1.Class 类型的 NSCoding
1.1 正儿八经的使用方式
前提一定是要继承NSObject,实现NSCoding协议,和 OC 基本差不多。
class Coordinate:NSObject,NSCoding {
let latitude:Double = 10
let longitude:Double = 10
init(latitude:Double,longitude:Double) {
self.latitude = latitude
self.longitude = longitude
}
convenience required init?(coder aDecoder: NSCoder) {
self.init()
self.latitude = aDecoder.decodeObject(forKey: "latitude")
self.longitude = aDecoder.decodeObject(forKey: "longitude")
}
func encode(with aCoder: NSCoder) {
aCoder.encode(coordinate?.latitude,forKey:"latitude")
aCoder.encode(coordinate?.longitude,forKey:"longitude")
}
}
1.2 Mirror基础知识
下面是一个简单的例子:
class Project {
var title: String = ""
var id: Int = 0
var platform: String = ""
var version: Int = 0
var info: String?
}
创建一个实例,得到其反射结果。我们可以得到的东西很多,类型,值,标签等等
let sampleProject = Project()
sampleProject.title = "MirrorMirror"
sampleProject.id = 199
sampleProject.platform = "iOS"
sampleProject.version = 2
sampleProject.info = "test app for Reflection"
The code below shows the creating of Mirror instance. The children property of the mirror is a AnyForwardCollection<Child> where Child is typealias tuple for subject's property and value. Child had a label: String and value: Any.
let projectMirror = Mirror(reflecting: sampleProject)
let properties = projectMirror.children
print(properties.count) //5
print(properties.first?.label) //Optional("title")
print(properties.first!.value) //MirrorMirror
print()
for property in properties {
print("\(property.label!):\(property.value)")
}
终端输出如下:
title:MirrorMirror
id:199
platform:iOS
version:2
info:Optional("test app for Reflection")
Tested in Playground on Xcode 8 beta 2
语法:
Mirror(reflecting: instance) // Initializes a mirror with the subject to reflect
mirror.displayStyle // 这里就是 Class 当让也会是struct
mirror.description // 其实就是 CustomStringConvertible 协议的描述
mirror.subjectType // 返回被反射的对象的类型 这里是Project
mirror.superclassMirror // 返回被反射的对象的父类的类型 这里没有就是nil
如果你想完整的看Mirror用法,请前往swiftgg 阅读 Swift 反射 API 及用法 一文。
1.3 使用Mirror改写NSCoding
/// 继承 NSCoding 协议的 Class
class PersonClass:NSObject,NSCoding{
var name:String = "pmst"
var age:Int = 20
override var description: String{
return "name:\(name) age:\(age)"
}
override init() {
super.init()
}
convenience required init?(coder aDecoder: NSCoder) {
self.init()
var mirror:Mirror? = Mirror(reflecting: self)
repeat {
// typealias Children = AnyCollection<Mirror.Child>
// typealias Child = (label: String?, value: Any)
// 以上是额外的知识点
for case let (label?,value) in mirror!.children {
setValue(value, forKey: label)
}
mirror = mirror!.superclassMirror
} while mirror != nil
}
func encode(with aCoder: NSCoder) {
var mirror:Mirror? = Mirror(reflecting: self)
repeat {
// typealias Children = AnyCollection<Mirror.Child>
// typealias Child = (label: String?, value: Any)
// 以上是额外的知识点
for case let (label?,value) in mirror!.children {
aCoder.encode(value, forKey: label)
}
mirror = mirror!.superclassMirror
} while mirror != nil
}
}
class Teacher:PersonClass{
var course = "英文"
var workAge = 10
override var description: String{
return super.description + " course:\(course)" + "workAge:\(workAge)"
}
}
实战:
let encodePerson = PersonClass()
let documentsPath = NSSearchPathForDirectoriesInDomains(FileManager.SearchPathDirectory.documentDirectory, FileManager.SearchPathDomainMask.userDomainMask, true).first
let path = documentsPath?.appending("/person1")
print(path)
let data = NSKeyedArchiver.archiveRootObject(encodePerson, toFile: path!)
print(encodePerson)
encodePerson.name = "machao"
encodePerson.age = 18
print(encodePerson)
// 解压出来
let decodePerson = NSKeyedUnarchiver.unarchiveObject(withFile: path!)
print(decodePerson)
let encodeTeacher = Teacher()
let path1 = documentsPath?.appending("/teacher")
let data1 = NSKeyedArchiver.archiveRootObject(encodeTeacher, toFile: path1!)
let decodeTeacher = NSKeyedUnarchiver.unarchiveObject(withFile: path1!)
print(decodeTeacher)
2. Struct 类型的 NSCoding
NSCoding 协议定义了 encode 和 decode,另外 Swift 必须遵循 NSObjectProtocol ,顾名思义只适用类对象,结构体 struct 显然被排除在外。那么如何让结构体也能达到 encode 和 decode呢?
创建一个专门负责encode和decode的类,这种做法在设计模式中应该叫做策略模式?单一职责原则也是我们所提倡的。下面介绍几种实现方式,本质都是需要创建一个类。下面介绍几种方式。
2.1 方式一
代码如下:
/// 坐标的基本数据结构
struct Coordinate {
let latitude:Double
let longitude:Double
init(latitude:Double,longitude:Double) {
self.latitude = latitude
self.longitude = longitude
}
}
/// 搞一个类负责encoding 这样可以更严格地适用单一职责原则
class EncodingCoordinate:NSObject,NSCoding{
var coordinate:Coordinate?
init(coordinate:Coordinate?) {
self.coordinate = coordinate
}
required init?(coder aDecoder: NSCoder) {
guard
let latitude = aDecoder.decodeObject(forKey: "latitude") as? Double,
let longitude = aDecoder.decodeObject(forKey: "longitude") as? Double else {
return nil
}
coordinate = Coordinate(latitude: latitude, longitude: longitude)
}
func encode(with aCoder: NSCoder) {
aCoder.encode(coordinate?.latitude,forKey:"latitude")
aCoder.encode(coordinate?.longitude,forKey:"longitude")
}
}
let coordinate = Coordinate(latitude: 12.0, longitude: 13.1)
let encodable = EncodingCoordinate(coordinate: coordinate)
let documentsPath = NSSearchPathForDirectoriesInDomains(FileManager.SearchPathDirectory.documentDirectory, FileManager.SearchPathDomainMask.userDomainMask, true).first
let path = documentsPath?.appending("/Coordinate")
print(path)
let data = NSKeyedArchiver.archiveRootObject(encodable, toFile: path!)// 关键!archiveRootObject的对象一定是实现了NSCoding协议的
优点:把encode和decode的职责单独搞成了一个类,我们使用时只需要传入结构体实例coordinate得到一个EncodingCoordinate类型的实例encodable,然后拿它来归档和接档操作。
缺点:每次都要为我们结构体单独创建一个归档解档的类,而且都是分离的,内聚性低。
因此我们尝试将归档解档的类嵌入到结构体中。
2.2 方式二
我们最终会调用结构体的encode和decode,但是我们会依靠HelperClass类,正如你看到的真正归档和解档的操作是由HelperClass来实现的,它实现NSCoding协议,和方式一的做法一样,我们会传入person对象。
struct Person{
let firstName:String
let lastName:String
static func encode(person: Person) {
let personClassObject = HelperClass(person: person)
NSKeyedArchiver.archiveRootObject(personClassObject, toFile: HelperClass.path())
}
static func decode() -> Person? {
let personClassObject = NSKeyedUnarchiver.unarchiveObject(withFile: HelperClass.path()) as? HelperClass
return personClassObject?.person
}
}
extension Person{
class HelperClass:NSObject,NSCoding {
var person:Person?
init(person:Person){
super.init()
self.person = person
}
class func path() -> String {
let documentsPath = NSSearchPathForDirectoriesInDomains(FileManager.SearchPathDirectory.documentDirectory, FileManager.SearchPathDomainMask.userDomainMask, true).first
let path = documentsPath?.appending("/Person")
return path!
}
required init?(coder aDecoder: NSCoder) {
super.init()
guard let firstName = aDecoder.decodeObject(forKey: "firstName") as? String else { person = nil; return nil }
guard let laseName = aDecoder.decodeObject(forKey: "lastName") as? String else { person = nil; return nil }
person = Person(firstName: firstName, lastName: laseName)
}
func encode(with aCoder: NSCoder) {
aCoder.encode(person!.firstName, forKey: "firstName")
aCoder.encode(person!.lastName, forKey: "lastName")
}
}
}
这里似乎我们只是进步了一点点,内聚性相对高一些,但是又遵循了单一职责原则。
2.3 方式三
swiftgg 结构体与 NSCoding 一文提供协议方式,但是我感觉还是局限性很大,只是为了结合Cache来做一些东西。接着Coordinate的代码改进,下面贴出代码:
/// 定义两个协议 前者是
protocol Encoded {
associatedtype Encoder: NSCoding
var encoder: Encoder { get } // 要求像Coordinate结构体对象提供一个实例,负责归档解档职责。ps:有点绕。
}
protocol Encodable {
associatedtype Value
var value: Value? { get }
}
extension EncodableCoordinate: Encodable {
var value: Coordinate? {
return coordinate
}
}
extension Coordinate: Encoded {
var encoder: EncodableCoordinate {
return EncodableCoordinate(coordinate: self)
}
}
/// cache对象 save和fetch两个操作分别对象归档和解档行为 这里的泛型约束很重要
/// T 首先是要遵循Encoded协议,提供一个归档解档类;接着T的关联类型 Encoder 要遵循Encodable协议,为的就是让encoder返回解档的值;最后保证解档的值的类型和T一致
class Cache<T: Encoded> where T.Encoder: Encodable, T.Encoder.Value == T {
//...
func save(object: T) {
NSKeyedArchiver.archiveRootObject(object.encoder, toFile: path)
}
func fetchObject() -> T? {
let fetchedEncoder = NSKeyedUnarchiver.unarchiveObject(withFile: storagePath)
let typedEncoder = fetchedEncoder as? T.Encoder
return typedEncoder?.value as T?
}
}
/// 使用
let cache = Cache<Coordinate>(name: "coordinateCache")
cache.save(object: coordinate)
2.4 另类的一种方式
实现思路是先转成字典,然后将字典归档解档。这里只是提供一种思路,但是只是个雏形,尽管结构体只要实现一个方法即可,但是感觉还是不太优雅。
代码如下:
protocol StructDecoder {
static func dictionaryTo(dict:Dictionary<String,Any>)->Self
static func path()->String
static func decode()->Self
func encode()
}
extension StructDecoder {
var mirrorObject:Mirror {
return Mirror(reflecting: self)
}
static func path()->String {
let documentsPath = NSSearchPathForDirectoriesInDomains(FileManager.SearchPathDirectory.documentDirectory, FileManager.SearchPathDomainMask.userDomainMask, true).first
let path = documentsPath?.appending("/\(Self.self)")
return path!
}
func toDictionary() -> Dictionary<String, Any> {
var mirror:Mirror? = mirrorObject
var dict:[String:Any] = [:]
repeat {
for case let (label?,value) in mirror!.children {
dict[label] = value
}
mirror = mirror!.superclassMirror
} while mirror != nil
return dict
}
func encode(){
NSKeyedArchiver.archiveRootObject(toDictionary(), toFile:Self.path())
}
static func decode()->Self {
let dict = NSKeyedUnarchiver.unarchiveObject(withFile: path()) as! [String:Any]
return Self.dictionaryTo(dict: dict)
}
}
struct STPerson:StructDecoder {
var name:String = "pmst"
var age:Int = 20
static func dictionaryTo(dict: Dictionary<String, Any>) -> STPerson {
return STPerson(name: dict["name"] as! String, age: dict["age"] as! Int)
}
}
可以看到只要实现dictionaryTo方法即可,原本我是希望也能默认实现的,但是发现貌似有点麻烦,暂且搁置。具体使用代码也很简单:
var stPerson = STPerson()
print(stPerson)
stPerson.age = 100
stPerson.name = "添加"
stPerson.encode()
var stPerson1 = STPerson.decode()
print(stPerson1)
优点:丑陋的一面被我隐藏在了extension里,你也做的不过是给你一个字典,自己映射到Model中。
缺点:一个对象只能归档到一个文件,当然这个只需要少许改动代码即可;用反射的归档解档效率肯定低,目前看来是致命伤!
如果有好的思路想法,请在下面给我留言哈。
