/**************************************************************************** ** ** 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 #include #include #include #include #include #include QT_USE_NAMESPACE Q_DECLARE_METATYPE(QGeoPositionInfo::Attribute) QByteArray tst_qgeopositioninfo_debug; void tst_qgeopositioninfo_messageHandler(QtMsgType type, const QMessageLogContext&, const QString &msg) { switch (type) { case QtDebugMsg : tst_qgeopositioninfo_debug = msg.toLocal8Bit(); break; default: break; } } QList tst_qgeopositioninfo_qrealTestValues() { QList values; if (qreal(DBL_MIN) == DBL_MIN) values << DBL_MIN; values << FLT_MIN; values << -1.0 << 0.0 << 1.0; values << FLT_MAX; if (qreal(DBL_MAX) == DBL_MAX) values << DBL_MAX; return values; } QList tst_qgeopositioninfo_getAttributes() { QList attributes; attributes << QGeoPositionInfo::Direction << QGeoPositionInfo::GroundSpeed << QGeoPositionInfo::VerticalSpeed << QGeoPositionInfo::MagneticVariation << QGeoPositionInfo::HorizontalAccuracy << QGeoPositionInfo::VerticalAccuracy; return attributes; } class tst_QGeoPositionInfo : public QObject { Q_OBJECT private: QGeoPositionInfo infoWithAttribute(QGeoPositionInfo::Attribute attribute, qreal value) { QGeoPositionInfo info; info.setAttribute(attribute, value); return info; } void addTestData_info() { QTest::addColumn("info"); QTest::newRow("invalid") << QGeoPositionInfo(); QTest::newRow("coord") << QGeoPositionInfo(QGeoCoordinate(-27.3422,150.2342), QDateTime()); QTest::newRow("datetime") << QGeoPositionInfo(QGeoCoordinate(), QDateTime::currentDateTime()); QList attributes = tst_qgeopositioninfo_getAttributes(); QList values = tst_qgeopositioninfo_qrealTestValues(); for (int i=0; i("coord"); QTest::addColumn("dateTime"); QTest::addColumn("valid"); QTest::newRow("both null") << QGeoCoordinate() << QDateTime() << false; QTest::newRow("both valid") << QGeoCoordinate(1,1) << QDateTime::currentDateTime() << true; QTest::newRow("valid coord") << QGeoCoordinate(1,1) << QDateTime() << false; QTest::newRow("valid datetime") << QGeoCoordinate() << QDateTime::currentDateTime() << false; QTest::newRow("valid time but not date == invalid") << QGeoCoordinate() << QDateTime(QDate(), QTime::currentTime()) << false; QTest::newRow("valid date but not time == valid due to QDateTime constructor") << QGeoCoordinate() << QDateTime(QDate::currentDate(), QTime()) << false; } void constructor_copy() { QFETCH(QGeoPositionInfo, info); QCOMPARE(QGeoPositionInfo(info), info); } void constructor_copy_data() { addTestData_info(); } void constructor_move() { QFETCH(QGeoPositionInfo, info); QGeoPositionInfo infoCopy = info; QCOMPARE(QGeoPositionInfo(std::move(info)), infoCopy); // The moved-from object will go out of scope and will be destroyed // here, so we also implicitly check that moved-from object's destructor // is called without any issues. } void constructor_move_data() { addTestData_info(); } void operator_assign() { QFETCH(QGeoPositionInfo, info); QGeoPositionInfo info2; info2 = info; QCOMPARE(info2, info); } void operator_assign_data() { addTestData_info(); } void operator_move_assign() { QFETCH(QGeoPositionInfo, info); QGeoPositionInfo infoCopy = info; QGeoPositionInfo obj; obj = std::move(info); QCOMPARE(obj, infoCopy); // check that (move)assigning to the moved-from object is ok info = std::move(infoCopy); QCOMPARE(info, obj); } void operator_move_assign_data() { addTestData_info(); } void operator_equals() { QFETCH(QGeoPositionInfo, info); QVERIFY(info == info); if (info.isValid()) QCOMPARE(info == QGeoPositionInfo(), false); } void operator_equals_data() { addTestData_info(); } void operator_notEquals() { QFETCH(QGeoPositionInfo, info); QCOMPARE(info != info, false); if (info.isValid()) QCOMPARE(info != QGeoPositionInfo(), true); } void operator_notEquals_data() { addTestData_info(); } void setDateTime() { QFETCH(QDateTime, dateTime); QGeoPositionInfo info; info.setTimestamp(dateTime); QCOMPARE(info.timestamp(), dateTime); } void setDateTime_data() { QTest::addColumn("dateTime"); QTest::newRow("invalid") << QDateTime(); QTest::newRow("now") << QDateTime::currentDateTime(); } void dateTime() { QGeoPositionInfo info; QVERIFY(info.timestamp().isNull()); } void setCoordinate() { QFETCH(QGeoCoordinate, coord); QGeoPositionInfo info; info.setCoordinate(coord); QCOMPARE(info.coordinate(), coord); } void setCoordinate_data() { QTest::addColumn("coord"); QTest::newRow("invalid") << QGeoCoordinate(); QTest::newRow("valid") << QGeoCoordinate(30,30); } void attribute() { QFETCH(QGeoPositionInfo::Attribute, attribute); QFETCH(qreal, value); QGeoPositionInfo info; QVERIFY(qIsNaN(info.attribute(attribute))); info.setAttribute(attribute, value); QCOMPARE(info.attribute(attribute), value); info.removeAttribute(attribute); QVERIFY(qIsNaN(info.attribute(attribute))); } void attribute_data() { QTest::addColumn("attribute"); QTest::addColumn("value"); QList attributes = tst_qgeopositioninfo_getAttributes(); QList values = tst_qgeopositioninfo_qrealTestValues(); for (int i=0; i> inInfo; QCOMPARE(inInfo, info); } void datastream_data() { addTestData_info(); } void debug() { QFETCH(QGeoPositionInfo, info); QFETCH(int, nextValue); QFETCH(QByteArray, debugStringEnd); qInstallMessageHandler(tst_qgeopositioninfo_messageHandler); qDebug() << info << nextValue; qInstallMessageHandler(0); // use endsWith() so we don't depend on QDateTime's debug() implementation QVERIFY2(tst_qgeopositioninfo_debug.endsWith(debugStringEnd), qPrintable(QString::fromLatin1("'%1' does not end with '%2'"). arg(QLatin1String(tst_qgeopositioninfo_debug), QLatin1String(debugStringEnd)))); } void debug_data() { QTest::addColumn("info"); QTest::addColumn("nextValue"); QTest::addColumn("debugStringEnd"); QTest::newRow("no values") << QGeoPositionInfo() << 40 << QString("QGeoCoordinate(?, ?)) 40").toLatin1(); QGeoCoordinate coord(1, 1); QTest::newRow("coord, time") << QGeoPositionInfo(coord, QDateTime::currentDateTime()) << 40 << QByteArray("QGeoCoordinate(1, 1)) 40"); QGeoPositionInfo info; info.setAttribute(QGeoPositionInfo::Direction, 1.1); info.setAttribute(QGeoPositionInfo::GroundSpeed, 2.1); info.setAttribute(QGeoPositionInfo::VerticalSpeed, 3.1); info.setAttribute(QGeoPositionInfo::MagneticVariation, 4.1); info.setAttribute(QGeoPositionInfo::HorizontalAccuracy, 5.1); info.setAttribute(QGeoPositionInfo::VerticalAccuracy, 6.1); QTest::newRow("all attributes") << info << 40 << QByteArray("QGeoCoordinate(?, ?), Direction=1.1, GroundSpeed=2.1, VerticalSpeed=3.1, MagneticVariation=4.1, HorizontalAccuracy=5.1, VerticalAccuracy=6.1) 40"); } }; QTEST_APPLESS_MAIN(tst_QGeoPositionInfo) #include "tst_qgeopositioninfo.moc"