#include <math.h>
#include <algorithm>
+#include <fstream>
#include <osg/Geode>
// headingDiff = fabs(headingDiff - 360);
//}
+void FGTaxiSegment::block(int id, time_t blockTime, time_t now)
+{
+ BlockListIterator i = blockTimes.begin();
+ while (i != blockTimes.end()) {
+ if (i->getId() == id)
+ break;
+ i++;
+ }
+ if (i == blockTimes.end()) {
+ blockTimes.push_back(Block(id, blockTime, now));
+ sort(blockTimes.begin(), blockTimes.end());
+ } else {
+ i->updateTimeStamps(blockTime, now);
+ }
+}
+
+// The segment has a block if any of the block times listed in the block list is
+// smaller than the current time.
+bool FGTaxiSegment::hasBlock(time_t now)
+{
+ for (BlockListIterator i = blockTimes.begin(); i != blockTimes.end(); i++) {
+ if (i->getBlockTime() < now)
+ return true;
+ }
+ return false;
+}
+
+void FGTaxiSegment::unblock(time_t now)
+{
+ if (blockTimes.size()) {
+ BlockListIterator i = blockTimes.begin();
+ if (i->getTimeStamp() < (now - 30)) {
+ blockTimes.erase(i);
+ }
+ }
+}
+
+
/***************************************************************************
* FGTaxiRoute
}
FGTaxiNode *firstNode = findNode(start);
+ if (!firstNode)
+ {
+ SG_LOG(SG_GENERAL, SG_ALERT,
+ "Error in ground network. Failed to find first waypoint: " << start
+ << " at " << ((parent) ? parent->getId() : "<unknown>"));
+ return FGTaxiRoute();
+ }
firstNode->setPathScore(0);
FGTaxiNode *lastNode = findNode(end);
+ if (!lastNode)
+ {
+ SG_LOG(SG_GENERAL, SG_ALERT,
+ "Error in ground network. Failed to find last waypoint: " << end
+ << " at " << ((parent) ? parent->getId() : "<unknown>"));
+ return FGTaxiRoute();
+ }
FGTaxiNodeVector unvisited(*currNodesSet); // working copy
seg != best->getEndRoute(); seg++) {
if (fullSearch || (*seg)->isPushBack()) {
FGTaxiNode *tgt = (*seg)->getEnd();
+ if (!tgt)
+ {
+ SG_LOG(SG_GENERAL, SG_ALERT,
+ "Error in ground network. Found empty segment "
+ << " at " << ((parent) ? parent->getId() : "<unknown>"));
+ return FGTaxiRoute();
+ }
double alt =
best->getPathScore() + (*seg)->getLength() +
(*seg)->getPenalty(nParkings);
trans_num->setIntValue(-1);
// PopupCallback(n);
//cerr << "Selected transmission message " << n << endl;
- FGATCManager *atc = (FGATCManager*) globals->get_subsystem("atc");
+ //FGATCManager *atc = (FGATCManager*) globals->get_subsystem("atc");
FGATCDialogNew::instance()->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;
} else {
nx = tx;
}
- if (tx->hasBlock(now) || nx->hasBlock(now) ) {
- current->setHoldPosition(true);
- }
- }
-
-
- /* for (i = activeTraffic.begin(); i != activeTraffic.end(); i++) {
- if (i->getId() != current->getId()) {
- int node = current->crosses(this, *i);
- if (node != -1) {
- FGTaxiNode *taxiNode = findNode(node);
-
- // Determine whether it's save to continue or not.
- // If we have a crossing route, there are two possibilities:
- // 1) This is an interestion
- // 2) This is oncoming two-way traffic, using the same taxiway.
- //cerr << "Hold check 1 : " << id << " has common node " << node << endl;
-
- SGGeod other(SGGeod::
- fromDegM(i->getLongitude(), i->getLatitude(),
- i->getAltitude()));
- bool needsToWait;
- bool opposing;
- if (current->isOpposing(this, *i, node)) {
- needsToWait = true;
- opposing = true;
- //cerr << "Hold check 2 : " << node << " has opposing segment " << endl;
- // issue a "Hold Position" as soon as we're close to the offending node
- // For now, I'm doing this as long as the other aircraft doesn't
- // have a hold instruction as soon as we're within a reasonable
- // distance from the offending node.
- // This may be a bit of a conservative estimate though, as it may
- // be well possible that both aircraft can both continue to taxi
- // without crashing into each other.
- } else {
- opposing = false;
- if (SGGeodesy::distanceM(other, taxiNode->getGeod()) > 200) // 2.0*i->getRadius())
- {
- needsToWait = false;
- //cerr << "Hold check 3 : " << id <<" Other aircraft approaching node is still far away. (" << dist << " nm). Can safely continue "
- // << endl;
- } else {
- needsToWait = true;
- //cerr << "Hold check 4: " << id << " Would need to wait for other aircraft : distance = " << dist << " meters" << endl;
- }
- }
+ //if (tx->hasBlock(now) || nx->hasBlock(now) ) {
+ // current->setHoldPosition(true);
+ //}
+ SGGeod start(SGGeod::fromDeg((i->getLongitude()), (i->getLatitude())));
+ SGGeod end (SGGeod::fromDeg(nx->getStart()->getLongitude(), nx->getStart()->getLatitude()));
- double dist =
- SGGeodesy::distanceM(curr, taxiNode->getGeod());
- if (!(i->hasHoldPosition())) {
-
- if ((dist < 200) && //2.5*current->getRadius()) &&
- (needsToWait) && (i->onRoute(this, *current)) &&
- //((i->onRoute(this, *current)) || ((!(i->getSpeedAdjustment())))) &&
- (!(current->getId() == i->getWaitsForId())))
- //(!(i->getSpeedAdjustment()))) // &&
- //(!(current->getSpeedAdjustment())))
-
- {
- if (!(isUserAircraft(i->getAircraft()))) { // test code. Don't wait for the user, let the user wait for you.
- current->setHoldPosition(true);
- current->setWaitsForId(i->getId());
- }
- //cerr << "Hold check 5: " << current->getCallSign() <<" Setting Hold Position: distance to node (" << node << ") "
- // << dist << " meters. Waiting for " << i->getCallSign();
- //if (opposing)
- //cerr <<" [opposing] " << endl;
- //else
- // cerr << "[non-opposing] " << endl;
- //if (i->hasSpeefAdjustment())
- // {
- // cerr << " (which in turn waits for ) " << i->
- } else {
- //cerr << "Hold check 6: " << id << " No need to hold yet: Distance to node : " << dist << " nm"<< endl;
- }
+ double distance = SGGeodesy::distanceM(start, end);
+ if (nx->hasBlock(now) && (distance < i->getRadius() * 4)) {
+ current->setHoldPosition(true);
+ } else {
+ intVecIterator ivi = i->getIntentions().begin();
+ while (ivi != i->getIntentions().end()) {
+ if ((*ivi) > 0) {
+ distance += segments[(*ivi)-1]->getLength();
+ if ((segments[(*ivi)-1]->hasBlock(now)) && (distance < i->getRadius() * 4)) {
+ current->setHoldPosition(true);
+ break;
}
}
+ ivi++;
}
- } */
+ }
+ }
bool currStatus = current->hasHoldPosition();
current->setHoldPosition(origStatus);
// Either a Hold Position or a resume taxi transmission has been issued
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);
+ 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), MSG_RESUME_TAXI, ATC_GROUND_TO_AIR, true);
+ transmit(&(*current), &(*parent->getDynamics()), MSG_RESUME_TAXI, ATC_GROUND_TO_AIR, true);
//cerr << "Transmittig resume instrudtion " << currStatus << " " << available << endl;
current->setState(2);
}
if (visible) {
group = new osg::Group;
FGScenery * local_scenery = globals->get_scenery();
- double elevation_meters = 0.0;
+ // double elevation_meters = 0.0;
double elevation_feet = 0.0;
time_t now = time(NULL) + fgGetLong("/sim/time/warp");
//for ( FGTaxiSegmentVectorIterator i = segments.begin(); i != segments.end(); i++) {
- double dx = 0;
+ //double dx = 0;
for (TrafficVectorIterator i = activeTraffic.begin(); i != activeTraffic.end(); i++) {
// Handle start point
int pos = i->getCurrentPosition() - 1;
i->setPriority(priority++);
// in meters per second;
double vTaxi = (i->getAircraft()->getPerformance()->vTaxi() * SG_NM_TO_METER) / 3600;
- if (i->isActive(60)) {
+ if (i->isActive(0)) {
// Check for all active aircraft whether it's current pos segment is
// an opposite of one of the departing aircraft's intentions
for (intVecIterator k = i->getIntentions().begin(); k != i->getIntentions().end(); k++) {
if ((*k) == posReverse) {
i->denyPushBack();
- segments[posReverse-1]->block(now);
+ segments[posReverse-1]->block(i->getId(), now, now);
}
}
}
length = seg->getLength();
for (FGTaxiSegmentVectorIterator tsi = segments.begin(); tsi != segments.end(); tsi++) {
if (((*tsi)->getEnd() == node) && ((*tsi) != seg)) {
- (*tsi)->block(now);
+ (*tsi)->block(i->getId(), now, now);
}
}
}
time_t blockTime = now + (length / vTaxi);
for (FGTaxiSegmentVectorIterator tsi = segments.begin(); tsi != segments.end(); tsi++) {
if (((*tsi)->getEnd() == node) && ((*tsi) != seg)) {
- (*tsi)->block(blockTime-30);
+ (*tsi)->block(i->getId(), blockTime-30, now);
}
}
}
for (FGTaxiSegmentVectorIterator tsi = segments.begin(); tsi != segments.end(); tsi++) {
if (((*tsi)->getEnd() == node) && ((*tsi) != seg)) {
time_t blockTime = now + (length / vTaxi);
- (*tsi)->block(blockTime - 30);
+ (*tsi)->block(i->getId(), blockTime - 30, now);
}
}
}