I am using scala 2.10.3 and I noticed the following behavior

object TestConstantScala {

    final val str1 : String = "foo:" + number1
    final val number1 : Int = 123
    final val number2 : Int = 123
    final val str2 : String = "foo:" + number2

    def main(args: Array[String]){




And my question is why the order makes a difference. in addition if I omit the Int definition it returns to behave as normal

  • As for the order -- it's the same behaviour as in java -- first, values are initialized to their default values (0 for int, null for reference types and so on), so at the time of initialization of str1 initialized to 0, not to 123 (yet). What really interesting is why this behaviour is different with and without type ascriptions.
    – om-nom-nom
    May 28, 2014 at 13:50
  • possible duplicate of Why are `private val` and `private final val` different? May 28, 2014 at 14:09

2 Answers 2


Without the type ascription (: Int) number1 doesn't even exist as a field, and therefore doesn't need to be initialized. Instead, the compiler creates an accessor method that returns the value 123 directly, and in the constructor uses the literal value 123 to initialize str1.

Why does it create a field when there is a type ascription? It really makes no sense in this case, but sometimes type ascription can require code that does transformations of a value, like boxing a primitive or applying an implicit conversion. These operations should only be done once, both for semantic reasons (object identity, side-effects in the implicit conversion) and for efficiency. Therefore the result must be stored in a field.

So the behavior without a type ascription is an optimization for final primitive fields initialized to a constant value, and the compiler isn't smart enough to apply the optimization when a type ascription is present.

Here is a more minimal example:

object TestConstantScala {
  final val brokenStr: String = "foo:" + brokenNumber
  final val brokenNumber: Int = 123
  final val workingStr: String = "foo:" + workingNumber
  final val workingNumber = 123


And here is the output from scalac -Xprint:constructors, showing the AST right after moving initialization into the constructor:

[[syntax trees at end of              constructors]] // test18.scala
package <empty> {
  object TestConstantScala extends Object {
    final private[this] val brokenStr: String = _;
    final <stable> <accessor> def brokenStr(): String = TestConstantScala.this.brokenStr;
    final private[this] val brokenNumber: Int = _;
    final <stable> <accessor> def brokenNumber(): Int = TestConstantScala.this.brokenNumber;
    final private[this] val workingStr: String = _;
    final <stable> <accessor> def workingStr(): String = TestConstantScala.this.workingStr;
    final <stable> <accessor> def workingNumber(): Int(123) = 123;
    def <init>(): TestConstantScala.type = {
      TestConstantScala.this.brokenStr = "foo:".+(scala.Int.box(TestConstantScala.this.brokenNumber()));
      TestConstantScala.this.brokenNumber = 123;
      TestConstantScala.this.workingStr = "foo:".+(scala.Int.box(123));

Notice how there is no field for workingNumber, only an accessor, and how in the constructor workingStr is initialized with "foo:".+(scala.Int.box(123)).


There are two issues at play:

  • initalization order (as @wingedsubmariner correctly mentioned)
  • constant value definitions (and not an optimization). This is how you can get efficient pattern matches when using symbolic values, instead of literals (and Java overloads the final keyword the same way).

From the Scala Language Specification, Section 4.1 Value Declarations and Definitions

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.

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