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Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #include "qgeocameracapabilities_p.h" #include "qgeotiledmapdata_p.h" QT_USE_NAMESPACE class tst_QGeoCameraCapabilities : public QObject { Q_OBJECT public: tst_QGeoCameraCapabilities(); private: void populateGeoCameraCapabilitiesData(); private Q_SLOTS: void constructorTest_data(); void constructorTest(); void minimumZoomLevelTest(); void maximumZoomLevelTest(); void supportsBearingTest(); void supportsRollingTest(); void supportsTiltingTest(); void minimumTiltTest(); void maximumTiltTest(); void operatorsTest_data(); void operatorsTest(); void isValidTest(); }; tst_QGeoCameraCapabilities::tst_QGeoCameraCapabilities() { } void tst_QGeoCameraCapabilities::populateGeoCameraCapabilitiesData(){ QTest::addColumn("minimumZoomLevel"); QTest::addColumn("maximumZoomLevel"); QTest::addColumn("minimumTilt"); QTest::addColumn("maximumTilt"); QTest::addColumn("bearingSupport"); QTest::addColumn("rollingSupport"); QTest::addColumn("tiltingSupport"); QTest::newRow("zeros") << 0.0 << 0.0 << 0.0 << 0.0 << false << false << false; QTest::newRow("valid") << 1.0 << 2.0 << 0.5 << 1.5 << true << true << true; QTest::newRow("negative values") << 0.0 << 0.5 << -0.5 << -0.1 << true << true << true; } void tst_QGeoCameraCapabilities::constructorTest_data(){ populateGeoCameraCapabilitiesData(); } void tst_QGeoCameraCapabilities::constructorTest() { QFETCH(double, minimumZoomLevel); QFETCH(double, maximumZoomLevel); QFETCH(double, minimumTilt); QFETCH(double, maximumTilt); QFETCH(bool, bearingSupport); QFETCH(bool, rollingSupport); QFETCH(bool, tiltingSupport); // contructor test with default values QGeoCameraCapabilities cameraCapabilities; QGeoCameraCapabilities cameraCapabilities2(cameraCapabilities); QCOMPARE(cameraCapabilities.minimumZoomLevel(), cameraCapabilities2.minimumZoomLevel()); QCOMPARE(cameraCapabilities.maximumZoomLevel(), cameraCapabilities2.maximumZoomLevel()); QVERIFY2(cameraCapabilities.supportsBearing() == cameraCapabilities2.supportsBearing(), "Copy constructor failed for bearing support"); QVERIFY2(cameraCapabilities.supportsRolling() == cameraCapabilities2.supportsRolling(), "Copy constructor failed for rolling support "); QVERIFY2(cameraCapabilities.supportsTilting() == cameraCapabilities2.supportsTilting(), "Copy constructor failed for tilting support"); QCOMPARE(cameraCapabilities.minimumTilt(), cameraCapabilities2.minimumTilt()); QCOMPARE(cameraCapabilities.maximumTilt(), cameraCapabilities2.maximumTilt()); // constructor test after setting values cameraCapabilities.setMinimumZoomLevel(minimumZoomLevel); cameraCapabilities.setMaximumZoomLevel(maximumZoomLevel); cameraCapabilities.setMinimumTilt(minimumTilt); cameraCapabilities.setMaximumTilt(maximumTilt); cameraCapabilities.setSupportsBearing(bearingSupport); cameraCapabilities.setSupportsRolling(rollingSupport); cameraCapabilities.setSupportsTilting(tiltingSupport); QGeoCameraCapabilities cameraCapabilities3(cameraCapabilities); // test the correctness of the constructor copy QCOMPARE(cameraCapabilities3.minimumZoomLevel(), minimumZoomLevel); QCOMPARE(cameraCapabilities3.maximumZoomLevel(), maximumZoomLevel); QCOMPARE(cameraCapabilities3.minimumTilt(), minimumTilt); QCOMPARE(cameraCapabilities3.maximumTilt(), maximumTilt); QVERIFY2(cameraCapabilities3.supportsBearing() == bearingSupport, "Copy constructor failed for bearing support"); QVERIFY2(cameraCapabilities3.supportsRolling() == rollingSupport, "Copy constructor failed for rolling support "); QVERIFY2(cameraCapabilities3.supportsTilting() == tiltingSupport, "Copy constructor failed for tilting support"); // verify that values have not changed after a constructor copy QCOMPARE(cameraCapabilities.minimumZoomLevel(), cameraCapabilities3.minimumZoomLevel()); QCOMPARE(cameraCapabilities.maximumZoomLevel(), cameraCapabilities3.maximumZoomLevel()); QVERIFY2(cameraCapabilities.supportsBearing() == cameraCapabilities3.supportsBearing(), "Copy constructor failed for bearing support"); QVERIFY2(cameraCapabilities.supportsRolling() == cameraCapabilities3.supportsRolling(), "Copy constructor failed for rolling support "); QVERIFY2(cameraCapabilities.supportsTilting() == cameraCapabilities3.supportsTilting(), "Copy constructor failed for tilting support"); QCOMPARE(cameraCapabilities.minimumTilt(), cameraCapabilities3.minimumTilt()); QCOMPARE(cameraCapabilities.maximumTilt(), cameraCapabilities3.maximumTilt()); } void tst_QGeoCameraCapabilities::minimumZoomLevelTest() { QGeoCameraCapabilities cameraCapabilities; cameraCapabilities.setMinimumZoomLevel(1.5); QCOMPARE(cameraCapabilities.minimumZoomLevel(), 1.5); QGeoCameraCapabilities cameraCapabilities2 = cameraCapabilities; QCOMPARE(cameraCapabilities2.minimumZoomLevel(), 1.5); cameraCapabilities.setMinimumZoomLevel(2.5); QCOMPARE(cameraCapabilities2.minimumZoomLevel(), 1.5); } void tst_QGeoCameraCapabilities::maximumZoomLevelTest() { QGeoCameraCapabilities cameraCapabilities; cameraCapabilities.setMaximumZoomLevel(3.5); QCOMPARE(cameraCapabilities.maximumZoomLevel(), 3.5); QGeoCameraCapabilities cameraCapabilities2 = cameraCapabilities; QCOMPARE(cameraCapabilities2.maximumZoomLevel(), 3.5); cameraCapabilities.setMaximumZoomLevel(4.5); QCOMPARE(cameraCapabilities2.maximumZoomLevel(), 3.5); } void tst_QGeoCameraCapabilities::supportsBearingTest(){ QGeoCameraCapabilities cameraCapabilities; QVERIFY(!cameraCapabilities.supportsBearing()); cameraCapabilities.setSupportsBearing(true); QVERIFY2(cameraCapabilities.supportsBearing(), "Camera capabilities should support bearing"); QGeoCameraCapabilities cameraCapabilities2 = cameraCapabilities; QVERIFY(cameraCapabilities2.supportsBearing()); cameraCapabilities.setSupportsBearing(false); QVERIFY2(cameraCapabilities2.supportsBearing(), "Camera capabilities should support bearing"); } void tst_QGeoCameraCapabilities::supportsRollingTest(){ QGeoCameraCapabilities cameraCapabilities; QVERIFY(!cameraCapabilities.supportsRolling()); cameraCapabilities.setSupportsRolling(true); QVERIFY2(cameraCapabilities.supportsRolling(), "Camera capabilities should support rolling"); QGeoCameraCapabilities cameraCapabilities2 = cameraCapabilities; QVERIFY(cameraCapabilities2.supportsRolling()); cameraCapabilities.setSupportsRolling(false); QVERIFY2(cameraCapabilities2.supportsRolling(), "Camera capabilities should support rolling"); } void tst_QGeoCameraCapabilities::supportsTiltingTest(){ QGeoCameraCapabilities cameraCapabilities; QVERIFY(!cameraCapabilities.supportsTilting()); cameraCapabilities.setSupportsTilting(true); QVERIFY2(cameraCapabilities.supportsTilting(), "Camera capabilities should support tilting"); QGeoCameraCapabilities cameraCapabilities2 = cameraCapabilities; QVERIFY(cameraCapabilities2.supportsTilting()); cameraCapabilities.setSupportsTilting(false); QVERIFY2(cameraCapabilities2.supportsTilting(), "Camera capabilities should support tilting"); } void tst_QGeoCameraCapabilities::minimumTiltTest(){ QGeoCameraCapabilities cameraCapabilities; QCOMPARE(cameraCapabilities.minimumTilt(),0.0); cameraCapabilities.setMinimumTilt(0.5); QCOMPARE(cameraCapabilities.minimumTilt(),0.5); QGeoCameraCapabilities cameraCapabilities2 = cameraCapabilities; QCOMPARE(cameraCapabilities2.minimumTilt(), 0.5); cameraCapabilities.setMinimumTilt(1.5); QCOMPARE(cameraCapabilities2.minimumTilt(), 0.5); } void tst_QGeoCameraCapabilities::maximumTiltTest(){ QGeoCameraCapabilities cameraCapabilities; QCOMPARE(cameraCapabilities.maximumTilt(),0.0); cameraCapabilities.setMaximumTilt(1.5); QCOMPARE(cameraCapabilities.maximumTilt(),1.5); QGeoCameraCapabilities cameraCapabilities2 = cameraCapabilities; QCOMPARE(cameraCapabilities2.maximumTilt(), 1.5); cameraCapabilities.setMaximumTilt(2.5); QCOMPARE(cameraCapabilities2.maximumTilt(), 1.5); } void tst_QGeoCameraCapabilities::operatorsTest_data(){ populateGeoCameraCapabilitiesData(); } void tst_QGeoCameraCapabilities::operatorsTest(){ QFETCH(double, minimumZoomLevel); QFETCH(double, maximumZoomLevel); QFETCH(double, minimumTilt); QFETCH(double, maximumTilt); QFETCH(bool, bearingSupport); QFETCH(bool, rollingSupport); QFETCH(bool, tiltingSupport); QGeoCameraCapabilities cameraCapabilities; cameraCapabilities.setMinimumZoomLevel(minimumZoomLevel); cameraCapabilities.setMaximumZoomLevel(maximumZoomLevel); cameraCapabilities.setMinimumTilt(minimumTilt); cameraCapabilities.setMaximumTilt(maximumTilt); cameraCapabilities.setSupportsBearing(bearingSupport); cameraCapabilities.setSupportsRolling(rollingSupport); cameraCapabilities.setSupportsTilting(tiltingSupport); QGeoCameraCapabilities cameraCapabilities2; cameraCapabilities2 = cameraCapabilities; // test the correctness of the assignment QCOMPARE(cameraCapabilities2.minimumZoomLevel(), minimumZoomLevel); QCOMPARE(cameraCapabilities2.maximumZoomLevel(), maximumZoomLevel); QCOMPARE(cameraCapabilities2.minimumTilt(), minimumTilt); QCOMPARE(cameraCapabilities2.maximumTilt(), maximumTilt); QVERIFY2(cameraCapabilities2.supportsBearing() == bearingSupport, "Copy constructor failed for bearing support"); QVERIFY2(cameraCapabilities2.supportsRolling() == rollingSupport, "Copy constructor failed for rolling support "); QVERIFY2(cameraCapabilities2.supportsTilting() == tiltingSupport, "Copy constructor failed for tilting support"); // verify that values have not changed after a constructor copy QCOMPARE(cameraCapabilities.minimumZoomLevel(), cameraCapabilities2.minimumZoomLevel()); QCOMPARE(cameraCapabilities.maximumZoomLevel(), cameraCapabilities2.maximumZoomLevel()); QVERIFY2(cameraCapabilities.supportsBearing() == cameraCapabilities2.supportsBearing(), "Copy constructor failed for bearing support"); QVERIFY2(cameraCapabilities.supportsRolling() == cameraCapabilities2.supportsRolling(), "Copy constructor failed for rolling support "); QVERIFY2(cameraCapabilities.supportsTilting() == cameraCapabilities2.supportsTilting(), "Copy constructor failed for tilting support"); QCOMPARE(cameraCapabilities.minimumTilt(), cameraCapabilities2.minimumTilt()); QCOMPARE(cameraCapabilities.maximumTilt(), cameraCapabilities2.maximumTilt()); } void tst_QGeoCameraCapabilities::isValidTest(){ QGeoCameraCapabilities cameraCapabilities; QVERIFY2(!cameraCapabilities.isValid(), "Camera capabilities should default to invalid"); cameraCapabilities.setSupportsBearing(true); QVERIFY2(cameraCapabilities.isValid(), "Camera capabilities should be valid"); QGeoCameraCapabilities cameraCapabilities2; QVERIFY2(!cameraCapabilities2.isValid(), "Camera capabilities should default to invalid"); cameraCapabilities2.setSupportsRolling(true); QVERIFY2(cameraCapabilities2.isValid(), "Camera capabilities should be valid"); QGeoCameraCapabilities cameraCapabilities3; QVERIFY2(!cameraCapabilities3.isValid(), "Camera capabilities should default to invalid"); cameraCapabilities3.setSupportsTilting(true); QVERIFY2(cameraCapabilities3.isValid(), "Camera capabilities should be valid"); QGeoCameraCapabilities cameraCapabilities4; QVERIFY2(!cameraCapabilities4.isValid(), "Camera capabilities should default to invalid"); cameraCapabilities4.setMinimumZoomLevel(1.0); QVERIFY2(cameraCapabilities4.isValid(), "Camera capabilities should be valid"); QGeoCameraCapabilities cameraCapabilities5; QVERIFY2(!cameraCapabilities5.isValid(), "Camera capabilities should default to invalid"); cameraCapabilities5.setMaximumZoomLevel(1.5); QVERIFY2(cameraCapabilities5.isValid(), "Camera capabilities should be valid"); QGeoCameraCapabilities cameraCapabilities6; QVERIFY2(!cameraCapabilities6.isValid(), "Camera capabilities should default to invalid"); cameraCapabilities6.setMinimumTilt(0.2); QVERIFY2(cameraCapabilities6.isValid(), "Camera capabilities should be valid"); QGeoCameraCapabilities cameraCapabilities7; QVERIFY2(!cameraCapabilities7.isValid(), "Camera capabilities should default to invalid"); cameraCapabilities7.setMaximumTilt(0.8); QVERIFY2(cameraCapabilities7.isValid(), "Camera capabilities should be valid"); } QTEST_APPLESS_MAIN(tst_QGeoCameraCapabilities) #include "tst_qgeocameracapabilities.moc"