/**************************************************************************** ** ** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the test suite of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #include #if defined Q_OS_UNIX #include #endif //TESTED_CLASS= //TESTED_FILES= class tst_QTimer : public QObject { Q_OBJECT public: tst_QTimer(); virtual ~tst_QTimer(); public slots: void initTestCase(); void cleanupTestCase(); void init(); void cleanup(); private slots: void zeroTimer(); void singleShotTimeout(); void timeout(); void livelock_data(); void livelock(); void timerInfiniteRecursion_data(); void timerInfiniteRecursion(); void recurringTimer_data(); void recurringTimer(); void deleteLaterOnQTimer(); // long name, don't want to shadow QObject::deleteLater() void moveToThread(); void restartedTimerFiresTooSoon(); void timerFiresOnlyOncePerProcessEvents_data(); void timerFiresOnlyOncePerProcessEvents(); void timerIdPersistsAfterThreadExit(); void cancelLongTimer(); void singleShotStaticFunctionZeroTimeout(); void recurseOnTimeoutAndStopTimer(); void QTBUG13633_dontBlockEvents(); void postedEventsShouldNotStarveTimers(); #ifdef Q_OS_SYMBIAN void handleLeaks(); #endif }; class TimerHelper : public QObject { Q_OBJECT public: TimerHelper() : QObject(), count(0) { } int count; public slots: void timeout(); }; void TimerHelper::timeout() { ++count; } tst_QTimer::tst_QTimer() { } tst_QTimer::~tst_QTimer() { } void tst_QTimer::initTestCase() { } void tst_QTimer::cleanupTestCase() { } void tst_QTimer::init() { } void tst_QTimer::cleanup() { } void tst_QTimer::zeroTimer() { TimerHelper helper; QTimer timer; timer.setInterval(0); timer.start(); connect(&timer, SIGNAL(timeout()), &helper, SLOT(timeout())); QCoreApplication::processEvents(); QCOMPARE(helper.count, 1); } void tst_QTimer::singleShotTimeout() { TimerHelper helper; QTimer timer; timer.setSingleShot(true); connect(&timer, SIGNAL(timeout()), &helper, SLOT(timeout())); timer.start(100); QTest::qWait(500); QCOMPARE(helper.count, 1); QTest::qWait(500); QCOMPARE(helper.count, 1); } #if defined(Q_OS_SYMBIAN) // Increase wait as emulator startup can cause unexpected delays, and // on hardware there are sometimes spikes right after process startup. #define TIMEOUT_TIMEOUT 2000 #else #define TIMEOUT_TIMEOUT 200 #endif void tst_QTimer::timeout() { TimerHelper helper; QTimer timer; connect(&timer, SIGNAL(timeout()), &helper, SLOT(timeout())); timer.start(100); QCOMPARE(helper.count, 0); QTest::qWait(TIMEOUT_TIMEOUT); QVERIFY(helper.count > 0); int oldCount = helper.count; QTest::qWait(TIMEOUT_TIMEOUT); QVERIFY(helper.count > oldCount); } void tst_QTimer::livelock_data() { QTest::addColumn("interval"); QTest::newRow("zero timer") << 0; QTest::newRow("non-zero timer") << 1; QTest::newRow("longer than sleep") << 20; } /*! * * DO NOT "FIX" THIS TEST! it is written like this for a reason, do * not *change it without first dicussing it with its maintainers. * */ class LiveLockTester : public QObject { public: LiveLockTester(int i) : interval(i), timeoutsForFirst(0), timeoutsForExtra(0), timeoutsForSecond(0), postEventAtRightTime(false) { firstTimerId = startTimer(interval); extraTimerId = startTimer(interval + 80); secondTimerId = -1; // started later } bool event(QEvent *e) { if (e->type() == 4002) { // got the posted event if (timeoutsForFirst == 1 && timeoutsForSecond == 0) postEventAtRightTime = true; return true; } return QObject::event(e); } void timerEvent(QTimerEvent *te) { if (te->timerId() == firstTimerId) { if (++timeoutsForFirst == 1) { killTimer(extraTimerId); extraTimerId = -1; QCoreApplication::postEvent(this, new QEvent(static_cast(4002))); secondTimerId = startTimer(interval); } } else if (te->timerId() == secondTimerId) { ++timeoutsForSecond; } else if (te->timerId() == extraTimerId) { ++timeoutsForExtra; } // sleep for 2ms QTest::qSleep(2); killTimer(te->timerId()); } const int interval; int firstTimerId; int secondTimerId; int extraTimerId; int timeoutsForFirst; int timeoutsForExtra; int timeoutsForSecond; bool postEventAtRightTime; }; void tst_QTimer::livelock() { /* New timers created in timer event handlers should not be sent until the next iteration of the eventloop. Note: this test depends on the fact that we send posted events before timer events (since new posted events are not sent until the next iteration of the eventloop either). */ QFETCH(int, interval); LiveLockTester tester(interval); QTest::qWait(180); // we have to use wait here, since we're testing timers with a non-zero timeout QCOMPARE(tester.timeoutsForFirst, 1); QCOMPARE(tester.timeoutsForExtra, 0); QCOMPARE(tester.timeoutsForSecond, 1); #if defined(Q_OS_WIN) && !defined(Q_OS_WINCE) if (QSysInfo::WindowsVersion < QSysInfo::WV_XP) QEXPECT_FAIL("non-zero timer", "Multimedia timers are not available on Windows 2000", Continue); #elif defined(Q_OS_WINCE) QEXPECT_FAIL("non-zero timer", "Windows CE devices often too slow", Continue); #endif QVERIFY(tester.postEventAtRightTime); } class TimerInfiniteRecursionObject : public QObject { public: bool inTimerEvent; bool timerEventRecursed; int interval; TimerInfiniteRecursionObject(int interval) : inTimerEvent(false), timerEventRecursed(false), interval(interval) { } void timerEvent(QTimerEvent *timerEvent) { timerEventRecursed = inTimerEvent; if (timerEventRecursed) { // bug detected! return; } inTimerEvent = true; QEventLoop eventLoop; QTimer::singleShot(qMax(100, interval * 2), &eventLoop, SLOT(quit())); eventLoop.exec(); inTimerEvent = false; killTimer(timerEvent->timerId()); } }; void tst_QTimer::timerInfiniteRecursion_data() { QTest::addColumn("interval"); QTest::newRow("zero timer") << 0; QTest::newRow("non-zero timer") << 1; QTest::newRow("10ms timer") << 10; QTest::newRow("11ms timer") << 11; QTest::newRow("100ms timer") << 100; QTest::newRow("1s timer") << 1000; } void tst_QTimer::timerInfiniteRecursion() { QFETCH(int, interval); TimerInfiniteRecursionObject object(interval); (void) object.startTimer(interval); QEventLoop eventLoop; QTimer::singleShot(qMax(100, interval * 2), &eventLoop, SLOT(quit())); eventLoop.exec(); QVERIFY(!object.timerEventRecursed); } class RecurringTimerObject : public QObject { Q_OBJECT public: int times; int target; bool recurse; RecurringTimerObject(int target) : times(0), target(target), recurse(false) { } void timerEvent(QTimerEvent *timerEvent) { if (++times == target) { killTimer(timerEvent->timerId()); emit done(); } if (recurse) { QEventLoop eventLoop; QTimer::singleShot(100, &eventLoop, SLOT(quit())); eventLoop.exec(); } } signals: void done(); }; void tst_QTimer::recurringTimer_data() { QTest::addColumn("interval"); QTest::newRow("zero timer") << 0; QTest::newRow("non-zero timer") << 1; } void tst_QTimer::recurringTimer() { const int target = 5; QFETCH(int, interval); { RecurringTimerObject object(target); QObject::connect(&object, SIGNAL(done()), &QTestEventLoop::instance(), SLOT(exitLoop())); (void) object.startTimer(interval); QTestEventLoop::instance().enterLoop(5); QCOMPARE(object.times, target); } { // make sure that eventloop recursion doesn't effect timer recurrance RecurringTimerObject object(target); object.recurse = true; QObject::connect(&object, SIGNAL(done()), &QTestEventLoop::instance(), SLOT(exitLoop())); (void) object.startTimer(interval); QTestEventLoop::instance().enterLoop(5); QCOMPARE(object.times, target); } } void tst_QTimer::deleteLaterOnQTimer() { QTimer *timer = new QTimer; connect(timer, SIGNAL(timeout()), timer, SLOT(deleteLater())); connect(timer, SIGNAL(destroyed()), &QTestEventLoop::instance(), SLOT(exitLoop())); timer->setInterval(1); timer->setSingleShot(true); timer->start(); QPointer pointer = timer; QTestEventLoop::instance().enterLoop(5); QVERIFY(pointer.isNull()); } #if defined(Q_OS_SYMBIAN) && defined(Q_CC_NOKIAX86) // Increase wait as emulator startup can cause unexpected delays #define MOVETOTHREAD_TIMEOUT 200 #define MOVETOTHREAD_WAIT 5000 #else #define MOVETOTHREAD_TIMEOUT 200 #define MOVETOTHREAD_WAIT 300 #endif void tst_QTimer::moveToThread() { QTimer ti1; QTimer ti2; ti1.start(MOVETOTHREAD_TIMEOUT); ti2.start(MOVETOTHREAD_TIMEOUT); QVERIFY((ti1.timerId() & 0xffffff) != (ti2.timerId() & 0xffffff)); QThread tr; ti1.moveToThread(&tr); connect(&ti1,SIGNAL(timeout()), &tr, SLOT(quit())); tr.start(); QTimer ti3; ti3.start(MOVETOTHREAD_TIMEOUT); QVERIFY((ti3.timerId() & 0xffffff) != (ti2.timerId() & 0xffffff)); QVERIFY((ti3.timerId() & 0xffffff) != (ti1.timerId() & 0xffffff)); QTest::qWait(MOVETOTHREAD_WAIT); QVERIFY(tr.wait()); ti2.stop(); QTimer ti4; ti4.start(MOVETOTHREAD_TIMEOUT); ti3.stop(); ti2.start(MOVETOTHREAD_TIMEOUT); ti3.start(MOVETOTHREAD_TIMEOUT); QVERIFY((ti4.timerId() & 0xffffff) != (ti2.timerId() & 0xffffff)); QVERIFY((ti3.timerId() & 0xffffff) != (ti2.timerId() & 0xffffff)); QVERIFY((ti3.timerId() & 0xffffff) != (ti1.timerId() & 0xffffff)); } class RestartedTimerFiresTooSoonObject : public QObject { Q_OBJECT public: QBasicTimer m_timer; int m_interval; QTime m_startedTime; QEventLoop eventLoop; inline RestartedTimerFiresTooSoonObject() : QObject(), m_interval(0) { } void timerFired() { static int interval = 1000; m_interval = interval; m_startedTime.start(); m_timer.start(interval, this); // alternate between single-shot and 1 sec interval = interval ? 0 : 1000; } void timerEvent(QTimerEvent* ev) { if (ev->timerId() != m_timer.timerId()) return; m_timer.stop(); QTime now = QTime::currentTime(); int elapsed = m_startedTime.elapsed(); if (elapsed < m_interval / 2) { // severely too early! m_timer.stop(); eventLoop.exit(-1); return; } timerFired(); // don't do this forever static int count = 0; if (count++ > 20) { m_timer.stop(); eventLoop.quit(); return; } } }; void tst_QTimer::restartedTimerFiresTooSoon() { RestartedTimerFiresTooSoonObject object; object.timerFired(); QVERIFY(object.eventLoop.exec() == 0); } class LongLastingSlotClass : public QObject { Q_OBJECT public: LongLastingSlotClass(QTimer *timer) : count(0), timer(timer) {} public slots: void longLastingSlot() { // Don't use timers for this, because we are testing them. QTime time; time.start(); while (time.elapsed() < 200) { for (int c = 0; c < 100000; c++) {} // Mindless looping. } if (++count >= 2) { timer->stop(); } } public: int count; QTimer *timer; }; void tst_QTimer::timerFiresOnlyOncePerProcessEvents_data() { QTest::addColumn("interval"); QTest::newRow("zero timer") << 0; QTest::newRow("non-zero timer") << 10; } void tst_QTimer::timerFiresOnlyOncePerProcessEvents() { QFETCH(int, interval); QTimer t; LongLastingSlotClass longSlot(&t); t.start(interval); connect(&t, SIGNAL(timeout()), &longSlot, SLOT(longLastingSlot())); // Loop because there may be other events pending. while (longSlot.count == 0) { QCoreApplication::processEvents(QEventLoop::WaitForMoreEvents); } QCOMPARE(longSlot.count, 1); } class TimerIdPersistsAfterThreadExitThread : public QThread { public: QTimer *timer; int timerId, returnValue; TimerIdPersistsAfterThreadExitThread() : QThread(), timer(0), timerId(-1), returnValue(-1) { } ~TimerIdPersistsAfterThreadExitThread() { delete timer; } void run() { QEventLoop eventLoop; timer = new QTimer; connect(timer, SIGNAL(timeout()), &eventLoop, SLOT(quit())); timer->start(100); timerId = timer->timerId(); returnValue = eventLoop.exec(); } }; void tst_QTimer::timerIdPersistsAfterThreadExit() { TimerIdPersistsAfterThreadExitThread thread; thread.start(); QVERIFY(thread.wait(30000)); QCOMPARE(thread.returnValue, 0); // even though the thread has exited, and the event dispatcher destroyed, the timer is still // "active", meaning the timer id should NOT be reused (i.e. the event dispatcher should not // have unregistered it) int timerId = thread.startTimer(100); QVERIFY((timerId & 0xffffff) != (thread.timerId & 0xffffff)); } void tst_QTimer::cancelLongTimer() { QTimer timer; timer.setSingleShot(true); timer.start(1000 * 60 * 60); //set timer for 1 hour (which would overflow Symbian RTimer) QCoreApplication::processEvents(); QVERIFY(timer.isActive()); //if the timer completes immediately with an error, then this will fail timer.stop(); QVERIFY(!timer.isActive()); } void tst_QTimer::singleShotStaticFunctionZeroTimeout() { TimerHelper helper; QTimer::singleShot(0, &helper, SLOT(timeout())); QTest::qWait(500); QCOMPARE(helper.count, 1); QTest::qWait(500); QCOMPARE(helper.count, 1); } class RecursOnTimeoutAndStopTimerTimer : public QObject { Q_OBJECT public: QTimer *one; QTimer *two; public slots: void onetrigger() { QCoreApplication::processEvents(); } void twotrigger() { one->stop(); } }; void tst_QTimer::recurseOnTimeoutAndStopTimer() { QEventLoop eventLoop; QTimer::singleShot(1000, &eventLoop, SLOT(quit())); RecursOnTimeoutAndStopTimerTimer t; t.one = new QTimer(&t); t.two = new QTimer(&t); QObject::connect(t.one, SIGNAL(timeout()), &t, SLOT(onetrigger())); QObject::connect(t.two, SIGNAL(timeout()), &t, SLOT(twotrigger())); t.two->setSingleShot(true); t.one->start(); t.two->start(); (void) eventLoop.exec(); QVERIFY(!t.one->isActive()); QVERIFY(!t.two->isActive()); } class DontBlockEvents : public QObject { Q_OBJECT public: DontBlockEvents(); void timerEvent(QTimerEvent*); int count; int total; QBasicTimer m_timer; public slots: void paintEvent(); }; DontBlockEvents::DontBlockEvents() { count = 0; total = 0; //QTBUG-13633 need few unrelated timer running to reproduce the bug. (new QTimer(this))->start(2000); (new QTimer(this))->start(2500); (new QTimer(this))->start(3000); (new QTimer(this))->start(5000); (new QTimer(this))->start(1000); (new QTimer(this))->start(2000); m_timer.start(1, this); } void DontBlockEvents::timerEvent(QTimerEvent* event) { if (event->timerId() == m_timer.timerId()) { QMetaObject::invokeMethod(this, "paintEvent", Qt::QueuedConnection); m_timer.start(0, this); count++; QCOMPARE(count, 1); total++; } } void DontBlockEvents::paintEvent() { count--; QCOMPARE(count, 0); } void tst_QTimer::QTBUG13633_dontBlockEvents() { DontBlockEvents t; QTest::qWait(60); QVERIFY(t.total > 2); } class SlotRepeater : public QObject { Q_OBJECT public: SlotRepeater() {} public slots: void repeatThisSlot() { QMetaObject::invokeMethod(this, "repeatThisSlot", Qt::QueuedConnection); } }; void tst_QTimer::postedEventsShouldNotStarveTimers() { TimerHelper timerHelper; QTimer timer; connect(&timer, SIGNAL(timeout()), &timerHelper, SLOT(timeout())); timer.setInterval(0); timer.setSingleShot(false); timer.start(); SlotRepeater slotRepeater; slotRepeater.repeatThisSlot(); QTest::qWait(100); QVERIFY(timerHelper.count > 5); } #ifdef Q_OS_SYMBIAN void tst_QTimer::handleLeaks() { const int timercount = 5; int processhandles_start; int threadhandles_start; RThread().HandleCount(processhandles_start, threadhandles_start); { TimerHelper timerHelper; QList timers; for (int i=0;isetSingleShot(true); timer->start(i); //test both zero and normal timeouts } int processhandles_mid; int threadhandles_mid; RThread().HandleCount(processhandles_mid, threadhandles_mid); qDebug() << threadhandles_mid - threadhandles_start << "new thread owned handles"; QTest::qWait(100); QCOMPARE(timerHelper.count, timercount); qDeleteAll(timers); } int processhandles_end; int threadhandles_end; RThread().HandleCount(processhandles_end, threadhandles_end); QCOMPARE(threadhandles_end, threadhandles_start); //RTimer::CreateLocal creates a thread owned handle //Can not verify process handles because QObject::connect may create up to 2 mutexes //from a QMutexPool (4 process owned handles with open C imp.) //QCOMPARE(processhandles_end, processhandles_start); } #endif QTEST_MAIN(tst_QTimer) #include "tst_qtimer.moc"