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.. _testing:
==========================================
Testing IPython for users and developers
==========================================
Overview
========
It is extremely important that all code contributed to IPython has tests.
Tests should be written as unittests, doctests or other entities that the
IPython test system can detect. See below for more details on this.
Each subpackage in IPython should have its own :file:`tests` directory that
contains all of the tests for that subpackage. All of the files in the
:file:`tests` directory should have the word "tests" in them to enable
the testing framework to find them.
In docstrings, examples (either using IPython prompts like ``In [1]:`` or
'classic' python ``>>>`` ones) can and should be included. The testing system
will detect them as doctests and will run them; it offers control to skip parts
or all of a specific doctest if the example is meant to be informative but
shows non-reproducible information (like filesystem data).
If a subpackage has any dependencies beyond the Python standard library, the
tests for that subpackage should be skipped if the dependencies are not found.
This is very important so users don't get tests failing simply because they
don't have dependencies.
The testing system we use is a hybrid of nose_ and Twisted's trial_ test runner.
We use both because nose detects more things than Twisted and allows for more
flexible (and lighter-weight) ways of writing tests; in particular we've
developed a nose plugin that allows us to paste verbatim IPython sessions and
test them as doctests, which is extremely important for us. But the parts of
IPython that depend on Twisted must be tested using trial, because only trial
manages the Twisted reactor correctly.
.. _nose: http://code.google.com/p/python-nose
.. _trial: http://twistedmatrix.com/trac/wiki/TwistedTrial
For the impatient: running the tests
====================================
You can run IPython from the source download directory without even installing
it system-wide or having configure anything, by typing at the terminal:
.. code-block:: bash
python ipython.py
and similarly, you can execute the built-in test suite with:
.. code-block:: bash
python iptest.py
This script manages intelligently both nose and trial, choosing the correct
test system for each of IPython's components.
Once you have either installed it or at least configured your system to be
able to import IPython, you can run the tests with:
.. code-block:: bash
python -c "import IPython; IPython.test()"
This should work as long as IPython can be imported, even if you haven't fully
installed the user-facing scripts yet (common in a development environment).
Once you have installed IPython, you will have available system-wide a script
called :file:`iptest` that does the exact same as the :file:`iptest.py` script
in the source directory, so you can then test simply with:
.. code-block:: bash
iptest [args]
Regardless of how you run things, you should eventually see something like:
.. code-block:: bash
**********************************************************************
Test suite completed for system with the following information:
IPython version: 0.11.bzr.r1340
BZR revision : 1340
Platform info : os.name -> posix, sys.platform -> linux2
: Linux-2.6.31-17-generic-i686-with-Ubuntu-9.10-karmic
Python info : 2.6.4 (r264:75706, Dec 7 2009, 18:45:15)
[GCC 4.4.1]
Running from an installed IPython: True
Tools and libraries available at test time:
curses foolscap gobject gtk pexpect twisted wx wx.aui zope.interface
Tools and libraries NOT available at test time:
objc
Ran 11 test groups in 36.244s
Status:
OK
If not, there will be a message indicating which test group failed and how to
rerun that group individually. For example, this tests the
:mod:`IPython.utils` subpackage, the :option:`-v` option shows progress
indicators:
.. code-block:: bash
$ python iptest.py -v IPython.utils
..........................SS..SSS............................S.S...
.........................................................
----------------------------------------------------------------------
Ran 125 tests in 0.119s
OK (SKIP=7)
Because the IPython test machinery is based on nose, you can use all nose
options and syntax, typing ``iptest -h`` shows all available options. For
example, this lets you run the specific test :func:`test_rehashx` inside the
:mod:`test_magic` module:
.. code-block:: bash
$ python iptest.py -vv IPython.core.tests.test_magic:test_rehashx
IPython.core.tests.test_magic.test_rehashx(True,) ... ok
IPython.core.tests.test_magic.test_rehashx(True,) ... ok
----------------------------------------------------------------------
Ran 2 tests in 0.100s
OK
When developing, the :option:`--pdb` and :option:`--pdb-failures` of nose are
particularly useful, these drop you into an interactive pdb session at the
point of the error or failure respectively.
To run Twisted-using tests, use the :command:`trial` command on a per file or
package basis:
.. code-block:: bash
trial IPython.kernel
For developers: writing tests
=============================
By now IPython has a reasonable test suite, so the best way to see what's
available is to look at the :file:`tests` directory in most subpackages. But
here are a few pointers to make the process easier.
Main tools: :mod:`IPython.testing`
----------------------------------
The :mod:`IPython.testing` package is where all of the machinery to test
IPython (rather than the tests for its various parts) lives. In particular,
the :mod:`iptest` module in there has all the smarts to control the test
process. In there, the :func:`make_exclude` function is used to build a
blacklist of exclusions, these are modules that do not get even imported for
tests. This is important so that things that would fail to even import because
of missing dependencies don't give errors to end users, as we stated above.
The :mod:`decorators` module contains a lot of useful decorators, especially
useful to mark individual tests that should be skipped under certain conditions
(rather than blacklisting the package altogether because of a missing major
dependency).
Our nose plugin for doctests
----------------------------
The :mod:`plugin` subpackage in testing contains a nose plugin called
:mod:`ipdoctest` that teaches nose about IPython syntax, so you can write
doctests with IPython prompts. You can also mark doctest output with ``#
random`` for the output corresponding to a single input to be ignored (stronger
than using ellipsis and useful to keep it as an example). If you want the
entire docstring to be executed but none of the output from any input to be
checked, you can use the ``# all-random`` marker. The
:mod:`IPython.testing.plugin.dtexample` module contains examples of how to use
these; for reference here is how to use ``# random``::
def ranfunc():
"""A function with some random output.
Normal examples are verified as usual:
>>> 1+3
4
But if you put '# random' in the output, it is ignored:
>>> 1+3
junk goes here... # random
>>> 1+2
again, anything goes #random
if multiline, the random mark is only needed once.
>>> 1+2
You can also put the random marker at the end:
# random
>>> 1+2
# random
.. or at the beginning.
More correct input is properly verified:
>>> ranfunc()
'ranfunc'
"""
return 'ranfunc'
and an example of ``# all-random``::
def random_all():
"""A function where we ignore the output of ALL examples.
Examples:
# all-random
This mark tells the testing machinery that all subsequent examples
should be treated as random (ignoring their output). They are still
executed, so if a they raise an error, it will be detected as such,
but their output is completely ignored.
>>> 1+3
junk goes here...
>>> 1+3
klasdfj;
In [8]: print 'hello'
world # random
In [9]: iprand()
Out[9]: 'iprand'
"""
return 'iprand'
When writing docstrings, you can use the ``@skip_doctest`` decorator to
indicate that a docstring should *not* be treated as a doctest at all. The
difference between ``# all-random`` and ``@skip_doctest`` is that the former
executes the example but ignores output, while the latter doesn't execute any
code. ``@skip_doctest`` should be used for docstrings whose examples are
purely informational.
If a given docstring fails under certain conditions but otherwise is a good
doctest, you can use code like the following, that relies on the 'null'
decorator to leave the docstring intact where it works as a test::
# The docstring for full_path doctests differently on win32 (different path
# separator) so just skip the doctest there, and use a null decorator
# elsewhere:
doctest_deco = dec.skip_doctest if sys.platform == 'win32' else dec.null_deco
@doctest_deco
def full_path(startPath,files):
"""Make full paths for all the listed files, based on startPath..."""
# function body follows...
With our nose plugin that understands IPython syntax, an extremely effective
way to write tests is to simply copy and paste an interactive session into a
docstring. You can writing this type of test, where your docstring is meant
*only* as a test, by prefixing the function name with ``doctest_`` and leaving
its body *absolutely empty* other than the docstring. In
:mod:`IPython.core.tests.test_magic` you can find several examples of this, but
for completeness sake, your code should look like this (a simple case)::
def doctest_time():
"""
In [10]: %time None
CPU times: user 0.00 s, sys: 0.00 s, total: 0.00 s
Wall time: 0.00 s
"""
This function is only analyzed for its docstring but it is not considered a
separate test, which is why its body should be empty.
Parametric tests done right
---------------------------
If you need to run multiple tests inside the same standalone function or method
of a :class:`unittest.TestCase` subclass, IPython provides the ``parametric``
decorator for this purpose. This is superior to how test generators work in
nose, because IPython's keeps intact your stack, which makes debugging vastly
easier. For example, these are some parametric tests both in class form and as
a standalone function (choose in each situation the style that best fits the
problem at hand, since both work)::
from IPython.testing import decorators as dec
def is_smaller(i,j):
assert i<j,"%s !< %s" % (i,j)
class Tester(ParametricTestCase):
def test_parametric(self):
yield is_smaller(3, 4)
x, y = 1, 2
yield is_smaller(x, y)
@dec.parametric
def test_par_standalone():
yield is_smaller(3, 4)
x, y = 1, 2
yield is_smaller(x, y)
Writing tests for Twisted-using code
------------------------------------
Tests of Twisted [Twisted]_ using code should be written by subclassing the
``TestCase`` class that comes with ``twisted.trial.unittest``. Furthermore, all
:class:`Deferred` instances that are created in the test must be properly
chained and the final one *must* be the return value of the test method.
.. note::
The best place to see how to use the testing tools, are the tests for these
tools themselves, which live in :mod:`IPython.testing.tests`.
Design requirements
===================
This section is a set of notes on the key points of the IPython testing needs,
that were used when writing the system and should be kept for reference as it
eveolves.
Testing IPython in full requires modifications to the default behavior of nose
and doctest, because the IPython prompt is not recognized to determine Python
input, and because IPython admits user input that is not valid Python (things
like ``%magics`` and ``!system commands``.
We basically need to be able to test the following types of code:
1. Pure Python files containing normal tests. These are not a problem, since
Nose will pick them up as long as they conform to the (flexible) conventions
used by nose to recognize tests.
2. Python files containing doctests. Here, we have two possibilities:
- The prompts are the usual ``>>>`` and the input is pure Python.
- The prompts are of the form ``In [1]:`` and the input can contain extended
IPython expressions.
In the first case, Nose will recognize the doctests as long as it is called
with the ``--with-doctest`` flag. But the second case will likely require
modifications or the writing of a new doctest plugin for Nose that is
IPython-aware.
3. ReStructuredText files that contain code blocks. For this type of file, we
have three distinct possibilities for the code blocks:
- They use ``>>>`` prompts.
- They use ``In [1]:`` prompts.
- They are standalone blocks of pure Python code without any prompts.
The first two cases are similar to the situation #2 above, except that in
this case the doctests must be extracted from input code blocks using
docutils instead of from the Python docstrings.
In the third case, we must have a convention for distinguishing code blocks
that are meant for execution from others that may be snippets of shell code
or other examples not meant to be run. One possibility is to assume that
all indented code blocks are meant for execution, but to have a special
docutils directive for input that should not be executed.
For those code blocks that we will execute, the convention used will simply
be that they get called and are considered successful if they run to
completion without raising errors. This is similar to what Nose does for
standalone test functions, and by putting asserts or other forms of
exception-raising statements it becomes possible to have literate examples
that double as lightweight tests.
4. Extension modules with doctests in function and method docstrings.
Currently Nose simply can't find these docstrings correctly, because the
underlying doctest DocTestFinder object fails there. Similarly to #2 above,
the docstrings could have either pure python or IPython prompts.
Of these, only 3-c (reST with standalone code blocks) is not implemented at
this point.