/* Copyright (C) 2013 * swift project Community / Contributors * * This file is part of swift project. It is subject to the license terms in the LICENSE file found in the top-level * directory of this distribution and at http://www.swift-project.org/license.html. No part of swift project, * including this file, may be copied, modified, propagated, or distributed except according to the terms * contained in the LICENSE file. */ //! \file #ifndef BLACKMISC_AVIATION_MODULATORUNIT_H #define BLACKMISC_AVIATION_MODULATORUNIT_H #include "blackmisc/propertyindex.h" #include "blackmisc/aviation/avionicsbase.h" #include "blackmisc/mathematics.h" #include "blackmisc/blackmiscfreefunctions.h" namespace BlackMisc { namespace Aviation { //! Base class for COM, NAV, Squawk units. template class CModulator : public CValueObject, CAvionicsBase> { public: //! Column indexes enum ColumnIndex { IndexActiveFrequency = BlackMisc::CPropertyIndex::GlobalIndexCModulator, IndexStandbyFrequency, IndexOutputVolume, IndexInputVolume, IndexEnabled }; //! Default value? virtual bool isDefaultValue() const { return (this->m_frequencyActive == FrequencyNotSet()); } //! Toggle active and standby frequencies void toggleActiveStandby(); //! Active frequency BlackMisc::PhysicalQuantities::CFrequency getFrequencyActive() const { return this->m_frequencyActive; } //! Standby frequency BlackMisc::PhysicalQuantities::CFrequency getFrequencyStandby() const { return this->m_frequencyStandby; } //! Set active frequency virtual void setFrequencyActive(const BlackMisc::PhysicalQuantities::CFrequency &frequency) { this->m_frequencyActive = frequency; } //! Set standby frequency virtual void setFrequencyStandby(const BlackMisc::PhysicalQuantities::CFrequency &frequency) { this->m_frequencyStandby = frequency; } //! Output volume 0..100 qint32 getVolumeOutput() const { return this->m_volumeOutput; } //! Input volume 0..100 qint32 getVolumeInput() const { return this->m_volumeInput; } //! Output volume 0.100 void setVolumeOutput(qint32 volume) { this->m_volumeOutput = volume; } //! Input volume 0..100 void setVolumeInput(qint32 volume) { this->m_volumeInput = volume; } //! Enabled? bool isEnabled() const { return this->m_enabled;} //! Enabled? void setEnabled(bool enable) { this->m_enabled = enable;} //! \copydoc CValueObject::propertyByIndex virtual CVariant propertyByIndex(const BlackMisc::CPropertyIndex &index) const override; //! \copydoc CValueObject::setPropertyByIndex virtual void setPropertyByIndex(const CVariant &variant, const BlackMisc::CPropertyIndex &index) override; protected: //! Default constructor CModulator() : CModulator::CValueObject("default") {} //! Constructor CModulator(const QString &name, const BlackMisc::PhysicalQuantities::CFrequency &activeFrequency, const BlackMisc::PhysicalQuantities::CFrequency &standbyFrequency) : CModulator::CValueObject(name), m_frequencyActive(activeFrequency), m_frequencyStandby(standbyFrequency) {} //! \copydoc CValueObject::convertToQString virtual QString convertToQString(bool i18n = false) const override { QString s(this->getName()); s.append(" Active: ").append(this->m_frequencyActive.valueRoundedWithUnit(3, i18n)); s.append(" Standby: ").append(this->m_frequencyStandby.valueRoundedWithUnit(3, i18n)); return s; } //! Set active frequency void setFrequencyActiveKHz(double frequencyKHz) { this->m_frequencyActive = BlackMisc::PhysicalQuantities::CFrequency(frequencyKHz, BlackMisc::PhysicalQuantities::CFrequencyUnit::kHz()); } //! Set standby frequency void setFrequencyStandbyKHz(double frequencyKHz) { this->m_frequencyStandby = BlackMisc::PhysicalQuantities::CFrequency(frequencyKHz, BlackMisc::PhysicalQuantities::CFrequencyUnit::kHz()); } //! Set active frequency virtual void setFrequencyActiveMHz(double frequencyMHz) { frequencyMHz = Math::CMath::round(frequencyMHz, 3); this->m_frequencyActive = BlackMisc::PhysicalQuantities::CFrequency(frequencyMHz, BlackMisc::PhysicalQuantities::CFrequencyUnit::MHz()); } //! Set standby frequency virtual void setFrequencyStandbyMHz(double frequencyMHz) { frequencyMHz = Math::CMath::round(frequencyMHz, 3); this->m_frequencyStandby = BlackMisc::PhysicalQuantities::CFrequency(frequencyMHz, BlackMisc::PhysicalQuantities::CFrequencyUnit::MHz()); } //! COM1 static const QString &NameCom1() { static QString n("COM1"); return n; } //! COM2 static const QString &NameCom2() { static QString n("COM2"); return n; } //! COM3 static const QString &NameCom3() { static QString n("COM3"); return n; } //! NAV1 static const QString &NameNav1() { static QString n("NAV1"); return n; } //! NAV2 static const QString &NameNav2() { static QString n("NAV2"); return n; } //! NAV3 static const QString &NameNav3() { static QString n("NAV3"); return n; } //! ADF1 static const QString &NameAdf1() { static QString n("ADF1"); return n; } //! ADF2 static const QString &NameAdf2() { static QString n("ADF2"); return n; } //! Frequency not set static const BlackMisc::PhysicalQuantities::CFrequency &FrequencyNotSet() { static BlackMisc::PhysicalQuantities::CFrequency f; return f; } private: BLACK_ENABLE_TUPLE_CONVERSION(CModulator) BlackMisc::PhysicalQuantities::CFrequency m_frequencyActive; //!< active frequency BlackMisc::PhysicalQuantities::CFrequency m_frequencyStandby; //!< standby frequency qint32 m_volumeInput = 0; //!< volume input qint32 m_volumeOutput = 0; //!< volume output bool m_enabled = true; //!< is enabled, used e.g. for mute etc. //! Easy access to derived class (CRTP template parameter) AVIO const *derived() const { return static_cast(this); } //! Easy access to derived class (CRTP template parameter) AVIO *derived() { return static_cast(this); } }; } } BLACK_DECLARE_TUPLE_CONVERSION_TEMPLATE(BlackMisc::Aviation::CModulator, ( o.m_frequencyActive, o.m_frequencyStandby, o.m_volumeInput , o.m_volumeOutput, o.m_enabled )) #endif // guard