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These rights are described in The Qt Company LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #ifndef QTYPEINFO_H #define QTYPEINFO_H QT_BEGIN_NAMESPACE /* QTypeInfo - type trait functionality */ /* The catch-all template. */ template class QTypeInfo { public: enum { isPointer = false, isIntegral = QtPrivate::is_integral::value, isComplex = true, isStatic = true, isRelocatable = Q_IS_ENUM(T), isLarge = (sizeof(T)>sizeof(void*)), isDummy = false, //### Qt6: remove sizeOf = sizeof(T) }; }; template<> class QTypeInfo { public: enum { isPointer = false, isIntegral = false, isComplex = false, isStatic = false, isRelocatable = false, isLarge = false, isDummy = false, sizeOf = 0 }; }; template class QTypeInfo { public: enum { isPointer = true, isIntegral = false, isComplex = false, isStatic = false, isRelocatable = true, isLarge = false, isDummy = false, sizeOf = sizeof(T*) }; }; /*! \class QTypeInfoQuery \inmodule QtCore \internal \brief QTypeInfoQuery is used to query the values of a given QTypeInfo We use it because there may be some QTypeInfo specializations in user code that don't provide certain flags that we added after Qt 5.0. They are: \list \li isRelocatable: defaults to !isStatic \endlist DO NOT specialize this class elsewhere. */ // apply defaults for a generic QTypeInfo that didn't provide the new values template struct QTypeInfoQuery : QTypeInfo { enum { isRelocatable = !QTypeInfo::isStatic }; }; // if QTypeInfo::isRelocatable exists, use it template struct QTypeInfoQuery::isRelocatable || true>::Type> : QTypeInfo {}; /*! \class QTypeInfoMerger \inmodule QtCore \internal \brief QTypeInfoMerger merges the QTypeInfo flags of T1, T2... and presents them as a QTypeInfo would do. Let's assume that we have a simple set of structs: \snippet code/src_corelib_global_qglobal.cpp 50 To create a proper QTypeInfo specialization for A struct, we have to check all sub-components; B, C and D, then take the lowest common denominator and call Q_DECLARE_TYPEINFO with the resulting flags. An easier and less fragile approach is to use QTypeInfoMerger, which does that automatically. So struct A would have the following QTypeInfo definition: \snippet code/src_corelib_global_qglobal.cpp 51 */ template class QTypeInfoMerger { public: enum { isComplex = QTypeInfoQuery::isComplex || QTypeInfoQuery::isComplex || QTypeInfoQuery::isComplex || QTypeInfoQuery::isComplex, isStatic = QTypeInfoQuery::isStatic || QTypeInfoQuery::isStatic || QTypeInfoQuery::isStatic || QTypeInfoQuery::isStatic, isRelocatable = QTypeInfoQuery::isRelocatable && QTypeInfoQuery::isRelocatable && QTypeInfoQuery::isRelocatable && QTypeInfoQuery::isRelocatable, isLarge = sizeof(T) > sizeof(void*), isPointer = false, isIntegral = false, isDummy = false, sizeOf = sizeof(T) }; }; #define Q_DECLARE_MOVABLE_CONTAINER(CONTAINER) \ template class CONTAINER; \ template \ class QTypeInfo< CONTAINER > \ { \ public: \ enum { \ isPointer = false, \ isIntegral = false, \ isComplex = true, \ isRelocatable = true, \ isStatic = false, \ isLarge = (sizeof(CONTAINER) > sizeof(void*)), \ isDummy = false, \ sizeOf = sizeof(CONTAINER) \ }; \ } Q_DECLARE_MOVABLE_CONTAINER(QList); Q_DECLARE_MOVABLE_CONTAINER(QVector); Q_DECLARE_MOVABLE_CONTAINER(QQueue); Q_DECLARE_MOVABLE_CONTAINER(QStack); Q_DECLARE_MOVABLE_CONTAINER(QLinkedList); Q_DECLARE_MOVABLE_CONTAINER(QSet); #undef Q_DECLARE_MOVABLE_CONTAINER /* Specialize a specific type with: Q_DECLARE_TYPEINFO(type, flags); where 'type' is the name of the type to specialize and 'flags' is logically-OR'ed combination of the flags below. */ enum { /* TYPEINFO flags */ Q_COMPLEX_TYPE = 0, Q_PRIMITIVE_TYPE = 0x1, Q_STATIC_TYPE = 0, Q_MOVABLE_TYPE = 0x2, // ### Qt6: merge movable and relocatable once QList no longer depends on it Q_DUMMY_TYPE = 0x4, Q_RELOCATABLE_TYPE = 0x8 }; #define Q_DECLARE_TYPEINFO_BODY(TYPE, FLAGS) \ class QTypeInfo \ { \ public: \ enum { \ isComplex = (((FLAGS) & Q_PRIMITIVE_TYPE) == 0), \ isStatic = (((FLAGS) & (Q_MOVABLE_TYPE | Q_PRIMITIVE_TYPE)) == 0), \ isRelocatable = !isStatic || ((FLAGS) & Q_RELOCATABLE_TYPE), \ isLarge = (sizeof(TYPE)>sizeof(void*)), \ isPointer = false, \ isIntegral = QtPrivate::is_integral< TYPE >::value, \ isDummy = (((FLAGS) & Q_DUMMY_TYPE) != 0), \ sizeOf = sizeof(TYPE) \ }; \ static inline const char *name() { return #TYPE; } \ } #define Q_DECLARE_TYPEINFO(TYPE, FLAGS) \ template<> \ Q_DECLARE_TYPEINFO_BODY(TYPE, FLAGS) /* Specialize QTypeInfo for QFlags */ template class QFlags; template Q_DECLARE_TYPEINFO_BODY(QFlags, Q_PRIMITIVE_TYPE); /* Specialize a shared type with: Q_DECLARE_SHARED(type) where 'type' is the name of the type to specialize. NOTE: shared types must define a member-swap, and be defined in the same namespace as Qt for this to work. If the type was already released without Q_DECLARE_SHARED applied, _and_ without an explicit Q_DECLARE_TYPEINFO(type, Q_MOVABLE_TYPE), then use Q_DECLARE_SHARED_NOT_MOVABLE_UNTIL_QT6(type) to mark the type shared (incl. swap()), without marking it movable (which would change the memory layout of QList, a BiC change. */ #define Q_DECLARE_SHARED_IMPL(TYPE, FLAGS) \ Q_DECLARE_TYPEINFO(TYPE, FLAGS); \ inline void swap(TYPE &value1, TYPE &value2) \ Q_DECL_NOEXCEPT_EXPR(noexcept(value1.swap(value2))) \ { value1.swap(value2); } #define Q_DECLARE_SHARED(TYPE) Q_DECLARE_SHARED_IMPL(TYPE, Q_MOVABLE_TYPE) #define Q_DECLARE_SHARED_NOT_MOVABLE_UNTIL_QT6(TYPE) \ Q_DECLARE_SHARED_IMPL(TYPE, QT_VERSION >= QT_VERSION_CHECK(6,0,0) ? Q_MOVABLE_TYPE : Q_RELOCATABLE_TYPE) /* QTypeInfo primitive specializations */ Q_DECLARE_TYPEINFO(bool, Q_PRIMITIVE_TYPE); Q_DECLARE_TYPEINFO(char, Q_PRIMITIVE_TYPE); Q_DECLARE_TYPEINFO(signed char, Q_PRIMITIVE_TYPE); Q_DECLARE_TYPEINFO(uchar, Q_PRIMITIVE_TYPE); Q_DECLARE_TYPEINFO(short, Q_PRIMITIVE_TYPE); Q_DECLARE_TYPEINFO(ushort, Q_PRIMITIVE_TYPE); Q_DECLARE_TYPEINFO(int, Q_PRIMITIVE_TYPE); Q_DECLARE_TYPEINFO(uint, Q_PRIMITIVE_TYPE); Q_DECLARE_TYPEINFO(long, Q_PRIMITIVE_TYPE); Q_DECLARE_TYPEINFO(ulong, Q_PRIMITIVE_TYPE); Q_DECLARE_TYPEINFO(qint64, Q_PRIMITIVE_TYPE); Q_DECLARE_TYPEINFO(quint64, Q_PRIMITIVE_TYPE); Q_DECLARE_TYPEINFO(float, Q_PRIMITIVE_TYPE); Q_DECLARE_TYPEINFO(double, Q_PRIMITIVE_TYPE); #ifndef Q_OS_DARWIN Q_DECLARE_TYPEINFO(long double, Q_PRIMITIVE_TYPE); #endif #if QT_VERSION >= QT_VERSION_CHECK(6,0,0) // We can't do it now because it would break BC on QList Q_DECLARE_TYPEINFO(char16_t, Q_PRIMITIVE_TYPE); Q_DECLARE_TYPEINFO(char32_t, Q_PRIMITIVE_TYPE); # if !defined(Q_CC_MSVC) || defined(_NATIVE_WCHAR_T_DEFINED) Q_DECLARE_TYPEINFO(wchar_t, Q_PRIMITIVE_TYPE); # endif #endif // Qt 6 QT_END_NAMESPACE #endif // QTYPEINFO_H