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What is the reason for vals not (?) being automatically final in singleton objects? E.g.

object NonFinal {
   val a = 0
   val b = 1

   def test(i: Int) = (i: @annotation.switch) match {
      case `a` => true
      case `b` => false

results in:

<console>:12: error: could not emit switch for @switch annotated match
          def test(i: Int) = (i: @annotation.switch) match {


object Final {
   final val a = 0
   final val b = 1

   def test(i: Int) = (i: @annotation.switch) match {
      case `a` => true
      case `b` => false

Compiles without warnings, so presumably generates the faster pattern matching table.

Having to add final seems pure annoying noise to me. Isn't an object final per se, and thus also its members?

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Hm. what about traits that might be used? –  Tony K. Sep 6 '12 at 22:28
@TonyK. - what do you mean? Even if I had trait T { def a: Int }, the object would override a in the linearisation rules. If I had trait T { def a: Int = 33 }, ok in that case override final val is not possible. But I think that still doesn't disqualify the approach of making non-overriding vals final by default. –  0__ Sep 6 '12 at 23:27
Agreed. I am relatively new to Scala...was trying to explore possible avenues you had not thought of. –  Tony K. Sep 7 '12 at 0:10
You should change the accepted answer to @extempore's (Paul Phillips). In this case, final causes the value to be inlined during compilation. –  drstevens Jan 24 '14 at 20:46

4 Answers 4

up vote 10 down vote accepted

This is addressed explicitly in the specification, and they are automatically final:

Members of final classes or objects are implicitly also final, so the final modifier is generally redundant for them, too. Note, however, that constant value definitions (§4.1) do require an explicit final modifier, even if they are defined in a final class or object.

Your final-less example compiles without errors (or warnings) with 2.10-M7, so I'd assume that there's a problem with the @switch checking in earlier versions, and that the members are in fact final.

Update: Actually this is more curious than I expected—if we compile the following with either 2.9.2 or 2.10-M7:

object NonFinal {
  val a = 0

object Final {
  final val a = 0

javap does show a difference:

public final class NonFinal$ implements scala.ScalaObject {
  public static final NonFinal$ MODULE$;
  public static {};
  public int a();

public final class Final$ implements scala.ScalaObject {
  public static final Final$ MODULE$;
  public static {};
  public final int a();

You see the same thing even if the right-hand side of the value definitions isn't a constant expression.

So I'll leave my answer, but it's not conclusive.

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I thought you could only switch on constant values, in which case 2.10-M7 has removed the requirement for final that you quoted. No? –  Rex Kerr Sep 6 '12 at 22:41
@RexKerr: Indeed. I don't remember seeing that in any of the change logs, but I'll check again. –  Travis Brown Sep 6 '12 at 22:48
Thanks, that spec quote is quite clear, saying vals do need explicit final. The 2.10.0-M7 is strange then, might be worth checking the resulting pattern match code (perhaps it @switch is silently dropped?) –  0__ Sep 6 '12 at 23:31
@0__: You read it as requiring the modifier? I'm just confused by it, now, but would have interpreted it as saying at the very least that if there's no chance of a constant value definition (e.g., we've got "0".toInt or new A on the right-hand side) then the final is redundant. –  Travis Brown Sep 6 '12 at 23:38
Yes I read it that way, although I do disagree with the spec here. As I said, I think it's unnecessary noise. –  0__ Sep 6 '12 at 23:44

You're not asking "why aren't they final", you're asking "why aren't they inlined." It just happens that final is how you cue the compiler that you want them inlined.

The reason they are not automatically inlined is separate compilation.

object A { final val x = 55 }
object B { def f = A.x }

When you compile this, B.f returns 55, literally:

public int f();
  0: bipush        55
  2: ireturn       

That means if you recompile A, B will be oblivious to the change. If x is not marked final in A, B.f looks like this instead:

  0: getstatic     #19                 // Field A$.MODULE$:LA$;
  3: invokevirtual #22                 // Method A$.x:()I
  6: ireturn       

Also, to correct one of the other answers, final does not mean immutable in scala.

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final does not mean constant either. Try "final var x = 1 ; x = 2". –  extempore Sep 20 '12 at 9:57

These are different because the type annotation makes it not a const:

final val const = Thread.State.NEW
final val s: Thread.State = Thread.State.NEW

So supplying the final modifier silently has ramifications and isn't uniform. That is, I would need to supply a type to stop auto-final, instead of supplying "final" for const behavior. That's like having @noinline to turn off inlining. (A const would be type-checked where it appeared. Example where that makes a difference?)

Also consider that "final" is overloaded (immutable constantiable, not extensible, not overridable), so objects are not quite "final per se":

trait A {
  def a: Int
trait P {
  def m: A = new A { val a = 3 }
trait Q extends P {
  override object m extends A {
    /* final? */ val a = 7
// if Q.m.a is final, the constant is inlined.
// But I didn't use @inline or -Yinline or -optimise!
  val p = new P { }
  val q = new Q { }
// similarly,
  val b = (7: @switch) match {
    case q.m.a => true
    case _ => false

Unfortunately, or maybe fortunately, the following doesn't work yet. So you also can't trick it into allowing override object m extends {...} with Q.this.m.type.

// -Yoverride-objects
//java.lang.ClassFormatError: Duplicate method name&signature in class file objover/Test$$anon$1
trait W extends Q {
  override object m extends {
    val a = 9
  } with A
share|improve this answer
If the first two explicit final statements you make are different in bytecode, why would that be an argument against making the vals in an object implicitly final? If they are not "uniform" explicitly, I see no problem why they must be so implicitly—the compiler would still complain if it can't create the jump table in pattern matching; besides, I wonder if these would behave differently if the type was Int? -Yoverride-objects is interesting, I haven't come across that. Still the vals in an inner object will anyway never be useable in the Int pattern match, if I'm not mistaken. –  0__ Sep 7 '12 at 9:50

To address the central question about final on an object, I think this clause from the spec is more relevant:

A constant value definition is of the form final val x = e where e is a constant expression (§6.24). The final modifier must be present and no type annotation may be given. References to the constant value x are themselves treated as constant expressions; in the generated code they are replaced by the definition’s right-hand side e.

Of significance:

  • No type annotation may be given
  • The expression e is used in the generated code (by my reading, as the original unevaluated constant expression)

It sounds to me like the compiler is required by the spec to use these more like macro replacements rather than values that are evaluated in place at compile time, which could have impacts on how the resulting code runs.

I think it is particularly interesting that no type annotation may be given.

This, I think points to our ultimate answer, though I cannot come up with an example that shows the runtime difference for these requirements. In fact, in my 2.9.2 interpreter, I don't even get the enforcement of the first rule.

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