33

Using Gson, I want to deserialize a Kotlin class that contains a lazy property.

With Kotlin 1.0 beta 4 I get the following error during object deserialization:

Caused by: java.lang.InstantiationException: can't instantiate class kotlin.Lazy

With Kotlin 1.0 beta 2, I used to mark the property with the @Transient annotaiton to tell Gson to skip it. With beta 4 this is not possible anymore, as the annotation causes a compile error.

This annotation is not applicable to target 'member property without backing field'

I can’t figure out how to fix this. Any ideas?

Edit: the lazy property is serialized to JSON ("my_lazy_prop$delegate":{}), but this is not what I want as it is computed from other properties. I suppose if I find a way to prevent the property from being serialized the deserialization crash would be fixed.

2
  • Would you mind changing the accepted answer to mine, which is more up-to-date and has a lot more votes? Commented Dec 13, 2017 at 6:48
  • 1
    Sure @FabianZeindl
    – clemp6r
    Commented Dec 13, 2017 at 8:44

3 Answers 3

50

Since Kotlin 1.0 simply mark the field like this to ignore it during de/serialization:

@delegate:Transient 
val field by lazy { ... }
2
  • 28
    I (still) get this: java.lang.NullPointerException: Attempt to invoke interface method 'java.lang.Object kotlin.Lazy.getValue()' on a null object reference. Using a non-lazy (computed) variable works.
    – User
    Commented May 28, 2018 at 6:21
  • this answer is not complete, because when I add this annotation, I get the error NullPointerException. This annotation will ignore to serialize this field, but you will have NullPointer when it will try to deserialize the field Commented Apr 11, 2023 at 14:59
13

The reason is that the delegate field is not a backing field actually so it was forbidden. One of the workarounds is to implement ExclusionStrategy: https://stackoverflow.com/a/27986860/1460833

Something like that:

@Retention(AnnotationRetention.RUNTIME)
@Target(AnnotationTarget.FIELD, AnnotationTarget.PROPERTY)
annotation class GsonTransient

object TransientExclusionStrategy : ExclusionStrategy {
    override fun shouldSkipClass(type: Class<*>): Boolean = false
    override fun shouldSkipField(f: FieldAttributes): Boolean = 
            f.getAnnotation(GsonTransient::class.java) != null
                || f.name.endsWith("\$delegate")
}

fun gson() = GsonBuilder()
        .setExclusionStrategies(TransientExclusionStrategy)
        .create()

See related ticket https://youtrack.jetbrains.com/issue/KT-10502

The other workaround is to serialize lazy values as well:

object SDForLazy : JsonSerializer<Lazy<*>>, JsonDeserializer<Lazy<*>> {
    override fun serialize(src: Lazy<*>, typeOfSrc: Type, context: JsonSerializationContext): JsonElement =
            context.serialize(src.value)
    override fun deserialize(json: JsonElement, typeOfT: Type, context: JsonDeserializationContext): Lazy<*> = 
            lazyOf<Any?>(context.deserialize(json, (typeOfT as ParameterizedType).actualTypeArguments[0]))
}

class KotlinNamingPolicy(val delegate: FieldNamingStrategy = FieldNamingPolicy.IDENTITY) : FieldNamingStrategy {
    override fun translateName(f: Field): String = 
            delegate.translateName(f).removeSuffix("\$delegate")
}

Usage example:

data class C(val o: Int) {
    val f by lazy { 1 }
}

fun main(args: Array<String>) {
    val gson = GsonBuilder()
            .registerTypeAdapter(Lazy::class.java, SDForLazy)
            .setFieldNamingStrategy(KotlinNamingPolicy())
            .create()

    val s = gson.toJson(C(0))
    println(s)
    val c = gson.fromJson(s, C::class.java)
    println(c)
    println(c.f)
}

that will produce the following output:

{"f":1,"o":0}
C(o=0)
1
12
  • I copied your code, registered the ExclusionStrategy to Gson, marked the lazy field with the annotation @GsonTransient -> no effect. Did I miss something?
    – clemp6r
    Commented Dec 23, 2015 at 14:47
  • perhaps you forgot to set it to gson builder Commented Dec 23, 2015 at 14:48
  • 1
    Looking at the bytecode, the GsonTransient annotation is attached to a static method myLazyProp$annotations() but not to the java field myLazyProp$delegate so this cannot work
    – clemp6r
    Commented Dec 23, 2015 at 15:13
  • 1
    @clemp6r you are right, ok, then we better to always exclude delegate fields, see updated example Commented Dec 24, 2015 at 11:40
  • 1
    There is a much simpler way, see my answer: stackoverflow.com/a/39205748/342947 Commented Aug 29, 2016 at 12:00
7

As explained by other answers, the delegate field should not be serialized.

You can achieve this with transient in the delegate field, as proposed by @Fabian Zeindl:

@delegate:Transient 
val field by lazy { ... }

or skipping all delegate fields in the GsonBuilder, as proposed by @Sergey Mashkov:

GsonBuilder().setExclusionStrategies(object : ExclusionStrategy {
    override fun shouldSkipClass(type: Class<*>): Boolean = false
    override fun shouldSkipField(f: FieldAttributes): Boolean = f.name.endsWith("\$delegate")
}

However, you may face a NullPointerException if your class doesn't have a no-argument constructor.

It happens because when Gson doesn't find the no-argument constructor, it will use a ObjectConstructor with an UnsafeAllocator using Reflection to construct your object. (see https://stackoverflow.com/a/18645370). This will erase the Kotlin creation of the delegate field.

To fix it, either create a no-argument constructor in your class, or use Gson InstanceCreator to provide Gson with a default object.

GsonBuilder().registerTypeAdapter(YourClass::class, object : InstanceCreator<YourClass> {
    override fun createInstance(type: Type?) = YourClass("defaultValue")
})

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