#include <simgear/compiler.h>
-#include <string>
-#include <vector>
+#include <Airports/runwaybase.hxx>
-class FGRunway
+// forward decls
+class FGAirport;
+class FGNavRecord;
+class SGPropertyNode;
+
+namespace flightgear {
+ class SID;
+ class STAR;
+ class Approach;
+}
+
+class FGRunway : public FGRunwayBase
{
+ PositionedID _airport;
+ bool _isReciprocal;
+ PositionedID _reciprocal;
+ double _displ_thresh;
+ double _stopway;
+ PositionedID _ils;
public:
- FGRunway();
- FGRunway(const std::string& id, const std::string& rwy_no,
- const double longitude, const double latitude,
+ FGRunway(PositionedID aGuid,
+ PositionedID aAirport, const std::string& rwy_no,
+ const SGGeod& aGeod,
const double heading, const double length,
const double width,
- const double displ_thresh1, const double displ_thresh2,
- const double stopway1, const double stopway2,
- const std::string& lighting_flags, const int surface_code,
- const std::string& shoulder_code, const int marking_code,
- const double smoothness, const bool dist_remaining);
+ const double displ_thresh,
+ const double stopway,
+ const int surface_code,
+ const bool reciprocal);
/**
* given a runway identifier (06, 18L, 31R) compute the identifier for the
- * opposite heading runway (24, 36R, 13L) string.
+ * reciprocal heading runway (24, 36R, 13L) string.
*/
static std::string reverseIdent(const std::string& aRunayIdent);
-
+
/**
* score this runway according to the specified weights. Used by
* FGAirport::findBestRunwayForHeading
*/
double score(double aLengthWt, double aWidthWt, double aSurfaceWt) const;
- bool isTaxiway() const;
-
- std::string _id;
- std::string _rwy_no;
- std::string _type; // runway / taxiway
-
- double _lon;
- double _lat;
- double _heading;
- double _length;
- double _width;
- double _displ_thresh1;
- double _displ_thresh2;
- double _stopway1;
- double _stopway2;
+ /**
+ * Test if this runway is the reciprocal. This allows users who iterate
+ * over runways to avoid counting runways twice, if desired.
+ */
+ bool isReciprocal() const
+ { return _isReciprocal; }
- std::string _lighting_flags;
- int _surface_code;
- std::string _shoulder_code;
- int _marking_code;
- double _smoothness;
- bool _dist_remaining;
+ /**
+ * Get the runway beginning point - this is syntatic sugar, equivalent to
+ * calling pointOnCenterline(0.0);
+ */
+ SGGeod begin() const;
+
+ /**
+ * Get the (possibly displaced) threshold point.
+ */
+ SGGeod threshold() const;
+
+ /**
+ * Get the 'far' end - this is equivalent to calling
+ * pointOnCenterline(lengthFt());
+ */
+ SGGeod end() const;
+
+ double displacedThresholdM() const
+ { return _displ_thresh * SG_FEET_TO_METER; }
+
+ double stopwayM() const
+ { return _stopway * SG_FEET_TO_METER; }
+
+ /**
+ * Airport this runway is located at
+ */
+ FGAirport* airport() const;
+
+ FGNavRecord* ILS() const;
+
+ /**
+ * retrieve the associated glideslope transmitter, if one is defined.
+ */
+ FGNavRecord* glideslope() const;
+
+ void setILS(PositionedID nav) { _ils = nav; }
+
+ FGRunway* reciprocalRunway() const;
+
+ void setReciprocalRunway(PositionedID other);
+
+ /**
+ * Get SIDs (DPs) associated with this runway
+ */
+ std::vector<flightgear::SID*> getSIDs() const;
+
+ /**
+ * Get STARs associared with this runway
+ */
+ std::vector<flightgear::STAR*> getSTARs() const;
+
+
+ std::vector<flightgear::Approach*> getApproaches() const;
+
};
-typedef std::vector<FGRunway> FGRunwayVector;
-
#endif // _FG_RUNWAYS_HXX