在带继承的 Swift 4中使用解码器

I believe in the case of inheritance you must implement Coding yourself. That is, you must specify CodingKeys and implement init(from:) and encode(to:) in both superclass and subclass. Per the WWDC video (around 49:28, pictured below), you must call super with the super encoder/decoder.

required init(from decoder: Decoder) throws {


// Get our container for this subclass' coding keys
let container = try decoder.container(keyedBy: CodingKeys.self)
myVar = try container.decode(MyType.self, forKey: .myVar)
// otherVar = ...


// Get superDecoder for superclass and call super.init(from:) with it
let superDecoder = try container.superDecoder()
try super.init(from: superDecoder)


}

The video seems to stop short of showing the encoding side (but it's container.superEncoder() for the encode(to:) side) but it works in much the same way in your encode(to:) implementation. I can confirm this works in this simple case (see playground code below).

I'm still struggling with some odd behavior myself with a much more complex model I'm converting from NSCoding, which has lots of newly-nested types (including struct and enum) that's exhibiting this unexpected nil behavior and "shouldn't be". Just be aware there may be edge cases that involve nested types.

Edit: Nested types seem to work fine in my test playground; I now suspect something wrong with self-referencing classes (think children of tree nodes) with a collection of itself that also contains instances of that class' various subclasses. A test of a simple self-referencing class decodes fine (that is, no subclasses) so I'm now focusing my efforts on why the subclasses case fails.

Update June 25 '17: I ended up filing a bug with Apple about this. rdar://32911973 - Unfortunately an encode/decode cycle of an array of Superclass that contains Subclass: Superclass elements will result in all elements in the array being decoded as Superclass (the subclass' init(from:) is never called, resulting in data loss or worse).

//: Fully-Implemented Inheritance


class FullSuper: Codable {


var id: UUID?


init() {}


private enum CodingKeys: String, CodingKey { case id }


required init(from decoder: Decoder) throws {


let container = try decoder.container(keyedBy: CodingKeys.self)
id = try container.decode(UUID.self, forKey: .id)


}


func encode(to encoder: Encoder) throws {


var container = encoder.container(keyedBy: CodingKeys.self)
try container.encode(id, forKey: .id)


}


}


class FullSub: FullSuper {


var string: String?
private enum CodingKeys: String, CodingKey { case string }


override init() { super.init() }


required init(from decoder: Decoder) throws {


let container = try decoder.container(keyedBy: CodingKeys.self)
let superdecoder = try container.superDecoder()
try super.init(from: superdecoder)


string = try container.decode(String.self, forKey: .string)


}


override func encode(to encoder: Encoder) throws {


var container = encoder.container(keyedBy: CodingKeys.self)
try container.encode(string, forKey: .string)


let superencoder = container.superEncoder()
try super.encode(to: superencoder)


}
}


let fullSub = FullSub()
fullSub.id = UUID()
fullSub.string = "FullSub"


let fullEncoder = PropertyListEncoder()
let fullData = try fullEncoder.encode(fullSub)


let fullDecoder = PropertyListDecoder()
let fullSubDecoded: FullSub = try fullDecoder.decode(FullSub.self, from: fullData)

Both the super- and subclass properties are restored in fullSubDecoded.

I was able to make it work by making my base class and subclasses conform to Decodable instead of Codable. If I used Codable it would crash in odd ways, such as getting a EXC_BAD_ACCESS when accessing a field of the subclass, yet the debugger could display all the subclass values with no problem.

Additionally, passing the superDecoder to the base class in super.init() didn't work. I just passed the decoder from the subclass to the base class.

How about using the following way?

protocol Parent: Codable {
var inheritedProp: Int? {get set}
}


struct Child: Parent {
var inheritedProp: Int?
var title: String?


enum CodingKeys: String, CodingKey {
case inheritedProp = "inherited_prop"
case title = "short_title"
}
}

Additional info on composition: http://mikebuss.com/2016/01/10/interfaces-vs-inheritance/

Found This Link - Go down to inheritance section

override func encode(to encoder: Encoder) throws {
try super.encode(to: encoder)
var container = encoder.container(keyedBy: CodingKeys.self)
try container.encode(employeeID, forKey: .employeeID)
}

For Decoding I did this:

 required init(from decoder: Decoder) throws {


try super.init(from: decoder)


let values = try decoder.container(keyedBy: CodingKeys.self)
total = try values.decode(Int.self, forKey: .total)
}


private enum CodingKeys: String, CodingKey
{
case total


}

Here is a library TypePreservingCodingAdapter to do just that (can be installed with Cocoapods or SwiftPackageManager).

The code below compiles and works just fine with Swift 4.2. Unfortunately for every subclass you'll need to implement encoding and decoding of properties on your own.

import TypePreservingCodingAdapter
import Foundation


// redeclared your types with initializers
class Server: Codable {
var id: Int?


init(id: Int?) {
self.id = id
}
}


class Development: Server {
var name: String?
var userId: Int?


private enum CodingKeys: String, CodingKey {
case name
case userId
}


init(id: Int?, name: String?, userId: Int?) {
self.name = name
self.userId = userId
super.init(id: id)
}


required init(from decoder: Decoder) throws {
try super.init(from: decoder)
let container = try decoder.container(keyedBy: CodingKeys.self)


name = try container.decodeIfPresent(String.self, forKey: .name)
userId = try container.decodeIfPresent(Int.self, forKey: .userId)
}


override func encode(to encoder: Encoder) throws {
try super.encode(to: encoder)
var container = encoder.container(keyedBy: CodingKeys.self)


try container.encode(name, forKey: .name)
try container.encode(userId, forKey: .userId)
}


}


// create and adapter
let adapter = TypePreservingCodingAdapter()
let encoder = JSONEncoder()
let decoder = JSONDecoder()


// inject it into encoder and decoder
encoder.userInfo[.typePreservingAdapter] = adapter
decoder.userInfo[.typePreservingAdapter] = adapter


// register your types with adapter
adapter.register(type: Server.self).register(type: Development.self)




let server = Server(id: 1)
let development = Development(id: 2, name: "dev", userId: 42)


let servers: [Server] = [server, development]


// wrap specific object with Wrap helper object
let data = try! encoder.encode(servers.map { Wrap(wrapped: $0) })


// decode object back and unwrap them force casting to a common ancestor type
let decodedServers = try! decoder.decode([Wrap].self, from: data).map { $0.wrapped as! Server }


// check that decoded object are of correct types
print(decodedServers.first is Server)     // prints true
print(decodedServers.last is Development) // prints true

🚀 Swift introduced Property Wrappers in 5.1 I implemented a library called SerializedSwift that uses the power of property wrappers to Decode and Encode JSON data to objects.

One of my main goals was, to make inherited object to decode out of the box, without additonal init(from decoder: Decoder) overrides.

import SerializedSwift


class User: Serializable {


@Serialized
var name: String
    

@Serialized("globalId")
var id: String?
    

@Serialized(alternateKey: "mobileNumber")
var phoneNumber: String?
    

@Serialized(default: 0)
var score: Int
    

required init() {}
}


// Inherited object
class PowerUser: User {
@Serialized
var powerName: String?


@Serialized(default: 0)
var credit: Int
}

It also supports custom coding keys, alternate keys, default values, custom transformation classes and many more features to be included in the future.

Available on GitHub (SerializedSwift).

Swift 5

The compiler synthesises decodable code only for a type that directly adopts Codable protocol so that you observe decoding for a single of your type in inheritance.

But you can try next generic approach with KeyValueCoding package (https://github.com/ikhvorost/KeyValueCoding) and this package provides access to all properties metadata and allows to get/set any property for pure swift types dynamically. The idea is to make a base Coding class which adopts KeyValueCoding and implements decoding of all available properties in init(from: Decoder):

class Coding: KeyValueCoding, Decodable {
    

typealias DecodeFunc = (KeyedDecodingContainer<_CodingKey>, _CodingKey) throws -> Any?
    

struct _CodingKey: CodingKey {
let stringValue: String
let intValue: Int?


init(stringValue: String) {
self.stringValue = stringValue
self.intValue = Int(stringValue)
}


init(intValue: Int) {
self.stringValue = "\(intValue)"
self.intValue = intValue
}
}
    

static func decodeType<T: Decodable>(_: T.Type) -> (type: T.Type, f: DecodeFunc)  {
(T.self,  { try $0.decode(T.self, forKey: $1) })
}
    

static var decodeTypes: [(Any.Type, DecodeFunc)] = [
decodeType(Int.self),
decodeType(Int?.self),
decodeType(String.self),
decodeType(String?.self),
// Other types to support...
]
    

required init(from decoder: Decoder) throws {
let container = try decoder.container(keyedBy: _CodingKey.self)
try container.allKeys.forEach { codingKey in
let key = codingKey.stringValue
guard let property = (properties.first { $0.name == key }),
let item = (Self.decodeTypes.first { property.type == $0.0 })
else {
return
}
var this = self
this[key] = try item.1(container, codingKey)
}
}
}

It is important to provide all supported types to decode in decodeTypes variable.

How to use:

class Server: Coding {
var id: Int?
}


class Development : Server {
var name: String = ""
}


class User: Development {
var userId: Int = 0
}


func decode() {
let json = "{\"id\": 1, \"name\": \"Large Building Development\", \"userId\": 123}"
do {
let user = try JSONDecoder().decode(User.self, from:json.data(using: .utf8)!)
print(user.id, user.name, user.userId) // Optional(1) Large Building Development 123
}
catch {
print(error.localizedDescription)
}
}