Awesome
Codability
Useful helpers for working with Codable
types in Swift
Installing
Swift Package Manager
Add the following to your Package.swift
dependencies:
.package(url: "https://github.com/yonaskolb/Codability.git", from: "0.2.0"),
And then import wherever needed: import Codability
Helpers
Invalid Element Strategy
By default Decodable will throw an error if a single element within an array or dictionary fails. InvalidElementStrategy
is an enum that lets you control this behaviour. It has multiple cases:
remove
: Removes the element from the collectionfail
: Will fail the whole decoding. This is the default behaviour used by the decodersfallback(value)
: This lets you provide a typed value in a type safe waycustom((EncodingError)-> InvalidElementStrategy)
: Lets you provide dynamic behaviour depending on the specific error that was throw which lets you lookup exactly which keys were involved
When decoding an array or dictionary use the decodeArray
and decodeDictionary
functions (there are also IfPresent
variants as well).
The InvalidElementStrategy
can either be passed into these functions, or a default can be set using JSONDecoder().userInfo[.invalidElementStrategy]
, otherwise the default of fail
will be used.
Given the following JSON:
{
"array": [1, "two", 3],
"dictionary": {
"one": 1,
"two": "two",
"three": 3
}
}
struct Object: Decodable {
let array: [Int]
let dictionary: [String: Int]
public init(from decoder: Decoder) throws {
let container = try decoder.container(keyedBy: RawCodingKey.self)
array = try container.decodeArray([Int].self, forKey: "array", invalidElementStrategy: .fallback(0))
dictionary = try container.decodeDictionary([String: Int].self, forKey: "dictionary", invalidElementStrategy: .remove)
}
}
let decoder = JSONDecoder()
// this will provide a default if none is passed into the decode functions
decoder.userInfo[.invalidElementStrategy] = InvalidElementStrategy<Any>.remove
let decodedObject = try decoder.decode(Object.self, from: json)
decodedObject.array == [1,0,3]
decodedObject.dictionary = ["one": 1, "three": 3]
Any Codable
The downside of using Codable is that you can't encode and decode properties where the type is mixed or unknown, for example [String: Any]
, [Any]
or Any
.
These are sometimes a neccessary evil in many apis, and AnyCodable
makes supporting these types easy.
There are 2 few different way to use it:
As a Codable property
The advantage of this is you can use the synthesized codable functions.
The downside though is that these values must be unwrapped using AnyCodable.value
. You can add custom setters and getters on your objects to make accessing these easier though
struct AnyContainer: Codable {
let dictionary: [String: AnyCodable]
let array: [AnyCodable]
let value: AnyCodable
}
Custom decoding and encoding functions
This lets you keep your normal structures, but requires using the decodeAny
or encodeAny
functions. If you have to implement a custom init(from:)
or encode
function for other reasons, this is the way to go. Behind the scenes this uses AnyCodable
to do the coding, and then does a cast to your expect type in the case of decoding.
struct AnyContainer: Codable {
let dictionary: [String: Any]
let array: [Any]
let value: Any
public init(from decoder: Decoder) throws {
let container = try decoder.container(keyedBy: CodingKeys.self)
dictionary = try container.decodeAny(.dictionary)
array = try container.decodeAny([Any].self, forKey: .array)
value = try container.decodeAny(Any.self, forKey: .value)
}
func encode(to encoder: Encoder) throws {
var container = encoder.container(keyedBy: CodingKeys.self)
try container.encodeAny(dictionary, forKey: .dictionary)
try container.encodeAny(array, forKey: .array)
try container.encodeAny(value, forKey: .value)
}
enum CodingKeys: CodingKey {
case dictionary
case value
case array
}
}
Raw CodingKey
RawCodingKey
can be used to provide dynamic coding keys. It also remove the need to create the standard CodingKey
enum when you are only using those values in once place.
struct Object: Decodable {
let int: Int
let bool: Bool
public init(from decoder: Decoder) throws {
let container = try decoder.container(keyedBy: RawCodingKey.self)
int = try container.decode(Int.self, forKey: "int")
bool = try container.decode(Bool.self, forKey: "bool")
}
}
Generic Decoding functions
The default decoding functions on KeyedDecodingContainer
and UnkeyedDecodingContainer
all require an explicity type to be passed in. Codabilty
adds generic functions to remove the need for this, making your init(from:)
much cleaner. The key
parameter also becomes unnamed.
All the helper functions provided by Codabality
such as the decodeAny
, decodeArray
or decodeDictionary
functions also have these generic variants including IfPresent
.
struct Object: Decodable {
let int: Int?
let bool: Bool
public init(from decoder: Decoder) throws {
let container = try decoder.container(keyedBy: RawCodingKey.self)
// old
int = try container.decodeIfPresent(Int.self, forKey: "int")
bool = try container.decode(Bool.self, forKey: "bool")
// new
int = try container.decodeIfPresent("int")
bool = try container.decode("bool")
}
}
Other Codability helpers
Attributions
Thanks to @mattt and Flight-School/AnyCodable for the basis of AnyCodable
support. License