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I've just encountered an interesting problem related to Java serialization.

It seems that if my map is defined like this:

Map<String, String> params = new HashMap<String, String>() {{
  put("param1", "value1");
  put("param2", "value2");
}};

And I try to serialize it to a file with ObjectOutputStream:

ObjectOutputStream oos = new ObjectOutputStream(new FileOutputStream(outputFile));
oos.writeObject(params);

...I get java.io.NotSerializableException.

However, if instead I put values to the map the standard way:

Map<String, String> params = new HashMap<String, String>();
params.put("param1", "value1");
params.put("param2", "value2");

...then serialization work fine.

Can anybody tell me why it happens and what's the difference between these statements? I think they should work the same, but apparently I'm missing something.

2 Answers 2

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The first example is creating an anonymous inner class. How ?

Map<String, String> params = new HashMap<String, String>() {};

would create a new class derived from HashMap (note the following braces, in which you can put methods, members etc.)

Your map initialisation then declares an initialiser block thus:

Map<String, String> params = new HashMap<String, String>() { 
                                                             { // here } 
                                                           };

and in that you call your population methods.

This idiom is fine, but you have to be aware that you're creating a new class, not just a new object.

Because this class is an inner class, it'll have an implicit this pointer to the containing outer class. Your anonymous class would be serialisable due to its derivation from a serialisable class. However your outer class (referenced by the this pointer) isn't.

Tools like XStream, which serialise to XML via reflection, will discover the this pointer and attempt to serialise the surrounding object, which is similarly confusing.

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  • 1
    By static initialiser, you mean instance initializer?
    – Eng.Fouad
    Commented Jul 31, 2012 at 9:21
  • so what would be the expected enclosing class?
    – Shark
    Commented Jul 31, 2012 at 9:22
  • @Shark - I simply mean the class containing the above definition of the derived HashMap Commented Jul 31, 2012 at 9:24
  • 1
    oh, so suppose if it's instantiated in a MainApp class, we'd get a java.io.NotSerializableException because MainApp doesn't implement Serializable as well? interesting.
    – Shark
    Commented Jul 31, 2012 at 9:27
  • so how he can do it serialisable although he created an inner class ?
    – URL87
    Commented Jul 31, 2012 at 9:28
0

I wanted to supplement @Brian Agnew's answer with this suggestion:

I had a case where I needed slightly different behavior out of an object, so I extended its capabilities with an anonymous inner class as you did in the example. The outer class was a GUI application, and I did not make it serializable because that just wasn't necessary, so therefore like @Brian said, no anonymous inner classes could be serializable, even if the classes they were extending were.

In this situation, you simply have to define different behavior for when a class is deserialized and when it is again serialized. If you have a class with a specific constructor, use a method like this in your class:

public FunctionalObject getNewFunctionalObject (String param1, String param2) {
    // Use an anonymous inner class to extend the behavior
    return new FunctionalObject (param1, param2) {
        { 
            // Initialization block code here
        }
        // Extended behavior goes here
    };
}

So when you are deserializing, you can make a call like this:

FunctionalObject fo = (FunctionalObject) objectInputStream.readObject ();
fo = getNewFunctionalObject(fo.getParam1(), fo.getParam2());

When serializing, you will need to create a new object that is a clone of the old object. Some classes have this behavior built in, and in others you will have to specifically define it. For serialization, if you have a constructor that can clone it, or if your class has the clone method defined, you could do this:

objectOutputStream.writeObject ( fo.clone() );

Then, the clone of that object will no longer be a reference to your anonymous inner class, but a reference to an actual copy of the object, which is serializable.

In your example's case, you could have just done this:

// Assuming objectOutputStream has already been defined
Map<String, String> params = new HashMap<String, String>() {{
    put("param1", "value1");
    put("param2", "value2");
}};
objectOutputStream.writeObject (new HashMap<String,String> (params));

This works because the HashMap class has a constructor that will return a clone of whatever HashMap is passed into it. That was a lot of words to say something simple, but I wished I would have had this advice sooner myself.

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