// NasalPositioned.cxx -- expose FGPositioned classes to Nasal // // Written by James Turner, started 2012. // // Copyright (C) 2012 James Turner // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public License as // published by the Free Software Foundation; either version 2 of the // License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, but // WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. #ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include "NasalPositioned.hxx" #include #include #include #include #include #include #include #include #include #include
#include
#include #include #include #include #include static void sgrefGhostDestroy(void* g); naGhostType PositionedGhostType = { sgrefGhostDestroy, "positioned" }; naGhostType WayptGhostType = { sgrefGhostDestroy, "waypoint" }; static void hashset(naContext c, naRef hash, const char* key, naRef val) { naRef s = naNewString(c); naStr_fromdata(s, (char*)key, strlen(key)); naHash_set(hash, s, val); } static naRef stringToNasal(naContext c, const std::string& s) { return naStr_fromdata(naNewString(c), const_cast(s.c_str()), s.length()); } static FGPositioned* positionedGhost(naRef r) { if (naGhost_type(r) == &PositionedGhostType) return (FGPositioned*) naGhost_ptr(r); return 0; } static flightgear::Waypt* wayptGhost(naRef r) { if (naGhost_type(r) == &WayptGhostType) return (flightgear::Waypt*) naGhost_ptr(r); return 0; } static void sgrefGhostDestroy(void* g) { SGReferenced* ref = (SGReferenced*)g; SGReferenced::put(ref); // unref } static naRef airportPrototype; static naRef routePrototype; static naRef waypointPrototype; naRef ghostForPositioned(naContext c, const FGPositioned* pos) { if (!pos) { return naNil(); } SGReferenced::get(pos); // take a ref return naNewGhost(c, &PositionedGhostType, (void*) pos); } naRef ghostForWaypt(naContext c, const flightgear::Waypt* wpt) { if (!wpt) { return naNil(); } SGReferenced::get(wpt); // take a ref return naNewGhost(c, &WayptGhostType, (void*) wpt); } naRef hashForAirport(naContext c, const FGAirport* apt) { std::string id = apt->ident(); std::string name = apt->name(); // build runways hash naRef rwys = naNewHash(c); for(unsigned int r=0; rnumRunways(); ++r) { FGRunway* rwy(apt->getRunwayByIndex(r)); naRef rwyid = stringToNasal(c, rwy->ident()); naRef rwydata = hashForRunway(c, rwy); naHash_set(rwys, rwyid, rwydata); } naRef aptdata = naNewHash(c); hashset(c, aptdata, "id", stringToNasal(c, id)); hashset(c, aptdata, "name", stringToNasal(c, name)); hashset(c, aptdata, "lat", naNum(apt->getLatitude())); hashset(c, aptdata, "lon", naNum(apt->getLongitude())); hashset(c, aptdata, "elevation", naNum(apt->getElevation() * SG_FEET_TO_METER)); hashset(c, aptdata, "has_metar", naNum(apt->getMetar())); hashset(c, aptdata, "runways", rwys); hashset(c, aptdata, "_positioned", ghostForPositioned(c, apt)); naRef parents = naNewVector(c); naVec_append(parents, airportPrototype); hashset(c, aptdata, "parents", parents); return aptdata; } naRef hashForWaypoint(naContext c, flightgear::Waypt* wpt, flightgear::Waypt* next) { SGGeod pos = wpt->position(); naRef h = naNewHash(c); flightgear::Procedure* proc = dynamic_cast(wpt->owner()); if (proc) { hashset(c, h, "wp_parent_name", stringToNasal(c, proc->ident())); // set 'wp_parent' route object to query the SID / STAR / airway? // TODO - needs some extensions to flightgear::Route } if (wpt->type() == "hold") { hashset(c, h, "fly_type", stringToNasal(c, "Hold")); } else if (wpt->flag(flightgear::WPT_OVERFLIGHT)) { hashset(c, h, "fly_type", stringToNasal(c, "flyOver")); } else { hashset(c, h, "fly_type", stringToNasal(c, "flyBy")); } hashset(c, h, "wp_type", stringToNasal(c, wpt->type())); hashset(c, h, "wp_name", stringToNasal(c, wpt->ident())); hashset(c, h, "wp_lat", naNum(pos.getLatitudeDeg())); hashset(c, h, "wp_lon", naNum(pos.getLongitudeDeg())); hashset(c, h, "alt_cstr", naNum(wpt->altitudeFt())); if (wpt->speedRestriction() == flightgear::SPEED_RESTRICT_MACH) { hashset(c, h, "spd_cstr", naNum(wpt->speedMach())); } else { hashset(c, h, "spd_cstr", naNum(wpt->speedKts())); } if (next) { std::pair crsDist = next->courseAndDistanceFrom(pos); hashset(c, h, "leg_distance", naNum(crsDist.second * SG_METER_TO_NM)); hashset(c, h, "leg_bearing", naNum(crsDist.first)); hashset(c, h, "hdg_radial", naNum(wpt->headingRadialDeg())); } // leg bearing, distance, etc // parents and ghost of the C++ object hashset(c, h, "_waypt", ghostForWaypt(c, wpt)); naRef parents = naNewVector(c); naVec_append(parents, waypointPrototype); hashset(c, h, "parents", parents); return h; } naRef hashForRunway(naContext c, FGRunway* rwy) { naRef rwyid = stringToNasal(c, rwy->ident()); naRef rwydata = naNewHash(c); #define HASHSET(s,l,n) naHash_set(rwydata, naStr_fromdata(naNewString(c),s,l),n) HASHSET("id", 2, rwyid); HASHSET("lat", 3, naNum(rwy->latitude())); HASHSET("lon", 3, naNum(rwy->longitude())); HASHSET("heading", 7, naNum(rwy->headingDeg())); HASHSET("length", 6, naNum(rwy->lengthM())); HASHSET("width", 5, naNum(rwy->widthM())); HASHSET("threshold", 9, naNum(rwy->displacedThresholdM())); HASHSET("stopway", 7, naNum(rwy->stopwayM())); if (rwy->ILS()) { HASHSET("ils_frequency_mhz", 17, naNum(rwy->ILS()->get_freq() / 100.0)); HASHSET("ils", 3, hashForNavRecord(c, rwy->ILS(), SGGeod())); } HASHSET("_positioned", 11, ghostForPositioned(c, rwy)); #undef HASHSET return rwydata; } naRef hashForNavRecord(naContext c, const FGNavRecord* nav, const SGGeod& rel) { naRef navdata = naNewHash(c); #define HASHSET(s,l,n) naHash_set(navdata, naStr_fromdata(naNewString(c),s,l),n) HASHSET("id", 2, stringToNasal(c, nav->ident())); HASHSET("name", 4, stringToNasal(c, nav->name())); HASHSET("frequency", 9, naNum(nav->get_freq())); HASHSET("lat", 3, naNum(nav->get_lat())); HASHSET("lon", 3, naNum(nav->get_lon())); HASHSET("elevation", 9, naNum(nav->get_elev_ft() * SG_FEET_TO_METER)); HASHSET("type", 4, stringToNasal(c, nav->nameForType(nav->type()))); // FIXME - get rid of these, people should use courseAndDistance instead HASHSET("distance", 8, naNum(SGGeodesy::distanceNm( rel, nav->geod() ) * SG_NM_TO_METER ) ); HASHSET("bearing", 7, naNum(SGGeodesy::courseDeg( rel, nav->geod() ) ) ); // record the real object as a ghost for further operations HASHSET("_positioned",11, ghostForPositioned(c, nav)); #undef HASHSET return navdata; } bool geodFromHash(naRef ref, SGGeod& result) { if (!naIsHash(ref)) { return false; } // first, see if the hash contains a FGPositioned ghost - in which case // we can read off its position directly naRef posGhost = naHash_cget(ref, (char*) "_positioned"); if (!naIsNil(posGhost)) { FGPositioned* pos = positionedGhost(posGhost); result = pos->geod(); return true; } naRef ghost = naHash_cget(ref, (char*) "_waypt"); if (!naIsNil(ghost)) { flightgear::Waypt* w = wayptGhost(ghost); result = w->position(); return true; } // then check for manual latitude / longitude names naRef lat = naHash_cget(ref, (char*) "lat"); naRef lon = naHash_cget(ref, (char*) "lon"); if (naIsNum(lat) && naIsNum(lon)) { result = SGGeod::fromDeg(naNumValue(lat).num, naNumValue(lon).num); return true; } // check for geo.Coord type // check for any synonyms? // latitude + longitude? return false; } // Convert a cartesian point to a geodetic lat/lon/altitude. static naRef f_carttogeod(naContext c, naRef me, int argc, naRef* args) { double lat, lon, alt, xyz[3]; if(argc != 3) naRuntimeError(c, "carttogeod() expects 3 arguments"); for(int i=0; i<3; i++) xyz[i] = naNumValue(args[i]).num; sgCartToGeod(xyz, &lat, &lon, &alt); lat *= SG_RADIANS_TO_DEGREES; lon *= SG_RADIANS_TO_DEGREES; naRef vec = naNewVector(c); naVec_append(vec, naNum(lat)); naVec_append(vec, naNum(lon)); naVec_append(vec, naNum(alt)); return vec; } // Convert a geodetic lat/lon/altitude to a cartesian point. static naRef f_geodtocart(naContext c, naRef me, int argc, naRef* args) { if(argc != 3) naRuntimeError(c, "geodtocart() expects 3 arguments"); double lat = naNumValue(args[0]).num * SG_DEGREES_TO_RADIANS; double lon = naNumValue(args[1]).num * SG_DEGREES_TO_RADIANS; double alt = naNumValue(args[2]).num; double xyz[3]; sgGeodToCart(lat, lon, alt, xyz); naRef vec = naNewVector(c); naVec_append(vec, naNum(xyz[0])); naVec_append(vec, naNum(xyz[1])); naVec_append(vec, naNum(xyz[2])); return vec; } // For given geodetic point return array with elevation, and a material data // hash, or nil if there's no information available (tile not loaded). If // information about the material isn't available, then nil is returned instead // of the hash. static naRef f_geodinfo(naContext c, naRef me, int argc, naRef* args) { #define HASHSET(s,l,n) naHash_set(matdata, naStr_fromdata(naNewString(c),s,l),n) if(argc < 2 || argc > 3) naRuntimeError(c, "geodinfo() expects 2 or 3 arguments: lat, lon [, maxalt]"); double lat = naNumValue(args[0]).num; double lon = naNumValue(args[1]).num; double elev = argc == 3 ? naNumValue(args[2]).num : 10000; const SGMaterial *mat; SGGeod geod = SGGeod::fromDegM(lon, lat, elev); if(!globals->get_scenery()->get_elevation_m(geod, elev, &mat)) return naNil(); naRef vec = naNewVector(c); naVec_append(vec, naNum(elev)); naRef matdata = naNil(); if(mat) { matdata = naNewHash(c); naRef names = naNewVector(c); BOOST_FOREACH(const std::string& n, mat->get_names()) naVec_append(names, stringToNasal(c, n)); HASHSET("names", 5, names); HASHSET("solid", 5, naNum(mat->get_solid())); HASHSET("friction_factor", 15, naNum(mat->get_friction_factor())); HASHSET("rolling_friction", 16, naNum(mat->get_rolling_friction())); HASHSET("load_resistance", 15, naNum(mat->get_load_resistance())); HASHSET("bumpiness", 9, naNum(mat->get_bumpiness())); HASHSET("light_coverage", 14, naNum(mat->get_light_coverage())); } naVec_append(vec, matdata); return vec; #undef HASHSET } class AirportInfoFilter : public FGAirport::AirportFilter { public: AirportInfoFilter() : type(FGPositioned::AIRPORT) { } virtual FGPositioned::Type minType() const { return type; } virtual FGPositioned::Type maxType() const { return type; } FGPositioned::Type type; }; // Returns data hash for particular or nearest airport of a , or nil // on error. // // airportinfo(); e.g. "KSFO" // airportinfo(); type := ("airport"|"seaport"|"heliport") // airportinfo() same as airportinfo("airport") // airportinfo(, [, ]); static naRef f_airportinfo(naContext c, naRef me, int argc, naRef* args) { SGGeod pos; FGAirport* apt = NULL; if(argc >= 2 && naIsNum(args[0]) && naIsNum(args[1])) { pos = SGGeod::fromDeg(args[1].num, args[0].num); args += 2; argc -= 2; } else { pos = globals->get_aircraft_position(); } double maxRange = 10000.0; // expose this? or pick a smaller value? AirportInfoFilter filter; // defaults to airports only if(argc == 0) { // fall through and use AIRPORT } else if(argc == 1 && naIsString(args[0])) { const char *s = naStr_data(args[0]); if(!strcmp(s, "airport")) filter.type = FGPositioned::AIRPORT; else if(!strcmp(s, "seaport")) filter.type = FGPositioned::SEAPORT; else if(!strcmp(s, "heliport")) filter.type = FGPositioned::HELIPORT; else { // user provided an , hopefully apt = FGAirport::findByIdent(s); if (!apt) { // return nil here, but don't raise a runtime error; this is a // legitamate way to validate an ICAO code, for example in a // dialog box or similar. return naNil(); } } } else { naRuntimeError(c, "airportinfo() with invalid function arguments"); return naNil(); } if(!apt) { apt = FGAirport::findClosest(pos, maxRange, &filter); if(!apt) return naNil(); } return hashForAirport(c, apt); } static FGAirport* airportFromMe(naRef me) { naRef ghost = naHash_cget(me, (char*) "_positioned"); if (naIsNil(ghost)) { return NULL; } FGPositioned* pos = positionedGhost(ghost); if (pos && FGAirport::isAirportType(pos)) { return (FGAirport*) pos; } return NULL; } static naRef f_airport_tower(naContext c, naRef me, int argc, naRef* args) { FGAirport* apt = airportFromMe(me); if (!apt) { naRuntimeError(c, "airport.tower called on non-airport object"); } // build a hash for the tower position SGGeod towerLoc = apt->getTowerLocation(); naRef tower = naNewHash(c); hashset(c, tower, "lat", naNum(towerLoc.getLatitudeDeg())); hashset(c, tower, "lon", naNum(towerLoc.getLongitudeDeg())); hashset(c, tower, "elevation", naNum(towerLoc.getElevationM())); return tower; } static naRef f_airport_comms(naContext c, naRef me, int argc, naRef* args) { FGAirport* apt = airportFromMe(me); if (!apt) { naRuntimeError(c, "airport.comms called on non-airport object"); } naRef comms = naNewVector(c); // if we have an explicit type, return a simple vector of frequencies if (argc > 0 && naIsScalar(args[0])) { std::string commName = naStr_data(args[0]); FGPositioned::Type commType = FGPositioned::typeFromName(commName); BOOST_FOREACH(flightgear::CommStation* comm, apt->commStationsOfType(commType)) { naVec_append(comms, naNum(comm->freqMHz())); } } else { // otherwise return a vector of hashes, one for each comm station. BOOST_FOREACH(flightgear::CommStation* comm, apt->commStations()) { naRef commHash = naNewHash(c); hashset(c, commHash, "frequency", naNum(comm->freqMHz())); hashset(c, commHash, "ident", stringToNasal(c, comm->ident())); naVec_append(comms, commHash); } } return comms; } static naRef f_airport_sids(naContext c, naRef me, int argc, naRef* args) { FGAirport* apt = airportFromMe(me); if (!apt) { naRuntimeError(c, "airport.sids called on non-airport object"); } naRef sids = naNewVector(c); // if we have an explicit type, return a simple vector of frequencies if (argc > 0 && naIsString(args[0])) { if (!apt->hasRunwayWithIdent(naStr_data(args[0]))) { return naNil(); } FGRunway* rwy = apt->getRunwayByIdent(naStr_data(args[0])); BOOST_FOREACH(flightgear::SID* sid, rwy->getSIDs()) { naRef procId = stringToNasal(c, sid->ident()); naVec_append(sids, procId); } } else { for (unsigned int s=0; snumSIDs(); ++s) { flightgear::SID* sid = apt->getSIDByIndex(s); naRef procId = stringToNasal(c, sid->ident()); naVec_append(sids, procId); } } return sids; } static naRef f_airport_stars(naContext c, naRef me, int argc, naRef* args) { FGAirport* apt = airportFromMe(me); if (!apt) { naRuntimeError(c, "airport.stars called on non-airport object"); } naRef stars = naNewVector(c); // if we have an explicit type, return a simple vector of frequencies if (argc > 0 && naIsString(args[0])) { if (!apt->hasRunwayWithIdent(naStr_data(args[0]))) { return naNil(); } FGRunway* rwy = apt->getRunwayByIdent(naStr_data(args[0])); BOOST_FOREACH(flightgear::STAR* s, rwy->getSTARs()) { naRef procId = stringToNasal(c, s->ident()); naVec_append(stars, procId); } } else { for (unsigned int s=0; snumSTARs(); ++s) { flightgear::STAR* star = apt->getSTARByIndex(s); naRef procId = stringToNasal(c, star->ident()); naVec_append(stars, procId); } } return stars; } // Returns vector of data hash for navaid of a , nil on error // navaids sorted by ascending distance // navinfo([,],[],[]) // lat/lon (numeric): use latitude/longitude instead of ac position // type: ("fix"|"vor"|"ndb"|"ils"|"dme"|"tacan"|"any") // id: (partial) id of the fix // examples: // navinfo("vor") returns all vors // navinfo("HAM") return all navaids who's name start with "HAM" // navinfo("vor", "HAM") return all vor who's name start with "HAM" //navinfo(34,48,"vor","HAM") return all vor who's name start with "HAM" // sorted by distance relative to lat=34, lon=48 static naRef f_navinfo(naContext c, naRef me, int argc, naRef* args) { SGGeod pos; if(argc >= 2 && naIsNum(args[0]) && naIsNum(args[1])) { pos = SGGeod::fromDeg(args[1].num, args[0].num); args += 2; argc -= 2; } else { pos = globals->get_aircraft_position(); } FGPositioned::Type type = FGPositioned::INVALID; nav_list_type navlist; const char * id = ""; if(argc > 0 && naIsString(args[0])) { const char *s = naStr_data(args[0]); if(!strcmp(s, "any")) type = FGPositioned::INVALID; else if(!strcmp(s, "fix")) type = FGPositioned::FIX; else if(!strcmp(s, "vor")) type = FGPositioned::VOR; else if(!strcmp(s, "ndb")) type = FGPositioned::NDB; else if(!strcmp(s, "ils")) type = FGPositioned::ILS; else if(!strcmp(s, "dme")) type = FGPositioned::DME; else if(!strcmp(s, "tacan")) type = FGPositioned::TACAN; else id = s; // this is an id ++args; --argc; } if(argc > 0 && naIsString(args[0])) { if( *id != 0 ) { naRuntimeError(c, "navinfo() called with navaid id"); return naNil(); } id = naStr_data(args[0]); ++args; --argc; } if( argc > 0 ) { naRuntimeError(c, "navinfo() called with too many arguments"); return naNil(); } navlist = globals->get_navlist()->findByIdentAndFreq( pos, id, 0.0, type ); naRef reply = naNewVector(c); for( nav_list_type::const_iterator it = navlist.begin(); it != navlist.end(); ++it ) { naVec_append( reply, hashForNavRecord(c, *it, pos) ); } return reply; } // Convert a cartesian point to a geodetic lat/lon/altitude. static naRef f_magvar(naContext c, naRef me, int argc, naRef* args) { SGGeod pos = globals->get_aircraft_position(); if (argc == 0) { // fine, use aircraft position } else if ((argc == 1) && geodFromHash(args[0], pos)) { // okay } else if ((argc == 2) && naIsNum(args[0]) && naIsNum(args[1])) { double lat = naNumValue(args[0]).num, lon = naNumValue(args[1]).num; pos = SGGeod::fromDeg(lon, lat); } else { naRuntimeError(c, "magvar() expects no arguments, a positioned hash or lat,lon pair"); } double jd = globals->get_time_params()->getJD(); double magvarDeg = sgGetMagVar(pos, jd) * SG_RADIANS_TO_DEGREES; return naNum(magvarDeg); } static naRef f_courseAndDistance(naContext c, naRef me, int argc, naRef* args) { SGGeod from = globals->get_aircraft_position(), to; if ((argc == 1) && geodFromHash(args[0], to)) { // done } else if ((argc == 2) && naIsNum(args[0]) && naIsNum(args[1])) { // two number arguments, from = current pos, to = lat+lon double lat = naNumValue(args[0]).num, lon = naNumValue(args[1]).num; to = SGGeod::fromDeg(lon, lat); } else if ((argc == 2) && geodFromHash(args[0], from) && geodFromHash(args[1], to)) { // done } else if ((argc == 3) && geodFromHash(args[0], from) && naIsNum(args[1]) && naIsNum(args[2])) { double lat = naNumValue(args[1]).num, lon = naNumValue(args[2]).num; to = SGGeod::fromDeg(lon, lat); } else if ((argc == 3) && naIsNum(args[0]) && naIsNum(args[1]) && geodFromHash(args[2], to)) { double lat = naNumValue(args[0]).num, lon = naNumValue(args[1]).num; from = SGGeod::fromDeg(lon, lat); } else if (argc == 4) { if (!naIsNum(args[0]) || !naIsNum(args[1]) || !naIsNum(args[2]) || !naIsNum(args[3])) { naRuntimeError(c, "invalid arguments to courseAndDistance - expected four numbers"); } from = SGGeod::fromDeg(naNumValue(args[1]).num, naNumValue(args[0]).num); to = SGGeod::fromDeg(naNumValue(args[3]).num, naNumValue(args[2]).num); } else { naRuntimeError(c, "invalid arguments to courseAndDistance"); } double course, course2, d; SGGeodesy::inverse(from, to, course, course2, d); naRef result = naNewVector(c); naVec_append(result, naNum(course)); naVec_append(result, naNum(d * SG_METER_TO_NM)); return result; } static naRef f_tilePath(naContext c, naRef me, int argc, naRef* args) { SGGeod pos = globals->get_aircraft_position(); if (argc == 0) { // fine, use aircraft position } else if ((argc == 1) && geodFromHash(args[0], pos)) { // okay } else if ((argc == 2) && naIsNum(args[0]) && naIsNum(args[1])) { double lat = naNumValue(args[0]).num, lon = naNumValue(args[1]).num; pos = SGGeod::fromDeg(lon, lat); } else { naRuntimeError(c, "bucketPath() expects no arguments, a positioned hash or lat,lon pair"); } SGBucket b(pos); return stringToNasal(c, b.gen_base_path()); } static naRef f_route(naContext c, naRef me, int argc, naRef* args) { naRef route = naNewHash(c); // return active route hash by default, // other routes in the future naRef parents = naNewVector(c); naVec_append(parents, routePrototype); hashset(c, route, "parents", parents); return route; } static naRef f_route_getWP(naContext c, naRef me, int argc, naRef* args) { FGRouteMgr* rm = static_cast(globals->get_subsystem("route-manager")); int index; if (argc == 0) { index = rm->currentIndex(); } else { index = (int) naNumValue(args[0]).num; } if ((index < 0) || (index >= rm->numWaypts())) { return naNil(); } flightgear::Waypt* next = NULL; if (index < (rm->numWaypts() - 1)) { next = rm->wayptAtIndex(index + 1); } return hashForWaypoint(c, rm->wayptAtIndex(index), next); } static naRef f_route_currentWP(naContext c, naRef me, int argc, naRef* args) { FGRouteMgr* rm = static_cast(globals->get_subsystem("route-manager")); flightgear::Waypt* next = NULL; if (rm->currentIndex() < (rm->numWaypts() - 1)) { next = rm->wayptAtIndex(rm->currentIndex() + 1); } return hashForWaypoint(c, rm->currentWaypt(), next); } static naRef f_route_currentIndex(naContext c, naRef me, int argc, naRef* args) { FGRouteMgr* rm = static_cast(globals->get_subsystem("route-manager")); return naNum(rm->currentIndex()); } static naRef f_route_numWaypoints(naContext c, naRef me, int argc, naRef* args) { FGRouteMgr* rm = static_cast(globals->get_subsystem("route-manager")); return naNum(rm->numWaypts()); } static flightgear::Waypt* wayptFromMe(naRef me) { naRef ghost = naHash_cget(me, (char*) "_waypt"); if (naIsNil(ghost)) { return NULL; } return wayptGhost(ghost); } static naRef f_waypoint_navaid(naContext c, naRef me, int argc, naRef* args) { flightgear::Waypt* w = wayptFromMe(me); if (!w) { naRuntimeError(c, "waypoint.navaid called on non-waypoint object"); } FGPositioned* pos = w->source(); if (!pos) { return naNil(); } switch (pos->type()) { case FGPositioned::VOR: case FGPositioned::NDB: case FGPositioned::ILS: case FGPositioned::LOC: case FGPositioned::GS: case FGPositioned::DME: case FGPositioned::TACAN: { FGNavRecord* nav = (FGNavRecord*) pos; return hashForNavRecord(c, nav, globals->get_aircraft_position()); } default: return naNil(); } } static naRef f_waypoint_airport(naContext c, naRef me, int argc, naRef* args) { flightgear::Waypt* w = wayptFromMe(me); if (!w) { naRuntimeError(c, "waypoint.navaid called on non-waypoint object"); } FGPositioned* pos = w->source(); if (!pos || FGAirport::isAirportType(pos)) { return naNil(); } return hashForAirport(c, (FGAirport*) pos); } static naRef f_waypoint_runway(naContext c, naRef me, int argc, naRef* args) { flightgear::Waypt* w = wayptFromMe(me); if (!w) { naRuntimeError(c, "waypoint.navaid called on non-waypoint object"); } FGPositioned* pos = w->source(); if (!pos || (pos->type() != FGPositioned::RUNWAY)) { return naNil(); } return hashForRunway(c, (FGRunway*) pos); } // Table of extension functions. Terminate with zeros. static struct { const char* name; naCFunction func; } funcs[] = { { "carttogeod", f_carttogeod }, { "geodtocart", f_geodtocart }, { "geodinfo", f_geodinfo }, { "airportinfo", f_airportinfo }, { "navinfo", f_navinfo }, { "route", f_route }, { "magvar", f_magvar }, { "courseAndDistance", f_courseAndDistance }, { "bucketPath", f_tilePath }, { 0, 0 } }; naRef initNasalPositioned(naRef globals, naContext c, naRef gcSave) { airportPrototype = naNewHash(c); hashset(c, gcSave, "airportProto", airportPrototype); 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, airportPrototype, "stars", naNewFunc(c, naNewCCode(c, f_airport_stars))); routePrototype = naNewHash(c); hashset(c, gcSave, "routeProto", routePrototype); hashset(c, routePrototype, "getWP", naNewFunc(c, naNewCCode(c, f_route_getWP))); hashset(c, routePrototype, "currentWP", naNewFunc(c, naNewCCode(c, f_route_currentWP))); hashset(c, routePrototype, "currentIndex", naNewFunc(c, naNewCCode(c, f_route_currentIndex))); hashset(c, routePrototype, "getPlanSize", naNewFunc(c, naNewCCode(c, f_route_numWaypoints))); waypointPrototype = naNewHash(c); hashset(c, gcSave, "wayptProto", waypointPrototype); hashset(c, waypointPrototype, "navaid", naNewFunc(c, naNewCCode(c, f_waypoint_navaid))); hashset(c, waypointPrototype, "runway", naNewFunc(c, naNewCCode(c, f_waypoint_runway))); hashset(c, waypointPrototype, "airport", naNewFunc(c, naNewCCode(c, f_waypoint_airport))); for(int i=0; funcs[i].name; i++) { hashset(c, globals, funcs[i].name, naNewFunc(c, naNewCCode(c, funcs[i].func))); } return naNil(); }