/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the test suite of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:GPL-EXCEPT$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3 as published by the Free Software ** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ //TESTED_COMPONENT=src/location #include "../utils/qlocationtestutils_p.h" #include #include #include #include #include QT_USE_NAMESPACE Q_DECLARE_METATYPE(QGeoCoordinate::CoordinateFormat) Q_DECLARE_METATYPE(QGeoCoordinate::CoordinateType) static const QGeoCoordinate BRISBANE(-27.46758, 153.027892); static const QGeoCoordinate MELBOURNE(-37.814251, 144.963169); static const QGeoCoordinate LONDON(51.500152, -0.126236); static const QGeoCoordinate NEW_YORK(40.71453, -74.00713); static const QGeoCoordinate NORTH_POLE(90, 0); static const QGeoCoordinate SOUTH_POLE(-90, 0); static const QChar DEGREES_SYMB(0x00B0); QByteArray tst_qgeocoordinate_debug; void tst_qgeocoordinate_messageHandler(QtMsgType type, const QMessageLogContext &, const QString &msg) { switch (type) { case QtDebugMsg : tst_qgeocoordinate_debug = msg.toLocal8Bit(); break; default: break; } } class tst_QGeoCoordinate : public QObject { Q_OBJECT private: enum TestDataType { Latitude, Longitude, Altitude }; private slots: void initTestcase() { qRegisterMetaType(); QMetaType::registerEqualsComparator(); } void constructor() { QGeoCoordinate c; QVERIFY(!c.isValid()); QCOMPARE(c, QGeoCoordinate()); } void constructor_lat_long() { QFETCH(double, latitude); QFETCH(double, longitude); QFETCH(QGeoCoordinate::CoordinateType, type); QGeoCoordinate c(latitude, longitude); QCOMPARE(c.type(), type); if (type != QGeoCoordinate::InvalidCoordinate) { QVERIFY(c.isValid()); QCOMPARE(c.latitude(), latitude); QCOMPARE(c.longitude(), longitude); } else { QVERIFY(!c.isValid()); QVERIFY(c.latitude() != latitude); QVERIFY(c.longitude() != longitude); } } void constructor_lat_long_data() { QTest::addColumn("latitude"); QTest::addColumn("longitude"); QTest::addColumn("type"); QTest::newRow("both zero") << 0.0 << 0.0 << QGeoCoordinate::Coordinate2D; QTest::newRow("both negative") << -1.0 << -1.0 << QGeoCoordinate::Coordinate2D; QTest::newRow("both positive") << 1.0 << 1.0 << QGeoCoordinate::Coordinate2D; QTest::newRow("latitude negative") << -1.0 << 1.0 << QGeoCoordinate::Coordinate2D; QTest::newRow("longitude negative") << 1.0 << -1.0 << QGeoCoordinate::Coordinate2D; QTest::newRow("both too high") << 90.1 << 180.1 << QGeoCoordinate::InvalidCoordinate; QTest::newRow("latitude too high") << 90.1 << 0.1 << QGeoCoordinate::InvalidCoordinate; QTest::newRow("longitude too high") << 0.1 << 180.1 << QGeoCoordinate::InvalidCoordinate; QTest::newRow("both too low") << -90.1 << -180.1 << QGeoCoordinate::InvalidCoordinate; QTest::newRow("latitude too low") << -90.1 << 0.1 << QGeoCoordinate::InvalidCoordinate; QTest::newRow("longitude too low") << 0.1 << -180.1 << QGeoCoordinate::InvalidCoordinate; QTest::newRow("both not too high") << 90.0 << 180.0 << QGeoCoordinate::Coordinate2D; QTest::newRow("both not too low") << -90.0 << -180.0 << QGeoCoordinate::Coordinate2D; QTest::newRow("latitude too high and longitude too low") << 90.1 << -180.1 << QGeoCoordinate::InvalidCoordinate; QTest::newRow("latitude too low and longitude too high") << -90.1 << 180.1 << QGeoCoordinate::InvalidCoordinate; } void constructor_lat_long_alt() { QFETCH(double, latitude); QFETCH(double, longitude); QFETCH(double, altitude); QFETCH(QGeoCoordinate::CoordinateType, type); QGeoCoordinate c(latitude, longitude, altitude); QCOMPARE(c.type(), type); if (type != QGeoCoordinate::InvalidCoordinate) { QCOMPARE(c.latitude(), latitude); QCOMPARE(c.longitude(), longitude); QCOMPARE(c.altitude(), altitude); } else { QVERIFY(!c.isValid()); QVERIFY(c.latitude() != latitude); QVERIFY(c.longitude() != longitude); QVERIFY(c.altitude() != altitude); } } void constructor_lat_long_alt_data() { QTest::addColumn("latitude"); QTest::addColumn("longitude"); QTest::addColumn("altitude"); QTest::addColumn("type"); QTest::newRow("all zero") << 0.0 << 0.0 << 0.0 << QGeoCoordinate::Coordinate3D; QTest::newRow("all negative") << -1.0 << -1.0 << -2.0 << QGeoCoordinate::Coordinate3D; QTest::newRow("all positive") << 1.0 << 1.0 << 4.0 << QGeoCoordinate::Coordinate3D; QTest::newRow("latitude negative") << -1.0 << 1.0 << 1.0 << QGeoCoordinate::Coordinate3D; QTest::newRow("longitude negative") << 1.0 << -1.0 << 1.0 << QGeoCoordinate::Coordinate3D; QTest::newRow("altitude negative") << 1.0 << 1.0 << -1.0 << QGeoCoordinate::Coordinate3D; QTest::newRow("altitude not too high") << 1.0 << 1.0 << DBL_MAX << QGeoCoordinate::Coordinate3D; QTest::newRow("altitude not too low") << 1.0 << 1.0 << DBL_MIN << QGeoCoordinate::Coordinate3D; QTest::newRow("all not too high") << 90.0 << 180.0 << DBL_MAX << QGeoCoordinate::Coordinate3D; QTest::newRow("all not too low") << -90.0 << -180.0 << DBL_MIN << QGeoCoordinate::Coordinate3D; QTest::newRow("all too high") << 90.1 << 180.1 << DBL_MAX << QGeoCoordinate::InvalidCoordinate; QTest::newRow("all too low") << -90.1 << -180.1 << DBL_MIN << QGeoCoordinate::InvalidCoordinate; } void copy_constructor() { QFETCH(QGeoCoordinate, c); QGeoCoordinate copy(c); QCOMPARE(copy.type(), c.type()); if (c.type() != QGeoCoordinate::InvalidCoordinate) { QCOMPARE(copy.latitude(), c.latitude()); QCOMPARE(copy.longitude(), c.longitude()); if (c.type() == QGeoCoordinate::Coordinate3D) QCOMPARE(copy.altitude(), c.altitude()); } } void copy_constructor_data() { QTest::addColumn("c"); QTest::newRow("no argument") << QGeoCoordinate(); QTest::newRow("latitude, longitude arguments all zero") << QGeoCoordinate(0.0, 0.0); QTest::newRow("latitude, longitude arguments not too high") << QGeoCoordinate(90.0, 180.0); QTest::newRow("latitude, longitude arguments not too low") << QGeoCoordinate(-90.0, -180.0); QTest::newRow("latitude, longitude arguments too high") << QGeoCoordinate(90.1, 180.1); QTest::newRow("latitude, longitude arguments too low") << QGeoCoordinate(-90.1, -180.1); QTest::newRow("latitude, longitude, altitude arguments all zero") << QGeoCoordinate(0.0, 0.0, 0.0); QTest::newRow("latitude, longitude, altitude arguments not too high values") << QGeoCoordinate(90.0, 180.0, DBL_MAX); QTest::newRow("latitude, longitude, altitude arguments not too low values") << QGeoCoordinate(-90.0, -180.0, DBL_MIN); QTest::newRow("latitude, longitude, altitude arguments too high latitude & longitude") << QGeoCoordinate(90.1, 180.1, DBL_MAX); QTest::newRow("latitude, longitude, altitude arguments too low latitude & longitude") << QGeoCoordinate(-90.1, -180.1, DBL_MAX); } void destructor() { QGeoCoordinate *coordinate; coordinate = new QGeoCoordinate(); delete coordinate; coordinate = new QGeoCoordinate(0.0, 0.0); delete coordinate; coordinate = new QGeoCoordinate(0.0, 0.0, 0.0); delete coordinate; coordinate = new QGeoCoordinate(90.0, 180.0); delete coordinate; coordinate = new QGeoCoordinate(-90.0, -180.0); delete coordinate; coordinate = new QGeoCoordinate(90.1, 180.1); delete coordinate; coordinate = new QGeoCoordinate(-90.1, -180.1); delete coordinate; } void destructor2() { QFETCH(QGeoCoordinate, c); QGeoCoordinate *coordinate = new QGeoCoordinate(c); delete coordinate; } void destructor2_data() { copy_constructor_data(); } void assign() { QFETCH(QGeoCoordinate, c); QGeoCoordinate c1 = c; QCOMPARE(c.type(), c1.type()); if (c.isValid()) { QCOMPARE(c.latitude(), c.latitude()); QCOMPARE(c.longitude(), c.longitude()); if (c.type() == QGeoCoordinate::Coordinate3D) QCOMPARE(c.altitude(), c.altitude()); } } void assign_data() { copy_constructor_data(); } void comparison() { QFETCH(QGeoCoordinate, c1); QFETCH(QGeoCoordinate, c2); QFETCH(bool, result); QCOMPARE(c1 == c2, result); QVariant v1 = QVariant::fromValue(c1); QVariant v2 = QVariant::fromValue(c2); QCOMPARE(v2 == v1, result); } void comparison_data() { QTest::addColumn("c1"); QTest::addColumn("c2"); QTest::addColumn("result"); QTest::newRow("Invalid != BRISBANE") << QGeoCoordinate(-190,-1000) << BRISBANE << false; QTest::newRow("BRISBANE != MELBOURNE") << BRISBANE << MELBOURNE << false; QTest::newRow("equal") << BRISBANE << BRISBANE << true; QTest::newRow("LONDON != uninitialized data") << LONDON << QGeoCoordinate() << false; QTest::newRow("uninitialized data == uninitialized data") << QGeoCoordinate() << QGeoCoordinate() << true; QTest::newRow("invalid == same invalid") << QGeoCoordinate(-190,-1000) << QGeoCoordinate(-190,-1000) << true; QTest::newRow("invalid == different invalid") << QGeoCoordinate(-190,-1000) << QGeoCoordinate(190,1000) << true; QTest::newRow("valid != another valid") << QGeoCoordinate(-90,-180) << QGeoCoordinate(-45,+45) << false; QTest::newRow("valid == same valid") << QGeoCoordinate(-90,-180) << QGeoCoordinate(-90,-180) << true; QTest::newRow("different longitudes at north pole are equal") << QGeoCoordinate(90, 0) << QGeoCoordinate(90, 45) << true; QTest::newRow("different longitudes at south pole are equal") << QGeoCoordinate(-90, 0) << QGeoCoordinate(-90, 45) << true; } void type() { QFETCH(QGeoCoordinate, c); QFETCH(QGeoCoordinate::CoordinateType, type); QCOMPARE(c.type(), type); } void type_data() { QTest::addColumn("c"); QTest::addColumn("type"); QGeoCoordinate c; QTest::newRow("no values set") << c << QGeoCoordinate::InvalidCoordinate; c.setAltitude(1.0); QTest::newRow("only altitude is set") << c << QGeoCoordinate::InvalidCoordinate; c.setLongitude(1.0); QTest::newRow("only latitude and altitude is set") << c << QGeoCoordinate::InvalidCoordinate; c.setLatitude(-1.0); QTest::newRow("all valid: 3D Coordinate") << c << QGeoCoordinate::Coordinate3D; c.setLatitude(-90.1); QTest::newRow("too low latitude and valid longitude") << c << QGeoCoordinate::InvalidCoordinate; c.setLongitude(-180.1); c.setLatitude(90.0); QTest::newRow("valid latitude and too low longitude") << c << QGeoCoordinate::InvalidCoordinate; c.setLatitude(90.1); c.setLongitude(-180.0); QTest::newRow("too high latitude and valid longitude") << c << QGeoCoordinate::InvalidCoordinate; c.setLatitude(-90.0); c.setLongitude(180.1); QTest::newRow("valid latitude and too high longitude") << c << QGeoCoordinate::InvalidCoordinate; } void valid() { QFETCH(QGeoCoordinate, c); QCOMPARE(c.isValid(), c.type() != QGeoCoordinate::InvalidCoordinate); } void valid_data() { type_data(); } void addDataValues(TestDataType type) { QTest::addColumn("value"); QTest::addColumn("valid"); QTest::newRow("negative") << -1.0 << true; QTest::newRow("zero") << 0.0 << true; QTest::newRow("positive") << 1.0 << true; switch (type) { case Latitude: QTest::newRow("too low") << -90.1 << false; QTest::newRow("not too low") << -90.0 << true; QTest::newRow("not too hight") << 90.0 << true; QTest::newRow("too high") << 90.1; break; case Longitude: QTest::newRow("too low") << -180.1 << false; QTest::newRow("not too low") << -180.0 << true; QTest::newRow("not too hight") << 180.0 << true; QTest::newRow("too high") << 180.1; break; case Altitude: break; } } void latitude() { QFETCH(double, value); QGeoCoordinate c; c.setLatitude(value); QCOMPARE(c.latitude(), value); QGeoCoordinate c2 = c; QCOMPARE(c.latitude(), value); QCOMPARE(c2, c); } void latitude_data() { addDataValues(Latitude); } void longitude() { QFETCH(double, value); QGeoCoordinate c; c.setLongitude(value); QCOMPARE(c.longitude(), value); QGeoCoordinate c2 = c; QCOMPARE(c.longitude(), value); QCOMPARE(c2, c); } void longitude_data() { addDataValues(Longitude); } void altitude() { QFETCH(double, value); QGeoCoordinate c; c.setAltitude(value); QCOMPARE(c.altitude(), value); QGeoCoordinate c2 = c; QCOMPARE(c.altitude(), value); QCOMPARE(c2, c); } void altitude_data() { addDataValues(Altitude); } void distanceTo() { QFETCH(QGeoCoordinate, c1); QFETCH(QGeoCoordinate, c2); QFETCH(qreal, distance); QCOMPARE(QString::number(c1.distanceTo(c2)), QString::number(distance)); } void distanceTo_data() { QTest::addColumn("c1"); QTest::addColumn("c2"); QTest::addColumn("distance"); QTest::newRow("invalid coord 1") << QGeoCoordinate() << BRISBANE << qreal(0.0); QTest::newRow("invalid coord 2") << BRISBANE << QGeoCoordinate() << qreal(0.0); QTest::newRow("brisbane -> melbourne") << BRISBANE << MELBOURNE << qreal(1374820.1618767744); QTest::newRow("london -> new york") << LONDON << NEW_YORK << qreal(5570538.4987236429); QTest::newRow("north pole -> south pole") << NORTH_POLE << SOUTH_POLE << qreal(20015109.4154876769); } void azimuthTo() { QFETCH(QGeoCoordinate, c1); QFETCH(QGeoCoordinate, c2); QFETCH(qreal, azimuth); qreal result = c1.azimuthTo(c2); QVERIFY(result >= 0.0); QVERIFY(result < 360.0); QCOMPARE(QString::number(result), QString::number(azimuth)); } void azimuthTo_data() { QTest::addColumn("c1"); QTest::addColumn("c2"); QTest::addColumn("azimuth"); QTest::newRow("invalid coord 1") << QGeoCoordinate() << BRISBANE << qreal(0.0); QTest::newRow("invalid coord 2") << BRISBANE << QGeoCoordinate() << qreal(0.0); QTest::newRow("brisbane -> melbourne") << BRISBANE << MELBOURNE << qreal(211.1717286649); QTest::newRow("london -> new york") << LONDON << NEW_YORK << qreal(288.3388804508); QTest::newRow("north pole -> south pole") << NORTH_POLE << SOUTH_POLE << qreal(180.0); QTest::newRow("Almost 360degrees bearing") << QGeoCoordinate(0.5,45.0,0.0) << QGeoCoordinate(0.5,-134.9999651,0.0) << qreal(359.998); } void atDistanceAndAzimuth() { QFETCH(QGeoCoordinate, origin); QFETCH(qreal, distance); QFETCH(qreal, azimuth); QFETCH(QGeoCoordinate, result); QCOMPARE(result, origin.atDistanceAndAzimuth(distance, azimuth)); } void atDistanceAndAzimuth_data() { QTest::addColumn("origin"); QTest::addColumn("distance"); QTest::addColumn("azimuth"); QTest::addColumn("result"); QTest::newRow("invalid coord") << QGeoCoordinate() << qreal(1000.0) << qreal(10.0) << QGeoCoordinate(); if (sizeof(qreal) == sizeof(double)) { QTest::newRow("brisbane -> melbourne") << BRISBANE << qreal(1374820.1618767744) << qreal(211.1717286649) << MELBOURNE; QTest::newRow("london -> new york") << LONDON << qreal(5570538.4987236429) << qreal(288.3388804508) << NEW_YORK; QTest::newRow("north pole -> south pole") << NORTH_POLE << qreal(20015109.4154876769) << qreal(180.0) << SOUTH_POLE; } else { QTest::newRow("brisbane -> melbourne") << BRISBANE << qreal(1374820.1618767744) << qreal(211.1717286649) << QGeoCoordinate(-37.8142515084775, 144.963170622944); QTest::newRow("london -> new york") << LONDON << qreal(5570538.4987236429) << qreal(288.3388804508) << QGeoCoordinate(40.7145220608416, -74.0071216045375); QTest::newRow("north pole -> south pole") << NORTH_POLE << qreal(20015109.4154876769) << qreal(180.0) << QGeoCoordinate(-89.9999947369857, -90.0); } } void degreesToString() { QFETCH(QGeoCoordinate, coord); QFETCH(QGeoCoordinate::CoordinateFormat, format); QFETCH(QString, string); QCOMPARE(coord.toString(format), string); } void degreesToString_data() { QTest::addColumn("coord"); QTest::addColumn("format"); QTest::addColumn("string"); QGeoCoordinate northEast(27.46758, 153.027892); QGeoCoordinate northEastWithAlt(27.46758, 153.027892, 28.23411); QGeoCoordinate southEast(-27.46758, 153.027892); QGeoCoordinate southEastWithAlt(-27.46758, 153.027892, 28.23411); QGeoCoordinate northWest(27.46758, -153.027892); QGeoCoordinate northWestWithAlt(27.46758, -153.027892, 28.23411); QGeoCoordinate southWest(-27.46758, -153.027892); QGeoCoordinate southWestWithAlt(-27.46758, -153.027892, 28.23411); QGeoCoordinate empty; QGeoCoordinate toohigh(90.1, 180.1); QGeoCoordinate toolow(-90.1, -180.1); QGeoCoordinate zeroLatLong(0.0, 0.0); QGeoCoordinate allZero(0.0, 0.0, 0.0); QTest::newRow("empty, dd, no hemisphere") << empty << QGeoCoordinate::Degrees << QString(); QTest::newRow("empty, dd, hemisphere") << empty << QGeoCoordinate::DegreesWithHemisphere << QString(); QTest::newRow("empty, dm, no hemisphere") << empty << QGeoCoordinate::DegreesMinutes << QString(); QTest::newRow("empty, dm, hemisphere") << empty << QGeoCoordinate::DegreesMinutesWithHemisphere << QString(); QTest::newRow("empty, dms, no hemisphere") << empty << QGeoCoordinate::DegreesMinutesSeconds << QString(); QTest::newRow("empty, dms, hemisphere") << empty << QGeoCoordinate::DegreesMinutesSecondsWithHemisphere << QString(); QTest::newRow("too low, dd, no hemisphere") << toolow << QGeoCoordinate::Degrees << QString(); QTest::newRow("too low, dd, hemisphere") << toolow << QGeoCoordinate::DegreesWithHemisphere << QString(); QTest::newRow("too low, dm, no hemisphere") << toolow << QGeoCoordinate::DegreesMinutes << QString(); QTest::newRow("too low, dm, hemisphere") << toolow << QGeoCoordinate::DegreesMinutesWithHemisphere << QString(); QTest::newRow("too low, dms, no hemisphere") << toolow << QGeoCoordinate::DegreesMinutesSeconds << QString(); QTest::newRow("too low, dms, hemisphere") << toolow << QGeoCoordinate::DegreesMinutesSecondsWithHemisphere << QString(); QTest::newRow("too high, dd, no hemisphere") << toohigh << QGeoCoordinate::Degrees << QString(); QTest::newRow("too high, dd, hemisphere") << toohigh << QGeoCoordinate::DegreesWithHemisphere << QString(); QTest::newRow("too high, dm, no hemisphere") << toohigh << QGeoCoordinate::DegreesMinutes << QString(); QTest::newRow("too high, dm, hemisphere") << toohigh << QGeoCoordinate::DegreesMinutesWithHemisphere << QString(); QTest::newRow("too high, dms, no hemisphere") << toohigh << QGeoCoordinate::DegreesMinutesSeconds << QString(); QTest::newRow("too high, dms, hemisphere") << toohigh << QGeoCoordinate::DegreesMinutesSecondsWithHemisphere << QString(); QTest::newRow("zeroLatLong, dd, no hemisphere") << zeroLatLong << QGeoCoordinate::Degrees << QString("0.00000%1, 0.00000%1").arg(DEGREES_SYMB); QTest::newRow("zeroLatLong, dd, hemisphere") << zeroLatLong << QGeoCoordinate::DegreesWithHemisphere << QString("0.00000%1, 0.00000%1").arg(DEGREES_SYMB); QTest::newRow("zeroLatLong, dm, no hemisphere") << zeroLatLong << QGeoCoordinate::DegreesMinutes << QString("0%1 0.000', 0%1 0.000'").arg(DEGREES_SYMB); QTest::newRow("zeroLatLong, dm, hemisphere") << zeroLatLong << QGeoCoordinate::DegreesMinutesWithHemisphere << QString("0%1 0.000', 0%1 0.000'").arg(DEGREES_SYMB); QTest::newRow("zeroLatLong, dms, no hemisphere") << zeroLatLong << QGeoCoordinate::DegreesMinutesSeconds << QString("0%1 0' 0.0\", 0%1 0' 0.0\"").arg(DEGREES_SYMB); QTest::newRow("zeroLatLong, dms, hemisphere") << zeroLatLong << QGeoCoordinate::DegreesMinutesSecondsWithHemisphere << QString("0%1 0' 0.0\", 0%1 0' 0.0\"").arg(DEGREES_SYMB); QTest::newRow("allZero, dd, no hemisphere") << allZero << QGeoCoordinate::Degrees << QString("0.00000%1, 0.00000%1, 0m").arg(DEGREES_SYMB); QTest::newRow("allZero, dd, hemisphere") << allZero << QGeoCoordinate::DegreesWithHemisphere << QString("0.00000%1, 0.00000%1, 0m").arg(DEGREES_SYMB); QTest::newRow("allZero, dm, no hemisphere") << allZero << QGeoCoordinate::DegreesMinutes << QString("0%1 0.000', 0%1 0.000', 0m").arg(DEGREES_SYMB); QTest::newRow("allZero, dm, hemisphere") << allZero << QGeoCoordinate::DegreesMinutesWithHemisphere << QString("0%1 0.000', 0%1 0.000', 0m").arg(DEGREES_SYMB); QTest::newRow("allZero, dms, no hemisphere") << allZero << QGeoCoordinate::DegreesMinutesSeconds << QString("0%1 0' 0.0\", 0%1 0' 0.0\", 0m").arg(DEGREES_SYMB); QTest::newRow("allZero, dms, hemisphere") << allZero << QGeoCoordinate::DegreesMinutesSecondsWithHemisphere << QString("0%1 0' 0.0\", 0%1 0' 0.0\", 0m").arg(DEGREES_SYMB); QTest::newRow("NE, dd, no hemisphere") << northEast << QGeoCoordinate::Degrees << QString("27.46758%1, 153.02789%1").arg(DEGREES_SYMB); QTest::newRow("NE, dd, hemisphere") << northEast << QGeoCoordinate::DegreesWithHemisphere << QString("27.46758%1 N, 153.02789%1 E").arg(DEGREES_SYMB); QTest::newRow("NE, dm, no hemisphere") << northEast << QGeoCoordinate::DegreesMinutes << QString("27%1 28.055', 153%1 1.674'").arg(DEGREES_SYMB); QTest::newRow("NE, dm, hemisphere") << northEast << QGeoCoordinate::DegreesMinutesWithHemisphere << QString("27%1 28.055' N, 153%1 1.674' E").arg(DEGREES_SYMB); QTest::newRow("NE, dms, no hemisphere") << northEast << QGeoCoordinate::DegreesMinutesSeconds << QString("27%1 28' 3.3\", 153%1 1' 40.4\"").arg(DEGREES_SYMB); QTest::newRow("NE, dms, hemisphere") << northEast << QGeoCoordinate::DegreesMinutesSecondsWithHemisphere << QString("27%1 28' 3.3\" N, 153%1 1' 40.4\" E").arg(DEGREES_SYMB); QTest::newRow("NE with alt, dd, no hemisphere") << northEastWithAlt << QGeoCoordinate::Degrees << QString("27.46758%1, 153.02789%1, 28.2341m").arg(DEGREES_SYMB); QTest::newRow("NE with alt, dd, hemisphere") << northEastWithAlt << QGeoCoordinate::DegreesWithHemisphere << QString("27.46758%1 N, 153.02789%1 E, 28.2341m").arg(DEGREES_SYMB); QTest::newRow("NE with alt, dm, no hemisphere") << northEastWithAlt << QGeoCoordinate::DegreesMinutes << QString("27%1 28.055', 153%1 1.674', 28.2341m").arg(DEGREES_SYMB); QTest::newRow("NE with alt, dm, hemisphere") << northEastWithAlt << QGeoCoordinate::DegreesMinutesWithHemisphere << QString("27%1 28.055' N, 153%1 1.674' E, 28.2341m").arg(DEGREES_SYMB); QTest::newRow("NE with alt, dms, no hemisphere") << northEastWithAlt << QGeoCoordinate::DegreesMinutesSeconds << QString("27%1 28' 3.3\", 153%1 1' 40.4\", 28.2341m").arg(DEGREES_SYMB); QTest::newRow("NE with alt, dms, hemisphere") << northEastWithAlt << QGeoCoordinate::DegreesMinutesSecondsWithHemisphere << QString("27%1 28' 3.3\" N, 153%1 1' 40.4\" E, 28.2341m").arg(DEGREES_SYMB); QTest::newRow("SE, dd, no hemisphere") << southEast << QGeoCoordinate::Degrees << QString("-27.46758%1, 153.02789%1").arg(DEGREES_SYMB); QTest::newRow("SE, dd, hemisphere") << southEast << QGeoCoordinate::DegreesWithHemisphere << QString("27.46758%1 S, 153.02789%1 E").arg(DEGREES_SYMB); QTest::newRow("SE, dm, no hemisphere") << southEast << QGeoCoordinate::DegreesMinutes << QString("-27%1 28.055', 153%1 1.674'").arg(DEGREES_SYMB); QTest::newRow("SE, dm, hemisphere") << southEast << QGeoCoordinate::DegreesMinutesWithHemisphere << QString("27%1 28.055' S, 153%1 1.674' E").arg(DEGREES_SYMB); QTest::newRow("SE, dms, no hemisphere") << southEast << QGeoCoordinate::DegreesMinutesSeconds << QString("-27%1 28' 3.3\", 153%1 1' 40.4\"").arg(DEGREES_SYMB); QTest::newRow("SE, dms, hemisphere") << southEast << QGeoCoordinate::DegreesMinutesSecondsWithHemisphere << QString("27%1 28' 3.3\" S, 153%1 1' 40.4\" E").arg(DEGREES_SYMB); QTest::newRow("SE with alt, dd, no hemisphere, 28.2341m") << southEastWithAlt << QGeoCoordinate::Degrees << QString("-27.46758%1, 153.02789%1, 28.2341m").arg(DEGREES_SYMB); QTest::newRow("SE with alt, dd, hemisphere, 28.2341m") << southEastWithAlt << QGeoCoordinate::DegreesWithHemisphere << QString("27.46758%1 S, 153.02789%1 E, 28.2341m").arg(DEGREES_SYMB); QTest::newRow("SE with alt, dm, no hemisphere, 28.2341m") << southEastWithAlt << QGeoCoordinate::DegreesMinutes << QString("-27%1 28.055', 153%1 1.674', 28.2341m").arg(DEGREES_SYMB); QTest::newRow("SE with alt, dm, hemisphere, 28.2341m") << southEastWithAlt << QGeoCoordinate::DegreesMinutesWithHemisphere << QString("27%1 28.055' S, 153%1 1.674' E, 28.2341m").arg(DEGREES_SYMB); QTest::newRow("SE with alt, dms, no hemisphere, 28.2341m") << southEastWithAlt << QGeoCoordinate::DegreesMinutesSeconds << QString("-27%1 28' 3.3\", 153%1 1' 40.4\", 28.2341m").arg(DEGREES_SYMB); QTest::newRow("SE with alt, dms, hemisphere, 28.2341m") << southEastWithAlt << QGeoCoordinate::DegreesMinutesSecondsWithHemisphere << QString("27%1 28' 3.3\" S, 153%1 1' 40.4\" E, 28.2341m").arg(DEGREES_SYMB);; QTest::newRow("NW, dd, no hemisphere") << northWest << QGeoCoordinate::Degrees << QString("27.46758%1, -153.02789%1").arg(DEGREES_SYMB); QTest::newRow("NW, dd, hemisphere") << northWest << QGeoCoordinate::DegreesWithHemisphere << QString("27.46758%1 N, 153.02789%1 W").arg(DEGREES_SYMB); QTest::newRow("NW, dm, no hemisphere") << northWest << QGeoCoordinate::DegreesMinutes << QString("27%1 28.055', -153%1 1.674'").arg(DEGREES_SYMB); QTest::newRow("NW, dm, hemisphere") << northWest << QGeoCoordinate::DegreesMinutesWithHemisphere << QString("27%1 28.055' N, 153%1 1.674' W").arg(DEGREES_SYMB); QTest::newRow("NW, dms, no hemisphere") << northWest << QGeoCoordinate::DegreesMinutesSeconds << QString("27%1 28' 3.3\", -153%1 1' 40.4\"").arg(DEGREES_SYMB); QTest::newRow("NW, dms, hemisphere") << northWest << QGeoCoordinate::DegreesMinutesSecondsWithHemisphere << QString("27%1 28' 3.3\" N, 153%1 1' 40.4\" W").arg(DEGREES_SYMB); QTest::newRow("NW with alt, dd, no hemisphere, 28.2341m") << northWestWithAlt << QGeoCoordinate::Degrees << QString("27.46758%1, -153.02789%1, 28.2341m").arg(DEGREES_SYMB); QTest::newRow("NW with alt, dd, hemisphere, 28.2341m") << northWestWithAlt << QGeoCoordinate::DegreesWithHemisphere << QString("27.46758%1 N, 153.02789%1 W, 28.2341m").arg(DEGREES_SYMB); QTest::newRow("NW with alt, dm, no hemisphere, 28.2341m") << northWestWithAlt << QGeoCoordinate::DegreesMinutes << QString("27%1 28.055', -153%1 1.674', 28.2341m").arg(DEGREES_SYMB); QTest::newRow("NW with alt, dm, hemisphere, 28.2341m") << northWestWithAlt << QGeoCoordinate::DegreesMinutesWithHemisphere << QString("27%1 28.055' N, 153%1 1.674' W, 28.2341m").arg(DEGREES_SYMB); QTest::newRow("NW with alt, dms, no hemisphere, 28.2341m") << northWestWithAlt << QGeoCoordinate::DegreesMinutesSeconds << QString("27%1 28' 3.3\", -153%1 1' 40.4\", 28.2341m").arg(DEGREES_SYMB); QTest::newRow("NW with alt, dms, hemisphere, 28.2341m") << northWestWithAlt << QGeoCoordinate::DegreesMinutesSecondsWithHemisphere << QString("27%1 28' 3.3\" N, 153%1 1' 40.4\" W, 28.2341m").arg(DEGREES_SYMB); QTest::newRow("SW, dd, no hemisphere") << southWest << QGeoCoordinate::Degrees << QString("-27.46758%1, -153.02789%1").arg(DEGREES_SYMB); QTest::newRow("SW, dd, hemisphere") << southWest << QGeoCoordinate::DegreesWithHemisphere << QString("27.46758%1 S, 153.02789%1 W").arg(DEGREES_SYMB); QTest::newRow("SW, dm, no hemisphere") << southWest << QGeoCoordinate::DegreesMinutes << QString("-27%1 28.055', -153%1 1.674'").arg(DEGREES_SYMB); QTest::newRow("SW, dm, hemisphere") << southWest << QGeoCoordinate::DegreesMinutesWithHemisphere << QString("27%1 28.055' S, 153%1 1.674' W").arg(DEGREES_SYMB); QTest::newRow("SW, dms, no hemisphere") << southWest << QGeoCoordinate::DegreesMinutesSeconds << QString("-27%1 28' 3.3\", -153%1 1' 40.4\"").arg(DEGREES_SYMB); QTest::newRow("SW, dms, hemisphere") << southWest << QGeoCoordinate::DegreesMinutesSecondsWithHemisphere << QString("27%1 28' 3.3\" S, 153%1 1' 40.4\" W").arg(DEGREES_SYMB); QTest::newRow("SW with alt, dd, no hemisphere, 28.2341m") << southWestWithAlt << QGeoCoordinate::Degrees << QString("-27.46758%1, -153.02789%1, 28.2341m").arg(DEGREES_SYMB); QTest::newRow("SW with alt, dd, hemisphere, 28.2341m") << southWestWithAlt << QGeoCoordinate::DegreesWithHemisphere << QString("27.46758%1 S, 153.02789%1 W, 28.2341m").arg(DEGREES_SYMB); QTest::newRow("SW with alt, dm, no hemisphere, 28.2341m") << southWestWithAlt << QGeoCoordinate::DegreesMinutes << QString("-27%1 28.055', -153%1 1.674', 28.2341m").arg(DEGREES_SYMB); QTest::newRow("SW with alt, dm, hemisphere, 28.2341m") << southWestWithAlt << QGeoCoordinate::DegreesMinutesWithHemisphere << QString("27%1 28.055' S, 153%1 1.674' W, 28.2341m").arg(DEGREES_SYMB); QTest::newRow("SW with alt, dms, no hemisphere, 28.2341m") << southWestWithAlt << QGeoCoordinate::DegreesMinutesSeconds << QString("-27%1 28' 3.3\", -153%1 1' 40.4\", 28.2341m").arg(DEGREES_SYMB); QTest::newRow("SW with alt, dms, hemisphere, 28.2341m") << southWestWithAlt << QGeoCoordinate::DegreesMinutesSecondsWithHemisphere << QString("27%1 28' 3.3\" S, 153%1 1' 40.4\" W, 28.2341m").arg(DEGREES_SYMB); QTest::newRow("Wrap seconds to Minutes DMSH") << QGeoCoordinate(1.1333333, 1.1333333) << QGeoCoordinate::DegreesMinutesSecondsWithHemisphere << QString( "1%1 8' 0.0\" N, 1%1 8' 0.0\" E").arg(DEGREES_SYMB); QTest::newRow("Wrap seconds to Minutes DMS") << QGeoCoordinate(1.1333333, 1.1333333) << QGeoCoordinate::DegreesMinutesSeconds << QString( "1%1 8' 0.0\", 1%1 8' 0.0\"").arg(DEGREES_SYMB); QTest::newRow("Wrap minutes to Degrees DMH") << QGeoCoordinate(1.999999, 1.999999) << QGeoCoordinate::DegreesMinutesWithHemisphere << QString( "2%1 0.000' N, 2%1 0.000' E").arg(DEGREES_SYMB); QTest::newRow("Wrap minutes to Degrees DM") << QGeoCoordinate(1.999999, 1.999999) << QGeoCoordinate::DegreesMinutes << QString( "2%1 0.000', 2%1 0.000'").arg(DEGREES_SYMB); QTest::newRow("Wrap seconds to minutes to Degrees DM -> above valid long/lat values") << QGeoCoordinate(89.9999, 179.9999) << QGeoCoordinate::DegreesMinutesSeconds << QString( "90%1 0' 0.0\", 180%1 0' 0.0\"").arg(DEGREES_SYMB); QTest::newRow("Wrap minutes to Degrees DM ->above valid long/lat values") << QGeoCoordinate(89.9999, 179.9999) << QGeoCoordinate::DegreesMinutes << QString( "90%1 0.000', 180%1 0.000'").arg(DEGREES_SYMB); } void datastream() { QFETCH(QGeoCoordinate, c); QByteArray ba; QDataStream out(&ba, QIODevice::WriteOnly); out << c; QDataStream in(&ba, QIODevice::ReadOnly); QGeoCoordinate inCoord; in >> inCoord; QCOMPARE(inCoord, c); } void datastream_data() { QTest::addColumn("c"); QTest::newRow("invalid") << QGeoCoordinate(); QTest::newRow("valid lat, long") << BRISBANE; QTest::newRow("valid lat, long, alt") << QGeoCoordinate(-1, -1, -1); QTest::newRow("valid lat, long, alt again") << QGeoCoordinate(1, 1, 1); } void debug() { QFETCH(QGeoCoordinate, c); QFETCH(int, nextValue); QFETCH(QByteArray, debugString); qInstallMessageHandler(tst_qgeocoordinate_messageHandler); qDebug() << c << nextValue; qInstallMessageHandler(0); QCOMPARE(tst_qgeocoordinate_debug, debugString); } void debug_data() { QTest::addColumn("c"); QTest::addColumn("nextValue"); QTest::addColumn("debugString"); QTest::newRow("uninitialized") << QGeoCoordinate() << 45 << QByteArray("QGeoCoordinate(?, ?) 45"); QTest::newRow("initialized without altitude") << BRISBANE << 45 << (QString("QGeoCoordinate(%1, %2) 45").arg(BRISBANE.latitude(), 0, 'g', 9) .arg(BRISBANE.longitude(), 0, 'g', 9)).toLatin1(); QTest::newRow("invalid initialization") << QGeoCoordinate(-100,-200) << 45 << QByteArray("QGeoCoordinate(?, ?) 45"); QTest::newRow("initialized with altitude") << QGeoCoordinate(1,2,3) << 45 << QByteArray("QGeoCoordinate(1, 2, 3) 45"); QTest::newRow("extra long coordinates") << QGeoCoordinate(89.123412341, 179.123412341) << 45 << QByteArray("QGeoCoordinate(89.123412341, 179.12341234) 45"); } void hash() { uint s1 = qHash(QGeoCoordinate(1, 1, 2)); uint s2 = qHash(QGeoCoordinate(2, 1, 1)); uint s3 = qHash(QGeoCoordinate(1, 2, 1)); uint s10 = qHash(QGeoCoordinate(0, 0, 2)); uint s20 = qHash(QGeoCoordinate(2, 0, 0)); uint s30 = qHash(QGeoCoordinate(0, 2, 0)); uint s30NoAlt = qHash(QGeoCoordinate(0, 2)); uint s30WithSeed = qHash(QGeoCoordinate(0, 2, 0), 1); uint nullCoordinate = qHash(QGeoCoordinate()); uint north1 = qHash(QGeoCoordinate(90.0, 34.7, 0)); uint north2 = qHash(QGeoCoordinate(90.0, 180, 0)); uint south1 = qHash(QGeoCoordinate(90.0, 67.7, 34.0)); uint south2 = qHash(QGeoCoordinate(90.0, 111, 34.0)); QVERIFY(s1 != s2); QVERIFY(s2 != s3); QVERIFY(s1 != s3); QVERIFY(s10 != s20); QVERIFY(s20 != s30); QVERIFY(s10 != s30); QVERIFY(s30NoAlt != s30); QVERIFY(s30WithSeed != s30); QVERIFY(nullCoordinate != s1); QVERIFY(nullCoordinate != s2); QVERIFY(nullCoordinate != s3); QVERIFY(nullCoordinate != s10); QVERIFY(nullCoordinate != s20); QVERIFY(nullCoordinate != s30); QVERIFY(nullCoordinate != s30NoAlt); QVERIFY(nullCoordinate != s30WithSeed); QVERIFY(north1 == north2); QVERIFY(south1 == south2); } }; QTEST_GUILESS_MAIN(tst_QGeoCoordinate) #include "tst_qgeocoordinate.moc"