/**************************************************************************** ** ** Copyright (C) 2012 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 module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** 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. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU General ** Public License version 3.0 as published by the Free Software Foundation ** and appearing in the file LICENSE.GPL included in the packaging of this ** file. 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. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include "qstate.h" #include "qstatemachine.h" #include "qsignaltransition.h" // Will try to wait for the condition while allowing event processing #define QTRY_COMPARE(__expr, __expected) \ do { \ const int __step = 50; \ const int __timeout = 5000; \ if ((__expr) != (__expected)) { \ QTest::qWait(0); \ } \ for (int __i = 0; __i < __timeout && ((__expr) != (__expected)); __i+=__step) { \ QTest::qWait(__step); \ } \ QCOMPARE(__expr, __expected); \ } while(0) //TESTED_CLASS= //TESTED_FILES= class tst_QState : public QObject { Q_OBJECT public: tst_QState(); virtual ~tst_QState(); private slots: #if 0 void test(); #endif void assignProperty(); void assignPropertyTwice(); void historyInitialState(); void transitions(); private: bool functionCalled; }; tst_QState::tst_QState() : functionCalled(false) { } tst_QState::~tst_QState() { } #if 0 void tst_QState::test() { QStateMachine machine; QState *s1 = new QState(&machine); QCOMPARE(s1->machine(), &machine); QCOMPARE(s1->parentState(), &machine); QCOMPARE(s1->initialState(), (QState*)0); QVERIFY(s1->childStates().isEmpty()); QVERIFY(s1->transitions().isEmpty()); QCOMPARE(s1->isFinal(), false); s1->setFinal(true); QCOMPARE(s1->isFinal(), true); s1->setFinal(false); QCOMPARE(s1->isFinal(), false); QCOMPARE(s1->isParallel(), false); s1->setParallel(true); QCOMPARE(s1->isParallel(), true); s1->setParallel(false); QCOMPARE(s1->isParallel(), false); QCOMPARE(s1->isAtomic(), true); QCOMPARE(s1->isCompound(), false); QCOMPARE(s1->isComplex(), false); QState *s11 = new QState(s1); QCOMPARE(s11->parentState(), s1); QCOMPARE(s11->isAtomic(), true); QCOMPARE(s11->isCompound(), false); QCOMPARE(s11->isComplex(), false); QCOMPARE(s11->machine(), s1->machine()); QVERIFY(s11->isDescendantOf(s1)); QCOMPARE(s1->initialState(), (QState*)0); QCOMPARE(s1->childStates().size(), 1); QCOMPARE(s1->childStates().at(0), s11); QCOMPARE(s1->isAtomic(), false); QCOMPARE(s1->isCompound(), true); QCOMPARE(s1->isComplex(), true); s1->setParallel(true); QCOMPARE(s1->isAtomic(), false); QCOMPARE(s1->isCompound(), false); QCOMPARE(s1->isComplex(), true); QState *s12 = new QState(s1); QCOMPARE(s12->parentState(), s1); QCOMPARE(s12->isAtomic(), true); QCOMPARE(s12->isCompound(), false); QCOMPARE(s12->isComplex(), false); QCOMPARE(s12->machine(), s1->machine()); QVERIFY(s12->isDescendantOf(s1)); QVERIFY(!s12->isDescendantOf(s11)); QCOMPARE(s1->initialState(), (QState*)0); QCOMPARE(s1->childStates().size(), 2); QCOMPARE(s1->childStates().at(0), s11); QCOMPARE(s1->childStates().at(1), s12); QCOMPARE(s1->isAtomic(), false); QCOMPARE(s1->isCompound(), false); QCOMPARE(s1->isComplex(), true); s1->setParallel(false); QCOMPARE(s1->isAtomic(), false); QCOMPARE(s1->isCompound(), true); QCOMPARE(s1->isComplex(), true); s1->setInitialState(s11); QCOMPARE(s1->initialState(), s11); s1->setInitialState(0); QCOMPARE(s1->initialState(), (QState*)0); s1->setInitialState(s12); QCOMPARE(s1->initialState(), s12); QState *s13 = new QState(); s1->setInitialState(s13); QCOMPARE(s13->parentState(), s1); QCOMPARE(s1->childStates().size(), 3); QCOMPARE(s1->childStates().at(0), s11); QCOMPARE(s1->childStates().at(1), s12); QCOMPARE(s1->childStates().at(2), s13); QVERIFY(s13->isDescendantOf(s1)); QVERIFY(s12->childStates().isEmpty()); QState *s121 = new QState(s12); QCOMPARE(s121->parentState(), s12); QCOMPARE(s121->isAtomic(), true); QCOMPARE(s121->isCompound(), false); QCOMPARE(s121->isComplex(), false); QCOMPARE(s121->machine(), s12->machine()); QVERIFY(s121->isDescendantOf(s12)); QVERIFY(s121->isDescendantOf(s1)); QVERIFY(!s121->isDescendantOf(s11)); QCOMPARE(s12->childStates().size(), 1); QCOMPARE(s12->childStates().at(0), (QState*)s121); QCOMPARE(s1->childStates().size(), 3); QCOMPARE(s1->childStates().at(0), s11); QCOMPARE(s1->childStates().at(1), s12); QCOMPARE(s1->childStates().at(2), s13); s11->addTransition(s12); QCOMPARE(s11->transitions().size(), 1); QCOMPARE(s11->transitions().at(0)->sourceState(), s11); QCOMPARE(s11->transitions().at(0)->targetStates().size(), 1); QCOMPARE(s11->transitions().at(0)->targetStates().at(0), s12); QCOMPARE(s11->transitions().at(0)->eventType(), QEvent::None); QState *s14 = new QState(); s12->addTransition(QList() << s13 << s14); QCOMPARE(s12->transitions().size(), 1); QCOMPARE(s12->transitions().at(0)->sourceState(), s12); QCOMPARE(s12->transitions().at(0)->targetStates().size(), 2); QCOMPARE(s12->transitions().at(0)->targetStates().at(0), s13); QCOMPARE(s12->transitions().at(0)->targetStates().at(1), s14); QCOMPARE(s12->transitions().at(0)->eventType(), QEvent::None); s13->addTransition(this, SIGNAL(destroyed()), s14); QCOMPARE(s13->transitions().size(), 1); QCOMPARE(s13->transitions().at(0)->sourceState(), s13); QCOMPARE(s13->transitions().at(0)->targetStates().size(), 1); QCOMPARE(s13->transitions().at(0)->targetStates().at(0), s14); QCOMPARE(s13->transitions().at(0)->eventType(), QEvent::Signal); QVERIFY(qobject_cast(s13->transitions().at(0)) != 0); delete s13->transitions().at(0); QCOMPARE(s13->transitions().size(), 0); s12->addTransition(this, SIGNAL(destroyed()), s11); QCOMPARE(s12->transitions().size(), 2); } #endif class TestClass: public QObject { Q_OBJECT public: TestClass() : called(false) {} bool called; public slots: void slot() { called = true; } }; void tst_QState::assignProperty() { QStateMachine machine; QObject *object = new QObject(); object->setProperty("fooBar", 10); QState *s1 = new QState(&machine); s1->assignProperty(object, "fooBar", 20); machine.setInitialState(s1); machine.start(); QCoreApplication::processEvents(); QCOMPARE(object->property("fooBar").toInt(), 20); } void tst_QState::assignPropertyTwice() { QStateMachine machine; QObject *object = new QObject(); object->setProperty("fooBar", 10); QState *s1 = new QState(&machine); s1->assignProperty(object, "fooBar", 20); s1->assignProperty(object, "fooBar", 30); machine.setInitialState(s1); machine.start(); QCoreApplication::processEvents(); QCOMPARE(object->property("fooBar").toInt(), 30); } class EventTestTransition: public QAbstractTransition { public: EventTestTransition(QEvent::Type type, QState *targetState) : QAbstractTransition(), m_type(type) { setTargetState(targetState); } protected: bool eventTest(QEvent *e) { return e->type() == m_type; } void onTransition(QEvent *) {} private: QEvent::Type m_type; }; void tst_QState::historyInitialState() { QStateMachine machine; QState *s1 = new QState(&machine); QState *s2 = new QState(&machine); QHistoryState *h1 = new QHistoryState(s2); s2->setInitialState(h1); QState *s3 = new QState(s2); h1->setDefaultState(s3); QState *s4 = new QState(s2); s1->addTransition(new EventTestTransition(QEvent::User, s2)); s2->addTransition(new EventTestTransition(QEvent::User, s1)); s3->addTransition(new EventTestTransition(QEvent::Type(QEvent::User+1), s4)); machine.setInitialState(s1); machine.start(); QCoreApplication::processEvents(); QCOMPARE(machine.configuration().size(), 1); QVERIFY(machine.configuration().contains(s1)); machine.postEvent(new QEvent(QEvent::User)); QCoreApplication::processEvents(); QCOMPARE(machine.configuration().size(), 2); QVERIFY(machine.configuration().contains(s2)); QVERIFY(machine.configuration().contains(s3)); machine.postEvent(new QEvent(QEvent::User)); QCoreApplication::processEvents(); QCOMPARE(machine.configuration().size(), 1); QVERIFY(machine.configuration().contains(s1)); machine.postEvent(new QEvent(QEvent::User)); QCoreApplication::processEvents(); QCOMPARE(machine.configuration().size(), 2); QVERIFY(machine.configuration().contains(s2)); QVERIFY(machine.configuration().contains(s3)); machine.postEvent(new QEvent(QEvent::Type(QEvent::User+1))); QCoreApplication::processEvents(); QCOMPARE(machine.configuration().size(), 2); QVERIFY(machine.configuration().contains(s2)); QVERIFY(machine.configuration().contains(s4)); machine.postEvent(new QEvent(QEvent::User)); QCoreApplication::processEvents(); QCOMPARE(machine.configuration().size(), 1); QVERIFY(machine.configuration().contains(s1)); machine.postEvent(new QEvent(QEvent::User)); QCoreApplication::processEvents(); QCOMPARE(machine.configuration().size(), 2); QVERIFY(machine.configuration().contains(s2)); QVERIFY(machine.configuration().contains(s4)); } void tst_QState::transitions() { QState s1; QState s2; QVERIFY(s1.transitions().isEmpty()); QAbstractTransition *t1 = s1.addTransition(this, SIGNAL(destroyed()), &s2); QVERIFY(t1 != 0); QCOMPARE(s1.transitions().count(), 1); QCOMPARE(s1.transitions().first(), t1); QVERIFY(s2.transitions().isEmpty()); s1.removeTransition(t1); QVERIFY(s1.transitions().isEmpty()); s1.addTransition(t1); QCOMPARE(s1.transitions().count(), 1); QCOMPARE(s1.transitions().first(), t1); QAbstractTransition *t2 = new QEventTransition(&s1); QCOMPARE(s1.transitions().count(), 2); QVERIFY(s1.transitions().contains(t1)); QVERIFY(s1.transitions().contains(t2)); // Transitions from child states should not be reported. QState *s21 = new QState(&s2); QAbstractTransition *t3 = s21->addTransition(this, SIGNAL(destroyed()), &s2); QVERIFY(s2.transitions().isEmpty()); QCOMPARE(s21->transitions().count(), 1); QCOMPARE(s21->transitions().first(), t3); } QTEST_MAIN(tst_QState) #include "tst_qstate.moc"