Gson serialize a list of polymorphic objects

Question

I'm trying to serialize/deserialize an object, that involves polymorphism, into JSON using Gson.

This is my code for serializing:

ObixBaseObj lobbyObj = new ObixBaseObj();
lobbyObj.setIs("obix:Lobby");

ObixOp batchOp = new ObixOp();
batchOp.setName("batch");
batchOp.setIn("obix:BatchIn");
batchOp.setOut("obix:BatchOut");

lobbyObj.addChild(batchOp);

Gson gson = new Gson();
System.out.println(gson.toJson(lobbyObj));

Here's the result:

 {"obix":"obj","is":"obix:Lobby","children":[{"obix":"op","name":"batch"}]}

The serialization mostly works, except its missing the contents of inherited members (In particular obix:BatchIn and obixBatchout strings are missing). Here's my base class:

public class ObixBaseObj  {
    protected String obix;
    private String display;
    private String displayName;
    private ArrayList<ObixBaseObj> children;

    public ObixBaseObj()
    {
        obix = "obj";
    }

    public void setName(String name) {
        this.name = name;
    }
        ...
}

Here's what my inherited class (ObixOp) looks like:

public class ObixOp extends ObixBaseObj {
    private String in;
    private String out;

    public ObixOp() {
        obix = "op";
    }
    public ObixOp(String in, String out) {
        obix = "op";
        this.in = in;
        this.out = out;
    }
    public String getIn() {
        return in;
    }
    public void setIn(String in) {
        this.in = in;
    }
    public String getOut() {
        return out;
    }
    public void setOut(String out) {
        this.out = out;
    }
}

I realize I could use an adapter for this, but the problem is that I'm serializing a collection of base class type ObixBaseObj. There are about 25 classes that inherits from this. How can I make this work elegantly?

Answer 1

There's a simple solution: Gson's RuntimeTypeAdapterFactory (from com.google.code.gson:gson-extras:$gsonVersion). You don't have to write any serializer, this class does all work for you. Try this with your code:

    ObixBaseObj lobbyObj = new ObixBaseObj();
    lobbyObj.setIs("obix:Lobby");

    ObixOp batchOp = new ObixOp();
    batchOp.setName("batch");
    batchOp.setIn("obix:BatchIn");
    batchOp.setOut("obix:BatchOut");

    lobbyObj.addChild(batchOp);

    RuntimeTypeAdapterFactory<ObixBaseObj> adapter = 
                    RuntimeTypeAdapterFactory
                   .of(ObixBaseObj.class)
                   .registerSubtype(ObixBaseObj.class)
                   .registerSubtype(ObixOp.class);


    Gson gson2=new GsonBuilder().setPrettyPrinting().registerTypeAdapterFactory(adapter).create();
    Gson gson = new Gson();
    System.out.println(gson.toJson(lobbyObj));
    System.out.println("---------------------");
    System.out.println(gson2.toJson(lobbyObj));

}

Output:

{"obix":"obj","is":"obix:Lobby","children":[{"obix":"op","name":"batch","children":[]}]}
---------------------
{
  "type": "ObixBaseObj",
  "obix": "obj",
  "is": "obix:Lobby",
  "children": [
    {
      "type": "ObixOp",
      "in": "obix:BatchIn",
      "out": "obix:BatchOut",
      "obix": "op",
      "name": "batch",
      "children": []
    }
  ]
}

EDIT: Better working example.

You said that there are about 25 classes that inherits from ObixBaseObj.

We start writing a new class, GsonUtils

public class GsonUtils {

    private static final GsonBuilder gsonBuilder = new GsonBuilder()
            .setPrettyPrinting();

    public static void registerType(
            RuntimeTypeAdapterFactory<?> adapter) {
        gsonBuilder.registerTypeAdapterFactory(adapter);
    }

    public static Gson getGson() {
        return gsonBuilder.create();
    }

Every time we need a Gson object, instead of calling new Gson(), we will call

GsonUtils.getGson()

We add this code to ObixBaseObj:

public class ObixBaseObj {
    protected String obix;
    private String display;
    private String displayName;
    private String name;
    private String is;
    private ArrayList<ObixBaseObj> children = new ArrayList<ObixBaseObj>();
    // new code
    private static final RuntimeTypeAdapterFactory<ObixBaseObj> adapter = 
            RuntimeTypeAdapterFactory.of(ObixBaseObj.class);

    private static final HashSet<Class<?>> registeredClasses= new HashSet<Class<?>>();

    static {
        GsonUtils.registerType(adapter);
    }

    private synchronized void registerClass() {
        if (!registeredClasses.contains(this.getClass())) {
            registeredClasses.add(this.getClass());
            adapter.registerSubtype(this.getClass());
        }
    }
    public ObixBaseObj() {
        registerClass();
        obix = "obj";
    }

Why? because every time this class or a children class of ObixBaseObj is instantiated, the class it's gonna be registered in the RuntimeTypeAdapter

In the child classes, only a minimal change is needed:

public class ObixOp extends ObixBaseObj {
    private String in;
    private String out;

    public ObixOp() {
        super();
        obix = "op";
    }

    public ObixOp(String in, String out) {
        super();
        obix = "op";
        this.in = in;
        this.out = out;
    }

Working example:

public static void main(String[] args) {

        ObixBaseObj lobbyObj = new ObixBaseObj();
        lobbyObj.setIs("obix:Lobby");

        ObixOp batchOp = new ObixOp();
        batchOp.setName("batch");
        batchOp.setIn("obix:BatchIn");
        batchOp.setOut("obix:BatchOut");

        lobbyObj.addChild(batchOp);



        Gson gson = GsonUtils.getGson();
        System.out.println(gson.toJson(lobbyObj));

    }

Output:

{
  "type": "ObixBaseObj",
  "obix": "obj",
  "is": "obix:Lobby",
  "children": [
    {
      "type": "ObixOp",
      "in": "obix:BatchIn",
      "out": "obix:BatchOut",
      "obix": "op",
      "name": "batch",
      "children": []
    }
  ]
}

I hope it helps.

Answer 2

I think that a custom serializer/deserializer is the only way to proceed and I tried to propose you the most compact way to realize it I have found. I apologize for not using your classes, but the idea is the same (I just wanted at least 1 base class and 2 extended classes).

BaseClass.java

public class BaseClass{
    
    @Override
    public String toString() {
        return "BaseClass [list=" + list + ", isA=" + isA + ", x=" + x + "]";
    }
    
    public ArrayList<BaseClass> list = new ArrayList<BaseClass>();
    
    protected String isA="BaseClass"; 
    public int x;
   
 }

ExtendedClass1.java

public class ExtendedClass1 extends BaseClass{

    @Override
    public String toString() {
       return "ExtendedClass1 [total=" + total + ", number=" + number
            + ", list=" + list + ", isA=" + isA + ", x=" + x + "]";
    }

    public ExtendedClass1(){
        isA = "ExtendedClass1";
    }
    
    public Long total;
    public Long number;
    
}

ExtendedClass2.java

public class ExtendedClass2 extends BaseClass{

    @Override
    public String toString() {
      return "ExtendedClass2 [total=" + total + ", list=" + list + ", isA="
            + isA + ", x=" + x + "]";
    }

    public ExtendedClass2(){
        isA = "ExtendedClass2";
    }
    
    public Long total;
    
}

CustomDeserializer.java

public class CustomDeserializer implements JsonDeserializer<List<BaseClass>> {

    private static Map<String, Class> map = new TreeMap<String, Class>();

    static {
        map.put("BaseClass", BaseClass.class);
        map.put("ExtendedClass1", ExtendedClass1.class);
        map.put("ExtendedClass2", ExtendedClass2.class);
    }

    public List<BaseClass> deserialize(JsonElement json, Type typeOfT,
            JsonDeserializationContext context) throws JsonParseException {

        List list = new ArrayList<BaseClass>();
        JsonArray ja = json.getAsJsonArray();

        for (JsonElement je : ja) {

            String type = je.getAsJsonObject().get("isA").getAsString();
            Class c = map.get(type);
            if (c == null)
                throw new RuntimeException("Unknow class: " + type);
            list.add(context.deserialize(je, c));
        }

        return list;

    }

}

CustomSerializer.java

public class CustomSerializer implements JsonSerializer<ArrayList<BaseClass>> {

    private static Map<String, Class> map = new TreeMap<String, Class>();

    static {
        map.put("BaseClass", BaseClass.class);
        map.put("ExtendedClass1", ExtendedClass1.class);
        map.put("ExtendedClass2", ExtendedClass2.class);
    }

    @Override
    public JsonElement serialize(ArrayList<BaseClass> src, Type typeOfSrc,
            JsonSerializationContext context) {
        if (src == null)
            return null;
        else {
            JsonArray ja = new JsonArray();
            for (BaseClass bc : src) {
                Class c = map.get(bc.isA);
                if (c == null)
                    throw new RuntimeException("Unknow class: " + bc.isA);
                ja.add(context.serialize(bc, c));

            }
            return ja;
        }
    }
}

and now this is the code I executed to test the whole thing:

public static void main(String[] args) {

  BaseClass c1 = new BaseClass();
  ExtendedClass1 e1 = new ExtendedClass1();
  e1.total = 100L;
  e1.number = 5L;
  ExtendedClass2 e2 = new ExtendedClass2();
  e2.total = 200L;
  e2.x = 5;
  BaseClass c2 = new BaseClass();

  c1.list.add(e1);
  c1.list.add(e2);
  c1.list.add(c2);


  List<BaseClass> al = new ArrayList<BaseClass>();

  // this is the instance of BaseClass before serialization
  System.out.println(c1);

  GsonBuilder gb = new GsonBuilder();

  gb.registerTypeAdapter(al.getClass(), new CustomDeserializer());
  gb.registerTypeAdapter(al.getClass(), new CustomSerializer());
  Gson gson = gb.create();

  String json = gson.toJson(c1);
  // this is the corresponding json
  System.out.println(json);

  BaseClass newC1 = gson.fromJson(json, BaseClass.class);

  System.out.println(newC1);

}

This is my execution:

BaseClass [list=[ExtendedClass1 [total=100, number=5, list=[], isA=ExtendedClass1, x=0], ExtendedClass2 [total=200, list=[], isA=ExtendedClass2, x=5], BaseClass [list=[], isA=BaseClass, x=0]], isA=BaseClass, x=0]
{"list":[{"total":100,"number":5,"list":[],"isA":"ExtendedClass1","x":0},{"total":200,"list":[],"isA":"ExtendedClass2","x":5},{"list":[],"isA":"BaseClass","x":0}],"isA":"BaseClass","x":0}
BaseClass [list=[ExtendedClass1 [total=100, number=5, list=[], isA=ExtendedClass1, x=0], ExtendedClass2 [total=200, list=[], isA=ExtendedClass2, x=5], BaseClass [list=[], isA=BaseClass, x=0]], isA=BaseClass, x=0]

Some explanations: the trick is done by another Gson inside the serializer/deserializer. I use just isA field to spot the right class. To go faster, I use a map to associate the isA string to the corresponding class. Then, I do the proper serialization/deserialization using the second Gson object. I declared it as static so you won't slow serialization/deserialization with multiple allocation of Gson.

Pro You actually do not write more code than this, you let Gson do all the work. You have just to remember to put a new subclass into the maps (the exception reminds you of that).

Cons You have two maps. I think that my implementation can refined a bit to avoid map duplications, but I left them to you (or to future editor, if any).

Maybe you want to unify serialization and deserialization into a unique object, you should be check the TypeAdapter class or experiment with an object that implements both interfaces.

Answer 3

I appreciate the other answers here that led me on my path to solving this issue. I used a combination of RuntimeTypeAdapterFactory with Reflection.

I also created a helper class to make sure a properly configured Gson was used.

Within a static block inside the GsonHelper class, I have the following code go through my project to find and register all of the appropriate types. All of my objects that will go through JSON-ification are a subtype of Jsonable. You will want to change the following:

1. my.project in Reflections should be your package name.
2. Jsonable.class is my base class. Substitute yours.

3. I like having the field show the full canonical name, but clearly if you don't want / need it, you can leave out that part of the call to register the subtype. The same thing goes for className in the RuntimeAdapterFactory; I have data items already using the type field.

   private static final GsonBuilder gsonBuilder = new GsonBuilder()
       .setDateFormat("yyyy-MM-dd'T'HH:mm:ssZ")
       .excludeFieldsWithoutExposeAnnotation()
       .setPrettyPrinting();
   
   static {
   Reflections reflections = new Reflections("my.project");
   
   Set<Class<? extends Jsonable>> allTypes = reflections.getSubTypesOf(Jsonable.class);
   for (Class< ? extends Jsonable> serClass : allTypes){
       Set<?> subTypes = reflections.getSubTypesOf(serClass);
       if (subTypes.size() > 0){
           RuntimeTypeAdapterFactory<?> adapterFactory = RuntimeTypeAdapterFactory.of(serClass, "className");
           for (Object o : subTypes ){
               Class c = (Class)o;
               adapterFactory.registerSubtype(c, c.getCanonicalName());
           }
           gsonBuilder.registerTypeAdapterFactory(adapterFactory);
       }
   }
   }
   
   public static Gson getGson() {
       return gsonBuilder.create();
   }
   

Answer 4

I created a type adapter factory that uses an annotation and ClassGraph to discover subclasses and supports multiple serialization styles (Type Property, Property, Array). See github for source code and maven coordinates.