pilotclient/src/blackmisc/simulation/simulatedaircraft.cpp

// SPDX-FileCopyrightText: Copyright (C) 2015 swift Project Community / Contributors
// SPDX-License-Identifier: GPL-3.0-or-later OR LicenseRef-swift-pilot-client-1

#include "blackmisc/aviation/aircrafticaocode.h"
#include "blackmisc/comparefunctions.h"
#include "blackmisc/pq/constants.h"
#include "blackmisc/verify.h"
#include "blackmisc/propertyindexref.h"
#include "blackmisc/simulation/simulatedaircraft.h"
#include "blackmisc/stringutils.h"
#include <QStringBuilder>
#include <tuple>

using namespace BlackMisc;
using namespace BlackMisc::PhysicalQuantities;
using namespace BlackMisc::Aviation;
using namespace BlackMisc::Network;

BLACK_DEFINE_VALUEOBJECT_MIXINS(BlackMisc::Simulation, CSimulatedAircraft)

namespace BlackMisc::Simulation
{
    CSimulatedAircraft::CSimulatedAircraft()
    {
        this->init();
    }

    CSimulatedAircraft::CSimulatedAircraft(const CAircraftModel &model) : m_models({ model, model })
    {
        this->setCallsign(model.getCallsign());
        this->init();
    }

    CSimulatedAircraft::CSimulatedAircraft(const CCallsign &callsign, const CUser &user, const CAircraftSituation &situation) : m_callsign(callsign), m_pilot(user), m_situation(situation)
    {
        this->init();
    }

    CSimulatedAircraft::CSimulatedAircraft(const CCallsign &callsign, const CAircraftModel &model, const CUser &user, const CAircraftSituation &situation) : m_callsign(callsign), m_pilot(user), m_situation(situation)
    {
        this->setModel(model);
        this->init();
    }

    void CSimulatedAircraft::init()
    {
        Q_ASSERT_X(m_models.size() == 2, Q_FUNC_INFO, "Wrong model size");

        // sync some values, order here is crucial
        // set get/set thing here updates the redundant data (e.g. livery / model.livery)
        this->setCallsign(this->getCallsign());
        this->setIcaoCodes(this->getAircraftIcaoCode(), this->getAirlineIcaoCode());
        this->setModel(this->getModel());
    }

    void CSimulatedAircraft::setCockpit(const CComSystem &com1, const CComSystem &com2, const CTransponder &transponder)
    {
        this->setCom1System(com1);
        this->setCom2System(com2);
        this->setTransponder(transponder);
    }

    void CSimulatedAircraft::setCockpit(const CComSystem &com1, const CComSystem &com2, int transponderCode, CTransponder::TransponderMode transponderMode)
    {
        this->setCom1System(com1);
        this->setCom2System(com2);
        m_transponder.setTransponderCode(transponderCode);
        m_transponder.setTransponderMode(transponderMode);
    }

    bool CSimulatedAircraft::hasChangedCockpitData(const CComSystem &com1, const CComSystem &com2, const CTransponder &transponder) const
    {
        return this->getCom1System() != com1 || this->getCom2System() != com2 || this->getTransponder() != transponder;
    }

    bool CSimulatedAircraft::hasSameComData(const CComSystem &com1, const CComSystem &com2, const CTransponder &transponder)
    {
        return this->getCom1System() == com1 && this->getCom2System() == com2 && this->getTransponder() == transponder;
    }

    bool CSimulatedAircraft::isValidForLogin() const
    {
        if (m_callsign.isEmpty()) { return false; }
        if (m_pilot.isNull()) { return false; }
        return true;
    }

    void CSimulatedAircraft::setSituation(const CAircraftSituation &situation)
    {
        CAircraftVelocity velocity = m_situation.getVelocity();
        m_situation = situation;
        if (m_situation.getVelocity() == CAircraftVelocity {})
        {
            m_situation.setVelocity(velocity);
        }

        m_situation.setCallsign(this->getCallsign());
        this->setSupportingGndFlag(situation.hasInboundGroundDetails());
    }

    const CAircraftIcaoCode &CSimulatedAircraft::getAircraftIcaoCode() const
    {
        return m_models[CurrentModel].getAircraftIcaoCode();
    }

    void CSimulatedAircraft::setPilot(const Network::CUser &user)
    {
        m_pilot = user;
        m_pilot.setCallsign(m_callsign);
    }

    bool CSimulatedAircraft::isEnabled() const
    {
        if (!this->hasModelString()) { return false; }
        return m_enabled;
    }

    bool CSimulatedAircraft::setEnabled(bool enabled)
    {
        if (m_enabled == enabled) { return false; }
        m_enabled = enabled;
        return true;
    }

    bool CSimulatedAircraft::setFastPositionUpdates(bool useFastPositions)
    {
        if (m_fastPositionUpdates == useFastPositions) { return false; }
        m_fastPositionUpdates = useFastPositions;
        return true;
    }

    bool CSimulatedAircraft::toggleFastPositionUpdates()
    {
        return this->setFastPositionUpdates(!this->fastPositionUpdates());
    }

    bool CSimulatedAircraft::setRendered(bool rendered)
    {
        if (m_rendered == rendered) { return false; }
        m_rendered = rendered;
        return true;
    }

    const QString &CSimulatedAircraft::getAircraftIcaoCodeDesignator() const
    {
        return getAircraftIcaoCode().getDesignator();
    }

    QString CSimulatedAircraft::getAirlineAndAircraftIcaoCodeDesignators() const
    {
        if (this->hasAircraftAndAirlineDesignator()) { return this->getAircraftIcaoCodeDesignator() % u'/' % this->getAirlineIcaoCodeDesignator(); }
        if (this->hasAirlineDesignator()) { return this->getAirlineIcaoCodeDesignator(); }
        return this->getAircraftIcaoCodeDesignator();
    }

    const QString &CSimulatedAircraft::getAircraftIcaoCombinedType() const
    {
        return getAircraftIcaoCode().getCombinedType();
    }

    bool CSimulatedAircraft::setIcaoCodes(const CAircraftIcaoCode &aircraftIcaoCode, const CAirlineIcaoCode &airlineIcaoCode)
    {
        if (this->getLivery().getAirlineIcaoCode() != airlineIcaoCode)
        {
            // create a dummy livery for given ICAO code
            const CLivery newLivery(CLivery::getStandardCode(airlineIcaoCode), airlineIcaoCode, "Standard auto generated");
            m_models[CurrentModel].setLivery(newLivery);
        }
        return m_models[CurrentModel].setAircraftIcaoCode(aircraftIcaoCode);
    }

    const CAirlineIcaoCode &CSimulatedAircraft::getAirlineIcaoCode() const
    {
        return m_models[CurrentModel].getAirlineIcaoCode();
    }

    const QString &CSimulatedAircraft::getAirlineIcaoCodeDesignator() const
    {
        return this->getAirlineIcaoCode().getDesignator();
    }

    void CSimulatedAircraft::setAircraftIcaoDesignator(const QString &designator)
    {
        m_models[CurrentModel].setAircraftIcaoDesignator(designator);
    }

    bool CSimulatedAircraft::hasAircraftDesignator() const
    {
        return this->getAircraftIcaoCode().hasDesignator();
    }

    bool CSimulatedAircraft::hasAircraftAndAirlineDesignator() const
    {
        return this->getModel().hasAircraftAndAirlineDesignator();
    }

    CComSystem CSimulatedAircraft::getComSystem(CComSystem::ComUnit unit) const
    {
        switch (unit)
        {
        case CComSystem::Com1: return this->getCom1System();
        case CComSystem::Com2: return this->getCom2System();
        default: break;
        }
        BLACK_VERIFY_X(false, Q_FUNC_INFO, "Wrong unit");
        return CComSystem(); // avoid warning
    }

    void CSimulatedAircraft::setCockpit(const CSimulatedAircraft &aircraft)
    {
        this->setCockpit(aircraft.getCom1System(), aircraft.getCom2System(), aircraft.getTransponder());
        this->setSelcal(aircraft.getSelcal());
    }

    void CSimulatedAircraft::setComSystem(const CComSystem &com, CComSystem::ComUnit unit)
    {
        switch (unit)
        {
        case CComSystem::Com1: this->setCom1System(com); break;
        case CComSystem::Com2: this->setCom2System(com); break;
        default: BLACK_VERIFY_X(false, Q_FUNC_INFO, "Wrong unit"); break;
        }
    }

    bool CSimulatedAircraft::setCom1ActiveFrequency(const CFrequency &frequency)
    {
        if (!CComSystem::isValidComFrequency(frequency)) { return false; }
        m_com1system.setFrequencyActive(frequency);
        return true;
    }

    bool CSimulatedAircraft::setCom2ActiveFrequency(const CFrequency &frequency)
    {
        if (!CComSystem::isValidComFrequency(frequency)) { return false; }
        m_com2system.setFrequencyActive(frequency);
        return true;
    }

    bool CSimulatedAircraft::setComActiveFrequency(const CFrequency &frequency, CComSystem::ComUnit unit)
    {
        if (!CComSystem::isValidComFrequency(frequency)) { return false; }
        switch (unit)
        {
        case CComSystem::Com1: return this->setCom1ActiveFrequency(frequency);
        case CComSystem::Com2: return this->setCom2ActiveFrequency(frequency);
        default: BLACK_VERIFY_X(false, Q_FUNC_INFO, "Wrong unit"); break;
        }
        return false;
    }

    void CSimulatedAircraft::initComSystems()
    {
        CComSystem com1("COM1", CPhysicalQuantitiesConstants::FrequencyUnicom(), CPhysicalQuantitiesConstants::FrequencyUnicom());
        CComSystem com2("COM2", CPhysicalQuantitiesConstants::FrequencyUnicom(), CPhysicalQuantitiesConstants::FrequencyUnicom());
        this->setCom1System(com1);
        this->setCom2System(com2);
    }

    void CSimulatedAircraft::initTransponder()
    {
        const CTransponder xpdr(7000, CTransponder::StateStandby);
        this->setTransponder(xpdr);
    }

    int CSimulatedAircraft::getEnginesCount() const
    {
        const int engines = this->getModel().getAircraftIcaoCode().getEnginesCount();
        return engines >= 0 ? engines : m_parts.getEnginesCount();
    }

    CAircraftLights CSimulatedAircraft::getLights() const
    {
        return m_parts.getLights();
    }

    void CSimulatedAircraft::setParts(const CAircraftParts &parts)
    {
        m_parts = parts;
    }

    void CSimulatedAircraft::setLights(CAircraftLights &lights)
    {
        m_parts.setLights(lights);
    }

    void CSimulatedAircraft::setAllLightsOn()
    {
        m_parts.setAllLightsOn();
    }

    void CSimulatedAircraft::setAllLightsOff()
    {
        m_parts.setAllLightsOff();
    }

    bool CSimulatedAircraft::isVtol() const
    {
        return this->getModel().isVtol();
    }

    bool CSimulatedAircraft::isMilitary() const
    {
        return this->getModel().isMilitary();
    }

    QString CSimulatedAircraft::getCombinedIcaoLiveryString(bool networkModel) const
    {
        const CAircraftModel model(networkModel ? this->getNetworkModel() : this->getModel());
        if (model.hasAircraftAndAirlineDesignator())
        {
            if (model.getLivery().hasCombinedCode())
            {
                static const QString s("%1 (%2 %3)");
                return s.arg(model.getAircraftIcaoCodeDesignator(), model.getAirlineIcaoCodeDesignator(), model.getLivery().getCombinedCode());
            }
            else
            {
                static const QString s("%1 (%2)");
                return s.arg(model.getAircraftIcaoCodeDesignator(), model.getAirlineIcaoCodeDesignator());
            }
        }

        if (!this->hasAircraftDesignator())
        {
            return model.getLivery().getCombinedCode();
        }
        else if (model.getLivery().hasCombinedCode())
        {
            static const QString s("%1 (%2)");
            return s.arg(model.getAircraftIcaoCodeDesignator(), model.getLivery().getCombinedCode());
        }

        return model.getAircraftIcaoCode().getDesignator();
    }

    QVariant CSimulatedAircraft::propertyByIndex(BlackMisc::CPropertyIndexRef index) const
    {
        if (index.isMyself()) { return QVariant::fromValue(*this); }
        const ColumnIndex i = index.frontCasted<ColumnIndex>();
        switch (i)
        {
        case IndexModel: return this->getModel().propertyByIndex(index.copyFrontRemoved());
        case IndexNetworkModel: return this->getNetworkModel().propertyByIndex(index.copyFrontRemoved());
        case IndexNetworkModelAircraftIcaoDifference: return this->getNetworkModelAircraftIcaoDifference();
        case IndexNetworkModelAirlineIcaoDifference: return this->getNetworkModelAirlineIcaoDifference();
        case IndexNetworkModelLiveryDifference: return this->getNetworkModelLiveryDifference();
        case IndexEnabled: return QVariant::fromValue(this->isEnabled());
        case IndexRendered: return QVariant::fromValue(this->isRendered());
        case IndexPartsSynchronized: return QVariant::fromValue(this->isPartsSynchronized());
        case IndexFastPositionUpdates: return QVariant::fromValue(this->fastPositionUpdates());
        case IndexSupportsGndFlag: return QVariant::fromValue(this->isSupportingGndFlag());
        case IndexCallsign: return m_callsign.propertyByIndex(index.copyFrontRemoved());
        case IndexPilot: return m_pilot.propertyByIndex(index.copyFrontRemoved());
        case IndexRelativeDistance: return m_relativeDistance.propertyByIndex(index.copyFrontRemoved());
        case IndexCom1System: return m_com1system.propertyByIndex(index.copyFrontRemoved());
        case IndexCom2System: return m_com2system.propertyByIndex(index.copyFrontRemoved());
        case IndexTransponder: return m_transponder.propertyByIndex(index.copyFrontRemoved());
        case IndexSituation: return m_situation.propertyByIndex(index.copyFrontRemoved());
        case IndexAircraftIcaoCode: return this->getAircraftIcaoCode().propertyByIndex(index.copyFrontRemoved());
        case IndexLivery: return this->getLivery().propertyByIndex(index.copyFrontRemoved());
        case IndexParts: return m_parts.propertyByIndex(index.copyFrontRemoved());
        case IndexIsVtol: return QVariant::fromValue(this->isVtol());
        case IndexCombinedIcaoLiveryString: return QVariant::fromValue(this->getCombinedIcaoLiveryString(false));
        case IndexCombinedIcaoLiveryStringNetworkModel: return QVariant::fromValue(this->getCombinedIcaoLiveryString(true));
        default:
            return (ICoordinateWithRelativePosition::canHandleIndex(index)) ?
                       ICoordinateWithRelativePosition::propertyByIndex(index) :
                       CValueObject::propertyByIndex(index);
        }
    }

    void CSimulatedAircraft::setPropertyByIndex(CPropertyIndexRef index, const QVariant &variant)
    {
        if (index.isMyself())
        {
            (*this) = variant.value<CSimulatedAircraft>();
            return;
        }
        const ColumnIndex i = index.frontCasted<ColumnIndex>();
        switch (i)
        {
        case IndexCallsign: m_callsign.setPropertyByIndex(index.copyFrontRemoved(), variant); break;
        case IndexPilot: m_pilot.setPropertyByIndex(index.copyFrontRemoved(), variant); break;
        case IndexRelativeDistance: m_relativeDistance.setPropertyByIndex(index.copyFrontRemoved(), variant); break;
        case IndexCom1System: m_com1system.setPropertyByIndex(index.copyFrontRemoved(), variant); break;
        case IndexCom2System: m_com2system.setPropertyByIndex(index.copyFrontRemoved(), variant); break;
        case IndexTransponder: m_transponder.setPropertyByIndex(index.copyFrontRemoved(), variant); break;
        case IndexSituation: m_situation.setPropertyByIndex(index.copyFrontRemoved(), variant); break;
        case IndexParts: m_parts.setPropertyByIndex(index.copyFrontRemoved(), variant); break;
        case IndexNetworkModel: m_models[NetworkModel].setPropertyByIndex(index.copyFrontRemoved(), variant); break;
        case IndexEnabled: m_enabled = variant.toBool(); break;
        case IndexRendered: m_rendered = variant.toBool(); break;
        case IndexPartsSynchronized: m_partsSynchronized = variant.toBool(); break;
        case IndexFastPositionUpdates: m_fastPositionUpdates = variant.toBool(); break;
        case IndexSupportsGndFlag: m_supportsGndFlag = variant.toBool(); break;
        case IndexLivery: Q_ASSERT_X(false, Q_FUNC_INFO, "Unsupported"); break;
        case IndexModel:
            m_models[CurrentModel].setPropertyByIndex(index.copyFrontRemoved(), variant);
            this->setModel(m_models[CurrentModel]); // sync some values such as callsign
            break;
        default:
            if (ICoordinateWithRelativePosition::canHandleIndex(index))
            {
                ICoordinateWithRelativePosition::setPropertyByIndex(index, variant);
            }
            else
            {
                CValueObject::setPropertyByIndex(index, variant);
            }
            break;
        }
    }

    int CSimulatedAircraft::comparePropertyByIndex(CPropertyIndexRef index, const CSimulatedAircraft &compareValue) const
    {
        if (index.isMyself()) { return m_callsign.comparePropertyByIndex(index.copyFrontRemoved(), compareValue.getCallsign()); }
        const ColumnIndex i = index.frontCasted<ColumnIndex>();
        switch (i)
        {
        case IndexCallsign: return m_callsign.comparePropertyByIndex(index.copyFrontRemoved(), compareValue.getCallsign());
        case IndexPilot: return m_pilot.comparePropertyByIndex(index.copyFrontRemoved(), compareValue.getPilot());
        case IndexSituation: return m_situation.comparePropertyByIndex(index.copyFrontRemoved(), compareValue.getSituation());
        case IndexRelativeDistance: return m_relativeDistance.comparePropertyByIndex(index.copyFrontRemoved(), compareValue.getRelativeDistance());
        case IndexCom1System: return m_com1system.comparePropertyByIndex(index.copyFrontRemoved(), compareValue.getCom1System());
        case IndexCom2System: return m_com2system.comparePropertyByIndex(index.copyFrontRemoved(), compareValue.getCom2System());
        case IndexTransponder: return Compare::compare(m_transponder.getTransponderCode(), compareValue.getTransponder().getTransponderCode());
        case IndexLivery: return this->getLivery().comparePropertyByIndex(index.copyFrontRemoved(), compareValue.getLivery());
        case IndexParts: return m_parts.comparePropertyByIndex(index.copyFrontRemoved(), compareValue.getParts());
        case IndexModel: return m_models[CurrentModel].comparePropertyByIndex(index.copyFrontRemoved(), compareValue.getModel());
        case IndexNetworkModel: return m_models[NetworkModel].comparePropertyByIndex(index.copyFrontRemoved(), compareValue.getModel());
        case IndexNetworkModelAircraftIcaoDifference: return this->getNetworkModelAircraftIcaoDifference().compare(compareValue.getNetworkModelAircraftIcaoDifference());
        case IndexNetworkModelAirlineIcaoDifference: return this->getNetworkModelAirlineIcaoDifference().compare(compareValue.getNetworkModelAirlineIcaoDifference());
        case IndexNetworkModelLiveryDifference: return this->getNetworkModelLiveryDifference().compare(compareValue.getNetworkModelLiveryDifference());
        case IndexEnabled: return Compare::compare(this->isEnabled(), compareValue.isEnabled());
        case IndexRendered: return Compare::compare(this->isRendered(), compareValue.isRendered());
        case IndexPartsSynchronized: return Compare::compare(this->isPartsSynchronized(), compareValue.isPartsSynchronized());
        case IndexFastPositionUpdates: return Compare::compare(this->fastPositionUpdates(), compareValue.fastPositionUpdates());
        case IndexSupportsGndFlag: return Compare::compare(this->isSupportingGndFlag(), compareValue.isSupportingGndFlag());
        case IndexCombinedIcaoLiveryString: return this->getCombinedIcaoLiveryString(false).compare(compareValue.getCombinedIcaoLiveryString(false));
        case IndexCombinedIcaoLiveryStringNetworkModel: return this->getCombinedIcaoLiveryString(true).compare(compareValue.getCombinedIcaoLiveryString(true));
        default:
            if (ICoordinateWithRelativePosition::canHandleIndex(index))
            {
                return ICoordinateWithRelativePosition::comparePropertyByIndex(index, compareValue);
            }
            break;
        }
        BLACK_VERIFY_X(false, Q_FUNC_INFO, qUtf8Printable("No comparison for index " + index.toQString()));
        return 0;
    }

    const CAircraftModel &CSimulatedAircraft::getNetworkModelOrModel() const
    {
        Q_ASSERT_X(m_models.size() == 2, Q_FUNC_INFO, "Wrong model size");
        return this->hasNetworkModel() ? m_models[NetworkModel] : m_models[CurrentModel];
    }

    bool CSimulatedAircraft::hasNetworkModel() const
    {
        Q_ASSERT_X(m_models.size() == 2, Q_FUNC_INFO, "Wrong model size");
        return m_models[NetworkModel].hasModelString() || !m_models[NetworkModel].getCallsign().isEmpty();
    }

    QString CSimulatedAircraft::getNetworkModelAircraftIcaoDifference() const
    {
        const CAircraftIcaoCode icaoNw(this->getNetworkModel().getAircraftIcaoCode());
        if (!icaoNw.hasDesignator()) { return QStringLiteral("[x] no nw. ICAO"); }

        const CAircraftIcaoCode icaoModel(this->getModel().getAircraftIcaoCode());
        if (!icaoModel.hasDesignator()) { return QStringLiteral("[x] no sim. ICAO"); }

        if (icaoModel.isDbEqual(icaoNw) || icaoModel == icaoNw) { return u"[==] " % icaoModel.getDesignatorDbKey(); }
        if (icaoModel.getDesignator() == icaoNw.getDesignator()) { return u"[=] " % icaoModel.getDesignator(); }
        return QStringLiteral("%1 -> %2").arg(icaoNw.getDesignator(), icaoModel.getDesignator());
    }

    QString CSimulatedAircraft::getNetworkModelAirlineIcaoDifference() const
    {
        static const QString diff("%1 -> %2");

        if (this->getModel().getLivery().isColorLivery() || this->getNetworkModel().getLivery().isColorLivery())
        {
            if (this->getModel().getLivery().isColorLivery() && this->getNetworkModel().getLivery().isColorLivery())
            {
                return ("col/col");
            }

            if (this->getModel().getLivery().isColorLivery())
            {
                return diff.arg("col", this->getNetworkModel().getAirlineIcaoCode().getDesignator());
            }
            return diff.arg(this->getNetworkModel().getAirlineIcaoCode().getDesignator(), "col");
        }

        const CAirlineIcaoCode icao(this->getModel().getAirlineIcaoCode());
        const CAirlineIcaoCode icaoNw(this->getNetworkModel().getAirlineIcaoCode());
        if (icao.isDbEqual(icaoNw) || icao == icaoNw) { return u"[==] " % icao.getDesignatorDbKey(); }
        if (icao.getDesignator() == icaoNw.getDesignator()) { return u"[=] " % icao.getDesignatorDbKey(); }
        return diff.arg(icaoNw.getDesignator(), icao.getDesignator());
    }

    QString CSimulatedAircraft::getNetworkModelLiveryDifference() const
    {
        Q_ASSERT_X(m_models.size() == 2, Q_FUNC_INFO, "Wrong model size");

        const CLivery livery(this->getModel().getLivery());
        const CLivery liveryNw(this->getNetworkModel().getLivery());
        if (livery.isDbEqual(liveryNw) || livery == liveryNw) { return QStringLiteral("[==] ") + livery.getCombinedCodePlusInfo(); }
        if (livery.getCombinedCode() == liveryNw.getCombinedCode()) { return QStringLiteral("[=] ") + livery.getCombinedCodePlusInfo(); }
        if (livery.isAirlineLivery() && liveryNw.isAirlineLivery()) { return this->getNetworkModelAirlineIcaoDifference(); }

        static const QString diff("%1 -> %2");
        return diff.arg(liveryNw.getCombinedCodePlusInfo(), livery.getCombinedCodePlusInfo());
    }

    void CSimulatedAircraft::setModel(const CAircraftModel &model)
    {
        Q_ASSERT_X(m_models.size() == 2, Q_FUNC_INFO, "Wrong model size");

        // sync the callsigns
        m_models[CurrentModel] = model;
        this->setCallsign(this->hasValidCallsign() ? this->getCallsign() : model.getCallsign());
        this->setIcaoCodes(model.getAircraftIcaoCode(), model.getAirlineIcaoCode());
    }

    void CSimulatedAircraft::setNetworkModel(const CAircraftModel &model)
    {
        Q_ASSERT_X(m_models.size() == 2, Q_FUNC_INFO, "Wrong model size");
        m_models[NetworkModel] = model;
    }

    bool CSimulatedAircraft::resetToNetworkModel()
    {
        Q_ASSERT_X(m_models.size() == 2, Q_FUNC_INFO, "Wrong model size");
        const CAircraftModel nwModel = m_models[NetworkModel];
        m_models[CurrentModel] = nwModel;
        return true;
    }

    bool CSimulatedAircraft::setCG(const CLength &cg)
    {
        if (cg.isNull()) { return false; }
        // ???? set to both models, or only the matched model ????
        const int c = m_models.setCG(cg);
        return c > 0;
    }

    void CSimulatedAircraft::setModelString(const QString &modelString)
    {
        Q_ASSERT_X(m_models.size() == 2, Q_FUNC_INFO, "Wrong model size");
        m_models[CurrentModel].setModelString(modelString);
    }

    void CSimulatedAircraft::setCallsign(const CCallsign &callsign)
    {
        Q_ASSERT_X(m_models.size() == 2, Q_FUNC_INFO, "Wrong model size");
        m_callsign = callsign;
        m_models[CurrentModel].setCallsign(callsign);
        m_models[NetworkModel].setCallsign(callsign);
        m_pilot.setCallsign(callsign);
    }

    bool CSimulatedAircraft::hasComActiveFrequency(const CFrequency &comFrequency) const
    {
        return m_com1system.isActiveFrequencySameFrequency(comFrequency) ||
               m_com2system.isActiveFrequencySameFrequency(comFrequency);
    }

    bool CSimulatedAircraft::setTransponderMode(CTransponder::TransponderMode mode)
    {
        return (m_transponder.setTransponderMode(mode));
    }

    QString CSimulatedAircraft::convertToQString(bool i18n) const
    {
        const QString s = m_callsign.toQString(i18n) %
                          u' ' % m_pilot.toQString(i18n) %
                          u' ' % m_situation.toQString(i18n) %
                          u' ' % m_com1system.toQString(i18n) %
                          u' ' % m_com2system.toQString(i18n) %
                          u' ' % m_transponder.toQString(i18n) %
                          u" enabled: " % BlackMisc::boolToYesNo(this->isEnabled()) %
                          u" rendered: " % BlackMisc::boolToYesNo(this->isRendered()) %
                          u' ' % this->getModel().toQString(i18n);
        return s;
    }
} // namespace