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qt5base-lts/tests/auto/tools/moc/tst_moc.cpp
Sergio Ahumada 48e0c4df23 Update copyright year in Digia's license headers 
Change-Id: Ic804938fc352291d011800d21e549c10acac66fb
Reviewed-by: Lars Knoll <lars.knoll@digia.com>
2013-01-18 09:07:35 +01:00

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/****************************************************************************
**
** Copyright (C) 2013 Digia Plc and/or its subsidiary(-ies).
** Contact: http://www.qt-project.org/legal
**
** This file is part of the test suite of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** Commercial License Usage
** Licensees holding valid commercial Qt licenses may use this file in
** accordance with the commercial license agreement provided with the
** Software or, alternatively, in accordance with the terms contained in
** a written agreement between you and Digia. For licensing terms and
** conditions see http://qt.digia.com/licensing. For further information
** use the contact form at http://qt.digia.com/contact-us.
**
** 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, Digia gives you certain additional
** rights. These rights are described in the Digia 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.
**
**
** $QT_END_LICENSE$
**
****************************************************************************/
#include <QtTest/QtTest>
#include <stdio.h>
#include <qobject.h>
#include <qmetaobject.h>
#include "using-namespaces.h"
#include "assign-namespace.h"
#include "no-keywords.h"
#include "single_function_keyword.h"
#include "backslash-newlines.h"
#include "slots-with-void-template.h"
#include "pure-virtual-signals.h"
#include "qinvokable.h"
// msvc and friends crap out on it
#if !defined(Q_CC_GNU) || defined(Q_OS_IRIX) || defined(Q_OS_WIN)
#define SKIP_NEWLINE_TEST
#endif
#if !defined(SKIP_NEWLINE_TEST)
#include "os9-newlines.h"
// msvc and friends crap out on this file too,
// it seems to contain Mac 9 EOLs, and not windows EOLs.
#include "win-newlines.h"
#endif
#include "escapes-in-string-literals.h"
#include "cstyle-enums.h"
#if defined(PARSE_BOOST)
#include "parse-boost.h"
#endif
#include "cxx11-enums.h"
#include "cxx11-final-classes.h"
#include "cxx11-explicit-override-control.h"
#include "parse-defines.h"
QT_USE_NAMESPACE
struct MyStruct {};
struct MyStruct2 {};
struct SuperClass {};
// Try to avoid inserting for instance a comment with a quote between the following line and the Q_OBJECT
// That will make the test give a false positive.
const char* test_multiple_number_of_escapes = "\\\"";
namespace MyNamespace
{
class TestSuperClass : public QObject
{
Q_OBJECT
public:
inline TestSuperClass() {}
};
}
namespace String
{
typedef QString Type;
}
namespace Int
{
typedef int Type;
}
typedef struct {
int doNotConfuseMoc;
} OldStyleCStruct;
class Sender : public QObject
{
Q_OBJECT
public:
void sendValue(const String::Type& value)
{
emit send(value);
}
void sendValue(const Int::Type& value)
{
emit send(value);
}
signals:
void send(const String::Type&);
void send(const Int::Type&);
};
class Receiver : public QObject
{
Q_OBJECT
public:
Receiver() : stringCallCount(0), intCallCount(0) {}
int stringCallCount;
int intCallCount;
public slots:
void receive(const String::Type&) { stringCallCount++; }
void receive(const Int::Type&) { intCallCount++; }
};
#define MACRO_WITH_POSSIBLE_COMPILER_SPECIFIC_ATTRIBUTES
#define DONT_CONFUSE_MOC(klass) klass
#define DONT_CONFUSE_MOC_EVEN_MORE(klass, dummy, dummy2) klass
Q_DECLARE_METATYPE(MyStruct)
Q_DECLARE_METATYPE(MyStruct*)
namespace myNS {
struct Points
{
Points() : p1(0xBEEF), p2(0xBABE) { }
int p1, p2;
};
}
Q_DECLARE_METATYPE(myNS::Points)
class TestClassinfoWithEscapes: public QObject
{
Q_OBJECT
Q_CLASSINFO("escaped", "\"bar\"")
Q_CLASSINFO("\"escaped\"", "foo")
public slots:
void slotWithAReallyLongName(int)
{ }
};
struct ForwardDeclaredStruct;
struct StructQObject : public QObject
{
Q_OBJECT
public:
void foo(struct ForwardDeclaredStruct *);
};
void StructQObject::foo(struct ForwardDeclaredStruct *)
{
struct Inner {
bool field;
};
struct Inner unusedVariable;
}
class TestClass : public MyNamespace::TestSuperClass, public DONT_CONFUSE_MOC(MyStruct),
public DONT_CONFUSE_MOC_EVEN_MORE(MyStruct2, dummy, ignored)
{
Q_OBJECT
Q_CLASSINFO("help", QT_TR_NOOP("Opening this will let you configure something"))
Q_PROPERTY(short int shortIntProperty READ shortIntProperty)
Q_PROPERTY(unsigned short int unsignedShortIntProperty READ unsignedShortIntProperty)
Q_PROPERTY(signed short int signedShortIntProperty READ signedShortIntProperty)
Q_PROPERTY(long int longIntProperty READ longIntProperty)
Q_PROPERTY(unsigned long int unsignedLongIntProperty READ unsignedLongIntProperty)
Q_PROPERTY(signed long int signedLongIntProperty READ signedLongIntProperty)
Q_PROPERTY(long double longDoubleProperty READ longDoubleProperty)
Q_PROPERTY(myNS::Points points READ points WRITE setPoints)
Q_CLASSINFO("Multi"
"line",
""
"This is a "
"multiline Q_CLASSINFO"
"")
// a really really long string that we have to cut into pieces in the generated stringdata
// table, otherwise msvc craps out
Q_CLASSINFO("D-Bus Introspection", ""
" <interface name=\"org.kde.KCookieServer\" >\n"
" <method name=\"findCookies\" >\n"
" <arg direction=\"in\" type=\"s\" name=\"url\" />\n"
" <arg direction=\"in\" type=\"x\" name=\"windowId\" />\n"
" <arg direction=\"out\" type=\"s\" name=\"cookies\" />\n"
" </method>\n"
" <method name=\"findDomains\" >\n"
" <arg direction=\"out\" type=\"as\" name=\"domains\" />\n"
" </method>\n"
" <method name=\"findCookies\" >\n"
" <arg direction=\"in\" type=\"ai\" name=\"fields\" />\n"
" <arg direction=\"in\" type=\"s\" name=\"domain\" />\n"
" <arg direction=\"in\" type=\"s\" name=\"fqdn\" />\n"
" <arg direction=\"in\" type=\"s\" name=\"path\" />\n"
" <arg direction=\"in\" type=\"s\" name=\"name\" />\n"
" <arg direction=\"out\" type=\"as\" name=\"cookies\" />\n"
" <annotation value=\"QList&lt;int>\" name=\"com.trolltech.QtDBus.QtTypeName.In0\" />\n"
" </method>\n"
" <method name=\"findDOMCookies\" >\n"
" <arg direction=\"in\" type=\"s\" name=\"url\" />\n"
" <arg direction=\"in\" type=\"x\" name=\"windowId\" />\n"
" <arg direction=\"out\" type=\"s\" name=\"cookies\" />\n"
" </method>\n"
" <method name=\"addCookies\" >\n"
" <arg direction=\"in\" type=\"s\" name=\"url\" />\n"
" <arg direction=\"in\" type=\"ay\" name=\"cookieHeader\" />\n"
" <arg direction=\"in\" type=\"x\" name=\"windowId\" />\n"
" </method>\n"
" <method name=\"deleteCookie\" >\n"
" <arg direction=\"in\" type=\"s\" name=\"domain\" />\n"
" <arg direction=\"in\" type=\"s\" name=\"fqdn\" />\n"
" <arg direction=\"in\" type=\"s\" name=\"path\" />\n"
" <arg direction=\"in\" type=\"s\" name=\"name\" />\n"
" </method>\n"
" <method name=\"deleteCookiesFromDomain\" >\n"
" <arg direction=\"in\" type=\"s\" name=\"domain\" />\n"
" </method>\n"
" <method name=\"deleteSessionCookies\" >\n"
" <arg direction=\"in\" type=\"x\" name=\"windowId\" />\n"
" </method>\n"
" <method name=\"deleteSessionCookiesFor\" >\n"
" <arg direction=\"in\" type=\"s\" name=\"fqdn\" />\n"
" <arg direction=\"in\" type=\"x\" name=\"windowId\" />\n"
" </method>\n"
" <method name=\"deleteAllCookies\" />\n"
" <method name=\"addDOMCookies\" >\n"
" <arg direction=\"in\" type=\"s\" name=\"url\" />\n"
" <arg direction=\"in\" type=\"ay\" name=\"cookieHeader\" />\n"
" <arg direction=\"in\" type=\"x\" name=\"windowId\" />\n"
" </method>\n"
" <method name=\"setDomainAdvice\" >\n"
" <arg direction=\"in\" type=\"s\" name=\"url\" />\n"
" <arg direction=\"in\" type=\"s\" name=\"advice\" />\n"
" </method>\n"
" <method name=\"getDomainAdvice\" >\n"
" <arg direction=\"in\" type=\"s\" name=\"url\" />\n"
" <arg direction=\"out\" type=\"s\" name=\"advice\" />\n"
" </method>\n"
" <method name=\"reloadPolicy\" />\n"
" <method name=\"shutdown\" />\n"
" </interface>\n"
"")
public:
inline TestClass() {}
private slots:
inline void dummy1() MACRO_WITH_POSSIBLE_COMPILER_SPECIFIC_ATTRIBUTES {}
inline void dummy2() MACRO_WITH_POSSIBLE_COMPILER_SPECIFIC_ATTRIBUTES const {}
inline void dummy3() const MACRO_WITH_POSSIBLE_COMPILER_SPECIFIC_ATTRIBUTES {}
void slotWithULongLong(unsigned long long) {}
void slotWithULongLongP(unsigned long long*) {}
void slotWithULong(unsigned long) {}
void slotWithLongLong(long long) {}
void slotWithLong(long) {}
void slotWithColonColonType(::Int::Type) {}
TestClass &slotWithReferenceReturnType() { return *this; }
#if (0 && 1) || 1
void expressionEvaluationShortcut1() {}
#endif
#if (1 || 0) && 0
#else
void expressionEvaluationShortcut2() {}
#endif
public slots:
void slotWithArray(const double[3]) {}
void slotWithNamedArray(const double namedArray[3]) { Q_UNUSED(namedArray); }
void slotWithMultiArray(const double[3][4]) {}
short int shortIntProperty() { return 0; }
unsigned short int unsignedShortIntProperty() { return 0; }
signed short int signedShortIntProperty() { return 0; }
long int longIntProperty() { return 0; }
unsigned long int unsignedLongIntProperty() { return 0; }
signed long int signedLongIntProperty() { return 0; }
long double longDoubleProperty() { return 0.0; }
myNS::Points points() { return m_points; }
void setPoints(myNS::Points points) { m_points = points; }
signals:
void signalWithArray(const double[3]);
void signalWithNamedArray(const double namedArray[3]);
private slots:
// for tst_Moc::preprocessorConditionals
#if 0
void invalidSlot() {}
#else
void slotInElse() {}
#endif
#if 1
void slotInIf() {}
#else
void invalidSlot() {}
#endif
#if 0
void invalidSlot() {}
#elif 0
#else
void slotInLastElse() {}
#endif
#if 0
void invalidSlot() {}
#elif 1
void slotInElif() {}
#else
void invalidSlot() {}
#endif
friend class Receiver; // task #85783
signals:
friend class Sender; // task #85783
#define MACRO_DEFINED
#if !(defined MACRO_UNDEF || defined MACRO_DEFINED) || 1
void signalInIf1();
#else
void doNotExist();
#endif
#if !(!defined MACRO_UNDEF || !defined MACRO_DEFINED) && 1
void doNotExist();
#else
void signalInIf2();
#endif
#if !(!defined (MACRO_DEFINED) || !defined (MACRO_UNDEF)) && 1
void doNotExist();
#else
void signalInIf3();
#endif
# //QTBUG-22717
# /* */
#
# \
//
public slots:
void const slotWithSillyConst() {}
public:
Q_INVOKABLE void const slotWithSillyConst2() {}
Q_INVOKABLE QObject& myInvokableReturningRef()
{ return *this; }
Q_INVOKABLE const QObject& myInvokableReturningConstRef() const
{ return *this; }
// that one however should be fine
public slots:
void slotWithVoidStar(void *) {}
private:
myNS::Points m_points;
private slots:
inline virtual void blub1() {}
virtual inline void blub2() {}
};
class PropertyTestClass : public QObject
{
Q_OBJECT
public:
enum TestEnum { One, Two, Three };
Q_ENUMS(TestEnum)
};
class PropertyUseClass : public QObject
{
Q_OBJECT
Q_PROPERTY(PropertyTestClass::TestEnum foo READ foo)
public:
inline PropertyTestClass::TestEnum foo() const { return PropertyTestClass::One; }
};
class EnumSourceClass : public QObject
{
Q_OBJECT
public:
enum TestEnum { Value = 37 };
Q_ENUMS(TestEnum)
};
class EnumUserClass : public QObject
{
Q_OBJECT
public:
Q_ENUMS(EnumSourceClass::TestEnum)
};
#if defined(Q_MOC_RUN)
// Task #119503
#define _TASK_119503
#if !_TASK_119503
#endif
#endif
static QString srcify(const char *path)
{
#ifndef Q_OS_IRIX
return QString(SRCDIR) + QLatin1Char('/') + QLatin1String(path);
#else
return QString(QLatin1String(path));
#endif
}
class CtorTestClass : public QObject
{
Q_OBJECT
public:
Q_INVOKABLE CtorTestClass(QObject *parent = 0);
CtorTestClass(int foo);
inline Q_INVOKABLE CtorTestClass(const QString &str)
{ m_str = str; }
QString m_str;
protected:
CtorTestClass(int foo, int bar, int baz);
private:
CtorTestClass(float, float) {}
};
CtorTestClass::CtorTestClass(QObject *parent)
: QObject(parent) {}
CtorTestClass::CtorTestClass(int, int, int) {}
class tst_Moc : public QObject
{
Q_OBJECT
Q_PROPERTY(bool user1 READ user1 USER true )
Q_PROPERTY(bool user2 READ user2 USER false)
Q_PROPERTY(bool user3 READ user3 USER userFunction())
public:
inline tst_Moc() {}
private slots:
void initTestCase();
void slotWithException() throw(MyStruct);
void dontStripNamespaces();
void oldStyleCasts();
void warnOnExtraSignalSlotQualifiaction();
void uLongLong();
void inputFileNameWithDotsButNoExtension();
void userProperties();
void supportConstSignals();
void task87883();
void multilineComments();
void classinfoWithEscapes();
void trNoopInClassInfo();
void ppExpressionEvaluation();
void arrayArguments();
void preprocessorConditionals();
void blackslashNewlines();
void slotWithSillyConst();
void testExtraData();
void testExtraDataForEnum();
void namespaceTypeProperty();
void slotsWithVoidTemplate();
void structQObject();
void namespacedFlags();
void warnOnMultipleInheritance();
void forgottenQInterface();
void os9Newline();
void winNewline();
void escapesInStringLiterals();
void frameworkSearchPath();
void cstyleEnums();
void defineMacroViaCmdline();
void invokable();
void singleFunctionKeywordSignalAndSlot();
void templateGtGt();
void qprivateslots();
void qprivateproperties();
void inlineSlotsWithThrowDeclaration();
void warnOnPropertyWithoutREAD();
void constructors();
void typenameWithUnsigned();
void warnOnVirtualSignal();
void QTBUG5590_dummyProperty();
void QTBUG12260_defaultTemplate();
void notifyError();
void QTBUG17635_invokableAndProperty();
void revisions();
void warnings_data();
void warnings();
void privateClass();
void cxx11Enums_data();
void cxx11Enums();
void returnRefs();
void privateSignalConnection();
void finalClasses_data();
void finalClasses();
void explicitOverrideControl_data();
void explicitOverrideControl();
void autoPropertyMetaTypeRegistration();
void autoMethodArgumentMetaTypeRegistration();
void parseDefines();
void preprocessorOnly();
signals:
void sigWithUnsignedArg(unsigned foo);
void sigWithSignedArg(signed foo);
void sigWithConstSignedArg(const signed foo);
void sigWithVolatileConstSignedArg(volatile const signed foo);
void sigWithCustomType(const MyStruct);
void constSignal1() const;
void constSignal2(int arg) const;
private:
bool user1() { return true; };
bool user2() { return false; };
bool user3() { return false; };
bool userFunction(){ return false; };
template <class T> void revisions_T();
private:
QString qtIncludePath;
class PrivateClass;
};
void tst_Moc::initTestCase()
{
#if defined(Q_OS_UNIX) && !defined(QT_NO_PROCESS)
QProcess proc;
proc.start("qmake", QStringList() << "-query" << "QT_INSTALL_HEADERS");
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QByteArray output = proc.readAllStandardOutput();
QVERIFY(!output.isEmpty());
QCOMPARE(proc.readAllStandardError(), QByteArray());
qtIncludePath = QString::fromLocal8Bit(output).trimmed();
QFileInfo fi(qtIncludePath);
QVERIFY(fi.exists());
QVERIFY(fi.isDir());
#endif
}
void tst_Moc::slotWithException() throw(MyStruct)
{
// be happy
QVERIFY(true);
}
void tst_Moc::dontStripNamespaces()
{
Sender sender;
Receiver receiver;
connect(&sender, SIGNAL(send(const String::Type &)),
&receiver, SLOT(receive(const String::Type &)));
connect(&sender, SIGNAL(send(const Int::Type &)),
&receiver, SLOT(receive(const Int::Type &)));
sender.sendValue(String::Type("Hello"));
QCOMPARE(receiver.stringCallCount, 1);
QCOMPARE(receiver.intCallCount, 0);
sender.sendValue(Int::Type(42));
QCOMPARE(receiver.stringCallCount, 1);
QCOMPARE(receiver.intCallCount, 1);
}
void tst_Moc::oldStyleCasts()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && !defined(QT_NO_PROCESS)
QProcess proc;
proc.start("moc", QStringList(srcify("/oldstyle-casts.h")));
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QByteArray mocOut = proc.readAllStandardOutput();
QVERIFY(!mocOut.isEmpty());
QCOMPARE(proc.readAllStandardError(), QByteArray());
QStringList args;
args << "-c" << "-x" << "c++" << "-Wold-style-cast" << "-I" << "."
<< "-I" << qtIncludePath << "-o" << "/dev/null" << "-fPIE" << "-";
proc.start("gcc", args);
QVERIFY(proc.waitForStarted());
proc.write(mocOut);
proc.closeWriteChannel();
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QCOMPARE(QString::fromLocal8Bit(proc.readAllStandardError()), QString());
#else
QSKIP("Only tested on linux/gcc");
#endif
}
void tst_Moc::warnOnExtraSignalSlotQualifiaction()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && !defined(QT_NO_PROCESS)
QProcess proc;
proc.start("moc", QStringList(srcify("extraqualification.h")));
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QByteArray mocOut = proc.readAllStandardOutput();
QVERIFY(!mocOut.isEmpty());
QString mocWarning = QString::fromLocal8Bit(proc.readAllStandardError());
QCOMPARE(mocWarning, QString(SRCDIR) +
QString("/extraqualification.h:53: Warning: Function declaration Test::badFunctionDeclaration contains extra qualification. Ignoring as signal or slot.\n") +
QString(SRCDIR) + QString("/extraqualification.h:56: Warning: parsemaybe: Function declaration Test::anotherOne contains extra qualification. Ignoring as signal or slot.\n"));
#else
QSKIP("Only tested on linux/gcc");
#endif
}
void tst_Moc::uLongLong()
{
TestClass tst;
const QMetaObject *mobj = tst.metaObject();
int idx = mobj->indexOfSlot("slotWithULong(ulong)");
QVERIFY(idx != -1);
idx = mobj->indexOfSlot("slotWithULongLong(unsigned long long)");
QVERIFY(idx != -1);
idx = mobj->indexOfSlot("slotWithULongLongP(unsigned long long*)");
QVERIFY(idx != -1);
idx = mobj->indexOfSlot("slotWithLong(long)");
QVERIFY(idx != -1);
idx = mobj->indexOfSlot("slotWithLongLong(long long)");
QVERIFY(idx != -1);
}
void tst_Moc::inputFileNameWithDotsButNoExtension()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && !defined(QT_NO_PROCESS)
QProcess proc;
proc.setWorkingDirectory(QString(SRCDIR) + "/task71021");
proc.start("moc", QStringList("../Header"));
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QByteArray mocOut = proc.readAllStandardOutput();
QVERIFY(!mocOut.isEmpty());
QCOMPARE(proc.readAllStandardError(), QByteArray());
QStringList args;
args << "-c" << "-x" << "c++" << "-I" << ".."
<< "-I" << qtIncludePath << "-o" << "/dev/null" << "-fPIE" << "-";
proc.start("gcc", args);
QVERIFY(proc.waitForStarted());
proc.write(mocOut);
proc.closeWriteChannel();
QVERIFY(proc.waitForFinished());
QCOMPARE(QString::fromLocal8Bit(proc.readAllStandardError()), QString());
QCOMPARE(proc.exitCode(), 0);
#else
QSKIP("Only tested on linux/gcc");
#endif
}
void tst_Moc::userProperties()
{
const QMetaObject *mobj = metaObject();
QMetaProperty property = mobj->property(mobj->indexOfProperty("user1"));
QVERIFY(property.isValid());
QVERIFY(property.isUser());
property = mobj->property(mobj->indexOfProperty("user2"));
QVERIFY(property.isValid());
QVERIFY(!property.isUser());
property = mobj->property(mobj->indexOfProperty("user3"));
QVERIFY(property.isValid());
QVERIFY(!property.isUser(this));
}
void tst_Moc::supportConstSignals()
{
QSignalSpy spy1(this, SIGNAL(constSignal1()));
QVERIFY(spy1.isEmpty());
emit constSignal1();
QCOMPARE(spy1.count(), 1);
QSignalSpy spy2(this, SIGNAL(constSignal2(int)));
QVERIFY(spy2.isEmpty());
emit constSignal2(42);
QCOMPARE(spy2.count(), 1);
QCOMPARE(spy2.at(0).at(0).toInt(), 42);
}
#include "task87883.h"
void tst_Moc::task87883()
{
QVERIFY(Task87883::staticMetaObject.className());
}
#include "c-comments.h"
void tst_Moc::multilineComments()
{
QVERIFY(IfdefedClass::staticMetaObject.className());
}
void tst_Moc::classinfoWithEscapes()
{
const QMetaObject *mobj = &TestClassinfoWithEscapes::staticMetaObject;
QCOMPARE(mobj->methodCount() - mobj->methodOffset(), 1);
QMetaMethod mm = mobj->method(mobj->methodOffset());
QCOMPARE(mm.methodSignature(), QByteArray("slotWithAReallyLongName(int)"));
}
void tst_Moc::trNoopInClassInfo()
{
TestClass t;
const QMetaObject *mobj = t.metaObject();
QVERIFY(mobj);
QCOMPARE(mobj->classInfoCount(), 3);
QCOMPARE(mobj->indexOfClassInfo("help"), 0);
QCOMPARE(QString(mobj->classInfo(0).value()), QString("Opening this will let you configure something"));
}
void tst_Moc::ppExpressionEvaluation()
{
TestClass tst;
const QMetaObject *mobj = tst.metaObject();
int idx = mobj->indexOfSlot("expressionEvaluationShortcut1()");
QVERIFY(idx != -1);
idx = mobj->indexOfSlot("expressionEvaluationShortcut2()");
QVERIFY(idx != -1);
}
void tst_Moc::arrayArguments()
{
TestClass tst;
const QMetaObject *mobj = tst.metaObject();
QVERIFY(mobj->indexOfSlot("slotWithArray(const double[3])") != -1);
QVERIFY(mobj->indexOfSlot("slotWithNamedArray(const double[3])") != -1);
QVERIFY(mobj->indexOfSlot("slotWithMultiArray(const double[3][4])") != -1);
QVERIFY(mobj->indexOfSignal("signalWithArray(const double[3])") != -1);
QVERIFY(mobj->indexOfSignal("signalWithNamedArray(const double[3])") != -1);
}
void tst_Moc::preprocessorConditionals()
{
TestClass tst;
const QMetaObject *mobj = tst.metaObject();
QVERIFY(mobj->indexOfSlot("slotInElse()") != -1);
QVERIFY(mobj->indexOfSlot("slotInIf()") != -1);
QVERIFY(mobj->indexOfSlot("slotInLastElse()") != -1);
QVERIFY(mobj->indexOfSlot("slotInElif()") != -1);
QVERIFY(mobj->indexOfSignal("signalInIf1()") != -1);
QVERIFY(mobj->indexOfSignal("signalInIf2()") != -1);
QVERIFY(mobj->indexOfSignal("signalInIf3()") != -1);
QVERIFY(mobj->indexOfSignal("doNotExist()") == -1);
}
void tst_Moc::blackslashNewlines()
{
BackslashNewlines tst;
const QMetaObject *mobj = tst.metaObject();
QVERIFY(mobj->indexOfSlot("works()") != -1);
QVERIFY(mobj->indexOfSlot("buggy()") == -1);
}
void tst_Moc::slotWithSillyConst()
{
TestClass tst;
const QMetaObject *mobj = tst.metaObject();
QVERIFY(mobj->indexOfSlot("slotWithSillyConst()") != -1);
QVERIFY(mobj->indexOfMethod("slotWithSillyConst2()") != -1);
QVERIFY(mobj->indexOfSlot("slotWithVoidStar(void*)") != -1);
}
void tst_Moc::testExtraData()
{
const QMetaObject *mobj = &PropertyTestClass::staticMetaObject;
QCOMPARE(mobj->enumeratorCount(), 1);
QCOMPARE(QByteArray(mobj->enumerator(0).name()), QByteArray("TestEnum"));
mobj = &PropertyUseClass::staticMetaObject;
const int idx = mobj->indexOfProperty("foo");
QVERIFY(idx != -1);
const QMetaProperty prop = mobj->property(idx);
QVERIFY(prop.isValid());
QVERIFY(prop.isEnumType());
const QMetaEnum en = prop.enumerator();
QCOMPARE(QByteArray(en.name()), QByteArray("TestEnum"));
}
// QTBUG-20639 - Accept non-local enums for QML signal/slot parameters.
void tst_Moc::testExtraDataForEnum()
{
const QMetaObject *mobjSource = &EnumSourceClass::staticMetaObject;
QCOMPARE(mobjSource->enumeratorCount(), 1);
QCOMPARE(QByteArray(mobjSource->enumerator(0).name()), QByteArray("TestEnum"));
const QMetaObject *mobjUser = &EnumUserClass::staticMetaObject;
QCOMPARE(mobjUser->enumeratorCount(), 0);
const QMetaObject **objects = mobjUser->d.relatedMetaObjects;
QVERIFY(objects);
QVERIFY(objects[0] == mobjSource);
QVERIFY(objects[1] == 0);
}
void tst_Moc::namespaceTypeProperty()
{
qRegisterMetaType<myNS::Points>("myNS::Points");
TestClass tst;
QByteArray ba = QByteArray("points");
QVariant v = tst.property(ba);
QVERIFY(v.isValid());
myNS::Points p = qvariant_cast<myNS::Points>(v);
QCOMPARE(p.p1, 0xBEEF);
QCOMPARE(p.p2, 0xBABE);
p.p1 = 0xCAFE;
p.p2 = 0x1EE7;
QVERIFY(tst.setProperty(ba, QVariant::fromValue(p)));
myNS::Points pp = qvariant_cast<myNS::Points>(tst.property(ba));
QCOMPARE(p.p1, pp.p1);
QCOMPARE(p.p2, pp.p2);
}
void tst_Moc::slotsWithVoidTemplate()
{
SlotsWithVoidTemplateTest test;
QVERIFY(QObject::connect(&test, SIGNAL(myVoidSignal(void)),
&test, SLOT(dummySlot(void))));
QVERIFY(QObject::connect(&test, SIGNAL(mySignal(const TestTemplate<void> &)),
&test, SLOT(anotherSlot(const TestTemplate<void> &))));
QVERIFY(QObject::connect(&test, SIGNAL(myVoidSignal2()),
&test, SLOT(dummySlot2())));
}
void tst_Moc::structQObject()
{
StructQObject o;
QCOMPARE(QByteArray(o.metaObject()->className()), QByteArray("StructQObject"));
}
#include "namespaced-flags.h"
Q_DECLARE_METATYPE(QList<Foo::Bar::Flags>);
void tst_Moc::namespacedFlags()
{
Foo::Baz baz;
Foo::Bar bar;
bar.setFlags(Foo::Bar::Read | Foo::Bar::Write);
QVERIFY(baz.flags() != bar.flags());
const QVariant v = bar.property("flags");
QVERIFY(v.isValid());
QVERIFY(baz.setProperty("flags", v));
QVERIFY(baz.flags() == bar.flags());
QList<Foo::Bar::Flags> l;
l << baz.flags();
QVariant v2 = baz.setProperty("flagsList", QVariant::fromValue(l));
QCOMPARE(l, baz.flagsList());
QCOMPARE(l, qvariant_cast<QList<Foo::Bar::Flags> >(baz.property("flagsList")));
}
void tst_Moc::warnOnMultipleInheritance()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && !defined(QT_NO_PROCESS)
QProcess proc;
QStringList args;
args << "-I" << qtIncludePath + "/QtGui"
<< srcify("warn-on-multiple-qobject-subclasses.h");
proc.start("moc", args);
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QByteArray mocOut = proc.readAllStandardOutput();
QVERIFY(!mocOut.isEmpty());
QString mocWarning = QString::fromLocal8Bit(proc.readAllStandardError());
QCOMPARE(mocWarning, QString(SRCDIR) +
QString("/warn-on-multiple-qobject-subclasses.h:53: Warning: Class Bar inherits from two QObject subclasses QWindow and Foo. This is not supported!\n"));
#else
QSKIP("Only tested on linux/gcc");
#endif
}
void tst_Moc::forgottenQInterface()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && !defined(QT_NO_PROCESS)
QProcess proc;
QStringList args;
args << "-I" << qtIncludePath + "/QtCore"
<< srcify("forgotten-qinterface.h");
proc.start("moc", args);
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QByteArray mocOut = proc.readAllStandardOutput();
QVERIFY(!mocOut.isEmpty());
QString mocWarning = QString::fromLocal8Bit(proc.readAllStandardError());
QCOMPARE(mocWarning, QString(SRCDIR) +
QString("/forgotten-qinterface.h:55: Warning: Class Test implements the interface MyInterface but does not list it in Q_INTERFACES. qobject_cast to MyInterface will not work!\n"));
#else
QSKIP("Only tested on linux/gcc");
#endif
}
void tst_Moc::os9Newline()
{
#if !defined(SKIP_NEWLINE_TEST)
const QMetaObject &mo = Os9Newlines::staticMetaObject;
QVERIFY(mo.indexOfSlot("testSlot()") != -1);
QFile f(srcify("os9-newlines.h"));
QVERIFY(f.open(QIODevice::ReadOnly)); // no QIODevice::Text!
QByteArray data = f.readAll();
f.close();
QVERIFY(!data.contains('\n'));
QVERIFY(data.contains('\r'));
#endif
}
void tst_Moc::winNewline()
{
#if !defined(SKIP_NEWLINE_TEST)
const QMetaObject &mo = WinNewlines::staticMetaObject;
QVERIFY(mo.indexOfSlot("testSlot()") != -1);
QFile f(srcify("win-newlines.h"));
QVERIFY(f.open(QIODevice::ReadOnly)); // no QIODevice::Text!
QByteArray data = f.readAll();
f.close();
for (int i = 0; i < data.count(); ++i) {
if (data.at(i) == QLatin1Char('\r')) {
QVERIFY(i < data.count() - 1);
++i;
QVERIFY(data.at(i) == '\n');
} else {
QVERIFY(data.at(i) != '\n');
}
}
#endif
}
void tst_Moc::escapesInStringLiterals()
{
const QMetaObject &mo = StringLiterals::staticMetaObject;
QCOMPARE(mo.classInfoCount(), 3);
int idx = mo.indexOfClassInfo("Test");
QVERIFY(idx != -1);
QMetaClassInfo info = mo.classInfo(idx);
QCOMPARE(QByteArray(info.value()),
QByteArray("aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa\x53"));
QVERIFY(idx != -1);
idx = mo.indexOfClassInfo("Test2");
info = mo.classInfo(idx);
QCOMPARE(QByteArray(info.value()),
QByteArray("aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa\123"));
QVERIFY(idx != -1);
idx = mo.indexOfClassInfo("Test3");
info = mo.classInfo(idx);
QCOMPARE(QByteArray(info.value()),
QByteArray("aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa\nb"));
}
void tst_Moc::frameworkSearchPath()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
#if defined(Q_OS_UNIX) && !defined(QT_NO_PROCESS)
QStringList args;
args << "-F" << srcify(".")
<< srcify("interface-from-framework.h")
;
QProcess proc;
proc.start("moc", args);
bool finished = proc.waitForFinished();
if (!finished)
qWarning("waitForFinished failed. QProcess error: %d", (int)proc.error());
QVERIFY(finished);
if (proc.exitCode() != 0) {
qDebug() << proc.readAllStandardError();
}
QCOMPARE(proc.exitCode(), 0);
QCOMPARE(proc.readAllStandardError(), QByteArray());
#else
QSKIP("Only tested/relevant on unixy platforms");
#endif
}
void tst_Moc::cstyleEnums()
{
const QMetaObject &obj = CStyleEnums::staticMetaObject;
QCOMPARE(obj.enumeratorCount(), 1);
QMetaEnum metaEnum = obj.enumerator(0);
QCOMPARE(metaEnum.name(), "Baz");
QCOMPARE(metaEnum.keyCount(), 2);
QCOMPARE(metaEnum.key(0), "Foo");
QCOMPARE(metaEnum.key(1), "Bar");
}
void tst_Moc::templateGtGt()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && !defined(QT_NO_PROCESS)
QProcess proc;
proc.start("moc", QStringList(srcify("template-gtgt.h")));
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QByteArray mocOut = proc.readAllStandardOutput();
QVERIFY(!mocOut.isEmpty());
QString mocWarning = QString::fromLocal8Bit(proc.readAllStandardError());
QVERIFY(mocWarning.isEmpty());
#else
QSKIP("Only tested on linux/gcc");
#endif
}
void tst_Moc::defineMacroViaCmdline()
{
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && !defined(QT_NO_PROCESS)
QProcess proc;
QStringList args;
args << "-DFOO";
args << srcify("macro-on-cmdline.h");
proc.start("moc", args);
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QCOMPARE(proc.readAllStandardError(), QByteArray());
QByteArray mocOut = proc.readAllStandardOutput();
QVERIFY(!mocOut.isEmpty());
#else
QSKIP("Only tested on linux/gcc");
#endif
}
void tst_Moc::invokable()
{
{
const QMetaObject &mobj = InvokableBeforeReturnType::staticMetaObject;
QCOMPARE(mobj.methodCount(), 6);
QVERIFY(mobj.method(5).methodSignature() == QByteArray("foo()"));
}
{
const QMetaObject &mobj = InvokableBeforeInline::staticMetaObject;
QCOMPARE(mobj.methodCount(), 7);
QVERIFY(mobj.method(5).methodSignature() == QByteArray("foo()"));
QVERIFY(mobj.method(6).methodSignature() == QByteArray("bar()"));
}
}
void tst_Moc::singleFunctionKeywordSignalAndSlot()
{
{
const QMetaObject &mobj = SingleFunctionKeywordBeforeReturnType::staticMetaObject;
QCOMPARE(mobj.methodCount(), 7);
QVERIFY(mobj.method(5).methodSignature() == QByteArray("mySignal()"));
QVERIFY(mobj.method(6).methodSignature() == QByteArray("mySlot()"));
}
{
const QMetaObject &mobj = SingleFunctionKeywordBeforeInline::staticMetaObject;
QCOMPARE(mobj.methodCount(), 7);
QVERIFY(mobj.method(5).methodSignature() == QByteArray("mySignal()"));
QVERIFY(mobj.method(6).methodSignature() == QByteArray("mySlot()"));
}
{
const QMetaObject &mobj = SingleFunctionKeywordAfterInline::staticMetaObject;
QCOMPARE(mobj.methodCount(), 7);
QVERIFY(mobj.method(5).methodSignature() == QByteArray("mySignal()"));
QVERIFY(mobj.method(6).methodSignature() == QByteArray("mySlot()"));
}
}
#include "qprivateslots.h"
void tst_Moc::qprivateslots()
{
TestQPrivateSlots tst;
const QMetaObject *mobj = tst.metaObject();
QVERIFY(mobj->indexOfSlot("_q_privateslot()") != -1);
QVERIFY(mobj->indexOfMethod("method1()") != -1); //tast204730
}
class PrivatePropertyTest : public QObject
{
Q_OBJECT
Q_PROPERTY(int foo READ foo WRITE setFoo)
Q_PRIVATE_PROPERTY(d, int bar READ bar WRITE setBar)
Q_PRIVATE_PROPERTY(PrivatePropertyTest::d, int plop READ plop WRITE setPlop)
Q_PRIVATE_PROPERTY(PrivatePropertyTest::d_func(), int baz READ baz WRITE setBaz)
class MyDPointer {
public:
MyDPointer() : mBar(0), mPlop(0) {}
int bar() { return mBar ; }
void setBar(int value) { mBar = value; }
int plop() { return mPlop ; }
void setPlop(int value) { mPlop = value; }
int baz() { return mBaz ; }
void setBaz(int value) { mBaz = value; }
private:
int mBar;
int mPlop;
int mBaz;
};
public:
PrivatePropertyTest() : mFoo(0), d (new MyDPointer) {}
int foo() { return mFoo ; }
void setFoo(int value) { mFoo = value; }
MyDPointer *d_func() {return d;}
private:
int mFoo;
MyDPointer *d;
};
void tst_Moc::qprivateproperties()
{
PrivatePropertyTest test;
test.setProperty("foo", 1);
QCOMPARE(test.property("foo"), QVariant::fromValue(1));
test.setProperty("bar", 2);
QCOMPARE(test.property("bar"), QVariant::fromValue(2));
test.setProperty("plop", 3);
QCOMPARE(test.property("plop"), QVariant::fromValue(3));
test.setProperty("baz", 4);
QCOMPARE(test.property("baz"), QVariant::fromValue(4));
}
#include "task189996.h"
void InlineSlotsWithThrowDeclaration::c() throw() {}
void tst_Moc::inlineSlotsWithThrowDeclaration()
{
InlineSlotsWithThrowDeclaration tst;
const QMetaObject *mobj = tst.metaObject();
QVERIFY(mobj->indexOfSlot("a()") != -1);
QVERIFY(mobj->indexOfSlot("b()") != -1);
QVERIFY(mobj->indexOfSlot("c()") != -1);
QVERIFY(mobj->indexOfSlot("d()") != -1);
QVERIFY(mobj->indexOfSlot("e()") != -1);
}
void tst_Moc::warnOnPropertyWithoutREAD()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && !defined(QT_NO_PROCESS)
QProcess proc;
proc.start("moc", QStringList(srcify("warn-on-property-without-read.h")));
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QByteArray mocOut = proc.readAllStandardOutput();
QVERIFY(!mocOut.isEmpty());
QString mocWarning = QString::fromLocal8Bit(proc.readAllStandardError());
QCOMPARE(mocWarning, QString(SRCDIR) +
QString("/warn-on-property-without-read.h:46: Warning: Property declaration foo has no READ accessor function. The property will be invalid.\n"));
#else
QSKIP("Only tested on linux/gcc");
#endif
}
void tst_Moc::constructors()
{
const QMetaObject *mo = &CtorTestClass::staticMetaObject;
QCOMPARE(mo->constructorCount(), 3);
{
QMetaMethod mm = mo->constructor(0);
QCOMPARE(mm.access(), QMetaMethod::Public);
QCOMPARE(mm.methodType(), QMetaMethod::Constructor);
QCOMPARE(mm.methodSignature(), QByteArray("CtorTestClass(QObject*)"));
QCOMPARE(mm.typeName(), "");
QList<QByteArray> paramNames = mm.parameterNames();
QCOMPARE(paramNames.size(), 1);
QCOMPARE(paramNames.at(0), QByteArray("parent"));
QList<QByteArray> paramTypes = mm.parameterTypes();
QCOMPARE(paramTypes.size(), 1);
QCOMPARE(paramTypes.at(0), QByteArray("QObject*"));
}
{
QMetaMethod mm = mo->constructor(1);
QCOMPARE(mm.access(), QMetaMethod::Public);
QCOMPARE(mm.methodType(), QMetaMethod::Constructor);
QCOMPARE(mm.methodSignature(), QByteArray("CtorTestClass()"));
QCOMPARE(mm.typeName(), "");
QCOMPARE(mm.parameterNames().size(), 0);
QCOMPARE(mm.parameterTypes().size(), 0);
}
{
QMetaMethod mm = mo->constructor(2);
QCOMPARE(mm.access(), QMetaMethod::Public);
QCOMPARE(mm.methodType(), QMetaMethod::Constructor);
QCOMPARE(mm.methodSignature(), QByteArray("CtorTestClass(QString)"));
QCOMPARE(mm.typeName(), "");
QList<QByteArray> paramNames = mm.parameterNames();
QCOMPARE(paramNames.size(), 1);
QCOMPARE(paramNames.at(0), QByteArray("str"));
QList<QByteArray> paramTypes = mm.parameterTypes();
QCOMPARE(paramTypes.size(), 1);
QCOMPARE(paramTypes.at(0), QByteArray("QString"));
}
QCOMPARE(mo->indexOfConstructor("CtorTestClass(QObject*)"), 0);
QCOMPARE(mo->indexOfConstructor("CtorTestClass()"), 1);
QCOMPARE(mo->indexOfConstructor("CtorTestClass(QString)"), 2);
QCOMPARE(mo->indexOfConstructor("CtorTestClass2(QObject*)"), -1);
QCOMPARE(mo->indexOfConstructor("CtorTestClass(float,float)"), -1);
QObject *o1 = mo->newInstance();
QVERIFY(o1 != 0);
QCOMPARE(o1->parent(), (QObject*)0);
QVERIFY(qobject_cast<CtorTestClass*>(o1) != 0);
QObject *o2 = mo->newInstance(Q_ARG(QObject*, o1));
QVERIFY(o2 != 0);
QCOMPARE(o2->parent(), o1);
QString str = QString::fromLatin1("hello");
QObject *o3 = mo->newInstance(Q_ARG(QString, str));
QVERIFY(o3 != 0);
QCOMPARE(qobject_cast<CtorTestClass*>(o3)->m_str, str);
{
//explicit constructor
QObject *o = QObject::staticMetaObject.newInstance();
QVERIFY(o);
delete o;
}
}
#include "task234909.h"
#include "task240368.h"
void tst_Moc::typenameWithUnsigned()
{
TypenameWithUnsigned tst;
const QMetaObject *mobj = tst.metaObject();
QVERIFY(mobj->indexOfSlot("a(uint)") != -1);
QVERIFY(mobj->indexOfSlot("b(uint)") != -1);
QVERIFY(mobj->indexOfSlot("c(uint*)") != -1);
QVERIFY(mobj->indexOfSlot("d(uint*)") != -1);
QVERIFY(mobj->indexOfSlot("e(uint&)") != -1);
QVERIFY(mobj->indexOfSlot("f(uint&)") != -1);
QVERIFY(mobj->indexOfSlot("g(unsigned1)") != -1);
QVERIFY(mobj->indexOfSlot("h(unsigned1)") != -1);
QVERIFY(mobj->indexOfSlot("i(uint,unsigned1)") != -1);
QVERIFY(mobj->indexOfSlot("j(unsigned1,uint)") != -1);
QVERIFY(mobj->indexOfSlot("k(unsignedQImage)") != -1);
QVERIFY(mobj->indexOfSlot("l(unsignedQImage)") != -1);
}
void tst_Moc::warnOnVirtualSignal()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && !defined(QT_NO_PROCESS)
QProcess proc;
proc.start("moc", QStringList(srcify("pure-virtual-signals.h")));
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QByteArray mocOut = proc.readAllStandardOutput();
QVERIFY(!mocOut.isEmpty());
QString mocWarning = QString::fromLocal8Bit(proc.readAllStandardError());
QCOMPARE(mocWarning, QString(SRCDIR) + QString("/pure-virtual-signals.h:48: Warning: Signals cannot be declared virtual\n") +
QString(SRCDIR) + QString("/pure-virtual-signals.h:50: Warning: Signals cannot be declared virtual\n"));
#else
QSKIP("Only tested on linux/gcc");
#endif
}
class QTBUG5590_DummyObject: public QObject
{
Q_OBJECT
Q_PROPERTY(bool dummy)
};
class QTBUG5590_PropertyObject: public QTBUG5590_DummyObject
{
Q_OBJECT
Q_PROPERTY(int value READ value WRITE setValue)
Q_PROPERTY(int value2 READ value2 WRITE setValue2)
public:
QTBUG5590_PropertyObject() : m_value(85), m_value2(40) { }
int value() const { return m_value; }
void setValue(int value) { m_value = value; }
int value2() const { return m_value2; }
void setValue2(int value) { m_value2 = value; }
private:
int m_value, m_value2;
};
void tst_Moc::QTBUG5590_dummyProperty()
{
QTBUG5590_PropertyObject o;
QCOMPARE(o.property("value").toInt(), 85);
QCOMPARE(o.property("value2").toInt(), 40);
o.setProperty("value", 32);
QCOMPARE(o.value(), 32);
o.setProperty("value2", 82);
QCOMPARE(o.value2(), 82);
}
class QTBUG7421_ReturnConstTemplate: public QObject
{ Q_OBJECT
public slots:
const QList<int> returnConstTemplate1() { return QList<int>(); }
QList<int> const returnConstTemplate2() { return QList<int>(); }
const int returnConstInt() { return 0; }
const QString returnConstString(const QString s) { return s; }
QString const returnConstString2( QString const s) { return s; }
};
class QTBUG9354_constInName: public QObject
{ Q_OBJECT
public slots:
void slotChooseScientificConst0(struct science_constant const &) {};
void foo(struct science_const const &) {};
void foo(struct constconst const &) {};
void foo(struct constconst *) {};
void foo(struct const_ *) {};
};
template<typename T1, typename T2>
class TestTemplate2
{
};
class QTBUG11647_constInTemplateParameter : public QObject
{ Q_OBJECT
public slots:
void testSlot(TestTemplate2<const int, const short*>) {}
void testSlot2(TestTemplate2<int, short const * const >) {}
void testSlot3(TestTemplate2<TestTemplate2 < const int, const short* > const *,
TestTemplate2< TestTemplate2 < void, int > , unsigned char *> > ) {}
signals:
void testSignal(TestTemplate2<const int, const short*>);
};
class QTBUG12260_defaultTemplate_Object : public QObject
{ Q_OBJECT
public slots:
#if !(defined(Q_CC_GNU) && __GNUC__ == 4 && __GNUC_MINOR__ <= 3) || defined(Q_MOC_RUN)
void doSomething(QHash<QString, QVariant> values = QHash<QString, QVariant>() ) { Q_UNUSED(values); }
#else
// we want to test the previous function, but gcc < 4.4 seemed to have a bug similar to the one moc has.
typedef QHash<QString, QVariant> WorkaroundGCCBug;
void doSomething(QHash<QString, QVariant> values = WorkaroundGCCBug() ) { Q_UNUSED(values); }
#endif
void doAnotherThing(bool a = (1 < 3), bool b = (1 > 4)) { Q_UNUSED(a); Q_UNUSED(b); }
};
void tst_Moc::QTBUG12260_defaultTemplate()
{
QVERIFY(QTBUG12260_defaultTemplate_Object::staticMetaObject.indexOfSlot("doSomething(QHash<QString,QVariant>)") != -1);
QVERIFY(QTBUG12260_defaultTemplate_Object::staticMetaObject.indexOfSlot("doAnotherThing(bool,bool)") != -1);
}
void tst_Moc::notifyError()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && !defined(QT_NO_PROCESS)
QProcess proc;
proc.start("moc", QStringList(srcify("error-on-wrong-notify.h")));
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 1);
QCOMPARE(proc.exitStatus(), QProcess::NormalExit);
QByteArray mocOut = proc.readAllStandardOutput();
QVERIFY(mocOut.isEmpty());
QString mocError = QString::fromLocal8Bit(proc.readAllStandardError());
QCOMPARE(mocError, QString(SRCDIR) +
QString("/error-on-wrong-notify.h:52: Error: NOTIFY signal 'fooChanged' of property 'foo' does not exist in class ClassWithWrongNOTIFY.\n"));
#else
QSKIP("Only tested on linux/gcc");
#endif
}
class QTBUG_17635_InvokableAndProperty : public QObject
{
Q_OBJECT
public:
Q_PROPERTY(int numberOfEggs READ numberOfEggs)
Q_PROPERTY(int numberOfChickens READ numberOfChickens)
Q_INVOKABLE QString getEgg(int index) { Q_UNUSED(index); return QString::fromLatin1("Egg"); }
Q_INVOKABLE QString getChicken(int index) { Q_UNUSED(index); return QString::fromLatin1("Chicken"); }
int numberOfEggs() { return 2; }
int numberOfChickens() { return 4; }
};
void tst_Moc::QTBUG17635_invokableAndProperty()
{
//Moc used to fail parsing Q_INVOKABLE if they were dirrectly following a Q_PROPERTY;
QTBUG_17635_InvokableAndProperty mc;
QString val;
QMetaObject::invokeMethod(&mc, "getEgg", Q_RETURN_ARG(QString, val), Q_ARG(int, 10));
QCOMPARE(val, QString::fromLatin1("Egg"));
QMetaObject::invokeMethod(&mc, "getChicken", Q_RETURN_ARG(QString, val), Q_ARG(int, 10));
QCOMPARE(val, QString::fromLatin1("Chicken"));
QVERIFY(mc.metaObject()->indexOfProperty("numberOfEggs") != -1);
QVERIFY(mc.metaObject()->indexOfProperty("numberOfChickens") != -1);
}
// If changed, update VersionTestNotify below
class VersionTest : public QObject
{
Q_OBJECT
Q_PROPERTY(int prop1 READ foo)
Q_PROPERTY(int prop2 READ foo REVISION 2)
Q_ENUMS(TestEnum);
public:
int foo() const { return 0; }
Q_INVOKABLE void method1() {}
Q_INVOKABLE Q_REVISION(4) void method2() {}
enum TestEnum { One, Two };
public slots:
void slot1() {}
Q_REVISION(3) void slot2() {}
signals:
void signal1();
Q_REVISION(5) void signal2();
public slots Q_REVISION(6):
void slot3() {}
void slot4() {}
signals Q_REVISION(7):
void signal3();
void signal4();
};
// If changed, update VersionTest above
class VersionTestNotify : public QObject
{
Q_OBJECT
Q_PROPERTY(int prop1 READ foo NOTIFY fooChanged)
Q_PROPERTY(int prop2 READ foo REVISION 2)
Q_ENUMS(TestEnum);
public:
int foo() const { return 0; }
Q_INVOKABLE void method1() {}
Q_INVOKABLE Q_REVISION(4) void method2() {}
enum TestEnum { One, Two };
public slots:
void slot1() {}
Q_REVISION(3) void slot2() {}
signals:
void fooChanged();
void signal1();
Q_REVISION(5) void signal2();
public slots Q_REVISION(6):
void slot3() {}
void slot4() {}
signals Q_REVISION(7):
void signal3();
void signal4();
};
template <class T>
void tst_Moc::revisions_T()
{
int idx = T::staticMetaObject.indexOfProperty("prop1");
QVERIFY(T::staticMetaObject.property(idx).revision() == 0);
idx = T::staticMetaObject.indexOfProperty("prop2");
QVERIFY(T::staticMetaObject.property(idx).revision() == 2);
idx = T::staticMetaObject.indexOfMethod("method1()");
QVERIFY(T::staticMetaObject.method(idx).revision() == 0);
idx = T::staticMetaObject.indexOfMethod("method2()");
QVERIFY(T::staticMetaObject.method(idx).revision() == 4);
idx = T::staticMetaObject.indexOfSlot("slot1()");
QVERIFY(T::staticMetaObject.method(idx).revision() == 0);
idx = T::staticMetaObject.indexOfSlot("slot2()");
QVERIFY(T::staticMetaObject.method(idx).revision() == 3);
idx = T::staticMetaObject.indexOfSlot("slot3()");
QVERIFY(T::staticMetaObject.method(idx).revision() == 6);
idx = T::staticMetaObject.indexOfSlot("slot4()");
QVERIFY(T::staticMetaObject.method(idx).revision() == 6);
idx = T::staticMetaObject.indexOfSignal("signal1()");
QVERIFY(T::staticMetaObject.method(idx).revision() == 0);
idx = T::staticMetaObject.indexOfSignal("signal2()");
QVERIFY(T::staticMetaObject.method(idx).revision() == 5);
idx = T::staticMetaObject.indexOfSignal("signal3()");
QVERIFY(T::staticMetaObject.method(idx).revision() == 7);
idx = T::staticMetaObject.indexOfSignal("signal4()");
QVERIFY(T::staticMetaObject.method(idx).revision() == 7);
idx = T::staticMetaObject.indexOfEnumerator("TestEnum");
QCOMPARE(T::staticMetaObject.enumerator(idx).keyCount(), 2);
QCOMPARE(T::staticMetaObject.enumerator(idx).key(0), "One");
}
// test using both class that has properties with and without NOTIFY signals
void tst_Moc::revisions()
{
revisions_T<VersionTest>();
revisions_T<VersionTestNotify>();
}
void tst_Moc::warnings_data()
{
QTest::addColumn<QByteArray>("input");
QTest::addColumn<QStringList>("args");
QTest::addColumn<int>("exitCode");
QTest::addColumn<QString>("expectedStdOut");
QTest::addColumn<QString>("expectedStdErr");
// empty input should result in "no relevant classes" note
QTest::newRow("No relevant classes")
<< QByteArray(" ")
<< QStringList()
<< 0
<< QString()
<< QString("standard input:0: Note: No relevant classes found. No output generated.");
// passing "-nn" should suppress "no relevant classes" note
QTest::newRow("-nn")
<< QByteArray(" ")
<< (QStringList() << "-nn")
<< 0
<< QString()
<< QString();
// passing "-nw" should also suppress "no relevant classes" note
QTest::newRow("-nw")
<< QByteArray(" ")
<< (QStringList() << "-nw")
<< 0
<< QString()
<< QString();
// This should output a warning
QTest::newRow("Invalid property warning")
<< QByteArray("class X : public QObject { Q_OBJECT Q_PROPERTY(int x) };")
<< QStringList()
<< 0
<< QString("IGNORE_ALL_STDOUT")
<< QString("standard input:1: Warning: Property declaration x has no READ accessor function. The property will be invalid.");
// Passing "-nn" should NOT suppress the warning
QTest::newRow("Invalid property warning with -nn")
<< QByteArray("class X : public QObject { Q_OBJECT Q_PROPERTY(int x) };")
<< (QStringList() << "-nn")
<< 0
<< QString("IGNORE_ALL_STDOUT")
<< QString("standard input:1: Warning: Property declaration x has no READ accessor function. The property will be invalid.");
// Passing "-nw" should suppress the warning
QTest::newRow("Invalid property warning with -nw")
<< QByteArray("class X : public QObject { Q_OBJECT Q_PROPERTY(int x) };")
<< (QStringList() << "-nw")
<< 0
<< QString("IGNORE_ALL_STDOUT")
<< QString();
// This should output an error
QTest::newRow("Does not inherit QObject")
<< QByteArray("class X { Q_OBJECT };")
<< QStringList()
<< 1
<< QString()
<< QString("standard input:1: Error: Class contains Q_OBJECT macro but does not inherit from QObject");
// "-nn" should not suppress the error
QTest::newRow("Does not inherit QObject with -nn")
<< QByteArray("class X { Q_OBJECT };")
<< (QStringList() << "-nn")
<< 1
<< QString()
<< QString("standard input:1: Error: Class contains Q_OBJECT macro but does not inherit from QObject");
// "-nw" should not suppress the error
QTest::newRow("Does not inherit QObject with -nw")
<< QByteArray("class X { Q_OBJECT };")
<< (QStringList() << "-nw")
<< 1
<< QString()
<< QString("standard input:1: Error: Class contains Q_OBJECT macro but does not inherit from QObject");
}
void tst_Moc::warnings()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
QFETCH(QByteArray, input);
QFETCH(QStringList, args);
QFETCH(int, exitCode);
QFETCH(QString, expectedStdOut);
QFETCH(QString, expectedStdErr);
#ifdef Q_CC_MSVC
// for some reasons, moc compiled with MSVC uses a different output format
QRegExp lineNumberRe(":(\\d+):");
lineNumberRe.setMinimal(true);
expectedStdErr.replace(lineNumberRe, "(\\1):");
#endif
QProcess proc;
proc.start("moc", args);
QVERIFY(proc.waitForStarted());
QCOMPARE(proc.write(input), qint64(input.size()));
proc.closeWriteChannel();
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), exitCode);
QCOMPARE(proc.exitStatus(), QProcess::NormalExit);
// magic value "IGNORE_ALL_STDOUT" ignores stdout
if (expectedStdOut != "IGNORE_ALL_STDOUT")
QCOMPARE(QString::fromLocal8Bit(proc.readAllStandardOutput()).trimmed(), expectedStdOut);
QCOMPARE(QString::fromLocal8Bit(proc.readAllStandardError()).trimmed(), expectedStdErr);
}
class tst_Moc::PrivateClass : public QObject {
Q_PROPERTY(int someProperty READ someSlot WRITE someSlot2)
Q_OBJECT
Q_SIGNALS:
void someSignal();
public Q_SLOTS:
int someSlot() { return 1; }
void someSlot2(int) {}
public:
Q_INVOKABLE PrivateClass() {}
};
void tst_Moc::privateClass()
{
QVERIFY(PrivateClass::staticMetaObject.indexOfConstructor("PrivateClass()") == 0);
QVERIFY(PrivateClass::staticMetaObject.indexOfSignal("someSignal()") > 0);
}
void tst_Moc::cxx11Enums_data()
{
QTest::addColumn<QByteArray>("enumName");
QTest::addColumn<char>("prefix");
QTest::newRow("EnumClass") << QByteArray("EnumClass") << 'A';
QTest::newRow("TypedEnum") << QByteArray("TypedEnum") << 'B';
QTest::newRow("TypedEnumClass") << QByteArray("TypedEnumClass") << 'C';
QTest::newRow("NormalEnum") << QByteArray("NormalEnum") << 'D';
}
void tst_Moc::cxx11Enums()
{
const QMetaObject *meta = &CXX11Enums::staticMetaObject;
QCOMPARE(meta->enumeratorOffset(), 0);
QFETCH(QByteArray, enumName);
QFETCH(char, prefix);
int idx;
idx = meta->indexOfEnumerator(enumName);
QVERIFY(idx != -1);
QCOMPARE(meta->enumerator(idx).enclosingMetaObject(), meta);
QCOMPARE(meta->enumerator(idx).isValid(), true);
QCOMPARE(meta->enumerator(idx).keyCount(), 4);
QCOMPARE(meta->enumerator(idx).name(), enumName.constData());
for (int i = 0; i < 4; i++) {
QByteArray v = prefix + QByteArray::number(i);
QCOMPARE(meta->enumerator(idx).keyToValue(v), i);
QCOMPARE(meta->enumerator(idx).valueToKey(i), v.constData());
}
}
void tst_Moc::returnRefs()
{
TestClass tst;
const QMetaObject *mobj = tst.metaObject();
QVERIFY(mobj->indexOfMethod("myInvokableReturningRef()") != -1);
QVERIFY(mobj->indexOfMethod("myInvokableReturningConstRef()") != -1);
// Those two functions are copied from the qscriptextqobject test in qtscript
// they used to cause miscompilation of the moc generated file.
}
class SignalConnectionTester : public QObject
{
Q_OBJECT
public:
SignalConnectionTester(QObject *parent = 0)
: QObject(parent), testPassed(false)
{
}
public Q_SLOTS:
void testSlot()
{
testPassed = true;
}
void testSlotWith1Arg(int i)
{
testPassed = i == 42;
}
void testSlotWith2Args(int i, const QString &s)
{
testPassed = i == 42 && s == "Hello";
}
public:
bool testPassed;
};
class ClassWithPrivateSignals : public QObject
{
Q_OBJECT
public:
ClassWithPrivateSignals(QObject *parent = 0)
: QObject(parent)
{
}
void emitPrivateSignals()
{
emit privateSignal1(QPrivateSignal());
emit privateSignalWith1Arg(42, QPrivateSignal());
emit privateSignalWith2Args(42, "Hello", QPrivateSignal());
emit privateOverloadedSignal(QPrivateSignal());
emit privateOverloadedSignal(42, QPrivateSignal());
emit overloadedMaybePrivate();
emit overloadedMaybePrivate(42, QPrivateSignal());
}
Q_SIGNALS:
void privateSignal1(QPrivateSignal);
void privateSignalWith1Arg(int arg1, QPrivateSignal);
void privateSignalWith2Args(int arg1, const QString &arg2, QPrivateSignal);
void privateOverloadedSignal(QPrivateSignal);
void privateOverloadedSignal(int, QPrivateSignal);
void overloadedMaybePrivate();
void overloadedMaybePrivate(int, QPrivateSignal);
};
class SubClassFromPrivateSignals : public ClassWithPrivateSignals
{
Q_OBJECT
public:
SubClassFromPrivateSignals(QObject *parent = 0)
: ClassWithPrivateSignals(parent)
{
}
void emitProtectedSignals()
{
// Compile test: All of this intentionally does not compile:
// emit privateSignal1();
// emit privateSignalWith1Arg(42);
// emit privateSignalWith2Args(42, "Hello");
//
// emit privateSignal1(QPrivateSignal());
// emit privateSignalWith1Arg(42, QPrivateSignal());
// emit privateSignalWith2Args(42, "Hello", QPrivateSignal());
//
// emit privateSignal1(ClassWithPrivateSignals::QPrivateSignal());
// emit privateSignalWith1Arg(42, ClassWithPrivateSignals::QPrivateSignal());
// emit privateSignalWith2Args(42, "Hello", ClassWithPrivateSignals::QPrivateSignal());
// emit privateOverloadedSignal();
// emit privateOverloadedSignal(42);
// emit overloadedMaybePrivate();
// emit overloadedMaybePrivate(42);
}
};
void tst_Moc::privateSignalConnection()
{
// Function pointer connects. Matching signals and slots
{
ClassWithPrivateSignals classWithPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals, &ClassWithPrivateSignals::privateSignal1, &tester, &SignalConnectionTester::testSlot);
QVERIFY(!tester.testPassed);
classWithPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
tester.testPassed = false;
QMetaObject::invokeMethod(&classWithPrivateSignals, "privateSignal1");
QVERIFY(tester.testPassed);
}
{
SubClassFromPrivateSignals subClassFromPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&subClassFromPrivateSignals, &ClassWithPrivateSignals::privateSignal1, &tester, &SignalConnectionTester::testSlot);
QVERIFY(!tester.testPassed);
subClassFromPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
tester.testPassed = false;
QMetaObject::invokeMethod(&subClassFromPrivateSignals, "privateSignal1");
QVERIFY(tester.testPassed);
}
{
ClassWithPrivateSignals classWithPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals, &ClassWithPrivateSignals::privateSignalWith1Arg, &tester, &SignalConnectionTester::testSlotWith1Arg);
QVERIFY(!tester.testPassed);
classWithPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
tester.testPassed = false;
QMetaObject::invokeMethod(&classWithPrivateSignals, "privateSignalWith1Arg", Q_ARG(int, 42));
QVERIFY(tester.testPassed);
}
{
SubClassFromPrivateSignals subClassFromPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&subClassFromPrivateSignals, &ClassWithPrivateSignals::privateSignalWith1Arg, &tester, &SignalConnectionTester::testSlotWith1Arg);
QVERIFY(!tester.testPassed);
subClassFromPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
tester.testPassed = false;
QMetaObject::invokeMethod(&subClassFromPrivateSignals, "privateSignalWith1Arg", Q_ARG(int, 42));
QVERIFY(tester.testPassed);
}
{
ClassWithPrivateSignals classWithPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals, &ClassWithPrivateSignals::privateSignalWith2Args, &tester, &SignalConnectionTester::testSlotWith2Args);
QVERIFY(!tester.testPassed);
classWithPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
tester.testPassed = false;
QMetaObject::invokeMethod(&classWithPrivateSignals, "privateSignalWith2Args", Q_ARG(int, 42), Q_ARG(QString, "Hello"));
QVERIFY(tester.testPassed);
}
{
SubClassFromPrivateSignals subClassFromPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&subClassFromPrivateSignals, &ClassWithPrivateSignals::privateSignalWith2Args, &tester, &SignalConnectionTester::testSlotWith2Args);
QVERIFY(!tester.testPassed);
subClassFromPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
tester.testPassed = false;
QMetaObject::invokeMethod(&subClassFromPrivateSignals, "privateSignalWith2Args", Q_ARG(int, 42), Q_ARG(QString, "Hello"));
QVERIFY(tester.testPassed);
}
// String based connects. Matching signals and slots
{
ClassWithPrivateSignals classWithPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals, SIGNAL(privateSignal1()), &tester, SLOT(testSlot()));
QVERIFY(!tester.testPassed);
classWithPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
SubClassFromPrivateSignals subClassFromPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&subClassFromPrivateSignals, SIGNAL(privateSignal1()), &tester, SLOT(testSlot()));
QVERIFY(!tester.testPassed);
subClassFromPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
ClassWithPrivateSignals classWithPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals, SIGNAL(privateSignalWith1Arg(int)), &tester, SLOT(testSlotWith1Arg(int)));
QVERIFY(!tester.testPassed);
classWithPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
SubClassFromPrivateSignals subClassFromPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&subClassFromPrivateSignals, SIGNAL(privateSignalWith1Arg(int)), &tester, SLOT(testSlotWith1Arg(int)));
QVERIFY(!tester.testPassed);
subClassFromPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
ClassWithPrivateSignals classWithPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals, SIGNAL(privateSignalWith2Args(int,QString)), &tester, SLOT(testSlotWith2Args(int,QString)));
QVERIFY(!tester.testPassed);
classWithPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
SubClassFromPrivateSignals subClassFromPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&subClassFromPrivateSignals, SIGNAL(privateSignalWith2Args(int,QString)), &tester, SLOT(testSlotWith2Args(int,QString)));
QVERIFY(!tester.testPassed);
subClassFromPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
// Function pointer connects. Decayed slot arguments
{
ClassWithPrivateSignals classWithPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals, &ClassWithPrivateSignals::privateSignalWith1Arg, &tester, &SignalConnectionTester::testSlot);
QVERIFY(!tester.testPassed);
classWithPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
SubClassFromPrivateSignals subClassFromPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&subClassFromPrivateSignals, &ClassWithPrivateSignals::privateSignalWith1Arg, &tester, &SignalConnectionTester::testSlot);
QVERIFY(!tester.testPassed);
subClassFromPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
ClassWithPrivateSignals classWithPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals, &ClassWithPrivateSignals::privateSignalWith1Arg, &tester, &SignalConnectionTester::testSlotWith1Arg);
QVERIFY(!tester.testPassed);
classWithPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
SubClassFromPrivateSignals subClassFromPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&subClassFromPrivateSignals, &ClassWithPrivateSignals::privateSignalWith1Arg, &tester, &SignalConnectionTester::testSlotWith1Arg);
QVERIFY(!tester.testPassed);
subClassFromPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
ClassWithPrivateSignals classWithPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals, &ClassWithPrivateSignals::privateSignalWith1Arg, &tester, &SignalConnectionTester::testSlot);
QVERIFY(!tester.testPassed);
classWithPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
SubClassFromPrivateSignals subClassFromPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&subClassFromPrivateSignals, &ClassWithPrivateSignals::privateSignalWith1Arg, &tester, &SignalConnectionTester::testSlot);
QVERIFY(!tester.testPassed);
subClassFromPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
// String based connects. Decayed slot arguments
{
ClassWithPrivateSignals classWithPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals, SIGNAL(privateSignalWith1Arg(int)), &tester, SLOT(testSlot()));
QVERIFY(!tester.testPassed);
classWithPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
SubClassFromPrivateSignals subClassFromPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&subClassFromPrivateSignals, SIGNAL(privateSignalWith1Arg(int)), &tester, SLOT(testSlot()));
QVERIFY(!tester.testPassed);
subClassFromPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
ClassWithPrivateSignals classWithPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals, SIGNAL(privateSignalWith2Args(int,QString)), &tester, SLOT(testSlotWith1Arg(int)));
QVERIFY(!tester.testPassed);
classWithPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
SubClassFromPrivateSignals subClassFromPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&subClassFromPrivateSignals, SIGNAL(privateSignalWith2Args(int,QString)), &tester, SLOT(testSlotWith1Arg(int)));
QVERIFY(!tester.testPassed);
subClassFromPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
ClassWithPrivateSignals classWithPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals, SIGNAL(privateSignalWith2Args(int,QString)), &tester, SLOT(testSlot()));
QVERIFY(!tester.testPassed);
classWithPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
SubClassFromPrivateSignals subClassFromPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&subClassFromPrivateSignals, SIGNAL(privateSignalWith2Args(int,QString)), &tester, SLOT(testSlot()));
QVERIFY(!tester.testPassed);
subClassFromPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
// Overloaded private signals
{
ClassWithPrivateSignals classWithPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals, SIGNAL(privateOverloadedSignal()), &tester, SLOT(testSlot()));
QVERIFY(!tester.testPassed);
classWithPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
ClassWithPrivateSignals classWithPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals, SIGNAL(privateOverloadedSignal(int)), &tester, SLOT(testSlotWith1Arg(int)));
QVERIFY(!tester.testPassed);
classWithPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
// We can't use function pointer connections to private signals which are overloaded because we would have to cast in this case to:
// static_cast<void (ClassWithPrivateSignals::*)(int, ClassWithPrivateSignals::QPrivateSignal)>(&ClassWithPrivateSignals::privateOverloadedSignal)
// Which doesn't work as ClassWithPrivateSignals::QPrivateSignal is private.
// Overload with either private or not private signals
{
ClassWithPrivateSignals classWithPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals, SIGNAL(overloadedMaybePrivate()), &tester, SLOT(testSlot()));
QVERIFY(!tester.testPassed);
classWithPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
ClassWithPrivateSignals classWithPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals, SIGNAL(privateOverloadedSignal(int)), &tester, SLOT(testSlotWith1Arg(int)));
QVERIFY(!tester.testPassed);
classWithPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
{
ClassWithPrivateSignals classWithPrivateSignals;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals,
static_cast<void (ClassWithPrivateSignals::*)()>(&ClassWithPrivateSignals::overloadedMaybePrivate),
&tester, &SignalConnectionTester::testSlot);
QVERIFY(!tester.testPassed);
classWithPrivateSignals.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
// We can't use function pointer connections to private signals which are overloaded because we would have to cast in this case to:
// static_cast<void (ClassWithPrivateSignals::*)(int, ClassWithPrivateSignals::QPrivateSignal)>(&ClassWithPrivateSignals::overloadedMaybePrivate)
// Which doesn't work as ClassWithPrivateSignals::QPrivateSignal is private.
}
void tst_Moc::finalClasses_data()
{
QTest::addColumn<QString>("className");
QTest::addColumn<QString>("expected");
QTest::newRow("FinalTestClassQt") << FinalTestClassQt::staticMetaObject.className() << "FinalTestClassQt";
QTest::newRow("ExportedFinalTestClassQt") << ExportedFinalTestClassQt::staticMetaObject.className() << "ExportedFinalTestClassQt";
QTest::newRow("ExportedFinalTestClassQtX") << ExportedFinalTestClassQtX::staticMetaObject.className() << "ExportedFinalTestClassQtX";
QTest::newRow("FinalTestClassCpp11") << FinalTestClassCpp11::staticMetaObject.className() << "FinalTestClassCpp11";
QTest::newRow("ExportedFinalTestClassCpp11") << ExportedFinalTestClassCpp11::staticMetaObject.className() << "ExportedFinalTestClassCpp11";
QTest::newRow("ExportedFinalTestClassCpp11X") << ExportedFinalTestClassCpp11X::staticMetaObject.className() << "ExportedFinalTestClassCpp11X";
QTest::newRow("SealedTestClass") << SealedTestClass::staticMetaObject.className() << "SealedTestClass";
QTest::newRow("ExportedSealedTestClass") << ExportedSealedTestClass::staticMetaObject.className() << "ExportedSealedTestClass";
QTest::newRow("ExportedSealedTestClassX") << ExportedSealedTestClassX::staticMetaObject.className() << "ExportedSealedTestClassX";
}
void tst_Moc::finalClasses()
{
QFETCH(QString, className);
QFETCH(QString, expected);
QCOMPARE(className, expected);
}
Q_DECLARE_METATYPE(const QMetaObject*);
void tst_Moc::explicitOverrideControl_data()
{
QTest::addColumn<const QMetaObject*>("mo");
#define ADD(x) QTest::newRow(#x) << &x::staticMetaObject
ADD(ExplicitOverrideControlFinalQt);
ADD(ExplicitOverrideControlFinalCxx11);
ADD(ExplicitOverrideControlSealed);
ADD(ExplicitOverrideControlOverrideQt);
ADD(ExplicitOverrideControlOverrideCxx11);
ADD(ExplicitOverrideControlFinalQtOverrideQt);
ADD(ExplicitOverrideControlFinalCxx11OverrideCxx11);
ADD(ExplicitOverrideControlSealedOverride);
#undef ADD
}
void tst_Moc::explicitOverrideControl()
{
QFETCH(const QMetaObject*, mo);
QVERIFY(mo);
QCOMPARE(mo->indexOfMethod("pureSlot0()"), mo->methodOffset() + 0);
QCOMPARE(mo->indexOfMethod("pureSlot1()"), mo->methodOffset() + 1);
QCOMPARE(mo->indexOfMethod("pureSlot2()"), mo->methodOffset() + 2);
QCOMPARE(mo->indexOfMethod("pureSlot3()"), mo->methodOffset() + 3);
#if 0 // moc doesn't support volatile slots
QCOMPARE(mo->indexOfMethod("pureSlot4()"), mo->methodOffset() + 4);
QCOMPARE(mo->indexOfMethod("pureSlot5()"), mo->methodOffset() + 5);
QCOMPARE(mo->indexOfMethod("pureSlot6()"), mo->methodOffset() + 6);
QCOMPARE(mo->indexOfMethod("pureSlot7()"), mo->methodOffset() + 7);
QCOMPARE(mo->indexOfMethod("pureSlot8()"), mo->methodOffset() + 8);
QCOMPARE(mo->indexOfMethod("pureSlot9()"), mo->methodOffset() + 9);
#endif
}
class CustomQObject : public QObject
{
Q_OBJECT
Q_ENUMS(Number)
public:
enum Number {
Zero,
One,
Two
};
explicit CustomQObject(QObject *parent = 0)
: QObject(parent)
{
}
};
Q_DECLARE_METATYPE(CustomQObject::Number)
typedef CustomQObject* CustomQObjectStar;
Q_DECLARE_METATYPE(CustomQObjectStar);
namespace SomeNamespace {
class NamespacedQObject : public QObject
{
Q_OBJECT
public:
explicit NamespacedQObject(QObject *parent = 0)
: QObject(parent)
{
}
};
struct NamespacedNonQObject {};
}
Q_DECLARE_METATYPE(SomeNamespace::NamespacedNonQObject)
// Need different types for the invokable method tests because otherwise the registration
// done in the property test would interfere.
class CustomQObject2 : public QObject
{
Q_OBJECT
Q_ENUMS(Number)
public:
enum Number {
Zero,
One,
Two
};
explicit CustomQObject2(QObject *parent = 0)
: QObject(parent)
{
}
};
Q_DECLARE_METATYPE(CustomQObject2::Number)
typedef CustomQObject2* CustomQObject2Star;
Q_DECLARE_METATYPE(CustomQObject2Star);
namespace SomeNamespace2 {
class NamespacedQObject2 : public QObject
{
Q_OBJECT
public:
explicit NamespacedQObject2(QObject *parent = 0)
: QObject(parent)
{
}
};
struct NamespacedNonQObject2 {};
}
Q_DECLARE_METATYPE(SomeNamespace2::NamespacedNonQObject2)
struct CustomObject3 {};
struct CustomObject4 {};
struct CustomObject5 {};
struct CustomObject6 {};
struct CustomObject7 {};
struct CustomObject8 {};
struct CustomObject9 {};
struct CustomObject10 {};
struct CustomObject11 {};
Q_DECLARE_METATYPE(CustomObject3)
Q_DECLARE_METATYPE(CustomObject4)
Q_DECLARE_METATYPE(CustomObject5)
Q_DECLARE_METATYPE(CustomObject6)
Q_DECLARE_METATYPE(CustomObject7)
Q_DECLARE_METATYPE(CustomObject8)
Q_DECLARE_METATYPE(CustomObject9)
Q_DECLARE_METATYPE(CustomObject10)
Q_DECLARE_METATYPE(CustomObject11)
class AutoRegistrationObject : public QObject
{
Q_OBJECT
Q_PROPERTY(QObject* object READ object CONSTANT)
Q_PROPERTY(CustomQObject* customObject READ customObject CONSTANT)
Q_PROPERTY(QSharedPointer<CustomQObject> customObjectP READ customObjectP CONSTANT)
Q_PROPERTY(QWeakPointer<CustomQObject> customObjectWP READ customObjectWP CONSTANT)
Q_PROPERTY(QPointer<CustomQObject> customObjectTP READ customObjectTP CONSTANT)
Q_PROPERTY(QList<int> listInt READ listInt CONSTANT)
Q_PROPERTY(QVector<QVariant> vectorVariant READ vectorVariant CONSTANT)
Q_PROPERTY(QList<CustomQObject*> listObject READ listObject CONSTANT)
Q_PROPERTY(QVector<QList<int>> vectorListInt READ vectorListInt CONSTANT)
Q_PROPERTY(QVector<QList<CustomQObject*>> vectorListObject READ vectorListObject CONSTANT)
Q_PROPERTY(CustomQObject::Number enumValue READ enumValue CONSTANT)
Q_PROPERTY(CustomQObjectStar customObjectTypedef READ customObjectTypedef CONSTANT)
Q_PROPERTY(SomeNamespace::NamespacedQObject* customObjectNamespaced READ customObjectNamespaced CONSTANT)
Q_PROPERTY(SomeNamespace::NamespacedNonQObject customNonQObjectNamespaced READ customNonQObjectNamespaced CONSTANT)
public:
AutoRegistrationObject(QObject *parent = 0)
: QObject(parent)
{
}
QObject* object() const
{
return 0;
}
QSharedPointer<CustomQObject> customObjectP() const
{
return QSharedPointer<CustomQObject>();
}
QWeakPointer<CustomQObject> customObjectWP() const
{
return QWeakPointer<CustomQObject>();
}
QPointer<CustomQObject> customObjectTP() const
{
return QPointer<CustomQObject>();
}
CustomQObject* customObject() const
{
return 0;
}
QList<int> listInt() const
{
return QList<int>();
}
QVector<QVariant> vectorVariant() const
{
return QVector<QVariant>();
}
QList<CustomQObject*> listObject() const
{
return QList<CustomQObject*>();
}
QVector<QList<int> > vectorListInt() const
{
return QVector<QList<int> >();
}
QVector<QList<CustomQObject*> > vectorListObject() const
{
return QVector<QList<CustomQObject*> >();
}
CustomQObject::Number enumValue() const
{
return CustomQObject::Zero;
}
CustomQObjectStar customObjectTypedef() const
{
return 0;
}
SomeNamespace::NamespacedQObject* customObjectNamespaced() const
{
return 0;
}
SomeNamespace::NamespacedNonQObject customNonQObjectNamespaced() const
{
return SomeNamespace::NamespacedNonQObject();
}
public slots:
void objectSlot(QObject*) {}
void customObjectSlot(CustomQObject2*) {}
void sharedPointerSlot(QSharedPointer<CustomQObject2>) {}
void weakPointerSlot(QWeakPointer<CustomQObject2>) {}
void trackingPointerSlot(QPointer<CustomQObject2>) {}
void listIntSlot(QList<int>) {}
void vectorVariantSlot(QVector<QVariant>) {}
void listCustomObjectSlot(QList<CustomQObject2*>) {}
void vectorListIntSlot(QVector<QList<int> >) {}
void vectorListCustomObjectSlot(QVector<QList<CustomQObject2*> >) {}
void enumSlot(CustomQObject2::Number) {}
void typedefSlot(CustomQObject2Star) {}
void namespacedQObjectSlot(SomeNamespace2::NamespacedQObject2*) {}
void namespacedNonQObjectSlot(SomeNamespace2::NamespacedNonQObject2) {}
void bu1(int, CustomObject3) {}
void bu2(CustomObject4, int) {}
void bu3(CustomObject5, CustomObject6) {}
void bu4(CustomObject7, int, CustomObject8) {}
void bu5(int, CustomObject9, CustomObject10) {}
void bu6(int, CustomObject11, int) {}
// these can't be registered, but they should at least compile
void ref1(int&) {}
void ref2(QList<int>&) {}
void ref3(CustomQObject2&) {}
void ref4(QSharedPointer<CustomQObject2>&) {}
};
void tst_Moc::autoPropertyMetaTypeRegistration()
{
AutoRegistrationObject aro;
static const int numPropertiesUnderTest = 15;
QVector<int> propertyMetaTypeIds;
propertyMetaTypeIds.reserve(numPropertiesUnderTest);
const QMetaObject *metaObject = aro.metaObject();
QCOMPARE(metaObject->propertyCount(), numPropertiesUnderTest);
for (int i = 0; i < metaObject->propertyCount(); ++i) {
const QMetaProperty prop = metaObject->property(i);
propertyMetaTypeIds.append(prop.userType());
QVariant var = prop.read(&aro);
QVERIFY(var.isValid());
}
// Verify that QMetaProperty::userType gave us what we expected.
QVector<int> expectedMetaTypeIds = QVector<int>()
<< QMetaType::QString // QObject::userType
<< QMetaType::QObjectStar // AutoRegistrationObject::object
<< qMetaTypeId<CustomQObject*>() // etc.
<< qMetaTypeId<QSharedPointer<CustomQObject> >()
<< qMetaTypeId<QWeakPointer<CustomQObject> >()
<< qMetaTypeId<QPointer<CustomQObject> >()
<< qMetaTypeId<QList<int> >()
<< qMetaTypeId<QVector<QVariant> >()
<< qMetaTypeId<QList<CustomQObject*> >()
<< qMetaTypeId<QVector<QList<int> > >()
<< qMetaTypeId<QVector<QList<CustomQObject*> > >()
<< qMetaTypeId<CustomQObject::Number>()
<< qMetaTypeId<CustomQObjectStar>()
<< qMetaTypeId<SomeNamespace::NamespacedQObject*>()
<< qMetaTypeId<SomeNamespace::NamespacedNonQObject>()
;
QCOMPARE(propertyMetaTypeIds, expectedMetaTypeIds);
}
template<typename T>
struct DefaultConstructor
{
static inline T construct() { return T(); }
};
template<typename T>
struct DefaultConstructor<T*>
{
static inline T* construct() { return 0; }
};
void tst_Moc::autoMethodArgumentMetaTypeRegistration()
{
AutoRegistrationObject aro;
QVector<int> methodArgMetaTypeIds;
const QMetaObject *metaObject = aro.metaObject();
int i = metaObject->methodOffset(); // Start after QObject built-in slots;
#define TYPE_LOOP(TYPE) \
{ \
const QMetaMethod method = metaObject->method(i); \
for (int j = 0; j < method.parameterCount(); ++j) \
methodArgMetaTypeIds.append(method.parameterType(j)); \
QVERIFY(method.invoke(&aro, Q_ARG(TYPE, DefaultConstructor<TYPE>::construct()))); \
++i; \
}
#define FOR_EACH_SLOT_ARG_TYPE(F) \
F(QObject*) \
F(CustomQObject2*) \
F(QSharedPointer<CustomQObject2>) \
F(QWeakPointer<CustomQObject2>) \
F(QPointer<CustomQObject2>) \
F(QList<int>) \
F(QVector<QVariant>) \
F(QList<CustomQObject2*>) \
F(QVector<QList<int> >) \
F(QVector<QList<CustomQObject2*> >) \
F(CustomQObject2::Number) \
F(CustomQObject2Star) \
F(SomeNamespace2::NamespacedQObject2*) \
F(SomeNamespace2::NamespacedNonQObject2)
// Note: mulit-arg slots are tested below.
FOR_EACH_SLOT_ARG_TYPE(TYPE_LOOP)
#undef TYPE_LOOP
#undef FOR_EACH_SLOT_ARG_TYPE
QVector<int> expectedMetaTypeIds = QVector<int>()
<< QMetaType::QObjectStar
<< qMetaTypeId<CustomQObject2*>()
<< qMetaTypeId<QSharedPointer<CustomQObject2> >()
<< qMetaTypeId<QWeakPointer<CustomQObject2> >()
<< qMetaTypeId<QPointer<CustomQObject2> >()
<< qMetaTypeId<QList<int> >()
<< qMetaTypeId<QVector<QVariant> >()
<< qMetaTypeId<QList<CustomQObject2*> >()
<< qMetaTypeId<QVector<QList<int> > >()
<< qMetaTypeId<QVector<QList<CustomQObject2*> > >()
<< qMetaTypeId<CustomQObject2::Number>()
<< qMetaTypeId<CustomQObject2Star>()
<< qMetaTypeId<SomeNamespace2::NamespacedQObject2*>()
<< qMetaTypeId<SomeNamespace2::NamespacedNonQObject2>()
;
QCOMPARE(methodArgMetaTypeIds, expectedMetaTypeIds);
QVector<int> methodMultiArgMetaTypeIds;
{
const QMetaMethod method = metaObject->method(i);
QCOMPARE(method.name(), QByteArray("bu1"));
for (int j = 0; j < method.parameterCount(); ++j)
methodMultiArgMetaTypeIds.append(method.parameterType(j));
QVERIFY(method.invoke(&aro, Q_ARG(int, 42), Q_ARG(CustomObject3, CustomObject3())));
++i;
}
{
const QMetaMethod method = metaObject->method(i);
QCOMPARE(method.name(), QByteArray("bu2"));
for (int j = 0; j < method.parameterCount(); ++j)
methodMultiArgMetaTypeIds.append(method.parameterType(j));
QVERIFY(method.invoke(&aro, Q_ARG(CustomObject4, CustomObject4()), Q_ARG(int, 42)));
++i;
}
{
const QMetaMethod method = metaObject->method(i);
QCOMPARE(method.name(), QByteArray("bu3"));
for (int j = 0; j < method.parameterCount(); ++j)
methodMultiArgMetaTypeIds.append(method.parameterType(j));
QVERIFY(method.invoke(&aro, Q_ARG(CustomObject5, CustomObject5()), Q_ARG(CustomObject6, CustomObject6())));
++i;
}
{
const QMetaMethod method = metaObject->method(i);
QCOMPARE(method.name(), QByteArray("bu4"));
for (int j = 0; j < method.parameterCount(); ++j)
methodMultiArgMetaTypeIds.append(method.parameterType(j));
QVERIFY(method.invoke(&aro, Q_ARG(CustomObject7, CustomObject7()), Q_ARG(int, 42), Q_ARG(CustomObject8, CustomObject8())));
++i;
}
{
const QMetaMethod method = metaObject->method(i);
QCOMPARE(method.name(), QByteArray("bu5"));
for (int j = 0; j < method.parameterCount(); ++j)
methodMultiArgMetaTypeIds.append(method.parameterType(j));
QVERIFY(method.invoke(&aro, Q_ARG(int, 42), Q_ARG(CustomObject9, CustomObject9()), Q_ARG(CustomObject10, CustomObject10())));
++i;
}
{
const QMetaMethod method = metaObject->method(i);
QCOMPARE(method.name(), QByteArray("bu6"));
for (int j = 0; j < method.parameterCount(); ++j)
methodMultiArgMetaTypeIds.append(method.parameterType(j));
QVERIFY(method.invoke(&aro, Q_ARG(int, 42), Q_ARG(CustomObject11, CustomObject11()), Q_ARG(int, 42)));
++i;
}
QVector<int> expectedMultiMetaTypeIds = QVector<int>()
<< QMetaType::Int
<< qMetaTypeId<CustomObject3>()
<< qMetaTypeId<CustomObject4>()
<< QMetaType::Int
<< qMetaTypeId<CustomObject5>()
<< qMetaTypeId<CustomObject6>()
<< qMetaTypeId<CustomObject7>()
<< QMetaType::Int
<< qMetaTypeId<CustomObject8>()
<< QMetaType::Int
<< qMetaTypeId<CustomObject9>()
<< qMetaTypeId<CustomObject10>()
<< QMetaType::Int
<< qMetaTypeId<CustomObject11>()
<< QMetaType::Int
;
QCOMPARE(methodMultiArgMetaTypeIds, expectedMultiMetaTypeIds);
}
void tst_Moc::parseDefines()
{
const QMetaObject *mo = &PD_NAMESPACE::PD_CLASSNAME::staticMetaObject;
QCOMPARE(mo->className(), PD_SCOPED_STRING(PD_NAMESPACE, PD_CLASSNAME));
QVERIFY(mo->indexOfSlot("voidFunction()") != -1);
int index = mo->indexOfSlot("stringMethod()");
QVERIFY(index != -1);
QVERIFY(mo->method(index).returnType() == QMetaType::QString);
index = mo->indexOfSlot("combined1()");
QVERIFY(index != -1);
index = mo->indexOfSlot("combined2()");
QVERIFY(index != -1);
index = mo->indexOfSlot("combined3()");
QVERIFY(index != -1);
index = mo->indexOfSlot("combined4(int,int)");
QVERIFY(index != -1);
index = mo->indexOfSlot("combined5()");
QVERIFY(index != -1);
index = mo->indexOfSlot("combined6()");
QVERIFY(index != -1);
#if defined(Q_COMPILER_VARIADIC_MACROS)
index = mo->indexOfSlot("vararg1()");
QVERIFY(index != -1);
index = mo->indexOfSlot("vararg2(int)");
QVERIFY(index != -1);
index = mo->indexOfSlot("vararg3(int,int)");
QVERIFY(index != -1);
index = mo->indexOfSlot("vararg4()");
QVERIFY(index != -1);
index = mo->indexOfSlot("vararg5(int)");
QVERIFY(index != -1);
index = mo->indexOfSlot("vararg6(int,int)");
QVERIFY(index != -1);
#endif
index = mo->indexOfSlot("INNERFUNCTION(int)");
QVERIFY(index != -1);
index = mo->indexOfSlot("inner_expanded(int)");
QVERIFY(index != -1);
index = mo->indexOfSlot("expanded_method(int)");
QVERIFY(index != -1);
index = mo->indexOfSlot("conditionSlot()");
QVERIFY(index != -1);
int count = 0;
for (int i = 0; i < mo->classInfoCount(); ++i) {
QMetaClassInfo mci = mo->classInfo(i);
if (!qstrcmp(mci.name(), "TestString")) {
++count;
QVERIFY(!qstrcmp(mci.value(), "PD_CLASSNAME"));
}
if (!qstrcmp(mci.name(), "TestString2")) {
++count;
qDebug() << mci.value();
QVERIFY(!qstrcmp(mci.value(), "ParseDefine"));
}
if (!qstrcmp(mci.name(), "TestString3")) {
++count;
QVERIFY(!qstrcmp(mci.value(), "TestValue"));
}
}
QVERIFY(count == 3);
}
void tst_Moc::preprocessorOnly()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && !defined(QT_NO_PROCESS)
QProcess proc;
proc.start("moc", QStringList() << "-E" << srcify("/pp-dollar-signs.h"));
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QByteArray mocOut = proc.readAllStandardOutput();
QVERIFY(!mocOut.isEmpty());
QCOMPARE(proc.readAllStandardError(), QByteArray());
QVERIFY(mocOut.contains("$$ = parser->createFoo()"));
#else
QSKIP("Only tested on linux/gcc");
#endif
}
QTEST_MAIN(tst_Moc)
#include "tst_moc.moc"
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