创建自定义 Qt 类型

概述

When creating user interfaces with Qt, particularly those with specialized controls and features, developers sometimes need to create new data types that can be used alongside or in place of Qt's existing set of value types.

标准类型譬如 QSize , QColor and QString 都可以存储在 QVariant objects, used as the types of properties in QObject -based classes, and emitted in signal-slot communication.

In this document, we take a custom type and describe how to integrate it into Qt's object model so that it can be stored in the same way as standard Qt types. We then show how to register the custom type to allow it to be used in signals and slots connections.

创建自定义类型

Before we begin, we need to ensure that the custom type we are creating meets all the requirements imposed by QMetaType 。换句话说,它必须提供:

  • 公共默认构造函数,
  • 公共副本构造函数,和
  • 公共析构函数。

下列 Message 类定义包括这些成员:

class Message
{
public:
    Message();
    Message(const Message &other);
    ~Message();
    Message(const QString &body, const QStringList &headers);
    QString body() const;
    QStringList headers() const;
private:
    QString m_body;
    QStringList m_headers;
};
					

The class also provides a constructor for normal use and two public member functions that are used to obtain the private data.

声明类型采用 QMetaType

The Message class only needs a suitable implementation in order to be usable. However, Qt's type system will not be able to understand how to store, retrieve and serialize instances of this class without some assistance. For example, we will be unable to store Message values in QVariant .

The class in Qt responsible for custom types is QMetaType . To make the type known to this class, we invoke the Q_DECLARE_METATYPE () macro on the class in the header file where it is defined:

Q_DECLARE_METATYPE(Message);
					

This now makes it possible for Message values to be stored in QVariant objects and retrieved later. See the 自定义类型范例 for code that demonstrates this.

The Q_DECLARE_METATYPE () macro also makes it possible for these values to be used as arguments to signals, but only in direct signal-slot connections . To make the custom type generally usable with the signals and slots mechanism, we need to perform some extra work.

创建和销毁自定义对象

Although the declaration in the previous section makes the type available for use in direct signal-slot connections, it cannot be used for queued signal-slot connections, such as those that are made between objects in different threads. This is because the meta-object system does not know how to handle creation and destruction of objects of the custom type at run-time.

To enable creation of objects at run-time, call the qRegisterMetaType () template function to register it with the meta-object system. This also makes the type available for queued signal-slot communication as long as you call it before you make the first connection that uses the type.

The 队列自定义类型范例 声明 Block class which is registered in the main.cpp 文件:

int main(int argc, char *argv[])
{
    QApplication app(argc, argv);
    ...
    qRegisterMetaType<Block>();
    ...
    return app.exec();
}
					

This type is later used in a signal-slot connection in the window.cpp 文件:

Window::Window()
{
    thread = new RenderThread();
    ...
    connect(thread, SIGNAL(sendBlock(Block)), this, SLOT(addBlock(Block)));
    ...
    setWindowTitle(tr("Queued Custom Type"));
}
					

If a type is used in a queued connection without being registered, a warning will be printed at the console; for example:

QObject::connect: Cannot queue arguments of type 'Block'
(Make sure 'Block' is registered using qRegisterMetaType().)
					
					

使键入可打印

It is often quite useful to make a custom type printable for debugging purposes, as in the following code:

    Message message(body, headers);
    qDebug() << "Original:" << message;
					

This is achieved by creating a streaming operator for the type, which is often defined in the header file for that type:

QDebug operator<<(QDebug dbg, const Message &message);
					

The implementation for the Message 类型在 自定义类型范例 goes to some effort to make the printable representation as readable as possible:

QDebug operator<<(QDebug dbg, const Message &message)
{
    const QString body = message.body();
    QVector<QStringRef> pieces = body.splitRef("\r\n", QString::SkipEmptyParts);
    if (pieces.isEmpty())
        dbg.nospace() << "Message()";
    else if (pieces.size() == 1)
        dbg.nospace() << "Message(" << pieces.first() << ")";
    else
        dbg.nospace() << "Message(" << pieces.first() << " ...)";
    return dbg.maybeSpace();
}
					

The output sent to the debug stream can, of course, be made as simple or as complicated as you like. Note that the value returned by this function is the QDebug object itself, though this is often obtained by calling the maybeSpace() member function of QDebug that pads out the stream with space characters to make it more readable.

延伸阅读

The Q_DECLARE_METATYPE () 宏和 qRegisterMetaType () function documentation contain more detailed information about their uses and limitations.

The 自定义类型 and 队列自定义类型 examples show how to implement a custom type with the features outlined in this document.

The 调试技术 document provides an overview of the debugging mechanisms discussed above.