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In Objective-C instance data can be public, protected or private. For example:

@interface Foo : NSObject
{
  @public
    int x;
  @protected:
    int y;
  @private:
    int z;
  }
-(int) apple;
-(int) pear;
-(int) banana;
@end

I haven't found any mention of access modifiers in the Swift reference. Is it possible to limit the visibility of data in Swift?

share|improve this question
    
Me neither. Apple should at least introduce etiquette for privates, like in python they are prefixed with underscore. – Ciantic Jun 2 '14 at 21:58
    
Added an answer updated for final version of Xcode 6.1.1 – holroy Mar 8 '15 at 22:53

15 Answers 15

up vote 292 down vote accepted

Edit: Access control mechanisms have been introduced in Xcode 6 beta 4 (6A267n):

Swift access control has three access levels:

  • private entities can only be accessed from within the source file where they are defined.
  • internal entities can be accessed anywhere within the target where they are defined.
  • public entities can be accessed from anywhere within the target and from any other context that imports the current target’s module.

I have been browsing Apple Developer Forums and found this thread, where @gparker (an Apple engineer) says that:

Swift currently has no access control mechanisms.

However, after a couple of complaints, he states:

We don't usually promise anything for the future, but in this case we are making an exception. Swift will have access control mechanisms.

That's certainly good news. :)

share|improve this answer
27  
Could someone explain to me why isn't this a big deal? – Zaky German Jun 3 '14 at 10:59
10  
There always are some methods or variables in OOP that should be private or protected. This allows for implementing SOLID design, as big methods are divided to a number of smaller ones, each with its own responsibility, that can be overriden, but only the "main" method should be available for public usage. – akashivskyy Jun 4 '14 at 8:38
14  
I, personally don't like solutions like the one with the underscore/special-char leading "private" methods. Even if it is guaranteed that i for myself will be the only person ever having a look at this code, it makes the code more save / less prone to errors cause the compiler will simply prevent you from doing things you should not do. So I think they should get out the "access control mechanisms" as fast as possible, so people wont get used to bad habits. – sh4kesbeer Jun 6 '14 at 12:34
10  
The Xcode 6 beta release notes say: "Access control (public/private members) is not enabled in this seed. (15747445)" – Martin Ullrich Jun 8 '14 at 10:21
9  
@alcalde The idea of a public interface is highly valuable. If you intend that all code in a class must reside inside functions that are part of the public API, I think that's quite limiting. On the other hand, having a specified public API allows the implementation to change (including use of private methods) without disrupting consumers. If someone 'needs' to use an internal class method I feel they are misunderstanding the limits of the class' functionality (or are trying to use a buggy class). – jinglesthula Jul 16 '14 at 19:15

I said to the master, "I understand now! Closures are the poor man's access modifiers." He beat me, saying, "How many times must I tell you, access modifiers are the poor man's encapsulation!" And I was enlightened.

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1  
I understand your point but as far as I understand closures, they cannot be used when chunks of code need to be shared between multiple methods. That methods would need to refer to that chunks of code in their namespace (their class), which would be public methods in swift. Also, how would you model private state with closures? Private properties seem the best way to do for me. – Lensflare Jun 23 '14 at 17:52
8  
I asked the master, "Why do we call them 'closures' instead of 'anonymous functions'?" He replied "Context is everything." And I was enlightened. – jemmons Jun 23 '14 at 18:50
    
IMHO, Closures are great but I don't think they can substitute private functions. Closures have a purpose but closures can't be called by multiple pieces of code because they are anonymous. – user1046037 Feb 17 '15 at 4:03
1  
I wish I were rich enough to be enlightened by this. How is encapsulation even possible without private or protected access? – mpemburn Apr 11 '15 at 14:38
1  
I asked the master, "Why should I prefer composition over inheritance?" He replied, "You can choose your friends, but you can't choose your family." And I was enlightened. – jemmons Jan 4 at 2:49

As far as I can tell, there are no keywords 'public', 'private' or 'protected'. This would suggest everything is public.

However Apple may be expecting people to use “protocols” (called interfaces by the rest of the world) and the factory design pattern to hide details of the implementation type.

This is often a good design pattern to use anyway; as it lets you change your implementation class hierarchy, while keeping the logical type system the same.

share|improve this answer
    
This is nice as it also reduces coupling and can make testing easier. – Scroog1 Jun 3 '14 at 10:13
3  
That would work better if there was a way to hide the implementation class of the protocol, but there doesn't seem to be. – David Moles Jun 29 '14 at 23:52
    
Can anyone provide an illustrative example of this pattern? – bloudermilk Jul 19 '14 at 7:37

When one talks about making a "private method" in Swift or ObjC (or ruby or java or…) those methods aren't really private. There's no actual access control around them. Any language that offers even a little introspection lets developers get to those values from outside the class if they really want to.

So what we're really talking about here is a way to define a public-facing interface that merely presents the functionality we want it to, and "hides" the rest that we consider "private".

The Swift mechanism for declaring interfaces is the protocol, and it can be used for this purpose.

protocol MyClass {
  var publicProperty:Int {get set}
  func publicMethod(foo:String)->String
}

class MyClassImplementation : MyClass {
  var publicProperty:Int = 5
  var privateProperty:Int = 8

  func publicMethod(foo:String)->String{
    return privateMethod(foo)
  }

  func privateMethod(foo:String)->String{
    return "Hello \(foo)"
  }
}

Remember, protocols are first-class types and can be used anyplace a type can. And, when used this way, they only expose their own interfaces, not those of the implementing type.

Thus, as long as you use MyClass instead of MyClassImplementation in your parameter types, etc. it should all just work:

func breakingAndEntering(foo:MyClass)->String{
  return foo.privateMethod()
  //ERROR: 'MyClass' does not have a member named 'privateMethod'
}

There are some cases of direct assignment where you have to be explicit with type instead of relying on Swift to infer it, but that hardly seems a deal breaker:

var myClass:MyClass = MyClassImplementation()

Using protocols this way is semantic, reasonably concise, and to my eyes looks a lot like the Class Extentions we've been using for this purpose in ObjC.

share|improve this answer
    
If protocols don't allow us to have a default argument, how can I create a public method with optional parameters that still complies with the protocol? – bdurao Jul 18 '14 at 17:21
    
I don't understand what you mean. The following creates a public method with an optional parameter. There doesn't seem to be a problem: gist.github.com/anonymous/17d8d2d25a78644046b6 – jemmons Jul 21 '14 at 20:33
    
For some reason the optional parameter is not working as it should on my project, had already tried something similar to your GitHub example. As we can't set a default parameter on a protocol, I got stuck and ended up asking a question. Thanks for trying to help. – bdurao Jul 31 '14 at 12:09

Using a combination of protocols, closures, and nested/inner classes, it's possible to use something along the lines of the module pattern to hide information in Swift right now. It's not super clean or nice to read but it does work.

Example:

protocol HuhThing {
  var huh: Int { get set }
}

func HuhMaker() -> HuhThing {
   class InnerHuh: HuhThing {
    var innerVal: Int = 0
    var huh: Int {
      get {
        return mysteriousMath(innerVal)
      }

      set {
       innerVal = newValue / 2
      }
    }

    func mysteriousMath(number: Int) -> Int {
      return number * 3 + 2
    }
  }

  return InnerHuh()
}

HuhMaker()
var h = HuhMaker()

h.huh      // 2
h.huh = 32 
h.huh      // 50
h.huh = 39
h.huh      // 59

innerVal and mysteriousMath are hidden here from outside use and attempting to dig your way into the object should result in an error.

I'm only part of the way through my reading of the Swift docs so if there's a flaw here please point it out, would love to know.

share|improve this answer
    
ok, i thought about this solution too, but explain me, why i cannot acces with h.huh.innerVal? – Sam Jun 4 '14 at 20:04
    
Swift is type-safe and the only thing the external world knows about h is that it complies to HuhThing. HuhThing does not include any information about a property called innerVal and so attempting to access it is an error. – Dave Kapp Jun 4 '14 at 20:14
6  
Still accessible :P reflect(h)[0].1.value // 19 – John Estropia Jun 6 '14 at 7:55
2  
Nice find there John - I wasn't aware of reflect. Seems to turn objects into Tuples - is there any official documentation on that function or other metaprogramming stuff in Swift? I took a look through the language guide on iBooks but I'm not seeing it. – Dave Kapp Jun 6 '14 at 21:23
1  
@JohnEstropia I don't think reflection counts. In Java (a more mature language), there are access modifiers, but they don't prevent reflection tricks either. – 11684 Jun 11 '14 at 9:13

As of Xcode 6 beta 4, Swift has access modifiers. From the release notes:

Swift access control has three access levels:

  • private entities can only be accessed from within the source file where they are defined.
  • internal entities can be accessed anywhere within the target where they are defined.
  • public entities can be accessed from anywhere within the target and from any other context that imports the current target’s module.

The implicit default is internal, so within an application target you can leave access modifiers off except where you want to be more restrictive. In a framework target (e.g. if you're embedding a framework to share code between an app and an sharing or Today view extension), use public to designate API you want to expose to clients of your framework.

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No, it's not possible. There aren't any private/protected methods and variables at all.

Everything is public.

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1  
What's your source? – Zyphrax Jun 3 '14 at 8:41
1  
This comment is accurate for the current seed. – Jesper Jun 3 '14 at 9:26
2  
That's bad news. :( – akashivskyy Jun 3 '14 at 9:58
2  
For the current seed. It will appear in the future. – Jesper Jun 3 '14 at 10:24
1  
"public" / "protected" / "private" do not currently exist, but you can hide things using closures, protocols, and inner classes - this makes it somewhat like the module pattern used in JavaScript commonly. Please see my sample code on my reply here for an example of how to do this. If I'm mistaken about how it works and my example is incorrect please point that out as I'm still learning too. :) – Dave Kapp Jun 4 '14 at 20:02

In Beta 6, the documentation states that there are three different access modifiers:

  • Public
  • Internal
  • Private

And these three apply to Classes, Protocols, functions and properties.

public var somePublicVariable = 0
internal let someInternalConstant = 0
private func somePrivateFunction() {}

For more, check Access Control.

share|improve this answer

Access control mechanisms as introduced in Xcode 6:

Swift provides three different access levels for entities within your code. These access levels are relative to the source file in which an entity is defined, and also relative to the module that source file belongs to.

  • Public access enables entities to be used within any source file from their defining module, and also in a source file from another module that imports the defining module. You typically use public access when specifying the public interface to a framework.
  • Internal access enables entities to be used within any source file from their defining module, but not in any source file outside of that module. You typically use internal access when defining an app’s or a framework’s internal structure.
  • Private access restricts the use of an entity to its own defining source file. Use private access to hide the implementation details of a specific piece of functionality.

Public access is the highest (least restrictive) access level and private access is the lowest (or most restrictive) access level.

Default accecss it internal, and does as such not need to be specified. Also note that the private specifier does not work on the class level, but on the source file level. This means that to get parts of a class really private you need to separate into a file of its own. This also introduces some interesting cases with regards to unit testing...

Another point to me made, which is commented upon in the link above, is that you can't 'upgrade' the access level. If you subclass something, you can restrict it more, but not the other way around.

This last bit also affects functions, tuples and surely other stuff in the way that if i.e. a function uses a private class, then it's not valid to have the function internal or public, as they might not have access to the private class. This results in a compiler warning, and you need to redeclare the function as a private function.

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One of the options you could use is to wrap the instance creation into a function and supply the appropriate getters and setters in a constructor:

class Counter {
    let inc: () -> Int
    let dec: () -> Int

    init(start: Int) {
        var n = start

        inc = { ++n }
        dec = { --n }
    }
}


let c = Counter(start: 10)

c.inc()  // 11
c.inc()  // 12
c.dec()  // 11
share|improve this answer

Now in beta 4, they've added access modifiers to Swift.

from Xcode 6 beta 4 realese notes:

Swift access control has three access levels:

  • private entities can only be accessed from within the source file where they are defined.
  • internal entities can be accessed anywhere within the target where they are defined.
  • public entities can be accessed from anywhere within the target and from any other context that imports the current target’s module.

By default, most entities in a source file have internal access. This allows application developers to largely ignore access control while allowing framework developers full control over a framework's API.

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Can you post a link to this? – moby Jul 21 '14 at 19:06

The language grammar does not have the keywords 'public', 'private' or 'protected'. This would suggest everything is public. Of course, there could be some alternative method of specifying access modifiers without those keywords but I couldn't find it in the language reference.

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Update with Xcode-6-Beta2:

I've seen this line from Xcode-6-beta2 Release note:

Under Topic: Known Issues in Xcode 6 Beta 2

Access control (public/private members) is not enabled in this seed. (15747445)

From xcode-beta-4, they provide access identifier. Notes from apple's doc,

Access Levels

Swift provides three different access levels for entities within your code. These access levels are relative to the source file in which an entity is defined, and also relative to the module that source file belongs to.

  1. Public access enables entities to be used within any source file from their defining module, and also in a source file from another module that imports the defining module. You typically use public access when specifying the public interface to a framework.
  2. Internal access enables entities to be used within any source file from their defining module, but not in any source file outside of that module. You typically use internal access when defining an app’s or a framework’s internal structure.
  3. Private access restricts the use of an entity to its own defining source file. Use private access to hide the implementation details of a specific piece of functionality.

Public access is the highest (least restrictive) access level and private access is the lowest (or most restrictive) access level.

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Hopefully to save some time for those who want something akin to protected methods:

As per other answers, swift now provides the 'private' modifier - which is defined file-wise rather than class-wise such as those in Java or C# for instance. This means that if you want protected methods, you can do it with swift private methods if they are in the same file

  1. Create a base class to hold 'protected' methods (actually private)
  2. Subclass this class to use the same methods
  3. In other files you cannot access the base class methods, even when you subclass either

e.g. File 1:

class BaseClass {
    private func protectedMethod() {

    }
}

class SubClass : BaseClass {
    func publicMethod() {
        self.protectedMethod()  //this is ok as they are in same file
    }
}

File 2:

func test() {
    var a = BaseClass()
    a.protectedMethod() //ERROR


    var b = SubClass()
    b.protectedMethod() //ERROR
}

class SubClass2 : BaseClass {
    func publicMethod() {
        self.protectedMethod() //ERROR
    }

}

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