string liv,
string reg,
bool hvy,
+ string act,
+ string arln,
+ string mclass,
+ string fltpe,
+ double rad,
+ double grnd,
FGScheduledFlightVec flt)
{
modelPath = mdl;
livery = liv;
registration = reg;
+ acType = act;
+ airline = arln;
+ m_class = mclass;
+ flightType = fltpe;
+ radius = rad;
+ groundOffset = grnd;
heavy = hvy;
for (FGScheduledFlightVecIterator i = flt.begin();
i != flt.end();
lat = other.lat;
lon = other.lon;
AIManagerRef = other.AIManagerRef;
+ acType = other.acType;
+ airline = other.airline;
+ m_class = other.m_class;
firstRun = other.firstRun;
+ radius = other.radius;
+ groundOffset = other.groundOffset;
+ flightType = other.flightType;
+ distanceToUser = other.distanceToUser;
}
+
FGAISchedule::~FGAISchedule()
{
}
-void FGAISchedule::update(time_t now)
+bool FGAISchedule::init()
+{
+ //tm targetTimeDate;
+ //SGTime* currTimeDate = globals->get_time_params();
+
+ //tm *temp = currTimeDate->getGmt();
+ //char buffer[512];
+ //sgTimeFormatTime(&targetTimeDate, buffer);
+ //cout << "Scheduled Time " << buffer << endl;
+ //cout << "Time :" << time(NULL) << " SGTime : " << sgTimeGetGMT(temp) << endl;
+ for (FGScheduledFlightVecIterator i = flights.begin();
+ i != flights.end();
+ i++)
+ {
+ //i->adjustTime(now);
+ if (!(i->initializeAirports()))
+ return false;
+ }
+ //sort(flights.begin(), flights.end());
+ // Since time isn't initialized yet when this function is called,
+ // Find the closest possible airport.
+ // This should give a reasonable initialization order.
+ setClosestDistanceToUser();
+ return true;
+}
+
+bool FGAISchedule::update(time_t now)
{
FGAirport *dep;
FGAirport *arr;
string airport;
double courseToUser, courseToDest;
- double distanceToUser, distanceToDest;
+ double distanceToDest;
double speed;
Point3D temp;
userLongitude;
if (fgGetBool("/sim/traffic-manager/enabled") == false)
- return;
+ return true;
aimgr = (FGAIManager *) globals-> get_subsystem("ai_model");
// Before the flight status of this traffic entity is updated
if (firstRun)
{
for (FGScheduledFlightVecIterator i = flights.begin();
- i != flights.end();
- i++)
- {
- i->adjustTime(now);
- }
+ i != flights.end();
+ i++)
+ {
+ i->adjustTime(now);
+ }
firstRun = false;
}
userLatitude = fgGetDouble("/position/latitude-deg");
userLongitude = fgGetDouble("/position/longitude-deg");
-
+ //cerr << "Estimated minimum distance to user: " << distanceToUser << endl;
// This flight entry is entirely in the past, do we need to
// push it forward in time to the next scheduled departure.
if ((i->getDepartureTime() < now) && (i->getArrivalTime() < now))
{
i->update();
- return;
+ return true;
}
// Departure time in the past and arrival time in the future.
{
dep = i->getDepartureAirport();
arr = i->getArrivalAirport ();
+ if (!(dep && arr))
+ return false;
- temp = sgPolarToCart3d(Point3D(dep->_longitude *
+ temp = sgPolarToCart3d(Point3D(dep->getLongitude() *
SG_DEGREES_TO_RADIANS,
- dep->_latitude *
+ dep->getLatitude() *
SG_DEGREES_TO_RADIANS,
1.0));
a[0] = temp.x();
a[1] = temp.y();
a[2] = temp.z();
- temp = sgPolarToCart3d(Point3D(arr->_longitude *
+ temp = sgPolarToCart3d(Point3D(arr->getLongitude() *
SG_DEGREES_TO_RADIANS,
- arr->_latitude *
+ arr->getLatitude() *
SG_DEGREES_TO_RADIANS,
1.0));
b[0] = temp.x();
// total time enroute and elapsed time enroute.
totalTimeEnroute = i->getArrivalTime() - i->getDepartureTime();
- elapsedTimeEnroute = now - i->getDepartureTime();
- remainingTimeEnroute = i->getArrivalTime() - now;
-
+ if (now > i->getDepartureTime())
+ {
+ //err << "Lat = " << lat << ", lon = " << lon << endl;
+ //cerr << "Time diff: " << now-i->getDepartureTime() << endl;
+ elapsedTimeEnroute = now - i->getDepartureTime();
+ remainingTimeEnroute = i->getArrivalTime() - now;
+ }
+ else
+ {
+ lat = dep->getLatitude();
+ lon = dep->getLongitude();
+ elapsedTimeEnroute = 0;
+ remainingTimeEnroute = totalTimeEnroute;
+ }
+
angle *= ( (double) elapsedTimeEnroute/ (double) totalTimeEnroute);
newPos[j] += matrix[j][k]*a[k];
}
}
-
+
temp = sgCartToPolar3d(Point3D(newPos[0], newPos[1],newPos[2]));
-
if (now > i->getDepartureTime())
{
//cerr << "Lat = " << lat << ", lon = " << lon << endl;
//cerr << "Time diff: " << now-i->getDepartureTime() << endl;
lat = temp.lat() * SG_RADIANS_TO_DEGREES;
lon = temp.lon() * SG_RADIANS_TO_DEGREES;
- //err << "Lat = " << lat << ", lon = " << lon << endl;
- //cerr << "Time diff: " << now-i->getDepartureTime() << endl;
}
else
{
- lat = dep->_latitude;
- lon = dep->_longitude;
+ lat = dep->getLatitude();
+ lon = dep->getLongitude();
}
+
SGWayPoint current (lon,
lat,
i->getCruiseAlt());
SGWayPoint user ( userLongitude,
userLatitude,
i->getCruiseAlt());
- SGWayPoint dest ( arr->_longitude,
- arr->_latitude,
+ SGWayPoint dest ( arr->getLongitude(),
+ arr->getLatitude(),
i->getCruiseAlt());
// We really only need distance to user
// and course to destination
//cerr << registration << " is currently enroute from "
// << dep->_id << " to " << arr->_id << "distance : "
// << distanceToUser*SG_METER_TO_NM << endl;
- if ((distanceToUser*SG_METER_TO_NM) < 500.0)
+ if ((distanceToUser*SG_METER_TO_NM) < TRAFFICTOAIDIST)
{
- string flightPlanName = dep->_id + string("-") + arr->_id +
+ string flightPlanName = dep->getId() + string("-") + arr->getId() +
string(".xml");
int alt;
//if ((i->getDepartureTime() < now))
FGAIModelEntity entity;
- entity.m_class = "jet_transport";
+ entity.m_class = m_class; //"jet_transport";
+ entity.company = airline; //i->getAirline();
+ entity.acType = acType; //i->getAcType();
entity.path = modelPath.c_str();
entity.flightplan = flightPlanName.c_str();
entity.latitude = lat;
entity.longitude = lon;
entity.altitude = i->getCruiseAlt() *100; // convert from FL to feet
- entity.speed = 450;
- entity.fp = new FGAIFlightPlan(&entity, courseToDest, i->getDepartureTime(), dep, arr);
-
+ entity.speed = speed;
+ entity.roll = 0.0;
+ entity.fp = new FGAIFlightPlan(&entity, courseToDest, i->getDepartureTime(), dep,
+ arr,true, radius, flightType, acType, airline);
+
// Fixme: A non-existent model path results in an
// abort, due to an unhandled exeption, in fg main loop.
- AIManagerRef = aimgr->createAircraft( &entity, this);
- //cerr << "Created: " << AIManagerRef << endl;
+ FGAIBase *aircraft = (FGAIBase*)aimgr->createAircraft( &entity, this);
+ AIManagerRef = aircraft->getID();
+ //cerr << "Class: " << m_class << ". acType: " << acType << ". Airline: " << airline << ". Speed = " << speed << ". From " << dep->getId() << " to " << arr->getId() << ". Time Fraction = " << (remainingTimeEnroute/(double) totalTimeEnroute) << endl;
+ //cerr << "Latitude : " << lat << ". Longitude : " << lon << endl;
+ //cerr << "Dep : " << dep->getLatitude()<< ", "<< dep->getLongitude() << endl;
+ //cerr << "Arr : " << arr->getLatitude()<< ", "<< arr->getLongitude() << endl;
+ //cerr << "Time remaining = " << (remainingTimeEnroute/3600.0) << endl;
+ //cerr << "Total time = " << (totalTimeEnroute/3600.0) << endl;
+ //cerr << "Distance remaining = " << distanceToDest*SG_METER_TO_NM << endl;
+
}
- return;
- }
+ return true;
+ }
// Both departure and arrival time are in the future, so this
// the aircraft is parked at the departure airport.
// Currently this status is mostly ignored, but in future
// versions, code should go here that -if within user range-
// positions these aircraft at parking locations at the airport.
- if ((i->getDepartureTime() > now) && (i->getArrivalTime() > now))
+ if ((i->getDepartureTime() > now) && (i->getArrivalTime() > now))
{
dep = i->getDepartureAirport();
- return;
+ return true;
}
}
+ //cerr << "Traffic schedule got to beyond last clause" << endl;
+ // EMH: prevent a warning, should this be 'true' instead?
+ // DT: YES. Originally, this code couldn't be reached, but
+ // when the "if(!(AIManagerManager))" clause is false we
+ // fall through right to the end. This is a valid flow.
+ // the actual value is pretty innocent, only it triggers
+ // warning in TrafficManager::update().
+ // (which was added as a sanity check for myself in the first place. :-)
+ return true;
}
sort(flights.begin(), flights.end());
}
+double FGAISchedule::getSpeed()
+{
+ double courseToUser, courseToDest;
+ double distanceToUser, distanceToDest;
+ double speed, remainingTimeEnroute;
+ FGAirport *dep, *arr;
+
+ FGScheduledFlightVecIterator i = flights.begin();
+ dep = i->getDepartureAirport();
+ arr = i->getArrivalAirport ();
+ if (!(dep && arr))
+ return 0;
+
+ SGWayPoint dest ( dep->getLongitude(),
+ dep->getLatitude(),
+ i->getCruiseAlt());
+ SGWayPoint curr ( arr->getLongitude(),
+ arr->getLatitude(),
+ i->getCruiseAlt());
+ remainingTimeEnroute = i->getArrivalTime() - i->getDepartureTime();
+ dest.CourseAndDistance(curr, &courseToDest, &distanceToDest);
+ speed = (distanceToDest*SG_METER_TO_NM) /
+ ((double) remainingTimeEnroute/3600.0);
+ return speed;
+}
+
+
+void FGAISchedule::setClosestDistanceToUser()
+{
+
+
+ double course;
+ double dist;
+
+ Point3D temp;
+ time_t
+ totalTimeEnroute,
+ elapsedTimeEnroute;
+
+ double userLatitude = fgGetDouble("/position/latitude-deg");
+ double userLongitude = fgGetDouble("/position/longitude-deg");
+
+ FGAirport *dep;
+
+#if defined( __CYGWIN__) || defined( __MINGW32__)
+ #define HUGE HUGE_VAL
+#endif
+ distanceToUser = HUGE;
+ FGScheduledFlightVecIterator i = flights.begin();
+ while (i != flights.end())
+ {
+ dep = i->getDepartureAirport();
+ //if (!(dep))
+ //return HUGE;
+
+ SGWayPoint user ( userLongitude,
+ userLatitude,
+ i->getCruiseAlt());
+ SGWayPoint current (dep->getLongitude(),
+ dep->getLatitude(),
+ 0);
+ user.CourseAndDistance(current, &course, &dist);
+ if (dist < distanceToUser)
+ {
+ distanceToUser = dist;
+ //cerr << "Found closest distance to user for " << registration << " to be " << distanceToUser << " at airport " << dep->getId() << endl;
+ }
+ i++;
+ }
+ //return distToUser;
+}