Skip to content

jsonapi-serializer/jsonapi-serializer

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

JSON:API Serialization Library

⚠️ 🚧 v2 (the master branch) is in maintenance mode! 🚧 ⚠️

We'll gladly accept bugfixes and security-related fixes for v2 (the master branch), but at this stage, contributions for new features/improvements are welcome only for v3. Please feel free to leave comments in the v3 Pull Request.


A fast JSON:API serializer for Ruby Objects.

Previously this project was called fast_jsonapi, we forked the project and renamed it to jsonapi/serializer in order to keep it alive.

We would like to thank the Netflix team for the initial work and to all our contributors and users for the continuous support!

Performance Comparison

We compare serialization times with ActiveModelSerializer and alternative implementations as part of performance tests available at jsonapi-serializer/comparisons.

We want to ensure that with every change on this library, serialization time stays significantly faster than the performance provided by the alternatives. Please read the performance article in the docs folder for any questions related to methodology.

Table of Contents

Features

  • Declaration syntax similar to Active Model Serializer
  • Support for belongs_to, has_many and has_one
  • Support for compound documents (included)
  • Optimized serialization of compound documents
  • Caching

Installation

Add this line to your application's Gemfile:

gem 'jsonapi-serializer'

Execute:

$ bundle install

Usage

Rails Generator

You can use the bundled generator if you are using the library inside of a Rails project:

rails g serializer Movie name year

This will create a new serializer in app/serializers/movie_serializer.rb

Model Definition

class Movie
  attr_accessor :id, :name, :year, :actor_ids, :owner_id, :movie_type_id
end

Serializer Definition

class MovieSerializer
  include JSONAPI::Serializer

  set_type :movie  # optional
  set_id :owner_id # optional
  attributes :name, :year
  has_many :actors
  belongs_to :owner, record_type: :user
  belongs_to :movie_type
end

Sample Object

movie = Movie.new
movie.id = 232
movie.name = 'test movie'
movie.actor_ids = [1, 2, 3]
movie.owner_id = 3
movie.movie_type_id = 1
movie

movies =
  2.times.map do |i|
    m = Movie.new
    m.id = i + 1
    m.name = "test movie #{i}"
    m.actor_ids = [1, 2, 3]
    m.owner_id = 3
    m.movie_type_id = 1
    m
  end

Object Serialization

Return a hash

hash = MovieSerializer.new(movie).serializable_hash

Return Serialized JSON

json_string = MovieSerializer.new(movie).serializable_hash.to_json

Serialized Output

{
  "data": {
    "id": "3",
    "type": "movie",
    "attributes": {
      "name": "test movie",
      "year": null
    },
    "relationships": {
      "actors": {
        "data": [
          {
            "id": "1",
            "type": "actor"
          },
          {
            "id": "2",
            "type": "actor"
          }
        ]
      },
      "owner": {
        "data": {
          "id": "3",
          "type": "user"
        }
      }
    }
  }
}

The Optionality of set_type

By default fast_jsonapi will try to figure the type based on the name of the serializer class. For example class MovieSerializer will automatically have a type of :movie. If your serializer class name does not follow this format, you have to manually state the set_type at the serializer.

Key Transforms

By default fast_jsonapi underscores the key names. It supports the same key transforms that are supported by AMS. Here is the syntax of specifying a key transform

class MovieSerializer
  include JSONAPI::Serializer

  # Available options :camel, :camel_lower, :dash, :underscore(default)
  set_key_transform :camel
end

Here are examples of how these options transform the keys

set_key_transform :camel # "some_key" => "SomeKey"
set_key_transform :camel_lower # "some_key" => "someKey"
set_key_transform :dash # "some_key" => "some-key"
set_key_transform :underscore # "some_key" => "some_key"

Attributes

Attributes are defined using the attributes method. This method is also aliased as attribute, which is useful when defining a single attribute.

By default, attributes are read directly from the model property of the same name. In this example, name is expected to be a property of the object being serialized:

class MovieSerializer
  include JSONAPI::Serializer

  attribute :name
end

Custom attributes that must be serialized but do not exist on the model can be declared using Ruby block syntax:

class MovieSerializer
  include JSONAPI::Serializer

  attributes :name, :year

  attribute :name_with_year do |object|
    "#{object.name} (#{object.year})"
  end
end

The block syntax can also be used to override the property on the object:

class MovieSerializer
  include JSONAPI::Serializer

  attribute :name do |object|
    "#{object.name} Part 2"
  end
end

Attributes can also use a different name by passing the original method or accessor with a proc shortcut:

class MovieSerializer
  include JSONAPI::Serializer

  attributes :name

  attribute :released_in_year, &:year
end

Links Per Object

Links are defined using the link method. By default, links are read directly from the model property of the same name. In this example, public_url is expected to be a property of the object being serialized.

You can configure the method to use on the object for example a link with key self will get set to the value returned by a method called url on the movie object.

You can also use a block to define a url as shown in custom_url. You can access params in these blocks as well as shown in personalized_url

class MovieSerializer
  include JSONAPI::Serializer

  link :public_url

  link :self, :url

  link :custom_url do |object|
    "https://movies.com/#{object.name}-(#{object.year})"
  end

  link :personalized_url do |object, params|
    "https://movies.com/#{object.name}-#{params[:user].reference_code}"
  end
end

Links on a Relationship

You can specify relationship links by using the links: option on the serializer. Relationship links in JSON API are useful if you want to load a parent document and then load associated documents later due to size constraints (see related resource links)

class MovieSerializer
  include JSONAPI::Serializer

  has_many :actors, links: {
    self: :url,
    related: -> (object) {
      "https://movies.com/#{object.id}/actors"
    }
  }
end

Relationship links can also be configured to be defined as a method on the object.

  has_many :actors, links: :actor_relationship_links

This will create a self reference for the relationship, and a related link for loading the actors relationship later. NB: This will not automatically disable loading the data in the relationship, you'll need to do that using the lazy_load_data option:

  has_many :actors, lazy_load_data: true, links: {
    self: :url,
    related: -> (object) {
      "https://movies.com/#{object.id}/actors"
    }
  }

Meta Per Resource

For every resource in the collection, you can include a meta object containing non-standard meta-information about a resource that can not be represented as an attribute or relationship.

class MovieSerializer
  include JSONAPI::Serializer

  meta do |movie|
    {
      years_since_release: Date.current.year - movie.year
    }
  end
end

Meta on a Relationship

You can specify relationship meta by using the meta: option on the serializer. Relationship meta in JSON API is useful if you wish to provide non-standard meta-information about the relationship.

Meta can be defined either by passing a static hash or by using Proc to the meta key. In the latter case, the record and any params passed to the serializer are available inside the Proc as the first and second parameters, respectively.

class MovieSerializer
  include JSONAPI::Serializer

  has_many :actors, meta: Proc.new do |movie_record, params|
    { count: movie_record.actors.length }
  end
end

Compound Document

Support for top-level and nested included associations through options[:include].

options = {}
options[:meta] = { total: 2 }
options[:links] = {
  self: '...',
  next: '...',
  prev: '...'
}
options[:include] = [:actors, :'actors.agency', :'actors.agency.state']
MovieSerializer.new(movies, options).serializable_hash.to_json

Collection Serialization

options[:meta] = { total: 2 }
options[:links] = {
  self: '...',
  next: '...',
  prev: '...'
}
hash = MovieSerializer.new(movies, options).serializable_hash
json_string = MovieSerializer.new(movies, options).serializable_hash.to_json

Control Over Collection Serialization

You can use is_collection option to have better control over collection serialization.

If this option is not provided or nil autodetect logic is used to try understand if provided resource is a single object or collection.

Autodetect logic is compatible with most DB toolkits (ActiveRecord, Sequel, etc.) but cannot guarantee that single vs collection will be always detected properly.

options[:is_collection]

was introduced to be able to have precise control this behavior

  • nil or not provided: will try to autodetect single vs collection (please, see notes above)
  • true will always treat input resource as collection
  • false will always treat input resource as single object

Caching

To enable caching, use cache_options store: <cache_store>:

class MovieSerializer
  include JSONAPI::Serializer

  # use rails cache with a separate namespace and fixed expiry
  cache_options store: Rails.cache, namespace: 'jsonapi-serializer', expires_in: 1.hour
end

store is required can be anything that implements a #fetch(record, **options, &block) method:

  • record is the record that is currently serialized
  • options is everything that was passed to cache_options except store, so it can be everything the cache store supports
  • &block should be executed to fetch new data if cache is empty

So for the example above it will call the cache instance like this:

Rails.cache.fetch(record, namespace: 'jsonapi-serializer', expires_in: 1.hour) { ... }

Caching and Sparse Fieldsets

If caching is enabled and fields are provided to the serializer, the fieldset will be appended to the cache key's namespace.

For example, given the following serializer definition and instance:

class ActorSerializer
  include JSONAPI::Serializer

  attributes :first_name, :last_name

  cache_options store: Rails.cache, namespace: 'jsonapi-serializer', expires_in: 1.hour
end

serializer = ActorSerializer.new(actor, { fields: { actor: [:first_name] } })

The following cache namespace will be generated: 'jsonapi-serializer-fieldset:first_name'.

Params

In some cases, attribute values might require more information than what is available on the record, for example, access privileges or other information related to a current authenticated user. The options[:params] value covers these cases by allowing you to pass in a hash of additional parameters necessary for your use case.

Leveraging the new params is easy, when you define a custom id, attribute or relationship with a block you opt-in to using params by adding it as a block parameter.

class MovieSerializer
  include JSONAPI::Serializer

  set_id do |movie, params|
    # in here, params is a hash containing the `:admin` key
    params[:admin] ? movie.owner_id : "movie-#{movie.id}"
  end

  attributes :name, :year
  attribute :can_view_early do |movie, params|
    # in here, params is a hash containing the `:current_user` key
    params[:current_user].is_employee? ? true : false
  end

  belongs_to :primary_agent do |movie, params|
    # in here, params is a hash containing the `:current_user` key
    params[:current_user]
  end
end

# ...
current_user = User.find(cookies[:current_user_id])
serializer = MovieSerializer.new(movie, {params: {current_user: current_user}})
serializer.serializable_hash

Custom attributes and relationships that only receive the resource are still possible by defining the block to only receive one argument.

Conditional Attributes

Conditional attributes can be defined by passing a Proc to the if key on the attribute method. Return true if the attribute should be serialized, and false if not. The record and any params passed to the serializer are available inside the Proc as the first and second parameters, respectively.

class MovieSerializer
  include JSONAPI::Serializer

  attributes :name, :year
  attribute :release_year, if: Proc.new { |record|
    # Release year will only be serialized if it's greater than 1990
    record.release_year > 1990
  }

  attribute :director, if: Proc.new { |record, params|
    # The director will be serialized only if the :admin key of params is true
    params && params[:admin] == true
  }

  # Custom attribute `name_year` will only be serialized if both `name` and `year` fields are present
  attribute :name_year, if: Proc.new { |record|
    record.name.present? && record.year.present?
  } do |object|
    "#{object.name} - #{object.year}"
  end
end

# ...
current_user = User.find(cookies[:current_user_id])
serializer = MovieSerializer.new(movie, { params: { admin: current_user.admin? }})
serializer.serializable_hash

Conditional Relationships

Conditional relationships can be defined by passing a Proc to the if key. Return true if the relationship should be serialized, and false if not. The record and any params passed to the serializer are available inside the Proc as the first and second parameters, respectively.

class MovieSerializer
  include JSONAPI::Serializer

  # Actors will only be serialized if the record has any associated actors
  has_many :actors, if: Proc.new { |record| record.actors.any? }

  # Owner will only be serialized if the :admin key of params is true
  belongs_to :owner, if: Proc.new { |record, params| params && params[:admin] == true }
end

# ...
current_user = User.find(cookies[:current_user_id])
serializer = MovieSerializer.new(movie, { params: { admin: current_user.admin? }})
serializer.serializable_hash

Specifying a Relationship Serializer

In many cases, the relationship can automatically detect the serializer to use.

class MovieSerializer
  include JSONAPI::Serializer

  # resolves to StudioSerializer
  belongs_to :studio
  # resolves to ActorSerializer
  has_many :actors
end

At other times, such as when a property name differs from the class name, you may need to explicitly state the serializer to use. You can do so by specifying a different symbol or the serializer class itself (which is the recommended usage):

class MovieSerializer
  include JSONAPI::Serializer

  # resolves to MovieStudioSerializer
  belongs_to :studio, serializer: :movie_studio
  # resolves to PerformerSerializer
  has_many :actors, serializer: PerformerSerializer
end

For more advanced cases, such as polymorphic relationships and Single Table Inheritance, you may need even greater control to select the serializer based on the specific object or some specified serialization parameters. You can do by defining the serializer as a Proc:

class MovieSerializer
  include JSONAPI::Serializer

  has_many :actors, serializer: Proc.new do |record, params|
    if record.comedian?
      ComedianSerializer
    elsif params[:use_drama_serializer]
      DramaSerializer
    else
      ActorSerializer
    end
  end
end

Ordering has_many Relationship

You can order the has_many relationship by providing a block:

class MovieSerializer
  include JSONAPI::Serializer

  has_many :actors do |movie|
    movie.actors.order(position: :asc)
  end
end

Sparse Fieldsets

Attributes and relationships can be selectively returned per record type by using the fields option.

class MovieSerializer
  include JSONAPI::Serializer

  attributes :name, :year
end

serializer = MovieSerializer.new(movie, { fields: { movie: [:name] } })
serializer.serializable_hash

Using helper methods

You can mix-in code from another ruby module into your serializer class to reuse functions across your app.

Since a serializer is evaluated in a the context of a class rather than an instance of a class, you need to make sure that your methods act as class methods when mixed in.

Using ActiveSupport::Concern
module AvatarHelper
  extend ActiveSupport::Concern

  class_methods do
    def avatar_url(user)
      user.image.url
    end
  end
end

class UserSerializer
  include JSONAPI::Serializer

  include AvatarHelper # mixes in your helper method as class method

  set_type :user

  attributes :name, :email

  attribute :avatar do |user|
    avatar_url(user)
  end
end
Using Plain Old Ruby
module AvatarHelper
  def avatar_url(user)
    user.image.url
  end
end

class UserSerializer
  include JSONAPI::Serializer

  extend AvatarHelper # mixes in your helper method as class method

  set_type :user

  attributes :name, :email

  attribute :avatar do |user|
    avatar_url(user)
  end
end

Customizable Options

Option Purpose Example
set_type Type name of Object set_type :movie
key Key of Object belongs_to :owner, key: :user
set_id ID of Object set_id :owner_id or set_id { |record, params| params[:admin] ? record.id : "#{record.name.downcase}-#{record.id}" }
cache_options Hash with store to enable caching and optional further cache options cache_options store: ActiveSupport::Cache::MemoryStore.new, expires_in: 5.minutes
id_method_name Set custom method name to get ID of an object (If block is provided for the relationship, id_method_name is invoked on the return value of the block instead of the resource object) has_many :locations, id_method_name: :place_ids
object_method_name Set custom method name to get related objects has_many :locations, object_method_name: :places
record_type Set custom Object Type for a relationship belongs_to :owner, record_type: :user
serializer Set custom Serializer for a relationship has_many :actors, serializer: :custom_actor, has_many :actors, serializer: MyApp::Api::V1::ActorSerializer, or has_many :actors, serializer -> (object, params) { (return a serializer class) }
polymorphic Allows different record types for a polymorphic association has_many :targets, polymorphic: true
polymorphic Sets custom record types for each object class in a polymorphic association has_many :targets, polymorphic: { Person => :person, Group => :group }

Performance Instrumentation

Performance instrumentation is available by using the active_support/notifications.

To enable it, include the module in your serializer class:

require 'jsonapi/serializer'
require 'jsonapi/serializer/instrumentation'

class MovieSerializer
  include JSONAPI::Serializer
  include JSONAPI::Serializer::Instrumentation

  # ...
end

Skylight integration is also available and supported by us, follow the Skylight documentation to enable it.

Running Tests

The project has and requires unit tests, functional tests and performance tests. To run tests use the following command:

rspec

Deserialization

We currently do not support deserialization, but we recommend to use any of the next gems:

This gem provides the next features alongside deserialization:

  • Collection meta
  • Error handling
  • Includes and sparse fields
  • Filtering and sorting
  • Pagination

Migrating from Netflix/fast_jsonapi

If you come from Netflix/fast_jsonapi, here is the instructions to switch.

Modify your Gemfile

- gem 'fast_jsonapi'
+ gem 'jsonapi-serializer'

Replace all constant references

class MovieSerializer
- include FastJsonapi::ObjectSerializer
+ include JSONAPI::Serializer
end

Replace removed methods

- json_string = MovieSerializer.new(movie).serialized_json
+ json_string = MovieSerializer.new(movie).serializable_hash.to_json

Replace require references

- require 'fast_jsonapi'
+ require 'jsonapi/serializer'

Update your cache options

See docs.

- cache_options enabled: true, cache_length: 12.hours
+ cache_options store: Rails.cache, namespace: 'jsonapi-serializer', expires_in: 1.hour

Contributing

Please follow the instructions we provide as part of the issue and pull request creation processes.

This project is intended to be a safe, welcoming space for collaboration, and contributors are expected to adhere to the Contributor Covenant code of conduct.