I was working through the code examples from the chapter on Traits in Programming in Scala Edition1 https://www.artima.com/pins1ed/traits.html

and came across a weird behavior because of my typo. While overriding method of a trait below code snippet doesn't give any compile error although the return types of the overridden method is different Unit vs String. But upon calling the method on an object it returns Unit but doesn't print anything.

trait Philosophical {
    def philosophize = println("I consume memory, therefore I am!")

class Frog extends Philosophical {
  override def toString = "green"
  override def philosophize = "It aint easy to be " + toString + "!"

val frog = new Frog
//frog: Frog = green

// no message printed on console

val f = frog.philosophize
//f: Unit = ()

But when I give the explicit return type in the overridden method , it gives a compile error:

class Frog extends Philosophical {
  override def toString = "green"
  override def philosophize: String = "It aint easy to be " + toString + "!"
         override def philosophize: String = "It aint easy to be " + toString +
On line 3: error: incompatible type in overriding
       def philosophize: Unit (defined in trait Philosophical);
        found   : => String
        required: => Unit

Can anyone help explain why no compile error in the first case.

  • Compiler has printed a valid hint that you try override a method which has a different result type. – Andriy Plokhotnyuk Dec 2 at 13:09
  • Yes indeed, but my question is why it got through the compiler in the 1st case – Shanil Dec 2 at 13:14
  • 1
    Rule of thumb, always be explicit about return types_(especially on public APIs)_. Type inference is great for local variables, nothing else. – Luis Miguel Mejía Suárez Dec 2 at 14:04

When the expected type is Unit, any value can be accepted:

Value Discarding

If e has some value type and the expected type is Unit, e is converted to the expected type by embedding it in the term { e; () }.


my question is why it got through the compiler in the 1st case

When you did not specify the return type explicitly it was inferred by the type it needs to have for the override to work.

That turned out to be Unit.

Since String values (the value of the expression making up the function body) can be assigned to Unit, the compiler is happy.

  • 1
    What I want to know now, though, is why the explicit return type String was rejected. In Java (and I think in Scala, too), you are allowed to narrow the return type when overriding. For example, when the parent method returns Number, you can return Integer. Maybe void/Unit is special. – Thilo Dec 2 at 13:25
  • 1
    This compiles, for example: trait Philosophical { def philosophize : Number = 1 } class Frog extends Philosophical { override def philosophize : Integer = 2 } – Thilo Dec 2 at 13:28
  • 2
    You can narrow the return type to a subtype; but you can't narrow it to a type which can only be implicitly converted to the overridden method's return type. String to Unit is more like the second one, even if it isn't exactly that. – Alexey Romanov Dec 2 at 13:32
  • 2
    On bytecode level there's no narrowing return type either, there are actually two methods in Frog: def philosophize : Integer and def philosophize : Number. The second one actually overrides the Philosophical's method (and calls the first one). The same could certainly be done for void/anything else, the designers just decided not to do it. – Alexey Romanov Dec 2 at 13:36
  • 2
    1. Java does the same. 2. Yes, in bytecode you can. See e.g. stackoverflow.com/questions/18655541/… and stackoverflow.com/questions/58065680/…. – Alexey Romanov Dec 2 at 13:50

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