fixture_dependencies is an advanced fixture loader, allowing the loading of models from YAML fixtures, along with their entire dependency graph. It has the following features:
- Fixtures specify association names instead of foreign keys
- Support both Sequel and ActiveRecord
- Supports many_to_one/belongs_to, one_to_many/has_many, many_to_many/has_and_belongs_to_many, and has_one/one_to_one associations
- Loads a fixture's dependency graph in such a manner that foreign key constraints aren't violated
- Has a very simple API (FixtureDependencies.load(:model__fixture))
- Handles almost all cyclic dependencies
- Includes Rails and Sequel test helpers for Test::Unit (and a Sequel test helper for RSpec) that load fixtures for every test inside a transaction, so fixture data is never left in your database
gem install fixture_dependencies
Source is available via github:
http://github.com/jeremyevans/fixture_dependencies
You can check it out with git:
git clone git://github.com/jeremyevans/fixture_dependencies.git
Add the following to test/test_helper.rb after "require 'test_help'":
require 'fixture_dependencies/test_unit/rails'
This overrides the default test helper to load the fixtures inside transactions and to use FixtureDependencies to load the fixtures.
Somewhere before the test code is loaded:
require 'fixture_dependencies/test_unit/sequel'
Make sure the test case classes use FixtureDependencies::SequelTestCase:
class ModelTest < FixtureDependencies::SequelTestCase
This runs the test cases inside a Sequel transaction.
Somewhere before the test code is loaded:
require 'fixture_dependencies/rspec/sequel'
This runs each spec inside a separate Sequel transaction.
Somewhere before the test code is loaded:
require 'fixture_dependencies/minitest_spec/sequel'
This runs each spec inside a separate Sequel transaction.
You can just use FixtureDependencies.load to handle the loading of fixtures. The use of transactions is up to you. One thing you must do if you are not using the rails test helper is to set the fixture path for FixtureDependencies:
FixtureDependencies.fixture_path = '/path/to/fixtures'
A few helper methods are also available, just include them in your test superclass:
require 'fixture_dependencies/helper_methods'
class Test < Minitest::Test
include FixtureDependencies::HelperMethods
end
fixture_dependencies is designed to require the least possible changes to the default YAML fixtures used by Rails (well, at least Rails 1.2 and earlier). For example, see the following changes:
OLD NEW
asset1: asset1:
id: 1 id: 1
employee_id: 2 employee: jeremy
product_id: 3 product: nx7010
vendor_id: 2 vendor: lxg_computers
note: in working order note: in working order
As you can see, you just replace the foreign key attribute and value with the name of the association and the associations name. This assumes you have an employee fixture with a name of jeremy, and products fixture with the name of nx7010, and a vendors fixture with the name lxg_computers.
Fixture files still use the table_name of the model. Note that you make sure to hard code primary key values for each fixture, as shown in the example above.
Fixtures can also use ERB to preprocess the fixture file, useful if you need to do any programming inside the fixture file, such as looping to create multiple records. For the ERB support to be invoked, your fixture file should be named #{table_name}.yml.erb instead of #{table_name}.yml. You can mix ERB fixture files and regular fixture files, but you can not have an ERB fixture file and a regular fixture file for the same table (the regular fixture file will be used in that case).
fixture_dependencies can still use the fixtures class method in your test:
class EmployeeTest < Test::Unit::TestCase
fixtures :assets
end
In Rails default testing practices, the arguments to fixtures are table names. fixture_dependencies changes this to underscored model names. If you are using Rails' recommended table practices, this shouldn't make a difference.
It is recommended that you do not use the fixtures method, and instead load individual fixtures as needed (see below). This makes your tests much more robust, in case you want to add or remove individual fixtures at a later date.
There is support for loading individual fixtures (and just their dependencies), using the following syntax:
class EmployeeTest < Test::Unit::TestCase
fixtures :employee__jeremy # Note the double underscore
end
This would load just the jeremy fixture and its dependencies. I find this is much better than loading all fixtures in most of my test suites. Even better is loading just the fixtures you want inside every test method (see below). This leads to the most robust testing.
I find that it is often better to skip the use of the fixtures method entirely, and load the fixtures I want manually in each test method. This provides for the loosest coupling possible. Here's an example:
class EmployeeTest < Test::Unit::TestCase
def test_employee_name
# Load the fixture and return the Employee object
employee = load(:employee__jeremy)
# Test the employee
end
def test_employees
# Load the fixtures and return two Employee objects
employee1, employee2 = load(:employees=>[:jeremy, :karl])
# Test the employees
end
def test_award_statistics
# Load all fixtures in both tables
load(:employee_award__jeremy_first, :award__first)
# Test the award_statistics method
# (which pulls data from the tables loaded above)
end
end
Don't worry about loading the same fixture twice, if a fixture is already loaded, it won't attempt to load it again.
You can load only the attributes of fixtures, without saving them with load_attributes. This is useful for occasions where you want to mutate attributes without having to create lots of fixtures or want to test code that is run before or after the database transaction (validations, model hooks).
# load_attributes responds like load, but without saving the record
fruit = load_attributes(:fruit__banana)
# test the behaviour before saving the record
fruit.save
# test the behaviour after saving the record
You can also use the build method for loading the attributes of a single record, merging the attributes passed as options. This is useful for testing changes in behaviour when mutating a single parameter:
old_banana = build(:fruit__banana, :age=>'old')
fresh_banana = build(:fruit__banana, :age=>'new')
old_banana.must_be :rotten?
new_banana.wont_be :rotten?
Here's an example of using has_one (logon_information), has_many (assets), and has_and_belongs_to_many (groups) associations.
jeremy:
id: 2
name: Jeremy Evans
logon_information: jeremy
assets: [asset1, asset2, asset3]
groups: [group1]
logon_information
is a has_one association to another table which was split
from the employees table due to database security requirements. Assets is a
has_many association, where one employee is responsible for the asset.
Employees can be a member of multiple groups, and each group can have multiple
employees.
For has_*
associations, after fixture_dependencies saves jeremy, it will load
and save logon_information (and its dependencies...), it will load each asset
in the order specified (and their dependencies...), and it will load all of the
groups in the order specified (and their dependencies...). Note that there
is only a load order inside a specific association, associations are stored
in the same hash as attributes and are loaded in an arbitrary order.
Another change is that Rails defaults allow you to specify habtm join tables in fixtures. That doesn't work with fixture dependencies, as there is no associated model. Instead, you use a has_and_belongs_to_many association name in the the appropriate model fixtures (see above).
ActiveRecord supports polymorphic associations by default. With Sequel, this
is made via the sequel_polymorphic
gem.
Here the mapping in Rails:
class Animal < ActiveRecord::Base
has_many :fruits, as: :eater
end
class Fruit < ActiveRcord::Base
belongs_to :eater, polymorphic: true
end
And here on Sequel:
require 'sequel_polymorphic'
class Animal < Sequel::Model
plugin :polymorphic
ony_to_many :fruits, as: :eater
end
class Fruit < Sequel::Model
plugin :polymorphic
many_to_one :eater, polymorphic: true
end
In both cases, the fixtures looks like:
animals.yml
:
george:
id: 1
name: George
fruits.yml
:
apple:
id: 1
name: Apple
eater: george (Animal)
In your test, use something like this:
apple = load(:fruit__apple)
apple.eater.name.must_equal "George"
fixture_dependencies will set the eater
association in Fruit
instance george
instance of Animal
.
fixture_dependencies handles almost all cyclic dependencies. It handles all has_many, has_one, and habtm cyclic dependencies. It handles all self-referential cyclic dependencies. It handles all belongs_to cyclic dependencies except the case where there is a NOT NULL or validates_presence of constraint on the cyclic dependency's foreign key.
For example, a case that won't work is when employee belongs_to supervisor (with a NOT NULL or validates_presence_of constraint on supervisor_id), and john is karl's supervisor and karl is john's supervisor. Since you can't create john without a valid supervisor_id, you need to create karl first, but you can't create karl for the same reason (as john doesn't exist yet).
There isn't a generic way to handle the belongs_to cyclic dependency, as far as I know. Deferring foreign key checks could work, but may not be enabled (and one of the main reasons to use the plugin is that it doesn't require them). For associations like the example above (employee's supervisor is also an employee), setting the foreign_key to the primary key and then changing it later is an option, but database checks may prevent it. For more complex cyclic dependencies involving multiple model classes (employee belongs_to division belongs_to head_of_division when the employee is a member of the division and also the head of the division), even that approach is not possible.
Currently, the plugin only supports YAML fixtures, but other types of fixtures would be fairly easy to add (send me a patch if you add support for another fixture type).
The plugin is significantly slower than the default testing method, because it loads all fixtures inside of a transaction (one per test method), where Rails defaults to loading the fixtures once per test suite (outside of a transaction), and only deletes fixtures from a table when overwriting it with new fixtures.
Instantiated fixtures are not available with this plugin. Instead, you should use load(:model__fixture_name).
By default, fixture dependencies is going to load the model with the camelized name in the symbol used. So for :foo_bar__baz, it's going to look for the fixture with name baz for the model FooBar. If your model is namespaced, such as Foo::Bar, this isn't going to work well. In that case, you can override the default mapping:
FixtureDependencies.class_map[:bar] = Foo::Bar
and then use :bar__baz to load the fixture with name baz for the model Foo::Bar.
Fixture dependencies will look for a file that corresponds to the table name for the model by default. You can override this by defining a fixtures_filename class method in the model:
class Artist < Sequel::Model
def self.fixture_filename
:artists_custom_fixture_file
end
end
If you run into problems with loading your fixtures, it can be difficult to see where the problems are. To aid in debugging an error, add the following to test/test_helper.rb:
FixtureDependencies.verbose = 3
This will give a verbose description of the loading and saving of fixtures for every test, including the recursive loading of the dependency graph.
The specs for fixture dependencies and be run with Rake. They require the sequel, activerecord, and sqlite3 gems installed. The default rake task runs the specs. You should run the spec_migrate task first to create the spec database.
Rails now supports something similar by default. Honestly, I'm not sure what the differences are.
fixture_references is a similar plugin. It uses erb inside yaml, and uses the foreign key numbers inside of the association names, which leads me to believe it doesn't support has_* associations.
fixture_dependencies is released under the MIT License. See the MIT-LICENSE file for details.
Jeremy Evans code@jeremyevans.net