qt5base-lts/tests/auto/tools/moc/tst_moc.cpp

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/****************************************************************************
**
** Copyright (C) 2016 The Qt Company Ltd.
** Copyright (C) 2013 Olivier Goffart <ogoffart@woboq.com>
** Contact: https://www.qt.io/licensing/
**
** This file is part of the test suite of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:GPL-EXCEPT$
** 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 The Qt Company. For licensing terms
** and conditions see https://www.qt.io/terms-conditions. For further
** information use the contact form at https://www.qt.io/contact-us.
**
** GNU General Public License Usage
** Alternatively, this file may be used under the terms of the GNU
** General Public License version 3 as published by the Free Software
** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT
** included in the packaging of this file. Please review the following
** information to ensure the GNU General Public License requirements will
** be met: https://www.gnu.org/licenses/gpl-3.0.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_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"
Fix erroneous exclusion of classes from related meta objects in moc Assume an unrelated class that declares an enum and uses Q_ENUMS. Consider then a class that uses UnrelatedClass::Enum as a Q_PROPERTY. We used to include UnrelatedClass in the primary class's related meta objects, in order to support use-cases like obj->setProperty("enumProperty", "ValueOfEnumAsString"); If however moc happens to see Q_DECLARE_METATYPE(UnrelatedClass::Enum), then it would exclude it from the related meta objects, which would silently break the string based enum value conversion. This was meant as an optimization, but it isn't apparent to the developer why sometimes the string conversion would work and sometimes not (depending on whether somebody declares that macro). This also becomes visible in QML, which relies on the same embedded type information for enum assignments. This patch removes that check in moc's code generator and cleans up the code a little. However always including the prefix of Q_PROPERTY(SomePrefix::Enum ...) is not correct either, because it may be that SomePrefix is a namespace, which would cause compilation issues. Therefore we limit the inclusion of related meta objects only to Q_OBJECT decorated classes the moc has seen, and for these we save the fully qualified name in the related meta objects array (for QTBUG-2151). While this patch makes the previous workaround for namespace issues by using a Q_DECLARE_METATYPE not workable anymore, by saving the fully qualified name we are making a hopefully sufficient effort to not require a workaround in the first place. There's always the new workaround of fully qualifying the type in Q_PROPERTY. One side-effect of this change is that in the autoPropertyMetaTypeRegistration test of tst_moc, the CustomQObject for Q_PROPERTY(CustomQObject::Number enumValue ...) is now a related meta object, and therefore when querying for the type of this property via QMetaProperty::userType(), we are now aware of this being an enum and try to resolve CustomQObject::Number via QMetaType::type(qualfiedName). As there is no guarantee for this to succeed, we must now also do what is done in the non-enum code path in ::userType(), which is to call the moc generated type registration function. Task-number: QTBUG-33577 Task-number: QTBUG-2151 Change-Id: Ibf20e7421cba464c558a25c76a7e1eef002c6cff Reviewed-by: Olivier Goffart <ogoffart@woboq.com>
2013-12-12 09:50:00 +00:00
#include "related-metaobjects-in-namespaces.h"
#include "related-metaobjects-in-gadget.h"
#include "related-metaobjects-name-conflict.h"
#include "non-gadget-parent-class.h"
#include "grand-parent-gadget-class.h"
#include "namespace.h"
#include "cxx17-namespaces.h"
#ifdef Q_MOC_RUN
// check that moc can parse these constructs, they are being used in Windows winsock2.h header
#define STRING_HASH_HASH(x) ("foo" ## x ## "bar")
const char *string_hash_hash = STRING_HASH_HASH("baz");
#endif
Q_DECLARE_METATYPE(const QMetaObject*);
namespace TestNonQNamespace {
struct TestGadget {
Q_GADGET
Q_CLASSINFO("key", "value")
public:
enum class TestGEnum1 {
Key1 = 11,
Key2
};
Q_ENUM(TestGEnum1)
enum class TestGEnum2 {
Key1 = 17,
Key2
};
Q_ENUM(TestGEnum2)
};
}
namespace TestQNamespace {
Q_NAMESPACE
enum class TestEnum1 {
Key1 = 11,
Key2
};
Q_ENUM_NS(TestEnum1)
enum class TestEnum2 {
Key1 = 17,
Key2
};
Q_ENUM_NS(TestEnum2)
// try to dizzy moc by adding a struct in between
struct TestGadget {
Q_GADGET
public:
enum class TestGEnum1 {
Key1 = 13,
Key2
};
enum class TestGEnum2 {
Key1 = 23,
Key2
};
Q_ENUM(TestGEnum1)
Q_ENUM(TestGEnum2)
};
enum class TestFlag1 {
None = 0,
Flag1 = 1,
Flag2 = 2,
Any = Flag1 | Flag2
};
Q_FLAG_NS(TestFlag1)
enum class TestFlag2 {
None = 0,
Flag1 = 4,
Flag2 = 8,
Any = Flag1 | Flag2
};
Q_FLAG_NS(TestFlag2)
}
QT_USE_NAMESPACE
template <bool b> struct QTBUG_31218 {};
struct QTBUG_31218_Derived : QTBUG_31218<-1<0> {};
#if defined(Q_MOC_RUN)
class QTBUG_45790 : Bug() { };
#endif
class CreatableGadget
{
Q_GADGET
public:
Q_INVOKABLE CreatableGadget()
{
CreatableGadget::qt_static_metacall((QObject*)this, QMetaObject::ReadProperty, -1, nullptr);
}
};
CreatableGadget creatableGadget; // Force the compiler to use the constructor
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;
namespace {
class GadgetInUnnamedNS
{
Q_GADGET
Q_PROPERTY(int x READ x WRITE setX)
Q_PROPERTY(int y READ y WRITE setY)
public:
explicit GadgetInUnnamedNS(int x, int y) : m_x(x), m_y(y) {}
int x() const { return m_x; }
int y() const { return m_y; }
void setX(int x) { m_x = x; }
void setY(int y) { m_y = y; }
private:
int m_x, m_y;
};
class ObjectInUnnamedNS : public QObject
{
Q_OBJECT
public:
explicit ObjectInUnnamedNS(QObject *parent = nullptr) : QObject(parent) {}
};
}
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);
}
bool operator< ( const Sender & ) const { /* QTBUG-36834 */ return true;}
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")
Q_CLASSINFO("cpp c*/omment", "f/*oo")
Q_CLASSINFO("endswith\\", "Or?\?/")
Q_CLASSINFO("newline\n inside\n", "Or \r")
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]);
void signalWithIterator(QList<QUrl>::iterator);
void signalWithListPointer(QList<QUrl>*); //QTBUG-31002
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;
#ifdef Q_MOC_RUN
int xx = 11'11; // digit separator must not confuse moc (QTBUG-59351)
#endif
private slots:
inline virtual void blub1() {}
virtual inline void blub2() {}
};
class PropertyTestClass : public QObject
{
Q_OBJECT
public:
enum TestEnum { One, Two, Three };
Q_ENUM(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_ENUM(TestEnum)
};
class EnumUserClass : public QObject
{
Q_OBJECT
public:
Q_ENUMS(EnumSourceClass::TestEnum)
};
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 PrivatePropertyTest;
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())
Q_PROPERTY(QString member1 MEMBER sMember)
Q_PROPERTY(QString member2 MEMBER sMember READ member2)
Q_PROPERTY(QString member3 MEMBER sMember WRITE setMember3)
Q_PROPERTY(QString member4 MEMBER sMember NOTIFY member4Changed)
Q_PROPERTY(QString member5 MEMBER sMember NOTIFY member5Changed)
Q_PROPERTY(QString member6 MEMBER sConst CONSTANT)
Q_PROPERTY(QString sub1 MEMBER (sub.m_string))
Q_PROPERTY(QString sub2 READ (sub.string) WRITE (sub.setString))
public:
inline tst_Moc() : sConst("const") {}
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 ignoreOptionClashes();
void forgottenQInterface();
void os9Newline();
void winNewline();
void escapesInStringLiterals();
void frameworkSearchPath();
void cstyleEnums();
void defineMacroViaCmdline();
void defineMacroViaForcedInclude();
void defineMacroViaForcedIncludeRelative();
void environmentIncludePaths_data();
void environmentIncludePaths();
void specifyMetaTagsFromCmdline();
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 memberProperties_data();
void memberProperties();
void memberProperties2();
void privateSignalConnection();
void finalClasses_data();
void finalClasses();
void explicitOverrideControl_data();
void explicitOverrideControl();
void autoPropertyMetaTypeRegistration();
void autoMethodArgumentMetaTypeRegistration();
void autoSignalSpyMetaTypeRegistration();
void parseDefines();
void preprocessorOnly();
void unterminatedFunctionMacro();
void QTBUG32933_relatedObjectsDontIncludeItself();
Fix erroneous exclusion of classes from related meta objects in moc Assume an unrelated class that declares an enum and uses Q_ENUMS. Consider then a class that uses UnrelatedClass::Enum as a Q_PROPERTY. We used to include UnrelatedClass in the primary class's related meta objects, in order to support use-cases like obj->setProperty("enumProperty", "ValueOfEnumAsString"); If however moc happens to see Q_DECLARE_METATYPE(UnrelatedClass::Enum), then it would exclude it from the related meta objects, which would silently break the string based enum value conversion. This was meant as an optimization, but it isn't apparent to the developer why sometimes the string conversion would work and sometimes not (depending on whether somebody declares that macro). This also becomes visible in QML, which relies on the same embedded type information for enum assignments. This patch removes that check in moc's code generator and cleans up the code a little. However always including the prefix of Q_PROPERTY(SomePrefix::Enum ...) is not correct either, because it may be that SomePrefix is a namespace, which would cause compilation issues. Therefore we limit the inclusion of related meta objects only to Q_OBJECT decorated classes the moc has seen, and for these we save the fully qualified name in the related meta objects array (for QTBUG-2151). While this patch makes the previous workaround for namespace issues by using a Q_DECLARE_METATYPE not workable anymore, by saving the fully qualified name we are making a hopefully sufficient effort to not require a workaround in the first place. There's always the new workaround of fully qualifying the type in Q_PROPERTY. One side-effect of this change is that in the autoPropertyMetaTypeRegistration test of tst_moc, the CustomQObject for Q_PROPERTY(CustomQObject::Number enumValue ...) is now a related meta object, and therefore when querying for the type of this property via QMetaProperty::userType(), we are now aware of this being an enum and try to resolve CustomQObject::Number via QMetaType::type(qualfiedName). As there is no guarantee for this to succeed, we must now also do what is done in the non-enum code path in ::userType(), which is to call the moc generated type registration function. Task-number: QTBUG-33577 Task-number: QTBUG-2151 Change-Id: Ibf20e7421cba464c558a25c76a7e1eef002c6cff Reviewed-by: Olivier Goffart <ogoffart@woboq.com>
2013-12-12 09:50:00 +00:00
void writeEnumFromUnrelatedClass();
void relatedMetaObjectsWithinNamespaces();
void relatedMetaObjectsInGadget();
void relatedMetaObjectsNameConflict_data();
void relatedMetaObjectsNameConflict();
void strignLiteralsInMacroExtension();
void unnamedNamespaceObjectsAndGadgets();
void veryLongStringData();
void gadgetHierarchy();
void optionsFileError_data();
void optionsFileError();
void testQNamespace();
void cxx17Namespaces();
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;
void member4Changed();
void member5Changed(const QString &newVal);
private:
bool user1() { return true; };
bool user2() { return false; };
bool user3() { return false; };
bool userFunction(){ return false; };
template <class T> void revisions_T();
QString member2() const { return sMember; }
void setMember3( const QString &sVal ) { sMember = sVal; }
private:
QString m_moc;
QString m_sourceDirectory;
QString qtIncludePath;
class PrivateClass;
QString sMember;
const QString sConst;
PrivatePropertyTest *pPPTest;
struct {
QString m_string;
void setString(const QString &s) { m_string = s; }
QString string() { return m_string; }
} sub;
};
void tst_Moc::initTestCase()
{
QString binpath = QLibraryInfo::location(QLibraryInfo::BinariesPath);
QString qmake = QString("%1/qmake").arg(binpath);
m_moc = QString("%1/moc").arg(binpath);
const QString testHeader = QFINDTESTDATA("backslash-newlines.h");
QVERIFY(!testHeader.isEmpty());
m_sourceDirectory = QFileInfo(testHeader).absolutePath();
#if defined(Q_OS_UNIX) && QT_CONFIG(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) && QT_CONFIG(process)
QProcess proc;
proc.start(m_moc, QStringList(m_sourceDirectory + QStringLiteral("/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" << "-fPIC" << "-std=c++11" << "-";
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::warnOnExtraSignalSlotQualifiaction()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && QT_CONFIG(process)
QProcess proc;
const QString header = m_sourceDirectory + QStringLiteral("/extraqualification.h");
proc.start(m_moc, QStringList(header));
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QByteArray mocOut = proc.readAllStandardOutput();
QVERIFY(!mocOut.isEmpty());
QString mocWarning = QString::fromLocal8Bit(proc.readAllStandardError());
QCOMPARE(mocWarning, header +
QString(":43: Warning: Function declaration Test::badFunctionDeclaration contains extra qualification. Ignoring as signal or slot.\n") +
header + QString(":46: 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) && QT_CONFIG(process)
QProcess proc;
proc.setWorkingDirectory(m_sourceDirectory + QStringLiteral("/task71021"));
proc.start(m_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" << "-fPIC" << "-std=c++11" << "-";
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);
QCOMPARE(mobj->classInfoCount(), 5);
QCOMPARE(mobj->classInfo(2).name(), "cpp c*/omment");
QCOMPARE(mobj->classInfo(2).value(), "f/*oo");
QCOMPARE(mobj->classInfo(3).name(), "endswith\\");
QCOMPARE(mobj->classInfo(3).value(), "Or?\?/");
QCOMPARE(mobj->classInfo(4).name(), "newline\n inside\n");
QCOMPARE(mobj->classInfo(4).value(), "Or \r");
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);
QCOMPARE(mobj->indexOfSignal("doNotExist()"), -1);
}
void tst_Moc::blackslashNewlines()
{
BackslashNewlines tst;
const QMetaObject *mobj = tst.metaObject();
QVERIFY(mobj->indexOfSlot("works()") != -1);
QCOMPARE(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 * const *objects = mobjUser->d.relatedMetaObjects;
QVERIFY(objects);
QCOMPARE(objects[0], mobjSource);
QVERIFY(!objects[1]);
}
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));
QCOMPARE(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) && QT_CONFIG(process)
QProcess proc;
QStringList args;
const QString header = m_sourceDirectory + QStringLiteral("/warn-on-multiple-qobject-subclasses.h");
args << "-I" << qtIncludePath + "/QtGui" << header;
proc.start(m_moc, args);
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QByteArray mocOut = proc.readAllStandardOutput();
QVERIFY(!mocOut.isEmpty());
QString mocWarning = QString::fromLocal8Bit(proc.readAllStandardError());
QCOMPARE(mocWarning, header +
QString(":43: 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::ignoreOptionClashes()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && QT_CONFIG(process)
QProcess proc;
QStringList args;
const QString header = m_sourceDirectory + QStringLiteral("/interface-from-include.h");
const QString includeDir = m_sourceDirectory + "/Test.framework/Headers";
// given --ignore-option-clashes, -pthread should be ignored, but the -I path should not be.
args << "--ignore-option-clashes" << "-pthread" << "-I" << includeDir << "-fno-builtin" << header;
proc.start(m_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());
QByteArray mocOut = proc.readAllStandardOutput();
// If -pthread wasn't ignored, it was parsed as a prefix of "thread/", which breaks compilation.
QStringList gccArgs;
gccArgs << "-c" << "-x" << "c++" << "-I" << ".."
<< "-I" << qtIncludePath << "-I" << includeDir << "-o" << "/dev/null"
<< "-fPIC" << "-std=c++11" << "-";
proc.start("gcc", gccArgs);
QVERIFY(proc.waitForStarted());
proc.write(mocOut);
proc.closeWriteChannel();
QVERIFY(proc.waitForFinished());
QCOMPARE(QString::fromLocal8Bit(proc.readAllStandardError()), QString());
#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) && QT_CONFIG(process)
QProcess proc;
QStringList args;
const QString header = m_sourceDirectory + QStringLiteral("/forgotten-qinterface.h");
args << "-I" << qtIncludePath + "/QtCore" << header;
proc.start(m_moc, args);
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QByteArray mocOut = proc.readAllStandardOutput();
QVERIFY(!mocOut.isEmpty());
QString mocWarning = QString::fromLocal8Bit(proc.readAllStandardError());
QCOMPARE(mocWarning, header +
QString(":45: 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(m_sourceDirectory + QStringLiteral("/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(m_sourceDirectory + QStringLiteral("/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;
QCOMPARE(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) && QT_CONFIG(process)
QStringList args;
args << "-F" << m_sourceDirectory + QStringLiteral("/.")
<< m_sourceDirectory + QStringLiteral("/interface-from-framework.h")
;
QProcess proc;
proc.start(m_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(), 2);
QMetaEnum metaEnum = obj.enumerator(0);
QCOMPARE(metaEnum.name(), "Baz");
QCOMPARE(metaEnum.keyCount(), 2);
QCOMPARE(metaEnum.key(0), "Foo");
QCOMPARE(metaEnum.key(1), "Bar");
QMetaEnum metaEnum2 = obj.enumerator(1);
QCOMPARE(metaEnum2.name(), "Baz2");
QCOMPARE(metaEnum2.keyCount(), 2);
QCOMPARE(metaEnum2.key(0), "Foo2");
QCOMPARE(metaEnum2.key(1), "Bar2");
}
void tst_Moc::templateGtGt()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && QT_CONFIG(process)
QProcess proc;
proc.start(m_moc, QStringList(m_sourceDirectory + QStringLiteral("/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) && QT_CONFIG(process)
QProcess proc;
QStringList args;
args << "-DFOO";
args << m_sourceDirectory + QStringLiteral("/macro-on-cmdline.h");
proc.start(m_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::defineMacroViaForcedInclude()
{
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && QT_CONFIG(process)
QProcess proc;
QStringList args;
args << "--include" << m_sourceDirectory + QLatin1String("/subdir/extradefines.h");
args << m_sourceDirectory + QStringLiteral("/macro-on-cmdline.h");
proc.start(m_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::defineMacroViaForcedIncludeRelative()
{
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && QT_CONFIG(process)
QProcess proc;
QStringList args;
args << "--include" << QStringLiteral("extradefines.h") << "-I" + m_sourceDirectory + "/subdir";
args << m_sourceDirectory + QStringLiteral("/macro-on-cmdline.h");
proc.start(m_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::environmentIncludePaths_data()
{
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && QT_CONFIG(process)
QTest::addColumn<QString>("cmdline");
QTest::addColumn<QString>("varname");
QTest::newRow("INCLUDE") << "--compiler-flavor=msvc" << "INCLUDE";
QTest::newRow("CPATH1") << QString() << "CPATH";
QTest::newRow("CPATH2") << "--compiler-flavor=unix" << "CPATH";
QTest::newRow("CPLUS_INCLUDE_PATH1") << QString() << "CPLUS_INCLUDE_PATH";
QTest::newRow("CPLUS_INCLUDE_PATH2") << "--compiler-flavor=unix" << "CPLUS_INCLUDE_PATH";
#endif
}
void tst_Moc::environmentIncludePaths()
{
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && QT_CONFIG(process)
QFETCH(QString, cmdline);
QFETCH(QString, varname);
QStringList args;
if (!cmdline.isEmpty())
args << cmdline;
args << "--include" << QStringLiteral("extradefines.h")
<< m_sourceDirectory + QStringLiteral("/macro-on-cmdline.h");
QProcessEnvironment env = QProcessEnvironment::systemEnvironment();
env.remove("INCLUDE");
env.remove("CPATH");
env.remove("CPLUS_INCLUDE_PATH");
env.insert(varname, m_sourceDirectory + "/subdir");
QProcess proc;
proc.setProcessEnvironment(env);
proc.start(m_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
}
// tst_Moc::specifyMetaTagsFromCmdline()
// plugin_metadata.h contains a plugin which we register here. Since we're not building this
// application as a plugin, we need top copy some of the initializer code found in qplugin.h:
extern "C" QObject *qt_plugin_instance();
extern "C" const char *qt_plugin_query_metadata();
class StaticPluginInstance{
public:
StaticPluginInstance() {
QStaticPlugin plugin = { &qt_plugin_instance, &qt_plugin_query_metadata };
qRegisterStaticPluginFunction(plugin);
}
};
static StaticPluginInstance staticInstance;
void tst_Moc::specifyMetaTagsFromCmdline() {
foreach (const QStaticPlugin &plugin, QPluginLoader::staticPlugins()) {
const QString iid = plugin.metaData().value(QLatin1String("IID")).toString();
if (iid == QLatin1String("test.meta.tags")) {
const QJsonArray metaTagsUriList = plugin.metaData().value("uri").toArray();
QCOMPARE(metaTagsUriList.size(), 2);
// The following uri-s are set in the pro file using
// -Muri=com.company.app -Muri=com.company.app.private
QCOMPARE(metaTagsUriList[0].toString(), QLatin1String("com.company.app"));
QCOMPARE(metaTagsUriList[1].toString(), QLatin1String("com.company.app.private"));
return;
}
}
QFAIL("Could not find plugin with IID 'test.meta.tags'");
}
void tst_Moc::invokable()
{
{
const QMetaObject &mobj = InvokableBeforeReturnType::staticMetaObject;
QCOMPARE(mobj.methodCount(), 6);
QCOMPARE(mobj.method(5).methodSignature(), QByteArray("foo()"));
}
{
const QMetaObject &mobj = InvokableBeforeInline::staticMetaObject;
QCOMPARE(mobj.methodCount(), 7);
QCOMPARE(mobj.method(5).methodSignature(), QByteArray("foo()"));
QCOMPARE(mobj.method(6).methodSignature(), QByteArray("bar()"));
}
}
void tst_Moc::singleFunctionKeywordSignalAndSlot()
{
{
const QMetaObject &mobj = SingleFunctionKeywordBeforeReturnType::staticMetaObject;
QCOMPARE(mobj.methodCount(), 7);
QCOMPARE(mobj.method(5).methodSignature(), QByteArray("mySignal()"));
QCOMPARE(mobj.method(6).methodSignature(), QByteArray("mySlot()"));
}
{
const QMetaObject &mobj = SingleFunctionKeywordBeforeInline::staticMetaObject;
QCOMPARE(mobj.methodCount(), 7);
QCOMPARE(mobj.method(5).methodSignature(), QByteArray("mySignal()"));
QCOMPARE(mobj.method(6).methodSignature(), QByteArray("mySlot()"));
}
{
const QMetaObject &mobj = SingleFunctionKeywordAfterInline::staticMetaObject;
QCOMPARE(mobj.methodCount(), 7);
QCOMPARE(mobj.method(5).methodSignature(), QByteArray("mySignal()"));
QCOMPARE(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)
Q_PRIVATE_PROPERTY(PrivatePropertyTest::d, QString blub MEMBER mBlub)
Q_PRIVATE_PROPERTY(PrivatePropertyTest::d, QString blub2 MEMBER mBlub READ blub)
Q_PRIVATE_PROPERTY(PrivatePropertyTest::d, QString blub3 MEMBER mBlub WRITE setBlub)
Q_PRIVATE_PROPERTY(PrivatePropertyTest::d, QString blub4 MEMBER mBlub NOTIFY blub4Changed)
Q_PRIVATE_PROPERTY(PrivatePropertyTest::d, QString blub5 MEMBER mBlub NOTIFY blub5Changed)
Q_PRIVATE_PROPERTY(PrivatePropertyTest::d, QString blub6 MEMBER mConst CONSTANT)
class MyDPointer {
public:
MyDPointer() : mConst("const"), 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; }
QString blub() const { return mBlub; }
void setBlub(const QString &value) { mBlub = value; }
QString mBlub;
const QString mConst;
private:
int mBar;
int mPlop;
int mBaz;
};
public:
PrivatePropertyTest(QObject *parent = 0) : QObject(parent), mFoo(0), d (new MyDPointer) {}
int foo() { return mFoo ; }
void setFoo(int value) { mFoo = value; }
MyDPointer *d_func() {return d.data();}
signals:
void blub4Changed();
void blub5Changed(const QString &newBlub);
private:
int mFoo;
QScopedPointer<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) && QT_CONFIG(process)
QProcess proc;
const QString header = m_sourceDirectory + QStringLiteral("/warn-on-property-without-read.h");
proc.start(m_moc, QStringList(header));
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QByteArray mocOut = proc.readAllStandardOutput();
QVERIFY(!mocOut.isEmpty());
QString mocWarning = QString::fromLocal8Bit(proc.readAllStandardError());
QCOMPARE(mocWarning, header +
QString(":36: Warning: Property declaration foo has no READ accessor function or associated MEMBER variable. 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);
QScopedPointer<QObject> o1(mo->newInstance());
QVERIFY(o1 != 0);
QCOMPARE(o1->parent(), (QObject*)0);
QVERIFY(qobject_cast<CtorTestClass*>(o1.data()) != 0);
QObject *o2 = mo->newInstance(Q_ARG(QObject*, o1.data()));
QVERIFY(o2 != 0);
QCOMPARE(o2->parent(), o1.data());
QString str = QString::fromLatin1("hello");
QScopedPointer<QObject> o3(mo->newInstance(Q_ARG(QString, str)));
QVERIFY(o3 != 0);
QCOMPARE(qobject_cast<CtorTestClass*>(o3.data())->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) && QT_CONFIG(process)
QProcess proc;
const QString header = m_sourceDirectory + QStringLiteral("/pure-virtual-signals.h");
proc.start(m_moc, QStringList(header));
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QByteArray mocOut = proc.readAllStandardOutput();
QVERIFY(!mocOut.isEmpty());
QString mocWarning = QString::fromLocal8Bit(proc.readAllStandardError());
QCOMPARE(mocWarning, header + QString(":38: Warning: Signals cannot be declared virtual\n") +
header + QString(":40: 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); }
void doSomethingElse(QSharedPointer<QVarLengthArray<QString, (16 >> 2)> > val
= QSharedPointer<QVarLengthArray<QString, (16 >> 2)> >() )
{ Q_UNUSED(val); }
#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); }
void doSomethingElse(QSharedPointer<QVarLengthArray<QString, (16 >> 2)> > val
= (QSharedPointer<QVarLengthArray<QString, (16 >> 2)> >()) )
{ Q_UNUSED(val); }
#endif
void doAnotherThing(bool a = (1 < 3), bool b = (1 > 4)) { Q_UNUSED(a); Q_UNUSED(b); }
#if defined(Q_MOC_RUN) || (defined(Q_COMPILER_AUTO_TYPE) && !(defined(Q_CC_CLANG) && Q_CC_CLANG < 304))
// There is no Q_COMPILER_>> but if compiler support auto, it should also support >>
void performSomething(QVector<QList<QString>> e = QVector<QList<QString>>(8 < 1),
QHash<int, QVector<QString>> h = QHash<int, QVector<QString>>())
{ Q_UNUSED(e); Q_UNUSED(h); }
#else
void performSomething(QVector<QList<QString> > e = QVector<QList<QString> >(),
QHash<int, QVector<QString> > h = (QHash<int, QVector<QString> >()))
{ Q_UNUSED(e); Q_UNUSED(h); }
#endif
};
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);
QVERIFY(QTBUG12260_defaultTemplate_Object::staticMetaObject.indexOfSlot("doSomethingElse(QSharedPointer<QVarLengthArray<QString,(16>>2)> >)") != -1);
QVERIFY(QTBUG12260_defaultTemplate_Object::staticMetaObject.indexOfSlot("performSomething(QVector<QList<QString> >,QHash<int,QVector<QString> >)") != -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) && QT_CONFIG(process)
QProcess proc;
const QString header = m_sourceDirectory + QStringLiteral("/error-on-wrong-notify.h");
proc.start(m_moc, QStringList(header));
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 0);
QCOMPARE(proc.exitStatus(), QProcess::NormalExit);
QByteArray mocOut = proc.readAllStandardOutput();
QVERIFY(!mocOut.isEmpty());
QCOMPARE(proc.readAllStandardError(), QByteArray());
QStringList args;
args << "-c" << "-x" << "c++" << "-I" << "."
<< "-I" << qtIncludePath << "-o" << "/dev/null" << "-fPIC" << "-std=c++11" << "-";
proc.start("gcc", args);
QVERIFY(proc.waitForStarted());
proc.write(mocOut);
proc.closeWriteChannel();
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 1);
const QString gccOutput = QString::fromLocal8Bit(proc.readAllStandardError());
QVERIFY(gccOutput.contains(QLatin1String("error")));
QVERIFY(gccOutput.contains(QLatin1String("fooChanged")));
#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)
public:
int foo() const { return 0; }
Q_INVOKABLE void method1() {}
Q_INVOKABLE Q_REVISION(4) void method2() {}
enum TestEnum { One, Two };
Q_ENUM(TestEnum);
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)
public:
int foo() const { return 0; }
Q_INVOKABLE void method1() {}
Q_INVOKABLE Q_REVISION(4) void method2() {}
enum TestEnum { One, Two };
Q_ENUM(TestEnum);
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");
QCOMPARE(T::staticMetaObject.property(idx).revision(), 0);
idx = T::staticMetaObject.indexOfProperty("prop2");
QCOMPARE(T::staticMetaObject.property(idx).revision(), 2);
idx = T::staticMetaObject.indexOfMethod("method1()");
QCOMPARE(T::staticMetaObject.method(idx).revision(), 0);
idx = T::staticMetaObject.indexOfMethod("method2()");
QCOMPARE(T::staticMetaObject.method(idx).revision(), 4);
idx = T::staticMetaObject.indexOfSlot("slot1()");
QCOMPARE(T::staticMetaObject.method(idx).revision(), 0);
idx = T::staticMetaObject.indexOfSlot("slot2()");
QCOMPARE(T::staticMetaObject.method(idx).revision(), 3);
idx = T::staticMetaObject.indexOfSlot("slot3()");
QCOMPARE(T::staticMetaObject.method(idx).revision(), 6);
idx = T::staticMetaObject.indexOfSlot("slot4()");
QCOMPARE(T::staticMetaObject.method(idx).revision(), 6);
idx = T::staticMetaObject.indexOfSignal("signal1()");
QCOMPARE(T::staticMetaObject.method(idx).revision(), 0);
idx = T::staticMetaObject.indexOfSignal("signal2()");
QCOMPARE(T::staticMetaObject.method(idx).revision(), 5);
idx = T::staticMetaObject.indexOfSignal("signal3()");
QCOMPARE(T::staticMetaObject.method(idx).revision(), 7);
idx = T::staticMetaObject.indexOfSignal("signal4()");
QCOMPARE(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 or associated MEMBER variable. The property will be invalid.");
// This should output a warning
QTest::newRow("Duplicate property warning")
<< QByteArray("class X : public QObject { Q_OBJECT Q_PROPERTY(int x READ x) Q_PROPERTY(int x READ y) };")
<< QStringList()
<< 0
<< QString("IGNORE_ALL_STDOUT")
<< QString("standard input:1: Warning: The property 'x' is defined multiple times in class X.");
// 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 or associated MEMBER variable. 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");
QTest::newRow("Warning on invalid macro")
<< QByteArray("#define Foo(a, b)\n class X : public QObject { Q_OBJECT }; \n Foo(a) \n Foo(a,b,c) \n")
<< QStringList()
<< 0
<< QString("IGNORE_ALL_STDOUT")
<< QString();
QTest::newRow("Class declaration lacks Q_OBJECT macro.")
<< QByteArray("class X : public QObject \n { \n public slots: \n void foo() {} \n };")
<< QStringList()
<< 1
<< QString()
<< QString("standard input:5: Error: Class declaration lacks Q_OBJECT macro.");
QTest::newRow("Namespace declaration lacks Q_NAMESPACE macro.")
<< QByteArray("namespace X {\nQ_CLASSINFO(\"key\",\"value\")\nenum class MyEnum {Key1 = 1}\nQ_ENUMS(MyEnum)\n}\n")
<< QStringList()
<< 1
<< QString()
<< QString("standard input:1: Error: Namespace declaration lacks Q_NAMESPACE macro.");
QTest::newRow("Wrong Q_ENUM context.")
<< QByteArray("namespace X {\nQ_NAMESPACE\n\nenum class MyEnum {Key1 = 1}\nQ_ENUM(MyEnum)\n}\n")
<< QStringList()
<< 1
<< QString()
<< QString("standard input:5: Error: Q_ENUM can't be used in a Q_NAMESPACE, use Q_ENUM_NS instead");
QTest::newRow("Wrong Q_FLAG context.")
<< QByteArray("namespace X {\nQ_NAMESPACE\n\nenum class MyEnum {Key1 = 1}\nQ_FLAG(MyEnum)\n}\n")
<< QStringList()
<< 1
<< QString()
<< QString("standard input:5: Error: Q_FLAG can't be used in a Q_NAMESPACE, use Q_FLAG_NS instead");
QTest::newRow("Wrong Q_ENUM_NS context.")
<< QByteArray("class X {\nQ_GADGET\n\nenum class MyEnum {Key1 = 1}\nQ_ENUM_NS(MyEnum)\n};\n")
<< QStringList()
<< 1
<< QString()
<< QString("standard input:5: Error: Q_ENUM_NS can't be used in a Q_OBJECT/Q_GADGET, use Q_ENUM instead");
QTest::newRow("Wrong Q_FLAG_NS context.")
<< QByteArray("class X {\nQ_GADGET\n\nenum class MyEnum {Key1 = 1}\nQ_FLAG_NS(MyEnum)\n};\n")
<< QStringList()
<< 1
<< QString()
<< QString("standard input:5: Error: Q_FLAG_NS can't be used in a Q_OBJECT/Q_GADGET, use Q_FLAG instead");
QTest::newRow("Invalid macro definition")
<< QByteArray("#define Foo(a, b, c) a b c #a #b #c a##b##c #d\n Foo(45, 42, 39);")
<< QStringList()
<< 1
<< QString("IGNORE_ALL_STDOUT")
<< QString(":2: Error: '#' is not followed by a macro parameter");
QTest::newRow("QTBUG-46210: crash on invalid macro invocation")
<< QByteArray("#define Foo(a, b, c) a b c #a #b #c a##b##c\n Foo(45);")
<< QStringList()
<< 1
<< QString("IGNORE_ALL_STDOUT")
<< QString(":2: Error: Macro invoked with too few parameters for a use of '#'");
QTest::newRow("QTBUG-54609: crash on invalid input")
<< QByteArray::fromBase64("EAkJCQkJbGFzcyBjbGFzcyBiYWkcV2kgTUEKcGYjZGVmaW5lIE1BKFEs/4D/FoQ=")
<< QStringList()
<< 1
<< QString("IGNORE_ALL_STDOUT")
<< QString(":-1: Error: Unexpected character in macro argument list.");
QTest::newRow("Missing header warning")
<< QByteArray("class X : public QObject { Q_OBJECT };")
<< (QStringList() << QStringLiteral("--include") << QStringLiteral("doesnotexist.h"))
<< 0
<< QString("IGNORE_ALL_STDOUT")
<< QStringLiteral("Warning: Failed to resolve include \"doesnotexist.h\" for moc file <standard input>");
QTest::newRow("QTBUG-54815: Crash on invalid input")
<< QByteArray("class M{(})F<{}d000000000000000#0")
<< QStringList()
<< 0
<< QString()
<< QString("standard input:1: Note: No relevant classes found. No output generated.");
QTest::newRow("Q_PLUGIN_METADATA: invalid file")
<< QByteArray("class X { \n Q_PLUGIN_METADATA(FILE \"does.not.exists\") \n };")
<< QStringList()
<< 1
<< QString()
<< QString("standard input:2: Error: Plugin Metadata file \"does.not.exists\" does not exist. Declaration will be ignored");
#ifdef Q_OS_LINUX // Limit to Linux because the error message is platform-dependent
QTest::newRow("Q_PLUGIN_METADATA: unreadable file")
<< QByteArray("class X { \n Q_PLUGIN_METADATA(FILE \".\") \n };")
<< QStringList()
<< 1
<< QString()
<< QString("standard input:2: Error: Plugin Metadata file \".\" could not be opened: file to open is a directory");
#endif
}
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
#if QT_CONFIG(process)
QProcess proc;
QProcessEnvironment env = QProcessEnvironment::systemEnvironment();
env.insert("QT_MESSAGE_PATTERN", "no qDebug or qWarning please");
proc.setProcessEnvironment(env);
proc.start(m_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().remove('\r'), expectedStdErr);
#else
QSKIP("Only tested if QProcess is available");
#endif
}
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()
{
QCOMPARE(PrivateClass::staticMetaObject.indexOfConstructor("PrivateClass()"), 0);
QVERIFY(PrivateClass::staticMetaObject.indexOfSignal("someSignal()") > 0);
}
void tst_Moc::cxx11Enums_data()
{
QTest::addColumn<const QMetaObject *>("meta");
QTest::addColumn<QByteArray>("enumName");
QTest::addColumn<char>("prefix");
QTest::addColumn<bool>("isScoped");
const QMetaObject *meta1 = &CXX11Enums::staticMetaObject;
const QMetaObject *meta2 = &CXX11Enums2::staticMetaObject;
QTest::newRow("EnumClass") << meta1 << QByteArray("EnumClass") << 'A' << true;
QTest::newRow("EnumClass 2") << meta2 << QByteArray("EnumClass") << 'A' << true;
QTest::newRow("TypedEnum") << meta1 << QByteArray("TypedEnum") << 'B' << false;
QTest::newRow("TypedEnum 2") << meta2 << QByteArray("TypedEnum") << 'B' << false;
QTest::newRow("TypedEnumClass") << meta1 << QByteArray("TypedEnumClass") << 'C' << true;
QTest::newRow("TypedEnumClass 2") << meta2 << QByteArray("TypedEnumClass") << 'C' << true;
QTest::newRow("NormalEnum") << meta1 << QByteArray("NormalEnum") << 'D' << false;
QTest::newRow("NormalEnum 2") << meta2 << QByteArray("NormalEnum") << 'D' << false;
}
void tst_Moc::cxx11Enums()
{
QFETCH(const QMetaObject *,meta);
QCOMPARE(meta->enumeratorOffset(), 0);
QFETCH(QByteArray, enumName);
QFETCH(char, prefix);
QFETCH(bool, isScoped);
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());
}
QCOMPARE(meta->enumerator(idx).isScoped(), isScoped);
}
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.
}
void tst_Moc::memberProperties_data()
{
QTest::addColumn<int>("object");
QTest::addColumn<QString>("property");
QTest::addColumn<QString>("signal");
QTest::addColumn<QString>("writeValue");
QTest::addColumn<bool>("expectedWriteResult");
QTest::addColumn<QString>("expectedReadResult");
pPPTest = new PrivatePropertyTest( this );
QTest::newRow("MEMBER property")
<< 0 << "member1" << "" << "abc" << true << "abc";
QTest::newRow("MEMBER property with READ function")
<< 0 << "member2" << "" << "def" << true << "def";
QTest::newRow("MEMBER property with WRITE function")
<< 0 << "member3" << "" << "ghi" << true << "ghi";
QTest::newRow("MEMBER property with NOTIFY")
<< 0 << "member4" << "member4Changed()" << "lmn" << true << "lmn";
QTest::newRow("MEMBER property with NOTIFY(value)")
<< 0 << "member5" << "member5Changed(const QString&)" << "opq" << true << "opq";
QTest::newRow("MEMBER property with CONSTANT")
<< 0 << "member6" << "" << "test" << false << "const";
QTest::newRow("private MEMBER property")
<< 1 << "blub" << "" << "abc" << true << "abc";
QTest::newRow("private MEMBER property with READ function")
<< 1 << "blub2" << "" << "def" << true << "def";
QTest::newRow("private MEMBER property with WRITE function")
<< 1 << "blub3" << "" << "ghi" << true << "ghi";
QTest::newRow("private MEMBER property with NOTIFY")
<< 1 << "blub4" << "blub4Changed()" << "jkl" << true << "jkl";
QTest::newRow("private MEMBER property with NOTIFY(value)")
<< 1 << "blub5" << "blub5Changed(const QString&)" << "mno" << true << "mno";
QTest::newRow("private MEMBER property with CONSTANT")
<< 1 << "blub6" << "" << "test" << false << "const";
QTest::newRow("sub1")
<< 0 << "sub1" << "" << "helloSub1" << true << "helloSub1";
QTest::newRow("sub2")
<< 0 << "sub2" << "" << "helloSub2" << true << "helloSub2";
}
void tst_Moc::memberProperties()
{
QFETCH(int, object);
QFETCH(QString, property);
QFETCH(QString, signal);
QFETCH(QString, writeValue);
QFETCH(bool, expectedWriteResult);
QFETCH(QString, expectedReadResult);
QObject *pObj = (object == 0) ? this : static_cast<QObject*>(pPPTest);
QString sSignalDeclaration;
if (!signal.isEmpty())
sSignalDeclaration = QString(SIGNAL(%1)).arg(signal);
else
QTest::ignoreMessage(QtWarningMsg, "QSignalSpy: Not a valid signal, use the SIGNAL macro");
QSignalSpy notifySpy(pObj, sSignalDeclaration.toLatin1().constData());
int index = pObj->metaObject()->indexOfProperty(property.toLatin1().constData());
QVERIFY(index != -1);
QMetaProperty prop = pObj->metaObject()->property(index);
QCOMPARE(prop.write(pObj, writeValue), expectedWriteResult);
QVariant readValue = prop.read(pObj);
QCOMPARE(readValue.toString(), expectedReadResult);
if (!signal.isEmpty())
{
QCOMPARE(notifySpy.count(), 1);
if (prop.notifySignal().parameterNames().size() > 0) {
QList<QVariant> arguments = notifySpy.takeFirst();
QCOMPARE(arguments.size(), 1);
QCOMPARE(arguments.at(0).toString(), expectedReadResult);
}
notifySpy.clear();
// a second write with the same value should not cause the signal to be emitted again
QCOMPARE(prop.write(pObj, writeValue), expectedWriteResult);
QCOMPARE(notifySpy.count(), 0);
}
}
//this used to fail to compile
class ClassWithOneMember : public QObject {
Q_PROPERTY(int member MEMBER member)
Q_OBJECT
public:
int member;
};
void tst_Moc::memberProperties2()
{
ClassWithOneMember o;
o.member = 442;
QCOMPARE(o.property("member").toInt(), 442);
QVERIFY(o.setProperty("member", 6666));
QCOMPARE(o.member, 6666);
}
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.
// Connecting from one private signal to another
{
ClassWithPrivateSignals classWithPrivateSignals1;
ClassWithPrivateSignals classWithPrivateSignals2;
SignalConnectionTester tester;
QObject::connect(&classWithPrivateSignals1, &ClassWithPrivateSignals::privateSignal1,
&classWithPrivateSignals2, &ClassWithPrivateSignals::privateSignal1);
QObject::connect(&classWithPrivateSignals2, &ClassWithPrivateSignals::privateSignal1,
&tester, &SignalConnectionTester::testSlot);
QVERIFY(!tester.testPassed);
classWithPrivateSignals1.emitPrivateSignals();
QVERIFY(tester.testPassed);
}
}
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);
}
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 {};
struct CustomObject12 {};
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)
Q_DECLARE_METATYPE(CustomObject12)
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>&) {}
signals:
void someSignal(CustomObject12);
};
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;
while (i < metaObject->methodCount()) {
// Skip over signals so we start at the first slot.
const QMetaMethod method = metaObject->method(i);
if (method.methodType() == QMetaMethod::Signal)
++i;
else
break;
}
#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::autoSignalSpyMetaTypeRegistration()
{
AutoRegistrationObject aro;
QVector<int> methodArgMetaTypeIds;
const QMetaObject *metaObject = aro.metaObject();
int i = metaObject->indexOfSignal(QMetaObject::normalizedSignature("someSignal(CustomObject12)"));
QVERIFY(i > 0);
QCOMPARE(QMetaType::type("CustomObject12"), (int)QMetaType::UnknownType);
QSignalSpy spy(&aro, SIGNAL(someSignal(CustomObject12)));
QVERIFY(QMetaType::type("CustomObject12") != QMetaType::UnknownType);
QCOMPARE(QMetaType::type("CustomObject12"), qMetaTypeId<CustomObject12>());
}
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);
QCOMPARE(mo->method(index).returnType(), int(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);
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);
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;
QVERIFY(!qstrcmp(mci.value(), "ParseDefine"));
}
if (!qstrcmp(mci.name(), "TestString3")) {
++count;
QVERIFY(!qstrcmp(mci.value(), "TestValue"));
}
}
QCOMPARE(count, 3);
index = mo->indexOfSlot("PD_DEFINE_ITSELF_SUFFIX(int)");
QVERIFY(index != -1);
index = mo->indexOfSignal("cmdlineSignal(QMap<int,int>)");
QVERIFY(index != -1);
index = mo->indexOfSignal("signalQTBUG55853()");
QVERIFY(index != -1);
}
void tst_Moc::preprocessorOnly()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && QT_CONFIG(process)
QProcess proc;
proc.start(m_moc, QStringList() << "-E" << m_sourceDirectory + QStringLiteral("/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
}
void tst_Moc::unterminatedFunctionMacro()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
#if defined(Q_OS_LINUX) && defined(Q_CC_GNU) && QT_CONFIG(process)
QProcess proc;
proc.start(m_moc, QStringList() << "-E" << m_sourceDirectory + QStringLiteral("/unterminated-function-macro.h"));
QVERIFY(proc.waitForFinished());
QCOMPARE(proc.exitCode(), 1);
QCOMPARE(proc.readAllStandardOutput(), QByteArray());
QByteArray errorOutput = proc.readAllStandardError();
QVERIFY(!errorOutput.isEmpty());
QVERIFY(errorOutput.contains("missing ')' in macro usage"));
#else
QSKIP("Only tested on linux/gcc");
#endif
}
namespace QTBUG32933_relatedObjectsDontIncludeItself {
namespace NS {
class Obj : QObject {
Q_OBJECT
Q_PROPERTY(MyEnum p1 MEMBER member)
Q_PROPERTY(Obj::MyEnum p2 MEMBER member)
Q_PROPERTY(NS::Obj::MyEnum p3 MEMBER member)
Q_PROPERTY(QTBUG32933_relatedObjectsDontIncludeItself::NS::Obj::MyEnum p4 MEMBER member)
Q_ENUMS(MyEnum);
public:
enum MyEnum { Something, SomethingElse };
MyEnum member;
};
}
}
void tst_Moc::QTBUG32933_relatedObjectsDontIncludeItself()
{
const QMetaObject *mo = &QTBUG32933_relatedObjectsDontIncludeItself::NS::Obj::staticMetaObject;
const QMetaObject * const *objects = mo->d.relatedMetaObjects;
// the related objects should be empty because the enums is in the same object.
QVERIFY(!objects);
}
Fix erroneous exclusion of classes from related meta objects in moc Assume an unrelated class that declares an enum and uses Q_ENUMS. Consider then a class that uses UnrelatedClass::Enum as a Q_PROPERTY. We used to include UnrelatedClass in the primary class's related meta objects, in order to support use-cases like obj->setProperty("enumProperty", "ValueOfEnumAsString"); If however moc happens to see Q_DECLARE_METATYPE(UnrelatedClass::Enum), then it would exclude it from the related meta objects, which would silently break the string based enum value conversion. This was meant as an optimization, but it isn't apparent to the developer why sometimes the string conversion would work and sometimes not (depending on whether somebody declares that macro). This also becomes visible in QML, which relies on the same embedded type information for enum assignments. This patch removes that check in moc's code generator and cleans up the code a little. However always including the prefix of Q_PROPERTY(SomePrefix::Enum ...) is not correct either, because it may be that SomePrefix is a namespace, which would cause compilation issues. Therefore we limit the inclusion of related meta objects only to Q_OBJECT decorated classes the moc has seen, and for these we save the fully qualified name in the related meta objects array (for QTBUG-2151). While this patch makes the previous workaround for namespace issues by using a Q_DECLARE_METATYPE not workable anymore, by saving the fully qualified name we are making a hopefully sufficient effort to not require a workaround in the first place. There's always the new workaround of fully qualifying the type in Q_PROPERTY. One side-effect of this change is that in the autoPropertyMetaTypeRegistration test of tst_moc, the CustomQObject for Q_PROPERTY(CustomQObject::Number enumValue ...) is now a related meta object, and therefore when querying for the type of this property via QMetaProperty::userType(), we are now aware of this being an enum and try to resolve CustomQObject::Number via QMetaType::type(qualfiedName). As there is no guarantee for this to succeed, we must now also do what is done in the non-enum code path in ::userType(), which is to call the moc generated type registration function. Task-number: QTBUG-33577 Task-number: QTBUG-2151 Change-Id: Ibf20e7421cba464c558a25c76a7e1eef002c6cff Reviewed-by: Olivier Goffart <ogoffart@woboq.com>
2013-12-12 09:50:00 +00:00
class UnrelatedClass : public QObject
{
Q_OBJECT
Q_ENUMS(UnrelatedEnum)
public:
enum UnrelatedEnum {
UnrelatedInvalidValue = -1,
UnrelatedValue = 42
};
};
// The presence of this macro used to confuse moc and prevent
// UnrelatedClass from being listed in the related meta objects.
Q_DECLARE_METATYPE(UnrelatedClass::UnrelatedEnum)
class TestClassReferencingUnrelatedEnum : public QObject
{
Q_OBJECT
Q_PROPERTY(UnrelatedClass::UnrelatedEnum enumProperty READ enumProperty WRITE setEnumProperty)
public:
TestClassReferencingUnrelatedEnum()
: m_enumProperty(UnrelatedClass::UnrelatedInvalidValue)
{}
UnrelatedClass::UnrelatedEnum enumProperty() const {
return m_enumProperty;
}
void setEnumProperty(UnrelatedClass::UnrelatedEnum arg) {
m_enumProperty = arg;
}
private:
UnrelatedClass::UnrelatedEnum m_enumProperty;
};
void tst_Moc::writeEnumFromUnrelatedClass()
{
TestClassReferencingUnrelatedEnum obj;
QString enumValueAsString("UnrelatedValue");
obj.setProperty("enumProperty", enumValueAsString);
QCOMPARE(int(obj.enumProperty()), int(UnrelatedClass::UnrelatedValue));
}
void tst_Moc::relatedMetaObjectsWithinNamespaces()
{
const QMetaObject *relatedMo = &QTBUG_2151::A::staticMetaObject;
const QMetaObject *testMo = &QTBUG_2151::B::staticMetaObject;
QVERIFY(testMo->d.relatedMetaObjects);
QCOMPARE(testMo->d.relatedMetaObjects[0], relatedMo);
Fix erroneous exclusion of classes from related meta objects in moc Assume an unrelated class that declares an enum and uses Q_ENUMS. Consider then a class that uses UnrelatedClass::Enum as a Q_PROPERTY. We used to include UnrelatedClass in the primary class's related meta objects, in order to support use-cases like obj->setProperty("enumProperty", "ValueOfEnumAsString"); If however moc happens to see Q_DECLARE_METATYPE(UnrelatedClass::Enum), then it would exclude it from the related meta objects, which would silently break the string based enum value conversion. This was meant as an optimization, but it isn't apparent to the developer why sometimes the string conversion would work and sometimes not (depending on whether somebody declares that macro). This also becomes visible in QML, which relies on the same embedded type information for enum assignments. This patch removes that check in moc's code generator and cleans up the code a little. However always including the prefix of Q_PROPERTY(SomePrefix::Enum ...) is not correct either, because it may be that SomePrefix is a namespace, which would cause compilation issues. Therefore we limit the inclusion of related meta objects only to Q_OBJECT decorated classes the moc has seen, and for these we save the fully qualified name in the related meta objects array (for QTBUG-2151). While this patch makes the previous workaround for namespace issues by using a Q_DECLARE_METATYPE not workable anymore, by saving the fully qualified name we are making a hopefully sufficient effort to not require a workaround in the first place. There's always the new workaround of fully qualifying the type in Q_PROPERTY. One side-effect of this change is that in the autoPropertyMetaTypeRegistration test of tst_moc, the CustomQObject for Q_PROPERTY(CustomQObject::Number enumValue ...) is now a related meta object, and therefore when querying for the type of this property via QMetaProperty::userType(), we are now aware of this being an enum and try to resolve CustomQObject::Number via QMetaType::type(qualfiedName). As there is no guarantee for this to succeed, we must now also do what is done in the non-enum code path in ::userType(), which is to call the moc generated type registration function. Task-number: QTBUG-33577 Task-number: QTBUG-2151 Change-Id: Ibf20e7421cba464c558a25c76a7e1eef002c6cff Reviewed-by: Olivier Goffart <ogoffart@woboq.com>
2013-12-12 09:50:00 +00:00
}
void tst_Moc::relatedMetaObjectsInGadget()
{
const QMetaObject *relatedMo = &QTBUG_35657::A::staticMetaObject;
const QMetaObject *testMo = &QTBUG_35657::B::staticMetaObject;
QVERIFY(testMo->d.relatedMetaObjects);
QCOMPARE(testMo->d.relatedMetaObjects[0], relatedMo);
}
void tst_Moc::relatedMetaObjectsNameConflict_data()
{
typedef QVector<const QMetaObject*> QMetaObjects;
QTest::addColumn<const QMetaObject*>("dependingObject");
QTest::addColumn<QMetaObjects>("relatedMetaObjects");
//NS1
const QMetaObject *n1gadget = &NS1::Gadget::staticMetaObject;
const QMetaObject *n1object = &NS1::Object::staticMetaObject;
const QMetaObject *n1nestedGadget = &NS1::Nested::Gadget::staticMetaObject;
const QMetaObject *n1nestedObject = &NS1::Nested::Object::staticMetaObject;
//N2
const QMetaObject *n2gadget = &NS2::Gadget::staticMetaObject;
const QMetaObject *n2object = &NS2::Object::staticMetaObject;
const QMetaObject *n2nestedGadget = &NS2::Nested::Gadget::staticMetaObject;
const QMetaObject *n2nestedObject = &NS2::Nested::Object::staticMetaObject;
QTest::newRow("N1::dependingObject") << &NS1::DependingObject::staticMetaObject
<< (QMetaObjects() << n1gadget << n1object);
QTest::newRow("N2::dependingObject") << &NS2::DependingObject::staticMetaObject
<< (QMetaObjects() << n2gadget << n2object);
QTest::newRow("N1::dependingNestedObject") << &NS1::DependingNestedObject::staticMetaObject
<< (QMetaObjects() << n1nestedObject);
QTest::newRow("N2::dependingNestedObject") << &NS2::DependingNestedObject::staticMetaObject
<< (QMetaObjects() << n2nestedObject);
QTest::newRow("N1::dependingNestedGadget") << &NS1::DependingNestedGadget::staticMetaObject
<< (QMetaObjects() << n1nestedGadget);
QTest::newRow("N2::dependingNestedGadget") << &NS2::DependingNestedGadget::staticMetaObject
<< (QMetaObjects() << n2nestedGadget);
}
void tst_Moc::relatedMetaObjectsNameConflict()
{
typedef QVector<const QMetaObject*> QMetaObjects;
QFETCH(const QMetaObject*, dependingObject);
QFETCH(QMetaObjects, relatedMetaObjects);
// load all specified metaobjects int a set
QSet<const QMetaObject*> dependency;
const QMetaObject *const *i = dependingObject->d.relatedMetaObjects;
while (*i) {
dependency.insert(*i);
++i;
}
// check if all required metaobjects are specified
foreach (const QMetaObject *mo, relatedMetaObjects)
QVERIFY(dependency.contains(mo));
// check if no additional metaobjects ara specified
QCOMPARE(dependency.size(), relatedMetaObjects.size());
}
class StringLiteralsInMacroExtension: public QObject
{
Q_OBJECT
#define Macro(F) F " " F
Q_CLASSINFO(Macro("String"), Macro("Literal"))
#undef Macro
#define Macro(F) F
Q_CLASSINFO("String" Macro("!"), "Literal" Macro("!"))
Q_CLASSINFO(Macro("!") "String", Macro("!") "Literal")
#undef Macro
#define Macro "foo"
Q_CLASSINFO("String" Macro, "Literal" Macro)
Q_CLASSINFO(Macro "String", Macro "Literal")
#undef Macro
};
void tst_Moc::strignLiteralsInMacroExtension()
{
const QMetaObject *mobj = &StringLiteralsInMacroExtension::staticMetaObject;
QCOMPARE(mobj->classInfoCount(), 5);
QCOMPARE(mobj->classInfo(0).name(), "String String");
QCOMPARE(mobj->classInfo(0).value(), "Literal Literal");
QCOMPARE(mobj->classInfo(1).name(), "String!");
QCOMPARE(mobj->classInfo(1).value(), "Literal!");
QCOMPARE(mobj->classInfo(2).name(), "!String");
QCOMPARE(mobj->classInfo(2).value(), "!Literal");
QCOMPARE(mobj->classInfo(3).name(), "Stringfoo");
QCOMPARE(mobj->classInfo(3).value(), "Literalfoo");
QCOMPARE(mobj->classInfo(4).name(), "fooString");
QCOMPARE(mobj->classInfo(4).value(), "fooLiteral");
}
class VeryLongStringData : public QObject
{
Q_OBJECT
#define repeat2(V) V V
#define repeat4(V) repeat2(V) repeat2(V)
#define repeat8(V) repeat4(V) repeat4(V)
#define repeat16(V) repeat8(V) repeat8(V)
#define repeat32(V) repeat16(V) repeat16(V)
#define repeat64(V) repeat32(V) repeat32(V)
#define repeat128(V) repeat64(V) repeat64(V)
#define repeat256(V) repeat128(V) repeat128(V)
#define repeat512(V) repeat256(V) repeat256(V)
#define repeat1024(V) repeat512(V) repeat512(V)
#define repeat2048(V) repeat1024(V) repeat1024(V)
#define repeat4096(V) repeat2048(V) repeat2048(V)
#define repeat8192(V) repeat4096(V) repeat4096(V)
#define repeat16384(V) repeat8192(V) repeat8192(V)
#define repeat32768(V) repeat16384(V) repeat16384(V)
#define repeat65534(V) repeat32768(V) repeat16384(V) repeat8192(V) repeat4096(V) repeat2048(V) repeat1024(V) repeat512(V) repeat256(V) repeat128(V) repeat64(V) repeat32(V) repeat16(V) repeat8(V) repeat4(V) repeat2(V)
Q_CLASSINFO(repeat65534("n"), repeat65534("i"))
Q_CLASSINFO(repeat65534("e"), repeat65534("r"))
Q_CLASSINFO(repeat32768("o"), repeat32768("b"))
Q_CLASSINFO(":", ")")
#undef repeat2
#undef repeat4
#undef repeat8
#undef repeat16
#undef repeat32
#undef repeat64
#undef repeat128
#undef repeat256
#undef repeat512
#undef repeat1024
#undef repeat2048
#undef repeat4096
#undef repeat8192
#undef repeat16384
#undef repeat32768
#undef repeat65534
};
void tst_Moc::unnamedNamespaceObjectsAndGadgets()
{
// these just test very basic functionality of gadgets and objects
// defined in unnamed namespaces.
{
GadgetInUnnamedNS gadget(21, 42);
QCOMPARE(gadget.x(), 21);
QCOMPARE(gadget.y(), 42);
gadget.staticMetaObject.property(0).writeOnGadget(&gadget, 12);
gadget.staticMetaObject.property(1).writeOnGadget(&gadget, 24);
QCOMPARE(gadget.x(), 12);
QCOMPARE(gadget.y(), 24);
}
{
ObjectInUnnamedNS object;
QObject *qObject = &object;
QCOMPARE(static_cast<ObjectInUnnamedNS *>(qObject),
qobject_cast<ObjectInUnnamedNS *>(qObject));
}
}
void tst_Moc::veryLongStringData()
{
const QMetaObject *mobj = &VeryLongStringData::staticMetaObject;
QCOMPARE(mobj->classInfoCount(), 4);
QCOMPARE(mobj->classInfo(0).name()[0], 'n');
QCOMPARE(mobj->classInfo(0).value()[0], 'i');
QCOMPARE(mobj->classInfo(1).name()[0], 'e');
QCOMPARE(mobj->classInfo(1).value()[0], 'r');
QCOMPARE(mobj->classInfo(2).name()[0], 'o');
QCOMPARE(mobj->classInfo(2).value()[0], 'b');
QCOMPARE(mobj->classInfo(3).name()[0], ':');
QCOMPARE(mobj->classInfo(3).value()[0], ')');
QCOMPARE(strlen(mobj->classInfo(0).name()), static_cast<size_t>(65534));
QCOMPARE(strlen(mobj->classInfo(0).value()), static_cast<size_t>(65534));
QCOMPARE(strlen(mobj->classInfo(1).name()), static_cast<size_t>(65534));
QCOMPARE(strlen(mobj->classInfo(1).value()), static_cast<size_t>(65534));
QCOMPARE(strlen(mobj->classInfo(2).name()), static_cast<size_t>(32768));
QCOMPARE(strlen(mobj->classInfo(2).value()), static_cast<size_t>(32768));
QCOMPARE(strlen(mobj->classInfo(3).name()), static_cast<size_t>(1));
QCOMPARE(strlen(mobj->classInfo(3).value()), static_cast<size_t>(1));
}
void tst_Moc::gadgetHierarchy()
{
QCOMPARE(NonGadgetParent::Derived::staticMetaObject.superClass(), static_cast<const QMetaObject*>(nullptr));
QCOMPARE(GrandParentGadget::DerivedGadget::staticMetaObject.superClass(), &GrandParentGadget::BaseGadget::staticMetaObject);
}
void tst_Moc::optionsFileError_data()
{
QTest::addColumn<QString>("optionsArgument");
QTest::newRow("no filename") << QStringLiteral("@");
QTest::newRow("nonexistent file") << QStringLiteral("@letshuntasnark");
}
void tst_Moc::optionsFileError()
{
#ifdef MOC_CROSS_COMPILED
QSKIP("Not tested when cross-compiled");
#endif
#if QT_CONFIG(process)
QFETCH(QString, optionsArgument);
QProcess p;
p.start(m_moc, QStringList(optionsArgument));
QVERIFY(p.waitForFinished());
QCOMPARE(p.exitCode(), 1);
QVERIFY(p.readAllStandardOutput().isEmpty());
const QByteArray err = p.readAllStandardError();
QVERIFY(err.contains("moc: "));
QVERIFY(!err.contains("QCommandLineParser"));
#endif
}
static void checkEnum(const QMetaEnum &enumerator, const QByteArray &name, const QVector<QPair<QByteArray, int >> &keys)
{
QCOMPARE(name, QByteArray{enumerator.name()});
QCOMPARE(keys.size(), enumerator.keyCount());
for (int i = 0; i < enumerator.keyCount(); ++i) {
QCOMPARE(keys[i].first, QByteArray{enumerator.key(i)});
QCOMPARE(keys[i].second, enumerator.value(i));
}
}
void tst_Moc::testQNamespace()
{
QCOMPARE(TestQNamespace::staticMetaObject.enumeratorCount(), 4);
checkEnum(TestQNamespace::staticMetaObject.enumerator(0), "TestEnum1",
{{"Key1", 11}, {"Key2", 12}});
checkEnum(TestQNamespace::staticMetaObject.enumerator(1), "TestEnum2",
{{"Key1", 17}, {"Key2", 18}});
checkEnum(TestQNamespace::staticMetaObject.enumerator(2), "TestFlag1",
{{"None", 0}, {"Flag1", 1}, {"Flag2", 2}, {"Any", 1 | 2}});
checkEnum(TestQNamespace::staticMetaObject.enumerator(3), "TestFlag2",
{{"None", 0}, {"Flag1", 4}, {"Flag2", 8}, {"Any", 4 | 8}});
QCOMPARE(TestQNamespace::TestGadget::staticMetaObject.enumeratorCount(), 2);
checkEnum(TestQNamespace::TestGadget::staticMetaObject.enumerator(0), "TestGEnum1",
{{"Key1", 13}, {"Key2", 14}});
checkEnum(TestQNamespace::TestGadget::staticMetaObject.enumerator(1), "TestGEnum2",
{{"Key1", 23}, {"Key2", 24}});
QMetaEnum meta = QMetaEnum::fromType<TestQNamespace::TestEnum1>();
QVERIFY(meta.isValid());
QCOMPARE(meta.name(), "TestEnum1");
QCOMPARE(meta.enclosingMetaObject(), &TestQNamespace::staticMetaObject);
QCOMPARE(meta.keyCount(), 2);
QCOMPARE(FooNamespace::staticMetaObject.enumeratorCount(), 1);
QCOMPARE(FooNamespace::FooNestedNamespace::staticMetaObject.enumeratorCount(), 2);
QCOMPARE(FooNamespace::FooNestedNamespace::FooMoreNestedNamespace::staticMetaObject.enumeratorCount(), 1);
}
void tst_Moc::cxx17Namespaces()
{
QCOMPARE(CXX17Namespace::A::B::C::D::staticMetaObject.className(),
"CXX17Namespace::A::B::C::D");
QCOMPARE(CXX17Namespace::A::B::C::D::staticMetaObject.enumeratorCount(), 1);
QCOMPARE(CXX17Namespace::A::B::C::D::staticMetaObject.enumerator(0).name(), "NamEn");
QCOMPARE(QMetaEnum::fromType<CXX17Namespace::A::B::C::D::NamEn>().name(), "NamEn");
QCOMPARE(QMetaEnum::fromType<CXX17Namespace::A::B::C::D::NamEn>().keyCount(), 1);
QCOMPARE(QMetaEnum::fromType<CXX17Namespace::A::B::C::D::NamEn>().value(0), 4);
QCOMPARE(CXX17Namespace::A::B::C::D::ClassInNamespace::staticMetaObject.className(),
"CXX17Namespace::A::B::C::D::ClassInNamespace");
QCOMPARE(CXX17Namespace::A::B::C::D::ClassInNamespace::staticMetaObject.enumeratorCount(), 1);
QCOMPARE(CXX17Namespace::A::B::C::D::ClassInNamespace::staticMetaObject.enumerator(0).name(), "GadEn");
QCOMPARE(QMetaEnum::fromType<CXX17Namespace::A::B::C::D::ClassInNamespace::GadEn>().name(), "GadEn");
QCOMPARE(QMetaEnum::fromType<CXX17Namespace::A::B::C::D::ClassInNamespace::GadEn>().keyCount(), 1);
QCOMPARE(QMetaEnum::fromType<CXX17Namespace::A::B::C::D::ClassInNamespace::GadEn>().value(0), 3);
}
QTEST_MAIN(tst_Moc)
// the generated code must compile with QT_NO_KEYWORDS
#undef signals
#undef slots
#undef emit
#include "tst_moc.moc"