/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Qt Software Information (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 either Technology Preview License Agreement or the ** Beta Release License Agreement. ** ** 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 1.0, 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. ** ** If you are unsure which license is appropriate for your use, please ** contact the sales department at qt-sales@nokia.com. ** $QT_END_LICENSE$ ** ****************************************************************************/ #define QT3_SUPPORT #include #include #include #include #include #include #include #include #include #include #include #include #include #include "qobject.h" #include //TESTED_CLASS= //TESTED_FILES= class tst_QObject : public QObject { Q_OBJECT public: tst_QObject(); virtual ~tst_QObject(); public slots: void initTestCase(); void cleanupTestCase(); void init(); void cleanup(); private slots: void disconnect(); void connectByName(); void connectSignalsToSignalsWithDefaultArguments(); void receivers(); void normalize(); void qobject_castTemplate(); void findChildren(); void connectDisconnectNotify_data(); void connectDisconnectNotify(); void emitInDefinedOrder(); void customTypes(); void streamCustomTypes(); void metamethod(); void namespaces(); void threadSignalEmissionCrash(); void thread(); void thread0(); void moveToThread(); void sender(); void declareInterface(); void qpointerResetBeforeDestroyedSignal(); void testUserData(); void childDeletesItsSibling(); void dynamicProperties(); void floatProperty(); void property(); void recursiveSignalEmission(); void blockingQueuedConnection(); void compatibilityChildInsertedEvents(); void installEventFilter(); void deleteSelfInSlot(); void disconnectSelfInSlotAndDeleteAfterEmit(); void dumpObjectInfo(); void connectToSender(); void qobjectConstCast(); protected: }; tst_QObject::tst_QObject() { } tst_QObject::~tst_QObject() { } void tst_QObject::initTestCase() { } void tst_QObject::cleanupTestCase() { } void tst_QObject::init() { } void tst_QObject::cleanup() { } class SenderObject : public QObject { Q_OBJECT public: SenderObject() : recursionCount(0) {} void emitSignal1AfterRecursion() { if (recursionCount++ < 100) emitSignal1AfterRecursion(); else emitSignal1(); } void emitSignal1() { emit signal1(); } void emitSignal2() { emit signal2(); } void emitSignal3() { emit signal3(); } void emitSignal4() { emit signal4(); } signals: void signal1(); void signal2(); void signal3(); void signal4(); QT_MOC_COMPAT void signal5(); public slots: void aPublicSlot(){} public: Q_INVOKABLE void invoke1(){} Q_SCRIPTABLE void sinvoke1(){} protected: Q_INVOKABLE QT_MOC_COMPAT void invoke2(){} Q_INVOKABLE QT_MOC_COMPAT void invoke2(int){} Q_SCRIPTABLE QT_MOC_COMPAT void sinvoke2(){} private: Q_INVOKABLE void invoke3(int hinz = 0, int kunz = 0){Q_UNUSED(hinz) Q_UNUSED(kunz)} Q_SCRIPTABLE void sinvoke3(){} int recursionCount; }; class ReceiverObject : public QObject { Q_OBJECT public: ReceiverObject() : sequence_slot1( 0 ), sequence_slot2( 0 ), sequence_slot3( 0 ), sequence_slot4( 0 ) {} void reset() { sequence_slot4 = 0; sequence_slot3 = 0; sequence_slot2 = 0; sequence_slot1 = 0; } int sequence_slot1; int sequence_slot2; int sequence_slot3; int sequence_slot4; bool called(int slot) { switch (slot) { case 1: return sequence_slot1; case 2: return sequence_slot2; case 3: return sequence_slot3; case 4: return sequence_slot4; default: return false; } } static int sequence; public slots: void slot1() { sequence_slot1 = ++sequence; } void slot2() { sequence_slot2 = ++sequence; } void slot3() { sequence_slot3 = ++sequence; } void slot4() { sequence_slot4 = ++sequence; } }; int ReceiverObject::sequence = 0; void tst_QObject::disconnect() { SenderObject *s = new SenderObject; ReceiverObject *r1 = new ReceiverObject; ReceiverObject *r2 = new ReceiverObject; connect( s, SIGNAL( signal1() ), r1, SLOT( slot1() ) ); connect( s, SIGNAL( signal2() ), r1, SLOT( slot2() ) ); connect( s, SIGNAL( signal3() ), r1, SLOT( slot3() ) ); connect( s, SIGNAL( signal4() ), r1, SLOT( slot4() ) ); s->emitSignal1(); s->emitSignal2(); s->emitSignal3(); s->emitSignal4(); QCOMPARE( r1->called(1), TRUE ); QCOMPARE( r1->called(2), TRUE ); QCOMPARE( r1->called(3), TRUE ); QCOMPARE( r1->called(4), TRUE ); r1->reset(); // usual disconnect with all parameters given bool ret = QObject::disconnect( s, SIGNAL( signal1() ), r1, SLOT( slot1() ) ); s->emitSignal1(); QCOMPARE( r1->called(1), FALSE ); r1->reset(); QCOMPARE( ret, TRUE ); ret = QObject::disconnect( s, SIGNAL( signal1() ), r1, SLOT( slot1() ) ); QCOMPARE( ret, FALSE ); // disconnect all signals from s from all slots from r1 QObject::disconnect( s, 0, r1, 0 ); s->emitSignal2(); s->emitSignal3(); s->emitSignal4(); QCOMPARE( r1->called(2), FALSE ); QCOMPARE( r1->called(3), FALSE ); QCOMPARE( r1->called(4), FALSE ); r1->reset(); connect( s, SIGNAL( signal1() ), r1, SLOT( slot1() ) ); connect( s, SIGNAL( signal1() ), r1, SLOT( slot2() ) ); connect( s, SIGNAL( signal1() ), r1, SLOT( slot3() ) ); connect( s, SIGNAL( signal2() ), r1, SLOT( slot4() ) ); // disconnect s's signal1() from all slots of r1 QObject::disconnect( s, SIGNAL( signal1() ), r1, 0 ); s->emitSignal1(); s->emitSignal2(); QCOMPARE( r1->called(1), FALSE ); QCOMPARE( r1->called(2), FALSE ); QCOMPARE( r1->called(3), FALSE ); QCOMPARE( r1->called(4), TRUE ); r1->reset(); // make sure all is disconnected again QObject::disconnect( s, 0, r1, 0 ); connect( s, SIGNAL( signal1() ), r1, SLOT( slot1() ) ); connect( s, SIGNAL( signal1() ), r2, SLOT( slot1() ) ); connect( s, SIGNAL( signal2() ), r1, SLOT( slot2() ) ); connect( s, SIGNAL( signal2() ), r2, SLOT( slot2() ) ); connect( s, SIGNAL( signal3() ), r1, SLOT( slot3() ) ); connect( s, SIGNAL( signal3() ), r2, SLOT( slot3() ) ); // disconnect signal1() from all receivers QObject::disconnect( s, SIGNAL( signal1() ), 0, 0 ); s->emitSignal1(); s->emitSignal2(); s->emitSignal3(); QCOMPARE( r1->called(1), FALSE ); QCOMPARE( r2->called(1), FALSE ); QCOMPARE( r1->called(2), TRUE ); QCOMPARE( r2->called(2), TRUE ); QCOMPARE( r1->called(2), TRUE ); QCOMPARE( r2->called(2), TRUE ); r1->reset(); r2->reset(); // disconnect all signals of s from all receivers QObject::disconnect( s, 0, 0, 0 ); QCOMPARE( r1->called(2), FALSE ); QCOMPARE( r2->called(2), FALSE ); QCOMPARE( r1->called(2), FALSE ); QCOMPARE( r2->called(2), FALSE ); delete r2; delete r1; delete s; } class AutoConnectSender : public QObject { Q_OBJECT public: AutoConnectSender(QObject *parent) : QObject(parent) {} void emitSignalNoParams() { emit signalNoParams(); } void emitSignalWithParams(int i) { emit signalWithParams(i); } void emitSignalWithParams(int i, QString string) { emit signalWithParams(i, string); } void emitSignalManyParams(int i1, int i2, int i3, QString string, bool onoff) { emit signalManyParams(i1, i2, i3, string, onoff); } void emitSignalManyParams2(int i1, int i2, int i3, QString string, bool onoff) { emit signalManyParams2(i1, i2, i3, string, onoff); } void emitSignalLoopBack() { emit signalLoopBack(); } signals: void signalNoParams(); void signalWithParams(int i); void signalWithParams(int i, QString string); void signalManyParams(int i1, int i2, int i3, QString string, bool onoff); void signalManyParams(int i1, int i2, int i3, QString string, bool onoff, bool); void signalManyParams2(int i1, int i2, int i3, QString string, bool onoff); void signalLoopBack(); }; class AutoConnectReceiver : public QObject { Q_OBJECT public: AutoConnectReceiver() { reset(); connect(this, SIGNAL(on_Sender_signalLoopBack()), this, SLOT(slotLoopBack())); } void reset() { called_slot8 = 0; called_slot7 = 0; called_slot6 = 0; called_slot5 = 0; called_slot4 = 0; called_slot3 = 0; called_slot2 = 0; called_slot1 = 0; } int called_slot1; int called_slot2; int called_slot3; int called_slot4; int called_slot5; int called_slot6; int called_slot7; int called_slot8; bool called(int slot) { switch (slot) { case 1: return called_slot1; case 2: return called_slot2; case 3: return called_slot3; case 4: return called_slot4; case 5: return called_slot5; case 6: return called_slot6; case 7: return called_slot7; case 8: return called_slot8; default: return false; } } public slots: void on_Sender_signalNoParams() { ++called_slot1; } void on_Sender_signalWithParams(int i = 0) { ++called_slot2; } void on_Sender_signalWithParams(int i, QString string) { ++called_slot3; } void on_Sender_signalManyParams() { ++called_slot4; } void on_Sender_signalManyParams(int i1, int i2, int i3, QString string, bool onoff) { ++called_slot5; } void on_Sender_signalManyParams(int i1, int i2, int i3, QString string, bool onoff, bool dummy) { ++called_slot6; } void on_Sender_signalManyParams2(int i1, int i2, int i3, QString string, bool onoff) { ++called_slot7; } void slotLoopBack() { ++called_slot8; } protected slots: void o() { Q_ASSERT(0); } void on() { Q_ASSERT(0); } signals: void on_Sender_signalLoopBack(); }; void tst_QObject::connectByName() { AutoConnectReceiver receiver; AutoConnectSender sender(&receiver); sender.setObjectName("Sender"); QMetaObject::connectSlotsByName(&receiver); sender.emitSignalNoParams(); QCOMPARE(receiver.called(1), true); QCOMPARE(receiver.called(2), false); QCOMPARE(receiver.called(3), false); QCOMPARE(receiver.called(4), false); QCOMPARE(receiver.called(5), false); QCOMPARE(receiver.called(6), false); QCOMPARE(receiver.called(7), false); QCOMPARE(receiver.called(8), false); receiver.reset(); sender.emitSignalWithParams(0); QCOMPARE(receiver.called(1), false); QCOMPARE(receiver.called(2), true); QCOMPARE(receiver.called(3), false); QCOMPARE(receiver.called(4), false); QCOMPARE(receiver.called(5), false); QCOMPARE(receiver.called(6), false); QCOMPARE(receiver.called(7), false); QCOMPARE(receiver.called(8), false); receiver.reset(); sender.emitSignalWithParams(0, "string"); QCOMPARE(receiver.called(1), false); QCOMPARE(receiver.called(2), false); QCOMPARE(receiver.called(3), true); QCOMPARE(receiver.called(4), false); QCOMPARE(receiver.called(5), false); QCOMPARE(receiver.called(6), false); QCOMPARE(receiver.called(7), false); QCOMPARE(receiver.called(8), false); receiver.reset(); sender.emitSignalManyParams(1, 2, 3, "string", true); QCOMPARE(receiver.called(1), false); QCOMPARE(receiver.called(2), false); QCOMPARE(receiver.called(3), false); QCOMPARE(receiver.called(4), true); QCOMPARE(receiver.called(5), true); QCOMPARE(receiver.called(6), false); QCOMPARE(receiver.called(7), false); QCOMPARE(receiver.called(8), false); receiver.reset(); sender.emitSignalManyParams2(1, 2, 3, "string", true); QCOMPARE(receiver.called(1), false); QCOMPARE(receiver.called(2), false); QCOMPARE(receiver.called(3), false); QCOMPARE(receiver.called(4), false); QCOMPARE(receiver.called(5), false); QCOMPARE(receiver.called(6), false); QCOMPARE(receiver.called(7), true); QCOMPARE(receiver.called(8), false); receiver.reset(); sender.emitSignalLoopBack(); QCOMPARE(receiver.called(1), false); QCOMPARE(receiver.called(2), false); QCOMPARE(receiver.called(3), false); QCOMPARE(receiver.called(4), false); QCOMPARE(receiver.called(5), false); QCOMPARE(receiver.called(6), false); QCOMPARE(receiver.called(7), false); QCOMPARE(receiver.called(8), true); receiver.reset(); } void tst_QObject::qobject_castTemplate() { QObject *o = 0; QVERIFY( !::qobject_cast(o) ); o = new SenderObject; QVERIFY( ::qobject_cast(o) ); QVERIFY( ::qobject_cast(o) ); QVERIFY( !::qobject_cast(o) ); delete o; } void tst_QObject::findChildren() { QObject o; QObject o1(&o); QObject o2(&o); QObject o11(&o1); QObject o12(&o1); QObject o111(&o11); QObject unnamed(&o); QTimer t1(&o); QTimer t121(&o12); QTimer emptyname(&o); o.setObjectName("o"); o1.setObjectName("o1"); o2.setObjectName("o2"); o11.setObjectName("o11"); o12.setObjectName("o12"); o111.setObjectName("o111"); t1.setObjectName("t1"); t121.setObjectName("t121"); emptyname.setObjectName(""); QObject *op = 0; op = qFindChild(&o, "o1"); QCOMPARE(op, &o1); op = qFindChild(&o, "o2"); QCOMPARE(op, &o2); op = qFindChild(&o, "o11"); QCOMPARE(op, &o11); op = qFindChild(&o, "o12"); QCOMPARE(op, &o12); op = qFindChild(&o, "o111"); QCOMPARE(op, &o111); op = qFindChild(&o, "t1"); QCOMPARE(op, static_cast(&t1)); op = qFindChild(&o, "t121"); QCOMPARE(op, static_cast(&t121)); op = qFindChild(&o, "t1"); QCOMPARE(op, static_cast(&t1)); op = qFindChild(&o, "t121"); QCOMPARE(op, static_cast(&t121)); op = qFindChild(&o, "o12"); QCOMPARE(op, static_cast(0)); op = qFindChild(&o, "o"); QCOMPARE(op, static_cast(0)); op = qFindChild(&o, "harry"); QCOMPARE(op, static_cast(0)); op = qFindChild(&o, "o1"); QCOMPARE(op, &o1); QList l; QList tl; l = qFindChildren(&o, "o1"); QCOMPARE(l.size(), 1); QCOMPARE(l.at(0), &o1); l = qFindChildren(&o, "o2"); QCOMPARE(l.size(), 1); QCOMPARE(l.at(0), &o2); l = qFindChildren(&o, "o11"); QCOMPARE(l.size(), 1); QCOMPARE(l.at(0), &o11); l = qFindChildren(&o, "o12"); QCOMPARE(l.size(), 1); QCOMPARE(l.at(0), &o12); l = qFindChildren(&o, "o111"); QCOMPARE(l.size(), 1); QCOMPARE(l.at(0), &o111); l = qFindChildren(&o, "t1"); QCOMPARE(l.size(), 1); QCOMPARE(l.at(0), static_cast(&t1)); l = qFindChildren(&o, "t121"); QCOMPARE(l.size(), 1); QCOMPARE(l.at(0), static_cast(&t121)); tl = qFindChildren(&o, "t1"); QCOMPARE(tl.size(), 1); QCOMPARE(tl.at(0), &t1); tl = qFindChildren(&o, "t121"); QCOMPARE(tl.size(), 1); QCOMPARE(tl.at(0), &t121); l = qFindChildren(&o, "o"); QCOMPARE(l.size(), 0); l = qFindChildren(&o, "harry"); QCOMPARE(l.size(), 0); tl = qFindChildren(&o, "o12"); QCOMPARE(tl.size(), 0); l = qFindChildren(&o, "o1"); QCOMPARE(l.size(), 1); QCOMPARE(l.at(0), &o1); l = qFindChildren(&o, QRegExp("o.*")); QCOMPARE(l.size(), 5); QVERIFY(l.contains(&o1)); QVERIFY(l.contains(&o2)); QVERIFY(l.contains(&o11)); QVERIFY(l.contains(&o12)); QVERIFY(l.contains(&o111)); l = qFindChildren(&o, QRegExp("t.*")); QCOMPARE(l.size(), 2); QVERIFY(l.contains(&t1)); QVERIFY(l.contains(&t121)); tl = qFindChildren(&o, QRegExp(".*")); QCOMPARE(tl.size(), 3); QVERIFY(tl.contains(&t1)); QVERIFY(tl.contains(&t121)); tl = qFindChildren(&o, QRegExp("o.*")); QCOMPARE(tl.size(), 0); l = qFindChildren(&o, QRegExp("harry")); QCOMPARE(l.size(), 0); // empty and null string check op = qFindChild(&o); QCOMPARE(op, &o1); op = qFindChild(&o, ""); QCOMPARE(op, &unnamed); op = qFindChild(&o, "unnamed"); QCOMPARE(op, static_cast(0)); l = qFindChildren(&o); QCOMPARE(l.size(), 9); l = qFindChildren(&o, ""); QCOMPARE(l.size(), 2); l = qFindChildren(&o, "unnamed"); QCOMPARE(l.size(), 0); #ifndef QT_NO_MEMBER_TEMPLATES tl = o.findChildren("t1"); QCOMPARE(tl.size(), 1); QCOMPARE(tl.at(0), &t1); #endif } class NotifyObject : public SenderObject, public ReceiverObject { public: NotifyObject() : SenderObject(), ReceiverObject() {} QString org_signal; QString nw_signal; protected: void connectNotify( const char *signal ) { org_signal = signal; nw_signal = QMetaObject::normalizedSignature(signal); }; void disconnectNotify( const char *signal ) { org_signal = signal; nw_signal = QMetaObject::normalizedSignature(signal); }; }; void tst_QObject::connectDisconnectNotify_data() { QTest::addColumn("a_signal"); QTest::addColumn("a_slot"); QTest::newRow("combo1") << SIGNAL( signal1() ) << SLOT( slot1() ); QTest::newRow("combo2") << SIGNAL( signal2(void) ) << SLOT( slot2( ) ); QTest::newRow("combo3") << SIGNAL( signal3( ) ) << SLOT( slot3(void) ); QTest::newRow("combo4") << SIGNAL( signal4( void ) )<< SLOT( slot4( void ) ); } void tst_QObject::connectDisconnectNotify() { NotifyObject *s = new NotifyObject; NotifyObject *r = new NotifyObject; QFETCH(QString, a_signal); QFETCH(QString, a_slot); // Test connectNotify connect( (SenderObject*)s, a_signal.toLatin1(), (ReceiverObject*)r, a_slot.toLatin1() ); QCOMPARE( s->org_signal, s->nw_signal ); QCOMPARE( s->org_signal.toLatin1(), QMetaObject::normalizedSignature(a_signal.toLatin1().constData()) ); // Test disconnectNotify QObject::disconnect( (SenderObject*)s, a_signal.toLatin1(), (ReceiverObject*)r, a_slot.toLatin1() ); QCOMPARE( s->org_signal, s->nw_signal ); QCOMPARE( s->org_signal.toLatin1(), QMetaObject::normalizedSignature(a_signal.toLatin1().constData()) ); // Reconnect connect( (SenderObject*)s, a_signal.toLatin1(), (ReceiverObject*)r, a_slot.toLatin1() ); // Test disconnectNotify for a complete disconnect ((SenderObject*)s)->disconnect((ReceiverObject*)r); delete s; delete r; } class SequenceObject : public ReceiverObject { Q_OBJECT public: QObject *next; SequenceObject() : next(0) { } public slots: void slot1_disconnectThis() { slot1(); disconnect(sender(), SIGNAL(signal1()), this, SLOT(slot1_disconnectThis())); } void slot2_reconnectThis() { slot2(); const QObject *s = sender(); disconnect(s, SIGNAL(signal1()), this, SLOT(slot2_reconnectThis())); connect(s, SIGNAL(signal1()), this, SLOT(slot2_reconnectThis())); } void slot1_disconnectNext() { slot1(); disconnect(sender(), SIGNAL(signal1()), next, SLOT(slot1())); } void slot2_reconnectNext() { slot2(); // modify the connection list in 'this' disconnect(sender(), SIGNAL(signal1()), next, SLOT(slot2())); connect(sender(), SIGNAL(signal1()), next, SLOT(slot2())); // modify the sender list in 'this' connect(next, SIGNAL(destroyed()), this, SLOT(deleteLater())); connect(QCoreApplication::instance(), SIGNAL(aboutToQuit()), this, SLOT(deleteLater())); disconnect(next, SIGNAL(destroyed()), this, SLOT(deleteLater())); disconnect(QCoreApplication::instance(), SIGNAL(aboutToQuit()), this, SLOT(deleteLater())); } void slot1_deleteNext() { slot1(); delete next; } void slot2_deleteSender() { slot2(); delete sender(); } }; void tst_QObject::emitInDefinedOrder() { SenderObject sender; ReceiverObject receiver1, receiver2, receiver3, receiver4; connect(&sender, SIGNAL(signal1()), &receiver1, SLOT(slot1())); connect(&sender, SIGNAL(signal1()), &receiver2, SLOT(slot1())); connect(&sender, SIGNAL(signal1()), &receiver3, SLOT(slot1())); connect(&sender, SIGNAL(signal1()), &receiver4, SLOT(slot1())); connect(&sender, SIGNAL(signal1()), &receiver1, SLOT(slot2())); connect(&sender, SIGNAL(signal1()), &receiver2, SLOT(slot2())); connect(&sender, SIGNAL(signal1()), &receiver3, SLOT(slot2())); connect(&sender, SIGNAL(signal1()), &receiver4, SLOT(slot2())); int sequence; ReceiverObject::sequence = sequence = 0; sender.emitSignal1(); QCOMPARE(receiver1.sequence_slot1, ++sequence); QCOMPARE(receiver2.sequence_slot1, ++sequence); QCOMPARE(receiver3.sequence_slot1, ++sequence); QCOMPARE(receiver4.sequence_slot1, ++sequence); QCOMPARE(receiver1.sequence_slot2, ++sequence); QCOMPARE(receiver2.sequence_slot2, ++sequence); QCOMPARE(receiver3.sequence_slot2, ++sequence); QCOMPARE(receiver4.sequence_slot2, ++sequence); QObject::disconnect(&sender, SIGNAL(signal1()), &receiver2, SLOT(slot1())); connect(&sender, SIGNAL(signal1()), &receiver2, SLOT(slot1())); ReceiverObject::sequence = sequence = 0; sender.emitSignal1(); QCOMPARE(receiver1.sequence_slot1, ++sequence); QCOMPARE(receiver3.sequence_slot1, ++sequence); QCOMPARE(receiver4.sequence_slot1, ++sequence); QCOMPARE(receiver1.sequence_slot2, ++sequence); QCOMPARE(receiver2.sequence_slot2, ++sequence); QCOMPARE(receiver3.sequence_slot2, ++sequence); QCOMPARE(receiver4.sequence_slot2, ++sequence); QCOMPARE(receiver2.sequence_slot1, ++sequence); QObject::disconnect(&sender, SIGNAL(signal1()), &receiver1, SLOT(slot1())); connect(&sender, SIGNAL(signal1()), &receiver1, SLOT(slot1())); ReceiverObject::sequence = sequence = 0; sender.emitSignal1(); QCOMPARE(receiver3.sequence_slot1, ++sequence); QCOMPARE(receiver4.sequence_slot1, ++sequence); QCOMPARE(receiver1.sequence_slot2, ++sequence); QCOMPARE(receiver2.sequence_slot2, ++sequence); QCOMPARE(receiver3.sequence_slot2, ++sequence); QCOMPARE(receiver4.sequence_slot2, ++sequence); QCOMPARE(receiver2.sequence_slot1, ++sequence); QCOMPARE(receiver1.sequence_slot1, ++sequence); // ensure emission order even if the connections change during emission SenderObject *sender2 = new SenderObject; SequenceObject seq1, seq2, *seq3 = new SequenceObject, seq4; seq1.next = &seq2; seq2.next = seq3; seq3->next = &seq4; // try 1 connect(sender2, SIGNAL(signal1()), &seq1, SLOT(slot1_disconnectThis())); connect(sender2, SIGNAL(signal1()), &seq2, SLOT(slot1_disconnectNext())); connect(sender2, SIGNAL(signal1()), seq3, SLOT(slot1())); connect(sender2, SIGNAL(signal1()), &seq4, SLOT(slot1())); connect(sender2, SIGNAL(signal1()), &seq1, SLOT(slot2_reconnectThis())); connect(sender2, SIGNAL(signal1()), &seq2, SLOT(slot2_reconnectNext())); connect(sender2, SIGNAL(signal1()), seq3, SLOT(slot2())); connect(sender2, SIGNAL(signal1()), &seq4, SLOT(slot2())); SequenceObject::sequence = sequence = 0; sender2->emitSignal1(); QCOMPARE(seq1.called(1), TRUE); QCOMPARE(seq2.called(1), TRUE); QCOMPARE(seq3->called(1), FALSE); QCOMPARE(seq4.called(1), TRUE); QCOMPARE(seq1.called(2), TRUE); QCOMPARE(seq2.called(2), TRUE); QCOMPARE(seq3->called(2), FALSE); QCOMPARE(seq4.called(2), TRUE); QCOMPARE(seq1.sequence_slot1, ++sequence); QCOMPARE(seq2.sequence_slot1, ++sequence); QCOMPARE(seq4.sequence_slot1, ++sequence); QCOMPARE(seq1.sequence_slot2, ++sequence); QCOMPARE(seq2.sequence_slot2, ++sequence); QCOMPARE(seq4.sequence_slot2, ++sequence); QObject::disconnect(sender2, 0, &seq1, 0); QObject::disconnect(sender2, 0, &seq2, 0); QObject::disconnect(sender2, 0, seq3, 0); QObject::disconnect(sender2, 0, &seq4, 0); seq1.reset(); seq2.reset(); seq3->reset(); seq4.reset(); // try 2 connect(sender2, SIGNAL(signal1()), &seq1, SLOT(slot2_reconnectThis())); connect(sender2, SIGNAL(signal1()), &seq2, SLOT(slot2_reconnectNext())); connect(sender2, SIGNAL(signal1()), seq3, SLOT(slot2())); connect(sender2, SIGNAL(signal1()), &seq4, SLOT(slot2())); connect(sender2, SIGNAL(signal1()), &seq1, SLOT(slot1_disconnectThis())); connect(sender2, SIGNAL(signal1()), &seq2, SLOT(slot1_disconnectNext())); connect(sender2, SIGNAL(signal1()), seq3, SLOT(slot1())); connect(sender2, SIGNAL(signal1()), &seq4, SLOT(slot1())); SequenceObject::sequence = sequence = 0; sender2->emitSignal1(); QCOMPARE(seq1.called(2), TRUE); QCOMPARE(seq2.called(2), TRUE); QCOMPARE(seq3->called(2), FALSE); QCOMPARE(seq4.called(2), TRUE); QCOMPARE(seq1.called(1), TRUE); QCOMPARE(seq2.called(1), TRUE); QCOMPARE(seq3->called(1), FALSE); QCOMPARE(seq4.called(1), TRUE); QCOMPARE(seq1.sequence_slot2, ++sequence); QCOMPARE(seq2.sequence_slot2, ++sequence); QCOMPARE(seq4.sequence_slot2, ++sequence); QCOMPARE(seq1.sequence_slot1, ++sequence); QCOMPARE(seq2.sequence_slot1, ++sequence); QCOMPARE(seq4.sequence_slot1, ++sequence); QObject::disconnect(sender2, 0, &seq1, 0); QObject::disconnect(sender2, 0, &seq2, 0); QObject::disconnect(sender2, 0, seq3, 0); QObject::disconnect(sender2, 0, &seq4, 0); seq1.reset(); seq2.reset(); seq3->reset(); seq4.reset(); // try 3 connect(sender2, SIGNAL(signal1()), &seq1, SLOT(slot1())); connect(sender2, SIGNAL(signal1()), &seq2, SLOT(slot1_disconnectNext())); connect(sender2, SIGNAL(signal1()), seq3, SLOT(slot1())); connect(sender2, SIGNAL(signal1()), &seq4, SLOT(slot1())); connect(sender2, SIGNAL(signal1()), &seq1, SLOT(slot2())); connect(sender2, SIGNAL(signal1()), &seq2, SLOT(slot2_reconnectNext())); connect(sender2, SIGNAL(signal1()), seq3, SLOT(slot2())); connect(sender2, SIGNAL(signal1()), &seq4, SLOT(slot2())); SequenceObject::sequence = sequence = 0; sender2->emitSignal1(); QCOMPARE(seq1.called(1), TRUE); QCOMPARE(seq2.called(1), TRUE); QCOMPARE(seq3->called(1), FALSE); QCOMPARE(seq4.called(1), TRUE); QCOMPARE(seq1.called(2), TRUE); QCOMPARE(seq2.called(2), TRUE); QCOMPARE(seq3->called(2), FALSE); QCOMPARE(seq4.called(2), TRUE); QCOMPARE(seq1.sequence_slot1, ++sequence); QCOMPARE(seq2.sequence_slot1, ++sequence); QCOMPARE(seq4.sequence_slot1, ++sequence); QCOMPARE(seq1.sequence_slot2, ++sequence); QCOMPARE(seq2.sequence_slot2, ++sequence); QCOMPARE(seq4.sequence_slot2, ++sequence); // ensure emission order even if objects are destroyed during emission QObject::disconnect(sender2, 0, &seq1, 0); QObject::disconnect(sender2, 0, &seq2, 0); QObject::disconnect(sender2, 0, seq3, 0); QObject::disconnect(sender2, 0, &seq4, 0); seq1.reset(); seq2.reset(); seq3->reset(); seq4.reset(); connect(sender2, SIGNAL(signal1()), &seq1, SLOT(slot1())); connect(sender2, SIGNAL(signal1()), &seq2, SLOT(slot1_deleteNext())); connect(sender2, SIGNAL(signal1()), seq3, SLOT(slot1())); connect(sender2, SIGNAL(signal1()), &seq4, SLOT(slot1())); connect(sender2, SIGNAL(signal1()), &seq1, SLOT(slot2())); connect(sender2, SIGNAL(signal1()), &seq2, SLOT(slot2_deleteSender())); connect(sender2, SIGNAL(signal1()), seq3, SLOT(slot2())); connect(sender2, SIGNAL(signal1()), &seq4, SLOT(slot2())); QPointer psender = sender2; QPointer pseq3 = seq3; SequenceObject::sequence = sequence = 0; sender2->emitSignal1(); QCOMPARE(static_cast(psender), static_cast(0)); QCOMPARE(static_cast(pseq3), static_cast(0)); QCOMPARE(seq1.called(1), TRUE); QCOMPARE(seq2.called(1), TRUE); QCOMPARE(seq4.called(1), TRUE); QCOMPARE(seq1.called(2), TRUE); QCOMPARE(seq2.called(2), TRUE); QCOMPARE(seq4.called(2), FALSE); QCOMPARE(seq1.sequence_slot1, ++sequence); QCOMPARE(seq2.sequence_slot1, ++sequence); QCOMPARE(seq4.sequence_slot1, ++sequence); QCOMPARE(seq1.sequence_slot2, ++sequence); QCOMPARE(seq2.sequence_slot2, ++sequence); QPointer psender3 = new SenderObject; connect(psender3, SIGNAL(signal1()), psender3, SIGNAL(signal2())); connect(psender3, SIGNAL(signal2()), &seq1, SLOT(slot2_deleteSender())); psender3->emitSignal1(); QVERIFY(!psender3); } static int instanceCount = 0; struct CustomType { CustomType(int l1 = 0, int l2 = 0, int l3 = 0): i1(l1), i2(l2), i3(l3) { ++instanceCount; } CustomType(const CustomType &other): i1(other.i1), i2(other.i2), i3(other.i3) { ++instanceCount; } ~CustomType() { --instanceCount; } int i1, i2, i3; int value() { return i1 + i2 + i3; } }; Q_DECLARE_METATYPE(CustomType*) class QCustomTypeChecker: public QObject { Q_OBJECT public: QCustomTypeChecker(QObject *parent = 0): QObject(parent) {} void doEmit(CustomType ct) { emit signal1(ct); } public slots: void slot1(CustomType ct); signals: void signal1(CustomType ct); public: CustomType received; }; void QCustomTypeChecker::slot1(CustomType ct) { received = ct; } void tst_QObject::customTypes() { CustomType t0; CustomType t1(1, 2, 3); CustomType t2(2, 3, 4); { QCustomTypeChecker checker; QCOMPARE(instanceCount, 4); connect(&checker, SIGNAL(signal1(CustomType)), &checker, SLOT(slot1(CustomType)), Qt::DirectConnection); QCOMPARE(checker.received.value(), 0); checker.doEmit(t1); QCOMPARE(checker.received.value(), t1.value()); checker.received = t0; int idx = qRegisterMetaType("CustomType"); QCOMPARE(QMetaType::type("CustomType"), idx); checker.disconnect(); connect(&checker, SIGNAL(signal1(CustomType)), &checker, SLOT(slot1(CustomType)), Qt::QueuedConnection); QCOMPARE(instanceCount, 4); checker.doEmit(t2); QCOMPARE(instanceCount, 5); QCOMPARE(checker.received.value(), t0.value()); QCoreApplication::processEvents(); QCOMPARE(checker.received.value(), t2.value()); QCOMPARE(instanceCount, 4); QVERIFY(QMetaType::isRegistered(idx)); QCOMPARE(qRegisterMetaType("CustomType"), idx); QCOMPARE(QMetaType::type("CustomType"), idx); QVERIFY(QMetaType::isRegistered(idx)); } QCOMPARE(instanceCount, 3); } QDataStream &operator<<(QDataStream &stream, const CustomType &ct) { stream << ct.i1 << ct.i2 << ct.i3; return stream; } QDataStream &operator>>(QDataStream &stream, CustomType &ct) { stream >> ct.i1; stream >> ct.i2; stream >> ct.i3; return stream; } void tst_QObject::streamCustomTypes() { QByteArray ba; int idx = qRegisterMetaType("CustomType"); qRegisterMetaTypeStreamOperators("CustomType"); { CustomType t1(1, 2, 3); QCOMPARE(instanceCount, 1); QDataStream stream(&ba, (QIODevice::OpenMode)QIODevice::WriteOnly); QMetaType::save(stream, idx, &t1); } QCOMPARE(instanceCount, 0); { CustomType t2; QCOMPARE(instanceCount, 1); QDataStream stream(&ba, (QIODevice::OpenMode)QIODevice::ReadOnly); QMetaType::load(stream, idx, &t2); QCOMPARE(instanceCount, 1); QCOMPARE(t2.i1, 1); QCOMPARE(t2.i2, 2); QCOMPARE(t2.i3, 3); } QCOMPARE(instanceCount, 0); } class PropertyObject : public QObject { Q_OBJECT Q_ENUMS(Alpha Priority) Q_PROPERTY(Alpha alpha READ alpha WRITE setAlpha) Q_PROPERTY(Priority priority READ priority WRITE setPriority) Q_PROPERTY(int number READ number WRITE setNumber) Q_PROPERTY(QString string READ string WRITE setString) Q_PROPERTY(QVariant variant READ variant WRITE setVariant) Q_PROPERTY(CustomType* custom READ custom WRITE setCustom) Q_PROPERTY(float myFloat READ myFloat WRITE setMyFloat) public: enum Alpha { Alpha0, Alpha1, Alpha2 }; enum Priority { High, Low, VeryHigh, VeryLow }; PropertyObject() : m_alpha(Alpha0), m_priority(High), m_number(0), m_custom(0), m_float(42) {} Alpha alpha() const { return m_alpha; } void setAlpha(Alpha alpha) { m_alpha = alpha; } Priority priority() const { return m_priority; } void setPriority(Priority priority) { m_priority = priority; } int number() const { return m_number; } void setNumber(int number) { m_number = number; } QString string() const { return m_string; } void setString(const QString &string) { m_string = string; } QVariant variant() const { return m_variant; } void setVariant(const QVariant &variant) { m_variant = variant; } CustomType *custom() const { return m_custom; } void setCustom(CustomType *custom) { m_custom = custom; } void setMyFloat(float value) { m_float = value; } inline float myFloat() const { return m_float; } private: Alpha m_alpha; Priority m_priority; int m_number; QString m_string; QVariant m_variant; CustomType *m_custom; float m_float; }; Q_DECLARE_METATYPE(PropertyObject::Priority) void tst_QObject::threadSignalEmissionCrash() { #if defined(Q_OS_WINCE) || defined(Q_OS_SYMBIAN) int loopCount = 100; #else int loopCount = 1000; #endif for (int i = 0; i < loopCount; ++i) { QTcpSocket socket; socket.connectToHost("localhost", 80); } } class TestThread : public QThread { Q_OBJECT public: inline void run() { *object = new QObject; *child = new QObject(*object); mutex.lock(); cond.wakeOne(); cond.wait(&mutex); mutex.unlock(); } QObject **object, **child; QMutex mutex; QWaitCondition cond; }; void tst_QObject::thread() { QThread *currentThread = QThread::currentThread(); // the current thread is the same as the QApplication // thread... see tst_QApplication::thread() { QObject object; // thread affinity for objects with no parent should be the // current thread QVERIFY(object.thread() != 0); QCOMPARE(object.thread(), currentThread); // children inherit their parent's thread QObject child(&object); QCOMPARE(child.thread(), object.thread()); } QObject *object = 0; QObject *child = 0; { TestThread thr; QVERIFY(thr.thread() != 0); QCOMPARE(thr.thread(), currentThread); thr.object = &object; thr.child = &child; thr.mutex.lock(); thr.start(); thr.cond.wait(&thr.mutex); // thread affinity for an object with no parent should be the // thread in which the object was created QCOMPARE(object->thread(), (QThread *)&thr); // children inherit their parent's thread QCOMPARE(child->thread(), object->thread()); thr.cond.wakeOne(); thr.mutex.unlock(); thr.wait(); // even though the thread is no longer running, the affinity // should not change QCOMPARE(object->thread(), (QThread *)&thr); QCOMPARE(child->thread(), object->thread()); } // the thread has been destroyed, thread affinity should // automatically reset to no thread QCOMPARE(object->thread(), (QThread *)0); QCOMPARE(child->thread(), object->thread()); delete object; } class MoveToThreadObject : public QObject { Q_OBJECT public: QThread *timerEventThread; QThread *customEventThread; QThread *slotThread; MoveToThreadObject(QObject *parent = 0) : QObject(parent), timerEventThread(0), customEventThread(0), slotThread(0) { } void customEvent(QEvent *) { Q_ASSERT(customEventThread == 0); customEventThread = QThread::currentThread(); emit theSignal(); } void timerEvent(QTimerEvent *) { Q_ASSERT(timerEventThread == 0); timerEventThread = QThread::currentThread(); emit theSignal(); } public slots: void theSlot() { Q_ASSERT(slotThread == 0); slotThread = QThread::currentThread(); emit theSignal(); } signals: void theSignal(); }; class MoveToThreadThread : public QThread { public: ~MoveToThreadThread() { if (isRunning()) { terminate(); wait(); } } void start() { QEventLoop eventLoop; connect(this, SIGNAL(started()), &eventLoop, SLOT(quit()), Qt::QueuedConnection); QThread::start(); // wait for thread to start (void) eventLoop.exec(); } void run() { (void) exec(); } }; void tst_QObject::thread0() { QObject *object = new QObject; object->moveToThread(0); QObject *child = new QObject(object); QCOMPARE(child->parent(), object); QCOMPARE(child->thread(), (QThread *)0); #if 0 // We don't support moving children into a parent that has no thread // affinity (yet?). QObject *child2 = new QObject; child2->moveToThread(0); child2->setParent(object); QCOMPARE(child2->parent(), object); QCOMPARE(child2->thread(), (QThread *)0); #endif delete object; } void tst_QObject::moveToThread() { QThread *currentThread = QThread::currentThread(); { QObject *object = new QObject; QObject *child = new QObject(object); QCOMPARE(object->thread(), currentThread); QCOMPARE(child->thread(), currentThread); object->moveToThread(0); QCOMPARE(object->thread(), (QThread *)0); QCOMPARE(child->thread(), (QThread *)0); object->moveToThread(currentThread); QCOMPARE(object->thread(), currentThread); QCOMPARE(child->thread(), currentThread); object->moveToThread(0); QCOMPARE(object->thread(), (QThread *)0); QCOMPARE(child->thread(), (QThread *)0); // can delete an object with no thread anywhere delete object; } { MoveToThreadThread thread; thread.start(); QObject *object = new QObject; QObject *child = new QObject(object); QPointer opointer = object; QPointer cpointer = object; QCOMPARE(object->thread(), currentThread); QCOMPARE(child->thread(), currentThread); object->moveToThread(&thread); QCOMPARE(object->thread(), (QThread *)&thread); QCOMPARE(child->thread(), (QThread *)&thread); connect(object, SIGNAL(destroyed()), &thread, SLOT(quit()), Qt::DirectConnection); QMetaObject::invokeMethod(object, "deleteLater", Qt::QueuedConnection); thread.wait(); QVERIFY(opointer == 0); QVERIFY(cpointer == 0); } { // make sure posted events are moved with the object MoveToThreadThread thread; thread.start(); MoveToThreadObject *object = new MoveToThreadObject; MoveToThreadObject *child = new MoveToThreadObject(object); connect(object, SIGNAL(theSignal()), &thread, SLOT(quit()), Qt::DirectConnection); QCoreApplication::postEvent(child, new QEvent(QEvent::User)); QCoreApplication::postEvent(object, new QEvent(QEvent::User)); QCOMPARE(object->thread(), currentThread); QCOMPARE(child->thread(), currentThread); object->moveToThread(&thread); QCOMPARE(object->thread(), (QThread *)&thread); QCOMPARE(child->thread(), (QThread *)&thread); thread.wait(); QCOMPARE(object->customEventThread, (QThread *)&thread); QCOMPARE(child->customEventThread, (QThread *)&thread); thread.start(); connect(object, SIGNAL(destroyed()), &thread, SLOT(quit()), Qt::DirectConnection); QMetaObject::invokeMethod(object, "deleteLater", Qt::QueuedConnection); thread.wait(); } { // make sure timers are moved with the object MoveToThreadThread thread; thread.start(); MoveToThreadObject *object = new MoveToThreadObject; MoveToThreadObject *child = new MoveToThreadObject(object); connect(object, SIGNAL(theSignal()), &thread, SLOT(quit()), Qt::DirectConnection); #if defined(Q_OS_SYMBIAN) // Child timer will be registered after parent timer in the new // thread, and 10ms is less than symbian timer resolution, so // child->timerEventThread compare after thread.wait() will // usually fail unless timers are farther apart. child->startTimer(100); object->startTimer(150); #else child->startTimer(90); object->startTimer(100); #endif QCOMPARE(object->thread(), currentThread); QCOMPARE(child->thread(), currentThread); object->moveToThread(&thread); QCOMPARE(object->thread(), (QThread *)&thread); QCOMPARE(child->thread(), (QThread *)&thread); thread.wait(); QCOMPARE(object->timerEventThread, (QThread *)&thread); QCOMPARE(child->timerEventThread, (QThread *)&thread); thread.start(); connect(object, SIGNAL(destroyed()), &thread, SLOT(quit()), Qt::DirectConnection); QMetaObject::invokeMethod(object, "deleteLater", Qt::QueuedConnection); thread.wait(); } { // make sure socket notifiers are moved with the object MoveToThreadThread thread; thread.start(); QTcpServer server; QVERIFY(server.listen(QHostAddress::LocalHost, 0)); QTcpSocket *socket = new QTcpSocket; MoveToThreadObject *child = new MoveToThreadObject(socket); connect(socket, SIGNAL(disconnected()), child, SLOT(theSlot()), Qt::DirectConnection); connect(child, SIGNAL(theSignal()), &thread, SLOT(quit()), Qt::DirectConnection); socket->connectToHost(server.serverAddress(), server.serverPort()); QVERIFY(server.waitForNewConnection(1000)); QTcpSocket *serverSocket = server.nextPendingConnection(); QVERIFY(serverSocket); socket->waitForConnected(); QCOMPARE(socket->thread(), currentThread); socket->moveToThread(&thread); QCOMPARE(socket->thread(), (QThread *)&thread); serverSocket->close(); QVERIFY(thread.wait(10000)); QCOMPARE(child->slotThread, (QThread *)&thread); thread.start(); connect(socket, SIGNAL(destroyed()), &thread, SLOT(quit()), Qt::DirectConnection); QMetaObject::invokeMethod(socket, "deleteLater", Qt::QueuedConnection); thread.wait(); } } void tst_QObject::property() { PropertyObject object; const QMetaObject *mo = object.metaObject(); QMetaProperty property; QVERIFY(mo); QVERIFY(mo->indexOfProperty("alpha") != -1); property = mo->property(mo->indexOfProperty("alpha")); QVERIFY(property.isEnumType()); QCOMPARE(property.typeName(), "Alpha"); QCOMPARE(property.type(), QVariant::Int); QVariant var = object.property("alpha"); QVERIFY(!var.isNull()); QCOMPARE(var.toInt(), int(PropertyObject::Alpha0)); object.setAlpha(PropertyObject::Alpha1); QCOMPARE(object.property("alpha").toInt(), int(PropertyObject::Alpha1)); QVERIFY(object.setProperty("alpha", PropertyObject::Alpha2)); QCOMPARE(object.property("alpha").toInt(), int(PropertyObject::Alpha2)); QVERIFY(object.setProperty("alpha", "Alpha1")); QCOMPARE(object.property("alpha").toInt(), int(PropertyObject::Alpha1)); QVERIFY(!object.setProperty("alpha", QVariant())); QVERIFY(mo->indexOfProperty("number") != -1); QCOMPARE(object.property("number").toInt(), 0); object.setNumber(24); QCOMPARE(object.property("number"), QVariant(24)); QVERIFY(object.setProperty("number", 12)); QCOMPARE(object.property("number"), QVariant(12)); QVERIFY(object.setProperty("number", "42")); QCOMPARE(object.property("number"), QVariant(42)); QVERIFY(mo->indexOfProperty("string") != -1); QCOMPARE(object.property("string").toString(), QString()); object.setString("String1"); QCOMPARE(object.property("string"), QVariant("String1")); QVERIFY(object.setProperty("string", "String2")); QCOMPARE(object.property("string"), QVariant("String2")); QVERIFY(!object.setProperty("string", QVariant())); const int idx = mo->indexOfProperty("variant"); QVERIFY(idx != -1); QVERIFY(mo->property(idx).type() == QVariant::LastType); QCOMPARE(object.property("variant"), QVariant()); QVariant variant1(42); QVariant variant2("string"); object.setVariant(variant1); QCOMPARE(object.property("variant"), variant1); QVERIFY(object.setProperty("variant", variant2)); QCOMPARE(object.variant(), QVariant(variant2)); QCOMPARE(object.property("variant"), variant2); QVERIFY(object.setProperty("variant", QVariant())); QCOMPARE(object.property("variant"), QVariant()); QVERIFY(mo->indexOfProperty("custom") != -1); property = mo->property(mo->indexOfProperty("custom")); QVERIFY(property.isValid()); QVERIFY(property.isWritable()); QVERIFY(!property.isEnumType()); QCOMPARE(property.typeName(), "CustomType*"); QCOMPARE(property.type(), QVariant::UserType); CustomType *customPointer = 0; QVariant customVariant = object.property("custom"); customPointer = qVariantValue(customVariant); QCOMPARE(customPointer, object.custom()); CustomType custom; customPointer = &custom; qVariantSetValue(customVariant, customPointer); property = mo->property(mo->indexOfProperty("custom")); QVERIFY(property.isWritable()); QCOMPARE(property.typeName(), "CustomType*"); QCOMPARE(property.type(), QVariant::UserType); QVERIFY(object.setProperty("custom", customVariant)); QCOMPARE(object.custom(), customPointer); customVariant = object.property("custom"); customPointer = qVariantValue(customVariant); QCOMPARE(object.custom(), customPointer); // this enum property has a meta type, but it's not yet registered, so we know this fails QVERIFY(mo->indexOfProperty("priority") != -1); property = mo->property(mo->indexOfProperty("priority")); QVERIFY(property.isEnumType()); QCOMPARE(property.typeName(), "Priority"); QCOMPARE(property.type(), QVariant::Int); var = object.property("priority"); QVERIFY(!var.isNull()); QCOMPARE(var.toInt(), int(PropertyObject::High)); object.setPriority(PropertyObject::Low); QCOMPARE(object.property("priority").toInt(), int(PropertyObject::Low)); QVERIFY(object.setProperty("priority", PropertyObject::VeryHigh)); QCOMPARE(object.property("priority").toInt(), int(PropertyObject::VeryHigh)); QVERIFY(object.setProperty("priority", "High")); QCOMPARE(object.property("priority").toInt(), int(PropertyObject::High)); QVERIFY(!object.setProperty("priority", QVariant())); // now it's registered, so it works as expected int priorityMetaTypeId = qRegisterMetaType("PropertyObject::Priority"); QVERIFY(mo->indexOfProperty("priority") != -1); property = mo->property(mo->indexOfProperty("priority")); QVERIFY(property.isEnumType()); QCOMPARE(property.typeName(), "Priority"); QCOMPARE(property.type(), QVariant::UserType); QCOMPARE(property.userType(), priorityMetaTypeId); var = object.property("priority"); QVERIFY(!var.isNull()); QVERIFY(qVariantCanConvert(var)); QCOMPARE(qVariantValue(var), PropertyObject::High); object.setPriority(PropertyObject::Low); QCOMPARE(qVariantValue(object.property("priority")), PropertyObject::Low); QVERIFY(object.setProperty("priority", PropertyObject::VeryHigh)); QCOMPARE(qVariantValue(object.property("priority")), PropertyObject::VeryHigh); QVERIFY(object.setProperty("priority", "High")); QCOMPARE(qVariantValue(object.property("priority")), PropertyObject::High); QVERIFY(!object.setProperty("priority", QVariant())); var = object.property("priority"); QCOMPARE(qVariantValue(var), PropertyObject::High); object.setPriority(PropertyObject::Low); QCOMPARE(qVariantValue(object.property("priority")), PropertyObject::Low); object.setProperty("priority", var); QCOMPARE(qVariantValue(object.property("priority")), PropertyObject::High); } void tst_QObject::metamethod() { SenderObject obj; const QMetaObject *mobj = obj.metaObject(); QMetaMethod m; m = mobj->method(mobj->indexOfMethod("invoke1()")); QVERIFY(QByteArray(m.signature()) == "invoke1()"); QVERIFY(m.methodType() == QMetaMethod::Method); QVERIFY(m.access() == QMetaMethod::Public); QVERIFY(!(m.attributes() & QMetaMethod::Scriptable)); QVERIFY(!(m.attributes() & QMetaMethod::Compatibility)); m = mobj->method(mobj->indexOfMethod("sinvoke1()")); QVERIFY(QByteArray(m.signature()) == "sinvoke1()"); QVERIFY(m.methodType() == QMetaMethod::Method); QVERIFY(m.access() == QMetaMethod::Public); QVERIFY((m.attributes() & QMetaMethod::Scriptable)); QVERIFY(!(m.attributes() & QMetaMethod::Compatibility)); m = mobj->method(mobj->indexOfMethod("invoke2()")); QVERIFY(QByteArray(m.signature()) == "invoke2()"); QVERIFY(m.methodType() == QMetaMethod::Method); QVERIFY(m.access() == QMetaMethod::Protected); QVERIFY(!(m.attributes() & QMetaMethod::Scriptable)); QVERIFY((m.attributes() & QMetaMethod::Compatibility)); m = mobj->method(mobj->indexOfMethod("sinvoke2()")); QVERIFY(QByteArray(m.signature()) == "sinvoke2()"); QVERIFY(m.methodType() == QMetaMethod::Method); QVERIFY(m.access() == QMetaMethod::Protected); QVERIFY((m.attributes() & QMetaMethod::Scriptable)); QVERIFY((m.attributes() & QMetaMethod::Compatibility)); m = mobj->method(mobj->indexOfMethod("invoke3()")); QVERIFY(QByteArray(m.signature()) == "invoke3()"); QVERIFY(m.methodType() == QMetaMethod::Method); QVERIFY(m.access() == QMetaMethod::Private); QVERIFY(!(m.attributes() & QMetaMethod::Scriptable)); QVERIFY(!(m.attributes() & QMetaMethod::Compatibility)); m = mobj->method(mobj->indexOfMethod("sinvoke3()")); QVERIFY(QByteArray(m.signature()) == "sinvoke3()"); QVERIFY(m.methodType() == QMetaMethod::Method); QVERIFY(m.access() == QMetaMethod::Private); QVERIFY((m.attributes() & QMetaMethod::Scriptable)); QVERIFY(!(m.attributes() & QMetaMethod::Compatibility)); m = mobj->method(mobj->indexOfMethod("signal5()")); QVERIFY(QByteArray(m.signature()) == "signal5()"); QVERIFY(m.methodType() == QMetaMethod::Signal); QVERIFY(m.access() == QMetaMethod::Protected); QVERIFY(!(m.attributes() & QMetaMethod::Scriptable)); QVERIFY((m.attributes() & QMetaMethod::Compatibility)); m = mobj->method(mobj->indexOfMethod("aPublicSlot()")); QVERIFY(QByteArray(m.signature()) == "aPublicSlot()"); QVERIFY(m.methodType() == QMetaMethod::Slot); QVERIFY(m.access() == QMetaMethod::Public); QVERIFY(!(m.attributes() & QMetaMethod::Scriptable)); QVERIFY(!(m.attributes() & QMetaMethod::Compatibility)); m = mobj->method(mobj->indexOfMethod("invoke1()")); QCOMPARE(m.parameterNames().count(), 0); QCOMPARE(m.parameterTypes().count(), 0); m = mobj->method(mobj->indexOfMethod("invoke2(int)")); QCOMPARE(m.parameterNames().count(), 1); QCOMPARE(m.parameterTypes().count(), 1); QCOMPARE(m.parameterTypes().at(0), QByteArray("int")); QVERIFY(m.parameterNames().at(0).isEmpty()); m = mobj->method(mobj->indexOfMethod("invoke3(int,int)")); QCOMPARE(m.parameterNames().count(), 2); QCOMPARE(m.parameterTypes().count(), 2); QCOMPARE(m.parameterTypes().at(0), QByteArray("int")); QCOMPARE(m.parameterNames().at(0), QByteArray("hinz")); QCOMPARE(m.parameterTypes().at(1), QByteArray("int")); QCOMPARE(m.parameterNames().at(1), QByteArray("kunz")); } namespace QObjectTest { class TestObject: public QObject { Q_OBJECT public: TestObject(): QObject(), i(0) {} void doEmit() { emit aSignal(); } int i; public slots: void aSlot() { ++i; } signals: void aSignal(); }; } void tst_QObject::namespaces() { QObjectTest::TestObject obj; QVERIFY(connect(&obj, SIGNAL(aSignal()), &obj, SLOT(aSlot()))); obj.doEmit(); QCOMPARE(obj.i, 1); } class SuperObject : public QObject { Q_OBJECT public: QObject *theSender; SuperObject() { theSender = 0; } friend class tst_QObject; using QObject::sender; public slots: void rememberSender() { theSender = sender(); } void deleteAndRememberSender() { delete theSender; theSender = sender(); } signals: void theSignal(); }; void tst_QObject::sender() { { SuperObject sender; SuperObject receiver; connect(&sender, SIGNAL(theSignal()), &receiver, SLOT(rememberSender())); QCOMPARE(receiver.sender(), (QObject *)0); emit sender.theSignal(); QCOMPARE(receiver.theSender, (QObject *)&sender); QCOMPARE(receiver.sender(), (QObject *)0); } { SuperObject *sender = new SuperObject; SuperObject *receiver = new SuperObject; connect(sender, SIGNAL(theSignal()), receiver, SLOT(rememberSender()), Qt::BlockingQueuedConnection); QThread thread; receiver->moveToThread(&thread); connect(sender, SIGNAL(theSignal()), &thread, SLOT(quit()), Qt::DirectConnection); QCOMPARE(receiver->sender(), (QObject *)0); receiver->theSender = 0; thread.start(); emit sender->theSignal(); QCOMPARE(receiver->theSender, (QObject *) sender); QCOMPARE(receiver->sender(), (QObject *)0); QVERIFY(thread.wait(10000)); delete receiver; delete sender; } { SuperObject *sender = new SuperObject; SuperObject receiver; connect(sender, SIGNAL(theSignal()), &receiver, SLOT(deleteAndRememberSender())); QCOMPARE(receiver.sender(), (QObject *)0); receiver.theSender = sender; emit sender->theSignal(); QCOMPARE(receiver.theSender, (QObject *)0); QCOMPARE(receiver.sender(), (QObject *)0); } { SuperObject *sender = new SuperObject; SuperObject *receiver = new SuperObject; connect(sender, SIGNAL(theSignal()), receiver, SLOT(deleteAndRememberSender()), Qt::BlockingQueuedConnection); QThread thread; receiver->moveToThread(&thread); connect(sender, SIGNAL(destroyed()), &thread, SLOT(quit()), Qt::DirectConnection); QCOMPARE(receiver->sender(), (QObject *)0); receiver->theSender = sender; thread.start(); emit sender->theSignal(); QCOMPARE(receiver->theSender, (QObject *)0); QCOMPARE(receiver->sender(), (QObject *)0); QVERIFY(thread.wait(10000)); delete receiver; } } namespace Foo { struct Bar { virtual ~Bar() {} virtual int rtti() const = 0; }; struct Bleh { virtual ~Bleh() {} virtual int rtti() const = 0; }; } QT_BEGIN_NAMESPACE Q_DECLARE_INTERFACE(Foo::Bar, "com.qtest.foobar") QT_END_NAMESPACE #define Bleh_iid "com.qtest.bleh" QT_BEGIN_NAMESPACE Q_DECLARE_INTERFACE(Foo::Bleh, Bleh_iid) QT_END_NAMESPACE class FooObject: public QObject, public Foo::Bar { Q_OBJECT Q_INTERFACES(Foo::Bar) public: int rtti() const { return 42; } }; class BlehObject : public QObject, public Foo::Bleh { Q_OBJECT Q_INTERFACES(Foo::Bleh) public: int rtti() const { return 43; } }; void tst_QObject::declareInterface() { FooObject obj; Foo::Bar *bar = qobject_cast(&obj); QVERIFY(bar); QCOMPARE(bar->rtti(), 42); QCOMPARE(static_cast(&obj), bar); BlehObject bleh; bar = qobject_cast(&bleh); QVERIFY(!bar); Foo::Bleh *b = qobject_cast(&bleh); QCOMPARE(b->rtti(), 43); QCOMPARE(static_cast(&bleh), b); } class CustomData : public QObjectUserData { public: int id; }; void tst_QObject::testUserData() { const int USER_DATA_COUNT = 100; int user_data_ids[USER_DATA_COUNT]; // Register a few for (int i=0; iid = user_data_ids[i]; my_test_object.setUserData(data->id, data); } // verify that all ids and positions are matching for (int i=0; i(my_test_object.userData(id)); QVERIFY(data != 0); QVERIFY(data->id == id); } } class DestroyedListener : public QObject { Q_OBJECT public: inline DestroyedListener() : pointerWasZero(false) {} QPointer pointer; bool pointerWasZero; private slots: inline void otherObjectDestroyed() { pointerWasZero = pointer.isNull(); } }; void tst_QObject::qpointerResetBeforeDestroyedSignal() { QObject *obj = new QObject; DestroyedListener listener; listener.pointer = obj; listener.pointerWasZero = false; connect(obj, SIGNAL(destroyed()), &listener, SLOT(otherObjectDestroyed())); delete obj; QVERIFY(listener.pointerWasZero); QVERIFY(listener.pointer.isNull()); } class DefaultArguments : public QObject { Q_OBJECT public slots: void theSlot(const QString &s) { result = s; } signals: void theOriginalSignal(); void theSecondSignal(const QString &s = QString("secondDefault")); public: void emitTheOriginalSignal() { emit theOriginalSignal(); } void emitTheSecondSignal() { emit theSecondSignal(); } QString result; }; void tst_QObject::connectSignalsToSignalsWithDefaultArguments() { DefaultArguments o; connect(&o, SIGNAL(theOriginalSignal()), &o, SIGNAL(theSecondSignal())); connect(&o, SIGNAL(theSecondSignal(QString)), &o, SLOT(theSlot(QString))); QVERIFY( o.result.isEmpty() ); o.emitTheSecondSignal(); QCOMPARE(o.result, QString("secondDefault")); o.result = "Not called"; o.emitTheOriginalSignal(); QCOMPARE(o.result, QString("secondDefault")); } void tst_QObject::receivers() { class Object : public QObject { public: int receivers(const char* signal) const { return QObject::receivers(signal); } }; Object object; QCOMPARE(object.receivers(SIGNAL(destroyed())), 0); object.connect(&object, SIGNAL(destroyed()), SLOT(deleteLater())); QCOMPARE(object.receivers(SIGNAL(destroyed())), 1); object.connect(&object, SIGNAL(destroyed()), SLOT(deleteLater())); QCOMPARE(object.receivers(SIGNAL(destroyed())), 2); object.disconnect(SIGNAL(destroyed()), &object, SLOT(deleteLater())); QCOMPARE(object.receivers(SIGNAL(destroyed())), 0); } enum Enum { }; struct Struct { }; class Class { }; class NormalizeObject : public QObject { Q_OBJECT public: signals: void uintPointerSignal(uint *); void ulongPointerSignal(ulong *); void constUintPointerSignal(const uint *); void constUlongPointerSignal(const ulong *); void structSignal(Struct s); void classSignal(Class c); void enumSignal(Enum e); void structPointerSignal(Struct *s); void classPointerSignal(Class *c); void enumPointerSignal(Enum *e); void constStructPointerSignal(const Struct *s); void constClassPointerSignal(const Class *c); void constEnumPointerSignal(const Enum *e); void constStructPointerConstPointerSignal(const Struct * const *s); void constClassPointerConstPointerSignal(const Class * const *c); void constEnumPointerConstPointerSignal(const Enum * const *e); void unsignedintSignal(unsigned int); void unsignedSignal(unsigned); void unsignedlongSignal(unsigned long); void unsignedlonglongSignal(quint64); void unsignedlongintSignal(unsigned long int); void unsignedshortSignal(unsigned short); void unsignedcharSignal(unsigned char); public slots: void uintPointerSlot(uint *) { } void ulongPointerSlot(ulong *) { } void constUintPointerSlot(const uint *) { } void constUlongPointerSlot(const ulong *) { } void structSlot(Struct s) { } void classSlot(Class c) { } void enumSlot(Enum e) { } void structPointerSlot(Struct *s) { } void classPointerSlot(Class *c) { } void enumPointerSlot(Enum *e) { } void constStructPointerSlot(const Struct *s) { } void constClassPointerSlot(const Class *c) { } void constEnumPointerSlot(const Enum *e) { } void constStructPointerConstPointerSlot(const Struct * const *s) { } void constClassPointerConstPointerSlot(const Class * const *c) { } void constEnumPointerConstPointerSlot(const Enum * const *e) { } void uintSlot(uint) {}; void unsignedintSlot(unsigned int) {}; void unsignedSlot(unsigned) {}; void unsignedlongSlot(unsigned long) {}; void unsignedlonglongSlot(quint64) {}; void unsignedlongintSlot(unsigned long int) {}; void unsignedshortSlot(unsigned short) {}; void unsignedcharSlot(unsigned char) {}; }; void tst_QObject::normalize() { NormalizeObject object; // unsigned int -> uint, unsigned long -> ulong QVERIFY(object.connect(&object, SIGNAL(uintPointerSignal(uint *)), SLOT(uintPointerSlot(uint *)))); QVERIFY(object.connect(&object, SIGNAL(uintPointerSignal(unsigned int *)), SLOT(uintPointerSlot(uint *)))); QVERIFY(object.connect(&object, SIGNAL(uintPointerSignal(uint *)), SLOT(uintPointerSlot(unsigned int *)))); QVERIFY(object.connect(&object, SIGNAL(constUintPointerSignal(const uint *)), SLOT(constUintPointerSlot(const uint *)))); QVERIFY(object.connect(&object, SIGNAL(constUintPointerSignal(const unsigned int *)), SLOT(constUintPointerSlot(const uint *)))); QVERIFY(object.connect(&object, SIGNAL(constUintPointerSignal(const uint *)), SLOT(constUintPointerSlot(const unsigned int *)))); QVERIFY(object.connect(&object, SIGNAL(ulongPointerSignal(ulong *)), SLOT(ulongPointerSlot(ulong *)))); QVERIFY(object.connect(&object, SIGNAL(ulongPointerSignal(unsigned long *)), SLOT(ulongPointerSlot(ulong *)))); QVERIFY(object.connect(&object, SIGNAL(ulongPointerSignal(ulong *)), SLOT(ulongPointerSlot(unsigned long *)))); QVERIFY(object.connect(&object, SIGNAL(constUlongPointerSignal(const ulong *)), SLOT(constUlongPointerSlot(const ulong *)))); QVERIFY(object.connect(&object, SIGNAL(constUlongPointerSignal(const unsigned long *)), SLOT(constUlongPointerSlot(const ulong *)))); QVERIFY(object.connect(&object, SIGNAL(constUlongPointerSignal(const ulong *)), SLOT(constUlongPointerSlot(const unsigned long *)))); // struct, class, and enum are optional QVERIFY(object.connect(&object, SIGNAL(structSignal(struct Struct)), SLOT(structSlot(struct Struct)))); QVERIFY(object.connect(&object, SIGNAL(structSignal(Struct)), SLOT(structSlot(struct Struct)))); QVERIFY(object.connect(&object, SIGNAL(structSignal(struct Struct)), SLOT(structSlot(Struct)))); QVERIFY(object.connect(&object, SIGNAL(classSignal(class Class)), SLOT(classSlot(class Class)))); QVERIFY(object.connect(&object, SIGNAL(classSignal(Class)), SLOT(classSlot(class Class)))); QVERIFY(object.connect(&object, SIGNAL(classSignal(class Class)), SLOT(classSlot(Class)))); QVERIFY(object.connect(&object, SIGNAL(enumSignal(enum Enum)), SLOT(enumSlot(enum Enum)))); QVERIFY(object.connect(&object, SIGNAL(enumSignal(Enum)), SLOT(enumSlot(enum Enum)))); QVERIFY(object.connect(&object, SIGNAL(enumSignal(enum Enum)), SLOT(enumSlot(Enum)))); QVERIFY(object.connect(&object, SIGNAL(structPointerSignal(struct Struct *)), SLOT(structPointerSlot(struct Struct *)))); QVERIFY(object.connect(&object, SIGNAL(structPointerSignal(Struct *)), SLOT(structPointerSlot(struct Struct *)))); QVERIFY(object.connect(&object, SIGNAL(structPointerSignal(struct Struct *)), SLOT(structPointerSlot(Struct *)))); QVERIFY(object.connect(&object, SIGNAL(classPointerSignal(class Class *)), SLOT(classPointerSlot(class Class *)))); QVERIFY(object.connect(&object, SIGNAL(classPointerSignal(Class *)), SLOT(classPointerSlot(class Class *)))); QVERIFY(object.connect(&object, SIGNAL(classPointerSignal(class Class *)), SLOT(classPointerSlot(Class *)))); QVERIFY(object.connect(&object, SIGNAL(enumPointerSignal(enum Enum *)), SLOT(enumPointerSlot(enum Enum *)))); QVERIFY(object.connect(&object, SIGNAL(enumPointerSignal(Enum *)), SLOT(enumPointerSlot(enum Enum *)))); QVERIFY(object.connect(&object, SIGNAL(enumPointerSignal(enum Enum *)), SLOT(enumPointerSlot(Enum *)))); QVERIFY(object.connect(&object, SIGNAL(constStructPointerSignal(const struct Struct *)), SLOT(constStructPointerSlot(const struct Struct *)))); QVERIFY(object.connect(&object, SIGNAL(constStructPointerSignal(const Struct *)), SLOT(constStructPointerSlot(const struct Struct *)))); QVERIFY(object.connect(&object, SIGNAL(constStructPointerSignal(const struct Struct *)), SLOT(constStructPointerSlot(const Struct *)))); QVERIFY(object.connect(&object, SIGNAL(constClassPointerSignal(const class Class *)), SLOT(constClassPointerSlot(const class Class *)))); QVERIFY(object.connect(&object, SIGNAL(constClassPointerSignal(const Class *)), SLOT(constClassPointerSlot(const class Class *)))); QVERIFY(object.connect(&object, SIGNAL(constClassPointerSignal(const class Class *)), SLOT(constClassPointerSlot(const Class *)))); QVERIFY(object.connect(&object, SIGNAL(constEnumPointerSignal(const enum Enum *)), SLOT(constEnumPointerSlot(const enum Enum *)))); QVERIFY(object.connect(&object, SIGNAL(constEnumPointerSignal(const Enum *)), SLOT(constEnumPointerSlot(const enum Enum *)))); QVERIFY(object.connect(&object, SIGNAL(constEnumPointerSignal(const enum Enum *)), SLOT(constEnumPointerSlot(const Enum *)))); QVERIFY(object.connect(&object, SIGNAL(constStructPointerSignal(struct Struct const *)), SLOT(constStructPointerSlot(struct Struct const *)))); QVERIFY(object.connect(&object, SIGNAL(constStructPointerSignal(Struct const *)), SLOT(constStructPointerSlot(struct Struct const *)))); QVERIFY(object.connect(&object, SIGNAL(constStructPointerSignal(struct Struct const *)), SLOT(constStructPointerSlot(Struct const *)))); QVERIFY(object.connect(&object, SIGNAL(constClassPointerSignal(class Class const *)), SLOT(constClassPointerSlot(class Class const *)))); QVERIFY(object.connect(&object, SIGNAL(constClassPointerSignal(Class const *)), SLOT(constClassPointerSlot(class Class const *)))); QVERIFY(object.connect(&object, SIGNAL(constClassPointerSignal(class Class const *)), SLOT(constClassPointerSlot(Class const *)))); QVERIFY(object.connect(&object, SIGNAL(constEnumPointerSignal(enum Enum const *)), SLOT(constEnumPointerSlot(enum Enum const *)))); QVERIFY(object.connect(&object, SIGNAL(constEnumPointerSignal(Enum const *)), SLOT(constEnumPointerSlot(enum Enum const *)))); QVERIFY(object.connect(&object, SIGNAL(constEnumPointerSignal(enum Enum const *)), SLOT(constEnumPointerSlot(Enum const *)))); QVERIFY(object.connect(&object, SIGNAL(constStructPointerConstPointerSignal(const struct Struct * const *)), SLOT(constStructPointerConstPointerSlot(const struct Struct * const *)))); QVERIFY(object.connect(&object, SIGNAL(constStructPointerConstPointerSignal(const Struct * const *)), SLOT(constStructPointerConstPointerSlot(const struct Struct * const *)))); QVERIFY(object.connect(&object, SIGNAL(constStructPointerConstPointerSignal(const struct Struct * const *)), SLOT(constStructPointerConstPointerSlot(const Struct * const *)))); QVERIFY(object.connect(&object, SIGNAL(constClassPointerConstPointerSignal(const class Class * const *)), SLOT(constClassPointerConstPointerSlot(const class Class * const *)))); QVERIFY(object.connect(&object, SIGNAL(constClassPointerConstPointerSignal(const Class * const *)), SLOT(constClassPointerConstPointerSlot(const class Class * const *)))); QVERIFY(object.connect(&object, SIGNAL(constClassPointerConstPointerSignal(const class Class * const *)), SLOT(constClassPointerConstPointerSlot(const Class * const *)))); QVERIFY(object.connect(&object, SIGNAL(constEnumPointerConstPointerSignal(const enum Enum * const *)), SLOT(constEnumPointerConstPointerSlot(const enum Enum * const *)))); QVERIFY(object.connect(&object, SIGNAL(constEnumPointerConstPointerSignal(const Enum * const *)), SLOT(constEnumPointerConstPointerSlot(const enum Enum * const *)))); QVERIFY(object.connect(&object, SIGNAL(constEnumPointerConstPointerSignal(const enum Enum * const *)), SLOT(constEnumPointerConstPointerSlot(const Enum * const *)))); QVERIFY(object.connect(&object, SIGNAL(constStructPointerConstPointerSignal(struct Struct const * const *)), SLOT(constStructPointerConstPointerSlot(struct Struct const * const *)))); QVERIFY(object.connect(&object, SIGNAL(constStructPointerConstPointerSignal(Struct const * const *)), SLOT(constStructPointerConstPointerSlot(struct Struct const * const *)))); QVERIFY(object.connect(&object, SIGNAL(constStructPointerConstPointerSignal(struct Struct const * const *)), SLOT(constStructPointerConstPointerSlot(Struct const * const *)))); QVERIFY(object.connect(&object, SIGNAL(constClassPointerConstPointerSignal(class Class const * const *)), SLOT(constClassPointerConstPointerSlot(class Class const * const *)))); QVERIFY(object.connect(&object, SIGNAL(constClassPointerConstPointerSignal(Class const * const *)), SLOT(constClassPointerConstPointerSlot(class Class const * const *)))); QVERIFY(object.connect(&object, SIGNAL(constClassPointerConstPointerSignal(class Class const * const *)), SLOT(constClassPointerConstPointerSlot(Class const * const *)))); QVERIFY(object.connect(&object, SIGNAL(constEnumPointerConstPointerSignal(enum Enum const * const *)), SLOT(constEnumPointerConstPointerSlot(enum Enum const * const *)))); QVERIFY(object.connect(&object, SIGNAL(constEnumPointerConstPointerSignal(Enum const * const *)), SLOT(constEnumPointerConstPointerSlot(enum Enum const * const *)))); QVERIFY(object.connect(&object, SIGNAL(constEnumPointerConstPointerSignal(enum Enum const * const *)), SLOT(constEnumPointerConstPointerSlot(Enum const * const *)))); QVERIFY(object.connect(&object, SIGNAL(unsignedintSignal(unsigned int)), SLOT(unsignedintSlot(unsigned int)))); QVERIFY(object.connect(&object, SIGNAL(unsignedSignal(unsigned)), SLOT(unsignedSlot(unsigned)))); QVERIFY(object.connect(&object, SIGNAL(unsignedSignal(unsigned)), SLOT(uintSlot(uint)))); QVERIFY(object.connect(&object, SIGNAL(unsignedlongSignal(unsigned long)), SLOT(unsignedlongSlot(unsigned long)))); QVERIFY(object.connect(&object, SIGNAL(unsignedlonglongSignal(quint64)), SLOT(unsignedlonglongSlot(quint64)))); QVERIFY(object.connect(&object, SIGNAL(unsignedlongintSignal(unsigned long int)), SLOT(unsignedlongintSlot(unsigned long int)))); QVERIFY(object.connect(&object, SIGNAL(unsignedshortSignal(unsigned short)), SLOT(unsignedshortSlot(unsigned short)))); QVERIFY(object.connect(&object, SIGNAL(unsignedcharSignal(unsigned char)), SLOT(unsignedcharSlot(unsigned char)))); } class SiblingDeleter : public QObject { public: inline SiblingDeleter(QObject *sibling, QObject *parent) : QObject(parent), sibling(sibling) {} inline virtual ~SiblingDeleter() { delete sibling; } private: QPointer sibling; }; void tst_QObject::childDeletesItsSibling() { QObject *commonParent = new QObject(0); QPointer child = new QObject(0); QPointer siblingDeleter = new SiblingDeleter(child, commonParent); child->setParent(commonParent); delete commonParent; // don't crash QVERIFY(!child); QVERIFY(!siblingDeleter); } void tst_QObject::floatProperty() { PropertyObject obj; const int idx = obj.metaObject()->indexOfProperty("myFloat"); QVERIFY(idx > 0); QMetaProperty prop = obj.metaObject()->property(idx); QVERIFY(prop.isValid()); QVERIFY(prop.type() == uint(QMetaType::type("float"))); QVERIFY(!prop.write(&obj, QVariant("Hello"))); QVERIFY(prop.write(&obj, qVariantFromValue(128.0f))); QVariant v = prop.read(&obj); QVERIFY(int(v.userType()) == QMetaType::Float); QVERIFY(qVariantValue(v) == 128.0f); } class DynamicPropertyObject : public PropertyObject { public: inline DynamicPropertyObject() {} inline virtual bool event(QEvent *e) { if (e->type() == QEvent::DynamicPropertyChange) { changedDynamicProperties.append(static_cast(e)->propertyName()); } return QObject::event(e); } QList changedDynamicProperties; }; void tst_QObject::dynamicProperties() { DynamicPropertyObject obj; QVERIFY(obj.dynamicPropertyNames().isEmpty()); QVERIFY(obj.setProperty("number", 42)); QVERIFY(obj.changedDynamicProperties.isEmpty()); QCOMPARE(obj.property("number").toInt(), 42); QVERIFY(!obj.setProperty("number", "invalid string")); QVERIFY(obj.changedDynamicProperties.isEmpty()); QVERIFY(!obj.setProperty("myuserproperty", "Hello")); QCOMPARE(obj.changedDynamicProperties.count(), 1); QCOMPARE(obj.changedDynamicProperties.first(), QByteArray("myuserproperty")); obj.changedDynamicProperties.clear(); QCOMPARE(obj.property("myuserproperty").toString(), QString("Hello")); QCOMPARE(obj.dynamicPropertyNames().count(), 1); QCOMPARE(obj.dynamicPropertyNames().first(), QByteArray("myuserproperty")); QVERIFY(!obj.setProperty("myuserproperty", QVariant())); QCOMPARE(obj.changedDynamicProperties.count(), 1); QCOMPARE(obj.changedDynamicProperties.first(), QByteArray("myuserproperty")); obj.changedDynamicProperties.clear(); QVERIFY(obj.property("myuserproperty").isNull()); QVERIFY(obj.dynamicPropertyNames().isEmpty()); } void tst_QObject::recursiveSignalEmission() { #if defined(Q_OS_SYMBIAN) && defined(Q_CC_NOKIAX86) QSKIP("Emulator builds in Symbian do not support launching processes linking to Qt", SkipAll); #endif QProcess proc; proc.start("./signalbug"); QVERIFY(proc.waitForFinished()); QVERIFY(proc.exitStatus() == QProcess::NormalExit); QCOMPARE(proc.exitCode(), 0); } void tst_QObject::blockingQueuedConnection() { { SenderObject sender; MoveToThreadThread thread; ReceiverObject receiver; receiver.moveToThread(&thread); thread.start(); receiver.connect(&sender, SIGNAL(signal1()), SLOT(slot1()), Qt::BlockingQueuedConnection); sender.emitSignal1(); QVERIFY(receiver.called(1)); receiver.reset(); QVERIFY(QMetaObject::invokeMethod(&receiver, "slot1", Qt::BlockingQueuedConnection)); QVERIFY(receiver.called(1)); thread.quit(); QVERIFY(thread.wait()); } } class EventSpy : public QObject { Q_OBJECT public: typedef QList > EventList; EventSpy(QObject *parent = 0) : QObject(parent) { } EventList eventList() { return events; } void clear() { events.clear(); } bool eventFilter(QObject *object, QEvent *event) { events.append(qMakePair(object, event->type())); return false; } private: EventList events; }; void tst_QObject::compatibilityChildInsertedEvents() { EventSpy::EventList expected; { // no children created, so we expect no events QObject object; EventSpy spy; object.installEventFilter(&spy); QCoreApplication::postEvent(&object, new QEvent(QEvent::Type(QEvent::User + 1))); QCoreApplication::processEvents(); expected = EventSpy::EventList() << qMakePair(&object, QEvent::Type(QEvent::User + 1)); QCOMPARE(spy.eventList(), expected); } { // 2 children, so we expect 2 ChildAdded and 2 ChildInserted events QObject object; EventSpy spy; object.installEventFilter(&spy); QCoreApplication::postEvent(&object, new QEvent(QEvent::Type(QEvent::User + 1))); QObject child1(&object); QObject child2; child2.setParent(&object); QCoreApplication::postEvent(&object, new QEvent(QEvent::Type(QEvent::User + 2))); expected = EventSpy::EventList() << qMakePair(&object, QEvent::ChildAdded) << qMakePair(&object, QEvent::ChildAdded); QCOMPARE(spy.eventList(), expected); spy.clear(); QCoreApplication::processEvents(); expected = EventSpy::EventList() #ifdef QT_HAS_QT3SUPPORT << qMakePair(&object, QEvent::ChildInsertedRequest) << qMakePair(&object, QEvent::ChildInserted) << qMakePair(&object, QEvent::ChildInserted) #endif << qMakePair(&object, QEvent::Type(QEvent::User + 1)) << qMakePair(&object, QEvent::Type(QEvent::User + 2)); QCOMPARE(spy.eventList(), expected); } { // 2 children, but one is reparented away, so we expect: // 2 ChildAdded, 1 ChildRemoved, and 1 ChildInserted QObject object; EventSpy spy; object.installEventFilter(&spy); QCoreApplication::postEvent(&object, new QEvent(QEvent::Type(QEvent::User + 1))); QObject child1(&object); QObject child2; child2.setParent(&object); child2.setParent(0); QCoreApplication::postEvent(&object, new QEvent(QEvent::Type(QEvent::User + 2))); expected = EventSpy::EventList() << qMakePair(&object, QEvent::ChildAdded) << qMakePair(&object, QEvent::ChildAdded) << qMakePair(&object, QEvent::ChildRemoved); QCOMPARE(spy.eventList(), expected); spy.clear(); QCoreApplication::processEvents(); expected = EventSpy::EventList() #ifdef QT_HAS_QT3SUPPORT << qMakePair(&object, QEvent::ChildInsertedRequest) << qMakePair(&object, QEvent::ChildInserted) #endif << qMakePair(&object, QEvent::Type(QEvent::User + 1)) << qMakePair(&object, QEvent::Type(QEvent::User + 2)); QCOMPARE(spy.eventList(), expected); } } void tst_QObject::installEventFilter() { QEvent event(QEvent::User); EventSpy::EventList expected; QObject object; EventSpy spy; object.installEventFilter(&spy); // nothing special, should just work QCoreApplication::sendEvent(&object, &event); expected = EventSpy::EventList() << qMakePair(&object, QEvent::User); QCOMPARE(spy.eventList(), expected); spy.clear(); // moving the filter causes QCoreApplication to skip the filter spy.moveToThread(0); QTest::ignoreMessage(QtWarningMsg, "QCoreApplication: Object event filter cannot be in a different thread."); QCoreApplication::sendEvent(&object, &event); QVERIFY(spy.eventList().isEmpty()); // move it back, and the filter works again spy.moveToThread(object.thread()); QCoreApplication::sendEvent(&object, &event); expected = EventSpy::EventList() << qMakePair(&object, QEvent::User); QCOMPARE(spy.eventList(), expected); spy.clear(); // cannot install an event filter that lives in a different thread object.removeEventFilter(&spy); spy.moveToThread(0); QTest::ignoreMessage(QtWarningMsg, "QObject::installEventFilter(): Cannot filter events for objects in a different thread."); object.installEventFilter(&spy); QCoreApplication::sendEvent(&object, &event); QVERIFY(spy.eventList().isEmpty()); } class DeleteObject : public QObject { Q_OBJECT public slots: void deleteSelf() { delete this; } void relaySignalAndProcessEvents() { emit relayedSignal(); QCoreApplication::processEvents(); } signals: void relayedSignal(); }; void tst_QObject::deleteSelfInSlot() { { SenderObject sender; DeleteObject *receiver = new DeleteObject(); receiver->connect(&sender, SIGNAL(signal1()), SLOT(deleteSelf()), Qt::BlockingQueuedConnection); QThread thread; receiver->moveToThread(&thread); thread.connect(receiver, SIGNAL(destroyed()), SLOT(quit()), Qt::DirectConnection); thread.start(); QPointer p = receiver; sender.emitSignal1(); QVERIFY(p.isNull()); QVERIFY(thread.wait(10000)); } { SenderObject sender; DeleteObject *receiver = new DeleteObject(); receiver->connect(&sender, SIGNAL(signal1()), SLOT(relaySignalAndProcessEvents()), Qt::BlockingQueuedConnection); receiver->connect(receiver, SIGNAL(relayedSignal()), SLOT(deleteSelf()), Qt::QueuedConnection); QThread thread; receiver->moveToThread(&thread); thread.connect(receiver, SIGNAL(destroyed()), SLOT(quit()), Qt::DirectConnection); thread.start(); QPointer p = receiver; sender.emitSignal1(); QVERIFY(p.isNull()); QVERIFY(thread.wait(10000)); } } class DisconnectObject : public QObject { Q_OBJECT public slots: void disconnectSelf() { disconnect(sender(), 0, this, 0); } void relaySignalAndProcessEvents() { emit relayedSignal(); QCoreApplication::processEvents(); } signals: void relayedSignal(); }; void tst_QObject::disconnectSelfInSlotAndDeleteAfterEmit() { { SenderObject sender; DisconnectObject *receiver = new DisconnectObject(); receiver->connect(&sender, SIGNAL(signal1()), SLOT(disconnectSelf())); sender.emitSignal1AfterRecursion(); delete receiver; } { SenderObject sender; DisconnectObject *receiver = new DisconnectObject(); receiver->connect(&sender, SIGNAL(signal1()), SLOT(disconnectSelf()), Qt::BlockingQueuedConnection); QThread thread; receiver->moveToThread(&thread); thread.connect(receiver, SIGNAL(destroyed()), SLOT(quit()), Qt::DirectConnection); thread.start(); QPointer p = receiver; sender.emitSignal1(); QVERIFY(!p.isNull()); receiver->deleteLater(); QVERIFY(thread.wait(10000)); QVERIFY(p.isNull()); } { SenderObject sender; DisconnectObject *receiver = new DisconnectObject(); receiver->connect(&sender, SIGNAL(signal1()), SLOT(relaySignalAndProcessEvents()), Qt::BlockingQueuedConnection); receiver->connect(receiver, SIGNAL(relayedSignal()), SLOT(disconnectSelf()), Qt::QueuedConnection); QThread thread; receiver->moveToThread(&thread); thread.connect(receiver, SIGNAL(destroyed()), SLOT(quit()), Qt::DirectConnection); thread.start(); QPointer p = receiver; sender.emitSignal1(); QVERIFY(!p.isNull()); receiver->deleteLater(); QVERIFY(thread.wait(10000)); QVERIFY(p.isNull()); } } void tst_QObject::dumpObjectInfo() { QObject a, b; QObject::connect(&a, SIGNAL(destroyed(QObject *)), &b, SLOT(deleteLater())); a.disconnect(&b); a.dumpObjectInfo(); // should not crash } class ConnectToSender : public QObject { Q_OBJECT public slots: void uselessSlot() { count++; } void harmfullSlot() { //this used to crash connect(sender(), SIGNAL(signal4()), this, SLOT(uselessSlot())); //play a little bit with the memory in order to really get a segfault. connect(sender(), SIGNAL(signal1()), this, SLOT(uselessSlot())); QList() << 45 << 78 << 65 << 121 << 45 << 78 << 12; } public: int count; }; void tst_QObject::connectToSender() { SenderObject s; ConnectToSender r; r.count = 0; QObject::connect(&s, SIGNAL(signal1()), &r, SLOT(harmfullSlot())); QObject::connect(&s, SIGNAL(signal1()), &r, SLOT(uselessSlot())); s.emitSignal1(); QCOMPARE(r.count, 1); s.emitSignal4(); QCOMPARE(r.count, 2); } void tst_QObject::qobjectConstCast() { FooObject obj; QObject *ptr = &obj; const QObject *cptr = &obj; QVERIFY(qobject_cast(ptr)); QVERIFY(qobject_cast(cptr)); } QTEST_MAIN(tst_QObject) #include "tst_qobject.moc"