cpython/Doc/library/unittest.rst

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:mod:`unittest` --- Unit testing framework
==========================================
.. module:: unittest
:synopsis: Unit testing framework for Python.
.. moduleauthor:: Steve Purcell <stephen_purcell@yahoo.com>
.. sectionauthor:: Steve Purcell <stephen_purcell@yahoo.com>
.. sectionauthor:: Fred L. Drake, Jr. <fdrake@acm.org>
.. sectionauthor:: Raymond Hettinger <python@rcn.com>
.. versionadded:: 2.1
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.. versionchanged:: 2.7
Added test :ref:`skipping and expected failures <unittest-skipping>`.
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The Python unit testing framework, sometimes referred to as "PyUnit," is a
Python language version of JUnit, by Kent Beck and Erich Gamma. JUnit is, in
turn, a Java version of Kent's Smalltalk testing framework. Each is the de
facto standard unit testing framework for its respective language.
:mod:`unittest` supports test automation, sharing of setup and shutdown code for
tests, aggregation of tests into collections, and independence of the tests from
the reporting framework. The :mod:`unittest` module provides classes that make
it easy to support these qualities for a set of tests.
To achieve this, :mod:`unittest` supports some important concepts:
test fixture
A :dfn:`test fixture` represents the preparation needed to perform one or more
tests, and any associate cleanup actions. This may involve, for example,
creating temporary or proxy databases, directories, or starting a server
process.
test case
A :dfn:`test case` is the smallest unit of testing. It checks for a specific
response to a particular set of inputs. :mod:`unittest` provides a base class,
:class:`TestCase`, which may be used to create new test cases.
test suite
A :dfn:`test suite` is a collection of test cases, test suites, or both. It is
used to aggregate tests that should be executed together.
test runner
A :dfn:`test runner` is a component which orchestrates the execution of tests
and provides the outcome to the user. The runner may use a graphical interface,
a textual interface, or return a special value to indicate the results of
executing the tests.
The test case and test fixture concepts are supported through the
:class:`TestCase` and :class:`FunctionTestCase` classes; the former should be
used when creating new tests, and the latter can be used when integrating
existing test code with a :mod:`unittest`\ -driven framework. When building test
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fixtures using :class:`TestCase`, the :meth:`~TestCase.setUp` and
:meth:`~TestCase.tearDown` methods can be overridden to provide initialization
and cleanup for the fixture. With :class:`FunctionTestCase`, existing functions
can be passed to the constructor for these purposes. When the test is run, the
fixture initialization is run first; if it succeeds, the cleanup method is run
after the test has been executed, regardless of the outcome of the test. Each
instance of the :class:`TestCase` will only be used to run a single test method,
so a new fixture is created for each test.
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Test suites are implemented by the :class:`TestSuite` class. This class allows
individual tests and test suites to be aggregated; when the suite is executed,
all tests added directly to the suite and in "child" test suites are run. A
:class:`ClassTestSuite` contains the test cases of a class.
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A test runner is an object that provides a single method,
:meth:`~TestRunner.run`, which accepts a :class:`TestCase` or :class:`TestSuite`
object as a parameter, and returns a result object. The class
:class:`TestResult` is provided for use as the result object. :mod:`unittest`
provides the :class:`TextTestRunner` as an example test runner which reports
test results on the standard error stream by default. Alternate runners can be
implemented for other environments (such as graphical environments) without any
need to derive from a specific class.
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.. seealso::
Module :mod:`doctest`
Another test-support module with a very different flavor.
`Simple Smalltalk Testing: With Patterns <http://www.XProgramming.com/testfram.htm>`_
Kent Beck's original paper on testing frameworks using the pattern shared by
:mod:`unittest`.
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`Nose <http://code.google.com/p/python-nose/>`_ and `py.test <http://pytest.org>`_
Third-party unittest frameworks with a lighter-weight syntax
for writing tests. For example, ``assert func(10) == 42``.
`python-mock <http://python-mock.sourceforge.net/>`_ and `minimock <http://blog.ianbicking.org/minimock.html>`_
Tools for creating mock test objects (objects simulating external resources).
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.. _unittest-minimal-example:
Basic example
-------------
The :mod:`unittest` module provides a rich set of tools for constructing and
running tests. This section demonstrates that a small subset of the tools
suffice to meet the needs of most users.
Here is a short script to test three functions from the :mod:`random` module::
import random
import unittest
class TestSequenceFunctions(unittest.TestCase):
def setUp(self):
self.seq = range(10)
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def test_shuffle(self):
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# make sure the shuffled sequence does not lose any elements
random.shuffle(self.seq)
self.seq.sort()
self.assertEqual(self.seq, range(10))
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def test_choice(self):
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element = random.choice(self.seq)
self.assert_(element in self.seq)
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def test_sample(self):
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self.assertRaises(ValueError, random.sample, self.seq, 20)
for element in random.sample(self.seq, 5):
self.assert_(element in self.seq)
if __name__ == '__main__':
unittest.main()
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A testcase is created by subclassing :class:`unittest.TestCase`. The three
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individual tests are defined with methods whose names start with the letters
``test``. This naming convention informs the test runner about which methods
represent tests.
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The crux of each test is a call to :meth:`~TestCase.assertEqual` to check for an
expected result; :meth:`~TestCase.assert_` to verify a condition; or
:meth:`~TestCase.assertRaises` to verify that an expected exception gets raised.
These methods are used instead of the :keyword:`assert` statement so the test
runner can accumulate all test results and produce a report.
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When a :meth:`~TestCase.setUp` method is defined, the test runner will run that
method prior to each test. Likewise, if a :meth:`~TestCase.tearDown` method is
defined, the test runner will invoke that method after each test. In the
example, :meth:`~TestCase.setUp` was used to create a fresh sequence for each
test.
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The final block shows a simple way to run the tests. :func:`unittest.main`
provides a command line interface to the test script. When run from the command
line, the above script produces an output that looks like this::
...
----------------------------------------------------------------------
Ran 3 tests in 0.000s
OK
Instead of :func:`unittest.main`, there are other ways to run the tests with a
finer level of control, less terse output, and no requirement to be run from the
command line. For example, the last two lines may be replaced with::
suite = unittest.TestLoader().loadTestsFromTestCase(TestSequenceFunctions)
unittest.TextTestRunner(verbosity=2).run(suite)
Running the revised script from the interpreter or another script produces the
following output::
testchoice (__main__.TestSequenceFunctions) ... ok
testsample (__main__.TestSequenceFunctions) ... ok
testshuffle (__main__.TestSequenceFunctions) ... ok
----------------------------------------------------------------------
Ran 3 tests in 0.110s
OK
The above examples show the most commonly used :mod:`unittest` features which
are sufficient to meet many everyday testing needs. The remainder of the
documentation explores the full feature set from first principles.
.. _organizing-tests:
Organizing test code
--------------------
The basic building blocks of unit testing are :dfn:`test cases` --- single
scenarios that must be set up and checked for correctness. In :mod:`unittest`,
test cases are represented by instances of :mod:`unittest`'s :class:`TestCase`
class. To make your own test cases you must write subclasses of
:class:`TestCase`, or use :class:`FunctionTestCase`.
An instance of a :class:`TestCase`\ -derived class is an object that can
completely run a single test method, together with optional set-up and tidy-up
code.
The testing code of a :class:`TestCase` instance should be entirely self
contained, such that it can be run either in isolation or in arbitrary
combination with any number of other test cases.
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The simplest :class:`TestCase` subclass will simply override the
:meth:`~TestCase.runTest` method in order to perform specific testing code::
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import unittest
class DefaultWidgetSizeTestCase(unittest.TestCase):
def runTest(self):
widget = Widget('The widget')
self.assertEqual(widget.size(), (50, 50), 'incorrect default size')
Note that in order to test something, we use the one of the :meth:`assert\*` or
:meth:`fail\*` methods provided by the :class:`TestCase` base class. If the
test fails, an exception will be raised, and :mod:`unittest` will identify the
test case as a :dfn:`failure`. Any other exceptions will be treated as
:dfn:`errors`. This helps you identify where the problem is: :dfn:`failures` are
caused by incorrect results - a 5 where you expected a 6. :dfn:`Errors` are
caused by incorrect code - e.g., a :exc:`TypeError` caused by an incorrect
function call.
The way to run a test case will be described later. For now, note that to
construct an instance of such a test case, we call its constructor without
arguments::
testCase = DefaultWidgetSizeTestCase()
Now, such test cases can be numerous, and their set-up can be repetitive. In
the above case, constructing a :class:`Widget` in each of 100 Widget test case
subclasses would mean unsightly duplication.
Luckily, we can factor out such set-up code by implementing a method called
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:meth:`~TestCase.setUp`, which the testing framework will automatically call for
us when we run the test::
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import unittest
class SimpleWidgetTestCase(unittest.TestCase):
def setUp(self):
self.widget = Widget('The widget')
class DefaultWidgetSizeTestCase(SimpleWidgetTestCase):
def runTest(self):
self.failUnless(self.widget.size() == (50,50),
'incorrect default size')
class WidgetResizeTestCase(SimpleWidgetTestCase):
def runTest(self):
self.widget.resize(100,150)
self.failUnless(self.widget.size() == (100,150),
'wrong size after resize')
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If the :meth:`~TestCase.setUp` method raises an exception while the test is
running, the framework will consider the test to have suffered an error, and the
:meth:`~TestCase.runTest` method will not be executed.
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Similarly, we can provide a :meth:`~TestCase.tearDown` method that tidies up
after the :meth:`~TestCase.runTest` method has been run::
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import unittest
class SimpleWidgetTestCase(unittest.TestCase):
def setUp(self):
self.widget = Widget('The widget')
def tearDown(self):
self.widget.dispose()
self.widget = None
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If :meth:`~TestCase.setUp` succeeded, the :meth:`~TestCase.tearDown` method will
be run whether :meth:`~TestCase.runTest` succeeded or not.
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Such a working environment for the testing code is called a :dfn:`fixture`.
Often, many small test cases will use the same fixture. In this case, we would
end up subclassing :class:`SimpleWidgetTestCase` into many small one-method
classes such as :class:`DefaultWidgetSizeTestCase`. This is time-consuming and
discouraging, so in the same vein as JUnit, :mod:`unittest` provides a simpler
mechanism::
import unittest
class WidgetTestCase(unittest.TestCase):
def setUp(self):
self.widget = Widget('The widget')
def tearDown(self):
self.widget.dispose()
self.widget = None
def testDefaultSize(self):
self.failUnless(self.widget.size() == (50,50),
'incorrect default size')
def testResize(self):
self.widget.resize(100,150)
self.failUnless(self.widget.size() == (100,150),
'wrong size after resize')
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Here we have not provided a :meth:`~TestCase.runTest` method, but have instead
provided two different test methods. Class instances will now each run one of
the :meth:`test\*` methods, with ``self.widget`` created and destroyed
separately for each instance. When creating an instance we must specify the
test method it is to run. We do this by passing the method name in the
constructor::
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defaultSizeTestCase = WidgetTestCase('testDefaultSize')
resizeTestCase = WidgetTestCase('testResize')
Test case instances are grouped together according to the features they test.
:mod:`unittest` provides a mechanism for this: the :dfn:`test suite`,
represented by :mod:`unittest`'s :class:`TestSuite` class::
widgetTestSuite = unittest.TestSuite()
widgetTestSuite.addTest(WidgetTestCase('testDefaultSize'))
widgetTestSuite.addTest(WidgetTestCase('testResize'))
For the ease of running tests, as we will see later, it is a good idea to
provide in each test module a callable object that returns a pre-built test
suite::
def suite():
suite = unittest.TestSuite()
suite.addTest(WidgetTestCase('testDefaultSize'))
suite.addTest(WidgetTestCase('testResize'))
return suite
or even::
def suite():
tests = ['testDefaultSize', 'testResize']
return unittest.TestSuite(map(WidgetTestCase, tests))
Since it is a common pattern to create a :class:`TestCase` subclass with many
similarly named test functions, :mod:`unittest` provides a :class:`TestLoader`
class that can be used to automate the process of creating a test suite and
populating it with individual tests. For example, ::
suite = unittest.TestLoader().loadTestsFromTestCase(WidgetTestCase)
will create a test suite that will run ``WidgetTestCase.testDefaultSize()`` and
``WidgetTestCase.testResize``. :class:`TestLoader` uses the ``'test'`` method
name prefix to identify test methods automatically.
Note that the order in which the various test cases will be run is determined by
sorting the test function names with the built-in :func:`cmp` function.
Often it is desirable to group suites of test cases together, so as to run tests
for the whole system at once. This is easy, since :class:`TestSuite` instances
can be added to a :class:`TestSuite` just as :class:`TestCase` instances can be
added to a :class:`TestSuite`::
suite1 = module1.TheTestSuite()
suite2 = module2.TheTestSuite()
alltests = unittest.TestSuite([suite1, suite2])
You can place the definitions of test cases and test suites in the same modules
as the code they are to test (such as :file:`widget.py`), but there are several
advantages to placing the test code in a separate module, such as
:file:`test_widget.py`:
* The test module can be run standalone from the command line.
* The test code can more easily be separated from shipped code.
* There is less temptation to change test code to fit the code it tests without
a good reason.
* Test code should be modified much less frequently than the code it tests.
* Tested code can be refactored more easily.
* Tests for modules written in C must be in separate modules anyway, so why not
be consistent?
* If the testing strategy changes, there is no need to change the source code.
.. _legacy-unit-tests:
Re-using old test code
----------------------
Some users will find that they have existing test code that they would like to
run from :mod:`unittest`, without converting every old test function to a
:class:`TestCase` subclass.
For this reason, :mod:`unittest` provides a :class:`FunctionTestCase` class.
This subclass of :class:`TestCase` can be used to wrap an existing test
function. Set-up and tear-down functions can also be provided.
Given the following test function::
def testSomething():
something = makeSomething()
assert something.name is not None
# ...
one can create an equivalent test case instance as follows::
testcase = unittest.FunctionTestCase(testSomething)
If there are additional set-up and tear-down methods that should be called as
part of the test case's operation, they can also be provided like so::
testcase = unittest.FunctionTestCase(testSomething,
setUp=makeSomethingDB,
tearDown=deleteSomethingDB)
To make migrating existing test suites easier, :mod:`unittest` supports tests
raising :exc:`AssertionError` to indicate test failure. However, it is
recommended that you use the explicit :meth:`TestCase.fail\*` and
:meth:`TestCase.assert\*` methods instead, as future versions of :mod:`unittest`
may treat :exc:`AssertionError` differently.
.. note::
Even though :class:`FunctionTestCase` can be used to quickly convert an existing
test base over to a :mod:`unittest`\ -based system, this approach is not
recommended. Taking the time to set up proper :class:`TestCase` subclasses will
make future test refactorings infinitely easier.
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In some cases, the existing tests may have been written using the :mod:`doctest`
module. If so, :mod:`doctest` provides a :class:`DocTestSuite` class that can
automatically build :class:`unittest.TestSuite` instances from the existing
:mod:`doctest`\ -based tests.
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.. _unittest-skipping:
Skipping tests and expected failures
------------------------------------
Unittest supports skipping individual test methods and even whole classes of
tests. In addition, it supports marking a test as a "expected failure," a test
that is broken and will fail, but shouldn't be counted as a failure on a
:class:`TestResult`.
Skipping a test is simply a matter of using the :func:`skip` :term:`decorator`
or one of its conditional variants.
Basic skipping looks like this: ::
class MyTestCase(unittest.TestCase):
@unittest.skip("demonstrating skipping")
def test_nothing(self):
self.fail("shouldn't happen")
This is the output of running the example above in verbose mode: ::
test_nothing (__main__.MyTestCase) ... skipped 'demonstrating skipping'
----------------------------------------------------------------------
Ran 1 test in 0.072s
Classes can be skipped just like methods: ::
@skip("showing class skipping")
class MySkippedTestCase(unittest.TestCase):
def test_not_run(self):
pass
:meth:`TestCase.setUp` can also skip the test. This is useful when a resource
that needs to be set up is not available.
Expected failures use the :func:`expectedFailure` decorator. ::
class ExpectedFailureTestCase(unittest.TestCase):
@unittest.expectedFailure
def test_fail(self):
self.assertEqual(1, 0, "broken")
It's easy to roll your own skipping decorators by making a decorator that calls
:func:`skip` on the test when it wants it to be skipped. This decorator skips
the test unless the passed object has a certain attribute: ::
def skipUnlessHasattr(obj, attr):
if hasattr(obj, attr):
return lambda func: func
return unittest.skip("{0!r} doesn't have {1!r}".format(obj, attr))
The following decorators implement test skipping and expected failures:
.. function:: skip(reason)
Unconditionally skip the decorated test. *reason* should describe why the
test is being skipped.
.. function:: skipIf(condition, reason)
Skip the decorated test if *condition* is true.
.. function:: skipUnless(condition, reason)
Skip the decoratored test unless *condition* is true.
.. function:: expectedFailure
Mark the test as an expected failure. If the test fails when run, the test
is not counted as a failure.
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.. _unittest-contents:
Classes and functions
---------------------
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This section describes in depth the API of :mod:`unittest`.
.. _testcase-objects:
Test cases
~~~~~~~~~~
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.. class:: TestCase([methodName])
Instances of the :class:`TestCase` class represent the smallest testable units
in the :mod:`unittest` universe. This class is intended to be used as a base
class, with specific tests being implemented by concrete subclasses. This class
implements the interface needed by the test runner to allow it to drive the
test, and methods that the test code can use to check for and report various
kinds of failure.
Each instance of :class:`TestCase` will run a single test method: the method
named *methodName*. If you remember, we had an earlier example that went
something like this::
def suite():
suite = unittest.TestSuite()
suite.addTest(WidgetTestCase('testDefaultSize'))
suite.addTest(WidgetTestCase('testResize'))
return suite
Here, we create two instances of :class:`WidgetTestCase`, each of which runs a
single test.
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*methodName* defaults to :meth:`runTest`.
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:class:`TestCase` instances provide three groups of methods: one group used
to run the test, another used by the test implementation to check conditions
and report failures, and some inquiry methods allowing information about the
test itself to be gathered.
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Methods in the first group (running the test) are:
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.. method:: setUp()
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Method called to prepare the test fixture. This is called immediately
before calling the test method; any exception raised by this method will
be considered an error rather than a test failure. The default
implementation does nothing.
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.. method:: tearDown()
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Method called immediately after the test method has been called and the
result recorded. This is called even if the test method raised an
exception, so the implementation in subclasses may need to be particularly
careful about checking internal state. Any exception raised by this
method will be considered an error rather than a test failure. This
method will only be called if the :meth:`setUp` succeeds, regardless of
the outcome of the test method. The default implementation does nothing.
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.. method:: run([result])
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Run the test, collecting the result into the test result object passed as
*result*. If *result* is omitted or :const:`None`, a temporary result
object is created (by calling the :meth:`defaultTestCase` method) and
used; this result object is not returned to :meth:`run`'s caller.
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The same effect may be had by simply calling the :class:`TestCase`
instance.
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.. method:: skip(reason)
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Calling this during the a test method or :meth:`setUp` skips the current
test. See :ref:`unittest-skipping` for more information.
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.. method:: debug()
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Run the test without collecting the result. This allows exceptions raised
by the test to be propagated to the caller, and can be used to support
running tests under a debugger.
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The test code can use any of the following methods to check for and report
failures.
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.. method:: assert_(expr[, msg])
failUnless(expr[, msg])
assertTrue(expr[, msg])
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Signal a test failure if *expr* is false; the explanation for the error
will be *msg* if given, otherwise it will be :const:`None`.
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.. method:: assertEqual(first, second[, msg])
failUnlessEqual(first, second[, msg])
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Test that *first* and *second* are equal. If the values do not compare
equal, the test will fail with the explanation given by *msg*, or
:const:`None`. Note that using :meth:`failUnlessEqual` improves upon
doing the comparison as the first parameter to :meth:`failUnless`: the
default value for *msg* can be computed to include representations of both
*first* and *second*.
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.. method:: assertNotEqual(first, second[, msg])
failIfEqual(first, second[, msg])
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Test that *first* and *second* are not equal. If the values do compare
equal, the test will fail with the explanation given by *msg*, or
:const:`None`. Note that using :meth:`failIfEqual` improves upon doing
the comparison as the first parameter to :meth:`failUnless` is that the
default value for *msg* can be computed to include representations of both
*first* and *second*.
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.. method:: assertAlmostEqual(first, second[, places[, msg]])
failUnlessAlmostEqual(first, second[, places[, msg]])
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Test that *first* and *second* are approximately equal by computing the
difference, rounding to the given number of decimal *places* (default 7),
and comparing to zero.
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Note that comparing a given number of decimal places is not the same as
comparing a given number of significant digits. If the values do not
compare equal, the test will fail with the explanation given by *msg*, or
:const:`None`.
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.. method:: assertNotAlmostEqual(first, second[, places[, msg]])
failIfAlmostEqual(first, second[, places[, msg]])
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Test that *first* and *second* are not approximately equal by computing
the difference, rounding to the given number of decimal *places* (default
7), and comparing to zero.
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Note that comparing a given number of decimal places is not the same as
comparing a given number of significant digits. If the values do not
compare equal, the test will fail with the explanation given by *msg*, or
:const:`None`.
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.. method:: assertRaises(exception[, callable, ...])
failUnlessRaises(exception[, callable, ...])
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Test that an exception is raised when *callable* is called with any
positional or keyword arguments that are also passed to
:meth:`assertRaises`. The test passes if *exception* is raised, is an
error if another exception is raised, or fails if no exception is raised.
To catch any of a group of exceptions, a tuple containing the exception
classes may be passed as *exception*.
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.. versionchanged:: 2.7
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If *callable* is omitted or None, returns a context manager so that the
code under test can be written inline rather than as a function::
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with self.failUnlessRaises(some_error_class):
do_something()
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.. method:: failIf(expr[, msg])
assertFalse(expr[, msg])
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The inverse of the :meth:`failUnless` method is the :meth:`failIf` method.
This signals a test failure if *expr* is true, with *msg* or :const:`None`
for the error message.
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.. method:: fail([msg])
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Signals a test failure unconditionally, with *msg* or :const:`None` for
the error message.
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.. attribute:: failureException
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This class attribute gives the exception raised by the test method. If a
test framework needs to use a specialized exception, possibly to carry
additional information, it must subclass this exception in order to "play
fair" with the framework. The initial value of this attribute is
:exc:`AssertionError`.
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Testing frameworks can use the following methods to collect information on
the test:
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.. method:: countTestCases()
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Return the number of tests represented by this test object. For
:class:`TestCase` instances, this will always be ``1``.
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.. method:: defaultTestResult()
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Return an instance of the test result class that should be used for this
test case class (if no other result instance is provided to the
:meth:`run` method).
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For :class:`TestCase` instances, this will always be an instance of
:class:`TestResult`; subclasses of :class:`TestCase` should override this
as necessary.
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.. method:: id()
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Return a string identifying the specific test case. This is usually the
full name of the test method, including the module and class name.
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.. method:: shortDescription()
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Returns a one-line description of the test, or :const:`None` if no
description has been provided. The default implementation of this method
returns the first line of the test method's docstring, if available, or
:const:`None`.
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.. class:: FunctionTestCase(testFunc[, setUp[, tearDown[, description]]])
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This class implements the portion of the :class:`TestCase` interface which
allows the test runner to drive the test, but does not provide the methods which
test code can use to check and report errors. This is used to create test cases
using legacy test code, allowing it to be integrated into a :mod:`unittest`\
-based test framework.
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.. _testsuite-objects:
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Grouping tests
~~~~~~~~~~~~~~
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.. class:: TestSuite([tests])
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This class represents an aggregation of individual tests cases and test suites.
The class presents the interface needed by the test runner to allow it to be run
as any other test case. Running a :class:`TestSuite` instance is the same as
iterating over the suite, running each test individually.
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If *tests* is given, it must be an iterable of individual test cases or other
test suites that will be used to build the suite initially. Additional methods
are provided to add test cases and suites to the collection later on.
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:class:`TestSuite` (including :class:`ClassTestSuite`) objects behave much
like :class:`TestCase` objects, except they do not actually implement a test.
Instead, they are used to aggregate tests into groups of tests that should be
run together. Some additional methods are available to add tests to
:class:`TestSuite` instances:
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.. method:: TestSuite.addTest(test)
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Add a :class:`TestCase` or :class:`TestSuite` to the suite.
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.. method:: TestSuite.addTests(tests)
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Add all the tests from an iterable of :class:`TestCase` and :class:`TestSuite`
instances to this test suite.
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This is equivalent to iterating over *tests*, calling :meth:`addTest` for each
element.
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:class:`TestSuite` shares the following methods with :class:`TestCase`:
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.. method:: run(result)
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Run the tests associated with this suite, collecting the result into the
test result object passed as *result*. Note that unlike
:meth:`TestCase.run`, :meth:`TestSuite.run` requires the result object to
be passed in.
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.. method:: debug()
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Run the tests associated with this suite without collecting the
result. This allows exceptions raised by the test to be propagated to the
caller and can be used to support running tests under a debugger.
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.. method:: countTestCases()
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Return the number of tests represented by this test object, including all
individual tests and sub-suites.
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In the typical usage of a :class:`TestSuite` object, the :meth:`run` method
is invoked by a :class:`TestRunner` rather than by the end-user test harness.
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.. class:: ClassTestSuite(tests, collected_from)
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This subclass of :class:`TestSuite` repesents an aggregation of individuals
tests from one :class:`TestCase` class. *tests* is an iterable of
:class:`TestCase` instances created from the class. *collected_from* is the
class they came from.
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Loading and running tests
~~~~~~~~~~~~~~~~~~~~~~~~~
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.. class:: TestLoader()
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The :class:`TestLoader` class is used to create test suites from classes and
modules. Normally, there is no need to create an instance of this class; the
:mod:`unittest` module provides an instance that can be shared as
``unittest.defaultTestLoader``. Using a subclass or instance, however, allows
customization of some configurable properties.
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:class:`TestLoader` objects have the following methods:
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.. method:: loadTestsFromTestCase(testCaseClass)
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Return a suite of all tests cases contained in the :class:`TestCase`\ -derived
:class:`testCaseClass`.
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.. method:: loadTestsFromModule(module)
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Return a suite of all tests cases contained in the given module. This
method searches *module* for classes derived from :class:`TestCase` and
creates an instance of the class for each test method defined for the
class.
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.. warning::
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While using a hierarchy of :class:`TestCase`\ -derived classes can be
convenient in sharing fixtures and helper functions, defining test
methods on base classes that are not intended to be instantiated
directly does not play well with this method. Doing so, however, can
be useful when the fixtures are different and defined in subclasses.
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.. method:: loadTestsFromName(name[, module])
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Return a suite of all tests cases given a string specifier.
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The specifier *name* is a "dotted name" that may resolve either to a
module, a test case class, a test method within a test case class, a
:class:`TestSuite` instance, or a callable object which returns a
:class:`TestCase` or :class:`TestSuite` instance. These checks are
applied in the order listed here; that is, a method on a possible test
case class will be picked up as "a test method within a test case class",
rather than "a callable object".
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For example, if you have a module :mod:`SampleTests` containing a
:class:`TestCase`\ -derived class :class:`SampleTestCase` with three test
methods (:meth:`test_one`, :meth:`test_two`, and :meth:`test_three`), the
specifier ``'SampleTests.SampleTestCase'`` would cause this method to return a
suite which will run all three test methods. Using the specifier
``'SampleTests.SampleTestCase.test_two'`` would cause it to return a test suite
which will run only the :meth:`test_two` test method. The specifier can refer
to modules and packages which have not been imported; they will be imported as a
side-effect.
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The method optionally resolves *name* relative to the given *module*.
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.. method:: loadTestsFromNames(names[, module])
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Similar to :meth:`loadTestsFromName`, but takes a sequence of names rather
than a single name. The return value is a test suite which supports all
the tests defined for each name.
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.. method:: getTestCaseNames(testCaseClass)
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Return a sorted sequence of method names found within *testCaseClass*;
this should be a subclass of :class:`TestCase`.
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The following attributes of a :class:`TestLoader` can be configured either by
subclassing or assignment on an instance:
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.. attribute:: testMethodPrefix
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String giving the prefix of method names which will be interpreted as test
methods. The default value is ``'test'``.
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This affects :meth:`getTestCaseNames` and all the :meth:`loadTestsFrom\*`
methods.
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.. attribute:: sortTestMethodsUsing
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Function to be used to compare method names when sorting them in
:meth:`getTestCaseNames` and all the :meth:`loadTestsFrom\*` methods. The
default value is the built-in :func:`cmp` function; the attribute can also
be set to :const:`None` to disable the sort.
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.. attribute:: suiteClass
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Callable object that constructs a test suite from a list of tests. No
methods on the resulting object are needed. The default value is the
:class:`TestSuite` class.
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This affects all the :meth:`loadTestsFrom\*` methods.
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.. attribute:: classSuiteClass
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Callable object that constructs a test suite for the tests cases from one
class. The default value is :class:`ClassTestSuite`.
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.. class:: TestResult
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This class is used to compile information about which tests have succeeded
and which have failed.
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A :class:`TestResult` object stores the results of a set of tests. The
:class:`TestCase` and :class:`TestSuite` classes ensure that results are
properly recorded; test authors do not need to worry about recording the
outcome of tests.
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Testing frameworks built on top of :mod:`unittest` may want access to the
:class:`TestResult` object generated by running a set of tests for reporting
purposes; a :class:`TestResult` instance is returned by the
:meth:`TestRunner.run` method for this purpose.
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:class:`TestResult` instances have the following attributes that will be of
interest when inspecting the results of running a set of tests:
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.. attribute:: errors
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A list containing 2-tuples of :class:`TestCase` instances and strings
holding formatted tracebacks. Each tuple represents a test which raised an
unexpected exception.
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.. versionchanged:: 2.2
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Contains formatted tracebacks instead of :func:`sys.exc_info` results.
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.. attribute:: failures
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A list containing 2-tuples of :class:`TestCase` instances and strings
holding formatted tracebacks. Each tuple represents a test where a failure
was explicitly signalled using the :meth:`TestCase.fail\*` or
:meth:`TestCase.assert\*` methods.
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.. versionchanged:: 2.2
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Contains formatted tracebacks instead of :func:`sys.exc_info` results.
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.. attribute:: skipped
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A list containing 2-tuples of :class:`TestCase` instances and strings
holding the reason for skipping the test.
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.. versionadded:: 2.7
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.. attribute:: expectedFailures
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A list contaning 2-tuples of :class:`TestCase` instances and strings
holding formatted tracebacks. Each tuple represents a expected failures
of the test case.
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.. attribute:: unexpectedSuccesses
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A list containing :class:`TestCase` instances that were marked as expected
failures, but succeeded.
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.. attribute:: shouldStop
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Set to ``True`` when the execution of tests should stop by :meth:`stop`.
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.. attribute:: testsRun
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The total number of tests run so far.
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.. method:: wasSuccessful()
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Return :const:`True` if all tests run so far have passed, otherwise returns
:const:`False`.
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.. method:: stop()
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This method can be called to signal that the set of tests being run should
be aborted by setting the :attr:`shouldStop` attribute to :const:`True`.
:class:`TestRunner` objects should respect this flag and return without
running any additional tests.
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For example, this feature is used by the :class:`TextTestRunner` class to
stop the test framework when the user signals an interrupt from the
keyboard. Interactive tools which provide :class:`TestRunner`
implementations can use this in a similar manner.
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The following methods of the :class:`TestResult` class are used to maintain
the internal data structures, and may be extended in subclasses to support
additional reporting requirements. This is particularly useful in building
tools which support interactive reporting while tests are being run.
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.. method:: startTest(test)
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Called when the test case *test* is about to be run.
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The default implementation simply increments the instance's :attr:`testsRun`
counter.
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.. method:: stopTest(test)
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Called after the test case *test* has been executed, regardless of the
outcome.
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The default implementation does nothing.
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.. method:: addError(test, err)
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Called when the test case *test* raises an unexpected exception *err* is a
tuple of the form returned by :func:`sys.exc_info`: ``(type, value,
traceback)``.
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The default implementation appends a tuple ``(test, formatted_err)`` to
the instance's :attr:`errors` attribute, where *formatted_err* is a
formatted traceback derived from *err*.
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.. method:: addFailure(test, err)
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Called when the test case *test* signals a failure. *err* is a tuple of the form
returned by :func:`sys.exc_info`: ``(type, value, traceback)``.
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The default implementation appends a tuple ``(test, formatted_err)`` to
the instance's :attr:`failures` attribute, where *formatted_err* is a
formatted traceback derived from *err*.
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.. method:: addSuccess(test)
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Called when the test case *test* succeeds.
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The default implementation does nothing.
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.. method:: addSkip(test, reason)
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Called when the test case *test* is skipped. *reason* is the reason the
test gave for skipping.
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The default implementation appends a tuple ``(test, reason)`` to the
instance's :attr:`skipped` attribute.
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.. method:: addExpectedFailure(test, err)
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Called when the test case *test* fails, but was marked with the
:func:`expectedFailure` decorator.
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The default implementation appends a tuple ``(test, formatted_err)`` to
the instance's :attr:`expectedFailures` attribute, where *formatted_err*
is a formatted traceback derived from *err*.
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.. method:: addUnexpectedSuccess(test)
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Called when the test case *test* was marked with the
:func:`expectedFailure` decorator, but succeeded.
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The default implementation appends the test to the instance's
:attr:`unexpectedSuccesses` attribute.
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.. data:: defaultTestLoader
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Instance of the :class:`TestLoader` class intended to be shared. If no
customization of the :class:`TestLoader` is needed, this instance can be used
instead of repeatedly creating new instances.
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.. class:: TextTestRunner([stream[, descriptions[, verbosity]]])
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A basic test runner implementation which prints results on standard error. It
has a few configurable parameters, but is essentially very simple. Graphical
applications which run test suites should provide alternate implementations.
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.. function:: main([module[, defaultTest[, argv[, testRunner[, testLoader]]]]])
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A command-line program that runs a set of tests; this is primarily for making
test modules conveniently executable. The simplest use for this function is to
include the following line at the end of a test script::
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if __name__ == '__main__':
unittest.main()
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The *testRunner* argument can either be a test runner class or an already
created instance of it.