A Serialization / Deserialization library.
Add this line to your application's Gemfile:
gem 'kartograph'
And then execute:
$ bundle
Kartograph makes it easy to generate and convert JSON. It's intention is to be used for API clients.
For example, if you have an object that you would like to convert to JSON for a create request to an API. You would have something similar to this:
class UserMapping
include Kartograph::DSL
kartograph do
mapping User # The object we're mapping
property :name, :email, scopes: [:create, :update]
property :id, scopes: :read
end
end
user = User.new(name: 'Bobby Tables')
json_for_create = UserMapping.representation_for(:create, user)
user = User.new(name: 'PB Jelly')
users = [user]
hash = UserMapping.hash_for(:read, user)
hash_collection = UserMapping.hash_collection_for(:read, user)
user = User.new(name: 'Bobby Tables')
users = Array.new(10, user)
json = UserMapping.represent_collection_for(:read, users)
Some API's will give you the created resource back as JSON as well on a successful create. For that, you may do something like this:
response = HTTPClient.post("http://something.com/api/users", body: json_for_create)
created_user = UserMapping.extract_single(response.body, :read)
Most API's will have a way of retrieving an entire resource collection. For this you can instruct Kartograph to convert a collection.
response = HTTPClient.get("http://something.com/api/users")
users = UserMapping.extract_collection(response.body, :read)
# => [ User, User, User ]
Sometimes resources will nest other properties under a key. Kartograph can handle this as well.
class UserMapping
include Kartograph::DSL
kartograph do
mapping User # The object we're mapping
property :name, scopes: [:read]
property :comments do
mapping Comment # The nested object we're mapping
property :text, scopes: [:read]
property :author, scopes: [:read]
end
end
end
Just like the previous examples, when you serialize this. It will include the comment block for the scope defined.
Kartograph can also handle the event of root keys in response bodies. For example, if you receive a response with:
{ "user": { "id": 123 } }
You could define a mapping like this:
class UserMapping
include Kartograph::DSL
kartograph do
mapping User
root_key singular: 'user', plural: 'users', scopes: [:read]
property :id, scopes: [:read]
end
end
This means that when you call the same thing:
response = HTTPClient.get("http://something.com/api/users")
users = UserMapping.extract_collection(response.body, :read)
It will look for the root key before trying to deserialize the JSON response. The advantage of this is it will only use the root key if there is a scope defined for it.
Sometimes you might have models that are nested within eachother on responses. Or you simply want to cleanup definitions by separating concerns. Kartograph lets you do this with includes.
class UserMapping
include Kartograph::DSL
kartograph do
mapping User
property :id, scopes: [:read]
property :comments, plural: true, include: CommentMapping
end
end
class CommentMapping
include Kartograph::DSL
kartograph do
mapping Comment
property :id, scopes: [:read]
property :text, scopes: [:read]
end
end
Sometimes adding scopes to all properties can be tedious, to avoid that, you can define properties within a scope block.
class UserMapping
include Kartograph::DSL
kartograph do
scoped :read do
property :name
property :id
property :email, key: 'email_address' # The JSON returned has the key of email_address, our property is called email however.
end
scoped :update, :create do
property :name
property :email, key: 'email_address'
end
end
end
Now when JSON includes comments for a user, it will know how to map the comments using the provided Kartograph definition.
Kartograph has the option to cache certain serializations, determined by the way you setup the key.
class UserMapping
include Kartograph::DSL
kartograph do
cache { Rails.cache } # As long as this respond to #fetch(key_name, options = {}, &block) it will work
cache_key { |object| object.cache_key }
end
end
end
- Fork it ( https://github.com/digitaloceancloud/kartograph/fork )
- Create your feature branch (
git checkout -b my-new-feature
) - Commit your changes (
git commit -am 'Add some feature'
) - Push to the branch (
git push origin my-new-feature
) - Create a new Pull Request