The writing and reporting of assertions in tests¶
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:
$ pytest test_assert1.py
=========================== test session starts ============================
platform linux -- Python 3.x.y, pytest-3.x.y, py-1.x.y, pluggy-0.x.y
rootdir: $REGENDOC_TMPDIR, inifile:
collected 1 item
test_assert1.py F [100%]
================================= 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 Demo of Python failure reports with pytest). 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 Advanced assertion introspection for more information on assertion introspection.
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 ExceptionInfo instance, which is a wrapper around
the actual exception raised. The main attributes of interest are
.type, .value and .traceback.
Changed in version 3.0.
In the context manager form you may use the keyword argument
message to specify a custom failure message:
>>> with raises(ZeroDivisionError, message="Expecting ZeroDivisionError"):
... pass
... Failed: Expecting ZeroDivisionError
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.
Also, the context manager form accepts a match keyword parameter to test
that a regular expression matches on the string representation of an exception
(like the TestCase.assertRaisesRegexp method from unittest):
import pytest
def myfunc():
raise ValueError("Exception 123 raised")
def test_match():
with pytest.raises(ValueError, match=r'.* 123 .*'):
myfunc()
The regexp parameter of the match method is matched with the re.search
function. So in the above example match='123' would have worked as
well.
Assertions about expected warnings¶
New in version 2.8.
You can check that code raises a particular warning using pytest.warns.
Making use of context-sensitive comparisons¶
New in version 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:
$ pytest test_assert2.py
=========================== test session starts ============================
platform linux -- Python 3.x.y, pytest-3.x.y, py-1.x.y, pluggy-0.x.y
rootdir: $REGENDOC_TMPDIR, inifile:
collected 1 item
test_assert2.py F [100%]
================================= FAILURES =================================
___________________________ test_set_comparison ____________________________
def test_set_comparison():
set1 = set("1308")
set2 = set("8035")
> assert set1 == set2
E AssertionError: assert {'0', '1', '3', '8'} == {'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 reporting demo 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.
-
pytest_assertrepr_compare(config, op, left, right)[source] return explanation for comparisons in failing assert expressions.
Return None for no custom explanation, otherwise return a list of strings. The strings will be joined by newlines but any newlines in a string will be escaped. Note that all but the first line will be indented slightly, the intention is for the first line to be a summary.
Parameters: config (_pytest.config.Config) – pytest config object
As an example consider adding the following hook in a conftest.py
file 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(object):
def __init__(self, val):
self.val = val
def __eq__(self, other):
return self.val == other.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:
$ pytest -q test_foocompare.py
F [100%]
================================= 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:11: AssertionError
1 failed in 0.12 seconds
Advanced assertion introspection¶
New in version 2.1.
Reporting details about a failing assertion is achieved by rewriting assert
statements before they are run. 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 by using an import
hook to write 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 you have two options:
- Disable rewriting for a specific module by adding the string
PYTEST_DONT_REWRITEto its docstring. - Disable rewriting for all modules by using
--assert=plain.
Additionally, rewriting will fail silently if it cannot write new .pyc files,
i.e. in a read-only filesystem or a zipfile.
For further information, Benjamin Peterson wrote up Behind the scenes of pytest’s new assertion rewriting.
New in version 2.1: Add assert rewriting as an alternate introspection technique.
Changed in version 2.1: Introduce the --assert option. Deprecate --no-assert and
--nomagic.
Changed in version 3.0: Removes the --no-assert and --nomagic options.
Removes the --assert=reinterp option.