// LocationController.cxx - GUI launcher dialog using Qt5 // // Written by James Turner, started October 2015. // // Copyright (C) 2015 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. #include "LocationController.hxx" #include #include #include #include #include #include #include #include #include "AirportDiagram.hxx" #include "CarrierDiagram.hxx" #include "NavaidDiagram.hxx" #include "LaunchConfig.hxx" #include "DefaultAircraftLocator.hxx" #include "NavaidSearchModel.hxx" #include "CarriersLocationModel.hxx" #include #include #include
#include #include #include
#include
#include
// for fgSetDouble using namespace flightgear; const unsigned int MAX_RECENT_LOCATIONS = 20; QVariant savePositionList(const FGPositionedList& posList) { QVariantList vl; for (const auto& pos : posList) { QVariantMap vm; vm.insert("ident", QString::fromStdString(pos->ident())); vm.insert("type", pos->type()); vm.insert("lat", pos->geod().getLatitudeDeg()); vm.insert("lon", pos->geod().getLongitudeDeg()); vl.append(vm); } return vl; } FGPositionedList loadPositionedList(QVariant v) { QVariantList vl = v.toList(); FGPositionedList result; result.reserve(static_cast(vl.size())); NavDataCache* cache = NavDataCache::instance(); Q_FOREACH(QVariant v, vl) { QVariantMap vm = v.toMap(); std::string ident(vm.value("ident").toString().toStdString()); double lat = vm.value("lat").toDouble(); double lon = vm.value("lon").toDouble(); FGPositioned::Type ty(static_cast(vm.value("type").toInt())); FGPositioned::TypeFilter filter(ty); FGPositionedRef pos = cache->findClosestWithIdent(ident, SGGeod::fromDeg(lon, lat), &filter); if (pos) result.push_back(pos); } return result; } LocationController::LocationController(QObject *parent) : QObject(parent) { m_searchModel = new NavaidSearchModel(this); m_detailQml = new QmlPositioned(this); m_baseQml = new QmlPositioned(this); m_carriersModel = new CarriersLocationModel(this); m_defaultAltitude = QuantityValue{Units::FeetMSL, 6000}; m_defaultAirspeed = QuantityValue{Units::Knots, 120}; m_defaultHeading = QuantityValue{Units::DegreesTrue, 0}; m_defaultOffsetDistance = QuantityValue{Units::NauticalMiles, 1.0}; m_defaultOffsetRadial = QuantityValue{Units::DegreesTrue, 90}; // chain location and offset updated to description connect(this, &LocationController::baseLocationChanged, this, &LocationController::descriptionChanged); connect(this, &LocationController::configChanged, this, &LocationController::descriptionChanged); connect(this, &LocationController::offsetChanged, this, &LocationController::descriptionChanged); } LocationController::~LocationController() = default; void LocationController::setLaunchConfig(LaunchConfig *config) { m_config = config; connect(m_config, &LaunchConfig::collect, this, &LocationController::onCollectConfig); connect(m_config, &LaunchConfig::save, this, &LocationController::onSaveCurrentLocation); connect(m_config, &LaunchConfig::restore, this, &LocationController::onRestoreCurrentLocation); } void LocationController::restoreSearchHistory() { QSettings settings; m_recentLocations = loadPositionedList(settings.value("recent-locations")); } void LocationController::onRestoreCurrentLocation() { QVariantMap vm = m_config->getValueForKey("", "current-location", QVariantMap()).toMap(); if (vm.empty()) return; restoreLocation(vm); } void LocationController::onSaveCurrentLocation() { m_config->setValueForKey("", "current-location", saveLocation()); } bool LocationController::isParkedLocation() const { if (m_airportLocation) { if (m_useAvailableParking) return true; if (m_detailLocation && (m_detailLocation->type() == FGPositioned::PARKING)) { return true; } } // treat all other ground starts as taxi or on runway, i.e engines // running if possible return false; } bool LocationController::isAirborneLocation() const { const bool altIsPositive = (m_altitude.value > 0); if (m_locationIsLatLon) { return m_altitudeEnabled && altIsPositive; } if (m_airportLocation) { const bool onRunway = (m_detailLocation && (m_detailLocation->type() == FGPositioned::RUNWAY)) || m_useActiveRunway; if (onRunway && m_onFinal) { // in this case no altitude might be set, but we assume // it's still an airborne position return true; } return false; } // relative to a navaid or fix - base off altitude. return m_altitudeEnabled && altIsPositive; } QuantityValue LocationController::offsetRadial() const { return m_offsetRadial; } void LocationController::setBaseGeod(QmlGeod geod) { if (m_locationIsLatLon && (m_geodLocation == geod.geod())) return; clearLocation(); m_locationIsLatLon = true; m_geodLocation = geod.geod(); emit baseLocationChanged(); } QString LocationController::carrierName() const { return m_carrierName; } void LocationController::setCarrierLocation(QString name) { const auto cIndex = m_carriersModel->indexOf(name); clearLocation(); if (cIndex < 0) { qWarning() << "invalid carrier name:" << name; return; } m_locationIsCarrier = true; m_carrierName = name; m_geodLocation = m_carriersModel->geodForIndex(cIndex); m_carrierParkings = m_carriersModel->parkingsForIndex(cIndex); emit baseLocationChanged(); } void LocationController::clearLocation() { m_locationIsLatLon = false; m_locationIsCarrier = false; m_abeam = false; m_location.clear(); m_carrierName.clear(); m_airportLocation.clear(); m_detailLocation.clear(); m_detailQml->setGuid(0); m_baseQml->setGuid(0); m_carrierParkings.clear(); m_carrierParking.clear(); emit baseLocationChanged(); } void LocationController::setBaseLocation(QmlPositioned* pos) { if (!pos) { clearLocation(); return; } if (pos->inner() == m_location) return; clearLocation(); m_location = pos->inner(); m_baseQml->setGuid(pos->guid()); if (FGPositioned::isAirportType(m_location.ptr())) { m_airportLocation = static_cast(m_location.ptr()); // disable offset when selecting a heliport if (m_airportLocation->isHeliport()) { m_onFinal = false; } } else { m_airportLocation.clear(); } emit offsetChanged(); emit baseLocationChanged(); } void LocationController::setDetailLocation(QmlPositioned* pos) { if (pos && (pos->inner() == m_detailLocation)) return; if (!pos) { m_detailLocation.clear(); m_detailQml->setInner({}); } else { m_detailLocation = pos->inner(); m_useActiveRunway = false; m_useAvailableParking = false; m_detailQml->setInner(pos->inner()); } emit configChanged(); } QmlGeod LocationController::baseGeod() const { if (m_locationIsLatLon || m_locationIsCarrier) return m_geodLocation; if (m_location) return QmlGeod(m_location->geod()); return {}; } bool LocationController::isAirportLocation() const { return m_airportLocation; } void LocationController::setUseActiveRunway(bool b) { if (b == m_useActiveRunway) return; m_useActiveRunway = b; if (m_useActiveRunway) { m_detailLocation.clear(); // clear any specific runway m_useAvailableParking = false; } emit configChanged(); } void LocationController::addToRecent(QmlPositioned* pos) { addToRecent(pos->inner()); } QObjectList LocationController::airportRunways() const { if (!m_airportLocation) return {}; QObjectList result; if (m_airportLocation->isHeliport()) { // helipads for (unsigned int r=0; rnumHelipads(); ++r) { auto p = new QmlPositioned(m_airportLocation->getHelipadByIndex(r).ptr()); QQmlEngine::setObjectOwnership(p, QQmlEngine::JavaScriptOwnership); result.push_back(p); } } else { // regular runways for (unsigned int r=0; rnumRunways(); ++r) { auto p = new QmlPositioned(m_airportLocation->getRunwayByIndex(r).ptr()); QQmlEngine::setObjectOwnership(p, QQmlEngine::JavaScriptOwnership); result.push_back(p); } } return result; } QObjectList LocationController::airportParkings() const { if (!m_airportLocation) return {}; QObjectList result; for (auto park : m_airportLocation->groundNetwork()->allParkings()) { auto p = new QmlPositioned(park); QQmlEngine::setObjectOwnership(p, QQmlEngine::JavaScriptOwnership); result.push_back(p); } return result; } void LocationController::showHistoryInSearchModel() { // prepend the default location and tutorial airport FGPositionedList locs = m_recentLocations; const std::string defaultICAO = flightgear::defaultAirportICAO(); const std::string tutorialICAO = "PHTO"; // C172P tutorial aiurport // remove them from the recent locations auto it = std::remove_if(locs.begin(), locs.end(), [defaultICAO, tutorialICAO](FGPositionedRef pos) { return (pos->ident() == defaultICAO) || (pos->ident() == tutorialICAO); }); locs.erase(it, locs.end()); // prepend them FGAirportRef apt = FGAirport::findByIdent(tutorialICAO); locs.insert(locs.begin(), apt); apt = FGAirport::findByIdent(defaultICAO); locs.insert(locs.begin(), apt); m_searchModel->setItems(locs); } QmlGeod LocationController::parseStringAsGeod(QString string) const { SGGeod g; if (!simgear::strutils::parseStringAsGeod(string.toStdString(), &g)) { return {}; } return QmlGeod(g); } QString LocationController::carrierParking() const { if (!m_locationIsCarrier) return {}; return m_carrierParking; } void LocationController::setCarrierParking(QString name) { if (!m_locationIsCarrier) { qWarning() << "active location is not a carrier"; return; } if (m_carrierParking == name) return; if (!m_carrierParkings.contains(name)) { qWarning() << "parking '" << name << "' not found in carrier parking list"; return; } m_carrierParking = name; m_useCarrierFLOLS = false; emit configChanged(); } QmlPositioned *LocationController::detail() const { return m_detailQml; } QmlPositioned *LocationController::baseLocation() const { return m_baseQml; } QStringList LocationController::carrierParkings() const { return m_carrierParkings; } void LocationController::setOffsetRadial(QuantityValue offsetRadial) { if (m_offsetRadial == offsetRadial) return; m_offsetRadial = offsetRadial; emit offsetChanged(); } void LocationController::setOffsetDistance(QuantityValue d) { if (m_offsetDistance == d) return; m_offsetDistance = d; emit offsetChanged(); } void LocationController::setOffsetEnabled(bool offsetEnabled) { if (m_offsetEnabled == offsetEnabled) return; m_offsetEnabled = offsetEnabled; emit offsetChanged(); } void LocationController::setOnFinal(bool onFinal) { if (m_onFinal == onFinal) return; m_onFinal = onFinal; emit configChanged(); } void LocationController::setTuneNAV1(bool tuneNAV1) { if (m_tuneNAV1 == tuneNAV1) return; m_tuneNAV1 = tuneNAV1; emit configChanged(); } void LocationController::setUseAvailableParking(bool useAvailableParking) { if (m_useAvailableParking == useAvailableParking) return; m_useAvailableParking = useAvailableParking; if (m_useAvailableParking) { m_detailLocation.clear(); // clear any specific runway m_useActiveRunway = false; } emit configChanged(); } void LocationController::setUseCarrierFLOLS(bool useCarrierFLOLS) { if (!m_locationIsCarrier) { qWarning() << "location is not a carrier"; return; } if (m_useCarrierFLOLS == useCarrierFLOLS) return; m_useCarrierFLOLS = useCarrierFLOLS; m_carrierParking.clear(); emit configChanged(); } void LocationController::setAbeam(bool abeam) { m_abeam = abeam; emit configChanged(); } void LocationController::restoreLocation(QVariantMap l) { clearLocation(); try { m_altitudeEnabled = l.contains("altitude"); m_speedEnabled = l.contains("speed"); m_headingEnabled = l.contains("heading"); m_altitude = l.value("altitude", QVariant::fromValue(m_defaultAltitude)).value(); m_airspeed = l.value("speed", QVariant::fromValue(m_defaultAirspeed)).value(); m_heading = l.value("heading", QVariant::fromValue(m_defaultHeading)).value(); m_offsetEnabled = l.value("offset-enabled").toBool(); m_offsetRadial = l.value("offset-bearing", QVariant::fromValue(m_defaultOffsetRadial)).value(); m_offsetDistance = l.value("offset-distance", QVariant::fromValue(m_defaultOffsetDistance)).value(); m_tuneNAV1 = l.value("tune-nav1-radio").toBool(); if (l.contains("location-lat")) { m_locationIsLatLon = true; m_geodLocation = SGGeod::fromDeg(l.value("location-lon").toDouble(), l.value("location-lat").toDouble()); } else if (l.contains("carrier")) { setCarrierLocation(l.value("carrier").toString()); if (l.contains("carrier-flols")) { setUseCarrierFLOLS(l.value("carrier-flols").toBool()); setAbeam(l.value("abeam").toBool()); // overwrite value form above, intentionally m_offsetDistance = l.value("location-carrier-flols-distance", QVariant::fromValue(m_defaultOffsetDistance)).value(); } else if (l.contains("carrier-parking")) { setCarrierParking(l.value("carrier-parking").toString()); } } else if (l.contains("location-id")) { m_location = NavDataCache::instance()->loadById(l.value("location-id").toLongLong()); m_locationIsLatLon = false; if (FGPositioned::isAirportType(m_location.ptr())) { m_airportLocation = static_cast(m_location.ptr()); } else { m_airportLocation.clear(); } m_baseQml->setInner(m_location); } if (m_airportLocation) { m_useActiveRunway = false; m_useAvailableParking = false; if (l.contains("location-apt-runway")) { QString runway = l.value("location-apt-runway").toString().toUpper(); if (runway == QStringLiteral("ACTIVE")) { m_useActiveRunway = true; } else if (m_airportLocation->isHeliport()) { m_detailLocation = m_airportLocation->getHelipadByIdent(runway.toStdString()); } else { m_detailLocation = m_airportLocation->getRunwayByIdent(runway.toStdString()); } } else if (l.contains("location-apt-parking")) { QString parking = l.value("location-apt-parking").toString(); if (parking == QStringLiteral("AVAILABLE")) { m_useAvailableParking = true; } else { m_detailLocation = m_airportLocation->groundNetwork()->findParkingByName(parking.toStdString()); } } if (m_detailLocation) { m_detailQml->setInner(m_detailLocation); } m_onFinal = l.value("location-on-final").toBool(); setAbeam(l.value("abeam").toBool()); m_offsetDistance = l.value("location-apt-final-distance", QVariant::fromValue(m_defaultOffsetDistance)).value(); } // of location is an airport } catch (const sg_exception&) { qWarning() << "Errors restoring saved location, clearing"; clearLocation(); } baseLocationChanged(); configChanged(); offsetChanged(); } bool LocationController::shouldStartPaused() const { if (m_useCarrierFLOLS) { return true; } if (!m_location) { return false; // defaults to on-ground at the default airport } if (m_airportLocation) { return m_onFinal; } else { // navaid, start paused return true; } return false; } QVariantMap LocationController::saveLocation() const { QVariantMap locationSet; if (m_locationIsLatLon) { locationSet.insert("location-lat", m_geodLocation.getLatitudeDeg()); locationSet.insert("location-lon", m_geodLocation.getLongitudeDeg()); } else if (m_locationIsCarrier) { locationSet.insert("carrier", m_carrierName); if (m_useCarrierFLOLS) { locationSet.insert("carrier-flols", true); locationSet.insert("location-carrier-flols-distance", QVariant::fromValue(m_offsetDistance)); locationSet.insert("abeam", m_abeam); } else if (!m_carrierParking.isEmpty()) { locationSet.insert("carrier-parking", m_carrierParking); } } else if (m_location) { locationSet.insert("location-id", static_cast(m_location->guid())); if (m_airportLocation) { locationSet.insert("location-on-final", m_onFinal); locationSet.insert("location-apt-final-distance", QVariant::fromValue(m_offsetDistance)); locationSet.insert("abeam", m_abeam); if (m_useActiveRunway) { locationSet.insert("location-apt-runway", "ACTIVE"); } else if (m_useAvailableParking) { locationSet.insert("location-apt-parking", "AVAILABLE"); } else if (m_detailLocation) { const auto detailType = m_detailLocation->type(); if (detailType == FGPositioned::RUNWAY) { locationSet.insert("location-apt-runway", QString::fromStdString(m_detailLocation->ident())); } else if (detailType == FGPositioned::PARKING) { locationSet.insert("location-apt-parking", QString::fromStdString(m_detailLocation->ident())); } } } // of location is an airport } // of m_location is valid if (m_altitudeEnabled) { locationSet.insert("altitude", QVariant::fromValue(m_altitude)); } if (m_speedEnabled) { locationSet.insert("speed", QVariant::fromValue(m_airspeed)); } if (m_headingEnabled) { locationSet.insert("heading", QVariant::fromValue(m_heading)); } if (m_offsetEnabled) { locationSet.insert("offset-enabled", m_offsetEnabled); locationSet.insert("offset-bearing", QVariant::fromValue(m_offsetRadial)); locationSet.insert("offset-distance", QVariant::fromValue(m_offsetDistance)); } locationSet.insert("text", description()); locationSet.insert("tune-nav1-radio", m_tuneNAV1); return locationSet; } void LocationController::setLocationProperties() { SGPropertyNode_ptr presets = fgGetNode("/sim/presets", true); QStringList props = QStringList() << "vor-id" << "fix" << "ndb-id" << "runway-requested" << "navaid-id" << "offset-azimuth-deg" << "offset-distance-nm" << "glideslope-deg" << "speed-set" << "on-ground" << "airspeed-kt" << "airport-id" << "runway" << "parkpos" << "carrier" << "carrier-position"; Q_FOREACH(QString s, props) { SGPropertyNode* c = presets->getChild(s.toStdString()); if (c) { c->clearValue(); } } if (m_locationIsLatLon) { fgSetDouble("/sim/presets/latitude-deg", m_geodLocation.getLatitudeDeg()); fgSetDouble("/position/latitude-deg", m_geodLocation.getLatitudeDeg()); fgSetDouble("/sim/presets/longitude-deg", m_geodLocation.getLongitudeDeg()); fgSetDouble("/position/longitude-deg", m_geodLocation.getLongitudeDeg()); applyPositionOffset(); applyAltitude(); applyAirspeed(); return; } fgSetDouble("/sim/presets/latitude-deg", 9999.0); fgSetDouble("/sim/presets/longitude-deg", 9999.0); fgSetDouble("/sim/presets/altitude-ft", -9999.0); fgSetDouble("/sim/presets/heading-deg", 9999.0); if (m_locationIsCarrier) { fgSetString("/sim/presets/carrier", m_carrierName.toStdString()); if (m_useCarrierFLOLS) { if (m_abeam) { fgSetString("/sim/presets/carrier-position", "abeam"); } else { fgSetString("/sim/presets/carrier-position", "FLOLS"); } fgSetDouble("/sim/presets/offset-distance-nm", m_offsetDistance.convertToUnit(Units::NauticalMiles).value); applyAltitude(); applyAirspeed(); } else if (!m_carrierParking.isEmpty()) { fgSetString("/sim/presets/carrier-position", m_carrierParking.toStdString()); } if (m_tuneNAV1) { // tune TACAN to the carrier qInfo() << "Implement TACAN tuning"; } return; } if (!m_location) { return; } if (m_airportLocation) { fgSetString("/sim/presets/airport-id", m_airportLocation->ident()); fgSetBool("/sim/presets/on-ground", true); fgSetBool("/sim/presets/airport-requested", true); fgSetBool("/sim/presets/abeam", m_abeam); const bool onRunway = (m_detailLocation && (m_detailLocation->type() == FGPositioned::RUNWAY)); const bool atParking = (m_detailLocation && (m_detailLocation->type() == FGPositioned::PARKING)); if (m_useActiveRunway) { // automatic runway choice // we can't set navaid here } else if (m_useAvailableParking) { fgSetString("/sim/presets/parkpos", "AVAILABLE"); } else if (onRunway) { if (m_airportLocation->type() == FGPositioned::AIRPORT) { // explicit runway choice fgSetString("/sim/presets/runway", m_detailLocation->ident() ); fgSetBool("/sim/presets/runway-requested", true ); // set nav-radio 1 based on selected runway FGRunway* runway = static_cast(m_detailLocation.ptr()); if (m_tuneNAV1 && runway->ILS()) { double mhz = runway->ILS()->get_freq() / 100.0; fgSetDouble("/instrumentation/nav[0]/radials/selected-deg", runway->headingDeg()); fgSetDouble("/instrumentation/nav[0]/frequencies/selected-mhz", mhz); } if (m_onFinal) { fgSetDouble("/sim/presets/glideslope-deg", 3.0); fgSetDouble("/sim/presets/offset-distance-nm", m_offsetDistance.convertToUnit(Units::NauticalMiles).value); fgSetBool("/sim/presets/on-ground", false); } } else if (m_airportLocation->type() == FGPositioned::HELIPORT) { // explicit pad choice fgSetString("/sim/presets/runway", m_detailLocation->ident() ); fgSetBool("/sim/presets/runway-requested", true ); } } else if (atParking) { // parking selection fgSetString("/sim/presets/parkpos", m_detailLocation->ident()); } // of location is an airport } else { fgSetString("/sim/presets/airport-id", ""); // location is a navaid // note setting the ident here is ambigious, we really only need and // want the 'navaid-id' property. However setting the 'real' option // gives a better UI experience (eg existing Position in Air dialog) FGPositioned::Type ty = m_location->type(); switch (ty) { case FGPositioned::VOR: fgSetString("/sim/presets/vor-id", m_location->ident()); setNavRadioOption(); break; case FGPositioned::NDB: fgSetString("/sim/presets/ndb-id", m_location->ident()); setNavRadioOption(); break; case FGPositioned::FIX: fgSetString("/sim/presets/fix", m_location->ident()); break; default: break; } // set disambiguation property globals->get_props()->setIntValue("/sim/presets/navaid-id", static_cast(m_location->guid())); applyPositionOffset(); applyAltitude(); applyAirspeed(); } // of navaid location } void LocationController::applyAirspeed() { if (m_speedEnabled && (m_airspeed.unit != Units::NoUnits)) { if (m_airspeed.unit == Units::Knots) { m_config->setArg("vc", QString::number(m_airspeed.value)); } else if (m_airspeed.unit == Units::KilometersPerHour) { const double vc = m_airspeed.convertToUnit(Units::Knots).value; m_config->setArg("vc", QString::number(vc)); } else if (m_airspeed.unit == Units::Mach) { m_config->setArg("mach", QString::number(m_airspeed.value)); } else { qWarning() << Q_FUNC_INFO << "unsupported airpseed unit" << m_airspeed.unit; } } } void LocationController::applyPositionOffset() { if (m_headingEnabled && (m_heading.unit != Units::NoUnits)) { if (m_heading.unit == Units::DegreesTrue) { m_config->setArg("heading", QString::number(m_heading.value)); } else { qWarning() << Q_FUNC_INFO << "unsupported heading unit" << m_heading.unit; } } if (m_offsetEnabled) { // flip direction of azimuth to balance the flip done in fgApplyStartOffset // I don't know why that flip exists but changing it there will break // command-line compatability so compensating here instead int offsetAzimuth = static_cast(m_offsetRadial.value) - 180; m_config->setArg("offset-azimuth", QString::number(offsetAzimuth)); const double offsetNm = m_offsetDistance.convertToUnit(Units::NauticalMiles).value; m_config->setArg("offset-distance", QString::number(offsetNm)); } } void LocationController::applyAltitude() { if (!m_altitudeEnabled) return; switch (m_altitude.unit) { default: qWarning() << Q_FUNC_INFO << "unsupported altitude unit"; break; case Units::FeetMSL: m_config->setArg("altitude", QString::number(m_altitude.value)); break; case Units::FeetAGL: // fixme - allow the sim to accpet AGL start position m_config->setArg("altitude", QString::number(m_altitude.value)); break; case Units::FlightLevel: // FIXME - allow the sim to accept real FlightLevel arguments m_config->setArg("altitude", QString::number(m_altitude.value * 100)); break; case Units::FeetAboveFieldElevation: m_config->setArg("altitude", QString::number(m_altitude.value)); break; case Units::MetersMSL: const double ftMSL = m_altitude.convertToUnit(Units::FeetMSL).value; m_config->setArg("altitude", QString::number(ftMSL)); break; } } void LocationController::applyOnFinal() { if (m_onFinal) { if (!m_altitudeEnabled) { m_config->setArg("glideslope", std::string("3.0")); } const double offsetNm = m_offsetDistance.convertToUnit(Units::NauticalMiles).value; m_config->setArg("offset-distance", QString::number(offsetNm)); m_config->setArg("on-ground", std::string("false")); applyAirspeed(); applyAltitude(); } } void LocationController::onCollectConfig() { if (m_skipFromArgs) { qWarning() << Q_FUNC_INFO << "skipping argument collection"; return; } if (m_locationIsLatLon) { m_config->setArg("lat", QString::number(m_geodLocation.getLatitudeDeg(), 'f', 8)); m_config->setArg("lon", QString::number(m_geodLocation.getLongitudeDeg(), 'f', 8)); applyPositionOffset(); applyAltitude(); applyAirspeed(); return; } if (m_locationIsCarrier) { m_config->setArg("carrier", m_carrierName); if (!m_carrierParking.isEmpty()) { m_config->setArg("carrier-position", m_carrierParking); } else if (m_useCarrierFLOLS) { if (m_abeam) { m_config->setArg("carrier-position", QStringLiteral("abeam")); } else { m_config->setArg("carrier-position", QStringLiteral("FLOLS")); } const double offsetNm = m_offsetDistance.convertToUnit(Units::NauticalMiles).value; m_config->setArg("offset-distance", QString::number(offsetNm)); applyAltitude(); applyAirspeed(); } return; } if (!m_location) { return; } if (m_airportLocation) { m_config->setArg("airport", QString::fromStdString(m_airportLocation->ident())); const bool onRunway = (m_detailLocation && (m_detailLocation->type() == FGPositioned::RUNWAY)); const bool atParking = (m_detailLocation && (m_detailLocation->type() == FGPositioned::PARKING)); if (m_useActiveRunway) { // pick by default applyOnFinal(); } else if (m_useAvailableParking) { m_config->setArg("parking-id", QStringLiteral("AVAILABLE")); } else if (onRunway) { if (m_airportLocation->type() == FGPositioned::AIRPORT) { m_config->setArg("runway", QString::fromStdString(m_detailLocation->ident())); // set nav-radio 1 based on selected runway FGRunway* runway = static_cast(m_detailLocation.ptr()); if (runway->ILS()) { double mhz = runway->ILS()->get_freq() / 100.0; m_config->setArg("nav1", QString("%1:%2").arg(runway->headingDeg()).arg(mhz)); } applyOnFinal(); } else if (m_airportLocation->type() == FGPositioned::HELIPORT) { m_config->setArg("runway", QString::fromStdString(m_detailLocation->ident())); } } else if (atParking) { // parking selection m_config->setArg("parking-id", QString::fromStdString(m_detailLocation->ident())); } // of location is an airport } else { // location is a navaid // note setting the ident here is ambigious, we really only need and // want the 'navaid-id' property. However setting the 'real' option // gives a better UI experience (eg existing Position in Air dialog) FGPositioned::Type ty = m_location->type(); switch (ty) { case FGPositioned::VOR: m_config->setArg("vor", m_location->ident()); setNavRadioOption(); break; case FGPositioned::NDB: m_config->setArg("ndb", m_location->ident()); setNavRadioOption(); break; case FGPositioned::FIX: m_config->setArg("fix", m_location->ident()); break; default: break; } // set disambiguation property m_config->setProperty("/sim/presets/navaid-id", QString::number(m_location->guid())); applyPositionOffset(); applyAltitude(); applyAirspeed(); } // of navaid location } void LocationController::setNavRadioOption() { if (!m_tuneNAV1) return; if (m_location->type() == FGPositioned::VOR) { FGNavRecordRef nav(static_cast(m_location.ptr())); double mhz = nav->get_freq() / 100.0; int heading = 0; // add heading support QString navOpt = QString("%1:%2").arg(heading).arg(mhz); m_config->setArg("nav1", navOpt); } else { FGNavRecordRef nav(static_cast(m_location.ptr())); int khz = nav->get_freq() / 100; int heading = 0; QString adfOpt = QString("%1:%2").arg(heading).arg(khz); m_config->setArg("adf1", adfOpt); } } QString compassPointFromHeading(int heading) { const int labelArc = 360 / 8; heading += (labelArc >> 1); SG_NORMALIZE_RANGE(heading, 0, 359); switch (heading / labelArc) { case 0: return "N"; case 1: return "NE"; case 2: return "E"; case 3: return "SE"; case 4: return "S"; case 5: return "SW"; case 6: return "W"; case 7: return "NW"; } return QString(); } QString LocationController::description() const { const double offsetNm = m_offsetDistance.convertToUnit(Units::NauticalMiles).value; if (!m_location) { if (m_locationIsLatLon) { const auto s = simgear::strutils::formatGeodAsString(m_geodLocation, simgear::strutils::LatLonFormat::DECIMAL_DEGREES, simgear::strutils::DegreeSymbol::UTF8_DEGREE); return tr("at position %1").arg(QString::fromStdString(s)); } if (m_locationIsCarrier) { QString pennant = m_carriersModel->pennantForIndex(m_carriersModel->indexOf(m_carrierName)); QString locationToCarrier; if (m_abeam) { locationToCarrier = tr("%1nm abeam").arg(offsetNm); } else if (m_useCarrierFLOLS) { locationToCarrier = tr("on %1nm final to").arg(offsetNm); } else { locationToCarrier = tr("on deck at %1 on").arg(m_carrierParking); } return tr("%1 carrier %2 (%3)").arg(locationToCarrier).arg(m_carrierName).arg(pennant); } return tr("No location selected"); } QString ident = QString::fromStdString(m_location->ident()), name = QString::fromStdString(m_location->name()); name = fixNavaidName(name); if (m_airportLocation) { const bool onRunway = (m_detailLocation && (m_detailLocation->type() == FGPositioned::RUNWAY)); const bool atParking = (m_detailLocation && (m_detailLocation->type() == FGPositioned::PARKING)); QString locationOnAirport; if (m_useActiveRunway) { if (m_onFinal) { locationOnAirport = tr("on %1-mile final to active runway").arg(offsetNm); } else { locationOnAirport = tr("on active runway"); } } else if (m_useAvailableParking) { locationOnAirport = tr("at an available parking position"); } if (onRunway) { QString runwayName = QString("runway %1").arg(QString::fromStdString(m_detailLocation->ident())); if (m_onFinal) { locationOnAirport = tr("on %2-mile final to %1").arg(runwayName).arg(offsetNm); } else { locationOnAirport = tr("on %1").arg(runwayName); } } else if (atParking) { locationOnAirport = tr("at parking position %1").arg(QString::fromStdString(m_detailLocation->ident())); } return tr("%2 (%1): %3").arg(ident).arg(name).arg(locationOnAirport); } else { QString offsetDesc = tr("at"); if (m_offsetEnabled) { offsetDesc = tr("%1nm %2 of"). arg(offsetNm, 0, 'f', 1). arg(compassPointFromHeading(static_cast(m_offsetRadial.value))); } QString navaidType; switch (m_location->type()) { case FGPositioned::VOR: navaidType = QString("VOR"); break; case FGPositioned::NDB: navaidType = QString("NDB"); break; case FGPositioned::FIX: return tr("%2 waypoint %1").arg(ident).arg(offsetDesc); default: // unsupported type break; } return tr("%4 %1 %2 (%3)").arg(navaidType).arg(ident).arg(name).arg(offsetDesc); } return tr("No location selected"); } void LocationController::addToRecent(FGPositionedRef pos) { auto it = std::find(m_recentLocations.begin(), m_recentLocations.end(), pos); if (it != m_recentLocations.end()) { m_recentLocations.erase(it); } if (m_recentLocations.size() >= MAX_RECENT_LOCATIONS) { m_recentLocations.pop_back(); } m_recentLocations.insert(m_recentLocations.begin(), pos); QSettings settings; settings.setValue("recent-locations", savePositionList(m_recentLocations)); }