Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have an equivalent of the following model in play scala :

case class Foo(id:Int,value:String)
object Foo{
  import play.api.libs.json.Json
  implicit val fooFormats = Json.format[Foo]

For the following Foo instance

Foo(1, "foo")

I would get the following JSON document:

{"id":1, "value": "foo"}

This JSON is persisted and read from a datastore. Now my requirements have changed and I need to add a property to Foo. The property has a default value :

case class Foo(id:String,value:String, status:String="pending")

Writing to JSON is not a problem :

{"id":1, "value": "foo", "status":"pending"}

Reading from it however yields a JsError for missing the "/status" path.

How can I provide a default with the least possible noise ?

(ps: I have an answer which I will post below but I am not really satisfied with it and would upvote and accept any better option)

share|improve this question
add comment

4 Answers 4

up vote 6 down vote accepted

My current solution is to create a JSON Transformer and combine it with the Reads generated by the macro. The transformer is generated by the following method:

object JsonExtensions{
  def withDefault[A](key:String, default:A)(implicit writes:Writes[A]) = __.json.update((__ \ key).json.copyFrom((__ \ key).json.pick orElse Reads.pure(Json.toJson(default))))

The format definition then becomes :

implicit val fooformats: Format[Foo] = new Format[Foo]{
  import JsonExtensions._
  val base = Json.format[Foo]
  def reads(json: JsValue): JsResult[Foo] = base.compose(withDefault("status","bidon")).reads(json)
  def writes(o: Foo): JsValue = base.writes(o)


Json.parse("""{"id":"1", "value":"foo"}""").validate[Foo]

will indeed generate an instance of Foo with the default value applied.

This has 2 major flaws in my opinion:

  • The defaulter key name is in a string and won't get picked up by a refactoring
  • The value of the default is duplicated and if changed at one place will need to be changed manually at the other
share|improve this answer
I have accepted my own answer for now and for questions with solutions trying to answer the initial requirement, I have tried to explain why it didn't fit. If a better answer is proposed I will move the accepted answer accordingly. –  Jean Jul 3 at 9:05
add comment

I was just faced with the case where I wanted all JSON fields to be optional (i.e. optional on user side) but internally I want all fields to be non-optional with precisely defined default values in case the user does not specify a certain field. This should be similar to your use case.

I'm currently considering an approach which simply wraps the construction of Foo with fully optional arguments:

case class Foo(id: Int, value: String, status: String)

object FooBuilder {
  def apply(id: Option[Int], value: Option[String], status: Option[String]) = Foo(
    id     getOrElse 0, 
    value  getOrElse "nothing", 
    status getOrElse "pending"
  val fooReader: Reads[Foo] = (
    (__ \ "id").readNullable[Int] and
    (__ \ "value").readNullable[String] and
    (__ \ "status").readNullable[String]
  )(FooBuilder.apply _)

implicit val fooReader = FooBuilder.fooReader
val foo = Json.parse("""{"id": 1, "value": "foo"}""")
              .get // returns Foo(1, "foo", "pending")

Unfortunately, it requires writing explicit Reads[Foo] and Writes[Foo], which is probably what you wanted to avoid? One further drawback is that the default value will only be used if the key is missing or the value is null. However if the key contains a value of the wrong type, then again the whole validation returns a ValidationError.

Nesting such optional JSON structures is not a problem, for instance:

case class Bar(id1: Int, id2: Int)

object BarBuilder {
  def apply(id1: Option[Int], id2: Option[Int]) = Bar(
    id1     getOrElse 0, 
    id2     getOrElse 0 
  val reader: Reads[Bar] = (
    (__ \ "id1").readNullable[Int] and
    (__ \ "id2").readNullable[Int]
  )(BarBuilder.apply _)
  val writer: Writes[Bar] = (
    (__ \ "id1").write[Int] and
    (__ \ "id2").write[Int]

case class Foo(id: Int, value: String, status: String, bar: Bar)

object FooBuilder {
  implicit val barReader = BarBuilder.reader
  implicit val barWriter = BarBuilder.writer
  def apply(id: Option[Int], value: Option[String], status: Option[String], bar: Option[Bar]) = Foo(
    id     getOrElse 0, 
    value  getOrElse "nothing", 
    status getOrElse "pending",
    bar    getOrElse BarBuilder.apply(None, None)
  val reader: Reads[Foo] = (
    (__ \ "id").readNullable[Int] and
    (__ \ "value").readNullable[String] and
    (__ \ "status").readNullable[String] and
    (__ \ "bar").readNullable[Bar]
  )(FooBuilder.apply _)
  val writer: Writes[Foo] = (
    (__ \ "id").write[Int] and
    (__ \ "value").write[String] and
    (__ \ "status").write[String] and
    (__ \ "bar").write[Bar]
share|improve this answer
add comment

This probably won't satisfy the "least possible noise" requirement, but why not introduce the new parameter as an Option[String]?

case class Foo(id:String,value:String, status:Option[String] = Some("pending"))

When reading a Foo from an old client, you'll get a None, which I'd then handle (with a getOrElse) in your consumer code.

Or, if you don't like this, introduce an BackwardsCompatibleFoo:

case class BackwardsCompatibleFoo(id:String,value:String, status:Option[String] = "pending")
case class Foo(id:String,value:String, status: String = "pending")

and then turn that one into a Foo to work with further on, avoiding to have to deal with this kind of data gymnastics all along in the code.

share|improve this answer
The problem with option is that I then must map or get and generally use monadic operations to access a value which is not optional, just defaulted. Using an option there would introduce a false signal as far as typing goes, just to match the library's current implementation. –  Jean Dec 17 '13 at 14:50
True, but you mention that your requirements have changed, so from the perspective of the "client" (in this case, the datastore), that value is optional (it is a new version of the schema, so to speak). In this case I'd advocate either migrating the data in the store (setting the default value wherever it is missing), or have a mechanism that deals with graceful backwards-compatibility from data in the data-store –  Manuel Bernhardt Dec 18 '13 at 10:24
Exactly : I am trying to have a mechanism to gracefully handle backward compatibility with data in the store (or with clients which haven't updated either) by providing an acceptable default value. this way when I read then write my data back to the store it is automatically updated and my system doesn't explode for older clients. I obviously use Option when there are no sensible default values, but in many cases I can provide the default (as I do in the case class) –  Jean Dec 18 '13 at 10:36
add comment

An alternative solution is to use formatNullable[T] combined with inmap from InvariantFunctor.

import play.api.libs.functional.syntax._
import play.api.libs.json._

implicit val fooFormats = 
  ((__ \ "id").format[Int] ~
   (__ \ "value").format[String] ~
   (__ \ "status").formatNullable[String].inmap[String](_.getOrElse("pending"), Some(_))
  )(Foo.apply, unlift(Foo.unapply))
share|improve this answer
add comment

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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