# include <config.h>
#endif
-#include <math.h>
-#include <algorithm>
+#include "simple.hxx"
-#include <simgear/compiler.h>
+#include <cassert>
-#include <Environment/environment_mgr.hxx>
-#include <Environment/environment.hxx>
#include <simgear/misc/sg_path.hxx>
#include <simgear/props/props.hxx>
-#include <simgear/structure/subsystem_mgr.hxx>
+#include <simgear/props/props_io.hxx>
#include <simgear/debug/logstream.hxx>
-#include <Main/globals.hxx>
+#include <simgear/sg_inlines.h>
+
+#include <Environment/environment_mgr.hxx>
+#include <Environment/environment.hxx>
#include <Main/fg_props.hxx>
#include <Airports/runways.hxx>
+#include <Airports/pavement.hxx>
#include <Airports/dynamics.hxx>
+#include <Airports/xmlloader.hxx>
+#include <Navaids/procedure.hxx>
+#include <Navaids/waypoint.hxx>
+#include <Navaids/PositionedBinding.hxx>
+#include <ATC/CommStation.hxx>
-#include <string>
-
-#include "simple.hxx"
-#include "xmlloader.hxx"
-
-using std::sort;
-using std::random_shuffle;
-
+using std::vector;
+using std::pair;
+using namespace flightgear;
+// magic import of a helper which uses FGPositioned internals
+extern char** searchAirportNamesAndIdents(const std::string& aFilter);
/***************************************************************************
* FGAirport
_tower_location(tower_location),
_name(name),
_has_metar(has_metar),
- _dynamics(0)
+ _dynamics(0),
+ mRunwaysLoaded(false),
+ mTaxiwaysLoaded(true)
{
+ init(true); // init FGPositioned
}
FGAirportDynamics * FGAirport::getDynamics()
{
- if (_dynamics != 0) {
+ if (_dynamics) {
return _dynamics;
- } else {
- //cerr << "Trying to load dynamics for " << _id << endl;
- _dynamics = new FGAirportDynamics(this);
- XMLLoader::load(_dynamics);
-
- FGRunwayPreference rwyPrefs(this);
- XMLLoader::load(&rwyPrefs);
- _dynamics->setRwyUse(rwyPrefs);
- }
+ }
+
+ _dynamics = new FGAirportDynamics(this);
+ XMLLoader::load(_dynamics);
+
+ FGRunwayPreference rwyPrefs(this);
+ XMLLoader::load(&rwyPrefs);
+ _dynamics->setRwyUse(rwyPrefs);
+ XMLLoader::load(_dynamics->getSIDs());
+
return _dynamics;
}
unsigned int FGAirport::numRunways() const
{
+ loadRunways();
return mRunways.size();
}
FGRunway* FGAirport::getRunwayByIndex(unsigned int aIndex) const
{
+ loadRunways();
+
assert(aIndex >= 0 && aIndex < mRunways.size());
return mRunways[aIndex];
}
FGAirport::Runway_iterator
FGAirport::getIteratorForRunwayIdent(const string& aIdent) const
{
+ if (aIdent.empty())
+ return mRunways.end();
+
+ loadRunways();
+
string ident(aIdent);
if ((aIdent.size() == 1) || !isdigit(aIdent[1])) {
ident = "0" + aIdent;
return it; // end()
}
-static double normaliseBearing(double aBearing)
-{
- while (aBearing < -180) {
- aBearing += 360.0;
- }
-
- while (aBearing > 180.0) {
- aBearing -= 360.0;
- }
-
- return aBearing;
-}
-
FGRunway* FGAirport::findBestRunwayForHeading(double aHeading) const
{
+ loadRunways();
+
Runway_iterator it = mRunways.begin();
FGRunway* result = NULL;
double currentBestQuality = 0.0;
for (; it != mRunways.end(); ++it) {
double good = (*it)->score(lengthWeight, widthWeight, surfaceWeight);
- double dev = normaliseBearing(aHeading - (*it)->headingDeg());
+ double dev = aHeading - (*it)->headingDeg();
+ SG_NORMALIZE_RANGE(dev, -180.0, 180.0);
double bad = fabs(deviationWeight * dev) + 1e-20;
double quality = good / bad;
return result;
}
+FGRunway* FGAirport::findBestRunwayForPos(const SGGeod& aPos) const
+{
+ loadRunways();
+
+ Runway_iterator it = mRunways.begin();
+ FGRunway* result = NULL;
+ double currentLowestDev = 180.0;
+
+ for (; it != mRunways.end(); ++it) {
+ double inboundCourse = SGGeodesy::courseDeg(aPos, (*it)->end());
+ double dev = inboundCourse - (*it)->headingDeg();
+ SG_NORMALIZE_RANGE(dev, -180.0, 180.0);
+
+ dev = fabs(dev);
+ if (dev < currentLowestDev) { // new best match
+ currentLowestDev = dev;
+ result = *it;
+ }
+ } // of runway iteration
+
+ return result;
+
+}
+
bool FGAirport::hasHardRunwayOfLengthFt(double aLengthFt) const
{
+ loadRunways();
+
unsigned int numRunways(mRunways.size());
for (unsigned int r=0; r<numRunways; ++r) {
FGRunway* rwy = mRunways[r];
if (rwy->isReciprocal()) {
continue; // we only care about lengths, so don't do work twice
}
-
- int surface = rwy->surface();
- if ((surface != 1) && (surface != 2)) {
- continue; // no hard surface
- }
-
- if (rwy->lengthFt() >= aLengthFt) {
+
+ if (rwy->isHardSurface() && (rwy->lengthFt() >= aLengthFt)) {
return true; // we're done!
}
} // of runways iteration
unsigned int FGAirport::numTaxiways() const
{
+ loadTaxiways();
return mTaxiways.size();
}
-FGRunway* FGAirport::getTaxiwayByIndex(unsigned int aIndex) const
+FGTaxiway* FGAirport::getTaxiwayByIndex(unsigned int aIndex) const
{
+ loadTaxiways();
assert(aIndex >= 0 && aIndex < mTaxiways.size());
return mTaxiways[aIndex];
}
-void FGAirport::addRunway(FGRunway* aRunway)
+unsigned int FGAirport::numPavements() const
{
- aRunway->setAirport(this);
-
- if (aRunway->isTaxiway()) {
- mTaxiways.push_back(aRunway);
- } else {
- mRunways.push_back(aRunway);
+ loadTaxiways();
+ return mPavements.size();
+}
+
+FGPavement* FGAirport::getPavementByIndex(unsigned int aIndex) const
+{
+ loadTaxiways();
+ assert(aIndex >= 0 && aIndex < mPavements.size());
+ return mPavements[aIndex];
+}
+
+void FGAirport::setRunwaysAndTaxiways(vector<FGRunwayPtr>& rwys,
+ vector<FGTaxiwayPtr>& txwys,
+ vector<FGPavementPtr>& pvts)
+{
+ mRunways.swap(rwys);
+ Runway_iterator it = mRunways.begin();
+ for (; it != mRunways.end(); ++it) {
+ (*it)->setAirport(this);
}
+
+ mTaxiways.swap(txwys);
+ mPavements.swap(pvts);
}
FGRunway* FGAirport::getActiveRunwayForUsage() const
envMgr = (FGEnvironmentMgr *) globals->get_subsystem("environment");
}
- FGEnvironment stationWeather(envMgr->getEnvironment(mPosition));
+ // This forces West-facing rwys to be used in no-wind situations
+ // which is consistent with Flightgear's initial setup.
+ double hdg = 270;
+
+ if (envMgr) {
+ FGEnvironment stationWeather(envMgr->getEnvironment(mPosition));
- double windSpeed = stationWeather.get_wind_speed_kt();
- double hdg = stationWeather.get_wind_from_heading_deg();
- if (windSpeed <= 0.0) {
- hdg = 270; // This forces West-facing rwys to be used in no-wind situations
- // which is consistent with Flightgear's initial setup.
+ double windSpeed = stationWeather.get_wind_speed_kt();
+ if (windSpeed > 0.0) {
+ hdg = stationWeather.get_wind_from_heading_deg();
+ }
}
return findBestRunwayForHeading(hdg);
{
}
-bool FGAirport::HardSurfaceFilter::pass(FGPositioned* aPos) const
+bool FGAirport::HardSurfaceFilter::passAirport(FGAirport* aApt) const
{
- if (aPos->type() != AIRPORT) {
- return false; // exclude seaports and heliports as well, we need a runways
- }
-
- return static_cast<FGAirport*>(aPos)->hasHardRunwayOfLengthFt(mMinLengthFt);
+ return aApt->hasHardRunwayOfLengthFt(mMinLengthFt);
}
-/******************************************************************************
- * FGAirportList
- *****************************************************************************/
+FGAirport* FGAirport::findByIdent(const std::string& aIdent)
+{
+ FGPositionedRef r;
+ PortsFilter filter;
+ r = FGPositioned::findNextWithPartialId(r, aIdent, &filter);
+ if (!r) {
+ return NULL; // we don't warn here, let the caller do that
+ }
+ return static_cast<FGAirport*>(r.ptr());
+}
-// Populates a list of subdirectories of $FG_ROOT/Airports/AI so that
-// the add() method doesn't have to try opening 2 XML files in each of
-// thousands of non-existent directories. FIXME: should probably add
-// code to free this list after parsing of apt.dat is finished;
-// non-issue at the moment, however, as there are no AI subdirectories
-// in the base package.
-//
-// Note: 2005/12/23: This is probably not necessary anymore, because I'm
-// Switching to runtime airport dynamics loading (DT).
-FGAirportList::FGAirportList()
+FGAirport* FGAirport::getByIdent(const std::string& aIdent)
{
-// ulDir* d;
-// ulDirEnt* dent;
-// SGPath aid( globals->get_fg_root() );
-// aid.append( "/Airports/AI" );
-// if((d = ulOpenDir(aid.c_str())) == NULL)
-// return;
-// while((dent = ulReadDir(d)) != NULL) {
-// SG_LOG( SG_GENERAL, SG_DEBUG, "Dent: " << dent->d_name );
-// ai_dirs.insert(dent->d_name);
-// }
-// ulCloseDir(d);
+ FGPositionedRef r;
+ PortsFilter filter;
+ r = FGPositioned::findNextWithPartialId(r, aIdent, &filter);
+ if (!r) {
+ throw sg_range_exception("No such airport with ident: " + aIdent);
+ }
+ return static_cast<FGAirport*>(r.ptr());
}
+char** FGAirport::searchNamesAndIdents(const std::string& aFilter)
+{
+ // we delegate all the work to a horrible helper in FGPositioned, which can
+ // access the (private) index data.
+ return searchAirportNamesAndIdents(aFilter);
+}
-FGAirportList::~FGAirportList( void )
+// find basic airport location info from airport database
+const FGAirport *fgFindAirportID( const string& id)
{
- for (unsigned int i = 0; i < airports_array.size(); ++i) {
- delete airports_array[i];
+ if ( id.empty() ) {
+ return NULL;
}
+
+ return FGAirport::findByIdent(id);
}
-
-// add an entry to the list
-FGAirport* FGAirportList::add( const string &id, const SGGeod& location, const SGGeod& tower_location,
- const string &name, bool has_metar, FGPositioned::Type aType)
+void FGAirport::loadRunways() const
{
- FGAirport* a = new FGAirport(id, location, tower_location, name, has_metar, aType);
- airports_by_id[a->getId()] = a;
- // try and read in an auxilary file
-
- airports_array.push_back( a );
- SG_LOG( SG_GENERAL, SG_BULK, "Adding " << id << " pos = " << location.getLongitudeDeg()
- << ", " << location.getLatitudeDeg() << " elev = " << location.getElevationFt() );
-
- return a;
+ if (mRunwaysLoaded) {
+ return; // already loaded, great
+ }
+
+ mRunwaysLoaded = true;
+ loadSceneryDefinitions();
}
-
-// search for the specified id
-FGAirport* FGAirportList::search( const string& id)
+void FGAirport::loadTaxiways() const
{
- airport_map_iterator itr = airports_by_id.find(id);
- return (itr == airports_by_id.end() ? NULL : itr->second);
+ if (mTaxiwaysLoaded) {
+ return; // already loaded, great
+ }
}
-// wrap an FGIdentOrdering in an STL-compatible functor. not the most
-// efficent / pretty thing in the world, but avoids template nastiness in the
-// headers, and we're only doing O(log(N)) comparisoms per search
-class orderingFunctor
+void FGAirport::loadProcedures() const
{
-public:
- orderingFunctor(FGIdentOrdering* aOrder) :
- mOrdering(aOrder)
- { assert(aOrder); }
+ if (mProceduresLoaded) {
+ return;
+ }
- bool operator()(const airport_map::value_type& aA, const std::string& aB) const
- {
- return mOrdering->compare(aA.first,aB);
+ mProceduresLoaded = true;
+ SGPath path;
+ if (!XMLLoader::findAirportData(ident(), "procedures", path)) {
+ SG_LOG(SG_GENERAL, SG_INFO, "no procedures data available for " << ident());
+ return;
}
+
+ SG_LOG(SG_GENERAL, SG_INFO, ident() << ": loading procedures from " << path.str());
+ Route::loadAirportProcedures(path, const_cast<FGAirport*>(this));
+}
- bool operator()(const std::string& aA, const airport_map::value_type& aB) const
- {
- return mOrdering->compare(aA, aB.first);
+void FGAirport::loadSceneryDefinitions() const
+{
+ // allow users to disable the scenery data in the short-term
+ // longer term, this option can probably disappear
+ if (!fgGetBool("/sim/paths/use-custom-scenery-data")) {
+ return;
+ }
+
+ SGPath path;
+ SGPropertyNode_ptr rootNode = new SGPropertyNode;
+ if (XMLLoader::findAirportData(ident(), "threshold", path)) {
+ readProperties(path.str(), rootNode);
+ const_cast<FGAirport*>(this)->readThresholdData(rootNode);
}
+
+ // repeat for the tower data
+ rootNode = new SGPropertyNode;
+ if (XMLLoader::findAirportData(ident(), "twr", path)) {
+ readProperties(path.str(), rootNode);
+ const_cast<FGAirport*>(this)->readTowerData(rootNode);
+ }
+}
- bool operator()(const airport_map::value_type& aA, const airport_map::value_type& aB) const
- {
- return mOrdering->compare(aA.first, aB.first);
+void FGAirport::readThresholdData(SGPropertyNode* aRoot)
+{
+ SGPropertyNode* runway;
+ int runwayIndex = 0;
+ for (; (runway = aRoot->getChild("runway", runwayIndex)) != NULL; ++runwayIndex) {
+ SGPropertyNode* t0 = runway->getChild("threshold", 0),
+ *t1 = runway->getChild("threshold", 1);
+ assert(t0);
+ assert(t1); // too strict? mayeb we should finally allow single-ended runways
+
+ processThreshold(t0);
+ processThreshold(t1);
+ } // of runways iteration
+}
+
+void FGAirport::processThreshold(SGPropertyNode* aThreshold)
+{
+ // first, let's identify the current runway
+ string id(aThreshold->getStringValue("rwy"));
+ if (!hasRunwayWithIdent(id)) {
+ SG_LOG(SG_GENERAL, SG_DEBUG, "FGAirport::processThreshold: "
+ "found runway not defined in the global data:" << ident() << "/" << id);
+ return;
}
-private:
- FGIdentOrdering* mOrdering;
-};
+ FGRunway* rwy = getRunwayByIdent(id);
+ rwy->processThreshold(aThreshold);
+}
-const FGAirport* FGAirportList::findFirstById(const std::string& aIdent, FGIdentOrdering* aOrder)
+void FGAirport::readTowerData(SGPropertyNode* aRoot)
{
- airport_map_iterator itr;
- if (aOrder) {
- orderingFunctor func(aOrder);
- itr = std::lower_bound(airports_by_id.begin(),airports_by_id.end(), aIdent, func);
- } else {
- itr = airports_by_id.lower_bound(aIdent);
+ SGPropertyNode* twrNode = aRoot->getChild("tower")->getChild("twr");
+ double lat = twrNode->getDoubleValue("lat"),
+ lon = twrNode->getDoubleValue("lon"),
+ elevM = twrNode->getDoubleValue("elev-m");
+// tower elevation is AGL, not AMSL. Since we don't want to depend on the
+// scenery for a precise terrain elevation, we use the field elevation
+// (this is also what the apt.dat code does)
+ double fieldElevationM = geod().getElevationM();
+
+ _tower_location = SGGeod::fromDegM(lon, lat, fieldElevationM + elevM);
+}
+
+bool FGAirport::buildApproach(Waypt* aEnroute, STAR* aSTAR, FGRunway* aRwy, WayptVec& aRoute)
+{
+ loadProcedures();
+
+ if ((aRwy && (aRwy->airport() != this))) {
+ throw sg_exception("invalid parameters", "FGAirport::buildApproach");
}
- if (itr == airports_by_id.end()) {
- return NULL;
+ if (aSTAR) {
+ bool ok = aSTAR->route(aRwy, aEnroute, aRoute);
+ if (!ok) {
+ SG_LOG(SG_GENERAL, SG_WARN, ident() << ": build approach, STAR " << aSTAR->ident()
+ << " failed to route from transition " << aEnroute->ident());
+ return false;
+ }
+ } else if (aEnroute) {
+ // no a STAR specified, just use enroute point directly
+ aRoute.push_back(aEnroute);
+ }
+
+ if (!aRwy) {
+ // no runway selected yet, but we loaded the STAR, so that's fine, we're done
+ return true;
}
- return itr->second;
+// build the approach (possibly including transition), and including the missed segment
+ vector<Approach*> aps;
+ for (unsigned int j=0; j<mApproaches.size();++j) {
+ if (mApproaches[j]->runway() == aRwy) {
+ aps.push_back(mApproaches[j]);
+ }
+ } // of approach filter by runway
+
+ if (aps.empty()) {
+ SG_LOG(SG_GENERAL, SG_INFO, ident() << "; no approaches defined for runway " << aRwy->ident());
+ // could build a fallback approach here
+ return false;
+ }
+
+ for (unsigned int k=0; k<aps.size(); ++k) {
+ if (aps[k]->route(aRoute.back(), aRoute)) {
+ return true;
+ }
+ } // of initial approach iteration
+
+ SG_LOG(SG_GENERAL, SG_INFO, ident() << ": unable to find transition to runway "
+ << aRwy->ident() << ", assume vectors");
+
+ WayptRef v(new ATCVectors(NULL, this));
+ aRoute.push_back(v);
+ return aps.front()->routeFromVectors(aRoute);
}
-// search for the airport nearest the specified position
-FGAirport* FGAirportList::search(double lon_deg, double lat_deg, double max_range)
+pair<flightgear::SID*, WayptRef>
+FGAirport::selectSID(const SGGeod& aDest, FGRunway* aRwy)
{
- static FGAirportSearchFilter accept_any;
- return search(lon_deg, lat_deg, max_range, accept_any);
+ loadProcedures();
+
+ WayptRef enroute;
+ flightgear::SID* sid = NULL;
+ double d = 1e9;
+
+ for (unsigned int i=0; i<mSIDs.size(); ++i) {
+ if (aRwy && !mSIDs[i]->isForRunway(aRwy)) {
+ continue;
+ }
+
+ WayptRef e = mSIDs[i]->findBestTransition(aDest);
+ if (!e) {
+ continue; // strange, but let's not worry about it
+ }
+
+ // assert(e->isFixedPosition());
+ double ed = SGGeodesy::distanceM(aDest, e->position());
+ if (ed < d) { // new best match
+ enroute = e;
+ d = ed;
+ sid = mSIDs[i];
+ }
+ } // of SID iteration
+
+ if (!mSIDs.empty() && !sid) {
+ SG_LOG(SG_GENERAL, SG_INFO, ident() << "selectSID, no SID found (runway="
+ << (aRwy ? aRwy->ident() : "no runway preference"));
+ }
+
+ return std::make_pair(sid, enroute);
+}
+
+pair<STAR*, WayptRef>
+FGAirport::selectSTAR(const SGGeod& aOrigin, FGRunway* aRwy)
+{
+ loadProcedures();
+
+ WayptRef enroute;
+ STAR* star = NULL;
+ double d = 1e9;
+
+ for (unsigned int i=0; i<mSTARs.size(); ++i) {
+ if (!mSTARs[i]->isForRunway(aRwy)) {
+ continue;
+ }
+
+ SG_LOG(SG_GENERAL, SG_INFO, "STAR " << mSTARs[i]->ident() << " is valid for runway");
+ WayptRef e = mSTARs[i]->findBestTransition(aOrigin);
+ if (!e) {
+ continue; // strange, but let's not worry about it
+ }
+
+ // assert(e->isFixedPosition());
+ double ed = SGGeodesy::distanceM(aOrigin, e->position());
+ if (ed < d) { // new best match
+ enroute = e;
+ d = ed;
+ star = mSTARs[i];
+ }
+ } // of STAR iteration
+
+ return std::make_pair(star, enroute);
}
-// search for the airport nearest the specified position and
-// passing the filter
-FGAirport* FGAirportList::search(double lon_deg, double lat_deg,
- double max_range,
- FGAirportSearchFilter& filter)
+void FGAirport::addSID(flightgear::SID* aSid)
{
- double min_dist = max_range;
-
- airport_list_iterator it = airports_array.begin();
- airport_list_iterator end = airports_array.end();
- airport_list_iterator closest = end;
- for (; it != end; ++it) {
- if (!filter.pass(*it))
- continue;
+ mSIDs.push_back(aSid);
+}
- // crude manhatten distance based on lat/lon difference
- double d = fabs(lon_deg - (*it)->getLongitude())
- + fabs(lat_deg - (*it)->getLatitude());
- if (d < min_dist) {
- closest = it;
- min_dist = d;
- }
- }
- return closest != end ? *closest : 0;
+void FGAirport::addSTAR(STAR* aStar)
+{
+ mSTARs.push_back(aStar);
}
+void FGAirport::addApproach(Approach* aApp)
+{
+ mApproaches.push_back(aApp);
+}
-int
-FGAirportList::size () const
+unsigned int FGAirport::numSIDs() const
{
- return airports_array.size();
+ loadProcedures();
+ return mSIDs.size();
}
+flightgear::SID* FGAirport::getSIDByIndex(unsigned int aIndex) const
+{
+ loadProcedures();
+ return mSIDs[aIndex];
+}
-const FGAirport *FGAirportList::getAirport( unsigned int index ) const
+flightgear::SID* FGAirport::findSIDWithIdent(const std::string& aIdent) const
{
- if (index < airports_array.size()) {
- return(airports_array[index]);
- } else {
- return(NULL);
+ loadProcedures();
+ for (unsigned int i=0; i<mSIDs.size(); ++i) {
+ if (mSIDs[i]->ident() == aIdent) {
+ return mSIDs[i];
}
+ }
+
+ return NULL;
+}
+
+unsigned int FGAirport::numSTARs() const
+{
+ loadProcedures();
+ return mSTARs.size();
}
+STAR* FGAirport::getSTARByIndex(unsigned int aIndex) const
+{
+ loadProcedures();
+ return mSTARs[aIndex];
+}
-/**
- * Mark the specified airport record as not having metar
- */
-void FGAirportList::no_metar( const string &id )
+STAR* FGAirport::findSTARWithIdent(const std::string& aIdent) const
{
- if(airports_by_id.find(id) != airports_by_id.end()) {
- airports_by_id[id]->setMetar(false);
+ loadProcedures();
+ for (unsigned int i=0; i<mSTARs.size(); ++i) {
+ if (mSTARs[i]->ident() == aIdent) {
+ return mSTARs[i];
}
+ }
+
+ return NULL;
}
+unsigned int FGAirport::numApproaches() const
+{
+ loadProcedures();
+ return mApproaches.size();
+}
-/**
- * Mark the specified airport record as (yes) having metar
- */
-void FGAirportList::has_metar( const string &id )
+Approach* FGAirport::getApproachByIndex(unsigned int aIndex) const
{
- if(airports_by_id.find(id) != airports_by_id.end()) {
- airports_by_id[id]->setMetar(true);
- }
+ loadProcedures();
+ return mApproaches[aIndex];
}
+class AirportNodeListener : public SGPropertyChangeListener
+{
+public:
+ AirportNodeListener()
+ {
+ SGPropertyNode* airports = fgGetNode("/sim/airport");
+ airports->addChangeListener(this, false);
+ }
+
+ virtual void valueChanged(SGPropertyNode*)
+ {
+ }
-// find basic airport location info from airport database
-const FGAirport *fgFindAirportID( const string& id)
+ virtual void childAdded(SGPropertyNode* pr, SGPropertyNode* child)
+ {
+ FGAirport* apt = FGAirport::findByIdent(child->getName());
+ if (!apt) {
+ return;
+ }
+
+ flightgear::PositionedBinding::bind(apt, child);
+ }
+};
+
+void FGAirport::installPropertyListener()
+{
+ new AirportNodeListener;
+}
+
+flightgear::PositionedBinding*
+FGAirport::createBinding(SGPropertyNode* nd) const
{
- const FGAirport* result = NULL;
- if ( id.length() ) {
- SG_LOG( SG_GENERAL, SG_BULK, "Searching for airport code = " << id );
+ return new flightgear::AirportBinding(this, nd);
+}
- result = globals->get_airports()->search( id );
+void FGAirport::setCommStations(CommStationList& comms)
+{
+ mCommStations.swap(comms);
+ for (unsigned int c=0; c<mCommStations.size(); ++c) {
+ mCommStations[c]->setAirport(this);
+ }
+}
- if ( result == NULL ) {
- SG_LOG( SG_GENERAL, SG_ALERT,
- "Failed to find " << id << " in apt.dat.gz" );
- return NULL;
+CommStationList
+FGAirport::commStationsOfType(FGPositioned::Type aTy) const
+{
+ CommStationList result;
+ for (unsigned int c=0; c<mCommStations.size(); ++c) {
+ if (mCommStations[c]->type() == aTy) {
+ result.push_back(mCommStations[c]);
}
- } else {
- return NULL;
}
- SG_LOG( SG_GENERAL, SG_BULK,
- "Position for " << id << " is ("
- << result->getLongitude() << ", "
- << result->getLatitude() << ")" );
-
return result;
}
-
// get airport elevation
double fgGetAirportElev( const string& id )
{
- SG_LOG( SG_GENERAL, SG_BULK,
- "Finding elevation for airport: " << id );
-
const FGAirport *a=fgFindAirportID( id);
if (a) {
return a->getElevation();
// get airport position
-Point3D fgGetAirportPos( const string& id )
+SGGeod fgGetAirportPos( const string& id )
{
- SG_LOG( SG_ATC, SG_BULK,
- "Finding position for airport: " << id );
-
const FGAirport *a = fgFindAirportID( id);
if (a) {
- return Point3D(a->getLongitude(), a->getLatitude(), a->getElevation());
+ return SGGeod::fromDegM(a->getLongitude(), a->getLatitude(), a->getElevation());
} else {
- return Point3D(0.0, 0.0, -9999.0);
+ return SGGeod::fromDegM(0.0, 0.0, -9999.0);
}
}