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77ce9f8b8a
This is an intermediate step to have smaller unit tests. It is a trade off between having many many test executables compared to a few bigger ones. But this comes a lot closer to what QtTest is meant to be used.
91 lines
2.9 KiB
C++
91 lines
2.9 KiB
C++
/* Copyright (C) 2013
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* swift Project Community / Contributors
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*
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* This file is part of swift project. It is subject to the license terms in the LICENSE file found in the top-level
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* directory of this distribution and at http://www.swift-project.org/license.html. No part of swift project,
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* including this file, may be copied, modified, propagated, or distributed except according to the terms
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* contained in the LICENSE file.
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*/
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//! \cond PRIVATE_TESTS
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//! \file
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//! \ingroup testblackmisc
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#include "blackmisc/geo/coordinategeodetic.h"
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#include "blackmisc/geo/earthangle.h"
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#include "blackmisc/geo/latitude.h"
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#include "blackmisc/pq/physicalquantity.h"
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#include "blackmisc/pq/units.h"
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#include "test.h"
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#include <QTest>
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using namespace BlackMisc::Geo;
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using namespace BlackMisc::PhysicalQuantities;
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using namespace BlackMisc::Math;
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namespace BlackMiscTest
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{
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//! Geo classes tests
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class CTestGeo : public QObject
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{
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Q_OBJECT
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private slots:
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//! Basic unit tests for geo classes
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void geoBasics();
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//! CCoordinateGeodetic unit tests
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void coordinateGeodetic();
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};
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void CTestGeo::geoBasics()
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{
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CLatitude lat(10, CAngleUnit::deg());
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QVERIFY2(lat * 2 == lat + lat, "Latitude addition should be equal");
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lat += CLatitude(20, CAngleUnit::deg());
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QVERIFY2(lat.valueRounded() == 30.0, "Latitude should be 30 degrees");
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CAngle a(20, 0);
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lat = CLatitude(a);
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double v = lat.valueRounded(CAngleUnit::deg());
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QVERIFY2(v == 20.0, "Values shall be the same");
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a = CAngle(28, 0);
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lat = CLatitude(a);
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v = lat.valueRounded(CAngleUnit::deg());
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QVERIFY2(v == 28.0, "Values shall be the same");
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a = CAngle(30, 0, 0);
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lat = CLatitude(a);
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v = lat.valueRounded(CAngleUnit::deg());
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QVERIFY2(v == 30.0, "Values shall be the same");
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}
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void CTestGeo::coordinateGeodetic()
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{
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CCoordinateGeodetic northPole = { 90.0, 0.0 };
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CCoordinateGeodetic southPole = { -90.0, 0.0 };
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QCOMPARE(calculateEuclideanDistance(northPole, southPole), 2.0);
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CCoordinateGeodetic equator = { 0.0, 70.354683 };
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QCOMPARE(calculateEuclideanDistance(northPole, equator), std::sqrt(2.0f));
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CCoordinateGeodetic testCoordinate = northPole;
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double latValue = testCoordinate.latitude().value(CAngleUnit::deg());
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double lngValue = testCoordinate.longitude().value(CAngleUnit::deg());
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QVERIFY2(latValue == 90.0, "Latitude value supposed to be 90");
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QVERIFY2(lngValue == 0.0, "Longitude value supposed to be 0");
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CLatitude newLat(90.0, CAngleUnit::deg());
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testCoordinate.setLatitude(newLat);
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latValue = testCoordinate.latitude().value(CAngleUnit::deg());
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QCOMPARE(latValue, newLat.value(CAngleUnit::deg()));
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}
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} // ns
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//! main
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BLACKTEST_APPLESS_MAIN(BlackMiscTest::CTestGeo);
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#include "testgeo.moc"
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//! \endcond
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