Is it possible to map the key value pairs of a Map to a Scala constructor with named parameters?

That is, given

class Person(val firstname: String, val lastname: String) {

... how can I create an instance of Person using a map like

val args = Map("firstname" -> "John", "lastname" -> "Doe", "ignored" -> "value")

What I am trying to achieve in the end is a nice way of mapping Node4J Node objects to Scala value objects.


4 Answers 4


The key insight here is that the constructor arguments names are available, as they are the names of the fields created by the constructor. So provided that the constructor does nothing with its arguments but assign them to fields, then we can ignore it and work with the fields directly.

We can use:

def setFields[A](o : A, values: Map[String, Any]): A = {
  for ((name, value) <- values) setField(o, name, value)

def setField(o: Any, fieldName: String, fieldValue: Any) {
  // TODO - look up the class hierarchy for superclass fields
  o.getClass.getDeclaredFields.find( _.getName == fieldName) match {
    case Some(field) => {
      field.set(o, fieldValue)
    case None =>
      throw new IllegalArgumentException("No field named " + fieldName)

Which we can call on a blank person:

test("test setFields") {
  val p = setFields(new Person(null, null, -1), Map("firstname" -> "Duncan", "lastname" -> "McGregor", "age" -> 44))
  p.firstname should be ("Duncan")
  p.lastname should be ("McGregor")
  p.age should be (44)

Of course we can do better with a little pimping:

implicit def any2WithFields[A](o: A) = new AnyRef {
  def withFields(values: Map[String, Any]): A = setFields(o, values)
  def withFields(values: Pair[String, Any]*): A = withFields(Map(values :_*))

so that you can call:

new Person(null, null, -1).withFields("firstname" -> "Duncan", "lastname" -> "McGregor", "age" -> 44)

If having to call the constructor is annoying, Objenesis lets you ignore the lack of a no-arg constructor:

val objensis = new ObjenesisStd 

def create[A](implicit m: scala.reflect.Manifest[A]): A = 

Now we can combine the two to write

create[Person].withFields("firstname" -> "Duncan", "lastname" -> "McGregor", "age" -> 44)
  • This is spot on what I am looking for, especially the final solution using Objenesis to avoid the call to the default constructor. The only thing that makes me a bit uneasy is relying on the java.lang.reflection API since I am not sure the Scala compiled byte code is 100% compatible with Java's byte code. But if it works... why not? Thanks a lot! Sep 18, 2011 at 11:20
  • @Christoffer Soop: It isn't "compatible with" Java's byte code, it's exactly the same. It has to be in order to run on JVM. Sep 18, 2011 at 20:12
  • @Alexey Yes the byte code is 100% JVM compatible, but you cannot decompile Scala compiled byte code to Java with 100% success rate. How do I know that reflection works? Reflection, to my knowledge, infer Java constructs from byte code but I am not convinced that all scala produced byte code has a Java equivalent. Sep 19, 2011 at 11:15

You mentioned in the comments that you're looking for a reflection based solution. Have a look at JSON libraries with extractors, which do something similar. For example, lift-json has some examples,

case class Child(name: String, age: Int, birthdate: Option[java.util.Date])

val json = parse("""{ "name": null, "age": 5, "birthdate": null }""")
json.extract[Child] == Child(null, 5, None)

To get what you want, you could convert your Map[String, String] into JSON format and then run the case class extractor. Or you could look into how the JSON libraries are implemented using reflection.

  • Yes good tip! However, Duncan's solution is the more complete with an actual working which is why I am selecting his solution as the preferred answer. Sep 18, 2011 at 11:28

I guess you have domain classes of different arity, so here it is my advice. (all the following is ready for REPL)

Define an extractor class per TupleN, e.g. for Tuple2 (your example):

class E2(val t: Tuple2[String, String]) {
  def unapply(m: Map[String,String]): Option[Tuple2[String, String]] =
    for {v1 <- m.get(t._1)
         v2 <- m.get(t._2)}
    yield (v1, v2)

// class E3(val t: Tuple2[String,String,String]) ...

You may define a helper function to make building extractors easier:

def mkMapExtractor(k1: String, k2: String) = new E2( (k1, k2) )
// def mkMapExtractor(k1: String, k2: String, k3: String) = new E3( (k1, k2, k3) )

Let's make an extractor object

val PersonExt = mkMapExtractor("firstname", "lastname")

and build Person:

val testMap = Map("lastname" -> "L", "firstname" -> "F")
PersonExt.unapply(testMap) map {Person.tupled}


testMap match {
  case PersonExt(f,l) => println(Person(f,l))
  case _ => println("err")

Adapt to your taste.

P.S. Oops, I didn't realize you asked about named arguments specifically. While my answer is about positional arguments, I shall still leave it here just in case it could be of some help.

  • Yes, you are right, the gist of the question was about mapping named parameters, but thanks for the example. I learned at least one new word "arity"... :-) Sep 18, 2011 at 11:13

Since Map is essentially just a List of tuples you can treat it as such.

scala> val person = args.toList match {
   case List(("firstname", firstname), ("lastname", lastname), _) => new Person(firstname, lastname)
   case _ => throw new Exception
person: Person = Person(John,Doe)

I made Person a case class to have the toString method generated for me.

  • Thanks - elegant but it still forces me to enumerate the named arguments in the case clause. I am thinking more along the lines of Java reflection and the bean API(s) where I could iterate over all the setters, use the property name as the key in the map and invoke the setter. Sep 17, 2011 at 15:30
  • I guess the obvious solution is to create a Person object that takes a Map as constructor argument and manually create the setters. Like the elegant and brief syntax of the val named parameters though... Sep 17, 2011 at 15:32
  • Note that Map.toList doesn't guarantee ordering of returned list, so it may well return List(("ignored", "value"), ("firstname", "John"), ("lastname", "Doe") instead and the pattern match will fail. Sep 17, 2011 at 15:37
  • @Christoffer Soop: You'd need constructor argument names, and they don't seem to be available. download.oracle.com/javase/7/docs/api/java/lang/reflect/… Scala-specific reflection library may be available in 2.10, but not yet. Sep 17, 2011 at 15:48
  • @Alexey Romanov: you are right, but it is also easy to fix with a few alternative cases. Thx for the note anyway.
    – agilesteel
    Sep 17, 2011 at 15:49

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