Watches you browse, takes screenshots, tells you when they change
Huxley is a test-like system for catching visual regressions in Web applications. It was built by Pete Hunt with input from Maykel Loomans at Instagram.
- UI tests are hard to write and are usually fragile.
- Automated testing can't tell you if something doesn't look right, so UI regressions may go undetected.
- It can be difficult for designers to participate in the code review process even though reviewing the way the UI looks is just as important as reviewing the code that creates it.
Huxley runs in two modes:
Using Selenium WebDriver, Huxley opens a page and records your actions. When you press enter in the Huxley terminal, Huxley will save a screenshot.
Testing a new flow is as simple as manually testing it once. Huxley will remember and re-run your "manual" test plan for you automatically.
You should run Huxley in playback mode before submitting code for review and in continuous integration. Huxley will open the page and re-run your actions with WebDriver. It will take screenshots and compare them with the original screenshots. If they have changed, it will save the new screenshots and warn you that they have changed.
When screenshots have changed, those screenshot changes will show up in your commit. A designer can review them to be sure they're OK. And your continuous integration system can alert you if you forgot to run Huxley.
By default, Huxley will overwrite the old screenshots with new ones. That means you don't have to rewrite anything when your UI changes like you would with a traditional WebDriver test -- Huxley will just take a new screenshot for you and when it's checked in your test is updated!
pip install huxley
In examples/
you'll find two simple completed Huxley tests. To start from scratch, simply remove toggle.huxley
, type.huxley
and Huxleyfile
.
In examples/webroot/toggle.html
you'll find a very simple JavaScript application that implements a toggle button. The goal of Huxley is to make creating an integration for this component effortless, and to make it easy to update the test when the UI changes.
For our example, simply cd
to examples/webroot
and run python -m SimpleHTTPServer
to start a basic server for our demo. In your app you may need to start up whatever framework you're using.
A Huxleyfile describes your test. Create one that looks like this:
[toggle]
url=http://localhost:8000/toggle.html
This creates a test named toggle
that tests the URL http://localhost:8000/toggle.html
.
Huxley makes writing tests easy because it simply records your browser session -- specifically mouse clicks and key presses on a single page -- and can replay them in an automated way. To do this you need to install Selenium Server and start it. It's as easy as java -jar selenium-server-standalone-XXX.jar
.
Then, run Huxley in record mode: huxley --record
. Huxley will bring up a browser using Selenium. Press enter in the Huxley console to take a screen shot of the initial page load. Then toggle the button in the browser a few times. After every click, switch back to the Huxley console to take a screen shot. When you've tested all of the functionality you want to test, simply type q
and then enter in the Huxley console to exit.
After confirming, Huxley will automatically record the test for you and save it to disk as toggle.huxley
. Be sure to commit the Huxleyfile
as well as toggle.huxley
into your repository so you can track changes to them.
Simply run the huxley
command in the same directory as the Huxleyfile
to be sure that your app still works.
You'll likely update the UI of the component a lot without changing its core functionality. Huxley can take new screen shots for you when this happens. Tweak the UI of the component in toggle.html
somehow (maybe change the button color or something) and re-run huxley
. It will warn you that the UI has changed and will automatically write new screen shots for you. If you run huxley
again, the test will pass since the screen shots were updated.
The best part is, since the screen shots are checked into the repository, you can review the changes to the UI as part of the code review process if you'd like. At Instagram we have frontend engineers reviewing the JavaScript and designers reviewing the screenshots to ensure that they're pixel perfect.
If you're using a continuous integration solution like Jenkins you probably don't want to automatically rerecord screen shots on failure. Simply run huxley --playback-only
to do this.
Additionally, you may find that you're dissatisfied with Huxley replaying your browsing session in real-time. You can speed it up (or slow it down) by editing your Huxleyfile
to read:
[toggle]
url=http://localhost:8000/toggle.html
sleepfactor=0.5
This edit should cut the execution time in half.
Integration tests sometimes get a bad rap for testing too much at once. We've found that if you use integration tests correctly they can be just as effective and accurate as unit tests. Simply follow a few best practices:
- Don't test a live app. Use mocking to make your components reliable instead. If you hit your live app, failures in any number of places could trigger false failures in your UI tests. Instead of hitting a real URL in your app, create a dedicated test URL for Huxley to hit that uses mocking (and perhaps dependency injection) to isolate your UI component as much as possible. Huxley is completely unopinionated; use whatever tools you want to do this.
- Test a small unit of functionality. You should try to isolate your UI into modular components and test each one individually. Additionally, try to test one interaction per Huxley test so that when it fails, it's easy to tell exactly which interaction is problematic and it's faster to re-run it.
Huxley is designed for testing JavaScript UI components at this time. We've found that you can test multiple pages by creating a new Huxley test for each URL. This is valuable even if you don't use the interactive features of Huxley because it will ensure your static pages stay pixel perfect.
It's usually best if you use an image comparison tool like Kaleidoscope to tell what changed. But Huxley includes a simple image diff tool; simply run huxley
with the --save-diff
option to output a diff.png
which will show you the pixels that changed.
You can set the HUXLEY_WEBDRIVER_LOCAL
environment variable to tell Huxley which webdriver URL to use for --record
mode. You can set the HUXLEY_WEBDRIVER_REMOTE
environment variable to tell Huxley which webdriver URL to use for screenshots and playback. Usually you only need to use this when working in a team setting such that everyone's screenshots are taken on the same machine configuration (otherwise they'll change depending on who ran them last).
Of course! Simply add a screensize
setting to your Huxleyfile
. The default is screensize=1024x768
.
First of all, if you sufficiently componentize your UI, Huxley can be used as a unit testing tool.
With that said, unit tests have two shortcomings today.
- They usually take a long time to write. Instagram on the web had a single engineer and a designer working on a ton of things in parallel, and we didn't have time to write beautifully isolated tests with elegant dependency injection and comprehensive assertions. We just had to make sure that we didn't cause bugs when we were frantically shipping code. A lot of small web teams can probably identify with this.
- They do not test the look of the UI. Huxley does pixel-by-pixel comparisons of the UI. Traditional UI test systems inspect the DOM but do not look at how it actually renders. We once had a bug where a CSS rule made the height of all image components 0px; without a pixel-by-pixel comparison it's unlikely we would have ever written an explicit test for this.
Use it however you want! But we generally shell out to it from within an existing test runner (i.e. Django or Rails). This lets us programmatically start a test server for Huxley to hit.
If you're using Python, you can use Huxley directly in a test (see huxley.integration.HuxleyTestCase
) or browse the source to see its core APIs.
If you're on a team I recommend setting up webdriver on a shared server and changing the HUXLEY_WEBDRIVER_REMOTE
environment variable such that everyone's screenshots are pixel perfect (see the technical FAQ above).
Lots of test frameworks and methodologies are very opinionated about how your code should be structured or how you should write tests. Some tools are so opinionated that they're almost religious about their view of testing! We wanted a tool that got out of our way and let us fight regressions as quickly and easily as possible without being opinionated about it. So we named it after the guy who coined the term "agnostic", Thomas Henry Huxley.