Testing Guidelines¶
Introduction¶
Until the 1.15 release, NumPy used the nose testing framework, it now uses the pytest framework. The older framework is still maintained in order to support downstream projects that use the old numpy framework, but all tests for NumPy should use pytest.
Our goal is that every module and package in NumPy should have a thorough set of unit tests. These tests should exercise the full functionality of a given routine as well as its robustness to erroneous or unexpected input arguments. Long experience has shown that by far the best time to write the tests is before you write or change the code - this is test-driven development. The arguments for this can sound rather abstract, but we can assure you that you will find that writing the tests first leads to more robust and better designed code. Well-designed tests with good coverage make an enormous difference to the ease of refactoring. Whenever a new bug is found in a routine, you should write a new test for that specific case and add it to the test suite to prevent that bug from creeping back in unnoticed.
Note
SciPy uses the testing framework from numpy.testing
,
so all of the NumPy examples shown below are also applicable to SciPy
Testing NumPy¶
NumPy can be tested in a number of ways, choose any way you feel comfortable.
Running tests from inside Python¶
You can test an installed NumPy by numpy.test
, for example,
To run NumPy’s full test suite, use the following:
>>> import numpy
>>> numpy.test(label='slow')
The test method may take two or more arguments; the first label
is a
string specifying what should be tested and the second verbose
is an
integer giving the level of output verbosity. See the docstring
numpy.test
for details. The default value for label
is ‘fast’ - which
will run the standard tests. The string ‘full’ will run the full battery
of tests, including those identified as being slow to run. If verbose
is 1 or less, the tests will just show information messages about the tests
that are run; but if it is greater than 1, then the tests will also provide
warnings on missing tests. So if you want to run every test and get
messages about which modules don’t have tests:
>>> numpy.test(label='full', verbose=2) # or numpy.test('full', 2)
Finally, if you are only interested in testing a subset of NumPy, for
example, the core
module, use the following:
>>> numpy.core.test()
Running tests from the command line¶
If you want to build NumPy in order to work on NumPy itself, use
runtests.py
.To run NumPy’s full test suite:
$ python runtests.py
Testing a subset of NumPy:
$python runtests.py -t numpy/core/tests
For detailed info on testing, see Testing builds
Writing your own tests¶
If you are writing a package that you’d like to become part of NumPy,
please write the tests as you develop the package.
Every Python module, extension module, or subpackage in the NumPy
package directory should have a corresponding test_<name>.py
file.
Pytest examines these files for test methods (named test*
) and test
classes (named Test*
).
Suppose you have a NumPy module numpy/xxx/yyy.py
containing a
function zzz()
. To test this function you would create a test
module called test_yyy.py
. If you only need to test one aspect of
zzz
, you can simply add a test function:
def test_zzz():
assert_(zzz() == 'Hello from zzz')
More often, we need to group a number of tests together, so we create a test class:
from numpy.testing import assert_, assert_raises
# import xxx symbols
from numpy.xxx.yyy import zzz
class TestZzz:
def test_simple(self):
assert_(zzz() == 'Hello from zzz')
def test_invalid_parameter(self):
assert_raises(...)
Within these test methods, assert_()
and related functions are used to test
whether a certain assumption is valid. If the assertion fails, the test fails.
Note that the Python builtin assert
should not be used, because it is
stripped during compilation with -O
.
Note that test_
functions or methods should not have a docstring, because
that makes it hard to identify the test from the output of running the test
suite with verbose=2
(or similar verbosity setting). Use plain comments
(#
) if necessary.
Also since much of NumPy is legacy code that was originally written without unit tests, there are still several modules that don’t have tests yet. Please feel free to choose one of these modules and develop tests for it.
Labeling tests¶
As an alternative to pytest.mark.<label>
, there are a number of labels you
can use.
Unlabeled tests like the ones above are run in the default
numpy.test()
run. If you want to label your test as slow - and
therefore reserved for a full numpy.test(label='full')
run, you
can label it with a decorator:
# numpy.testing module includes 'import decorators as dec'
from numpy.testing import dec, assert_
@dec.slow
def test_big(self):
print 'Big, slow test'
Similarly for methods:
class test_zzz:
@dec.slow
def test_simple(self):
assert_(zzz() == 'Hello from zzz')
Available labels are:
slow
: marks a test as taking a long timesetastest(tf)
: work-around for test discovery when the test name is non conformantskipif(condition, msg=None)
: skips the test wheneval(condition)
isTrue
knownfailureif(fail_cond, msg=None)
: will avoid running the test ifeval(fail_cond)
isTrue
, useful for tests that conditionally segfaultdeprecated(conditional=True)
: filters deprecation warnings emitted in the testparamaterize(var, input)
: an alternative to pytest.mark.paramaterized
Easier setup and teardown functions / methods¶
Testing looks for module-level or class-level setup and teardown functions by name; thus:
def setup():
"""Module-level setup"""
print 'doing setup'
def teardown():
"""Module-level teardown"""
print 'doing teardown'
class TestMe:
def setup():
"""Class-level setup"""
print 'doing setup'
def teardown():
"""Class-level teardown"""
print 'doing teardown'
Setup and teardown functions to functions and methods are known as “fixtures”, and their use is not encouraged.
Parametric tests¶
One very nice feature of testing is allowing easy testing across a range
of parameters - a nasty problem for standard unit tests. Use the
dec.paramaterize
decorator.
Doctests¶
Doctests are a convenient way of documenting the behavior of a function and allowing that behavior to be tested at the same time. The output of an interactive Python session can be included in the docstring of a function, and the test framework can run the example and compare the actual output to the expected output.
The doctests can be run by adding the doctests
argument to the
test()
call; for example, to run all tests (including doctests)
for numpy.lib:
>>> import numpy as np
>>> np.lib.test(doctests=True)
The doctests are run as if they are in a fresh Python instance which
has executed import numpy as np
. Tests that are part of a NumPy
subpackage will have that subpackage already imported. E.g. for a test
in numpy/linalg/tests/
, the namespace will be created such that
from numpy import linalg
has already executed.
tests/
¶
Rather than keeping the code and the tests in the same directory, we
put all the tests for a given subpackage in a tests/
subdirectory. For our example, if it doesn’t already exist you will
need to create a tests/
directory in numpy/xxx/
. So the path
for test_yyy.py
is numpy/xxx/tests/test_yyy.py
.
Once the numpy/xxx/tests/test_yyy.py
is written, its possible to
run the tests by going to the tests/
directory and typing:
python test_yyy.py
Or if you add numpy/xxx/tests/
to the Python path, you could run
the tests interactively in the interpreter like this:
>>> import test_yyy
>>> test_yyy.test()
__init__.py
and setup.py
¶
Usually, however, adding the tests/
directory to the python path
isn’t desirable. Instead it would better to invoke the test straight
from the module xxx
. To this end, simply place the following lines
at the end of your package’s __init__.py
file:
...
def test(level=1, verbosity=1):
from numpy.testing import Tester
return Tester().test(level, verbosity)
You will also need to add the tests directory in the configuration section of your setup.py:
...
def configuration(parent_package='', top_path=None):
...
config.add_subpackage('tests')
return config
...
Now you can do the following to test your module:
>>> import numpy
>>> numpy.xxx.test()
Also, when invoking the entire NumPy test suite, your tests will be found and run:
>>> import numpy
>>> numpy.test()
# your tests are included and run automatically!
Tips & Tricks¶
Creating many similar tests¶
If you have a collection of tests that must be run multiple times with minor variations, it can be helpful to create a base class containing all the common tests, and then create a subclass for each variation. Several examples of this technique exist in NumPy; below are excerpts from one in numpy/linalg/tests/test_linalg.py:
class LinalgTestCase:
def test_single(self):
a = array([[1.,2.], [3.,4.]], dtype=single)
b = array([2., 1.], dtype=single)
self.do(a, b)
def test_double(self):
a = array([[1.,2.], [3.,4.]], dtype=double)
b = array([2., 1.], dtype=double)
self.do(a, b)
...
class TestSolve(LinalgTestCase):
def do(self, a, b):
x = linalg.solve(a, b)
assert_almost_equal(b, dot(a, x))
assert_(imply(isinstance(b, matrix), isinstance(x, matrix)))
class TestInv(LinalgTestCase):
def do(self, a, b):
a_inv = linalg.inv(a)
assert_almost_equal(dot(a, a_inv), identity(asarray(a).shape[0]))
assert_(imply(isinstance(a, matrix), isinstance(a_inv, matrix)))
In this case, we wanted to test solving a linear algebra problem using
matrices of several data types, using linalg.solve
and
linalg.inv
. The common test cases (for single-precision,
double-precision, etc. matrices) are collected in LinalgTestCase
.
Known failures & skipping tests¶
Sometimes you might want to skip a test or mark it as a known failure, such as when the test suite is being written before the code it’s meant to test, or if a test only fails on a particular architecture.
To skip a test, simply use skipif
:
import pytest
@pytest.mark.skipif(SkipMyTest, reason="Skipping this test because...")
def test_something(foo):
...
The test is marked as skipped if SkipMyTest
evaluates to nonzero,
and the message in verbose test output is the second argument given to
skipif
. Similarly, a test can be marked as a known failure by
using xfail
:
import pytest
@pytest.mark.xfail(MyTestFails, reason="This test is known to fail because...")
def test_something_else(foo):
...
Of course, a test can be unconditionally skipped or marked as a known
failure by using skip
or xfail
without argument, respectively.
A total of the number of skipped and known failing tests is displayed
at the end of the test run. Skipped tests are marked as 'S'
in
the test results (or 'SKIPPED'
for verbose > 1
), and known
failing tests are marked as 'x'
(or 'XFAIL'
if verbose >
1
).
Tests on random data¶
Tests on random data are good, but since test failures are meant to expose
new bugs or regressions, a test that passes most of the time but fails
occasionally with no code changes is not helpful. Make the random data
deterministic by setting the random number seed before generating it. Use
either Python’s random.seed(some_number)
or NumPy’s
numpy.random.seed(some_number)
, depending on the source of random numbers.
Alternatively, you can use Hypothesis to generate arbitrary data.
Hypothesis manages both Python’s and Numpy’s random seeds for you, and
provides a very concise and powerful way to describe data (including
hypothesis.extra.numpy
, e.g. for a set of mutually-broadcastable shapes).
The advantages over random generation include tools to replay and share failures without requiring a fixed seed, reporting minimal examples for each failure, and better-than-naive-random techniques for triggering bugs.
Documentation for numpy.test
¶
-
numpy.
test
(label='fast', verbose=1, extra_argv=None, doctests=False, coverage=False, durations=- 1, tests=None)¶ Pytest test runner.
A test function is typically added to a package’s __init__.py like so:
from numpy._pytesttester import PytestTester test = PytestTester(__name__).test del PytestTester
Calling this test function finds and runs all tests associated with the module and all its sub-modules.
- Parameters
- module_namemodule name
The name of the module to test.
Notes
Unlike the previous
nose
-based implementation, this class is not publicly exposed as it performs somenumpy
-specific warning suppression.- Attributes
- module_namestr
Full path to the package to test.