33

Let's say I have this example case class

case class Test(key1: Int, key2: String, key3: String)

And I have a map

myMap = Map("k1" -> 1, "k2" -> "val2", "k3" -> "val3")

I need to convert this map to my case class in several places of the code, something like this:

myMap.asInstanceOf[Test]

What would be the easiest way of doing that? Can I somehow use implicit for this?

3
  • 2
    I don't understand why the answers are so complex. How about a normal function def map2Test(m: Map[String, Any]) = Test(m("k1').asInstanceOf[Int], m("k2") ... ) If you want an abstraction that converts maps to any case class, you probably have to use reflection.
    – Rob N
    Dec 19, 2013 at 16:54
  • 3
    @RobN: The point is to avoid reflection. You say the answers are complex, I say your answer is fragile. Oct 9, 2014 at 21:07
  • See also stackoverflow.com/questions/55049985/…
    – samthebest
    Sep 25, 2019 at 12:48

7 Answers 7

30

Two ways of doing this elegantly. The first is to use an unapply, the second to use an implicit class (2.10+) with a type class to do the conversion for you.

1) The unapply is the simplest and most straight forward way to write such a conversion. It does not do any "magic" and can readily be found if using an IDE. Do note, doing this sort of thing can clutter your companion object and cause your code to sprout dependencies in places you might not want:

object MyClass{
  def unapply(values: Map[String,String]) = try{
    Some(MyClass(values("key").toInteger, values("next").toFloat))
  } catch{
    case NonFatal(ex) => None
  }
}

Which could be used like this:

val MyClass(myInstance) = myMap

be careful, as it would throw an exception if not matched completely.

2) Doing an implicit class with a type class creates more boilerplate for you but also allows a lot of room to expand the same pattern to apply to other case classes:

implicit class Map2Class(values: Map[String,String]){
  def convert[A](implicit mapper: MapConvert[A]) = mapper conv (values)
}

trait MapConvert[A]{
  def conv(values: Map[String,String]): A
}

and as an example you'd do something like this:

object MyObject{
  implicit val new MapConvert[MyObject]{
    def conv(values: Map[String, String]) = MyObject(values("key").toInt, values("foo").toFloat)
  }
}

which could then be used just as you had described above:

val myInstance = myMap.convert[MyObject]

throwing an exception if no conversion could be made. Using this pattern converting between a Map[String, String] to any object would require just another implicit (and that implicit to be in scope.)

5
18

Here is an alternative non-boilerplate method that uses Scala reflection (Scala 2.10 and above) and doesn't require a separately compiled module:

import org.specs2.mutable.Specification
import scala.reflect._
import scala.reflect.runtime.universe._

case class Test(t: String, ot: Option[String])

package object ccFromMap {
  def fromMap[T: TypeTag: ClassTag](m: Map[String,_]) = {
    val rm = runtimeMirror(classTag[T].runtimeClass.getClassLoader)
    val classTest = typeOf[T].typeSymbol.asClass
    val classMirror = rm.reflectClass(classTest)
    val constructor = typeOf[T].decl(termNames.CONSTRUCTOR).asMethod
    val constructorMirror = classMirror.reflectConstructor(constructor)

    val constructorArgs = constructor.paramLists.flatten.map( (param: Symbol) => {
      val paramName = param.name.toString
      if(param.typeSignature <:< typeOf[Option[Any]])
        m.get(paramName)
      else
        m.get(paramName).getOrElse(throw new IllegalArgumentException("Map is missing required parameter named " + paramName))
    })

    constructorMirror(constructorArgs:_*).asInstanceOf[T]
  }
}

class CaseClassFromMapSpec extends Specification {
  "case class" should {
    "be constructable from a Map" in {
      import ccFromMap._
      fromMap[Test](Map("t" -> "test", "ot" -> "test2")) === Test("test", Some("test2"))
      fromMap[Test](Map("t" -> "test")) === Test("test", None)
    }
  }
}
5
  • 1
    This should be the accepted solution. One function works for any class, it doesn't require macros, doesn't require external dependencies, and uses all supported features. Works like a charm for me. Jun 2, 2017 at 13:46
  • 1
    One minor suggestion. fromMap current returns Any. Changing the last line to constructorMirror(constructorArgs:_*).asInstanceOf[T] makes it so it returns the correct type. Jun 2, 2017 at 13:49
  • 1
    One other comment to be aware of. If you have an Option[String] parameter to your case class, this code expects the Map to contain a String. If it actually contains Option[String] you end up with a problem. Removing the "if" statement changes this. Depends on what you want. Jun 2, 2017 at 14:32
  • @DaveDeCaprio Actually the solution using macros should be faster to execute as the "reflections" are made at compile time there, while this solution uses runtime reflection (notoriously slower than compile time)
    – acidghost
    Apr 25, 2018 at 12:32
  • 1
    Can you do it so it handles nested structures?
    – samthebest
    Mar 4, 2019 at 15:13
5

Jonathan Chow implements a Scala macro (designed for Scala 2.11) that generalizes this behavior and eliminates the boilerplate.

http://blog.echo.sh/post/65955606729/exploring-scala-macros-map-to-case-class-conversion

import scala.reflect.macros.Context

trait Mappable[T] {
  def toMap(t: T): Map[String, Any]
  def fromMap(map: Map[String, Any]): T
}

object Mappable {
  implicit def materializeMappable[T]: Mappable[T] = macro materializeMappableImpl[T]

  def materializeMappableImpl[T: c.WeakTypeTag](c: Context): c.Expr[Mappable[T]] = {
    import c.universe._
    val tpe = weakTypeOf[T]
    val companion = tpe.typeSymbol.companionSymbol

    val fields = tpe.declarations.collectFirst {
      case m: MethodSymbol if m.isPrimaryConstructor ⇒ m
    }.get.paramss.head

    val (toMapParams, fromMapParams) = fields.map { field ⇒
      val name = field.name
      val decoded = name.decoded
      val returnType = tpe.declaration(name).typeSignature

      (q"$decoded → t.$name", q"map($decoded).asInstanceOf[$returnType]")
    }.unzip

    c.Expr[Mappable[T]] { q"""
      new Mappable[$tpe] {
        def toMap(t: $tpe): Map[String, Any] = Map(..$toMapParams)
        def fromMap(map: Map[String, Any]): $tpe = $companion(..$fromMapParams)
      }
    """ }
  }
}
4

This works well for me,if you use jackson for scala:

def from[T](map: Map[String, Any])(implicit m: Manifest[T]): T = {
  val mapper = new ObjectMapper() with ScalaObjectMapper
  mapper.convertValue(map)
}

Reference from:Convert a Map<String, String> to a POJO

1
2

I don't love this code, but I suppose this is possible if you can get the map values into a tuple and then use the tupled constructor for your case class. That would look something like this:

val myMap = Map("k1" -> 1, "k2" -> "val2", "k3" -> "val3")    
val params = Some(myMap.map(_._2).toList).flatMap{
  case List(a:Int,b:String,c:String) => Some((a,b,c))
  case other => None
}    
val myCaseClass = params.map(Test.tupled(_))
println(myCaseClass)

You have to be careful to make sure the list of values is exactly 3 elements and that they are the correct types. If not, you end up with a None instead. Like I said, not great, but it shows that it is possible.

1
  • 1
    For this solution, I would only replace the myMap.map(_._2) by myMap.values
    – Mestre San
    Sep 15, 2016 at 18:33
2

Here's an update to Jonathon's answer for Scala 3 (which no longer has TypeTag). Be aware that this won't work for case classes nested inside of other classes. But for top-level case classes it seems to work fine.

import scala.reflect.ClassTag

object Reflect:

  def fromMap[T <: Product : ClassTag](m: Map[String, ?]): T = 

    val classTag = implicitly[ClassTag[T]]
    val constructor = classTag.runtimeClass.getDeclaredConstructors.head
    val constructorArgs = constructor.getParameters()
      .map { param =>
        val paramName = param.getName
        if (param.getType == classOf[Option[_]])
          m.get(paramName)
        else
          m.get(paramName)
            .getOrElse(throw new IllegalArgumentException(s"Missing required parameter: $paramName"))
      }
    constructor.newInstance(constructorArgs: _*).asInstanceOf[T]

And a test for the above:

case class Foo(a: String, b: Int, c: Option[String] = None)
case class Bar(a: String, b: Int, c: Option[Foo])

class ReflectSuite extends munit.FunSuite:

  test("fromMap") {
    
    val m = Map("a" -> "hello", "b" -> 42, "c" -> "world")
    val foo = Reflect.fromMap[Foo](m)
    assertEquals(foo, Foo("hello", 42, Some("world")))

    val n = Map("a" -> "hello", "b" -> 43)
    val foo2 = Reflect.fromMap[Foo](n)
    assertEquals(foo2, Foo("hello", 43))

    val o = Map("a" -> "yo", "b" -> 44, "c" -> foo)
    val bar = Reflect.fromMap[Bar](o)
    assertEquals(bar, Bar("yo", 44, Some(foo)))
  }

  test("fromMap should fail when required parameter is missing") {
    val m = Map("a" -> "hello", "c" -> "world")
    intercept[java.lang.IllegalArgumentException] {
      Reflect.fromMap[Foo](m)
    }
  }
  
0
commons.mapper.Mappers.mapToBean[CaseClassBean](map)

Details: https://github.com/hank-whu/common4s

0

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