ActiveType is our take on "presenter models" (or "form models") in Rails. We want to have controllers (and forms) talk to models that are either not backed by a database table, or have additional functionality that should not be shared to the rest of the application.
However, we do not want to lose ActiveRecord's amenities, like validations, callbacks, etc.
Examples for use cases are models to support sign in:
class SignIn < ActiveType::Object
# this is not backed by a db table
attribute :username, :string
attribute :password, :string
validates :username, presence: true
validates :password, presence: true
# ...
end
Or models to support sign up:
class User < ActiveRecord::Base
# ...
end
class SignUp < ActiveType::Record[User]
# this inherits from User
validates :password, confirmation: true
after_create :send_confirmation_email
def send_confirmation_email
# this should happen on sign-up, but not when creating a user in tests etc.
end
# ...
end
Rails 5 comes with its own implementation of .attribute
. This implementation is functionally very
similar, but not identical to ActiveType's.
We have decided to continue to use our own implementation. This means that if you use ActiveType, ActiveRecord::Base.attribute
will be overriden.
The following behaviours are different than in vanilla Rails 5:
- Defaults
proc
s are evaluated in instance context, not class context. - Defaults are evaluated lazily.
- You can override attributes with custom methods and use
super
. - Attributes will work on records retrieved via
.find
. - Attributes will be duped if you dup the record.
- You cannot use
attribute :db_column
to override the behaviour of an existing database-backed attribute.
If you need to use ActiveRecord's
own .attribute
method, you can still access is as ar_attribute
:
class User < ApplicationRecord
# use my custom type to serialize to the database
ar_attribute :password, MyPasswordType.new
end
Inherit from ActiveType::Object
if you want an ActiveRecord
-kind class that is not backed by a database table.
You can define "columns" by saying attribute
:
class SignIn < ActiveType::Object
attribute :email, :string
attribute :date_of_birth, :date
attribute :accepted_terms, :boolean
attribute :account_type
end
These attributes can be assigned via constructor, mass-assignment, and are automatically typecast:
sign_in = SignIn.new(date_of_birth: "1980-01-01", accepted_terms: "1", account_type: AccountType::Trial.new)
sign_in.date_of_birth.class # Date
sign_in.accepted_terms? # true
ActiveType knows all the types that are allowed in migrations (i.e. :string
, :integer
, :float
, :decimal
, :datetime
, :time
, :date
, :boolean
). You can also skip the type to have a virtual attribute without typecasting.
ActiveType::Object
actually inherits from ActiveRecord::Base
, but simply skips all database access, inspired by ActiveRecord Tableless.
This means your object has all usual ActiveRecord::Base
methods. Some of those might not work properly, however. What does work:
- validations
- callbacks (use
before_save
,after_save
, notbefore_create
, orbefore_update
) - "saving" (returning
true
orfalse
, without actually persisting) - belongs_to (after saying
attribute :child_id, :integer
)
If you have a database backed record (that inherits from ActiveRecord::Base
), but also want to declare virtual attributes, simply inherit from ActiveType::Record
.
Virtual attributes will not be persisted.
ActiveType::Record[BaseClass]
is used to extend a given BaseClass
(that itself has to be an ActiveRecord
model) with additional functionality, that is not meant to be shared to the rest of the application.
You class will inherit from BaseClass
. You can add additional methods, validations, callbacks, as well as use (virtual) attributes like an ActiveType::Object
:
class SignUp < ActiveType::Record[User]
# ...
end
If you want to inherit from an ActiveType class, simply do
class SignUp < ActiveType::Record[User]
# ...
end
class SpecialSignUp < SignUp
# ...
end
Attributes can have defaults. Those are lazily evaluated on the first read, if no value has been set.
class SignIn < ActiveType::Object
attribute :created_at, :datetime, default: proc { Time.now }
end
The proc is evaluated in the context of the object, so you can do
class SignIn < ActiveType::Object
attribute :email, :string
attribute :nickname, :string, default: proc { email.split('@').first }
end
SignIn.new(email: "[email protected]").nickname # "tobias"
SignIn.new(email: "[email protected]", :nickname => "kratob").nickname # "kratob"
You can override attribute getters and setters using super
:
class SignIn < ActiveType::Object
attribute :email, :string
attribute :nickname, :string
def email
super.downcase
end
def nickname=(value)
super(value.titleize)
end
end
ActiveType supports its own variant of nested attributes via the nests_one
/
nests_many
macros. The intention is to be mostly compatible with
ActiveRecord
's accepts_nested_attributes
functionality.
Assume you have a list of records, say representing holidays, and you want to support bulk editing. Then you could do something like:
class Holiday < ActiveRecord::Base
validates :date, presence: true
end
class HolidaysForm < ActiveType::Object
nests_many :holidays, reject_if: :all_blank, default: proc { Holiday.all }
end
class HolidaysController < ApplicationController
def edit
@holidays_form = HolidaysForm.new
end
def update
@holidays_form = HolidaysForm.new(params[:holidays_form])
if @holidays_form.save
redirect_to root_url, notice: "Success!"
else
render :edit
end
end
end
# and in the view
<%= form_for @holidays_form, url: '/holidays', method: :put do |form| %>
<ul>
<%= form.fields_for :holidays do |holiday_form| %>
<li><%= holiday_form.text_field :date %></li>
<% end %>
</ul>
<% end %>
-
You have to say
nests_many :records
-
records
will be validated and saved automatically -
The generated
.records_attributes =
expects parameters likeActiveRecord
's nested attributes, and works together with thefields_for
helper:-
either as a hash (where the keys are meaningless)
{ '1' => { date: "new record's date" }, '2' => { id: '3', date: "existing record's date" } }
-
or as an array
[ { date: "new record's date" }, { id: '3', date: "existing record's date" } ]
-
To use it with single records, use nests_one
. It works like accept_nested_attributes
does for has_one
. Use .record_attributes =
to build the child record.
Supported options for nests_many
/ nests_one
are:
-
build_scope
Used to build new records, for example:
nests_many :documents, build_scope: proc { Document.where(:state => "fresh") }
-
find_scope
Used to find existing records (in order to update them).
-
scope
Sets
find_scope
andbuild_scope
together.If you don't supply a scope,
ActiveType
will guess from the association name, i.e. sayingnests_many :documents
is the same as saying
nests_many :documents, scope: proc { Document }
which is identical to
nests_many :documents, build_scope: proc { Document }, find_scope: proc { Document }
All
...scope
options are evaled in the context of the record on first use, and cached. -
allow_destroy
Allow to destroy records if the attributes contain
_destroy => '1'
-
reject_if
Pass either a proc of the form
proc { |attributes| ... }
, or a symbol indicating a method, or:all_blank
.Will reject attributes for which the proc or the method returns true, or with only blank values (for
:all_blank
). -
default
Initializes the association on first access with the given proc:
nests_many :documents, default: proc { Documents.all }
Options supported exclusively by nests_many
are:
-
index_errors
Use a boolean to get indexed errors on related records. In Rails 5 you can make it global with
config.active_record.index_nested_attribute_errors = true
.
When working with ActiveType you will often find it useful to cast an ActiveRecord instance to its extended ActiveType::Record
variant.
Use ActiveType.cast
for this:
class User < ActiveRecord::Base
...
end
class SignUp < ActiveType::Record[User]
...
end
user = User.find(1)
sign_up = ActiveType.cast(user, SignUp)
sign_up.is_a?(SignUp) # => true
This is basically like ActiveRecord#becomes
, but with less bugs and more consistent behavior.
Note that cast
is destructive. The originally casted record (user
) and the returned record (sign_up
)
share internal state (such as attributes). To avoid unexpected behavior, do not use the original record
after casting it.
You can also cast an entire relation (scope) to a relation of an ActiveType::Record
:
adult_users = User.where('age >= 18')
adult_sign_ups = ActiveType.cast(adult_users, SignUp)
sign_up = adult_sign_ups.find(1)
sign_up.is_a?(SignUp) # => true
Sometimes, you have an association, and a form model for that association. Instead of always casting the associations manually, you can use the change_association
macro to override an association's options. For example.
class Credential < ActiveRecord::Base
end
class User < ActiveRecord::Base
has_many :credentials
end
class SignUpCredential < ActiveType::Record[Credential]
end
class SignUp < ActiveType::Record[User]
change_association :credentials, class_name: 'SignUpCredential'
end
Now, if you load credentials
, you will automatically receive records of type SignUpCredential
.
ActiveType is tested against ActiveRecord 3.2, 4.2, 5.1, and 5.2.
Later versions might work, earlier will not.
ActiveType is tested against 2.3, 2.4, and 2.5.
In your Gemfile
say:
gem 'active_type'
Now run bundle install
and restart your server.
- We run tests against several ActiveRecord and Ruby versions using gemika.
- You can bundle all versions with
rake matrix:install
. - You can run specs against all Gemfiles compatible with your current ruby version with
rake matrix:spec
. - You can run specs against a single Gemfile with
BUNDLE_GEMFILE=Gemfile<variant> bundle exec rspec spec
. - When you make a pull request, tests are automatically run against all variants and Rubies on travis.ci.
If you would like to contribute:
- Fork the repository.
- Push your changes with passing specs.
- Send us a pull request.
I'm very eager to keep this gem leightweight and on topic. If you're unsure whether a change would make it into the gem, talk to me beforehand.
Tobias Kraze from makandra
Henning Koch from makandra