- All Implemented Interfaces:
public static class CompositeKeyValueFilter.Externalizer extends AbstractExternalizer<CompositeKeyValueFilter>
- See Also:
- Serialized Form
Constructors Constructor Description
All Methods Instance Methods Concrete Methods Modifier and Type Method Description
getId()Returns an integer that identifies the externalizer type.
Set<Class<? extends CompositeKeyValueFilter>>
getTypeClasses()Returns a collection of Class instances representing the types that this AdvancedExternalizer can marshall.
readObject(ObjectInput input)Read an instance from the stream.
writeObject(ObjectOutput output, CompositeKeyValueFilter object)Write the object reference to the stream.
public Set<Class<? extends CompositeKeyValueFilter>> getTypeClasses()Description copied from interface:
AdvancedExternalizerReturns a collection of Class instances representing the types that this AdvancedExternalizer can marshall. Clearly, empty sets are not allowed. The externalizer framework currently requires all individual types to be listed since it does not make assumptions based on super classes or interfaces.
- A set containing the Class instances that can be marshalled.
public void writeObject(ObjectOutput output, CompositeKeyValueFilter object) throws IOExceptionDescription copied from interface:
ExternalizerWrite the object reference to the stream.
output- the object output to write to
object- the object reference to write
IOException- if an I/O error occurs
public CompositeKeyValueFilter readObject(ObjectInput input) throws IOException, ClassNotFoundExceptionDescription copied from interface:
ExternalizerRead an instance from the stream. The instance will have been written by the
Externalizer.writeObject(ObjectOutput, Object)method. Implementations are free to create instances of the object read from the stream in any way that they feel like. This could be via constructor, factory or reflection.
public Integer getId()Description copied from interface:
AdvancedExternalizerReturns an integer that identifies the externalizer type. This is used at read time to figure out which
AdvancedExternalizershould read the contents of the incoming buffer. Using a positive integer allows for very efficient variable length encoding of numbers, and it's much more efficient than shipping
AdvancedExternalizerimplementation class information around. Negative values are not allowed. Implementers of this interface can use any positive integer as long as it does not clash with any other identifier in the system. You can find information on the pre-assigned identifier ranges in here. It's highly recommended that maintaining of these identifiers is done in a centralized way and you can do so by making annotations reference a set of statically defined identifiers in a separate class or interface. Such class/interface gives a global view of the identifiers in use and so can make it easier to assign new ids. Implementors can optionally avoid giving a meaningful implementation to this method (i.e. return null) and instead rely on XML or programmatic configuration to provide the AdvancedExternalizer id. If no id can be determined via the implementation or XML/programmatic configuration, an error will be reported. If an id has been defined both via the implementation and XML/programmatic configuration, the value defined via XML/programmatic configuration will be used ignoring the other.