Custom Type Example
The Custom Type example shows how to integrate a custom type into Qt's meta-object system.
Contents:
Overview
Qt provides a range of standard value types that are used to provide rich and meaningful APIs. These types are integrated with the meta-object system, enabling them to be stored in QVariant objects, written out in debugging information and sent between components in signal-slot communication.
Custom types can also be integrated with the meta-object system as long as they are written to conform to some simple guidelines. In this example, we introduce a simple Message
class, we describe how we make it work with QVariant, and we show how it can be extended to generate a printable representation of itself for use in debugging output.
The Message Class Definition
The Message
class is a simple value class that contains two pieces of information (a QString and a QStringList), each of which can be read using trivial getter functions:
class Message { public: Message() = default; ~Message() = default; Message(const Message &) = default; Message &operator=(const Message &) = default; Message(const QString &body, const QStringList &headers); QStringView body() const; QStringList headers() const; private: QString m_body; QStringList m_headers; };
The default constructor, copy constructor and destructor are all required, and must be public, if the type is to be integrated into the meta-object system. Other than this, we are free to implement whatever we need to make the type do what we want, so we also include a constructor that lets us set the type's data members.
To enable the type to be used with QVariant, we declare it using the Q_DECLARE_METATYPE() macro:
Q_DECLARE_METATYPE(Message);
We do not need to write any additional code to accompany this macro.
To allow us to see a readable description of each Message
object when it is sent to the debug output stream, we define a streaming operator:
QDebug operator<<(QDebug dbg, const Message &message);
This facility is useful if you need to insert tracing statements in your code for debugging purposes.
The Message Class Implementation
The streaming operator is implemented in the following way:
QDebug operator<<(QDebug dbg, const Message &message) { QList<QStringView> pieces = message.body().split(u"\r\n", Qt::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(); }
Here, we want to represent each value depending on how many lines are stored in the message body. We stream text to the QDebug object passed to the operator and return the QDebug object obtained from its maybeSpace() member function; this is described in more detail in the Creating Custom Qt Types document.
We include the code for the getter functions for completeness:
QStringView Message::body() const { return m_body; } QStringList Message::headers() const { return m_headers; }
With the type fully defined, implemented, and integrated with the meta-object system, we can now use it.
Using the Message
In the example's main()
function, we show how a Message
object can be printed to the console by sending it to the debug stream:
Message message(body, headers); qDebug() << "Original:" << message;
You can use the type with QVariant in exactly the same way as you would use standard Qt value types. Here's how to store a value using the QVariant::setValue() function:
QVariant stored; stored.setValue(message);
Alternatively, the QVariant::fromValue() function can be used if you are using a compiler without support for member template functions.
The value can be retrieved using the QVariant::value() member template function:
Message retrieved = qvariant_cast<Message>(stored); qDebug() << "Retrieved:" << retrieved; retrieved = qvariant_cast<Message>(stored); qDebug() << "Retrieved:" << retrieved;
Further Reading
The custom Message
type can also be used with direct signal-slot connections.
To register a custom type for use with queued signals and slots, such as those used in cross-thread communication, see the Queued Custom Type Example.
More information on using custom types with Qt can be found in the Creating Custom Qt Types document.