.. doctest-skip-all

.. include:: workflow/known_projects.inc
.. _testing-guidelines:

==================
Testing Guidelines
==================

This section describes the testing framework and format standards for tests in
Astropy core packages (this also serves as recommendations for affiliated
packages).

Testing Framework
=================

The testing framework used by Astropy (and affiliated packages using the
:doc:`package template <affiliated-packages>`) is the `pytest`_ framework,
accessed through the ``python setup.py test`` command.

.. _pytest: http://pytest.org/latest/
.. _pytest.main: http://pytest.org/latest/builtin.html#pytest.main

.. note::

    The ``pytest`` project was formerly called ``py.test``, and you may
    see the two spellings used interchangeably in the documentation.

.. _running-tests:

Running Tests
=============

There are currently three different ways to invoke Astropy tests. Each
method invokes `pytest`_ to run the tests but offers different options when
calling.

In addition to running the Astropy tests, these methods can also be called
so that they check Python source code for `PEP8 compliance
<http://www.python.org/dev/peps/pep-0008/>`_. All of the PEP8 testing
options require the `pytest-pep8 plugin
<http://pypi.python.org/pypi/pytest-pep8>`_, which must be installed
separately.

setup.py test
-------------

Astropy and the affiliated package template provide a ``test`` setup command,
invoked by running ``python setup.py test`` while in the package root
directory. Run ``python setup.py test --help`` to see the options to the
test command.

Since ``python setup.py test`` wraps the widely-used pytest framework, you may
from time to time want to pass options to the ``pytest`` command itself. For
example, the ``-x`` option to stop after the first failure can be passed
through with the ``--args`` argument::

    > python setup.py test --args "-x"

`pytest`_ will look for files that `look like tests
<http://pytest.org/latest/goodpractises.html#conventions-for-python-test-discovery>`_
in the current directory and all recursive directories then run all the code that
`looks like tests
<http://pytest.org/latest/goodpractises.html#conventions-for-python-test-discovery>`_
within those files.

Turn on PEP8 checking by passing ``--pep8`` to the ``test`` command. This will
turn off regular testing and enable PEP8 testing.

.. note::

    This method of running the tests defaults to the version of `pytest`_
    that is bundled with Astropy. To use the locally-installed version, you
    can set the ``ASTROPY_USE_SYSTEM_PYTEST`` environment variable, eg.::

        > ASTROPY_USE_SYSTEM_PYTEST=1 python setup.py test

.. _astropy.test():

astropy.test()
--------------

AstroPy includes a standalone version of pytest that allows to tests
to be run even if pytest is not installed. Tests can be run from within
AstroPy with::

    import astropy
    astropy.test()

This will run all the default tests for AstroPy.

Tests for a specific package can be run by specifying the package in the call
to the ``test()`` function::

    astropy.test('io.fits')

This method works only with package names that can be mapped to Astropy
directories. As an alternative you can test a specific directory or file
with the ``test_path`` option::

  astropy.test(test_path='wcs/tests/test_wcs.py')

The ``test_path`` must be specified either relative to the working directory
or absolutely.

By default `astropy.test()`_ will skip tests which retrieve data from the
internet. To turn these tests on use the ``remote_data`` flag::

    astropy.test('io.fits', remote_data=True)

In addition, the ``test`` function supports any of the options that can be
passed to `pytest.main() <http://pytest.org/latest/builtin.html#pytest.main>`_,
and convenience options ``verbose=`` and ``pastebin=``.

Enable PEP8 compliance testing with ``pep8=True`` in the call to
``astropy.test``. This will enable PEP8 checking and disable regular tests.

.. note::
    This method of running the tests defaults to the version of
    `pytest`_ that is bundled with Astropy. To use the locally-installed
    version, you should set the ``ASTROPY_USE_SYSTEM_PYTEST`` environment
    variable (see :doc:`/config/index`) or the `pytest`_ method described
    above.

Astropy Test Function
^^^^^^^^^^^^^^^^^^^^^

.. autofunction:: astropy.test

Tox
---

`Tox <http://tox.readthedocs.io>`_ is a sort of meta-test runner for Python.
It installs a project into one or more virtualenvs (usually one for each Python
version supported), build and installs the project into each virtualenv, and
runs the projects tests (or any other build processes one might want to test).
This is a good way to run the tests against multiple installed Python versions
locally without pushing to a continuous integration system.

Tox works by detecting the presence of a file called ``tox.ini`` in the root of
a Python project and using that to configure the desired virtualenvs and start
the tests.  So to run the Astropy tests on multiple Python versions using tox,
simply install Tox::

    $ pip install tox

and then from the root of an Astropy repository clone run::

    $ tox

The Astropy tox configuration currently tests against Python versions 2.6, 2.7,
3.2, and 3.3.  Tox will automatically skip any Python versions you do not have
installed, but best results are achieved if you first install all supported
Python versions and make sure they are on your ``$PATH``.

.. note::

    Tox creates its virtualenvs in the root of your project under a ``.tox``
    directory (which is automatically ignored by ``.gitignore``).  It's worth
    making note of this, however, as it is common practice to sometimes clean
    up a git repository and delete any untracked files by running the ``git
    clean -dfx`` command.  As it can take a long time to rebuild the tox
    virtualenvs you may want to exclude the ``.tox`` directory from any
    cleanup.  This can be achieved by running ``git clean -dfx -e .tox``,
    though it is probably worth defining a `git alias
    <https://git.wiki.kernel.org/index.php/Aliases>`_ to do this.

Test-running options
--------------------

Running parts of the test suite
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

It is possible to run only the tests for a particular subpackage.  For
example, to run only the ``wcs`` tests from the commandline::

    python setup.py test -P wcs

Or from Python::

    >>> import astropy
    >>> astropy.test(package="wcs")

You can also specify a single file to test from the commandline::

    python setup.py test -t astropy/wcs/tests/test_wcs.py

When the ``-t`` option is given a relative path, it is relative to the
installed root of astropy.  When ``-t`` is given a relative path to a
documentation ``.rst`` file to test, it is relative to the root of the
documentation, i.e. the ``docs`` directory in the source tree.  For
example::

    python setup.py test -t units/index.rst

Testing for open files
^^^^^^^^^^^^^^^^^^^^^^

Astropy can test whether any of the unit tests inadvertently leave any
files open.  Since this greatly slows down the time it takes to run
the tests, it is turned off by default.

To use it from the commandline, do::

    python setup.py test --open-files

To use it from Python, do::

    >>> import astropy
    >>> astropy.test(open_files=True)

Test coverage reports
^^^^^^^^^^^^^^^^^^^^^

Astropy can use `coverage.py <http://nedbatchelder.com/code/coverage/>`_ to
generate test coverage reports.  To generate a test coverage report, use::

    python setup.py test --coverage

There is a `coveragerc
<http://nedbatchelder.com/code/coverage/config.html>`_ file that
defines files to omit as well as lines to exclude.  It is installed
along with astropy so that the ``astropy`` testing framework can use
it.  In the source tree, it is at ``astropy/tests/coveragerc``.

Running tests in parallel
^^^^^^^^^^^^^^^^^^^^^^^^^

It is possible to speed up astropy's tests using the `pytest-xdist
<https://pypi.python.org/pypi/pytest-xdist>`_ plugin.  This plugin can be
installed using `pip`_::

    pip install pytest-xdist

Once installed, tests can be run in parallel using the ``'--parallel'``
commandline option.  For example, to use 4 processes::

    python setup.py test --parallel=4

Pass a negative number to ``'--parallel'`` to create the same number of
processes as cores on your machine.

Similarly, this feature can be invoked from Python::

    >>> import astropy
    >>> astropy.test(parallel=4)

Writing tests
=============

``pytest`` has the following test discovery rules:

 * ``test_*.py`` or ``*_test.py`` files
 * ``Test`` prefixed classes (without an ``__init__`` method)
 * ``test_`` prefixed functions and methods

Consult the `test discovery rules
<http://pytest.org/latest/goodpractises.html#conventions-for-python-test-discovery>`_
for detailed information on how to name files and tests so that they are
automatically discovered by `pytest`_.

Simple example
--------------

The following example shows a simple function and a test to test this
function::

    def func(x):
        """Add one to the argument."""
        return x + 1

    def test_answer():
        """Check the return value of func() for an example argument."""
        assert func(3) == 5

If we place this in a ``test.py`` file and then run::

    pytest test.py

The result is::

    ============================= test session starts ==============================
    python: platform darwin -- Python 2.7.2 -- pytest-1.1.1
    test object 1: /Users/tom/tmp/test.py

    test.py F

    =================================== FAILURES ===================================
    _________________________________ test_answer __________________________________

        def test_answer():
    >       assert func(3) == 5
    E       assert 4 == 5
    E        +  where 4 = func(3)

    test.py:5: AssertionError
    =========================== 1 failed in 0.07 seconds ===========================

Where to put tests
------------------

Package-specific tests
^^^^^^^^^^^^^^^^^^^^^^

Each package should include a suite of unit tests, covering as many of
the public methods/functions as possible. These tests should be
included inside each sub-package, e.g::

    astropy/io/fits/tests/

``tests`` directories should contain an ``__init__.py`` file so that
the tests can be imported and so that they can use relative imports.

Interoperability tests
^^^^^^^^^^^^^^^^^^^^^^

Tests involving two or more sub-packages should be included in::

    astropy/tests/

Regression tests
----------------

Any time a bug is fixed, and wherever possible, one or more regression tests
should be added to ensure that the bug is not introduced in future. Regression
tests should include the ticket URL where the bug was reported.

Working with data files
-----------------------

Tests that need to make use of a data file should use the
`~astropy.utils.data.get_pkg_data_fileobj` or
`~astropy.utils.data.get_pkg_data_filename` functions.  These functions
search locally first, and then on the astropy data server or an arbitrary
URL, and return a file-like object or a local filename, respectively.  They
automatically cache the data locally if remote data is obtained, and from
then on the local copy will be used transparently.  See the next section for
note specific to dealing with the cache in tests.

They also support the use of an MD5 hash to get a specific version of a data
file.  This hash can be obtained prior to submitting a file to the astropy
data server by using the `~astropy.utils.data.compute_hash` function on a
local copy of the file.

Tests that may retrieve remote data should be marked with the
``@remote_data`` decorator, or, if a doctest, flagged with the
``REMOTE_DATA`` flag.  Tests marked in this way will be skipped by default
by ``astropy.test()`` to prevent test runs from taking too long. These tests can be run by
``astropy.test()`` by adding the ``remote_data='any'`` flag.  Turn on the remote
data tests at the command line with ``python setup.py test --remote-data=any``.

It is possible to mark tests using ``@remote_data(source='astropy')``, which can
be used to indicate that the only required data is from the
http://data.astropy.org server. To enable just these tests, you can run the
tests with ``python setup.py test --remote-data=astropy``.

Examples
^^^^^^^^
.. code-block:: none

    from ...config import get_data_filename
    from ...tests.helper import remote_data

    def test_1():
        """Test version using a local file."""
        #if filename.fits is a local file in the source distribution
        datafile = get_data_filename('filename.fits')
        # do the test

    @remote_data
    def test_2():
        """Test version using a remote file."""
        #this is the hash for a particular version of a file stored on the
        #astropy data server.
        datafile = get_data_filename('hash/94935ac31d585f68041c08f87d1a19d4')
        # do the test

    def doctest_example():
        """
        >>> datafile = get_data_filename('hash/94935')  # doctest: +REMOTE_DATA
        """
        pass

The ``get_remote_test_data`` will place the files in a temporary directory
indicated by the ``tempfile`` module, so that the test files will eventually
get removed by the system. In the long term, once test data files become too
large, we will need to design a mechanism for removing test data immediately.

Tests that use the file cache
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

By default, the Astropy test runner sets up a clean file cache in a temporary
directory that is used only for that test run and then destroyed.  This is to
ensure consistency between test runs, as well as to not clutter users' caches
(i.e. the cache directory returned by `~astropy.config.get_cache_dir`) with
test files.

However, some test authors (especially for affiliated packages) may find it
desirable to cache files downloaded during a test run in a more permanent
location (e.g. for large data sets).  To this end the
`~astropy.config.set_temp_cache` helper may be used.  It can be used either as
a context manager within a test to temporarily set the cache to a custom
location, or as a *decorator* that takes effect for an entire test function
(not including setup or teardown, which would have to be decorated separately).

Furthermore, it is possible to set an option ``cache_dir`` in the pytest
config file which sets the cache location for the entire test run.  A
``--cache-dir`` command-line option is also supported (which overrides all
other settings).  Currently it is not directly supported by the
``./setup.py test`` command, so it is necessary to use it with the ``-a``
argument like::

    $ ./setup.py test -a "--cache-dir=/path/to/custom/cache/dir"


Tests that create files
-----------------------

Tests may often be run from directories where users do not have write
permissions so tests which create files should always do so in
temporary directories. This can be done with the `pytest tmpdir
function argument <http://pytest.org/latest/tmpdir.html>`_ or with
Python's built-in `tempfile module
<http://docs.python.org/library/tempfile.html#module-tempfile>`_.

Setting up/Tearing down tests
-----------------------------

In some cases, it can be useful to run a series of tests requiring something
to be set up first. There are four ways to do this:

Module-level setup/teardown
^^^^^^^^^^^^^^^^^^^^^^^^^^^

If the ``setup_module`` and ``teardown_module`` functions are specified in a
file, they are called before and after all the tests in the file respectively.
These functions take one argument, which is the module itself, which makes it
very easy to set module-wide variables::

    def setup_module(module):
        """Initialize the value of NUM."""
        module.NUM = 11

    def add_num(x):
        """Add pre-defined NUM to the argument."""
        return x + NUM

    def test_42():
        """Ensure that add_num() adds the correct NUM to its argument."""
        added = add_num(42)
        assert added == 53

We can use this for example to download a remote test data file and have all
the functions in the file access it::

    import os

    def setup_module(module):
        """Store a copy of the remote test file."""
        module.DATAFILE = get_remote_test_data('94935ac31d585f68041c08f87d1a19d4')

    def test():
        """Perform test using cached remote input file."""
        f = open(DATAFILE, 'rb')
        # do the test

    def teardown_module(module):
        """Clean up remote test file copy."""
        os.remove(DATAFILE)

Class-level setup/teardown
^^^^^^^^^^^^^^^^^^^^^^^^^^

Tests can be organized into classes that have their own setup/teardown
functions. In the following ::

    def add_nums(x, y):
        """Add two numbers."""
        return x + y

    class TestAdd42(object):
        """Test for add_nums with y=42."""

        def setup_class(self):
            self.NUM = 42

        def test_1(self):
            """Test behaviour for a specific input value."""
            added = add_nums(11, self.NUM)
            assert added == 53

        def test_2(self):
            """Test behaviour for another input value."""
            added = add_nums(13, self.NUM)
            assert added == 55

        def teardown_class(self):
            pass

In the above example, the ``setup_class`` method is called first, then all the
tests in the class, and finally the ``teardown_class`` is called.

Method-level setup/teardown
^^^^^^^^^^^^^^^^^^^^^^^^^^^

There are cases where one might want setup and teardown methods to be run
before and after *each* test. For this, use the ``setup_method`` and
``teardown_method`` methods::

    def add_nums(x, y):
        """Add two numbers."""
        return x + y

    class TestAdd42(object):
        """Test for add_nums with y=42."""

        def setup_method(self, method):
            self.NUM = 42

        def test_1(self):
        """Test behaviour for a specific input value."""
            added = add_nums(11, self.NUM)
            assert added == 53

        def test_2(self):
        """Test behaviour for another input value."""
            added = add_nums(13, self.NUM)
            assert added == 55

        def teardown_method(self, method):
            pass

Function-level setup/teardown
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

Finally, one can use ``setup_function`` and ``teardown_function`` to define a
setup/teardown mechanism to be run before and after each function in a module.
These take one argument, which is the function being tested::

    def setup_function(function):
        pass

    def test_1(self):
       """First test."""
        # do test

    def test_2(self):
        """Second test."""
        # do test

    def teardown_method(function):
        pass

Parametrizing tests
-------------------

If you want to run a test several times for slightly different values, then
it can be advantageous to use the ``pytest`` option to parametrize tests.
For example, instead of writing::

    def test1():
        assert type('a') == str

    def test2():
        assert type('b') == str

    def test3():
        assert type('c') == str

You can use the ``parametrize`` decorator to loop over the different
inputs::

    @pytest.mark.parametrize(('letter'), ['a', 'b', 'c'])
    def test(letter):
        """Check that the input is a string."""
        assert type(letter) == str

Tests requiring optional dependencies
-------------------------------------

For tests that test functions or methods that require optional
dependencies (e.g. Scipy), pytest should be instructed to skip the
test if the dependencies are not present. The following example shows
how this should be done::

    import pytest

    try:
        import scipy
        HAS_SCIPY = True
    except ImportError:
        HAS_SCIPY = False

    @pytest.mark.skipif('not HAS_SCIPY')
    def test_that_uses_scipy():
        ...

In this way, the test is run if Scipy is present, and skipped if
not. No tests should fail simply because an optional dependency is not
present.

Using pytest helper functions
-----------------------------

If your tests need to use `pytest helper functions
<http://pytest.org/latest/builtin.html#pytest-helpers>`_, such as
``pytest.raises``, import ``pytest`` into your test module like so::

    from ...tests.helper import pytest

You may need to adjust the relative import to work for the depth of
your module.  ``tests.helper`` imports ``pytest`` either from the
user's system or ``extern.pytest`` if the user does not have pytest
installed. This is so that users need not install pytest to run
AstroPy's tests.


Testing warnings
----------------

In order to test that warnings are triggered as expected in certain
situations, you can use the `astropy.tests.helper.catch_warnings`
context manager.  Unlike the `warnings.catch_warnings` context manager
in the standard library, this one will reset all warning state before
hand so one is assured to get the warnings reported, regardless of
what errors may have been emitted by other tests previously.  Here is
a real-world example::

  from astropy.tests.helper import catch_warnings

  with catch_warnings(MergeConflictWarning) as warning_lines:
      # Test code which triggers a MergeConflictWarning
      out = table.vstack([t1, t2, t4], join_type='outer')

      assert warning_lines[0].category == metadata.MergeConflictWarning
      assert ("In merged column 'a' the 'units' attribute does not match (cm != m)"
              in str(warning_lines[0].message))

.. note::

   Within `pytest`_ there is also the option of using the ``recwarn``
   function argument to test that warnings are triggered.  This method has
   been found to be problematic in at least one case (`pull request 1174
   <https://github.com/astropy/astropy/pull/1174#issuecomment-20249309>`_)
   so the `astropy.tests.helper.catch_warnings` context manager is
   preferred.

Testing configuration parameters
--------------------------------

In order to ensure reproducibility of tests, all configuration items
are reset to their default values when the test runner starts up.

Sometimes you'll want to test the behavior of code when a certain
configuration item is set to a particular value.  In that case, you
can use the `astropy.config.ConfigItem.set_temp` context manager to
temporarily set a configuration item to that value, test within that
context, and have it automatically return to its original value.

For example::

    def test_pprint():
        from ... import conf
        with conf.set_temp('max_lines', 6):
            # ...

Testing with Unicode literals
-----------------------------

Python 2 can run code in two modes: by default, string literals are
8-bit `bytes` objects.  However, when ``from __future__ import
unicode_literals`` is used, string literals are `unicode` objects.  In
order to ensure that astropy supports user code written in both
styles, the testing framework has a special feature to run a module
containing tests in both modes.  Simply add the comment::

    # TEST_UNICODE_LITERALS

anywhere in the file, and all tests in that file will be tested twice:
once in the default mode where string literals are `bytes`, and again
where string literals are `unicode`.

Marking blocks of code to exclude from coverage
-----------------------------------------------

Blocks of code may be ignored by the coverage testing by adding a
comment containing the phrase ``pragma: no cover`` to the start of the
block::

    if this_rarely_happens:  # pragma: no cover
        this_call_is_ignored()

Blocks of code that are intended to run only in Python 2.x or 3.x may
also be marked so that they will be ignored when appropriate by
``coverage.py``::

    if sys.version_info[0] >= 3:  # pragma: py3
        do_it_the_python3_way()
    else:  # pragma: py2
        do_it_the_python2_way()

Using ``six.PY3`` and ``six.PY2`` will also automatically exclude
blocks from coverage, without requiring the pragma comment::

    if six.PY3:
        do_it_the_python3_way()
    elif six.PY2:
        do_it_the_python2_way()

.. _image-tests:

Image tests with pytest-mpl
---------------------------

We make use of the `pytest-mpl <https://pypi.python.org/pypi/pytest-mpl>`_
plugin to create tests where we can compare the output of plotting commands
with reference files (this is used for instance in
:ref:`astropy.visualization.wcsaxes <wcsaxes>`).

To run the Astropy tests with the image comparison, use::

    python setup.py test -a "--mpl" --remote-data

The `README.md <https://github.com/astrofrog/pytest-mpl/blob/master/README.md>`__
for the plugin contains information on writing tests with this plugin. The only
key addition compared to those instructions is that you should set
``baseline_dir``::

    from astropy.tests.image_tests import IMAGE_REFERENCE_DIR

    @pytest.mark.mpl_image_compare(baseline_dir=IMAGE_REFERENCE_DIR)

This is because since the reference image files would contribute significantly
to the repository size, we instead store them on the http://data.astropy.org
site. The downside is that it is a little more complicated to create or
re-generate reference files, but we describe the process here.

Once you have a test for which you want to (re-)generate reference images,
run the tests with the ``--mpl-generate-path`` argument, e.g::

    python setup.py test -a "--mpl --mpl-generate-path=reference_tmp" --remote-data

This will create a ``reference_tmp`` folder and put the generated reference
images inside it.

Next, we need to add these images to the http://data.astropy.org server. To do
this, open a pull request to `this <https://github.com/astropy/astropy-data>`_
repository. The reference images for Astropy tests should go inside the
`testing/astropy <https://github.com/astropy/astropy-data/tree/gh-pages/testing/astropy>`_
directory. In that directory are folders named as timestamps. If you are simply
adding new tests, add the reference files to the most recent directory.

If you are re-generating baseline images due to changes in Astropy, make a new
timestamp directory by copying one the most recent one, then replace any
baseline images that have changed. Note that due to changes between Matplotlib
versions, we need to add the whole set of reference images for each major
Matplotlib version. Therefore, in each timestamp folder, there are folders named
e.g. ``1.4.x`` and ``1.5.x``.

Once the reference images are merged in and available on
http://data.astropy.org, update the timestamp in the ``IMAGE_REFERENCE_DIR``
variable in the ``astropy.tests.image_tests`` sub-module. Because the timestamp
is hard-coded, adding a new timestamp directory will not mess with testing for
released versions of Astropy, so you can easily add and tweak a new timestamp
directory while still working on a pull request to Astropy.

.. _doctests:

Writing doctests
================

A doctest in Python is a special kind of test that is embedded in a
function, class, or module's docstring, or in the narrative Sphinx
documentation, and is formatted to look like a Python interactive
session--that is, they show lines of Python code entered at a ``>>>``
prompt followed by the output that would be expected (if any) when
running that code in an interactive session.

The idea is to write usage examples in docstrings that users can enter
verbatim and check their output against the expected output to confirm that
they are using the interface properly.

Furthermore, Python includes a :mod:`doctest` module that can detect these
doctests and execute them as part of a project's automated test suite.  This
way we can automatically ensure that all doctest-like examples in our
docstrings are correct.

The Astropy test suite automatically detects and runs any doctests in
the Astropy source code or documentation, or in affiliated packages
using the Astropy test running framework. For example doctests and
detailed documentation on how to write them, see the full
:mod:`doctest` documentation.

.. note::

   Since the narrative Sphinx documentation is not installed alongside
   the astropy source code, it can only be tested by running ``python
   setup.py test``, not by ``import astropy; astropy.test()``.

Skipping doctests
-----------------

Sometimes it is necessary to write examples that look like doctests but that
are not actually executable verbatim. An example may depend on some external
conditions being fulfilled, for example. In these cases there are a few ways to
skip a doctest:

1. Next to the example add a comment like: ``# doctest: +SKIP``.  For example:

   .. code-block:: none

     >>> import os
     >>> os.listdir('.')  # doctest: +SKIP

   In the above example we want to direct the user to run ``os.listdir('.')``
   but we don't want that line to be executed as part of the doctest.

   To skip tests that require fetching remote data, use the ``REMOTE_DATA``
   flag instead.  This way they can be turned on using the
   ``--remote-data`` flag when running the tests:

   .. code-block:: none

     >>> datafile = get_data_filename('hash/94935')  # doctest: +REMOTE_DATA

2. Astropy's test framework adds support for a special ``__doctest_skip__``
   variable that can be placed at the module level of any module to list
   functions, classes, and methods in that module whose doctests should not
   be run.  That is, if it doesn't make sense to run a function's example
   usage as a doctest, the entire function can be skipped in the doctest
   collection phase.

   The value of ``__doctest_skip__`` should be a list of wildcard patterns
   for all functions/classes whose doctests should be skipped.  For example::

       __doctest_skip__ = ['myfunction', 'MyClass', 'MyClass.*']

   skips the doctests in a function called ``myfunction``, the doctest for a
   class called ``MyClass``, and all *methods* of ``MyClass``.

   Module docstrings may contain doctests as well.  To skip the module-level
   doctests include the string ``'.'`` in ``__doctest_skip__``.

   To skip all doctests in a module::

       __doctest_skip__ = ['*']

3. In the Sphinx documentation, a doctest section can be skipped by
   making it part of a ``doctest-skip`` directive::

       .. doctest-skip::

           >>> # This is a doctest that will appear in the documentation,
           >>> # but will not be executed by the testing framework.
           >>> 1 / 0  # Divide by zero, ouch!

   It is also possible to skip all doctests below a certain line using
   a ``doctest-skip-all`` comment.  Note the lack of ``::`` at the end
   of the line here::

       .. doctest-skip-all

       All doctests below here are skipped...

4. ``__doctest_requires__`` is a way to list dependencies for specific
   doctests.  It should be a dictionary mapping wildcard patterns (in the same
   format as ``__doctest_skip__``) to a list of one or more modules that should
   be *importable* in order for the tests to run.  For example, if some tests
   require the scipy module to work they will be skipped unless ``import
   scipy`` is possible.  It is also possible to use a tuple of wildcard
   patterns as a key in this dict::

            __doctest_requires__ = {('func1', 'func2'): ['scipy']}

   Having this module-level variable will require ``scipy`` to be importable
   in order to run the doctests for functions ``func1`` and ``func2`` in that
   module.

   In the Sphinx documentation, a doctest requirement can be notated with the
   ``doctest-requires`` directive::

       .. doctest-requires:: scipy

           >>> import scipy
           >>> scipy.hamming(...)


Skipping output
---------------

One of the important aspects of writing doctests is that the example output
can be accurately compared to the actual output produced when running the
test.

The doctest system compares the actual output to the example output verbatim
by default, but this not always feasible.  For example the example output may
contain the ``__repr__`` of an object which displays its id (which will change
on each run), or a test that expects an exception may output a traceback.

The simplest way to generalize the example output is to use the ellipses
``...``.  For example::

    >>> 1 / 0
    Traceback (most recent call last):
    ...
    ZeroDivisionError: integer division or modulo by zero

This doctest expects an exception with a traceback, but the text of the
traceback is skipped in the example output--only the first and last lines
of the output are checked.  See the :mod:`doctest` documentation for
more examples of skipping output.

Ignoring all output
^^^^^^^^^^^^^^^^^^^

Another possibility for ignoring output is to use the
``# doctest: +IGNORE_OUTPUT`` flag.  This allows a doctest to execute (and
check that the code executes without errors), but allows the entire output
to be ignored in cases where we don't care what the output is.  This differs
from using ellipses in that we can still provide complete example output, just
without the test checking that it is exactly right.  For example::

    >>> print('Hello world')  # doctest: +IGNORE_OUTPUT
    We don't really care what the output is as long as there were no errors...

Similarly the ``IGNORE_OUTPUT_2`` and ``IGNORE_OUTPUT_3`` flags can be used
to ignore output only on Python 2 or only on Python 3 respectively.


Handling float output
---------------------

Some doctests may produce output that contains string representations of
floating point values.  Floating point representations are often not exact and
contain roundoffs in their least significant digits.  Depending on the platform
the tests are being run on (different Python versions, different OS, etc.) the
exact number of digits shown can differ.  Because doctests work by comparing
strings this can cause such tests to fail.

To address this issue Astropy's test framework includes support for a
``FLOAT_CMP`` flag that can be used with doctests.  For example:

.. code-block:: none

  >>> 1.0 / 3.0  # doctest: +FLOAT_CMP
  0.333333333333333311

When this flag is used, the expected and actual outputs are both parsed to find
any floating point values in the strings.  Those are then converted to actual
Python `float` objects and compared numerically.  This means that small
differences in representation of roundoff digits will be ignored by the
doctest.  The values are otherwise compared exactly, so more significant
(albeit possibly small) differences will still be caught by these tests.

Continuous integration
======================

Overview
--------

Astropy uses the following continuous integration (CI) services:

* `Travis <https://travis-ci.org/astropy/astropy>`_ for 64-bit Linux and OS X setups
* `Appveyor <https://ci.appveyor.com/project/Astropy/astropy>`_ for Windows
* `CircleCI <https://circleci.com>`_ for 32-bit Linux

These continuously test the package for each commit and pull request that is
pushed to GitHub to notice when something breaks.

Astropy and many affiliated packages use an external package called
`ci-helpers <https://github.com/astropy/astropy-helpers>`_ to provide
support for the generic parts of the CI systems. ``ci-helpers`` consists of
a set of scripts that are used by the ``.travis.yml`` and ``appveyor.yml``
files to set up the conda environment, and install dependencies.

Dependencies can be customized for different packages using the appropriate
environment variables in ``.travis.yml`` and ``appveyor.yml``. For more
details on how to set up this machinery, see the `package-template
<https://github.com/astropy/package-template>`_ and `ci-helpers`_.

The 32-bit tests on CircleCI use a pre-defined Docker image defined `here
<https://github.com/astropy/astropy-docker/tree/master/32bit>`_ which includes
a 32-bit Python environment. If you want to run tests for Astropy affiliated
packages in the same way, you can use the same set-up on CircleCI as the core
package, but just be sure to install Astropy first using::

    easy_install pip
    pip install astropy

For convenience, you can also use the ``astropy/affiliated-32bit-test-env``
Docker image instead of ``astropy/astropy-32bit-test-env`` - the former includes
the latest stable version of Astropy pre-installed.

In some cases, you may see failures on continuous integration services that
you do not see locally, for example because the operating system is different,
or because the failure happens with only 32-bit Python. The following sections
explain how you can reproduce specific builds locally.

Reproducing failing 32-bit builds
---------------------------------

If you want to run your tests in the same 32-bit Python environment that
CircleCI uses, start off by installing `Docker <https://www.docker.com>`_ if you
don't already have it installed. Docker can be installed on a variety of
different operating systems.

Then, make sure you have a version of the git repository (either the main
Astropy repository or your fork) for which you want to run the tests. Go to that
directory, then run Docker with::

    $ docker run -i -v ${PWD}:/astropy_src -t astropy/astropy-32bit-test-env:1.6 bash

This will put you in the bash shell inside the Docker container. Once inside,
you can go to the ``astropy_src`` directory, and you should see the files that
are in your local git repository::

    root@5e2b89d7b07c:/# cd /astropy_src
    root@5e2b89d7b07c:/astropy_src# ls
    ah_bootstrap.py  CONTRIBUTING.md       pip-requirements-doc
    appveyor.yml     docs                  README.rst
    astropy          examples              readthedocs.yml
    astropy_helpers  ez_setup.py           setup.cfg
    cextern          licenses              setup.py
    CHANGES.rst      MANIFEST.in           static
    circle.yml       pip-requirements      tox.ini
    CITATION         pip-requirements-dev

You can then run the tests with::

    root@5e2b89d7b07c:/astropy_src# python setup.py test
