bool
NIVissimSingleTypeParser_Signalgeberdefinition::parse(std::istream& from) {
    //
    int id;
    from >> id;
    //
    std::string tag, name;
    tag = myRead(from);
    if (tag == "name") {
        name = readName(from);
        tag = myRead(from);
    }
    // skip optional "Beschriftung"
    tag = overrideOptionalLabel(from, tag);
    //
    int lsaid;
    std::vector<int> groupids;
    if (tag == "lsa") {
        int groupid;
        from >> lsaid; // type-checking is missing!
        from >> tag; // "Gruppe"
        do {
            from >> groupid;
            groupids.push_back(groupid);
            tag = myRead(from);
        } while (tag == "oder");
        //
    } else {
bool
NIVissimSingleTypeParser_Knotendefinition::parse(std::istream &from) {
    //
    int id;
    from >> id;
    //
    std::string tag;
    from >> tag;
    std::string name = readName(from);
    //
    tag = overrideOptionalLabel(from);
    //
    while (tag!="netzausschnitt") {
        tag = myRead(from);
    }
    //
    tag = myRead(from);
    if (tag=="strecke") {
        NIVissimNodeParticipatingEdgeVector edges;
        while (tag=="strecke") {
            int edgeid;
            SUMOReal from_pos, to_pos;
            from_pos = to_pos = -1.0;
            from >> edgeid;
            tag = readEndSecure(from, "strecke");
            if (tag=="von") {
                from >> from_pos; // type-checking is missing!
                from >> tag;
                from >> to_pos; // type-checking is missing!
                tag = readEndSecure(from, "strecke");
            }
            edges.push_back(new NIVissimNodeParticipatingEdge(edgeid, from_pos, to_pos));
        }
Exemplo n.º 3
0
bool
NIVissimSingleTypeParser_Verbindungsdefinition::parse(std::istream& from) {
    int id;
    from >> id; // type-checking is missing!
    std::string tag;
    // Read optional value "Name", skip optional value "Beschriftung"
    std::string name;
    while (tag != "von") {
        tag = overrideOptionalLabel(from);
        if (tag == "name") {
            name = readName(from);
        }
    }
    // Read the geometry information
    NIVissimExtendedEdgePoint from_def = readExtEdgePointDef(from);
    PositionVector geom;
    tag = myRead(from); // "ueber"
    while (tag != "nach") {
        std::string x = myRead(from);
        std::string y = myRead(from);
        if (y != "nach") {
            geom.push_back_noDoublePos(
                Position(
                    TplConvert::_2SUMOReal(x.c_str()),
                    TplConvert::_2SUMOReal(y.c_str())
                ));
            tag = myRead(from);
            try {
                TplConvert::_2SUMOReal(tag.c_str());
                tag = myRead(from);
            } catch (NumberFormatException&) {}
        } else {
            tag = y;
        }
    }
    NIVissimExtendedEdgePoint to_def = readExtEdgePointDef(from);
    // read some optional values until mandatory "Fahrzeugklassen" occurs
    SUMOReal dxnothalt = 0;
    SUMOReal dxeinordnen = 0;
    SUMOReal zuschlag1, zuschlag2;
    zuschlag1 = zuschlag2 = 0;
    SUMOReal seglength = 0;
    tag = myRead(from);
    NIVissimConnection::Direction direction = NIVissimConnection::NIVC_DIR_ALL;
    while (tag != "fahrzeugklassen" && tag != "sperrung" && tag != "auswertung" && tag != "DATAEND") {
        if (tag == "rechts") {
            direction = NIVissimConnection::NIVC_DIR_RIGHT;
        } else if (tag == "links") {
            direction = NIVissimConnection::NIVC_DIR_LEFT;
        } else if (tag == "alle") {
            direction = NIVissimConnection::NIVC_DIR_ALL;
        } else if (tag == "dxnothalt") {
            from >> dxnothalt; // type-checking is missing!
        } else if (tag == "dxeinordnen") {
bool
NIVissimSingleTypeParser_Zuflussdefinition::parse(std::istream& from) {
    std::string id, edgeid;
    from >> id; // type-checking is missing!
    std::string tag, name;
    // override some optional values till q
    while (tag != "q") {
        tag = overrideOptionalLabel(from);
        if (tag == "name") {
            name = readName(from);
        } else if (tag == "strecke") {
            from >> edgeid; // type-checking is missing!
        }
    }
bool
NIVissimSingleTypeParser_Streckendefinition::parse(std::istream& from) {
    // read in the id
    int id;
    from >> id;
    //
    std::string tag;
    // the following elements may occure: "Name", "Beschriftung", "Typ",
    //  followed by the mandatory "Laenge"
    std::string name, label, type;
    SUMOReal length = -1;
    while (length < 0) {
        tag = overrideOptionalLabel(from);
        if (tag == "name") {
            name = readName(from);
        } else if (tag == "typ") {
            type = myRead(from);
        } else if (tag == "laenge") {
            from >> length; // type-checking is missing!
        }
    }
bool
NIVissimSingleTypeParser_VWunschentscheidungsdefinition::parse(std::istream& from) {
    std::string tag;
    from >> tag; // id
    from >> tag; // name
    tag = readName(from);
    tag = overrideOptionalLabel(from);
    from >> tag; // strecke
    std::string edgeid;
    from >> edgeid;
    from >> tag; // spur
    std::string lane;
    from >> lane;
    from >> tag; // bei
    std::string pos;
    from >> pos;
    from >> tag; // fahrzeugklasse
    from >> tag; // <fahrzeugklasse>
    from >> tag; // vwunsch
    std::string vwunsch;
    from >> vwunsch; // vwunsch
    std::vector<std::string> tmp;
    tmp.push_back("zeit");
    tmp.push_back("fahrzeugklasse");
    tag = readEndSecure(from, tmp);
    while (tag != "DATAEND" && tag != "zeit") {
        from >> tag;
        from >> tag;
        from >> tag;
        tag = myRead(from);
    }
    if (tag == "zeit") {
        from >> tag;
        from >> tag;
        from >> tag;
        from >> tag;
    }