Testing Your Code ===================== Testing your code is very important. Getting used to writting the testing code and the running code in parallel is now considered a good habit. Used wisely, this method helps you define more precisely your code's intent and have a more decoupled architecture. Some general rules of testing: - A testing unit should focus on one tiny bit of functionality and prove it correct. - Each test unit must be fully independent. Each of them must be able to run alone, and also within the test suite, regardless of the order they are called. The implication of this rule is that each test must be loaded with a fresh dataset and may have to do some cleanup afterwards. This is usually handled by setUp() and tearDown() methods. - Try hard to make tests that run fast. If one single test needs more than a few millisecond to run, development will be slowed down or the tests will not be run as often as desirable. In some cases, test can't be fast because they need a complex data structure to work on, and this data structure must be loaded every time the test runs. Keep these heavier tests in a separate test suite that is run by some scheduled task, and run all other tests as often as needed. - Learn your tools and learn how to run a single test or a test case. Then, when developing a function inside a module, run this function's tests very often, ideally automatically when you save the code. - Always run the full test suite before a coding session, and run it again after. This will give you more confidence that you did not break anything in the rest of the code. - It is a good idea to implement a hook that runs all test before pushing code to a shared repository. - If you are in the middle of a development and have to interrupt your work, it is a good idea to write a broken unit test about what you want to develop next. When comming back to work, you will have a pointer to where you were and get faster on tracks. - The first step when you are debugging your code is to write a new test pinpointing the bug. While it is not always possible to do, those bug catching test are among the most valuable piece of code in your project. - Use long and descriptive names for testing functions. The style guide here is slightly different than that of running code, where short names are often preferred. The reason is testing functions are never called explicitely. ``square()`` or even ``sqr()`` is ok in running code, but in testing code you would has names such as ``test_square_of_number_2()``, ``test_square_negative_number()``. These function names are displayed when a test fail, and should be as descriptive as possible. - When something goes wrong or has to be changed, and if your code has a good set of tests, you or other maintainers will rely largely on the testing suite to fix the problem or modify a given behavior. Therefore the testing code will be read as much as or even more than the running code. A unit test whose purpose is unclear is not very helpful is this case. - Another use of the testing code is as an introduction to new developers. When someone will have to work on the code base, runnning and reading the related testing code is often the best they can do. They will or should discover the hot spots, where most difficulties arise, and the corner cases. If they have to add some functionality, the first step should be to add a test and, by this mean, ensure the new functionality is not already a working path that has not been plugged in the interface. The Basics :::::::::: Unittest -------- Unittest is the batteries-included test module in the Python standard library. Its API will be familiar to anyone who has used any of the JUnit/nUnit/CppUnit series of tools. Creating testcases is accomplished by subclassing a TestCase base class :: import unittest def fun(x): return x + 1 class MyTest(unittest.TestCase): def test(self): self.assertEqual(fun(3), 4) As of Python 2.7 unittest also includes its own test discovery mechanisms. `unittest in the standard library documentation `_ Doctest ------- The doctest module searches for pieces of text that look like interactive Python sessions in docstrings, and then executes those sessions to verify that they work exactly as shown. Doctests have a different use case than proper unit tests: they are usually less detailed and don't catch special cases or obscure regression bugs. They are useful as an expressive documentation of the main use cases of a module and its components. However, doctests should run automatically each time the full test suite runs. A simple doctest in a function: :: def square(x): """Squares x. >>> square(2) 4 >>> square(-2) 4 """ return x * x if __name__ == '__main__': import doctest doctest.testmod() When running this module from the command line as in ``python module.py``, the doctests will run and complain if anything is not behaving as described in the docstrings. Tools ::::: py.test ------- py.test is a no-boilerplate alternative to Python's standard unittest module. :: $ pip install pytest Despite being a fully-featured and extensible test tool it boasts a simple syntax. Creating a test suite is as easy as writing a module with a couple of functions :: # content of test_sample.py def func(x): return x + 1 def test_answer(): assert func(3) == 5 and then running the `py.test` command :: $ py.test =========================== test session starts ============================ platform darwin -- Python 2.7.1 -- pytest-2.2.1 collecting ... collected 1 items test_sample.py F ================================= FAILURES ================================= _______________________________ test_answer ________________________________ def test_answer(): > assert func(3) == 5 E assert 4 == 5 E + where 4 = func(3) test_sample.py:5: AssertionError ========================= 1 failed in 0.02 seconds ========================= far less work than would be required for the equivalent functionality with the unittest module! `py.test `_ Nose ---- nose extends unittest to make testing easier. :: $ pip install nose nose provides automatic test discovery to save you the hassle of manually creating test suites. It also provides numerous plugins for features such as xUnit-compatible test output, coverage reporting, and test selection. `nose `_ tox --- tox is a tool for automating test environment management and testing against multiple interpreter configurations :: $ pip install tox tox allows you to configure complicatated multi-parameter test matrices via a simple ini-style configuration file. `tox `_ Unittest2 --------- unittest2 is a a backport of Python 2.7's unittest module which has an improved API and better assertions over the one available in previous versions of Python. If you're using Python 2.6 or below, you can install it with pip :: $ pip install unittest2 You may want to import the module under the name unittest to make porting code to newer versions of the module easier in the future :: import unittest2 as unittest class MyTest(unittest.TestCase): ... This way if you ever switch to a newer python version and no longer need the unittest2 module, you can simply change the import in your test module without the need to change any other code. `unittest2 `_