SGGeodesy::inverse(start->getGeod(), end->getGeod(), heading, az2, length);
double coveredDistance = length * 0.5;
SGGeodesy::direct(start->getGeod(), heading, coveredDistance, center, az2);
+ //start->setElevation(elevation);
+ //end->setElevation(elevation);
//cerr << "Centerpoint = (" << center.getLatitudeDeg() << ", " << center.getLongitudeDeg() << "). Heading = " << heading << endl;
}
count = 0;
currTraffic = activeTraffic.begin();
group = 0;
+ networkInitialized = false;
}
FGGroundNetwork::~FGGroundNetwork()
{
+ //cerr << "Running Groundnetwork Destructor " << endl;
+ bool saveData = false;
+ ofstream cachefile;
+ if (fgGetBool("/sim/ai/groundnet-cache")) {
+ SGPath cacheData(fgGetString("/sim/fg-home"));
+ cacheData.append("ai");
+ string airport = parent->getId();
+
+ if ((airport) != "") {
+ char buffer[128];
+ ::snprintf(buffer, 128, "%c/%c/%c/",
+ airport[0], airport[1], airport[2]);
+ cacheData.append(buffer);
+ if (!cacheData.exists()) {
+ cacheData.create_dir(0777);
+ }
+ cacheData.append(airport + "-groundnet-cache.txt");
+ cachefile.open(cacheData.str().c_str());
+ saveData = true;
+ }
+ }
for (FGTaxiNodeVectorIterator node = nodes.begin();
node != nodes.end(); node++) {
+ if (saveData) {
+ cachefile << (*node)->getIndex () << " "
+ << (*node)->getElevation () << " "
+ << endl;
+ }
delete(*node);
}
nodes.clear();
delete(*seg);
}
segments.clear();
+ if (saveData) {
+ cachefile.close();
+ }
+}
+
+void FGGroundNetwork::saveElevationCache() {
+ //cerr << "Running Groundnetwork Destructor " << endl;
+ bool saveData = false;
+ ofstream cachefile;
+ if (fgGetBool("/sim/ai/groundnet-cache")) {
+ SGPath cacheData(fgGetString("/sim/fg-home"));
+ cacheData.append("ai");
+ string airport = parent->getId();
+
+ if ((airport) != "") {
+ char buffer[128];
+ ::snprintf(buffer, 128, "%c/%c/%c/",
+ airport[0], airport[1], airport[2]);
+ cacheData.append(buffer);
+ if (!cacheData.exists()) {
+ cacheData.create_dir(0777);
+ }
+ cacheData.append(airport + "-groundnet-cache.txt");
+ cachefile.open(cacheData.str().c_str());
+ saveData = true;
+ }
+ }
+ for (FGTaxiNodeVectorIterator node = nodes.begin();
+ node != nodes.end(); node++) {
+ if (saveData) {
+ cachefile << (*node)->getIndex () << " "
+ << (*node)->getElevation () << " "
+ << endl;
+ }
+ }
+ if (saveData) {
+ cachefile.close();
+ }
}
void FGGroundNetwork::addSegment(const FGTaxiSegment & seg)
void FGGroundNetwork::init()
{
+ if (networkInitialized) {
+ FGATCController::init();
+ //cerr << "FGground network already initialized" << endl;
+ return;
+ }
hasNetwork = true;
+ nextSave = 0;
int index = 1;
sort(nodes.begin(), nodes.end(), compare_nodes);
//sort(segments.begin(), segments.end(), compare_segments());
while (i != segments.end()) {
(*i)->setStart(&nodes);
(*i)->setEnd(&nodes);
- (*i)->setDimensions(parent->getElevation());
+ (*i)->setDimensions(parent->getElevation() * SG_FEET_TO_METER);
(*i)->setIndex(index);
if ((*i)->isPushBack()) {
pushBackNodes.push_back((*i)->getEnd());
//}
//cerr << "Done initializing ground network" << endl;
//exit(1);
+ if (fgGetBool("/sim/ai/groundnet-cache")) {
+ SGPath cacheData(fgGetString("/sim/fg-home"));
+ cacheData.append("ai");
+ string airport = parent->getId();
+
+ if ((airport) != "") {
+ char buffer[128];
+ ::snprintf(buffer, 128, "%c/%c/%c/",
+ airport[0], airport[1], airport[2]);
+ cacheData.append(buffer);
+ if (!cacheData.exists()) {
+ cacheData.create_dir(0777);
+ }
+ int index;
+ double elev;
+ cacheData.append(airport + "-groundnet-cache.txt");
+ if (cacheData.exists()) {
+ ifstream data(cacheData.c_str());
+ for (FGTaxiNodeVectorIterator i = nodes.begin();
+ i != nodes.end();
+ i++) {
+ (*i)->setElevation(parent->getElevation() * SG_FEET_TO_METER);
+ data >> index >> elev;
+ if (data.eof())
+ break;
+ if (index != (*i)->getIndex()) {
+ SG_LOG(SG_GENERAL, SG_ALERT, "Index read from ground network cache at airport " << airport << " does not match index in the network itself");
+ } else {
+ (*i)->setElevation(elev);
+ }
+ }
+ }
+ }
+ }
+ //cerr << "Finished initializing " << parent->getId() << " groundnetwork " << endl;
+ networkInitialized = true;
}
int FGGroundNetwork::findNearestNode(const SGGeod & aGeod)
* 1 = "Acknowledge "Hold position
* 2 = "Acknowledge "Resume taxi".
* 3 = "Issue TaxiClearance"
- * 4 = =Acknowledge Taxi Clearance"
- *
+ * 4 = Acknowledge Taxi Clearance"
+ * 5 = Post acknowlegde taxiclearance: Start taxiing
+ * 6 = Report runway
+ * 7 = Acknowledge report runway
+ * 8 = Switch tower frequency
+ * 9 = Acknowledge switch tower frequency
*************************************************************************************************************************/
bool FGGroundNetwork::checkTransmissionState(int minState, int maxState, TrafficVectorIterator i, time_t now, AtcMsgId msgId,
AtcMsgDir msgDir)
if (n == 0) {
trans_num->setIntValue(-1);
// PopupCallback(n);
- cerr << "Selected transmission message " << n << endl;
+ //cerr << "Selected transmission message " << n << endl;
FGATCManager *atc = (FGATCManager*) globals->get_subsystem("atc");
atc->getATCDialog()->removeEntry(1);
} else {
//cerr << "creating message for " << i->getAircraft()->getCallSign() << endl;
- transmit(&(*i), msgId, msgDir, false);
+ transmit(&(*i), &(*parent->getDynamics()), msgId, msgDir, false);
return false;
}
}
- transmit(&(*i), msgId, msgDir, true);
+ transmit(&(*i), &(*parent->getDynamics()), msgId, msgDir, true);
i->updateState();
lastTransmission = now;
available = false;
double heading, double speed, double alt,
double dt)
{
+ time_t currentTime = time(NULL);
+ if (nextSave < currentTime) {
+ saveElevationCache();
+ nextSave = currentTime + 100 + rand() % 200;
+ }
// Check whether aircraft are on hold due to a preceding pushback. If so, make sure to
// Transmit air-to-ground "Ready to taxi request:
// Transmit ground to air approval / hold
}
}
-
}
/**
}
}
bool currStatus = current->hasHoldPosition();
-
+ current->setHoldPosition(origStatus);
// Either a Hold Position or a resume taxi transmission has been issued
time_t now = time(NULL) + fgGetLong("/sim/time/warp");
if ((now - lastTransmission) > 2) {
available = true;
}
- if ((origStatus != currStatus) && available) {
- //cerr << "Issueing hold short instrudtion " << currStatus << " " << available << endl;
- if (currStatus == true) { // No has a hold short instruction
- transmit(&(*current), MSG_HOLD_POSITION, ATC_GROUND_TO_AIR, true);
- //cerr << "Transmittin hold short instrudtion " << currStatus << " " << available << endl;
- current->setState(1);
- } else {
- transmit(&(*current), MSG_RESUME_TAXI, ATC_GROUND_TO_AIR, true);
- //cerr << "Transmittig resume instrudtion " << currStatus << " " << available << endl;
- current->setState(2);
+ if (current->getState() == 0) {
+ if ((origStatus != currStatus) && available) {
+ //cerr << "Issueing hold short instrudtion " << currStatus << " " << available << endl;
+ if (currStatus == true) { // No has a hold short instruction
+ transmit(&(*current), &(*parent->getDynamics()), MSG_HOLD_POSITION, ATC_GROUND_TO_AIR, true);
+ //cerr << "Transmittin hold short instrudtion " << currStatus << " " << available << endl;
+ current->setState(1);
+ } else {
+ transmit(&(*current), &(*parent->getDynamics()), MSG_RESUME_TAXI, ATC_GROUND_TO_AIR, true);
+ //cerr << "Transmittig resume instrudtion " << currStatus << " " << available << endl;
+ current->setState(2);
+ }
+ lastTransmission = now;
+ available = false;
+ // Don't act on the changed instruction until the transmission is confirmed
+ // So set back to original status
+ //cerr << "Current state " << current->getState() << endl;
}
- lastTransmission = now;
- available = false;
- // Don't act on the changed instruction until the transmission is confirmed
- // So set back to original status
- current->setHoldPosition(origStatus);
- //cerr << "Current state " << current->getState() << endl;
- } else {
+
}
+ // 6 = Report runway
+ // 7 = Acknowledge report runway
+ // 8 = Switch tower frequency
+ //9 = Acknowledge switch tower frequency
+
//int state = current->getState();
if (checkTransmissionState(1,1, current, now, MSG_ACKNOWLEDGE_HOLD_POSITION, ATC_AIR_TO_GROUND)) {
current->setState(0);
current->setState(0);
current->setHoldPosition(false);
}
+ if (current->getAircraft()->getTakeOffStatus() && (current->getState() == 0)) {
+ //cerr << "Scheduling " << current->getAircraft()->getCallSign() << " for hold short" << endl;
+ current->setState(6);
+ }
+ if (checkTransmissionState(6,6, current, now, MSG_REPORT_RUNWAY_HOLD_SHORT, ATC_AIR_TO_GROUND)) {
+ }
+ if (checkTransmissionState(7,7, current, now, MSG_ACKNOWLEDGE_REPORT_RUNWAY_HOLD_SHORT, ATC_GROUND_TO_AIR)) {
+ }
+ if (checkTransmissionState(8,8, current, now, MSG_SWITCH_TOWER_FREQUENCY, ATC_GROUND_TO_AIR)) {
+ }
+ if (checkTransmissionState(9,9, current, now, MSG_ACKNOWLEDGE_SWITCH_TOWER_FREQUENCY, ATC_AIR_TO_GROUND)) {
+ }
+
+
+
+ //current->setState(0);
}
/**
// Note that this function is copied from simgear. for maintanance purposes, it's probabtl better to make a general function out of that.
static void WorldCoordinate(osg::Matrix& obj_pos, double lat,
- double lon, double elev, double hdg)
+ double lon, double elev, double hdg, double slope)
{
SGGeod geod = SGGeod::fromDegM(lon, lat, elev);
obj_pos = geod.makeZUpFrame();
// around the Z axis
obj_pos.preMult(osg::Matrix::rotate(hdg * SGD_DEGREES_TO_RADIANS,
0.0, 0.0, 1.0));
+ obj_pos.preMult(osg::Matrix::rotate(slope * SGD_DEGREES_TO_RADIANS,
+ 0.0, 1.0, 0.0));
}
globals->get_scenery()->get_scene_graph()->removeChild(group);
//while (group->getNumChildren()) {
// cerr << "Number of children: " << group->getNumChildren() << endl;
- simgear::EffectGeode* geode = (simgear::EffectGeode*) group->getChild(0);
+ //simgear::EffectGeode* geode = (simgear::EffectGeode*) group->getChild(0);
//osg::MatrixTransform *obj_trans = (osg::MatrixTransform*) group->getChild(0);
//geode->releaseGLObjects();
//group->removeChild(geode);
}
if (visible) {
group = new osg::Group;
-
+ FGScenery * local_scenery = globals->get_scenery();
+ double elevation_meters = 0.0;
+ double elevation_feet = 0.0;
//for ( FGTaxiSegmentVectorIterator i = segments.begin(); i != segments.end(); i++) {
double dx = 0;
for (TrafficVectorIterator i = activeTraffic.begin(); i != activeTraffic.end(); i++) {
osg::Matrix obj_pos;
osg::MatrixTransform *obj_trans = new osg::MatrixTransform;
obj_trans->setDataVariance(osg::Object::STATIC);
+ // Experimental: Calculate slope here, based on length, and the individual elevations
+ double elevationStart;
+ if (isUserAircraft((i)->getAircraft())) {
+ elevationStart = fgGetDouble("/position/ground-elev-m");
+ } else {
+ elevationStart = ((i)->getAircraft()->_getAltitude());
+ }
+ double elevationEnd = segments[pos]->getEnd()->getElevation();
+ //cerr << "Using elevation " << elevationEnd << endl;
+
+ if (elevationEnd == 0) {
+ SGGeod center2 = end;
+ center2.setElevationM(SG_MAX_ELEVATION_M);
+ if (local_scenery->get_elevation_m( center2, elevationEnd, NULL )) {
+ elevation_feet = elevationEnd * SG_METER_TO_FEET + 0.5;
+ //elevation_meters += 0.5;
+ }
+ else {
+ elevationEnd = parent->getElevation()+8+dx;
+ }
+ segments[pos]->getEnd()->setElevation(elevationEnd);
+ }
+ double elevationMean = (elevationStart + elevationEnd) / 2.0;
+ double elevDiff = elevationEnd - elevationStart;
+
+ double slope = atan2(elevDiff, length) * SGD_RADIANS_TO_DEGREES;
+
+ //cerr << "1. Using mean elevation : " << elevationMean << " and " << slope << endl;
- WorldCoordinate( obj_pos, center.getLatitudeDeg(), center.getLongitudeDeg(), parent->elevation()+8+dx, -(heading) );
+ WorldCoordinate( obj_pos, center.getLatitudeDeg(), center.getLongitudeDeg(), elevationMean+ 0.5, -(heading), slope );
obj_trans->setMatrix( obj_pos );
//osg::Vec3 center(0, 0, 0)
osg::MatrixTransform *obj_trans = new osg::MatrixTransform;
obj_trans->setDataVariance(osg::Object::STATIC);
- WorldCoordinate( obj_pos, segments[k]->getLatitude(), segments[k]->getLongitude(), parent->elevation()+8+dx, -(segments[k]->getHeading()) );
+ // Experimental: Calculate slope here, based on length, and the individual elevations
+ double elevationStart = segments[k]->getStart()->getElevation();
+ double elevationEnd = segments[k]->getEnd ()->getElevation();
+ if (elevationStart == 0) {
+ SGGeod center2 = segments[k]->getStart()->getGeod();
+ center2.setElevationM(SG_MAX_ELEVATION_M);
+ if (local_scenery->get_elevation_m( center2, elevationStart, NULL )) {
+ elevation_feet = elevationStart * SG_METER_TO_FEET + 0.5;
+ //elevation_meters += 0.5;
+ }
+ else {
+ elevationStart = parent->getElevation()+8+dx;
+ }
+ segments[k]->getStart()->setElevation(elevationStart);
+ }
+ if (elevationEnd == 0) {
+ SGGeod center2 = segments[k]->getEnd()->getGeod();
+ center2.setElevationM(SG_MAX_ELEVATION_M);
+ if (local_scenery->get_elevation_m( center2, elevationEnd, NULL )) {
+ elevation_feet = elevationEnd * SG_METER_TO_FEET + 0.5;
+ //elevation_meters += 0.5;
+ }
+ else {
+ elevationEnd = parent->getElevation()+8+dx;
+ }
+ segments[k]->getEnd()->setElevation(elevationEnd);
+ }
+
+ double elevationMean = (elevationStart + elevationEnd) / 2.0;
+ double elevDiff = elevationEnd - elevationStart;
+ double length = segments[k]->getLength();
+ double slope = atan2(elevDiff, length) * SGD_RADIANS_TO_DEGREES;
+
+ // cerr << "2. Using mean elevation : " << elevationMean << " and " << slope << endl;
+
+
+ WorldCoordinate( obj_pos, segments[k]->getLatitude(), segments[k]->getLongitude(), elevationMean+ 0.5, -(segments[k]->getHeading()), slope );
obj_trans->setMatrix( obj_pos );
//osg::Vec3 center(0, 0, 0)