(Note: super_module includes features that involve heavy use of meta-programming, so unless you really need it, prefer using pure Ruby modules when sufficient)
SuperModule provides a simpler and more intuitive solution than ActiveRecord::Concern
that enables developers to continue to use Ruby modules as first-class citizens with mixin inheritance even when wanting to inherit singleton-class methods and invocations.
Calling Ruby's Module#include
to mix in a module does not bring in class methods by default. This can come as quite the surprise when attempting to include class methods via a module.
Ruby offers one workaround in the form of implementing the hook method Module.included(base)
following a certain boilerplate code idiom. Unfortunately, it hinders code maintainability and productivity with extra unnecessary complexity, especially in production-environment projects employing many mixins (e.g. modeling business domain models with composable object traits).
Another workaround is ActiveSupport::Concern
, a Rails library that attempts to ease some of the boilerplate pain by offering a DSL layer on top of Module.included(base)
. Unfortunately, while it helps improve readability a bit, it adds even more boilerplate idiom cruft, thus feeling no more than putting a band-aid on the problem.
But do not fear, SuperModule comes to the rescue! By declaring your module as a SuperModule, it will simply behave as one would expect and automatically include class methods along with instance methods, without any further work needed.
Used in my other project: Glimmer DSL for SWT (JRuby Desktop Development GUI Framework)
To introduce SuperModule, here is a comparison of three different approaches for writing a
UserIdentifiable
module, which includes ActiveModel::Model module as an in-memory alternative to ActiveRecord::Base
superclass.
module UserIdentifiable
include ActiveModel::Model
def self.included(base)
base.extend(ClassMethods)
base.class_eval do
belongs_to :user
validates :user_id, presence: true
end
end
module ClassMethods
def most_active_user
User.find_by_id(select('count(id) as head_count, user_id').group('user_id').order('count(id) desc').first.user_id)
end
end
def slug
"#{self.class.name}_#{user_id}"
end
end
This is a lot to think about and process for simply wanting inclusion of class method definitions (like most_active_user
) and class method invocations (like belongs_to
and validates
). The unnecessary complexity gets in the way of problem-solving; slows down productivity with repetitive boiler-plate code; and breaks expectations set in other similar object-oriented languages, discouraging companies from including Ruby in a polyglot stack, such as Groupon's Rails/JVM/Node.js stack and SoundCloud's JRuby/Scala/Clojure stack.
module UserIdentifiable
extend ActiveSupport::Concern
include ActiveModel::Model
included do
belongs_to :user
validates :user_id, presence: true
end
module ClassMethods
def most_active_user
User.find_by_id(select('count(id) as head_count, user_id').group('user_id').order('count(id) desc').first.user_id)
end
end
def slug
"#{self.class.name}_#{user_id}"
end
end
A step forward that addresses the boiler-plate repetitive code concern, but is otherwise no more than putting a band-aid on the problem. To explain more, developer problem solving and creativity flow is still disrupted by having to think about the lower-level mechanism of running code on inclusion (using included
) and structuring class methods in an extra sub-module (ClassMethods
) instead of simply declaring class methods like they normally would in Ruby and staying focused on the task at hand.
3) SuperModule
module UserIdentifiable
include SuperModule
include ActiveModel::Model
belongs_to :user
validates :user_id, presence: true
def self.most_active_user
User.find_by_id(select('count(id) as head_count, user_id').group('user_id').order('count(id) desc').first.user_id)
end
def slug
"#{self.class.name}_#{user_id}"
end
end
By including SuperModule
(following Ruby's basic convention of relying on a module), developers can directly add class method invocations and definitions inside the module's body, and SuperModule
takes care of automatically mixing them into classes that include the module.
As a result, SuperModule collapses the difference between extending a super class and including a super module, thus encouraging developers to write simpler code while making better Object-Oriented Design decisions.
In other words, SuperModule furthers Ruby's goal of making programmers happy.
P.S. this library intentionally avoids bad techniques like "eval" of entire module body since they do not maintain Module mixin inheritance support. SuperModule supports full Ruby module mixin inheritance as it does not change it, yet only adds automation for singleton-class method inheritance on top of it (via surgical class_eval instead of full eval). SuperModule in fact encourages developers to continue to rely on basic Ruby code like include SuperModule
.
Using Bundler
Add the following to Gemfile:
gem 'super_module', '1.4.2'
And run the following command:
bundle
Afterwards, SuperModule will automatically get required in the application (e.g. a Rails application) and be ready for use.
Using RubyGem Directly
Run the following command:
gem install super_module
(add --no-ri --no-rdoc
if you wish to skip downloading documentation for a faster install)
Add the following at the top of your Ruby file:
require 'super_module'
module UserIdentifiable
include SuperModule
include ActiveModel::Model
belongs_to :user
validates :user_id, presence: true
def self.most_active_user
User.find_by_id(select('count(id) as head_count, user_id').group('user_id').order('count(id) desc').first.user_id)
end
def slug
"#{self.class.name}_#{user_id}"
end
end
Note: Even if you are including another super module in your new super module, you must include SuperModule
at the top of your module definition before anything else.
3) Mix newly defined module into a class or another super module
class ClubParticipation < ActiveRecord::Base
include UserIdentifiable
end
class CourseEnrollment < ActiveRecord::Base
include UserIdentifiable
end
module Accountable
include SuperModule
include UserIdentifiable
end
class Activity < ActiveRecord::Base
include Accountable
end
CourseEnrollment.most_active_user
ClubParticipation.most_active_user
Activity.last.slug
ClubParticipation.create(club_id: club.id, user_id: user.id).slug
CourseEnrollment.new(course_id: course.id).valid?
- SuperModule must always be included at the top of a module's body at code-time
- SuperModule inclusion can be optionally followed by other basic or super module inclusions
- A super module can only be included in a class or another super module
- SuperModule: name of the library and Ruby module that provides functionality via mixin
- Super module: any Ruby module that mixes in SuperModule
- Singleton class: also known as the metaclass or eigenclass, it is the object-instance-associated class copy available to every object in Ruby (e.g. every
Object.new
instance has a singleton class that is a copy of theObject
class, which can house instance-specific behavior if needed) - Singleton method: an instance method defined on an object's singleton class. Often used to refer to a class or module method defined on the Ruby class object or module object singleton class via
def self.method_name(...)
orclass << self
enclosingdef method_name(...)
- Class method invocation: Inherited Ruby class or module method invoked in the body of a class or module (e.g.
validates :username, presence: true
) - Code-time: Time of writing code in a Ruby file as opposed to Run-time
- Run-time: Time of executing Ruby code
Create a ruby file called super_module_irb_example.rb with the following content:
require 'rubygems' # to be backwards compatible with Ruby 1.8.7
require 'super_module'
module RequiresAttributes
include SuperModule
def self.requires(*attributes)
attributes.each {|attribute| required_attributes << attribute}
end
def self.required_attributes
@required_attributes ||= []
end
def requirements_satisfied?
!!self.class.required_attributes.reduce(true) { |result, required_attribute| result && send(required_attribute) }
end
end
class MediaAuthorization
include RequiresAttributes
attr_accessor :user_id, :credit_card_id
requires :user_id, :credit_card_id
end
Open irb
(Interactive Ruby) and paste the following code snippets in. You should get the output denoted by the rockets (=>
).
require './super_module_irb_example.rb'
=> true
MediaAuthorization.required_attributes
=> [:user_id, :credit_card_id]
media_authorization = MediaAuthorization.new # resulting object print-out varies
=> #MediaAuthorization:0x832b36be1
media_authorization.requirements_satisfied?
=> false
media_authorization.user_id = 387
=> 387
media_authorization.requirements_satisfied?
=> false
media_authorization.credit_card_id = 37
=> 37
media_authorization.requirements_satisfied?
=> true
With SuperModule
, hooking into self.included(base)
is no longer needed for most cases. Still, there rare exceptions where that might be needed to execute some meta-programmatic logic. Fortunately, SuperModule
offers a mechanism to do so.
SuperModule
relies on self.included(base)
, so modules mixing it in must refrain from implementing self.included(base)
directly (SuperModule
will automatically prevent that by providing instructions should one attempt to do so).
In order for a super module to hook into self.included(base)
and add extra logic, it must do so via super_module_included {|base| ... }
instead, which safely appends that logic to the work of SuperModule
as well as other nested super modules.
Example:
module V1::SummarizedActiveModel
include SuperModule
super_module_included do |klass|
if klass.name.split(/::/).last.start_with?('Fake')
klass.extend(FakeClassMethods1)
end
end
module FakeClassMethods1
def fake_summary
'This is a fake summary.'
end
end
class << self
def self.validates(attribute, options = {})
validations << [attribute, options]
end
def self.validations
@validations ||= []
end
def summary
validations.flatten.map(&:to_s).join("/")
end
end
end
module V1::ExtraSummarizedActiveModel
include SuperModule
include ::V1::SummarizedActiveModel
super_module_included do |klass|
if klass.name.split(/::/).last.start_with?('Fake')
klass.extend(FakeClassMethods2)
end
end
module FakeClassMethods2
def fake_extra
'This is fake extra.'
end
end
class << self
def extra
"This is extra."
end
end
end
class V1::SummarizedActiveRecord
include ::V1::SummarizedActiveModel
end
class V1::FakeSummarizedActiveRecord
include ::V1::SummarizedActiveModel
end
class V1::ExtraSummarizedActiveRecord
include ::V1::ExtraSummarizedActiveModel
end
class V1::FakeExtraSummarizedActiveRecord
include ::V1::ExtraSummarizedActiveModel
end
V1::SummarizedActiveRecord.validates 'foo', {:presence => true}
V1::SummarizedActiveRecord.validates 'bar', {:presence => true}
puts V1::SummarizedActiveRecord.summary
# prints 'foo/{:presence=>true}/bar/{:presence=>true}'
V1::FakeSummarizedActiveRecord.validates 'foo', {:presence => true}
V1::FakeSummarizedActiveRecord.validates 'bar', {:presence => true}
puts V1::FakeSummarizedActiveRecord.summary
# prints 'foo/{:presence=>true}/bar/{:presence=>true}'
puts V1::FakeSummarizedActiveRecord.fake_summary
# prints 'This is a fake summary.'
V1::ExtraSummarizedActiveRecord.validates 'foo', {:presence => true}
V1::ExtraSummarizedActiveRecord.validates 'bar', {:presence => true}
puts V1::ExtraSummarizedActiveRecord.summary
# prints 'foo/{:presence=>true}/bar/{:presence=>true}'
puts V1::ExtraSummarizedActiveRecord.extra
# prints 'This is extra.'
V1::FakeExtraSummarizedActiveRecord.validates 'foo', {:presence => true}
V1::FakeExtraSummarizedActiveRecord.validates 'bar', {:presence => true}
puts V1::FakeExtraSummarizedActiveRecord.summary
# prints 'foo/{:presence=>true}/bar/{:presence=>true}'
puts V1::FakeExtraSummarizedActiveRecord.fake_summary
# prints 'This is a fake summary.'
puts V1::FakeExtraSummarizedActiveRecord.extra
# prints 'This is extra.'
puts V1::FakeExtraSummarizedActiveRecord.fake_extra
# prints 'This is fake extra.'
SuperModule by definition has been designed to be used only in the initial code declaration of a module, not later mixing or re-opening of a module.
SuperModule is written in a very clean and maintainable test-first approach, so you are welcome to read through the code on GitHub for more in-depth details: https://github.com/AndyObtiva/super_module
The library is quite novel and can use all the feedback and help it can get. So, please do not hesitate to add comments if you have any, and please fork the project on GitHub in order to make contributions via Pull Requests.
- 2015-04-05 - Ruby Weekly: Issue 240
- 2014-03-27 - Code Painter Blog Post: Ruby SuperModule Comes To The Rescue!!
None
Copyright (c) 2014-2024 Andy Maleh. See LICENSE.txt for further details.