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()
}
}
@lazy
should be thread safe.Static.instance = TPScopeManager()
forces the instance type. If you use something likeStatic.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.