Compare commits

..

29 Commits

Author SHA1 Message Date
Mathew Polzin c04d3301b6 Add Meta-Relationship access. 2019-01-08 21:23:17 -08:00
Mathew Polzin 5a64bebc99 Merge branch 'master' of github.com:mattpolzin/JSONAPI 2019-01-08 20:13:11 -08:00
Mathew Polzin 790b0fbf52 Change capitalization 2019-01-06 18:20:18 -08:00
Mathew Polzin 539ecc451a Remove swift syntax highlighting from JSON snippet. 2019-01-03 22:26:25 -08:00
Mathew Polzin 7eb1b05eae Add swift syntax highlighting to README. 2019-01-03 22:23:17 -08:00
Mathew Polzin 3408263c2a Add warning note to README 2019-01-03 22:09:43 -08:00
Mathew Polzin 1d6e5d3810 Added Meta-Attribute support and documentation 2019-01-02 22:49:38 -08:00
Mathew Polzin d68404db36 update README to reflect change made in v0.12.0 2019-01-02 19:46:30 -08:00
Mathew Polzin 4f7db98a87 Update playground files to work with v0.12.0 changes 2019-01-02 19:42:32 -08:00
Mathew Polzin 072b081ac3 Breaking - Rename static var type: String to static var jsonType:String to avoid unnecessary conflict with Swift.type(of:) 2019-01-02 19:35:50 -08:00
Mathew Polzin 897410492d Add much more substantial example to README and mirror it in the included playground. Add convenient methods for adding includes to a Document. Make Poly less picky about what type of things it contains (don't need to be entities anymore). Typealias Either to Poly2 because they are isomorphic. 2019-01-02 17:14:58 -08:00
Mathew Polzin b46f5166ea APIDescription gets a public initializer. A new playground page explores the full potential of the Framework, in a sense. 2018-12-31 17:19:51 -08:00
Mathew Polzin d5a24c4adb Split Attribute out into its own Type (no longer just a type alias to TransformedAttribute) 2018-12-29 23:07:14 -08:00
Mathew Polzin 669d5d1342 Add ability to merge Document.Body.Data values 2018-12-28 19:11:24 -08:00
Mathew Polzin 923ab7d9f4 Add support for Poly8/Poly9 and Include8/Include9 2018-12-28 11:05:18 -08:00
Mathew Polzin 72769b6107 Fix small problem with sample code in README 2018-12-27 18:22:31 -08:00
Mathew Polzin 109e15d741 Add convenience method for default decoding of attributes. add tests for custom decoding and encoding as well as custom coding keys. add documentation. 2018-12-27 18:18:34 -08:00
Mathew Polzin 72180f64ef clarify some things about computed attribute properties. 2018-12-27 16:27:10 -08:00
Mathew Polzin fc962f9a0d Lift the constraint that Attributes and Relationships are Codable for EntityProxies. 2018-12-24 07:05:35 -08:00
Mathew Polzin 52eb123166 update documentation 2018-12-22 13:57:38 -08:00
Mathew Polzin 4ef147ec45 Update linuxmain 2018-12-22 13:49:10 -08:00
Mathew Polzin 61074ecc69 Add methods that make it easy to copy an entity with a new ID or copy an unidentified entity and give it an ID 2018-12-22 13:41:34 -08:00
Mathew Polzin 4dbcff6023 Add another way to initialize a nullable attribute to the tests 2018-12-22 13:10:05 -08:00
Mathew Polzin d6e82fab55 get id and type tests into the encoded entity test function 2018-12-21 08:53:55 -08:00
Mathew Polzin 5fa9848f02 test some attribute encoding a bit further 2018-12-21 08:45:51 -08:00
Mathew Polzin f38399a1d6 Add a bit of entity structure testing 2018-12-21 07:50:32 -08:00
Mathew Polzin 28f664326d Added a couple of tests 2018-12-12 21:05:07 -08:00
Mathew Polzin 3b7ef4aeb9 Add access to easy optional access to entire data on Document.Body 2018-12-12 20:05:29 -08:00
Mathew Polzin bb1ed30e89 Rename Document.Body.primaryData to primaryResource 2018-12-12 20:04:14 -08:00
37 changed files with 2824 additions and 247 deletions
@@ -0,0 +1,173 @@
import Foundation
import JSONAPI
// MARK: - Preamble (setup)
// We make String a CreatableRawIdType. This is actually done in
// this Playground's Entities.swift file, so it is commented out here.
/*
var GlobalStringId: Int = 0
extension String: CreatableRawIdType {
public static func unique() -> String {
GlobalStringId += 1
return String(GlobalStringId)
}
}
*/
// We create a typealias given that we do not expect JSON:API Resource
// Objects for this particular API to have Metadata or Links associated
// with them. We also expect them to have String Identifiers.
typealias JSONEntity<Description: EntityDescription> = JSONAPI.Entity<Description, NoMetadata, NoLinks, String>
// Similarly, we create a typealias for unidentified entities. JSON:API
// only allows unidentified entities (i.e. no "id" field) for client
// requests that create new entities. In these situations, the server
// is expected to assign the new entity a unique ID.
typealias UnidentifiedJSONEntity<Description: EntityDescription> = JSONAPI.Entity<Description, NoMetadata, NoLinks, Unidentified>
// We create typealiases given that we do not expect JSON:API Relationships
// for this particular API to have Metadata or Links associated
// with them.
typealias ToOneRelationship<Entity: Identifiable> = JSONAPI.ToOneRelationship<Entity, NoMetadata, NoLinks>
typealias ToManyRelationship<Entity: Relatable> = JSONAPI.ToManyRelationship<Entity, NoMetadata, NoLinks>
// We create a typealias for a Document given that we do not expect
// JSON:API Documents for this particular API to have Metadata, Links,
// useful Errors, or a JSON:API Object (i.e. APIDescription).
typealias Document<PrimaryResourceBody: JSONAPI.ResourceBody, IncludeType: JSONAPI.Include> = JSONAPI.Document<PrimaryResourceBody, NoMetadata, NoLinks, IncludeType, NoAPIDescription, UnknownJSONAPIError>
// MARK: Entity Definitions
enum AuthorDescription: EntityDescription {
public static var jsonType: String { return "authors" }
public struct Attributes: JSONAPI.Attributes {
public let name: Attribute<String>
}
public typealias Relationships = NoRelationships
}
typealias Author = JSONEntity<AuthorDescription>
enum ArticleDescription: EntityDescription {
public static var jsonType: String { return "articles" }
public struct Attributes: JSONAPI.Attributes {
public let title: Attribute<String>
public let abstract: Attribute<String>
}
public struct Relationships: JSONAPI.Relationships {
public let author: ToOneRelationship<Author>
}
}
typealias Article = JSONEntity<ArticleDescription>
// MARK: Document Definitions
// We create a typealias to represent a document containing one Article
// and including its Author
typealias SingleArticleDocumentWithIncludes = Document<SingleResourceBody<Article>, Include1<Author>>
// ... and a typealias to represent a document containing one Article and
// not including any related entities.
typealias SingleArticleDocument = Document<SingleResourceBody<Article>, NoIncludes>
// MARK: - Server Pseudo-example
// Skipping over all the API and database stuff, here's a chunk of code
// that creates a document. Note that this document is the entirety
// of a JSON:API response body.
func articleDocument(includeAuthor: Bool) -> Either<SingleArticleDocument, SingleArticleDocumentWithIncludes> {
// Let's pretend all of this is coming from a database:
let authorId = Author.Identifier(rawValue: "1234")
let article = Article(id: .init(rawValue: "5678"),
attributes: .init(title: .init(value: "JSON:API in Swift"),
abstract: .init(value: "Not yet written")),
relationships: .init(author: .init(id: authorId)),
meta: .none,
links: .none)
let document = SingleArticleDocument(apiDescription: .none,
body: .init(entity: article),
includes: .none,
meta: .none,
links: .none)
switch includeAuthor {
case false:
return .a(document)
case true:
let author = Author(id: authorId,
attributes: .init(name: .init(value: "Janice Bluff")),
relationships: .none,
meta: .none,
links: .none)
let includes: Includes<SingleArticleDocumentWithIncludes.Include> = .init(values: [.init(author)])
return .b(document.including(.init(values: [.init(author)])))
}
}
let encoder = JSONEncoder()
encoder.keyEncodingStrategy = .convertToSnakeCase
encoder.outputFormatting = .prettyPrinted
let responseBody = articleDocument(includeAuthor: true)
let responseData = try! encoder.encode(responseBody)
// Next step would be encoding and setting as the HTTP body of a response.
// we will just print it out instead:
print("-----")
print(String(data: responseData, encoding: .utf8)!)
// ... and if we had received a request for an article without
// including the author:
let otherResponseBody = articleDocument(includeAuthor: false)
let otherResponseData = try! encoder.encode(otherResponseBody)
print("-----")
print(String(data: otherResponseData, encoding: .utf8)!)
// MARK: - Client Pseudo-example
enum NetworkError: Swift.Error {
case serverError
case quantityMismatch
}
// Skipping over all the API stuff, here's a chunk of code that will
// decode a document. We will assume we have made a request for a
// single article including the author.
func docode(articleResponseData: Data) throws -> (article: Article, author: Author) {
let decoder = JSONDecoder()
decoder.keyDecodingStrategy = .convertFromSnakeCase
let articleDocument = try decoder.decode(SingleArticleDocumentWithIncludes.self, from: articleResponseData)
switch articleDocument.body {
case .data(let data):
let authors = data.includes[Author.self]
guard authors.count == 1 else {
throw NetworkError.quantityMismatch
}
return (article: data.primary.value, author: authors[0])
case .errors(let errors, meta: _, links: _):
throw NetworkError.serverError
}
}
let response = try! docode(articleResponseData: responseData)
// Next step would be to do something useful with the article and author but we will print them instead.
print("-----")
print(response.article)
print(response.author)
@@ -0,0 +1,213 @@
import Foundation
import JSONAPI
/*
This is not realistically what JSONAPI code will look like. It makes
every bit of sense to typealias the long-winded generics of this
framework to make working with them more concise and readable.
The purpose of this example, then, is not to show "good" JSONAPI
code, but rather to generate a JSONAPI example document that uses
all the various (often optional) parts of a JSONAPI document.
The JSON example produced in this manner can be used to compare the
nomenclature of this library with the nomenclature of the JSON:API Spec.
*/
// MARK: - Extensions
extension Foundation.URL: JSONAPIURL {}
// extension String: CreatableRawIdType {} found in playground Entities.swift file.
// MARK: - Definitions
/// Metadata associated with entities
struct EntityMetadata: JSONAPI.Meta {
let creationDate: Date
let updatedDate: Date
}
/// Metadata associated with links
struct LinkMeta: JSONAPI.Meta {
/// Don't trust this link past the expiry date.
let expiry: Date
}
/// Links associated with entities
struct EntityLinks: JSONAPI.Links {
let `self`: Link<Foundation.URL, LinkMeta>
init(selfLink: Link<Foundation.URL, LinkMeta>) {
self.`self` = selfLink
}
}
/// Metadata associated with relationships
struct ToManyRelationshipMetadata: JSONAPI.Meta {
/// Pagination for the relationship (to support really large
/// to-many relationships)
let pagination: Pagination
struct Pagination: Codable, Equatable {
let total: Int
let limit: Int
let offset: Int
}
}
/// Links associated with relationships
struct ToManyRelationshipLinks: JSONAPI.Links {
/// next page of relationships.
let next: Link<Foundation.URL, LinkMeta>
}
/// Description of an Author entity.
enum AuthorDescription: EntityDescription {
static var jsonType: String { return "authors" }
struct Attributes: JSONAPI.Attributes {
let name: Attribute<String>
}
struct Relationships: JSONAPI.Relationships {
let articles: ToManyRelationship<Article, ToManyRelationshipMetadata, ToManyRelationshipLinks>
}
}
typealias Author = JSONAPI.Entity<AuthorDescription, EntityMetadata, EntityLinks, String>
/// Description of an Article entity.
enum ArticleDescription: EntityDescription {
static var jsonType: String { return "articles" }
struct Attributes: JSONAPI.Attributes {
let title: Attribute<String>
}
struct Relationships: JSONAPI.Relationships {
/// The primary attributed author of the article.
let primaryAuthor: ToOneRelationship<Author, NoMetadata, NoLinks>
/// All authors excluding the primary author.
/// It is customary to print the primary author's
/// name first, followed by the other authors.
let otherAuthors: ToManyRelationship<Author, ToManyRelationshipMetadata, ToManyRelationshipLinks>
}
}
typealias Article = JSONAPI.Entity<ArticleDescription, EntityMetadata, EntityLinks, String>
/// Metadata associated with the API Description
struct APIDescriptionMetadata: JSONAPI.Meta {
/// A clever codename for this API version.
let codename: String
}
/// Metadata associated with any Document
struct DocumentMetadata: JSONAPI.Meta {
/// Assuming caching is in play, this is when
/// the cached document being returned was created.
let updatedDate: Date
}
/// Links associated with an Article Document
struct SingleArticleDocumentLinks: JSONAPI.Links {
let otherArticlesByPrimaryAuthor: Link<Foundation.URL, LinkMeta>
}
/// Error that can occur when retrieving a Single Article Document
enum ArticleDocumentError: String, JSONAPIError, Codable {
case unknownError = "unknown"
case missing = "missing"
static var unknown: ArticleDocumentError {
return .unknownError
}
}
typealias SingleArticleDocument = JSONAPI.Document<SingleResourceBody<Article>, DocumentMetadata, SingleArticleDocumentLinks, Include1<Author>, APIDescription<APIDescriptionMetadata>, ArticleDocumentError>
// MARK: - Instantiations
let authorId1 = Author.Identifier()
let authorId2 = Author.Identifier()
let authorId3 = Author.Identifier()
let now = Date()
let tomorrow = Calendar.current.date(byAdding: .day, value: 1, to: now)!
let tomorrowEntityMeta = EntityMetadata(creationDate: Calendar.current.date(byAdding: .day, value: -10, to: now)!,
updatedDate: Calendar.current.date(byAdding: .day, value: -2, to: now)!)
let articleLinks = EntityLinks(selfLink: .init(url: URL(string: "https://articles.com/article/1234")!,
meta: .init(expiry: tomorrow)))
let article = Article(attributes: .init(title: .init(value: "How to read JSONAPI")),
relationships: .init(primaryAuthor: .init(id: authorId1),
otherAuthors: .init(ids: [authorId2, authorId3],
meta: .init(pagination: .init(total: 2,
limit: 50,
offset: 0)),
links: .init(next: .init(url: URL(string: "https://articles.com/article/1234?otherAuthors[offset]=50")!,
meta: .init(expiry: tomorrow))))),
meta: tomorrowEntityMeta,
links: articleLinks)
let author1Links = EntityLinks(selfLink: .init(url: URL(string: "https://articles.com/author/\(authorId1.rawValue)")!,
meta: .init(expiry: tomorrow)))
let author1 = Author(id: authorId1,
attributes: .init(name: .init(value: "James Kinney")),
relationships: .init(articles: .init(ids: [article.id, Article.Identifier(), Article.Identifier()],
meta: .init(pagination: .init(total: 3,
limit: 50,
offset: 0)),
links: .init(next: .init(url: URL(string: "https://articles.com/author/\(authorId1.rawValue)?articles[offset]=50")!, meta: .init(expiry: tomorrow))))),
meta: tomorrowEntityMeta,
links: author1Links)
let author2Links = EntityLinks(selfLink: .init(url: URL(string: "https://articles.com/author/\(authorId2.rawValue)")!,
meta: .init(expiry: tomorrow)))
let author2 = Author(id: authorId2,
attributes: .init(name: .init(value: "James Kinney")),
relationships: .init(articles: .init(ids: [article.id, Article.Identifier()],
meta: .init(pagination: .init(total: 2,
limit: 50,
offset: 0)),
links: .init(next: .init(url: URL(string: "https://articles.com/author/\(authorId2.rawValue)?articles[offset]=50")!, meta: .init(expiry: tomorrow))))),
meta: tomorrowEntityMeta,
links: author2Links)
let author3Links = EntityLinks(selfLink: .init(url: URL(string: "https://articles.com/author/\(authorId3.rawValue)")!,
meta: .init(expiry: tomorrow)))
let author3 = Author(id: authorId3,
attributes: .init(name: .init(value: "James Kinney")),
relationships: .init(articles: .init(ids: [article.id],
meta: .init(pagination: .init(total: 1,
limit: 50,
offset: 0)),
links: .init(next: .init(url: URL(string: "https://articles.com/author/\(authorId3.rawValue)?articles[offset]=50")!, meta: .init(expiry: tomorrow))))),
meta: tomorrowEntityMeta,
links: author3Links)
let apiDescription = APIDescription<APIDescriptionMetadata>(version: "1.2",
meta: APIDescriptionMetadata(codename: "cobra"))
let documentMetadata = DocumentMetadata(updatedDate: Date())
let documentLinks = SingleArticleDocumentLinks(otherArticlesByPrimaryAuthor: .init(url: URL(string: "https://articles.com/articles?author=\(authorId1.rawValue)")!,
meta: .init(expiry: tomorrow)))
let singleArticleDocument = SingleArticleDocument(apiDescription: apiDescription,
body: .init(entity: article),
includes: .init(values: [.init(author1), .init(author2), .init(author3)]),
meta: documentMetadata,
links: documentLinks)
// MARK: - Encoding
let encoder = JSONEncoder()
encoder.keyEncodingStrategy = .convertToSnakeCase
encoder.dateEncodingStrategy = .iso8601
encoder.outputFormatting = .prettyPrinted
let jsonData = try! encoder.encode(singleArticleDocument)
// MARK: - Printing JSON
print(String(data: jsonData, encoding: .utf8)!)
@@ -19,7 +19,14 @@ let singleDogData = try! JSONEncoder().encode(singleDogDocument)
// MARK: - Parse a request or response body with one Dog in it
let dogResponse = try! JSONDecoder().decode(SingleDogDocument.self, from: singleDogData)
let dogFromData = dogResponse.body.primaryData?.value
let dogFromData = dogResponse.body.primaryResource?.value
let dogOwner: Person.Identifier? = dogFromData.flatMap { $0 ~> \.owner }
// MARKL - Parse a request or response body with one Dog in it using an alternative model
typealias AltSingleDogDocument = JSONAPI.Document<SingleResourceBody<AlternativeDog>, NoMetadata, NoLinks, NoIncludes, NoAPIDescription, UnknownJSONAPIError>
let altDogResponse = try! JSONDecoder().decode(AltSingleDogDocument.self, from: singleDogData)
let altDogFromData = altDogResponse.body.primaryResource?.value
let altDogHuman: Person.Identifier? = altDogFromData.flatMap { $0 ~> \.human }
// MARK: - Create a request or response with multiple people and dogs and houses included
let personIds = [Person.Identifier(), Person.Identifier()]
@@ -36,7 +43,7 @@ let batchPeopleData = try! JSONEncoder().encode(batchPeopleDocument)
// MARK: - Parse a request or response body with multiple people in it and dogs and houses included
let peopleResponse = try! JSONDecoder().decode(BatchPeopleDocument.self, from: batchPeopleData)
let peopleFromData = peopleResponse.body.primaryData?.values
let peopleFromData = peopleResponse.body.primaryResource?.values
let dogsFromData = peopleResponse.body.includes?[Dog.self]
let housesFromData = peopleResponse.body.includes?[House.self]
+34 -6
View File
@@ -31,7 +31,7 @@ public typealias ToMany<E: Relatable> = ToManyRelationship<E, NoMetadata, NoLink
// MARK: - A few resource objects (entities)
public enum PersonDescription: EntityDescription {
public static var type: String { return "people" }
public static var jsonType: String { return "people" }
public struct Attributes: JSONAPI.Attributes {
public let name: Attribute<[String]>
@@ -64,13 +64,13 @@ public typealias Person = ExampleEntity<PersonDescription>
public extension Entity where Description == PersonDescription, MetaType == NoMetadata, LinksType == NoLinks, EntityRawIdType == String {
public init(id: Person.Id? = nil,name: [String], favoriteColor: String, friends: [Person], dogs: [Dog], home: House) throws {
self = try Person(id: id ?? Person.Id(), attributes: .init(name: .init(rawValue: name), favoriteColor: .init(rawValue: favoriteColor)), relationships: .init(friends: .init(entities: friends), dogs: .init(entities: dogs), home: .init(entity: home)), meta: .none, links: .none)
self = Person(id: id ?? Person.Id(), attributes: .init(name: .init(value: name), favoriteColor: .init(value: favoriteColor)), relationships: .init(friends: .init(entities: friends), dogs: .init(entities: dogs), home: .init(entity: home)), meta: .none, links: .none)
}
}
public enum DogDescription: EntityDescription {
public static var type: String { return "dogs" }
public static var jsonType: String { return "dogs" }
public struct Attributes: JSONAPI.Attributes {
public let name: Attribute<String>
@@ -91,19 +91,47 @@ public enum DogDescription: EntityDescription {
public typealias Dog = ExampleEntity<DogDescription>
public enum AlternativeDogDescription: EntityDescription {
public static var jsonType: String { return "dogs" }
public struct Attributes: JSONAPI.Attributes {
public let name: Attribute<String>
public init(name: Attribute<String>) {
self.name = name
}
}
public struct Relationships: JSONAPI.Relationships {
public let human: ToOne<Person?>
public init(human: ToOne<Person?>) {
self.human = human
}
// define custom key mapping:
enum CodingKeys: String, CodingKey {
case human = "owner"
}
}
}
public typealias AlternativeDog = ExampleEntity<AlternativeDogDescription>
public extension Entity where Description == DogDescription, MetaType == NoMetadata, LinksType == NoLinks, EntityRawIdType == String {
public init(name: String, owner: Person?) throws {
self = try Dog(attributes: .init(name: .init(rawValue: name)), relationships: DogDescription.Relationships(owner: .init(entity: owner)), meta: .none, links: .none)
self = Dog(attributes: .init(name: .init(value: name)), relationships: DogDescription.Relationships(owner: .init(entity: owner)), meta: .none, links: .none)
}
public init(name: String, owner: Person.Id) throws {
self = try Dog(attributes: .init(name: .init(rawValue: name)), relationships: .init(owner: .init(id: owner)), meta: .none, links: .none)
self = Dog(attributes: .init(name: .init(value: name)), relationships: .init(owner: .init(id: owner)), meta: .none, links: .none)
}
}
public enum HouseDescription: EntityDescription {
public static var type: String { return "houses" }
public static var jsonType: String { return "houses" }
public typealias Attributes = NoAttributes
public typealias Relationships = NoRelationships
+426 -22
View File
File diff suppressed because it is too large Load Diff
@@ -14,8 +14,15 @@ public protocol APIDescriptionType: Codable, Equatable {
public struct APIDescription<Meta: JSONAPI.Meta>: APIDescriptionType {
public let version: String
public let 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
+80 -2
View File
@@ -66,8 +66,13 @@ public struct Document<PrimaryResourceBody: JSONAPI.ResourceBody, MetaType: JSON
guard case let .errors(errors, meta: _, links: _) = self else { return nil }
return errors
}
public var data: Data? {
guard case let .data(data) = self else { return nil }
return data
}
public var primaryData: PrimaryResourceBody? {
public var primaryResource: PrimaryResourceBody? {
guard case let .data(data) = self else { return nil }
return data.primary
}
@@ -105,11 +110,16 @@ public struct Document<PrimaryResourceBody: JSONAPI.ResourceBody, MetaType: JSON
self.apiDescription = apiDescription
}
public init(apiDescription: APIDescription, body: PrimaryResourceBody, includes: Includes<Include>, meta: MetaType, links: LinksType) {
public init(apiDescription: APIDescription,
body: PrimaryResourceBody,
includes: Includes<Include>,
meta: MetaType,
links: LinksType) {
self.body = .data(.init(primary: body, includes: includes, meta: meta, links: links))
self.apiDescription = apiDescription
}
}
/*
extension Document where IncludeType == NoIncludes {
public init(apiDescription: APIDescription, body: PrimaryResourceBody, meta: MetaType, links: LinksType) {
@@ -184,6 +194,74 @@ extension Document where IncludeType == NoIncludes, MetaType == NoMetadata, Link
}
*/
extension Document.Body.Data where PrimaryResourceBody: AppendableResourceBody {
public func merging(_ other: Document.Body.Data,
combiningMetaWith metaMerge: (MetaType, MetaType) -> MetaType,
combiningLinksWith linksMerge: (LinksType, LinksType) -> LinksType) -> Document.Body.Data {
return Document.Body.Data(primary: primary.appending(other.primary),
includes: includes.appending(other.includes),
meta: metaMerge(meta, other.meta),
links: linksMerge(links, other.links))
}
}
extension Document.Body.Data where PrimaryResourceBody: AppendableResourceBody, MetaType == NoMetadata, LinksType == NoLinks {
public func merging(_ other: Document.Body.Data) -> Document.Body.Data {
return merging(other,
combiningMetaWith: { _, _ in .none },
combiningLinksWith: { _, _ in .none })
}
}
extension Document where IncludeType == NoIncludes {
/// Create a new Document with the given includes.
public func including<I: JSONAPI.Include>(_ includes: Includes<I>) -> Document<PrimaryResourceBody, MetaType, LinksType, I, APIDescription, Error> {
// Note that if IncludeType is NoIncludes, then we allow anything
// to be included, but if IncludeType already specifies a type
// of thing to be expected then we lock that down.
// See: Document.including() where IncludeType: _Poly1
switch body {
case .data(let data):
return .init(apiDescription: apiDescription,
body: data.primary,
includes: includes,
meta: data.meta,
links: data.links)
case .errors(let errors, meta: let meta, links: let links):
return .init(apiDescription: apiDescription,
errors: errors,
meta: meta,
links: links)
}
}
}
// extending where _Poly1 means all non-zero _Poly arities are included
extension Document where IncludeType: _Poly1 {
/// Create a new Document adding the given includes. This does not
/// remove existing includes; it is additive.
public func including(_ includes: Includes<IncludeType>) -> Document {
// Note that if IncludeType is NoIncludes, then we allow anything
// to be included, but if IncludeType already specifies a type
// of thing to be expected then we lock that down.
// See: Document.including() where IncludeType == NoIncludes
switch body {
case .data(let data):
return .init(apiDescription: apiDescription,
body: data.primary,
includes: data.includes + includes,
meta: data.meta,
links: data.links)
case .errors(let errors, meta: let meta, links: let links):
return .init(apiDescription: apiDescription,
errors: errors,
meta: meta,
links: links)
}
}
}
// MARK: - Codable
extension Document {
private enum RootCodingKeys: String, CodingKey {
case data
+24
View File
@@ -50,6 +50,16 @@ public struct Includes<I: Include>: Codable, Equatable {
}
}
extension Includes {
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)
}
extension Includes: CustomStringConvertible {
public var description: String {
return "Includes(\(String(describing: values))"
@@ -123,3 +133,17 @@ extension Includes where I: _Poly7 {
}
// 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 }
}
}
// 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 }
}
}
+13 -1
View File
@@ -19,6 +19,14 @@ extension Optional: MaybePrimaryResource where Wrapped: PrimaryResource {}
public protocol ResourceBody: Codable, Equatable {
}
public protocol AppendableResourceBody: ResourceBody {
func appending(_ other: Self) -> Self
}
public func +<R: AppendableResourceBody>(_ left: R, right: R) -> R {
return left.appending(right)
}
public struct SingleResourceBody<Entity: JSONAPI.MaybePrimaryResource>: ResourceBody {
public let value: Entity
@@ -27,12 +35,16 @@ public struct SingleResourceBody<Entity: JSONAPI.MaybePrimaryResource>: Resource
}
}
public struct ManyResourceBody<Entity: JSONAPI.PrimaryResource>: ResourceBody {
public struct ManyResourceBody<Entity: JSONAPI.PrimaryResource>: AppendableResourceBody {
public let values: [Entity]
public init(entities: [Entity]) {
values = entities
}
public func appending(_ other: ManyResourceBody) -> ManyResourceBody {
return ManyResourceBody(entities: values + other.values)
}
}
/// Use NoResourceBody to indicate you expect a JSON API document to not
@@ -19,3 +19,18 @@ public extension TransformedAttribute {
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.
public func map<T: Codable>(_ transform: (ValueType) throws -> T) rethrows -> Attribute<T> {
return Attribute<T>(value: try transform(value))
}
}
+75 -14
View File
@@ -6,12 +6,17 @@
//
public protocol AttributeType: Codable {
associatedtype RawValue: Codable
associatedtype ValueType
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 {
private let rawValue: RawValue
let rawValue: RawValue
public let value: Transformer.To
@@ -21,16 +26,19 @@ public struct TransformedAttribute<RawValue: Codable, Transformer: JSONAPI.Trans
}
}
// MARK: ValidatedAttribute
/// A ValidatedAttribute does not transform its raw value, but it throws
/// an error if the raw value does not match expectations.
public typealias ValidatedAttribute<RawValue: Codable, Validator: JSONAPI.Validator> = TransformedAttribute<RawValue, Validator> where RawValue == Validator.From
// MARK: Attribute
/// An Attribute simply represents a type that can be encoded and decoded.
public typealias Attribute<T: Codable> = TransformedAttribute<T, IdentityTransformer<T>>
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
}
}
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)
@@ -45,15 +53,35 @@ extension TransformedAttribute: CustomStringConvertible {
extension TransformedAttribute: Equatable where Transformer.From: Equatable, Transformer.To: Equatable {}
extension TransformedAttribute where Transformer == IdentityTransformer<RawValue> {
// If we are using the identity transform, we can skip the transform and guarantee no
// error is thrown.
// MARK: ValidatedAttribute
/// A ValidatedAttribute does not transform its raw value, but it throws
/// an error if the raw value does not match expectations.
public typealias ValidatedAttribute<RawValue: Codable, Validator: JSONAPI.Validator> = TransformedAttribute<RawValue, Validator> where RawValue == Validator.From
// MARK: Attribute
/// An Attribute simply represents a type that can be encoded and decoded.
public struct Attribute<RawValue: Codable>: AttributeType {
let attribute: TransformedAttribute<RawValue, IdentityTransformer<RawValue>>
public var value: RawValue {
return attribute.value
}
public init(value: RawValue) {
rawValue = value
self.value = value
attribute = .init(value: value)
}
}
extension Attribute: CustomStringConvertible {
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 {
@@ -84,3 +112,36 @@ extension TransformedAttribute {
try container.encode(rawValue)
}
}
extension Attribute {
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)
}
}
public func encode(to encoder: Encoder) throws {
var container = encoder.singleValueContainer()
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)
}
}
+92 -21
View File
@@ -8,11 +8,11 @@
/// A JSON API structure within an Entity that contains
/// named properties of types `ToOneRelationship` and
/// `ToManyRelationship`.
public typealias Relationships = Codable & Equatable
public protocol Relationships: Codable & Equatable {}
/// A JSON API structure within an Entity that contains
/// properties of any types that are JSON encodable.
public typealias Attributes = Codable & Equatable
public protocol Attributes: Codable & Equatable {}
/// Can be used as `Relationships` Type for Entities that do not
/// have any Relationships.
@@ -20,16 +20,31 @@ public struct NoRelationships: Relationships {
public static var none: NoRelationships { return .init() }
}
extension NoRelationships: CustomStringConvertible {
public var description: String { return "No Relationships" }
}
/// Can be used as `Attributes` Type for Entities that do not
/// have any Attributes.
public struct NoAttributes: Attributes {
public static var none: NoAttributes { return .init() }
}
extension NoAttributes: CustomStringConvertible {
public var description: String { return "No Attributes" }
}
/// Something that is JSONTyped provides a String representation
/// of its type.
public protocol JSONTyped {
static var type: String { get }
static var jsonType: String { get }
}
/// An `EntityProxyDescription` is an `EntityDescription`
/// without Codable conformance.
public protocol EntityProxyDescription: JSONTyped {
associatedtype Attributes: Equatable
associatedtype Relationships: Equatable
}
/// An `EntityDescription` describes a JSON API
@@ -37,16 +52,13 @@ public protocol JSONTyped {
/// itself is encoded and decoded as an
/// `Entity`, which gets specialized on an
/// `EntityDescription`.
public protocol EntityDescription: JSONTyped {
associatedtype Attributes: JSONAPI.Attributes
associatedtype Relationships: JSONAPI.Relationships
}
public protocol EntityDescription: EntityProxyDescription where Attributes: JSONAPI.Attributes, Relationships: JSONAPI.Relationships {}
/// EntityProxy is a protocol that can be used to create
/// types that _act_ like Entities but cannot be encoded
/// or decoded as Entities.
public protocol EntityProxy: Equatable, JSONTyped {
associatedtype Description: EntityDescription
associatedtype Description: EntityProxyDescription
associatedtype EntityRawIdType: JSONAPI.MaybeRawId
typealias Id = JSONAPI.Id<EntityRawIdType, Self>
@@ -69,13 +81,15 @@ public protocol EntityProxy: Equatable, JSONTyped {
extension EntityProxy {
/// The JSON API compliant "type" of this `Entity`.
public static var type: String { return Description.type }
public static var jsonType: String { return Description.jsonType }
}
/// EntityType is the protocol that Entity conforms to. This
/// protocol lets other types accept any Entity as a generic
/// specialization.
public protocol EntityType: EntityProxy, PrimaryResource {
public protocol EntityType: EntityProxy, PrimaryResource where Description: EntityDescription {
associatedtype Meta: JSONAPI.Meta
associatedtype Links: JSONAPI.Links
}
public protocol IdentifiableEntityType: EntityType, Relatable where EntityRawIdType: JSONAPI.RawIdType {}
@@ -85,6 +99,10 @@ public protocol IdentifiableEntityType: EntityType, Relatable where EntityRawIdT
/// "Resource Object."
/// See https://jsonapi.org/format/#document-resource-objects
public struct Entity<Description: JSONAPI.EntityDescription, MetaType: JSONAPI.Meta, LinksType: JSONAPI.Links, EntityRawIdType: JSONAPI.MaybeRawId>: EntityType {
public typealias Meta = MetaType
public typealias Links = LinksType
/// The `Entity`'s Id. This can be of type `Unidentified` if
/// the entity is being created clientside and the
/// server is being asked to create a unique Id. Otherwise,
@@ -118,7 +136,7 @@ extension Entity: Identifiable, IdentifiableEntityType, Relatable where EntityRa
extension Entity: CustomStringConvertible {
public var description: String {
return "Entity<\(Entity.type)>(id: \(String(describing: id)), attributes: \(String(describing: attributes)), relationships: \(String(describing: relationships)))"
return "Entity<\(Entity.jsonType)>(id: \(String(describing: id)), attributes: \(String(describing: attributes)), relationships: \(String(describing: relationships)))"
}
}
@@ -377,10 +395,15 @@ extension Entity where MetaType == NoMetadata, LinksType == NoLinks, EntityRawId
public extension Entity where EntityRawIdType: JSONAPI.RawIdType {
/// An Entity.Pointer is a `ToOneRelationship` with no metadata or links.
/// This is just a convenient way to reference an Entity given that
/// This is just a convenient way to reference an Entity so that
/// other Entities' Relationships can be built up from it.
public typealias Pointer = ToOneRelationship<Entity, NoMetadata, NoLinks>
/// Entity.Pointers is a `ToManyRelationship` with no metadata or links.
/// This is just a convenient way to reference a bunch of Entities so
/// that other Entities' Relationships can be built up from them.
public typealias Pointers = ToManyRelationship<Entity, NoMetadata, NoLinks>
/// Get a pointer to this entity that can be used as a
/// relationship to another entity.
public var pointer: Pointer {
@@ -392,26 +415,47 @@ public extension Entity where EntityRawIdType: JSONAPI.RawIdType {
}
}
// MARK: Identifying Unidentified Entities
public extension Entity where EntityRawIdType == Unidentified {
/// Create a new Entity from this one with a newly created
/// unique Id of the given type.
public func identified<RawIdType: CreatableRawIdType>(byType: RawIdType.Type) -> Entity<Description, MetaType, LinksType, RawIdType> {
return .init(attributes: attributes, relationships: relationships, meta: meta, links: links)
}
/// Create a new Entity from this one with the given Id.
public func identified<RawIdType: JSONAPI.RawIdType>(by id: RawIdType) -> Entity<Description, MetaType, LinksType, RawIdType> {
return .init(id: Entity<Description, MetaType, LinksType, RawIdType>.Identifier(rawValue: id), attributes: attributes, relationships: relationships, meta: meta, links: links)
}
}
public extension Entity where EntityRawIdType: CreatableRawIdType {
/// Create a copy of this Entity with a new unique Id.
public func withNewIdentifier() -> Entity {
return Entity(attributes: attributes, relationships: relationships, meta: meta, links: links)
}
}
// MARK: Attribute Access
public extension EntityProxy {
/// Access the attribute at the given keypath. This just
/// allows you to write `entity[\.propertyName]` instead
/// of `entity.relationships.propertyName`.
subscript<T, TFRM: Transformer>(_ path: KeyPath<Description.Attributes, TransformedAttribute<T, TFRM>>) -> TFRM.To {
subscript<T: AttributeType>(_ path: KeyPath<Description.Attributes, T>) -> T.ValueType {
return attributes[keyPath: path].value
}
/// Access the attribute at the given keypath. This just
/// allows you to write `entity[\.propertyName]` instead
/// of `entity.relationships.propertyName`.
subscript<T, TFRM: Transformer>(_ path: KeyPath<Description.Attributes, TransformedAttribute<T, TFRM>?>) -> TFRM.To? {
subscript<T: AttributeType>(_ path: KeyPath<Description.Attributes, T?>) -> T.ValueType? {
return attributes[keyPath: path]?.value
}
/// Access the attribute at the given keypath. This just
/// allows you to write `entity[\.propertyName]` instead
/// of `entity.relationships.propertyName`.
subscript<T, TFRM: Transformer, U>(_ path: KeyPath<Description.Attributes, TransformedAttribute<T, TFRM>?>) -> U? where TFRM.To == U? {
subscript<T: AttributeType, U>(_ path: KeyPath<Description.Attributes, T?>) -> U? where T.ValueType == U? {
// Implementation Note: Handles Transform that returns optional
// type.
return attributes[keyPath: path].flatMap { $0.value }
@@ -427,6 +471,15 @@ public extension EntityProxy {
}
}
// MARK: Meta-Attribute Access
public extension EntityProxy {
/// Access an attribute requiring a transformation on the RawValue _and_
/// a secondary transformation on this entity (self).
subscript<T>(_ path: KeyPath<Description.Attributes, (Self) -> T>) -> T {
return attributes[keyPath: path](self)
}
}
// MARK: Relationship Access
public extension EntityProxy {
/// Access to an Id of a `ToOneRelationship`.
@@ -469,6 +522,23 @@ public extension EntityProxy {
}
}
// MARK: Meta-Relationship Access
public extension EntityProxy {
/// Access to an Id of a `ToOneRelationship`.
/// This allows you to write `entity ~> \.other` instead
/// of `entity.relationships.other.id`.
public static func ~><Identifier: IdType>(entity: Self, path: KeyPath<Description.Relationships, (Self) -> Identifier>) -> Identifier {
return entity.relationships[keyPath: path](entity)
}
/// Access to all Ids of a `ToManyRelationship`.
/// This allows you to write `entity ~> \.others` instead
/// of `entity.relationships.others.ids`.
public static func ~><Identifier: IdType>(entity: Self, path: KeyPath<Description.Relationships, (Self) -> [Identifier]>) -> [Identifier] {
return entity.relationships[keyPath: path](entity)
}
}
infix operator ~>
// MARK: - Codable
@@ -485,7 +555,7 @@ public extension Entity {
public func encode(to encoder: Encoder) throws {
var container = encoder.container(keyedBy: ResourceObjectCodingKeys.self)
try container.encode(Entity.type, forKey: .type)
try container.encode(Entity.jsonType, forKey: .type)
if EntityRawIdType.self != Unidentified.self {
try container.encode(id, forKey: .id)
@@ -514,15 +584,16 @@ public extension Entity {
let type = try container.decode(String.self, forKey: .type)
guard Entity.type == type else {
throw JSONAPIEncodingError.typeMismatch(expected: Description.type, found: type)
guard Entity.jsonType == type else {
throw JSONAPIEncodingError.typeMismatch(expected: Description.jsonType, found: type)
}
let maybeUnidentified = Unidentified() as? EntityRawIdType
id = try maybeUnidentified.map { Entity.Id(rawValue: $0) } ?? container.decode(Entity.Id.self, forKey: .id)
attributes = try (NoAttributes() as? Description.Attributes) ?? container.decode(Description.Attributes.self, forKey: .attributes)
attributes = try (NoAttributes() as? Description.Attributes) ??
container.decode(Description.Attributes.self, forKey: .attributes)
relationships = try (NoRelationships() as? Description.Relationships) ?? container.decode(Description.Relationships.self, forKey: .relationships)
meta = try (NoMetadata() as? MetaType) ?? container.decode(MetaType.self, forKey: .meta)
+379 -18
View File
@@ -17,14 +17,14 @@ public protocol Poly: PrimaryResource {}
// MARK: - Generic Decoding
private func decode<Entity: JSONAPI.EntityType>(_ type: Entity.Type, from container: SingleValueDecodingContainer) throws -> Result<Entity, DecodingError> {
let ret: Result<Entity, DecodingError>
private func decode<Thing: Codable>(_ type: Thing.Type, from container: SingleValueDecodingContainer) throws -> Result<Thing, DecodingError> {
let ret: Result<Thing, DecodingError>
do {
ret = try .success(container.decode(Entity.self))
ret = try .success(container.decode(Thing.self))
} catch (let err as DecodingError) {
ret = .failure(err)
} catch (let err) {
ret = .failure(DecodingError.typeMismatch(Entity.Description.self,
ret = .failure(DecodingError.typeMismatch(Thing.self,
.init(codingPath: container.codingPath,
debugDescription: String(describing: err),
underlyingError: err)))
@@ -47,9 +47,11 @@ public struct Poly0: _Poly0 {
}
}
public typealias PolyWrapped = Codable & Equatable
// MARK: - 1 type
public protocol _Poly1: _Poly0 {
associatedtype A: EntityType
associatedtype A: PolyWrapped
var a: A? { get }
init(_ a: A)
@@ -61,7 +63,7 @@ public extension _Poly1 {
}
}
public enum Poly1<A: EntityType>: _Poly1 {
public enum Poly1<A: PolyWrapped>: _Poly1 {
case a(A)
public var a: A? {
@@ -102,7 +104,7 @@ extension Poly1: CustomStringConvertible {
// MARK: - 2 types
public protocol _Poly2: _Poly1 {
associatedtype B: EntityType
associatedtype B: PolyWrapped
var b: B? { get }
init(_ b: B)
@@ -114,7 +116,9 @@ public extension _Poly2 {
}
}
public enum Poly2<A: EntityType, B: EntityType>: _Poly2 {
public typealias Either = Poly2
public enum Poly2<A: PolyWrapped, B: PolyWrapped>: _Poly2 {
case a(A)
case b(B)
@@ -181,7 +185,7 @@ extension Poly2: CustomStringConvertible {
// MARK: - 3 types
public protocol _Poly3: _Poly2 {
associatedtype C: EntityType
associatedtype C: PolyWrapped
var c: C? { get }
init(_ c: C)
@@ -193,7 +197,7 @@ public extension _Poly3 {
}
}
public enum Poly3<A: EntityType, B: EntityType, C: EntityType>: _Poly3 {
public enum Poly3<A: PolyWrapped, B: PolyWrapped, C: PolyWrapped>: _Poly3 {
case a(A)
case b(B)
case c(C)
@@ -275,7 +279,7 @@ extension Poly3: CustomStringConvertible {
// MARK: - 4 types
public protocol _Poly4: _Poly3 {
associatedtype D: EntityType
associatedtype D: PolyWrapped
var d: D? { get }
init(_ d: D)
@@ -287,7 +291,7 @@ public extension _Poly4 {
}
}
public enum Poly4<A: EntityType, B: EntityType, C: EntityType, D: EntityType>: _Poly4 {
public enum Poly4<A: PolyWrapped, B: PolyWrapped, C: PolyWrapped, D: PolyWrapped>: _Poly4 {
case a(A)
case b(B)
case c(C)
@@ -384,7 +388,7 @@ extension Poly4: CustomStringConvertible {
// MARK: - 5 types
public protocol _Poly5: _Poly4 {
associatedtype E: EntityType
associatedtype E: PolyWrapped
var e: E? { get }
init(_ e: E)
@@ -396,7 +400,7 @@ public extension _Poly5 {
}
}
public enum Poly5<A: EntityType, B: EntityType, C: EntityType, D: EntityType, E: EntityType>: _Poly5 {
public enum Poly5<A: PolyWrapped, B: PolyWrapped, C: PolyWrapped, D: PolyWrapped, E: PolyWrapped>: _Poly5 {
case a(A)
case b(B)
case c(C)
@@ -508,7 +512,7 @@ extension Poly5: CustomStringConvertible {
// MARK: - 6 types
public protocol _Poly6: _Poly5 {
associatedtype F: EntityType
associatedtype F: PolyWrapped
var f: F? { get }
init(_ f: F)
@@ -520,7 +524,7 @@ public extension _Poly6 {
}
}
public enum Poly6<A: EntityType, B: EntityType, C: EntityType, D: EntityType, E: EntityType, F: EntityType>: _Poly6 {
public enum Poly6<A: PolyWrapped, B: PolyWrapped, C: PolyWrapped, D: PolyWrapped, E: PolyWrapped, F: PolyWrapped>: _Poly6 {
case a(A)
case b(B)
case c(C)
@@ -647,7 +651,7 @@ extension Poly6: CustomStringConvertible {
// MARK: - 7 types
public protocol _Poly7: _Poly6 {
associatedtype G: EntityType
associatedtype G: PolyWrapped
var g: G? { get }
init(_ g: G)
@@ -659,7 +663,7 @@ public extension _Poly7 {
}
}
public enum Poly7<A: EntityType, B: EntityType, C: EntityType, D: EntityType, E: EntityType, F: EntityType, G: EntityType>: _Poly7 {
public enum Poly7<A: PolyWrapped, B: PolyWrapped, C: PolyWrapped, D: PolyWrapped, E: PolyWrapped, F: PolyWrapped, G: PolyWrapped>: _Poly7 {
case a(A)
case b(B)
case c(C)
@@ -799,3 +803,360 @@ extension Poly7: CustomStringConvertible {
return "Poly(\(str))"
}
}
// MARK: - 8 types
public protocol _Poly8: _Poly7 {
associatedtype H: PolyWrapped
var h: H? { get }
init(_ h: H)
}
public extension _Poly8 {
subscript(_ lookup: H.Type) -> H? {
return h
}
}
public enum Poly8<A: PolyWrapped, B: PolyWrapped, C: PolyWrapped, D: PolyWrapped, E: PolyWrapped, F: PolyWrapped, G: PolyWrapped, H: PolyWrapped>: _Poly8 {
case a(A)
case b(B)
case c(C)
case d(D)
case e(E)
case f(F)
case g(G)
case h(H)
public var a: A? {
guard case let .a(ret) = self else { return nil }
return ret
}
public init(_ a: A) {
self = .a(a)
}
public var b: B? {
guard case let .b(ret) = self else { return nil }
return ret
}
public init(_ b: B) {
self = .b(b)
}
public var c: C? {
guard case let .c(ret) = self else { return nil }
return ret
}
public init(_ c: C) {
self = .c(c)
}
public var d: D? {
guard case let .d(ret) = self else { return nil }
return ret
}
public init(_ d: D) {
self = .d(d)
}
public var e: E? {
guard case let .e(ret) = self else { return nil }
return ret
}
public init(_ e: E) {
self = .e(e)
}
public var f: F? {
guard case let .f(ret) = self else { return nil }
return ret
}
public init(_ f: F) {
self = .f(f)
}
public var g: G? {
guard case let .g(ret) = self else { return nil }
return ret
}
public init(_ g: G) {
self = .g(g)
}
public var h: H? {
guard case let .h(ret) = self else { return nil }
return ret
}
public init(_ h: H) {
self = .h(h)
}
public init(from decoder: Decoder) throws {
let container = try decoder.singleValueContainer()
let attempts = [
try decode(A.self, from: container).map { Poly8.a($0) },
try decode(B.self, from: container).map { Poly8.b($0) },
try decode(C.self, from: container).map { Poly8.c($0) },
try decode(D.self, from: container).map { Poly8.d($0) },
try decode(E.self, from: container).map { Poly8.e($0) },
try decode(F.self, from: container).map { Poly8.f($0) },
try decode(G.self, from: container).map { Poly8.g($0) },
try decode(H.self, from: container).map { Poly8.h($0) }]
let maybeVal: Poly8<A, B, C, D, E, F, G, H>? = attempts
.compactMap { $0.value }
.first
guard let val = maybeVal else {
throw EncodingError.invalidValue(Poly8<A, B, C, D, E, F, G, H>.self, .init(codingPath: decoder.codingPath,
debugDescription: "Failed to find an include of the expected type. Attempts: \(attempts.map { $0.error }.compactMap { $0 })"))
}
self = val
}
public func encode(to encoder: Encoder) throws {
var container = encoder.singleValueContainer()
switch self {
case .a(let a):
try container.encode(a)
case .b(let b):
try container.encode(b)
case .c(let c):
try container.encode(c)
case .d(let d):
try container.encode(d)
case .e(let e):
try container.encode(e)
case .f(let f):
try container.encode(f)
case .g(let g):
try container.encode(g)
case .h(let h):
try container.encode(h)
}
}
}
extension Poly8: CustomStringConvertible {
public var description: String {
let str: String
switch self {
case .a(let a):
str = String(describing: a)
case .b(let b):
str = String(describing: b)
case .c(let c):
str = String(describing: c)
case .d(let d):
str = String(describing: d)
case .e(let e):
str = String(describing: e)
case .f(let f):
str = String(describing: f)
case .g(let g):
str = String(describing: g)
case .h(let h):
str = String(describing: h)
}
return "Poly(\(str))"
}
}
// MARK: - 9 types
public protocol _Poly9: _Poly8 {
associatedtype I: PolyWrapped
var i: I? { get }
init(_ i: I)
}
public extension _Poly9 {
subscript(_ lookup: I.Type) -> I? {
return i
}
}
public enum Poly9<A: PolyWrapped, B: PolyWrapped, C: PolyWrapped, D: PolyWrapped, E: PolyWrapped, F: PolyWrapped, G: PolyWrapped, H: PolyWrapped, I: PolyWrapped>: _Poly9 {
case a(A)
case b(B)
case c(C)
case d(D)
case e(E)
case f(F)
case g(G)
case h(H)
case i(I)
public var a: A? {
guard case let .a(ret) = self else { return nil }
return ret
}
public init(_ a: A) {
self = .a(a)
}
public var b: B? {
guard case let .b(ret) = self else { return nil }
return ret
}
public init(_ b: B) {
self = .b(b)
}
public var c: C? {
guard case let .c(ret) = self else { return nil }
return ret
}
public init(_ c: C) {
self = .c(c)
}
public var d: D? {
guard case let .d(ret) = self else { return nil }
return ret
}
public init(_ d: D) {
self = .d(d)
}
public var e: E? {
guard case let .e(ret) = self else { return nil }
return ret
}
public init(_ e: E) {
self = .e(e)
}
public var f: F? {
guard case let .f(ret) = self else { return nil }
return ret
}
public init(_ f: F) {
self = .f(f)
}
public var g: G? {
guard case let .g(ret) = self else { return nil }
return ret
}
public init(_ g: G) {
self = .g(g)
}
public var h: H? {
guard case let .h(ret) = self else { return nil }
return ret
}
public init(_ h: H) {
self = .h(h)
}
public var i: I? {
guard case let .i(ret) = self else { return nil }
return ret
}
public init(_ i: I) {
self = .i(i)
}
public init(from decoder: Decoder) throws {
let container = try decoder.singleValueContainer()
let attempts = [
try decode(A.self, from: container).map { Poly9.a($0) },
try decode(B.self, from: container).map { Poly9.b($0) },
try decode(C.self, from: container).map { Poly9.c($0) },
try decode(D.self, from: container).map { Poly9.d($0) },
try decode(E.self, from: container).map { Poly9.e($0) },
try decode(F.self, from: container).map { Poly9.f($0) },
try decode(G.self, from: container).map { Poly9.g($0) },
try decode(H.self, from: container).map { Poly9.h($0) },
try decode(I.self, from: container).map { Poly9.i($0) }]
let maybeVal: Poly9<A, B, C, D, E, F, G, H, I>? = attempts
.compactMap { $0.value }
.first
guard let val = maybeVal else {
throw EncodingError.invalidValue(Poly9<A, B, C, D, E, F, G, H, I>.self, .init(codingPath: decoder.codingPath,
debugDescription: "Failed to find an include of the expected type. Attempts: \(attempts.map { $0.error }.compactMap { $0 })"))
}
self = val
}
public func encode(to encoder: Encoder) throws {
var container = encoder.singleValueContainer()
switch self {
case .a(let a):
try container.encode(a)
case .b(let b):
try container.encode(b)
case .c(let c):
try container.encode(c)
case .d(let d):
try container.encode(d)
case .e(let e):
try container.encode(e)
case .f(let f):
try container.encode(f)
case .g(let g):
try container.encode(g)
case .h(let h):
try container.encode(h)
case .i(let i):
try container.encode(i)
}
}
}
extension Poly9: CustomStringConvertible {
public var description: String {
let str: String
switch self {
case .a(let a):
str = String(describing: a)
case .b(let b):
str = String(describing: b)
case .c(let c):
str = String(describing: c)
case .d(let d):
str = String(describing: d)
case .e(let e):
str = String(describing: e)
case .f(let f):
str = String(describing: f)
case .g(let g):
str = String(describing: g)
case .h(let h):
str = String(describing: h)
case .i(let i):
str = String(describing: i)
}
return "Poly(\(str))"
}
}
+7 -7
View File
@@ -134,7 +134,7 @@ public protocol OptionalRelatable: Identifiable where Identifier == Wrapped.Iden
extension Optional: Identifiable, OptionalRelatable, JSONTyped where Wrapped: JSONAPI.Relatable {
public typealias Identifier = Wrapped.Identifier?
public static var type: String { return Wrapped.type }
public static var jsonType: String { return Wrapped.jsonType }
}
// MARK: Codable
@@ -180,8 +180,8 @@ extension ToOneRelationship: Codable where Identifiable.Identifier: OptionalId {
let type = try identifier.decode(String.self, forKey: .entityType)
guard type == Identifiable.type else {
throw JSONAPIEncodingError.typeMismatch(expected: Identifiable.type, found: type)
guard type == Identifiable.jsonType else {
throw JSONAPIEncodingError.typeMismatch(expected: Identifiable.jsonType, found: type)
}
id = Identifiable.Identifier(rawValue: try identifier.decode(Identifiable.Identifier.RawType.self, forKey: .id))
@@ -214,7 +214,7 @@ extension ToOneRelationship: Codable where Identifiable.Identifier: OptionalId {
var identifier = container.nestedContainer(keyedBy: ResourceIdentifierCodingKeys.self, forKey: .data)
try identifier.encode(id.rawValue, forKey: .id)
try identifier.encode(Identifiable.type, forKey: .entityType)
try identifier.encode(Identifiable.jsonType, forKey: .entityType)
}
}
@@ -242,8 +242,8 @@ extension ToManyRelationship: Codable {
let type = try identifier.decode(String.self, forKey: .entityType)
guard type == Relatable.type else {
throw JSONAPIEncodingError.typeMismatch(expected: Relatable.type, found: type)
guard type == Relatable.jsonType else {
throw JSONAPIEncodingError.typeMismatch(expected: Relatable.jsonType, found: type)
}
newIds.append(Relatable.Identifier(rawValue: try identifier.decode(Relatable.Identifier.RawType.self, forKey: .id)))
@@ -268,7 +268,7 @@ extension ToManyRelationship: Codable {
var identifier = identifiers.nestedContainer(keyedBy: ResourceIdentifierCodingKeys.self)
try identifier.encode(id.rawValue, forKey: .id)
try identifier.encode(Relatable.type, forKey: .entityType)
try identifier.encode(Relatable.jsonType, forKey: .entityType)
}
}
}
@@ -5,6 +5,7 @@
// Created by Mathew Polzin on 11/17/18.
//
/// A Transformer simply defines a static function that transforms a value.
public protocol Transformer {
associatedtype From
associatedtype To
@@ -12,10 +13,13 @@ public protocol Transformer {
static func transform(_ value: From) throws -> To
}
/// ReversibleTransformers define a function that reverses the transform
/// operation.
public protocol ReversibleTransformer: Transformer {
static func reverse(_ value: To) throws -> From
}
/// The IdentityTransformer does not perform any transformation on a value.
public enum IdentityTransformer<T>: ReversibleTransformer {
public static func transform(_ value: T) throws -> T { return value }
public static func reverse(_ value: T) throws -> T { return value }
@@ -1,7 +1,7 @@
import JSONAPI
extension TransformedAttribute: ExpressibleByUnicodeScalarLiteral where RawValue: ExpressibleByUnicodeScalarLiteral, Transformer == IdentityTransformer<RawValue> {
extension Attribute: ExpressibleByUnicodeScalarLiteral where RawValue: ExpressibleByUnicodeScalarLiteral {
public typealias UnicodeScalarLiteralType = RawValue.UnicodeScalarLiteralType
public init(unicodeScalarLiteral value: RawValue.UnicodeScalarLiteralType) {
@@ -9,7 +9,7 @@ extension TransformedAttribute: ExpressibleByUnicodeScalarLiteral where RawValue
}
}
extension TransformedAttribute: ExpressibleByExtendedGraphemeClusterLiteral where RawValue: ExpressibleByExtendedGraphemeClusterLiteral, Transformer == IdentityTransformer<RawValue> {
extension Attribute: ExpressibleByExtendedGraphemeClusterLiteral where RawValue: ExpressibleByExtendedGraphemeClusterLiteral {
public typealias ExtendedGraphemeClusterLiteralType = RawValue.ExtendedGraphemeClusterLiteralType
public init(extendedGraphemeClusterLiteral value: RawValue.ExtendedGraphemeClusterLiteralType) {
@@ -17,7 +17,7 @@ extension TransformedAttribute: ExpressibleByExtendedGraphemeClusterLiteral wher
}
}
extension TransformedAttribute: ExpressibleByStringLiteral where RawValue: ExpressibleByStringLiteral, Transformer == IdentityTransformer<RawValue> {
extension Attribute: ExpressibleByStringLiteral where RawValue: ExpressibleByStringLiteral {
public typealias StringLiteralType = RawValue.StringLiteralType
public init(stringLiteral value: RawValue.StringLiteralType) {
@@ -25,13 +25,13 @@ extension TransformedAttribute: ExpressibleByStringLiteral where RawValue: Expre
}
}
extension TransformedAttribute: ExpressibleByNilLiteral where RawValue: ExpressibleByNilLiteral, Transformer == IdentityTransformer<RawValue> {
extension Attribute: ExpressibleByNilLiteral where RawValue: ExpressibleByNilLiteral {
public init(nilLiteral: ()) {
self.init(value: RawValue(nilLiteral: ()))
}
}
extension TransformedAttribute: ExpressibleByFloatLiteral where RawValue: ExpressibleByFloatLiteral, Transformer == IdentityTransformer<RawValue> {
extension Attribute: ExpressibleByFloatLiteral where RawValue: ExpressibleByFloatLiteral {
public typealias FloatLiteralType = RawValue.FloatLiteralType
public init(floatLiteral value: RawValue.FloatLiteralType) {
@@ -47,7 +47,7 @@ extension Optional: ExpressibleByFloatLiteral where Wrapped: ExpressibleByFloatL
}
}
extension TransformedAttribute: ExpressibleByBooleanLiteral where RawValue: ExpressibleByBooleanLiteral, Transformer == IdentityTransformer<RawValue> {
extension Attribute: ExpressibleByBooleanLiteral where RawValue: ExpressibleByBooleanLiteral {
public typealias BooleanLiteralType = RawValue.BooleanLiteralType
public init(booleanLiteral value: BooleanLiteralType) {
@@ -63,7 +63,7 @@ extension Optional: ExpressibleByBooleanLiteral where Wrapped: ExpressibleByBool
}
}
extension TransformedAttribute: ExpressibleByIntegerLiteral where RawValue: ExpressibleByIntegerLiteral, Transformer == IdentityTransformer<RawValue> {
extension Attribute: ExpressibleByIntegerLiteral where RawValue: ExpressibleByIntegerLiteral {
public typealias IntegerLiteralType = RawValue.IntegerLiteralType
public init(integerLiteral value: IntegerLiteralType) {
@@ -91,7 +91,7 @@ public protocol DictionaryType {
}
extension Dictionary: DictionaryType {}
extension TransformedAttribute: ExpressibleByDictionaryLiteral where RawValue: DictionaryType, Transformer == IdentityTransformer<RawValue> {
extension Attribute: ExpressibleByDictionaryLiteral where RawValue: DictionaryType {
public typealias Key = RawValue.Key
public typealias Value = RawValue.Value
@@ -121,7 +121,7 @@ public protocol ArrayType {
extension Array: ArrayType {}
extension ArraySlice: ArrayType {}
extension TransformedAttribute: ExpressibleByArrayLiteral where RawValue: ArrayType, Transformer == IdentityTransformer<RawValue> {
extension Attribute: ExpressibleByArrayLiteral where RawValue: ArrayType {
public typealias ArrayLiteralElement = RawValue.Element
public init(arrayLiteral elements: ArrayLiteralElement...) {
+6 -1
View File
@@ -41,6 +41,7 @@ extension Optional: OptionalArray where Wrapped: ArrayType {}
private protocol AttributeTypeWithOptionalArray {}
extension TransformedAttribute: AttributeTypeWithOptionalArray where RawValue: OptionalArray {}
extension Attribute: AttributeTypeWithOptionalArray where RawValue: OptionalArray {}
private protocol OptionalRelationshipType {}
extension Optional: OptionalRelationshipType where Wrapped: RelationshipType {}
@@ -49,6 +50,10 @@ private protocol _RelationshipType {}
extension ToOneRelationship: _RelationshipType {}
extension ToManyRelationship: _RelationshipType {}
private protocol _AttributeType {}
extension TransformedAttribute: _AttributeType {}
extension Attribute: _AttributeType {}
public extension Entity {
public static func check(_ entity: Entity) throws {
var problems = [EntityCheckError]()
@@ -60,7 +65,7 @@ public extension Entity {
}
for attribute in attributesMirror.children {
if attribute.value as? AttributeType == nil,
if attribute.value as? _AttributeType == nil,
attribute.value as? OptionalAttributeType == nil {
problems.append(.nonAttribute(named: attribute.label ?? "unnamed"))
}
@@ -38,7 +38,7 @@ class Attribute_FunctorTests: XCTestCase {
// MARK: Test types
extension Attribute_FunctorTests {
enum TestTypeDescription: EntityDescription {
public static var type: String { return "test" }
public static var jsonType: String { return "test" }
public struct Attributes: JSONAPI.Attributes {
let name: Attribute<String>
@@ -10,12 +10,8 @@ import JSONAPI
class AttributeTests: XCTestCase {
func test_AttributeIsTransformedAttribute() {
XCTAssertEqual(try TransformedAttribute<String, IdentityTransformer<String>>(rawValue: "hello"), try Attribute<String>(rawValue: "hello"))
}
func test_AttributeNonThrowingConstructor() {
XCTAssertEqual(try Attribute<String>(rawValue: "hello"), Attribute<String>(value: "hello"))
func test_AttributeConstructor() {
XCTAssertEqual(Attribute<String>(value: "hello").value, "hello")
}
func test_TransformedAttributeNoThrow() {
@@ -30,6 +26,18 @@ class AttributeTests: XCTestCase {
XCTAssertNoThrow(try TransformedAttribute<String, TestTransformer>(transformedValue: 10))
}
func test_EncodedPrimitives() {
testEncodedPrimitive(attribute: Attribute<Int>(value: 10))
testEncodedPrimitive(attribute: Attribute<Bool>(value: false))
testEncodedPrimitive(attribute: Attribute<Double>(value: 10.2))
testEncodedPrimitive(attribute: try! TransformedAttribute<Int, IntToString>(rawValue: 10))
testEncodedPrimitive(attribute: try! TransformedAttribute<Int, IntToInt>(rawValue: 10))
testEncodedPrimitive(attribute: try! TransformedAttribute<Int, IntToDouble>(rawValue: 10))
testEncodedPrimitive(attribute: try! TransformedAttribute<String, TestTransformer>(rawValue: "10"))
testEncodedPrimitive(attribute: try! TransformedAttribute<String?, OptionalToString<String>>(rawValue: "10"))
}
func test_NullableIsNullIfNil() {
struct Wrapper: Codable {
let dummy: Attribute<String?>
@@ -68,4 +76,28 @@ extension AttributeTests {
return String(value)
}
}
enum IntToString: Transformer {
public static func transform(_ from: Int) -> String {
return String(from)
}
}
enum IntToInt: Transformer {
public static func transform(_ from: Int) -> Int {
return from + 100
}
}
enum IntToDouble: Transformer {
public static func transform(_ from: Int) -> Double {
return Double(from)
}
}
enum OptionalToString<T>: Transformer {
public static func transform(_ from: T?) -> String {
return String(describing: from)
}
}
}
@@ -46,7 +46,7 @@ class ComputedPropertiesTests: XCTestCase {
// MARK: Test types
extension ComputedPropertiesTests {
public enum TestTypeDescription: EntityDescription {
public static var type: String { return "test" }
public static var jsonType: String { return "test" }
public struct Attributes: JSONAPI.Attributes {
public let name: Attribute<String>

Some files were not shown because too many files have changed in this diff Show More