Qt是否支持像java和c#一样的 反射? [复制链接]

qt中有没有能根据字符串确定类的方法？就是类似于 object *a=new "ClassName";一类的写法，其中那一个类的字符串可以用字符串变量。

java,c#,python都有这样的机制，c++目前没有，不过不少c++库都提供了用宏调用的方法来完成类似的功能(如mfc，boost等),不知道Qt中有没有提供类似的功能？

鄙视楼上。

我正在找， 目前还没找到答案。

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QMetaObject Class Reference
[QtCore module]
The QMetaObject class contains meta-information about Qt objects. More...

#include <QMetaObject>List of all members, including inherited members
Public Functions
QMetaClassInfo classInfo ( int index ) const
int classInfoCount () const
int classInfoOffset () const
const char * className () const
QMetaEnum enumerator ( int index ) const
int enumeratorCount () const
int enumeratorOffset () const
int indexOfClassInfo ( const char * name ) const
int indexOfEnumerator ( const char * name ) const
int indexOfMethod ( const char * method ) const
int indexOfProperty ( const char * name ) const
int indexOfSignal ( const char * signal ) const
int indexOfSlot ( const char * slot ) const
QMetaMethod method ( int index ) const
int methodCount () const
int methodOffset () const
QMetaProperty property ( int index ) const
int propertyCount () const
int propertyOffset () const
const QMetaObject * superClass () const
QMetaProperty userProperty () const
Static Public Members
bool checkConnectArgs ( const char * signal, const char * method )
void connectSlotsByName ( QObject * object )
bool invokeMethod ( QObject * obj, const char * member, Qt::ConnectionType type, QGenericReturnArgument ret, QGenericArgument val0 = QGenericArgument( 0 ), QGenericArgument val1 = QGenericArgument(), QGenericArgument val2 = QGenericArgument(), QGenericArgument val3 = QGenericArgument(), QGenericArgument val4 = QGenericArgument(), QGenericArgument val5 = QGenericArgument(), QGenericArgument val6 = QGenericArgument(), QGenericArgument val7 = QGenericArgument(), QGenericArgument val8 = QGenericArgument(), QGenericArgument val9 = QGenericArgument() )
bool invokeMethod ( QObject * obj, const char * member, QGenericReturnArgument ret, QGenericArgument val0 = QGenericArgument( 0 ), QGenericArgument val1 = QGenericArgument(), QGenericArgument val2 = QGenericArgument(), QGenericArgument val3 = QGenericArgument(), QGenericArgument val4 = QGenericArgument(), QGenericArgument val5 = QGenericArgument(), QGenericArgument val6 = QGenericArgument(), QGenericArgument val7 = QGenericArgument(), QGenericArgument val8 = QGenericArgument(), QGenericArgument val9 = QGenericArgument() )
bool invokeMethod ( QObject * obj, const char * member, Qt::ConnectionType type, QGenericArgument val0 = QGenericArgument( 0 ), QGenericArgument val1 = QGenericArgument(), QGenericArgument val2 = QGenericArgument(), QGenericArgument val3 = QGenericArgument(), QGenericArgument val4 = QGenericArgument(), QGenericArgument val5 = QGenericArgument(), QGenericArgument val6 = QGenericArgument(), QGenericArgument val7 = QGenericArgument(), QGenericArgument val8 = QGenericArgument(), QGenericArgument val9 = QGenericArgument() )
bool invokeMethod ( QObject * obj, const char * member, QGenericArgument val0 = QGenericArgument( 0 ), QGenericArgument val1 = QGenericArgument(), QGenericArgument val2 = QGenericArgument(), QGenericArgument val3 = QGenericArgument(), QGenericArgument val4 = QGenericArgument(), QGenericArgument val5 = QGenericArgument(), QGenericArgument val6 = QGenericArgument(), QGenericArgument val7 = QGenericArgument(), QGenericArgument val8 = QGenericArgument(), QGenericArgument val9 = QGenericArgument() )
QByteArray normalizedSignature ( const char * method )
QByteArray normalizedType ( const char * type )
Macros
QGenericArgument Q_ARG ( Type, const Type & value )
QGenericReturnArgument Q_RETURN_ARG ( Type, Type & value )

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Detailed Description
The QMetaObject class contains meta-information about Qt objects.

The Qt Meta-Object System in Qt is responsible for the signals and slots inter-object communication mechanism, runtime type information, and the Qt property system. A single QMetaObject instance is created for each QObject subclass that is used in an application, and this instance stores all the meta-information for the QObject subclass. This object is available as QObject::metaObject().

This class is not normally required for application programming, but it is useful if you write meta-applications, such as scripting engines or GUI builders.

The functions you are most likely to find useful are these:

className() returns the name of a class.
superClass() returns the superclass's meta-object.
method() and methodCount() provide information about a class's meta-methods (signals, slots and other member functions).
enumerator() and enumeratorCount() and provide information about a class's enumerators.
propertyCount() and property() provide information about a class's properties.
The index functions indexOfMethod(), indexOfEnumerator(), and indexOfProperty() map names of member functions, enumerators, or properties to indexes in the meta-object. For example, Qt uses indexOfMethod() internally when you connect a signal to a slot.

Classes can also have a list of name--value pairs of additional class information, stored in QMetaClassInfo objects. The number of pairs is returned by classInfoCount(), single pairs are returned by classInfo(), and you can search for pairs with indexOfClassInfo().

See also QMetaClassInfo, QMetaEnum, QMetaMethod, QMetaProperty, QMetaType, and Meta-Object System.


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Member Function Documentation
bool QMetaObject::checkConnectArgs ( const char * signal, const char * method )   [static]
Returns true if the signal and method arguments are compatible; otherwise returns false.

Both signal and method are expected to be normalized.

See also normalizedSignature().

QMetaClassInfo QMetaObject::classInfo ( int index ) const
Returns the meta-data for the item of class information with the given index.

Example:

class MyClass
{
     Q_OBJECT
     Q_CLASSINFO("author", "Sabrina Schweinsteiger")
     Q_CLASSINFO("url", "http://doc.moosesoft.co.uk/1.0/")

public:
     ...
};See also classInfoCount(), classInfoOffset(), and indexOfClassInfo().

int QMetaObject::classInfoCount () const
Returns the number of items of class information in this class.

See also classInfo(), classInfoOffset(), and indexOfClassInfo().

int QMetaObject::classInfoOffset () const
Returns the class information offset for this class; i.e. the index position of this class's first class information item.

If the class has no superclasses with class information, the offset is 0; otherwise the offset is the sum of all the class information items in the class's superclasses.

See also classInfo(), classInfoCount(), and indexOfClassInfo().

const char * QMetaObject::className () const
Returns the class name.

See also superClass().

void QMetaObject::connectSlotsByName ( QObject * object )   [static]
Searches recursively for all child objects of the given object, and connects matching signals from them to slots of object that follow the following form:

     void on_<widget name>_<signal name>(<signal parameters>);Let's assume our object has a child object of type QPushButton with the object name button1. The slot to catch the button's clicked() signal would be:

     void on_button1_clicked();See also QObject::setObjectName().

QMetaEnum QMetaObject::enumerator ( int index ) const
Returns the meta-data for the enumerator with the given index.

See also enumeratorCount(), enumeratorOffset(), and indexOfEnumerator().

int QMetaObject::enumeratorCount () const
Returns the number of enumerators in this class.

See also enumerator(), enumeratorOffset(), and indexOfEnumerator().

int QMetaObject::enumeratorOffset () const
Returns the enumerator offset for this class; i.e. the index position of this class's first enumerator.

If the class has no superclasses with enumerators, the offset is 0; otherwise the offset is the sum of all the enumerators in the class's superclasses.

See also enumerator(), enumeratorCount(), and indexOfEnumerator().

int QMetaObject::indexOfClassInfo ( const char * name ) const
Finds class information item name and returns its index; otherwise returns -1.

See also classInfo(), classInfoCount(), and classInfoOffset().

int QMetaObject::indexOfEnumerator ( const char * name ) const
Finds enumerator name and returns its index; otherwise returns -1.

See also enumerator(), enumeratorCount(), and enumeratorOffset().

int QMetaObject::indexOfMethod ( const char * method ) const
Finds method and returns its index; otherwise returns -1.

Note that the method has to be in normalized form, as returned by normalizedSignature().

See also method(), methodCount(), methodOffset(), and normalizedSignature().

int QMetaObject::indexOfProperty ( const char * name ) const
Finds property name and returns its index; otherwise returns -1.

See also property(), propertyCount(), and propertyOffset().

int QMetaObject::indexOfSignal ( const char * signal ) const
Finds signal and returns its index; otherwise returns -1.

This is the same as indexOfMethod(), except that it will return -1 if the method exists but isn't a signal.

Note that the signal has to be in normalized form, as returned by normalizedSignature().

See also indexOfMethod(), normalizedSignature(), method(), methodCount(), and methodOffset().

int QMetaObject::indexOfSlot ( const char * slot ) const
Finds slot and returns its index; otherwise returns -1.

This is the same as indexOfMethod(), except that it will return -1 if the method exists but isn't a slot.

See also indexOfMethod(), method(), methodCount(), and methodOffset().

bool QMetaObject::invokeMethod ( QObject * obj, const char * member, Qt::ConnectionType type, QGenericReturnArgument ret, QGenericArgument val0 = QGenericArgument( 0 ), QGenericArgument val1 = QGenericArgument(), QGenericArgument val2 = QGenericArgument(), QGenericArgument val3 = QGenericArgument(), QGenericArgument val4 = QGenericArgument(), QGenericArgument val5 = QGenericArgument(), QGenericArgument val6 = QGenericArgument(), QGenericArgument val7 = QGenericArgument(), QGenericArgument val8 = QGenericArgument(), QGenericArgument val9 = QGenericArgument() )   [static]
Invokes the member (a signal or a slot name) on the object obj. Returns true if the member could be invoked. Returns false if there is no such member or the parameters did not match.

The invocation can be either synchronous or asynchronous, depending on type:

If type is Qt::DirectConnection, the member will be invoked immediately.
If type is Qt::QueuedConnection, a QEvent will be sent and the member is invoked as soon as the application enters the main event loop.
If type is Qt::AutoConnection, the member is invoked synchronously if obj lives in the same thread as the caller; otherwise it will invoke the member asynchronously.
The return value of the member function call is placed in ret. If the invocation is asynchronous, the return value cannot be evaluated. You can pass up to ten arguments (val0, val1, val2, val3, val4, val5, val6, val7, val8, and val9) to the member function.

QGenericArgument and QGenericReturnArgument are internal helper classes. Because signals and slots can be dynamically invoked, you must enclose the arguments using the Q_ARG() and Q_RETURN_ARG() macros. Q_ARG() takes a type name and a const reference of that type; Q_RETURN_ARG() takes a type name and a non-const reference.

To asynchronously invoke the animateClick() slot on a QPushButton:

QMetaObject::invokeMethod(pushButton, "animateClick",
                           Qt::QueuedConnection);With asynchronous method invocations, the parameters must be of types that are known to Qt's meta-object system, because Qt needs to copy the arguments to store them in an event behind the scenes. If you try to use a queued connection and get the error message

QMetaObject::invokeMethod: Unable to handle unregistered datatype 'MyType'call qRegisterMetaType() to register the data type before you call invokeMethod().

To synchronously invoke the compute(QString, int, double) slot on some arbitrary object obj retrieve its return value:

QString retVal;
QMetaObject::invokeMethod(obj, "compute", Qt::DirectConnection,
                           Q_RETURN_ARG(QString, retVal),
                           Q_ARG(QString, "sqrt"),
                           Q_ARG(int, 42),
                           Q_ARG(double, 9.7));If the "compute" slot does not take exactly one QString, one int and one double in the specified order, the call will fail.

See also Q_ARG(), Q_RETURN_ARG(), and qRegisterMetaType().

bool QMetaObject::invokeMethod ( QObject * obj, const char * member, QGenericReturnArgument ret, QGenericArgument val0 = QGenericArgument( 0 ), QGenericArgument val1 = QGenericArgument(), QGenericArgument val2 = QGenericArgument(), QGenericArgument val3 = QGenericArgument(), QGenericArgument val4 = QGenericArgument(), QGenericArgument val5 = QGenericArgument(), QGenericArgument val6 = QGenericArgument(), QGenericArgument val7 = QGenericArgument(), QGenericArgument val8 = QGenericArgument(), QGenericArgument val9 = QGenericArgument() )   [static]
This is an overloaded member function, provided for convenience.

This overload always invokes the member using the connection type Qt::AutoConnection.

bool QMetaObject::invokeMethod ( QObject * obj, const char * member, Qt::ConnectionType type, QGenericArgument val0 = QGenericArgument( 0 ), QGenericArgument val1 = QGenericArgument(), QGenericArgument val2 = QGenericArgument(), QGenericArgument val3 = QGenericArgument(), QGenericArgument val4 = QGenericArgument(), QGenericArgument val5 = QGenericArgument(), QGenericArgument val6 = QGenericArgument(), QGenericArgument val7 = QGenericArgument(), QGenericArgument val8 = QGenericArgument(), QGenericArgument val9 = QGenericArgument() )   [static]
This is an overloaded member function, provided for convenience.

This overload can be used if the return value of the member is of no interest.

bool QMetaObject::invokeMethod ( QObject * obj, const char * member, QGenericArgument val0 = QGenericArgument( 0 ), QGenericArgument val1 = QGenericArgument(), QGenericArgument val2 = QGenericArgument(), QGenericArgument val3 = QGenericArgument(), QGenericArgument val4 = QGenericArgument(), QGenericArgument val5 = QGenericArgument(), QGenericArgument val6 = QGenericArgument(), QGenericArgument val7 = QGenericArgument(), QGenericArgument val8 = QGenericArgument(), QGenericArgument val9 = QGenericArgument() )   [static]
This is an overloaded member function, provided for convenience.

This overload invokes the member using the connection type Qt::AutoConnection and ignores return values.

QMetaMethod QMetaObject::method ( int index ) const
Returns the meta-data for the method with the given index.

See also methodCount(), methodOffset(), and indexOfMethod().

int QMetaObject::methodCount () const
Returns the number of methods in this class, including the number of properties provided by each base class. These include signals and slots as well as normal member functions.

Use code like the following to obtain a QStringList containing the methods specific to a given class:

const QMetaObject* metaObject = obj->metaObject();
QStringList methods;
for(int i = metaObject->methodOffset(); i < metaObject->methodCount(); ++i)
     methods << QString::fromLatin1(metaObject->property(i).signature());See also method(), methodOffset(), and indexOfMethod().

int QMetaObject::methodOffset () const
Returns the method offset for this class; i.e. the index position of this class's first member function.

The offset is the sum of all the methods in the class's superclasses (which is always positive since QObject has the deleteLater() slot and a destroyed() signal).

See also method(), methodCount(), and indexOfMethod().

QByteArray QMetaObject::normalizedSignature ( const char * method )   [static]
Normalizes the signature of the given method.

Qt uses normalized signatures to decide whether two given signals and slots are compatible. Normalization reduces whitespace to a minimum, moves 'const' to the front where appropriate, removes 'const' from value types and replaces const references with values.

See also checkConnectArgs() and normalizedType().

QByteArray QMetaObject::normalizedType ( const char * type )   [static]
Normalizes a type.

See QMetaObject::normalizedSignature() for a description on how Qt normalizes.

Example:

QByteArray normType = QMetaObject::normalizedType(" int    const  *");
// normType is now "const int*"This function was introduced in Qt 4.2.

See also normalizedSignature().

QMetaProperty QMetaObject::property ( int index ) const
Returns the meta-data for the property with the given index. If no such property exists, a null QMetaProperty is returned.

See also propertyCount(), propertyOffset(), and indexOfProperty().

int QMetaObject::propertyCount () const
Returns the number of properties in this class, including the number of properties provided by each base class.

Use code like the following to obtain a QStringList containing the properties specific to a given class:

const QMetaObject* metaObject = obj->metaObject();
QStringList properties;
for(int i = metaObject->propertyOffset(); i < metaObject->propertyCount(); ++i)
     properties << QString::fromLatin1(metaObject->property(i).name());See also property(), propertyOffset(), and indexOfProperty().

int QMetaObject::propertyOffset () const
Returns the property offset for this class; i.e. the index position of this class's first property.

The offset is the sum of all the properties in the class's superclasses (which is always positive since QObject has the name() property).

See also property(), propertyCount(), and indexOfProperty().

const QMetaObject * QMetaObject::superClass () const
Returns the meta-object of the superclass, or 0 if there is no such object.

See also className().

QMetaProperty QMetaObject::userProperty () const
Returns the property that has the USER flag set to true.

This function was introduced in Qt 4.2.

See also QMetaProperty::isUser().


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Macro Documentation
QGenericArgument Q_ARG ( Type, const Type & value )
This macro takes a Type and a value of that type and returns a QGenericArgument object that can be passed to QMetaObject::invokeMethod().

See also Q_RETURN_ARG().

QGenericReturnArgument Q_RETURN_ARG ( Type, Type & value )
This macro takes a Type and a non-const reference to a value of that type and returns a QGenericReturnArgument object that can be passed to QMetaObject::invokeMethod().

See also Q_ARG().



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Copyright © 2008 Nokia Trademarks Qt 4.4.3

Meta-Object System

The meta-object system is based on three things:

The QObject class provides a base class for objects that can take advantage of the meta-object system.
The Q_OBJECT macro inside the private section of the class declaration is used to enable meta-object features, such as dynamic properties, signals, and slots.
The Meta-Object Compiler (moc) supplies each QObject subclass with the necessary code to implement meta-object features.
The moc tool reads a C++ source file. If it finds one or more class declarations that contain the Q_OBJECT macro, it produces another C++ source file which contains the meta-object code for each of those classes. This generated source file is either #include'd into the class's source file or, more usually, compiled and linked with the class's implementation.

In addition to providing the signals and slots mechanism for communication between objects (the main reason for introducing the system), the meta-object code provides the following additional features:

QObject::metaObject() returns the associated meta-object for the class.
QMetaObject::className() returns the class name as a string at run-time, without requiring native run-time type information (RTTI) support through the C++ compiler.
QObject::inherits() function returns whether an object is an instance of a class that inherits a specified class within the QObject inheritance tree.
QObject::tr() and QObject::trUtf8() translate strings for internationalization.
QObject::setProperty() and QObject::property() dynamically set and get properties by name.
It is also possible to perform dynamic casts using qobject_cast() on QObject classes. The qobject_cast() function behaves similarly to the standard C++ dynamic_cast(), with the advantages that it doesn't require RTTI support and it works across dynamic library boundaries. It attempts to cast its argument to the pointer type specified in angle-brackets, returning a non-zero pointer if the object is of the correct type (determined at run-time), or 0 if the object's type is incompatible.

For example, let's assume MyWidget inherits from QWidget and is declared with the Q_OBJECT macro:

     QObject *obj = new MyWidget;The obj variable, of type QObject *, actually refers to a MyWidget object, so we can cast it appropriately:

     QWidget *widget = qobject_cast<QWidget *>(obj);The cast from QObject to QWidget is successful, because the object is actually a MyWidget, which is a subclass of QWidget. Since we know that obj is a MyWidget, we can also cast it to MyWidget *:

     MyWidget *myWidget = qobject_cast<MyWidget *>(obj);The cast to MyWidget is successful because qobject_cast() makes no distinction between built-in Qt types and custom types.

     QLabel *label = qobject_cast<QLabel *>(obj);
     // label is 0The cast to QLabel, on the other hand, fails. The pointer is then set to 0. This makes it possible to handle objects of different types differently at run-time, based on the type:

     if (QLabel *label = qobject_cast<QLabel *>(obj)) {
         label->setText(tr("Ping"));
     } else if (QPushButton *button = qobject_cast<QPushButton *>(obj)) {
         button->setText(tr("Pong!"));
     }While it is possible to use QObject as a base class without the Q_OBJECT macro and without meta-object code, neither signals and slots nor the other features described here will be available if the Q_OBJECT macro is not used. From the meta-object system's point of view, a QObject subclass without meta code is equivalent to its closest ancestor with meta-object code. This means for example, that QMetaObject::className() will not return the actual name of your class, but the class name of this ancestor.

Therefore, we strongly recommend that all subclasses of QObject use the Q_OBJECT macro regardless of whether or not they actually use signals, slots, and properties.

See also QMetaObject, Qt's Property System, and Signals and Slots.

能不能说的具体点，到底怎么用，或者给一点相关资料

有类似的方法可以近似实现reflect,那就是metadata体系。通过metadata体系，你能查询某个类内部的slot的函数