test_ok1/doc/en/assert.txt

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The writing and reporting of assertions in tests
==================================================
.. _`assertfeedback`:
.. _`assert with the assert statement`:
.. _`assert`:
Asserting with the ``assert`` statement
---------------------------------------------------------
``pytest`` allows you to use the standard python ``assert`` for verifying
expectations and values in Python tests. For example, you can write the
following::
# content of test_assert1.py
def f():
return 3
def test_function():
assert f() == 4
to assert that your function returns a certain value. If this assertion fails
you will see the return value of the function call::
$ py.test test_assert1.py
======= test session starts ========
platform linux2 -- Python 2.7.9, pytest-2.8.0.dev4, py-1.4.28, pluggy-0.3.0
rootdir: $REGENDOC_TMPDIR, inifile:
collected 1 items
test_assert1.py F
======= FAILURES ========
_______ test_function ________
def test_function():
> assert f() == 4
E assert 3 == 4
E + where 3 = f()
test_assert1.py:5: AssertionError
======= 1 failed in 0.12 seconds ========
``pytest`` has support for showing the values of the most common subexpressions
including calls, attributes, comparisons, and binary and unary
operators. (See :ref:`tbreportdemo`). This allows you to use the
idiomatic python constructs without boilerplate code while not losing
introspection information.
However, if you specify a message with the assertion like this::
assert a % 2 == 0, "value was odd, should be even"
then no assertion introspection takes places at all and the message
will be simply shown in the traceback.
See :ref:`assert-details` for more information on assertion introspection.
.. _`assertraises`:
Assertions about expected exceptions
------------------------------------------
In order to write assertions about raised exceptions, you can use
``pytest.raises`` as a context manager like this::
import pytest
def test_zero_division():
with pytest.raises(ZeroDivisionError):
1 / 0
and if you need to have access to the actual exception info you may use::
def test_recursion_depth():
with pytest.raises(RuntimeError) as excinfo:
def f():
f()
f()
assert 'maximum recursion' in str(excinfo.value)
``excinfo`` is a `py.code.ExceptionInfo`_ instance, which is a wrapper around
the actual exception raised. The main attributes of interest are
``.type``, ``.value`` and ``.traceback``.
.. _py.code.ExceptionInfo:
http://pylib.readthedocs.org/en/latest/code.html#py-code-exceptioninfo
If you want to write test code that works on Python 2.4 as well,
you may also use two other ways to test for an expected exception::
pytest.raises(ExpectedException, func, *args, **kwargs)
pytest.raises(ExpectedException, "func(*args, **kwargs)")
both of which execute the specified function with args and kwargs and
asserts that the given ``ExpectedException`` is raised. The reporter will
provide you with helpful output in case of failures such as *no
exception* or *wrong exception*.
Note that it is also possible to specify a "raises" argument to
``pytest.mark.xfail``, which checks that the test is failing in a more
specific way than just having any exception raised::
@pytest.mark.xfail(raises=IndexError)
def test_f():
f()
Using ``pytest.raises`` is likely to be better for cases where you are testing
exceptions your own code is deliberately raising, whereas using
``@pytest.mark.xfail`` with a check function is probably better for something
like documenting unfixed bugs (where the test describes what "should" happen)
or bugs in dependencies.
.. _`assertwarns`:
Assertions about expected warnings
-----------------------------------------
.. versionadded:: 2.8
You can check that code raises a particular warning using
:ref:`pytest.warns <warns>`.
.. _newreport:
Making use of context-sensitive comparisons
-------------------------------------------------
.. versionadded:: 2.0
``pytest`` has rich support for providing context-sensitive information
when it encounters comparisons. For example::
# content of test_assert2.py
def test_set_comparison():
set1 = set("1308")
set2 = set("8035")
assert set1 == set2
if you run this module::
$ py.test test_assert2.py
======= test session starts ========
platform linux2 -- Python 2.7.9, pytest-2.8.0.dev4, py-1.4.28, pluggy-0.3.0
rootdir: $REGENDOC_TMPDIR, inifile:
collected 1 items
test_assert2.py F
======= FAILURES ========
_______ test_set_comparison ________
def test_set_comparison():
set1 = set("1308")
set2 = set("8035")
> assert set1 == set2
E assert set(['0', '1', '3', '8']) == set(['0', '3', '5', '8'])
E Extra items in the left set:
E '1'
E Extra items in the right set:
E '5'
E Use -v to get the full diff
test_assert2.py:5: AssertionError
======= 1 failed in 0.12 seconds ========
Special comparisons are done for a number of cases:
* comparing long strings: a context diff is shown
* comparing long sequences: first failing indices
* comparing dicts: different entries
See the :ref:`reporting demo <tbreportdemo>` for many more examples.
Defining your own assertion comparison
----------------------------------------------
It is possible to add your own detailed explanations by implementing
the ``pytest_assertrepr_compare`` hook.
.. autofunction:: _pytest.hookspec.pytest_assertrepr_compare
As an example consider adding the following hook in a conftest.py which
provides an alternative explanation for ``Foo`` objects::
# content of conftest.py
from test_foocompare import Foo
def pytest_assertrepr_compare(op, left, right):
if isinstance(left, Foo) and isinstance(right, Foo) and op == "==":
return ['Comparing Foo instances:',
' vals: %s != %s' % (left.val, right.val)]
now, given this test module::
# content of test_foocompare.py
class Foo:
def __init__(self, val):
self.val = val
def test_compare():
f1 = Foo(1)
f2 = Foo(2)
assert f1 == f2
you can run the test module and get the custom output defined in
the conftest file::
$ py.test -q test_foocompare.py
F
======= FAILURES ========
_______ test_compare ________
def test_compare():
f1 = Foo(1)
f2 = Foo(2)
> assert f1 == f2
E assert Comparing Foo instances:
E vals: 1 != 2
test_foocompare.py:8: AssertionError
1 failed in 0.12 seconds
.. _assert-details:
.. _`assert introspection`:
Advanced assertion introspection
----------------------------------
.. versionadded:: 2.1
Reporting details about a failing assertion is achieved either by rewriting
assert statements before they are run or re-evaluating the assert expression and
recording the intermediate values. Which technique is used depends on the
location of the assert, ``pytest`` configuration, and Python version being used
to run ``pytest``.
By default, if the Python version is greater than or equal to 2.6, ``pytest``
rewrites assert statements in test modules. Rewritten assert statements put
introspection information into the assertion failure message. ``pytest`` only
rewrites test modules directly discovered by its test collection process, so
asserts in supporting modules which are not themselves test modules will not be
rewritten.
.. note::
``pytest`` rewrites test modules on import. It does this by using an import
hook to write a new pyc files. Most of the time this works transparently.
However, if you are messing with import yourself, the import hook may
interfere. If this is the case, simply use ``--assert=reinterp`` or
``--assert=plain``. Additionally, rewriting will fail silently if it cannot
write new pycs, i.e. in a read-only filesystem or a zipfile.
If an assert statement has not been rewritten or the Python version is less than
2.6, ``pytest`` falls back on assert reinterpretation. In assert
reinterpretation, ``pytest`` walks the frame of the function containing the
assert statement to discover sub-expression results of the failing assert
statement. You can force ``pytest`` to always use assertion reinterpretation by
passing the ``--assert=reinterp`` option.
Assert reinterpretation has a caveat not present with assert rewriting: If
evaluating the assert expression has side effects you may get a warning that the
intermediate values could not be determined safely. A common example of this
issue is an assertion which reads from a file::
assert f.read() != '...'
If this assertion fails then the re-evaluation will probably succeed!
This is because ``f.read()`` will return an empty string when it is
called the second time during the re-evaluation. However, it is
easy to rewrite the assertion and avoid any trouble::
content = f.read()
assert content != '...'
All assert introspection can be turned off by passing ``--assert=plain``.
For further information, Benjamin Peterson wrote up `Behind the scenes of pytest's new assertion rewriting <http://pybites.blogspot.com/2011/07/behind-scenes-of-pytests-new-assertion.html>`_.
.. versionadded:: 2.1
Add assert rewriting as an alternate introspection technique.
.. versionchanged:: 2.1
Introduce the ``--assert`` option. Deprecate ``--no-assert`` and
``--nomagic``.