A collection of lightweight, standardized, rails-oriented patterns used by RubyOnRails Developers @ Selleo
- Query - complex querying on active record relation
- Service - useful for handling processes involving multiple steps
- Collection - when in need to add a method that relates to the collection as whole
- Form - when you need a place for callbacks, want to replace strong parameters or handle virtual/composite resources
- Calculation - when you need a place for calculating a simple value (numeric, array, hash) and/or cache it
- Rule and Ruleset - when you need a place for conditional logic
# Gemfile
#...
gem "rails-patterns"
#...
Then bundle install
One should consider using query objects pattern when in need to perform complex querying on active record relation. Usually one should avoid using scopes for such purpose. As a rule of thumb, if scope interacts with more than one column and/or joins in other tables, it should be moved to query object. Also whenever a chain of scopes is to be used, one should consider using query object too. Some more information on using query objects can be found in this article.
- Query objects are always used by calling class-level
.call
method - Query objects require
ActiveRecord::Relation
orActiveRecord::Base
as constructor argument - Default relation (see above) can be defined by using
queries
macro - Query objects have to implement
#query
method that returnsActiveRecord::Relation
- Query objects provide access to consecutive keyword arguments using
#options
hash
Because of the fact, that QueryObject implements .call
method, those can be used to construct scopes if required. (read more...)
class RecentlyActivatedUsersQuery < Patterns::Query
queries User
private
def query
relation.active.where(activated_at: date_range)
end
def date_range
options.fetch(:date_range, default_date_range)
end
def default_date_range
Date.yesterday.beginning_of_day..Date.today.end_of_day
end
end
RecentlyActivatedUsersQuery.call
RecentlyActivatedUsersQuery.call(User.without_test_users)
RecentlyActivatedUsersQuery.call(date_range: Date.today.beginning_of_day..Date.today.end_of_day)
RecentlyActivatedUsersQuery.call(User.without_test_users, date_range: Date.today.beginning_of_day..Date.today.end_of_day)
class User < ApplicationRecord
scope :recently_activated, RecentlyActivatedUsersQuery
end
Service objects are commonly used to mitigate problems with model callbacks that interact with external classes (read more...). Service objects are also useful for handling processes involving multiple steps. E.g. a controller that performs more than one operation on its subject (usually a model instance) is a possible candidate for Extract ServiceObject (or Extract FormObject) refactoring. In many cases service object can be used as scaffolding for replace method with object refactoring. Some more information on using services can be found in this article.
- Service objects are always used by calling class-level
.call
method - Service objects have to implement
#call
method - Calling service object's
.call
method executes#call
and returns service object instance - A result of
#call
method is accessible through#result
method - It is recommended for
#call
method to be the only public method of service object (besides state readers) - It is recommended to name service object classes after commands (e.g.
ActivateUser
instead ofUserActivation
)
A bit higher level of abstraction is provided by business_process gem.
class ActivateUser < Patterns::Service
def initialize(user)
@user = user
end
def call
user.activate!
NotificationsMailer.user_activation_notification(user).deliver_now
user
end
private
attr_reader :user
end
user_activation = ActivateUser.call(user)
user_activation.result # <User id: 5803143, email: "[email protected] ...
One should consider using collection pattern when in need to add a method that relates to the collection a whole.
Popular example for such situation is for paginated collections, where for instance #current_page
getter makes sense only in collection context.
Also collections can be used as a container for mapping or grouping logic (especially if the mapping is not 1-1 in terms of size).
Collection might also act as a replacement for models not inheriting from ActiveRecord::Base (e.g. StatusesCollection
, ColorsCollection
etc.).
What is more, collections can be used if we need to encapsulate "flagging" logic - for instance if we need to render a separator element between collection elements based on some specific logic, we can move this logic from view layer to collection and yield an additional flag to control rendering in view.
- Collections include
Enumerable
- Collections can be initialized using
.new
,.from
and.for
(aliases) - Collections have to implement
#collection
method that returns object responding to#each
- Collections provide access to consecutive keyword arguments using
#options
hash - Collections provide access to first argument using
#subject
class ColorsCollection < Patterns::Collection
AVAILABLE_COLORS = { red: "#FF0000", green: "#00FF00", blue: "#0000FF" }
private
def collection
AVAILABLE_COLORS
end
end
class CustomerEventsByTypeCollection < Patterns::Collection
private
def collection
subject.
events.
group_by(&:type).
transform_values{ |events| events.map{ |e| e.public_send(options.fetch(:label_method, "description")) }}
end
end
ColorsCollection.new
CustomerEventsByTypeCollection.for(customer)
CustomerEventsByTypeCollection.for(customer, label_method: "name")
Form objects, just like service objects, are commonly used to mitigate problems with model callbacks that interact with external classes (read more...).
Form objects can also be used as replacement for ActionController::StrongParameters
strategy, as all writable attributes are re-defined within each form.
Finally form objects can be used as wrappers for virtual (with no model representation) or composite (saving multiple models at once) resources.
In the latter case this may act as replacement for ActiveRecord::NestedAttributes
.
In some cases FormObject can be used as scaffolding for replace method with object refactoring. Some more information on using form objects can be found in this article.
- Forms include
ActiveModel::Validations
to support validation. - Forms include
Virtus.model
to supportattribute
static method with all corresponding capabilities. - Forms can be initialized using
.new
. - Forms accept optional resource object as first constructor argument.
- Forms accept optional attributes hash as latter constructor argument.
- Forms have to implement
#persist
method that returns falsey (if failed) or truthy (if succeeded) value. - Forms provide access to first constructor argument using
#resource
. - Forms are saved using their
#save
or#save!
methods. - Forms will attempt to pre-populate their fields using
resource#attributes
and public getters forresource
- Form's fields are populated with passed-in attributes hash reverse-merged with pre-populated attributes if possible.
- Forms provide
#as
builder method that populates internal@form_owner
variable (can be used to store current user). - Forms allow defining/overriding their
#param_key
method result by using.param_key
static method. This defaults to#resource#model_name#param_key
. - Forms delegate
#persisted?
method to#resource
if possible. - Forms do handle
ActionController::Parameters
as attributes hash (usingto_unsafe_h
) - It is recommended to wrap
#persist
method in transaction if possible and if multiple model are affected.
class UserForm < Patterns::Form
param_key "person"
attribute :first_name, String
attribute :last_name, String
attribute :age, Integer
attribute :full_address, String
attribute :skip_notification, Boolean
validate :first_name, :last_name, presence: true
private
def persist
update_user and
update_address and
deliver_notification
end
def update_user
resource.update_attributes(attributes.except(:full_address, :skip_notification))
end
def update_address
resource.address.update_attributes(full_address: full_address)
end
def deliver_notification
skip_notification || UserNotifier.user_update_notification(user, form_owner).deliver
end
end
class ReportConfigurationForm < Patterns::Form
param_key "report"
attribute :include_extra_data, Boolean
attribute :dump_as_csv, Boolean
attribute :comma_separated_column_names, String
attribute :date_start, Date
attribute :date_end, Date
private
def persist
SendReport.call(attributes)
end
end
form = UserForm.new(User.find(1), params[:person])
form.save
form = UserForm.new(User.new, params[:person]).as(current_user)
form.save!
ReportConfigurationForm.new
ReportConfigurationForm.new({ include_extra_data: true, dump_as_csv: true })
Calculation objects provide a place to calculate simple values (i.e. numeric, arrays, hashes), especially when calculations require interacting with multiple classes, and thus do not fit into any particular one. Calculation objects also provide simple abstraction for caching their results.
- Calculations have to implement
#result
method that returns any value (result of calculation). - Calculations do provide
.set_cache_expiry_every
method, that allows defining caching period. - When
.set_cache_expiry_every
is not used, result is not being cached. - Calculations return result by calling any of following methods:
.calculate
,.result_for
or.result
. - First argument passed to calculation is accessible by
#subject
private method. - Arguments hash passed to calculation is accessible by
#options
private method. - Caching takes into account arguments passed when building cache key.
- To build cache key,
#cache_key
of each argument value is used if possible. - By default
Rails.cache
is used as cache store.
class AverageHotelDailyRevenue < Patterns::Calculation
set_cache_expiry_every 1.day
private
def result
reservations.sum(:price) / days_in_year
end
def reservations
Reservation.where(
date: (beginning_of_year..end_of_year),
hotel_id: subject.id
)
end
def days_in_year
end_of_year.yday
end
def year
options.fetch(:year, Date.current.year)
end
def beginning_of_year
Date.new(year).beginning_of_year
end
def end_of_year
Date.new(year).end_of_year
end
end
hotel = Hotel.find(123)
AverageHotelDailyRevenue.result_for(hotel)
AverageHotelDailyRevenue.result_for(hotel, year: 2015)
TotalCurrentRevenue.calculate
AverageDailyRevenue.result
Rule objects provide a place for dislocating/extracting conditional logic.
Use it when:
- given complex condition is duplicated in multiple places in your codebase
- part of condition logic can be reused in some other place
- there is a need to instantiate condition itself for some reason (i.e. to represent it in the interface)
- responsibility of your class is blurred by complex conditional logic, and as a result...
- ...tests for your class require multiple condition branches / nested contexts
- Rule has
#satisfied?
,#applicable?
,#not_applicable?
and#forceable?
methods available. - Rule has to implement at least
#satisfied?
method.#not_applicable?
and#forceable?
are meant to be overridable. #forceable?
makes sense in scenario where condition is capable of being force-satisfied regardless if its actually satisfied or not. Istrue
by default.- Override
#not_applicable?
when method is applicable only under some specific conditions. Isfalse
by default. - Rule requires a subject as first argument.
- Multiple rules and rulesets can be combined into new ruleset as both share same interface and can be used interchangeably (composite pattern).
- By default empty ruleset is satisfied.
On some occasions there is a situation in which some condition should be overridable.
Let's say we may want send shipping notification even though given order was not paid for and under regular circumstances such notification should not be sent.
In this case, while regular logic with some automated process would not trigger delivery, an action triggered by user from UI could do it, by passing force: true
option to #satisified?
methods.
It might be good idea to test for #forceable?
on the UI level to control visibility of such link/button.
Overriding #forceable
can be useful to prevent some edge cases, i.e. ContactInformationProvidedRule
might check if customer for given order has provided any contact means by which a notification could be delivered.
If not, ruleset containing such rule (and the rule itself) would not be "forceable" and UI could reflect that by querying #forceable?
.
While regular Ruleset
can be satisfied or forced if any of its rules in not applicable, the
StrongRuleset
is not satisfied and not "forceable" if any of its rules is not applicable.
It might be surprising that is is the negated version of the #applicable?
predicate methods that is overridable.
However, from the actual usage perspective, it usually easier to conceptually define when condition makes no sense than other way around.
class OrderIsSentRule < Patterns::Rule
def satisfied?
subject.sent?
end
end
class OrderIsPaidRule < Patterns::Rule
def satisfied?
subject.paid?
end
def forceable?
true
end
end
OrderCompletedNotificationRuleset = Class.new(Patterns::Ruleset)
OrderCompletedNotificationRuleset.
add_rule(:order_is_sent_rule).
add_rule(:order_is_paid_rule)
OrderIsPaidRule.new(order).satisfied?
OrderCompletedNotificationRuleset.new(order).satisfied?
ResendOrderNotification.call(order) if OrderCompletedNotificationRuleset.new(order).satisfied?(force: true)
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