Skip to content

pyromaniac/active_data

Repository files navigation

Build Status Code Climate

ActiveData

ActiveData is a ActiveModel-based front-end for your data. You might need to use it in the following cases:

  • When you need a form objects pattern.
class ProfileForm
  include ActiveData::Model

  attribute 'first_name', String
  attribute 'last_name', String
  attribute 'birth_date', Date

  def full_name
    [first_name, last_name].reject(&:blank).join(' ')
  end

  def full_name= value
    self.first_name, self.last_name = value.split(' ', 2).map(&:strip)
  end
end

class ProfileController < ApplicationController
  def edit
    @form = ProfileForm.new current_user.attributes
  end

  def update
    result = ProfileForm.new(params[:profile_form]).save do |form|
      current_user.update_attributes(form.attributes)
    end

    if result
      redirect_to ...
    else
      render 'edit'
    end
  end
end
  • When you need to work with data-storage in ActiveRecord style with
class Flight
  include ActiveData::Model

  attribute :airline, String
  attribute :number, String
  attribute :departure, Time
  attribute :arrival, Time

  validates :airline, :number, presence: true

  def id
    [airline, number].join('-')
  end

  def self.find id
    source = REDIS.get(id)
    instantiate(JSON.parse(source)) if source.present?
  end

  define_save do
    REDIS.set(id, attributes.to_json)
  end

  define_destroy do
    REDIS.del(id)
  end
end
  • When you need to implement embedded objects for ActiveRecord models
class Answer
  include ActiveData::Model

  attribute :question_id, Integer
  attribute :content, String

  validates :question_id, :content, presence: true
end

class Quiz < ActiveRecord::Base
  embeds_many :answers

  validates :user_id, presence: true
  validates :answers, associated: true
end

q = Quiz.new
q.answers.build(question_id: 42, content: 'blabla')
q.save

Why?

ActiveData is an ActiveModel-based library that provides the following abilities:

  • Standard form objects building toolkit: attributes with typecasting, validations, etc.
  • High-level universal ORM/ODM library using any data source (DB, http, redis, text files).
  • Embedding objects into your ActiveRecord entities. Quite useful with PG JSON capabilities.

Key features:

  • Complete objects lifecycle support: saving, updating, destroying.
  • Embedded and referenced associations.
  • Backend-agnostic named scopes functionality.
  • Callbacks, validations and dirty attributes inside.

Installation

Add this line to your application's Gemfile:

gem 'active_data'

And then execute:

$ bundle

Or install it yourself as:

$ gem install active_data

Usage

ActiveData has modular architecture, so it is required to include modules to obtain additional features. By default ActiveData supports attributes definition and validations.

Attributes

ActiveData provides several types of attributes and typecasts each attribute to its defined type upon initialization.

class Book
  include ActiveData::Model

  attribute :title, String
  collection :author_ids, Integer
end

Attribute

attribute :full_name, String, default: 'John Talbot'

By default, if type for attribute is not set, it is defined with Object type, so it would be a great idea to specify type for every attribute explicitly.

Type is necessary for attribute typecasting. Here is the list of pre-defined basic typecasters:

[1] pry(main)> ActiveData._typecasters.keys
=> ["Object", "String", "Array", "Hash", "Date", "DateTime", "Time", "ActiveSupport::TimeZone", "BigDecimal", "Float", "Integer", "Boolean", "ActiveData::UUID"]

In addition, you can provide any class type when defining the attribute, but in that case you will be able to only assign instances of that specific class or value nil:

attribute :template, MyCustomTemplateType
Defaults

It is possible to provide default values for attributes and they will act in the same way as AR or Mongoid default values:

attribute :check, Boolean, default: false # Simply false by default
attribute :today, Date, default: ->{ Time.zone.now.to_date } # Dynamic default value
attribute :today_wday, Integer, default: ->{ today.wday } # Default is evaluated in instance context
attribute :today_wday, Integer, default: ->(instance) { instance.today.wday } # The same as previous, but instance provided explicitly
Enums

Enums restrict the scope of possible values for attribute. If assigned value is not included in provided list - then it turns to nil:

attribute :direction, String, enum: %w[north south east west]
Normalizers

Normalizers are applied last, modifying typecast value. It is possible to provide a list of normalizers, they will be applied in the order. It is possible to pre-define normalizers to DRY code:

ActiveData.normalizer(:trim) do |value, options, _attribute|
  value.first(options[:length] || 2)
end

attribute :title, String, normalizers: [->(value) { value.strip }, trim: {length: 80}]
Readonly
attribute :name, String, readonly: true # Readonly forever
attribute :name, String, readonly: ->{ true } # Conditionally readonly
attribute :name, String, readonly: ->(instance) { instance.subject.present? } # Explicit instance

Collection

Collection is simply an array of equally-typed values:

class Panda
  include ActiveData::Model

  collection :ids, Integer
end

Collection typecasts each value to specified type and also no matter what are you going to pass - it will be an array.

[1] pry(main)> Panda.new
=> #<Panda ids: []>
[2] pry(main)> Panda.new(ids: 42)
=> #<Panda ids: [42]>
[3] pry(main)> Panda.new(ids: [42, '33'])
=> #<Panda ids: [42, 33]>

Default and enum modifiers are applied to every value, normalizer will be applied to the whole array.

Dictionary

Dictionary field is a hash of specified type values with string keys:

class Foo
  include ActiveData::Model

  dictionary :ordering, String
end
[1] pry(main)> Foo.new
=> #<Foo ordering: {}>
[2] pry(main)> Foo.new(ordering: {name: :desc})
=> #<Foo ordering: {"name"=>"desc"}>

Keys list might be restricted with :keys option, defaults and enums are applied to every value, normalizers are applied to the whole hash.

Localized

Localized is similar to how Globalize 3 attributes work.

localized :title, String

Represents

Represents provides an easy way to expose model attributes through an interface. It will automatically set passed value to the represented object before validation. You can use any ActiveRecord, ActiveModel or ActiveData object as a target of representation. A type of an attribute will be taken from it. If there is no type, it will be Object by default. You can set the type explicitly by passing the type: TypeClass option. Represents will also add automatic validation of the target object.

class Person
  include ActiveData::Model

  attribute :name, String
end

class Doctor
  include ActiveData::Model
  include ActiveData::Model::Representation

  attribute :person, Object
  represents :name, of: :person
end

person = Person.new(name: 'Walter Bishop')
# => #<Person name: "Walter Bishop">
Doctor.new(person: person).name
# => "Walter Bishop"
Doctor.new(person: person, name: 'Dr. Walter Bishop').name
# => "Dr. Walter Bishop"
person.name
# => "Dr. Walter Bishop"

Associations

ActiveData provides a set of associations. There are two types of them: referenced and embedded. The closest example of referenced association is AR belongs_to and as for embedded ones - Mongoid's embedded. Also these associations support accepts_nested_attributes call.

EmbedsOne

embeds_one :profile

Defines singular embedded object. Might be defined inline:

embeds_one :profile do
  attribute :first_name, String
  attribute :last_name, String
end

Possible options:

  • :class_name - association class name
  • :validate - true or false
  • :default - default value for association: attributes hash or instance of defined class

EmbedsMany

embeds_many :tags

Defines collection of embedded objects. Might be defined inline:

embeds_many :tags do
  attribute :identifier, String
end
  • :class_name - association class name
  • :validate - true or false
  • :default - default value for association: attributes hash collection or instances of defined class

ReferencesOne

references_one :user

This will provide several methods to the object: #user, #user=, #user_id and #user_id=, just as would occur with an ActiveRecord association.

Possible options:

  • :class_name - association class name

  • :primary_key - associated object primary key (:id by default):

    references_one :user, primary_key: :name

    This will create the following methods: #user, #user=, #user_name and #user_name=

  • :reference_key - redefines #user_id and #user_id= method names completely.

  • :validate - true or false

  • :default - default value for association: reference or object itself

ReferencesMany

references_many :users

This will provide several methods to the object: #users, #users=, #user_ids and #user_ids= just as an ActiveRecord relation does.

Possible options:

  • :class_name - association class name

  • :primary_key - associated object primary key (:id by default):

    references_many :users, primary_key: :name

    This will create the following methods: #users, #users=, #user_names and #user_names=

  • :reference_key - redefines #user_ids and #user_ids= method names completely.

  • :validate - true or false

  • :default - default value for association: reference collection or objects themselves

Interacting with ActiveRecord

Persistence Adapters

Adapter definition syntax:

class Mongoid::Document
  # anything that have similar interface to
  # ActiveData::Model::Associations::PersistenceAdapters::Base
  def self.active_data_persistence_adapter
    MongoidAdapter
  end
end

Where ClassName - name of model class or one of ancestors data_source - name of data source class primary_key - key to search data scope_proc - additional proc for filtering

All required interface for adapters described in ActiveData::Model::Associations::PersistenceAdapters::Base.

Adapter for ActiveRecord is ActiveData::Model::Associations::PersistenceAdapters::ActiveRecord. So, all AR models will use PersistenceAdapters::ActiveRecord by default.

Primary

Persistence

Lifecycle

Callbacks

Dirty

Validations

Scopes

Contributing

  1. Fork it
  2. Create your feature branch (git checkout -b my-new-feature)
  3. Commit your changes (git commit -am 'Added some feature')
  4. Push to the branch (git push origin my-new-feature)
  5. Create new Pull Request

About

Working with any data in AR style

Resources

License

Stars

Watchers

Forks

Packages

No packages published

Languages