NamedRTree*
TraCIServerAPI_POI::getTree() {
    NamedRTree* t = new NamedRTree();
    ShapeContainer& shapeCont = MSNet::getInstance()->getShapeContainer();
    const std::map<std::string, PointOfInterest*>& pois = shapeCont.getPOIs().getMyMap();
    for (std::map<std::string, PointOfInterest*>::const_iterator i = pois.begin(); i != pois.end(); ++i) {
        const float cmin[2] = {(float)(*i).second->x(), (float)(*i).second->y()};
        const float cmax[2] = {(float)(*i).second->x(), (float)(*i).second->y()};
        t->Insert(cmin, cmax, (*i).second);
    }
    return t;
}
NamedRTree*
TraCIServerAPI_Junction::getTree() {
    NamedRTree* t = new NamedRTree();
    const std::map<std::string, MSJunction*>& junctions = MSNet::getInstance()->getJunctionControl().getMyMap();
    for (std::map<std::string, MSJunction*>::const_iterator i = junctions.begin(); i != junctions.end(); ++i) {
        Boundary b = (*i).second->getShape().getBoxBoundary();
        const float cmin[2] = {(float) b.xmin(), (float) b.ymin()};
        const float cmax[2] = {(float) b.xmax(), (float) b.ymax()};
        t->Insert(cmin, cmax, (*i).second);
    }
    return t;
}
Ejemplo n.º 3
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NamedRTree*
TraCIServerAPI_Polygon::getTree() {
    NamedRTree* t = new NamedRTree();
    ShapeContainer& shapeCont = MSNet::getInstance()->getShapeContainer();
    const std::map<std::string, Polygon*>& polygons = shapeCont.getPolygons().getMyMap();
    for (std::map<std::string, Polygon*>::const_iterator i = polygons.begin(); i != polygons.end(); ++i) {
        Boundary b = (*i).second->getShape().getBoxBoundary();
        const float cmin[2] = {(float) b.xmin(), (float) b.ymin()};
        const float cmax[2] = {(float) b.xmax(), (float) b.ymax()};
        t->Insert(cmin, cmax, (*i).second);
    }
    return t;
}
Ejemplo n.º 4
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NamedRTree*
TraCIServerAPI_InductionLoop::getTree() {
    NamedRTree* t = new NamedRTree();
    const std::map<std::string, MSDetectorFileOutput*>& dets = MSNet::getInstance()->getDetectorControl().getTypedDetectors(SUMO_TAG_INDUCTION_LOOP).getMyMap();
    for (std::map<std::string, MSDetectorFileOutput*>::const_iterator i = dets.begin(); i != dets.end(); ++i) {
        MSInductLoop* il = static_cast<MSInductLoop*>((*i).second);
        Position p = il->getLane()->getShape().positionAtOffset(il->getPosition());
        const float cmin[2] = {(float) p.x(), (float) p.y()};
        const float cmax[2] = {(float) p.x(), (float) p.y()};
        t->Insert(cmin, cmax, il);
    }
    return t;
}
Ejemplo n.º 5
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SUMOTime
MSDevice_BTreceiver::BTreceiverUpdate::execute(SUMOTime /*currentTime*/) {
    // build rtree with senders
    NamedRTree rt;
    for (std::map<std::string, MSDevice_BTsender::VehicleInformation*>::const_iterator i = MSDevice_BTsender::sVehicles.begin(); i != MSDevice_BTsender::sVehicles.end(); ++i) {
        MSDevice_BTsender::VehicleInformation* vi = (*i).second;
        Boundary b = vi->getBoxBoundary();
        b.grow(POSITION_EPS);
        const float cmin[2] = {(float) b.xmin(), (float) b.ymin()};
        const float cmax[2] = {(float) b.xmax(), (float) b.ymax()};
        rt.Insert(cmin, cmax, vi);
    }

    // check visibility for all receivers
    OptionsCont& oc = OptionsCont::getOptions();
    bool allRecognitions = oc.getBool("device.btreceiver.all-recognitions");
    bool haveOutput = oc.isSet("bt-output");
    for (std::map<std::string, MSDevice_BTreceiver::VehicleInformation*>::iterator i = MSDevice_BTreceiver::sVehicles.begin(); i != MSDevice_BTreceiver::sVehicles.end();) {
        // collect surrounding vehicles
        MSDevice_BTreceiver::VehicleInformation* vi = (*i).second;
        Boundary b = vi->getBoxBoundary();
        b.grow(vi->range);
        const float cmin[2] = {(float) b.xmin(), (float) b.ymin()};
        const float cmax[2] = {(float) b.xmax(), (float) b.ymax()};
        std::set<std::string> surroundingVehicles;
        Named::StoringVisitor sv(surroundingVehicles);
        rt.Search(cmin, cmax, sv);

        // loop over surrounding vehicles, check visibility status
        for (std::set<std::string>::const_iterator j = surroundingVehicles.begin(); j != surroundingVehicles.end(); ++j) {
            if ((*i).first == *j) {
                // seeing oneself? skip
                continue;
            }
            updateVisibility(*vi, *MSDevice_BTsender::sVehicles.find(*j)->second);
        }

        if (vi->haveArrived) {
            // vehicle has left the simulation; remove
            if (haveOutput) {
                writeOutput((*i).first, vi->seen, allRecognitions);
            }
            delete vi;
            MSDevice_BTreceiver::sVehicles.erase(i++);
        } else {
            // vehicle is still in the simulation; reset state
            vi->updates.erase(vi->updates.begin(), vi->updates.end() - 1);
            ++i;
        }
    }

    // remove arrived senders / reset state
    for (std::map<std::string, MSDevice_BTsender::VehicleInformation*>::iterator i = MSDevice_BTsender::sVehicles.begin(); i != MSDevice_BTsender::sVehicles.end();) {
        MSDevice_BTsender::VehicleInformation* vi = (*i).second;
        if (vi->haveArrived) {
            delete vi;
            MSDevice_BTsender::sVehicles.erase(i++);
        } else {
            vi->updates.erase(vi->updates.begin(), vi->updates.end() - 1);
            ++i;
        }
    }
    return DELTA_T;
}