bool
NBTrafficLightDefinition::mustBrake(const NBConnection& possProhibited,
                                    const NBConnection& possProhibitor,
                                    bool regardNonSignalisedLowerPriority) const {
    return forbids(possProhibitor.getFrom(), possProhibitor.getTo(),
                   possProhibited.getFrom(), possProhibited.getTo(),
                   regardNonSignalisedLowerPriority);
}
Exemplo n.º 2
0
void
NBLoadedSUMOTLDef::removeConnection(const NBConnection& conn, bool reconstruct) {
    NBConnectionVector::iterator it = myControlledLinks.begin();
    // find the connection but ignore its TLIndex since it might have been
    // invalidated by an earlier removal
    for (; it != myControlledLinks.end(); ++it) {
        if (it->getFrom() == conn.getFrom() &&
                it->getTo() == conn.getTo() &&
                it->getFromLane() == conn.getFromLane() &&
                it->getToLane() == conn.getToLane()) {
            break;
        }
    }
    if (it == myControlledLinks.end()) {
        // a traffic light doesn't always controll all connections at a junction
        // especially when using the option --tls.join
        return;
    }
    const int removed = it->getTLIndex();
    // remove the connection
    myControlledLinks.erase(it);
    if (reconstruct) {
        // updating the edge is only needed for immediate use in NETEDIT.
        // It may conflict with loading diffs
        conn.getFrom()->setControllingTLInformation(conn, "");
        // shift link numbers down so there is no gap
        for (NBConnectionVector::iterator it = myControlledLinks.begin(); it != myControlledLinks.end(); it++) {
            NBConnection& c = *it;
            if (c.getTLIndex() > removed) {
                c.setTLIndex(c.getTLIndex() - 1);
            }
        }
        // update controlling information with new link numbers
        setTLControllingInformation();
        // rebuild the logic
        const std::vector<NBTrafficLightLogic::PhaseDefinition> phases = myTLLogic->getPhases();
        NBTrafficLightLogic* newLogic = new NBTrafficLightLogic(getID(), getProgramID(), 0, myOffset, myType);
        for (std::vector<NBTrafficLightLogic::PhaseDefinition>::const_iterator it = phases.begin(); it != phases.end(); it++) {
            std::string newState = it->state;
            newState.erase(newState.begin() + removed);
            newLogic->addStep(it->duration, newState);
        }
        delete myTLLogic;
        myTLLogic = newLogic;
    }
}
Exemplo n.º 3
0
bool
NBLoadedTLDef::addToSignalGroup(const std::string& groupid,
                                const NBConnection& connection) {
    if (mySignalGroups.find(groupid) == mySignalGroups.end()) {
        return false;
    }
    mySignalGroups[groupid]->addConnection(connection);
    NBNode* n1 = connection.getFrom()->getToNode();
    if (n1 != 0) {
        addNode(n1);
        n1->addTrafficLight(this);
    }
    NBNode* n2 = connection.getTo()->getFromNode();
    if (n2 != 0) {
        addNode(n2);
        n2->addTrafficLight(this);
    }
    return true;
}
Exemplo n.º 4
0
bool
NBLoadedTLDef::mustBrake(const NBEdgeCont& ec,
                         const NBConnection& possProhibited,
                         const std::string& state,
                         unsigned int strmpos) const {
    // check whether the stream has red
    if (state[strmpos] != 'g' && state[strmpos] != 'G') {
        return true;
    }

    // check whether another stream which has green is a higher
    //  priorised foe to the given
    unsigned int pos = 0;
    for (SignalGroupCont::const_iterator i = mySignalGroups.begin(); i != mySignalGroups.end(); i++) {
        SignalGroup* group = (*i).second;
        // get otherlinks that have green
        unsigned int linkNo = group->getLinkNo();
        for (unsigned int j = 0; j < linkNo; j++) {
            // get the current connection (possible foe)
            const NBConnection& other = group->getConnection(j);
            NBConnection possProhibitor(other);
            // if the connction ist still valid ...
            if (possProhibitor.check(ec)) {
                // ... do nothing if it starts at the same edge
                if (possProhibited.getFrom() == possProhibitor.getFrom()) {
                    pos++;
                    continue;
                }
                if (state[pos] == 'g' || state[pos] == 'G') {
                    if (NBTrafficLightDefinition::mustBrake(possProhibited, possProhibitor, true)) {
                        return true;
                    }
                }
                pos++;
            }
        }
    }
    return false;
}
Exemplo n.º 5
0
void
NBLoadedTLDef::SignalGroup::addConnection(const NBConnection& c) {
    assert(c.getFromLane() < 0 || c.getFrom()->getNumLanes() > (unsigned int)c.getFromLane());
    myConnections.push_back(c);
}
Exemplo n.º 6
0
// ===========================================================================
// method definitions
// ===========================================================================
NBRequest::NBRequest(const NBEdgeCont& ec,
                     NBNode* junction,
                     const EdgeVector& all,
                     const EdgeVector& incoming,
                     const EdgeVector& outgoing,
                     const NBConnectionProhibits& loadedProhibits)
    : myJunction(junction),
      myAll(all), myIncoming(incoming), myOutgoing(outgoing) {
    size_t variations = myIncoming.size() * myOutgoing.size();
    // build maps with information which forbidding connection were
    //  computed and what's in there
    myForbids.reserve(variations);
    myDone.reserve(variations);
    for (size_t i = 0; i < variations; i++) {
        myForbids.push_back(LinkInfoCont(variations, false));
        myDone.push_back(LinkInfoCont(variations, false));
    }
    // insert loaded prohibits
    for (NBConnectionProhibits::const_iterator j = loadedProhibits.begin(); j != loadedProhibits.end(); j++) {
        NBConnection prohibited = (*j).first;
        bool ok1 = prohibited.check(ec);
        if (find(myIncoming.begin(), myIncoming.end(), prohibited.getFrom()) == myIncoming.end()) {
            ok1 = false;
        }
        if (find(myOutgoing.begin(), myOutgoing.end(), prohibited.getTo()) == myOutgoing.end()) {
            ok1 = false;
        }
        int idx1 = 0;
        if (ok1) {
            idx1 = getIndex(prohibited.getFrom(), prohibited.getTo());
            if (idx1 < 0) {
                ok1 = false;
            }
        }
        const NBConnectionVector& prohibiting = (*j).second;
        for (NBConnectionVector::const_iterator k = prohibiting.begin(); k != prohibiting.end(); k++) {
            NBConnection sprohibiting = *k;
            bool ok2 = sprohibiting.check(ec);
            if (find(myIncoming.begin(), myIncoming.end(), sprohibiting.getFrom()) == myIncoming.end()) {
                ok2 = false;
            }
            if (find(myOutgoing.begin(), myOutgoing.end(), sprohibiting.getTo()) == myOutgoing.end()) {
                ok2 = false;
            }
            if (ok1 && ok2) {
                int idx2 = getIndex(sprohibiting.getFrom(), sprohibiting.getTo());
                if (idx2 < 0) {
                    ok2 = false;
                } else {
                    myForbids[idx2][idx1] = true;
                    myDone[idx2][idx1] = true;
                    myDone[idx1][idx2] = true;
                    myGoodBuilds++;
                }
            } else {
                std::string pfID = prohibited.getFrom() != 0 ? prohibited.getFrom()->getID() : "UNKNOWN";
                std::string ptID = prohibited.getTo() != 0 ? prohibited.getTo()->getID() : "UNKNOWN";
                std::string bfID = sprohibiting.getFrom() != 0 ? sprohibiting.getFrom()->getID() : "UNKNOWN";
                std::string btID = sprohibiting.getTo() != 0 ? sprohibiting.getTo()->getID() : "UNKNOWN";
                WRITE_WARNING("could not prohibit " + pfID + "->" + ptID + " by " + bfID + "->" + btID);
                myNotBuild++;
            }
        }
    }
    // ok, check whether someone has prohibited two links vice versa
    //  (this happens also in some Vissim-networks, when edges are joined)
    size_t no = myIncoming.size() * myOutgoing.size();
    for (size_t s1 = 0; s1 < no; s1++) {
        for (size_t s2 = s1 + 1; s2 < no; s2++) {
            // not set, yet
            if (!myDone[s1][s2]) {
                continue;
            }
            // check whether both prohibit vice versa
            if (myForbids[s1][s2] && myForbids[s2][s1]) {
                // mark unset - let our algorithm fix it later
                myDone[s1][s2] = false;
                myDone[s2][s1] = false;
            }
        }
    }
}
Exemplo n.º 7
0
void
NIXMLConnectionsHandler::myStartElement(int element,
                                        const SUMOSAXAttributes& attrs) {
    if (element == SUMO_TAG_DELETE) {
        bool ok = true;
        std::string from = attrs.get<std::string>(SUMO_ATTR_FROM, 0, ok);
        std::string to = attrs.get<std::string>(SUMO_ATTR_TO, 0, ok);
        if (!ok) {
            return;
        }
        // these connections were removed when the edge was deleted
        if (myEdgeCont.wasRemoved(from) || myEdgeCont.wasRemoved(to)) {
            return;
        }
        NBEdge* fromEdge = myEdgeCont.retrieve(from);
        NBEdge* toEdge = myEdgeCont.retrieve(to);
        if (fromEdge == 0) {
            myErrorMsgHandler->inform("The connection-source edge '" + from + "' to reset is not known.");
            return;
        }
        if (toEdge == 0) {
            myErrorMsgHandler->inform("The connection-destination edge '" + to + "' to reset is not known.");
            return;
        }
        if (!fromEdge->isConnectedTo(toEdge) && fromEdge->getStep() >= NBEdge::EDGE2EDGES) {
            WRITE_WARNING("Target edge '" + toEdge->getID() + "' is not connected with '" + fromEdge->getID() + "'; the connection cannot be reset.");
            return;
        }
        int fromLane = -1; // Assume all lanes are to be reset.
        int toLane = -1;
        if (attrs.hasAttribute(SUMO_ATTR_LANE)
                || attrs.hasAttribute(SUMO_ATTR_FROM_LANE)
                || attrs.hasAttribute(SUMO_ATTR_TO_LANE)) {
            if (!parseLaneInfo(attrs, fromEdge, toEdge, &fromLane, &toLane)) {
                return;
            }
            // we could be trying to reset a connection loaded from a sumo net and which has become obsolete.
            // In this case it's ok to encounter invalid lance indices
            if (!fromEdge->hasConnectionTo(toEdge, toLane) && fromEdge->getStep() >= NBEdge::LANES2EDGES) {
                WRITE_WARNING("Edge '" + fromEdge->getID() + "' has no connection to lane " + toString(toLane) + " of edge '" + toEdge->getID() + "'; the connection cannot be reset.");
            }
        }
        fromEdge->removeFromConnections(toEdge, fromLane, toLane, true);
    }

    if (element == SUMO_TAG_CONNECTION) {
        bool ok = true;
        std::string from = attrs.get<std::string>(SUMO_ATTR_FROM, "connection", ok);
        std::string to = attrs.getOpt<std::string>(SUMO_ATTR_TO, "connection", ok, "");
        if (!ok || myEdgeCont.wasIgnored(from) || myEdgeCont.wasIgnored(to)) {
            return;
        }
        // extract edges
        NBEdge* fromEdge = myEdgeCont.retrieve(from);
        NBEdge* toEdge = to.length() != 0 ? myEdgeCont.retrieve(to) : 0;
        // check whether they are valid
        if (fromEdge == 0) {
            myErrorMsgHandler->inform("The connection-source edge '" + from + "' is not known.");
            return;
        }
        if (toEdge == 0 && to.length() != 0) {
            myErrorMsgHandler->inform("The connection-destination edge '" + to + "' is not known.");
            return;
        }
        fromEdge->getToNode()->invalidateTLS(myTLLogicCont, true, false);
        // parse optional lane information
        if (attrs.hasAttribute(SUMO_ATTR_LANE) || attrs.hasAttribute(SUMO_ATTR_FROM_LANE) || attrs.hasAttribute(SUMO_ATTR_TO_LANE)) {
            parseLaneBound(attrs, fromEdge, toEdge);
        } else {
            fromEdge->addEdge2EdgeConnection(toEdge);
        }
    }
    if (element == SUMO_TAG_PROHIBITION) {
        bool ok = true;
        std::string prohibitor = attrs.getOpt<std::string>(SUMO_ATTR_PROHIBITOR, 0, ok, "");
        std::string prohibited = attrs.getOpt<std::string>(SUMO_ATTR_PROHIBITED, 0, ok, "");
        if (!ok) {
            return;
        }
        NBConnection prohibitorC = parseConnection("prohibitor", prohibitor);
        NBConnection prohibitedC = parseConnection("prohibited", prohibited);
        if (prohibitorC == NBConnection::InvalidConnection || prohibitedC == NBConnection::InvalidConnection) {
            // something failed
            return;
        }
        NBNode* n = prohibitorC.getFrom()->getToNode();
        n->addSortedLinkFoes(prohibitorC, prohibitedC);
    }
    if (element == SUMO_TAG_CROSSING) {
        addCrossing(attrs);
    }
    if (element == SUMO_TAG_WALKINGAREA) {
        addWalkingArea(attrs);
    }
}
Exemplo n.º 8
0
std::string
NWWriter_SUMO::prohibitionConnection(const NBConnection& c) {
    return c.getFrom()->getID() + "->" + c.getTo()->getID();
}