Is it possible to generate a new class with macro in Dotty, Scala 3 ?


  • 1
    Macros were never meant for creating totally new types (classes including). At best you could create a macro-generated instance of a class tuned for some arguments. I think macro annotations and/or compiler plugins could be used to insert new class body into companion object of annotated class (not a good idea), but that's it. If you want to generate classes use a code generator instead. – Mateusz Kubuszok Dec 24 '19 at 21:32
  • For @main annotation in Dotty I find only class: main extends scala.annotation.Annotation {} in source code. So, does macro annotation need compiler plugin to work? – zlaja Dec 24 '19 at 23:40
  • 1
    @zlaja @main is not a macro annotation, it's individual annotation managed by Dotty compiler. Currently you can't create such custom annotation without compiler plugin to Dotty. – Dmytro Mitin Dec 25 '19 at 1:57

Currently in Dotty there is only (kind of) def macros. Currently there is no (kind of) macro annotations, which could generate a new member, new class etc.

For generation of a new member, new class etc. you can use

Let me remind you that even in Scalac the ability to generate a new member, new class etc. also appeared not from the very beginning. Such functionality (macro annotations) appeared as Macro Paradise compiler plugin to Scalac.

I can't exclude that somewhen somebody will write something like Macro Paradise for Dotty. It's too early for that, it's only feature-freeze for Dotty now, even language syntax (for example) and standard library keep changing now (there is also list of libraries that are testing their ability to work with Dotty, for example currently no Scalaz/Cats are there).


You can make a transparent macro that returns a structural type to generate types with any vals and defs that you wish.

Here is an example; method props, when called with a Product type, creates an object with the first Product element name as a String val.

case class User(firstName: String, age: Int)

// has the type of Props { val firstName: String }
val userProps = props[User]

println(userProps.firstName) // prints "prop for firstName"
println(userProps.lastName) // compile error

And the implementation, which is a little tricky but not too bad:

import scala.compiletime.*
import scala.quoted.*
import scala.deriving.Mirror

class Props extends Selectable:
  def selectDynamic(name: String): Any =
    "prop for " + name

transparent inline def props[T] =
  ${ propsImpl[T] }

private def propsImpl[T: Type](using Quotes): Expr[Any] =
  import quotes.reflect.*

  Expr.summon[Mirror.ProductOf[T]].get match
    case '{ $m: Mirror.ProductOf[T] {type MirroredElemLabels = mels; type MirroredElemTypes = mets } } =>
      Type.of[mels] match
        case '[mel *: melTail] =>
          val label = Type.valueOfConstant[mel].get.toString

          Refinement(TypeRepr.of[Props], label, TypeRepr.of[String]).asType match
            case '[tpe] =>
              val res = '{
                val p = Props()

Using recursion, you can refine the Refinement (since Refinement <: TypeRepr) until everything is built out.

With that said, using transparent inline or even Scala 2 macro annotations to generate new types makes it very hard for IDEs to support auto-completion. So if possible, I recommend using the standard Typeclass derivation.

You can even derive default behavior for standard traits:

trait SpringDataRepository[E, Id]:
  def findAll(): Seq[E]

trait DerivedSpringDataRepository[E: Mirror.ProductOf, Id]:
  def findAll(): Seq[E] = findAllDefault[E, Id]()
private inline def findAllDefault[E, Id](using m: Mirror.ProductOf[E]): Seq[E] =
  findAllDefaultImpl[E, m.MirroredLabel, m.MirroredElemLabels]()

private inline def findAllDefaultImpl[E, Ml, Mels](columns: ArrayBuffer[String] = ArrayBuffer()): Seq[E] =
  inline erasedValue[Mels] match
    case _: EmptyTuple =>
      // base case
      println("executing.. select " + columns.mkString(", ") + " from " + constValue[Ml])
    case _: (mel *: melTail) =>
      findAllDefaultImpl[E, Ml, melTail](columns += constValue[mel].toString) 

Then, all a user has to do is extend DerivedSpringDataRepository with their Product type:

case class User(id: Int, first: String, last: String)

class UserRepo extends DerivedSpringDataRepository[User, Int]

val userRepo = UserRepo()

userRepo.findAll() // prints "executing.. select id, first, last from User"

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