Role models are important.
Tip
|
You can find a beautiful version of this guide with much improved navigation at https://rspec.rubystyle.guide. |
This RSpec style guide outlines the recommended best practices for real-world programmers to write code that can be maintained by other real-world programmers.
RuboCop, a static code analyzer (linter) and formatter, has a rubocop-rspec
extension, provides a way to enforce the rules outlined in this guide.
Note
|
This guide assumes you are using RSpec 3 or later. |
You can generate a PDF copy of this guide using AsciiDoctor PDF, and an HTML copy with AsciiDoctor using the following commands:
# Generates README.pdf
asciidoctor-pdf -a allow-uri-read README.adoc
# Generates README.html
asciidoctor README.adoc
Tip
|
Install the gem install rouge |
The guide is separated into sections based on the different pieces of an entire spec file. There was an attempt to omit all obvious information, if anything is unclear, feel free to open an issue asking for further clarity.
Per the comment above, this guide is a work in progress - some rules are simply lacking thorough examples, but some things in the RSpec world change week by week or month by month. With that said, as the standard changes this guide is meant to be able to change with it.
Do not leave empty lines after feature
, context
or describe
descriptions.
It doesn’t make the code more readable and lowers the value of logical chunks.
# bad
describe Article do
describe '#summary' do
context 'when there is a summary' do
it 'returns the summary' do
# ...
end
end
end
end
# good
describe Article do
describe '#summary' do
context 'when there is a summary' do
it 'returns the summary' do
# ...
end
end
end
end
Leave one empty line between feature
, context
or describe
blocks.
Do not leave empty line after the last such block in a group.
# bad
describe Article do
describe '#summary' do
context 'when there is a summary' do
# ...
end
context 'when there is no summary' do
# ...
end
end
describe '#comments' do
# ...
end
end
# good
describe Article do
describe '#summary' do
context 'when there is a summary' do
# ...
end
context 'when there is no summary' do
# ...
end
end
describe '#comments' do
# ...
end
end
Leave one empty line after let
, subject
, and before
/after
blocks.
# bad
describe Article do
subject { FactoryBot.create(:some_article) }
describe '#summary' do
# ...
end
end
# good
describe Article do
subject { FactoryBot.create(:some_article) }
describe '#summary' do
# ...
end
end
Only group let
, subject
blocks and separate them from before
/after
blocks.
It makes the code much more readable.
# bad
describe Article do
subject { FactoryBot.create(:some_article) }
let(:user) { FactoryBot.create(:user) }
before do
# ...
end
after do
# ...
end
describe '#summary' do
# ...
end
end
# good
describe Article do
subject { FactoryBot.create(:some_article) }
let(:user) { FactoryBot.create(:user) }
before do
# ...
end
after do
# ...
end
describe '#summary' do
# ...
end
end
Leave one empty line around it
/specify
blocks. This helps to separate the expectations from their conditional logic (contexts for instance).
# bad
describe '#summary' do
let(:item) { double('something') }
it 'returns the summary' do
# ...
end
it 'does something else' do
# ...
end
it 'does another thing' do
# ...
end
end
# good
describe '#summary' do
let(:item) { double('something') }
it 'returns the summary' do
# ...
end
it 'does something else' do
# ...
end
it 'does another thing' do
# ...
end
end
When subject
is used, it should be the first declaration in the example group.
# bad
describe Article do
before do
# ...
end
let(:user) { FactoryBot.create(:user) }
subject { FactoryBot.create(:some_article) }
describe '#summary' do
# ...
end
end
# good
describe Article do
subject { FactoryBot.create(:some_article) }
let(:user) { FactoryBot.create(:user) }
before do
# ...
end
describe '#summary' do
# ...
end
end
When declaring subject
, let!
/let
and before
/after
hooks they should be in the following order:
-
subject
-
let!
/let
-
before
/after
# bad
describe Article do
before do
# ...
end
after do
# ...
end
let(:user) { FactoryBot.create(:user) }
subject { FactoryBot.create(:some_article) }
describe '#summary' do
# ...
end
end
# good
describe Article do
subject { FactoryBot.create(:some_article) }
let(:user) { FactoryBot.create(:user) }
before do
# ...
end
after do
# ...
end
describe '#summary' do
# ...
end
end
Use contexts to make the tests clear, well organized, and easy to read.
# bad
it 'has 200 status code if logged in' do
expect(response).to respond_with 200
end
it 'has 401 status code if not logged in' do
expect(response).to respond_with 401
end
# good
context 'when logged in' do
it { is_expected.to respond_with 200 }
end
context 'when logged out' do
it { is_expected.to respond_with 401 }
end
context
blocks should pretty much always have an opposite negative case.
It is a code smell if there is a single context (without a matching negative case), and this code needs refactoring, or may have no purpose.
# bad - needs refactoring
describe '#attributes' do
context 'the returned hash' do
it 'includes the display name' do
# ...
end
it 'includes the creation time' do
# ...
end
end
end
# bad - the negative case needs to be tested, but isn't
describe '#attributes' do
context 'when display name is present' do
before do
article.display_name = 'something'
end
it 'includes the display name' do
# ...
end
end
end
# good
describe '#attributes' do
subject(:attributes) { article.attributes }
let(:article) { FactoryBot.create(:article) }
context 'when display name is present' do
before do
article.display_name = 'something'
end
it { is_expected.to include(display_name: article.display_name) }
end
context 'when display name is not present' do
before do
article.display_name = nil
end
it { is_expected.not_to include(:display_name) }
end
end
Use let
and let!
for data that is used across several examples in an example group.
Use let!
to define variables even if they are not referenced in some of the examples, e.g. when testing balancing negative cases.
Do not overuse let
s for primitive data, find the balance between frequency of use and complexity of the definition.
# bad
it 'finds shortest path' do
tree = Tree.new(1 => 2, 2 => 3, 2 => 6, 3 => 4, 4 => 5, 5 => 6)
expect(dijkstra.shortest_path(tree, from: 1, to: 6)).to eq([1, 2, 6])
end
it 'finds longest path' do
tree = Tree.new(1 => 2, 2 => 3, 2 => 6, 3 => 4, 4 => 5, 5 => 6)
expect(dijkstra.longest_path(tree, from: 1, to: 6)).to eq([1, 2, 3, 4, 5, 6])
end
# good
let(:tree) { Tree.new(1 => 2, 2 => 3, 2 => 6, 3 => 4, 4 => 5, 5 => 6) }
it 'finds shortest path' do
expect(dijkstra.shortest_path(tree, from: 1, to: 6)).to eq([1, 2, 6])
end
it 'finds longest path' do
expect(dijkstra.longest_path(tree, from: 1, to: 6)).to eq([1, 2, 3, 4, 5, 6])
end
Use let
definitions instead of instance variables.
# bad
before { @name = 'John Wayne' }
it 'reverses a name' do
expect(reverser.reverse(@name)).to eq('enyaW nhoJ')
end
# good
let(:name) { 'John Wayne' }
it 'reverses a name' do
expect(reverser.reverse(name)).to eq('enyaW nhoJ')
end
Use shared examples to reduce code duplication.
# bad
describe 'GET /articles' do
let(:article) { FactoryBot.create(:article, owner: owner) }
before { page.driver.get '/articles' }
context 'when user is the owner' do
let(:user) { owner }
it 'shows all owned articles' do
expect(page.status_code).to be(200)
contains_resource resource
end
end
context 'when user is an admin' do
let(:user) { FactoryBot.create(:user, :admin) }
it 'shows all resources' do
expect(page.status_code).to be(200)
contains_resource resource
end
end
end
# good
describe 'GET /articles' do
let(:article) { FactoryBot.create(:article, owner: owner) }
before { page.driver.get '/articles' }
shared_examples 'shows articles' do
it 'shows all related articles' do
expect(page.status_code).to be(200)
contains_resource resource
end
end
context 'when user is the owner' do
let(:user) { owner }
include_examples 'shows articles'
end
context 'when user is an admin' do
let(:user) { FactoryBot.create(:user, :admin) }
include_examples 'shows articles'
end
end
# good
describe 'GET /devices' do
let(:resource) { FactoryBot.create(:device, created_from: user) }
it_behaves_like 'a listable resource'
it_behaves_like 'a paginable resource'
it_behaves_like 'a searchable resource'
it_behaves_like 'a filterable list'
end
Don’t specify :each
/:example
scope for before
/after
/around
blocks, as it is the default.
Prefer :example
when explicitly indicating the scope.
# bad
describe '#summary' do
before(:example) do
# ...
end
# ...
end
# good
describe '#summary' do
before do
# ...
end
# ...
end
Use :context
instead of the ambiguous :all
scope in before
/after
hooks.
# bad
describe '#summary' do
before(:all) do
# ...
end
# ...
end
# good
describe '#summary' do
before(:context) do
# ...
end
# ...
end
Avoid using before
/after
with :context
scope.
Beware of the state leakage between the examples.
For examples two styles are considered acceptable.
The first variant is separate example for each expectation, which comes with a cost of repeated context initialization.
The second variant is multiple expectations per example with aggregate_failures
tag set for a group or example.
Use your best judgement in each case, and apply your strategy consistently.
# good - one expectation per example
describe ArticlesController do
#...
describe 'GET new' do
it 'assigns a new article' do
get :new
expect(assigns[:article]).to be_a(Article)
end
it 'renders the new article template' do
get :new
expect(response).to render_template :new
end
end
end
# good - multiple expectations with aggregated failures
describe ArticlesController do
#...
describe 'GET new', :aggregate_failures do
it 'assigns new article and renders the new article template' do
get :new
expect(assigns[:article]).to be_a(Article)
expect(response).to render_template :new
end
end
# ...
end
When several tests relate to the same subject, use subject
to reduce repetition.
# bad
it { expect(hero.equipment).to be_heavy }
it { expect(hero.equipment).to include 'sword' }
# good
subject(:equipment) { hero.equipment }
it { expect(equipment).to be_heavy }
it { expect(equipment).to include 'sword' }
Use named subject
when possible.
Only use anonymous subject declaration when you don’t reference it in any tests, e.g. when is_expected
is used.
# bad
describe Article do
subject { FactoryBot.create(:article) }
it 'is not published on creation' do
expect(subject).not_to be_published
end
end
# good
describe Article do
subject { FactoryBot.create(:article) }
it 'is not published on creation' do
is_expected.not_to be_published
end
end
# even better
describe Article do
subject(:article) { FactoryBot.create(:article) }
it 'is not published on creation' do
expect(article).not_to be_published
end
end
When you reassign subject with different attributes in different contexts, give different names to the subject, so it’s easier to see what the actual subject represents.
# bad
describe Article do
context 'when there is an author' do
subject(:article) { FactoryBot.create(:article, author: user) }
it 'shows other articles by the same author' do
expect(article.related_stories).to include(story1, story2)
end
end
context 'when the author is anonymous' do
subject(:article) { FactoryBot.create(:article, author: nil) }
it 'matches stories by title' do
expect(article.related_stories).to include(story3, story4)
end
end
end
# good
describe Article do
context 'when article has an author' do
subject(:article) { FactoryBot.create(:article, author: user) }
it 'shows other articles by the same author' do
expect(article.related_stories).to include(story1, story2)
end
end
context 'when the author is anonymous' do
subject(:guest_article) { FactoryBot.create(:article, author: nil) }
it 'matches stories by title' do
expect(guest_article.related_stories).to include(story3, story4)
end
end
end
Don’t stub methods of the object under test, it’s a code smell and often indicates a bad design of the object itself.
# bad
describe 'Article' do
subject(:article) { Article.new }
it 'indicates that the author is unknown' do
allow(article).to receive(:author).and_return(nil)
expect(article.description).to include('by an unknown author')
end
end
# good - with correct subject initialization
describe 'Article' do
subject(:article) { Article.new(author: nil) }
it 'indicates that the author is unknown' do
expect(article.description).to include('by an unknown author')
end
end
# good - with better object design
describe 'Article' do
subject(:presenter) { ArticlePresenter.new(article) }
let(:article) { Article.new }
it 'indicates that the author is unknown' do
allow(article).to receive(:author).and_return(nil)
expect(presenter.description).to include('by an unknown author')
end
end
Use specify
if the example doesn’t have a description, use it
for examples with descriptions.
An exception is one-line example, where it
is preferable.
specify
is also useful when the docstring does not read well off of it
.
# bad
it do
# ...
end
specify 'it sends an email' do
# ...
end
specify { is_expected.to be_truthy }
it '#do_something is deprecated' do
...
end
# good
specify do
# ...
end
it 'sends an email' do
# ...
end
it { is_expected.to be_truthy }
specify '#do_something is deprecated' do
...
end
Do not write iterators to generate tests. When another developer adds a feature to one of the items in the iteration, they must then break it out into a separate test - they are forced to edit code that has nothing to do with their pull request.
# bad
[:new, :show, :index].each do |action|
it 'returns 200' do
get action
expect(response).to be_ok
end
end
# good - more verbose, but better for the future development
describe 'GET new' do
it 'returns 200' do
get :new
expect(response).to be_ok
end
end
describe 'GET show' do
it 'returns 200' do
get :show
expect(response).to be_ok
end
end
describe 'GET index' do
it 'returns 200' do
get :index
expect(response).to be_ok
end
end
Avoid incidental state as much as possible.
# bad
it 'publishes the article' do
article.publish
# Creating another shared Article test object above would cause this
# test to break
expect(Article.count).to eq(2)
end
# good
it 'publishes the article' do
expect { article.publish }.to change(Article, :count).by(1)
end
Be careful not to focus on being 'DRY' by moving repeated expectations into a shared environment too early, as this can lead to brittle tests that rely too much on one another.
In general, it is best to start with doing everything directly in your it
blocks even if it is duplication and then refactor your tests after you have them working to be a little more DRY.
However, keep in mind that duplication in test suites is NOT frowned upon, in fact it is preferred if it provides easier understanding and reading of a test.
Use Factory Bot to create test data in integration tests.
You should very rarely have to use ModelName.create
within an integration spec.
Do not use fixtures as they are not nearly as maintainable as factories.
# bad
subject(:article) do
Article.create(
title: 'Piccolina',
author: 'John Archer',
published_at: '17 August 2172',
approved: true
)
end
# good
subject(:article) { FactoryBot.create(:article) }
Note
|
When talking about unit tests the best practice would be to use neither fixtures nor factories. Put as much of your domain logic in libraries that can be tested without needing complex, time consuming setup with either factories or fixtures. |
Do not load more data than needed to test your code.
# good
RSpec.describe User do
describe ".top" do
subject { described_class.top(2) }
before { FactoryBot.create_list(:user, 3) }
it { is_expected.to have(2).items }
end
end
Prefer using verifying doubles over normal doubles.
Verifying doubles are a stricter alternative to normal doubles that provide guarantees, e.g. a failure will be triggered if an invalid method is being stubbed or a method is called with an invalid number of arguments.
In general, use doubles with more isolated/behavioral tests rather than with integration tests.
Note
|
There is no justification for turning verify_partial_doubles configuration option off.
That will significantly reduce the confidence in partial doubles.
|
# good - verifying instance double
article = instance_double('Article')
allow(article).to receive(:author).and_return(nil)
presenter = described_class.new(article)
expect(presenter.title).to include('by an unknown author')
# good - verifying object double
article = object_double(Article.new, valid?: true)
expect(article.save).to be true
# good - verifying partial double
allow(Article).to receive(:find).with(5).and_return(article)
# good - verifying class double
notifier = class_double('Notifier')
expect(notifier).to receive(:notify).with('suspended as')
Note
|
If you stub a method that could give a false-positive test result, you have gone too far. |
Always use Timecop instead of stubbing anything on Time or Date.
describe InvoiceReminder do
subject(:time_with_offset) { described_class.new.get_offset_time }
# bad
it 'offsets the time 2 days into the future' do
current_time = Time.now
allow(Time).to receive(:now).and_return(current_time)
expect(time_with_offset).to eq(current_time + 2.days)
end
# good
it 'offsets the time 2 days into the future' do
Timecop.freeze(Time.now) do
expect(time_with_offset).to eq 2.days.from_now
end
end
end
Stub HTTP requests when the code is making them. Avoid hitting real external services.
# good
context 'with unauthorized access' do
let(:uri) { 'http://api.lelylan.com/types' }
before { stub_request(:get, uri).to_return(status: 401, body: fixture('401.json')) }
it 'returns access denied' do
page.driver.get uri
expect(page).to have_content 'Access denied'
end
end
Do not explicitly declare classes, modules, or constants in example groups. Stub constants instead.
Note
|
Constants, including classes and modules, when declared in a block scope, are defined in global namespace, and leak between examples. |
# bad
describe SomeClass do
CONSTANT_HERE = 'I leak into global namespace'
end
# good
describe SomeClass do
before do
stub_const('CONSTANT_HERE', 'I only exist during this example')
end
end
# bad
describe SomeClass do
class FooClass < described_class
def double_that
some_base_method * 2
end
end
it { expect(FooClass.new.double_that).to eq(4) }
end
# good - anonymous class, no constant needs to be defined
describe SomeClass do
let(:foo_class) do
Class.new(described_class) do
def double_that
some_base_method * 2
end
end
end
it { expect(foo_class.new.double_that).to eq(4) }
end
# good - constant is stubbed
describe SomeClass do
before do
foo_class = Class.new(described_class) do
def do_something
end
end
stub_const('FooClass', foo_class)
end
it { expect(FooClass.new.double_that).to eq(4) }
end
Avoid using implicit block expectations.
# bad
subject { -> { do_something } }
it { is_expected.to change(something).to(new_value) }
# good
it 'changes something to a new value' do
expect { do_something }.to change(something).to(new_value)
end
Context descriptions should describe the conditions shared by all the examples within. Full example names (formed by concatenation of all nested block descriptions) should form a readable sentence.
A typical description will be an adjunct phrase starting with 'when', 'with', 'without', or similar words.
# bad - 'Summary user logged in no display name shows a placeholder'
describe 'Summary' do
context 'user logged in' do
context 'no display name' do
it 'shows a placeholder' do
end
end
end
end
# good - 'Summary when the user is logged in when the display name is blank shows a placeholder'
describe 'Summary' do
context 'when the user is logged in' do
context 'when the display name is blank' do
it 'shows a placeholder' do
end
end
end
end
it
/specify
block descriptions should never end with a conditional.
This is a code smell that the it
most likely needs to be wrapped in a context
.
# bad
it 'returns the display name if it is present' do
# ...
end
# good
context 'when display name is present' do
it 'returns the display name' do
# ...
end
end
# This encourages the addition of negative test cases that might have
# been overlooked
context 'when display name is not present' do
it 'returns nil' do
# ...
end
end
Keep example description shorter than 60 characters.
Write the example that documents itself, and generates proper documentation format output.
# bad
it 'rewrites "should not return something" as "does not return something"' do
# ...
end
# good
it 'rewrites "should not return something"' do
expect(rewrite('should not return something')).to
eq 'does not return something'
end
# good - self-documenting
specify do
expect(rewrite('should not return something')).to
eq 'does not return something'
end
Do not write 'should' or 'should not' in the beginning of your example docstrings. The descriptions represent actual functionality, not what might be happening. Use the third person in the present tense.
# bad
it 'should return the summary' do
# ...
end
# good
it 'returns the summary' do
# ...
end
Be clear about what method you are describing.
Use the Ruby documentation convention of .
when referring to a class method’s name and #
when referring to an instance method’s name.
# bad
describe 'the authenticate method for User' do
# ...
end
describe 'if the user is an admin' do
# ...
end
# good
describe '.authenticate' do
# ...
end
describe '#admin?' do
# ...
end
Always use the newer expect
syntax.
Configure RSpec to only accept the new expect
syntax.
# bad
it 'creates a resource' do
response.should respond_with_content_type(:json)
end
# good
it 'creates a resource' do
expect(response).to respond_with_content_type(:json)
end
Use RSpec’s predicate matcher methods when possible.
describe Article do
subject(:article) { FactoryBot.create(:article) }
# bad
it 'is published' do
expect(article.published?).to be true
end
# good
it 'is published' do
expect(article).to be_published
end
# even better
it { is_expected.to be_published }
end
Use built-in matchers.
# bad
it 'includes a title' do
expect(article.title.include?('a lengthy title')).to be true
end
# good
it 'includes a title' do
expect(article.title).to include 'a lengthy title'
end
Avoid using be
matcher without arguments.
It is too generic, as it pass on everything that is not nil
or false
.
If that is the exact intent, use be_truthy
.
In all other cases it’s better to specify what exactly is the expected value.
# bad
it 'has author' do
expect(article.author).to be
end
# good
it 'has author' do
expect(article.author).to be_truthy # same as the original
expect(article.author).not_to be_nil # `be` is often used to check for non-nil value
expect(article.author).to be_an(Author) # explicit check for the type of the value
end
Extract frequently used common logic from your examples into custom matchers.
# bad
it 'returns JSON with temperature in Celsius' do
json = JSON.parse(response.body).with_indifferent_access
expect(json[:celsius]).to eq 30
end
it 'returns JSON with temperature in Fahrenheit' do
json = JSON.parse(response.body).with_indifferent_access
expect(json[:fahrenheit]).to eq 86
end
# good
it 'returns JSON with temperature in Celsius' do
expect(response).to include_json(celsius: 30)
end
it 'returns JSON with temperature in Fahrenheit' do
expect(response).to include_json(fahrenheit: 86)
end
Avoid using allow_any_instance_of
/expect_any_instance_of
.
It might be an indication that the object under test is too complex, and is ambiguous when used with receive counts.
# bad
it 'has a name' do
allow_any_instance_of(User).to receive(:name).and_return('Tweedledee')
expect(account.name).to eq 'Tweedledee'
end
# good
let(:account) { Account.new(user) }
it 'has a name' do
allow(user).to receive(:name).and_return('Tweedledee')
expect(account.name).to eq 'Tweedledee'
end
Use third-party matcher libraries that provide convenience helpers that will significantly simplify the examples, Shoulda Matchers are one worth mentioning.
# bad
describe '#title' do
it 'is required' do
article.title = nil
article.valid?
expect(article.errors[:title])
.to contain_exactly('Article has no title')
not
end
end
# good
describe '#title' do
it 'is required' do
expect(article).to validate_presence_of(:title)
.with_message('Article has no title')
end
end
Test what you see. Deeply test your models and your application behaviour (integration tests). Do not add useless complexity testing controllers.
This is an open debate in the Ruby community and both sides have good arguments supporting their idea. People supporting the need of testing controllers will tell you that your integration tests don’t cover all use cases and that they are slow. Both are wrong. It is possible to cover all use cases and it’s possible to make them fast.
The directory structure of the view specs spec/views
matches the one in app/views
.
For example the specs for the views in app/views/users
are placed in spec/views/users
.
The naming convention for the view specs is adding _spec.rb
to the view name, for example the view _form.html.erb
has a corresponding spec _form.html.erb_spec.rb
.
The outer describe
block uses the path to the view without the app/views
part.
This is used by the render
method when it is called without arguments.
# spec/views/articles/new.html.erb_spec.rb
describe 'articles/new.html.erb' do
# ...
end
Always mock the models in the view specs. The purpose of the view is only to display information.
The method assign
supplies the instance variables which the view uses and are supplied by the controller.
# spec/views/articles/edit.html.erb_spec.rb
describe 'articles/edit.html.erb' do
it 'renders the form for a new article creation' do
assign(:article, double(Article).as_null_object)
render
expect(rendered).to have_selector('form',
method: 'post',
action: articles_path
) do |form|
expect(form).to have_selector('input', type: 'submit')
end
end
end
Prefer capybara negative selectors over to_not
with positive ones.
# bad
expect(page).to_not have_selector('input', type: 'submit')
expect(page).to_not have_xpath('tr')
# good
expect(page).to have_no_selector('input', type: 'submit')
expect(page).to have_no_xpath('tr')
When a view uses helper methods, these methods need to be stubbed.
Stubbing the helper methods is done on the template
object:
# app/helpers/articles_helper.rb
class ArticlesHelper
def formatted_date(date)
# ...
end
end
# app/views/articles/show.html.erb
<%= 'Published at: #{formatted_date(@article.published_at)}' %>
# spec/views/articles/show.html.erb_spec.rb
describe 'articles/show.html.erb' do
it 'displays the formatted date of article publishing' do
article = double(Article, published_at: Date.new(2012, 01, 01))
assign(:article, article)
allow(template).to_receive(:formatted_date).with(article.published_at).and_return('01.01.2012')
render
expect(rendered).to have_content('Published at: 01.01.2012')
end
end
The helpers specs are separated from the view specs in the spec/helpers
directory.
Mock the models and stub their methods. Testing the controller should not depend on the model creation.
Test only the behaviour the controller should be responsible about:
-
Execution of particular methods
-
Data returned from the action - assigns, etc.
-
Result from the action - template render, redirect, etc.
# Example of a commonly used controller spec
# spec/controllers/articles_controller_spec.rb
# We are interested only in the actions the controller should perform
# So we are mocking the model creation and stubbing its methods
# And we concentrate only on the things the controller should do
describe ArticlesController do
# The model will be used in the specs for all methods of the controller
let(:article) { double(Article) }
describe 'POST create' do
before { allow(Article).to receive(:new).and_return(article) }
it 'creates a new article with the given attributes' do
expect(Article).to receive(:new).with(title: 'The New Article Title').and_return(article)
post :create, message: { title: 'The New Article Title' }
end
it 'saves the article' do
expect(article).to receive(:save)
post :create
end
it 'redirects to the Articles index' do
allow(article).to receive(:save)
post :create
expect(response).to redirect_to(action: 'index')
end
end
end
Use context when the controller action has different behaviour depending on the received params.
# A classic example for use of contexts in a controller spec is creation or update when the object saves successfully or not.
describe ArticlesController do
let(:article) { double(Article) }
describe 'POST create' do
before { allow(Article).to receive(:new).and_return(article) }
it 'creates a new article with the given attributes' do
expect(Article).to receive(:new).with(title: 'The New Article Title').and_return(article)
post :create, article: { title: 'The New Article Title' }
end
it 'saves the article' do
expect(article).to receive(:save)
post :create
end
context 'when the article saves successfully' do
before do
allow(article).to receive(:save).and_return(true)
end
it 'sets a flash[:notice] message' do
post :create
expect(flash[:notice]).to eq('The article was saved successfully.')
end
it 'redirects to the Articles index' do
post :create
expect(response).to redirect_to(action: 'index')
end
end
context 'when the article fails to save' do
before do
allow(article).to receive(:save).and_return(false)
end
it 'assigns @article' do
post :create
expect(assigns[:article]).to eq(article)
end
it "re-renders the 'new' template" do
post :create
expect(response).to render_template('new')
end
end
end
end
Do not mock the models in their own specs.
Use FactoryBot.create
to make real objects, or just use a new (unsaved) instance with subject
.
describe Article do
subject(:article) { FactoryBot.create(:article) }
it { is_expected.to be_an Article }
it { is_expected.to be_persisted }
end
It is acceptable to mock other models or child objects.
Create the model for all examples in the spec to avoid duplication.
describe Article do
let(:article) { FactoryBot.create(:article) }
end
Add an example ensuring that the model created with FactoryBot.create
is valid.
describe Article do
it 'is valid with valid attributes' do
expect(article).to be_valid
end
end
When testing validations, use expect(model.errors[:attribute].size).to eq(x)
to specify the attribute which should be validated.
Using be_valid
does not guarantee that the problem is in the intended attribute.
# bad
describe '#title' do
it 'is required' do
article.title = nil
expect(article).to_not be_valid
end
end
# preferred
describe '#title' do
it 'is required' do
article.title = nil
article.valid?
expect(article.errors[:title].size).to eq(1)
end
end
Add a separate describe
for each attribute which has validations.
describe '#title' do
it 'is required' do
article.title = nil
article.valid?
expect(article.errors[:title].size).to eq(1)
end
end
describe '#name' do
it 'is required' do
article.name = nil
article.valid?
expect(article.errors[:name].size).to eq(1)
end
end
When testing uniqueness of a model attribute, name the other object another_object
.
describe Article do
describe '#title' do
it 'is unique' do
another_article = FactoryBot.create(:article, title: article.title)
article.valid?
expect(article.errors[:title].size).to eq(1)
end
end
end
The model in the mailer spec should be mocked. The mailer should not depend on the model creation.
The mailer spec should verify that:
-
the subject is correct
-
the sender e-mail is correct
-
the e-mail is sent to the correct recipient
-
the e-mail contains the required information
describe SubscriberMailer do
let(:subscriber) { double(Subscription, email: 'johndoe@test.com', name: 'John Doe') }
describe 'successful registration email' do
subject(:email) { SubscriptionMailer.successful_registration_email(subscriber) }
it { is_expected.to have_attributes(subject: 'Successful Registration!', from: ['infor@your_site.com'], to: [subscriber.email]) }
it 'contains the subscriber name' do
expect(email.body.encoded).to match(subscriber.name)
end
end
end
Correctly set up RSpec configuration globally (~/.rspec
), per project (.rspec
), and in project override file that is supposed to be kept out of version control (.rspec-local
).
Use rspec --init
to generate .rspec
and spec/spec_helper.rb
files.
# .rspec --color --require spec_helper # .rspec-local --profile 2
Nothing written in this guide is set in stone. Everyone is welcome to contribute, so that we could ultimately create a resource that will be beneficial to the entire Ruby community.
Feel free to open tickets or send pull requests with improvements. Thanks in advance for your help!
You can also support the project (and RuboCop) with financial contributions via Patreon.
It’s easy, just follow the contribution guidelines below:
-
Make your feature addition or bug fix in a feature branch
-
Include a good description of your changes
-
Push your feature branch to GitHub
-
Send a Pull Request
This work is licensed under a Creative Commons Attribution 3.0 Unported License
Inspiration was taken from the following:
This guide was maintained by ReachLocal for a long while.
This guide includes material originally present in BetterSpecs (newer site older site), sponsored by Lelylan and maintained by Andrea Reginato and many others for a long while.