======================================================
Building and Distributing Packages with ``setuptools``
======================================================

``setuptools`` is a collection of enhancements to the Python ``distutils``
(for Python 2.3 and up) that allow you to more easily build and distribute
Python packages, especially ones that have dependencies on other packages.

Packages built and distributed using ``setuptools`` look to the user like
ordinary Python packages based on the ``distutils``.  Your users don't need to
install or even know about setuptools in order to use them, and you don't
have to include the entire setuptools package in your distributions.  By
including just a single `bootstrap module`_ (a 7K .py file), your package will
automatically download and install ``setuptools`` if the user is building your
package from source and doesn't have a suitable version already installed.

.. _bootstrap module: http://peak.telecommunity.com/dist/ez_setup.py

Feature Highlights:

* Automatically find/download/install/upgrade dependencies at build time using
  the `EasyInstall tool <http://peak.telecommunity.com/DevCenter/EasyInstall>`_,
  which supports downloading via HTTP, FTP, Subversion, and SourceForge, and
  automatically scans web pages linked from PyPI to find download links.  (It's
  the closest thing to CPAN currently available for Python.)

* Create `Python Eggs <http://peak.telecommunity.com/DevCenter/PythonEggs>`_ -
  a single-file importable distribution format 
  
* Include data files inside your package directories, where your code can
  actually use them.  (Python 2.4 distutils also supports this feature, but
  setuptools provides the feature for Python 2.3 packages also, and supports
  accessing data files in zipped packages too.)

* Automatically include all packages in your source tree, without listing them
  individually in setup.py

* Automatically include all relevant files in your source distributions,
  without needing to create a ``MANIFEST.in`` file, and without having to force
  regeneration of the ``MANIFEST`` file when your source tree changes.

* Transparent Pyrex support, so that your setup.py can list ``.pyx`` files and
  still work even when the end-user doesn't have Pyrex installed (as long as
  you include the Pyrex-generated C in your source distribution)

* Command aliases - create project-specific, per-user, or site-wide shortcut
  names for commonly used commands and options

* PyPI upload support - upload your source distributions and eggs to PyPI

* Deploy your project in "development mode", such that it's available on
  ``sys.path``, yet can still be edited directly from its source checkout.

* Easily extend the distutils with new commands or ``setup()`` arguments, and
  distribute/reuse your extensions for multiple projects, without copying code.

* Create extensible applications and frameworks that automatically discover
  extensions, using simple "entry points" declared in a project's setup script.


.. contents:: **Table of Contents**


-----------------
Developer's Guide
-----------------


Installing ``setuptools``
=========================

If you are behind an NTLM-based firewall that prevents Python programs from
accessing the net directly, you may wish to first install and use the `APS
proxy server <http://ntlmaps.sf.net/>`_, which lets you get past such firewalls
in the same way that your web browser(s) do.

If you do not have write access to your computer's ``site-packages`` directory,
please also see the EasyInstall documentation on `Non-Root Installation`_ for
more detailed instructions on pre-configuring your system for the best
usability with setuptools and EasyInstall, then return here for the remaining
steps.

.. _Non-Root Installation: http://peak.telecommunity.com/DevCenter/EasyInstall#non-root-installation

To install setuptools, first download `ez_setup.py`_ and run it; this will
automatically download and install the appropriate egg for your Python version.

.. _ez_setup.py: `bootstrap module`_

You may receive a message telling you about an obsolete version of
setuptools being present; if so, you must be sure to delete it entirely, along
with the old ``pkg_resources`` module if it's present on ``sys.path``.

To get the in-development version of setuptools, run::

    cvs -d:pserver:anonymous@cvs.sourceforge.net:/cvsroot/python login
    cvs -z3 -d:pserver:anonymous@cvs.sourceforge.net:/cvsroot/python \
        co -d setuptools python/nondist/sandbox/setuptools

You can then install it using the usual "setup.py install" incantation.

(Note that ``setuptools`` *must* be installed as an egg directory; it will not
operate correctly otherwise.  If you are unable to install to a valid
``site-packages`` directory (e.g. a "non-root install" that doesn't conform
to the `Non-Root Installation`_ procedure), you will therefore need to manually
add the setuptools egg to your ``PYTHONPATH``.  You won't need to do this for
every egg you install, because the ``pkg_resources`` module can automatically
find eggs and add them to ``sys.path`` at runtime.  It's just that the
``setuptools`` egg contains the ``pkg_resources`` runtime, and therefore has to
be manually bootstrapped if you can't install it to a valid ``site-packages``
directory.  However, if you are installing as root or you followed the
`Non-Root Installation`_ procedure, you shouldn't have to worry about any of
this.)


Basic Use
=========

For basic use of setuptools, just import things from setuptools instead of
the distutils.  Here's a minimal setup script using setuptools::

    from setuptools import setup, find_packages
    setup(
        name = "HelloWorld",
        version = "0.1",
        packages = find_packages(),
    )

As you can see, it doesn't take much to use setuptools in a project.
Just by doing the above, this project will be able to produce eggs, upload to
PyPI, and automatically include all packages in the directory where the
setup.py lives.  See the `Command Reference`_ section below to see what
commands you can give to this setup script.

Of course, before you release your project to PyPI, you'll want to add a bit
more information to your setup script to help people find or learn about your
project.  And maybe your project will have grown by then to include a few
dependencies, and perhaps some data files and scripts::
        
    from setuptools import setup, find_packages
    setup(
        name = "HelloWorld",
        version = "0.1",
        packages = find_packages(),
        scripts = ['say_hello.py'],

        # Project uses reStructuredText, so ensure that the docutils get
        # installed or upgraded on the target machine
        install_requires = ['docutils>=0.3'],

        package_data = {
            # If any package contains *.txt or *.rst files, include them:
            '': ['*.txt', '*.rst'],
            # And include any *.msg files found in the 'hello' package, too:
            'hello': ['*.msg'],
        }

        # metadata for upload to PyPI
        author = "Me",
        author_email = "me@example.com",
        description = "This is an Example Package",
        license = "PSF",
        keywords = "hello world example examples",
        url = "http://example.com/HelloWorld/",   # project home page, if any

        # could also include long_description, download_url, classifiers, etc.
    )

In the sections that follow, we'll explain what most of these ``setup()``
arguments do (except for the metadata ones), and the various ways you might use
them in your own project(s).


New and Changed ``setup()`` Keywords
====================================

The following keyword arguments to ``setup()`` are added or changed by
``setuptools``.  All of them are optional; you do not have to supply them
unless you need the associated ``setuptools`` feature.

``package_data``
    A dictionary mapping package names to lists of glob patterns.  For a
    complete description and examples, see the section below on `Including
    Data Files`_.

``zip_safe``
    A boolean (True or False) flag specifying whether the project can be
    safely installed and run from a zip file.  If this argument is not
    supplied, the ``bdist_egg`` command will have to analyze all of your
    project's contents for possible problems each time it buids an egg.

``install_requires``
    A string or list of strings specifying what other distributions need to
    be installed when this one is.  See the section below on `Declaring
    Dependencies`_ for details and examples of the format of this argument.

``entry_points``
    A dictionary mapping entry point group names to strings or lists of strings
    defining the entry points.  Entry points are used to support dynamic
    discovery of services or plugins provided by a project.  See `Dynamic
    Discovery of Services and Plugins`_ for details and examples of the format
    of this argument.

``extras_require``
    A dictionary mapping names of "extras" (optional features of your project)
    to strings or lists of strings specifying what other distributions must be
    installed to support those features.  See the section below on `Declaring
    Dependencies`_ for details and examples of the format of this argument.

``setup_requires``
    A string or list of strings specifying what other distributions need to
    be present in order for the *setup script* to run.  ``setuptools`` will
    attempt to obtain these (even going so far as to download them using
    ``EasyInstall``) before processing the rest of the setup script or commands.
    This argument is needed if you are using distutils extensions as part of
    your build process; for example, extensions that process setup() arguments
    and turn them into EGG-INFO metadata files.

``namespace_packages``
    A list of strings naming the project's "namespace packages".  A namespace
    package is a package that may be split across multiple project
    distributions.  For example, Zope 3's ``zope`` package is a namespace
    package, because subpackages like ``zope.interface`` and ``zope.publisher``
    may be distributed separately.  The egg runtime system can automatically
    merge such subpackages into a single parent package at runtime, as long
    as you declare them in each project that contains any subpackages of the
    namespace package, and as long as the namespace package's ``__init__.py``
    does not contain any code.  See the section below on `Namespace Packages`_
    for more information.

``test_suite``
    A string naming a ``unittest.TestCase`` subclass (or a module containing
    one or more of them, or a method of such a subclass), or naming a function
    that can be called with no arguments and returns a ``unittest.TestSuite``.
    Specifying this argument enables use of the `test`_ command to run the
    specified test suite, e.g. via ``setup.py test``.  See the section on the
    `test`_ command below for more details.

``eager_resources``
    A list of strings naming resources that should be extracted together, if
    any of them is needed, or if any C extensions included in the project are
    imported.  This argument is only useful if the project will be installed as
    a zipfile, and there is a need to have all of the listed resources be
    extracted to the filesystem *as a unit*.  Resources listed here
    should be '/'-separated paths, relative to the source root, so to list a
    resource ``foo.png`` in package ``bar.baz``, you would include the string
    ``bar/baz/foo.png`` in this argument.

    If you only need to obtain resources one at a time, or you don't have any C
    extensions that access other files in the project (such as data files or
    shared libraries), you probably do NOT need this argument and shouldn't
    mess with it.  For more details on how this argument works, see the section
    below on `Automatic Resource Extraction`_.


Using ``find_packages()``
-------------------------

For simple projects, it's usually easy enough to manually add packages to
the ``packages`` argument of ``setup()``.  However, for very large projects
(Twisted, PEAK, Zope, Chandler, etc.), it can be a big burden to keep the
package list updated.  That's what ``setuptools.find_packages()`` is for.

``find_packages()`` takes a source directory, and a list of package names or
patterns to exclude.  If omitted, the source directory defaults to the same
directory as the setup script.  Some projects use a ``src`` or ``lib``
directory as the root of their source tree, and those projects would of course
use ``"src"`` or ``"lib"`` as the first argument to ``find_packages()``.  (And
such projects also need something like ``package_dir = {'':'src'}`` in their
``setup()`` arguments, but that's just a normal distutils thing.)

Anyway, ``find_packages()`` walks the target directory, and finds Python
packages by looking for ``__init__.py`` files.  It then filters the list of
packages using the exclusion patterns.  

Exclusion patterns are package names, optionally including wildcards.  For
example, ``find_packages(exclude=["*.tests"])`` will exclude all packages whose
last name part is ``tests``.   Or, ``find_packages(exclude=["*.tests",
"*.tests.*"])`` will also exclude any subpackages of packages named ``tests``,
but it still won't exclude a top-level ``tests`` package or the children
thereof.  In fact, if you really want no ``tests`` packages at all, you'll need
something like this::

    find_packages(exclude=["*.tests", "*.tests.*", "tests.*", "tests"])

in order to cover all the bases.  Really, the exclusion patterns are intended
to cover simpler use cases than this, like excluding a single, specified
package and its subpackages.

Regardless of the target directory or exclusions, the ``find_packages()``
function returns a list of package names suitable for use as the ``packages``
argument to ``setup()``, and so is usually the easiest way to set that
argument in your setup script.  Especially since it frees you from having to
remember to modify your setup script whenever your project grows additional
top-level packages or subpackages.


Declaring Dependencies
======================

``setuptools`` supports automatically installing dependencies when a package is
installed, and including information about dependencies in Python Eggs (so that
package management tools like EasyInstall can use the information).

``setuptools`` and ``pkg_resources`` use a common syntax for specifying a
project's required dependencies.  This syntax consists of a project's PyPI
name, optionally followed by a comma-separated list of "extras" in square
brackets, optionally followed by a comma-separated list of version
specifiers.  A version specifier is one of the operators ``<``, ``>``, ``<=``,
``>=``, ``==`` or ``!=``, followed by a version identifier.  Tokens may be
separated by whitespace, but any whitespace or nonstandard characters within a
project name or version identifier must be replaced with ``-``.

Here are some example requirement specifiers::

    docutils >= 0.3

    # comment lines and \ continuations are allowed in requirement strings
    BazSpam ==1.1, ==1.2, ==1.3, ==1.4, ==1.5, \
        ==1.6, ==1.7  # and so are line-end comments

    PEAK[FastCGI, reST]>=0.5a4

    setuptools==0.5a7

The simplest way to include requirement specifiers is to use the
``install_requires`` argument to ``setup()``.  It takes a string or list of
strings containing requirement specifiers.  If you include more than one
requirement in a string, each requirement must begin on a new line.

This has three effects:

1. When your project is installed, either by using EasyInstall, ``setup.py
   install``, or ``setup.py develop``, all of the dependencies not already
   installed will be located (via PyPI), downloaded, built (if necessary),
   and installed.

2. Any scripts in your project will be installed with wrappers that verify
   the availability of the specified dependencies at runtime, and ensure that
   the correct versions are added to ``sys.path`` (e.g. if multiple versions
   have been installed).

3. Python Egg distributions will include a metadata file listing the
   dependencies.

Note, by the way, that if you declare your dependencies in ``setup.py``, you do
*not* need to use the ``require()`` function in your scripts or modules, as
long as you either install the project or use ``setup.py develop`` to do
development work on it.  (See `"Development Mode"`_ below for more details on
using ``setup.py develop``.)


Declaring "Extras" (optional features with their own dependencies)
------------------------------------------------------------------

Sometimes a project has "recommended" dependencies, that are not required for
all uses of the project.  For example, a project might offer optional PDF
output if ReportLab is installed, and reStructuredText support if docutils is
installed.  These optional features are called "extras", and setuptools allows
you to define their requirements as well.  In this way, other projects that
require these optional features can force the additional requirements to be
installed, by naming the desired extras in their ``install_requires``.

For example, let's say that Project A offers optional PDF and reST support::

    setup(
        name="Project-A",
        ...
        extras_require = {
            'PDF':  ["ReportLab>=1.2", "RXP"],
            'reST': ["docutils>=0.3"],
        }
    )

And that project B needs project A, *with* PDF support::

    setup(
        name="Project-B",
        install_requires = ["Project-A[PDF]"],
        ...
    )

This will cause ReportLab to be installed along with project A, if project B is
installed -- even if project A was already installed.  In this way, a project
can encapsulate groups of optional "downstream dependencies" under a feature
name, so that packages that depend on it don't have to know what the downstream
dependencies are.  If a later version of Project A builds in PDF support and
no longer needs ReportLab, or if it ends up needing other dependencies besides
ReportLab in order to provide PDF support, Project B's setup information does
not need to change, but the right packages will still be installed if needed.

As you can see, the ``extras_require`` argument takes a dictionary mapping
names of "extra" features, to strings or lists of strings describing those
features' requirements.  These requirements will *not* be automatically
installed unless another package depends on them (directly or indirectly) by
including the desired "extras" in square brackets after the associated project
name.  (Or if the extras were listed in a requirement spec on the EasyInstall
command line.)

Note, by the way, that if a project ends up not needing any other packages to
support a feature, it should keep an empty requirements list for that feature
in its ``extras_require`` argument, so that packages depending on that feature
don't break (due to an invalid feature name).  For example, if Project A above
builds in PDF support and no longer needs ReportLab, it should change its
setup to this::

    setup(
        name="Project-A",
        ...
        extras_require = {
            'PDF':  [],
            'reST': ["docutils>=0.3"],
        }
    )

so that Package B doesn't have to remove the ``[PDF]`` from its requirement
specifier.



Including Data Files
====================

The distutils have traditionally allowed installation of "data files", which
are placed in a platform-specific location.  However, the most common use case
for data files distributed with a package is for use *by* the package, usually
by including the data files in the package directory.  Setuptools supports this
by allowing a ``package_data`` argument to ``setup()``, e.g.::

    from setuptools import setup, find_packages
    setup(
        ...
        package_data = {
            # If any package contains *.txt or *.rst files, include them:
            '': ['*.txt', '*.rst'],
            # And include any *.msg files found in the 'hello' package, too:
            'hello': ['*.msg'],
        }
    )

The ``package_data`` argument is a dictionary that maps from package names to
lists of glob patterns.  The globs may include subdirectory names, if the data
files are contained in a subdirectory of the package.  For example, if the
package tree looks like this::

    setup.py
    src/
        mypkg/
            __init__.py
            mypkg.txt
            data/
                somefile.dat
                otherdata.dat

The setuptools setup file might look like this::

    from setuptools import setup, find_packages
    setup(
        ...
        packages = find_packages('src'),  # include all packages under src
        package_dir = {'':'src'},   # tell distutils packages are under src
        
        package_data = {
            # If any package contains *.txt files, include them:
            '': ['*.txt'],
            # And include any *.dat files found in the 'data' subdirectory
            # of the 'mypkg' package, also:
            'mypkg': ['data/*.dat'],
        }
    )

Notice that if you list patterns in ``package_data`` under the empty string,
these patterns are used to find files in every package, even ones that also
have their own patterns listed.  Thus, in the above example, the ``mypkg.txt``
file gets included even though it's not listed in the patterns for ``mypkg``.

Also notice that if you use paths, you *must* use a forward slash (``/``) as
the path separator, even if you are on Windows.  Setuptools automatically
converts slashes to appropriate platform-specific separators at build time.

(Note: although the ``package_data`` argument was previously only available in
``setuptools``, it was also added to the Python ``distutils`` package as of
Python 2.4; there is `some documentation for the feature`__ available on the
python.org website.)

__ http://docs.python.org/dist/node11.html 



Accessing Data Files at Runtime
-------------------------------

Typically, existing programs manipulate a package's ``__file__`` attribute in
order to find the location of data files.  However, this manipulation isn't
compatible with PEP 302-based import hooks, including importing from zip files
and Python Eggs.  It is strongly recommended that, if you are using data files,
you should use the `Resource Management API`_ of ``pkg_resources`` to access
them.  The ``pkg_resources`` module is distributed as part of setuptools, so if
you're using setuptools to distribute your package, there is no reason not to
use its resource management API.  See also `Accessing Package Resources`_ for
a quick example of converting code that uses ``__file__`` to use
``pkg_resources`` instead.

.. _Resource Management API: http://peak.telecommunity.com/DevCenter/PythonEggs#resource-management
.. _Accessing Package Resources: http://peak.telecommunity.com/DevCenter/PythonEggs#accessing-package-resources


Non-Package Data Files
----------------------

The ``distutils`` normally install general "data files" to a platform-specific
location (e.g. ``/usr/share``).  This feature intended to be used for things
like documentation, example configuration files, and the like.  ``setuptools``
does not install these data files in a separate location, however.  They are
bundled inside the egg file or directory, alongside the Python modules and
packages.  The data files can also be accessed using the `Resource Management
API`_, by specifying a ``Requirement`` instead of a package name::

    from pkg_resources import Requirement, resource_filename
    filename = resource_filename(Requirement.parse("MyProject"),"sample.conf")

The above code will obtain the filename of the "sample.conf" file in the data
root of the "MyProject" distribution.

Note, by the way, that this encapsulation of data files means that you can't
actually install data files to some arbitrary location on a user's machine;
this is a feature, not a bug.  You can always include a script in your
distribution that extracts and copies your the documentation or data files to
a user-specified location, at their discretion.  If you put related data files
in a single directory, you can use ``resource_filename()`` with the directory
name to get a filesystem directory that then can be copied with the ``shutil``
module.  (Even if your package is installed as a zipfile, calling
``resource_filename()`` on a directory will return an actual filesystem
directory, whose contents will be that entire subtree of your distribution.)

(Of course, if you're writing a new package, you can just as easily place your
data files or directories inside one of your packages, rather than using the
distutils' approach.  However, if you're updating an existing application, it
may be simpler not to change the way it currently specifies these data files.)


Automatic Resource Extraction
-----------------------------

If you are using tools that expect your resources to be "real" files, or your
project includes non-extension native libraries or other files that your C
extensions expect to be able to access, you may need to list those files in
the ``eager_resources`` argument to ``setup()``, so that the files will be
extracted together, whenever a C extension in the project is imported.  This
is especially important if your project includes shared libraries *other* than
distutils-built C extensions.  Those shared libraries should be listed as
``eager_resources``, because they need to be present in the filesystem when the
C extensions that link to them are used.

The ``pkg_resources`` runtime for compressed packages will automatically
extract *all* C extensions and ``eager_resources`` at the same time, whenever
*any* C extension or eager resource is requested via the ``resource_filename()``
API.  (C extensions are imported using ``resource_filename()`` internally.)
This ensures that C extensions will see all of the "real" files that they
expect to see.

Note also that you can list directory resource names in ``eager_resources`` as
well, in which case the directory's contents (including subdirectories) will be
extracted whenever any C extension or eager resource is requested.

Please note that if you're not sure whether you need to use this argument, you
don't!  It's really intended to support projects with lots of non-Python
dependencies and as a last resort for crufty projects that can't otherwise
handle being compressed.  If your package is pure Python, Python plus data
files, or Python plus C, you really don't need this.  You've got to be using
either C or an external program that needs "real" files in your project before
there's any possibility of ``eager_resources`` being relevant to your project.


Extensible Applications and Frameworks
======================================


Dynamic Discovery of Services and Plugins
-----------------------------------------

``setuptools`` supports creating libraries that "plug in" to extensible
applications and frameworks, by letting you register "entry points" in your
project that can be imported by the application or framework.

For example, suppose that a blogging tool wants to support plugins
that provide translation for various file types to the blog's output format.
The framework might define an "entry point group" called ``blogtool.parsers``,
and then allow plugins to register entry points for the file extensions they
support.

This would allow people to create distributions that contain one or more
parsers for different file types, and then the blogging tool would be able to
find the parsers at runtime by looking up an entry point for the file
extension (or mime type, or however it wants to).

Note that if the blogging tool includes parsers for certain file formats, it
can register these as entry points in its own setup script, which means it
doesn't have to special-case its built-in formats.  They can just be treated
the same as any other plugin's entry points would be.

If you're creating a project that plugs in to an existing application or
framework, you'll need to know what entry points or entry point groups are
defined by that application or framework.  Then, you can register entry points
in your setup script.  Here are a few examples of ways you might register an
``.rst`` file parser entry point in the ``blogtool.parsers`` entry point group,
for our hypothetical blogging tool::

    setup(
        # ...
        entry_points = {'blogtool.parsers': '.rst = some_module:SomeClass'}
    )

    setup(
        # ...
        entry_points = {'blogtool.parsers': ['.rst = some_module:a_func']}
    )

    setup(
        # ...
        entry_points = """
            [blogtool.parsers]
            .rst = some.nested.module:SomeClass.some_classmethod [reST]
        """,
        extras_require = dict(reST = "Docutils>=0.3.5")
    )

The ``entry_points`` argument to ``setup()`` accepts either a string with
``.ini``-style sections, or a dictionary mapping entry point group names to
either strings or lists of strings containing entry point specifiers.  An
entry point specifier consists of a name and value, separated by an ``=``
sign.  The value consists of a dotted module name, optionally followed by a
``:`` and a dotted identifier naming an object within the module.  It can
also include a bracketed list of "extras" that are required for the entry
point to be used.  When the invoking application or framework requests loading
of an entry point, any requirements implied by the associated extras will be
passed to ``pkg_resources.require()``, so that an appropriate error message
can be displayed if the needed package(s) are missing.  (Of course, the
invoking app or framework can ignore such errors if it wants to make an entry
point optional if a requirement isn't installed.)


Defining Additional Metadata
----------------------------

Some extensible applications and frameworks may need to define their own kinds
of metadata to include in eggs, which they can then access using the
``pkg_resources`` metadata APIs.  Ordinarily, this is done by having plugin
developers include additional files in their ``ProjectName.egg-info``
directory.  However, since it can be tedious to create such files by hand, you
may want to create a distutils extension that will create the necessary files
from arguments to ``setup()``, in much the same way that ``setuptools`` does
for many of the ``setup()`` arguments it adds.  See the section below on
`Creating distutils Extensions`_ for more details, especially the subsection on
`Adding new EGG-INFO Files`_.


"Development Mode"
==================

Under normal circumstances, the ``distutils`` assume that you are going to
build a distribution of your project, not use it in its "raw" or "unbuilt"
form.  If you were to use the ``distutils`` that way, you would have to rebuild
and reinstall your project every time you made a change to it during
development.

Another problem that sometimes comes up with the ``distutils`` is that you may
need to do development on two related projects at the same time.  You may need
to put both projects' packages in the same directory to run them, but need to
keep them separate for revision control purposes.  How can you do this?

Setuptools allows you to deploy your projects for use in a common directory or
staging area, but without copying any files.  Thus, you can edit each project's
code in its checkout directory, and only need to run build commands when you
change a project's C extensions or similarly compiled files.  You can even
deploy a project into another project's checkout directory, if that's your
preferred way of working (as opposed to using a common independent staging area
or the site-packages directory).

To do this, use the ``setup.py develop`` command.  It works very similarly to
``setup.py install`` or the EasyInstall tool, except that it doesn't actually
install anything.  Instead, it creates a special ``.egg-link`` file in the
deployment directory, that links to your project's source code.  And, if your
deployment directory is Python's ``site-packages`` directory, it will also
update the ``easy-install.pth`` file to include your project's source code,
thereby making it available on ``sys.path`` for all programs using that Python
installation.

In addition, the ``develop`` command creates wrapper scripts in the target
script directory that will run your in-development scripts after ensuring that
all your ``install_requires`` packages are available on ``sys.path``.

You can deploy the same project to multiple staging areas, e.g. if you have
multiple projects on the same machine that are sharing the same project you're
doing development work.

When you're done with a given development task, you can remove the project
source from a staging area using ``setup.py develop --uninstall``, specifying
the desired staging area if it's not the default.

There are several options to control the precise behavior of the ``develop``
command; see the section on the `develop`_ command below for more details.


Distributing a ``setuptools``-based package
===========================================


Using ``setuptools``...  Without bundling it!
---------------------------------------------

Your users might not have ``setuptools`` installed on their machines, or even
if they do, it might not be the right version.  Fixing this is easy; just
download `ez_setup.py`_, and put it in the same directory as your ``setup.py``
script.  (Be sure to add it to your revision control system, too.)  Then add
these two lines to the very top of your setup script, before the script imports
anything from setuptools::

    import ez_setup
    ez_setup.use_setuptools()

That's it.  The ``ez_setup`` module will automatically download a matching
version of ``setuptools`` from PyPI, if it isn't present on the target system.
Whenever you install an updated version of setuptools, you should also update
your projects' ``ez_setup.py`` files, so that a matching version gets installed
on the target machine(s).

By the way, setuptools supports the new PyPI "upload" command, so you can use
``setup.py sdist upload`` or ``setup.py bdist_egg upload`` to upload your
source or egg distributions respectively.  Your project's current version must
be registered with PyPI first, of course; you can use ``setup.py register`` to
do that.  Or you can do it all in one step, e.g. ``setup.py register sdist
bdist_egg upload`` will register the package, build source and egg
distributions, and then upload them both to PyPI, where they'll be easily
found by other projects that depend on them.


Managing Multiple Projects
--------------------------

If you're managing several projects that need to use ``ez_setup``, and you are
using Subversion as your revision control system, you can use the
"svn:externals" property to share a single copy of ``ez_setup`` between
projects, so that it will always be up-to-date whenever you check out or update
an individual project, without having to manually update each project to use
a new version.

However, because Subversion only supports using directories as externals, you
have to turn ``ez_setup.py`` into ``ez_setup/__init__.py`` in order to do this,
then create "externals" definitions that map the ``ez_setup`` directory into
each project.  Also, if any of your projects use ``find_packages()`` on their
setup directory, you will need to exclude the resulting ``ez_setup`` package,
to keep it from being included in your distributions, e.g.::

    setup(
        ...
        packages = find_packages(exclude=['ez_setup']),
    )

Of course, the ``ez_setup`` package will still be included in your packages'
source distributions, as it needs to be.

For your convenience, you may use the following external definition, which will
track the latest version of setuptools::

    ez_setup svn://svn.eby-sarna.com/svnroot/ez_setup

You can set this by executing this command in your project directory::

    svn propedit svn:externals .

And then adding the line shown above to the file that comes up for editing.


Setting the ``zip_safe`` flag
-----------------------------

For maximum performance, Python packages are best installed as zip files.
Not all packages, however, are capable of running in compressed form, because
they may expect to be able to access either source code or data files as
normal operating system files.  So, ``setuptools`` can install your project
as a zipfile or a directory, and its default choice is determined by the
project's ``zip_safe`` flag.

You can pass a True or False value for the ``zip_safe`` argument to the
``setup()`` function, or you can omit it.  If you omit it, the ``bdist_egg``
command will analyze your project's contents to see if it can detect any
conditions that would prevent it from working in a zipfile.  It will output
notices to the console about any such conditions that it finds.

Currently, this analysis is extremely conservative: it will consider the
project unsafe if it contains any C extensions or datafiles whatsoever.  This
does *not* mean that the project can't or won't work as a zipfile!  It just
means that the ``bdist_egg`` authors aren't yet comfortable asserting that
the project *will* work.  If the project contains no C or data files, and does
no ``__file__`` or ``__path__`` introspection or source code manipulation, then
there is an extremely solid chance the project will work when installed as a
zipfile.  (And if the project uses ``pkg_resources`` for all its data file
access, then C extensions and other data files shouldn't be a problem at all.
See the `Accessing Data Files at Runtime`_ section above for more information.)

However, if ``bdist_egg`` can't be *sure* that your package will work, but
you've checked over all the warnings it issued, and you are either satisfied it
*will* work (or if you want to try it for yourself), then you should set
``zip_safe`` to ``True`` in your ``setup()`` call.  If it turns out that it
doesn't work, you can always change it to ``False``, which will force
``setuptools`` to install your project as a directory rather than as a zipfile.

Of course, the end-user can still override either decision, if they are using
EasyInstall to install your package.  And, if you want to override for testing
purposes, you can just run ``setup.py easy_install --zip-ok .`` or ``setup.py
easy_install --always-unzip .`` in your project directory. to install the
package as a zipfile or directory, respectively.

In the future, as we gain more experience with different packages and become
more satisfied with the robustness of the ``pkg_resources`` runtime, the
"zip safety" analysis may become less conservative.  However, we strongly
recommend that you determine for yourself whether your project functions
correctly when installed as a zipfile, correct any problems if you can, and
then make an explicit declaration of ``True`` or ``False`` for the ``zip_safe``
flag, so that it will not be necessary for ``bdist_egg`` or ``EasyInstall`` to
try to guess whether your project can work as a zipfile.


Namespace Packages
------------------

Sometimes, a large package is more useful if distributed as a collection of
smaller eggs.  However, Python does not normally allow the contents of a
package to be retrieved from more than one location.  "Namespace packages"
are a solution for this problem.  When you declare a package to be a namespace
package, it means that the package has no meaningful contents in its
``__init__.py``, and that it is merely a container for modules and subpackages.

The ``pkg_resources`` runtime will automatically ensure that the contents of
namespace packages that are spread over multiple eggs or directories are
combined into a single virtual package.

The ``namespace_packages`` argument to ``setup()`` lets you declare your
project's namespace packages, so that they will be included in your project's
metadata.  Then, the runtime will automatically detect this when it adds the
distribution to ``sys.path``, and ensure that the packages are properly merged.

The argument should list the namespace packages that the egg participates in.
For example, the ZopeInterface project might do this::

    setup(
        # ...
        namespace_packages = ['zope']
    )

because it contains a ``zope.interface`` package that lives in the ``zope``
namespace package.  Similarly, a project for a standalone ``zope.publisher``
would also declare the ``zope`` namespace package.

Namespace packages don't have to be top-level packages.  For example, Zope 3's
``zope.app`` package is a namespace package, and in the future PEAK's
``peak.util`` package will be too.

Note, by the way, that your project's source tree must include the namespace
packages' ``__init__.py`` files (and the ``__init__.py`` of any parent
packages), in a normal Python package layout.  These ``__init__.py`` files
should not contain any code or data, because only *one* egg's ``__init__.py``
files will be used to construct the parent packages in memory at runtime, and
there is no guarantee which egg will be used.

For example, if both ``zope.interface`` and ``zope.publisher`` have been
installed from separate distributions, it is unspecified which of the two
distributions' ``zope/__init__.py`` files will be used to create the ``zope``
package in memory.  Therefore, it is better not to have any code or data in
a namespace package's ``__init__`` module, so as to prevent any complications.

(This is one reason the concept is called a "namespace package": it is a
package that exists *only* to provide a namespace under which other modules or
packages are gathered.  In Java, for example, namespace packages are often used
just to avoid naming collisions between different projects, using package names
like ``org.apache`` as a namespace for packages that are part of apache.org
projects.)


Tagging and "Daily Build" or "Snapshot" Releases
------------------------------------------------

When a set of related projects are under development, it may be important to
track finer-grained version increments than you would normally use for e.g.
"stable" releases.  While stable releases might be measured in dotted numbers
with alpha/beta/etc. status codes, development versions of a project often
need to be tracked by revision or build number or even build date.  This is
especially true when projects in development need to refer to one another, and
therefore may literally need an up-to-the-minute version of something!

To support these scenarios, ``setuptools`` allows you to "tag" your source and
egg distributions by adding one or more of the following to the project's
"official" version identifier:

* An identifying string, such as "build" or "dev", or a manually-tracked build
  or revision number (``--tag-build=STRING, -bSTRING``)

* A "last-modified revision number" string generated automatically from 
  Subversion's metadata (assuming your project is being built from a Subversion
  "working copy")  (``--tag-svn-revision, -r``)

* An 8-character representation of the build date (``--tag-date, -d``)

You can add these tags by adding ``egg_info`` and the desired options to
the command line ahead of the ``sdist`` or ``bdist`` commands that you want
to generate a daily build or snapshot for.  See the section below on the
`egg_info`_ command for more details.

Also, if you are creating builds frequently, and either building them in a
downloadable location or are copying them to a distribution server, you should
probably also check out the `rotate`_ command, which lets you automatically
delete all but the N most-recently-modified distributions matching a glob
pattern.  So, you can use a command line like::

    setup.py egg_info -rbDEV bdist_egg rotate -m.egg -k3

to build an egg whose version info includes 'DEV-rNNNN' (where NNNN is the
most recent Subversion revision that affected the source tree), and then
delete any egg files from the distribution directory except for the three
that were built most recently.

If you have to manage automated builds for multiple packages, each with
different tagging and rotation policies, you may also want to check out the
`alias`_ command, which would let each package define an alias like ``daily``
that would perform the necessary tag, build, and rotate commands.  Then, a
simpler script or cron job could just run ``setup.py daily`` in each project
directory.  (And, you could also define sitewide or per-user default versions
of the ``daily`` alias, so that projects that didn't define their own would
use the appropriate defaults.)


Generating Source Distributions
-------------------------------

``setuptools`` enhances the distutils' default algorithm for source file
selection, so that all files managed by CVS or Subversion in your project tree
are included in any source distribution you build.  This is a big improvement
over having to manually write a ``MANIFEST.in`` file and try to keep it in
sync with your project.  So, if you are using CVS or Subversion, and your
source distributions only need to include files that you're tracking in
revision control, don't create a a ``MANIFEST.in`` file for your project.
(And, if you already have one, you might consider deleting it the next time
you would otherwise have to change it.)

Unlike the distutils, ``setuptools`` regenerates the source distribution
``MANIFEST`` file every time you build a source distribution, as long as you
*don't* have a ``MANIFEST.in`` file.  If you do have a ``MANIFEST.in`` (e.g.
because you aren't using CVS or Subversion), then you'll have to follow the
normal distutils procedures for managing what files get included in a source
distribution, and setuptools' enhanced algorithms will *not* be used.

(Note, by the way, that if you're using some other revision control system, you
might consider submitting a patch to the ``setuptools.command.sdist`` module
so we can include support for it, too.)


Making your package available for EasyInstall
---------------------------------------------

If you use the ``register`` command (``setup.py register``) to register your
package with PyPI, that's most of the battle right there.  (See the
`docs for the register command`_ for more details.)

.. _docs for the register command: http://docs.python.org/dist/package-index.html

If you also use the `upload`_ command to upload actual distributions of your
package, that's even better, because EasyInstall will be able to find and
download them directly from your project's PyPI page.

However, there may be reasons why you don't want to upload distributions to
PyPI, and just want your existing distributions (or perhaps a Subversion
checkout) to be used instead.

So here's what you need to do before running the ``register`` command.  There
are three ``setup()`` arguments that affect EasyInstall:

``url`` and ``download_url``
   These become links on your project's PyPI page.  EasyInstall will examine
   them to see if they link to a package ("primary links"), or whether they are
   HTML pages.  If they're HTML pages, EasyInstall scans all HREF's on the
   page for primary links

``long_description``
   EasyInstall will check any URLs contained in this argument to see if they
   are primary links.

A URL is considered a "primary link" if it is a link to a .tar.gz, .tgz, .zip,
.egg, .egg.zip, .tar.bz2, or .exe file, or if it has an ``#egg=project`` or
``#egg=project-version`` fragment identifier attached to it.  EasyInstall
attempts to determine a project name and optional version number from the text
of a primary link *without* downloading it.  When it has found all the primary
links, EasyInstall will select the best match based on requested version,
platform compatibility, and other criteria.

So, if your ``url`` or ``download_url`` point either directly to a downloadable
source distribution, or to HTML page(s) that have direct links to such, then
EasyInstall will be able to locate downloads automatically.  If you want to
make Subversion checkouts available, then you should create links with either
``#egg=project`` or ``#egg=project-version`` added to the URL (replacing
``project`` and ``version`` with appropriate values).

Note that Subversion checkout links are of lower precedence than other kinds
of distributions, so EasyInstall will not select a Subversion checkout for
downloading unless it has a version included in the ``#egg=`` suffix, and
it's a higher version than EasyInstall has seen in any other links for your
project.

As a result, it's a common practice to use mark checkout URLs with a version of
"dev" (i.e., ``#egg=projectname-dev``), so that users can do something like
this::

    easy_install --editable projectname==dev

in order to check out the in-development version of ``projectname``.


Distributing Extensions compiled with Pyrex
-------------------------------------------

``setuptools`` includes transparent support for building Pyrex extensions, as
long as you define your extensions using ``setuptools.Extension``, *not*
``distutils.Extension``.  You must also not import anything from Pyrex in
your setup script.

If you follow these rules, you can safely list ``.pyx`` files as the source
of your ``Extension`` objects in the setup script.  ``setuptools`` will detect
at build time whether Pyrex is installed or not.  If it is, then ``setuptools``
will use it.  If not, then ``setuptools`` will silently change the
``Extension`` objects to refer to the ``.c`` counterparts of the ``.pyx``
files, so that the normal distutils C compilation process will occur.

Of course, for this to work, your source distributions must include the C
code generated by Pyrex, as well as your original ``.pyx`` files.  This means
that you will probably want to include current ``.c`` files in your revision
control system, rebuilding them whenever you check changes in for the ``.pyx``
source files.  This will ensure that people tracking your project in CVS or
Subversion will be able to build it even if they don't have Pyrex installed,
and that your source releases will be similarly usable with or without Pyrex.




-----------------
Command Reference
-----------------

.. _alias:

``alias`` - Define shortcuts for commonly used commands
=======================================================

Sometimes, you need to use the same commands over and over, but you can't
necessarily set them as defaults.  For example, if you produce both development
snapshot releases and "stable" releases of a project, you may want to put
the distributions in different places, or use different ``egg_info`` tagging
options, etc.  In these cases, it doesn't make sense to set the options in
a distutils configuration file, because the values of the options changed based
on what you're trying to do.

Setuptools therefore allows you to define "aliases" - shortcut names for
an arbitrary string of commands and options, using ``setup.py alias aliasname
expansion``, where aliasname is the name of the new alias, and the remainder of
the command line supplies its expansion.  For example, this command defines
a sitewide alias called "daily", that sets various ``egg_info`` tagging
options::

    setup.py alias --global-config daily egg_info --tag-svn-revision \
        --tag-build=development

Once the alias is defined, it can then be used with other setup commands,
e.g.::

    setup.py daily bdist_egg        # generate a daily-build .egg file
    setup.py daily sdist            # generate a daily-build source distro
    setup.py daily sdist bdist_egg  # generate both

The above commands are interpreted as if the word ``daily`` were replaced with
``egg_info --tag-svn-revision --tag-build=development``.

Note that setuptools will expand each alias *at most once* in a given command
line.  This serves two purposes.  First, if you accidentally create an alias
loop, it will have no effect; you'll instead get an error message about an
unknown command.  Second, it allows you to define an alias for a command, that
uses that command.  For example, this (project-local) alias::

    setup.py alias bdist_egg bdist_egg rotate -k1 -m.egg

redefines the ``bdist_egg`` command so that it always runs the ``rotate``
command afterwards to delete all but the newest egg file.  It doesn't loop
indefinitely on ``bdist_egg`` because the alias is only expanded once when
used.

You can remove a defined alias with the ``--remove`` (or ``-r``) option, e.g.::

    setup.py alias --global-config --remove daily

would delete the "daily" alias we defined above.

Aliases can be defined on a project-specific, per-user, or sitewide basis.  The
default is to define or remove a project-specific alias, but you can use any of
the `configuration file options`_ (listed under the `saveopts`_ command, below)
to determine which distutils configuration file an aliases will be added to
(or removed from).

Note that if you omit the "expansion" argument to the ``alias`` command,
you'll get output showing that alias' current definition (and what
configuration file it's defined in).  If you omit the alias name as well,
you'll get a listing of all current aliases along with their configuration
file locations.


``bdist_egg`` - Create a Python Egg for the project
===================================================

This command generates a Python Egg (``.egg`` file) for the project.  Python
Eggs are the preferred binary distribution format for EasyInstall, because they
are cross-platform (for "pure" packages), directly importable, and contain
project metadata including scripts and information about the project's
dependencies.  They can be simply downloaded and added to ``sys.path``
directly, or they can be placed in a directory on ``sys.path`` and then
automatically discovered by the egg runtime system.

This command runs the `egg_info`_ command (if it hasn't already run) to update
the project's metadata (``.egg-info``) directory.  If you have added any extra
metadata files to the ``.egg-info`` directory, those files will be included in
the new egg file's metadata directory, for use by the egg runtime system or by
any applications or frameworks that use that metadata.

You won't usually need to specify any special options for this command; just
use ``bdist_egg`` and you're done.  But there are a few options that may
be occasionally useful:

``--dist-dir=DIR, -d DIR``
    Set the directory where the ``.egg`` file will be placed.  If you don't
    supply this, then the ``--dist-dir`` setting of the ``bdist`` command
    will be used, which is usually a directory named ``dist`` in the project
    directory.

``--plat-name=PLATFORM, -p PLATFORM``
    Set the platform name string that will be embedded in the egg's filename
    (assuming the egg contains C extensions).  This can be used to override
    the distutils default platform name with something more meaningful.  Keep
    in mind, however, that the egg runtime system expects to see eggs with
    distutils platform names, so it may ignore or reject eggs with non-standard
    platform names.  Similarly, the EasyInstall program may ignore them when
    searching web pages for download links.  However, if you are
    cross-compiling or doing some other unusual things, you might find a use
    for this option.

``--exclude-source-files``
    Don't include any modules' ``.py`` files in the egg, just compiled Python,
    C, and data files.  (Note that this doesn't affect any ``.py`` files in the
    EGG-INFO directory or its subdirectories, since for example there may be
    scripts with a ``.py`` extension which must still be retained.)  We don't
    recommend that you use this option except for packages that are being
    bundled for proprietary end-user applications, or for "embedded" scenarios
    where space is at an absolute premium.  On the other hand, if your package
    is going to be installed and used in compressed form, you might as well
    exclude the source because Python's ``traceback`` module doesn't currently
    understand how to display zipped source code anyway, or how to deal with
    files that are in a different place from where their code was compiled.

There are also some options you will probably never need, but which are there
because they were copied from similar ``bdist`` commands used as an example for
creating this one.  They may be useful for testing and debugging, however,
which is why we kept them:

``--keep-temp, -k``
    Keep the contents of the ``--bdist-dir`` tree around after creating the
    ``.egg`` file.

``--bdist-dir=DIR, -b DIR``
    Set the temporary directory for creating the distribution.  The entire
    contents of this directory are zipped to create the ``.egg`` file, after
    running various installation commands to copy the package's modules, data,
    and extensions here.

``--skip-build``
    Skip doing any "build" commands; just go straight to the
    install-and-compress phases.


.. _develop:

``develop`` - Deploy the project source in "Development Mode"
=============================================================

This command allows you to deploy your project's source for use in one or more
"staging areas" where it will be available for importing.  This deployment is
done in such a way that changes to the project source are immediately available
in the staging area(s), without needing to run a build or install step after
each change.

The ``develop`` command works by creating an ``.egg-link`` file (named for the
project) in the given staging area.  If the staging area is Python's
``site-packages`` directory, it also updates an ``easy-install.pth`` file so
that the project is on ``sys.path`` by default for all programs run using that
Python installation.

The ``develop`` command also installs wrapper scripts in the staging area (or
a separate directory, as specified) that will ensure the project's dependencies
are available on ``sys.path`` before running the project's source scripts.
And, it ensures that any missing project dependencies are available in the
staging area, by downloading and installing them if necessary.

Last, but not least, the ``develop`` command invokes the ``build_ext -i``
command to ensure any C extensions in the project have been built and are
up-to-date, and the ``egg_info`` command to ensure the project's metadata is
updated (so that the runtime and wrappers know what the project's dependencies
are).  If you make any changes to the project's setup script or C extensions,
you should rerun the ``develop`` command against all relevant staging areas to
keep the project's scripts, metadata and extensions up-to-date.  Most other
kinds of changes to your project should not require any build operations or
rerunning ``develop``, but keep in mind that even minor changes to the setup
script (e.g. changing an entry point definition) require you to re-run the
``develop`` or ``test`` commands to keep the distribution updated.

Here are the options that the ``develop`` command accepts.  Note that they
affect the project's dependencies as well as the project itself, so if you have
dependencies that need to be installed and you use ``--exclude-scripts`` (for
example), the dependencies' scripts will not be installed either!  For this
reason, you may want to use EasyInstall to install the project's dependencies
before using the ``develop`` command, if you need finer control over the
installation options for dependencies.

``--uninstall, -u``
    Un-deploy the current project.  You may use the ``--install-dir`` or ``-d``
    option to designate the staging area.  The created ``.egg-link`` file will
    be removed, if present and it is still pointing to the project directory.
    The project directory will be removed from ``easy-install.pth`` if the
    staging area is Python's ``site-packages`` directory.

    Note that this option currently does *not* uninstall script wrappers!  You
    must uninstall them yourself, or overwrite them by using EasyInstall to
    activate a different version of the package.  You can also avoid installing
    script wrappers in the first place, if you use the ``--exclude-scripts``
    (aka ``-x``) option when you run ``develop`` to deploy the project.

``--multi-version, -m``
    "Multi-version" mode. Specifying this option prevents ``develop`` from
    adding an ``easy-install.pth`` entry for the project(s) being deployed, and
    if an entry for any version of a project already exists, the entry will be
    removed upon successful deployment.  In multi-version mode, no specific
    version of the package is available for importing, unless you use
    ``pkg_resources.require()`` to put it on ``sys.path``, or you are running
    a wrapper script generated by ``setuptools`` or EasyInstall.  (In which
    case the wrapper script calls ``require()`` for you.)

    Note that if you install to a directory other than ``site-packages``,
    this option is automatically in effect, because ``.pth`` files can only be
    used in ``site-packages`` (at least in Python 2.3 and 2.4). So, if you use
    the ``--install-dir`` or ``-d`` option (or they are set via configuration
    file(s)) your project and its dependencies will be deployed in multi-
    version mode.

``--install-dir=DIR, -d DIR``
    Set the installation directory (staging area).  If this option is not
    directly specified on the command line or in a distutils configuration
    file, the distutils default installation location is used.  Normally, this
    will be the ``site-packages`` directory, but if you are using distutils
    configuration files, setting things like ``prefix`` or ``install_lib``,
    then those settings are taken into account when computing the default
    staging area.

``--script-dir=DIR, -s DIR``
    Set the script installation directory.  If you don't supply this option
    (via the command line or a configuration file), but you *have* supplied
    an ``--install-dir`` (via command line or config file), then this option
    defaults to the same directory, so that the scripts will be able to find
    their associated package installation.  Otherwise, this setting defaults
    to the location where the distutils would normally install scripts, taking
    any distutils configuration file settings into account.

``--exclude-scripts, -x``
    Don't deploy script wrappers.  This is useful if you don't want to disturb
    existing versions of the scripts in the staging area.

``--always-copy, -a``
    Copy all needed distributions to the staging area, even if they
    are already present in another directory on ``sys.path``.  By default, if
    a requirement can be met using a distribution that is already available in
    a directory on ``sys.path``, it will not be copied to the staging area.


.. _egg_info:

``egg_info`` - Create egg metadata and set build tags
=====================================================

This command performs two operations: it updates a project's ``.egg-info``
metadata directory (used by the ``bdist_egg``, ``develop``, and ``test``
commands), and it allows you to temporarily change a project's version string,
to support "daily builds" or "snapshot" releases.  It is run automatically by
the ``sdist``, ``bdist_egg``, ``develop``, and ``test`` commands in order to
update the project's metadata, but you can also specify it explicitly in order
to temporarily change the project's version string.

The following options can be used to modify the project's version string for
all remaining commands on the setup command line.  The options are processed
in the order shown, so if you use more than one, the requested tags will be
added in the following order:

``--tag-build=NAME, -b NAME``
    Append NAME to the project's version string.  Due to the way setuptools
    processes "pre-release" version suffixes beginning with the letters "a"
    through "e" (like "alpha", "beta", and "candidate"), you will usually want
    to use a tag like "build" or "dev", as this will cause the version number
    to be considered *lower* than the project's default version.  (If you
    want to make the version number *higher* than the default version, you can
    always leave off --tag-build and use one or both of the following options.)

``--tag-svn-revision, -r``
    If the current directory is a Subversion checkout (i.e. has a ``.svn``
    subdirectory, this appends a string of the form "-rNNNN" to the project's
    version string, where NNNN is the revision number of the most recent
    modification to the current directory, as obtained from the ``svn info``
    command.

``--tag-date, -d``
    Add a date stamp of the form "-YYYYMMDD" (e.g. "-20050528") to the
    project's version number.

For advanced uses, there is one other option that can be set, to change the
location of the project's ``.egg-info`` directory.  Commands that need to find
the project's source directory or metadata should get it from this setting:

``--egg-base=SOURCEDIR, -e SOURCEDIR``
    Specify the directory that should contain the .egg-info directory.  This
    should normally be the root of your project's source tree (which is not
    necessarily the same as your project directory; some projects use a ``src``
    or ``lib`` subdirectory as the source root).  You should not normally need
    to specify this directory, as it is normally determined from the
    ``package_dir`` argument to the ``setup()`` function, if any.  If there is
    no ``package_dir`` set, this option defaults to the current directory.

In addition to writing the core egg metadata defined by ``setuptools`` and
required by ``pkg_resources``, this command can be extended to write other
metadata files as well, by defining entry points in the ``egg_info.writers``
group.  See the section on `Adding new EGG-INFO Files`_ below for more details.
Note that using additional metadata writers may require you to include a
``setup_requires`` argument to ``setup()`` in order to ensure that the desired
writers are available on ``sys.path``.


.. _rotate:

``rotate`` - Delete outdated distribution files
===============================================

As you develop new versions of your project, your distribution (``dist``)
directory will gradually fill up with older source and/or binary distribution
files.  The ``rotate`` command lets you automatically clean these up, keeping
only the N most-recently modified files matching a given pattern.

``--match=PATTERNLIST, -m PATTERNLIST``
    Comma-separated list of glob patterns to match.  This option is *required*.
    The project name and ``-*`` is prepended to the supplied patterns, in order
    to match only distributions belonging to the current project (in case you
    have a shared distribution directory for multiple projects).  Typically,
    you will use a glob pattern like ``.zip`` or ``.egg`` to match files of
    the specified type.  Note that each supplied pattern is treated as a
    distinct group of files for purposes of selecting files to delete.
    
``--keep=COUNT, -k COUNT``
    Number of matching distributions to keep.  For each group of files
    identified by a pattern specified with the ``--match`` option, delete all
    but the COUNT most-recently-modified files in that group.  This option is
    *required*.

``--dist-dir=DIR, -d DIR``
    Directory where the distributions are.  This defaults to the value of the
    ``bdist`` command's ``--dist-dir`` option, which will usually be the
    project's ``dist`` subdirectory.

**Example 1**: Delete all .tar.gz files from the distribution directory, except
for the 3 most recently modified ones::

    setup.py rotate --match=.tar.gz --keep=3

**Example 2**: Delete all Python 2.3 or Python 2.4 eggs from the distribution
directory, except the most recently modified one for each Python version::

    setup.py rotate --match=-py2.3*.egg,-py2.4*.egg --keep=1


.. _saveopts:

``saveopts`` - Save used options to a configuration file
========================================================

Finding and editing ``distutils`` configuration files can be a pain, especially
since you also have to translate the configuration options from command-line
form to the proper configuration file format.  You can avoid these hassles by
using the ``saveopts`` command.  Just add it to the command line to save the
options you used.  For example, this command builds the project using
the ``mingw32`` C compiler, then saves the --compiler setting as the default
for future builds (even those run implicitly by the ``install`` command)::

    setup.py build --compiler=mingw32 saveopts

The ``saveopts`` command saves all options for every commmand specified on the
command line to the project's local ``setup.cfg`` file, unless you use one of
the `configuration file options`_ to change where the options are saved.  For
example, this command does the same as above, but saves the compiler setting
to the site-wide (global) distutils configuration::
    
    setup.py build --compiler=mingw32 saveopts -g

Note that it doesn't matter where you place the ``saveopts`` command on the
command line; it will still save all the options specified for all commands.
For example, this is another valid way to spell the last example::

    setup.py saveopts -g build --compiler=mingw32 

Note, however, that all of the commands specified are always run, regardless of
where ``saveopts`` is placed on the command line.


Configuration File Options
--------------------------

Normally, settings such as options and aliases are saved to the project's
local ``setup.cfg`` file.  But you can override this and save them to the
global or per-user configuration files, or to a manually-specified filename.

``--global-config, -g``
    Save settings to the global ``distutils.cfg`` file inside the ``distutils``
    package directory.  You must have write access to that directory to use
    this option.  You also can't combine this option with ``-u`` or ``-f``.
    
``--user-config, -u``
    Save settings to the current user's ``~/.pydistutils.cfg`` (POSIX) or
    ``$HOME/pydistutils.cfg`` (Windows) file.  You can't combine this option
    with ``-g`` or ``-f``.

``--filename=FILENAME, -f FILENAME``
    Save settings to the specified configuration file to use.  You can't
    combine this option with ``-g`` or ``-u``.  Note that if you specify a
    non-standard filename, the ``distutils`` and ``setuptools`` will not
    use the file's contents.  This option is mainly included for use in
    testing.

These options are used by other ``setuptools`` commands that modify
configuration files, such as the `alias`_ and `setopt`_ commands.


.. _setopt:

``setopt`` - Set a distutils or setuptools option in a config file
==================================================================

This command is mainly for use by scripts, but it can also be used as a quick
and dirty way to change a distutils configuration option without having to
remember what file the options are in and then open an editor.

**Example 1**.  Set the default C compiler to ``mingw32`` (using long option
names)::

    setup.py setopt --command=build --option=compiler --set-value=mingw32

**Example 2**.  Remove any setting for the distutils default package
installation directory (short option names)::
  
    setup.py setopt -c install -o install_lib -r


Options for the ``setopt`` command:

``--command=COMMAND, -c COMMAND``
    Command to set the option for.  This option is required.

``--option=OPTION, -o OPTION``
    The name of the option to set.  This option is required.

``--set-value=VALUE, -s VALUE``
    The value to set the option to.  Not needed if ``-r`` or ``--remove`` is
    set.

``--remove, -r``
    Remove (unset) the option, instead of setting it.

In addition to the above options, you may use any of the `configuration file
options`_ (listed under the `saveopts`_ command, above) to determine which
distutils configuration file the option will be added to (or removed from).


.. _test:

``test`` - Build package and run a unittest suite
=================================================

When doing test-driven development, or running automated builds that need
testing before they are deployed for downloading or use, it's often useful
to be able to run a project's unit tests without actually deploying the project
anywhere, even using the ``develop`` command.  The ``test`` command runs a
project's unit tests without actually deploying it, by temporarily putting the
project's source on ``sys.path``, after first running ``build_ext -i`` and
``egg_info`` to ensure that any C extensions and project metadata are
up-to-date.

To use this command, your project's tests must be wrapped in a ``unittest``
test suite by either a function, a ``TestCase`` class or method, or a module
containing ``TestCase`` classes.  Note that many test systems including
``doctest`` support wrapping their non-``unittest`` tests in ``TestSuite``
objects.  So, if you are using a test package that does not support this, we
suggest you encourage its developers to implement test suite support, as this
is a convenient and standard way to aggregate a collection of tests to be run
under a common test harness.

By default, tests will be run in the "verbose" mode of the ``unittest``
package's text test runner, but you can get the "quiet" mode (just dots) if
you supply the ``-q`` or ``--quiet`` option, either as a global option to
the setup script (e.g. ``setup.py -q test``) or as an option for the ``test``
command itself (e.g. ``setup.py test -q``).  There is one other option
available:

``--test-suite=NAME, -s NAME``
    Specify the test suite (or module, class, or method) to be run
    (e.g. ``some_module.test_suite``).  The default for this option can be
    set by giving a ``test_suite`` argument to the ``setup()`` function, e.g.::

        setup(
            # ...
            test_suite = "my_package.tests.test_all"
        )

    If you did not set a ``test_suite`` in your ``setup()`` call, and do not
    provide a ``--test-suite`` option, an error will occur.


``upload`` - Upload source and/or egg distributions to PyPI
===========================================================

PyPI now supports uploading project files for redistribution; uploaded files
are easily found by EasyInstall, even if you don't have download links on your
project's home page.

Although Python 2.5 will support uploading all types of distributions to PyPI,
setuptools only supports source distributions and eggs.  (This is partly
because PyPI's upload support is currently broken for various other file
types.)  To upload files, you must include the ``upload`` command *after* the
``sdist`` or ``bdist_egg`` commands on the setup command line.  For example::

    setup.py bdist_egg upload         # create an egg and upload it
    setup.py sdist upload             # create a source distro and upload it
    setup.py sdist bdist_egg upload   # create and upload both
    
Note that to upload files for a project, the corresponding version must already
be registered with PyPI, using the distutils ``register`` command.  It's
usually a good idea to include the ``register`` command at the start of the
command line, so that any registration problems can be found and fixed before
building and uploading the distributions, e.g.::

    setup.py register sdist bdist_egg upload

This will update PyPI's listing for your project's current version.

Note, by the way, that the metadata in your ``setup()`` call determines what
will be listed in PyPI for your package.  Try to fill out as much of it as
possible, as it will save you a lot of trouble manually adding and updating
your PyPI listings.  Just put it in ``setup.py`` and use the ``register``
comamnd to keep PyPI up to date.

The ``upload`` command has a few options worth noting:

``--sign, -s``
    Sign each uploaded file using GPG (GNU Privacy Guard).  The ``gpg`` program
    must be available for execution on the system ``PATH``.

``--show-response``
    Display the full response text from server; this is useful for debugging
    PyPI problems.

``--repository=URL, -r URL``
    The URL of the repository to upload to.  Defaults to
    http://www.python.org/pypi (i.e., the main PyPI installation).


------------------------------------
Extending and Reusing ``setuptools``
------------------------------------

Creating ``distutils`` Extensions
=================================

It can be hard to add new commands or setup arguments to the distutils.  But
the ``setuptools`` package makes it a bit easier, by allowing you to distribute
a distutils extension as a separate project, and then have projects that need
the extension just refer to it in their ``setup_requires`` argument.

With ``setuptools``, your distutils extension projects can hook in new
commands and ``setup()`` arguments just by defining "entry points".  These
are mappings from command or argument names to a specification of where to
import a handler from.  (See the section on `Dynamic Discovery of Services and
Plugins`_ above for some more background on entry points.)


Adding Commands
---------------

You can add new ``setup`` commands by defining entry points in the
``distutils.commands`` group.  For example, if you wanted to add a ``foo``
command, you might add something like this to your distutils extension
project's setup script::

    setup(
        # ...
        entry_points = {
            "distutils.commands": [
                "foo = mypackage.some_module:foo",
            ],
        },
    )

(Assuming, of course, that the ``foo`` class in ``mypackage.some_module`` is
a ``setuptools.Command`` subclass.)

Once a project containing such entry points has been activated on ``sys.path``,
(e.g. by running "install" or "develop" with a site-packages installation
directory) the command(s) will be available to any ``setuptools``-based setup
scripts.  It is not necessary to use the ``--command-packages`` option or
to monkeypatch the ``distutils.command`` package to install your commands;
``setuptools`` automatically adds a wrapper to the distutils to search for
entry points in the active distributions on ``sys.path``.  In fact, this is
how setuptools' own commands are installed: the setuptools project's setup
script defines entry points for them!


Adding ``setup()`` Arguments
----------------------------

Sometimes, your commands may need additional arguments to the ``setup()``
script.  You can enable this by defining entry points in the
``distutils.setup_keywords`` group.  For example, if you wanted a ``setup()``
argument called ``bar_baz``, you might add something like this to your
distutils extension project's setup script::

    setup(
        # ...
        entry_points = {
            "distutils.commands": [
                "foo = mypackage.some_module:foo",
            ],
            "distutils.setup_keywords": [
                "bar_baz = mypackage.some_module:validate_bar_baz",
            ],
        },
    )

The idea here is that the entry point defines a function that will be called
to validate the ``setup()`` argument, if it's supplied.  The ``Distribution``
object will have the initial value of the attribute set to ``None``, and the
validation function will only be called if the ``setup()`` call sets it to
a non-None value.  Here's an example validation function::

    def assert_bool(dist, attr, value):
        """Verify that value is True, False, 0, or 1"""
        if bool(value) != value:
            raise DistutilsSetupError(
                "%r must be a boolean value (got %r)" % (attr,value)
            )

Your function should accept three arguments: the ``Distribution`` object,
the attribute name, and the attribute value.  It should raise a
``DistutilsSetupError`` (from the ``distutils.error`` module) if the argument
is invalid.  Remember, your function will only be called with non-None values,
and the default value of arguments defined this way is always None.  So, your
commands should always be prepared for the possibility that the attribute will
be ``None`` when they access it later.

If more than one active distribution defines an entry point for the same
``setup()`` argument, *all* of them will be called.  This allows multiple
distutils extensions to define a common argument, as long as they agree on
what values of that argument are valid.

Also note that as with commands, it is not necessary to subclass or monkeypatch
the distutils ``Distribution`` class in order to add your arguments; it is
sufficient to define the entry points in your extension, as long as the setup
script lists your extension in its ``setup_requires`` argument.


Adding new EGG-INFO Files
-------------------------

Some extensible applications or frameworks may want to allow third parties to
develop plugins with application or framework-specific metadata included in
the plugins' EGG-INFO directory, for easy access via the ``pkg_resources``
metadata API.  The easiest way to allow this is to create a distutils extension
to be used from the plugin projects' setup scripts (via ``setup_requires``)
that defines a new setup keyword, and then uses that data to write an EGG-INFO
file when the ``egg_info`` command is run.

The ``egg_info`` command looks for extension points in an ``egg_info.writers``
group, and calls them to write the files.  Here's a simple example of a
distutils extension defining a setup argument ``foo_bar``, which is a list of
lines that will be written to ``foo_bar.txt`` in the EGG-INFO directory of any
project that uses the argument::

    setup(
        # ...
        entry_points = {
            "distutils.setup_keywords": [
                "foo_bar = setuptools.dist:assert_string_list",
            ],
            "egg_info.writers": [
                "foo_bar.txt = setuptools.command.egg_info:write_arg",
            ],
        },
    )

This simple example makes use of two utility functions defined by setuptools
for its own use: a routine to validate that a setup keyword is a sequence of
strings, and another one that looks up a setup argument and writes it to
a file.  Here's what the writer utility looks like::

    def write_arg(cmd, basename, filename):
        argname = os.path.splitext(basename)[0]
        value = getattr(cmd.distribution, argname, None)
        if value is not None:
            value = '\n'.join(value)+'\n'
        cmd.write_or_delete_file(argname, filename, value)

As you can see, ``egg_info.writers`` entry points must be a function taking
three arguments: a ``egg_info`` command instance, the basename of the file to
write (e.g. ``foo_bar.txt``), and the actual full filename that should be
written to.

In general, writer functions should honor the command object's ``dry_run``
setting when writing files, and use the ``distutils.log`` object to do any
console output.  The easiest way to conform to this requirement is to use
the ``cmd`` object's ``write_file()``, ``delete_file()``, and
``write_or_delete_file()`` methods exclusively for your file operations.  See
those methods' docstrings for more details.


Subclassing ``Command``
-----------------------

Sorry, this section isn't written yet, and neither is a lot of what's below
this point, except for the change log.  You might want to `subscribe to changes
in this page <setuptools?action=subscribe>`_ to see when new documentation is
added or updated.

XXX


Reusing ``setuptools`` Code
===========================

``ez_setup``
------------

XXX


``setuptools.archive_util``
---------------------------

XXX


``setuptools.sandbox``
----------------------

XXX


``setuptools.package_index``
----------------------------

XXX


----------------------------
Release Notes/Change History
----------------------------

0.6a1
 * The ``build_ext`` command now works better when using the ``--inplace``
   option and multiple Python versions.  It now makes sure that all extensions
   match the current Python version, even if newer copies were built for a
   different Python version.

 * The ``upload`` command no longer attaches an extra ``.zip`` when uploading
   eggs, as PyPI now supports egg uploads without trickery.

 * The ``ez_setup`` script/module now displays a warning before downloading
   the setuptools egg, and attempts to check the downloaded egg against an
   internal MD5 checksum table.

 * Fixed the ``--tag-svn-revision`` option of ``egg_info`` not finding the
   latest revision number; it was using the revision number of the directory
   containing ``setup.py``, not the highest revision number in the project.

 * Added ``eager_resources`` setup argument

 * The ``sdist`` command now recognizes Subversion "deleted file" entries and
   does not include them in source distributions.

 * ``setuptools`` now embeds itself more thoroughly into the distutils, so that
   other distutils extensions (e.g. py2exe, py2app) will subclass setuptools'
   versions of things, rather than the native distutils ones.

 * Added ``entry_points`` and ``setup_requires`` arguments to ``setup()``;
   ``setup_requires`` allows you to automatically find and download packages
   that are needed in order to *build* your project (as opposed to running it).

 * ``setuptools`` now finds its commands, ``setup()`` argument validators, and
   metadata writers using entry points, so that they can be extended by
   third-party packages.  See `Creating distutils Extensions`_ above for more
   details.

 * The vestigial ``depends`` command has been removed.  It was never finished
   or documented, and never would have worked without EasyInstall - which it
   pre-dated and was never compatible with.
     
0.5a12
 * The zip-safety scanner now checks for modules that might be used with
   ``python -m``, and marks them as unsafe for zipping, since Python 2.4 can't
   handle ``-m`` on zipped modules.

0.5a11
 * Fix breakage of the "develop" command that was caused by the addition of
   ``--always-unzip`` to the ``easy_install`` command.

0.5a9
 * Include ``svn:externals`` directories in source distributions as well as
   normal subversion-controlled files and directories.

 * Added ``exclude=patternlist`` option to ``setuptools.find_packages()``

 * Changed --tag-svn-revision to include an "r" in front of the revision number
   for better readability.

 * Added ability to build eggs without including source files (except for any
   scripts, of course), using the ``--exclude-source-files`` option to
   ``bdist_egg``.

 * ``setup.py install`` now automatically detects when an "unmanaged" package
   or module is going to be on ``sys.path`` ahead of a package being installed,
   thereby preventing the newer version from being imported.  If this occurs,
   a warning message is output to ``sys.stderr``, but installation proceeds
   anyway.  The warning message informs the user what files or directories
   need deleting, and advises them they can also use EasyInstall (with the
   ``--delete-conflicting`` option) to do it automatically.

 * The ``egg_info`` command now adds a ``top_level.txt`` file to the metadata
   directory that lists all top-level modules and packages in the distribution.
   This is used by the ``easy_install`` command to find possibly-conflicting
   "unmanaged" packages when installing the distribution.

 * Added ``zip_safe`` and ``namespace_packages`` arguments to ``setup()``.
   Added package analysis to determine zip-safety if the ``zip_safe`` flag
   is not given, and advise the author regarding what code might need changing.

 * Fixed the swapped ``-d`` and ``-b`` options of ``bdist_egg``.

0.5a8
 * The "egg_info" command now always sets the distribution metadata to "safe"
   forms of the distribution name and version, so that distribution files will
   be generated with parseable names (i.e., ones that don't include '-' in the
   name or version).  Also, this means that if you use the various ``--tag``
   options of "egg_info", any distributions generated will use the tags in the
   version, not just egg distributions.

 * Added support for defining command aliases in distutils configuration files,
   under the "[aliases]" section.  To prevent recursion and to allow aliases to
   call the command of the same name, a given alias can be expanded only once
   per command-line invocation.  You can define new aliases with the "alias"
   command, either for the local, global, or per-user configuration.

 * Added "rotate" command to delete old distribution files, given a set of
   patterns to match and the number of files to keep.  (Keeps the most
   recently-modified distribution files matching each pattern.)

 * Added "saveopts" command that saves all command-line options for the current
   invocation to the local, global, or per-user configuration file.  Useful for
   setting defaults without having to hand-edit a configuration file.

 * Added a "setopt" command that sets a single option in a specified distutils
   configuration file.

0.5a7
 * Added "upload" support for egg and source distributions, including a bug
   fix for "upload" and a temporary workaround for lack of .egg support in
   PyPI.

0.5a6
 * Beefed up the "sdist" command so that if you don't have a MANIFEST.in, it
   will include all files under revision control (CVS or Subversion) in the
   current directory, and it will regenerate the list every time you create a
   source distribution, not just when you tell it to.  This should make the
   default "do what you mean" more often than the distutils' default behavior
   did, while still retaining the old behavior in the presence of MANIFEST.in.

 * Fixed the "develop" command always updating .pth files, even if you
   specified ``-n`` or ``--dry-run``.

 * Slightly changed the format of the generated version when you use
   ``--tag-build`` on the "egg_info" command, so that you can make tagged
   revisions compare *lower* than the version specified in setup.py (e.g. by
   using ``--tag-build=dev``).

0.5a5
 * Added ``develop`` command to ``setuptools``-based packages.  This command
   installs an ``.egg-link`` pointing to the package's source directory, and
   script wrappers that ``execfile()`` the source versions of the package's
   scripts.  This lets you put your development checkout(s) on sys.path without
   having to actually install them.  (To uninstall the link, use
   use ``setup.py develop --uninstall``.)

 * Added ``egg_info`` command to ``setuptools``-based packages.  This command
   just creates or updates the "projectname.egg-info" directory, without
   building an egg.  (It's used by the ``bdist_egg``, ``test``, and ``develop``
   commands.)

 * Enhanced the ``test`` command so that it doesn't install the package, but
   instead builds any C extensions in-place, updates the ``.egg-info``
   metadata, adds the source directory to ``sys.path``, and runs the tests
   directly on the source.  This avoids an "unmanaged" installation of the
   package to ``site-packages`` or elsewhere.

 * Made ``easy_install`` a standard ``setuptools`` command, moving it from
   the ``easy_install`` module to ``setuptools.command.easy_install``.  Note
   that if you were importing or extending it, you must now change your imports
   accordingly.  ``easy_install.py`` is still installed as a script, but not as
   a module.

0.5a4
 * Setup scripts using setuptools can now list their dependencies directly in
   the setup.py file, without having to manually create a ``depends.txt`` file.
   The ``install_requires`` and ``extras_require`` arguments to ``setup()``
   are used to create a dependencies file automatically.  If you are manually
   creating ``depends.txt`` right now, please switch to using these setup
   arguments as soon as practical, because ``depends.txt`` support will be
   removed in the 0.6 release cycle.  For documentation on the new arguments,
   see the ``setuptools.dist.Distribution`` class.

 * Setup scripts using setuptools now always install using ``easy_install``
   internally, for ease of uninstallation and upgrading.

0.5a1
 * Added support for "self-installation" bootstrapping.  Packages can now
   include ``ez_setup.py`` in their source distribution, and add the following
   to their ``setup.py``, in order to automatically bootstrap installation of
   setuptools as part of their setup process::

    from ez_setup import use_setuptools
    use_setuptools()

    from setuptools import setup
    # etc...

0.4a2
 * Added ``ez_setup.py`` installer/bootstrap script to make initial setuptools
   installation easier, and to allow distributions using setuptools to avoid
   having to include setuptools in their source distribution.

 * All downloads are now managed by the ``PackageIndex`` class (which is now
   subclassable and replaceable), so that embedders can more easily override
   download logic, give download progress reports, etc.  The class has also
   been moved to the new ``setuptools.package_index`` module.

 * The ``Installer`` class no longer handles downloading, manages a temporary
   directory, or tracks the ``zip_ok`` option.  Downloading is now handled
   by ``PackageIndex``, and ``Installer`` has become an ``easy_install``
   command class based on ``setuptools.Command``.

 * There is a new ``setuptools.sandbox.run_setup()`` API to invoke a setup
   script in a directory sandbox, and a new ``setuptools.archive_util`` module
   with an ``unpack_archive()`` API.  These were split out of EasyInstall to
   allow reuse by other tools and applications.

 * ``setuptools.Command`` now supports reinitializing commands using keyword
   arguments to set/reset options.  Also, ``Command`` subclasses can now set
   their ``command_consumes_arguments`` attribute to ``True`` in order to
   receive an ``args`` option containing the rest of the command line.

0.3a2
 * Added new options to ``bdist_egg`` to allow tagging the egg's version number
   with a subversion revision number, the current date, or an explicit tag
   value.  Run ``setup.py bdist_egg --help`` to get more information.

 * Misc. bug fixes

0.3a1
 * Initial release.

