#include <boost/foreach.hpp>
#include <boost/algorithm/string/case_conv.hpp>
+#include <boost/tuple/tuple.hpp> // for boost::tie
#include <simgear/sg_inlines.h>
#include <simgear/scene/material/mat.hxx>
#include <simgear/bucket/newbucket.hxx>
#include <Airports/runways.hxx>
-#include <Airports/simple.hxx>
+#include <Airports/airport.hxx>
#include <Airports/dynamics.hxx>
#include <Airports/parking.hxx>
#include <Scripting/NasalSys.hxx>
static const char* runwayGhostGetMember(naContext c, void* g, naRef field, naRef* out);
naGhostType RunwayGhostType = { positionedGhostDestroy, "runway", runwayGhostGetMember, 0 };
+naGhostType HelipadGhostType = { positionedGhostDestroy, "helipad", runwayGhostGetMember, 0 };
naGhostType TaxiwayGhostType = { positionedGhostDestroy, "taxiway", runwayGhostGetMember, 0 };
static const char* fixGhostGetMember(naContext c, void* g, naRef field, naRef* out);
return naNewGhost2(c, &RunwayGhostType, (void*) r);
}
+naRef ghostForHelipad(naContext c, const FGHelipad* r)
+{
+ if (!r) {
+ return naNil();
+ }
+
+ FGPositioned::get(r); // take a ref
+ return naNewGhost2(c, &HelipadGhostType, (void*) r);
+}
+
naRef ghostForTaxiway(naContext c, const FGTaxiway* r)
{
if (!r) {
double minLengthFt = fgGetDouble("/sim/navdb/min-runway-length-ft");
for(unsigned int r=0; r<apt->numRunways(); ++r) {
FGRunway* rwy(apt->getRunwayByIndex(r));
-
- // ignore unusably short runways
+ // ignore unusably short runways
if (rwy->lengthFt() < minLengthFt) {
continue;
}
-
naRef rwyid = stringToNasal(c, rwy->ident());
naRef rwydata = ghostForRunway(c, rwy);
naHash_set(*out, rwyid, rwydata);
}
+ } else if (!strcmp(fieldName, "helipads")) {
+ *out = naNewHash(c);
+
+ for(unsigned int r=0; r<apt->numHelipads(); ++r) {
+ FGHelipad* hp(apt->getHelipadByIndex(r));
+
+ naRef rwyid = stringToNasal(c, hp->ident());
+ naRef rwydata = ghostForHelipad(c, hp);
+ naHash_set(*out, rwyid, rwydata);
+ }
} else if (!strcmp(fieldName, "taxiways")) {
*out = naNewVector(c);
static RouteRestriction routeRestrictionFromString(const char* s)
{
- string u(s);
+ std::string u(s);
boost::to_lower(u);
if (u == "computed") return RESTRICT_COMPUTED;
if (u == "at") return RESTRICT_AT;
ArrivalDeparture* ad = static_cast<ArrivalDeparture*>(proc);
*out = naNewVector(c);
- BOOST_FOREACH(string id, ad->transitionIdents()) {
+ BOOST_FOREACH(std::string id, ad->transitionIdents()) {
naVec_append(*out, stringToNasal(c, id));
}
} else {
FGRunway* rwy = (FGRunway*) g;
if (!strcmp(fieldName, "threshold")) *out = naNum(rwy->displacedThresholdM());
else if (!strcmp(fieldName, "stopway")) *out = naNum(rwy->stopwayM());
- else if (!strcmp(fieldName, "ils_frequency_mhz")) {
+ else if (!strcmp(fieldName, "reciprocal")) {
+ *out = ghostForRunway(c, rwy->reciprocalRunway());
+ } else if (!strcmp(fieldName, "ils_frequency_mhz")) {
*out = rwy->ILS() ? naNum(rwy->ILS()->get_freq() / 100.0) : naNil();
} else if (!strcmp(fieldName, "ils")) {
*out = ghostForNavaid(c, rwy->ILS());
}
-class AirportInfoFilter : public FGAirport::AirportFilter
-{
-public:
- AirportInfoFilter() : type(FGPositioned::AIRPORT) {
- minRunwayLengthFt = fgGetDouble("/sim/navdb/min-runway-length-ft", 0.0);
- }
-
- bool fromArg(naRef arg)
- {
- const char *s = naStr_data(arg);
- if(!strcmp(s, "airport")) type = FGPositioned::AIRPORT;
- else if(!strcmp(s, "seaport")) type = FGPositioned::SEAPORT;
- else if(!strcmp(s, "heliport")) type = FGPositioned::HELIPORT;
- else
- return false;
-
- return true;
- }
-
- virtual FGPositioned::Type minType() const {
- return type;
- }
-
- virtual FGPositioned::Type maxType() const {
- return type;
- }
-
- virtual bool pass(FGPositioned* aPos) const
- {
- FGAirport* apt = (FGAirport*) aPos;
- if ((apt->type() == FGPositioned::AIRPORT) &&
- !apt->hasHardRunwayOfLengthFt(minRunwayLengthFt))
- {
- return false;
- }
-
- return true;
- }
-
- FGPositioned::Type type;
- double minRunwayLengthFt;
-};
-
// Returns data hash for particular or nearest airport of a <type>, or nil
// on error.
//
double maxRange = 10000.0; // expose this? or pick a smaller value?
- AirportInfoFilter filter; // defaults to airports only
+ FGAirport::TypeRunwayFilter filter; // defaults to airports only
if(argc == 0) {
// fall through and use AIRPORT
} else if(argc == 1 && naIsString(args[0])) {
- if (filter.fromArg(args[0])) {
+ if (filter.fromTypeString(naStr_data(args[0]))) {
// done!
} else {
// user provided an <id>, hopefully
naRuntimeError(c, "findAirportsWithinRange expected range (in nm) as arg %d", argOffset);
}
- AirportInfoFilter filter; // defaults to airports only
+ FGAirport::TypeRunwayFilter filter; // defaults to airports only
double rangeNm = args[argOffset++].num;
if (argOffset < argc) {
- filter.fromArg(args[argOffset++]);
+ filter.fromTypeString(naStr_data(args[argOffset++]));
}
naRef r = naNewVector(c);
}
int argOffset = 0;
- string prefix(naStr_data(args[argOffset++]));
- AirportInfoFilter filter; // defaults to airports only
+ std::string prefix(naStr_data(args[argOffset++]));
+ FGAirport::TypeRunwayFilter filter; // defaults to airports only
if (argOffset < argc) {
- filter.fromArg(args[argOffset++]);
+ filter.fromTypeString(naStr_data(args[argOffset++]));
}
naRef r = naNewVector(c);
if (!apt) {
naRuntimeError(c, "airport.runway called on non-airport object");
}
-
+
if ((argc < 1) || !naIsString(args[0])) {
naRuntimeError(c, "airport.runway expects a runway ident argument");
}
-
+
std::string ident(naStr_data(args[0]));
boost::to_upper(ident);
- if (!apt->hasRunwayWithIdent(ident)) {
- return naNil();
+
+ if (apt->hasRunwayWithIdent(ident)) {
+ return ghostForRunway(c, apt->getRunwayByIdent(ident));
+ } else if (apt->hasHelipadWithIdent(ident)) {
+ return ghostForHelipad(c, apt->getHelipadByIdent(ident));
}
-
- return ghostForRunway(c, apt->getRunwayByIdent(ident));
+ return naNil();
}
-static naRef f_airport_taxiway(naContext c, naRef me, int argc, naRef* args)
+static naRef f_airport_runwaysWithoutReciprocals(naContext c, naRef me, int argc, naRef* args)
{
FGAirport* apt = airportGhost(me);
if (!apt) {
- naRuntimeError(c, "airport.taxiway called on non-airport object");
+ naRuntimeError(c, "airport.runwaysWithoutReciprocals called on non-airport object");
}
-
- if ((argc < 1) || !naIsString(args[0])) {
- naRuntimeError(c, "airport.taxiway expects a taxiway ident argument");
- }
-
- naRef taxiways = naNewVector(c);
-
- for (unsigned int i = 0; i < apt->numTaxiways(); i++) {
- naVec_append(taxiways, ghostForTaxiway(c, apt->getTaxiwayByIndex(i)));
+
+ FGRunwayList rwylist(apt->getRunwaysWithoutReciprocals());
+ naRef runways = naNewVector(c);
+ for (unsigned int r=0; r<rwylist.size(); ++r) {
+ FGRunway* rwy(rwylist[r]);
+ naVec_append(runways, ghostForRunway(c, apt->getRunwayByIdent(rwy->ident())));
}
-
- return taxiways;
+ return runways;
}
static naRef f_airport_sids(naContext c, naRef me, int argc, naRef* args)
naRuntimeError(c, "airport.getSid passed invalid argument");
}
- string ident = naStr_data(args[0]);
+ std::string ident = naStr_data(args[0]);
return ghostForProcedure(c, apt->findSIDWithIdent(ident));
}
naRuntimeError(c, "airport.getStar passed invalid argument");
}
- string ident = naStr_data(args[0]);
+ std::string ident = naStr_data(args[0]);
return ghostForProcedure(c, apt->findSTARWithIdent(ident));
}
naRuntimeError(c, "airport.getIAP passed invalid argument");
}
- string ident = naStr_data(args[0]);
+ std::string ident = naStr_data(args[0]);
return ghostForProcedure(c, apt->findApproachWithIdent(ident));
}
}
FGPositioned::Type type = FGPositioned::INVALID;
- string ident = naStr_data(args[argOffset++]);
+ std::string ident = naStr_data(args[argOffset++]);
if (argOffset < argc) {
type = FGPositioned::typeFromName(naStr_data(args[argOffset]));
}
naRuntimeError(c, "findFixesByIdent expectes ident string as arg %d", argOffset);
}
- string ident(naStr_data(args[argOffset]));
+ std::string ident(naStr_data(args[argOffset]));
naRef r = naNewVector(c);
FGPositioned::TypeFilter filter(FGPositioned::FIX);
{
callDelegateMethod("currentWaypointChanged");
}
+
+ virtual void cleared()
+ {
+ callDelegateMethod("cleared");
+ }
private:
void callDelegateMethod(const char* method)
naRuntimeError(c, "createWP: no identifier supplied");
}
- string ident = naStr_data(args[argOffset++]);
+ std::string ident = naStr_data(args[argOffset++]);
WayptRef wpt = new BasicWaypt(pos, ident, NULL);
// set waypt flags - approach, departure, pseudo, etc
return result;
}
+static naRef f_leg_courseAndDistanceFrom(naContext c, naRef me, int argc, naRef* args)
+{
+ FlightPlan::Leg* leg = fpLegGhost(me);
+ if (!leg) {
+ naRuntimeError(c, "leg.courseAndDistanceFrom called on non-flightplan-leg object");
+ }
+
+ SGGeod pos;
+ geodFromArgs(args, 0, argc, pos);
+
+ double courseDeg;
+ double distanceM;
+ boost::tie(courseDeg, distanceM) = leg->waypoint()->courseAndDistanceFrom(pos);
+
+ naRef result = naNewVector(c);
+ naVec_append(result, naNum(courseDeg));
+ naVec_append(result, naNum(distanceM * SG_METER_TO_NM));
+ return result;
+}
+
static naRef f_waypoint_navaid(naContext c, naRef me, int argc, naRef* args)
{
flightgear::Waypt* w = wayptGhost(me);
hashset(c, gcSave, "airportProto", airportPrototype);
hashset(c, airportPrototype, "runway", naNewFunc(c, naNewCCode(c, f_airport_runway)));
- hashset(c, airportPrototype, "taxiway", naNewFunc(c, naNewCCode(c, f_airport_taxiway)));
+ hashset(c, airportPrototype, "runwaysWithoutReciprocals", naNewFunc(c, naNewCCode(c, f_airport_runwaysWithoutReciprocals)));
+ hashset(c, airportPrototype, "helipad", naNewFunc(c, naNewCCode(c, f_airport_runway)));
hashset(c, airportPrototype, "tower", naNewFunc(c, naNewCCode(c, f_airport_tower)));
hashset(c, airportPrototype, "comms", naNewFunc(c, naNewCCode(c, f_airport_comms)));
hashset(c, airportPrototype, "sids", naNewFunc(c, naNewCCode(c, f_airport_sids)));
hashset(c, fpLegPrototype, "setSpeed", naNewFunc(c, naNewCCode(c, f_leg_setSpeed)));
hashset(c, fpLegPrototype, "setAltitude", naNewFunc(c, naNewCCode(c, f_leg_setAltitude)));
hashset(c, fpLegPrototype, "path", naNewFunc(c, naNewCCode(c, f_leg_path)));
+ hashset(c, fpLegPrototype, "courseAndDistanceFrom", naNewFunc(c, naNewCCode(c, f_leg_courseAndDistanceFrom)));
for(int i=0; funcs[i].name; i++) {
hashset(c, globals, funcs[i].name,