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Object Serialization in Java. Or: The Persistence of Memory …. Originally from: http://www.cs.unm.edu/~terran/. So you want to save your data…. Common problem: You’ve built a large, complex object Spam/Normal statistics tables Game state Database of student records Etc… - PowerPoint PPT Presentation
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Object Serialization in Java
Or: The Persistence of Memory…
Originally from: http://www.cs.unm.edu/~terran/
So you want to save your data… Common problem:
You’ve built a large, complex object Spam/Normal statistics tables Game state Database of student records Etc…
Want to store on disk and retrieve later Or: want to send over network to another
Java process In general: want your objects to be
persistent -- outlive the current Java process
Answer I: customized file formats Write a set of methods for saving/loading
each instance of a class that you care about
public class MyClass { public void saveYourself(Writer o) throws IOException { ... } public static MyClass loadYourself(Reader r) throws IOException { ... }}
Coolnesses of Approach 1: Can produce arbitrary file formats Know exactly what you want to store and
get back/don’t store extraneous stuff Can build file formats to interface with
other codes/programs XML Pure text file Etc.
If your classes are nicely hierarchical, makes saving/loading simple What will happen with Inheritance?
Make Things Saveable/Loadablepublic interface Saveable { public void saveYourself(Writer w) throws IOException; // should also have this // public static Object loadYourself(Reader r) // throws IOException; // but you can’t put a static method in an // interface in Java}
Saving, cont’dpublic class MyClassA implements Saveable { public MyClassA(int arg) { // initialize private data members of A } public void saveYourself(Writer w) throws IOException { // write MyClassA identifier and private data on // stream w } public static MyClassA loadYourself(Reader r) throws IOException { // parse MyClassA from the data stream r MyClassA tmp=new MyClassA(data); return tmp; }}
Saving, cont’dpublic class MyClassB implements Saveable { public void MyClassB(int arg) { ... } private MyClassA _stuff; public void saveYourself(Writer w) { // write ID for MyClassB _stuff.saveYourself(w); // write other private data for MyClassB w.flush(); } public static MyClassB loadYourself(Reader r) { // parse MyClassB ID from r MyClassA tmp=MyClassA.loadYourself(r); // parse other private data for MyClassB return new MyClassB(tmp); }}
Painfulnesses of Approach 1: This is called recursive descent parsing Actually, there are plenty of places in the
real world where it’s terribly useful. But... It’s also a pain (why?)
If all you want to do is store/retrieve data, do you really need to go to all of that effort?
Fortunately, no. Java provides a shortcut that takes a lot of the work out.
Approach 2: Enter Serialization... Java provides the serialization mechanism
for object persistence It essentially automates the grunt work for
you Short form:public class MyClassA implements Serializable { ... }// in some other code elsewhere...MyClassA tmp=new MyClassA(arg);FileOutputStream fos=new FileOutputStream("some.obj");ObjectOutputStream out=new ObjectOutputStream(fos);out.writeObject(tmp);out.flush();out.close();
In a bit more detail... To (de-)serialize an object, it must implements Serializable All of its data members must also be
marked serializable And so on, recursively... Primitive types (int, char, etc.) are all
serizable automatically So are Strings, most classes in java.util,
etc. This saves/retrieves the entire object
graph, including ensuring uniqueness of objects
The object graph and uniqueness
MondoHashTable
Entry
Entry
"tyromancy"
"zygopleural"
Vector
Now some problems… static fields are not automatically
serialized Not possible to automatically serialize
them because they’re owned by an entire class, not an object
Options: final static fields are automatically
initialized (once) the first time a class is loaded
static fields initialized in the static {} block will be initialized the first time a class is loaded
But what about other static fields?
When default serialization isn’t enough Java allows writeObject() and readObject() methods to customize output
If a class provides these methods, the serialization/deserialization mechanism calls them instead of doing the default thing
writeObject() in actionpublic class DemoClass implements Serializable { private int _dat=3; private static int _sdat=2;
private void writeObject(ObjectOutputStream o) throws IOException { o.writeInt(_dat); o.writeInt(_sdat); } private void readObject(ObjectInputStream i) throws IOException, ClassNotFoundException { _dat=i.readInt(); _sdat=i.readInt(); }}
Things that you don’t want to save Sometimes, you want to explicitly not
store some non-static data Computed vals that are cached simply
for convenience/speed Passwords or other “secret” data that
shouldn’t be written to disk Java provides the “transient” keyword. transient foo means don’t save foo
public class MyClass implements Serializable { private int _primaryVal=3; // is serialized private transient int _cachedVal=_primaryVal*2; // _cachedVal is not serialized}
Issue: #0 -- non Serializable fields What happens if class Foo has a field of
type Bar, but Bar isn’t serializable? If you just do this:
You get a NotSerializableException Answer: use read/writeObject to
explicitly serialize parts that can’t be handled otherwise
Need some way to get/set necessary state
Foo tmp=new Foo();ObjectOutputStream out=new ObjectOutputStream;out.writeObject(tmp);
Issue: #0.5 -- non-Ser. superclasses Suppose
class Foo extends Bar implements Serializable
But Bar itself isn’t serializable What happens?
Foo(serializable)
Bar(not serializable)
Non-Serializable superclasses, cont’d
Bar must provide a no-arg constructor Foo must use readObject/writeObject to
take care of Bar’s private data Java helps a bit with defaultReadObject
and defaultWriteObject Order of operations (for deserialization)
Java creates a new Foo object Java calls Bar’s no-arg constructor Java calls Foo’s readObject
Foo’s readObject explicitly reads Bar’s state data Foo reads its own data Foo reads its children’s data
In O’Reilly Java I/O 父類別沒有實作 Serializable介面,而且沒有提供無引數的建構子 java.lang.Object沒有實作 Serializable
每個類別都至少有一個不能分解的父類別 重組時,會呼叫沒有實作 Serializable的最近血緣之父類別的無引數建構子(真難懂!),以建立該物件不可分解的父類別之狀態(超複雜!) PS: 以上原文抄錄
When having a non-serializable parent Class ZipFile does not implements
Serializable, and it does not have a no-arg constructor
public class ZipFile implements java.util.zip.ZipConstants public ZipFile(String filename) throws
IOException public ZipFile(File file) throws
ZipException, IOException What can we do?
Can anyone answer me?
Issue: #1 -- Efficiency For your MondoHashTable, you can just
serialize/deserialize it with the default methods But that’s not necessarily efficient, and may even
be wrong By default, Java will store the entire internal _table, including all of its null entries!
Now you’re wasting space/time to load/save all those empty cells
Plus, the hashCode()s of the keys may not be the same after deserialziation -- should explicitly rehash them to check. hashCode() is defined in java.lang.Object Address is usually used in the default
implementation
Issue: #2 -- Backward compatibility Suppose that you have two versions of
class Foo: Foo v. 1.0 and Foo v. 1.1 The public and protected members of 1.0
and 1.1 are the same; the semantics of both are the same
So Foo 1.0 and 1.1 should behave the same and be interchangable
BUT... The private fields and implementation of 1.0 and 1.1 are different
What happens if you serialize with a 1.0 object and deserialize with a 1.1? Or vice versa?
Backward compat, cont’d. Issue is that in code, only changes to the public
or protected matter With serialization, all of a sudden, the private
data members (and methods) count too Serialization is done by the JVM, not codes in
ObjectInputStream/ObjectOutputStream This is a kind of privilege
Have to be very careful to not muck up internals in a way that’s inconsistent with previous versions E.g., changing the meaning, but not name of
some data field
Backward compat, cont’d Example:// version 1.0public class MyClass { MyClass(int arg) { _dat=arg*2; } private int _dat;}
// version 1.1public class MyClass { MyClass(int arg) { _dat=arg*3; } // NO-NO! private int _dat;}
Backward compat, cont’d: Java helps as much as it can Java tracks a “version number” of a class
that changes when the class changes “substantially” Fields changed to/from static or
transient Field or method names changed Data types change Class moves up or down in the class
hierarchy Trying to deserialize a class of a different
version than the one currently in memory throws InvalidClassException
Yet more on backward compat Java version number comes from names
of all data and method members of a class
If they don’t change, the version number won’t change
If you want Java to detect that something about your class has changed, change a name
But, if all you’ve done is changed names (or refactored functionality), you want to be able to tell Java that nothing has changed
Can lie to Java about version number:static final long serialVersionUID = 3530053329164698194L;
The detail list of compatibility You have to check the following rules
http://java.sun.com/javase/6/docs/platform/serialization/spec/version.html
One of the key idea is that When restoring an object, new things
are allowed, and old things should be kept
Issues #3: When facing Singleton pattern When you are restoring a Singleton object,
you need to check whether there is an existing singleton object in the system This is logical correctness, and you need
to check and guarantee it by yourself!
Default Write/Read Object Sometimes, we want to add some
additional information For examplepublic class NetworkWindow implements Serializable { private Socket theSocket; //and many other fields and methods}
Recover the statespublic class NetworkWindow implements Serializable { private transient Socket theSocket; //and many other fields and methods private void writeObject(ObjectOutputStream out) throws IOException { out.defaultWriteObject(); out.writeObject(theSocket.getInetAddress()); out.writeInt(theSocket.getPort()); }
private void readObject(ObjectInputStream in) throws IOException, ClassNotFoundException { in.defaultReadObject(); InetAddress ia = (InetAddress) in.readObject(); int thePort = in.readInt(); this.theSocket = new Socket(ia, thePort); }}
Preventing Serialization Sometimes you don’t want your class
object to be serialized, but your parent implements Serializable… You can override writeObject and
readObject, and throw exceptions throw new NotSerializableException();
Summary Make the thing sequential, and so writable
Serialization Serialization is difficult and technical, you
need to be aware of all the class hierarchy which you are going to serialize
You can define your own serialization process
You can add additional information when serializing
You can prevent an instance from serializing