What is the latest way to write Python tests? What modules/frameworks to use?
And another question: are
doctest tests still of any value? Or should all the tests be written in a more modern testing framework?
Thanks, Boda Cydo.
The usual way is to use the builtin unittest module for creating unit tests and bundling them together to test suites which can be run independently.
If you're interested in the very latest changes, take a look at the new PyCon talk by Michael Foord:
Using the built-in
Doctests are of the same value they always were—they are great for testing your documentation, not your code. If you are going to put code examples in your docstrings, doctest can assure you keep them correct and up to date. There's nothing worse than trying to reproduce an example and failing, only to later realize it was actually the documentation's fault.
I don't know much about doctests, but at my university, nose testing is taught and encouraged.
Nose can be installed by following this procedure (I'm assuming you're using a PC - Windows OS):
If you are on a different OS, check this site
It's been two years since I originally wrote this post. Now, I've learned of this programming principle called Designing by Contract. This allows a programmer to define preconditions, postconditions and invariants (called contracts) for all functions in their code. The effect is that an error is raised if any of these contracts are violated.
In my current project I'm using unittest, minimock, nose. In the past I've made heavy use of doctests, but in a large projects some tests can get kinda unwieldy, so I tend to reserve usage of doctests for simpler functions.
Now running "python setup.py test" will invoke nose, which will crawl your project for things that look like tests and run them, accumulating the results. If you also have doctests in your project, you can run nosetests with the --with-doctest option to enable the doctest plugin.
nose also has integration with coverage
You can also use the --cover-html --cover-html-dir options to generate an HTML coverage report for each module, with each line of code that is not under test highlighted. I wouldn't get too obsessed with getting coverage to report 100% test coverage for all modules. Some code is better left for integration tests, which I'll cover at the end.
I have become a huge fan of minimock, as it makes testing code with a lot of external dependencies really easy. While it works really well when paired with doctest, it can be used with any testing framework using the unittest.TraceTracker class. I would encourage you to avoid using it to test all of your code though, since you should still try to write your code so that each translation unit can be tested in isolation without mocking. Sometimes that's not possible though.
Here is an (untested) example of such a test using minimock and unittest:
Unit tests shouldn't be the only kinds of tests you write though. They are certainly useful and IMO extremely important if you plan on maintaining this code for any extended period of time. They make refactoring easier and help catch regressions, but they don't really test the interaction between various components and how they interact (if you do it right).
When I start getting to the point where I have a mostly finished product with decent test coverage that I intend to release, I like to write at least one integration test that runs the complete program in an isolated environment.
I've had a lot of success with this on my current project. I had about 80% unit test coverage, and the rest of the code was stuff like argument parsing, command dispatch and top level application state, which is difficult to cover in unit tests. This program has a lot of external dependencies, hitting about a dozen different web services and interacting with about 6,000 machines in production, so running this in isolation proved kinda difficult.
I ended up writing an integration test which spawns a WSGI server written with eventlet and webob that simulates all of the services my program interacts with in production. Then the integration test monkey patches our web service client library to intercept all HTTP requests and send them to the WSGI application. After doing that, it loads a state file that contains a serialized snapshot of the state of the cluster, and invokes the application by calling it's main() function. Now all of the external services my program interacts with are simulated, so that I can run my program as it would be run in production in a repeatable manner.
The important thing to remember about doctests is that the tests are based on string comparisons, and the way that numbers are rendered as strings will vary on different platforms and even in different python interpreters.
Most of my work deals with computations, so I use doctests only to test my examples and my version string. I put a few in the _init_.py since that will show up as the front page of my epydoc-generated API documentation.
I use nose for testing, although I'm very interested in checking out the latest changes to py.test.