I've encountered a weird behavior using Gson deserializing within a function with reified type. It only happens when interfaces are involved in the type parameter.

Take the following code:

val toBeSerialized = listOf("1337")
with(Gson()) {
    val ser = toJson(toBeSerialized)
    val deser = fromJson<List<Serializable>>(ser)
}

Line number 4 makes use of a custom extension function Gson.fromJson(json: String): T.

It fails if T is defined as reified:

inline fun <reified T> Gson.fromJson(json: String): T = fromJson<T>(json, object : TypeToken<T>() {}.type)

And it works if it is defined as a normal type parameter:

fun <T> Gson.fromJson(json: String): T = fromJson<T>(json, object : TypeToken<T>() {}.type)

(Note that making T reified makes no sense here, just want to understand its impact in the special use case)

The exception when using reified looks as follows:

Exception in thread "main" java.lang.RuntimeException: Unable to invoke no-args constructor for ? extends java.io.Serializable. Registering an InstanceCreator with Gson for this type may fix this problem.
    at com.google.gson.internal.ConstructorConstructor$14.construct(ConstructorConstructor.java:226)
    at com.google.gson.internal.bind.ReflectiveTypeAdapterFactory$Adapter.read(ReflectiveTypeAdapterFactory.java:210)
    at com.google.gson.internal.bind.TypeAdapterRuntimeTypeWrapper.read(TypeAdapterRuntimeTypeWrapper.java:41)
    at com.google.gson.internal.bind.CollectionTypeAdapterFactory$Adapter.read(CollectionTypeAdapterFactory.java:82)
    at com.google.gson.internal.bind.CollectionTypeAdapterFactory$Adapter.read(CollectionTypeAdapterFactory.java:61)
    at com.google.gson.Gson.fromJson(Gson.java:888)
    at com.google.gson.Gson.fromJson(Gson.java:853)
    at com.google.gson.Gson.fromJson(Gson.java:802)
    at SoTestsKt.main(SoTests.kt:25)
Caused by: java.lang.UnsupportedOperationException: Interface can't be instantiated! Interface name: java.io.Serializable
    at com.google.gson.internal.UnsafeAllocator.assertInstantiable(UnsafeAllocator.java:117)
    at com.google.gson.internal.UnsafeAllocator$1.newInstance(UnsafeAllocator.java:49)
    at com.google.gson.internal.ConstructorConstructor$14.construct(ConstructorConstructor.java:223)
    ... 8 more
  • It's not actually using the type you pass it, this example is just getting lucky with Gson's defaults. Try it with: val deser = Gson().fromJson<LinkedList<Serializable>>(ser); for instance – Jorn Vernee Jan 1 at 15:50
  • Isn't it the same question? stackoverflow.com/questions/48050487/… – CrazyApple Jan 1 at 16:01
  • Not at all. But this questions made me notice the problem – s1m0nw1 Jan 1 at 16:01
up vote 2 down vote accepted

The version that uses reified T fails because it's trying to de-serialize "1337" as a Serializable, which is an interface, so it can not be instantiated, and by default there is no type adapter which can de-serialize into a Serializable (like there is for List<...>). The easiest way to fix this is to pass List<String> as a type argument.

In the non-reified version there is no actual type information being passed to your extension function. You can verify this by printing the type you get from the token:

fun <T> Gson.fromJson(json: String): T {
    val tt = object : TypeToken<T>() {}.type;
    println(tt);
    return fromJson(json, tt);
}

In the none reified version that will just print T (i.e. no actual type information is available), but in the reified version it will print the actual type (+ any Kotlin declaration site variance modifiers, so List<String> becomes List<? extends String>). (I don't know why Gson silently ignores this error of missing type information).

The reason the non reified version works is a coincidence. Since Gson's default type for de-serializing ["1337"] is ArrayList<String> and that is also what you get. It just happens to be assignable to a List, and since generics are erased there is no class cast exception for the mismatch between String and Serializable as the type argument. It works out in the end any ways since String implements Serializable.

If you slightly modify the example, where a different cast happens, for instance by specifying a different kind of List, you run into trouble:

val deser = fromJson<LinkedList<Serializable>>(ser)

Throws a java.lang.ClassCastException: java.util.ArrayList cannot be cast to java.util.LinkedList

You need reified T to be able to pass on the type information, but it also means that a failure will happen earlier, and does not go unnoticed due to type erasure, like in the non-reified version.

  • I see, thanks Jorn! – s1m0nw1 Jan 1 at 16:57

As what @Jorn Vernee mentioned, reified is needed for serializing/deserializing the json. If reified is not added, it will be treated as List<Object> and the final deserialized object will have type List<LinkedTreeMap> and you will get error when you try to use those object as your interface.

To serialize/deserialize interface, you need to register a custom adapter to add the type information of the implemented class. Here is a adapter class where I reference from this site and make some changes on it.

class InterfaceAdapter<T : Serializable> : JsonSerializer<T>, JsonDeserializer<T> {

    companion object {
        private val CLASSNAME = "CLASSNAME"
        private val DATA = "DATA"
    }

    @Throws(JsonParseException::class)
    override fun deserialize(jsonElement: JsonElement, type: Type, jsonDeserializationContext: JsonDeserializationContext): T {
        val jsonObject = jsonElement.asJsonObject
        val prim = jsonObject.get(CLASSNAME) as JsonPrimitive
        val className = prim.asString
        val klass = getObjectClass(className)
        return jsonDeserializationContext.deserialize(jsonObject.get(DATA), klass)
    }

    override fun serialize(jsonElement: T, type: Type, jsonSerializationContext: JsonSerializationContext): JsonElement {
        val jsonObject = JsonObject()
        jsonObject.addProperty(CLASSNAME, jsonElement.javaClass.name)
        jsonObject.add(DATA, jsonSerializationContext.serialize(jsonElement))
        return jsonObject
    }

    private fun getObjectClass(className: String): Class<*> {
        try {
            return Class.forName(className)
        } catch (e: ClassNotFoundException) {
            throw JsonParseException(e.message)
        }
    }
}

Register the adapter to the gson object and also provide the type information.

inline fun <reified T> Any.toJson(): String {
    val builder = GsonBuilder()
    builder.registerTypeAdapter(Serializable::class.java, InterfaceAdapter<Serializable>())
    val gson = builder.create()
    return gson.toJson(this, object : TypeToken<T>() {}.type)
}

inline fun <reified T> fromJson(json: String): T {
    val builder = GsonBuilder()
    builder.registerTypeAdapter(Serializable::class.java, InterfaceAdapter<Serializable>())
    val gson = builder.create()
    return gson.fromJson<T>(json, object : TypeToken<T>() {}.type)
}

Example code:

data class User(val name: String) : Serializable

val data = listOf(User("Sam"))
val ser = data.toJson<List<Serializable>>()
val deser = fromJson<List<Serializable>>(ser)

println(ser)
println(deser.get(0)::class)
println(deser.get(0))

/* Output
    [{"CLASSNAME":"User","DATA":{"name":"Sam"}}]
    class User
    User(name=Sam)
*/

Your Answer

 

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.