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33 Commits

Author SHA1 Message Date
Mathew Polzin 9f42e5fa3f Merge pull request #48 from mattpolzin/feature/indentation
Feature/indentation
2019-11-05 23:03:03 -08:00
Mathew Polzin 3e96adf775 merge and fix conflicts 2019-11-05 23:00:18 -08:00
Mathew Polzin 83233a7e1a Merge pull request #46 from mattpolzin/feature/testing-comparisons
Feature/testing comparisons
2019-11-05 22:47:47 -08:00
Mathew Polzin adcc6bfb10 fix error after merge 2019-11-05 22:43:40 -08:00
Mathew Polzin 6f9a2df605 Merge remote-tracking branch 'origin/alpha/3x' into feature/testing-comparisons 2019-11-05 22:41:53 -08:00
Mathew Polzin c24b70b49f Merge pull request #45 from mattpolzin/feature/deprecate-subscript
Feature/deprecate subscript
2019-11-05 22:40:37 -08:00
Mathew Polzin 7b56e35a91 Merge pull request #47 from mattpolzin/feature/document-improvements
Feature/document improvements
2019-11-05 22:38:42 -08:00
Mathew Polzin e6f82c6052 indentation 2019-11-05 22:37:48 -08:00
Mathew Polzin d6f01d6c1d indentation 2019-11-05 22:27:59 -08:00
Mathew Polzin a7f6ed5845 update README 2019-11-05 21:03:51 -08:00
Mathew Polzin 87271b93f9 deprecate subscript attribute accessor in favor of key path dynamic member lookup 2019-11-05 20:48:04 -08:00
Mathew Polzin 706346e3a6 just reformatting and rearranging 2019-11-05 20:04:47 -08:00
Mathew Polzin 33a5ff41a0 beginning to do some breaking change cleanup 2019-11-05 19:50:52 -08:00
Mathew Polzin 0fe5c53ada generate linuxmain 2019-11-05 19:04:47 -08:00
Mathew Polzin f7bfa91ccc lots of comparison code, a few small breaking changes 2019-11-05 19:03:51 -08:00
Mathew Polzin 1a15ab6f9d Fix return type of success document after adding includes 2019-10-27 16:21:41 -07:00
Mathew Polzin eb85620379 regenerate swift test manifest 2019-10-20 22:30:15 -07:00
Mathew Polzin 57f85476c0 Bump podspec version 2019-10-20 22:29:22 -07:00
Mathew Polzin ea5c0b8601 Add Document.ErrorDocument and Document.SuccessDocument types 2019-10-20 22:23:52 -07:00
Mathew Polzin b46429a0ad Update README.md 2019-10-15 23:37:02 -07:00
Mathew Polzin dbc6ecc6d8 Update README.md 2019-10-12 21:39:29 -07:00
Mathew Polzin dbbacab105 Bump podspec version 2019-10-12 19:30:24 -07:00
Mathew Polzin 4eb36d4594 Merge pull request #41 from mattpolzin/feature/resource-object-replacing
Resource Object replacing and tapping
2019-10-12 19:27:29 -07:00
Mathew Polzin 43e02351de Add documentation on replacing and tapping attributes and relationships 2019-10-12 18:22:48 -07:00
Mathew Polzin 0b307bd3bc Add replacement and tapping functions for attributes and relationships. 2019-10-12 17:54:28 -07:00
Mathew Polzin 662a84ccf0 Add examples around modifying attributes/relationships on resource object and then preparing a new request (i.e. for PATCHing) 2019-10-12 09:35:01 -07:00
Mathew Polzin 44f9bca7dc Merge pull request #39 from mattpolzin/feature/add-poly-11
Add Include11 Type
2019-10-02 20:10:56 -07:00
Mathew Polzin 774b53b9b6 bump podspec version and bump podspec Poly dependency. 2019-10-02 20:05:28 -07:00
Mathew Polzin 654d3bfd2b Update Poly, add Include11 type. 2019-10-02 20:02:11 -07:00
Mathew Polzin c26d6d99c0 Update README.md 2019-09-29 17:21:43 -07:00
Mathew Polzin 43dcc4fb12 Update README.md 2019-09-29 17:21:08 -07:00
Mathew Polzin abae975f59 Update README.md 2019-09-29 17:20:42 -07:00
Mathew Polzin 0e6b2a7771 Update README.md 2019-09-29 17:14:25 -07:00
62 changed files with 4279 additions and 1810 deletions
@@ -0,0 +1,124 @@
//: [Previous](@previous)
import Foundation
import JSONAPI
/*******
Please enjoy these examples, but allow me the forced casting and the lack of error checking for the sake of brevity.
This playground focuses on receiving a resource, making some changes, and then creating a request body for a PATCH request.
As with all examples in these playround pages, no actual networking code will be provided.
********/
// Mock up a server response
let mockDogData = """
{
"data": {
"id": "1234",
"type": "dogs",
"attributes": {
"name": "Sparky"
},
"relationships": {
"owner": {
"data": null
}
}
}
}
""".data(using: .utf8)!
//
// MARK: - EXAMPLE 1 (Mutable Attributes)
//
// pretend to have requested a Dog and received the mock data
// now parse it.
let parsedResponse = try! JSONDecoder().decode(MutableDogDocument.self, from: mockDogData)
// extract our Dog (skipping over any robustness to handle errors)
var dog = parsedResponse.body.primaryResource!.value
print("Received dog named: \(dog.name)")
// change the dog's name
let changedDog = dog.tappingAttributes { $0.name = .init(value: "Julia") }
// create a document to be used as a request body for a PATCH request
let patchRequest = MutableDogDocument(apiDescription: .none,
body: .init(resourceObject: changedDog),
includes: .none,
meta: .none,
links: .none)
// encode and send off to server
let encodedPatchRequest = try! JSONEncoder().encode(patchRequest)
print("----")
print(String(data: encodedPatchRequest, encoding:.utf8)!)
//
// MARK: - EXAMPLE 2 (Immutable Attributes)
//
print()
print("####")
print()
// pretend to have requested a Dog and received the mock data
// now parse it.
let parsedResponse2 = try! JSONDecoder().decode(SingleDogDocument.self, from: mockDogData)
// extract our Dog (skipping over any robustness to handle errors)
var dog2 = parsedResponse2.body.primaryResource!.value
print("Received dog named: \(dog2.name)")
// change the dog's name
let changedDog2 = dog2.replacingAttributes { _ in
return .init(name: .init(value: "Nigel"))
}
// create a document to be used as a request body for a PATCH request
let patchRequest2 = SingleDogDocument(apiDescription: .none,
body: .init(resourceObject: changedDog2),
includes: .none,
meta: .none,
links: .none)
// encode and send off to server
let encodedPatchRequest2 = try! JSONEncoder().encode(patchRequest2)
print("----")
print(String(data: encodedPatchRequest2, encoding:.utf8)!)
//
// MARK: - EXAMPLE 3 (Change relationship)
//
print()
print("####")
print()
// pretend to have requested a Dog and received the mock data
// now parse it.
let parsedResponse3 = try! JSONDecoder().decode(SingleDogDocument.self, from: mockDogData)
// extract our Dog (skipping over any robustness to handle errors)
var dog3 = parsedResponse2.body.primaryResource!.value
print("Received dog with owner: \(dog3 ~> \.owner)")
// give the dog an owner
let changedDog3 = dog3.replacingRelationships { _ in
return .init(owner: .init(id: Id(rawValue: "1")))
}
// create a document to be used as a request body for a PATCH request
let patchRequest3 = SingleDogDocument(apiDescription: .none,
body: .init(resourceObject: changedDog3),
includes: .none,
meta: .none,
links: .none)
// encode and send off to server
let encodedPatchRequest3 = try! JSONEncoder().encode(patchRequest3)
print("----")
print(String(data: encodedPatchRequest3, encoding:.utf8)!)
+25
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@@ -119,6 +119,29 @@ public enum AlternativeDogDescription: ResourceObjectDescription {
public typealias AlternativeDog = ExampleEntity<AlternativeDogDescription>
public enum MutableDogDescription: ResourceObjectDescription {
public static var jsonType: String { return "dogs" }
public struct Attributes: JSONAPI.Attributes {
public var name: Attribute<String>
public init(name: Attribute<String>) {
self.name = name
}
}
public struct Relationships: JSONAPI.Relationships {
public var owner: ToOne<Person?>
public init(owner: ToOne<Person?>) {
self.owner = owner
}
}
}
public typealias MutableDog = ExampleEntity<MutableDogDescription>
public extension ResourceObject where Description == DogDescription, MetaType == NoMetadata, LinksType == NoLinks, EntityRawIdType == String {
init(name: String, owner: Person?) throws {
self = Dog(attributes: .init(name: .init(value: name)), relationships: DogDescription.Relationships(owner: .init(resourceObject: owner)), meta: .none, links: .none)
@@ -141,4 +164,6 @@ public typealias House = ExampleEntity<HouseDescription>
public typealias SingleDogDocument = JSONAPI.Document<SingleResourceBody<Dog>, NoMetadata, NoLinks, NoIncludes, NoAPIDescription, BasicJSONAPIError<String>>
public typealias MutableDogDocument = JSONAPI.Document<SingleResourceBody<MutableDog>, NoMetadata, NoLinks, NoIncludes, NoAPIDescription, BasicJSONAPIError<String>>
public typealias BatchPeopleDocument = JSONAPI.Document<ManyResourceBody<Person>, NoMetadata, NoLinks, Include2<Dog, House>, NoAPIDescription, BasicJSONAPIError<String>>
+1
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@@ -6,5 +6,6 @@
<page name='Full Client &amp; Server Example'/>
<page name='Full Document Verbose Generation'/>
<page name='Sparse Fieldsets Example'/>
<page name='PATCHing'/>
</pages>
</playground>
+2 -2
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@@ -16,7 +16,7 @@ Pod::Spec.new do |spec|
#
spec.name = "MP-JSONAPI"
spec.version = "2.2.0"
spec.version = "2.5.0"
spec.summary = "Swift Codable JSON API framework."
# This description is used to generate tags and improve search results.
@@ -136,6 +136,6 @@ See the JSON API Spec here: https://jsonapi.org/format/
# spec.requires_arc = true
# spec.xcconfig = { "HEADER_SEARCH_PATHS" => "$(SDKROOT)/usr/include/libxml2" }
spec.dependency "Poly", "~> 2.1"
spec.dependency "Poly", "~> 2.2"
end
+2 -2
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@@ -6,8 +6,8 @@
"repositoryURL": "https://github.com/mattpolzin/Poly.git",
"state": {
"branch": null,
"revision": "4a08517b24f8e9f6dd8c02ec7da316aac5c00e2e",
"version": "2.1.0"
"revision": "18cd995be5c28c4dfdc1464e54ee0efb03e215bf",
"version": "2.3.0"
}
}
]
+1 -1
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@@ -18,7 +18,7 @@ let package = Package(
targets: ["JSONAPITesting"])
],
dependencies: [
.package(url: "https://github.com/mattpolzin/Poly.git", .upToNextMajor(from: "2.1.0")),
.package(url: "https://github.com/mattpolzin/Poly.git", .upToNextMajor(from: "2.3.0")),
],
targets: [
.target(
+39 -6
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@@ -5,21 +5,24 @@ A Swift package for encoding to- and decoding from **JSON API** compliant reques
See the JSON API Spec here: https://jsonapi.org/format/
:warning: This library provides well-tested type safety when working with JSON:API 1.0. However, the Swift compiler can sometimes have difficulty tracking down small typos when initializing `ResourceObjects`. Once the code is written correctly, it will compile, but tracking down the source of programmer errors can be an annoyance. This is mostly a concern when creating resource objects in-code (servers and test cases must do this). Writing a client that uses this framework to ingest JSON API Compliant API responses is much less painful. :warning:
:warning: This library provides well-tested type safety when working with JSON:API 1.0. However, the Swift compiler can sometimes have difficulty tracking down small typos when initializing `ResourceObjects`. Once the code is written correctly, it will compile, but tracking down the source of programmer errors can be an annoyance. This is mostly a concern when creating resource objects in-code (servers and test cases must do this). Writing a client that uses this framework to ingest JSON API Compliant API responses is much less painful.
## Quick Start
:warning: The following Google Colab examples have correct code, but there appears to be an bug in the branch of the Swift compiler currently being used by the Google Colab Swift notebooks such that the `JSONAPI` package cannot be pulled in and you cannot run the examples in-browser.
### Clientside
- [Basic Example](https://colab.research.google.com/drive/1IS7lRSBGoiW02Vd1nN_rfdDbZvTDj6Te)
- [Compound Example](https://colab.research.google.com/drive/1BdF0Kc7l2ixDfBZEL16FY6palweDszQU)
- [Metadata Example](https://colab.research.google.com/drive/10dEESwiE9I3YoyfzVeOVwOKUTEgLT3qr)
- [Errors Example](https://colab.research.google.com/drive/1TIv6STzlHrkTf_-9Eu8sv8NoaxhZcFZH)
- [Custom Errors Example](https://colab.research.google.com/drive/1TIv6STzlHrkTf_-9Eu8sv8NoaxhZcFZH)
- [PATCH Example](https://colab.research.google.com/drive/16KY-0BoLQKiSUh9G7nYmHzB8b2vhXA2U)
### Serverside
- [GET Example](https://colab.research.google.com/drive/1krbhzSfz8mwkBTQQnKUZJLEtYsJKSfYX)
- [POST Example](https://colab.research.google.com/drive/1z3n70LwRY7vLIgbsMghvnfHA67QiuqpQ)
### Combined
### Client+Server
This library works well when used by both the server responsible for serialization and the client responsible for deserialization. Check out the [example](#example) further down in this README.
## Table of Contents
@@ -74,6 +77,9 @@ This library works well when used by both the server responsible for serializati
- [Sparse Fieldsets](#sparse-fieldsets)
- [Supporting Sparse Fieldset Encoding](#supporting-sparse-fieldset-encoding)
- [Sparse Fieldset `typealias` comparisons](#sparse-fieldset-typealias-comparisons)
- [Replacing and Tapping Attributes/Relationships](#replacing-and-tapping-attributesrelationships)
- [Tapping](#tapping)
- [Replacing](#replacing)
- [Custom Attribute or Relationship Key Mapping](#custom-attribute-or-relationship-key-mapping)
- [Custom Attribute Encode/Decode](#custom-attribute-encodedecode)
- [Meta-Attributes](#meta-attributes)
@@ -326,13 +332,11 @@ As of Swift 5.1, `Attributes` can be accessed via dynamic member keypath lookup
let favoriteColor: String = person.favoriteColor
```
đź—’ `Attributes` can also be accessed via the older `subscript` operator as follows:
:warning: `Attributes` can also be accessed via the older `subscript` operator, but this is a deprecated feature that will be removed in the next major version:
```swift
let favoriteColor: String = person[\.favoriteColor]
```
In both cases you retain type-safety. It is best practice to pick an attribute access syntax and stick with it. At some point in the future the syntax deemed less desirable may be deprecated.
#### `Transformer`
Sometimes you need to use a type that does not encode or decode itself in the way you need to represent it as a serialized JSON object. For example, the Swift `Foundation` type `Date` can encode/decode itself to `Double` out of the box, but you might want to represent dates as ISO 8601 compliant `String`s instead. The Foundation library `JSONDecoder` has a setting to make this adjustment, but for the sake of an example, you could create a `Transformer`.
@@ -567,6 +571,35 @@ In order to support sparse fieldsets (which are encode-only), the following comp
typealias SparseDocument<PrimaryResourceBody: JSONAPI.EncodableResourceBody, IncludeType: JSONAPI.Include> = JSONAPI.Document<PrimaryResourceBody, NoMetadata, NoLinks, IncludeType, NoAPIDescription, BasicJSONAPIError<String>>
```
### Replacing and Tapping Attributes/Relationships
When you are working with an immutable Resource Object, it can be useful to replace its attributes or relationships. As a client, you might receive a resource from the server, update something, and then send the server a PATCH request.
`ResourceObject` is immutable, but you can create a new copy of a `ResourceObject` having updated attributes or relationships.
#### Tapping
If your `Attributes` or `Relationships` struct is mutable (i.e. its properties are `var`s) then you may find `ResourceObject`'s `tappingAttributes()` and `tappingRelationships()` functions useful. For both, you pass a function that takes an `inout` copy of the respective object or value that you can mutate. The mutated value is then used to create a new `ResourceObject`.
For example, to take a hypothetical `Dog` resource object and change the name attribute:
```swift
let resourceObject = Dog(...)
let newResourceObject = resourceObject
.tappingAttributes { $0.name = .init(value: "Charlie") }
```
#### Replacing
If your `Attributes` or `Relationships` struct is immutable (i.e. its properties are `let`s) then you may find `ResourceObject`'s `replacingAttributes()` and `replacingRelationships()` functions useful. For both, you pass a function that takes the current attributes or relationships and you return a new value. The new value is then used to create a new `ResourceObject`.
For example, to take a hypothetical `Dog` resource object and change the name attribute:
```swift
let resourceObject = Dog(...)
let newResourceObject = resourceObject
.replacingAttributes { _ in
return Dog.Attributes(name: .init(value: "Charlie"))
}
```
### Custom Attribute or Relationship Key Mapping
There is not anything special going on at the `JSONAPI.Attributes` and `JSONAPI.Relationships` levels, so you can easily provide custom key mappings by taking advantage of `Codable`'s `CodingKeys` pattern. Here are two models that will encode/decode equivalently but offer different naming in your codebase:
```swift
+32 -32
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@@ -7,58 +7,58 @@
/// This is what the JSON API Spec calls the "JSON:API Object"
public protocol APIDescriptionType: Codable, Equatable {
associatedtype Meta
associatedtype Meta
}
/// This is what the JSON API Spec calls the "JSON:API Object"
public struct APIDescription<Meta: JSONAPI.Meta>: APIDescriptionType {
public let version: String
public let meta: Meta
public let version: String
public let meta: Meta
public init(version: String, meta: Meta) {
self.version = version
self.meta = meta
}
public init(version: String, meta: Meta) {
self.version = version
self.meta = meta
}
}
/// Can be used as `APIDescriptionType` for Documents that do not
/// have any API Description (a.k.a. "JSON:API Object").
public struct NoAPIDescription: APIDescriptionType, CustomStringConvertible {
public typealias Meta = NoMetadata
public typealias Meta = NoMetadata
public init() {}
public init() {}
public static var none: NoAPIDescription { return .init() }
public static var none: NoAPIDescription { return .init() }
public var description: String { return "No JSON:API Object" }
public var description: String { return "No JSON:API Object" }
}
extension APIDescription {
private enum CodingKeys: String, CodingKey {
case version
case meta
}
private enum CodingKeys: String, CodingKey {
case version
case meta
}
public init(from decoder: Decoder) throws {
let container = try decoder.container(keyedBy: CodingKeys.self)
public init(from decoder: Decoder) throws {
let container = try decoder.container(keyedBy: CodingKeys.self)
// The spec says that if a version is not specified, it should be assumed to be at least 1.0
version = (try? container.decode(String.self, forKey: .version)) ?? "1.0"
// The spec says that if a version is not specified, it should be assumed to be at least 1.0
version = (try? container.decode(String.self, forKey: .version)) ?? "1.0"
if let metaVal = NoMetadata() as? Meta {
meta = metaVal
} else {
meta = try container.decode(Meta.self, forKey: .meta)
}
}
if let metaVal = NoMetadata() as? Meta {
meta = metaVal
} else {
meta = try container.decode(Meta.self, forKey: .meta)
}
}
public func encode(to encoder: Encoder) throws {
var container = encoder.container(keyedBy: CodingKeys.self)
public func encode(to encoder: Encoder) throws {
var container = encoder.container(keyedBy: CodingKeys.self)
try container.encode(version, forKey: .version)
try container.encode(version, forKey: .version)
if Meta.self != NoMetadata.self {
try container.encode(meta, forKey: .meta)
}
}
if Meta.self != NoMetadata.self {
try container.encode(meta, forKey: .meta)
}
}
}
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@@ -0,0 +1,11 @@
//
// DocumentDecodingErro.swift
//
//
// Created by Mathew Polzin on 10/20/19.
//
public enum JSONAPIDocumentDecodingError: Swift.Error {
case foundErrorDocumentWhenExpectingSuccess
case foundSuccessDocumentWhenExpectingError
}
+67 -59
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@@ -14,35 +14,35 @@ public typealias Include = EncodableJSONPoly
///
/// If you have
///
/// `let includes: Includes<Include2<Thing1, Thing2>> = ...`
/// let includes: Includes<Include2<Thing1, Thing2>> = ...
///
/// then you can access all `Thing1` included resources with
///
/// `let includedThings = includes[Thing1.self]`
/// let includedThings = includes[Thing1.self]
public struct Includes<I: Include>: Encodable, Equatable {
public static var none: Includes { return .init(values: []) }
let values: [I]
public init(values: [I]) {
self.values = values
}
public static var none: Includes { return .init(values: []) }
public func encode(to encoder: Encoder) throws {
var container = encoder.unkeyedContainer()
public let values: [I]
guard I.self != NoIncludes.self else {
throw JSONAPIEncodingError.illegalEncoding("Attempting to encode Include0, which should be represented by the absense of an 'included' entry altogether.")
}
public init(values: [I]) {
self.values = values
}
for value in values {
try container.encode(value)
}
}
public var count: Int {
return values.count
}
public func encode(to encoder: Encoder) throws {
var container = encoder.unkeyedContainer()
guard I.self != NoIncludes.self else {
throw JSONAPIEncodingError.illegalEncoding("Attempting to encode Include0, which should be represented by the absense of an 'included' entry altogether.")
}
for value in values {
try container.encode(value)
}
}
public var count: Int {
return values.count
}
}
extension Includes: Decodable where I: Decodable {
@@ -65,25 +65,25 @@ extension Includes: Decodable where I: Decodable {
}
extension Includes {
public func appending(_ other: Includes<I>) -> Includes {
return Includes(values: values + other.values)
}
public func appending(_ other: Includes<I>) -> Includes {
return Includes(values: values + other.values)
}
}
public func +<I: Include>(_ left: Includes<I>, _ right: Includes<I>) -> Includes<I> {
return left.appending(right)
return left.appending(right)
}
extension Includes: CustomStringConvertible {
public var description: String {
return "Includes(\(String(describing: values))"
}
public var description: String {
return "Includes(\(String(describing: values))"
}
}
extension Includes where I == NoIncludes {
public init() {
values = []
}
public init() {
values = []
}
}
// MARK: - 0 includes
@@ -93,73 +93,73 @@ public typealias NoIncludes = Include0
// MARK: - 1 include
public typealias Include1 = Poly1
extension Includes where I: _Poly1 {
public subscript(_ lookup: I.A.Type) -> [I.A] {
return values.compactMap { $0.a }
}
public subscript(_ lookup: I.A.Type) -> [I.A] {
return values.compactMap { $0.a }
}
}
// MARK: - 2 includes
public typealias Include2 = Poly2
extension Includes where I: _Poly2 {
public subscript(_ lookup: I.B.Type) -> [I.B] {
return values.compactMap { $0.b }
}
public subscript(_ lookup: I.B.Type) -> [I.B] {
return values.compactMap { $0.b }
}
}
// MARK: - 3 includes
public typealias Include3 = Poly3
extension Includes where I: _Poly3 {
public subscript(_ lookup: I.C.Type) -> [I.C] {
return values.compactMap { $0.c }
}
public subscript(_ lookup: I.C.Type) -> [I.C] {
return values.compactMap { $0.c }
}
}
// MARK: - 4 includes
public typealias Include4 = Poly4
extension Includes where I: _Poly4 {
public subscript(_ lookup: I.D.Type) -> [I.D] {
return values.compactMap { $0.d }
}
public subscript(_ lookup: I.D.Type) -> [I.D] {
return values.compactMap { $0.d }
}
}
// MARK: - 5 includes
public typealias Include5 = Poly5
extension Includes where I: _Poly5 {
public subscript(_ lookup: I.E.Type) -> [I.E] {
return values.compactMap { $0.e }
}
public subscript(_ lookup: I.E.Type) -> [I.E] {
return values.compactMap { $0.e }
}
}
// MARK: - 6 includes
public typealias Include6 = Poly6
extension Includes where I: _Poly6 {
public subscript(_ lookup: I.F.Type) -> [I.F] {
return values.compactMap { $0.f }
}
public subscript(_ lookup: I.F.Type) -> [I.F] {
return values.compactMap { $0.f }
}
}
// MARK: - 7 includes
public typealias Include7 = Poly7
extension Includes where I: _Poly7 {
public subscript(_ lookup: I.G.Type) -> [I.G] {
return values.compactMap { $0.g }
}
public subscript(_ lookup: I.G.Type) -> [I.G] {
return values.compactMap { $0.g }
}
}
// MARK: - 8 includes
public typealias Include8 = Poly8
extension Includes where I: _Poly8 {
public subscript(_ lookup: I.H.Type) -> [I.H] {
return values.compactMap { $0.h }
}
public subscript(_ lookup: I.H.Type) -> [I.H] {
return values.compactMap { $0.h }
}
}
// MARK: - 9 includes
public typealias Include9 = Poly9
extension Includes where I: _Poly9 {
public subscript(_ lookup: I.I.Type) -> [I.I] {
return values.compactMap { $0.i }
}
public subscript(_ lookup: I.I.Type) -> [I.I] {
return values.compactMap { $0.i }
}
}
// MARK: - 10 includes
@@ -169,3 +169,11 @@ extension Includes where I: _Poly10 {
return values.compactMap { $0.j }
}
}
// MARK: - 11 includes
public typealias Include11 = Poly11
extension Includes where I: _Poly11 {
public subscript(_ lookup: I.K.Type) -> [I.K] {
return values.compactMap { $0.k }
}
}
+43 -45
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@@ -10,78 +10,76 @@
/// array should be used for no results).
public protocol OptionalEncodablePrimaryResource: Equatable, Encodable {}
/// An `EncodablePrimaryResource` is a `PrimaryResource` that only supports encoding.
/// This is actually more restrictave than `PrimaryResource`, which supports both encoding and
/// decoding.
/// An `EncodablePrimaryResource` is a `CodablePrimaryResource` that only supports encoding.
public protocol EncodablePrimaryResource: OptionalEncodablePrimaryResource {}
/// This protocol allows for `SingleResourceBody` to contain a `null`
/// data object where `ManyResourceBody` cannot (because an empty
/// array should be used for no results).
public protocol OptionalPrimaryResource: OptionalEncodablePrimaryResource, Decodable {}
public protocol OptionalCodablePrimaryResource: OptionalEncodablePrimaryResource, Decodable {}
/// A `PrimaryResource` is a type that can be used in the body of a JSON API
/// A `CodablePrimaryResource` is a type that can be used in the body of a JSON API
/// document as the primary resource.
public protocol PrimaryResource: EncodablePrimaryResource, OptionalPrimaryResource {}
public protocol CodablePrimaryResource: EncodablePrimaryResource, OptionalCodablePrimaryResource {}
extension Optional: OptionalEncodablePrimaryResource where Wrapped: EncodablePrimaryResource {}
extension Optional: OptionalPrimaryResource where Wrapped: PrimaryResource {}
extension Optional: OptionalCodablePrimaryResource where Wrapped: CodablePrimaryResource {}
/// An `EncodableResourceBody` is a `ResourceBody` that only supports being
/// encoded. It is actually weaker than `ResourceBody`, which supports both encoding
/// and decoding.
public protocol EncodableResourceBody: Equatable, Encodable {}
/// A ResourceBody is a representation of the body of the JSON API Document.
/// A `CodableResourceBody` is a representation of the body of the JSON:API Document.
/// It can either be one resource (which can be specified as optional or not)
/// or it can contain many resources (and array with zero or more entries).
public protocol ResourceBody: Decodable, EncodableResourceBody {}
public protocol CodableResourceBody: Decodable, EncodableResourceBody {}
/// A `ResourceBody` that has the ability to take on more primary
/// resources by appending another similarly typed `ResourceBody`.
public protocol Appendable {
func appending(_ other: Self) -> Self
public protocol ResourceBodyAppendable {
func appending(_ other: Self) -> Self
}
public func +<R: Appendable>(_ left: R, right: R) -> R {
return left.appending(right)
public func +<R: ResourceBodyAppendable>(_ left: R, right: R) -> R {
return left.appending(right)
}
/// A type allowing for a document body containing 1 primary resource.
/// If the `Entity` specialization is an `Optional` type, the body can contain
/// 0 or 1 primary resources.
public struct SingleResourceBody<Entity: JSONAPI.OptionalEncodablePrimaryResource>: EncodableResourceBody {
public let value: Entity
public let value: Entity
public init(resourceObject: Entity) {
self.value = resourceObject
}
public init(resourceObject: Entity) {
self.value = resourceObject
}
}
/// A type allowing for a document body containing 0 or more primary resources.
public struct ManyResourceBody<Entity: JSONAPI.EncodablePrimaryResource>: EncodableResourceBody, Appendable {
public let values: [Entity]
public struct ManyResourceBody<Entity: JSONAPI.EncodablePrimaryResource>: EncodableResourceBody, ResourceBodyAppendable {
public let values: [Entity]
public init(resourceObjects: [Entity]) {
values = resourceObjects
}
public init(resourceObjects: [Entity]) {
values = resourceObjects
}
public func appending(_ other: ManyResourceBody) -> ManyResourceBody {
return ManyResourceBody(resourceObjects: values + other.values)
}
public func appending(_ other: ManyResourceBody) -> ManyResourceBody {
return ManyResourceBody(resourceObjects: values + other.values)
}
}
/// Use NoResourceBody to indicate you expect a JSON API document to not
/// contain a "data" top-level key.
public struct NoResourceBody: ResourceBody {
public static var none: NoResourceBody { return NoResourceBody() }
public struct NoResourceBody: CodableResourceBody {
public static var none: NoResourceBody { return NoResourceBody() }
}
// MARK: Codable
extension SingleResourceBody {
public func encode(to encoder: Encoder) throws {
var container = encoder.singleValueContainer()
public func encode(to encoder: Encoder) throws {
var container = encoder.singleValueContainer()
let anyNil: Any? = nil
let nilValue = anyNil as? Entity
@@ -90,11 +88,11 @@ extension SingleResourceBody {
return
}
try container.encode(value)
}
try container.encode(value)
}
}
extension SingleResourceBody: Decodable, ResourceBody where Entity: OptionalPrimaryResource {
extension SingleResourceBody: Decodable, CodableResourceBody where Entity: OptionalCodablePrimaryResource {
public init(from decoder: Decoder) throws {
let container = try decoder.singleValueContainer()
@@ -110,16 +108,16 @@ extension SingleResourceBody: Decodable, ResourceBody where Entity: OptionalPrim
}
extension ManyResourceBody {
public func encode(to encoder: Encoder) throws {
var container = encoder.unkeyedContainer()
public func encode(to encoder: Encoder) throws {
var container = encoder.unkeyedContainer()
for value in values {
try container.encode(value)
}
}
for value in values {
try container.encode(value)
}
}
}
extension ManyResourceBody: Decodable, ResourceBody where Entity: PrimaryResource {
extension ManyResourceBody: Decodable, CodableResourceBody where Entity: CodablePrimaryResource {
public init(from decoder: Decoder) throws {
var container = try decoder.unkeyedContainer()
var valueAggregator = [Entity]()
@@ -133,13 +131,13 @@ extension ManyResourceBody: Decodable, ResourceBody where Entity: PrimaryResourc
// MARK: CustomStringConvertible
extension SingleResourceBody: CustomStringConvertible {
public var description: String {
return "PrimaryResourceBody(\(String(describing: value)))"
}
public var description: String {
return "PrimaryResourceBody(\(String(describing: value)))"
}
}
extension ManyResourceBody: CustomStringConvertible {
public var description: String {
return "PrimaryResourceBody(\(String(describing: values)))"
}
public var description: String {
return "PrimaryResourceBody(\(String(describing: values)))"
}
}
+5 -5
View File
@@ -6,9 +6,9 @@
//
public enum JSONAPIEncodingError: Swift.Error {
case typeMismatch(expected: String, found: String)
case illegalEncoding(String)
case illegalDecoding(String)
case missingOrMalformedMetadata
case missingOrMalformedLinks
case typeMismatch(expected: String, found: String)
case illegalEncoding(String)
case illegalDecoding(String)
case missingOrMalformedMetadata
case missingOrMalformedLinks
}
+11 -4
View File
@@ -1,15 +1,17 @@
//
// BasicError.swift
// BasicJSONAPIError.swift
// JSONAPI
//
// Created by Mathew Polzin on 9/29/19.
//
/// Most of the JSON:API Spec defined Error fields.
public struct BasicJSONAPIErrorPayload<IdType: Codable & Equatable>: Codable, Equatable, ErrorDictType {
public struct BasicJSONAPIErrorPayload<IdType: Codable & Equatable>: Codable, Equatable, ErrorDictType, CustomStringConvertible {
/// a unique identifier for this particular occurrence of the problem
public let id: IdType?
// public let links: Links? // we skip this for now to avoid adding complexity to using this basic type.
// public let links: Links? // we skip this for now to avoid adding complexity to using this basic type.
/// the HTTP status code applicable to this problem
public let status: String?
/// an application-specific error code
@@ -20,7 +22,8 @@ public struct BasicJSONAPIErrorPayload<IdType: Codable & Equatable>: Codable, Eq
public let detail: String?
/// an object containing references to the source of the error
public let source: Source?
// public let meta: Meta? // we skip this for now to avoid adding complexity to using this basic type
// public let meta: Meta? // we skip this for now to avoid adding complexity to using this basic type
public init(id: IdType? = nil,
status: String? = nil,
@@ -61,6 +64,10 @@ public struct BasicJSONAPIErrorPayload<IdType: Codable & Equatable>: Codable, Eq
].compactMap { $0 }
return Dictionary(uniqueKeysWithValues: keysAndValues)
}
public var description: String {
return definedFields.map { "\($0.key): \($0.value)" }.sorted().joined(separator: ", ")
}
}
/// `BasicJSONAPIError` optionally decodes many possible fields
@@ -1,5 +1,5 @@
//
// GenericError.swift
// GenericJSONAPIError.swift
// JSONAPI
//
// Created by Mathew Polzin on 9/29/19.
@@ -8,7 +8,7 @@
/// `GenericJSONAPIError` can be used to specify whatever error
/// payload you expect to need to parse in responses and handle any
/// other payload structure as `.unknownError`.
public enum GenericJSONAPIError<ErrorPayload: Codable & Equatable>: JSONAPIError {
public enum GenericJSONAPIError<ErrorPayload: Codable & Equatable>: JSONAPIError, CustomStringConvertible {
case unknownError
case error(ErrorPayload)
@@ -35,6 +35,15 @@ public enum GenericJSONAPIError<ErrorPayload: Codable & Equatable>: JSONAPIError
public static var unknown: Self {
return .unknownError
}
public var description: String {
switch self {
case .unknownError:
return "unknown error"
case .error(let payload):
return String(describing: payload)
}
}
}
public extension GenericJSONAPIError {
+15 -15
View File
@@ -1,12 +1,12 @@
//
// Error.swift
// JSONAPIError.swift
// JSONAPI
//
// Created by Mathew Polzin on 11/10/18.
//
public protocol JSONAPIError: Swift.Error, Equatable, Codable {
static var unknown: Self { get }
static var unknown: Self { get }
}
/// `UnknownJSONAPIError` can actually be used in any sitaution
@@ -16,18 +16,18 @@ public protocol JSONAPIError: Swift.Error, Equatable, Codable {
/// information the server might be providing in the error payload,
/// use `BasicJSONAPIError` instead.
public enum UnknownJSONAPIError: JSONAPIError {
case unknownError
public init(from decoder: Decoder) throws {
self = .unknown
}
case unknownError
public func encode(to encoder: Encoder) throws {
var container = encoder.singleValueContainer()
try container.encode("unknown")
}
public static var unknown: Self {
return .unknownError
}
public init(from decoder: Decoder) throws {
self = .unknown
}
public func encode(to encoder: Encoder) throws {
var container = encoder.singleValueContainer()
try container.encode("unknown")
}
public static var unknown: Self {
return .unknownError
}
}
+43 -43
View File
@@ -10,58 +10,58 @@ public protocol Links: Codable, Equatable {}
/// Use NoLinks where no links should belong to a JSON API component
public struct NoLinks: Links, CustomStringConvertible {
public static var none: NoLinks { return NoLinks() }
public init() {}
public var description: String { return "No Links" }
public static var none: NoLinks { return NoLinks() }
public init() {}
public var description: String { return "No Links" }
}
public protocol JSONAPIURL: Codable, Equatable {}
public struct Link<URL: JSONAPI.JSONAPIURL, Meta: JSONAPI.Meta>: Equatable, Codable {
public let url: URL
public let meta: Meta
public init(url: URL, meta: Meta) {
self.url = url
self.meta = meta
}
public let url: URL
public let meta: Meta
public init(url: URL, meta: Meta) {
self.url = url
self.meta = meta
}
}
extension Link where Meta == NoMetadata {
public init(url: URL) {
self.init(url: url, meta: .none)
}
public init(url: URL) {
self.init(url: url, meta: .none)
}
}
public extension Link {
private enum CodingKeys: String, CodingKey {
case href
case meta
}
init(from decoder: Decoder) throws {
guard Meta.self == NoMetadata.self,
let noMeta = NoMetadata() as? Meta else {
let container = try decoder.container(keyedBy: CodingKeys.self)
meta = try container.decode(Meta.self, forKey: .meta)
url = try container.decode(URL.self, forKey: .href)
return
}
let container = try decoder.singleValueContainer()
url = try container.decode(URL.self)
meta = noMeta
}
func encode(to encoder: Encoder) throws {
guard Meta.self == NoMetadata.self else {
var container = encoder.container(keyedBy: CodingKeys.self)
try container.encode(url, forKey: .href)
try container.encode(meta, forKey: .meta)
return
}
var container = encoder.singleValueContainer()
try container.encode(url)
}
private enum CodingKeys: String, CodingKey {
case href
case meta
}
init(from decoder: Decoder) throws {
guard Meta.self == NoMetadata.self,
let noMeta = NoMetadata() as? Meta else {
let container = try decoder.container(keyedBy: CodingKeys.self)
meta = try container.decode(Meta.self, forKey: .meta)
url = try container.decode(URL.self, forKey: .href)
return
}
let container = try decoder.singleValueContainer()
url = try container.decode(URL.self)
meta = noMeta
}
func encode(to encoder: Encoder) throws {
guard Meta.self == NoMetadata.self else {
var container = encoder.container(keyedBy: CodingKeys.self)
try container.encode(url, forKey: .href)
try container.encode(meta, forKey: .meta)
return
}
var container = encoder.singleValueContainer()
try container.encode(url)
}
}
+7 -7
View File
@@ -6,25 +6,25 @@
//
/// Conform a type to this protocol to indicate it can be encoded to or decoded from
/// the meta data attached to a component of a JSON API document. Different meta data
/// the meta data attached to a component of a JSON:API document. Different meta data
/// can be stored all over the place: On the root document, on a resource object, on
/// link objects, etc.
///
/// JSON API Metadata is totally open ended. It can take whatever JSON-compliant structure
/// JSON:API Metadata is totally open ended. It can take whatever JSON-compliant structure
/// the server and client agree upon.
public protocol Meta: Codable, Equatable {
}
// We make Optional a Meta if it wraps a Meta so that Metadata can be specified as
// nullable.
// We make Optional a Meta if it wraps a Meta so that
// Metadata can be specified as nullable.
extension Optional: Meta where Wrapped: Meta {}
/// Use this type when you want to specify not to encode or decode any metadata
/// for a type.
public struct NoMetadata: Meta, CustomStringConvertible {
public static var none: NoMetadata { return NoMetadata() }
public static var none: NoMetadata { return NoMetadata() }
public init() { }
public init() { }
public var description: String { return "No Metadata" }
public var description: String { return "No Metadata" }
}
@@ -6,31 +6,31 @@
//
public extension TransformedAttribute {
/// Map an Attribute to a new wrapped type.
/// Note that the resulting Attribute will have no transformer, even if the
/// source Attribute has a transformer.
/// You are mapping the output of the source transform into
/// the RawValue of a new transformerless Attribute.
///
/// Generally, this is the most useful operation. The transformer gives you
/// control over the decoding of the Attribute, but once the Attribute exists,
/// mapping on it is most useful for creating computed Attribute properties.
func map<T: Codable>(_ transform: (Transformer.To) throws -> T) rethrows -> Attribute<T> {
return Attribute<T>(value: try transform(value))
}
/// Map an Attribute to a new wrapped type.
/// Note that the resulting Attribute will have no transformer, even if the
/// source Attribute has a transformer.
/// You are mapping the output of the source transform into
/// the RawValue of a new transformerless Attribute.
///
/// Generally, this is the most useful operation. The transformer gives you
/// control over the decoding of the Attribute, but once the Attribute exists,
/// mapping on it is most useful for creating computed Attribute properties.
func map<T: Codable>(_ transform: (Transformer.To) throws -> T) rethrows -> Attribute<T> {
return Attribute<T>(value: try transform(value))
}
}
public extension Attribute {
/// Map an Attribute to a new wrapped type.
/// Note that the resulting Attribute will have no transformer, even if the
/// source Attribute has a transformer.
/// You are mapping the output of the source transform into
/// the RawValue of a new transformerless Attribute.
///
/// Generally, this is the most useful operation. The transformer gives you
/// control over the decoding of the Attribute, but once the Attribute exists,
/// mapping on it is most useful for creating computed Attribute properties.
func map<T: Codable>(_ transform: (ValueType) throws -> T) rethrows -> Attribute<T> {
return Attribute<T>(value: try transform(value))
}
/// Map an Attribute to a new wrapped type.
/// Note that the resulting Attribute will have no transformer, even if the
/// source Attribute has a transformer.
/// You are mapping the output of the source transform into
/// the RawValue of a new transformerless Attribute.
///
/// Generally, this is the most useful operation. The transformer gives you
/// control over the decoding of the Attribute, but once the Attribute exists,
/// mapping on it is most useful for creating computed Attribute properties.
func map<T: Codable>(_ transform: (ValueType) throws -> T) rethrows -> Attribute<T> {
return Attribute<T>(value: try transform(value))
}
}
+84 -83
View File
@@ -6,49 +6,49 @@
//
public protocol AttributeType: Codable {
associatedtype RawValue: Codable
associatedtype ValueType
associatedtype RawValue: Codable
associatedtype ValueType
var value: ValueType { get }
var value: ValueType { get }
}
// MARK: TransformedAttribute
/// A TransformedAttribute takes a Codable type and attempts to turn it into another type.
public struct TransformedAttribute<RawValue: Codable, Transformer: JSONAPI.Transformer>: AttributeType where Transformer.From == RawValue {
public let rawValue: RawValue
public let rawValue: RawValue
public let value: Transformer.To
public let value: Transformer.To
public init(rawValue: RawValue) throws {
self.rawValue = rawValue
value = try Transformer.transform(rawValue)
}
public init(rawValue: RawValue) throws {
self.rawValue = rawValue
value = try Transformer.transform(rawValue)
}
}
extension TransformedAttribute where Transformer == IdentityTransformer<RawValue> {
// If we are using the identity transform, we can skip the transform and guarantee no
// error is thrown.
public init(value: RawValue) {
rawValue = value
self.value = value
}
// If we are using the identity transform, we can skip the transform and guarantee no
// error is thrown.
public init(value: RawValue) {
rawValue = value
self.value = value
}
}
extension TransformedAttribute where Transformer: ReversibleTransformer {
/// Initialize a TransformedAttribute from its transformed value. The
/// RawValue, which is what gets encoded/decoded, is determined using
/// The Transformer's reverse function.
public init(transformedValue: Transformer.To) throws {
self.value = transformedValue
rawValue = try Transformer.reverse(value)
}
/// Initialize a TransformedAttribute from its transformed value. The
/// RawValue, which is what gets encoded/decoded, is determined using
/// The Transformer's reverse function.
public init(transformedValue: Transformer.To) throws {
self.value = transformedValue
rawValue = try Transformer.reverse(value)
}
}
extension TransformedAttribute: CustomStringConvertible {
public var description: String {
return "Attribute<\(String(describing: Transformer.From.self)) -> \(String(describing: Transformer.To.self))>(\(String(describing: value)))"
}
public var description: String {
return "Attribute<\(String(describing: Transformer.From.self)) -> \(String(describing: Transformer.To.self))>(\(String(describing: value)))"
}
}
extension TransformedAttribute: Equatable where Transformer.From: Equatable, Transformer.To: Equatable {}
@@ -63,85 +63,86 @@ public typealias ValidatedAttribute<RawValue: Codable, Validator: JSONAPI.Valida
/// An Attribute simply represents a type that can be encoded and decoded.
public struct Attribute<RawValue: Codable>: AttributeType {
let attribute: TransformedAttribute<RawValue, IdentityTransformer<RawValue>>
let attribute: TransformedAttribute<RawValue, IdentityTransformer<RawValue>>
public var value: RawValue {
return attribute.value
}
public var value: RawValue {
return attribute.value
}
public init(value: RawValue) {
attribute = .init(value: value)
}
public init(value: RawValue) {
attribute = .init(value: value)
}
}
extension Attribute: CustomStringConvertible {
public var description: String {
return "Attribute<\(String(describing: RawValue.self))>(\(String(describing: value)))"
}
public var description: String {
return "Attribute<\(String(describing: RawValue.self))>(\(String(describing: value)))"
}
}
extension Attribute: Equatable where RawValue: Equatable {}
// MARK: - Codable
extension TransformedAttribute {
public init(from decoder: Decoder) throws {
let container = try decoder.singleValueContainer()
let rawVal: RawValue
// A little trickery follows. If the value is nil, the
// container.decode(Value.self) will fail even if Value
// is Optional. However, we can check if decoding nil
// succeeds and then attempt to coerce nil to a Value
// type at which point we can store nil in `value`.
let anyNil: Any? = nil
if container.decodeNil(),
let val = anyNil as? Transformer.From {
rawVal = val
} else {
rawVal = try container.decode(Transformer.From.self)
}
rawValue = rawVal
value = try Transformer.transform(rawVal)
}
public func encode(to encoder: Encoder) throws {
var container = encoder.singleValueContainer()
public init(from decoder: Decoder) throws {
let container = try decoder.singleValueContainer()
try container.encode(rawValue)
}
let rawVal: RawValue
// A little trickery follows. If the value is nil, the
// container.decode(Value.self) will fail even if Value
// is Optional. However, we can check if decoding nil
// succeeds and then attempt to coerce nil to a Value
// type at which point we can store nil in `value`.
let anyNil: Any? = nil
if container.decodeNil(),
let val = anyNil as? Transformer.From {
rawVal = val
} else {
rawVal = try container.decode(Transformer.From.self)
}
rawValue = rawVal
value = try Transformer.transform(rawVal)
}
public func encode(to encoder: Encoder) throws {
var container = encoder.singleValueContainer()
try container.encode(rawValue)
}
}
extension Attribute {
public init(from decoder: Decoder) throws {
let container = try decoder.singleValueContainer()
public init(from decoder: Decoder) throws {
let container = try decoder.singleValueContainer()
// A little trickery follows. If the value is nil, the
// container.decode(Value.self) will fail even if Value
// is Optional. However, we can check if decoding nil
// succeeds and then attempt to coerce nil to a Value
// type at which point we can store nil in `value`.
let anyNil: Any? = nil
if container.decodeNil(),
let val = anyNil as? RawValue {
attribute = .init(value: val)
} else {
attribute = try container.decode(TransformedAttribute<RawValue, IdentityTransformer<RawValue>>.self)
}
}
// A little trickery follows. If the value is nil, the
// container.decode(Value.self) will fail even if Value
// is Optional. However, we can check if decoding nil
// succeeds and then attempt to coerce nil to a Value
// type at which point we can store nil in `value`.
let anyNil: Any? = nil
if container.decodeNil(),
let val = anyNil as? RawValue {
attribute = .init(value: val)
} else {
attribute = try container.decode(TransformedAttribute<RawValue, IdentityTransformer<RawValue>>.self)
}
}
public func encode(to encoder: Encoder) throws {
var container = encoder.singleValueContainer()
public func encode(to encoder: Encoder) throws {
var container = encoder.singleValueContainer()
try container.encode(attribute)
}
try container.encode(attribute)
}
}
// MARK: Attribute decoding and encoding defaults
extension AttributeType {
public static func defaultDecoding<Container: KeyedDecodingContainerProtocol>(from container: Container, forKey key: Container.Key) throws -> Self {
return try container.decode(Self.self, forKey: key)
}
public static func defaultDecoding<Container: KeyedDecodingContainerProtocol>(from container: Container,
forKey key: Container.Key) throws -> Self {
return try container.decode(Self.self, forKey: key)
}
}

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