void
NBNodeCont::discardTrafficLights(NBTrafficLightLogicCont& tlc, bool geometryLike) {
    for (NodeCont::const_iterator i = myNodes.begin(); i != myNodes.end(); ++i) {
        NBNode* node = i->second;
        if (!geometryLike || node->geometryLike()) {
            // make a copy of tldefs
            const std::set<NBTrafficLightDefinition*> tldefs = node->getControllingTLS();
            for (std::set<NBTrafficLightDefinition*>::const_iterator it = tldefs.begin(); it != tldefs.end(); ++it) {
                NBTrafficLightDefinition* tlDef = *it;
                node->removeTrafficLight(tlDef);
                tlc.extract(tlDef);
            }
            node->reinit(node->getPosition(), NODETYPE_UNKNOWN);
        }
    }
}
Exemplo n.º 2
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void
NBNodeCont::discardTrafficLights(NBTrafficLightLogicCont& tlc, bool geometryLike, bool guessSignals) {
    for (NodeCont::const_iterator i = myNodes.begin(); i != myNodes.end(); ++i) {
        NBNode* node = i->second;
        if (!geometryLike || node->geometryLike()) {
            // make a copy of tldefs
            const std::set<NBTrafficLightDefinition*> tldefs = node->getControllingTLS();
            if (guessSignals && node->isTLControlled() && node->geometryLike()) {
                // record signal location
                const EdgeVector& outgoing = node->getOutgoingEdges();
                for (EdgeVector::const_iterator it_o = outgoing.begin(); it_o != outgoing.end(); ++it_o) {
                    (*it_o)->setSignalOffset((*it_o)->getLength());
                }
            }
            for (std::set<NBTrafficLightDefinition*>::const_iterator it = tldefs.begin(); it != tldefs.end(); ++it) {
                NBTrafficLightDefinition* tlDef = *it;
                node->removeTrafficLight(tlDef);
                tlc.extract(tlDef);
            }
            node->reinit(node->getPosition(), NODETYPE_UNKNOWN);
        }
    }
}
void
NBTrafficLightLogicCont::setTLControllingInformation(const NBEdgeCont& ec, const NBNodeCont& nc) {
    Definitions definitions = getDefinitions();
    // set the information about all participants, first
    for (Definitions::iterator it = definitions.begin(); it != definitions.end(); it++) {
        (*it)->setParticipantsInformation();
    }
    // clear previous information because tlDefs may have been removed in NETEDIT
    ec.clearControllingTLInformation();
    // insert the information about the tl-controlling
    for (Definitions::iterator it = definitions.begin(); it != definitions.end(); it++) {
        (*it)->setTLControllingInformation();
    }
    // handle rail signals which are not instantiated as normal definitions
    for (std::map<std::string, NBNode*>::const_iterator it = nc.begin(); it != nc.end(); it ++) {
        NBNode* n = it->second;
        if (n->getType() == NODETYPE_RAIL_SIGNAL || n->getType() == NODETYPE_RAIL_CROSSING) {
            NBOwnTLDef dummy(n->getID(), n, 0, TLTYPE_STATIC);
            dummy.setParticipantsInformation();
            dummy.setTLControllingInformation();
            n->removeTrafficLight(&dummy);
        }
    }
}