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galaxy_test.selenium.jupyter package
Examples and framework helpers for driving Galaxy with Selenium in Jupyter.
Example Notebooks
There are a couple example notebooks in this directory that demonstrate two different helper classes that provide a Python context for interacting with Galaxy.
notebook_example_library.ipynb
demonstrates using galaxy.selenium.jupyter_context.JupyterContext
,
an interface that only depends on the pip installable library galaxy-selenium
.
JupyterContext
inherits galaxy.selenium.navigates_galaxy.NavigatesGalaxy
and galaxy.selenium.has_driver.HasDriver
and contains numerous functions to
interact with Galaxy in generic terms using Selenium.
notebook_example_testing.ipynb
demonstrates using galaxy_test.selenium.jupyter_context.JupyterTestContextImpl
,
an interface that extends JupyterContextImpl
to additionally provide testing framework
populators (galaxy_test.base.populators
) configured to work with the same
user as is logged in with Selenium and that provide a quick way to populate the target
Galaxy with testing fixtures.
The first example notebook is good for prototyping stand-alone applications that drive
Galaxy, the second example notebook is setup to mirror the environment available to Selenium
test cases that ship with Galaxy (e.g. galaxy_test.selenium.framework:SeleniumTestCase
)
and can be used for interactively developing Selenium tests for Galaxy. Additionally, it shows how can ActionChains
could be accessed within Jupyter notebook.
These notebooks start with a cell that simply defines a config
variable in the Python
environment on a cell that is marked with metadata indicated it is “parameters”. This
isn’t required at all to use the notebook iteratively, but it does provide a nice hook
for executing the notebook in a parameterized way using papermill after its creation.
The second cell in both of these notebooks setup the Galaxy interaction context - either
a galaxy.selenium.jupyter_context.JupyterContextImpl
or
galaxy_test.selenium.jupyter_context.JupyterTestContextImpl
depending on
the notebook. These cells use a function named init
to create the desired
interaction context (called gx_selenium_context
in both cases).
from galaxy.selenium.jupyter_context import init
gx_selenium_context = init(config)
The optional config
dictionary can be used to configure both Selenium and the Galaxy
that is targeted. If config
is none and the working directory Jupyter is executing
inside of has a file named galaxy_selenium_context.yml
- init
will read that file
and use it as the target configuration.
Both contexts can be configured with the following dictionary keys (either from
galaxy_selenium_context.yml
or using papermill).
local_galaxy_url
Galaxy URL to target during execution.
selenium_galaxy_url
Galaxy URL relative to the Selenium being used. This doesn’t need to be set unless you’re using a remote Selenium server (i.e one not running directly on
localhost
).driver
If set, this should be a dictionary describing variables to send to
galaxy.selenium.driver_factory.ConfiguredDriver
and define how to setup the Selenium client used. Useful keys and their defaults include -browser
("auto"
),remote
(false
),remote_host
("127.0.0.1"
),remote_port
(4444
),headless
(false
).
Additionally, the testing context also allows additional configuration variables used
for populating test fixtures (with populators) or by extra testing helpers (e.g.
gx_selenium_context.test_login()
).
admin_api_key
An API key to be used for API interactions that require an admin account.
login_email
A test account login or email address to be used for tests that require a logged in user.
login_password
The password to be used for the account referenced by
login_email
.
Note
Using Papermill
$ . venv/bin/activate # first two commands only needed first time
$ pip install papermill
$ papermill galaxy_test/selenium/jupyter/notebook_example_library.ipynb galaxy_test/selenium/jupyter/notebook_example_library_output.ipynb -y "
config: {local_galaxy_url: 'http://localhost:8081/'}
"
Developing Galaxy Test Cases Interactively with Jupyter
The Setup
Writing Selenium tests for Galaxy often involves annotating the Galaxy DOM with
appropriate class
and data-*
attributes, so it is best to have webpack monitor
client/src
and rebuild as things changes and then disable building the client
as Galaxy starts. This can be done by executing the follow two commands in separate
terminal sessions.
$ GALAXY_SKIP_CLIENT_BUILD=1 GALAXY_RUN_WITH_TEST_TOOLS=1 sh run.sh
$ make client-watch
Copy lib/galaxy_test/selenium/jupyter/galaxy_selenium.yml.sample
to
lib/galaxy_test/selenium/jupyter/galaxy_selenium.yml
and specify a
login_email
, login_password
, admin_api_key
to point at values
suitable for your local test environment.
$ cp lib/galaxy_test/selenium/jupyter/galaxy_selenium.yml.sample lib/galaxy_test/selenium/jupyter/galaxy_selenium.yml
$ vi lib/galaxy_test/selenium/jupyter/galaxy_selenium.yml
Start Jupyter for interactive development. This requires Jupyter to be available in Galaxy’s virtual environment.
$ . venv/bin/activate # first two commands only needed first time
$ pip install jupyter
$ make serve-selenium-notebooks
Filling out Tests
Open (or copy and open) the notebook notebook_example_testing.ipynb
and
start developing the test in the third notebook cell. This cell will land up
being the body a test case.
Use gx_selenium_context
to navigate Galaxy, setup test conditions, and
verify expected behavior. Change navigation.yml
to implement components and
client/src
to annotate the source - these changes will be picked up automatically
and you can simply re-run the notebook to redo the modified or extended test.
If Python test code needs to be changed (e.g. helper methods are added to
galaxy.selenium.navigates_galaxy.NavigatesGalaxy
), you’ll need to
select “Restart & Run All” from the “Kernel” menu of Jupyter to pickup the new
changes.
Once the test is complete, copy all the cells after the initialization into a
new test case file (either in lib/galaxy_test/selenium
or
test/integration_selenium
). Some examples of pull request commits developed this
way include Galaxy’s initial workflow invocation detail tests
and initial history import and export tests.
These commits demonstrate the basics of how to turn operations on a gx_selenium_context
into a Galaxy test case, how to add UI selectors to navigation.yml
, how to add
functionality to navigates_galaxy.py
to be shared across test cases.
The history import and export tests
additionally are examples of both regular Selenium test cases as well as their
integration-style variant that configures Galaxy before the test runs.
Much more information on structuring Selenium test cases generally, the difference
between tests that should be place in lib/galaxy_test/selenium
versus ones
that should be placed in test/integration_selenium
, and information on running
Selenium test cases can all be found in Writing Tests for Galaxy.
Note
Test Case Attributes
If you’d like to simplify your test by logging into Galaxy as a pre-condition,
add ensure_registered = True
on the test case class. Your test case can
use an admin key to populate fixtures without any extra annotation but to ensure
a user logged in with ensure_registered
is an admin user simply annotate
your test case with requires_admin = True
.