I was going through the effective scala slides and it mentions on slide 10 to never use val in a trait for abstract members and use def instead. The slide does not mention in detail why using abstract val in a trait is an anti-pattern. I would appreciate it if someone can explain best practice around using val vs def in a trait for abstract methods


A def can be implemented by either of a def, a val, a lazy val or an object. So it's the most abstract form of defining a member. Since traits are usually abstract interfaces, saying you want a val is saying how the implementation should do. If you ask for a val, an implementing class cannot use a def.

A val is needed only if you need a stable identifier, e.g. for a path-dependent type. That's something you usually don't need.


trait Foo { def bar: Int }

object F1 extends Foo { def bar = util.Random.nextInt(33) } // ok

class F2(val bar: Int) extends Foo // ok

object F3 extends Foo {
  lazy val bar = { // ok
    Thread.sleep(5000)  // really heavy number crunching

If you had

trait Foo { val bar: Int }

you wouldn't be able to define F1 or F3.

Ok, and to confuse you and answer @om-nom-nom—using abstract vals can cause initialisation problems:

trait Foo { 
  val bar: Int 
  val schoko = bar + bar

object Fail extends Foo {
  val bar = 33

Fail.schoko  // zero!!

This is an ugly problem which in my personal opinion should go away in future Scala versions by fixing it in the compiler, but yes, currently this is also a reason why one should not use abstract vals.

Edit (Jan 2016): You are allowed to override an abstract val declaration with a lazy val implementation, so that would also prevent the initialisation failure.

| improve this answer | |
  • 8
    words about tricky initialization order and surprising nulls? – om-nom-nom Oct 28 '13 at 18:26
  • Yeah... I would't even go there. True these are also arguments against val, but I think the basic motivation should just be to hide implementation. – 0__ Oct 28 '13 at 18:28
  • 2
    This may have changed in a recent Scala version (2.11.4 as of this comment), but you can override a val with a lazy val. Your assertion that you wouldn't be able to create F3 if bar was a val is not correct. That said, abstract members in traits should always be def's – mplis Nov 10 '14 at 19:31
  • The Foo/Fail example works as expected if you replace val schoko = bar + bar with lazy val schoko = bar + bar. That's one way of having some control over the initialization order. Also, using lazy val instead of def in the derived class avoids recomputation. – Adrian Jan 28 '16 at 0:34
  • 2
    If you change val bar: Int to def bar: Int Fail.schoko is still zero. – Jasper-M May 17 '17 at 13:24

I prefer not use val in traits because the val declaration has unclear and non-intuitive order of initialization. You may add a trait to already working hierarchy and it would break all things that worked before, see my topic: why using plain val in non-final classes

You should keep all things about using this val declarations in mind which eventually road you to an error.

Update with more complicated example

But there are times when you could not avoid using val. As @0__ had mentioned sometimes you need a stable identifier and def is not one.

I would provide an example to show what he was talking about:

trait Holder {
  type Inner
  val init : Inner
class Access(val holder : Holder) {
  val access : holder.Inner =
trait Access2 {
  def holder : Holder
  def access : holder.Inner =

This code produces the error:

 StableIdentifier.scala:14: error: stable identifier required, but Access2.this.holder found.
    def access : holder.Inner =

If you take a minute to think you would understand that compiler has a reason to complain. In the Access2.access case it could not derive return type by any means. def holder means that it could be implemented in broad way. It could return different holders for each call and that holders would incorporate different Inner types. But Java virtual machine expects the same type to be returned.

| improve this answer | |
  • 3
    Order of initialization shouldn't matter, but instead we get surprising NPE's during runtime, vis-a-vis anti-pattern. – Jonathan Neufeld Dec 18 '14 at 4:36
  • scala has declarative syntax that hide imperative nature behind. Sometimes that imperativeness works counter-intuitive – ayvango Dec 18 '14 at 9:23

Always using def seems a bit awkward since something like this won't work:

trait Entity { def id:Int}

object Table { 
  def create(e:Entity) = {e.id = 1 }  

You will get the following error:

error: value id_= is not a member of Entity
| improve this answer | |
  • 2
    No relevant. You have an error too if you use val instead of def (error: reassignment to val), and that's perfectly logical. – volia17 Jun 16 '15 at 9:33
  • Not if you use var. The point is, if the they are fields they should be designated as such. I just think having everything as def is short sighted. – Dimitry Jun 16 '15 at 19:56
  • @Dimitry, sure, using var let's you break encapsulation. But using a def (or a val) is preferred over a global variable. I think what you're looking for is something like case class ConcreteEntity(override val id: Int) extends Entity so that you can create it from def create(e: Entity) = ConcreteEntity(1) This is safer than breaking the encapsulation and allowing any class to change Entity. – Jono Aug 22 '18 at 18:56

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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