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Delegated types

Class hierarchies can map to relational database tables in many ways. Active Record, for example, offers purely abstract classes, where the superclass doesn’t persist any attributes, and single-table inheritance, where all attributes from all levels of the hierarchy are represented in a single table. Both have their places, but neither are without their drawbacks.

The problem with purely abstract classes is that all concrete subclasses must persist all the shared attributes themselves in their own tables (also known as class-table inheritance). This makes it hard to do queries across the hierarchy. For example, imagine you have the following hierarchy:

Entry < ApplicationRecord
Message < Entry
Comment < Entry

How do you show a feed that has both Message and Comment records, which can be easily paginated? Well, you can’t! Messages are backed by a messages table and comments by a comments table. You can’t pull from both tables at once and use a consistent OFFSET/LIMIT scheme.

You can get around the pagination problem by using single-table inheritance, but now you’re forced into a single mega table with all the attributes from all subclasses. No matter how divergent. If a Message has a subject, but the comment does not, well, now the comment does anyway! So STI works best when there’s little divergence between the subclasses and their attributes.

But there’s a third way: Delegated types. With this approach, the “superclass” is a concrete class that is represented by its own table, where all the superclass attributes that are shared amongst all the “subclasses” are stored. And then each of the subclasses have their own individual tables for additional attributes that are particular to their implementation. This is similar to what’s called multi-table inheritance in Django, but instead of actual inheritance, this approach uses delegation to form the hierarchy and share responsibilities.

Let’s look at that entry/message/comment example using delegated types:

# Schema: entries[ id, account_id, creator_id, entryable_type, entryable_id, created_at, updated_at ]
class Entry < ApplicationRecord
  belongs_to :account
  belongs_to :creator
  delegated_type :entryable, types: %w[ Message Comment ]
end

module Entryable
  extend ActiveSupport::Concern

  included do
    has_one :entry, as: :entryable, touch: true
  end
end

# Schema: messages[ id, subject, body, created_at, updated_at ]
class Message < ApplicationRecord
  include Entryable
end

# Schema: comments[ id, content, created_at, updated_at ]
class Comment < ApplicationRecord
  include Entryable
end

As you can see, neither Message nor Comment are meant to stand alone. Crucial metadata for both classes resides in the Entry “superclass”. But the Entry absolutely can stand alone in terms of querying capacity in particular. You can now easily do things like:

Account.find(1).entries.order(created_at: :desc).limit(50)

Which is exactly what you want when displaying both comments and messages together. The entry itself can be rendered as its delegated type easily, like so:

# entries/_entry.html.erb
<%= render "entries/entryables/#{entry.entryable_name}", entry: entry %>

# entries/entryables/_message.html.erb
<div class="message">
  <div class="subject"><%= entry.message.subject %></div>
  <p><%= entry.message.body %></p>
  <i>Posted on <%= entry.created_at %> by <%= entry.creator.name %></i>
</div>

# entries/entryables/_comment.html.erb
<div class="comment">
  <%= entry.creator.name %> said: <%= entry.comment.content %>
</div>

Sharing behavior with concerns and controllers

The entry “superclass” also serves as a perfect place to put all that shared logic that applies to both messages and comments, and which acts primarily on the shared attributes. Imagine:

class Entry < ApplicationRecord
  include Eventable, Forwardable, Redeliverable
end

Which allows you to have controllers for things like ForwardsController and RedeliverableController that both act on entries, and thus provide the shared functionality to both messages and comments.

Creating new records

You create a new record that uses delegated typing by creating the delegator and delegatee at the same time, like so:

Entry.create! entryable: Comment.new(content: "Hello!"), creator: Current.user, account: Current.account

If you need more complicated composition, or you need to perform dependent validation, you should build a factory method or class to take care of the complicated needs. This could be as simple as:

class Entry < ApplicationRecord
  def self.create_with_comment(content, creator: Current.user, account: Current.account)
    create! entryable: Comment.new(content: content), creator: creator, account: account
  end
end

Querying across records

A consequence of delegated types is that querying attributes spread across multiple classes becomes slightly more tricky, but not impossible.

The simplest method is to join the “superclass” to the “subclass” and apply the query parameters (i.e. #where) in appropriate places:

Comment.joins(:entry).where(comments: { content: 'Hello!' }, entry: { creator: Current.user } )

For convenience, add a scope on the concern. Now all classes that implement the concern will automatically include the method:

# app/models/concerns/entryable.rb
scope :with_entry, ->(attrs) { joins(:entry).where(entry: attrs) }

Now the query can be shortened significantly:

Comment.where(content: 'Hello!').with_entry(creator: Current.user)

Adding further delegation

The delegated type shouldn’t just answer the question of what the underlying class is called. In fact, that’s an anti-pattern most of the time. The reason you’re building this hierarchy is to take advantage of polymorphism. So here’s a simple example of that:

class Entry < ApplicationRecord
  delegated_type :entryable, types: %w[ Message Comment ]
  delegate :title, to: :entryable
end

class Message < ApplicationRecord
  def title
    subject
  end
end

class Comment < ApplicationRecord
  def title
    content.truncate(20)
  end
end

Now you can list a bunch of entries, call Entry#title, and polymorphism will provide you with the answer.

Nested Attributes

Enabling nested attributes on a delegated_type association allows you to create the entry and message in one go:

class Entry < ApplicationRecord
  delegated_type :entryable, types: %w[ Message Comment ]
  accepts_nested_attributes_for :entryable
end

params = { entry: { entryable_type: 'Message', entryable_attributes: { subject: 'Smiling' } } }
entry = Entry.create(params[:entry])
entry.entryable.id # => 2
entry.entryable.subject # => 'Smiling'
Methods
D

Instance Public methods

delegated_type(role, types:, **options)

Defines this as a class that’ll delegate its type for the passed role to the class references in types. That’ll create a polymorphic belongs_to relationship to that role, and it’ll add all the delegated type convenience methods:

class Entry < ApplicationRecord
  delegated_type :entryable, types: %w[ Message Comment ], dependent: :destroy
end

Entry#entryable_class # => +Message+ or +Comment+
Entry#entryable_name  # => "message" or "comment"
Entry.messages        # => Entry.where(entryable_type: "Message")
Entry#message?        # => true when entryable_type == "Message"
Entry#message         # => returns the message record, when entryable_type == "Message", otherwise nil
Entry#message_id      # => returns entryable_id, when entryable_type == "Message", otherwise nil
Entry.comments        # => Entry.where(entryable_type: "Comment")
Entry#comment?        # => true when entryable_type == "Comment"
Entry#comment         # => returns the comment record, when entryable_type == "Comment", otherwise nil
Entry#comment_id      # => returns entryable_id, when entryable_type == "Comment", otherwise nil

You can also declare namespaced types:

class Entry < ApplicationRecord
  delegated_type :entryable, types: %w[ Message Comment Access::NoticeMessage ], dependent: :destroy
end

Entry.access_notice_messages
entry.access_notice_message
entry.access_notice_message?

Options

The options are passed directly to the belongs_to call, so this is where you declare dependent etc. The following options can be included to specialize the behavior of the delegated type convenience methods.

:foreign_key

Specify the foreign key used for the convenience methods. By default this is guessed to be the passed role with an “_id” suffix. So a class that defines a delegated_type :entryable, types: %w[ Message Comment ] association will use “entryable_id” as the default :foreign_key.

:foreign_type

Specify the column used to store the associated object’s type. By default this is inferred to be the passed role with a “_type” suffix. A class that defines a delegated_type :entryable, types: %w[ Message Comment ] association will use “entryable_type” as the default :foreign_type.

:primary_key

Specify the method that returns the primary key of associated object used for the convenience methods. By default this is id.

Option examples:

class Entry < ApplicationRecord
  delegated_type :entryable, types: %w[ Message Comment ], primary_key: :uuid, foreign_key: :entryable_uuid
end

Entry#message_uuid      # => returns entryable_uuid, when entryable_type == "Message", otherwise nil
Entry#comment_uuid      # => returns entryable_uuid, when entryable_type == "Comment", otherwise nil
# File activerecord/lib/active_record/delegated_type.rb, line 231
def delegated_type(role, types:, **options)
  belongs_to role, options.delete(:scope), **options.merge(polymorphic: true)
  define_delegated_type_methods role, types: types, options: options
end