/**************************************************************************** ** ** 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 #include #include #include "testqgeopositioninfosource_p.h" #include "../utils/qlocationtestutils_p.h" Q_DECLARE_METATYPE(QGeoPositionInfoSource::PositioningMethod) Q_DECLARE_METATYPE(QGeoPositionInfoSource::PositioningMethods) Q_DECLARE_METATYPE(QGeoPositionInfo) #define MAX_WAITING_TIME 50000 // Must provide a valid source, unless testing the source // returned by QGeoPositionInfoSource::createDefaultSource() on a system // that has no default source #define CHECK_SOURCE_VALID { \ if (!m_source) { \ if (m_testingDefaultSource && QGeoPositionInfoSource::createDefaultSource(0) == 0) \ QSKIP("No default position source on this system"); \ else \ QFAIL("createTestSource() must return a valid source!"); \ } \ } class MyPositionSource : public QGeoPositionInfoSource { Q_OBJECT public: MyPositionSource(QObject *parent = 0) : QGeoPositionInfoSource(parent) { } QGeoPositionInfo lastKnownPosition(bool /*fromSatellitePositioningMethodsOnly = false*/) const { return QGeoPositionInfo(); } void setSupportedPositioningMethods(PositioningMethods methods) { m_methods = methods; } virtual PositioningMethods supportedPositioningMethods() const { return m_methods; } virtual int minimumUpdateInterval() const { return 0; } virtual void startUpdates() {} virtual void stopUpdates() {} virtual void requestUpdate(int) {} Error error() const { return QGeoPositionInfoSource::NoError; } private: PositioningMethods m_methods; }; class DefaultSourceTest : public TestQGeoPositionInfoSource { Q_OBJECT protected: QGeoPositionInfoSource *createTestSource() { return QGeoPositionInfoSource::createSource(QStringLiteral("test.source"), 0); } }; TestQGeoPositionInfoSource::TestQGeoPositionInfoSource(QObject *parent) : QObject(parent) { m_testingDefaultSource = false; #if QT_CONFIG(library) /* * Set custom path since CI doesn't install test plugins */ #ifdef Q_OS_WIN QCoreApplication::addLibraryPath(QCoreApplication::applicationDirPath() + QStringLiteral("/../../../../plugins")); #else QCoreApplication::addLibraryPath(QCoreApplication::applicationDirPath() + QStringLiteral("/../../../plugins")); #endif #endif } TestQGeoPositionInfoSource *TestQGeoPositionInfoSource::createDefaultSourceTest() { DefaultSourceTest *test = new DefaultSourceTest; test->m_testingDefaultSource = true; return test; } void TestQGeoPositionInfoSource::test_slot1() { } void TestQGeoPositionInfoSource::test_slot2() { m_testSlot2Called = true; } void TestQGeoPositionInfoSource::base_initTestCase() { qRegisterMetaType(); } void TestQGeoPositionInfoSource::base_init() { m_source = createTestSource(); m_testSlot2Called = false; } void TestQGeoPositionInfoSource::base_cleanup() { delete m_source; m_source = 0; } void TestQGeoPositionInfoSource::base_cleanupTestCase() { } void TestQGeoPositionInfoSource::initTestCase() { base_initTestCase(); } void TestQGeoPositionInfoSource::init() { base_init(); } void TestQGeoPositionInfoSource::cleanup() { base_cleanup(); } void TestQGeoPositionInfoSource::cleanupTestCase() { base_cleanupTestCase(); } // TC_ID_3_x_1 void TestQGeoPositionInfoSource::constructor_withParent() { QObject *parent = new QObject(); new MyPositionSource(parent); delete parent; } // TC_ID_3_x_2 void TestQGeoPositionInfoSource::constructor_noParent() { MyPositionSource *obj = new MyPositionSource(); delete obj; } void TestQGeoPositionInfoSource::updateInterval() { MyPositionSource s; QCOMPARE(s.updateInterval(), 0); } void TestQGeoPositionInfoSource::setPreferredPositioningMethods() { QFETCH(QGeoPositionInfoSource::PositioningMethod, supported); QFETCH(QGeoPositionInfoSource::PositioningMethod, preferred); QFETCH(QGeoPositionInfoSource::PositioningMethod, resulting); MyPositionSource s; s.setSupportedPositioningMethods(supported); s.setPreferredPositioningMethods(preferred); QCOMPARE(s.preferredPositioningMethods(), resulting); } void TestQGeoPositionInfoSource::setPreferredPositioningMethods_data() { QTest::addColumn("supported"); QTest::addColumn("preferred"); QTest::addColumn("resulting"); QTest::newRow("Sat supported, Sat preferred") << QGeoPositionInfoSource::SatellitePositioningMethods << QGeoPositionInfoSource::SatellitePositioningMethods << QGeoPositionInfoSource::SatellitePositioningMethods; QTest::newRow("Sat supported, Non-Sat preferred") << QGeoPositionInfoSource::SatellitePositioningMethods << QGeoPositionInfoSource::NonSatellitePositioningMethods << QGeoPositionInfoSource::SatellitePositioningMethods; QTest::newRow("Sat supported, All preferred") << QGeoPositionInfoSource::SatellitePositioningMethods << QGeoPositionInfoSource::AllPositioningMethods << QGeoPositionInfoSource::SatellitePositioningMethods; QTest::newRow("Non-Sat supported, Sat preferred") << QGeoPositionInfoSource::NonSatellitePositioningMethods << QGeoPositionInfoSource::SatellitePositioningMethods << QGeoPositionInfoSource::NonSatellitePositioningMethods; QTest::newRow("Non-Sat supported, Non-Sat preferred") << QGeoPositionInfoSource::NonSatellitePositioningMethods << QGeoPositionInfoSource::NonSatellitePositioningMethods << QGeoPositionInfoSource::NonSatellitePositioningMethods; QTest::newRow("Non-Sat supported, All preferred") << QGeoPositionInfoSource::NonSatellitePositioningMethods << QGeoPositionInfoSource::AllPositioningMethods << QGeoPositionInfoSource::NonSatellitePositioningMethods; QTest::newRow("All supported, Sat preferred") << QGeoPositionInfoSource::AllPositioningMethods << QGeoPositionInfoSource::SatellitePositioningMethods << QGeoPositionInfoSource::SatellitePositioningMethods; QTest::newRow("All supported, Non-Sat preferred") << QGeoPositionInfoSource::AllPositioningMethods << QGeoPositionInfoSource::NonSatellitePositioningMethods << QGeoPositionInfoSource::NonSatellitePositioningMethods; QTest::newRow("All supported, All preferred") << QGeoPositionInfoSource::AllPositioningMethods << QGeoPositionInfoSource::AllPositioningMethods << QGeoPositionInfoSource::AllPositioningMethods; } void TestQGeoPositionInfoSource::preferredPositioningMethods() { MyPositionSource s; QCOMPARE(s.preferredPositioningMethods(), 0); } //TC_ID_3_x_1 : Create a position source with the given parent that reads from the system's default // sources of location data void TestQGeoPositionInfoSource::createDefaultSource() { QObject *parent = new QObject; QGeoPositionInfoSource *source = QGeoPositionInfoSource::createDefaultSource(parent); // now all platforms have the dummy plugin at least QVERIFY(source != 0); delete parent; } void TestQGeoPositionInfoSource::setUpdateInterval() { CHECK_SOURCE_VALID; QFETCH(int, interval); QFETCH(int, expectedInterval); m_source->setUpdateInterval(interval); QCOMPARE(m_source->updateInterval(), expectedInterval); } void TestQGeoPositionInfoSource::setUpdateInterval_data() { QTest::addColumn("interval"); QTest::addColumn("expectedInterval"); QGeoPositionInfoSource *source = createTestSource(); int minUpdateInterval = source ? source->minimumUpdateInterval() : -1; if (source) delete source; QTest::newRow("0") << 0 << 0; if (minUpdateInterval > -1) { QTest::newRow("INT_MIN") << INT_MIN << minUpdateInterval; QTest::newRow("-1") << -1 << minUpdateInterval; } if (minUpdateInterval > 0) { QTest::newRow("more than minInterval") << minUpdateInterval + 1 << minUpdateInterval + 1; QTest::newRow("equal to minInterval") << minUpdateInterval << minUpdateInterval; } if (minUpdateInterval > 1) { QTest::newRow("less then minInterval") << minUpdateInterval - 1 << minUpdateInterval; QTest::newRow("in btw zero and minInterval") << 1 << minUpdateInterval; } } void TestQGeoPositionInfoSource::lastKnownPosition() { CHECK_SOURCE_VALID; QFETCH(QGeoPositionInfoSource::PositioningMethod, positioningMethod); QFETCH(bool, lastKnownPositionArgument); if ((m_source->supportedPositioningMethods() & positioningMethod) == 0) QSKIP("Not a supported positioning method for this position source"); m_source->setPreferredPositioningMethods(positioningMethod); QSignalSpy spy(m_source, SIGNAL(positionUpdated(QGeoPositionInfo))); QSignalSpy timeout(m_source, SIGNAL(updateTimeout())); int time_out = 7000; m_source->setUpdateInterval(time_out); m_source->startUpdates(); // Use QEventLoop instead of qWait() to ensure we stop as soon as a // position is emitted (otherwise the lastKnownPosition() may have // changed by the time it is checked) QEventLoop loop; QTimer timer; //simulated CI tests will quickly return -> real GPS tests take 2 minutes for satellite systems //use a 5 min timeout timer.setInterval(300000); connect(m_source, SIGNAL(positionUpdated(QGeoPositionInfo)), &loop, SLOT(quit())); connect(&timer, SIGNAL(timeout()), &loop, SLOT(quit())); timer.start(); loop.exec(); QVERIFY((spy.count() > 0) && (timeout.count() == 0)); QList list = spy.takeFirst(); QGeoPositionInfo info = list.at(0).value(); QGeoPositionInfo lastPositioninfo = m_source->lastKnownPosition(lastKnownPositionArgument); // lastPositioninfo is only gauranteed to be valid in all cases when only using satelite // positioning methods or when lastKnownPositionArgument is false if (!lastKnownPositionArgument || positioningMethod == QGeoPositionInfoSource::SatellitePositioningMethods) { QVERIFY(lastPositioninfo.isValid()); } if (lastPositioninfo.isValid()) { QCOMPARE(info.coordinate(), lastPositioninfo.coordinate()); // On some CI machines the above evenloop code is not sufficient as positionUpdated // still fires causing last know position and last update to be out of sync. // To accommodate we check that the time stamps are no more than 1s apart // ideally they should be the same // doesn't work: QCOMPARE(info.timestamp(), lastPositioninfo.timestamp()); const qint64 diff = qAbs(info.timestamp().msecsTo(lastPositioninfo.timestamp())); QCOMPARE(diff < 1000, true); QCOMPARE(info.hasAttribute(QGeoPositionInfo::HorizontalAccuracy), lastPositioninfo.hasAttribute(QGeoPositionInfo::HorizontalAccuracy)); if (info.hasAttribute(QGeoPositionInfo::HorizontalAccuracy)) { bool isNaN1 = qIsNaN(info.attribute(QGeoPositionInfo::HorizontalAccuracy)); bool isNaN2 = qIsNaN(lastPositioninfo.attribute(QGeoPositionInfo::HorizontalAccuracy)); QCOMPARE(isNaN1, isNaN2); if (!isNaN1) { QCOMPARE(qFuzzyCompare(info.attribute(QGeoPositionInfo::HorizontalAccuracy), lastPositioninfo.attribute(QGeoPositionInfo::HorizontalAccuracy)), true); } } QCOMPARE(info.hasAttribute(QGeoPositionInfo::VerticalAccuracy), lastPositioninfo.hasAttribute(QGeoPositionInfo::VerticalAccuracy)); if (info.hasAttribute(QGeoPositionInfo::VerticalAccuracy)) { bool isNaN1 = qIsNaN(info.attribute(QGeoPositionInfo::VerticalAccuracy)); bool isNaN2 = qIsNaN(lastPositioninfo.attribute(QGeoPositionInfo::VerticalAccuracy)); QCOMPARE(isNaN1, isNaN2); if (!isNaN1) { QCOMPARE(qFuzzyCompare(info.attribute(QGeoPositionInfo::VerticalAccuracy), lastPositioninfo.attribute(QGeoPositionInfo::VerticalAccuracy)), true); } } } m_source->stopUpdates(); } void TestQGeoPositionInfoSource::lastKnownPosition_data() { QTest::addColumn("positioningMethod"); QTest::addColumn("lastKnownPositionArgument"); // no good way to determine on MeeGo what are supported. If we ask for all or non-satellites, we // typically get geoclue-example provider, which is not suitable for this test. QTest::newRow("all - false") << QGeoPositionInfoSource::AllPositioningMethods << false; QTest::newRow("all - true") << QGeoPositionInfoSource::AllPositioningMethods << true; QTest::newRow("satellite - false") << QGeoPositionInfoSource::SatellitePositioningMethods << false; QTest::newRow("satellite - true") << QGeoPositionInfoSource::SatellitePositioningMethods << true; } void TestQGeoPositionInfoSource::minimumUpdateInterval() { CHECK_SOURCE_VALID; QVERIFY(m_source->minimumUpdateInterval() > 0); } //TC_ID_3_x_1 void TestQGeoPositionInfoSource::startUpdates_testIntervals() { CHECK_SOURCE_VALID; QSignalSpy spy(m_source, SIGNAL(positionUpdated(QGeoPositionInfo))); QSignalSpy timeout(m_source, SIGNAL(updateTimeout())); m_source->setUpdateInterval(7000); int interval = m_source->updateInterval(); m_source->startUpdates(); QTRY_COMPARE_WITH_TIMEOUT(spy.count(), 1, 9500); for (int i = 0; i < 6; i++) { QTRY_VERIFY_WITH_TIMEOUT((spy.count() == 1) && (timeout.count() == 0), (interval*2)); spy.clear(); } m_source->stopUpdates(); } void TestQGeoPositionInfoSource::startUpdates_testIntervalChangesWhileRunning() { // There are two ways of dealing with an interval change, and we have left it system dependent. // The interval can be changed will running or after the next update. // WinCE uses the first method, S60 uses the second method. // The minimum interval on the symbian emulator is 5000 msecs, which is why the times in // this test are as high as they are. CHECK_SOURCE_VALID; QSignalSpy spy(m_source, SIGNAL(positionUpdated(QGeoPositionInfo))); QSignalSpy timeout(m_source, SIGNAL(updateTimeout())); m_source->setUpdateInterval(0); m_source->startUpdates(); m_source->setUpdateInterval(0); QTRY_VERIFY_WITH_TIMEOUT(spy.count() > 0, 7000); QCOMPARE(timeout.count(), 0); spy.clear(); m_source->setUpdateInterval(5000); QTRY_VERIFY_WITH_TIMEOUT((spy.count() == 2) && (timeout.count() == 0), 15000); spy.clear(); m_source->setUpdateInterval(10000); QTRY_VERIFY_WITH_TIMEOUT((spy.count() == 2) && (timeout.count() == 0), 30000); spy.clear(); m_source->setUpdateInterval(5000); QTRY_VERIFY_WITH_TIMEOUT((spy.count() == 2) && (timeout.count() == 0), 15000); spy.clear(); m_source->setUpdateInterval(5000); QTRY_VERIFY_WITH_TIMEOUT((spy.count() == 2) && (timeout.count() == 0), 15000); spy.clear(); m_source->setUpdateInterval(0); QTRY_VERIFY_WITH_TIMEOUT((spy.count() == 1) && (timeout.count() == 0), 7000); spy.clear(); m_source->setUpdateInterval(0); QTRY_VERIFY_WITH_TIMEOUT((spy.count() == 1) && (timeout.count() == 0), 7000); spy.clear(); m_source->stopUpdates(); } //TC_ID_3_x_2 void TestQGeoPositionInfoSource::startUpdates_testDefaultInterval() { CHECK_SOURCE_VALID; QSignalSpy spy(m_source, SIGNAL(positionUpdated(QGeoPositionInfo))); QSignalSpy timeout(m_source, SIGNAL(updateTimeout())); m_source->startUpdates(); for (int i = 0; i < 3; i++) { QTRY_VERIFY_WITH_TIMEOUT((spy.count() > 0) && (timeout.count() == 0), 7000); spy.clear(); } m_source->stopUpdates(); } //TC_ID_3_x_3 void TestQGeoPositionInfoSource::startUpdates_testZeroInterval() { CHECK_SOURCE_VALID; QSignalSpy spy(m_source, SIGNAL(positionUpdated(QGeoPositionInfo))); QSignalSpy timeout(m_source, SIGNAL(updateTimeout())); m_source->setUpdateInterval(0); m_source->startUpdates(); for (int i = 0; i < 3; i++) { QTRY_VERIFY_WITH_TIMEOUT((spy.count() > 0) && (timeout.count() == 0), 7000); spy.clear(); } m_source->stopUpdates(); } void TestQGeoPositionInfoSource::startUpdates_moreThanOnce() { CHECK_SOURCE_VALID; QSignalSpy spy(m_source, SIGNAL(positionUpdated(QGeoPositionInfo))); QSignalSpy timeout(m_source, SIGNAL(updateTimeout())); m_source->setUpdateInterval(0); m_source->startUpdates(); m_source->startUpdates(); // check there is no crash QTRY_VERIFY_WITH_TIMEOUT((spy.count() > 0) && (timeout.count() == 0), 7000); m_source->startUpdates(); // check there is no crash m_source->stopUpdates(); } //TC_ID_3_x_1 void TestQGeoPositionInfoSource::stopUpdates() { CHECK_SOURCE_VALID; QSignalSpy spy(m_source, SIGNAL(positionUpdated(QGeoPositionInfo))); QSignalSpy timeout(m_source, SIGNAL(updateTimeout())); m_source->setUpdateInterval(7000); m_source->startUpdates(); for (int i = 0; i < 2; i++) { QTRY_VERIFY_WITH_TIMEOUT((spy.count() > 0) && (timeout.count() == 0), 9500); spy.clear(); } m_source->stopUpdates(); QTest::qWait(9500); QCOMPARE(spy.count(), 0); spy.clear(); m_source->setUpdateInterval(0); m_source->startUpdates(); m_source->stopUpdates(); QTRY_COMPARE_WITH_TIMEOUT(spy.count(), 0, 9500); } //TC_ID_3_x_2 void TestQGeoPositionInfoSource::stopUpdates_withoutStart() { CHECK_SOURCE_VALID; m_source->stopUpdates(); // check there is no crash } void TestQGeoPositionInfoSource::requestUpdate() { CHECK_SOURCE_VALID; QFETCH(int, timeout); QSignalSpy spy(m_source, SIGNAL(updateTimeout())); m_source->requestUpdate(timeout); QTRY_COMPARE(spy.count(), 1); } void TestQGeoPositionInfoSource::requestUpdate_data() { QTest::addColumn("timeout"); QTest::newRow("less than zero") << -1; //TC_ID_3_x_7 } // TC_ID_3_x_1 : Create position source and call requestUpdate with valid timeout value void TestQGeoPositionInfoSource::requestUpdate_validTimeout() { CHECK_SOURCE_VALID; QSignalSpy spyUpdate(m_source, SIGNAL(positionUpdated(QGeoPositionInfo))); QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout())); m_source->requestUpdate(7000); QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), 7000); } void TestQGeoPositionInfoSource::requestUpdate_defaultTimeout() { CHECK_SOURCE_VALID; QSignalSpy spyUpdate(m_source, SIGNAL(positionUpdated(QGeoPositionInfo))); QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout())); m_source->requestUpdate(0); QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), 7000); } // TC_ID_3_x_2 : Create position source and call requestUpdate with a timeout less than // minimumupdateInterval void TestQGeoPositionInfoSource::requestUpdate_timeoutLessThanMinimumInterval() { CHECK_SOURCE_VALID; QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout())); m_source->requestUpdate(1); QTRY_COMPARE_WITH_TIMEOUT(spyTimeout.count(), 1, 1000); } // TC_ID_3_x_3 : Call requestUpdate() with same value repeatedly void TestQGeoPositionInfoSource::requestUpdate_repeatedCalls() { CHECK_SOURCE_VALID; QSignalSpy spyUpdate(m_source, SIGNAL(positionUpdated(QGeoPositionInfo))); QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout())); m_source->requestUpdate(7000); QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), 7000); spyUpdate.clear(); m_source->requestUpdate(7000); QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), 7000); } void TestQGeoPositionInfoSource::requestUpdate_overlappingCalls() { CHECK_SOURCE_VALID; QSignalSpy spyUpdate(m_source, SIGNAL(positionUpdated(QGeoPositionInfo))); QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout())); m_source->requestUpdate(7000); m_source->requestUpdate(7000); QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), 7000); } //TC_ID_3_x_4 void TestQGeoPositionInfoSource::requestUpdateAfterStartUpdates_ZeroInterval() { CHECK_SOURCE_VALID; QSignalSpy spyUpdate(m_source, SIGNAL(positionUpdated(QGeoPositionInfo))); QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout())); m_source->setUpdateInterval(0); m_source->startUpdates(); QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), 7000); spyUpdate.clear(); m_source->requestUpdate(7000); QTest::qWait(7000); QVERIFY((spyUpdate.count() > 0) && (spyTimeout.count() == 0)); spyUpdate.clear(); QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), MAX_WAITING_TIME); m_source->stopUpdates(); } void TestQGeoPositionInfoSource::requestUpdateAfterStartUpdates_SmallInterval() { CHECK_SOURCE_VALID; QSignalSpy spyUpdate(m_source, SIGNAL(positionUpdated(QGeoPositionInfo))); QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout())); m_source->setUpdateInterval(10000); m_source->startUpdates(); QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() == 1) && (spyTimeout.count() == 0), 20000); spyUpdate.clear(); m_source->requestUpdate(7000); QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() == 1) && (spyTimeout.count() == 0), 7000); spyUpdate.clear(); QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() == 1) && (spyTimeout.count() == 0), 20000); m_source->stopUpdates(); } void TestQGeoPositionInfoSource::requestUpdateBeforeStartUpdates_ZeroInterval() { CHECK_SOURCE_VALID; QSignalSpy spyUpdate(m_source, SIGNAL(positionUpdated(QGeoPositionInfo))); QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout())); m_source->requestUpdate(7000); m_source->setUpdateInterval(0); m_source->startUpdates(); QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() >= 2) && (spyTimeout.count() == 0), 14000); spyUpdate.clear(); QTest::qWait(7000); QCOMPARE(spyTimeout.count(), 0); m_source->stopUpdates(); } void TestQGeoPositionInfoSource::requestUpdateBeforeStartUpdates_SmallInterval() { CHECK_SOURCE_VALID; QSignalSpy spyUpdate(m_source, SIGNAL(positionUpdated(QGeoPositionInfo))); QSignalSpy spyTimeout(m_source, SIGNAL(updateTimeout())); m_source->requestUpdate(7000); m_source->setUpdateInterval(10000); m_source->startUpdates(); QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), 7000); spyUpdate.clear(); QTRY_VERIFY_WITH_TIMEOUT((spyUpdate.count() > 0) && (spyTimeout.count() == 0), 20000); m_source->stopUpdates(); } void TestQGeoPositionInfoSource::removeSlotForRequestTimeout() { CHECK_SOURCE_VALID; bool i = connect(m_source, SIGNAL(updateTimeout()), this, SLOT(test_slot1())); QVERIFY(i == true); i = connect(m_source, SIGNAL(updateTimeout()), this, SLOT(test_slot2())); QVERIFY(i == true); i = disconnect(m_source, SIGNAL(updateTimeout()), this, SLOT(test_slot1())); QVERIFY(i == true); m_source->requestUpdate(-1); QTRY_VERIFY_WITH_TIMEOUT((m_testSlot2Called == true), 1000); } void TestQGeoPositionInfoSource::removeSlotForPositionUpdated() { CHECK_SOURCE_VALID; bool i = connect(m_source, SIGNAL(positionUpdated(QGeoPositionInfo)), this, SLOT(test_slot1())); QVERIFY(i == true); i = connect(m_source, SIGNAL(positionUpdated(QGeoPositionInfo)), this, SLOT(test_slot2())); QVERIFY(i == true); i = disconnect(m_source, SIGNAL(positionUpdated(QGeoPositionInfo)), this, SLOT(test_slot1())); QVERIFY(i == true); m_source->requestUpdate(7000); QTRY_VERIFY_WITH_TIMEOUT((m_testSlot2Called == true), 7000); } #include "testqgeopositioninfosource.moc"