3

I use Jackson Scala Module.

I've created a little serialization tool which handle the json payloads received by Play2 framework.

  def unserializePayloadAs[T](implicit requestContext: RequestContext[JsValue]): T = {
    val json: String = Json.stringify(requestContext.request.body)
    unserialize(json)
  }

  def unserialize[T](json: String): T = {
    objectMapper.readValue(json)
  }

The readValue of Jackson Scala Module has the signature:

  def readValue[T: Manifest](content: String): T = {
    readValue(content, constructType[T])
  }

When trying to use my deserialization code, I have a stack.

Caused by: com.fasterxml.jackson.databind.JsonMappingException: Can not instantiate abstract type [simple type, class scala.runtime.Nothing$] (need to add/enable type information?)
at [Source: java.io.StringReader@7bb78579; line: 1, column: 2]
at com.fasterxml.jackson.databind.JsonMappingException.from(JsonMappingException.java:164) ~[jackson-databind-2.2.0.jar:2.2.0]
at com.fasterxml.jackson.databind.deser.std.ThrowableDeserializer.deserializeFromObject(ThrowableDeserializer.java:77) ~[jackson-databind-2.2.0.jar:2.2.0]
at com.fasterxml.jackson.databind.deser.BeanDeserializer.deserialize(BeanDeserializer.java:121) ~[jackson-databind-2.2.0.jar:2.2.0]
at com.fasterxml.jackson.databind.ObjectMapper._readMapAndClose(ObjectMapper.java:2888) ~[jackson-databind-2.2.0.jar:2.2.0]
at com.fasterxml.jackson.databind.ObjectMapper.readValue(ObjectMapper.java:2041) ~[jackson-databind-2.2.0.jar:2.2.0]
at com.fasterxml.jackson.module.scala.experimental.ScalaObjectMapper$class.readValue(ScalaObjectMapper.scala:157) ~[jackson-module-scala_2.10-2.2.0.jar:2.2.0]
at utils.CustomSerializer$$anon$1.readValue(CustomSerializer.scala:17) ~[na:na]
at utils.CustomSerializer$.unserialize(CustomSerializer.scala:39) ~[na:na]
at utils.CustomSerializer$.unserializePayloadAs(CustomSerializer.scala:35) ~[na:na]

As expected, it works fine when I add the manifest in my code:

  def unserializePayloadAs[T: Manifest](implicit requestContext: RequestContext[JsValue]): T = {
    val json: String = Json.stringify(requestContext.request.body)
    unserialize(json)
  }

  def unserialize[T: Manifest](json: String): T = {
    objectMapper.readValue(json)
  }

Can someone explain what happens there? When we call a method with a Manifest context bound, with a parametrized method with no Manifest, then the Manifest of Nothing is provided to the first method?

I would have expected some kind of compilation error, telling me I'm calling the readValue with a parametrized type that has no Manifest or something like that, which seems more fail-fast.

1 Answer 1

6

Take a slightly simpler example:

def getManifest[A: Manifest] = implicitly[Manifest[A]]

Or the equivalent desugared version:

def getManifest[A](implicit whatever: Manifest[A]) = whatever

And then:

scala> def getIt[T]: Manifest[T] = getManifest
<console>:8: error: type mismatch;
 found   : Manifest[Nothing]
 required: Manifest[T]
Note: Nothing <: T, but trait Manifest is invariant in type T.
You may wish to investigate a wildcard type such as `_ <: T`. (SLS 3.2.10)
       def getIt[T]: Manifest[T] = getManifest
                                   ^

What's happening is that when the compiler tries to infer the type parameter for getManifest, there are lots of types that have Manifest instances in scope, and it has no way to choose between them, so it goes with its default choice, Nothing.

(You're seeing this error at runtime instead of compile-time because, well, that's what happens when you use reflection-based approaches to serialization.)

We can add a context bound:

def getIt[T: Manifest]: Manifest[T] = getManifest

Or, equivalently:

def getIt[T](implicit whatever: Manifest[T]): Manifest[T] = getManifest

Now everything is fine—there's a single most precise Manifest instance in scope, so the compiler can (appropriately) resolve the type parameter for getManifest to T.

You can see this a little more dramatically in the following example:

scala> trait Foo[A]
defined trait Foo

scala> def getFoo[A: Foo] = implicitly[Foo[A]]
getFoo: [A](implicit evidence$1: Foo[A])Foo[A]

scala> implicit object stringFoo extends Foo[String]
defined module stringFoo

scala> def getIt[T]: Foo[T] = getFoo
<console>:10: error: type mismatch;
 found   : Foo[String]
 required: Foo[T]
       def getIt[T]: Foo[T] = getFoo
                              ^

Since there's only one Foo instance in scope (for String), the compiler can pick it when it's resolving the type parameter for getFoo, and we end up with a different type mismatch.

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