mirror of https://github.com/python/cpython
398 lines
17 KiB
Plaintext
398 lines
17 KiB
Plaintext
Writing Python Regression Tests
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-------------------------------
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Skip Montanaro
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(skip@mojam.com)
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Introduction
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If you add a new module to Python or modify the functionality of an existing
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module, you should write one or more test cases to exercise that new
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functionality. There are different ways to do this within the regression
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testing facility provided with Python; any particular test should use only
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one of these options. Each option requires writing a test module using the
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conventions of the the selected option:
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- PyUnit based tests
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- doctest based tests
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- "traditional" Python test modules
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Regardless of the mechanics of the testing approach you choose,
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you will be writing unit tests (isolated tests of functions and objects
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defined by the module) using white box techniques. Unlike black box
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testing, where you only have the external interfaces to guide your test case
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writing, in white box testing you can see the code being tested and tailor
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your test cases to exercise it more completely. In particular, you will be
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able to refer to the C and Python code in the CVS repository when writing
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your regression test cases.
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PyUnit based tests
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The PyUnit framework is based on the ideas of unit testing as espoused
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by Kent Beck and the Extreme Programming (XP) movement. The specific
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interface provided by the framework is tightly based on the JUnit
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Java implementation of Beck's original SmallTalk test framework. Please
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see the documentation of the unittest module for detailed information on
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the interface and general guidelines on writing PyUnit based tests.
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The test_support helper module provides a two functions for use by
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PyUnit based tests in the Python regression testing framework:
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run_unittest() takes a unittest.TestCase derived class as a parameter
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and runs the tests defined in that class, and run_suite() takes a
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populated TestSuite instance and runs the tests. run_suite() is
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preferred because unittest files typically grow multiple test classes,
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and you might as well be prepared.
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All test methods in the Python regression framework have names that
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start with "test_" and use lower-case names with words separated with
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underscores.
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Test methods should *not* have docstrings! The unittest module prints
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the docstring if there is one, but otherwise prints the function name
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and the full class name. When there's a problem with a test, the
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latter information makes it easier to find the source for the test
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than the docstring.
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All PyUnit-based tests in the Python test suite use boilerplate that
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looks like this (with minor variations):
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import unittest
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from test import test_support
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class MyTestCase1(unittest.TestCase):
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# Define setUp and tearDown only if needed
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def setUp(self):
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unittest.TestCase.setUp(self)
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... additional initialization...
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def tearDown(self):
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... additional finalization...
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unittest.TestCase.tearDown(self)
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def test_feature_one(self):
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# Testing feature one
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...unit test for feature one...
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def test_feature_two(self):
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# Testing feature two
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...unit test for feature two...
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...etc...
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class MyTestCase2(unittest.TestCase):
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...same structure as MyTestCase1...
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...etc...
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def test_main():
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suite = unittest.TestSuite()
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suite.addTest(unittest.makeSuite(MyTestCase1))
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suite.addTest(unittest.makeSuite(MyTestCase2))
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...add more suites...
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test_support.run_suite(suite)
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if __name__ == "__main__":
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test_main()
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This has the advantage that it allows the unittest module to be used
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as a script to run individual tests as well as working well with the
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regrtest framework.
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doctest based tests
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Tests written to use doctest are actually part of the docstrings for
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the module being tested. Each test is written as a display of an
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interactive session, including the Python prompts, statements that would
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be typed by the user, and the output of those statements (including
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tracebacks, although only the exception msg needs to be retained then).
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The module in the test package is simply a wrapper that causes doctest
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to run over the tests in the module. The test for the difflib module
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provides a convenient example:
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import difflib
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from test import test_support
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test_support.run_doctest(difflib)
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If the test is successful, nothing is written to stdout (so you should not
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create a corresponding output/test_difflib file), but running regrtest
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with -v will give a detailed report, the same as if passing -v to doctest.
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A second argument can be passed to run_doctest to tell doctest to search
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sys.argv for -v instead of using test_support's idea of verbosity. This
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is useful for writing doctest-based tests that aren't simply running a
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doctest'ed Lib module, but contain the doctests themselves. Then at
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times you may want to run such a test directly as a doctest, independent
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of the regrtest framework. The tail end of test_descrtut.py is a good
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example:
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def test_main(verbose=None):
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from test import test_support, test_descrtut
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test_support.run_doctest(test_descrtut, verbose)
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if __name__ == "__main__":
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test_main(1)
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If run via regrtest, test_main() is called (by regrtest) without specifying
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verbose, and then test_support's idea of verbosity is used. But when
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run directly, test_main(1) is called, and then doctest's idea of verbosity
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is used.
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See the documentation for the doctest module for information on
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writing tests using the doctest framework.
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"traditional" Python test modules
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The mechanics of how the "traditional" test system operates are fairly
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straightforward. When a test case is run, the output is compared with the
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expected output that is stored in .../Lib/test/output. If the test runs to
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completion and the actual and expected outputs match, the test succeeds, if
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not, it fails. If an ImportError or test_support.TestSkipped error is
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raised, the test is not run.
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Executing Test Cases
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If you are writing test cases for module spam, you need to create a file
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in .../Lib/test named test_spam.py. In addition, if the tests are expected
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to write to stdout during a successful run, you also need to create an
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expected output file in .../Lib/test/output named test_spam ("..."
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represents the top-level directory in the Python source tree, the directory
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containing the configure script). If needed, generate the initial version
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of the test output file by executing:
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./python Lib/test/regrtest.py -g test_spam.py
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from the top-level directory.
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Any time you modify test_spam.py you need to generate a new expected
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output file. Don't forget to desk check the generated output to make sure
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it's really what you expected to find! All in all it's usually better
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not to have an expected-out file (note that doctest- and unittest-based
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tests do not).
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To run a single test after modifying a module, simply run regrtest.py
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without the -g flag:
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./python Lib/test/regrtest.py test_spam.py
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While debugging a regression test, you can of course execute it
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independently of the regression testing framework and see what it prints:
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./python Lib/test/test_spam.py
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To run the entire test suite:
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[UNIX, + other platforms where "make" works] Make the "test" target at the
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top level:
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make test
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[WINDOWS] Run rt.bat from your PCBuild directory. Read the comments at
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the top of rt.bat for the use of special -d, -O and -q options processed
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by rt.bat.
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[OTHER] You can simply execute the two runs of regrtest (optimized and
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non-optimized) directly:
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./python Lib/test/regrtest.py
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./python -O Lib/test/regrtest.py
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But note that this way picks up whatever .pyc and .pyo files happen to be
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around. The makefile and rt.bat ways run the tests twice, the first time
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removing all .pyc and .pyo files from the subtree rooted at Lib/.
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Test cases generate output based upon values computed by the test code.
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When executed, regrtest.py compares the actual output generated by executing
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the test case with the expected output and reports success or failure. It
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stands to reason that if the actual and expected outputs are to match, they
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must not contain any machine dependencies. This means your test cases
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should not print out absolute machine addresses (e.g. the return value of
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the id() builtin function) or floating point numbers with large numbers of
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significant digits (unless you understand what you are doing!).
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Test Case Writing Tips
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Writing good test cases is a skilled task and is too complex to discuss in
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detail in this short document. Many books have been written on the subject.
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I'll show my age by suggesting that Glenford Myers' "The Art of Software
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Testing", published in 1979, is still the best introduction to the subject
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available. It is short (177 pages), easy to read, and discusses the major
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elements of software testing, though its publication predates the
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object-oriented software revolution, so doesn't cover that subject at all.
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Unfortunately, it is very expensive (about $100 new). If you can borrow it
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or find it used (around $20), I strongly urge you to pick up a copy.
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The most important goal when writing test cases is to break things. A test
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case that doesn't uncover a bug is much less valuable than one that does.
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In designing test cases you should pay attention to the following:
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* Your test cases should exercise all the functions and objects defined
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in the module, not just the ones meant to be called by users of your
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module. This may require you to write test code that uses the module
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in ways you don't expect (explicitly calling internal functions, for
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example - see test_atexit.py).
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* You should consider any boundary values that may tickle exceptional
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conditions (e.g. if you were writing regression tests for division,
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you might well want to generate tests with numerators and denominators
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at the limits of floating point and integer numbers on the machine
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performing the tests as well as a denominator of zero).
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* You should exercise as many paths through the code as possible. This
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may not always be possible, but is a goal to strive for. In
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particular, when considering if statements (or their equivalent), you
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want to create test cases that exercise both the true and false
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branches. For loops, you should create test cases that exercise the
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loop zero, one and multiple times.
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* You should test with obviously invalid input. If you know that a
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function requires an integer input, try calling it with other types of
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objects to see how it responds.
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* You should test with obviously out-of-range input. If the domain of a
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function is only defined for positive integers, try calling it with a
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negative integer.
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* If you are going to fix a bug that wasn't uncovered by an existing
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test, try to write a test case that exposes the bug (preferably before
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fixing it).
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* If you need to create a temporary file, you can use the filename in
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test_support.TESTFN to do so. It is important to remove the file
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when done; other tests should be able to use the name without cleaning
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up after your test.
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Regression Test Writing Rules
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Each test case is different. There is no "standard" form for a Python
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regression test case, though there are some general rules (note that
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these mostly apply only to the "classic" tests; unittest- and doctest-
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based tests should follow the conventions natural to those frameworks):
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* If your test case detects a failure, raise TestFailed (found in
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test.test_support).
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* Import everything you'll need as early as possible.
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* If you'll be importing objects from a module that is at least
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partially platform-dependent, only import those objects you need for
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the current test case to avoid spurious ImportError exceptions that
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prevent the test from running to completion.
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* Print all your test case results using the print statement. For
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non-fatal errors, print an error message (or omit a successful
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completion print) to indicate the failure, but proceed instead of
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raising TestFailed.
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* Use "assert" sparingly, if at all. It's usually better to just print
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what you got, and rely on regrtest's got-vs-expected comparison to
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catch deviations from what you expect. assert statements aren't
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executed at all when regrtest is run in -O mode; and, because they
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cause the test to stop immediately, can lead to a long & tedious
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test-fix, test-fix, test-fix, ... cycle when things are badly broken
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(and note that "badly broken" often includes running the test suite
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for the first time on new platforms or under new implementations of
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the language).
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Miscellaneous
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There is a test_support module in the test package you can import for
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your test case. Import this module using either
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import test.test_support
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or
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from test import test_support
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test_support provides the following useful objects:
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* TestFailed - raise this exception when your regression test detects a
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failure.
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* TestSkipped - raise this if the test could not be run because the
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platform doesn't offer all the required facilities (like large
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file support), even if all the required modules are available.
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* verbose - you can use this variable to control print output. Many
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modules use it. Search for "verbose" in the test_*.py files to see
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lots of examples.
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* verify(condition, reason='test failed'). Use this instead of
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assert condition[, reason]
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verify() has two advantages over assert: it works even in -O mode,
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and it raises TestFailed on failure instead of AssertionError.
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* TESTFN - a string that should always be used as the filename when you
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need to create a temp file. Also use try/finally to ensure that your
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temp files are deleted before your test completes. Note that you
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cannot unlink an open file on all operating systems, so also be sure
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to close temp files before trying to unlink them.
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* sortdict(dict) - acts like repr(dict.items()), but sorts the items
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first. This is important when printing a dict value, because the
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order of items produced by dict.items() is not defined by the
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language.
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* findfile(file) - you can call this function to locate a file somewhere
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along sys.path or in the Lib/test tree - see test_linuxaudiodev.py for
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an example of its use.
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* use_large_resources - true iff tests requiring large time or space
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should be run.
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* fcmp(x,y) - you can call this function to compare two floating point
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numbers when you expect them to only be approximately equal withing a
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fuzz factor (test_support.FUZZ, which defaults to 1e-6).
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Python and C statement coverage results are currently available at
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http://www.musi-cal.com/~skip/python/Python/dist/src/
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As of this writing (July, 2000) these results are being generated nightly.
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You can refer to the summaries and the test coverage output files to see
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where coverage is adequate or lacking and write test cases to beef up the
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coverage.
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Some Non-Obvious regrtest Features
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* Automagic test detection: When you create a new test file
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test_spam.py, you do not need to modify regrtest (or anything else)
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to advertise its existence. regrtest searches for and runs all
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modules in the test directory with names of the form test_xxx.py.
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* Miranda output: If, when running test_spam.py, regrtest does not
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find an expected-output file test/output/test_spam, regrtest
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pretends that it did find one, containing the single line
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test_spam
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This allows new tests that don't expect to print anything to stdout
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to not bother creating expected-output files.
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* Two-stage testing: To run test_spam.py, regrtest imports test_spam
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as a module. Most tests run to completion as a side-effect of
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getting imported. After importing test_spam, regrtest also executes
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test_spam.test_main(), if test_spam has a "test_main" attribute.
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This is rarely required with the "traditional" Python tests, and
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you shouldn't create a module global with name test_main unless
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you're specifically exploiting this gimmick. This usage does
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prove useful with PyUnit-based tests as well, however; defining
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a test_main() which is run by regrtest and a script-stub in the
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test module ("if __name__ == '__main__': test_main()") allows
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the test to be used like any other Python test and also work
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with the unittest.py-as-a-script approach, allowing a developer
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to run specific tests from the command line.
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