The Greek word for swift and the ship used by Jason, son of Aeson, of the Argonauts. Aeson is the JSON parsing library in Haskell that inspired Argo, much like Aeson inspired his son Jason.
Add the following to your Cartfile:
github "thoughtbot/Argo"
Then run carthage update. Drag Argo.framework into your project, and
you're good to go.
coming soon
I guess you could do it this way if that's your thing.
Add this repo as a submodule, and add the project file to your workspace. You
can then link against Argo.framework for your application target.
First, create your model. I like to use structs but a class is OK too.
struct User {
let id: Int
let name: String
let email: String?
}Then, extend the model to conform to JSONDecodable. You will also need to
write a static constructor method that is curried. I like to use create.
extension User: JSONDecodable {
static func create(id: Int)(name: String)(email: String?) -> User {
return User(id: id, name: name, email: email)
}
}It's important that the create function's parameters are all in separate
parenthesis. This will make the function curried. Then inside the function we
can call the model's constructor.
Finally, implement the JSONDecodable decode function to decode the incoming
JSON. If incoming JSON looks like this:
{
"id": 1,
"name": "Cool User",
"email": "cool.user@example.com"
}
Then the decoding implementation will look like this:
extension User: JSONDecodable {
static func create(id: Int)(name: String)(email: String?) -> User {
return User(id: id, name: name, email: email)
}
static func decode(json: JSON) -> User? {
return _JSONParse(json) >>- { d in
User.create
<^> d <| "id"
<*> d <| "name"
<*> d <|* "email"
}
}
}First, we check that json is a JSON object using _JSONParse. Then, we bind
(>>-) that to a closure that takes our JSON object and returns the optional
User. We call User.create and use fmap (<^>) and apply (<*>) to check
if each value exists within the JSON object. If any value is missing, the
operation will return .None; otherwise, we'll receive the User. d is our
JSON object and we pull the value from it by using the <| (<|* for
optionals) operator along with the key that references the value we want. It's
important that these values follow the same order as the create function
parameters.
As long as your models conform to JSONDecodable you can use them in other
models like this Post model.
struct Post {
let id: Int
let text: String
let author: User
}
extension Post: JSONDecodable {
static func create(id: Int)(text: String)(author: User) -> Post {
return Post(id: id, text: text, author: author)
}
static func decode(json: JSON) -> Post? {
return _JSONParse(json) >>- { d in
Post.create
<^> d <| "id"
<*> d <| "text"
<*> d <| "author"
}
}
}From the JSON:
{
"id": 5,
"text": "A cool story.",
"author": {
"id": 1,
"name": "Cool User"
}
}
You can pull values from embedded objects by chaining <|. This Post model
just stores the author's name and not the whole model.
struct Post {
let id: Int
let text: String
let authorName: String
}
extension Post: JSONDecodable {
static func create(id: Int)(text: String)(authorName: String) -> Post {
return Post(id: id, text: text, authorName: authorName)
}
static func decode(json: JSON) -> Post? {
return _JSONParse(json) >>- { d in
Post.create
<^> d <| "id"
<*> d <| "text"
<*> d <| "author" <| "name"
}
}
}Arrays of models or Swift types also work the same way.
struct Post {
let id: Int
let text: String
let authorName: String
let comments: [String]
}
extension Post: JSONDecodable {
static func create(id: Int)(text: String)(authorName: String)(comments: [String]) -> Post {
return Post(id: id, text: text, authorName: authorName, comments: comments)
}
static func decode(json: JSON) -> Post? {
return _JSONParse(json) >>- { d in
Post.create
<^> d <| "id"
<*> d <| "text"
<*> d <| "author" <| "name"
<*> d <| "comments"
}
}
}Post comments could also be an array of a custom struct Comment in that
example and the decoding code would still be the same as long as Comment also
conforms to JSONDecodable.