Identifiers, Names and Scopes

Names in Scala identify types, values, methods, and classes which are collectively called entities. Names are introduced by local definitions and declarations, inheritance, import clauses, or package clauses which are collectively called bindings.

Bindings of different kinds have a precedence defined on them:

  1. Definitions and declarations that are local, inherited, or made available by a package clause and also defined in the same compilation unit as the reference, have highest precedence.
  2. Explicit imports have next highest precedence.
  3. Wildcard imports have next highest precedence.
  4. Definitions made available by a package clause, but not also defined in the same compilation unit as the reference, have lowest precedence.

There are two different name spaces, one for types and one for terms. The same name may designate a type and a term, depending on the context where the name is used.

A binding has a scope in which the entity defined by a single name can be accessed using a simple name. Scopes are nested. A binding in some inner scope shadows bindings of lower precedence in the same scope as well as bindings of the same or lower precedence in outer scopes.

Note that shadowing is only a partial order. In the following example, neither binding of x shadows the other. Consequently, the reference to x in the last line of the block is ambiguous.

val x = 1
locally {
  import p.X.x

A reference to an unqualified (type- or term-) identifier $x$ is bound by the unique binding, which

It is an error if no such binding exists. If $x$ is bound by an import clause, then the simple name $x$ is taken to be equivalent to the qualified name to which $x$ is mapped by the import clause. If $x$ is bound by a definition or declaration, then $x$ refers to the entity introduced by that binding. In that case, the type of $x$ is the type of the referenced entity.

A reference to a qualified (type- or term-) identifier $e.x$ refers to the member of the type $T$ of $e$ which has the name $x$ in the same namespace as the identifier. It is an error if $T$ is not a value type. The type of $e.x$ is the member type of the referenced entity in $T$.

Binding precedence implies that the way source is bundled in files affects name resolution. In particular, imported names have higher precedence than names, defined in other files, that might otherwise be visible because they are defined in either the current package or an enclosing package.

Note that a package definition is taken as lowest precedence, since packages are open and can be defined across arbitrary compilation units.

package util {
  import scala.util
  class Random
  object Test extends App {
    println(new util.Random)  // scala.util.Random

As a convenience, multiple bindings of a type identifier to the same underlying type is permitted. This is possible when import clauses introduce a binding of a member type alias with the same binding precedence, typically through wildcard imports. This allows redundant type aliases to be imported without introducing an ambiguity.

object X { type T = annotation.tailrec }
object Y { type T = annotation.tailrec }
object Z {
  import X._, Y._, annotation.{tailrec => T}  // OK, all T mean tailrec
  @T def f: Int = { f ; 42 }                  // error, f is not tail recursive

Assume the following two definitions of objects named X in packages p and q in separate compilation units.

package p {
  object X { val x = 1; val y = 2 }

package q {
  object X { val x = true; val y = false }

The following program illustrates different kinds of bindings and precedences between them.

package p {                   // `X' bound by package clause
import Console._              // `println' bound by wildcard import
object Y {
  println(s"L4: \$X")          // `X' refers to `p.X' here
  locally {
    import q._                // `X' bound by wildcard import
    println(s"L7: \$X")        // `X' refers to `q.X' here
    import X._                // `x' and `y' bound by wildcard import
    println(s"L9: \$x")        // `x' refers to `q.X.x' here
    locally {
      val x = 3               // `x' bound by local definition
      println(s"L12: \$x")     // `x' refers to constant `3' here
      locally {
        import q.X._          // `x' and `y' bound by wildcard import
//      println(s"L15: \$x")   // reference to `x' is ambiguous here
        import X.y            // `y' bound by explicit import
        println(s"L17: \$y")   // `y' refers to `q.X.y' here
        locally {
          val x = "abc"       // `x' bound by local definition
          import p.X._        // `x' and `y' bound by wildcard import
//        println(s"L21: \$y") // reference to `y' is ambiguous here
          println(s"L22: \$x") // `x' refers to string "abc" here