Draper adds an object-oriented layer of presentation logic to your Rails application.
Without Draper, this functionality might have been tangled up in procedural helpers or adding bulk to your models. With Draper decorators, you can wrap your models with presentation-related logic to organise - and test - this layer of your app much more effectively.
Imagine your application has an Article
model. With Draper, you'd create a
corresponding ArticleDecorator
. The decorator wraps the model, and deals
only with presentational concerns. In the controller, you decorate the article
before handing it off to the view:
# app/controllers/articles_controller.rb
def show
@article = Article.find(params[:id]).decorate
end
In the view, you can use the decorator in exactly the same way as you would have used the model. But whenever you start needing logic in the view or start thinking about a helper method, you can implement a method on the decorator instead.
Let's look at how you could convert an existing Rails helper to a decorator method. You have this existing helper:
# app/helpers/articles_helper.rb
def publication_status(article)
if article.published?
"Published at #{article.published_at.strftime('%A, %B %e')}"
else
"Unpublished"
end
end
But it makes you a little uncomfortable. publication_status
lives in a
nebulous namespace spread across all controllers and view. Down the road, you
might want to display the publication status of a Book
. And, of course, your
design calls for a slightly different formatting to the date for a Book
.
Now your helper method can either switch based on the input class type (poor
Ruby style), or you break it out into two methods, book_publication_status
and
article_publication_status
. And keep adding methods for each publication
type...to the global helper namespace. And you'll have to remember all the names. Ick.
Ruby thrives when we use Object-Oriented style. If you didn't know Rails' helpers existed, you'd probably imagine that your view template could feature something like this:
<%= @article.publication_status %>
Without a decorator, you'd have to implement the publication_status
method in
the Article
model. That method is presentation-centric, and thus does not
belong in a model.
Instead, you implement a decorator:
# app/decorators/article_decorator.rb
class ArticleDecorator < Draper::Decorator
delegate_all
def publication_status
if published?
"Published at #{published_at}"
else
"Unpublished"
end
end
def published_at
object.published_at.strftime("%A, %B %e")
end
end
Within the publication_status
method we use the published?
method. Where
does that come from? It's a method of the source Article
, whose methods have
been made available on the decorator by the delegate_all
call above.
You might have heard this sort of decorator called a "presenter", an "exhibit", a "view model", or even just a "view" (in that nomenclature, what Rails calls "views" are actually "templates"). Whatever you call it, it's a great way to replace procedural helpers like the one above with "real" object-oriented programming.
Decorators are the ideal place to:
- format complex data for user display
- define commonly-used representations of an object, like a
name
method that combinesfirst_name
andlast_name
attributes - mark up attributes with a little semantic HTML, like turning a
url
field into a hyperlink
As of version 4.0.0, Draper only officially supports Rails 5.2 / Ruby 2.4 and later. Add Draper to your Gemfile.
gem 'draper'
After that, run bundle install
within your app's directory.
If you're upgrading from a 0.x release, the major changes are outlined in the wiki.
Decorators inherit from Draper::Decorator
, live in your app/decorators
directory, and are named for the model that they decorate:
# app/decorators/article_decorator.rb
class ArticleDecorator < Draper::Decorator
# ...
end
To create an ApplicationDecorator
that all generated decorators inherit from, run...
rails generate draper:install
When you have Draper installed and generate a controller...
rails generate resource Article
...you'll get a decorator for free!
But if the Article
model already exists, you can run...
rails generate decorator Article
...to create the ArticleDecorator
.
Normal Rails helpers are still useful for lots of tasks. Both Rails' provided
helpers and those defined in your app can be accessed within a decorator via the h
method:
class ArticleDecorator < Draper::Decorator
def emphatic
h.content_tag(:strong, "Awesome")
end
end
If writing h.
frequently is getting you down, you can add...
include Draper::LazyHelpers
...at the top of your decorator class - you'll mix in a bazillion methods and
never have to type h.
again.
(Note: the capture
method is only available through h
or helpers
)
When writing decorator methods you'll usually need to access the wrapped model.
While you may choose to use delegation (covered below)
for convenience, you can always use the object
(or its alias model
):
class ArticleDecorator < Draper::Decorator
def published_at
object.published_at.strftime("%A, %B %e")
end
end
Ok, so you've written a sweet decorator, now you're going to want to put it into
action! A simple option is to call the decorate
method on your model:
@article = Article.first.decorate
This infers the decorator from the object being decorated. If you want more
control - say you want to decorate a Widget
with a more general
ProductDecorator
- then you can instantiate a decorator directly:
@widget = ProductDecorator.new(Widget.first)
# or, equivalently
@widget = ProductDecorator.decorate(Widget.first)
If you have a collection of objects, you can decorate them all in one fell swoop:
@articles = ArticleDecorator.decorate_collection(Article.all)
If your collection is an ActiveRecord query, you can use this:
@articles = Article.popular.decorate
Note: In Rails 3, the .all
method returns an array and not a query. Thus you
cannot use the technique of Article.all.decorate
in Rails 3. In Rails 4,
.all
returns a query so this techique would work fine.
If you want to add methods to your decorated collection (for example, for
pagination), you can subclass Draper::CollectionDecorator
:
# app/decorators/articles_decorator.rb
class ArticlesDecorator < Draper::CollectionDecorator
def page_number
42
end
end
# elsewhere...
@articles = ArticlesDecorator.new(Article.all)
# or, equivalently
@articles = ArticlesDecorator.decorate(Article.all)
Draper decorates each item by calling the decorate
method. Alternatively, you can
specify a decorator by overriding the collection decorator's decorator_class
method, or by passing the :with
option to the constructor.
Some pagination gems add methods to ActiveRecord::Relation
. For example,
Kaminari's paginate
helper method
requires the collection to implement current_page
, total_pages
, and
limit_value
. To expose these on a collection decorator, you can delegate to
the object
:
class PaginatingDecorator < Draper::CollectionDecorator
delegate :current_page, :total_pages, :limit_value, :entry_name, :total_count, :offset_value, :last_page?
end
The delegate
method used here is the same as that added by Active
Support,
except that the :to
option is not required; it defaults to :object
when
omitted.
will_paginate needs the following delegations:
delegate :current_page, :per_page, :offset, :total_entries, :total_pages
If needed, you can then set the collection_decorator_class of your CustomDecorator as follows:
class ArticleDecorator < Draper::Decorator
def self.collection_decorator_class
PaginatingDecorator
end
end
ArticleDecorator.decorate_collection(@articles.paginate)
# => Collection decorated by PaginatingDecorator
# => Members decorated by ArticleDecorator
You can automatically decorate associated models when the primary model is
decorated. Assuming an Article
model has an associated Author
object:
class ArticleDecorator < Draper::Decorator
decorates_association :author
end
When ArticleDecorator
decorates an Article
, it will also use
AuthorDecorator
to decorate the associated Author
.
You can call decorates_finders
in a decorator...
class ArticleDecorator < Draper::Decorator
decorates_finders
end
...which allows you to then call all the normal ActiveRecord-style finders on
your ArticleDecorator
and they'll return decorated objects:
@article = ArticleDecorator.find(params[:id])
By default, Draper will decorate all QueryMethods of ActiveRecord. If you're using another ORM, in order to support it, you can tell Draper to use a custom strategy:
Draper.configure do |config|
config.default_query_methods_strategy = :mongoid
end
Decorators are supposed to behave very much like the models they decorate, and for that reason it is very tempting to just decorate your objects at the start of your controller action and then use the decorators throughout. Don't.
Because decorators are designed to be consumed by the view, you should only be accessing them there. Manipulate your models to get things ready, then decorate at the last minute, right before you render the view. This avoids many of the common pitfalls that arise from attempting to modify decorators (in particular, collection decorators) after creating them.
To help you make your decorators read-only, we have the decorates_assigned
method in your controller. It adds a helper method that returns the decorated
version of an instance variable:
# app/controllers/articles_controller.rb
class ArticlesController < ApplicationController
decorates_assigned :article
def show
@article = Article.find(params[:id])
end
end
The decorates_assigned :article
bit is roughly equivalent to
def article
@decorated_article ||= @article.decorate
end
helper_method :article
This means that you can just replace @article
with article
in your views and
you'll have access to an ArticleDecorator object instead. In your controller you
can continue to use the @article
instance variable to manipulate the model -
for example, @article.comments.build
to add a new blank comment for a form.
Draper works out the box well, but also provides a hook for you to configure its
default functionality. For example, Draper assumes you have a base ApplicationController
.
If your base controller is named something different (e.g. BaseController
),
you can tell Draper to use it by adding the following to an initializer:
Draper.configure do |config|
config.default_controller = BaseController
end
Draper supports RSpec, MiniTest::Rails, and Test::Unit, and will add the appropriate tests when you generate a decorator.
Your specs are expected to live in spec/decorators
. If you use a different
path, you need to tag them with type: :decorator
.
In a controller spec, you might want to check whether your instance variables are being decorated properly. You can use the handy predicate matchers:
assigns(:article).should be_decorated
# or, if you want to be more specific
assigns(:article).should be_decorated_with ArticleDecorator
Note that model.decorate == model
, so your existing specs shouldn't break when
you add the decoration.
In your Spork.prefork
block of spec_helper.rb
, add this:
require 'draper/test/rspec_integration'
If running tests in an engine setting with a controller other than "ApplicationController," set a custom controller in spec_helper.rb
config.before(:each, type: :decorator) do |example|
Draper::ViewContext.controller = ExampleEngine::CustomRootController.new
end
In tests, Draper needs to build a view context to access helper methods. By
default, it will create an ApplicationController
and then use its view
context. If you are speeding up your test suite by testing each component in
isolation, you can eliminate this dependency by putting the following in your
spec_helper
or similar:
Draper::ViewContext.test_strategy :fast
In doing so, your decorators will no longer have access to your application's helpers. If you need to selectively include such helpers, you can pass a block:
Draper::ViewContext.test_strategy :fast do
include ApplicationHelper
end
If you are writing isolated tests for Draper methods that call route helper methods, you can stub them instead of needing to require Rails.
If you are using RSpec, minitest-rails, or the Test::Unit syntax of minitest,
you already have access to the Draper helpers
in your tests since they
inherit from Draper::TestCase
. If you are using minitest's spec syntax
without minitest-rails, you can explicitly include the Draper helpers
:
describe YourDecorator do
include Draper::ViewHelpers
end
Then you can stub the specific route helper functions you need using your preferred stubbing technique. This examples uses Rspec currently recommended API available in RSpec 3.6+
without_partial_double_verification do
allow(helpers).to receive(:users_path).and_return('/users')
end
As mentioned before, Draper needs to build a view context to access helper methods. In MiniTest, the view context is
cleared during before_setup
preventing any view context leakage. In RSpec, the view context is cleared before each
decorator
, controller
, and mailer
spec. However, if you use decorators in other types of specs
(e.g. job
), you may still experience the view context leaking from the previous spec. To solve this, add the
following to your spec_helper
for each type of spec you are experiencing the leakage:
config.before(:each, type: :type) { Draper::ViewContext.clear! }
Note: The :type
above is just a placeholder. Replace :type
with the type of spec you are experiencing
the leakage from.
You might have several decorators that share similar needs. Since decorators are just Ruby objects, you can use any normal Ruby technique for sharing functionality.
In Rails controllers, common functionality is organized by having all
controllers inherit from ApplicationController
. You can apply this same
pattern to your decorators:
# app/decorators/application_decorator.rb
class ApplicationDecorator < Draper::Decorator
# ...
end
Then modify your decorators to inherit from that ApplicationDecorator
instead
of directly from Draper::Decorator
:
class ArticleDecorator < ApplicationDecorator
# decorator methods
end
When your decorator calls delegate_all
, any method called on the decorator not
defined in the decorator itself will be delegated to the decorated object. This
includes calling super
from within the decorator. A call to super
from within
the decorator will first try to call the method on the parent decorator class. If
the method does not exist on the parent decorator class, it will then try to call
the method on the decorated object
. This is a very permissive interface.
If you want to strictly control which methods are called within views, you can choose to only delegate certain methods from the decorator to the source model:
class ArticleDecorator < Draper::Decorator
delegate :title, :body
end
We omit the :to
argument here as it defaults to the object
being decorated.
You could choose to delegate methods to other places like this:
class ArticleDecorator < Draper::Decorator
delegate :title, :body
delegate :name, :title, to: :author, prefix: true
end
From your view template, assuming @article
is decorated, you could do any of
the following:
@article.title # Returns the article's `.title`
@article.body # Returns the article's `.body`
@article.author_name # Returns the article's `author.name`
@article.author_title # Returns the article's `author.title`
If you need to pass extra data to your decorators, you can use a context
hash.
Methods that create decorators take it as an option, for example:
Article.first.decorate(context: {role: :admin})
The value passed to the :context
option is then available in the decorator
through the context
method.
If you use decorates_association
, the context of the parent decorator is
passed to the associated decorators. You can override this with the :context
option:
class ArticleDecorator < Draper::Decorator
decorates_association :author, context: {foo: "bar"}
end
or, if you want to modify the parent's context, use a lambda that takes a hash and returns a new hash:
class ArticleDecorator < Draper::Decorator
decorates_association :author,
context: ->(parent_context){ parent_context.merge(foo: "bar") }
end
When you're using decorates_association
, Draper uses the decorate
method on
the associated record(s) to perform the decoration. If you want use a specific
decorator, you can use the :with
option:
class ArticleDecorator < Draper::Decorator
decorates_association :author, with: FancyPersonDecorator
end
For a collection association, you can specify a CollectionDecorator
subclass,
which is applied to the whole collection, or a singular Decorator
subclass,
which is applied to each item individually.
If you want your decorated association to be ordered, limited, or otherwise
scoped, you can pass a :scope
option to decorates_association
, which will be
applied to the collection before decoration:
class ArticleDecorator < Draper::Decorator
decorates_association :comments, scope: :recent
end
If you want to proxy class methods to the wrapped model class, including when
using decorates_finders
, Draper needs to know the model class. By default, it
assumes that your decorators are named SomeModelDecorator
, and then attempts
to proxy unknown class methods to SomeModel
.
If your model name can't be inferred from your decorator name in this way, you
need to use the decorates
method:
class MySpecialArticleDecorator < Draper::Decorator
decorates :article
end
This is only necessary when proxying class methods.
Once this association between the decorator and the model is set up, you can call
SomeModel.decorator_class
to access class methods defined in the decorator.
If necessary, you can check if your model is decorated with SomeModel.decorator_class?
.
Models get their decorate
method from the Draper::Decoratable
module, which
is included in ActiveRecord::Base
and Mongoid::Document
by default. If
you're using another ORM, or want to decorate plain old Ruby objects,
you can include this module manually.
Active Job allows you to pass ActiveRecord objects to background tasks directly and performs the necessary serialization and deserialization. In order to do this, arguments to a background job must implement Global ID. Decorated objects implement Global ID by delegating to the object they are decorating. This means you can pass decorated objects to background jobs, however, the object won't be decorated when it is deserialized.
Draper was conceived by Jeff Casimir and heavily refined by Steve Klabnik and a great community of open source contributors.
- Cliff Braton ([email protected])
- Jeff Casimir ([email protected])
- Steve Klabnik ([email protected])
- Vasiliy Ermolovich
- Andrew Haines
- Sean Linsley