// Copyright (C) 2016 The Qt Company Ltd. // SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only #include #include #include #include #include #include #include "qthreadonce.h" #include class tst_QThreadOnce : public QObject { Q_OBJECT private slots: void initTestCase(); void sameThread(); void sameThread_data(); void multipleThreads(); void nesting(); void reentering(); #ifndef QT_NO_EXCEPTIONS void exception(); #endif }; void tst_QThreadOnce::initTestCase() { if (QTestPrivate::isRunningArmOnX86()) QSKIP("Flaky on QEMU, QTBUG-94737"); } class SingletonObject: public QObject { Q_OBJECT public: static int runCount; SingletonObject() { val.storeRelaxed(42); ++runCount; } ~SingletonObject() { } QBasicAtomicInt val; }; class IncrementThread: public QThread { public: static QBasicAtomicInt runCount; static QSingleton singleton; QSemaphore &sem1, &sem2; int &var; IncrementThread(QSemaphore *psem1, QSemaphore *psem2, int *pvar, QObject *parent) : QThread(parent), sem1(*psem1), sem2(*psem2), var(*pvar) { start(); } ~IncrementThread() { wait(); } protected: void run() override { sem2.release(); sem1.acquire(); // synchronize Q_ONCE { ++var; } runCount.ref(); singleton->val.ref(); } }; int SingletonObject::runCount = 0; QBasicAtomicInt IncrementThread::runCount = Q_BASIC_ATOMIC_INITIALIZER(0); QSingleton IncrementThread::singleton; void tst_QThreadOnce::sameThread_data() { SingletonObject::runCount = 0; QTest::addColumn("expectedValue"); QTest::newRow("first") << 42; QTest::newRow("second") << 43; } void tst_QThreadOnce::sameThread() { static int controlVariable = 0; Q_ONCE { QCOMPARE(controlVariable, 0); ++controlVariable; } QCOMPARE(controlVariable, 1); static QSingleton s; QTEST(int(s->val.loadRelaxed()), "expectedValue"); s->val.ref(); QCOMPARE(SingletonObject::runCount, 1); } void tst_QThreadOnce::multipleThreads() { #if defined(Q_OS_VXWORKS) const int NumberOfThreads = 20; #else const int NumberOfThreads = 100; #endif int controlVariable = 0; QSemaphore sem1, sem2(NumberOfThreads); QObject *parent = new QObject; for (int i = 0; i < NumberOfThreads; ++i) new IncrementThread(&sem1, &sem2, &controlVariable, parent); QCOMPARE(controlVariable, 0); // nothing must have set them yet SingletonObject::runCount = 0; IncrementThread::runCount.storeRelaxed(0); // wait for all of them to be ready sem2.acquire(NumberOfThreads); // unleash the threads sem1.release(NumberOfThreads); // wait for all of them to terminate: delete parent; QCOMPARE(controlVariable, 1); QCOMPARE(int(IncrementThread::runCount.loadRelaxed()), NumberOfThreads); QCOMPARE(SingletonObject::runCount, 1); } void tst_QThreadOnce::nesting() { int variable = 0; Q_ONCE { Q_ONCE { ++variable; } } QCOMPARE(variable, 1); } static void reentrant(int control, int &counter) { Q_ONCE { if (counter) reentrant(--control, counter); ++counter; } static QSingleton s; s->val.ref(); } void tst_QThreadOnce::reentering() { const int WantedRecursions = 5; int count = 0; SingletonObject::runCount = 0; reentrant(WantedRecursions, count); // reentrancy is undefined behavior: QVERIFY(count == 1 || count == WantedRecursions); QCOMPARE(SingletonObject::runCount, 1); } #if !defined(QT_NO_EXCEPTIONS) static void exception_helper(int &val) { Q_ONCE { if (val++ == 0) throw 0; } } #endif #ifndef QT_NO_EXCEPTIONS void tst_QThreadOnce::exception() { int count = 0; try { exception_helper(count); } catch (...) { // nothing } QCOMPARE(count, 1); try { exception_helper(count); } catch (...) { QVERIFY2(false, "Exception shouldn't have been thrown..."); } QCOMPARE(count, 2); } #endif QTEST_MAIN(tst_QThreadOnce) #include "tst_qthreadonce.moc"