// 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 <string.h>
#include "NasalPositioned.hxx"
#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/magvar/magvar.hxx>
#include <simgear/timing/sg_time.hxx>
#include <simgear/bucket/newbucket.hxx>
#include <Airports/runways.hxx>
#include <Airports/airport.hxx>
#include <Airports/dynamics.hxx>
#include <Airports/parking.hxx>
#include <Scripting/NasalSys.hxx>
#include <Navaids/navlist.hxx>
#include <Navaids/procedure.hxx>
#include <Main/globals.hxx>
#include <Main/fg_props.hxx>
#include <Scenery/scenery.hxx>
#include <ATC/CommStation.hxx>
#include <Navaids/FlightPlan.hxx>
#include <Navaids/waypoint.hxx>
#include <Navaids/fix.hxx>
#include <Autopilot/route_mgr.hxx>
#include <Navaids/routePath.hxx>
#include <Navaids/procedure.hxx>
#include <Navaids/airways.hxx>
#include <Navaids/NavDataCache.hxx>
using namespace flightgear;
static void positionedGhostDestroy(void* g);
static void wayptGhostDestroy(void* g);
static void legGhostDestroy(void* g);
static void routeBaseGhostDestroy(void* g);
naGhostType PositionedGhostType = { positionedGhostDestroy, "positioned" };
static const char* airportGhostGetMember(naContext c, void* g, naRef field, naRef* out);
naGhostType AirportGhostType = { positionedGhostDestroy, "airport", airportGhostGetMember, 0 };
static const char* navaidGhostGetMember(naContext c, void* g, naRef field, naRef* out);
naGhostType NavaidGhostType = { positionedGhostDestroy, "navaid", navaidGhostGetMember, 0 };
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);
naGhostType FixGhostType = { positionedGhostDestroy, "fix", fixGhostGetMember, 0 };
static const char* wayptGhostGetMember(naContext c, void* g, naRef field, naRef* out);
static void waypointGhostSetMember(naContext c, void* g, naRef field, naRef value);
naGhostType WayptGhostType = { wayptGhostDestroy,
"waypoint",
wayptGhostGetMember,
waypointGhostSetMember};
static const char* legGhostGetMember(naContext c, void* g, naRef field, naRef* out);
static void legGhostSetMember(naContext c, void* g, naRef field, naRef value);
naGhostType FPLegGhostType = { legGhostDestroy,
"flightplan-leg",
legGhostGetMember,
legGhostSetMember};
static const char* flightplanGhostGetMember(naContext c, void* g, naRef field, naRef* out);
static void flightplanGhostSetMember(naContext c, void* g, naRef field, naRef value);
naGhostType FlightPlanGhostType = { routeBaseGhostDestroy,
"flightplan",
flightplanGhostGetMember,
flightplanGhostSetMember
};
static const char* procedureGhostGetMember(naContext c, void* g, naRef field, naRef* out);
naGhostType ProcedureGhostType = { routeBaseGhostDestroy,
"procedure",
procedureGhostGetMember,
0};
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<char *>(s.c_str()),
s.length());
}
static bool convertToNum(naRef v, double& result)
{
naRef n = naNumValue(v);
if (naIsNil(n)) {
return false; // couldn't convert
}
result = n.num;
return true;
}
static WayptFlag wayptFlagFromString(const char* s)
{
if (!strcmp(s, "sid")) return WPT_DEPARTURE;
if (!strcmp(s, "star")) return WPT_ARRIVAL;
if (!strcmp(s, "approach")) return WPT_APPROACH;
if (!strcmp(s, "missed")) return WPT_MISS;
if (!strcmp(s, "pseudo")) return WPT_PSEUDO;
return (WayptFlag) 0;
}
static naRef wayptFlagToNasal(naContext c, unsigned int flags)
{
if (flags & WPT_PSEUDO) return stringToNasal(c, "pseudo");
if (flags & WPT_DEPARTURE) return stringToNasal(c, "sid");
if (flags & WPT_ARRIVAL) return stringToNasal(c, "star");
if (flags & WPT_MISS) return stringToNasal(c, "missed");
if (flags & WPT_APPROACH) return stringToNasal(c, "approach");
return naNil();
}
static FGPositioned* positionedGhost(naRef r)
{
if ((naGhost_type(r) == &AirportGhostType) ||
(naGhost_type(r) == &NavaidGhostType) ||
(naGhost_type(r) == &RunwayGhostType) ||
(naGhost_type(r) == &FixGhostType))
{
return (FGPositioned*) naGhost_ptr(r);
}
return 0;
}
static FGAirport* airportGhost(naRef r)
{
if (naGhost_type(r) == &AirportGhostType)
return (FGAirport*) naGhost_ptr(r);
return 0;
}
static FGNavRecord* navaidGhost(naRef r)
{
if (naGhost_type(r) == &NavaidGhostType)
return (FGNavRecord*) naGhost_ptr(r);
return 0;
}
static FGRunway* runwayGhost(naRef r)
{
if (naGhost_type(r) == &RunwayGhostType)
return (FGRunway*) naGhost_ptr(r);
return 0;
}
static FGTaxiway* taxiwayGhost(naRef r)
{
if (naGhost_type(r) == &TaxiwayGhostType)
return (FGTaxiway*) naGhost_ptr(r);
return 0;
}
static FGFix* fixGhost(naRef r)
{
if (naGhost_type(r) == &FixGhostType)
return (FGFix*) naGhost_ptr(r);
return 0;
}
static void positionedGhostDestroy(void* g)
{
FGPositioned* pos = (FGPositioned*)g;
if (!FGPositioned::put(pos)) // unref
delete pos;
}
static Waypt* wayptGhost(naRef r)
{
if (naGhost_type(r) == &WayptGhostType)
return (Waypt*) naGhost_ptr(r);
if (naGhost_type(r) == &FPLegGhostType) {
FlightPlan::Leg* leg = (FlightPlan::Leg*) naGhost_ptr(r);
return leg->waypoint();
}
return 0;
}
static void wayptGhostDestroy(void* g)
{
Waypt* wpt = (Waypt*)g;
if (!Waypt::put(wpt)) // unref
delete wpt;
}
static void legGhostDestroy(void* g)
{
// nothing for now
}
static FlightPlan::Leg* fpLegGhost(naRef r)
{
if (naGhost_type(r) == &FPLegGhostType)
return (FlightPlan::Leg*) naGhost_ptr(r);
return 0;
}
static Procedure* procedureGhost(naRef r)
{
if (naGhost_type(r) == &ProcedureGhostType)
return (Procedure*) naGhost_ptr(r);
return 0;
}
static FlightPlan* flightplanGhost(naRef r)
{
if (naGhost_type(r) == &FlightPlanGhostType)
return (FlightPlan*) naGhost_ptr(r);
return 0;
}
static void routeBaseGhostDestroy(void* g)
{
// nothing for now
}
static naRef airportPrototype;
static naRef flightplanPrototype;
static naRef waypointPrototype;
static naRef geoCoordClass;
static naRef fpLegPrototype;
static naRef procedurePrototype;
naRef ghostForAirport(naContext c, const FGAirport* apt)
{
if (!apt) {
return naNil();
}
FGPositioned::get(apt); // take a ref
return naNewGhost2(c, &AirportGhostType, (void*) apt);
}
naRef ghostForNavaid(naContext c, const FGNavRecord* n)
{
if (!n) {
return naNil();
}
FGPositioned::get(n); // take a ref
return naNewGhost2(c, &NavaidGhostType, (void*) n);
}
naRef ghostForRunway(naContext c, const FGRunway* r)
{
if (!r) {
return naNil();
}
FGPositioned::get(r); // take a ref
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) {
return naNil();
}
FGPositioned::get(r); // take a ref
return naNewGhost2(c, &TaxiwayGhostType, (void*) r);
}
naRef ghostForFix(naContext c, const FGFix* r)
{
if (!r) {
return naNil();
}
FGPositioned::get(r); // take a ref
return naNewGhost2(c, &FixGhostType, (void*) r);
}
naRef ghostForWaypt(naContext c, const Waypt* wpt)
{
if (!wpt) {
return naNil();
}
Waypt::get(wpt); // take a ref
return naNewGhost2(c, &WayptGhostType, (void*) wpt);
}
naRef ghostForLeg(naContext c, const FlightPlan::Leg* leg)
{
if (!leg) {
return naNil();
}
return naNewGhost2(c, &FPLegGhostType, (void*) leg);
}
naRef ghostForFlightPlan(naContext c, const FlightPlan* fp)
{
if (!fp) {
return naNil();
}
return naNewGhost2(c, &FlightPlanGhostType, (void*) fp);
}
naRef ghostForProcedure(naContext c, const Procedure* proc)
{
if (!proc) {
return naNil();
}
return naNewGhost2(c, &ProcedureGhostType, (void*) proc);
}
static const char* airportGhostGetMember(naContext c, void* g, naRef field, naRef* out)
{
const char* fieldName = naStr_data(field);
FGAirport* apt = (FGAirport*) g;
if (!strcmp(fieldName, "parents")) {
*out = naNewVector(c);
naVec_append(*out, airportPrototype);
} else if (!strcmp(fieldName, "id")) *out = stringToNasal(c, apt->ident());
else if (!strcmp(fieldName, "name")) *out = stringToNasal(c, apt->name());
else if (!strcmp(fieldName, "lat")) *out = naNum(apt->getLatitude());
else if (!strcmp(fieldName, "lon")) *out = naNum(apt->getLongitude());
else if (!strcmp(fieldName, "elevation")) {
*out = naNum(apt->getElevation() * SG_FEET_TO_METER);
} else if (!strcmp(fieldName, "has_metar")) {
*out = naNum(apt->getMetar());
} else if (!strcmp(fieldName, "runways")) {
*out = naNewHash(c);
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
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);
for(unsigned int r=0; r<apt->numTaxiways(); ++r) {
FGTaxiway* taxi(apt->getTaxiwayByIndex(r));
naRef taxidata = ghostForTaxiway(c, taxi);
naVec_append(*out, taxidata);
}
} else {
return 0;
}
return "";
}
static const char* waypointCommonGetMember(naContext c, Waypt* wpt, const char* fieldName, naRef* out)
{
if (!strcmp(fieldName, "wp_name") || !strcmp(fieldName, "id")) *out = stringToNasal(c, wpt->ident());
else if (!strcmp(fieldName, "wp_type")) *out = stringToNasal(c, wpt->type());
else if (!strcmp(fieldName, "wp_role")) *out = wayptFlagToNasal(c, wpt->flags());
else if (!strcmp(fieldName, "wp_lat") || !strcmp(fieldName, "lat")) *out = naNum(wpt->position().getLatitudeDeg());
else if (!strcmp(fieldName, "wp_lon") || !strcmp(fieldName, "lon")) *out = naNum(wpt->position().getLongitudeDeg());
else if (!strcmp(fieldName, "wp_parent_name")) {
Procedure* proc = dynamic_cast<Procedure*>(wpt->owner());
*out = proc ? stringToNasal(c, proc->ident()) : naNil();
} else if (!strcmp(fieldName, "wp_parent")) {
Procedure* proc = dynamic_cast<Procedure*>(wpt->owner());
*out = ghostForProcedure(c, proc);
} else if (!strcmp(fieldName, "fly_type")) {
if (wpt->type() == "hold") {
*out = stringToNasal(c, "Hold");
} else {
*out = stringToNasal(c, wpt->flag(WPT_OVERFLIGHT) ? "flyOver" : "flyBy");
}
} else {
return NULL; // member not found
}
return "";
}
static void waypointCommonSetMember(naContext c, Waypt* wpt, const char* fieldName, naRef value)
{
if (!strcmp(fieldName, "wp_role")) {
if (!naIsString(value)) naRuntimeError(c, "wp_role must be a string");
if (wpt->owner() != NULL) naRuntimeError(c, "cannot override wp_role on waypoint with parent");
WayptFlag f = wayptFlagFromString(naStr_data(value));
if (f == 0) {
naRuntimeError(c, "unrecognized wp_role value %s", naStr_data(value));
}
wpt->setFlag(f, true);
}
}
static const char* wayptGhostGetMember(naContext c, void* g, naRef field, naRef* out)
{
const char* fieldName = naStr_data(field);
Waypt* wpt = (flightgear::Waypt*) g;
return waypointCommonGetMember(c, wpt, fieldName, out);
}
static RouteRestriction routeRestrictionFromString(const char* s)
{
std::string u(s);
boost::to_lower(u);
if (u == "computed") return RESTRICT_COMPUTED;
if (u == "at") return RESTRICT_AT;
if (u == "mach") return SPEED_RESTRICT_MACH;
if (u == "computed-mach") return SPEED_COMPUTED_MACH;
if (u == "delete") return RESTRICT_DELETE;
return RESTRICT_NONE;
};
naRef routeRestrictionToNasal(naContext c, RouteRestriction rr)
{
switch (rr) {
case RESTRICT_NONE: return naNil();
case RESTRICT_AT: return stringToNasal(c, "at");
case RESTRICT_ABOVE: return stringToNasal(c, "above");
case RESTRICT_BELOW: return stringToNasal(c, "below");
case SPEED_RESTRICT_MACH: return stringToNasal(c, "mach");
case RESTRICT_COMPUTED: return stringToNasal(c, "computed");
case SPEED_COMPUTED_MACH: return stringToNasal(c, "computed-mach");
case RESTRICT_DELETE: return stringToNasal(c, "delete");
}
return naNil();
}
static const char* legGhostGetMember(naContext c, void* g, naRef field, naRef* out)
{
const char* fieldName = naStr_data(field);
FlightPlan::Leg* leg = (FlightPlan::Leg*) g;
Waypt* wpt = leg->waypoint();
if (!strcmp(fieldName, "parents")) {
*out = naNewVector(c);
naVec_append(*out, fpLegPrototype);
naVec_append(*out, waypointPrototype);
} else if (!strcmp(fieldName, "index")) {
*out = naNum(leg->index());
} else if (!strcmp(fieldName, "alt_cstr")) {
*out = naNum(leg->altitudeFt());
} else if (!strcmp(fieldName, "alt_cstr_type")) {
*out = routeRestrictionToNasal(c, leg->altitudeRestriction());
} else if (!strcmp(fieldName, "speed_cstr")) {
double s = isMachRestrict(leg->speedRestriction()) ? leg->speedMach() : leg->speedKts();
*out = naNum(s);
} else if (!strcmp(fieldName, "speed_cstr_type")) {
*out = routeRestrictionToNasal(c, leg->speedRestriction());
} else if (!strcmp(fieldName, "leg_distance")) {
*out = naNum(leg->distanceNm());
} else if (!strcmp(fieldName, "leg_bearing")) {
*out = naNum(leg->courseDeg());
} else if (!strcmp(fieldName, "distance_along_route")) {
*out = naNum(leg->distanceAlongRoute());
} else { // check for fields defined on the underlying waypoint
return waypointCommonGetMember(c, wpt, fieldName, out);
}
return ""; // success
}
static void waypointGhostSetMember(naContext c, void* g, naRef field, naRef value)
{
const char* fieldName = naStr_data(field);
Waypt* wpt = (Waypt*) g;
waypointCommonSetMember(c, wpt, fieldName, value);
}
static void legGhostSetMember(naContext c, void* g, naRef field, naRef value)
{
const char* fieldName = naStr_data(field);
FlightPlan::Leg* leg = (FlightPlan::Leg*) g;
waypointCommonSetMember(c, leg->waypoint(), fieldName, value);
}
static const char* flightplanGhostGetMember(naContext c, void* g, naRef field, naRef* out)
{
const char* fieldName = naStr_data(field);
FlightPlan* fp = (FlightPlan*) g;
if (!strcmp(fieldName, "parents")) {
*out = naNewVector(c);
naVec_append(*out, flightplanPrototype);
} else if (!strcmp(fieldName, "id")) *out = stringToNasal(c, fp->ident());
else if (!strcmp(fieldName, "departure")) *out = ghostForAirport(c, fp->departureAirport());
else if (!strcmp(fieldName, "destination")) *out = ghostForAirport(c, fp->destinationAirport());
else if (!strcmp(fieldName, "departure_runway")) *out = ghostForRunway(c, fp->departureRunway());
else if (!strcmp(fieldName, "destination_runway")) *out = ghostForRunway(c, fp->destinationRunway());
else if (!strcmp(fieldName, "sid")) *out = ghostForProcedure(c, fp->sid());
else if (!strcmp(fieldName, "sid_trans")) *out = ghostForProcedure(c, fp->sidTransition());
else if (!strcmp(fieldName, "star")) *out = ghostForProcedure(c, fp->star());
else if (!strcmp(fieldName, "star_trans")) *out = ghostForProcedure(c, fp->starTransition());
else if (!strcmp(fieldName, "approach")) *out = ghostForProcedure(c, fp->approach());
else if (!strcmp(fieldName, "current")) *out = naNum(fp->currentIndex());
else {
return 0;
}
return "";
}
static void flightplanGhostSetMember(naContext c, void* g, naRef field, naRef value)
{
const char* fieldName = naStr_data(field);
FlightPlan* fp = (FlightPlan*) g;
if (!strcmp(fieldName, "id")) {
if (!naIsString(value)) naRuntimeError(c, "flightplan.id must be a string");
fp->setIdent(naStr_data(value));
} else if (!strcmp(fieldName, "current")) {
int index = value.num;
if ((index < 0) || (index >= fp->numLegs())) {
return;
}
fp->setCurrentIndex(index);
} else if (!strcmp(fieldName, "departure")) {
FGAirport* apt = airportGhost(value);
if (apt) {
fp->setDeparture(apt);
return;
}
FGRunway* rwy = runwayGhost(value);
if (rwy){
fp->setDeparture(rwy);
return;
}
if (naIsNil(value)) {
fp->setDeparture(static_cast<FGAirport*>(NULL));
return;
}
naRuntimeError(c, "bad argument type setting departure");
} else if (!strcmp(fieldName, "destination")) {
FGAirport* apt = airportGhost(value);
if (apt) {
fp->setDestination(apt);
return;
}
FGRunway* rwy = runwayGhost(value);
if (rwy){
fp->setDestination(rwy);
return;
}
naRuntimeError(c, "bad argument type setting destination");
} else if (!strcmp(fieldName, "departure_runway")) {
FGRunway* rwy = runwayGhost(value);
if (rwy){
fp->setDeparture(rwy);
return;
}
naRuntimeError(c, "bad argument type setting departure runway");
} else if (!strcmp(fieldName, "destination_runway")) {
FGRunway* rwy = runwayGhost(value);
if (rwy){
fp->setDestination(rwy);
return;
}
naRuntimeError(c, "bad argument type setting destination runway");
} else if (!strcmp(fieldName, "sid")) {
Procedure* proc = procedureGhost(value);
if (proc && (proc->type() == PROCEDURE_SID)) {
fp->setSID((flightgear::SID*) proc);
return;
}
// allow a SID transition to be set, implicitly include the SID itself
if (proc && (proc->type() == PROCEDURE_TRANSITION)) {
fp->setSID((Transition*) proc);
return;
}
if (naIsString(value)) {
FGAirport* apt = fp->departureAirport();
fp->setSID(apt->findSIDWithIdent(naStr_data(value)));
return;
}
naRuntimeError(c, "bad argument type setting SID");
} else if (!strcmp(fieldName, "star")) {
Procedure* proc = procedureGhost(value);
if (proc && (proc->type() == PROCEDURE_STAR)) {
fp->setSTAR((STAR*) proc);
return;
}
if (proc && (proc->type() == PROCEDURE_TRANSITION)) {
fp->setSTAR((Transition*) proc);
return;
}
if (naIsString(value)) {
FGAirport* apt = fp->destinationAirport();
fp->setSTAR(apt->findSTARWithIdent(naStr_data(value)));
return;
}
naRuntimeError(c, "bad argument type setting STAR");
} else if (!strcmp(fieldName, "approach")) {
Procedure* proc = procedureGhost(value);
if (proc && Approach::isApproach(proc->type())) {
fp->setApproach((Approach*) proc);
return;
}
if (naIsString(value)) {
FGAirport* apt = fp->destinationAirport();
fp->setApproach(apt->findApproachWithIdent(naStr_data(value)));
return;
}
naRuntimeError(c, "bad argument type setting approach");
}
}
static naRef procedureTpType(naContext c, ProcedureType ty)
{
switch (ty) {
case PROCEDURE_SID: return stringToNasal(c, "sid");
case PROCEDURE_STAR: return stringToNasal(c, "star");
case PROCEDURE_APPROACH_VOR:
case PROCEDURE_APPROACH_ILS:
case PROCEDURE_APPROACH_RNAV:
case PROCEDURE_APPROACH_NDB:
return stringToNasal(c, "IAP");
default:
return naNil();
}
}
static naRef procedureRadioType(naContext c, ProcedureType ty)
{
switch (ty) {
case PROCEDURE_APPROACH_VOR: return stringToNasal(c, "VOR");
case PROCEDURE_APPROACH_ILS: return stringToNasal(c, "ILS");
case PROCEDURE_APPROACH_RNAV: return stringToNasal(c, "RNAV");
case PROCEDURE_APPROACH_NDB: return stringToNasal(c, "NDB");
default:
return naNil();
}
}
static const char* procedureGhostGetMember(naContext c, void* g, naRef field, naRef* out)
{
const char* fieldName = naStr_data(field);
Procedure* proc = (Procedure*) g;
if (!strcmp(fieldName, "parents")) {
*out = naNewVector(c);
naVec_append(*out, procedurePrototype);
} else if (!strcmp(fieldName, "id")) *out = stringToNasal(c, proc->ident());
else if (!strcmp(fieldName, "airport")) *out = ghostForAirport(c, proc->airport());
else if (!strcmp(fieldName, "tp_type")) *out = procedureTpType(c, proc->type());
else if (!strcmp(fieldName, "radio")) *out = procedureRadioType(c, proc->type());
else if (!strcmp(fieldName, "runways")) {
*out = naNewVector(c);
BOOST_FOREACH(FGRunwayRef rwy, proc->runways()) {
naVec_append(*out, stringToNasal(c, rwy->ident()));
}
} else if (!strcmp(fieldName, "transitions")) {
if ((proc->type() != PROCEDURE_SID) && (proc->type() != PROCEDURE_STAR)) {
*out = naNil();
return "";
}
ArrivalDeparture* ad = static_cast<ArrivalDeparture*>(proc);
*out = naNewVector(c);
BOOST_FOREACH(std::string id, ad->transitionIdents()) {
naVec_append(*out, stringToNasal(c, id));
}
} else {
return 0;
}
return "";
}
static const char* runwayGhostGetMember(naContext c, void* g, naRef field, naRef* out)
{
const char* fieldName = naStr_data(field);
FGRunwayBase* base = (FGRunwayBase*) g;
if (!strcmp(fieldName, "id")) *out = stringToNasal(c, base->ident());
else if (!strcmp(fieldName, "lat")) *out = naNum(base->latitude());
else if (!strcmp(fieldName, "lon")) *out = naNum(base->longitude());
else if (!strcmp(fieldName, "heading")) *out = naNum(base->headingDeg());
else if (!strcmp(fieldName, "length")) *out = naNum(base->lengthM());
else if (!strcmp(fieldName, "width")) *out = naNum(base->widthM());
else if (!strcmp(fieldName, "surface")) *out = naNum(base->surface());
else if (base->type() == FGRunwayBase::RUNWAY) {
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, "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());
} else {
return 0;
}
} else {
return 0;
}
return "";
}
static const char* navaidGhostGetMember(naContext c, void* g, naRef field, naRef* out)
{
const char* fieldName = naStr_data(field);
FGNavRecord* nav = (FGNavRecord*) g;
if (!strcmp(fieldName, "id")) *out = stringToNasal(c, nav->ident());
else if (!strcmp(fieldName, "name")) *out = stringToNasal(c, nav->name());
else if (!strcmp(fieldName, "lat")) *out = naNum(nav->get_lat());
else if (!strcmp(fieldName, "lon")) *out = naNum(nav->get_lon());
else if (!strcmp(fieldName, "elevation")) {
*out = naNum(nav->get_elev_ft() * SG_FEET_TO_METER);
} else if (!strcmp(fieldName, "type")) {
*out = stringToNasal(c, nav->nameForType(nav->type()));
} else if (!strcmp(fieldName, "frequency")) {
*out = naNum(nav->get_freq());
} else if (!strcmp(fieldName, "range_nm")) {
*out = naNum(nav->get_range());
} else if (!strcmp(fieldName, "course")) {
if ((nav->type() == FGPositioned::ILS) || (nav->type() == FGPositioned::LOC)) {
double radial = nav->get_multiuse();
SG_NORMALIZE_RANGE(radial, 0.0, 360.0);
*out = naNum(radial);
} else {
*out = naNil();
}
} else {
return 0;
}
return "";
}
static const char* fixGhostGetMember(naContext c, void* g, naRef field, naRef* out)
{
const char* fieldName = naStr_data(field);
FGFix* fix = (FGFix*) g;
if (!strcmp(fieldName, "id")) *out = stringToNasal(c, fix->ident());
else if (!strcmp(fieldName, "lat")) *out = naNum(fix->get_lat());
else if (!strcmp(fieldName, "lon")) *out = naNum(fix->get_lon());
else {
return 0;
}
return "";
}
static bool hashIsCoord(naRef h)
{
naRef parents = naHash_cget(h, (char*) "parents");
if (!naIsVector(parents)) {
return false;
}
return naEqual(naVec_get(parents, 0), geoCoordClass) != 0;
}
bool geodFromHash(naRef ref, SGGeod& result)
{
if (!naIsHash(ref)) {
return false;
}
// 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(lon).num, naNumValue(lat).num);
return true;
}
if (hashIsCoord(ref)) {
naRef lat = naHash_cget(ref, (char*) "_lat");
naRef lon = naHash_cget(ref, (char*) "_lon");
if (naIsNum(lat) && naIsNum(lon)) {
result = SGGeod::fromRad(naNumValue(lon).num, naNumValue(lat).num);
return true;
}
}
// check for any synonyms?
// latitude + longitude?
return false;
}
static int geodFromArgs(naRef* args, int offset, int argc, SGGeod& result)
{
if (offset >= argc) {
return 0;
}
if (naIsGhost(args[offset])) {
naGhostType* gt = naGhost_type(args[offset]);
if (gt == &AirportGhostType) {
result = airportGhost(args[offset])->geod();
return 1;
}
if (gt == &NavaidGhostType) {
result = navaidGhost(args[offset])->geod();
return 1;
}
if (gt == &RunwayGhostType) {
result = runwayGhost(args[offset])->geod();
return 1;
}
if (gt == &TaxiwayGhostType) {
result = taxiwayGhost(args[offset])->geod();
return 1;
}
if (gt == &FixGhostType) {
result = fixGhost(args[offset])->geod();
return 1;
}
if (gt == &WayptGhostType) {
result = wayptGhost(args[offset])->position();
return 1;
}
}
if (geodFromHash(args[offset], result)) {
return 1;
}
if (((argc - offset) >= 2) && naIsNum(args[offset]) && naIsNum(args[offset + 1])) {
double lat = naNumValue(args[0]).num,
lon = naNumValue(args[1]).num;
result = SGGeod::fromDeg(lon, lat);
return 2;
}
return 0;
}
// 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 simgear::BVHMaterial *material;
SGGeod geod = SGGeod::fromDegM(lon, lat, elev);
if(!globals->get_scenery()->get_elevation_m(geod, elev, &material))
return naNil();
const SGMaterial *mat = dynamic_cast<const SGMaterial *>(material);
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
}
// Returns data hash for particular or nearest airport of a <type>, or nil
// on error.
//
// airportinfo(<id>); e.g. "KSFO"
// airportinfo(<type>); type := ("airport"|"seaport"|"heliport")
// airportinfo() same as airportinfo("airport")
// airportinfo(<lat>, <lon> [, <type>]);
static naRef f_airportinfo(naContext c, naRef me, int argc, naRef* args)
{
SGGeod pos = globals->get_aircraft_position();
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;
}
double maxRange = 10000.0; // expose this? or pick a smaller value?
FGAirport::TypeRunwayFilter filter; // defaults to airports only
if(argc == 0) {
// fall through and use AIRPORT
} else if(argc == 1 && naIsString(args[0])) {
if (filter.fromTypeString(naStr_data(args[0]))) {
// done!
} else {
// user provided an <id>, hopefully
apt = FGAirport::findByIdent(naStr_data(args[0]));
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 ghostForAirport(c, apt);
}
static naRef f_findAirportsWithinRange(naContext c, naRef me, int argc, naRef* args)
{
int argOffset = 0;
SGGeod pos = globals->get_aircraft_position();
argOffset += geodFromArgs(args, 0, argc, pos);
if (!naIsNum(args[argOffset])) {
naRuntimeError(c, "findAirportsWithinRange expected range (in nm) as arg %d", argOffset);
}
FGAirport::TypeRunwayFilter filter; // defaults to airports only
double rangeNm = args[argOffset++].num;
if (argOffset < argc) {
filter.fromTypeString(naStr_data(args[argOffset++]));
}
naRef r = naNewVector(c);
FGPositionedList apts = FGPositioned::findWithinRange(pos, rangeNm, &filter);
FGPositioned::sortByRange(apts, pos);
BOOST_FOREACH(FGPositionedRef a, apts) {
FGAirport* apt = (FGAirport*) a.get();
naVec_append(r, ghostForAirport(c, apt));
}
return r;
}
static naRef f_findAirportsByICAO(naContext c, naRef me, int argc, naRef* args)
{
if (!naIsString(args[0])) {
naRuntimeError(c, "findAirportsByICAO expects string as arg 0");
}
int argOffset = 0;
std::string prefix(naStr_data(args[argOffset++]));
FGAirport::TypeRunwayFilter filter; // defaults to airports only
if (argOffset < argc) {
filter.fromTypeString(naStr_data(args[argOffset++]));
}
naRef r = naNewVector(c);
FGPositionedList apts = FGPositioned::findAllWithIdent(prefix, &filter, false);
BOOST_FOREACH(FGPositionedRef a, apts) {
FGAirport* apt = (FGAirport*) a.get();
naVec_append(r, ghostForAirport(c, apt));
}
return r;
}
static naRef f_airport_tower(naContext c, naRef me, int argc, naRef* args)
{
FGAirport* apt = airportGhost(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 = airportGhost(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 && !naIsString(args[0])) {
naRuntimeError(c, "airport.comms argument must be a frequency type name");
}
if (argc > 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_runway(naContext c, naRef me, int argc, naRef* args)
{
FGAirport* apt = airportGhost(me);
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 ghostForRunway(c, apt->getRunwayByIdent(ident));
} else if (apt->hasHelipadWithIdent(ident)) {
return ghostForHelipad(c, apt->getHelipadByIdent(ident));
}
return naNil();
}
static naRef f_airport_runwaysWithoutReciprocals(naContext c, naRef me, int argc, naRef* args)
{
FGAirport* apt = airportGhost(me);
if (!apt) {
naRuntimeError(c, "airport.runwaysWithoutReciprocals called on non-airport object");
}
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 runways;
}
static naRef f_airport_sids(naContext c, naRef me, int argc, naRef* args)
{
FGAirport* apt = airportGhost(me);
if (!apt) {
naRuntimeError(c, "airport.sids called on non-airport object");
}
naRef sids = naNewVector(c);
FGRunway* rwy = NULL;
if (argc > 0 && naIsString(args[0])) {
if (!apt->hasRunwayWithIdent(naStr_data(args[0]))) {
return naNil();
}
rwy = apt->getRunwayByIdent(naStr_data(args[0]));
} else if (argc > 0) {
rwy = runwayGhost(args[0]);
}
if (rwy) {
BOOST_FOREACH(flightgear::SID* sid, rwy->getSIDs()) {
naRef procId = stringToNasal(c, sid->ident());
naVec_append(sids, procId);
}
} else {
for (unsigned int s=0; s<apt->numSIDs(); ++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 = airportGhost(me);
if (!apt) {
naRuntimeError(c, "airport.stars called on non-airport object");
}
naRef stars = naNewVector(c);
FGRunway* rwy = NULL;
if (argc > 0 && naIsString(args[0])) {
if (!apt->hasRunwayWithIdent(naStr_data(args[0]))) {
return naNil();
}
rwy = apt->getRunwayByIdent(naStr_data(args[0]));
} else if (argc > 0) {
rwy = runwayGhost(args[0]);
}
if (rwy) {
BOOST_FOREACH(flightgear::STAR* s, rwy->getSTARs()) {
naRef procId = stringToNasal(c, s->ident());
naVec_append(stars, procId);
}
} else {
for (unsigned int s=0; s<apt->numSTARs(); ++s) {
flightgear::STAR* star = apt->getSTARByIndex(s);
naRef procId = stringToNasal(c, star->ident());
naVec_append(stars, procId);
}
}
return stars;
}
static naRef f_airport_approaches(naContext c, naRef me, int argc, naRef* args)
{
FGAirport* apt = airportGhost(me);
if (!apt) {
naRuntimeError(c, "airport.getApproachList called on non-airport object");
}
naRef approaches = naNewVector(c);
ProcedureType ty = PROCEDURE_INVALID;
if ((argc > 1) && naIsString(args[1])) {
std::string u(naStr_data(args[1]));
boost::to_upper(u);
if (u == "NDB") ty = PROCEDURE_APPROACH_NDB;
if (u == "VOR") ty = PROCEDURE_APPROACH_VOR;
if (u == "ILS") ty = PROCEDURE_APPROACH_ILS;
if (u == "RNAV") ty = PROCEDURE_APPROACH_RNAV;
}
FGRunway* rwy = NULL;
if (argc > 0 && (rwy = runwayGhost(args[0]))) {
// ok
} else if (argc > 0 && naIsString(args[0])) {
if (!apt->hasRunwayWithIdent(naStr_data(args[0]))) {
return naNil();
}
rwy = apt->getRunwayByIdent(naStr_data(args[0]));
}
if (rwy) {
BOOST_FOREACH(Approach* s, rwy->getApproaches()) {
if ((ty != PROCEDURE_INVALID) && (s->type() != ty)) {
continue;
}
naRef procId = stringToNasal(c, s->ident());
naVec_append(approaches, procId);
}
} else {
// no runway specified, report them all
for (unsigned int s=0; s<apt->numApproaches(); ++s) {
Approach* app = apt->getApproachByIndex(s);
if ((ty != PROCEDURE_INVALID) && (app->type() != ty)) {
continue;
}
naRef procId = stringToNasal(c, app->ident());
naVec_append(approaches, procId);
}
}
return approaches;
}
static naRef f_airport_parking(naContext c, naRef me, int argc, naRef* args)
{
FGAirport* apt = airportGhost(me);
if (!apt) {
naRuntimeError(c, "airport.parking called on non-airport object");
}
naRef r = naNewVector(c);
std::string type;
bool onlyAvailable = false;
if (argc > 0 && naIsString(args[0])) {
type = naStr_data(args[0]);
}
if ((argc > 1) && naIsNum(args[1])) {
onlyAvailable = (args[1].num != 0.0);
}
FGAirportDynamics* dynamics = apt->getDynamics();
PositionedIDVec parkings = flightgear::NavDataCache::instance()->airportItemsOfType(apt->guid(),
FGPositioned::PARKING);
BOOST_FOREACH(PositionedID parking, parkings) {
// filter out based on availability and type
if (onlyAvailable && !dynamics->isParkingAvailable(parking)) {
continue;
}
FGParking* park = dynamics->getParking(parking);
if (!type.empty() && (park->getType() != type)) {
continue;
}
const SGGeod& parkLoc = park->geod();
naRef ph = naNewHash(c);
hashset(c, ph, "name", stringToNasal(c, park->getName()));
hashset(c, ph, "lat", naNum(parkLoc.getLatitudeDeg()));
hashset(c, ph, "lon", naNum(parkLoc.getLongitudeDeg()));
hashset(c, ph, "elevation", naNum(parkLoc.getElevationM()));
naVec_append(r, ph);
}
return r;
}
static naRef f_airport_getSid(naContext c, naRef me, int argc, naRef* args)
{
FGAirport* apt = airportGhost(me);
if (!apt) {
naRuntimeError(c, "airport.getSid called on non-airport object");
}
if ((argc != 1) || !naIsString(args[0])) {
naRuntimeError(c, "airport.getSid passed invalid argument");
}
std::string ident = naStr_data(args[0]);
return ghostForProcedure(c, apt->findSIDWithIdent(ident));
}
static naRef f_airport_getStar(naContext c, naRef me, int argc, naRef* args)
{
FGAirport* apt = airportGhost(me);
if (!apt) {
naRuntimeError(c, "airport.getStar called on non-airport object");
}
if ((argc != 1) || !naIsString(args[0])) {
naRuntimeError(c, "airport.getStar passed invalid argument");
}
std::string ident = naStr_data(args[0]);
return ghostForProcedure(c, apt->findSTARWithIdent(ident));
}
static naRef f_airport_getApproach(naContext c, naRef me, int argc, naRef* args)
{
FGAirport* apt = airportGhost(me);
if (!apt) {
naRuntimeError(c, "airport.getIAP called on non-airport object");
}
if ((argc != 1) || !naIsString(args[0])) {
naRuntimeError(c, "airport.getIAP passed invalid argument");
}
std::string ident = naStr_data(args[0]);
return ghostForProcedure(c, apt->findApproachWithIdent(ident));
}
static naRef f_airport_findBestRunway(naContext c, naRef me, int argc, naRef* args)
{
FGAirport* apt = airportGhost(me);
if (!apt) {
naRuntimeError(c, "findBestRunway called on non-airport object");
}
SGGeod pos;
if (!geodFromArgs(args, 0, argc, pos)) {
naRuntimeError(c, "findBestRunway must be passed a position");
}
return ghostForRunway(c, apt->findBestRunwayForPos(pos));
}
static naRef f_airport_toString(naContext c, naRef me, int argc, naRef* args)
{
FGAirport* apt = airportGhost(me);
if (!apt) {
naRuntimeError(c, "airport.tostring called on non-airport object");
}
return stringToNasal(c, "an airport " + apt->ident());
}
// Returns vector of data hash for navaid of a <type>, nil on error
// navaids sorted by ascending distance
// navinfo([<lat>,<lon>],[<type>],[<id>])
// 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();
}
FGNavList::TypeFilter filter(type);
navlist = FGNavList::findByIdentAndFreq( pos, id, 0.0, &filter );
naRef reply = naNewVector(c);
for( nav_list_type::const_iterator it = navlist.begin(); it != navlist.end(); ++it ) {
naVec_append( reply, ghostForNavaid(c, *it) );
}
return reply;
}
static naRef f_findNavaidsWithinRange(naContext c, naRef me, int argc, naRef* args)
{
int argOffset = 0;
SGGeod pos = globals->get_aircraft_position();
argOffset += geodFromArgs(args, 0, argc, pos);
if (!naIsNum(args[argOffset])) {
naRuntimeError(c, "findNavaidsWithinRange expected range (in nm) as arg %d", argOffset);
}
FGPositioned::Type type = FGPositioned::INVALID;
double rangeNm = args[argOffset++].num;
if (argOffset < argc) {
type = FGPositioned::typeFromName(naStr_data(args[argOffset]));
}
naRef r = naNewVector(c);
FGNavList::TypeFilter filter(type);
FGPositionedList navs = FGPositioned::findWithinRange(pos, rangeNm, &filter);
FGPositioned::sortByRange(navs, pos);
BOOST_FOREACH(FGPositionedRef a, navs) {
FGNavRecord* nav = (FGNavRecord*) a.get();
naVec_append(r, ghostForNavaid(c, nav));
}
return r;
}
static naRef f_findNavaidByFrequency(naContext c, naRef me, int argc, naRef* args)
{
int argOffset = 0;
SGGeod pos = globals->get_aircraft_position();
argOffset += geodFromArgs(args, 0, argc, pos);
if (!naIsNum(args[argOffset])) {
naRuntimeError(c, "findNavaidByFrequency expectes frequency (in Mhz) as arg %d", argOffset);
}
FGPositioned::Type type = FGPositioned::INVALID;
double freqMhz = args[argOffset++].num;
if (argOffset < argc) {
type = FGPositioned::typeFromName(naStr_data(args[argOffset]));
}
FGNavList::TypeFilter filter(type);
nav_list_type navs = FGNavList::findAllByFreq(freqMhz, pos, &filter);
if (navs.empty()) {
return naNil();
}
return ghostForNavaid(c, navs.front().ptr());
}
static naRef f_findNavaidsByFrequency(naContext c, naRef me, int argc, naRef* args)
{
int argOffset = 0;
SGGeod pos = globals->get_aircraft_position();
argOffset += geodFromArgs(args, 0, argc, pos);
if (!naIsNum(args[argOffset])) {
naRuntimeError(c, "findNavaidsByFrequency expectes frequency (in Mhz) as arg %d", argOffset);
}
FGPositioned::Type type = FGPositioned::INVALID;
double freqMhz = args[argOffset++].num;
if (argOffset < argc) {
type = FGPositioned::typeFromName(naStr_data(args[argOffset]));
}
naRef r = naNewVector(c);
FGNavList::TypeFilter filter(type);
nav_list_type navs = FGNavList::findAllByFreq(freqMhz, pos, &filter);
BOOST_FOREACH(nav_rec_ptr a, navs) {
naVec_append(r, ghostForNavaid(c, a.ptr()));
}
return r;
}
static naRef f_findNavaidsByIdent(naContext c, naRef me, int argc, naRef* args)
{
int argOffset = 0;
SGGeod pos = globals->get_aircraft_position();
argOffset += geodFromArgs(args, 0, argc, pos);
if (!naIsString(args[argOffset])) {
naRuntimeError(c, "findNavaidsByIdent expectes ident string as arg %d", argOffset);
}
FGPositioned::Type type = FGPositioned::INVALID;
std::string ident = naStr_data(args[argOffset++]);
if (argOffset < argc) {
type = FGPositioned::typeFromName(naStr_data(args[argOffset]));
}
FGNavList::TypeFilter filter(type);
naRef r = naNewVector(c);
nav_list_type navs = FGNavList::findByIdentAndFreq(pos, ident, 0.0, &filter);
BOOST_FOREACH(nav_rec_ptr a, navs) {
naVec_append(r, ghostForNavaid(c, a.ptr()));
}
return r;
}
static naRef f_findFixesByIdent(naContext c, naRef me, int argc, naRef* args)
{
int argOffset = 0;
SGGeod pos = globals->get_aircraft_position();
argOffset += geodFromArgs(args, 0, argc, pos);
if (!naIsString(args[argOffset])) {
naRuntimeError(c, "findFixesByIdent expectes ident string as arg %d", argOffset);
}
std::string ident(naStr_data(args[argOffset]));
naRef r = naNewVector(c);
FGPositioned::TypeFilter filter(FGPositioned::FIX);
FGPositionedList fixes = FGPositioned::findAllWithIdent(ident, &filter);
FGPositioned::sortByRange(fixes, pos);
BOOST_FOREACH(FGPositionedRef f, fixes) {
naVec_append(r, ghostForFix(c, (FGFix*) f.ptr()));
}
return r;
}
// 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 (geodFromArgs(args, 0, argc, pos)) {
// okay
} 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, p;
int argOffset = geodFromArgs(args, 0, argc, p);
if (geodFromArgs(args, argOffset, argc, to)) {
from = p; // we parsed both FROM and TO args, so first was from
} else {
to = p; // only parsed one arg, so FROM is current
}
if (argOffset == 0) {
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_greatCircleMove(naContext c, naRef me, int argc, naRef* args)
{
SGGeod from = globals->get_aircraft_position(), to;
int argOffset = 0;
// complication - don't inerpret two doubles (as the only args)
// as a lat,lon pair - only do so if we have at least three args.
if (argc > 2) {
argOffset = geodFromArgs(args, 0, argc, from);
}
if ((argOffset + 1) >= argc) {
naRuntimeError(c, "isufficent arguments to greatCircleMove");
}
if (!naIsNum(args[argOffset]) || !naIsNum(args[argOffset+1])) {
naRuntimeError(c, "invalid arguments %d and %d to greatCircleMove",
argOffset, argOffset + 1);
}
double course = args[argOffset].num, course2;
double distanceNm = args[argOffset + 1].num;
SGGeodesy::direct(from, course, distanceNm * SG_NM_TO_METER, to, course2);
// return geo.Coord
naRef coord = naNewHash(c);
hashset(c, coord, "lat", naNum(to.getLatitudeDeg()));
hashset(c, coord, "lon", naNum(to.getLongitudeDeg()));
return coord;
}
static naRef f_tilePath(naContext c, naRef me, int argc, naRef* args)
{
SGGeod pos = globals->get_aircraft_position();
geodFromArgs(args, 0, argc, pos);
SGBucket b(pos);
return stringToNasal(c, b.gen_base_path());
}
static naRef f_tileIndex(naContext c, naRef me, int argc, naRef* args)
{
SGGeod pos = globals->get_aircraft_position();
geodFromArgs(args, 0, argc, pos);
SGBucket b(pos);
return naNum(b.gen_index());
}
static naRef f_route(naContext c, naRef me, int argc, naRef* args)
{
if (argc == 0) {
FGRouteMgr* rm = static_cast<FGRouteMgr*>(globals->get_subsystem("route-manager"));
return ghostForFlightPlan(c, rm->flightPlan());
}
if ((argc > 0) && naIsString(args[0])) {
flightgear::FlightPlan* fp = new flightgear::FlightPlan;
SGPath path(naStr_data(args[0]));
if (!path.exists()) {
naRuntimeError(c, "flightplan, no file at path %s", path.c_str());
}
if (!fp->load(path)) {
SG_LOG(SG_NASAL, SG_WARN, "failed to load flight-plan from " << path);
delete fp;
return naNil();
}
return ghostForFlightPlan(c, fp);
}
naRuntimeError(c, "bad arguments to flightplan()");
return naNil();
}
class NasalFPDelegate : public FlightPlan::Delegate
{
public:
NasalFPDelegate(FlightPlan* fp, FGNasalSys* sys, naRef ins) :
_nasal(sys),
_plan(fp),
_instance(ins)
{
_gcSaveKey = _nasal->gcSave(ins);
}
virtual ~NasalFPDelegate()
{
_nasal->gcRelease(_gcSaveKey);
}
virtual void departureChanged()
{
callDelegateMethod("departureChanged");
}
virtual void arrivalChanged()
{
callDelegateMethod("arrivalChanged");
}
virtual void waypointsChanged()
{
callDelegateMethod("waypointsChanged");
}
virtual void currentWaypointChanged()
{
callDelegateMethod("currentWaypointChanged");
}
virtual void cleared()
{
callDelegateMethod("cleared");
}
virtual void endOfFlightPlan()
{
callDelegateMethod("endOfFlightPlan");
}
private:
void callDelegateMethod(const char* method)
{
naRef f;
if (naMember_cget(_nasal->context(), _instance, method, &f) == 0) {
return; // no method on the delegate
}
naRef arg[1];
arg[0] = ghostForFlightPlan(_nasal->context(), _plan);
_nasal->callMethod(f, _instance, 1, arg, naNil());
}
FGNasalSys* _nasal;
FlightPlan* _plan;
naRef _instance;
int _gcSaveKey;
};
class NasalFPDelegateFactory : public FlightPlan::DelegateFactory
{
public:
NasalFPDelegateFactory(naRef code)
{
_nasal = (FGNasalSys*) globals->get_subsystem("nasal");
_func = code;
_gcSaveKey = _nasal->gcSave(_func);
}
~NasalFPDelegateFactory()
{
_nasal->gcRelease(_gcSaveKey);
}
virtual FlightPlan::Delegate* createFlightPlanDelegate(FlightPlan* fp)
{
naRef args[1];
args[0] = ghostForFlightPlan(_nasal->context(), fp);
naRef instance = _nasal->call(_func, 1, args, naNil());
if (naIsNil(instance)) {
return NULL;
}
return new NasalFPDelegate(fp, _nasal, instance);
}
private:
FGNasalSys* _nasal;
naRef _func;
int _gcSaveKey;
};
static naRef f_registerFPDelegate(naContext c, naRef me, int argc, naRef* args)
{
if ((argc < 1) || !naIsFunc(args[0])) {
naRuntimeError(c, "non-function argument to registerFlightPlanDelegate");
}
NasalFPDelegateFactory* factory = new NasalFPDelegateFactory(args[0]);
FlightPlan::registerDelegateFactory(factory);
return naNil();
}
static WayptRef wayptFromArg(naRef arg)
{
WayptRef r = wayptGhost(arg);
if (r.valid()) {
return r;
}
FGPositioned* pos = positionedGhost(arg);
if (!pos) {
// let's check if the arg is hash, coudl extra a geod and hence build
// a simple waypoint
return WayptRef();
}
// special-case for runways
if (pos->type() == FGPositioned::RUNWAY) {
return new RunwayWaypt((FGRunway*) pos, NULL);
}
return new NavaidWaypoint(pos, NULL);
}
static naRef convertWayptVecToNasal(naContext c, const WayptVec& wps)
{
naRef result = naNewVector(c);
BOOST_FOREACH(WayptRef wpt, wps) {
naVec_append(result, ghostForWaypt(c, wpt.get()));
}
return result;
}
static naRef f_airwaySearch(naContext c, naRef me, int argc, naRef* args)
{
if (argc < 2) {
naRuntimeError(c, "airwaysSearch needs at least two arguments");
}
WayptRef start = wayptFromArg(args[0]),
end = wayptFromArg(args[1]);
if (!start || !end) {
SG_LOG(SG_NASAL, SG_WARN, "airwaysSearch: start or end points are invalid");
return naNil();
}
bool highLevel = true;
if ((argc > 2) && naIsString(args[2])) {
if (!strcmp(naStr_data(args[2]), "lowlevel")) {
highLevel = false;
}
}
WayptVec route;
if (highLevel) {
Airway::highLevel()->route(start, end, route);
} else {
Airway::lowLevel()->route(start, end, route);
}
return convertWayptVecToNasal(c, route);
}
static naRef f_createWP(naContext c, naRef me, int argc, naRef* args)
{
SGGeod pos;
int argOffset = geodFromArgs(args, 0, argc, pos);
if (((argc - argOffset) < 1) || !naIsString(args[argOffset])) {
naRuntimeError(c, "createWP: no identifier supplied");
}
std::string ident = naStr_data(args[argOffset++]);
WayptRef wpt = new BasicWaypt(pos, ident, NULL);
// set waypt flags - approach, departure, pseudo, etc
if (argc > argOffset) {
WayptFlag f = wayptFlagFromString(naStr_data(args[argOffset++]));
if (f == 0) {
naRuntimeError(c, "createWP: bad waypoint role");
}
wpt->setFlag(f);
}
return ghostForWaypt(c, wpt);
}
static naRef f_createWPFrom(naContext c, naRef me, int argc, naRef* args)
{
if (argc < 1) {
naRuntimeError(c, "createWPFrom: need at least one argument");
}
FGPositioned* positioned = positionedGhost(args[0]);
if (!positioned) {
naRuntimeError(c, "createWPFrom: couldn;t convert arg[0] to FGPositioned");
}
WayptRef wpt;
if (positioned->type() == FGPositioned::RUNWAY) {
wpt = new RunwayWaypt((FGRunway*) positioned, NULL);
} else {
wpt = new NavaidWaypoint(positioned, NULL);
}
// set waypt flags - approach, departure, pseudo, etc
if (argc > 1) {
WayptFlag f = wayptFlagFromString(naStr_data(args[1]));
if (f == 0) {
naRuntimeError(c, "createWPFrom: bad waypoint role");
}
wpt->setFlag(f);
}
return ghostForWaypt(c, wpt);
}
static naRef f_flightplan_getWP(naContext c, naRef me, int argc, naRef* args)
{
FlightPlan* fp = flightplanGhost(me);
if (!fp) {
naRuntimeError(c, "flightplan.getWP called on non-flightplan object");
}
int index;
if (argc == 0) {
index = fp->currentIndex();
} else {
index = (int) naNumValue(args[0]).num;
}
if ((index < 0) || (index >= fp->numLegs())) {
return naNil();
}
return ghostForLeg(c, fp->legAtIndex(index));
}
static naRef f_flightplan_currentWP(naContext c, naRef me, int argc, naRef* args)
{
FlightPlan* fp = flightplanGhost(me);
if (!fp) {
naRuntimeError(c, "flightplan.currentWP called on non-flightplan object");
}
return ghostForLeg(c, fp->currentLeg());
}
static naRef f_flightplan_nextWP(naContext c, naRef me, int argc, naRef* args)
{
FlightPlan* fp = flightplanGhost(me);
if (!fp) {
naRuntimeError(c, "flightplan.nextWP called on non-flightplan object");
}
return ghostForLeg(c, fp->nextLeg());
}
static naRef f_flightplan_numWaypoints(naContext c, naRef me, int argc, naRef* args)
{
FlightPlan* fp = flightplanGhost(me);
if (!fp) {
naRuntimeError(c, "flightplan.numWaypoints called on non-flightplan object");
}
return naNum(fp->numLegs());
}
static naRef f_flightplan_appendWP(naContext c, naRef me, int argc, naRef* args)
{
FlightPlan* fp = flightplanGhost(me);
if (!fp) {
naRuntimeError(c, "flightplan.appendWP called on non-flightplan object");
}
WayptRef wp = wayptGhost(args[0]);
int index = fp->numLegs();
fp->insertWayptAtIndex(wp.get(), index);
return naNum(index);
}
static naRef f_flightplan_insertWP(naContext c, naRef me, int argc, naRef* args)
{
FlightPlan* fp = flightplanGhost(me);
if (!fp) {
naRuntimeError(c, "flightplan.insertWP called on non-flightplan object");
}
WayptRef wp = wayptGhost(args[0]);
int index = -1; // append
if ((argc > 1) && naIsNum(args[1])) {
index = (int) args[1].num;
}
fp->insertWayptAtIndex(wp.get(), index);
return naNil();
}
static naRef f_flightplan_insertWPAfter(naContext c, naRef me, int argc, naRef* args)
{
FlightPlan* fp = flightplanGhost(me);
if (!fp) {
naRuntimeError(c, "flightplan.insertWPAfter called on non-flightplan object");
}
WayptRef wp = wayptGhost(args[0]);
int index = -1; // append
if ((argc > 1) && naIsNum(args[1])) {
index = (int) args[1].num;
}
fp->insertWayptAtIndex(wp.get(), index + 1);
return naNil();
}
static naRef f_flightplan_insertWaypoints(naContext c, naRef me, int argc, naRef* args)
{
FlightPlan* fp = flightplanGhost(me);
if (!fp) {
naRuntimeError(c, "flightplan.insertWaypoints called on non-flightplan object");
}
WayptVec wps;
if (!naIsVector(args[0])) {
naRuntimeError(c, "flightplan.insertWaypoints expects vector as first arg");
}
int count = naVec_size(args[0]);
for (int i=0; i<count; ++i) {
Waypt* wp = wayptGhost(naVec_get(args[0], i));
if (wp) {
wps.push_back(wp);
}
}
int index = -1; // append
if ((argc > 1) && naIsNum(args[1])) {
index = (int) args[1].num;
}
fp->insertWayptsAtIndex(wps, index);
return naNil();
}
static naRef f_flightplan_deleteWP(naContext c, naRef me, int argc, naRef* args)
{
FlightPlan* fp = flightplanGhost(me);
if (!fp) {
naRuntimeError(c, "flightplan.deleteWP called on non-flightplan object");
}
if ((argc < 1) || !naIsNum(args[0])) {
naRuntimeError(c, "bad argument to flightplan.deleteWP");
}
int index = (int) args[0].num;
fp->deleteIndex(index);
return naNil();
}
static naRef f_flightplan_clearPlan(naContext c, naRef me, int argc, naRef* args)
{
FlightPlan* fp = flightplanGhost(me);
if (!fp) {
naRuntimeError(c, "flightplan.clearPlan called on non-flightplan object");
}
fp->clear();
return naNil();
}
static naRef f_flightplan_clearWPType(naContext c, naRef me, int argc, naRef* args)
{
FlightPlan* fp = flightplanGhost(me);
if (!fp) {
naRuntimeError(c, "flightplan.clearWPType called on non-flightplan object");
}
if (argc < 1) {
naRuntimeError(c, "insufficent args to flightplan.clearWPType");
}
WayptFlag flag = wayptFlagFromString(naStr_data(args[0]));
if (flag == 0) {
naRuntimeError(c, "clearWPType: bad waypoint role");
}
fp->clearWayptsWithFlag(flag);
return naNil();
}
static naRef f_flightplan_clone(naContext c, naRef me, int argc, naRef* args)
{
FlightPlan* fp = flightplanGhost(me);
if (!fp) {
naRuntimeError(c, "flightplan.clone called on non-flightplan object");
}
return ghostForFlightPlan(c, fp->clone());
}
static naRef f_flightplan_pathGeod(naContext c, naRef me, int argc, naRef* args)
{
FlightPlan* fp = flightplanGhost(me);
if (!fp) {
naRuntimeError(c, "flightplan.clone called on non-flightplan object");
}
if ((argc < 1) || !naIsNum(args[0])) {
naRuntimeError(c, "bad argument to flightplan.pathGeod");
}
if ((argc > 1) && !naIsNum(args[1])) {
naRuntimeError(c, "bad argument to flightplan.pathGeod");
}
int index = (int) args[0].num;
double offset = (argc > 1) ? args[1].num : 0.0;
naRef result = naNewHash(c);
SGGeod g = fp->pointAlongRoute(index, offset);
hashset(c, result, "lat", naNum(g.getLatitudeDeg()));
hashset(c, result, "lon", naNum(g.getLongitudeDeg()));
return result;
}
static naRef f_flightplan_finish(naContext c, naRef me, int argc, naRef* args)
{
FlightPlan* fp = flightplanGhost(me);
if (!fp) {
naRuntimeError(c, "flightplan.finish called on non-flightplan object");
}
fp->finish();
return naNil();
}
static naRef f_leg_setSpeed(naContext c, naRef me, int argc, naRef* args)
{
FlightPlan::Leg* leg = fpLegGhost(me);
if (!leg) {
naRuntimeError(c, "leg.setSpeed called on non-flightplan-leg object");
}
double speed = 0.0;
if ((argc < 2) || !convertToNum(args[0], speed))
naRuntimeError(c, "bad arguments to setSpeed");
RouteRestriction rr = routeRestrictionFromString(naStr_data(args[1]));
leg->setSpeed(rr, speed);
return naNil();
}
static naRef f_leg_setAltitude(naContext c, naRef me, int argc, naRef* args)
{
FlightPlan::Leg* leg = fpLegGhost(me);
if (!leg) {
naRuntimeError(c, "leg.setAltitude called on non-flightplan-leg object");
}
double alt = 0.0;
if ((argc < 2) || !convertToNum(args[0], alt))
naRuntimeError(c, "bad arguments to leg.setAltitude");
RouteRestriction rr = routeRestrictionFromString(naStr_data(args[1]));
leg->setAltitude(rr, alt);
return naNil();
}
static naRef f_leg_path(naContext c, naRef me, int argc, naRef* args)
{
FlightPlan::Leg* leg = fpLegGhost(me);
if (!leg) {
naRuntimeError(c, "leg.setAltitude called on non-flightplan-leg object");
}
RoutePath path(leg->owner());
SGGeodVec gv(path.pathForIndex(leg->index()));
naRef result = naNewVector(c);
BOOST_FOREACH(SGGeod p, gv) {
// construct a geo.Coord!
naRef coord = naNewHash(c);
hashset(c, coord, "lat", naNum(p.getLatitudeDeg()));
hashset(c, coord, "lon", naNum(p.getLongitudeDeg()));
naVec_append(result, coord);
}
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);
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 ghostForNavaid(c, nav);
}
default:
return naNil();
}
}
static naRef f_waypoint_airport(naContext c, naRef me, int argc, naRef* args)
{
flightgear::Waypt* w = wayptGhost(me);
if (!w) {
naRuntimeError(c, "waypoint.navaid called on non-waypoint object");
}
FGPositioned* pos = w->source();
if (!pos || FGAirport::isAirportType(pos)) {
return naNil();
}
return ghostForAirport(c, (FGAirport*) pos);
}
static naRef f_waypoint_runway(naContext c, naRef me, int argc, naRef* args)
{
flightgear::Waypt* w = wayptGhost(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 ghostForRunway(c, (FGRunway*) pos);
}
static naRef f_procedure_transition(naContext c, naRef me, int argc, naRef* args)
{
Procedure* proc = procedureGhost(me);
if (!proc) {
naRuntimeError(c, "procedure.transition called on non-procedure object");
}
if ((proc->type() != PROCEDURE_SID) && (proc->type() != PROCEDURE_STAR)) {
naRuntimeError(c, "procedure.transition called on non-SID or -STAR");
}
ArrivalDeparture* ad = (ArrivalDeparture*) proc;
Transition* trans = ad->findTransitionByName(naStr_data(args[0]));
return ghostForProcedure(c, trans);
}
static naRef f_procedure_route(naContext c, naRef me, int argc, naRef* args)
{
Procedure* proc = procedureGhost(me);
if (!proc) {
naRuntimeError(c, "procedure.route called on non-procedure object");
}
// wrapping up tow different routines here - approach routing from the IAF
// to the associated runway, and SID/STAR routing via an enroute transition
// and possibly a runway transition or not.
if (Approach::isApproach(proc->type())) {
WayptRef iaf;
if (argc > 0) {
iaf = wayptFromArg(args[0]);
}
WayptVec r;
Approach* app = (Approach*) proc;
if (!app->route(iaf, r)) {
SG_LOG(SG_NASAL, SG_WARN, "procedure.route failed for Approach somehow");
return naNil();
}
return convertWayptVecToNasal(c, r);
} else if ((proc->type() != PROCEDURE_SID) && (proc->type() != PROCEDURE_STAR)) {
naRuntimeError(c, "procedure.route called on unsuitable procedure type");
}
int argOffset = 0;
FGRunway* rwy = runwayGhost(args[0]);
if (rwy) ++argOffset;
ArrivalDeparture* ad = (ArrivalDeparture*) proc;
Transition* trans = NULL;
if (argOffset < argc) {
trans = (Transition*) procedureGhost(args[argOffset]);
}
// note either runway or trans may be NULL - that's ok
WayptVec r;
if (!ad->route(rwy, trans, r)) {
SG_LOG(SG_NASAL, SG_WARN, "prcoedure.route failed for ArrvialDeparture somehow");
return naNil();
}
return convertWayptVecToNasal(c, r);
}
// 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 },
{ "findAirportsWithinRange", f_findAirportsWithinRange },
{ "findAirportsByICAO", f_findAirportsByICAO },
{ "navinfo", f_navinfo },
{ "findNavaidsWithinRange", f_findNavaidsWithinRange },
{ "findNavaidByFrequency", f_findNavaidByFrequency },
{ "findNavaidsByFrequency", f_findNavaidsByFrequency },
{ "findNavaidsByID", f_findNavaidsByIdent },
{ "findFixesByID", f_findFixesByIdent },
{ "flightplan", f_route },
{ "registerFlightPlanDelegate", f_registerFPDelegate },
{ "createWP", f_createWP },
{ "createWPFrom", f_createWPFrom },
{ "airwaysRoute", f_airwaySearch },
{ "magvar", f_magvar },
{ "courseAndDistance", f_courseAndDistance },
{ "greatCircleMove", f_greatCircleMove },
{ "tileIndex", f_tileIndex },
{ "tilePath", f_tilePath },
{ 0, 0 }
};
naRef initNasalPositioned(naRef globals, naContext c)
{
airportPrototype = naNewHash(c);
naSave(c, airportPrototype);
hashset(c, airportPrototype, "runway", naNewFunc(c, naNewCCode(c, f_airport_runway)));
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, airportPrototype, "stars", naNewFunc(c, naNewCCode(c, f_airport_stars)));
hashset(c, airportPrototype, "getApproachList", naNewFunc(c, naNewCCode(c, f_airport_approaches)));
hashset(c, airportPrototype, "parking", naNewFunc(c, naNewCCode(c, f_airport_parking)));
hashset(c, airportPrototype, "getSid", naNewFunc(c, naNewCCode(c, f_airport_getSid)));
hashset(c, airportPrototype, "getStar", naNewFunc(c, naNewCCode(c, f_airport_getStar)));
hashset(c, airportPrototype, "getIAP", naNewFunc(c, naNewCCode(c, f_airport_getApproach)));
hashset(c, airportPrototype, "findBestRunwayForPos", naNewFunc(c, naNewCCode(c, f_airport_findBestRunway)));
hashset(c, airportPrototype, "tostring", naNewFunc(c, naNewCCode(c, f_airport_toString)));
flightplanPrototype = naNewHash(c);
naSave(c, flightplanPrototype);
hashset(c, flightplanPrototype, "getWP", naNewFunc(c, naNewCCode(c, f_flightplan_getWP)));
hashset(c, flightplanPrototype, "currentWP", naNewFunc(c, naNewCCode(c, f_flightplan_currentWP)));
hashset(c, flightplanPrototype, "nextWP", naNewFunc(c, naNewCCode(c, f_flightplan_nextWP)));
hashset(c, flightplanPrototype, "getPlanSize", naNewFunc(c, naNewCCode(c, f_flightplan_numWaypoints)));
hashset(c, flightplanPrototype, "appendWP", naNewFunc(c, naNewCCode(c, f_flightplan_appendWP)));
hashset(c, flightplanPrototype, "insertWP", naNewFunc(c, naNewCCode(c, f_flightplan_insertWP)));
hashset(c, flightplanPrototype, "deleteWP", naNewFunc(c, naNewCCode(c, f_flightplan_deleteWP)));
hashset(c, flightplanPrototype, "insertWPAfter", naNewFunc(c, naNewCCode(c, f_flightplan_insertWPAfter)));
hashset(c, flightplanPrototype, "insertWaypoints", naNewFunc(c, naNewCCode(c, f_flightplan_insertWaypoints)));
hashset(c, flightplanPrototype, "cleanPlan", naNewFunc(c, naNewCCode(c, f_flightplan_clearPlan)));
hashset(c, flightplanPrototype, "clearWPType", naNewFunc(c, naNewCCode(c, f_flightplan_clearWPType)));
hashset(c, flightplanPrototype, "clone", naNewFunc(c, naNewCCode(c, f_flightplan_clone)));
hashset(c, flightplanPrototype, "pathGeod", naNewFunc(c, naNewCCode(c, f_flightplan_pathGeod)));
hashset(c, flightplanPrototype, "finish", naNewFunc(c, naNewCCode(c, f_flightplan_finish)));
waypointPrototype = naNewHash(c);
naSave(c, 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)));
procedurePrototype = naNewHash(c);
naSave(c, procedurePrototype);
hashset(c, procedurePrototype, "transition", naNewFunc(c, naNewCCode(c, f_procedure_transition)));
hashset(c, procedurePrototype, "route", naNewFunc(c, naNewCCode(c, f_procedure_route)));
fpLegPrototype = naNewHash(c);
naSave(c, fpLegPrototype);
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,
naNewFunc(c, naNewCCode(c, funcs[i].func)));
}
return naNil();
}
void postinitNasalPositioned(naRef globals, naContext c)
{
naRef geoModule = naHash_cget(globals, (char*) "geo");
if (naIsNil(geoModule)) {
SG_LOG(SG_GENERAL, SG_WARN, "postinitNasalPositioned: geo.nas not loaded");
return;
}
geoCoordClass = naHash_cget(geoModule, (char*) "Coord");
}