/* 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. */ //! \cond PRIVATE_TESTS /*! * \file * \ingroup testblackmisc */ #include "testaviation.h" #include "blackmisc/aviation/aircrafticaocode.h" #include "blackmisc/aviation/aircraftsituation.h" #include "blackmisc/aviation/airlineicaocode.h" #include "blackmisc/aviation/altitude.h" #include "blackmisc/aviation/atcstation.h" #include "blackmisc/aviation/callsign.h" #include "blackmisc/aviation/callsignset.h" #include "blackmisc/aviation/comsystem.h" #include "blackmisc/aviation/heading.h" #include "blackmisc/aviation/informationmessage.h" #include "blackmisc/aviation/navsystem.h" #include "blackmisc/aviation/transponder.h" #include "blackmisc/compare.h" #include "blackmisc/geo/coordinategeodetic.h" #include "blackmisc/geo/latitude.h" #include "blackmisc/geo/longitude.h" #include "blackmisc/network/server.h" #include "blackmisc/network/user.h" #include "blackmisc/pq/angle.h" #include "blackmisc/pq/frequency.h" #include "blackmisc/pq/length.h" #include "blackmisc/pq/physicalquantity.h" #include "blackmisc/pq/units.h" #include #include #include using namespace BlackMisc::Aviation; using namespace BlackMisc::PhysicalQuantities; using namespace BlackMisc::Network; using namespace BlackMisc::Geo; namespace BlackMiscTest { CTestAviation::CTestAviation(QObject *parent): QObject(parent) { // void } void CTestAviation::headingBasics() { CHeading h1(180, CHeading::Magnetic, CAngleUnit::deg()); CHeading h2(180, CHeading::True, CAngleUnit::deg()); CHeading h3(181, CHeading::Magnetic, CAngleUnit::deg()); CAngle a1(200, CAngleUnit::deg()); CHeading h4; h4 = h1; QVERIFY2(h1 != h2, "Magnetic and true heading are not the same"); QVERIFY2(h1 < h3, "180deg are less than 181deg"); QVERIFY2(h3 > h1, "181deg are more than 181deg"); QVERIFY2(a1 > h3, "200deg are more than 181deg"); QVERIFY2(h4 == h1, "Values shall be equal"); h1 -= h1; QVERIFY2(h1.value() == 0, "Value shall be 0"); // h4 = h1 + h2; does not work, because misleading h2 += h2; // add just angle QVERIFY2(h2.value() == 360, "Value shall be 360"); } void CTestAviation::comAndNav() { CComSystem c1 = CComSystem::getCom1System(122.8); CComSystem c2 = CComSystem::getCom2System(122.8); QVERIFY2(c1 != c2, "COM system shall not be equal"); c1 = c2; QVERIFY2(c1 == c2, "COM system shall be equal"); QVERIFY2(CNavSystem::isValidCivilNavigationFrequency(CFrequency(110.0, CFrequencyUnit::MHz())), "Expect valid nav frequency"); QVERIFY2(!CNavSystem::isValidCivilNavigationFrequency(CFrequency(200.0, CFrequencyUnit::MHz())), "Expect invalid nav frequency"); } void CTestAviation::transponder() { CTransponder t1 = CTransponder::getStandardTransponder(7000, CTransponder::StateStandby); CTransponder t2 = t1; QVERIFY2(t1 == t2, "Transponders shall be equal"); t2.setTransponderMode(CTransponder::ModeC); QVERIFY2(t1 != t2, "Transponders shall not be equal"); CTransponder tv = CTransponder(8888, CTransponder::StateStandby); QVERIFY2(!tv.validValues(), "No valid transponder"); tv = CTransponder(781, CTransponder::StateStandby); QVERIFY2(!tv.validValues(), "No valid transponder"); tv = CTransponder("0781", CTransponder::StateStandby); QVERIFY2(!tv.validValues(), "No valid transponder"); tv = CTransponder("7211", CTransponder::StateStandby); QVERIFY2(tv.validValues(), "No valid transponder"); tv = CTransponder("schnitzel", CTransponder::StateStandby); QVERIFY2(!tv.validValues(), "No valid transponder"); } void CTestAviation::callsignWithContainers() { CCallsign cs1("EDDm_twr"); CCallsign cs2("eddm_TWR"); CCallsign cs3("EDDm_app", "München Radar"); QVERIFY2(cs1 == cs2, "Callsigns shall be equal"); QVERIFY2(cs1 != cs3, "Callsigns shall not be equal"); CCallsignSet set; set.push_back(cs1); QVERIFY2(set.size() == 1, "List shall be 1"); QVERIFY2(set.contains(cs1), "Callsign is in list"); QVERIFY2(set.contains(cs2), "Callsign is in list"); set.remove(cs1); QVERIFY2(cs1 == cs1, "Callsign is the same, shall be equal"); QVERIFY2(set.size() == 0, "List shall be 0 after removal"); set.push_back(cs1); if (!set.contains(cs2)) set.push_back(cs2); QVERIFY2(set.size() == 1, "Duplicates shall not be added"); set.push_back(cs3); QVERIFY2(set.size() == 2, "2 different callsigns"); set.remove(cs1); QVERIFY2(set.size() == 1, "Only one should be left in list"); set.removeIf(&CCallsign::getTelephonyDesignator, "München Radar"); QVERIFY2(set.size() == 0, "Last should be gone"); } void CTestAviation::copyAndEqual() { CFrequency f1(123.45, CFrequencyUnit::MHz()); CFrequency f2(f1); QVERIFY2(f1 == f2, "frequencies shall be equal"); CCallsign c1("EABCD"); CCallsign c2(c1); QVERIFY2(c1 == c2, "callsigns shall be equal"); CInformationMessage im1(CInformationMessage::METAR, "I am a metar"); CInformationMessage im2(im1); QVERIFY2(im1 == im2, "information shall be equal"); CUser user1("112233dd", "Joe", "", "secret"); CUser user2(user1); QVERIFY2(user1 == user2, "information shall be equal"); CServer server1 = CServer::swiftFsdTestServer(); CServer server2(server1); QVERIFY2(server1 == server2, "server shall be equal"); CAircraftSituation situation1( CCoordinateGeodetic( CLatitude::fromWgs84("N 049° 18' 17"), CLongitude::fromWgs84("E 008° 27' 05"), CAltitude(312, CLengthUnit::ft())) ); CAircraftSituation situation2(situation1); QVERIFY2(situation1 == situation2, "situations shall be equal"); CAircraftIcaoCode aircraftIcao1("C172", "L1P"); CAircraftIcaoCode aircraftIcao2(aircraftIcao1); QVERIFY2(aircraftIcao1 == aircraftIcao2, "aircraft ICAOs shall be equal"); CAirlineIcaoCode airlineIcao1("GA"); CAirlineIcaoCode airlineIcao2(airlineIcao1); QVERIFY2(airlineIcao1 == airlineIcao2, "airline ICAOs shall be equal"); CCallsign call1("EDDS_N_APP", CCallsign::Atc); CCallsign call2("edds_n_app", CCallsign::Atc); QVERIFY2(call1 == call2, "Callsigns shall be equal"); CAtcStation atc1(c1, user1, f1, situation1.getPosition(), CLength(), false, QDateTime(), QDateTime(), CInformationMessage(CInformationMessage::ATIS, "foo")); CAtcStation atc2(c1, user1, f1, situation1.getPosition(), CLength(), false, QDateTime(), QDateTime(), CInformationMessage(CInformationMessage::ATIS, "foo")); CAtcStation atc3(c1, user1, f1, situation1.getPosition(), CLength(), false, QDateTime(), QDateTime(), CInformationMessage(CInformationMessage::ATIS, "bar")); QVERIFY2(atc1 == atc2, "ATC stations shall be equal"); QVERIFY2(atc1 != atc3, "ATC stations shall not be equal"); } void CTestAviation::altitude() { CAltitude altitude1(448, CAltitude::MeanSeaLevel, CLengthUnit::ft()); CPressure seaLevelPressure1(1025, CPressureUnit::mbar()); CAltitude pressureAltitude1 = altitude1.toPressureAltitude(seaLevelPressure1); QCOMPARE(pressureAltitude1.value(CLengthUnit::ft()), 95.5); CAltitude altitude2(500, CAltitude::MeanSeaLevel, CLengthUnit::m()); CPressure seaLevelPressure2(29.56, CPressureUnit::inHg()); CAltitude pressureAltitude2 = altitude2.toPressureAltitude(seaLevelPressure2); QCOMPARE(qRound(pressureAltitude2.value(CLengthUnit::m())), 612); CLength offset(10, CLengthUnit::m()); altitude2 += offset; QCOMPARE(qRound(altitude2.value(CLengthUnit::m())), 510); } } // namespace //! \endcond