Setting up and using your development environment¶
Recommended development setup¶
Since NumPy contains parts written in C and Cython that need to be compiled before use, make sure you have the necessary compilers and Python development headers installed - see Building from source.
Having compiled code also means that importing NumPy from the development sources needs some additional steps, which are explained below. For the rest of this chapter we assume that you have set up your git repo as described in Working with NumPy source code.
To build the development version of NumPy and run tests, spawn interactive shells with the Python import paths properly set up etc., do one of:
$ python runtests.py -v $ python runtests.py -v -s random $ python runtests.py -v -t numpy/core/tests/test_iter.py:test_iter_c_order $ python runtests.py --ipython $ python runtests.py --python somescript.py $ python runtests.py --bench $ python runtests.py -g -m full
This builds NumPy first, so the first time it may take a few minutes. If
-n, the tests are run against the version of NumPy (if
any) found on current PYTHONPATH.
When specifying a target using
arguments may be forwarded to the target embedded by
runtests.py by passing
the extra arguments after a bare
--. For example, to run a test method with
--pdb flag forwarded to nose, run the following:
$ python runtests.py -t numpy/tests/test_scripts.py:test_f2py -- --pdb
runtests.py is the recommended approach to running tests.
There are also a number of alternatives to it, for example in-place
build or installing to a virtualenv. See the FAQ below for details.
For development, you can set up an in-place build so that changes made to
.py files have effect without rebuild. First, run:
$ python setup.py build_ext -i
This allows you to import the in-place built NumPy from the repo base
directory only. If you want the in-place build to be visible outside that
base dir, you need to point your
PYTHONPATH environment variable to this
directory. Some IDEs (Spyder for example) have utilities to manage
PYTHONPATH. On Linux and OSX, you can run the command:
$ export PYTHONPATH=$PWD
and on Windows:
$ set PYTHONPATH=/path/to/numpy
Now editing a Python source file in NumPy allows you to immediately
test and use your changes (in
.py files), by simply restarting the
Note that another way to do an inplace build visible outside the repo base dir
python setup.py develop. Instead of adjusting
.egg-link file into your site-packages as well as adjusts the
easy-install.pth there, so its a more permanent (and magical) operation.
Other build options¶
It’s possible to do a parallel build with
numpy.distutils with the
see Parallel builds for more details.
In order to install the development version of NumPy in
python setup.py install --user.
A similar approach to in-place builds and use of
PYTHONPATH but outside the
source tree is to use:
$ python setup.py install --prefix /some/owned/folder $ export PYTHONPATH=/some/owned/folder/lib/python3.4/site-packages
A frequently asked question is “How do I set up a development version of NumPy in parallel to a released version that I use to do my job/research?”.
One simple way to achieve this is to install the released version in site-packages, by using a binary installer or pip for example, and set up the development version in a virtualenv. First install virtualenv (optionally use virtualenvwrapper), then create your virtualenv (named numpy-dev here) with:
$ virtualenv numpy-dev
Now, whenever you want to switch to the virtual environment, you can use the
source numpy-dev/bin/activate, and
deactivate to exit from the
virtual environment and back to your previous shell.
runtests.py, there are various ways to run the tests. Inside
the interpreter, tests can be run like this:
>>> np.test() >>> np.test('full') # Also run tests marked as slow >>> np.test('full', verbose=2) # Additionally print test name/file
Or a similar way from the command line:
$ python -c "import numpy as np; np.test()"
Tests can also be run with
nosetests numpy, however then the NumPy-specific
nose plugin is not found which causes tests marked as
be reported as errors.
Running individual test files can be useful; it’s much faster than running the
whole test suite or that of a whole module (example:
This can be done with:
$ python path_to_testfile/test_file.py
That also takes extra arguments, like
--pdb which drops you into the Python
debugger when a test fails or an exception is raised.
Running tests with tox is also supported. For example, to build NumPy and run the test suite with Python 3.4, use:
$ tox -e py34
For more extensive info on running and writing tests, see https://github.com/numpy/numpy/blob/master/doc/TESTS.rst.txt .
Note: do not run the tests from the root directory of your numpy git repo, that will result in strange test errors.
Rebuilding & cleaning the workspace¶
Rebuilding NumPy after making changes to compiled code can be done with the same build command as you used previously - only the changed files will be re-built. Doing a full build, which sometimes is necessary, requires cleaning the workspace first. The standard way of doing this is (note: deletes any uncommitted files!):
$ git clean -xdf
When you want to discard all changes and go back to the last commit in the repo, use one of:
$ git checkout . $ git reset --hard
Another frequently asked question is “How do I debug C code inside NumPy?”.
The easiest way to do this is to first write a Python script that invokes the C
code whose execution you want to debug. For instance
from numpy import linspace x = np.arange(5) np.empty_like(x)
Now, you can run:
$ gdb --args python runtests.py -g --python mytest.py
And then in the debugger:
(gdb) break array_empty_like (gdb) run
The execution will now stop at the corresponding C function and you can step
through it as usual. With the Python extensions for gdb installed (often the
default on Linux), a number of useful Python-specific commands are available.
For example to see where in the Python code you are, use
py-list. For more
details, see DebuggingWithGdb.
Instead of plain
gdb you can of course use your favourite
alternative debugger; run it on the python binary with arguments
runtests.py -g --python mytest.py.
Building NumPy with a Python built with debug support (on Linux distributions
typically packaged as
python-dbg) is highly recommended.
Understanding the code & getting started¶
The best strategy to better understand the code base is to pick something you want to change and start reading the code to figure out how it works. When in doubt, you can ask questions on the mailing list. It is perfectly okay if your pull requests aren’t perfect, the community is always happy to help. As a volunteer project, things do sometimes get dropped and it’s totally fine to ping us if something has sat without a response for about two to four weeks.
So go ahead and pick something that annoys or confuses you about numpy, experiment with the code, hang around for discussions or go through the reference documents to try to fix it. Things will fall in place and soon you’ll have a pretty good understanding of the project as a whole. Good Luck!