/**************************************************************************** ** ** Copyright (C) 2010 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 #include #include #include "../qfuture/versioncheck.h" #ifndef QT_NO_CONCURRENT_TEST using namespace QtConcurrent; class TestRunFunction: public QObject { Q_OBJECT private slots: void runLightFunction(); void runHeavyFunction(); void returnValue(); void functionObject(); void memberFunctions(); void implicitConvertibleTypes(); void runWaitLoop(); void recursive(); #if 0 void createFunctor(); #endif }; #if 0 # define F(X) createFunctor(X) #else # define F(X) X #endif QTEST_MAIN(TestRunFunction) void light() { qDebug("in function"); qDebug("done function"); } void heavy() { qDebug("in function"); QString str; for (int i = 0; i < 1000000; ++i) str.append("a"); qDebug("done function"); } void TestRunFunction::runLightFunction() { qDebug("starting function"); QFuture future = run(F(light)); qDebug("waiting"); future.waitForFinished(); qDebug("done"); } void TestRunFunction::runHeavyFunction() { qDebug("starting function"); QFuture future = run(F(heavy)); qDebug("waiting"); future.waitForFinished(); qDebug("done"); } int returnInt0() { return 10; } int returnInt1(int i) { return i; } class A { public: int member0() { return 10; } int member1(int in) { return in; } typedef int result_type; int operator()() { return 10; } int operator()(int in) { return in; } }; class AConst { public: int member0() const { return 10; } int member1(int in) const { return in; } typedef int result_type; int operator()() const { return 10; } int operator()(int in) const { return in; } }; void TestRunFunction::returnValue() { QFuture f; f = run(F(returnInt0)); QCOMPARE(f.result(), 10); A a; f = run(&a, F(&A::member0)); QCOMPARE(f.result(), 10); f = run(&a, F(&A::member1), 20); QCOMPARE(f.result(), 20); f = run(a, F(&A::member0)); QCOMPARE(f.result(), 10); f = run(a, F(&A::member1), 20); QCOMPARE(f.result(), 20); f = run(a); QCOMPARE(f.result(), 10); f = run(&a); QCOMPARE(f.result(), 10); f = run(a, 20); QCOMPARE(f.result(), 20); f = run(&a, 20); QCOMPARE(f.result(), 20); const AConst aConst = AConst(); f = run(&aConst, &AConst::member0); QCOMPARE(f.result(), 10); f = run(&aConst, F(&AConst::member1), 20); QCOMPARE(f.result(), 20); f = run(aConst, F(&AConst::member0)); QCOMPARE(f.result(), 10); f = run(aConst, F(&AConst::member1), 20); QCOMPARE(f.result(), 20); f = run(aConst); QCOMPARE(f.result(), 10); f = run(&aConst); QCOMPARE(f.result(), 10); f = run(aConst, 20); QCOMPARE(f.result(), 20); f = run(&aConst, 20); QCOMPARE(f.result(), 20); } struct TestClass { void foo() { } typedef void result_type; void operator()() { } void operator()(int) { } void fooInt(int){ }; }; struct TestConstClass { void foo() const { } typedef void result_type; void operator()() const { } void operator()(int) const { } void fooInt(int) const { }; }; void TestRunFunction::functionObject() { QFuture f; TestClass c; f = run(c); f = run(F(&c)); f = run(c, 10); f = run(F(&c), 10); const TestConstClass cc = TestConstClass(); f = run(cc); f = run(F(&cc)); f = run(cc, 10); f = run(F(&cc), 10); } void TestRunFunction::memberFunctions() { TestClass c; run(c, F(&TestClass::foo)).waitForFinished(); run(&c, F(&TestClass::foo)).waitForFinished(); run(c, F(&TestClass::fooInt), 10).waitForFinished(); run(&c, F(&TestClass::fooInt), 10).waitForFinished(); const TestConstClass cc = TestConstClass(); run(cc, F(&TestConstClass::foo)).waitForFinished(); run(&cc, F(&TestConstClass::foo)).waitForFinished(); run(cc, F(&TestConstClass::fooInt), 10).waitForFinished(); run(&cc, F(&TestConstClass::fooInt), 10).waitForFinished(); } void doubleFunction(double) { } void stringConstRefFunction(const QString &) { } void stringRefFunction(QString &) { } void stringFunction(QString) { } void stringIntFunction(QString) { } void TestRunFunction::implicitConvertibleTypes() { double d; run(F(doubleFunction), d).waitForFinished(); int i; run(F(doubleFunction), d).waitForFinished(); run(F(doubleFunction), i).waitForFinished(); run(F(doubleFunction), 10).waitForFinished(); run(F(stringFunction), QLatin1String("Foo")).waitForFinished(); run(F(stringConstRefFunction), QLatin1String("Foo")).waitForFinished(); QString string; run(F(stringRefFunction), string).waitForFinished(); } void fn() { } void TestRunFunction::runWaitLoop() { for (int i = 0; i < 1000; ++i) run(fn).waitForFinished(); } QAtomicInt count; void recursiveRun(int level) { count.ref(); if (--level > 0) { QFuture f1 = run(recursiveRun, level); QFuture f2 = run(recursiveRun, level); f1.waitForFinished(); f2.waitForFinished(); } } int recursiveResult(int level) { count.ref(); if (--level > 0) { QFuture f1 = run(recursiveResult, level); QFuture f2 = run(recursiveResult, level); return f1.result() + f2.result(); } return 1; } void TestRunFunction::recursive() { int levels = 15; for (int i = 0; i < QThread::idealThreadCount(); ++i) { count = 0; QThreadPool::globalInstance()->setMaxThreadCount(i); recursiveRun(levels); QCOMPARE((int)count, (int)pow(2.0, levels) - 1); } for (int i = 0; i < QThread::idealThreadCount(); ++i) { count = 0; QThreadPool::globalInstance()->setMaxThreadCount(i); recursiveResult(levels); QCOMPARE((int)count, (int)pow(2.0, levels) - 1); } } int e; void vfn0() { ++e; } int fn0() { return 1; } void vfn1(double) { ++e; } int fn1(int) { return 1; } void vfn2(double, int *) { ++e; } int fn2(double, int *) { return 1; } #if 0 void TestRunFunction::createFunctor() { e = 0; ::QtConcurrent::createFunctor(vfn0)(); e += QtConcurrent::createFunctor(fn0)(); ::QtConcurrent::createFunctor(vfn1)(1); // implicit conversions should work e += QtConcurrent::createFunctor(fn1)(2); ::QtConcurrent::createFunctor(vfn2)(1.0, &e); e += QtConcurrent::createFunctor(fn2)(2, &e); QCOMPARE(e, 6); e = 0; TestClass c; // ::QtConcurrent::createFunctor(c, &TestClass::foo)(); ::QtConcurrent::createFunctor(&c, &TestClass::foo)(); // ::QtConcurrent::createFunctor(c, &TestClass::fooInt)(10); ::QtConcurrent::createFunctor(&c, &TestClass::fooInt)(10); const TestConstClass cc = TestConstClass(); /* ::QtConcurrent::createFunctor(cc, &TestConstClass::foo)(); ::QtConcurrent::createFunctor(&cc, &TestConstClass::foo)(); ::QtConcurrent::createFunctor(cc, &TestConstClass::fooInt(10); ::QtConcurrent::createFunctor(&cc, &TestConstClass::fooInt)(10); */ qDebug() << e; } #endif #include "tst_qtconcurrentrun.moc" #else QTEST_NOOP_MAIN #endif