Start of Tutorial > Start of Trail |
Search
Feedback Form |
For complete information on persistence and serialization, see the Java Object Serialization web site, and theObject Serialization trail.A Bean persists by having its properties, fields, and state information saved and restored to and from storage. The mechanism that makes persistence possible is called serialization. When a Bean instance is serialized, it is converted into a data stream and written to storage. Any applet, application, or tool that uses that Bean can then "reconstitute" it by deserialization. JavaBeans uses the JDK's Object Serialization API for its serialization needs.
All Beans must persist. To persist, your Beans must support serialization by implementing either the
java.io.Serializable
interface, or thejava.io.Externalizable
interface. These interfaces offer you the choice between automatic serialization, and "roll your own". As long as one class in a class's inheritance hierarchy implementsSerializable
orExternalizable
, that class is serializable.
You can control the level of serialization that your Beans undergo:
Serializable
. Everything gets
serialized by the Java serialization software.
transient
(or static
) modifier.
Externalizable
, and its two methods.
The Serializable
interface provides automatic
serialization by using the Java Object Serialization tools.
Serializable
declares no methods; it acts as a marker,
telling the Object Serialization tools that your Bean class is serializable.
Marking your class with Serializable
means you
are telling the Java Virtual Machine (JVM) that you have made sure your class
will work with default serialization. Here are some
important points about working with the Serializable
interface:
Serializable
must have
a no-argument constructor. This constructor will
be called when an object is "reconstituted" from a
.ser
file.
Serializable
in
your class if if it is already implemented in a superclass
(but you do need to make sure works correctly and as you
expect with default serialization).
transient
modifier to specify fields you do not
want serialized, and to specify classes that are not serializable.
The BeanBox writes serialized Beans to a file with a .ser extension.
The OurButton
demo Bean uses default serialization to make its
properties persist. OurButton
only added Serializable
to its class definition to make use of default serialization:
public class OurButton extends Component implements Serializable,...
If you drop an OurButton
instance into the BeanBox, the
properties sheet displays OurButton's properties. To ascertain
that serialization is working
OurButton
properties. For example
change the font size and colors.
OurButton
instance by selecting
the File|SerializeComponent... BeanBox menu item. A
file browser will pop up.
.ser
file in a
JAR file with a suitable manifest.
OurButton
instance will appear in the BeanBox with your
property changes intact. By implementing Serializable
in your class, simple, primitive properties and fields can be
serialized. For more complex class members, different
techniques must be used, as described in the following sections.
To exclude fields from serialization in a Serializable
object
from serialization, mark the fields
with the transient
modifier.
Default serialization will not serializetransient int Status;
transient
and
static
fields.
If your serializable class contains either of the following two methods (the signatures must be exact), then the default serialization will not take place.
private void writeObject(java.io.ObjectOutputStream out) throws IOException; private void readObject(java.io.ObjectInputStream in) throws IOException, ClassNotFoundException;
You can control how more complex objects are serialized,
by writing your own implementations of the
writeObject
and readObject
methods.
Implement writeObject
when you need to exercise
greater control over what gets serialized, when you need
to serialize objects that default serialization cannot handle,
or when you need to add data to the serialization stream that
is not an object data member.
Implement readObject
to reconstruct the
data stream you wrote with writeObject
.
The Molecule
demo keeps a version number in a static
field. Since static fields are not serialized by default,
writeObject
and readObject
are
implemented to serialize this field. Here is
the writeObject
and readObject
implementations in Molecule.java
:
private void writeObject(java.io.ObjectOutputStream s) throws java.io.IOException { s.writeInt(ourVersion); s.writeObject(moleculeName); } private void readObject(java.io.ObjectInputStream s) throws java.lang.ClassNotFoundException, java.io.IOException { // Compensate for missing constructor. reset(); if (s.readInt() != ourVersion) { throw new IOException("Molecule.readObject: version mismatch"); } moleculeName = (String) s.readObject(); }
These implementations limit the fields serialized to
ourVersion
and moleculeName
.
Any other data in the class will not be serialized.
It is best to use the ObjectInputStream
's
defaultWriteObject
and defaultReadObject
before doing your own specific stream writing. For example:
private void writeObject(java.io.ObjectOutputStream s) throws java.io.IOException { //First write out defaults s.defaultWriteObject(); //... } private void readObject(java.io.ObjectInputStream s) throws java.lang.ClassNotFoundException, java.io.IOException { //First read in defaults s.defaultReadObject(); //... }
Use the Externalizable
interface
when you need complete control over your Bean's serialization
(for example, when writing and reading a specific file format).
You need to implement
two methods: readExternal
and
writeExternal
. Externalizable
classes must also have a no-argument constructor.
When you run the BeanBox, you will see two
Beans named BlueButton
and
OrangeButton
in the ToolBox.
These two Beans are actually serialized
instances of the ExternalizableButton
class.
ExternalizableButton
implements
the Externalizable
interface. This
means it does all its own serialization, by
implementing Externalizable.readExternal
and Externalizable.writeExternal
.
The BlueButtonWriter
program
is used by the buttons makefile to create
an ExternalizableButton
instance,
change its background
property
to blue, and write the Bean out to the file
BlueButton.ser
. Another button, OrangeButton
,
is created the same way using OrangeButtonWriter
.
The button makefile
then puts these .ser
files in buttons.jar
, where the ToolBox
can find and reconstitute them.
Start of Tutorial > Start of Trail |
Search
Feedback Form |
Copyright 1995-2002 Sun Microsystems, Inc. All rights reserved.