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I'm implementing a Gson TypeAdapter for two dependend generic models.

interface ModelA<T> {}
interface ModelB<T> extends ModelA<List<T>> {}

For this I need to get the TypeToken and TypeAdapter. By doing

Type type = ((ParameterizedType) type).getActualTypeArguments()[0];
TypeToken<?> token = TypeToken.get(type);
TypeAdapter<?> adapter = gson.getAdapter(token);

I get a type token for both models of any given type AnyType and the correlating adapter. This is what I need for ModelA, but for ModelB I'd need the adapter for List<AnyType> instead, which is the result of using ModelA<List<AnyType>> directly.

Using the interface of the raw type of the original type token passed

token.getRawType().getGenericInterfaces()[0]

I only seem to get the type erased type of List.

How can I combine these two informations to get the generic List<AnyType> type or create it directly? As input it only has the type token for ModelB<AnyType>.

Example

For the given behavior I implemented a simple test showing the differences. I've taken the expected part from the answer by hahn, using the Gson internal non-API class $Gson$Types.

public class TypeTokenValidate {

    public interface ModelA<T> {}
    public interface ModelB<T> extends ModelA<List<T>> {}

    @Test
    public void genericToken() throws Exception {
        TypeToken<ModelB<String>> token = new TypeToken<ModelB<String>>() {};
        ModelB<String> m = new ModelB<String>() {};
        Type expected = $Gson$Types.resolve(ModelB.class, m.getClass(),
                ModelA.class.getTypeParameters()[0]);
        assertEquals(expected, getActual(token));
    }

    private static Type getActual(TypeToken<?> token) {
        Type type = token.getType();
        //type = token.getRawType().getGenericInterfaces()[0];
        type = ((ParameterizedType) type).getActualTypeArguments()[0];
        return TypeToken.get(type).getType();
    }
}
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  • You mean that that token.getRawType().getGenericInterfaces()[0] is not castable into ParametrizedType? If it is, you just go on recursively. Aug 27, 2016 at 17:28
  • It is, but getActualTypeArguments()[0] doesn't seem to have the generic type information. Thus I only get List without any information about T
    – tynn
    Aug 27, 2016 at 19:04
  • We know that java.util.List has a type parameter so if you were to use reflection directly to List.class then the info should be there, right? Aug 27, 2016 at 21:08
  • Reflections don't provide any information about generics. I think that's the issue with the raw type, since it's a Class<?> type and therefore erases the generic types on runtime.
    – tynn
    Aug 27, 2016 at 21:12
  • What do you get the appropriate ````type``` for ModelB or ModelA? Isn't that ModelB.class.getTypeParameters()? Could you add that to your question code? What is List.class.getTypeParameters() gives you? Aug 28, 2016 at 2:06

2 Answers 2

3
+50

There is a $Gson$Types that you can utilize to retrieve Type of typed List. For example having:

ModelB<String> m = new ModelB<String>() {};
Type resolve = $Gson$Types.resolve(m.getClass(), m.getClass(), ModelA.class.getTypeParameters()[0]);

would return Type with rawType set to List and with typeArguments of [String]. Thus preserving the types as you need.

and then executing this block

TypeToken<?> token = TypeToken.get(resolve);
TypeAdapter<?> adapter = gson.getAdapter(token);

would result with adaptor of CollectionTypeAdaptorFactory with elementTypeAdapter.type set to class String.

1
  • This seems to work fine, but is there any way to do this without using the internal class $Gson$Types directly?
    – tynn
    Aug 31, 2016 at 13:35
2

If you use .getType() rather than .getRawType() the information that you are looking for seems to be preserved:

import java.util.List;
import java.lang.reflect.ParameterizedType;
import com.google.gson.reflect.TypeToken;

public class Test  {

   public interface ModelA<T> {};

   public interface ModelB<T> extends ModelA<List<T>> {}

   public static void main(String[] args) {

        // Using java.lang.reflect.*:

        System.out.println(ModelB.class.getGenericInterfaces()[0]);
        // out: Test.Test$ModelA<java.util.List<T>>
        System.out.println(((ParameterizedType)ModelB.class.getGenericInterfaces()[0]).getActualTypeArguments()[0]);
        // out: java.util.List<T>
        System.out.println(((ParameterizedType)((ParameterizedType)ModelB.class.getGenericInterfaces()[0]).getActualTypeArguments()[0]).getActualTypeArguments()[0]);
        // out: T

        // Recovery from a TokenType instance...

        // ... using .getRawType()
        System.out.println(TypeToken.get(ModelB.class.getGenericInterfaces()[0]).getRawType());
        // out: interface Test$ModelA
        System.out.println(TypeToken.get(((ParameterizedType)((ParameterizedType)ModelB.class.getGenericInterfaces()[0]).getActualTypeArguments()[0])).getRawType());
        // out: interface java.util.List

        // ... using .getType()
        System.out.println(TypeToken.get(ModelB.class.getGenericInterfaces()[0]).getType());
        // out: Test$ModelA<java.util.List<T>>
        System.out.println(TypeToken.get(((ParameterizedType)((ParameterizedType)ModelB.class.getGenericInterfaces()[0]).getActualTypeArguments()[0])).getType());
        // out: java.util.List<T>
   }
}

Hopefully you can figure out how to create your TokenAdaptors from there.

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  • How can I do this with a non generic T like String? This only differs in the implementation of toString(). I updated my question, since it was not totally clear.
    – tynn
    Aug 31, 2016 at 13:27
  • @tynn If the <String> part you trying to recover is just present in the declaration of a variable or some other non-class creating expression like the construction call... that information is lost at run-time; You cannot expect to pull it from any X.class instance or any instance. The reason why hahn's solution works is because he is declaring an inner class with the <String> in its declaration therefore he can mine the info. Depends on your circumstances that might be enough for you but such a solution won't be able to handle arbitrary models constructed in run-time without a trailing "{}". Aug 31, 2016 at 20:42
  • @tynn besides the solution I propose would also work on a inner class; I have not tested it by I don't see why it wouldn't work. Aug 31, 2016 at 20:43

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