/* 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. */ #include "blackmisc/blackmiscfreefunctions.h" #include "blackmisc/aviocomsystem.h" using namespace BlackMisc::PhysicalQuantities; using namespace BlackMisc::Math; namespace BlackMisc { namespace Aviation { /* * Valid values? */ bool CComSystem::validValues() const { if (this->isDefaultValue()) return true; // special case return (CComSystem::isValidCivilAviationFrequency(this->getFrequencyActive()) || CComSystem::isValidMilitaryFrequency(this->getFrequencyActive())) && (CComSystem::isValidCivilAviationFrequency(this->getFrequencyStandby()) || CComSystem::isValidMilitaryFrequency(this->getFrequencyStandby())); } /* * COM frequency */ void CComSystem::setFrequencyActiveMHz(double frequencyMHz) { CFrequency f(frequencyMHz, CFrequencyUnit::MHz()); this->setFrequencyActive(f); } /* * COM frequency */ void CComSystem::setFrequencyStandbyMHz(double frequencyMHz) { CFrequency f(frequencyMHz, CFrequencyUnit::MHz()); this->setFrequencyStandby(f); } /* * COM frequency */ void CComSystem::setFrequencyActive(const CFrequency &frequency) { if (frequency == this->getFrequencyActive()) { return; } // save all the comparisons / rounding CFrequency fRounded(frequency); roundToChannelSpacing(fRounded, this->m_channelSpacing); this->CModulator::setFrequencyActive(fRounded); } /* * COM frequency */ void CComSystem::setFrequencyStandby(const CFrequency &frequency) { if (frequency == this->getFrequencyStandby()) { return; } // save all the comparisons / rounding CFrequency fRounded(frequency); roundToChannelSpacing(fRounded, this->m_channelSpacing); this->CModulator::setFrequencyStandby(fRounded); } /* * Round to channel spacing */ void CComSystem::roundToChannelSpacing(PhysicalQuantities::CFrequency &frequency, ChannelSpacing channelSpacing) { double channelSpacingKHz = CComSystem::channelSpacingToFrequencyKHz(channelSpacing); double f = frequency.valueRounded(CFrequencyUnit::kHz(), 0); quint32 d = static_cast(f / channelSpacingKHz); frequency.switchUnit(CFrequencyUnit::MHz()); double f0 = frequency.valueRounded(CFrequencyUnit::MHz(), 3); double f1 = CMath::round(d * (channelSpacingKHz / 1000.0), 3); double f2 = CMath::round((d + 1) * (channelSpacingKHz / 1000.0), 3); bool down = qAbs(f1 - f0) < qAbs(f2 - f0); // which is the closest value frequency.setCurrentUnitValue(down ? f1 : f2); } /* * Within channel spacing */ bool CComSystem::isWithinChannelSpacing(const CFrequency &setFrequency, const CFrequency &compareFrequency, CComSystem::ChannelSpacing channelSpacing) { if (setFrequency == compareFrequency) return true; // shortcut for many of such comparisons double channelSpacingKHz = 0.5 * CComSystem::channelSpacingToFrequencyKHz(channelSpacing); double compareFrequencyKHz = compareFrequency.value(CFrequencyUnit::kHz()); double setFrequencyKHz = setFrequency.value(CFrequencyUnit::kHz()); return (setFrequencyKHz - channelSpacingKHz < compareFrequencyKHz) && (setFrequencyKHz + channelSpacingKHz > compareFrequencyKHz); } /* * Helper, give me number for channels spacing */ double CComSystem::channelSpacingToFrequencyKHz(ChannelSpacing channelSpacing) { switch (channelSpacing) { case ChannelSpacing50KHz: return 50.0; case ChannelSpacing25KHz: return 25.0; case ChannelSpacing8_33KHz: return 25.0 / 3.0; default: qFatal("Wrong channel spacing"); return 0.0; // return just supressing compiler warning } } } // namespace } // namespace