Ejemplo n.º 1
0
NBTrafficLightLogic*
NBLoadedTLDef::myCompute(const NBEdgeCont& ec, unsigned int brakingTime) {
    MsgHandler::getWarningInstance()->clear(); // !!!
    NBLoadedTLDef::SignalGroupCont::const_iterator i;
    // compute the switching times
    std::set<SUMOReal> tmpSwitchTimes;
    for (i = mySignalGroups.begin(); i != mySignalGroups.end(); i++) {
        NBLoadedTLDef::SignalGroup* group = (*i).second;
        // needed later
        group->sortPhases();
        // patch the yellow time for this group
        group->patchTYellow(brakingTime, OptionsCont::getOptions().getBool("tls.yellow.patch-small"));
        // copy the now valid times into the container
        //  both the given red and green phases are added and also the
        //  yellow times
        std::vector<SUMOReal> gtimes = group->getTimes(myCycleDuration);
        for (std::vector<SUMOReal>::const_iterator k = gtimes.begin(); k != gtimes.end(); k++) {
            tmpSwitchTimes.insert(*k);
        }
    }
    std::vector<SUMOReal> switchTimes;
    copy(tmpSwitchTimes.begin(), tmpSwitchTimes.end(), back_inserter(switchTimes));
    sort(switchTimes.begin(), switchTimes.end());

    // count the signals
    unsigned int noSignals = 0;
    for (i = mySignalGroups.begin(); i != mySignalGroups.end(); i++) {
        noSignals += (*i).second->getLinkNo();
    }
    // build the phases
    NBTrafficLightLogic* logic = new NBTrafficLightLogic(getID(), getProgramID(), noSignals, myOffset, myType);
    for (std::vector<SUMOReal>::iterator l = switchTimes.begin(); l != switchTimes.end(); l++) {
        // compute the duration of the current phase
        unsigned int duration;
        if (l != switchTimes.end() - 1) {
            // get from the difference to the next switching time
            duration = (unsigned int)((*(l + 1)) - (*l));
        } else {
            // get from the differenc to the first switching time
            duration = (unsigned int)(myCycleDuration - (*l) + * (switchTimes.begin()));
        }
        // no information about yellow times will be generated
        assert((*l) >= 0);
        logic->addStep(TIME2STEPS(duration), buildPhaseState(ec, (unsigned int)(*l)));
    }
    // check whether any warnings were printed
    if (MsgHandler::getWarningInstance()->wasInformed()) {
        WRITE_WARNING("During computation of traffic light '" + getID() + "'.");
    }
    logic->closeBuilding();
    return logic;
}
Ejemplo n.º 2
0
NBTrafficLightLogic*
NBLoadedTLDef::myCompute(unsigned int brakingTimeSeconds) {
    MsgHandler::getWarningInstance()->clear(); // !!!
    NBLoadedTLDef::SignalGroupCont::const_iterator i;
    // compute the switching times
    std::set<SUMOReal> tmpSwitchTimes;
    for (i = mySignalGroups.begin(); i != mySignalGroups.end(); i++) {
        NBLoadedTLDef::SignalGroup* group = (*i).second;
        // needed later
        group->sortPhases();
        // patch the yellow time for this group
        group->patchTYellow(brakingTimeSeconds, OptionsCont::getOptions().getBool("tls.yellow.patch-small"));
        // copy the now valid times into the container
        //  both the given red and green phases are added and also the
        //  yellow times
        std::vector<SUMOReal> gtimes = group->getTimes(myCycleDuration);
        for (std::vector<SUMOReal>::const_iterator k = gtimes.begin(); k != gtimes.end(); k++) {
            tmpSwitchTimes.insert(*k);
        }
    }
    std::vector<SUMOReal> switchTimes;
    copy(tmpSwitchTimes.begin(), tmpSwitchTimes.end(), back_inserter(switchTimes));
    sort(switchTimes.begin(), switchTimes.end());

    // count the signals
    unsigned int noSignals = 0;
    for (i = mySignalGroups.begin(); i != mySignalGroups.end(); i++) {
        noSignals += (*i).second->getLinkNo();
    }
    // build the phases
    NBTrafficLightLogic* logic = new NBTrafficLightLogic(getID(), getProgramID(), noSignals, myOffset, myType);
    for (std::vector<SUMOReal>::iterator l = switchTimes.begin(); l != switchTimes.end(); l++) {
        // compute the duration of the current phase
        unsigned int duration;
        if (l != switchTimes.end() - 1) {
            // get from the difference to the next switching time
            duration = (unsigned int)((*(l + 1)) - (*l));
        } else {
            // get from the differenc to the first switching time
            duration = (unsigned int)(myCycleDuration - (*l) + * (switchTimes.begin()));
        }
        // no information about yellow times will be generated
        assert((*l) >= 0);
        logic->addStep(TIME2STEPS(duration), buildPhaseState((unsigned int)(*l)));
    }
    // check whether any warnings were printed
    if (MsgHandler::getWarningInstance()->wasInformed()) {
        WRITE_WARNING("During computation of traffic light '" + getID() + "'.");
    }
    logic->closeBuilding();

    // initialize myNeedsContRelation
    myNeedsContRelation.clear();
    const bool controlledWithin = !OptionsCont::getOptions().getBool("tls.uncontrolled-within");
    const std::vector<NBTrafficLightLogic::PhaseDefinition> phases = logic->getPhases();
    for (std::vector<NBTrafficLightLogic::PhaseDefinition>::const_iterator it = phases.begin(); it != phases.end(); it++) {
        const std::string state = (*it).state;
        for (NBConnectionVector::const_iterator it1 = myControlledLinks.begin(); it1 != myControlledLinks.end(); it1++) {
            const NBConnection& c1 = *it1;
            const int i1 = c1.getTLIndex();
            if (i1 == NBConnection::InvalidTlIndex || state[i1] != 'g' || c1.getFrom() == 0 || c1.getTo() == 0) {
                continue;
            }
            for (NBConnectionVector::const_iterator it2 = myControlledLinks.begin(); it2 != myControlledLinks.end(); it2++) {
                const NBConnection& c2 = *it2;
                const int i2 = c2.getTLIndex();
                if (i2 != NBConnection::InvalidTlIndex
                        && i2 != i1
                        && (state[i2] == 'G' || state[i2] == 'g')
                        && c2.getFrom() != 0 && c2.getTo() != 0) {
                    const bool rightTurnConflict = NBNode::rightTurnConflict(
                                                       c1.getFrom(), c1.getTo(), c1.getFromLane(), c2.getFrom(), c2.getTo(), c2.getFromLane());
                    if (forbids(c2.getFrom(), c2.getTo(), c1.getFrom(), c1.getTo(), true, controlledWithin) || rightTurnConflict) {
                        myNeedsContRelation.insert(StreamPair(c1.getFrom(), c1.getTo(), c2.getFrom(), c2.getTo()));
                    }
                }
            }
        }
    }
    myNeedsContRelationReady = true;

    return logic;
}