2

Sometimes it is convenient and clearer to use import statements to access multiple elements of an object.

For example, the code

x.y.z.a = 1
x.y.z.b = 2
x.y.z.c = 3

can be written as

{
    import x.y.z._

    a = 1
    b = 2
    c = 3
}

obviously it is much more useful when the names are longer.

Is all the work done at compile time, or is the import statement executed at runtime in some way? Is there any cost, in efficiency or otherwise, to using this style?

5

You can check for yourself with javap. Start with something like this:

package x.y {
  object z {
    var a = "abc"
    var b = "def"
    var c = "ghi"
  }
}

object Test {
  def withImport: Unit = {
    import x.y.z._

    a = "zyx"
    b = "wvu"
    c = "rst"
  }

  def withoutImport: Unit = {
    x.y.z.a = "zyx"
    x.y.z.b = "wvu"
    x.y.z.c = "rst"
  }
}

Compile with scalac Test.scala and then javap -c Test\$:

  public void withImport();
    descriptor: ()V
    flags: ACC_PUBLIC
    Code:
      stack=2, locals=1, args_size=1
         0: getstatic     #18                 // Field x/y/z$.MODULE$:Lx/y/z$;
         3: ldc           #20                 // String zyx
         5: invokevirtual #24                 // Method x/y/z$.a_$eq:(Ljava/lang/String;)V
         8: getstatic     #18                 // Field x/y/z$.MODULE$:Lx/y/z$;
        11: ldc           #26                 // String wvu
        13: invokevirtual #29                 // Method x/y/z$.b_$eq:(Ljava/lang/String;)V
        16: getstatic     #18                 // Field x/y/z$.MODULE$:Lx/y/z$;
        19: ldc           #31                 // String rst
        21: invokevirtual #34                 // Method x/y/z$.c_$eq:(Ljava/lang/String;)V
        24: return
      LocalVariableTable:
        Start  Length  Slot  Name   Signature
            0      25     0  this   LTest$;
      LineNumberTable:
        line 13: 0
        line 14: 8
        line 15: 16

  public void withoutImport();
    descriptor: ()V
    flags: ACC_PUBLIC
    Code:
      stack=2, locals=1, args_size=1
         0: getstatic     #18                 // Field x/y/z$.MODULE$:Lx/y/z$;
         3: ldc           #20                 // String zyx
         5: invokevirtual #24                 // Method x/y/z$.a_$eq:(Ljava/lang/String;)V
         8: getstatic     #18                 // Field x/y/z$.MODULE$:Lx/y/z$;
        11: ldc           #26                 // String wvu
        13: invokevirtual #29                 // Method x/y/z$.b_$eq:(Ljava/lang/String;)V
        16: getstatic     #18                 // Field x/y/z$.MODULE$:Lx/y/z$;
        19: ldc           #31                 // String rst
        21: invokevirtual #34                 // Method x/y/z$.c_$eq:(Ljava/lang/String;)V
        24: return
        ...

Literally identical bytecode.

4

Yes, all names and implicits are resolved at compile time, and import doesn't affect anything else.

Of course, what gets executed is still

x.y.z.a = 1
x.y.z.b = 2
x.y.z.c = 3

so you'll fetch x.y.z 3 times (in this example). If z is

package x.y
object z { ... }

this is again just name resolution; but if instead you have something like

object x {
  val y = ... // some type which has val z
}

it's 2 method calls each time and putting z into a local variable performs better (but JIT may optimize this if this code runs often enough).

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