttr(SUMO_ATTR_BEGIN, time2string(c->begin));
            dev.writeAttr(SUMO_ATTR_END, time2string(c->end));
            if (!asProbability) {
                dev.writeAttr(SUMO_ATTR_NUMBER, int(c->vehicleNumber));
            } else {
                const double probability = float(c->vehicleNumber) / STEPS2TIME(c->end - c->begin);
                if (probability > 1) {
                    WRITE_WARNING("Flow density of " + toString(probability) + " vehicles per second, cannot be represented with a simple probability. Falling back to even spacing.");
                    dev.writeAttr(SUMO_ATTR_NUMBER, int(c->vehicleNumber));
                } else {
                    dev.setPrecision(6);
                    dev.writeAttr(SUMO_ATTR_PROB, probability);
                    dev.setPrecision();
                }
            }
            writeDefaultAttrs(dev, noVtype, *i);
            dev.closeTag();
        }
    }
}
コード例 #5
0
ファイル: MSPerson.cpp プロジェクト: rudhir-upretee/SUMO_Src
void
MSPerson::MSPersonStage_Driving::tripInfoOutput(OutputDevice& os) const {
    (os.openTag("ride") <<
     " depart=\"" << time2string(myDeparted) <<
     "\" arrival=\"" << time2string(myArrived) <<
     "\"").closeTag(true);
}
コード例 #6
0
ファイル: GUIVehicle.cpp プロジェクト: behrisch/sumo
std::string
GUIVehicle::getStopInfo() const {
    std::string result = "";
    if (isParking()) {
        result += "parking";
    } else if (isStopped()) {
        result += "stopped";
    } else if (hasStops()) {
        return "next: " + myStops.front().getDescription();
    } else {
        return "";
    }
    if (myStops.front().pars.triggered) {
        result += ", triggered";
    } else if (myStops.front().pars.containerTriggered) {
        result += ", containerTriggered";
    } else if (myStops.front().collision) {
        result += ", collision";
    } else if (myStops.front().pars.until != -1) {
        result += ", until=" + time2string(myStops.front().pars.until);
    } else {
        result += ", duration=" + time2string(myStops.front().duration);
    }
    return result;
}
コード例 #7
0
void
ROLoader::writeStats(SUMOTime time, SUMOTime start, int absNo) {
    if (myLogSteps) {
        const SUMOReal perc = (SUMOReal)(time - start) / (SUMOReal) absNo;
        std::cout << "Reading time step: " + time2string(time) + "  (" + time2string(time - start) + "/" + time2string(absNo) + " = " + toString(perc * 100) + "% done)       \r";
    }
}
コード例 #8
0
void
MSCalibrator::writeXMLOutput() {
    if (myOutput != nullptr) {
        updateMeanData();
        const int p = passed();
        // meandata will be off if vehicles are removed on the next edge instead of this one
        const int discrepancy = myEdgeMeanData.nVehEntered + myEdgeMeanData.nVehDeparted - myEdgeMeanData.nVehVaporized - passed();
        assert(discrepancy >= 0);
        const std::string ds = (discrepancy > 0 ? "\" vaporizedOnNextEdge=\"" + toString(discrepancy) : "");
        const double durationSeconds = STEPS2TIME(myCurrentStateInterval->end - myCurrentStateInterval->begin);
        (*myOutput) << "    <interval begin=\"" << time2string(myCurrentStateInterval->begin) <<
                    "\" end=\"" << time2string(myCurrentStateInterval->end) <<
                    "\" id=\"" << myID <<
                    "\" nVehContrib=\"" << p <<
                    "\" removed=\"" << myRemoved <<
                    "\" inserted=\"" << myInserted <<
                    "\" cleared=\"" << myClearedInJam <<
                    "\" flow=\"" << p * 3600.0 / durationSeconds <<
                    "\" aspiredFlow=\"" << myCurrentStateInterval->q <<
                    "\" speed=\"" << myEdgeMeanData.getTravelledDistance() / myEdgeMeanData.getSamples() <<
                    "\" aspiredSpeed=\"" << myCurrentStateInterval->v <<
                    ds << //optional
                    "\"/>\n";
    }
    myDidSpeedAdaption = false;
    myInserted = 0;
    myRemoved = 0;
    myClearedInJam = 0;
    myHaveWarnedAboutClearingJam = false;
    reset();
}
コード例 #9
0
void MSInductLoop::writeXMLOutput(OutputDevice &dev,
                             SUMOTime startTime, SUMOTime stopTime) throw(IOError) {
    SUMOReal t(STEPS2TIME(stopTime-startTime));
	unsigned nVehCrossed ;
	SUMOReal flow  ;
	SUMOReal occupancy = 0;
	SUMOReal meanLength, meanSpeed;
	dev.openTag("interval");
    dev <<" begin=\""<<time2string(startTime)<<"\" end=\""<<
        		time2string(stopTime)<<"\" \n";

    unsigned totVeh = 0;
    for(unsigned stripIndex=0;stripIndex<myStripCount;stripIndex++){
    	 int no_vehicles = myVehicleDataCont[stripIndex].size();
    	 nVehCrossed  = (unsigned) no_vehicles;
    	 flow = ((SUMOReal) no_vehicles / (SUMOReal) t) * (SUMOReal) 3600.0;

    	for (std::deque< VehicleData >::const_iterator i=myVehicleDataCont[stripIndex].begin(); i!=myVehicleDataCont[stripIndex].end(); ++i) {
			SUMOReal timeOnDetDuringInterval = (*i).leaveTimeM - MAX2(STEPS2TIME(startTime), (*i).entryTimeM);
			timeOnDetDuringInterval = MIN2(timeOnDetDuringInterval, t);
			occupancy += timeOnDetDuringInterval;
		}
		for (std::map< MSVehicle*, SUMOReal >::const_iterator i=myVehiclesOnDet[stripIndex].begin(); i!=myVehiclesOnDet[stripIndex].end(); ++i) {
			SUMOReal timeOnDetDuringInterval = STEPS2TIME(stopTime) - MAX2(STEPS2TIME(startTime), (*i).second);
			occupancy += timeOnDetDuringInterval;
		}
		occupancy = no_vehicles!=0 ? occupancy / t * (SUMOReal) 100.0 : 0;

		meanSpeed = no_vehicles!=0
							 ? accumulate(myVehicleDataCont[stripIndex].begin(), myVehicleDataCont[stripIndex].end(), (SUMOReal) 0.0, speedSum) / (SUMOReal) myVehicleDataCont[stripIndex].size()
							 : -1;

		meanLength = no_vehicles!=0
							  ? accumulate(myVehicleDataCont[stripIndex].begin(), myVehicleDataCont[stripIndex].end(), (SUMOReal) 0.0, lengthSum) / (SUMOReal) myVehicleDataCont[stripIndex].size()
							  : -1;
		if(no_vehicles >= 1){
			dev <<"\tstripNum=\""<<stripIndex<<" \"vehicle_id=\""<< (myVehicleDataCont[stripIndex].begin())->idM
			<<"\" flow=\""<<flow<<
			"\" occupancy=\""<<occupancy<<"\" speed=\""<<meanSpeed<<
			"\" length=\""<<meanLength<<
			"\" nVehEntered=\""<<no_vehicles<<"\" \n";
			totVeh += no_vehicles;
		}
		else {
			dev << "\tstripNum=\""<<stripIndex
				<<"\" flow=\""<<flow<<
				"\" occupancy=\""<<occupancy<<"\" speed=\""<<meanSpeed<<
				"\" length=\""<<meanLength<<
				"\" nVehEntered=\""<<no_vehicles<<"\" \n";
				totVeh += no_vehicles;
		}
    }
    dev << "total_Vehicles=\" "<<totVeh + myDismissedVehicleNumber <<"\"";
    dev.closeTag(true);
    reset();
}
コード例 #10
0
ファイル: MSPerson.cpp プロジェクト: harora/ITS
void
MSPerson::MSPersonStage_Waiting::routeOutput(OutputDevice& os) const {
    os.openTag("stop").writeAttr(SUMO_ATTR_LANE, getDestination().getID());
    if (myWaitingDuration >= 0) {
        os.writeAttr(SUMO_ATTR_DURATION, time2string(myWaitingDuration));
    }
    if (myWaitingUntil >= 0) {
        os.writeAttr(SUMO_ATTR_UNTIL, time2string(myWaitingUntil));
    }
    os.closeTag();
}
コード例 #11
0
ファイル: MSContainer.cpp プロジェクト: fieryzig/sumo
void
MSContainer::MSContainerStage_Driving::tripInfoOutput(OutputDevice& os, MSTransportable*) const {
    os.openTag("transport");
    os.writeAttr("waitingTime", time2string(myDeparted - myWaitingSince));
    os.writeAttr("vehicle", myVehicleID);
    os.writeAttr("depart", time2string(myDeparted));
    os.writeAttr("arrival", time2string(myArrived));
    os.writeAttr("arrivalPos", toString(myArrivalPos));
    os.writeAttr("duration", myArrived > 0 ? time2string(myArrived - myDeparted) : "-1");
    os.writeAttr("routeLength", myVehicleDistance);
    os.closeTag();
}
コード例 #12
0
ファイル: MELoop.cpp プロジェクト: cbrafter/sumo
void
MELoop::teleportVehicle(MEVehicle* veh, MESegment* const toSegment) {
    const SUMOTime leaveTime = veh->getEventTime();
    MESegment* const onSegment = veh->getSegment();
    const bool teleporting = (onSegment == 0); // is the vehicle already teleporting?
    // try to find a place on the current edge
    MESegment* teleSegment = toSegment->getNextSegment();
    while (teleSegment != 0 && !teleSegment->hasSpaceFor(veh, leaveTime)) {
        // @caution the time to get to the next segment here is ignored XXX
        teleSegment = teleSegment->getNextSegment();
    }
    if (teleSegment != 0) {
        if (!teleporting) {
            // we managed to teleport in a single jump
            WRITE_WARNING("Teleporting vehicle '" + veh->getID() + "'; waited too long, from edge '" + onSegment->getEdge().getID()
                          + "':" + toString(onSegment->getIndex())
                          + " to edge '" + teleSegment->getEdge().getID()
                          + "':" + toString(teleSegment->getIndex())
                          + ", time " + time2string(leaveTime) + ".");
            MSNet::getInstance()->getVehicleControl().registerTeleportJam();
        }
        changeSegment(veh, leaveTime, teleSegment, true);
        teleSegment->setEntryBlockTime(leaveTime); // teleports should not block normal flow
    } else {
        // teleport across the current edge and try insertion later
        if (!teleporting) {
            // announce start of multi-step teleport, arrival will be announced in changeSegment()
            WRITE_WARNING("Teleporting vehicle '" + veh->getID() + "'; waited too long, from edge '" + onSegment->getEdge().getID()
                          + "':" + toString(onSegment->getIndex()) + ", time " + time2string(leaveTime) + ".");
            MSNet::getInstance()->getVehicleControl().registerTeleportJam();
            // remove from current segment
            onSegment->send(veh, 0, leaveTime);
            // mark veh as teleporting
            veh->setSegment(0, 0);
        }
        // @caution microsim uses current travel time teleport duration
        const SUMOTime teleArrival = leaveTime + TIME2STEPS(veh->getEdge()->getLength() / veh->getEdge()->getSpeedLimit());
        const bool atDest = veh->moveRoutePointer();
        if (atDest) {
            // teleporting to end of route
            changeSegment(veh, teleArrival, 0, true);
        } else {
            veh->setEventTime(teleArrival);
            addLeaderCar(veh, 0);
            // teleporting vehicles must react to rerouters
            getSegmentForEdge(*veh->getEdge())->addReminders(veh);
            veh->activateReminders(MSMoveReminder::NOTIFICATION_JUNCTION);
        }
    }
}
コード例 #13
0
ファイル: GUIVehicle.cpp プロジェクト: behrisch/sumo
void
GUIVehicle::drawRouteHelper(const GUIVisualizationSettings& s, const MSRoute& r, bool future) const {
    const double exaggeration = s.vehicleSize.getExaggeration(s, this);
    MSRouteIterator i = future ? myCurrEdge : r.begin();
    const std::vector<MSLane*>& bestLaneConts = getBestLanesContinuation();
    // draw continuation lanes when drawing the current route where available
    int bestLaneIndex = (&r == myRoute ? 0 : (int)bestLaneConts.size());
    for (; i != r.end(); ++i) {
        const GUILane* lane;
        if (bestLaneIndex < (int)bestLaneConts.size() && bestLaneConts[bestLaneIndex] != 0 && (*i) == &(bestLaneConts[bestLaneIndex]->getEdge())) {
            lane = static_cast<GUILane*>(bestLaneConts[bestLaneIndex]);
            ++bestLaneIndex;
        } else {
            const std::vector<MSLane*>* allowed = (*i)->allowedLanes(getVClass());
            if (allowed != nullptr && allowed->size() != 0) {
                lane = static_cast<GUILane*>((*allowed)[0]);
            } else {
                lane = static_cast<GUILane*>((*i)->getLanes()[0]);
            }
        }
        GLHelper::drawBoxLines(lane->getShape(), lane->getShapeRotations(), lane->getShapeLengths(), exaggeration);
    }
    // draw stop labels
    // (vertical shift for repeated stops at the same position
    std::map<std::pair<const MSLane*, double>, int> repeat; // count repeated occurrences of the same position
    int stopIndex = 0;
    for (const Stop& stop : myStops) {
        Position pos = stop.lane->geometryPositionAtOffset(stop.reached ? getPositionOnLane() : stop.getEndPos(*this));
        GLHelper::drawBoxLines(stop.lane->getShape().getOrthogonal(pos, 10, true, stop.lane->getWidth()), 0.1);
        std::string label = stop.reached ? "stopped" : "stop " + toString(stopIndex);
#ifdef _DEBUG
        label += " (" + toString(stop.edge - myCurrEdge) + "e)";
#endif
        if (stop.pars.until >= 0) {
            label += " until:" + time2string(stop.pars.until);
        }
        if (stop.duration >= 0) {
            if (STEPS2TIME(stop.duration) > 3600 * 24) {
                label += " duration:1day+";
            } else {
                label += " duration:" + time2string(stop.duration);
            }
        }
        std::pair<const MSLane*, double> stopPos = std::make_pair(stop.lane, stop.getEndPos(*this));
        const double textSize = s.vehicleName.size / s.scale;
        GLHelper::drawText(label, pos - Position(0, textSize * repeat[stopPos]), 1.0, textSize, s.vehicleName.color);
        repeat[stopPos]++;
        stopIndex++;
    }
}
コード例 #14
0
ファイル: MSContainer.cpp プロジェクト: fieryzig/sumo
void
MSContainer::MSContainerStage_Tranship::tripInfoOutput(OutputDevice& os, MSTransportable*) const {
    const SUMOTime duration = myArrived - myDeparted;
    // no timeloss is possible
    const double distance = mySpeed * STEPS2TIME(duration);
    os.openTag("tranship");
    os.writeAttr("depart", time2string(myDeparted));
    os.writeAttr("departPos", myDepartPos);
    os.writeAttr("arrival", time2string(myArrived));
    os.writeAttr("arrivalPos", myArrivalPos);
    os.writeAttr("duration", time2string(duration));
    os.writeAttr("routeLength", distance);
    os.writeAttr("maxSpeed", mySpeed);
    os.closeTag();
}
コード例 #15
0
void
MSAbstractLaneChangeModel::continueLaneChangeManeuver(bool moved) {
    if (moved && myHaveShadow) {
        // move shadow to next lane
        removeLaneChangeShadow();
        const int shadowDirection = myLaneChangeMidpointPassed ? -myLaneChangeDirection : myLaneChangeDirection;
        myShadowLane = myVehicle.getLane()->getParallelLane(shadowDirection);
        if (myShadowLane == 0) {
            // abort lane change
            WRITE_WARNING("Vehicle '" + myVehicle.getID() + "' could not finish continuous lane change (lane disappeared) time=" +
                          time2string(MSNet::getInstance()->getCurrentTimeStep()) + ".");
            endLaneChangeManeuver();
            return;
        }
        myHaveShadow = true;
    }
    myLaneChangeCompletion += (SUMOReal)DELTA_T / (SUMOReal)MSGlobals::gLaneChangeDuration;
    if (!myLaneChangeMidpointPassed && myLaneChangeCompletion >=
            myVehicle.getLane()->getWidth() / (myVehicle.getLane()->getWidth() + myShadowLane->getWidth())) {
        // maneuver midpoint reached, swap myLane and myShadowLane
        myLaneChangeMidpointPassed = true;
        MSLane* tmp = myVehicle.getLane();
        myVehicle.leaveLane(MSMoveReminder::NOTIFICATION_LANE_CHANGE);
        myVehicle.enterLaneAtLaneChange(myShadowLane);
        myShadowLane = tmp;
        if (myVehicle.fixPosition()) {
            WRITE_WARNING("vehicle '" + myVehicle.getID() + "' set back by " + toString(myVehicle.getPositionOnLane() - myVehicle.getLane()->getLength()) +
                          "m when changing lanes on lane '" + myVehicle.getLane()->getID() + " time=" +
                          time2string(MSNet::getInstance()->getCurrentTimeStep()) + ".");
        }
        myLastLaneChangeOffset = 0;
        changed();
        myAlreadyMoved = true;
    }
    // remove shadow as soon as the vehicle leaves the original lane geometrically
    if (myLaneChangeMidpointPassed && myHaveShadow) {
        const SUMOReal sourceHalfWidth = myShadowLane->getWidth() / 2.0;
        const SUMOReal targetHalfWidth = myVehicle.getLane()->getWidth() / 2.0;
        if (myLaneChangeCompletion * (sourceHalfWidth + targetHalfWidth) - myVehicle.getVehicleType().getWidth() / 2.0 > sourceHalfWidth) {
            removeLaneChangeShadow();
        }
    }
    // finish maneuver
    if (!isChangingLanes()) {
        assert(myLaneChangeMidpointPassed);
        endLaneChangeManeuver();
    }
}
コード例 #16
0
void
MSLaneSpeedTrigger::myStartElement(int element,
                                   const SUMOSAXAttributes& attrs) {
    // check whether the correct tag is read
    if (element != SUMO_TAG_STEP) {
        return;
    }
    // extract the values
    bool ok = true;
    SUMOTime next = attrs.getSUMOTimeReporting(SUMO_ATTR_TIME, getID().c_str(), ok);
    SUMOReal speed = attrs.getOpt<SUMOReal>(SUMO_ATTR_SPEED, getID().c_str(), ok, -1);
    // check the values
    if (next < 0) {
        WRITE_ERROR("Wrong time in vss '" + getID() + "'.");
        return;
    }
    if (speed < 0) {
        speed = myDefaultSpeed;
    }
    // set the values for the next step if they are valid
    if (myLoadedSpeeds.size() != 0 && myLoadedSpeeds.back().first == next) {
        WRITE_WARNING("Time " + time2string(next) + " was set twice for vss '" + getID() + "'; replacing first entry.");
        myLoadedSpeeds.back().second = speed;
    } else {
        myLoadedSpeeds.push_back(std::make_pair(next, speed));
    }
}
コード例 #17
0
SUMOTime
MSVTypeProbe::execute(SUMOTime currentTime) {
    myOutputDevice.openTag("timestep") << " time=\"" << time2string(currentTime) << "\" id=\"" << getID() << "\" vType=\"" << myVType << "\"";
    MSVehicleControl& vc = MSNet::getInstance()->getVehicleControl();
    MSVehicleControl::constVehIt it = vc.loadedVehBegin();
    MSVehicleControl::constVehIt end = vc.loadedVehEnd();
    for (; it != end; ++it) {
        const MSVehicle* veh = static_cast<const MSVehicle*>((*it).second);
        if (myVType == "" || myVType == veh->getVehicleType().getID()) {
            if (!veh->isOnRoad()) {
                continue;
            }
            Position pos = veh->getLane()->getShape().positionAtOffset(veh->getPositionOnLane());
            myOutputDevice.openTag("vehicle") << " id=\"" << veh->getID()
                                              << "\" lane=\"" << veh->getLane()->getID()
                                              << "\" pos=\"" << veh->getPositionOnLane()
                                              << "\" x=\"" << pos.x()
                                              << "\" y=\"" << pos.y();
            if (GeoConvHelper::getFinal().usingGeoProjection()) {
                GeoConvHelper::getFinal().cartesian2geo(pos);
                myOutputDevice.setPrecision(GEO_OUTPUT_ACCURACY);
                myOutputDevice << "\" lat=\"" << pos.y() << "\" lon=\"" << pos.x();
                myOutputDevice.setPrecision();
            }
            myOutputDevice << "\" speed=\"" << veh->getSpeed() << "\"";
            myOutputDevice.closeTag();
        }

    }
    myOutputDevice.closeTag();
    return myFrequency;
}
コード例 #18
0
ファイル: MSNet.cpp プロジェクト: smendez-hi/SUMO-hib
void MSNet::postSimStepOutput() const
{
  OptionsCont &oc = OptionsCont::getOptions();
  if(oc.getSimulationVerbosity()>1)
    std::cout<<"----> void MSNet::postSimStepOutput() const"<<std::endl;
  if (myLogExecutionTime) {
        std::string msg;
        std::ostringstream oss;
        oss.setf(std::ios::fixed , std::ios::floatfield);    // use decimal format
        oss.setf(std::ios::showpoint);    // print decimal point
        oss << std::setprecision(OUTPUT_ACCURACY);
        if (mySimStepDuration != 0) {
            oss << " (" << mySimStepDuration << "ms ~= "
                << (1000. / (SUMOReal) mySimStepDuration) << "*RT, ~"
                << ((SUMOReal) myVehicleControl->getRunningVehicleNo() / (SUMOReal) mySimStepDuration * 1000.);
        } else {
            oss << " (0ms ?*RT. ?";
        }
        oss << "UPS, vehicles"
            << " TOT " << myVehicleControl->getDepartedVehicleNo()
            << " ACT " << myVehicleControl->getRunningVehicleNo()
            << ")                                              ";
        msg = oss.str();
        std::string prev = "Step #" + time2string(myStep - DELTA_T);
        msg = msg.substr(0, 78 - prev.length());
        std::cout << msg;
  }
  std::cout << (char) 13;
}
コード例 #19
0
SUMOTime
MSVTypeProbe::execute(SUMOTime currentTime) throw(ProcessError) {
    const std::string indent("    ");
    myOutputDevice << indent << "<timestep time=\"" <<time2string(currentTime)<< "\" id=\"" << getID() << "\" vtype=\"" << myVType << "\">" << "\n";
    MSVehicleControl &vc = MSNet::getInstance()->getVehicleControl();
    std::map<std::string, MSVehicle*>::const_iterator it = vc.loadedVehBegin();
    std::map<std::string, MSVehicle*>::const_iterator end = vc.loadedVehEnd();
    for (; it != end; ++it) {
        const MSVehicle *veh=(*it).second;
        if (myVType=="" || myVType==veh->getVehicleType().getID()) {
            if (!veh->isOnRoad()) {
                continue;
            }
            Position2D pos = veh->getPosition();
            myOutputDevice << indent << indent
            << "<vehicle id=\"" << veh->getID()
            << "\" lane=\"" << veh->getLane().getID()
            << "\" pos=\"" << veh->getPositionOnLane()
            << "\" x=\"" << pos.x()
            << "\" y=\"" << pos.y();
            if (GeoConvHelper::usingGeoProjection()) {
                GeoConvHelper::cartesian2geo(pos);
                myOutputDevice.setPrecision(GEO_OUTPUT_ACCURACY);
                myOutputDevice << "\" lat=\"" << pos.y() << "\" lon=\"" << pos.x();
                myOutputDevice.setPrecision();
            }
            myOutputDevice << "\" speed=\"" << veh->getSpeed() << "\"/>" << "\n";
        }

    }
    myOutputDevice << indent << "</timestep>" << "\n";
    return myFrequency;
}
コード例 #20
0
MSVehicle * const
MSLane::getLastVehicle(const MSVehicle::StripCont &strips) const {
    MSVehicle::StripContConstIter strip = strips.begin();
    MSVehicle *last = 0;
    
    while (strip != strips.end()) {
        last = (*strip)->getLastVehicle();
        if (last != 0) break;
        strip++;
    }
    if (last == 0) return last;
    
    for (MSVehicle::StripContConstIter it=strip+1; it != strips.end(); ++it) {
        MSVehicle *curr = (*it)->getLastVehicle();
        if (!curr) continue;
        
        if (last->getPositionOnLane()-last->getVehicleType().getLength() 
                > 
                curr->getPositionOnLane()-curr->getVehicleType().getLength())
            last = curr;
    }
    //DEBUG
    ///*
    std::pair<MSVehicle*, SUMOReal> lvInfo = getLastVehicleInformation();
    if (last != lvInfo.first)
        MsgHandler::getWarningInstance()->inform("LastVEH_ERR::Lane=" + this->getID() + 
                ", time=" + time2string(MSNet::getInstance()->getCurrentTimeStep()) + ".");
    //*/
    return last;
}
コード例 #21
0
ファイル: MSEmissionExport.cpp プロジェクト: cbrafter/sumo
// ===========================================================================
// method definitions
// ===========================================================================
void
MSEmissionExport::write(OutputDevice& of, SUMOTime timestep, int precision) {
    of.openTag("timestep").writeAttr("time", time2string(timestep));
    of.setPrecision(precision);
    MSVehicleControl& vc = MSNet::getInstance()->getVehicleControl();
    for (MSVehicleControl::constVehIt it = vc.loadedVehBegin(); it != vc.loadedVehEnd(); ++it) {
        const SUMOVehicle* veh = it->second;
        const MSVehicle* microVeh = dynamic_cast<const MSVehicle*>(veh);
        if (veh->isOnRoad()) {
            std::string fclass = veh->getVehicleType().getID();
            fclass = fclass.substr(0, fclass.find_first_of("@"));
            PollutantsInterface::Emissions emiss = PollutantsInterface::computeAll(veh->getVehicleType().getEmissionClass(), veh->getSpeed(), veh->getAcceleration(), veh->getSlope());
            of.openTag("vehicle").writeAttr("id", veh->getID()).writeAttr("eclass", PollutantsInterface::getName(veh->getVehicleType().getEmissionClass()));
            of.writeAttr("CO2", emiss.CO2).writeAttr("CO", emiss.CO).writeAttr("HC", emiss.HC).writeAttr("NOx", emiss.NOx);
            of.writeAttr("PMx", emiss.PMx).writeAttr("fuel", emiss.fuel).writeAttr("electricity", emiss.electricity);
            of.writeAttr("noise", HelpersHarmonoise::computeNoise(veh->getVehicleType().getEmissionClass(), veh->getSpeed(), veh->getAcceleration()));
            of.writeAttr("route", veh->getRoute().getID()).writeAttr("type", fclass);
            if (microVeh != 0) {
                of.writeAttr("waiting", microVeh->getWaitingSeconds());
                of.writeAttr("lane", microVeh->getLane()->getID());
            }
            of.writeAttr("pos", veh->getPositionOnLane()).writeAttr("speed", veh->getSpeed());
            of.writeAttr("angle", GeomHelper::naviDegree(veh->getAngle())).writeAttr("x", veh->getPosition().x()).writeAttr("y", veh->getPosition().y());
            of.closeTag();
        }
    }
    of.setPrecision(OUTPUT_ACCURACY);
    of.closeTag();
}
コード例 #22
0
GUIParameterTableWindow*
GUICalibrator::getParameterWindow(GUIMainWindow& app,
                                  GUISUMOAbstractView&) {
    GUIParameterTableWindow* ret;
    if (isActive()) {
        ret = new GUIParameterTableWindow(app, *this, 10);
        // add items
        ret->mkItem("interval start", false, STEPS2TIME(myCurrentStateInterval->begin));
        ret->mkItem("interval end", false, STEPS2TIME(myCurrentStateInterval->end));
        ret->mkItem("aspired flow [veh/h]", false, myCurrentStateInterval->q);
        ret->mkItem("aspired speed", false, myCurrentStateInterval->v);
        ret->mkItem("default speed", false, myDefaultSpeed);
        ret->mkItem("required vehicles", true, new FunctionBinding<GUICalibrator, int>(this, &GUICalibrator::totalWished));
        ret->mkItem("passed vehicles", true, new FunctionBinding<GUICalibrator, int>(this, &GUICalibrator::passed));
        ret->mkItem("inserted vehicles", true, new FunctionBinding<GUICalibrator, int>(this, &GUICalibrator::inserted));
        ret->mkItem("removed vehicles", true, new FunctionBinding<GUICalibrator, int>(this, &GUICalibrator::removed));
        ret->mkItem("cleared in jam", true, new FunctionBinding<GUICalibrator, int>(this, &GUICalibrator::clearedInJam));
    } else {
        ret = new GUIParameterTableWindow(app, *this, 1);
        const std::string nextStart =
            (myCurrentStateInterval != myIntervals.end() ?
             time2string(myCurrentStateInterval->begin) :
             "simulation end");
        ret->mkItem("inactive until", false, nextStart);
    }
    // close building
    ret->closeBuilding();
    return ret;
}
コード例 #23
0
ファイル: acc_cdr.c プロジェクト: aallamaa/kamailio
/* set the current time as end-time in the dialog struct */
static int set_end_time( struct dlg_cell* dialog)
{
    struct timeval current_time;
    str end_time;

    if( !dialog)
    {
        LM_ERR("dialog is empty!\n");
        return -1;
    }

    if( gettimeofday( &current_time, NULL) < 0)
    {
        LM_ERR( "failed to set time!\n");
        return -1;
    }

    if( time2string(&current_time, &end_time) < 0) {
        LM_ERR( "failed to convert current time to string\n");
        return -1;
    }

    if( dlgb.set_dlg_var( dialog,
                          (str*)&cdr_end_str,
                          (str*)&end_time) != 0)
    {
        LM_ERR( "failed to set start time");
        return -1;
    }

    return 0;
}
コード例 #24
0
void
ROLoader::openRoutes(RONet& net) {
    // build loader
    // load relevant elements from additinal file
    bool ok = openTypedRoutes("additional-files", net);
    // load sumo-routes when wished
    ok &= openTypedRoutes("route-files", net);
    // load the XML-trip definitions when wished
    ok &= openTypedRoutes("trip-files", net);
    // load the sumo-alternative file when wished
    ok &= openTypedRoutes("alternative-files", net);
    // load the amount definitions if wished
    ok &= openTypedRoutes("flow-files", net);
    // check
    if (ok) {
        myLoaders.loadNext(string2time(myOptions.getString("begin")));
        if (!MsgHandler::getErrorInstance()->wasInformed() && !net.furtherStored()) {
            throw ProcessError("No route input specified or all routes were invalid.");
        }
        // skip routes prior to the begin time
        if (!myOptions.getBool("unsorted-input")) {
            WRITE_MESSAGE("Skipped until: " + time2string(myLoaders.getFirstLoadTime()));
        }
    }
}
コード例 #25
0
void
GUIDialog_Breakpoints::rebuildList() {
    myTable->clearItems();
    sort(myBreakpoints->begin(), myBreakpoints->end());
    // set table attributes
    myTable->setTableSize((FXint) myBreakpoints->size() + 1, 1);
    myTable->setColumnText(0, "Time");
    FXHeader* header = myTable->getColumnHeader();
    header->setHeight(getApp()->getNormalFont()->getFontHeight() + getApp()->getNormalFont()->getFontAscent());
    int k;
    for (k = 0; k < 1; k++) {
        header->setItemJustify(k, JUSTIFY_CENTER_X);
    }
    // insert into table
    FXint row = 0;
    std::vector<int>::iterator j;
    for (j = myBreakpoints->begin(); j != myBreakpoints->end(); ++j) {
        myTable->setItemText(row, 0, time2string(*j).c_str());
        row++;
    }
    // insert dummy last field
    for (k = 0; k < 1; k++) {
        myTable->setItemText(row, k, " ");
    }
}
コード例 #26
0
ファイル: MELoop.cpp プロジェクト: cbrafter/sumo
bool
MELoop::changeSegment(MEVehicle* veh, SUMOTime leaveTime, MESegment* const toSegment, const bool ignoreLink) {
    MESegment* const onSegment = veh->getSegment();
    if (MESegment::isInvalid(toSegment)) {
        if (onSegment != 0) {
            onSegment->send(veh, toSegment, leaveTime);
        } else {
            WRITE_WARNING("Vehicle '" + veh->getID() + "' teleports beyond arrival edge '" + veh->getEdge()->getID() + "', time " + time2string(leaveTime) + ".");
        }
        veh->setSegment(toSegment); // signal arrival
        MSNet::getInstance()->getVehicleControl().scheduleVehicleRemoval(veh);
        return true;
    }
    if (toSegment->hasSpaceFor(veh, leaveTime) && (ignoreLink || veh->mayProceed())) {
        if (onSegment != 0) {
            onSegment->send(veh, toSegment, leaveTime);
            toSegment->receive(veh, leaveTime, false, ignoreLink);
        } else {
            WRITE_WARNING("Vehicle '" + veh->getID() + "' ends teleporting on edge '" + toSegment->getEdge().getID()
                          + "':" + toString(toSegment->getIndex()) + ", time " + time2string(leaveTime) + ".");
            // this is not quite correct but suffices for interrogation by
            // subsequent methods (veh->getSpeed() needs segment != 0)
            veh->setSegment(myEdges2FirstSegments[veh->getEdge()->getNumericalID()]);
            toSegment->receive(veh, leaveTime, false, true);
        }
        return true;
    }
    return false;
}
コード例 #27
0
/* Interrupt Service Routine */
void user_isr( void ) {

  // check flag
  if(IFS(0) & 0x100){
    // clearing flag
    IFS(0) = 0;
    timeoutcount++;

    if (timeoutcount == 10){
      time2string( textstring, mytime );
      display_string( 3, textstring );
      display_update();
      tick( &mytime );
      timeoutcount = 0;
    }
  }
    
  // code for counting LED
  if(IFS(0) & 0x80){
    // clearing flag
    IFS(0) = 0;
    // for LEDs ticking
    * portE =  * portE + 0x1;
    // only for the last 8 bits
    * E = * E & 0xFF00;
  }

  return;
}
コード例 #28
0
ファイル: ROPerson.cpp プロジェクト: behrisch/sumo
void
ROPerson::Ride::saveAsXML(OutputDevice& os, const bool extended) const {
    os.openTag(SUMO_TAG_RIDE);
    std::string comment = "";
    if (extended && cost >= 0.) {
        os.writeAttr(SUMO_ATTR_COST, cost);
    }
    if (from != nullptr) {
        os.writeAttr(SUMO_ATTR_FROM, from->getID());
    }
    if (to != nullptr) {
        os.writeAttr(SUMO_ATTR_TO, to->getID());
    }
    if (destStop != "") {
        os.writeAttr(SUMO_ATTR_BUS_STOP, destStop);
        const std::string name = RONet::getInstance()->getStoppingPlaceName(destStop);
        if (name != "") {
            comment =  " <!-- " + name + " -->";
        }
    }
    os.writeAttr(SUMO_ATTR_LINES, lines);
    if (intended != "" && intended != lines) {
        os.writeAttr(SUMO_ATTR_INTENDED, intended);
    }
    if (depart >= 0) {
        os.writeAttr(SUMO_ATTR_DEPART, time2string(depart));
    }
    os.closeTag(comment);
}
コード例 #29
0
ファイル: mipslabwork.c プロジェクト: robertab/is1500
/* This function is called repetitively from the main program */
void labwork( void )
{
  delay( 1000 );

  time2string( textstring, mytime );
  display_string( 3, textstring );
  display_update();

  getbtns();

  if (getbtns() == 1)
    mytime += (getsw() << 4);
  
  if (getbtns() == 2)
    mytime += (getsw() << 8);

  if (getbtns() == 4)
    mytime += (getsw() << 12);


  volatile int* porte = (volatile int*) 0xbf886110;
  tick( &mytime );
  *porte += 1;
  display_image(96, icon);
}
コード例 #30
0
SUMOTime
MSVTypeProbe::execute(SUMOTime currentTime) {
    myOutputDevice.openTag("timestep") << " time=\"" << time2string(currentTime) << "\" id=\"" << getID() << "\" vType=\"" << myVType << "\"";
    MSVehicleControl& vc = MSNet::getInstance()->getVehicleControl();
    for (MSVehicleControl::constVehIt it = vc.loadedVehBegin(); it != vc.loadedVehEnd(); ++it) {
        const SUMOVehicle* veh = it->second;
        const MSVehicle* microVeh = dynamic_cast<const MSVehicle*>(veh);
        if (myVType == "" || myVType == veh->getVehicleType().getID()) {
            if (veh->isOnRoad()) {
                Position pos = veh->getPosition();
                myOutputDevice.openTag("vehicle").writeAttr("id", veh->getID());
                if (microVeh != 0) {
                    myOutputDevice.writeAttr("lane", microVeh->getLane()->getID());
                }
                myOutputDevice.writeAttr("pos", veh->getPositionOnLane());
                myOutputDevice.writeAttr("x", pos.x()).writeAttr("y", pos.y());
                if (GeoConvHelper::getFinal().usingGeoProjection()) {
                    GeoConvHelper::getFinal().cartesian2geo(pos);
                    myOutputDevice.setPrecision(GEO_OUTPUT_ACCURACY);
                    myOutputDevice.writeAttr("lat", pos.y()).writeAttr("lon", pos.x());
                    myOutputDevice.setPrecision();
                }
                myOutputDevice.writeAttr("speed", veh->getSpeed());
                myOutputDevice.closeTag();
            }
        }
    }
    myOutputDevice.closeTag();
    return myFrequency;
}