要自定义XStream序列化,您可以实现com.thoughtworks.xstream.converters.Converter接口并覆盖marshal()和unmarshal()方法。这样可以自定义对象的序列化和反序列化逻辑。
下面是一个示例,展示如何自定义序列化一个Person对象:
import com.thoughtworks.xstream.converters.Converter; import com.thoughtworks.xstream.io.HierarchicalStreamWriter; import com.thoughtworks.xstream.io.HierarchicalStreamReader; import com.thoughtworks.xstream.converters.MarshallingContext; import com.thoughtworks.xstream.converters.UnmarshallingContext; public class PersonConverter implements Converter { @Override public void marshal(Object source, HierarchicalStreamWriter writer, MarshallingContext context) { Person person = (Person) source; writer.startNode("name"); writer.setValue(person.getName()); writer.endNode(); writer.startNode("age"); writer.setValue(String.valueOf(person.getAge())); writer.endNode(); } @Override public Object unmarshal(HierarchicalStreamReader reader, UnmarshallingContext context) { reader.moveDown(); String name = reader.getValue(); reader.moveUp(); reader.moveDown(); int age = Integer.parseInt(reader.getValue()); reader.moveUp(); return new Person(name, age); } @Override public boolean canConvert(Class type) { return type.equals(Person.class); } } 在上面的示例中,PersonConverter实现了Converter接口,并覆盖了marshal()和unmarshal()方法来自定义Person对象的序列化和反序列化逻辑。canConvert()方法指定了该转换器可以处理哪种类型的对象。
然后,您可以将PersonConverter注册到XStream实例中,如下所示:
XStream xstream = new XStream(); xstream.registerConverter(new PersonConverter()); 现在,当您序列化或反序列化Person对象时,XStream将使用您自定义的转换器来处理对象。
