/**************************************************************************** ** ** Copyright (C) 2014 Digia Plc and/or its subsidiary(-ies). ** Copyright (C) 2014 Intel Corporation ** Contact: http://www.qt-project.org/legal ** ** This file is part of the test suite of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL21$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Digia. For licensing terms and ** conditions see http://qt.digia.com/licensing. For further information ** use the contact form at http://qt.digia.com/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 or version 3 as published by the Free ** Software Foundation and appearing in the file LICENSE.LGPLv21 and ** LICENSE.LGPLv3 included in the packaging of this file. Please review the ** following information to ensure the GNU Lesser General Public License ** requirements will be met: https://www.gnu.org/licenses/lgpl.html and ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Digia gives you certain additional ** rights. These rights are described in the Digia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #include #define BASECLASS_NOT_ABSTRACT #include "baseclass.h" #include "derivedclass.h" #ifdef Q_COMPILER_ATOMICS # include #endif QT_USE_NAMESPACE class tst_Compiler : public QObject { Q_OBJECT private slots: /* C++98 & C++03 base functionality */ void template_methods(); void template_constructors(); void template_subclasses(); void methodSpecialization(); void constructorSpecialization(); void staticTemplateMethods(); void staticTemplateMethodSpecialization(); void detectDataStream(); void detectEnums(); void overrideCFunction(); void stdSortQList(); void stdSortQVector(); void templateCallOrder(); void virtualFunctionNoLongerPureVirtual(); void charSignedness() const; void privateStaticTemplateMember() const; void staticConstUnionWithInitializerList() const; void templateFriends(); /* C++11 features */ void cxx11_alignas(); void cxx11_alignof(); void cxx11_alignas_alignof(); void cxx11_atomics(); void cxx11_attributes(); void cxx11_auto_function(); void cxx11_auto_type(); void cxx11_class_enum(); void cxx11_constexpr(); void cxx11_decltype(); void cxx11_default_members(); void cxx11_delete_members(); void cxx11_delegating_constructors(); void cxx11_explicit_conversions(); void cxx11_explicit_overrides(); void cxx11_extern_templates(); void cxx11_inheriting_constructors(); void cxx11_initializer_lists(); void cxx11_lambda(); void cxx11_nonstatic_member_init(); void cxx11_noexcept(); void cxx11_nullptr(); void cxx11_range_for(); void cxx11_raw_strings(); void cxx11_ref_qualifiers(); void cxx11_rvalue_refs(); void cxx11_static_assert(); void cxx11_template_alias(); void cxx11_thread_local(); void cxx11_udl(); void cxx11_unicode_strings(); void cxx11_uniform_init(); void cxx11_unrestricted_unions(); void cxx11_variadic_macros(); void cxx11_variadic_templates(); /* C++14 compiler features */ void cxx14_binary_literals(); void cxx14_init_captures(); void cxx14_generic_lambdas(); void cxx14_constexpr(); void cxx14_decltype_auto(); void cxx14_return_type_deduction(); void cxx14_aggregate_nsdmi(); void cxx14_variable_templates(); /* Future / Technical specification compiler features */ void runtimeArrays(); }; #if defined(Q_CC_HPACC) # define DONT_TEST_TEMPLATE_CONSTRUCTORS # define DONT_TEST_CONSTRUCTOR_SPECIALIZATION # define DONT_TEST_DATASTREAM_DETECTION #endif #if defined(Q_CC_SUN) # define DONT_TEST_STL_SORTING #endif class TemplateMethodClass { public: template T foo() { return 42; } }; void tst_Compiler::template_methods() { TemplateMethodClass t; QCOMPARE(t.foo(), 42); QCOMPARE(t.foo(), 42l); QCOMPARE(t.foo(), 42.0); } #ifndef DONT_TEST_TEMPLATE_CONSTRUCTORS class TemplateConstructorClass { public: template TemplateConstructorClass(const T& t) { i = int(t); } int i; }; void tst_Compiler::template_constructors() { TemplateConstructorClass t1(42); TemplateConstructorClass t2(42l); TemplateConstructorClass t3(42.0); QCOMPARE(t1.i, 42); QCOMPARE(t2.i, 42); QCOMPARE(t3.i, 42); } #else void tst_Compiler::template_constructors() { QSKIP("Compiler doesn't do template constructors"); } #endif template struct OuterClass { template struct InnerClass { U convert(const T &t) { return static_cast(t); } }; }; void tst_Compiler::template_subclasses() { OuterClass::InnerClass c1; QCOMPARE(c1.convert('a'), int('a')); OuterClass::InnerClass c2; QCOMPARE(c2.convert(QRect(1, 2, 3, 4)), QRectF(QRect(1, 2, 3, 4))); } class TemplateMethodClass2 { public: template T foo() { return 42; } }; template<> int TemplateMethodClass2::foo() { return 43; } void tst_Compiler::methodSpecialization() { TemplateMethodClass2 t; QCOMPARE(t.foo(), 43); QCOMPARE(t.foo(), 42l); QCOMPARE(t.foo(), 42.0); } #ifndef DONT_TEST_CONSTRUCTOR_SPECIALIZATION class TemplateConstructorClass2 { public: template TemplateConstructorClass2(const T &t) { i = int(t); } int i; }; template<> TemplateConstructorClass2::TemplateConstructorClass2(const int &t) { i = t + 1; } void tst_Compiler::constructorSpecialization() { TemplateConstructorClass2 t1(42); TemplateConstructorClass2 t2(42l); TemplateConstructorClass2 t3(42.0); QCOMPARE(t1.i, 43); QCOMPARE(t2.i, 42); QCOMPARE(t3.i, 42); } #else void tst_Compiler::constructorSpecialization() { QSKIP("Compiler doesn't do constructor specialization"); } #endif class StaticTemplateClass { public: template static T foo() { return 42; } }; void tst_Compiler::staticTemplateMethods() { QCOMPARE(StaticTemplateClass::foo(), 42); QCOMPARE(StaticTemplateClass::foo(), 42u); } class StaticTemplateClass2 { public: template static T foo() { return 42; } }; template<> double StaticTemplateClass2::foo() { return 18.5; } void tst_Compiler::staticTemplateMethodSpecialization() { QCOMPARE(StaticTemplateClass2::foo(), 42); QCOMPARE(StaticTemplateClass2::foo(), 42u); QCOMPARE(StaticTemplateClass2::foo(), 18.5); } #ifndef DONT_TEST_DATASTREAM_DETECTION /******* DataStream tester *********/ namespace QtTestInternal { struct EmptyStruct {}; struct LowPreferenceStruct { LowPreferenceStruct(...); }; EmptyStruct operator<<(QDataStream &, const LowPreferenceStruct &); EmptyStruct operator>>(QDataStream &, const LowPreferenceStruct &); template struct DataStreamChecker { static EmptyStruct hasStreamHelper(const EmptyStruct &); static QDataStream hasStreamHelper(const QDataStream &); static QDataStream &dsDummy(); static T &dummy(); #ifdef BROKEN_COMPILER static const bool HasDataStream = sizeof(hasStreamHelper(dsDummy() << dummy())) == sizeof(QDataStream) && sizeof(hasStreamHelper(dsDummy() >> dummy())) == sizeof(QDataStream); #else enum { HasOutDataStream = sizeof(hasStreamHelper(dsDummy() >> dummy())) == sizeof(QDataStream), HasInDataStream = sizeof(hasStreamHelper(dsDummy() << dummy())) == sizeof(QDataStream), HasDataStream = HasOutDataStream & HasInDataStream }; #endif }; template struct DataStreamOpHelper { template struct Getter { static QMetaType::SaveOperator saveOp() { return 0; } }; }; template<> struct DataStreamOpHelper { template struct Getter { static QMetaType::SaveOperator saveOp() { return ::QtMetaTypePrivate::QMetaTypeFunctionHelper::Save; } }; }; template inline QMetaType::SaveOperator getSaveOperator(T * = 0) { typedef typename DataStreamOpHelper::HasDataStream>::template Getter GetterHelper; return GetterHelper::saveOp(); } }; struct MyString: public QString {}; struct Qxxx {}; void tst_Compiler::detectDataStream() { QVERIFY(QtTestInternal::DataStreamChecker::HasDataStream == true); QVERIFY(QtTestInternal::DataStreamChecker::HasDataStream == true); QVERIFY(QtTestInternal::DataStreamChecker::HasDataStream == true); QVERIFY(QtTestInternal::DataStreamChecker::HasInDataStream == true); QVERIFY(QtTestInternal::DataStreamChecker::HasOutDataStream == false); QVERIFY(QtTestInternal::DataStreamChecker::HasDataStream == false); QVERIFY(QtTestInternal::DataStreamChecker::HasDataStream == true); QVERIFY(QtTestInternal::DataStreamChecker::HasDataStream == true); QVERIFY(QtTestInternal::DataStreamChecker::HasDataStream == true); QVERIFY(QtTestInternal::DataStreamChecker::HasDataStream == false); QVERIFY(QtTestInternal::getSaveOperator() != 0); QVERIFY(QtTestInternal::getSaveOperator() != 0); QVERIFY(QtTestInternal::getSaveOperator() != 0); QVERIFY(QtTestInternal::getSaveOperator() != 0); QVERIFY(QtTestInternal::getSaveOperator() != 0); QVERIFY(QtTestInternal::getSaveOperator() != 0); QVERIFY(QtTestInternal::getSaveOperator() == 0); } #else void tst_Compiler::detectDataStream() { QSKIP("Compiler doesn't evaluate templates correctly"); } #endif enum Enum1 { Foo = 0, Bar = 1 }; enum Enum2 {}; enum Enum3 { Something = 1 }; template char QTypeInfoEnumHelper(T); template void *QTypeInfoEnumHelper(...); template struct QTestTypeInfo { enum { IsEnum = sizeof(QTypeInfoEnumHelper(0)) == sizeof(void*) }; }; void tst_Compiler::detectEnums() { QVERIFY(QTestTypeInfo::IsEnum); QVERIFY(QTestTypeInfo::IsEnum); QVERIFY(QTestTypeInfo::IsEnum); QVERIFY(!QTestTypeInfo::IsEnum); QVERIFY(!QTestTypeInfo::IsEnum); QVERIFY(!QTestTypeInfo::IsEnum); QVERIFY(!QTestTypeInfo::IsEnum); QVERIFY(!QTestTypeInfo::IsEnum); QVERIFY(!QTestTypeInfo::IsEnum); QVERIFY(!QTestTypeInfo::IsEnum); QVERIFY(QTestTypeInfo::IsEnum); QVERIFY(QTestTypeInfo::IsEnum); QVERIFY(!QTestTypeInfo::IsEnum); QVERIFY(QTestTypeInfo::IsEnum); QVERIFY(!QTestTypeInfo::IsEnum); } static int indicator = 0; // this is a silly C function extern "C" { void someCFunc(void *) { indicator = 42; } } // this is the catch-template that will be called if the C function doesn't exist template void someCFunc(T *) { indicator = 10; } void tst_Compiler::overrideCFunction() { someCFunc((void*)0); QCOMPARE(indicator, 42); } #ifndef DONT_TEST_STL_SORTING void tst_Compiler::stdSortQList() { QList list; list << 4 << 2; std::sort(list.begin(), list.end()); QCOMPARE(list.value(0), 2); QCOMPARE(list.value(1), 4); QList slist; slist << "b" << "a"; std::sort(slist.begin(), slist.end()); QCOMPARE(slist.value(0), QString("a")); QCOMPARE(slist.value(1), QString("b")); } void tst_Compiler::stdSortQVector() { QVector vector; vector << 4 << 2; std::sort(vector.begin(), vector.end()); QCOMPARE(vector.value(0), 2); QCOMPARE(vector.value(1), 4); QVector strvec; strvec << "b" << "a"; std::sort(strvec.begin(), strvec.end()); QCOMPARE(strvec.value(0), QString("a")); QCOMPARE(strvec.value(1), QString("b")); } #else void tst_Compiler::stdSortQList() { QSKIP("Compiler's STL broken"); } void tst_Compiler::stdSortQVector() { QSKIP("Compiler's STL broken"); } #endif // the C func will set it to 1, the template to 2 static int whatWasCalled = 0; void callOrderFunc(void *) { whatWasCalled = 1; } template void callOrderFunc(T *) { whatWasCalled = 2; } template void callOrderNoCFunc(T *) { whatWasCalled = 3; } /* This test will check what will get precendence - the C function or the template. It also makes sure this template "override" will compile on all systems and not result in ambiguities. */ void tst_Compiler::templateCallOrder() { QCOMPARE(whatWasCalled, 0); // call it with a void * void *f = 0; callOrderFunc(f); QCOMPARE(whatWasCalled, 1); whatWasCalled = 0; char *c = 0; /* call it with a char * - AMBIGOUS, fails on several compilers callOrderFunc(c); QCOMPARE(whatWasCalled, 1); whatWasCalled = 0; */ // now try the case when there is no C function callOrderNoCFunc(f); QCOMPARE(whatWasCalled, 3); whatWasCalled = 0; callOrderNoCFunc(c); QCOMPARE(whatWasCalled, 3); whatWasCalled = 0; } // test to see if removing =0 from a pure virtual function is BC void tst_Compiler::virtualFunctionNoLongerPureVirtual() { #ifdef BASECLASS_NOT_ABSTRACT // has a single virtual function, not pure virtual, can call it BaseClass baseClass; QTest::ignoreMessage(QtDebugMsg, "BaseClass::wasAPureVirtualFunction()"); baseClass.wasAPureVirtualFunction(); #endif // DerivedClass inherits from BaseClass, and function is declared // pure virtual, make sure we can still call it DerivedClass derivedClass; QTest::ignoreMessage(QtDebugMsg, "DerivedClass::wasAPureVirtualFunction()"); derivedClass.wasAPureVirtualFunction(); } template const char *resolveCharSignedness(); template<> const char *resolveCharSignedness() { return "char"; } template<> const char *resolveCharSignedness() { return "unsigned char"; } template<> const char *resolveCharSignedness() { return "signed char"; } void tst_Compiler::charSignedness() const { QCOMPARE("char", resolveCharSignedness()); QCOMPARE("unsigned char", resolveCharSignedness()); QCOMPARE("signed char", resolveCharSignedness()); } class PrivateStaticTemplateMember { public: long regularMember() { return helper(3); } private: template static A helper(const B b) { return A(b); } }; void tst_Compiler::privateStaticTemplateMember() const { PrivateStaticTemplateMember v; QCOMPARE(long(3), v.regularMember()); } #if !defined(Q_CC_MIPS) // make sure we can use a static initializer with a union and then use // the second member of the union static const union { unsigned char c[8]; double d; } qt_be_inf_bytes = { { 0x7f, 0xf0, 0, 0, 0, 0, 0, 0 } }; static const union { unsigned char c[8]; double d; } qt_le_inf_bytes = { { 0, 0, 0, 0, 0, 0, 0xf0, 0x7f } }; static inline double qt_inf() { return (QSysInfo::ByteOrder == QSysInfo::BigEndian ? qt_be_inf_bytes.d : qt_le_inf_bytes.d); } #else static const unsigned char qt_be_inf_bytes[] = { 0x7f, 0xf0, 0, 0, 0, 0, 0, 0 }; static const unsigned char qt_le_inf_bytes[] = { 0, 0, 0, 0, 0, 0, 0xf0, 0x7f }; static inline double qt_inf() { const uchar *bytes; bytes = (QSysInfo::ByteOrder == QSysInfo::BigEndian ? qt_be_inf_bytes : qt_le_inf_bytes); union { uchar c[8]; double d; } returnValue; memcpy(returnValue.c, bytes, sizeof(returnValue.c)); return returnValue.d; } #endif void tst_Compiler::staticConstUnionWithInitializerList() const { double d = qt_inf(); QVERIFY(qIsInf(d)); } #ifndef Q_NO_TEMPLATE_FRIENDS template class TemplateFriends { T value; public: TemplateFriends(T value) : value(value) {} template void copy(TemplateFriends other) { value = other.value; } template friend class TemplateFriends; }; void tst_Compiler::templateFriends() { TemplateFriends ti(42); TemplateFriends tl(0); tl.copy(ti); } #else void tst_Compiler::templateFriends() { QSKIP("Compiler does not support template friends"); } #endif void tst_Compiler::cxx11_alignas() { #ifndef Q_COMPILER_ALIGNAS QSKIP("Compiler does not support C++11 feature"); #else alignas(double) char c; QVERIFY(Q_ALIGNOF(c) == Q_ALIGNOF(double)); #endif } void tst_Compiler::cxx11_alignof() { #ifndef Q_COMPILER_ALIGNOF QSKIP("Compiler does not support C++11 feature"); #else size_t alignchar = alignof(char); size_t aligndouble = alignof(double); QVERIFY(alignchar >= 1); QVERIFY(alignchar <= aligndouble); #endif } void tst_Compiler::cxx11_alignas_alignof() { #if !defined(Q_COMPILER_ALIGNAS) && !defined(Q_COMPILER_ALIGNOF) QSKIP("Compiler does not support C++11 feature"); #else alignas(alignof(double)) char c; Q_UNUSED(c); #endif } void tst_Compiler::cxx11_atomics() { #ifndef Q_COMPILER_ATOMICS QSKIP("Compiler does not support C++11 feature"); #else std::atomic i; i.store(42, std::memory_order_seq_cst); QCOMPARE(i.load(std::memory_order_acquire), 42); std::atomic s; s.store(42); QCOMPARE(s.load(), short(42)); std::atomic_flag flag; flag.clear(); QVERIFY(!flag.test_and_set()); QVERIFY(flag.test_and_set()); #endif } void tst_Compiler::cxx11_attributes() { #ifndef Q_COMPILER_ATTRIBUTES QSKIP("Compiler does not support C++11 feature"); #else struct [[deprecated]] C {}; [[gnu::unused]] struct D {} d; [[noreturn]] void f(); struct D e [[gnu::used, gnu::unused]]; [[gnu::aligned(8)]] int i; [[gnu::unused]] end: ; Q_UNUSED(d); Q_UNUSED(e); Q_UNUSED(i); #endif } #ifdef Q_COMPILER_AUTO_FUNCTION auto autoFunction() -> unsigned { return 1; } #endif void tst_Compiler::cxx11_auto_function() { #ifndef Q_COMPILER_AUTO_FUNCTION QSKIP("Compiler does not support C++11 feature"); #else QCOMPARE(autoFunction(), 1u); #endif } void tst_Compiler::cxx11_auto_type() { #ifndef Q_COMPILER_AUTO_TYPE QSKIP("Compiler does not support C++11 feature"); #else auto i = 1; auto x = qrand(); auto l = 1L; auto s = QStringLiteral("Hello World"); QCOMPARE(i, 1); Q_UNUSED(x); QCOMPARE(l, 1L); QCOMPARE(s.toLower(), QString("hello world")); #endif } void tst_Compiler::cxx11_class_enum() { #ifndef Q_COMPILER_CLASS_ENUM QSKIP("Compiler does not support C++11 feature"); #else enum class X { EnumValue }; X x = X::EnumValue; QCOMPARE(x, X::EnumValue); enum class Y : short { Val = 2 }; enum Z : long { ValLong = LONG_MAX }; #endif } #ifdef Q_COMPILER_CONSTEXPR constexpr int constexprValue() { return 42; } #endif void tst_Compiler::cxx11_constexpr() { #ifndef Q_COMPILER_CONSTEXPR QSKIP("Compiler does not support C++11 feature"); #else static constexpr QBasicAtomicInt atomic = Q_BASIC_ATOMIC_INITIALIZER(1); static constexpr int i = constexprValue(); QCOMPARE(i, constexprValue()); QCOMPARE(atomic.load(), 1); #endif } void tst_Compiler::cxx11_decltype() { #ifndef Q_COMPILER_DECLTYPE QSKIP("Compiler does not support C++11 feature"); #else decltype(qrand()) i = 0; QCOMPARE(i, 0); #endif } void tst_Compiler::cxx11_default_members() { #ifndef Q_COMPILER_DEFAULT_MEMBERS QSKIP("Compiler does not support C++11 feature"); #else class DefaultMembers { protected: DefaultMembers() = default; public: DefaultMembers(int) {} }; class DefaultMembersChild: public DefaultMembers { public: DefaultMembersChild():DefaultMembers() {}; }; DefaultMembersChild dm; Q_UNUSED(dm); #endif } void tst_Compiler::cxx11_delete_members() { #ifndef Q_COMPILER_DELETE_MEMBERS QSKIP("Compiler does not support C++11 feature"); #else class DeleteMembers { protected: DeleteMembers() = delete; public: DeleteMembers(const DeleteMembers &) = delete; ~DeleteMembers() = delete; }; #endif } void tst_Compiler::cxx11_delegating_constructors() { #ifndef Q_COMPILER_DELEGATING_CONSTRUCTORS QSKIP("Compiler does not support C++11 feature"); #else struct DC { DC(int i) : i(i) {} DC() : DC(0) {} int i; }; DC dc; QCOMPARE(dc.i, 0); #endif } void tst_Compiler::cxx11_explicit_conversions() { #ifndef Q_COMPILER_EXPLICIT_CONVERSIONS QSKIP("Compiler does not support C++11 feature"); #else struct EC { explicit operator int() const { return 0; } operator long long() const { return 1; } }; EC ec; int i(ec); QCOMPARE(i, 0); int i2 = ec; QCOMPARE(i2, 1); #endif } void tst_Compiler::cxx11_explicit_overrides() { #ifndef Q_COMPILER_EXPLICIT_OVERRIDES QSKIP("Compiler does not support C++11 feature"); #else struct Base { virtual ~Base() {} virtual void f() {} }; struct Derived final : public Base { virtual void f() final override {} }; #endif } #ifdef Q_COMPILER_EXTERN_TEMPLATES template T externTemplate() { return T(0); } extern template int externTemplate(); #endif void tst_Compiler::cxx11_extern_templates() { #ifndef Q_COMPILER_EXTERN_TEMPLATES QSKIP("Compiler does not support C++11 feature"); #else QCOMPARE(externTemplate(), 42); #endif } void tst_Compiler::cxx11_inheriting_constructors() { #ifndef Q_COMPILER_INHERITING_CONSTRUCTORS QSKIP("Compiler does not support C++11 feature"); #else struct Base { int i; Base() : i(0) {} Base(int i) : i(i) {} }; struct Derived : public Base { using Base::Base; }; Derived d(1); QCOMPARE(d.i, 1); #endif } void tst_Compiler::cxx11_initializer_lists() { #ifndef Q_COMPILER_INITIALIZER_LISTS QSKIP("Compiler does not support C++11 feature"); #else QList l = { 1, 2, 3, 4, 5 }; QCOMPARE(l.length(), 5); QCOMPARE(l.at(0), 1); QCOMPARE(l.at(4), 5); #endif } struct CallFunctor { template static int f(Functor f) { return f();} }; void tst_Compiler::cxx11_lambda() { #ifndef Q_COMPILER_LAMBDA QSKIP("Compiler does not support C++11 feature"); #else QCOMPARE(CallFunctor::f([]() { return 42; }), 42); #endif } void tst_Compiler::cxx11_nonstatic_member_init() { #ifndef Q_COMPILER_NONSTATIC_MEMBER_INIT QSKIP("Compiler does not support C++11 feature"); #else struct S { int i = 42; long l = 47; char c; S() : l(-47), c(0) {} }; S s; QCOMPARE(s.i, 42); QCOMPARE(s.l, -47L); QCOMPARE(s.c, '\0'); #endif } void tst_Compiler::cxx11_noexcept() { #ifndef Q_COMPILER_NOEXCEPT QSKIP("Compiler does not support C++11 feature"); #else extern void noexcept_f() noexcept; extern void g() noexcept(noexcept(noexcept_f())); QCOMPARE(noexcept(cxx11_noexcept()), false); QCOMPARE(noexcept(noexcept_f), true); QCOMPARE(noexcept(g), true); #endif } void tst_Compiler::cxx11_nullptr() { #ifndef Q_COMPILER_NULLPTR QSKIP("Compiler does not support C++11 feature"); #else void *v = nullptr; char *c = nullptr; const char *cc = nullptr; volatile char *vc = nullptr; std::nullptr_t np = nullptr; v = np; Q_UNUSED(v); Q_UNUSED(c); Q_UNUSED(cc); Q_UNUSED(vc); #endif } void tst_Compiler::cxx11_range_for() { #ifndef Q_COMPILER_RANGE_FOR QSKIP("Compiler does not support C++11 feature"); #else QList l; l << 1 << 2 << 3; for (int i : l) Q_UNUSED(i); l.clear(); l << 1; for (int i : l) QCOMPARE(i, 1); QList ll; l << 2; for (int i : ll) QCOMPARE(i, 2); #endif } void tst_Compiler::cxx11_raw_strings() { #ifndef Q_COMPILER_RAW_STRINGS QSKIP("Compiler does not support C++11 feature"); #else static const char xml[] = R"()"; static const char raw[] = R"***(*"*)***"; QCOMPARE(strlen(raw), size_t(3)); QCOMPARE(raw[1], '"'); Q_UNUSED(xml); #endif } void tst_Compiler::cxx11_ref_qualifiers() { #ifndef Q_COMPILER_REF_QUALIFIERS QSKIP("Compiler does not support C++11 feature"); #else # ifndef Q_COMPILER_RVALUE_REFS # error "Impossible condition: ref qualifiers are supported but not rvalue refs" # endif // also applies to function pointers QByteArray (QString:: *lvalueref)() const & = &QString::toLatin1; QByteArray (QString:: *rvalueref)() && = &QString::toLatin1; QString s("Hello"); QCOMPARE((s.*lvalueref)(), QByteArray("Hello")); QCOMPARE((std::move(s).*rvalueref)(), QByteArray("Hello")); // tests internal behavior: QVERIFY(s.isEmpty()); #endif } void tst_Compiler::cxx11_rvalue_refs() { #ifndef Q_COMPILER_RVALUE_REFS QSKIP("Compiler does not support C++11 feature"); #else int i = 1; i = std::move(i); QString s = "Hello"; QString t = std::move(s); QCOMPARE(t, QString("Hello")); s = t; t = std::move(s); QCOMPARE(t, QString("Hello")); QString &&r = std::move(s); QCOMPARE(r, QString("Hello")); #endif } void tst_Compiler::cxx11_static_assert() { #ifndef Q_COMPILER_STATIC_ASSERT QSKIP("Compiler does not support C++11 feature"); #else static_assert(true, "Message"); #endif } #ifdef Q_COMPILER_TEMPLATE_ALIAS template using Map = QMap; #endif void tst_Compiler::cxx11_template_alias() { #ifndef Q_COMPILER_TEMPLATE_ALIAS QSKIP("Compiler does not support C++11 feature"); #else Map m; m.insert("Hello", "World"); QCOMPARE(m.value("Hello").toString(), QString("World")); using X = int; X i = 0; Q_UNUSED(i); #endif } #ifdef Q_COMPILER_THREAD_LOCAL static thread_local int stl = 42; thread_local int gtl = 42; #endif void tst_Compiler::cxx11_thread_local() { #ifndef Q_COMPILER_THREAD_LOCAL QSKIP("Compiler does not support C++11 feature"); #else thread_local int v = 1; QVERIFY(v); QVERIFY(stl); QVERIFY(gtl); thread_local QString s = "Hello"; QVERIFY(!s.isEmpty()); #endif } #ifdef Q_COMPILER_UDL QString operator"" _tstqstring(const char *str, size_t len) { return QString::fromUtf8(str, len) + " UDL"; } #endif void tst_Compiler::cxx11_udl() { #ifndef Q_COMPILER_UDL QSKIP("Compiler does not support C++11 feature"); #else QString s = "Hello World"_tstqstring; QCOMPARE(s, QString("Hello World UDL")); #endif } void tst_Compiler::cxx11_unicode_strings() { #ifndef Q_COMPILER_UNICODE_STRINGS QSKIP("Compiler does not support C++11 feature"); #else static const char16_t u[] = u"\u200BHello\u00A0World"; QCOMPARE(u[0], char16_t(0x200B)); static const char32_t U[] = U"\ufffe"; QCOMPARE(U[0], char32_t(0xfffe)); QCOMPARE(u"\U00010000"[0], char16_t(0xD800)); QCOMPARE(u"\U00010000"[1], char16_t(0xDC00)); #endif } static void noop(QPair) {} void tst_Compiler::cxx11_uniform_init() { #ifndef Q_COMPILER_UNIFORM_INIT QSKIP("Compiler does not support C++11 feature"); noop(QPair()); #else QString s{"Hello"}; int i{}; noop(QPair{1,1}); noop({i,1}); #endif } void tst_Compiler::cxx11_unrestricted_unions() { #ifndef Q_COMPILER_UNRESTRICTED_UNIONS QSKIP("Compiler does not support C++11 feature"); #else union U { QString s; U() {} U(const QString &s) : s(s) {} ~U() {} }; U u; std::aligned_storage as; Q_UNUSED(u); Q_UNUSED(as); U u2("hello"); u2.s.~QString(); #endif } void tst_Compiler::cxx11_variadic_macros() { #ifndef Q_COMPILER_VARIADIC_MACROS QSKIP("Compiler does not support C++11 feature"); #else # define TEST_VARARG(x, ...) __VA_ARGS__ QCOMPARE(TEST_VARARG(0, 1), 1); #endif } #ifdef Q_COMPILER_VARIADIC_TEMPLATES template struct VariadicTemplate {}; #endif void tst_Compiler::cxx11_variadic_templates() { #ifndef Q_COMPILER_VARIADIC_TEMPLATES QSKIP("Compiler does not support C++11 feature"); #else VariadicTemplate<> v0; VariadicTemplate v1; VariadicTemplate v8; Q_UNUSED(v0); Q_UNUSED(v1); Q_UNUSED(v8); #endif } void tst_Compiler::cxx14_binary_literals() { #if __cpp_binary_literals-0 < 201304 QSKIP("Compiler does not support this C++14 feature"); #else int i = 0b11001001; QCOMPARE(i, 0xC9); #endif } void tst_Compiler::cxx14_init_captures() { #if __cpp_init_captures-0 < 201304 QSKIP("Compiler does not support this C++14 feature"); #else QCOMPARE([x = 42]() { return x; }(), 42); #endif } void tst_Compiler::cxx14_generic_lambdas() { #if __cpp_generic_lambdas-0 < 201304 QSKIP("Compiler does not support this C++14 feature"); #else auto identity = [](auto x) { return x; }; QCOMPARE(identity(42), 42); QCOMPARE(identity(42U), 42U); QCOMPARE(identity(42L), 42L); #endif } #if __cpp_constexpr-0 >= 201304 constexpr int relaxedConstexpr(int i) { i *= 2; i += 2; return i; } #endif void tst_Compiler::cxx14_constexpr() { #if __cpp_constexpr-0 < 201304 QSKIP("Compiler does not support this C++14 feature"); #else QCOMPARE(relaxedConstexpr(0), 2); QCOMPARE(relaxedConstexpr(2), 6); #endif } void tst_Compiler::cxx14_decltype_auto() { #if __cpp_decltype_auto-0 < 201304 QSKIP("Compiler does not support this C++14 feature"); #else QList l; l << 1; decltype(auto) value = l[0]; value = 2; QCOMPARE(l.at(0), 2); #endif } #if __cpp_return_type_deduction >= 201304 auto returnTypeDeduction() { return 1U; } #endif void tst_Compiler::cxx14_return_type_deduction() { #if __cpp_return_type_deduction-0 < 201304 QSKIP("Compiler does not support this C++14 feature"); #else QCOMPARE(returnTypeDeduction(), 1U); #endif } void tst_Compiler::cxx14_aggregate_nsdmi() { #if __cpp_aggregate_nsdmi-0 < 201304 QSKIP("Compiler does not support this C++14 feature"); #else struct S { int i, j = i; }; S s = { 1 }; QCOMPARE(s.j, 1); #endif } #if __cpp_variable_templates >= 201304 template constexpr T variableTemplate = T(42); #endif void tst_Compiler::cxx14_variable_templates() { #if __cpp_variable_templates-0 < 201304 QSKIP("Compiler does not support this C++14 feature"); #else QCOMPARE(variableTemplate, 42); QCOMPARE(variableTemplate, 42L); QCOMPARE(variableTemplate, 42U); QCOMPARE(variableTemplate, 42ULL); #endif } void tst_Compiler::runtimeArrays() { #if __cpp_runtime_arrays-0 < 201304 QSKIP("Compiler does not support this C++14 feature"); #else int i[qrand() & 0x1f]; Q_UNUSED(i); #endif } QTEST_MAIN(tst_Compiler) #include "tst_compiler.moc"