Suppose I have a Java class with multiple constructors:

class Base {
    Base(int arg1) {...};
    Base(String arg2) {...};
    Base(double arg3) {...};

How can I extend it in Scala and still provide access to all three of Base's constructors? In Scala, a subclass can only call one of it's superclass's constructors. How can I work around this rule?

Assume the Java class is legacy code that I can't change.

up vote 87 down vote accepted

It's easy to forget that a trait may extend a class. If you use a trait, you can postpone the decision of which constructor to call, like this:

trait Extended extends Base {

object Extended {
  def apply(arg1: Int) = new Base(arg1) with Extended
  def apply(arg2: String) = new Base(arg2) with Extended
  def apply(arg3: Double) = new Base(arg3) with Extended

Traits may not themselves have constructor parameters, but you can work around that by using abstract members instead.

  • And what if Extended shall have additional parameters or I want to extend Extended with a Grandchild? – tuxSlayer Jul 29 '11 at 19:18
  • Would love example of how to "work around that by using abstract members." – Adam Mackler Dec 22 '12 at 1:18
  • @AdamMackler: replace class A(val b: B) with trait A { def b: B }. It's usually safer to use def than val here because of initialization order pitfalls. To instantiate, instead of new A(b), you do new A { val b = ... }. (val may override def.) – Seth Tisue Dec 27 '12 at 20:41
  • Note that this is not equivalent as you cannot instantiate Extended with the new keyboard. It looks like there is no way it equivalently to the Java way. – OlivierBlanvillain Dec 16 '13 at 13:10
  • Olivier: correct, as already stated in the question. – Seth Tisue Dec 16 '13 at 14:22

EDIT - this is from a question on the scala mailing list which I thought was duplicated here. My answer relates to providing three different constructors (i.e. replicating the Java design), and not extending the class

Assuming that each of your constructors ultimately create the state S of the object, create a companion object with "static" methods to create this state

object Base {
  private def stateFrom(d : Double) : S = error("TODO")
  private def stateFrom(s : Str) : S = error("TODO")
  private def stateFrom(i : Int) : S = error("TODO")

Then create a private constructor taking the state and (public) overloaded constructors which defer to the primary constructor

import Base._
class Base private(s : S) { //private constructor takes the state
  def this(d : Double) = this(stateFrom(d)) 
  def this(str : String) = this(stateFrom(str))
  def this(i : Int) = this(stateFrom(i))
  • You're changing Base, so this answers a rather different question. It's a good answer to that other question, though :-) – Seth Tisue Jul 21 '10 at 14:17
  • Yes - the question on the mailing list was not as clearly written as this one! – oxbow_lakes Jul 21 '10 at 14:51
  • That was not the question – Arun George Sep 21 '17 at 6:53

This is a silly answer that would probably work somewhat but might be too much effort if the Java class has way too many constructors, but:

Write a subclass in Java that implements a constructor that takes all the inputs the various other constructors would and calls the proper constructor of its superclass based on the presence or absence of inputs (via usage of "null" or some sort of sentinel values), then subclass that Java class in Scala and assign the sentinel values as default parameters.

I would pick the most generic one (in this case, String) and do the internal conversion yourself if it meets the other criteria.

Although I admit this is not the best solution and something strikes me as wrong about it. :-(

  • The thing that's wrong is that it assumes that "the most generic one" is a valid concept. It's not. Different constructors can do completely different things. – James Moore Dec 11 '12 at 22:25
  • @JamesMoore Point very well taken. Clearly, one needs to be aware of the behavior of the various constructors to influence your decision. However, it would be a large violation of the principle of least surprise if, given double d that new Base(d);, new Base((int)d); and new Base(String.valueOf(d)); did not all do the same thing. Of course it's not a guarantee, but if they're doing different things, there should be different classes. Now, if only all code followed predictable design principles... :) – corsiKa Dec 11 '12 at 22:45

Your Answer

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

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