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In Scala I see such feature as object-private variable. From my not very rich Java background I learnt to close everything (make it private) and open (provide accessors) if necessary. Scala introduces even more strict access modifier. Should I always use it by default? Or should I use it only in some specific cases where I need to explicitly restrict changing field value even for objects of the same class? In other words how should I choose between

class Dummy {
    private var name = "default name"
}

class Dummy {
    private[this] var name = "default name"
}

The second is more strict and I like it but should I always use it or only if I have a strong reason?

EDITED: As I see here private[this] is just some subcase and instead of this I can use other modifiers: "package, class or singleton object". So I'll leave it for some special case.

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gist.github.com/twolfe18/5767545 –  twolfe18 Jun 12 '13 at 17:53

5 Answers 5

up vote 20 down vote accepted

I don't think it matters too much, since any changes will only touch one class either way. So the most important reason to prefer private over protected over public doesn't apply.

Use private[this] where performance really matters (since you'll get direct field access instead of methods this way). Otherwise, just settle on one style so people don't need to figure out why this property is private and that one is private[this].

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18  
Please, tell more about performance aspect –  om-nom-nom Mar 14 '12 at 9:44
3  
@om-nom-nom Actually, there isn't much to tell. JIT should inline the accessor method calls generated by private anyway, so the impact should be zero or at least very very small. –  Alexey Romanov Mar 14 '12 at 11:49
1  
This answer is misleading, the actual reason is declaration-site variance (see this answer: stackoverflow.com/a/9727849/445715). –  Andrey Breslav Aug 24 '14 at 9:24
    
@AndreyBreslav I disagree that this is the reason. Yes, such a case exists but as the answer says it's quite rare. –  Alexey Romanov Aug 24 '14 at 12:56
    
Hmm. Marek Adamek's answer below seems to be the real reason to choose private[this] over private. The intent is to limit access to a specific instance, as opposed to all instances of the class. –  Ram Rajamony Apr 10 at 22:46

There is a case where private[this] is required to make code compile. This has to do with an interaction of variance notation and mutable variables. Consider the following (useless) class:

class Holder[+T] (initialValue: Option[T]) {
    // without [this] it will not compile
    private[this] var value = initialValue

    def getValue = value
    def makeEmpty { value = None }
}

So this class is designed to hold an optional value, return it as an option and enable the user to call makeEmpty to clear the value (hence the var). As stated, this is useless except to demonstrate the point.

If you try compiling this code with "private" instead of "private[this]" it will fail with the following error message:

error: covariant type T occurs in contravariant position in type Option[T] of value value_= class Holder[+T] (initialValue: Option[T]) {

This error occurs because value is a mutable variable on the covariant type T (+T) which is normally a problem unless marked as private to the instance with private[this]. The compiler has special handling in it's variance checking to handle this special case.

So it's esoteric but there is a case where private[this] is required over private.

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I can see why it fails when mutability is in the mix, but why do I get the same error when nothing is mutable? –  Matt Kantor Apr 7 at 22:22

private[this] (equivalent to protected[this]) means that that "y" is only visible to methods in the same instance. For example, you could not reference y on a second instance in an equals method, i.e., "this.y == that.y" would generate a compilation error on "that.y". (source)

so you can do private[this] every time you want but you can have some problem if you need refer it

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9  
private[this] is not equal to protected[this]. protected[this] allows subclass instances to access the member. –  drexin Mar 14 '12 at 9:28
    
You can do this.y == that.y using neither private nor private[this], I just tried both –  lisak Aug 29 '14 at 18:13

This was tested using scala 2.11.5. Consider the code below

class C(private val x: Int) {
  override def equals(obj: Any) = obj match {
    case other: C => x == other.x
    case _ => false
  }
}

println(new C(5) == new C(5)) //true
println(new C(5) == new C(4)) //false

it will compile and work as this java (1.8) code

class C {
    private int x;

    public C(int x) {
        this.x = x;
    }

    public boolean equals(Object obj) {
        if (obj instanceof C) {
            return ((C) obj).x == x;
        }
        else {
            return false;
        }
    }
}

System.out.println(new C(5).equals(new C(5))); //true
System.out.println(new C(5).equals(new C(4))); //false

however if you use '[this]' modifier the code below won't compile

class C(private[this] val x: Int) {
  override def equals(obj: Any) = obj match {
    case other: C => this.x == other.x //problem is here
    case _ => false
  }
}

This is because in the first case 'x' is accessible on class level, whereas in the second case is it more strict instance level. It means that 'x' can be accessed only from the instance to which it belongs. So 'this.x' is fine but 'other.x' is not.

You can refer to section 13.5 of "Programming in Scala: A Comprehensive Step-By-Step Guide" book for more details about access modifiers.

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The question isn't asking what private[this] means. Note the first sentence. –  Alexey Romanov Apr 11 at 4:13

To elaborate on the performance issue Alexey Romanov has mentioned, here are some of my guesses. Quotes from book "Programming in Scala: A Comprehensive Step-by-Step Guide, 2nd Edition" Section 18.2:

In Scala, every var that is non-private member of some object implicitly defines a getter and a setter method with it.

To test it out, this code will cause compilation error:

class PrivateTest{
  var data: Int = 0
  def data_=(x : Int){
    require(x > 0)
    data = x
  }
}

Scala complains about error: ambiguous reference to overloaded definition. Adding override keyword to data_= won't help should prove that the method is generated by the compiler. Adding private keyword to variable data will still cause this compilation error. However, the following code compiles fine:

class PrivateTest{
  private[this] var data: Int = 0
  def data_=(x : Int){
    require(x > 0)
    data = x
  }
}

So, I guess private[this] will prevent scala from generating getter and setter methods. Thus, accessing such variable will save the overhead of calling the getter and setter method.

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