I'm trying to work out an appropriate singleton model for usage in Swift. So far, I've been able to get a non-thread safe model working as:

class var sharedInstance:TPScopeManager {
    get {
        struct Static {
            static var instance : TPScopeManager? = nil
        }

        if !Static.instance {
            Static.instance = TPScopeManager()
        }

        return Static.instance!
    }
}

Wrapping the singleton instance in the Static struct should allow a single instance that doesn't collide with singleton instances without complex naming schemings, and it should make things fairly private. Obviously though, this model isn't thread safe, so I tried to add dispatch_once to the whole thing:

class var sharedInstance:TPScopeManager {
    get {
        struct Static {
            static var instance : TPScopeManager? = nil
            static var token : dispatch_once_t = 0
        }

        dispatch_once(Static.token) { Static.instance = TPScopeManager() }

        return Static.instance!
    }
}

But I get a compiler error on the dispatch_once line:

Cannot convert the expression's type 'Void' to type '()'

I've tried several different variants of the syntax, but they all seem to have the same results:

dispatch_once(Static.token, { Static.instance = TPScopeManager() })

What is the proper usage of dispatch_once using Swift? I initially thought the problem was with the block due to the () in the error message, but the more I look at it, the more I think it may be a matter of getting the dispatch_once_t correctly defined.

  • 3
    I would remove all that static code and use a readonly property with a @lazy initializer. – Sulthan Jun 3 '14 at 21:02
  • 1
    That's what I meant. Unfortunately we still don't have enough information about the internals. However, IMHO any implementation of @lazy should be thread safe. – Sulthan Jun 3 '14 at 21:04
  • 1
    And this way also has the advantage of not exposing the implementation to the predations of callers. – David Berry Jun 3 '14 at 21:05
  • 1
    It also doesn't seem like you can have @lazy class variables. – David Berry Jun 3 '14 at 21:08
  • Be careful! Two things to note with this approach. First, any classes that inherit from this will have to override the sharedInstance property. Static.instance = TPScopeManager() forces the instance type. If you use something like Static.instance = self() with a required initializer, the appropriate type class will be generated. Even so, and this is the important thing to note, only once for all instances in the hierarchy! First type to initialize is the type set for all instances. I don't think objective-c behaved the same. – sean woodward Jun 4 '14 at 21:19

29 Answers 29

up vote 673 down vote accepted

tl;dr: Use the class constant approach if you are using Swift 1.2 or above and the nested struct approach if you need to support earlier versions.

From my experience with Swift there are three approaches to implement the Singleton pattern that support lazy initialization and thread safety.

Class constant

class Singleton  {
   static let sharedInstance = Singleton()
}

This approach supports lazy initialization because Swift lazily initializes class constants (and variables), and is thread safe by the definition of let. This is now officially recommended way to instantiate a singleton.

Class constants were introduced in Swift 1.2. If you need to support an earlier version of Swift, use the nested struct approach below or a global constant.

Nested struct

class Singleton {
    class var sharedInstance: Singleton {
        struct Static {
            static let instance: Singleton = Singleton()
        }
        return Static.instance
    }
}

Here we are using the static constant of a nested struct as a class constant. This is a workaround for the lack of static class constants in Swift 1.1 and earlier, and still works as a workaround for the lack of static constants and variables in functions.

dispatch_once

The traditional Objective-C approach ported to Swift. I'm fairly certain there's no advantage over the nested struct approach but I'm putting it here anyway as I find the differences in syntax interesting.

class Singleton {
    class var sharedInstance: Singleton {
        struct Static {
            static var onceToken: dispatch_once_t = 0
            static var instance: Singleton? = nil
        }
        dispatch_once(&Static.onceToken) {
            Static.instance = Singleton()
        }
        return Static.instance!
    }
}

See this GitHub project for unit tests.

  • 11
    "thread safe by virtue of let" — has this been stated anywhere? I can't find mention of it in the documentation. – jtbandes Jun 18 '14 at 22:45
  • 2
    @jtbandes Constants are thread safe in all the languages I know. – hpique Jun 19 '14 at 3:31
  • 2
    @DaveWood I assume you're talking about the last approach. I'll quote myself: "I'd say it's no longer necessary to use this approach but I'm putting it here anyway as I find the differences in syntax interesting." – hpique Jun 22 '14 at 15:30
  • 3
    Should init be also be declared private to guarantee one and only one instance of the object will ever exist throughout the app's lifetime? – Andrew May 26 '15 at 21:53
  • 2
    In the "Class constant" approach, I'd suggest (a) declaring the class to be final so you don't subclass it; and (b) declaring the init method to be private so that you can't accidentally instantiate another instance somewhere. – Rob Sep 22 '16 at 1:07

Since Apple has now clarified that static struct variables are initialized both lazy and wrapped in dispatch_once (see the note at the end of the post), I think my final solution is going to be:

class WithSingleton {
    class var sharedInstance :WithSingleton {
        struct Singleton {
            static let instance = WithSingleton()
        }

        return Singleton.instance
    }
}

This takes advantage of the automatic lazy, thread-safe initialization of static struct elements, safely hides the actual implementation from the consumer, keeps everything compactly compartmentalized for legibility, and eliminates a visible global variable.

Apple has clarified that lazy initializer are thread-safe, so there's no need for dispatch_once or similar protections

The lazy initializer for a global variable (also for static members of structs and enums) is run the first time that global is accessed, and is launched as dispatch_once to make sure that the initialization is atomic. This enables a cool way to use dispatch_once in your code: just declare a global variable with an initializer and mark it private.

From here

  • 1
    To confirm: global variables have lazy, thread-safe initialization, but class variables don't. Right? – Bill Jun 6 '14 at 12:15
  • 12
    I would add that a good practice would be to declare the initializer as private: private init() {}, to further enforce the fact that this class is not meant to be externally instantiated. – Pascal Bourque Sep 26 '14 at 19:03
  • 1
    so static struct var initialization is lazy and thread safe, what if that static struct var is a dictionary for multitons, then we have to manually synchronize/queue calls to it for each access, right? – user3610227 Dec 31 '14 at 0:27
  • If I understand your question correctly, dictionary and array accesses are not inherently thread-safe, so you will need to use some form of thread synchronization. – David Berry Dec 31 '14 at 22:35
  • @DavidBerry How should I call a function inside this singleton class? I need a function to be called on the first call of myClass.sharedInstance. – Bhushan Sep 8 '15 at 11:53

For Swift 1.2 and beyond:

class Singleton  {
   static let sharedInstance = Singleton()
}

With a proof of correctness (all credit goes here), there is little to no reason now to use any of the previous methods for singletons.

Update: This is now the official way to define singletons as described in the official docs!

As for concerns on using static vs class. static should be the one to use even when class variables become available. Singletons are not meant to be subclassed since that would result in multiple instances of the base singleton. Using static enforces this in a beautiful, Swifty way.

For Swift 1.0 and 1.1:

With the recent changes in Swift, mostly new access control methods, I am now leaning towards the cleaner way of using a global variable for singletons.

private let _singletonInstance = SingletonClass()
class SingletonClass {
  class var sharedInstance: SingletonClass {
    return _singletonInstance
  }
}

As mentioned in the Swift blog article here:

The lazy initializer for a global variable (also for static members of structs and enums) is run the first time that global is accessed, and is launched as dispatch_once to make sure that the initialization is atomic. This enables a cool way to use dispatch_once in your code: just declare a global variable with an initializer and mark it private.

This way of creating a singleton is thread safe, fast, lazy, and also bridged to ObjC for free.

  • 2
    Anyone reading only this answer: Remember to make the token static, otherwise the behavior is undefined. See David's edited question for the complete code. – nschum Jun 4 '14 at 23:23
  • @nschum otherwise, the behaviour is not undefined, it is just broken in a well-defined way: the block will always execute. – Michael Jun 10 '14 at 10:54
  • @Michael: The documentation states it is undefined. The current behavior is therefore coincidental. – nschum Jun 10 '14 at 17:56
  • 1
    That's an odd thing to say. If the documentation calls it "undefined" that just means whoever wrote the code doesn't make any promises to what it does. It has nothing to do with the code knowing if the variable is static. It just means that the current (or apparent) behavior cannot not be relied upon. – nschum Jun 11 '14 at 13:42
  • 5
    You might want to add private init() {} as initialiser of SingletonClass. to prevent instantiate from outside. – rintaro Sep 24 '14 at 7:38

Swift 1.2 or later now supports static variables/constants in classes. So you can just use a static constant:

class MySingleton {

    static let sharedMySingleton = MySingleton()

    private init() {
        // ...
    }
}

There is a better way to do it. You can declare a global variable in your class above the class decleration like so

var tpScopeManagerSharedInstance = TPScopeManager()

This just calls your default init or whichever init and global variables are dispatch_once by default in Swift. Then in whichever class you want to get a reference, you just do this:

var refrence = tpScopeManagerSharedInstance
// or you can just access properties and call methods directly
tpScopeManagerSharedInstance.someMethod()

So basically you can get rid of the entire block of shared instance code.

  • 3
    Why a "var" and lot a "let"? – Stephan Jun 6 '14 at 18:11
  • 1
    maybe could be a let, I only tested it out with a var. – Kris Gellci Jun 6 '14 at 18:58
  • I like this answer, however I need to access this (Singleton) from Interface Builder. Any idea on how could I access this tpScopeManagerSharedInstance from within IB?. Thanks.- – Luis Palacios Jul 20 '14 at 12:08
  • This is my preferred way of having a singleton. It has all the usual features (thread-safety & lazy instantiation) and it supports a very lightweight syntax: no need to write TPScopeManager.sharedInstance.doIt() all the time, just name your class TPScopeManagerClass, have this declaration next to the class public let TPScopeManager = TPScopeManagerClass(), and when using just write TPScopeManager.doIt(). Very clean! – Alex Mar 6 '15 at 22:11
  • There's nothing here to prevent creation of additional instances of TPScopeManager, and it is therefore not a singleton by definition. – Caleb Mar 15 '16 at 13:30

Swift singletons are exposed in the Cocoa frameworks as class functions, e.g. NSFileManager.defaultManager(), NSNotificationCenter.defaultCenter(), so I feel it makes more sense as a class function to mirror this behaviour, rather than a class variable as some other solutions use, e.g.

class MyClass {

    private static let _sharedInstance = MyClass()

    class func sharedInstance() -> MyClass {
        return _sharedInstance
    }
}

Retrieve the singleton via MyClass.sharedInstance().

  • 1
    upvoted for the comment of LearnCocos2D :) , also for the style. – x4h1d Oct 14 '15 at 5:39
  • 1
    the global variable should be changed to a class variable via a static inside the class. – malhal Dec 1 '15 at 5:09
  • 1
    @malhal when a variable is marked private but outside a class, it's not global - but scoped only to the file it is in. A static inside the class would work pretty much the same, but i've updated the answer to use the static as you suggested, as it better groups the variable to the class if you happen to use multiple classes within the file. – Ryan Dec 2 '15 at 3:56
  • 1
    "Swift Singletons are exposed in the cocoa frameworks as class functions" ... Not in Swift 3. They're now usually static properties. – Rob Sep 22 '16 at 1:10

Per the Apple documentation, it has been repeated many times that the easiest way to do this in Swift is with a static type property:

class Singleton {
    static let sharedInstance = Singleton()
}

However, if you're looking for a way to perform additional setup beyond a simple constructor call, the secret is to use an immediately invoked closure:

class Singleton {
    static let sharedInstance: Singleton = {
        let instance = Singleton()
        // setup code
        return instance
    }()
}

This is guaranteed to be thread-safe and lazily initialized only once.

  • how can you set the static let instance back to nil? – gpichler Nov 20 '15 at 14:15
  • 1
    @user1463853 - You can't, and generally shouldn't. – Rob Sep 22 '16 at 1:11

Swift 4+

protocol Singleton: class {
    static var sharedInstance: Self { get }
}

final class Kraken: Singleton {
    static let sharedInstance = Kraken()
    private init() {}
}
  • 2
    this needs final class, can you explain more the difference, coz I have issue with the other solution of singleton with struct – Raheel Sadiq Sep 25 '16 at 10:11
  • should that be private override init() {} – NSRover Dec 13 '16 at 16:48

Looking at Apple's sample code I came across this pattern. I'm not sure how Swift deals with statics, but this would be thread safe in C#. I include both the property and method for Objective-C interop.

struct StaticRank {
    static let shared = RankMapping()
}

class func sharedInstance() -> RankMapping {
    return StaticRank.shared
}

class var shared:RankMapping {
    return StaticRank.shared
}
  • I am pretty sure that just using this default static syntax will do the all annoying jobs. – Eonil Jun 5 '14 at 4:18
  • unfortunately statics only work inside of structs, so that's why this pattern. – user2485100 Jun 5 '14 at 5:16
  • My intention was that we don't have to use dispatch_once stuffs. I am betting on your style. :) – Eonil Jun 5 '14 at 5:24
  • 1
    I like this solution, but is it thread-safe? – Sam Jun 5 '14 at 7:46
  • Isn't class within a class declaration the equivalent of static in a struct declaration? – Russell Borogove Jun 5 '14 at 17:51

If you are planning on using your Swift singleton class in Objective-C, this setup will have the compiler generate appropriate Objective-C-like header(s):

class func sharedStore() -> ImageStore {
struct Static {
    static let instance : ImageStore = ImageStore()
    }
    return Static.instance
}

Then in Objective-C class you can call your singleton the way you did it in pre-Swift days:

[ImageStore sharedStore];

This is just my simple implementation.

  • This is actually more concise & correct than the other example because it is implemented the same way as other Swift singletons are. i.e: as class functions like NSFileManager.defaultManager(), but still uses the lazy thread-safe static member mechanisms of Swift. – Leslie Godwin Nov 3 '15 at 5:31
  • Cocoa generally implements these as static properties, nowadays, not as class functions. – Rob Sep 22 '16 at 1:12
  • I am aware of that, my comment is over 2 years old. Thanks for mentioning. – Michael Sep 23 '16 at 19:50

First solution

let SocketManager = SocketManagerSingleton();

class SocketManagerSingleton {

}

Later in your code:

func someFunction() {        
    var socketManager = SocketManager        
}

Second solution

func SocketManager() -> SocketManagerSingleton {
    return _SocketManager
}
let _SocketManager = SocketManagerSingleton();

class SocketManagerSingleton {

}

And later in your code you will be able to keep braces for less confusion:

func someFunction() {        
    var socketManager = SocketManager()        
}

Use:

class UtilSingleton: NSObject {

    var iVal: Int = 0

    class var shareInstance: UtilSingleton {
        get {
            struct Static {
                static var instance: UtilSingleton? = nil
                static var token: dispatch_once_t = 0
            }
            dispatch_once(&Static.token, {
                Static.instance = UtilSingleton()
            })
            return Static.instance!
        }
    }
}

How to use:

UtilSingleton.shareInstance.iVal++
println("singleton new iVal = \(UtilSingleton.shareInstance.iVal)")
  • This is exactly the same as one of the answers I went through on the way to the current answer. Since global variables are initialized both lazy and thread-safe, there's no reason for the additional complexity. – David Berry Jun 6 '14 at 15:14
  • @David Other than not having a global variable. :) – hpique Jun 10 '14 at 5:37
  • @hpique no, exactly like one of my earlier attempts. Look at the edit history. – David Berry Jun 10 '14 at 14:47

In brief,

class Manager {
    static let sharedInstance = Manager()
    private init() {}
}

You may want to read Files and Initialization

The lazy initializer for a global variable (also for static members of structs and enums) is run the first time that global is accessed, and is launched as dispatch_once to make sure that the initialization is atomic.

final class MySingleton {
     private init() {}
     static let shared = MySingleton()
}

Then call it;

let shared = MySingleton.shared
  • Well done for not only marking init as private, but also for making the sharedMyModel as final! For the sake of future readers, in Swift 3, we might be inclined to rename sharedMyModel to be simply shared. – Rob Nov 11 '16 at 9:16
  • This is the only correct answer, except that the override and call to super.init are erroneous and will not even compile. – Michael Morris Apr 16 '17 at 14:47

I would suggest an Enum, like you would use in Java, e.g.:

enum SharedTPScopeManager: TPScopeManager {
  case Singleton
}
  • IMO, this is the only correct Swift way to implement Singleton. other answers are ObjC/C/C++ way – Bryan Chen Jun 30 '14 at 23:08
  • Could you elaborate on this answer? It's not clear to me where Singleton is instantiated from this snippet – Kenny Winker Jul 6 '14 at 1:57
  • @KennyWinker I don't have an Apple developer login, therefore no swift and so I can't answer when the initialisation occurs. In Java, it is on first use. Perhaps you could try it with a print on initialization and see if the print occurs at launch or after access. It will depend on how enum is implemented by the compiler. – Howard Lovatt Jul 7 '14 at 3:04
  • @KennyWinkler: Apple have just clarified how this works, see developer.apple.com/swift/blog/?id=7. In it they say "run the initializer for a global the first time it is referenced, similar to Java" and in particular. They also say that under the covers they are using "dispatch_once to make sure that the initialization is atomic". Therefore enum is almost certainly the way to go unless you have some fancy init to do, then a private static let is the solution. – Howard Lovatt Aug 4 '14 at 5:11

Just for reference, here is an example Singleton implementation of Jack Wu/hpique's Nested Struct implementation. The implementation also shows how archiving could work, as well as some accompanying functions. I couldn't find this complete of an example, so hopefully this helps somebody!

import Foundation

class ItemStore: NSObject {

    class var sharedStore : ItemStore {
        struct Singleton {
            // lazily initiated, thread-safe from "let"
            static let instance = ItemStore()
        }
        return Singleton.instance
    }

    var _privateItems = Item[]()
    // The allItems property can't be changed by other objects
    var allItems: Item[] {
        return _privateItems
    }

    init() {
        super.init()
        let path = itemArchivePath
        // Returns "nil" if there is no file at the path
        let unarchivedItems : AnyObject! = NSKeyedUnarchiver.unarchiveObjectWithFile(path)

        // If there were archived items saved, set _privateItems for the shared store equal to that
        if unarchivedItems {
            _privateItems = unarchivedItems as Array<Item>
        } 

        delayOnMainQueueFor(numberOfSeconds: 0.1, action: {
            assert(self === ItemStore.sharedStore, "Only one instance of ItemStore allowed!")
        })
    }

    func createItem() -> Item {
        let item = Item.randomItem()
        _privateItems.append(item)
        return item
    }

    func removeItem(item: Item) {
        for (index, element) in enumerate(_privateItems) {
            if element === item {
                _privateItems.removeAtIndex(index)
                // Delete an items image from the image store when the item is 
                // getting deleted
                ImageStore.sharedStore.deleteImageForKey(item.itemKey)
            }
        }
    }

    func moveItemAtIndex(fromIndex: Int, toIndex: Int) {
        _privateItems.moveObjectAtIndex(fromIndex, toIndex: toIndex)
    }

    var itemArchivePath: String {
        // Create a filepath for archiving
        let documentDirectories = NSSearchPathForDirectoriesInDomains(NSSearchPathDirectory.DocumentDirectory, NSSearchPathDomainMask.UserDomainMask, true)
        // Get the one document directory from that list
        let documentDirectory = documentDirectories[0] as String
        // append with the items.archive file name, then return
        return documentDirectory.stringByAppendingPathComponent("items.archive")
    }

    func saveChanges() -> Bool {
        let path = itemArchivePath
        // Return "true" on success
        return NSKeyedArchiver.archiveRootObject(_privateItems, toFile: path)
    }
}

And if you didn't recognize some of those functions, here is a little living Swift utility file I've been using:

import Foundation
import UIKit

typealias completionBlock = () -> ()

extension Array {
    func contains(#object:AnyObject) -> Bool {
        return self.bridgeToObjectiveC().containsObject(object)
    }

    func indexOf(#object:AnyObject) -> Int {
        return self.bridgeToObjectiveC().indexOfObject(object)
    }

    mutating func moveObjectAtIndex(fromIndex: Int, toIndex: Int) {
        if ((fromIndex == toIndex) || (fromIndex > self.count) ||
            (toIndex > self.count)) {
                return
        }
        // Get object being moved so it can be re-inserted
        let object = self[fromIndex]

        // Remove object from array
        self.removeAtIndex(fromIndex)

        // Insert object in array at new location
        self.insert(object, atIndex: toIndex)
    }
}

func delayOnMainQueueFor(numberOfSeconds delay:Double, action closure:()->()) {
    dispatch_after(
        dispatch_time(
            DISPATCH_TIME_NOW,
            Int64(delay * Double(NSEC_PER_SEC))
        ),
        dispatch_get_main_queue()) {
            closure()
    }
}

The best approach in Swift above 1.2 is a one-line singleton, as -

class Shared: NSObject {

    static let sharedInstance = Shared()

    private override init() { }
}

To know more detail about this approach you can visit this link.

I prefer this implementation:

class APIClient {

}

var sharedAPIClient: APIClient = {
    return APIClient()
}()

extension APIClient {
    class func sharedClient() -> APIClient {
        return sharedAPIClient
    }
}

My way of implementation in Swift...

ConfigurationManager.swift

import Foundation

    let ConfigurationManagerSharedInstance = ConfigurationManager()
 class ConfigurationManager : NSObject {
    var globalDic: NSMutableDictionary = NSMutableDictionary()

class var sharedInstance:ConfigurationManager {
    return ConfigurationManagerSharedInstance

}

init() {

    super.init()

    println ("Config Init been Initiated, this will be called only onece irrespective of many calls")   

}

Access the globalDic from any screen of the application by the below.

Read:

 println(ConfigurationManager.sharedInstance.globalDic)  

Write:

 ConfigurationManager.sharedInstance.globalDic = tmpDic // tmpDict is any value that to be shared among the application

From Apple Docs (Swift 3.0.1),

You can simply use a static type property, which is guaranteed to be lazily initialized only once, even when accessed across multiple threads simultaneously:

class Singleton {
    static let sharedInstance = Singleton()
}

If you need to perform additional setup beyond initialization, you can assign the result of the invocation of a closure to the global constant:

class Singleton {
    static let sharedInstance: Singleton = {
        let instance = Singleton()
        // setup code
        return instance
    }()
}

After seeing David's implementation, it seems like there's no need to have a singleton class function instanceMethod since let is doing pretty much the same thing as a sharedInstance class method. All you need to do is declare it as a global constant and that would be it.

let gScopeManagerSharedInstance = ScopeManager()

class ScopeManager {
 // No need for a class method to return the shared instance. Use the gScopeManagerSharedInstance directly. 
}
  • 2
    As I say in my comments, the only reason to do it is that at some point in the future you can move/hide the global variable and get more singleton-like behavior. At that point, if everything is using a consistent pattern, you can just change the singleton classes themselves without having to change the usage. – David Berry Jun 7 '14 at 4:18
   func init() -> ClassA {
    struct Static {
        static var onceToken : dispatch_once_t = 0
        static var instance : ClassA? = nil
    }

    dispatch_once(&Static.onceToken) {
        Static.instance = ClassA()
    }

    return Static.instance!
}
  • As has been discussed at great length here, it's not necessary in swift to wrap initialization in dispatch_once since static variable initialization is lazy and automatically protected via dispatch_once Apple actually recommends using statics instead of dispatch_once for that reason. – David Berry Jan 27 '15 at 16:00

I just came across with this, but I required my singleton to allow inheritance, and none of these solutions actually allowed it.

So I came up with this:

public class Singleton {
  private static var sharedInstanceVar = Singleton()

  public class func sharedInstance()->Singleton {
    return sharedInstanceVar
  }
}


public class SubSingleton: Singleton {

  private static var sharedInstanceToken:dispatch_once_t = 0

  public class override func sharedInstance()->SubSingleton {
    dispatch_once(&sharedInstanceToken){
      sharedInstanceVar = SubSingleton()
    }
    return sharedInstanceVar as! SubSingleton
  }
}
  • This way when doing Singleton.sharedInstance() first it will return the instance of Singleton
  • When doing SubSingleton.sharedInstance() first it will return the instance of SubSingleton created.
  • If the above is done, then SubSingleton.sharedInstance() is Singleton is true and the same instance is used.

The issue with this first dirty approach is that I cannot guarantee that subclasses would implement the dispatch_once_t and make sure that sharedInstanceVar is only modified once per class...

I will try to refine this further, but it would be interesting to see if anyone has strong feelings against this (besides the fact that it is verbose and requires to manually update it).

This is the simplest one with thread safe capabilities. No other thread can access the same singleton object even if they want. Swift 3/4

struct DataService {

    private static var _instance : DataService?

    private init() {}   //cannot initialise from outer class

    public static var instance : DataService {
        get {
            if _instance == nil {
                DispatchQueue.global().sync(flags: .barrier) {
                    if _instance == nil {
                        _instance = DataService()
                    }
                }
            }
            return _instance!
        }
    }
}
  • 1
    What is the advantage over a static type property (which is guaranteed to be lazily initialized only once, even when accessed across multiple threads simultaneously) ? – Martin R Oct 12 '17 at 13:06

Swift to realize singleton in the past, is nothing more than the three ways: global variables, internal variables and dispatch_once ways.

Here are two good singleton.(note: no matter what kind of writing will must pay attention to the init () method of privatisation.Because in Swift, all the object's constructor default is public, needs to be rewritten init can be turned into private, prevent other objects of this class '()' by default initialization method to create the object.)

Method 1:

class AppManager {
    private static let _sharedInstance = AppManager()

    class func getSharedInstance() -> AppManager {
       return _sharedInstance
    }

    private init() {} // Privatizing the init method
}

// How to use?
AppManager.getSharedInstance()

Method 2:

class AppManager {
    static let sharedInstance = AppManager()

    private init() {} // Privatizing the init method
}

// How to use?
AppManager.sharedInstance

This is my implementation. It also prevents the programmer from creating a new instance:

let TEST = Test()

class Test {

    private init() {
        // This is a private (!) constructor
    }
}
private var sharedURLCacheForRequestsKey:Void?
extension URLCache{
public static func sharedURLCacheForRequests()->URLCache{
    var cache = objc_getAssociatedObject(OperationQueue.main, &sharedURLCacheForRequestsKey)
    if cache is URLCache {

    }else{
        cache = URLCache(memoryCapacity: 0, diskCapacity: 1*1024*1024*1024, diskPath: "sharedURLCacheForRequestsKey")
        objc_setAssociatedObject(OperationQueue.main, &sharedURLCacheForRequestsKey, cache, .OBJC_ASSOCIATION_RETAIN_NONATOMIC)

    }
    return cache as! URLCache
}}

I tend to use the following syntax as the most complete:

public final class Singleton {    
    private class func sharedInstance() -> Singleton {
        struct Static {
            //Singleton instance.
            static let sharedInstance = Singleton()
        }
        return Static.sharedInstance
    }

    private init() { }

    class var instance: Singleton {
        return sharedInstance()
    }
}

This works from Swift 1.2 up to 4, and offers several virtues:

  1. Reminds the user not to subclass implementation
  2. Prevents creation of additional instances
  3. Ensures lazy creation and unique instantiation
  4. Shortens syntax (avoids ()) by allowing to access instance as Singleton.instance

use a static variable and private initializer to create a singleton class.

class MySingletonClass {

    static let sharedSingleton = MySingletonClass()

    private init() {}
}

protected by Community Jul 21 '14 at 22:01

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