Capybara aims to simplify the process of integration testing Rack applications, such as Rails, Sinatra or Merb. Capybara simulates how a real user would interact with a web application. It is agnostic about the driver running your tests and currently comes with Rack::Test and Selenium support built in. HtmlUnit, WebKit and env.js are supported through external gems.
A complete reference is available at at rubydoc.info.
Install as a gem:
sudo gem install capybara
On OSX you may have to install libffi, you can install it via MacPorts with:
sudo port install libffi
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Source hosted at GitHub.
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Please direct questions, discussion or problems to the mailing list.
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If you found a reproducible bug, open a GitHub Issue to submit a bug report.
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Please do not contact any of the maintainers directly, unless you have found a security related issue.
Pull requests are very welcome (and even better than bug reports)! Make sure your patches are well tested, Capybara is a testing tool after all. Please create a topic branch for every separate change you make.
Capybara uses bundler in development. To set up a development environment, simply do:
git submodule update --init gem install bundler bundle install
Capybara is built to work nicely with Cucumber. Support for Capybara is built into cucumber-rails. In your Rails app, just run:
rails generate cucumber:install --capybara
And everything should be set up and ready to go.
If you want to use Capybara with Cucumber outside Rails (for example with Merb or Sinatra), you’ll need to require Capybara and set the Rack app manually:
require 'capybara/cucumber' Capybara.app = MyRackApp
Now you can use it in your steps:
When /I sign in/ do within("#session") do fill_in 'Login', :with => '[email protected]' fill_in 'Password', :with => 'password' end click_link 'Sign in' end
Capybara sets up some tags for you to use in Cucumber. Often you’ll want to run only some scenarios with a driver that supports JavaScript, Capybara makes this easy: simply tag the scenario (or feature) with @javascript
:
@javascript Scenario: do something Ajaxy When I click the Ajax link ...
You can change which driver Capybara uses for JavaScript:
Capybara.javascript_driver = :culerity
There are also explicit @selenium
, @culerity
and @rack_test
tags set up for you.
If you prefer RSpec to using Cucumber, you can use the built in RSpec support by adding the following line (typically to your spec_helper.rb
file):
require 'capybara/rspec'
You can now write your specs like so:
describe "the signup process", :type => :request do before :each do User.make(:email => '[email protected]', :password => 'caplin') end it "signs me in" do within("#session") do fill_in 'Login', :with => '[email protected]' fill_in 'Password', :with => 'password' end click_link 'Sign in' end end
Capybara is only included in example groups tagged with :type => :request
(or :acceptance
for compatibility with Steak).
If you are testing a Rails app and using the rspec-rails
gem, these :request
example groups may look familiar to you. That’s because they are RSpec versions of Rails integration tests. So, in this case essentially what you are getting are Capybara-enhanced request specs. This means that you can use the Capybara helpers and you have access to things like named route helpers in your tests (so you are able to say, for instance, visit edit_user_path(user)
, instead of visit "/users/#{user.id}/edit"
, if you prefer that sort of thing). A good place to put these specs is spec/requests
, as rspec-rails
will automatically tag them with :type => :request
. (In fact, spec/integration
and spec/acceptance
will work just as well.)
rspec-rails
will also automatically include Capybara in :controller
and :mailer
example groups.
RSpec’s metadata feature can be used to switch to a different driver. Use :js => true
to switch to the javascript driver, or provide a :driver
option to switch to one specific driver. For example:
describe 'some stuff which requires js', :js => true do it 'will use the default js driver' it 'will switch to one specific driver', :driver => :celerity end
Finally, Capybara also comes with a built in DSL for creating descriptive acceptance tests:
feature "Signing up" do background do User.make(:email => '[email protected]', :password => 'caplin') end scenario "Signing in with correct credentials" do within("#session") do fill_in 'Login', :with => '[email protected]' fill_in 'Password', :with => 'caplin' end click_link 'Sign in' end end
This is, in fact, just a shortcut for making a request spec, where feature
is an alias for describe ..., :type => :request
, background
is an alias for before
, and scenario
is an alias for it
/specify
.
Note that Capybara’s built in RSpec support only works with RSpec 2.0 or later. You’ll need to roll your own for earlier versions of RSpec.
To use Capybara with Test::Unit, include the DSL (include Capybara
up until version 0.4.x, include Capybara::DSL
for newer versions) in whatever test class you are using. For example, if your classes derive from ActionDispatch::IntegrationTest
, use
class ActionDispatch::IntegrationTest include Capybara::DSL end
Test::Unit does not support selecting the driver through test metadata, but you can switch the driver for specific classes using the setup
and teardown
methods. See the section “Selecting the Driver”.
Include Capybara::DSL like in Test::Unit. Be sure to include it in the proper class, which could be something other than ActionDispatch::IntegrationTest.
The capybara_minitest_spec gem (Github, rubygems.org) provides MiniTest::Spec expectations for Capybara. For example:
page.must_have_content('Important!')
If you are using the Rails framework, add this line to automatically configure Capybara to test against your Rails application:
require 'capybara/rails'
If you’re using Capybara with a non-Rails Rack application, set Capybara.app
to your application class:
Capybara.app = MyRackApp
Capybara uses the same DSL to drive a variety of browser and headless drivers.
By default, Capybara uses the :rack_test
driver, which is fast but does not support JavaScript. You can set up a different default driver for your features. For example if you’d prefer to run everything in Selenium, you could do:
Capybara.default_driver = :selenium
However, if you are using RSpec or Cucumber, you may instead want to consider leaving the faster :rack_test
as the default_driver
, and marking only those tests that require a JavaScript-capable driver using :js => true
or @javascript
, respectively. By default, JavaScript tests are run using the :selenium
driver. You can change this by setting Capybara.javascript_driver
.
You can also change the driver temporarily (typically in the Before/setup and After/teardown blocks):
Capybara.current_driver = :culerity # temporarily select different driver ... tests ... Capybara.use_default_driver # switch back to default driver
Note that switching the driver creates a new session, so you may not be able to switch in the middle of a test.
RackTest is Capybara’s default driver. It is written in pure Ruby and does not have any support for executing JavaScript. Since the RackTest driver works directly against the Rack interface, it does not need any server to be started, it can work directly work against any Rack app. This means that if your application is not a Rack application (Rails, Sinatra and most other Ruby frameworks are Rack applications) then you cannot use this driver. You cannot use the RackTest driver to test a remote application. capybara-mechanize intends to provide a similar driver which works against remote servers, it is a separate project.
RackTest can be configured with a set of headers like this:
Capybara.register_driver :rack_test do |app| Capybara::RackTest::Driver.new(app, :browser => :chrome) end
See the section on adding and configuring drivers.
At the moment, Capybara supports Selenium 2.0 (Webdriver), not Selenium RC. Provided Firefox is installed, everything is set up for you, and you should be able to start using Selenium right away.
Capybara can block and wait for Ajax requests to finish after you’ve interacted with the page. To enable this behaviour, set the :resynchronize
driver option to true
. This should normally not be necessary, since Capybara’s automatic reloading should take care of any asynchronicity problems. See the section on Asynchronous JavaScript for details.
Note: Selenium does not support transactional fixtures; see the section “Transactional Fixtures” below.
There are three different drivers, maintained as external gems, that you can use to drive HtmlUnit:
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Akephalos might be the best HtmlUnit driver right now.
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Celerity only runs on JRuby, so you’ll need to install the celerity gem under JRuby:
jruby -S gem install celerity
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Culerity: Install celerity as noted above, and make sure that JRuby is in your path. Note that Culerity does not seem to be working under Ruby 1.9 at the moment.
Note: HtmlUnit does not support transactional fixtures; see the section “Transactional Fixtures” below.
The capybara-webkit driver is for true headless testing. It uses QtWebKit to start a rendering engine process. It can execute JavaScript as well. It is significantly faster than drivers like Selenium since it does not load an entire browser.
You can install it with:
gem install capybara-webkit
And you can use it by:
Capybara.javascript_driver = :webkit
Capybara’s DSL (domain-specific language) is inspired by Webrat. While backwards compatibility is retained in a lot of cases, there are certain important differences. Unlike in Webrat, all searches in Capybara are *case sensitive*. This is because Capybara heavily uses XPath, which doesn’t support case insensitivity.
You can use the {visit}[http://rubydoc.info/github/jnicklas/capybara/master/Capybara/Session#visit-instance_method]
method to navigate to other pages:
visit('/projects') visit(post_comments_path(post))
The visit method only takes a single parameter, the request method is always GET.
You can get the current path of the browsing session for test assertions:
current_path.should == post_comments_path(post)
Full reference: {Capybara::Node::Actions}[http://rubydoc.info/github/jnicklas/capybara/master/Capybara/Node/Actions]
You can interact with the webapp by following links and buttons. Capybara automatically follows any redirects, and submits forms associated with buttons.
click_link('id-of-link') click_link('Link Text') click_button('Save') click_on('Link Text') # clicks on either links or buttons click_on('Button Value')
Full reference: {Capybara::Node::Actions}[http://rubydoc.info/github/jnicklas/capybara/master/Capybara/Node/Actions]
There are a number of tools for interacting with form elements:
fill_in('First Name', :with => 'John') fill_in('Password', :with => 'Seekrit') fill_in('Description', :with => 'Really Long Text...') choose('A Radio Button') check('A Checkbox') uncheck('A Checkbox') attach_file('Image', '/path/to/image.jpg') select('Option', :from => 'Select Box')
Full reference: {Capybara::Node::Matchers}[http://rubydoc.info/github/jnicklas/capybara/master/Capybara/Node/Matchers]
Capybara has a rich set of options for querying the page for the existence of certain elements, and working with and manipulating those elements.
page.has_selector?('table tr') page.has_selector?(:xpath, '//table/tr') page.has_no_selector?(:content) page.has_xpath?('//table/tr') page.has_css?('table tr.foo') page.has_content?('foo') page.has_text?('foo')
You can use these with RSpec’s magic matchers:
page.should have_selector('table tr') page.should have_selector(:xpath, '//table/tr') page.should have_no_selector(:content) page.should have_xpath('//table/tr') page.should have_css('table tr.foo') page.should have_text('foo') page.should have_no_text('foo')
Note that there are 2 matchers for checking content/text. page.has_text?('foo')
will check only for text that is displayable, whereas page.has_content?('foo')
will check for the content within any nodes (including the head section and within script tags). Most of the time you’ll want the behaviour of page.has_text?('foo')
, so go with that unless you have a specific reason to use page.has_content?('foo')
instead.
Note that page.should have_no_xpath
is preferred over page.should_not have_xpath
. Read the section on asynchronous JavaScript for an explanation.
If all else fails, you can also use the {page.html}[http://rubydoc.info/github/jnicklas/capybara/master/Capybara/Session#html-instance_method]
method to test against the raw HTML:
page.html.should match /<span>.../i
Full reference: {Capybara::Node::Finders}[http://rubydoc.info/github/jnicklas/capybara/master/Capybara/Node/Finders]
You can also find specific elements, in order to manipulate them:
find_field('First Name').value find_link('Hello').visible? find_button('Send').click find(:xpath, "//table/tr").click find("#overlay").find("h1").click all('a').each { |a| a[:href] }
Note that find
will wait for an element to appear on the page, as explained in the Ajax section. If the element does not appear it will raise an error.
These elements all have all the Capybara DSL methods available, so you can restrict them to specific parts of the page:
find('#navigation').click_link('Home') find('#navigation').should have_button('Sign out')
Capybara makes it possible to restrict certain actions, such as interacting with forms or clicking links and buttons, to within a specific area of the page. For this purpose you can use the generic {within}[http://rubydoc.info/github/jnicklas/capybara/master/Capybara/Session#within-instance_method]
method. Optionally you can specify which kind of selector to use.
within("li#employee") do fill_in 'Name', :with => 'Jimmy' end within(:xpath, "//li[@id='employee']") do fill_in 'Name', :with => 'Jimmy' end
Note that within
will scope the actions to the first (not any) element that matches the selector.
There are special methods for restricting the scope to a specific fieldset, identified by either an id or the text of the fieldet’s legend tag, and to a specific table, identified by either id or text of the table’s caption tag.
within_fieldset('Employee') do fill_in 'Name', :with => 'Jimmy' end within_table('Employee') do fill_in 'Name', :with => 'Jimmy' end
In drivers which support it, you can easily execute JavaScript:
page.execute_script("$('body').empty()")
For simple expressions, you can return the result of the script. Note that this may break with more complicated expressions:
result = page.evaluate_script('4 + 4');
It can be useful to take a snapshot of the page as it currently is and take a look at it:
save_and_open_page
Transactional fixtures only work in the default Rack::Test driver, but not for other drivers like Selenium. Cucumber takes care of this automatically, but with Test::Unit or RSpec, you may have to use the database_cleaner gem. See this explanation (and code for solution 2 and solution 3) for details.
When working with asynchronous JavaScript, you might come across situations where you are attempting to interact with an element which is not yet present on the page. Capybara automatically deals with this by waiting for elements to appear on the page.
When issuing instructions to the DSL such as:
click_link('foo') click_link('bar') page.should have_text('baz')
If clicking on the foo link triggers an asynchronous process, such as an Ajax request, which, when complete will add the bar link to the page, clicking on the bar link would be expected to fail, since that link doesn’t exist yet. However Capybara is smart enought to retry finding the link for a brief period of time before giving up and throwing an error. The same is true of the next line, which looks for the content baz on the page; it will retry looking for that content for a brief time. You can adjust how long this period is (the default is 2 seconds):
Capybara.default_wait_time = 5
Be aware that because of this behaviour, the following two statements are not equivalent, and you should always use the latter!
!page.has_xpath?('a') page.has_no_xpath?('a')
The former would immediately fail because the content has not yet been removed. Only the latter would wait for the asynchronous process to remove the content from the page.
Capybara’s Rspec matchers, however, are smart enough to handle either form. The two following statements are functionally equivalent:
page.should_not have_xpath('a') page.should have_no_xpath('a')
Capybara’s waiting behaviour is quite advanced, and can deal with situations such as the following line of code:
find('#sidebar').find('h1').should have_text('Something')
Even if JavaScript causes #sidebar
to disappear off the page, Capybara will automatically reload it and any elements it contains. So if an AJAX request causes the contents of #sidebar
to change, which would update the text of the h1
to “Something”, and this happened, this test would pass. If you do not want this behaviour, you can set Capybara.automatic_reload
to false
.
You can mix the DSL into any context by including Capybara::DSL
:
require 'capybara' require 'capybara/dsl' Capybara.default_driver = :culerity module MyModule include Capybara::DSL def login! within("//form[@id='session']") do fill_in 'Login', :with => '[email protected]' fill_in 'Password', :with => 'password' end click_link 'Sign in' end end
Normally Capybara expects to be testing an in-process Rack application, but you can also use it to talk to a web server running anywhere on the internets, by setting app_host:
Capybara.current_driver = :selenium Capybara.app_host = 'http://www.google.com' ... visit('/')
Note that the default driver (:rack_test
) does not support running against a remote server. With drivers that support it, you can also visit any URL directly:
visit('http://www.google.com')
By default Capybara will try to boot a rack application automatically. You might want to switch off Capybara’s rack server if you are running against a remote application:
Capybara.run_server = false
For ultimate control, you can instantiate and use a Session manually.
require 'capybara' session = Capybara::Session.new(:culerity, my_rack_app) session.within("//form[@id='session']") do session.fill_in 'Login', :with => '[email protected]' session.fill_in 'Password', :with => 'password' end session.click_link 'Sign in'
Capybara does not try to guess what kind of selector you are going to give it, and will always use CSS by default. If you want to use XPath, you’ll need to do:
within(:xpath, '//ul/li') { ... } find(:xpath, '//ul/li').text find(:xpath, '//li[contains(.//a[@href = "#"]/text(), "foo")]').value
Alternatively you can set the default selector to XPath:
Capybara.default_selector = :xpath find('//ul/li').text
Capybara allows you to add custom selectors, which can be very useful if you find yourself using the same kinds of selectors very often:
Capybara.add_selector(:id) do xpath { |id| XPath.descendant[XPath.attr(:id) == id.to_s] } end Capybara.add_selector(:row) do xpath { |num| ".//tbody/tr[#{num}]" } end Capybara.add_selector(:flash_type) do css { |type| "#flash.#{type}" } end
The block given to xpath must always return an XPath expression as a String, or an XPath expression generated through the XPath gem. You can now use these selectors like this:
find(:id, 'post_123') find(:row, 3) find(:flash_type, :notice)
You can specify an optional match option which will automatically use the selector if it matches the argument:
Capybara.add_selector(:id) do xpath { |id| XPath.descendant[XPath.attr(:id) == id.to_s] } match { |value| value.is_a?(Symbol) } end
Now use it like this:
find(:post_123)
This :id selector is already built into Capybara by default, so you don’t need to add it yourself.
In XPath the expression // means something very specific, and it might not be what you think. Contrary to common belief, // means “anywhere in the document” not “anywhere in the current context”. As an example:
page.find(:xpath, '//body').all(:xpath, '//script')
You might expect this to find all script tags in the body, but actually, it finds all script tags in the entire document, not only those in the body! What you’re looking for is the .// expression which means “any descendant of the current node”:
page.find(:xpath, '//body').all(:xpath, './/script')
The same thing goes for within:
within(:xpath, '//body') do page.find(:xpath, './/script') within(:xpath, './/table/tbody') do ... end end
Capybara makes it convenient to switch between different drivers. It also exposes an API to tweak those drivers with whatever settings you want, or to add your own drivers. This is how to switch the selenium driver to use chrome:
Capybara.register_driver :selenium do |app| Capybara::Selenium::Driver.new(app, :browser => :chrome) end
However, it’s also possible to give this a different name, so tests can switch between using different browsers effortlessly:
Capybara.register_driver :selenium_chrome do |app| Capybara::Selenium::Driver.new(app, :browser => :chrome) end
Whatever is returned from the block should conform to the API described by Capybara::Driver::Base, it does not however have to inherit from this class. Gems can use this API to add their own drivers to Capybara.
The Selenium wiki has additional info about how the underlying driver can be configured.
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Access to session and request is not possible from the test, Access to response is limited. Some drivers allow access to response headers and HTTP status code, but this kind of functionality is not provided by some drivers, such as Selenium.
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Access to Rails specific stuff (such as
controller
) is unavailable, since we’re not using Rails’ integration testing. -
Freezing time: It’s common practice to mock out the Time so that features that depend on the current Date work as expected. This can be problematic, since Capybara’s Ajax timing uses the system time, resulting in Capybara never timing out and just hanging when a failure occurs. It’s still possible to use plugins which allow you to travel in time, rather than freeze time. One such plugin is Timecop.
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When using Rack::Test, beware if attempting to visit absolute URLs. For example, a session might not be shared between visits to
posts_path
andposts_url
. If testing an absolute URL in an Action Mailer email, setdefault_url_options
to match the Rails default ofwww.example.com
.
(The MIT License)
Copyright © 2009 Jonas Nicklas
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the ‘Software’), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED ‘AS IS’, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.