path: root/eggs/zc.buildout-1.5.2-py2.6.egg/EGG-INFO/PKG-INFO

Metadata-Version: 1.0
Name: zc.buildout
Version: 1.5.2
Summary: System for managing development buildouts
Home-page: http://pypi.python.org/pypi/zc.buildout
Author: Jim Fulton
Author-email: jim@zope.com
License: ZPL 2.1
Description: ********
        Buildout
        ********
        
        .. contents::
        
        The Buildout project provides support for creating applications,
        especially Python applications.  It provides tools for assembling
        applications from multiple parts, Python or otherwise.  An application
        may actually contain multiple programs, processes, and configuration
        settings.
        
        The word "buildout" refers to a description of a set of parts and the
        software to create and assemble them.  It is often used informally to
        refer to an installed system based on a buildout definition.  For
        example, if we are creating an application named "Foo", then "the Foo
        buildout" is the collection of configuration and application-specific
        software that allows an instance of the application to be created.  We
        may refer to such an instance of the application informally as "a Foo
        buildout".
        
        To get a feel for some of the things you might use buildouts for, see
        the `Buildout examples`_.
        
        To lean more about using buildouts, see `Detailed Documentation`_.
        
        To see screencasts, talks, useful links and more documentation, visit
        the `Buildout website <http://www.buildout.org>`_.
        
        Recipes
        *******
        
        Existing recipes include:
        
        `zc.recipe.egg <http://pypi.python.org/pypi/zc.recipe.egg>`_
           The egg recipe installes one or more eggs, with their
           dependencies.  It installs their console-script entry points with
           the needed eggs included in their paths.  It is suitable for use with
           a "clean" Python: one without packages installed in site-packages.
        
        `z3c.recipe.scripts <http://pypi.python.org/pypi/z3c.recipe.scripts>`_
          Like zc.recipe.egg, this recipe builds interpreter scripts and entry
          point scripts based on eggs.  It can be used with a Python that has
          packages installed in site-packages, such as a system Python.  The
          interpreter also has more features than the one offered by
          zc.recipe.egg.
        
        `zc.recipe.testrunner <http://pypi.python.org/pypi/zc.recipe.testrunner>`_
           The testrunner egg creates a test runner script for one or
           more eggs.
        
        `zc.recipe.zope3checkout <http://pypi.python.org/pypi/zc.recipe.zope3checkout>`_
           The zope3checkout recipe installs a Zope 3 checkout into a
           buildout.
        
        `zc.recipe.zope3instance <http://pypi.python.org/pypi/zc.recipe.zope3instance>`_
           The zope3instance recipe sets up a Zope 3 instance.
        
        `zc.recipe.filestorage <http://pypi.python.org/pypi/zc.recipe.filestorage>`_
           The filestorage recipe sets up a ZODB file storage for use in a
           Zope 3 instance created by the zope3instance recipe.
        
        Buildout examples
        *****************
        
        Here are a few examples of what you can do with buildouts.  We'll
        present these as a set of use cases.
        
        Try out an egg
        ==============
        
        Sometimes you want to try an egg (or eggs) that someone has released.
        You'd like to get a Python interpreter that lets you try things
        interactively or run sample scripts without having to do path
        manipulations.  If you can and don't mind modifying your Python
        installation, you could use easy_install, otherwise, you could create
        a directory somewhere and create a buildout.cfg file in that directory
        containing::
        
          [buildout]
          parts = mypython
        
          [mypython]
          recipe = zc.recipe.egg
          interpreter = mypython
          eggs = theegg
        
        where theegg is the name of the egg you want to try out.
        
        Run buildout in this directory.  It will create a bin subdirectory
        that includes a mypython script.  If you run mypython without any
        arguments you'll get an interactive interpreter with the egg in the
        path. If you run it with a script and script arguments, the script
        will run with the egg in its path.  Of course, you can specify as many
        eggs as you want in the eggs option.
        
        If the egg provides any scripts (console_scripts entry points), those
        will be installed in your bin directory too.
        
        Work on a package
        =================
        
        I often work on packages that are managed separately.  They don't have
        scripts to be installed, but I want to be able to run their tests
        using the `zope.testing test runner
        <http://www.python.org/pypi/zope.testing>`_.  In this kind of
        application, the program to be installed is the test runner.  A good
        example of this is `zc.ngi <http://svn.zope.org/zc.ngi/trunk/>`_.
        
        Here I have a subversion project for the zc.ngi package.  The software
        is in the src directory.  The configuration file is very simple::
        
          [buildout]
          develop = .
          parts = test
        
          [test]
          recipe = zc.recipe.testrunner
          eggs = zc.ngi
        
        I use the develop option to create a develop egg based on the current
        directory.  I request a test script named "test" using the
        zc.recipe.testrunner recipe.  In the section for the test script, I
        specify that I want to run the tests in the zc.ngi package.
        
        When I check out this project into a new sandbox, I run bootstrap.py
        to get setuptools and zc.buildout and to create bin/buildout.  I run
        bin/buildout, which installs the test script, bin/test, which I can
        then use to run the tests.
        
        This is probably the most common type of buildout.
        
        If I need to run a previous version of zc.buildout, I use the
        `--version` option of the bootstrap.py script::
        
            $ python bootstrap.py --version 1.1.3
        
        The `zc.buildout project <http://svn.zope.org/zc.buildout/trunk>`_
        is a slightly more complex example of this type of buildout.
        
        Install egg-based scripts
        =========================
        
        A variation of the `Try out an egg`_ use case is to install scripts
        into your ~/bin directory (on Unix, of course).  My ~/bin directory is
        a buildout with a configuration file that looks like::
        
        
          [buildout]
          parts = foo bar
          bin-directory = .
        
          [foo]
          ...
        
        where foo and bar are packages with scripts that I want available.  As
        I need new scripts, I can add additional sections.  The bin-directory
        option specified that scripts should be installed into the current
        directory.
        
        Multi-program multi-machine systems
        ===================================
        
        Using an older prototype version of the buildout, we've build a number
        of systems involving multiple programs, databases, and machines.  One
        typical example consists of:
        
        - Multiple Zope instances
        
        - Multiple ZEO servers
        
        - An LDAP server
        
        - Cache-invalidation and Mail delivery servers
        
        - Dozens of add-on packages
        
        - Multiple test runners
        
        - Multiple deployment modes, including dev, stage, and prod,
          with prod deployment over multiple servers
        
        Parts installed include:
        
        - Application software installs, including Zope, ZEO and LDAP
          software
        
        - Add-on packages
        
        - Bundles of configuration that define Zope, ZEO and LDAP instances
        
        - Utility scripts such as test runners, server-control
          scripts, cron jobs.
        
        Questions and Bug Reporting
        ***************************
        
        Please send questions and comments to the
        `distutils SIG mailing list <mailto://distutils-sig@python.org>`_.
        
        Report bugs using the `zc.buildout Launchpad Bug Tracker
        <https://launchpad.net/zc.buildout/+bugs>`_.
        
        System Python and zc.buildout 1.5
        *********************************
        
        The 1.5 line of zc.buildout introduced a number of changes.
        
        Problems
        ========
        
        As usual, please send questions and comments to the `distutils SIG
        mailing list <mailto://distutils-sig@python.org>`_. Report bugs using
        the `zc.buildout Launchpad Bug Tracker
        <https://launchpad.net/zc.buildout/+bugs>`_.
        
        If problems are keeping you from your work, here's an easy way to
        revert to the old code temporarily: switch to a custom "emergency"
        bootstrap script, available from
        http://svn.zope.org/repos/main/zc.buildout/branches/1.4/bootstrap/bootstrap.py .
        
        This customized script will select zc.buildout 1.4.4 by default.
        zc.buildout 1.4.4 will not upgrade itself unless you explicitly specify
        a new version.  It will also prefer older versions of zc.recipe.egg and
        some other common recipes.  If you have trouble with other recipes,
        consider using a standard buildout "versions" section to specify older
        versions of these, as described in the Buildout documentation
        (http://pypi.python.org/pypi/zc.buildout#repeatable-buildouts-controlling-eggs-used).
        
        Working with a System Python
        ============================
        
        While there are a number of new features available in zc.buildout 1.5,
        the biggest is that Buildout itself supports usage with a system Python.
        This can work if you follow a couple of simple rules.
        
        1. Use the new bootstrap.py (available from
           svn://svn.zope.org/repos/main/zc.buildout/trunk/bootstrap/bootstrap.py).
        
        2. Use buildout recipes that have been upgraded to work with zc.buildout 1.5
           and higher.  Specifically, they should use
           ``zc.buildout.easy_install.sitepackage_safe_scripts`` to generate
           their scripts, if any, rather than ``zc.buildout.easy_install.scripts``.
           See the `Recipes That Support a System Python`_ section below for more
           details on recipes that are available as of this writing, and
           `Updating Recipes to Support a System Python`_ for instructions on
           how to update a recipe.  Note that you should generally only need to
           update recipes that generate scripts.
        
        You can then use ``include-site-packages = false`` and
        ``exec-sitecustomize = false`` buildout options to eliminate access to
        your Python's site packages and not execute its sitecustomize file, if
        it exists, respectively.
        
        Alternately, you can use the ``allowed-eggs-from-site-packages`` buildout
        option as a glob-aware whitelist of eggs that may come from site-packages.
        This value defaults to "*", accepting all eggs.
        
        It's important to note that recipes not upgraded for zc.buildout 1.5.0
        should continue to work--just without internal support for a system Python.
        
        Using a system Python is inherently fragile.  Using a clean,
        freshly-installed Python without customization in site-packages is more
        robust and repeatable.  See some of the regression tests added to the
        1.5.0 line for the kinds of issues that you can encounter with a system
        Python, and see
        http://pypi.python.org/pypi/z3c.recipe.scripts#including-site-packages-and-sitecustomize
        for more discussion.
        
        However, using a system Python can be very convenient, and the
        zc.buildout code for this feature has been tested by many users already.
        Moreover, it has automated tests to exercise the problems that have been
        encountered and fixed.  Many people rely on it.
        
        Recipes That Support a System Python
        ====================================
        
        zc.recipe.egg continues to generate old-style scripts that are not safe
        for use with a system Python.  This was done for backwards
        compatibility, because it is integral to so many buildouts and used as a
        dependency of so many other recipes.
        
        If you want to generate new-style scripts that do support system Python
        usage, use z3c.recipe.scripts instead
        (http://pypi.python.org/pypi/z3c.recipe.scripts). z3c.recipe.scripts has
        the same script and interpreter generation options as zc.recipe.egg,
        plus a few more for the new features mentioned above.  In the simplest
        case, you should be able to simply change ``recipe = zc.recipe.egg`` to
        ``recipe = z3c.recipe.scripts`` in the pertinent sections of your
        buildout configuration and your generated scripts will work with a system
        Python.
        
        Other updated recipes include zc.recipe.testrunner 1.4.0 and
        z3c.recipe.tag 0.4.0.  Others should be updated soon: see their change
        documents for details, or see `Updating Recipes to Support a System
        Python`_ for instructions on how to update recipes yourself.
        
        Templates for creating Python scripts with the z3c.recipe.filetemplate
        recipe can be easily changed to support a system Python.
        
        - If you don't care about supporting relative paths, simply using a
          generated interpreter with the eggs you want should be sufficient, as
          it was before. For instance, if the interpreter is named "py", use
          ``#!${buildout:bin-directory/py}`` or ``#!/usr/bin/env
          ${buildout:bin-directory/py}``).
        
        - If you do care about relative paths,  (``relative-paths = true`` in
          your buildout configuration), then z3c.recipe.scripts does require a
          bit more changes, as is usual for the relative path support in that
          package.  First, use z3c.recipe.scripts to generate a script or
          interpreter with the dependencies you want.  This will create a
          directory in ``parts`` that has a site.py and sitecustomize.py.  Then,
          begin your script as in the snippet below.  The example assumes that
          the z3c.recipe.scripts generated were from a Buildout configuration
          section labeled "scripts": adjust accordingly.
        
          ::
        
            #!${buildout:executable} -S
            ${python-relative-path-setup}
            import sys
            sys.path.insert(0, ${scripts:parts-directory|path-repr})
            import site
        
        Updating Recipes to Support a System Python
        ===========================================
        
        You should generally only need to update recipes that generate scripts.
        These recipes need to change from using ``zc.buildout.easy_install.scripts``
        to be using ``zc.buildout.easy_install.sitepackage_safe_scripts``.
        The signatures of the two functions are different.  Please compare::
        
            def scripts(
                reqs, working_set, executable, dest,
                scripts=None,
                extra_paths=(),
                arguments='',
                interpreter=None,
                initialization='',
                relative_paths=False,
                ):
        
            def sitepackage_safe_scripts(
                dest, working_set, executable, site_py_dest,
                reqs=(),
                scripts=None,
                interpreter=None,
                extra_paths=(),
                initialization='',
                include_site_packages=False,
                exec_sitecustomize=False,
                relative_paths=False,
                script_arguments='',
                script_initialization='',
                ):
        
        In most cases, the arguments are merely reordered.  The ``reqs``
        argument is no longer required in order to make it easier to generate an
        interpreter alone.  The ``arguments`` argument was renamed to
        ``script_arguments`` to clarify that it did not affect interpreter
        generation.
        
        The only new required argument is ``site_py_dest``.  It must be the path
        to a directory in which the customized site.py and sitecustomize.py
        files will be written.  A typical generation in a recipe will look like
        this.
        
        (In the recipe's __init__ method...)
        
        ::
        
                self.options = options
                b_options = buildout['buildout']
                options['parts-directory'] = os.path.join(
                    b_options['parts-directory'], self.name)
        
        (In the recipe's install method...)
        
        ::
        
                options = self.options
                generated = []
                if not os.path.exists(options['parts-directory']):
                    os.mkdir(options['parts-directory'])
                    generated.append(options['parts-directory'])
        
        Then ``options['parts-directory']`` can be used for the ``site_py_dest``
        value.
        
        If you want to support the other arguments (``include_site_packages``,
        ``exec_sitecustomize``, ``script_initialization``, as well as the
        ``allowed-eggs-from-site-packages`` option),  you might want to look at
        some of the code in
        svn://svn.zope.org/repos/main/zc.buildout/trunk/z3c.recipe.scripts\_/src/z3c/recipe/scripts/scripts.py .
        You might even be able to adopt some of it by subclassing or delegating.
        The Scripts class in that file is the closest to what you might be used
        to from zc.recipe.egg.
        
        Important note for recipe authors: As of buildout 1.5.2, the code in
        recipes is *always run with the access to the site-packages as
        configured in the buildout section*.
        
        virtualenv
        ==========
        
        Using virtualenv (http://pypi.python.org/pypi/virtualenv) with the
        --no-site-packages option already provided a simple way of using a
        system Python.  This is intended to continue to work, and some automated
        tests exist to demonstrate this.
        
        However, it is only supported to the degree that people have found it to
        work in the past.  The existing Buildout tests for virtualenv are only
        for problems encountered previously.  They are very far from
        comprehensive.
        
        Using Buildout with a system python has at least three advantages over
        using Buildout in conjunction with virtualenv.  They may or may not be
        pertinent to your desired usage.
        
        - Unlike ``virtualenv --no-site-packages``, Buildout's support allows you
          to choose to let packages from your system Python be available to your
          software (see ``include-site-packages`` in
          http://pypi.python.org/pypi/z3c.recipe.scripts).
        
          You can even specify which eggs installed in your system Python can be
          allowed to fulfill some of your packages' dependencies (see
          ``allowed-eggs-from-site-packages`` in
          http://pypi.python.org/pypi/z3c.recipe.scripts).
        
          At the expense of some repeatability and platform dependency, this
          flexibility means that, for instance, you can rely on
          difficult-to-build eggs like lxml coming from your system Python.
        
        - Buildout's implementation has a full set of automated tests.
        
        - An integral Buildout implementation means fewer steps and fewer dependencies
          to work with a system Python.
        
        Detailed Documentation
        **********************
        
        Buildouts
        =========
        
        The word "buildout" refers to a description of a set of parts and the
        software to create and assemble them.  It is often used informally to
        refer to an installed system based on a buildout definition.  For
        example, if we are creating an application named "Foo", then "the Foo
        buildout" is the collection of configuration and application-specific
        software that allows an instance of the application to be created.  We
        may refer to such an instance of the application informally as "a Foo
        buildout".
        
        This document describes how to define buildouts using buildout
        configuration files and recipes.  There are three ways to set up the
        buildout software and create a buildout instance:
        
        1. Install the zc.buildout egg with easy_install and use the buildout
           script installed in a Python scripts area.
        
        2. Use the buildout bootstrap script to create a buildout that
           includes both the setuptools and zc.buildout eggs.  This allows you
           to use the buildout software without modifying a Python install.
           The buildout script is installed into your buildout local scripts
           area.
        
        3. Use a buildout command from an already installed buildout to
           bootstrap a new buildout.  (See the section on bootstraping later
           in this document.)
        
        Often, a software project will be managed in a software repository,
        such as a subversion repository, that includes some software source
        directories, buildout configuration files, and a copy of the buildout
        bootstrap script.  To work on the project, one would check out the
        project from the repository and run the bootstrap script which
        installs setuptools and zc.buildout into the checkout as well as any
        parts defined.
        
        We have a sample buildout that we created using the bootstrap command
        of an existing buildout (method 3 above).  It has the absolute minimum
        information.  We have bin, develop-eggs, eggs and parts directories,
        and a configuration file:
        
            >>> ls(sample_buildout)
            d  bin
            -  buildout.cfg
            d  develop-eggs
            d  eggs
            d  parts
        
        The bin directory contains scripts.
        
            >>> ls(sample_buildout, 'bin')
            -  buildout
        
            >>> ls(sample_buildout, 'eggs')
            -  setuptools-0.6-py2.4.egg
            -  zc.buildout-1.0-py2.4.egg
        
        The develop-eggs directory is initially empty:
        
            >>> ls(sample_buildout, 'develop-eggs')
        
        The develop-eggs directory holds egg links for software being
        developed in the buildout.  We separate develop-eggs and other eggs to
        allow eggs directories to be shared across multiple buildouts.  For
        example, a common developer technique is to define a common eggs
        directory in their home that all non-develop eggs are stored in.  This
        allows larger buildouts to be set up much more quickly and saves disk
        space.
        
        The parts directory just contains some helpers for the buildout script
        itself.
        
            >>> ls(sample_buildout, 'parts')
            d  buildout
        
        The parts directory provides an area where recipes can install
        part data.  For example, if we built a custom Python, we would
        install it in the part directory.  Part data is stored in a
        sub-directory of the parts directory with the same name as the part.
        
        Buildouts are defined using configuration files.  These are in the
        format defined by the Python ConfigParser module, with extensions
        that we'll describe later.  By default, when a buildout is run, it
        looks for the file buildout.cfg in the directory where the buildout is
        run.
        
        The minimal configuration file has a buildout section that defines no
        parts:
        
            >>> cat(sample_buildout, 'buildout.cfg')
            [buildout]
            parts =
        
        A part is simply something to be created by a buildout.  It can be
        almost anything, such as a Python package, a program, a directory, or
        even a configuration file.
        
        Recipes
        -------
        
        A part is created by a recipe.  Recipes are always installed as Python
        eggs. They can be downloaded from a package server, such as the
        Python Package Index, or they can be developed as part of a project
        using a "develop" egg.
        
        A develop egg is a special kind of egg that gets installed as an "egg
        link" that contains the name of a source directory.  Develop eggs
        don't have to be packaged for distribution to be used and can be
        modified in place, which is especially useful while they are being
        developed.
        
        Let's create a recipe as part of the sample project.  We'll create a
        recipe for creating directories.  First, we'll create a recipes source
        directory for our local recipes:
        
            >>> mkdir(sample_buildout, 'recipes')
        
        and then we'll create a source file for our mkdir recipe:
        
            >>> write(sample_buildout, 'recipes', 'mkdir.py',
            ... """
            ... import logging, os, zc.buildout
            ...
            ... class Mkdir:
            ...
            ...     def __init__(self, buildout, name, options):
            ...         self.name, self.options = name, options
            ...         options['path'] = os.path.join(
            ...                               buildout['buildout']['directory'],
            ...                               options['path'],
            ...                               )
            ...         if not os.path.isdir(os.path.dirname(options['path'])):
            ...             logging.getLogger(self.name).error(
            ...                 'Cannot create %s. %s is not a directory.',
            ...                 options['path'], os.path.dirname(options['path']))
            ...             raise zc.buildout.UserError('Invalid Path')
            ...
            ...
            ...     def install(self):
            ...         path = self.options['path']
            ...         logging.getLogger(self.name).info(
            ...             'Creating directory %s', os.path.basename(path))
            ...         os.mkdir(path)
            ...         return path
            ...
            ...     def update(self):
            ...         pass
            ... """)
        
        Currently, recipes must define 3 methods [#future_recipe_methods]_:
        
        - a constructor,
        
        - an install method, and
        
        - an update method.
        
        The constructor is responsible for updating a parts options to reflect
        data read from other sections.  The buildout system keeps track of
        whether a part specification has changed.  A part specification has
        changed if it's options, after adjusting for data read from other
        sections, has changed, or if the recipe has changed.  Only the options
        for the part are considered.  If data are read from other sections,
        then that information has to be reflected in the parts options.  In
        the Mkdir example, the given path is interpreted relative to the
        buildout directory, and data from the buildout directory is read.  The
        path option is updated to reflect this.  If the directory option was
        changed in the buildout sections, we would know to update parts
        created using the mkdir recipe using relative path names.
        
        When buildout is run, it saves configuration data for installed parts
        in a file named ".installed.cfg".  In subsequent runs, it compares
        part-configuration data stored in the .installed.cfg file and the
        part-configuration data loaded from the configuration files as
        modified by recipe constructors to decide if the configuration of a
        part has changed. If the configuration has changed, or if the recipe
        has changed, then the part is uninstalled and reinstalled.  The
        buildout only looks at the part's options, so any data used to
        configure the part needs to be reflected in the part's options.  It is
        the job of a recipe constructor to make sure that the options include
        all relevant data.
        
        Of course, parts are also uninstalled if they are no-longer used.
        
        The recipe defines a constructor that takes a buildout object, a part
        name, and an options dictionary. It saves them in instance attributes.
        If the path is relative, we'll interpret it as relative to the
        buildout directory.  The buildout object passed in is a mapping from
        section name to a mapping of options for that section. The buildout
        directory is available as the directory option of the buildout
        section.  We normalize the path and save it back into the options
        directory.
        
        The install method is responsible for creating the part.  In this
        case, we need the path of the directory to create.  We'll use a path
        option from our options dictionary.  The install method logs what it's
        doing using the Python logging call.  We return the path that we
        installed.  If the part is uninstalled or reinstalled, then the path
        returned will be removed by the buildout machinery.  A recipe install
        method is expected to return a string, or an iterable of strings
        containing paths to be removed if a part is uninstalled.  For most
        recipes, this is all of the uninstall support needed. For more complex
        uninstallation scenarios use `Uninstall recipes`_.
        
        The update method is responsible for updating an already installed
        part.  An empty method is often provided, as in this example, if parts
        can't be updated.  An update method can return None, a string, or an
        iterable of strings.  If a string or iterable of strings is returned,
        then the saved list of paths to be uninstalled is updated with the new
        information by adding any new files returned by the update method.
        
        We need to provide packaging information so that our recipe can be
        installed as a develop egg. The minimum information we need to specify
        [#packaging_info]_ is a name.  For recipes, we also need to define the
        names of the recipe classes as entry points.  Packaging information is
        provided via a setup.py script:
        
            >>> write(sample_buildout, 'recipes', 'setup.py',
            ... """
            ... from setuptools import setup
            ...
            ... setup(
            ...     name = "recipes",
            ...     entry_points = {'zc.buildout': ['mkdir = mkdir:Mkdir']},
            ...     )
            ... """)
        
        Our setup script defines an entry point. Entry points provide
        a way for an egg to define the services it provides.  Here we've said
        that we define a zc.buildout entry point named mkdir.  Recipe
        classes must be exposed as entry points in the zc.buildout group.  we
        give entry points names within the group.
        
        We also need a README.txt for our recipes to avoid an annoying warning
        from distutils, on which setuptools and zc.buildout are based:
        
            >>> write(sample_buildout, 'recipes', 'README.txt', " ")
        
        Now let's update our buildout.cfg:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = data-dir
            ...
            ... [data-dir]
            ... recipe = recipes:mkdir
            ... path = mystuff
            ... """)
        
        Let's go through the changes one by one::
        
            develop = recipes
        
        This tells the buildout to install a development egg for our recipes.
        Any number of paths can be listed.  The paths can be relative or
        absolute.  If relative, they are treated as relative to the buildout
        directory.  They can be directory or file paths.  If a file path is
        given, it should point to a Python setup script.  If a directory path
        is given, it should point to a directory containing a setup.py file.
        Development eggs are installed before building any parts, as they may
        provide locally-defined recipes needed by the parts.
        
        ::
        
            parts = data-dir
        
        Here we've named a part to be "built".  We can use any name we want
        except that different part names must be unique and recipes will often
        use the part name to decide what to do.
        
        ::
        
            [data-dir]
            recipe = recipes:mkdir
            path = mystuff
        
        
        When we name a part, we also create a section of the same
        name that contains part data.  In this section, we'll define
        the recipe to be used to install the part.  In this case, we also
        specify the path to be created.
        
        Let's run the buildout.  We do so by running the build script in the
        buildout:
        
            >>> import os
            >>> os.chdir(sample_buildout)
            >>> buildout = os.path.join(sample_buildout, 'bin', 'buildout')
            >>> print system(buildout),
            Develop: '/sample-buildout/recipes'
            Installing data-dir.
            data-dir: Creating directory mystuff
        
        We see that the recipe created the directory, as expected:
        
            >>> ls(sample_buildout)
            -  .installed.cfg
            d  bin
            -  buildout.cfg
            d  develop-eggs
            d  eggs
            d  mystuff
            d  parts
            d  recipes
        
        In addition, .installed.cfg has been created containing information
        about the part we installed:
        
            >>> cat(sample_buildout, '.installed.cfg')
            [buildout]
            installed_develop_eggs = /sample-buildout/develop-eggs/recipes.egg-link
            parts = data-dir
            <BLANKLINE>
            [data-dir]
            __buildout_installed__ = /sample-buildout/mystuff
            __buildout_signature__ = recipes-c7vHV6ekIDUPy/7fjAaYjg==
            path = /sample-buildout/mystuff
            recipe = recipes:mkdir
        
        Note that the directory we installed is included in .installed.cfg.
        In addition, the path option includes the actual destination
        directory.
        
        If we change the name of the directory in the configuration file,
        we'll see that the directory gets removed and recreated:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = data-dir
            ...
            ... [data-dir]
            ... recipe = recipes:mkdir
            ... path = mydata
            ... """)
        
            >>> print system(buildout),
            Develop: '/sample-buildout/recipes'
            Uninstalling data-dir.
            Installing data-dir.
            data-dir: Creating directory mydata
        
            >>> ls(sample_buildout)
            -  .installed.cfg
            d  bin
            -  buildout.cfg
            d  develop-eggs
            d  eggs
            d  mydata
            d  parts
            d  recipes
        
        If any of the files or directories created by a recipe are removed,
        the part will be reinstalled:
        
            >>> rmdir(sample_buildout, 'mydata')
            >>> print system(buildout),
            Develop: '/sample-buildout/recipes'
            Uninstalling data-dir.
            Installing data-dir.
            data-dir: Creating directory mydata
        
        Error reporting
        ---------------
        
        If a user makes an error, an error needs to be printed and work needs
        to stop.  This is accomplished by logging a detailed error message and
        then raising a (or an instance of a subclass of a)
        zc.buildout.UserError exception.  Raising an error other than a
        UserError still displays the error, but labels it as a bug in the
        buildout software or recipe. In the sample above, of someone gives a
        non-existent directory to create the directory in:
        
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = data-dir
            ...
            ... [data-dir]
            ... recipe = recipes:mkdir
            ... path = /xxx/mydata
            ... """)
        
        We'll get a user error, not a traceback.
        
            >>> print system(buildout),
            Develop: '/sample-buildout/recipes'
            data-dir: Cannot create /xxx/mydata. /xxx is not a directory.
            While:
              Installing.
              Getting section data-dir.
              Initializing part data-dir.
            Error: Invalid Path
        
        
        Recipe Error Handling
        ---------------------
        
        If an error occurs during installation, it is up to the recipe to
        clean up any system side effects, such as files created.  Let's update
        the mkdir recipe to support multiple paths:
        
            >>> write(sample_buildout, 'recipes', 'mkdir.py',
            ... """
            ... import logging, os, zc.buildout
            ...
            ... class Mkdir:
            ...
            ...     def __init__(self, buildout, name, options):
            ...         self.name, self.options = name, options
            ...
            ...         # Normalize paths and check that their parent
            ...         # directories exist:
            ...         paths = []
            ...         for path in options['path'].split():
            ...             path = os.path.join(buildout['buildout']['directory'], path)
            ...             if not os.path.isdir(os.path.dirname(path)):
            ...                 logging.getLogger(self.name).error(
            ...                     'Cannot create %s. %s is not a directory.',
            ...                     options['path'], os.path.dirname(options['path']))
            ...                 raise zc.buildout.UserError('Invalid Path')
            ...             paths.append(path)
            ...         options['path'] = ' '.join(paths)
            ...
            ...     def install(self):
            ...         paths = self.options['path'].split()
            ...         for path in paths:
            ...             logging.getLogger(self.name).info(
            ...                 'Creating directory %s', os.path.basename(path))
            ...             os.mkdir(path)
            ...         return paths
            ...
            ...     def update(self):
            ...         pass
            ... """)
        
        If there is an error creating a path, the install method will exit and
        leave previously created paths in place:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = data-dir
            ...
            ... [data-dir]
            ... recipe = recipes:mkdir
            ... path = foo bin
            ... """)
        
            >>> print system(buildout), # doctest: +ELLIPSIS
            Develop: '/sample-buildout/recipes'
            Uninstalling data-dir.
            Installing data-dir.
            data-dir: Creating directory foo
            data-dir: Creating directory bin
            While:
              Installing data-dir.
            <BLANKLINE>
            An internal error occurred due to a bug in either zc.buildout or in a
            recipe being used:
            Traceback (most recent call last):
              ...
            OSError: [Errno 17] File exists: '/sample-buildout/bin'
        
        We meant to create a directory bins, but typed bin.  Now foo was
        left behind.
        
            >>> os.path.exists('foo')
            True
        
        If we fix the typo:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = data-dir
            ...
            ... [data-dir]
            ... recipe = recipes:mkdir
            ... path = foo bins
            ... """)
        
            >>> print system(buildout), # doctest: +ELLIPSIS
            Develop: '/sample-buildout/recipes'
            Installing data-dir.
            data-dir: Creating directory foo
            While:
              Installing data-dir.
            <BLANKLINE>
            An internal error occurred due to a bug in either zc.buildout or in a
            recipe being used:
            Traceback (most recent call last):
            ...
            OSError: [Errno 17] File exists: '/sample-buildout/foo'
        
        Now they fail because foo exists, because it was left behind.
        
            >>> remove('foo')
        
        Let's fix the recipe:
        
            >>> write(sample_buildout, 'recipes', 'mkdir.py',
            ... """
            ... import logging, os, zc.buildout
            ...
            ... class Mkdir:
            ...
            ...     def __init__(self, buildout, name, options):
            ...         self.name, self.options = name, options
            ...
            ...         # Normalize paths and check that their parent
            ...         # directories exist:
            ...         paths = []
            ...         for path in options['path'].split():
            ...             path = os.path.join(buildout['buildout']['directory'], path)
            ...             if not os.path.isdir(os.path.dirname(path)):
            ...                 logging.getLogger(self.name).error(
            ...                     'Cannot create %s. %s is not a directory.',
            ...                     options['path'], os.path.dirname(options['path']))
            ...                 raise zc.buildout.UserError('Invalid Path')
            ...             paths.append(path)
            ...         options['path'] = ' '.join(paths)
            ...
            ...     def install(self):
            ...         paths = self.options['path'].split()
            ...         created = []
            ...         try:
            ...             for path in paths:
            ...                 logging.getLogger(self.name).info(
            ...                     'Creating directory %s', os.path.basename(path))
            ...                 os.mkdir(path)
            ...                 created.append(path)
            ...         except:
            ...             for d in created:
            ...                 os.rmdir(d)
            ...             raise
            ...
            ...         return paths
            ...
            ...     def update(self):
            ...         pass
            ... """)
        
        And put back the typo:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = data-dir
            ...
            ... [data-dir]
            ... recipe = recipes:mkdir
            ... path = foo bin
            ... """)
        
        When we rerun the buildout:
        
            >>> print system(buildout), # doctest: +ELLIPSIS
            Develop: '/sample-buildout/recipes'
            Installing data-dir.
            data-dir: Creating directory foo
            data-dir: Creating directory bin
            While:
              Installing data-dir.
            <BLANKLINE>
            An internal error occurred due to a bug in either zc.buildout or in a
            recipe being used:
            Traceback (most recent call last):
            ...
            OSError: [Errno 17] File exists: '/sample-buildout/bin'
        
        .. Wait for the file to really disappear. My linux is weird.
        
            >>> wait_until("foo goes away", lambda : not os.path.exists('foo'),
            ...            timeout=200)
        
        we get the same error, but we don't get the directory left behind:
        
            >>> os.path.exists('foo')
            False
        
        It's critical that recipes clean up partial effects when errors
        occur.  Because recipes most commonly create files and directories,
        buildout provides a helper API for removing created files when an
        error occurs.  Option objects have a created method that can be called
        to record files as they are created.  If the install or update method
        returns with an error, then any registered paths are removed
        automatically.  The method returns the files registered and can be
        used to return the files created.  Let's use this API to simplify the
        recipe:
        
            >>> write(sample_buildout, 'recipes', 'mkdir.py',
            ... """
            ... import logging, os, zc.buildout
            ...
            ... class Mkdir:
            ...
            ...     def __init__(self, buildout, name, options):
            ...         self.name, self.options = name, options
            ...
            ...         # Normalize paths and check that their parent
            ...         # directories exist:
            ...         paths = []
            ...         for path in options['path'].split():
            ...             path = os.path.join(buildout['buildout']['directory'], path)
            ...             if not os.path.isdir(os.path.dirname(path)):
            ...                 logging.getLogger(self.name).error(
            ...                     'Cannot create %s. %s is not a directory.',
            ...                     options['path'], os.path.dirname(options['path']))
            ...                 raise zc.buildout.UserError('Invalid Path')
            ...             paths.append(path)
            ...         options['path'] = ' '.join(paths)
            ...
            ...     def install(self):
            ...         paths = self.options['path'].split()
            ...         for path in paths:
            ...             logging.getLogger(self.name).info(
            ...                 'Creating directory %s', os.path.basename(path))
            ...             os.mkdir(path)
            ...             self.options.created(path)
            ...
            ...         return self.options.created()
            ...
            ...     def update(self):
            ...         pass
            ... """)
        
        ..
        
            >>> remove(sample_buildout, 'recipes', 'mkdir.pyc')
        
        We returned by calling created, taking advantage of the fact that it
        returns the registered paths.  We did this for illustrative purposes.
        It would be simpler just to return the paths as before.
        
        If we rerun the buildout, again, we'll get the error and no
        directories will be created:
        
            >>> print system(buildout), # doctest: +ELLIPSIS
            Develop: '/sample-buildout/recipes'
            Installing data-dir.
            data-dir: Creating directory foo
            data-dir: Creating directory bin
            While:
              Installing data-dir.
            <BLANKLINE>
            An internal error occurred due to a bug in either zc.buildout or in a
            recipe being used:
            Traceback (most recent call last):
            ...
            OSError: [Errno 17] File exists: '/sample-buildout/bin'
        
            >>> os.path.exists('foo')
            False
        
        Now, we'll fix the typo again and we'll get the directories we expect:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = data-dir
            ...
            ... [data-dir]
            ... recipe = recipes:mkdir
            ... path = foo bins
            ... """)
        
            >>> print system(buildout),
            Develop: '/sample-buildout/recipes'
            Installing data-dir.
            data-dir: Creating directory foo
            data-dir: Creating directory bins
        
            >>> os.path.exists('foo')
            True
            >>> os.path.exists('bins')
            True
        
        Configuration file syntax
        -------------------------
        
        As mentioned earlier, buildout configuration files use the format
        defined by the Python ConfigParser module with extensions.  The
        extensions are:
        
        - option names are case sensitive
        
        - option values can use a substitution syntax, described below, to
          refer to option values in specific sections.
        
        - option values can be appended or removed using the - and +
          operators.
        
        The ConfigParser syntax is very flexible.  Section names can contain
        any characters other than newlines and right square braces ("]").
        Option names can contain any characters other than newlines, colons,
        and equal signs, can not start with a space, and don't include
        trailing spaces.
        
        It is likely that, in the future, some characters will be given
        special buildout-defined meanings.  This is already true of the
        characters ":", "$", "%", "(", and ")".  For now, it is a good idea to
        keep section and option names simple, sticking to alphanumeric
        characters, hyphens, and periods.
        
        Annotated sections
        ------------------
        
        When used with the `annotate` command, buildout displays annotated sections.
        All sections are displayed, sorted alphabetically. For each section,
        all key-value pairs are displayed, sorted alphabetically, along with
        the origin of the value (file name or COMPUTED_VALUE, DEFAULT_VALUE,
        COMMAND_LINE_VALUE).
        
            >>> print system(buildout+ ' annotate'),
            ... # doctest: +ELLIPSIS +NORMALIZE_WHITESPACE
            <BLANKLINE>
            Annotated sections
            ==================
            <BLANKLINE>
            [buildout]
            accept-buildout-test-releases= false
                DEFAULT_VALUE
            allow-hosts= *
                DEFAULT_VALUE
            allow-picked-versions= true
                DEFAULT_VALUE
            allowed-eggs-from-site-packages= *
                DEFAULT_VALUE
            bin-directory= bin
                DEFAULT_VALUE
            develop= recipes
                /sample-buildout/buildout.cfg
            develop-eggs-directory= develop-eggs
                DEFAULT_VALUE
            directory= /sample-buildout
                COMPUTED_VALUE
            eggs-directory= eggs
                DEFAULT_VALUE
            exec-sitecustomize= true
                DEFAULT_VALUE
            executable= ...
                DEFAULT_VALUE
            find-links=
                DEFAULT_VALUE
            include-site-packages= true
                DEFAULT_VALUE
            install-from-cache= false
                DEFAULT_VALUE
            installed= .installed.cfg
                DEFAULT_VALUE
            log-format=
                DEFAULT_VALUE
            log-level= INFO
                DEFAULT_VALUE
            newest= true
                DEFAULT_VALUE
            offline= false
                DEFAULT_VALUE
            parts= data-dir
                /sample-buildout/buildout.cfg
            parts-directory= parts
                DEFAULT_VALUE
            prefer-final= false
                DEFAULT_VALUE
            python= buildout
                DEFAULT_VALUE
            relative-paths= false
                DEFAULT_VALUE
            socket-timeout=
                DEFAULT_VALUE
            unzip= false
                DEFAULT_VALUE
            use-dependency-links= true
                DEFAULT_VALUE
            <BLANKLINE>
            [data-dir]
            path= foo bins
                /sample-buildout/buildout.cfg
            recipe= recipes:mkdir
                /sample-buildout/buildout.cfg
            <BLANKLINE>
        
        Variable substitutions
        ----------------------
        
        Buildout configuration files support variable substitution.
        To illustrate this, we'll create an debug recipe to
        allow us to see interactions with the buildout:
        
            >>> write(sample_buildout, 'recipes', 'debug.py',
            ... """
            ... class Debug:
            ...
            ...     def __init__(self, buildout, name, options):
            ...         self.buildout = buildout
            ...         self.name = name
            ...         self.options = options
            ...
            ...     def install(self):
            ...         items = self.options.items()
            ...         items.sort()
            ...         for option, value in items:
            ...             print option, value
            ...         return ()
            ...
            ...     update = install
            ... """)
        
        This recipe doesn't actually create anything. The install method
        doesn't return anything, because it didn't create any files or
        directories.
        
        We also have to update our setup script:
        
            >>> write(sample_buildout, 'recipes', 'setup.py',
            ... """
            ... from setuptools import setup
            ... entry_points = (
            ... '''
            ... [zc.buildout]
            ... mkdir = mkdir:Mkdir
            ... debug = debug:Debug
            ... ''')
            ... setup(name="recipes", entry_points=entry_points)
            ... """)
        
        We've rearranged the script a bit to make the entry points easier to
        edit.  In particular, entry points are now defined as a configuration
        string, rather than a dictionary.
        
        Let's update our configuration to provide variable substitution
        examples:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = data-dir debug
            ... log-level = INFO
            ...
            ... [debug]
            ... recipe = recipes:debug
            ... File 1 = ${data-dir:path}/file
            ... File 2 = ${debug:File 1}/log
            ...
            ... [data-dir]
            ... recipe = recipes:mkdir
            ... path = mydata
            ... """)
        
        We used a string-template substitution for File 1 and File 2.  This
        type of substitution uses the string.Template syntax.  Names
        substituted are qualified option names, consisting of a section name
        and option name joined by a colon.
        
        Now, if we run the buildout, we'll see the options with the values
        substituted.
        
            >>> print system(buildout),
            Develop: '/sample-buildout/recipes'
            Uninstalling data-dir.
            Installing data-dir.
            data-dir: Creating directory mydata
            Installing debug.
            File 1 /sample-buildout/mydata/file
            File 2 /sample-buildout/mydata/file/log
            recipe recipes:debug
        
        Note that the substitution of the data-dir path option reflects the
        update to the option performed by the mkdir recipe.
        
        It might seem surprising that mydata was created again.  This is
        because we changed our recipes package by adding the debug module.
        The buildout system didn't know if this module could effect the mkdir
        recipe, so it assumed it could and reinstalled mydata.  If we rerun
        the buildout:
        
            >>> print system(buildout),
            Develop: '/sample-buildout/recipes'
            Updating data-dir.
            Updating debug.
            File 1 /sample-buildout/mydata/file
            File 2 /sample-buildout/mydata/file/log
            recipe recipes:debug
        
        We can see that mydata was not recreated.
        
        Note that, in this case, we didn't specify a log level, so
        we didn't get output about what the buildout was doing.
        
        Section and option names in variable substitutions are only allowed to
        contain alphanumeric characters, hyphens, periods and spaces. This
        restriction might be relaxed in future releases.
        
        We can ommit the section name in a variable substitution to refer to
        the current section.  We can also use the special option,
        _buildout_section_name_ to get the current section name.
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = data-dir debug
            ... log-level = INFO
            ...
            ... [debug]
            ... recipe = recipes:debug
            ... File 1 = ${data-dir:path}/file
            ... File 2 = ${:File 1}/log
            ... my_name = ${:_buildout_section_name_}
            ...
            ... [data-dir]
            ... recipe = recipes:mkdir
            ... path = mydata
            ... """)
        
            >>> print system(buildout),
            Develop: '/sample-buildout/recipes'
            Uninstalling debug.
            Updating data-dir.
            Installing debug.
            File 1 /sample-buildout/mydata/file
            File 2 /sample-buildout/mydata/file/log
            my_name debug
            recipe recipes:debug
        
        Automatic part selection and ordering
        -------------------------------------
        
        When a section with a recipe is referred to, either through variable
        substitution or by an initializing recipe, the section is treated as a
        part and added to the part list before the referencing part.  For
        example, we can leave data-dir out of the parts list:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = debug
            ... log-level = INFO
            ...
            ... [debug]
            ... recipe = recipes:debug
            ... File 1 = ${data-dir:path}/file
            ... File 2 = ${debug:File 1}/log
            ...
            ... [data-dir]
            ... recipe = recipes:mkdir
            ... path = mydata
            ... """)
        
        
        It will still be treated as a part:
        
            >>> print system(buildout),
            Develop: '/sample-buildout/recipes'
            Uninstalling debug.
            Updating data-dir.
            Installing debug.
            File 1 /sample-buildout/mydata/file
            File 2 /sample-buildout/mydata/file/log
            recipe recipes:debug
        
            >>> cat('.installed.cfg') # doctest: +ELLIPSIS
            [buildout]
            installed_develop_eggs = /sample-buildout/develop-eggs/recipes.egg-link
            parts = data-dir debug
            ...
        
        Note that the data-dir part is included *before* the debug part,
        because the debug part refers to the data-dir part.  Even if we list
        the data-dir part after the debug part, it will be included before:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = debug data-dir
            ... log-level = INFO
            ...
            ... [debug]
            ... recipe = recipes:debug
            ... File 1 = ${data-dir:path}/file
            ... File 2 = ${debug:File 1}/log
            ...
            ... [data-dir]
            ... recipe = recipes:mkdir
            ... path = mydata
            ... """)
        
        
        It will still be treated as a part:
        
            >>> print system(buildout),
            Develop: '/sample-buildout/recipes'
            Updating data-dir.
            Updating debug.
            File 1 /sample-buildout/mydata/file
            File 2 /sample-buildout/mydata/file/log
            recipe recipes:debug
        
            >>> cat('.installed.cfg') # doctest: +ELLIPSIS
            [buildout]
            installed_develop_eggs = /sample-buildout/develop-eggs/recipes.egg-link
            parts = data-dir debug
            ...
        
        Extending sections (macros)
        ---------------------------
        
        A section (other than the buildout section) can extend one or more
        other sections using the ``<=`` option.  Options from the referenced
        sections are copied to the refering section *before* variable
        substitution.  This, together with the ability to refer to variables
        of the current section allows sections to be used as macros.
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = myfiles
            ... log-level = INFO
            ...
            ... [debug]
            ... recipe = recipes:debug
            ...
            ... [with_file1]
            ... <= debug
            ... file1 = ${:path}/file1
            ... color = red
            ...
            ... [with_file2]
            ... <= debug
            ... file2 = ${:path}/file2
            ... color = blue
            ...
            ... [myfiles]
            ... <= with_file1
            ...    with_file2
            ... path = mydata
            ... """)
        
            >>> print system(buildout),
            Develop: '/sample-buildout/recipes'
            Uninstalling debug.
            Uninstalling data-dir.
            Installing myfiles.
            color blue
            file1 mydata/file1
            file2 mydata/file2
            path mydata
            recipe recipes:debug
        
        In this example, the debug, with_file1 and with_file2 sections act as
        macros. In particular, the variable substitutions are performed
        relative to the myfiles section.
        
        Adding and removing options
        ---------------------------
        
        We can append and remove values to an option by using the + and -
        operators.
        
        This is illustrated below; first we define a base configuration.
        
            >>> write(sample_buildout, 'base.cfg',
            ... """
            ... [buildout]
            ... parts = part1 part2 part3
            ...
            ... [part1]
            ... recipe =
            ... option = a1 a2
            ...
            ... [part2]
            ... recipe =
            ... option = b1 b2 b3 b4
            ...
            ... [part3]
            ... recipe =
            ... option = c1 c2
            ...
            ... """)
        
        Extending this configuration, we can "adjust" the values set in the
        base configuration file.
        
            >>> write(sample_buildout, 'extension1.cfg',
            ... """
            ... [buildout]
            ... extends = base.cfg
            ...
            ... # appending values
            ... [part1]
            ... option += a3 a4
            ...
            ... # removing values
            ... [part2]
            ... option -= b1 b2
            ...
            ... # alt. spelling
            ... [part3]
            ... option+=c3 c4 c5
            ...
            ... # normal assignment
            ... [part4]
            ... option = h1 h2
            ...
            ... """)
        
        An additional extension.
        
            >>> write(sample_buildout, 'extension2.cfg',
            ... """
            ... [buildout]
            ... extends = extension1.cfg
            ...
            ... # appending values
            ... [part1]
            ... option += a5
            ...
            ... # removing values
            ... [part2]
            ... option -= b1 b2 b3
            ...
            ... """)
        
        To verify that the options are adjusted correctly, we'll set up an
        extension that prints out the options.
        
            >>> mkdir(sample_buildout, 'demo')
            >>> write(sample_buildout, 'demo', 'demo.py',
            ... """
            ... def ext(buildout):
            ...     print [part['option'] for name, part in buildout.items() \
            ...           if name.startswith('part')]
            ... """)
        
            >>> write(sample_buildout, 'demo', 'setup.py',
            ... """
            ... from setuptools import setup
            ...
            ... setup(
            ...     name="demo",
            ...     entry_points={'zc.buildout.extension': ['ext = demo:ext']},
            ...     )
            ... """)
        
        Set up a buildout configuration for this extension.
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = demo
            ... parts =
            ... """)
        
            >>> os.chdir(sample_buildout)
            >>> print system(os.path.join(sample_buildout, 'bin', 'buildout')),
            Develop: '/sample-buildout/demo'
            Uninstalling myfiles.
            Getting distribution for 'recipes'.
            zip_safe flag not set; analyzing archive contents...
            Got recipes 0.0.0.
            warning: install_lib: 'build/lib' does not exist -- no Python modules to install
        
        Verify option values.
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = demo
            ... extensions = demo
            ... extends = extension2.cfg
            ... """)
        
            >>> print system(os.path.join('bin', 'buildout')),
            ['a1 a2/na3 a4/na5', 'b1 b2 b3 b4', 'c1 c2/nc3 c4 c5', 'h1 h2']
            Develop: '/sample-buildout/demo'
        
        Annotated sections output shows which files are responsible for which
        operations.
        
            >>> print system(os.path.join('bin', 'buildout') + ' annotate'),
            ... # doctest: +ELLIPSIS +NORMALIZE_WHITESPACE
            <BLANKLINE>
            Annotated sections
            ==================
            ...
            <BLANKLINE>
            [part1]
            option= a1 a2
            a3 a4
            a5
                /sample-buildout/base.cfg
            +=  /sample-buildout/extension1.cfg
            +=  /sample-buildout/extension2.cfg
            recipe=
                /sample-buildout/base.cfg
            <BLANKLINE>
            [part2]
            option= b1 b2 b3 b4
                /sample-buildout/base.cfg
            -=  /sample-buildout/extension1.cfg
            -=  /sample-buildout/extension2.cfg
            recipe=
                /sample-buildout/base.cfg
            <BLANKLINE>
            [part3]
            option= c1 c2
            c3 c4 c5
                /sample-buildout/base.cfg
            +=  /sample-buildout/extension1.cfg
            recipe=
                /sample-buildout/base.cfg
            <BLANKLINE>
            [part4]
            option= h1 h2
                /sample-buildout/extension1.cfg
        
        Cleanup.
        
            >>> os.remove(os.path.join(sample_buildout, 'base.cfg'))
            >>> os.remove(os.path.join(sample_buildout, 'extension1.cfg'))
            >>> os.remove(os.path.join(sample_buildout, 'extension2.cfg'))
        
        Multiple configuration files
        ----------------------------
        
        A configuration file can "extend" another configuration file.
        Options are read from the other configuration file if they aren't
        already defined by your configuration file.
        
        The configuration files your file extends can extend
        other configuration files.  The same file may be
        used more than once although, of course, cycles aren't allowed.
        
        To see how this works, we use an example:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... extends = base.cfg
            ...
            ... [debug]
            ... op = buildout
            ... """)
        
            >>> write(sample_buildout, 'base.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = debug
            ...
            ... [debug]
            ... recipe = recipes:debug
            ... op = base
            ... """)
        
            >>> print system(buildout),
            Develop: '/sample-buildout/recipes'
            Installing debug.
            op buildout
            recipe recipes:debug
        
        The example is pretty trivial, but the pattern it illustrates is
        pretty common.  In a more practical example, the base buildout might
        represent a product and the extending buildout might be a
        customization.
        
        Here is a more elaborate example.
        
            >>> other = tmpdir('other')
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... extends = b1.cfg b2.cfg %(b3)s
            ...
            ... [debug]
            ... op = buildout
            ... """ % dict(b3=os.path.join(other, 'b3.cfg')))
        
            >>> write(sample_buildout, 'b1.cfg',
            ... """
            ... [buildout]
            ... extends = base.cfg
            ...
            ... [debug]
            ... op1 = b1 1
            ... op2 = b1 2
            ... """)
        
            >>> write(sample_buildout, 'b2.cfg',
            ... """
            ... [buildout]
            ... extends = base.cfg
            ...
            ... [debug]
            ... op2 = b2 2
            ... op3 = b2 3
            ... """)
        
            >>> write(other, 'b3.cfg',
            ... """
            ... [buildout]
            ... extends = b3base.cfg
            ...
            ... [debug]
            ... op4 = b3 4
            ... """)
        
            >>> write(other, 'b3base.cfg',
            ... """
            ... [debug]
            ... op5 = b3base 5
            ... """)
        
            >>> write(sample_buildout, 'base.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = debug
            ...
            ... [debug]
            ... recipe = recipes:debug
            ... name = base
            ... """)
        
            >>> print system(buildout),
            Develop: '/sample-buildout/recipes'
            Uninstalling debug.
            Installing debug.
            name base
            op buildout
            op1 b1 1
            op2 b2 2
            op3 b2 3
            op4 b3 4
            op5 b3base 5
            recipe recipes:debug
        
        There are several things to note about this example:
        
        - We can name multiple files in an extends option.
        
        - We can reference files recursively.
        
        - Relative file names in extended options are interpreted relative to
          the directory containing the referencing configuration file.
        
        Loading Configuration from URLs
        -------------------------------
        
        Configuration files can be loaded from URLs.  To see how this works,
        we'll set up a web server with some configuration files.
        
            >>> server_data = tmpdir('server_data')
        
            >>> write(server_data, "r1.cfg",
            ... """
            ... [debug]
            ... op1 = r1 1
            ... op2 = r1 2
            ... """)
        
            >>> write(server_data, "r2.cfg",
            ... """
            ... [buildout]
            ... extends = r1.cfg
            ...
            ... [debug]
            ... op2 = r2 2
            ... op3 = r2 3
            ... """)
        
            >>> server_url = start_server(server_data)
        
            >>> write('client.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = debug
            ... extends = %(url)s/r2.cfg
            ...
            ... [debug]
            ... recipe = recipes:debug
            ... name = base
            ... """ % dict(url=server_url))
        
        
            >>> print system(buildout+ ' -c client.cfg'),
            Develop: '/sample-buildout/recipes'
            Uninstalling debug.
            Installing debug.
            name base
            op1 r1 1
            op2 r2 2
            op3 r2 3
            recipe recipes:debug
        
        Here we specified a URL for the file we extended.  The file we
        downloaded, itself referred to a file on the server using a relative
        URL reference.  Relative references are interpreted relative to the
        base URL when they appear in configuration files loaded via URL.
        
        We can also specify a URL as the configuration file to be used by a
        buildout.
        
            >>> os.remove('client.cfg')
            >>> write(server_data, 'remote.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = debug
            ... extends = r2.cfg
            ...
            ... [debug]
            ... recipe = recipes:debug
            ... name = remote
            ... """)
        
            >>> print system(buildout + ' -c ' + server_url + '/remote.cfg'),
            While:
              Initializing.
            Error: Missing option: buildout:directory
        
        Normally, the buildout directory defaults to directory
        containing a configuration file.  This won't work for configuration
        files loaded from URLs.  In this case, the buildout directory would
        normally be defined on the command line:
        
            >>> print system(buildout
            ...              + ' -c ' + server_url + '/remote.cfg'
            ...              + ' buildout:directory=' + sample_buildout
            ...              ),
            Develop: '/sample-buildout/recipes'
            Uninstalling debug.
            Installing debug.
            name remote
            op1 r1 1
            op2 r2 2
            op3 r2 3
            recipe recipes:debug
        
        User defaults
        -------------
        
        If the file $HOME/.buildout/default.cfg, exists, it is read before
        reading the configuration file.  ($HOME is the value of the HOME
        environment variable. The '/' is replaced by the operating system file
        delimiter.)
        
            >>> old_home = os.environ['HOME']
            >>> home = tmpdir('home')
            >>> mkdir(home, '.buildout')
            >>> write(home, '.buildout', 'default.cfg',
            ... """
            ... [debug]
            ... op1 = 1
            ... op7 = 7
            ... """)
        
            >>> os.environ['HOME'] = home
            >>> print system(buildout),
            Develop: '/sample-buildout/recipes'
            Uninstalling debug.
            Installing debug.
            name base
            op buildout
            op1 b1 1
            op2 b2 2
            op3 b2 3
            op4 b3 4
            op5 b3base 5
            op7 7
            recipe recipes:debug
        
        A buildout command-line argument, -U, can be used to suppress reading
        user defaults:
        
            >>> print system(buildout + ' -U'),
            Develop: '/sample-buildout/recipes'
            Uninstalling debug.
            Installing debug.
            name base
            op buildout
            op1 b1 1
            op2 b2 2
            op3 b2 3
            op4 b3 4
            op5 b3base 5
            recipe recipes:debug
        
            >>> os.environ['HOME'] = old_home
        
        Log level
        ---------
        
        We can control the level of logging by specifying a log level in out
        configuration file.  For example, so suppress info messages, we can
        set the logging level to WARNING
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... log-level = WARNING
            ... extends = b1.cfg b2.cfg
            ... """)
        
            >>> print system(buildout),
            name base
            op1 b1 1
            op2 b2 2
            op3 b2 3
            recipe recipes:debug
        
        Uninstall recipes
        -----------------
        
        As we've seen, when parts are installed, buildout keeps track of files
        and directories that they create. When the parts are uninstalled these
        files and directories are deleted.
        
        Sometimes more clean up is needed. For example, a recipe might add a
        system service by calling chkconfig --add during installation. Later
        during uninstallation, chkconfig --del will need to be called to
        remove the system service.
        
        In order to deal with these uninstallation issues, you can register
        uninstall recipes. Uninstall recipes are registered using the
        'zc.buildout.uninstall' entry point. Parts specify uninstall recipes
        using the 'uninstall' option.
        
        In comparison to regular recipes, uninstall recipes are much
        simpler. They are simply callable objects that accept the name of the
        part to be uninstalled and the part's options dictionary. Uninstall
        recipes don't have access to the part itself since it maybe not be
        able to be instantiated at uninstallation time.
        
        Here's a recipe that simulates installation of a system service, along
        with an uninstall recipe that simulates removing the service.
        
            >>> write(sample_buildout, 'recipes', 'service.py',
            ... """
            ... class Service:
            ...
            ...     def __init__(self, buildout, name, options):
            ...         self.buildout = buildout
            ...         self.name = name
            ...         self.options = options
            ...
            ...     def install(self):
            ...         print "chkconfig --add %s" % self.options['script']
            ...         return ()
            ...
            ...     def update(self):
            ...         pass
            ...
            ...
            ... def uninstall_service(name, options):
            ...     print "chkconfig --del %s" % options['script']
            ... """)
        
        To use these recipes we must register them using entry points. Make
        sure to use the same name for the recipe and uninstall recipe. This is
        required to let buildout know which uninstall recipe goes with which
        recipe.
        
            >>> write(sample_buildout, 'recipes', 'setup.py',
            ... """
            ... from setuptools import setup
            ... entry_points = (
            ... '''
            ... [zc.buildout]
            ... mkdir = mkdir:Mkdir
            ... debug = debug:Debug
            ... service = service:Service
            ...
            ... [zc.buildout.uninstall]
            ... service = service:uninstall_service
            ... ''')
            ... setup(name="recipes", entry_points=entry_points)
            ... """)
        
        Here's how these recipes could be used in a buildout:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = service
            ...
            ... [service]
            ... recipe = recipes:service
            ... script = /path/to/script
            ... """)
        
        When the buildout is run the service will be installed
        
            >>> print system(buildout)
            Develop: '/sample-buildout/recipes'
            Uninstalling debug.
            Installing service.
            chkconfig --add /path/to/script
            <BLANKLINE>
        
        The service has been installed. If the buildout is run again with no
        changes, the service shouldn't be changed.
        
            >>> print system(buildout)
            Develop: '/sample-buildout/recipes'
            Updating service.
            <BLANKLINE>
        
        Now we change the service part to trigger uninstallation and
        re-installation.
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = service
            ...
            ... [service]
            ... recipe = recipes:service
            ... script = /path/to/a/different/script
            ... """)
        
            >>> print system(buildout)
            Develop: '/sample-buildout/recipes'
            Uninstalling service.
            Running uninstall recipe.
            chkconfig --del /path/to/script
            Installing service.
            chkconfig --add /path/to/a/different/script
            <BLANKLINE>
        
        Now we remove the service part, and add another part.
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = debug
            ...
            ... [debug]
            ... recipe = recipes:debug
            ... """)
        
            >>> print system(buildout)
            Develop: '/sample-buildout/recipes'
            Uninstalling service.
            Running uninstall recipe.
            chkconfig --del /path/to/a/different/script
            Installing debug.
            recipe recipes:debug
            <BLANKLINE>
        
        Uninstall recipes don't have to take care of removing all the files
        and directories created by the part. This is still done automatically,
        following the execution of the uninstall recipe. An upshot is that an
        uninstallation recipe can access files and directories created by a
        recipe before they are deleted.
        
        For example, here's an uninstallation recipe that simulates backing up
        a directory before it is deleted. It is designed to work with the
        mkdir recipe introduced earlier.
        
            >>> write(sample_buildout, 'recipes', 'backup.py',
            ... """
            ... import os
            ... def backup_directory(name, options):
            ...     path = options['path']
            ...     size = len(os.listdir(path))
            ...     print "backing up directory %s of size %s" % (path, size)
            ... """)
        
        It must be registered with the zc.buildout.uninstall entry
        point. Notice how it is given the name 'mkdir' to associate it with
        the mkdir recipe.
        
            >>> write(sample_buildout, 'recipes', 'setup.py',
            ... """
            ... from setuptools import setup
            ... entry_points = (
            ... '''
            ... [zc.buildout]
            ... mkdir = mkdir:Mkdir
            ... debug = debug:Debug
            ... service = service:Service
            ...
            ... [zc.buildout.uninstall]
            ... uninstall_service = service:uninstall_service
            ... mkdir = backup:backup_directory
            ... ''')
            ... setup(name="recipes", entry_points=entry_points)
            ... """)
        
        Now we can use it with a mkdir part.
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = dir debug
            ...
            ... [dir]
            ... recipe = recipes:mkdir
            ... path = my_directory
            ...
            ... [debug]
            ... recipe = recipes:debug
            ... """)
        
        Run the buildout to install the part.
        
            >>> print system(buildout)
            Develop: '/sample-buildout/recipes'
            Uninstalling debug.
            Installing dir.
            dir: Creating directory my_directory
            Installing debug.
            recipe recipes:debug
            <BLANKLINE>
        
        Now we remove the part from the configuration file.
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = debug
            ...
            ... [debug]
            ... recipe = recipes:debug
            ... """)
        
        When the buildout is run the part is removed, and the uninstall recipe
        is run before the directory is deleted.
        
            >>> print system(buildout)
            Develop: '/sample-buildout/recipes'
            Uninstalling dir.
            Running uninstall recipe.
            backing up directory /sample-buildout/my_directory of size 0
            Updating debug.
            recipe recipes:debug
            <BLANKLINE>
        
        Now we will return the registration to normal for the benefit of the
        rest of the examples.
        
            >>> write(sample_buildout, 'recipes', 'setup.py',
            ... """
            ... from setuptools import setup
            ... entry_points = (
            ... '''
            ... [zc.buildout]
            ... mkdir = mkdir:Mkdir
            ... debug = debug:Debug
            ... ''')
            ... setup(name="recipes", entry_points=entry_points)
            ... """)
        
        
        Command-line usage
        ------------------
        
        A number of arguments can be given on the buildout command line.  The
        command usage is::
        
          buildout [options and assignments] [command [command arguments]]
        
        The following options are supported:
        
        -h (or --help)
            Print basic usage information.  If this option is used, then all
            other options are ignored.
        
        -c filename
            The -c option can be used to specify a configuration file, rather than
            buildout.cfg in the current directory.
        
        
        -t socket_timeout
        
           Specify the socket timeout in seconds.
        
        -v
            Increment the verbosity by 10.  The verbosity is used to adjust
            the logging level.  The verbosity is subtracted from the numeric
            value of the log-level option specified in the configuration file.
        
        -q
            Decrement the verbosity by 10.
        
        -U
            Don't read user-default configuration.
        
        -o
            Run in off-line mode.  This is equivalent to the assignment
            buildout:offline=true.
        
        -O
            Run in non-off-line mode.  This is equivalent to the assignment
            buildout:offline=false.  This is the default buildout mode.  The
            -O option would normally be used to override a true offline
            setting in a configuration file.
        
        -n
            Run in newest mode.  This is equivalent to the assignment
            buildout:newest=true.  With this setting, which is the default,
            buildout will try to find the newest versions of distributions
            available that satisfy its requirements.
        
        -N
            Run in non-newest mode.  This is equivalent to the assignment
            buildout:newest=false.  With this setting, buildout will not seek
            new distributions if installed distributions satisfy it's
            requirements.
        
        Assignments are of the form::
        
          section_name:option_name=value
        
        Options and assignments can be given in any order.
        
        Here's an example:
        
            >>> write(sample_buildout, 'other.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = debug
            ... installed = .other.cfg
            ... log-level = WARNING
            ...
            ... [debug]
            ... name = other
            ... recipe = recipes:debug
            ... """)
        
        Note that we used the installed buildout option to specify an
        alternate file to store information about installed parts.
        
            >>> print system(buildout+' -c other.cfg debug:op1=foo -v'),
            Develop: '/sample-buildout/recipes'
            Installing debug.
            name other
            op1 foo
            recipe recipes:debug
        
        Here we used the -c option to specify an alternate configuration file,
        and the -v option to increase the level of logging from the default,
        WARNING.
        
        Options can also be combined in the usual Unix way, as in:
        
            >>> print system(buildout+' -vcother.cfg debug:op1=foo'),
            Develop: '/sample-buildout/recipes'
            Updating debug.
            name other
            op1 foo
            recipe recipes:debug
        
        Here we combined the -v and -c options with the configuration file
        name.  Note that the -c option has to be last, because it takes an
        argument.
        
            >>> os.remove(os.path.join(sample_buildout, 'other.cfg'))
            >>> os.remove(os.path.join(sample_buildout, '.other.cfg'))
        
        The most commonly used command is 'install' and it takes a list of
        parts to install. if any parts are specified, only those parts are
        installed.  To illustrate this, we'll update our configuration and run
        the buildout in the usual way:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = debug d1 d2 d3
            ...
            ... [d1]
            ... recipe = recipes:mkdir
            ... path = d1
            ...
            ... [d2]
            ... recipe = recipes:mkdir
            ... path = d2
            ...
            ... [d3]
            ... recipe = recipes:mkdir
            ... path = d3
            ...
            ... [debug]
            ... recipe = recipes:debug
            ... """)
        
            >>> print system(buildout),
            Develop: '/sample-buildout/recipes'
            Uninstalling debug.
            Installing debug.
            recipe recipes:debug
            Installing d1.
            d1: Creating directory d1
            Installing d2.
            d2: Creating directory d2
            Installing d3.
            d3: Creating directory d3
        
            >>> ls(sample_buildout)
            -  .installed.cfg
            -  b1.cfg
            -  b2.cfg
            -  base.cfg
            d  bin
            -  buildout.cfg
            d  d1
            d  d2
            d  d3
            d  demo
            d  develop-eggs
            d  eggs
            d  parts
            d  recipes
        
            >>> cat(sample_buildout, '.installed.cfg')
            ... # doctest: +NORMALIZE_WHITESPACE
            [buildout]
            installed_develop_eggs = /sample-buildout/develop-eggs/recipes.egg-link
            parts = debug d1 d2 d3
            <BLANKLINE>
            [debug]
            __buildout_installed__ =
            __buildout_signature__ = recipes-PiIFiO8ny5yNZ1S3JfT0xg==
            recipe = recipes:debug
            <BLANKLINE>
            [d1]
            __buildout_installed__ = /sample-buildout/d1
            __buildout_signature__ = recipes-PiIFiO8ny5yNZ1S3JfT0xg==
            path = /sample-buildout/d1
            recipe = recipes:mkdir
            <BLANKLINE>
            [d2]
            __buildout_installed__ = /sample-buildout/d2
            __buildout_signature__ = recipes-PiIFiO8ny5yNZ1S3JfT0xg==
            path = /sample-buildout/d2
            recipe = recipes:mkdir
            <BLANKLINE>
            [d3]
            __buildout_installed__ = /sample-buildout/d3
            __buildout_signature__ = recipes-PiIFiO8ny5yNZ1S3JfT0xg==
            path = /sample-buildout/d3
            recipe = recipes:mkdir
        
        Now we'll update our configuration file:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = debug d2 d3 d4
            ...
            ... [d2]
            ... recipe = recipes:mkdir
            ... path = data2
            ...
            ... [d3]
            ... recipe = recipes:mkdir
            ... path = data3
            ...
            ... [d4]
            ... recipe = recipes:mkdir
            ... path = ${d2:path}-extra
            ...
            ... [debug]
            ... recipe = recipes:debug
            ... x = 1
            ... """)
        
        and run the buildout specifying just d3 and d4:
        
            >>> print system(buildout+' install d3 d4'),
            Develop: '/sample-buildout/recipes'
            Uninstalling d3.
            Installing d3.
            d3: Creating directory data3
            Installing d4.
            d4: Creating directory data2-extra
        
            >>> ls(sample_buildout)
            -  .installed.cfg
            -  b1.cfg
            -  b2.cfg
            -  base.cfg
            d  bin
            -  buildout.cfg
            d  d1
            d  d2
            d  data2-extra
            d  data3
            d  demo
            d  develop-eggs
            d  eggs
            d  parts
            d  recipes
        
        Only the d3 and d4 recipes ran.  d3 was removed and data3 and data2-extra
        were created.
        
        The .installed.cfg is only updated for the recipes that ran:
        
            >>> cat(sample_buildout, '.installed.cfg')
            ... # doctest: +NORMALIZE_WHITESPACE
            [buildout]
            installed_develop_eggs = /sample-buildout/develop-eggs/recipes.egg-link
            parts = debug d1 d2 d3 d4
            <BLANKLINE>
            [debug]
            __buildout_installed__ =
            __buildout_signature__ = recipes-PiIFiO8ny5yNZ1S3JfT0xg==
            recipe = recipes:debug
            <BLANKLINE>
            [d1]
            __buildout_installed__ = /sample-buildout/d1
            __buildout_signature__ = recipes-PiIFiO8ny5yNZ1S3JfT0xg==
            path = /sample-buildout/d1
            recipe = recipes:mkdir
            <BLANKLINE>
            [d2]
            __buildout_installed__ = /sample-buildout/d2
            __buildout_signature__ = recipes-PiIFiO8ny5yNZ1S3JfT0xg==
            path = /sample-buildout/d2
            recipe = recipes:mkdir
            <BLANKLINE>
            [d3]
            __buildout_installed__ = /sample-buildout/data3
            __buildout_signature__ = recipes-PiIFiO8ny5yNZ1S3JfT0xg==
            path = /sample-buildout/data3
            recipe = recipes:mkdir
            <BLANKLINE>
            [d4]
            __buildout_installed__ = /sample-buildout/data2-extra
            __buildout_signature__ = recipes-PiIFiO8ny5yNZ1S3JfT0xg==
            path = /sample-buildout/data2-extra
            recipe = recipes:mkdir
        
        Note that the installed data for debug, d1, and d2 haven't changed,
        because we didn't install those parts and that the d1 and d2
        directories are still there.
        
        Now, if we run the buildout without the install command:
        
            >>> print system(buildout),
            Develop: '/sample-buildout/recipes'
            Uninstalling d2.
            Uninstalling d1.
            Uninstalling debug.
            Installing debug.
            recipe recipes:debug
            x 1
            Installing d2.
            d2: Creating directory data2
            Updating d3.
            Updating d4.
        
        We see the output of the debug recipe and that data2 was created.  We
        also see that d1 and d2 have gone away:
        
            >>> ls(sample_buildout)
            -  .installed.cfg
            -  b1.cfg
            -  b2.cfg
            -  base.cfg
            d  bin
            -  buildout.cfg
            d  data2
            d  data2-extra
            d  data3
            d  demo
            d  develop-eggs
            d  eggs
            d  parts
            d  recipes
        
        Alternate directory and file locations
        --------------------------------------
        
        The buildout normally puts the bin, eggs, and parts directories in the
        directory in the directory containing the configuration file. You can
        provide alternate locations, and even names for these directories.
        
            >>> alt = tmpdir('sample-alt')
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts =
            ... develop-eggs-directory = %(developbasket)s
            ... eggs-directory = %(basket)s
            ... bin-directory = %(scripts)s
            ... parts-directory = %(work)s
            ... """ % dict(
            ...    developbasket = os.path.join(alt, 'developbasket'),
            ...    basket = os.path.join(alt, 'basket'),
            ...    scripts = os.path.join(alt, 'scripts'),
            ...    work = os.path.join(alt, 'work'),
            ... ))
        
            >>> print system(buildout),
            Creating directory '/sample-alt/scripts'.
            Creating directory '/sample-alt/work'.
            Creating directory '/sample-alt/basket'.
            Creating directory '/sample-alt/developbasket'.
            Develop: '/sample-buildout/recipes'
            Uninstalling d4.
            Uninstalling d3.
            Uninstalling d2.
            Uninstalling debug.
        
            >>> ls(alt)
            d  basket
            d  developbasket
            d  scripts
            d  work
        
            >>> ls(alt, 'developbasket')
            -  recipes.egg-link
        
        You can also specify an alternate buildout directory:
        
            >>> rmdir(alt)
            >>> alt = tmpdir('sample-alt')
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... directory = %(alt)s
            ... develop = %(recipes)s
            ... parts =
            ... """ % dict(
            ...    alt=alt,
            ...    recipes=os.path.join(sample_buildout, 'recipes'),
            ...    ))
        
            >>> print system(buildout),
            Creating directory '/sample-alt/bin'.
            Creating directory '/sample-alt/parts'.
            Creating directory '/sample-alt/eggs'.
            Creating directory '/sample-alt/develop-eggs'.
            Develop: '/sample-buildout/recipes'
        
            >>> ls(alt)
            -  .installed.cfg
            d  bin
            d  develop-eggs
            d  eggs
            d  parts
        
            >>> ls(alt, 'develop-eggs')
            -  recipes.egg-link
        
        Logging control
        ---------------
        
        Three buildout options are used to control logging:
        
        log-level
           specifies the log level
        
        verbosity
           adjusts the log level
        
        log-format
           allows an alternate logging for mat to be specified
        
        We've already seen the log level and verbosity.  Let's look at an example
        of changing the format:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts =
            ... log-level = 25
            ... verbosity = 5
            ... log-format = %(levelname)s %(message)s
            ... """)
        
        Here, we've changed the format to include the log-level name, rather
        than the logger name.
        
        We've also illustrated, with a contrived example, that the log level
        can be a numeric value and that the verbosity can be specified in the
        configuration file.  Because the verbosity is subtracted from the log
        level, we get a final log level of 20, which is the INFO level.
        
            >>> print system(buildout),
            INFO Develop: '/sample-buildout/recipes'
        
        Predefined buildout options
        ---------------------------
        
        Buildouts have a number of predefined options that recipes can use
        and that users can override in their configuration files.  To see
        these, we'll run a minimal buildout configuration with a debug logging
        level.  One of the features of debug logging is that the configuration
        database is shown.
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... parts =
            ... """)
        
            >>> print system(buildout+' -vv'), # doctest: +NORMALIZE_WHITESPACE
            Installing 'zc.buildout', 'setuptools'.
            We have a develop egg: zc.buildout X.X.
            We have the best distribution that satisfies 'setuptools'.
            Picked: setuptools = V.V
            <BLANKLINE>
            Configuration data:
            [buildout]
            accept-buildout-test-releases = false
            allow-hosts = *
            allow-picked-versions = true
            allowed-eggs-from-site-packages = *
            bin-directory = /sample-buildout/bin
            develop-eggs-directory = /sample-buildout/develop-eggs
            directory = /sample-buildout
            eggs-directory = /sample-buildout/eggs
            exec-sitecustomize = true
            executable = python
            find-links =
            include-site-packages = true
            install-from-cache = false
            installed = /sample-buildout/.installed.cfg
            log-format =
            log-level = INFO
            newest = true
            offline = false
            parts =
            parts-directory = /sample-buildout/parts
            prefer-final = false
            python = buildout
            relative-paths = false
            socket-timeout =
            unzip = false
            use-dependency-links = true
            verbosity = 20
            <BLANKLINE>
        
        All of these options can be overridden by configuration files or by
        command-line assignments.  We've discussed most of these options
        already, but let's review them and touch on some we haven't discussed:
        
        allowed-eggs-from-site-packages
            Sometimes you need or want to control what eggs from site-packages are
            used. The allowed-eggs-from-site-packages option allows you to specify a
            whitelist of project names that may be included from site-packages.  You
            can use globs to specify the value.  It defaults to a single value of '*',
            indicating that any package may come from site-packages.
        
            Here's a usage example::
        
                [buildout]
                ...
        
                allowed-eggs-from-site-packages =
                    demo
                    bigdemo
                    zope.*
        
            This option interacts with the ``include-site-packages`` option in the
            following ways.
        
            If ``include-site-packages`` is true, then
            ``allowed-eggs-from-site-packages`` filters what eggs from site-packages
            may be chosen.  Therefore, if ``allowed-eggs-from-site-packages`` is an
            empty list, then no eggs from site-packages are chosen, but site-packages
            will still be included at the end of path lists.
        
            If ``include-site-packages`` is false, the value of
            ``allowed-eggs-from-site-packages`` is irrelevant.
        
            See the ``include-site-packages`` description for more information.
        
        bin-directory
           The directory path where scripts are written.  This can be a
           relative path, which is interpreted relative to the directory
           option.
        
        develop-eggs-directory
           The directory path where development egg links are created for software
           being created in the local project.  This can be a relative path,
           which is interpreted relative to the directory option.
        
        directory
           The buildout directory.  This is the base for other buildout file
           and directory locations, when relative locations are used.
        
        eggs-directory
           The directory path where downloaded eggs are put.  It is common to share
           this directory across buildouts. Eggs in this directory should
           *never* be modified.  This can be a relative path, which is
           interpreted relative to the directory option.
        
        exec-sitecustomize
            Normally the Python's real sitecustomize module is processed.
            If you do not want it to be processed in order to increase the
            repeatability of your buildout, set this value to 'false'.  This will
            be honored irrespective of the setting for include-site-packages.
            This option will be honored by some recipes and not others.
            z3c.recipe.scripts honors this and zc.recipe.egg does not, for
            instance.
        
        executable
           The Python executable used to run the buildout.  See the python
           option below.
        
        include-site-packages
            You can choose not to have the site-packages of the underlying Python
            available to your script or interpreter, in addition to the packages
            from your eggs.  This can increase repeatability for your buildout.
            This option will be better used by some recipes than others.
            z3c.recipe.scripts honors this fully and zc.recipe.egg only
            partially, for instance.
        
        installed
           The file path where information about the results of the previous
           buildout run is written.  This can be a relative path, which is
           interpreted relative to the directory option.  This file provides
           an inventory of installed parts with information needed to decide
           which if any parts need to be uninstalled.
        
        log-format
           The format used for logging messages.
        
        log-level
           The log level before verbosity adjustment
        
        parts
           A white space separated list of parts to be installed.
        
        parts-directory
           A working directory that parts can used to store data.
        
        python
           The name of a section containing information about the default
           Python interpreter.  Recipes that need a installation
           typically have options to tell them which Python installation to
           use.  By convention, if a section-specific option isn't used, the
           option is looked for in the buildout section.  The option must
           point to a section with an executable option giving the path to a
           Python executable.  By default, the buildout section defines the
           default Python as the Python used to run the buildout.
        
        relative-paths
            The paths generated by zc.buildout are absolute by default, and this
            option is ``false``.  However, if you set this value to be ``true``,
            bin/buildout will be generated with code that makes the paths relative.
            Some recipes, such as zc.recipe.egg and z3c.recipe.scripts, honor this
            value as well.
        
        unzip
            By default, zc.buildout doesn't unzip zip-safe eggs ("unzip = false").
            This follows the policy followed by setuptools itself.  Experience shows
            this policy to to be inconvenient.  Zipped eggs make debugging more
            difficult and often import more slowly.  You can include an unzip option in
            the buildout section to change the default unzipping policy ("unzip =
            true").
        
        use-dependency-links
            By default buildout will obey the setuptools dependency_links metadata
            when it looks for dependencies. This behavior can be controlled with
            the use-dependency-links buildout option::
        
              [buildout]
              ...
              use-dependency-links = false
        
            The option defaults to true. If you set it to false, then dependency
            links are only looked for in the locations specified by find-links.
        
        verbosity
           A log-level adjustment.  Typically, this is set via the -q and -v
           command-line options.
        
        
        Creating new buildouts and bootstrapping
        ----------------------------------------
        
        If zc.buildout is installed, you can use it to create a new buildout
        with it's own local copies of zc.buildout and setuptools and with
        local buildout scripts.
        
            >>> sample_bootstrapped = tmpdir('sample-bootstrapped')
        
            >>> print system(buildout
            ...              +' -c'+os.path.join(sample_bootstrapped, 'setup.cfg')
            ...              +' init'),
            Creating '/sample-bootstrapped/setup.cfg'.
            Creating directory '/sample-bootstrapped/bin'.
            Creating directory '/sample-bootstrapped/parts'.
            Creating directory '/sample-bootstrapped/eggs'.
            Creating directory '/sample-bootstrapped/develop-eggs'.
            Generated script '/sample-bootstrapped/bin/buildout'.
        
        Note that a basic setup.cfg was created for us.
        
            >>> ls(sample_bootstrapped)
            d  bin
            d  develop-eggs
            d  eggs
            d  parts
            -  setup.cfg
        
            >>> ls(sample_bootstrapped, 'bin')
            -  buildout
        
            >>> _ = (ls(sample_bootstrapped, 'eggs'),
            ...      ls(sample_bootstrapped, 'develop-eggs'))
            -  setuptools-0.6-py2.3.egg
            -  zc.buildout-1.0-py2.3.egg
        
        (We list both the eggs and develop-eggs directories because the
        buildout or setuptools egg could be installed in the develop-eggs
        directory if the original buildout had develop eggs for either
        buildout or setuptools.)
        
        If relative-paths is ``true``, the buildout script uses relative paths.
        
            >>> write(sample_bootstrapped, 'setup.cfg',
            ... '''
            ... [buildout]
            ... relative-paths = true
            ... parts =
            ... ''')
        
            >>> print system(buildout
            ...              +' -c'+os.path.join(sample_bootstrapped, 'setup.cfg')
            ...              +' bootstrap'),
            Generated script '/sample-bootstrapped/bin/buildout'.
        
            >>> buildout_script = join(sample_bootstrapped, 'bin', 'buildout')
            >>> import sys
            >>> if sys.platform.startswith('win'):
            ...     buildout_script += '-script.py'
            >>> print open(buildout_script).read() # doctest: +ELLIPSIS
            #!... -S
            <BLANKLINE>
            import os
            <BLANKLINE>
            join = os.path.join
            base = os.path.dirname(os.path.abspath(os.path.realpath(__file__)))
            base = os.path.dirname(base)
            <BLANKLINE>
            import sys
            sys.path[0:0] = [
                join(base, 'parts/buildout'),
                ]
            <BLANKLINE>
            <BLANKLINE>
            import os
            path = sys.path[0]
            if os.environ.get('PYTHONPATH'):
                path = os.pathsep.join([path, os.environ['PYTHONPATH']])
            os.environ['BUILDOUT_ORIGINAL_PYTHONPATH'] = os.environ.get('PYTHONPATH', '')
            os.environ['PYTHONPATH'] = path
            import site # imports custom buildout-generated site.py
            <BLANKLINE>
            import zc.buildout.buildout
            <BLANKLINE>
            if __name__ == '__main__':
                zc.buildout.buildout.main()
            <BLANKLINE>
        
        
        Note that, in the above two examples, the buildout script was installed
        but not run.  To run the buildout, we'd have to run the installed
        buildout script.
        
        If we have an existing buildout that already has a buildout.cfg, we'll
        normally use the bootstrap command instead of init.  It will complain
        if there isn't a configuration file:
        
            >>> sample_bootstrapped2 = tmpdir('sample-bootstrapped2')
        
            >>> print system(buildout
            ...              +' -c'+os.path.join(sample_bootstrapped2, 'setup.cfg')
            ...              +' bootstrap'),
            While:
              Initializing.
            Error: Couldn't open /sample-bootstrapped2/setup.cfg
        
            >>> write(sample_bootstrapped2, 'setup.cfg',
            ... """
            ... [buildout]
            ... parts =
            ... """)
        
            >>> print system(buildout
            ...              +' -c'+os.path.join(sample_bootstrapped2, 'setup.cfg')
            ...              +' bootstrap'),
            Creating directory '/sample-bootstrapped2/bin'.
            Creating directory '/sample-bootstrapped2/parts'.
            Creating directory '/sample-bootstrapped2/eggs'.
            Creating directory '/sample-bootstrapped2/develop-eggs'.
            Generated script '/sample-bootstrapped2/bin/buildout'.
        
        
        Newest and Offline Modes
        ------------------------
        
        By default buildout and recipes will try to find the newest versions
        of distributions needed to satisfy requirements.  This can be very
        time consuming, especially when incrementally working on setting up a
        buildout or working on a recipe.  The buildout newest option can be
        used to to suppress this.  If the newest option is set to false, then
        new distributions won't be sought if an installed distribution meets
        requirements.  The newest option can be set to false using the -N
        command-line option.
        
        The offline option goes a bit further.  If the buildout offline option
        is given a value of "true", the buildout and recipes that are aware of
        the option will avoid doing network access.  This is handy when
        running the buildout when not connected to the internet.  It also
        makes buildouts run much faster. This option is typically set using
        the buildout -o option.
        
        Preferring Final Releases
        -------------------------
        
        Currently, when searching for new releases of your project's
        dependencies, the newest available release is used.  This isn't usually
        ideal, as you may get a development release or alpha releases not ready
        to be widely used. You can request that final releases be preferred
        using the ``prefer-final`` option in the buildout section::
        
          [buildout]
          ...
          prefer-final = true
        
        When the ``prefer-final`` option is set to true, then when searching for
        new releases, final releases are preferred.  If there are final
        releases that satisfy distribution requirements, then those releases
        are used even if newer non-final releases are available.
        
        In buildout version 2, all final releases will be preferred by
        default--that is ``prefer-final`` will also default to 'true'. You will
        then need to use a 'false' value for ``prefer-final`` to get the newest
        releases.
        
        A separate option controls the behavior of the build system itself.
        When buildout looks for recipes, extensions, and for updates to itself,
        it does prefer final releases by default, as of the 1.5.0 release.  The
        ``accept-buildout-test-releases`` option will let you override this behavior.
        However, it is typically changed by the --accept-buildout-test-releases
        option to the bootstrap script, since bootstrapping is the first step to
        selecting a buildout.
        
        Finding distributions
        ---------------------
        
        By default, buildout searches the Python Package Index when looking
        for distributions. You can, instead, specify your own index to search
        using the `index` option::
        
          [buildout]
          ...
          index = http://index.example.com/
        
        This index, or the default of http://pypi.python.org/simple/ if no
        index is specified, will always be searched for distributions unless
        running buildout with options that prevent searching for
        distributions. The latest version of the distribution that meets the
        requirements of the buildout will always be used.
        
        You can also specify more locations to search for distributions using
        the `find-links` option. All locations specified will be searched for
        distributions along with the package index as described before.
        
        Locations can be urls::
        
          [buildout]
          ...
          find-links = http://download.zope.org/distribution/
        
        They can also be directories on disk::
        
          [buildout]
          ...
          find-links = /some/path
        
        Finally, they can also be direct paths to distributions::
        
          [buildout]
          ...
          find-links = /some/path/someegg-1.0.0-py2.3.egg
        
        Any number of locations can be specified in the `find-links` option::
        
          [buildout]
          ...
          find-links =
              http://download.zope.org/distribution/
              /some/otherpath
              /some/path/someegg-1.0.0-py2.3.egg
        
        Dependency links
        ----------------
        
        By default buildout will obey the setuptools dependency_links metadata
        when it looks for dependencies. This behavior can be controlled with
        the use-dependency-links buildout option::
        
          [buildout]
          ...
          use-dependency-links = false
        
        The option defaults to true. If you set it to false, then dependency
        links are only looked for in the locations specified by find-links.
        
        Controlling the installation database
        -------------------------------------
        
        The buildout installed option is used to specify the file used to save
        information on installed parts.  This option is initialized to
        ".installed.cfg", but it can be overridden in the configuration file
        or on the command line:
        
            >>> write('buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = debug
            ...
            ... [debug]
            ... recipe = recipes:debug
            ... """)
        
            >>> print system(buildout+' buildout:installed=inst.cfg'),
            Develop: '/sample-buildout/recipes'
            Installing debug.
            recipe recipes:debug
        
            >>> ls(sample_buildout)
            -  b1.cfg
            -  b2.cfg
            -  base.cfg
            d  bin
            -  buildout.cfg
            d  demo
            d  develop-eggs
            d  eggs
            -  inst.cfg
            d  parts
            d  recipes
        
        The installation database can be disabled by supplying an empty
        buildout installed option:
        
            >>> os.remove('inst.cfg')
            >>> print system(buildout+' buildout:installed='),
            Develop: '/sample-buildout/recipes'
            Installing debug.
            recipe recipes:debug
        
            >>> ls(sample_buildout)
            -  b1.cfg
            -  b2.cfg
            -  base.cfg
            d  bin
            -  buildout.cfg
            d  demo
            d  develop-eggs
            d  eggs
            d  parts
            d  recipes
        
        
        Note that there will be no installation database if there are no parts:
        
            >>> write('buildout.cfg',
            ... """
            ... [buildout]
            ... parts =
            ... """)
        
            >>> print system(buildout+' buildout:installed=inst.cfg'),
        
            >>> ls(sample_buildout)
            -  b1.cfg
            -  b2.cfg
            -  base.cfg
            d  bin
            -  buildout.cfg
            d  demo
            d  develop-eggs
            d  eggs
            d  parts
            d  recipes
        
        Extensions
        ----------
        
        A feature allows code to be loaded and run after
        configuration files have been read but before the buildout has begun
        any processing.  The intent is to allow special plugins such as
        urllib2 request handlers to be loaded.
        
        To load an extension, we use the extensions option and list one or
        more distribution requirements, on separate lines.  The distributions
        named will be loaded and any ``zc.buildout.extension`` entry points found
        will be called with the buildout as an argument.  When buildout
        finishes processing, any ``zc.buildout.unloadextension`` entry points
        found will be called with the buildout as an argument.
        
        Let's create a sample extension in our sample buildout created in the
        previous section:
        
            >>> mkdir(sample_bootstrapped, 'demo')
        
            >>> write(sample_bootstrapped, 'demo', 'demo.py',
            ... """
            ... def ext(buildout):
            ...     print 'ext', list(buildout)
            ... def unload(buildout):
            ...     print 'unload', list(buildout)
            ... """)
        
            >>> write(sample_bootstrapped, 'demo', 'setup.py',
            ... """
            ... from setuptools import setup
            ...
            ... setup(
            ...     name = "demo",
            ...     entry_points = {
            ...        'zc.buildout.extension': ['ext = demo:ext'],
            ...        'zc.buildout.unloadextension': ['ext = demo:unload'],
            ...        },
            ...     )
            ... """)
        
        Our extension just prints out the word 'demo', and lists the sections
        found in the buildout passed to it.
        
        We'll update our buildout.cfg to list the demo directory as a develop
        egg to be built:
        
            >>> write(sample_bootstrapped, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = demo
            ... parts =
            ... """)
        
            >>> os.chdir(sample_bootstrapped)
            >>> print system(os.path.join(sample_bootstrapped, 'bin', 'buildout')),
            Develop: '/sample-bootstrapped/demo'
        
        Now we can add the extensions option.  We were a bit tricky and ran
        the buildout once with the demo develop egg defined but without the
        extension option.  This is because extensions are loaded before the
        buildout creates develop eggs. We needed to use a separate buildout
        run to create the develop egg.  Normally, when eggs are loaded from
        the network, we wouldn't need to do anything special.
        
            >>> write(sample_bootstrapped, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = demo
            ... extensions = demo
            ... parts =
            ... """)
        
        We see that our extension is loaded and executed:
        
            >>> print system(os.path.join(sample_bootstrapped, 'bin', 'buildout')),
            ext ['buildout']
            Develop: '/sample-bootstrapped/demo'
            unload ['buildout']
        
        Allow hosts
        -----------
        
        On some environments the links visited by `zc.buildout` can be forbidden
        by paranoiac firewalls. These URL might be on the chain of links
        visited by `zc.buildout` wheter they are defined in the `find-links` option,
        wheter they are defined by various eggs in their `url`, `download_url`,
        `dependency_links` metadata.
        
        It is even harder to track that package_index works like a spider and
        might visit links and go to other location.
        
        The `allow-hosts` option provides a way to prevent this, and
        works exactly like the one provided in `easy_install`.
        
        You can provide a list of allowed host, together with wildcards::
        
            [buildout]
            ...
        
            allow-hosts =
                *.python.org
                example.com
        
        All urls that does not match these hosts will not be visited.
        
        .. [#future_recipe_methods] In the future, additional methods may be
               added. Older recipes with fewer methods will still be
               supported.
        
        .. [#packaging_info] If we wanted to create a distribution from this
               package, we would need specify much more information.  See the
               `setuptools documentation
               <http://peak.telecommunity.com/DevCenter/setuptools>`_.
        
        Always unzipping eggs
        =====================
        
        By default, zc.buildout doesn't unzip zip-safe eggs.
        
            >>> write('buildout.cfg',
            ... '''
            ... [buildout]
            ... parts = eggs
            ... find-links = %(link_server)s
            ...
            ... [eggs]
            ... recipe = zc.recipe.egg
            ... eggs = demo
            ... ''' % globals())
        
            >>> _ = system(buildout)
            >>> ls('eggs')
            -  demo-0.4c1-py2.4.egg
            -  demoneeded-1.2c1-py2.4.egg
            d  setuptools-0.6c8-py2.4.egg
            -  zc.buildout.egg-link
        
        This follows the policy followed by setuptools itself.  Experience shows
        this policy to to be inconvenient.  Zipped eggs make debugging more
        difficult and often import more slowly.
        
        You can include an unzip option in the buildout section to change the
        default unzipping policy.
        
            >>> write('buildout.cfg',
            ... '''
            ... [buildout]
            ... parts = eggs
            ... find-links = %(link_server)s
            ... unzip = true
            ...
            ... [eggs]
            ... recipe = zc.recipe.egg
            ... eggs = demo
            ... ''' % globals())
        
        
            >>> import os
            >>> for name in os.listdir('eggs'):
            ...     if name.startswith('demo'):
            ...         remove('eggs', name)
        
            >>> _ = system(buildout)
            >>> ls('eggs')
            d  demo-0.4c1-py2.4.egg
            d  demoneeded-1.2c1-py2.4.egg
            d  setuptools-0.6c8-py2.4.egg
            -  zc.buildout.egg-link
        
        Repeatable buildouts: controlling eggs used
        ===========================================
        
        One of the goals of zc.buildout is to provide enough control to make
        buildouts repeatable.  It should be possible to check the buildout
        configuration files for a project into a version control system and
        later use the checked in files to get the same buildout, subject to
        changes in the environment outside the buildout.
        
        An advantage of using Python eggs is that depenencies of eggs used are
        automatically determined and used.  The automatic inclusion of
        depenent distributions is at odds with the goal of repeatable
        buildouts.
        
        To support repeatable buildouts, a versions section can be created
        with options for each distribution name whos version is to be fixed.
        The section can then be specified via the buildout versions option.
        
        To see how this works, we'll create two versions of a recipe egg:
        
            >>> mkdir('recipe')
            >>> write('recipe', 'recipe.py',
            ... '''
            ... class Recipe:
            ...     def __init__(*a): pass
            ...     def install(self):
            ...         print 'recipe v1'
            ...         return ()
            ...     update = install
            ... ''')
        
            >>> write('recipe', 'setup.py',
            ... '''
            ... from setuptools import setup
            ... setup(name='spam', version='1', py_modules=['recipe'],
            ...       entry_points={'zc.buildout': ['default = recipe:Recipe']},
            ...       )
            ... ''')
        
            >>> write('recipe', 'README', '')
        
            >>> print system(buildout+' setup recipe bdist_egg'), # doctest: +ELLIPSIS
            Running setup script 'recipe/setup.py'.
            ...
        
            >>> rmdir('recipe', 'build')
        
            >>> write('recipe', 'recipe.py',
            ... '''
            ... class Recipe:
            ...     def __init__(*a): pass
            ...     def install(self):
            ...         print 'recipe v2'
            ...         return ()
            ...     update = install
            ... ''')
        
            >>> write('recipe', 'setup.py',
            ... '''
            ... from setuptools import setup
            ... setup(name='spam', version='2', py_modules=['recipe'],
            ...       entry_points={'zc.buildout': ['default = recipe:Recipe']},
            ...       )
            ... ''')
        
        
            >>> print system(buildout+' setup recipe bdist_egg'), # doctest: +ELLIPSIS
            Running setup script 'recipe/setup.py'.
            ...
        
        and we'll configure a buildout to use it:
        
            >>> write('buildout.cfg',
            ... '''
            ... [buildout]
            ... parts = foo
            ... find-links = %s
            ...
            ... [foo]
            ... recipe = spam
            ... ''' % join('recipe', 'dist'))
        
        If we run the buildout, it will use version 2:
        
            >>> print system(buildout),
            Getting distribution for 'spam'.
            Got spam 2.
            Installing foo.
            recipe v2
        
        We can specify a versions section that lists our recipe and name it in
        the buildout section:
        
            >>> write('buildout.cfg',
            ... '''
            ... [buildout]
            ... parts = foo
            ... find-links = %s
            ... versions = release-1
            ...
            ... [release-1]
            ... spam = 1
            ... eggs = 2.2
            ...
            ... [foo]
            ... recipe = spam
            ... ''' % join('recipe', 'dist'))
        
        Here we created a release-1 section listing the version 1 for the spam
        distribution.  We told the buildout to use it by specifying release-1
        as in the versions option.
        
        Now, if we run the buildout, we'll use version 1 of the spam recipe:
        
            >>> print system(buildout),
            Getting distribution for 'spam==1'.
            Got spam 1.
            Uninstalling foo.
            Installing foo.
            recipe v1
        
        Running the buildout in verbose mode will help us get information
        about versions used. If we run the buildout in verbose mode without
        specifying a versions section:
        
            >>> print system(buildout+' buildout:versions= -v'), # doctest: +ELLIPSIS
            Installing 'zc.buildout', 'setuptools'.
            We have a develop egg: zc.buildout 1.0.0.
            We have the best distribution that satisfies 'setuptools'.
            Picked: setuptools = 0.6
            Installing 'spam'.
            We have the best distribution that satisfies 'spam'.
            Picked: spam = 2.
            Uninstalling foo.
            Installing foo.
            recipe v2
        
        We'll get output that includes lines that tell us what versions
        buildout chose a for us, like::
        
            zc.buildout.easy_install.picked: spam = 2
        
        This allows us to discover versions that are picked dynamically, so
        that we can fix them in a versions section.
        
        If we run the buildout with the versions section:
        
            >>> print system(buildout+' -v'), # doctest: +ELLIPSIS
            Installing 'zc.buildout', 'setuptools'.
            We have a develop egg: zc.buildout 1.0.0.
            We have the best distribution that satisfies 'setuptools'.
            Picked: setuptools = 0.6
            Installing 'spam'.
            We have the distribution that satisfies 'spam==1'.
            Uninstalling foo.
            Installing foo.
            recipe v1
        
        We won't get output for the spam distribution, which we didn't pick,
        but we will get output for setuptools, which we didn't specify
        versions for.
        
        You can request buildout to generate an error if it picks any
        versions:
        
            >>> write('buildout.cfg',
            ... '''
            ... [buildout]
            ... parts = foo
            ... find-links = %s
            ... versions = release-1
            ... allow-picked-versions = false
            ...
            ... [release-1]
            ... spam = 1
            ... eggs = 2.2
            ...
            ... [foo]
            ... recipe = spam
            ... ''' % join('recipe', 'dist'))
        
        Using the download utility
        ==========================
        
        The ``zc.buildout.download`` module provides a download utility that handles
        the details of downloading files needed for a buildout run from the internet.
        It downloads files to the local file system, using the download cache if
        desired and optionally checking the downloaded files' MD5 checksum.
        
        We setup an HTTP server that provides a file we want to download:
        
        >>> server_data = tmpdir('sample_files')
        >>> write(server_data, 'foo.txt', 'This is a foo text.')
        >>> server_url = start_server(server_data)
        
        We also use a fresh directory for temporary files in order to make sure that
        all temporary files have been cleaned up in the end:
        
        >>> import tempfile
        >>> old_tempdir = tempfile.tempdir
        >>> tempfile.tempdir = tmpdir('tmp')
        
        
        Downloading without using the cache
        -----------------------------------
        
        If no download cache should be used, the download utility is instantiated
        without any arguments:
        
        >>> from zc.buildout.download import Download
        >>> download = Download()
        >>> print download.cache_dir
        None
        
        Downloading a file is achieved by calling the utility with the URL as an
        argument. A tuple is returned that consists of the path to the downloaded copy
        of the file and a boolean value indicating whether this is a temporary file
        meant to be cleaned up during the same buildout run:
        
        >>> path, is_temp = download(server_url+'foo.txt')
        >>> print path
        /.../buildout-...
        >>> cat(path)
        This is a foo text.
        
        As we aren't using the download cache and haven't specified a target path
        either, the download has ended up in a temporary file:
        
        >>> is_temp
        True
        
        >>> import tempfile
        >>> path.startswith(tempfile.gettempdir())
        True
        
        We are responsible for cleaning up temporary files behind us:
        
        >>> remove(path)
        
        When trying to access a file that doesn't exist, we'll get an exception:
        
        >>> try: download(server_url+'not-there') # doctest: +ELLIPSIS
        ... except: print 'download error'
        ... else: print 'woops'
        download error
        
        Downloading a local file doesn't produce a temporary file but simply returns
        the local file itself:
        
        >>> download(join(server_data, 'foo.txt'))
        ('/sample_files/foo.txt', False)
        
        We can also have the downloaded file's MD5 sum checked:
        
        >>> try: from hashlib import md5
        ... except ImportError: from md5 import new as md5
        
        >>> path, is_temp = download(server_url+'foo.txt',
        ...                          md5('This is a foo text.').hexdigest())
        >>> is_temp
        True
        >>> remove(path)
        
        >>> download(server_url+'foo.txt',
        ...          md5('The wrong text.').hexdigest())
        Traceback (most recent call last):
        ChecksumError: MD5 checksum mismatch downloading 'http://localhost/foo.txt'
        
        The error message in the event of an MD5 checksum mismatch for a local file
        reads somewhat differently:
        
        >>> download(join(server_data, 'foo.txt'),
        ...               md5('This is a foo text.').hexdigest())
        ('/sample_files/foo.txt', False)
        
        >>> download(join(server_data, 'foo.txt'),
        ...          md5('The wrong text.').hexdigest())
        Traceback (most recent call last):
        ChecksumError: MD5 checksum mismatch for local resource at '/sample_files/foo.txt'.
        
        Finally, we can download the file to a specified place in the file system:
        
        >>> target_dir = tmpdir('download-target')
        >>> path, is_temp = download(server_url+'foo.txt',
        ...                          path=join(target_dir, 'downloaded.txt'))
        >>> print path
        /download-target/downloaded.txt
        >>> cat(path)
        This is a foo text.
        >>> is_temp
        False
        
        Trying to download a file in offline mode will result in an error:
        
        >>> download = Download(cache=None, offline=True)
        >>> download(server_url+'foo.txt')
        Traceback (most recent call last):
        UserError: Couldn't download 'http://localhost/foo.txt' in offline mode.
        
        As an exception to this rule, file system paths and URLs in the ``file``
        scheme will still work:
        
        >>> cat(download(join(server_data, 'foo.txt'))[0])
        This is a foo text.
        >>> cat(download('file:' + join(server_data, 'foo.txt'))[0])
        This is a foo text.
        
        >>> remove(path)
        
        
        Downloading using the download cache
        ------------------------------------
        
        In order to make use of the download cache, we need to configure the download
        utility differently. To do this, we pass a directory path as the ``cache``
        attribute upon instantiation:
        
        >>> cache = tmpdir('download-cache')
        >>> download = Download(cache=cache)
        >>> print download.cache_dir
        /download-cache/
        
        Simple usage
        ~~~~~~~~~~~~
        
        When using the cache, a file will be stored in the cache directory when it is
        first downloaded. The file system path returned by the download utility points
        to the cached copy:
        
        >>> ls(cache)
        >>> path, is_temp = download(server_url+'foo.txt')
        >>> print path
        /download-cache/foo.txt
        >>> cat(path)
        This is a foo text.
        >>> is_temp
        False
        
        Whenever the file is downloaded again, the cached copy is used. Let's change
        the file on the server to see this:
        
        >>> write(server_data, 'foo.txt', 'The wrong text.')
        >>> path, is_temp = download(server_url+'foo.txt')
        >>> print path
        /download-cache/foo.txt
        >>> cat(path)
        This is a foo text.
        
        If we specify an MD5 checksum for a file that is already in the cache, the
        cached copy's checksum will be verified:
        
        >>> download(server_url+'foo.txt', md5('The wrong text.').hexdigest())
        Traceback (most recent call last):
        ChecksumError: MD5 checksum mismatch for cached download
                       from 'http://localhost/foo.txt' at '/download-cache/foo.txt'
        
        Trying to access another file at a different URL which has the same base name
        will result in the cached copy being used:
        
        >>> mkdir(server_data, 'other')
        >>> write(server_data, 'other', 'foo.txt', 'The wrong text.')
        >>> path, is_temp = download(server_url+'other/foo.txt')
        >>> print path
        /download-cache/foo.txt
        >>> cat(path)
        This is a foo text.
        
        Given a target path for the download, the utility will provide a copy of the
        file at that location both when first downloading the file and when using a
        cached copy:
        
        >>> remove(cache, 'foo.txt')
        >>> ls(cache)
        >>> write(server_data, 'foo.txt', 'This is a foo text.')
        
        >>> path, is_temp = download(server_url+'foo.txt',
        ...                          path=join(target_dir, 'downloaded.txt'))
        >>> print path
        /download-target/downloaded.txt
        >>> cat(path)
        This is a foo text.
        >>> is_temp
        False
        >>> ls(cache)
        - foo.txt
        
        >>> remove(path)
        >>> write(server_data, 'foo.txt', 'The wrong text.')
        
        >>> path, is_temp = download(server_url+'foo.txt',
        ...                          path=join(target_dir, 'downloaded.txt'))
        >>> print path
        /download-target/downloaded.txt
        >>> cat(path)
        This is a foo text.
        >>> is_temp
        False
        
        In offline mode, downloads from any URL will be successful if the file is
        found in the cache:
        
        >>> download = Download(cache=cache, offline=True)
        >>> cat(download(server_url+'foo.txt')[0])
        This is a foo text.
        
        Local resources will be cached just like any others since download caches are
        sometimes used to create source distributions:
        
        >>> remove(cache, 'foo.txt')
        >>> ls(cache)
        
        >>> write(server_data, 'foo.txt', 'This is a foo text.')
        >>> download = Download(cache=cache)
        
        >>> cat(download('file:' + join(server_data, 'foo.txt'), path=path)[0])
        This is a foo text.
        >>> ls(cache)
        - foo.txt
        
        >>> remove(cache, 'foo.txt')
        
        >>> cat(download(join(server_data, 'foo.txt'), path=path)[0])
        This is a foo text.
        >>> ls(cache)
        - foo.txt
        
        >>> remove(cache, 'foo.txt')
        
        However, resources with checksum mismatches will not be copied to the cache:
        
        >>> download(server_url+'foo.txt', md5('The wrong text.').hexdigest())
        Traceback (most recent call last):
        ChecksumError: MD5 checksum mismatch downloading 'http://localhost/foo.txt'
        >>> ls(cache)
        
        >>> remove(path)
        
        Finally, let's see what happens if the download cache to be used doesn't exist
        as a directory in the file system yet:
        
        >>> Download(cache=join(cache, 'non-existent'))(server_url+'foo.txt')
        Traceback (most recent call last):
        UserError: The directory:
        '/download-cache/non-existent'
        to be used as a download cache doesn't exist.
        
        Using namespace sub-directories of the download cache
        ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
        
        It is common to store cached copies of downloaded files within sub-directories
        of the download cache to keep some degree of order. For example, zc.buildout
        stores downloaded distributions in a sub-directory named "dist". Those
        sub-directories are also known as namespaces. So far, we haven't specified any
        namespaces to use, so the download utility stored files directly inside the
        download cache. Let's use a namespace "test" instead:
        
        >>> download = Download(cache=cache, namespace='test')
        >>> print download.cache_dir
        /download-cache/test
        
        The namespace sub-directory hasn't been created yet:
        
        >>> ls(cache)
        
        Downloading a file now creates the namespace sub-directory and places a copy
        of the file inside it:
        
        >>> path, is_temp = download(server_url+'foo.txt')
        >>> print path
        /download-cache/test/foo.txt
        >>> ls(cache)
        d test
        >>> ls(cache, 'test')
        - foo.txt
        >>> cat(path)
        This is a foo text.
        >>> is_temp
        False
        
        The next time we want to download that file, the copy from inside the cache
        namespace is used. To see this clearly, we put a file with the same name but
        different content both on the server and in the cache's root directory:
        
        >>> write(server_data, 'foo.txt', 'The wrong text.')
        >>> write(cache, 'foo.txt', 'The wrong text.')
        
        >>> path, is_temp = download(server_url+'foo.txt')
        >>> print path
        /download-cache/test/foo.txt
        >>> cat(path)
        This is a foo text.
        
        >>> rmdir(cache, 'test')
        >>> remove(cache, 'foo.txt')
        >>> write(server_data, 'foo.txt', 'This is a foo text.')
        
        Using a hash of the URL as the filename in the cache
        ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
        
        So far, the base name of the downloaded file read from the URL has been used
        for the name of the cached copy of the file. This may not be desirable in some
        cases, for example when downloading files from different locations that have
        the same base name due to some naming convention, or if the file content
        depends on URL parameters. In such cases, an MD5 hash of the complete URL may
        be used as the filename in the cache:
        
        >>> download = Download(cache=cache, hash_name=True)
        >>> path, is_temp = download(server_url+'foo.txt')
        >>> print path
        /download-cache/09f5793fcdc1716727f72d49519c688d
        >>> cat(path)
        This is a foo text.
        >>> ls(cache)
        - 09f5793fcdc1716727f72d49519c688d
        
        The path was printed just to illustrate matters; we cannot know the real
        checksum since we don't know which port the server happens to listen at when
        the test is run, so we don't actually know the full URL of the file. Let's
        check that the checksum actually belongs to the particular URL used:
        
        >>> path.lower() == join(cache, md5(server_url+'foo.txt').hexdigest()).lower()
        True
        
        The cached copy is used when downloading the file again:
        
        >>> write(server_data, 'foo.txt', 'The wrong text.')
        >>> (path, is_temp) == download(server_url+'foo.txt')
        True
        >>> cat(path)
        This is a foo text.
        >>> ls(cache)
        - 09f5793fcdc1716727f72d49519c688d
        
        If we change the URL, even in such a way that it keeps the base name of the
        file the same, the file will be downloaded again this time and put in the
        cache under a different name:
        
        >>> path2, is_temp = download(server_url+'other/foo.txt')
        >>> print path2
        /download-cache/537b6d73267f8f4447586989af8c470e
        >>> path == path2
        False
        >>> path2.lower() == join(cache, md5(server_url+'other/foo.txt').hexdigest()).lower()
        True
        >>> cat(path)
        This is a foo text.
        >>> cat(path2)
        The wrong text.
        >>> ls(cache)
        - 09f5793fcdc1716727f72d49519c688d
        - 537b6d73267f8f4447586989af8c470e
        
        >>> remove(path)
        >>> remove(path2)
        >>> write(server_data, 'foo.txt', 'This is a foo text.')
        
        
        Using the cache purely as a fall-back
        -------------------------------------
        
        Sometimes it is desirable to try downloading a file from the net if at all
        possible, and use the cache purely as a fall-back option when a server is
        down or if we are in offline mode. This mode is only in effect if a download
        cache is configured in the first place:
        
        >>> download = Download(cache=cache, fallback=True)
        >>> print download.cache_dir
        /download-cache/
        
        A downloaded file will be cached:
        
        >>> ls(cache)
        >>> path, is_temp = download(server_url+'foo.txt')
        >>> ls(cache)
        - foo.txt
        >>> cat(cache, 'foo.txt')
        This is a foo text.
        >>> is_temp
        False
        
        If the file cannot be served, the cached copy will be used:
        
        >>> remove(server_data, 'foo.txt')
        >>> try: Download()(server_url+'foo.txt') # doctest: +ELLIPSIS
        ... except: print 'download error'
        ... else: print 'woops'
        download error
        >>> path, is_temp = download(server_url+'foo.txt')
        >>> cat(path)
        This is a foo text.
        >>> is_temp
        False
        
        Similarly, if the file is served but we're in offline mode, we'll fall back to
        using the cache:
        
        >>> write(server_data, 'foo.txt', 'The wrong text.')
        >>> get(server_url+'foo.txt')
        'The wrong text.'
        
        >>> offline_download = Download(cache=cache, offline=True, fallback=True)
        >>> path, is_temp = offline_download(server_url+'foo.txt')
        >>> print path
        /download-cache/foo.txt
        >>> cat(path)
        This is a foo text.
        >>> is_temp
        False
        
        However, when downloading the file normally with the cache being used in
        fall-back mode, the file will be downloaded from the net and the cached copy
        will be replaced with the new content:
        
        >>> cat(download(server_url+'foo.txt')[0])
        The wrong text.
        >>> cat(cache, 'foo.txt')
        The wrong text.
        
        When trying to download a resource whose checksum does not match, the cached
        copy will neither be used nor overwritten:
        
        >>> write(server_data, 'foo.txt', 'This is a foo text.')
        >>> download(server_url+'foo.txt', md5('The wrong text.').hexdigest())
        Traceback (most recent call last):
        ChecksumError: MD5 checksum mismatch downloading 'http://localhost/foo.txt'
        >>> cat(cache, 'foo.txt')
        The wrong text.
        
        
        Configuring the download utility from buildout options
        ------------------------------------------------------
        
        The configuration options explained so far derive from the build logic
        implemented by the calling code. Other options configure the download utility
        for use in a particular project or buildout run; they are read from the
        ``buildout`` configuration section. The latter can be passed directly as the
        first argument to the download utility's constructor.
        
        The location of the download cache is specified by the ``download-cache``
        option:
        
        >>> download = Download({'download-cache': cache}, namespace='cmmi')
        >>> print download.cache_dir
        /download-cache/cmmi
        
        If the ``download-cache`` option specifies a relative path, it is understood
        relative to the current working directory, or to the buildout directory if
        that is given:
        
        >>> download = Download({'download-cache': 'relative-cache'})
        >>> print download.cache_dir
        /sample-buildout/relative-cache/
        
        >>> download = Download({'directory': join(sample_buildout, 'root'),
        ...                      'download-cache': 'relative-cache'})
        >>> print download.cache_dir
        /sample-buildout/root/relative-cache/
        
        Keyword parameters take precedence over the corresponding options:
        
        >>> download = Download({'download-cache': cache}, cache=None)
        >>> print download.cache_dir
        None
        
        Whether to assume offline mode can be inferred from either the ``offline`` or
        the ``install-from-cache`` option. As usual with zc.buildout, these options
        must assume one of the values 'true' and 'false':
        
        >>> download = Download({'offline': 'true'})
        >>> download.offline
        True
        
        >>> download = Download({'offline': 'false'})
        >>> download.offline
        False
        
        >>> download = Download({'install-from-cache': 'true'})
        >>> download.offline
        True
        
        >>> download = Download({'install-from-cache': 'false'})
        >>> download.offline
        False
        
        These two options are combined using logical 'or':
        
        >>> download = Download({'offline': 'true', 'install-from-cache': 'false'})
        >>> download.offline
        True
        
        >>> download = Download({'offline': 'false', 'install-from-cache': 'true'})
        >>> download.offline
        True
        
        The ``offline`` keyword parameter takes precedence over both the ``offline``
        and ``install-from-cache`` options:
        
        >>> download = Download({'offline': 'true'}, offline=False)
        >>> download.offline
        False
        
        >>> download = Download({'install-from-cache': 'false'}, offline=True)
        >>> download.offline
        True
        
        
        Regressions
        -----------
        
        MD5 checksum calculation needs to be reliable on all supported systems, which
        requires text files to be treated as binary to avoid implicit line-ending
        conversions:
        
        >>> text = 'First line of text.\r\nSecond line.\r\n'
        >>> f = open(join(server_data, 'foo.txt'), 'wb')
        >>> f.write(text)
        >>> f.close()
        >>> path, is_temp = Download()(server_url+'foo.txt', md5(text).hexdigest())
        >>> remove(path)
        
        
        Clean up
        --------
        
        We should have cleaned up all temporary files created by downloading things:
        
        >>> ls(tempfile.tempdir)
        
        Reset the global temporary directory:
        
        >>> tempfile.tempdir = old_tempdir
        
        Using a download cache
        ======================
        
        Normally, when distributions are installed, if any processing is
        needed, they are downloaded from the internet to a temporary directory
        and then installed from there.  A download cache can be used to avoid
        the download step.  This can be useful to reduce network access and to
        create source distributions of an entire buildout.
        
        The buildout download-cache option can be used to specify a directory
        to be used as a download cache.
        
        In this example, we'll create a directory to hold the cache:
        
            >>> cache = tmpdir('cache')
        
        And set up a buildout that downloads some eggs:
        
            >>> write('buildout.cfg',
            ... '''
            ... [buildout]
            ... parts = eggs
            ... download-cache = %(cache)s
            ... find-links = %(link_server)s
            ...
            ... [eggs]
            ... recipe = zc.recipe.egg
            ... eggs = demo ==0.2
            ... ''' % globals())
        
        We specified a link server that has some distributions available for
        download:
        
            >>> print get(link_server),
            <html><body>
            <a href="bigdemo-0.1-py2.4.egg">bigdemo-0.1-py2.4.egg</a><br>
            <a href="demo-0.1-py2.4.egg">demo-0.1-py2.4.egg</a><br>
            <a href="demo-0.2-py2.4.egg">demo-0.2-py2.4.egg</a><br>
            <a href="demo-0.3-py2.4.egg">demo-0.3-py2.4.egg</a><br>
            <a href="demo-0.4c1-py2.4.egg">demo-0.4c1-py2.4.egg</a><br>
            <a href="demoneeded-1.0.zip">demoneeded-1.0.zip</a><br>
            <a href="demoneeded-1.1.zip">demoneeded-1.1.zip</a><br>
            <a href="demoneeded-1.2c1.zip">demoneeded-1.2c1.zip</a><br>
            <a href="extdemo-1.4.zip">extdemo-1.4.zip</a><br>
            <a href="index/">index/</a><br>
            <a href="other-1.0-py2.4.egg">other-1.0-py2.4.egg</a><br>
            </body></html>
            
        
        We'll enable logging on the link server so we can see what's going on:
        
            >>> get(link_server+'enable_server_logging')
            GET 200 /enable_server_logging
            ''
        
        We also specified a download cache.
        
        If we run the buildout, we'll see the eggs installed from the link
        server as usual:
        
            >>> print system(buildout),
            GET 200 /
            GET 200 /demo-0.2-py2.4.egg
            GET 200 /demoneeded-1.2c1.zip
            Installing eggs.
            Getting distribution for 'demo==0.2'.
            Got demo 0.2.
            Getting distribution for 'demoneeded'.
            Got demoneeded 1.2c1.
            Generated script '/sample-buildout/bin/demo'.
        
        We'll also get the download cache populated.  The buildout doesn't put
        files in the cache directly.  It creates an intermediate directory,
        dist:
        
        
            >>> ls(cache)
            d  dist
        
            >>> ls(cache, 'dist')
            -  demo-0.2-py2.4.egg
            -  demoneeded-1.2c1.zip
        
        If we remove the installed eggs from eggs directory and re-run the buildout:
        
            >>> import os
            >>> for  f in os.listdir('eggs'):
            ...     if f.startswith('demo'):
            ...         remove('eggs', f)
           
            >>> print system(buildout),
            GET 200 /
            Updating eggs.
            Getting distribution for 'demo==0.2'.
            Got demo 0.2.
            Getting distribution for 'demoneeded'.
            Got demoneeded 1.2c1.
        
        We see that the distributions aren't downloaded, because they're
        downloaded from the cache.
        
        Installing solely from a download cache
        ---------------------------------------
        
        A download cache can be used as the basis of application source
        releases.  In an application source release, we want to distribute an
        application that can be built without making any network accesses.  In
        this case, we distribute a buildout with download cache and tell the
        buildout to install from the download cache only, without making
        network accesses.  The buildout install-from-cache option can be used
        to signal that packages should be installed only from the download
        cache.
        
        Let's remove our installed eggs and run the buildout with the
        install-from-cache option set to true:
        
            >>> for  f in os.listdir('eggs'):
            ...     if f.startswith('demo'):
            ...         remove('eggs', f)
        
            >>> write('buildout.cfg',
            ... '''
            ... [buildout]
            ... parts = eggs
            ... download-cache = %(cache)s
            ... install-from-cache = true
            ... find-links = %(link_server)s
            ...
            ... [eggs]
            ... recipe = zc.recipe.egg
            ... eggs = demo
            ... ''' % globals())
        
            >>> print system(buildout),
            Uninstalling eggs.
            Installing eggs.
            Getting distribution for 'demo'.
            Got demo 0.2.
            Getting distribution for 'demoneeded'.
            Got demoneeded 1.2c1.
            Generated script '/sample-buildout/bin/demo'.
        
        Caching extended configuration
        ==============================
        
        As mentioned in the general buildout documentation, configuration files can
        extend each other, including the ability to download configuration being
        extended from a URL. If desired, zc.buildout caches downloaded configuration
        in order to be able to use it when run offline.
        
        As we're going to talk about downloading things, let's start an HTTP server.
        Also, all of the following will take place inside the sample buildout.
        
        >>> server_data = tmpdir('server_data')
        >>> server_url = start_server(server_data)
        >>> cd(sample_buildout)
        
        We also use a fresh directory for temporary files in order to make sure that
        all temporary files have been cleaned up in the end:
        
        >>> import tempfile
        >>> old_tempdir = tempfile.tempdir
        >>> tempfile.tempdir = tmpdir('tmp')
        
        
        Basic use of the extends cache
        ------------------------------
        
        We put some base configuration on a server and reference it from a sample
        buildout:
        
        >>> write(server_data, 'base.cfg', """\
        ... [buildout]
        ... parts =
        ... foo = bar
        ... """)
        
        >>> write('buildout.cfg', """\
        ... [buildout]
        ... extends = %sbase.cfg
        ... """ % server_url)
        
        When trying to run this buildout offline, we'll find that we cannot read all
        of the required configuration:
        
        >>> print system(buildout + ' -o')
        While:
          Initializing.
        Error: Couldn't download 'http://localhost/base.cfg' in offline mode.
        
        Trying the same online, we can:
        
        >>> print system(buildout)
        Unused options for buildout: 'foo'.
        
        As long as we haven't said anything about caching downloaded configuration,
        nothing gets cached. Offline mode will still cause the buildout to fail:
        
        >>> print system(buildout + ' -o')
        While:
          Initializing.
        Error: Couldn't download 'http://localhost/base.cfg' in offline mode.
        
        Let's now specify a cache for base configuration files. This cache is
        different from the download cache used by recipes for caching distributions
        and other files; one might, however, use a namespace subdirectory of the
        download cache for it. The configuration cache we specify will be created when
        running buildout and the base.cfg file will be put in it (with the file name
        being a hash of the complete URL):
        
        >>> mkdir('cache')
        >>> write('buildout.cfg', """\
        ... [buildout]
        ... extends = %sbase.cfg
        ... extends-cache = cache
        ... """ % server_url)
        
        >>> print system(buildout)
        Unused options for buildout: 'foo'.
        
        >>> cache = join(sample_buildout, 'cache')
        >>> ls(cache)
        -  5aedc98d7e769290a29d654a591a3a45
        
        >>> import os
        >>> cat(cache, os.listdir(cache)[0])
        [buildout]
        parts =
        foo = bar
        
        We can now run buildout offline as it will read base.cfg from the cache:
        
        >>> print system(buildout + ' -o')
        Unused options for buildout: 'foo'.
        
        The cache is being used purely as a fall-back in case we are offline or don't
        have access to a configuration file to be downloaded. As long as we are
        online, buildout attempts to download a fresh copy of each file even if a
        cached copy of the file exists. To see this, we put different configuration in
        the same place on the server and run buildout in offline mode so it takes
        base.cfg from the cache:
        
        >>> write(server_data, 'base.cfg', """\
        ... [buildout]
        ... parts =
        ... bar = baz
        ... """)
        
        >>> print system(buildout + ' -o')
        Unused options for buildout: 'foo'.
        
        In online mode, buildout will download and use the modified version:
        
        >>> print system(buildout)
        Unused options for buildout: 'bar'.
        
        Trying offline mode again, the new version will be used as it has been put in
        the cache now:
        
        >>> print system(buildout + ' -o')
        Unused options for buildout: 'bar'.
        
        Clean up:
        
        >>> rmdir(cache)
        
        
        Specifying extends cache and offline mode
        -----------------------------------------
        
        Normally, the values of buildout options such as the location of a download
        cache or whether to use offline mode are determined by first reading the
        user's default configuration, updating it with the project's configuration and
        finally applying command-line options. User and project configuration are
        assembled by reading a file such as ``~/.buildout/default.cfg``,
        ``buildout.cfg`` or a URL given on the command line, recursively (depth-first)
        downloading any base configuration specified by the ``buildout:extends``
        option read from each of those config files, and finally evaluating each
        config file to provide default values for options not yet read.
        
        This works fine for all options that do not influence how configuration is
        downloaded in the first place. The ``extends-cache`` and ``offline`` options,
        however, are treated differently from the procedure described in order to make
        it simple and obvious to see where a particular configuration file came from
        under any particular circumstances.
        
        - Offline and extends-cache settings are read from the two root config files
          exclusively. Otherwise one could construct configuration files that, when
          read, imply that they should have been read from a different source than
          they have. Also, specifying the extends cache within a file that might have
          to be taken from the cache before being read wouldn't make a lot of sense.
        
        - Offline and extends-cache settings given by the user's defaults apply to the
          process of assembling the project's configuration. If no extends cache has
          been specified by the user's default configuration, the project's root
          config file must be available, be it from disk or from the net.
        
        - Offline mode turned on by the ``-o`` command line option is honoured from
          the beginning even though command line options are applied to the
          configuration last. If offline mode is not requested by the command line, it
          may be switched on by either the user's or the project's config root.
        
        Extends cache
        ~~~~~~~~~~~~~
        
        Let's see the above rules in action. We create a new home directory for our
        user and write user and project configuration that recursively extends online
        bases, using different caches:
        
        >>> mkdir('home')
        >>> mkdir('home', '.buildout')
        >>> mkdir('cache')
        >>> mkdir('user-cache')
        >>> os.environ['HOME'] = join(sample_buildout, 'home')
        >>> write('home', '.buildout', 'default.cfg', """\
        ... [buildout]
        ... extends = fancy_default.cfg
        ... extends-cache = user-cache
        ... """)
        >>> write('home', '.buildout', 'fancy_default.cfg', """\
        ... [buildout]
        ... extends = %sbase_default.cfg
        ... """ % server_url)
        >>> write(server_data, 'base_default.cfg', """\
        ... [buildout]
        ... foo = bar
        ... offline = false
        ... """)
        
        >>> write('buildout.cfg', """\
        ... [buildout]
        ... extends = fancy.cfg
        ... extends-cache = cache
        ... """)
        >>> write('fancy.cfg', """\
        ... [buildout]
        ... extends = %sbase.cfg
        ... """ % server_url)
        >>> write(server_data, 'base.cfg', """\
        ... [buildout]
        ... parts =
        ... offline = false
        ... """)
        
        Buildout will now assemble its configuration from all of these 6 files,
        defaults first. The online resources end up in the respective extends caches:
        
        >>> print system(buildout)
        Unused options for buildout: 'foo'.
        
        >>> ls('user-cache')
        -  10e772cf422123ef6c64ae770f555740
        >>> cat('user-cache', os.listdir('user-cache')[0])
        [buildout]
        foo = bar
        offline = false
        
        >>> ls('cache')
        -  c72213127e6eb2208a3e1fc1dba771a7
        >>> cat('cache', os.listdir('cache')[0])
        [buildout]
        parts =
        offline = false
        
        If, on the other hand, the extends caches are specified in files that get
        extended themselves, they won't be used for assembling the configuration they
        belong to (user's or project's, resp.). The extends cache specified by the
        user's defaults does, however, apply to downloading project configuration.
        Let's rewrite the config files, clean out the caches and re-run buildout:
        
        >>> write('home', '.buildout', 'default.cfg', """\
        ... [buildout]
        ... extends = fancy_default.cfg
        ... """)
        >>> write('home', '.buildout', 'fancy_default.cfg', """\
        ... [buildout]
        ... extends = %sbase_default.cfg
        ... extends-cache = user-cache
        ... """ % server_url)
        
        >>> write('buildout.cfg', """\
        ... [buildout]
        ... extends = fancy.cfg
        ... """)
        >>> write('fancy.cfg', """\
        ... [buildout]
        ... extends = %sbase.cfg
        ... extends-cache = cache
        ... """ % server_url)
        
        >>> remove('user-cache', os.listdir('user-cache')[0])
        >>> remove('cache', os.listdir('cache')[0])
        
        >>> print system(buildout)
        Unused options for buildout: 'foo'.
        
        >>> ls('user-cache')
        -  0548bad6002359532de37385bb532e26
        >>> cat('user-cache', os.listdir('user-cache')[0])
        [buildout]
        parts =
        offline = false
        
        >>> ls('cache')
        
        Clean up:
        
        >>> rmdir('user-cache')
        >>> rmdir('cache')
        
        Offline mode and installation from cache
        ----------------------------~~~~~~~~~~~~
        
        If we run buildout in offline mode now, it will fail because it cannot get at
        the remote configuration file needed by the user's defaults:
        
        >>> print system(buildout + ' -o')
        While:
          Initializing.
        Error: Couldn't download 'http://localhost/base_default.cfg' in offline mode.
        
        Let's now successively turn on offline mode by different parts of the
        configuration and see when buildout applies this setting in each case:
        
        >>> write('home', '.buildout', 'default.cfg', """\
        ... [buildout]
        ... extends = fancy_default.cfg
        ... offline = true
        ... """)
        >>> print system(buildout)
        While:
          Initializing.
        Error: Couldn't download 'http://localhost/base_default.cfg' in offline mode.
        
        >>> write('home', '.buildout', 'default.cfg', """\
        ... [buildout]
        ... extends = fancy_default.cfg
        ... """)
        >>> write('home', '.buildout', 'fancy_default.cfg', """\
        ... [buildout]
        ... extends = %sbase_default.cfg
        ... offline = true
        ... """ % server_url)
        >>> print system(buildout)
        While:
          Initializing.
        Error: Couldn't download 'http://localhost/base.cfg' in offline mode.
        
        >>> write('home', '.buildout', 'fancy_default.cfg', """\
        ... [buildout]
        ... extends = %sbase_default.cfg
        ... """ % server_url)
        >>> write('buildout.cfg', """\
        ... [buildout]
        ... extends = fancy.cfg
        ... offline = true
        ... """)
        >>> print system(buildout)
        While:
          Initializing.
        Error: Couldn't download 'http://localhost/base.cfg' in offline mode.
        
        >>> write('buildout.cfg', """\
        ... [buildout]
        ... extends = fancy.cfg
        ... """)
        >>> write('fancy.cfg', """\
        ... [buildout]
        ... extends = %sbase.cfg
        ... offline = true
        ... """ % server_url)
        >>> print system(buildout)
        Unused options for buildout: 'foo'.
        
        The ``install-from-cache`` option is treated accordingly:
        
        >>> write('home', '.buildout', 'default.cfg', """\
        ... [buildout]
        ... extends = fancy_default.cfg
        ... install-from-cache = true
        ... """)
        >>> print system(buildout)
        While:
          Initializing.
        Error: Couldn't download 'http://localhost/base_default.cfg' in offline mode.
        
        >>> write('home', '.buildout', 'default.cfg', """\
        ... [buildout]
        ... extends = fancy_default.cfg
        ... """)
        >>> write('home', '.buildout', 'fancy_default.cfg', """\
        ... [buildout]
        ... extends = %sbase_default.cfg
        ... install-from-cache = true
        ... """ % server_url)
        >>> print system(buildout)
        While:
          Initializing.
        Error: Couldn't download 'http://localhost/base.cfg' in offline mode.
        
        >>> write('home', '.buildout', 'fancy_default.cfg', """\
        ... [buildout]
        ... extends = %sbase_default.cfg
        ... """ % server_url)
        >>> write('buildout.cfg', """\
        ... [buildout]
        ... extends = fancy.cfg
        ... install-from-cache = true
        ... """)
        >>> print system(buildout)
        While:
          Initializing.
        Error: Couldn't download 'http://localhost/base.cfg' in offline mode.
        
        >>> write('buildout.cfg', """\
        ... [buildout]
        ... extends = fancy.cfg
        ... """)
        >>> write('fancy.cfg', """\
        ... [buildout]
        ... extends = %sbase.cfg
        ... install-from-cache = true
        ... """ % server_url)
        >>> print system(buildout)
        While:
          Installing.
          Checking for upgrades.
        An internal error occurred ...
        ValueError: install_from_cache set to true with no download cache
        
        
        Clean up
        --------
        
        We should have cleaned up all temporary files created by downloading things:
        
        >>> ls(tempfile.tempdir)
        
        Reset the global temporary directory:
        
        >>> tempfile.tempdir = old_tempdir
        
        Using zc.buildout to run setup scripts
        ======================================
        
        zc buildout has a convenience command for running setup scripts.  Why?
        There are two reasons.  If a setup script doesn't import setuptools,
        you can't use any setuptools-provided commands, like bdist_egg.  When
        buildout runs a setup script, it arranges to import setuptools before
        running the script so setuptools-provided commands are available.
        
        If you use a squeaky-clean Python to do your development, the setup
        script that would import setuptools because setuptools isn't in the
        path.  Because buildout requires setuptools and knows where it has
        installed a setuptools egg, it adds the setuptools egg to the Python
        path before running the script.  To run a setup script, use the
        buildout setup command, passing the name of a script or a directory
        containing a setup script and arguments to the script.  Let's look at
        an example:
        
            >>> mkdir('test')
            >>> cd('test')
            >>> write('setup.py',
            ... '''
            ... from distutils.core import setup
            ... setup(name='sample')
            ... ''')
        
        We've created a super simple (stupid) setup script.  Note that it
        doesn't import setuptools.  Let's try running it to create an egg.
        We'll use the buildout script from our sample buildout:
        
            >>> print system(buildout+' setup'),
            ... # doctest: +NORMALIZE_WHITESPACE
            Error: The setup command requires the path to a setup script or
            directory containing a setup script, and its arguments.
        
        Oops, we forgot to give the name of the setup script:
        
            >>> print system(buildout+' setup setup.py bdist_egg'),
            ... # doctest: +ELLIPSIS
            Running setup script 'setup.py'.
            ...
        
            >>> ls('dist')
            -  sample-0.0.0-py2.5.egg
        
        Note that we can specify a directory name.  This is often shorter and
        preferred by the lazy :)
        
            >>> print system(buildout+' setup . bdist_egg'), # doctest: +ELLIPSIS
            Running setup script './setup.py'.
            ...
        
        Automatic Buildout Updates
        ==========================
        
        When a buildout is run, one of the first steps performed is to check
        for updates to either zc.buildout or setuptools.  To demonstrate this,
        we've created some "new releases" of buildout and setuptools in a
        new_releases folder:
        
            >>> ls(new_releases)
            d  setuptools
            -  setuptools-99.99-py2.4.egg
            d  zc.buildout
            -  zc.buildout-100.0b1-pyN.N.egg
            -  zc.buildout-99.99-py2.4.egg
        
        Let's update the sample buildout.cfg to look in this area:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... find-links = %(new_releases)s
            ... index = %(new_releases)s
            ... parts = show-versions
            ... develop = showversions
            ...
            ... [show-versions]
            ... recipe = showversions
            ... """ % dict(new_releases=new_releases))
        
        We'll also include a recipe that echos the versions of setuptools and
        zc.buildout used:
        
            >>> mkdir(sample_buildout, 'showversions')
        
            >>> write(sample_buildout, 'showversions', 'showversions.py',
            ... """
            ... import pkg_resources
            ...
            ... class Recipe:
            ...
            ...     def __init__(self, buildout, name, options):
            ...         pass
            ...
            ...     def install(self):
            ...         for project in 'zc.buildout', 'setuptools':
            ...             req = pkg_resources.Requirement.parse(project)
            ...             print project, pkg_resources.working_set.find(req).version
            ...         return ()
            ...     update = install
            ... """)
        
        
            >>> write(sample_buildout, 'showversions', 'setup.py',
            ... """
            ... from setuptools import setup
            ...
            ... setup(
            ...     name = "showversions",
            ...     entry_points = {'zc.buildout': ['default = showversions:Recipe']},
            ...     )
            ... """)
        
        
        Now if we run the buildout, the buildout will upgrade itself to the
        new versions found in new releases:
        
            >>> print system(buildout),
            Getting distribution for 'zc.buildout'.
            Got zc.buildout 99.99.
            Getting distribution for 'setuptools'.
            Got setuptools 99.99.
            Upgraded:
              zc.buildout version 99.99,
              setuptools version 99.99;
            restarting.
            Generated script '/sample-buildout/bin/buildout'.
            Develop: '/sample-buildout/showversions'
            Installing show-versions.
            zc.buildout 99.99
            setuptools 99.99
        
        Notice that, even though we have a newer beta version of zc.buildout
        available, the final "99.99" was selected.  If you want to get non-final
        versions, specify a specific version in your buildout's versions
        section, you typically want to use the --accept-buildout-test-releases
        option to the bootstrap script, which internally uses the
        ``accept-buildout-test-releases = true`` discussed below.
        
        Our buildout script's site.py has been updated to use the new eggs:
        
            >>> cat(sample_buildout, 'parts', 'buildout', 'site.py')
            ... # doctest: +NORMALIZE_WHITESPACE +ELLIPSIS
            "...
            def addsitepackages(known_paths):
                """Add site packages, as determined by zc.buildout.
            <BLANKLINE>
                See original_addsitepackages, below, for the original version."""
                setuptools_path = '/sample-buildout/eggs/setuptools-99.99-pyN.N.egg'
                sys.path.append(setuptools_path)
                known_paths.add(os.path.normcase(setuptools_path))
                import pkg_resources
                buildout_paths = [
                    '/sample-buildout/eggs/zc.buildout-99.99-pyN.N.egg',
                    '/sample-buildout/eggs/setuptools-99.99-pyN.N.egg'
                    ]
                for path in buildout_paths:
                    sitedir, sitedircase = makepath(path)
                    if not sitedircase in known_paths and os.path.exists(sitedir):
                        sys.path.append(sitedir)
                        known_paths.add(sitedircase)
                        pkg_resources.working_set.add_entry(sitedir)
                sys.__egginsert = len(buildout_paths) # Support setuptools.
                original_paths = [
                    ...
                    ]
                for path in original_paths:
                    if path == setuptools_path or path not in known_paths:
                        addsitedir(path, known_paths)
                return known_paths
            ...
        
        Now, let's recreate the sample buildout. If we specify constraints on
        the versions of zc.buildout and setuptools (or distribute) to use,
        running the buildout will install earlier versions of these packages:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... find-links = %(new_releases)s
            ... index = %(new_releases)s
            ... parts = show-versions
            ... develop = showversions
            ... zc.buildout-version = < 99
            ... setuptools-version = < 99
            ... distribute-version = < 99
            ...
            ... [show-versions]
            ... recipe = showversions
            ... """ % dict(new_releases=new_releases))
        
        Now we can see that we actually "upgrade" to an earlier version.
        
            >>> print system(buildout),
            Upgraded:
              zc.buildout version 1.0.0,
              setuptools version 0.6;
            restarting.
            Develop: '/sample-buildout/showversions'
            Updating show-versions.
            zc.buildout 1.0.0
            setuptools 0.6
        
        There are a number of cases, described below, in which the updates
        don't happen.
        
        We won't upgrade in offline mode:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... find-links = %(new_releases)s
            ... index = %(new_releases)s
            ... parts = show-versions
            ... develop = showversions
            ...
            ... [show-versions]
            ... recipe = showversions
            ... """ % dict(new_releases=new_releases))
        
            >>> print system(buildout+' -o'),
            Develop: '/sample-buildout/showversions'
            Updating show-versions.
            zc.buildout 1.0.0
            setuptools 0.6
        
        Or in non-newest mode:
        
            >>> print system(buildout+' -N'),
            Develop: '/sample-buildout/showversions'
            Updating show-versions.
            zc.buildout 1.0.0
            setuptools 0.6
        
        We also won't upgrade if the buildout script being run isn't in the
        buildout's bin directory.  To see this we'll create a new buildout
        directory:
        
            >>> sample_buildout2 = tmpdir('sample_buildout2')
            >>> write(sample_buildout2, 'buildout.cfg',
            ... """
            ... [buildout]
            ... find-links = %(new_releases)s
            ... index = %(new_releases)s
            ... parts =
            ... """ % dict(new_releases=new_releases))
        
            >>> cd(sample_buildout2)
            >>> print system(buildout),
            Creating directory '/sample_buildout2/bin'.
            Creating directory '/sample_buildout2/parts'.
            Creating directory '/sample_buildout2/eggs'.
            Creating directory '/sample_buildout2/develop-eggs'.
            Getting distribution for 'zc.buildout'.
            Got zc.buildout 99.99.
            Getting distribution for 'setuptools'.
            Got setuptools 99.99.
            Not upgrading because not running a local buildout command.
        
            >>> ls('bin')
        
        As mentioned above, the ``accept-buildout-test-releases = true`` means that
        newer non-final versions of these dependencies are preferred.  Typically
        users are not expected to actually manipulate this value.  Instead, the
        bootstrap script creates a buildout buildout script that passes in the
        value as a command line override. This then results in the buildout
        script being rewritten to remember the decision.
        
        We'll mimic this by passing the argument actually in the command line.
        
            >>> cd(sample_buildout)
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... find-links = %(new_releases)s
            ... index = %(new_releases)s
            ... parts = show-versions
            ... develop = showversions
            ...
            ... [show-versions]
            ... recipe = showversions
            ... """ % dict(new_releases=new_releases))
        
            >>> print system(buildout +
            ...              ' buildout:accept-buildout-test-releases=true'),
            ... # doctest: +NORMALIZE_WHITESPACE
            Getting distribution for 'zc.buildout'.
            Got zc.buildout 100.0b1.
            Upgraded:
              zc.buildout version 100.0b1,
              setuptools version 99.99;
            restarting.
            Generated script '/sample-buildout/bin/buildout'.
            NOTE: Accepting early releases of build system packages.  Rerun bootstrap
                  without --accept-buildout-test-releases (-t) to return to default
                  behavior.
            Develop: '/sample-buildout/showversions'
            Updating show-versions.
            zc.buildout 100.0b1
            setuptools 99.99
        
        The buildout script shows the change.
        
            >>> buildout_script = join(sample_buildout, 'bin', 'buildout')
            >>> import sys
            >>> if sys.platform.startswith('win'):
            ...     buildout_script += '-script.py'
            >>> print open(buildout_script).read() # doctest: +ELLIPSIS
            #...
            sys.argv.insert(1, 'buildout:accept-buildout-test-releases=true')
            print ('NOTE: Accepting early releases of build system packages.  Rerun '
                   'bootstrap without --accept-buildout-test-releases (-t) to return to '
                   'default behavior.')
            ...
        
        Debugging buildouts
        ===================
        
        Buildouts can be pretty complex.  When things go wrong, it isn't
        always obvious why.  Errors can occur due to problems in user input or
        due to bugs in zc.buildout or recipes.  When an error occurs, Python's
        post-mortem debugger can be used to inspect the state of the buildout
        or recipe code where the error occurred.  To enable this, use the -D
        option to the buildout.  Let's create a recipe that has a bug:
        
            >>> mkdir(sample_buildout, 'recipes')
        
            >>> write(sample_buildout, 'recipes', 'mkdir.py',
            ... """
            ... import os, zc.buildout
            ...
            ... class Mkdir:
            ...
            ...     def __init__(self, buildout, name, options):
            ...         self.name, self.options = name, options
            ...         options['path'] = os.path.join(
            ...                               buildout['buildout']['directory'],
            ...                               options['path'],
            ...                               )
            ...
            ...     def install(self):
            ...         directory = self.options['directory']
            ...         os.mkdir(directory)
            ...         return directory
            ...
            ...     def update(self):
            ...         pass
            ... """)
        
            >>> write(sample_buildout, 'recipes', 'setup.py',
            ... """
            ... from setuptools import setup
            ...
            ... setup(name = "recipes",
            ...       entry_points = {'zc.buildout': ['mkdir = mkdir:Mkdir']},
            ...       )
            ... """)
        
        And create a buildout that uses it:
        
            >>> write(sample_buildout, 'buildout.cfg',
            ... """
            ... [buildout]
            ... develop = recipes
            ... parts = data-dir
            ...
            ... [data-dir]
            ... recipe = recipes:mkdir
            ... path = mystuff
            ... """)
        
        If we run the buildout, we'll get an error:
        
            >>> print system(buildout),
            Develop: '/sample-buildout/recipes'
            Installing data-dir.
            While:
              Installing data-dir.
            Error: Missing option: data-dir:directory
        
        
        If we want to debug the error, we can add the -D option. Here's we'll
        supply some input:
        
            >>> print system(buildout+" -D", """\
            ... up
            ... p self.options.keys()
            ... q
            ... """),
            Develop: '/sample-buildout/recipes'
            Installing data-dir.
            > /zc/buildout/buildout.py(925)__getitem__()
            -> raise MissingOption("Missing option: %s:%s" % (self.name, key))
            (Pdb) > /sample-buildout/recipes/mkdir.py(14)install()
            -> directory = self.options['directory']
            (Pdb) ['path', 'recipe']
            (Pdb) While:
              Installing data-dir.
            Traceback (most recent call last):
              File "/zc/buildout/buildout.py", line 1352, in main
                getattr(buildout, command)(args)
              File "/zc/buildout/buildout.py", line 383, in install
                installed_files = self[part]._call(recipe.install)
              File "/zc/buildout/buildout.py", line 961, in _call
                return f()
              File "/sample-buildout/recipes/mkdir.py", line 14, in install
                directory = self.options['directory']
              File "/zc/buildout/buildout.py", line 925, in __getitem__
                raise MissingOption("Missing option: %s:%s" % (self.name, key))
            MissingOption: Missing option: data-dir:directory
            <BLANKLINE>
            Starting pdb:
        
        Testing Support
        ===============
        
        The zc.buildout.testing module provides an API that can be used when
        writing recipe tests.  This API is documented below.  Many examples of
        using this API can be found in the zc.buildout, zc.recipe.egg, and
        zc.recipe.testrunner tests.
        
        zc.buildout.testing.buildoutSetUp(test)
        ---------------------------------------
        
        The buildoutSetup function can be used as a doctest setup function.
        It creates a sample buildout that can be used by tests, changing the
        current working directory to the sample_buildout. It also adds a
        number of names to the test namespace:
        
        ``sample_buildout``
            This is the name of a buildout with a basic configuration.
        
        ``buildout``
            This is the path of the buildout script in the sample buildout.
        
        ``ls(*path)``
            List the contents of a directory.  The directory path is provided as one or
            more strings, to be joined with os.path.join.
        
        ``cat(*path)``
            Display the contents of a file.   The file path is provided as one or
            more strings, to be joined with os.path.join.
        
            On Windows, if the file doesn't exist, the function will try
            adding a '-script.py' suffix.  This helps to work around a
            difference in script generation on windows.
        
        ``mkdir(*path)``
            Create a directory. The directory path is provided as one or
            more strings, to be joined with os.path.join.
        
        ``rmdir(*path)``
            Remove a directory. The directory path is provided as one or
            more strings, to be joined with os.path.join.
        
        ``remove(*path)``
            Remove a directory or file. The path is provided as one or
            more strings, to be joined with os.path.join.
        
        ``tmpdir(name)``
            Create a temporary directory with the given name.  The directory
            will be automatically removed at the end of the test.  The path of
            the created directory is returned.
        
            Further, if the the normalize_path normlaizing substitution (see
            below) is used, then any paths starting with this path will be
            normalized to::
        
              /name/restofpath
        
            No two temporary directories can be created with the same name.  A
            directory created with tmpdir can be removed with rmdir and recreated.
        
            Note that the sample_buildout directory is created by calling this
            function.
        
        ``write(*path_and_contents)``
            Create a file.  The file path is provided as one or more strings,
            to be joined with os.path.join. The last argument is the file contents.
        
        ``system(command, input='')``
            Execute a system command with the given input passed to the
            command's standard input.  The output (error and regular output)
            from the command is returned.
        
        ``get(url)``
            Get a web page.
        
        ``cd(*path)``
            Change to the given directory.  The directory path is provided as one or
            more strings, to be joined with os.path.join.
        
            The directory will be reset at the end of the test.
        
        ``join(*path)``
            A convenient reference to os.path.join.
        
        ``register_teardown(func)``
            Register a tear-down function.  The function will be called with
            no arguments at the end of the test.
        
        ``start_server(path)``
            Start a web server on the given path.  The server will be shut
            down at the end of the test.  The server URL is returned.
        
            You can cause the server to start and stop logging it's output
            using: 
        
               >>> get(server_url+'enable_server_logging')
        
            and:
        
               >>> get(server_url+'disable_server_logging')
        
            This can be useful to see how buildout is interacting with a
            server.
        
        
        ``sdist(setup, dest)``
            Create a source distribution by running the given setup file and
            placing the result in the given destination directory.  If the
            setup argument is a directory, the thge setup.py file in that
            directory is used.
        
        ``bdist_egg(setup, executable, dest)``
            Create an egg by running the given setup file with the given
            Python executable and placing the result in the given destination
            directory.  If the setup argument is a directory, then the
            setup.py file in that directory is used.
        
        ``find_python(version)``
            Find a Python executable for the given version, where version is a
            string like "2.4".
        
            This function uses the following strategy to find a Python of the
            given version:
        
            - Look for an environment variable of the form PYTHON%(version)s.
        
            - On windows, look for \Pythonm%(version)s\python
        
            - on Unix, try running python%(version)s or just python to get the
              executable
        
        ``zc.buildout.testing.buildoutTearDown(test)``
        ----------------------------------------------
        
        Tear down everything set up by zc.buildout.testing.buildoutSetUp.  Any
        functions passed to register_teardown are called as well.
        
        ``install(project, destination)``
        ---------------------------------
        
        Install eggs for a given project into a destination.  If the
        destination is a test object, then the eggs directory of the
        sample buildout (sample_buildout) defined by the test will be used.
        Tests will use this to install the distributions for the packages
        being tested (and their dependencies) into a sample buildout. The egg
        to be used should already be loaded, by importing one of the modules
        provided, before calling this function.
        
        ``install_develop(project, destination)``
        -----------------------------------------
        
        Like install, but a develop egg is installed even if the current egg
        if not a develop egg.
        
        ``Output normalization``
        ------------------------
        
        Recipe tests often generate output that is dependent on temporary file
        locations, operating system conventions or Python versions.  To deal
        with these dependencies, we often use
        zope.testing.renormalizing.RENormalizing to normalize test output.
        zope.testing.renormalizing.RENormalizing takes pairs of regular
        expressions and substitutions. The zc.buildout.testing module provides
        a few helpful variables that define regular-expression/substitution
        pairs that you can pass to zope.testing.renormalizing.RENormalizing.
        
        
        ``normalize_path``
           Converts tests paths, based on directories created with tmpdir(),
           to simple paths.
        
        ``normalize_script``
           On Unix-like systems, scripts are implemented in single files
           without suffixes.  On windows, scripts are implemented with 2
           files, a -script.py file and a .exe file.  This normalization
           converts directory listings of Windows scripts to the form
           generated on UNix-like systems.
        
        ``normalize_egg_py``
           Normalize Python version and platform indicators, if specified, in
           egg names.
        
        Python API for egg and script installation
        ==========================================
        
        The easy_install module provides some functions to provide support for
        egg and script installation.  It provides functionality at the python
        level that is similar to easy_install, with a few exceptions:
        
        - By default, we look for new packages *and* the packages that
          they depend on.  This is somewhat like (and uses) the --upgrade
          option of easy_install, except that we also upgrade required
          packages.
        
        - If the highest-revision package satisfying a specification is
          already present, then we don't try to get another one.  This saves a
          lot of search time in the common case that packages are pegged to
          specific versions.
        
        - If there is a develop egg that satisfies a requirement, we don't
          look for additional distributions.  We always give preference to
          develop eggs.
        
        - Distutils options for building extensions can be passed.
        
        Distribution installation
        -------------------------
        
        The easy_install module provides a function, install, for installing one
        or more packages and their dependencies.  The install function takes 2
        positional arguments:
        
        - An iterable of setuptools requirement strings for the distributions
          to be installed, and
        
        - A destination directory to install to and to satisfy requirements
          from.  The destination directory can be None, in which case, no new
          distributions are downloaded and there will be an error if the
          needed distributions can't be found among those already installed.
        
        It supports a number of optional keyword arguments:
        
        links
           A sequence of URLs, file names, or directories to look for
           links to distributions.
        
        index
           The URL of an index server, or almost any other valid URL. :)
        
           If not specified, the Python Package Index,
           http://pypi.python.org/simple/, is used.  You can specify an
           alternate index with this option.  If you use the links option and
           if the links point to the needed distributions, then the index can
           be anything and will be largely ignored.  In the examples, here,
           we'll just point to an empty directory on our link server.  This
           will make our examples run a little bit faster.
        
        executable
           A path to a Python executable.  Distributions will be installed
           using this executable and will be for the matching Python version.
        
        path
           A list of additional directories to search for locally-installed
           distributions.
        
        always_unzip
           A flag indicating that newly-downloaded distributions should be
           directories even if they could be installed as zip files.
        
        working_set
           An existing working set to be augmented with additional
           distributions, if necessary to satisfy requirements.  This allows
           you to call install multiple times, if necessary, to gather
           multiple sets of requirements.
        
        newest
           A boolean value indicating whether to search for new distributions
           when already-installed distributions meet the requirement.  When
           this is true, the default, and when the destination directory is
           not None, then the install function will search for the newest
           distributions that satisfy the requirements.
        
        versions
           A dictionary mapping project names to version numbers to be used
           when selecting distributions.  This can be used to specify a set of
           distribution versions independent of other requirements.
        
        use_dependency_links
           A flag indicating whether to search for dependencies using the
           setup dependency_links metadata or not. If true, links are searched
           for using dependency_links in preference to other
           locations. Defaults to true.
        
        include_site_packages
            A flag indicating whether Python's non-standard-library packages should
            be available for finding dependencies.  Defaults to true.
        
            Paths outside of Python's standard library--or more precisely, those that
            are not included when Python is started with the -S argument--are loosely
            referred to as "site-packages" here.
        
        relative_paths
           Adjust egg paths so they are relative to the script path.  This
           allows scripts to work when scripts and eggs are moved, as long as
           they are both moved in the same way.
        
        The install method returns a working set containing the distributions
        needed to meet the given requirements.
        
        We have a link server that has a number of eggs:
        
            >>> print get(link_server),
            <html><body>
            <a href="bigdemo-0.1-py2.4.egg">bigdemo-0.1-py2.4.egg</a><br>
            <a href="demo-0.1-py2.4.egg">demo-0.1-py2.4.egg</a><br>
            <a href="demo-0.2-py2.4.egg">demo-0.2-py2.4.egg</a><br>
            <a href="demo-0.3-py2.4.egg">demo-0.3-py2.4.egg</a><br>
            <a href="demo-0.4c1-py2.4.egg">demo-0.4c1-py2.4.egg</a><br>
            <a href="demoneeded-1.0.zip">demoneeded-1.0.zip</a><br>
            <a href="demoneeded-1.1.zip">demoneeded-1.1.zip</a><br>
            <a href="demoneeded-1.2c1.zip">demoneeded-1.2c1.zip</a><br>
            <a href="extdemo-1.4.zip">extdemo-1.4.zip</a><br>
            <a href="index/">index/</a><br>
            <a href="other-1.0-py2.4.egg">other-1.0-py2.4.egg</a><br>
            </body></html>
        
        Let's make a directory and install the demo egg to it, using the demo:
        
            >>> dest = tmpdir('sample-install')
            >>> import zc.buildout.easy_install
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo==0.2'], dest,
            ...     links=[link_server], index=link_server+'index/')
        
        We requested version 0.2 of the demo distribution to be installed into
        the destination server.  We specified that we should search for links
        on the link server and that we should use the (empty) link server
        index directory as a package index.
        
        The working set contains the distributions we retrieved.
        
            >>> for dist in ws:
            ...     print dist
            demo 0.2
            demoneeded 1.1
        
        We got demoneeded because it was a dependency of demo.
        
        And the actual eggs were added to the eggs directory.
        
            >>> ls(dest)
            -  demo-0.2-py2.4.egg
            -  demoneeded-1.1-py2.4.egg
        
        If we remove the version restriction on demo, but specify a false
        value for newest, no new distributions will be installed:
        
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], dest, links=[link_server], index=link_server+'index/',
            ...     newest=False)
            >>> ls(dest)
            -  demo-0.2-py2.4.egg
            -  demoneeded-1.1-py2.4.egg
        
        If we leave off the newest option, we'll get an update for demo:
        
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], dest, links=[link_server], index=link_server+'index/')
            >>> ls(dest)
            -  demo-0.2-py2.4.egg
            -  demo-0.3-py2.4.egg
            -  demoneeded-1.1-py2.4.egg
        
        Note that we didn't get the newest versions available.  There were
        release candidates for newer versions of both packages. By default,
        final releases are preferred.  We can change this behavior using the
        prefer_final function:
        
            >>> zc.buildout.easy_install.prefer_final(False)
            True
        
        The old setting is returned.
        
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], dest, links=[link_server], index=link_server+'index/')
            >>> for dist in ws:
            ...     print dist
            demo 0.4c1
            demoneeded 1.2c1
        
            >>> ls(dest)
            -  demo-0.2-py2.4.egg
            -  demo-0.3-py2.4.egg
            -  demo-0.4c1-py2.4.egg
            -  demoneeded-1.1-py2.4.egg
            -  demoneeded-1.2c1-py2.4.egg
        
        Let's put the setting back to the default.
        
            >>> zc.buildout.easy_install.prefer_final(True)
            False
        
        We can supply additional distributions.  We can also supply
        specifications for distributions that would normally be found via
        dependencies.  We might do this to specify a specific version.
        
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo', 'other', 'demoneeded==1.0'], dest,
            ...     links=[link_server], index=link_server+'index/')
        
            >>> for dist in ws:
            ...     print dist
            demo 0.3
            other 1.0
            demoneeded 1.0
        
            >>> ls(dest)
            -  demo-0.2-py2.4.egg
            -  demo-0.3-py2.4.egg
            -  demo-0.4c1-py2.4.egg
            -  demoneeded-1.0-py2.4.egg
            -  demoneeded-1.1-py2.4.egg
            -  demoneeded-1.2c1-py2.4.egg
            d  other-1.0-py2.4.egg
        
        We can request that eggs be unzipped even if they are zip safe.  This
        can be useful when debugging.  (Note that Distribute will unzip eggs by
        default, so if you are using Distribute, most or all eggs will already be
        unzipped without this flag.)
        
            >>> rmdir(dest)
            >>> dest = tmpdir('sample-install')
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], dest, links=[link_server], index=link_server+'index/',
            ...     always_unzip=True)
        
            >>> ls(dest)
            d  demo-0.3-py2.4.egg
            d  demoneeded-1.1-py2.4.egg
        
            >>> rmdir(dest)
            >>> dest = tmpdir('sample-install')
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], dest, links=[link_server], index=link_server+'index/',
            ...     always_unzip=False)
        
            >>> ls(dest)
            -  demo-0.3-py2.4.egg
            -  demoneeded-1.1-py2.4.egg
        
        We can also set a default by calling the always_unzip function:
        
            >>> zc.buildout.easy_install.always_unzip(True)
            False
        
        The old default is returned:
        
            >>> rmdir(dest)
            >>> dest = tmpdir('sample-install')
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], dest, links=[link_server], index=link_server+'index/')
        
            >>> ls(dest)
            d  demo-0.3-py2.4.egg
            d  demoneeded-1.1-py2.4.egg
        
        
            >>> zc.buildout.easy_install.always_unzip(False)
            True
        
            >>> rmdir(dest)
            >>> dest = tmpdir('sample-install')
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], dest, links=[link_server], index=link_server+'index/')
        
            >>> ls(dest)
            -  demo-0.3-py2.4.egg
            -  demoneeded-1.1-py2.4.egg
        
            >>> rmdir(dest)
            >>> dest = tmpdir('sample-install')
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], dest, links=[link_server], index=link_server+'index/',
            ...     always_unzip=True)
        
            >>> ls(dest)
            d  demo-0.3-py2.4.egg
            d  demoneeded-1.1-py2.4.egg
        
        Specifying version information independent of requirements
        ----------------------------------------------------------
        
        Sometimes it's useful to specify version information independent of
        normal requirements specifications.  For example, a buildout may need
        to lock down a set of versions, without having to put put version
        numbers in setup files or part definitions.  If a dictionary is passed
        to the install function, mapping project names to version numbers,
        then the versions numbers will be used.
        
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], dest, links=[link_server], index=link_server+'index/',
            ...     versions = dict(demo='0.2', demoneeded='1.0'))
            >>> [d.version for d in ws]
            ['0.2', '1.0']
        
        In this example, we specified a version for demoneeded, even though we
        didn't define a requirement for it.  The versions specified apply to
        dependencies as well as the specified requirements.
        
        If we specify a version that's incompatible with a requirement, then
        we'll get an error:
        
            >>> from zope.testing.loggingsupport import InstalledHandler
            >>> handler = InstalledHandler('zc.buildout.easy_install')
            >>> import logging
            >>> logging.getLogger('zc.buildout.easy_install').propagate = False
        
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo >0.2'], dest, links=[link_server],
            ...     index=link_server+'index/',
            ...     versions = dict(demo='0.2', demoneeded='1.0'))
            Traceback (most recent call last):
            ...
            IncompatibleVersionError: Bad version 0.2
        
            >>> print handler
            zc.buildout.easy_install DEBUG
              Installing 'demo >0.2'.
            zc.buildout.easy_install ERROR
              The version, 0.2, is not consistent with the requirement, 'demo>0.2'.
        
            >>> handler.clear()
        
        If no versions are specified, a debugging message will be output
        reporting that a version was picked automatically:
        
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], dest, links=[link_server], index=link_server+'index/',
            ...     )
        
            >>> print handler
            zc.buildout.easy_install DEBUG
              Installing 'demo'.
            zc.buildout.easy_install DEBUG
              We have the best distribution that satisfies 'demo'.
            zc.buildout.easy_install DEBUG
              Picked: demo = 0.3
            zc.buildout.easy_install DEBUG
              Getting required 'demoneeded'
            zc.buildout.easy_install DEBUG
                required by demo 0.3.
            zc.buildout.easy_install DEBUG
              We have the best distribution that satisfies 'demoneeded'.
            zc.buildout.easy_install DEBUG
              Picked: demoneeded = 1.1
        
            >>> handler.uninstall()
            >>> logging.getLogger('zc.buildout.easy_install').propagate = True
        
        We can request that we get an error if versions are picked:
        
            >>> zc.buildout.easy_install.allow_picked_versions(False)
            True
        
        (The old setting is returned.)
        
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], dest, links=[link_server], index=link_server+'index/',
            ...     )
            Traceback (most recent call last):
            ...
            UserError: Picked: demo = 0.3
        
            >>> zc.buildout.easy_install.allow_picked_versions(True)
            False
        
        The function default_versions can be used to get and set default
        version information to be used when no version information is passes.
        If called with an argument, it sets the default versions:
        
            >>> zc.buildout.easy_install.default_versions(dict(demoneeded='1'))
            {}
        
        It always returns the previous default versions.  If called without an
        argument, it simply returns the default versions without changing
        them:
        
            >>> zc.buildout.easy_install.default_versions()
            {'demoneeded': '1'}
        
        So with the default versions set, we'll get the requested version even
        if the versions option isn't used:
        
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], dest, links=[link_server], index=link_server+'index/',
            ...     )
        
            >>> [d.version for d in ws]
            ['0.3', '1.0']
        
        Of course, we can unset the default versions by passing an empty
        dictionary:
        
            >>> zc.buildout.easy_install.default_versions({})
            {'demoneeded': '1'}
        
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], dest, links=[link_server], index=link_server+'index/',
            ...     )
        
            >>> [d.version for d in ws]
            ['0.3', '1.1']
        
        Dependencies in Site Packages
        -----------------------------
        
        Paths outside of Python's standard library--or more precisely, those that are
        not included when Python is started with the -S argument--are loosely referred
        to as "site-packages" here.  These site-packages are searched by default for
        distributions.  This can be disabled, so that, for instance, a system Python
        can be used with buildout, cleaned of any packages installed by a user or
        system package manager.
        
        The default behavior can be controlled and introspected using
        zc.buildout.easy_install.include_site_packages.
        
            >>> zc.buildout.easy_install.include_site_packages()
            True
        
        Here's an example of using a Python executable that includes our dependencies.
        
        Our "py_path" will have the "demoneeded," and "demo" packages available.
         We'll simply be asking for "demoneeded" here, but without any external
         index or links.
        
            >>> from zc.buildout.tests import create_sample_sys_install
            >>> py_path, site_packages_path = make_py()
            >>> create_sample_sys_install(site_packages_path)
        
            >>> example_dest = tmpdir('site-packages-example-install')
            >>> workingset = zc.buildout.easy_install.install(
            ...     ['demoneeded'], example_dest, links=[], executable=py_path,
            ...     index=None)
            >>> [dist.project_name for dist in workingset]
            ['demoneeded']
        
        That worked fine.  Let's try again with site packages not allowed.  We'll
        change the policy by changing the default.  Notice that the function for
        changing the default value returns the previous value.
        
            >>> zc.buildout.easy_install.include_site_packages(False)
            True
        
            >>> zc.buildout.easy_install.include_site_packages()
            False
        
            >>> zc.buildout.easy_install.clear_index_cache()
            >>> rmdir(example_dest)
            >>> example_dest = tmpdir('site-packages-example-install')
            >>> workingset = zc.buildout.easy_install.install(
            ...     ['demoneeded'], example_dest, links=[], executable=py_path,
            ...     index=None)
            Traceback (most recent call last):
                ...
            MissingDistribution: Couldn't find a distribution for 'demoneeded'.
            >>> zc.buildout.easy_install.clear_index_cache()
        
        Now we'll reset the default.
        
            >>> zc.buildout.easy_install.include_site_packages(True)
            False
        
            >>> zc.buildout.easy_install.include_site_packages()
            True
        
        Dependency links
        ----------------
        
        Setuptools allows metadata that describes where to search for package
        dependencies. This option is called dependency_links. Buildout has its
        own notion of where to look for dependencies, but it also uses the
        setup tools dependency_links information if it's available.
        
        Let's demo this by creating an egg that specifies dependency_links.
        
        To begin, let's create a new egg repository. This repository hold a
        newer version of the 'demoneeded' egg than the sample repository does.
        
            >>> repoloc = tmpdir('repo')
            >>> from zc.buildout.tests import create_egg
            >>> create_egg('demoneeded', '1.2', repoloc)
            >>> link_server2 = start_server(repoloc)
        
        Turn on logging on this server so that we can see when eggs are pulled
        from it.
        
            >>> get(link_server2 + 'enable_server_logging')
            GET 200 /enable_server_logging
            ''
        
        Now we can create an egg that specifies that its dependencies are
        found on this server.
        
            >>> repoloc = tmpdir('repo2')
            >>> create_egg('hasdeps', '1.0', repoloc,
            ...            install_requires = "'demoneeded'",
            ...            dependency_links = [link_server2])
        
        Let's add the egg to another repository.
        
            >>> link_server3 = start_server(repoloc)
        
        Now let's install the egg.
        
            >>> example_dest = tmpdir('example-install')
            >>> workingset = zc.buildout.easy_install.install(
            ...     ['hasdeps'], example_dest,
            ...     links=[link_server3], index=link_server3+'index/')
            GET 200 /
            GET 200 /demoneeded-1.2-pyN.N.egg
        
        The server logs show that the dependency was retrieved from the server
        specified in the dependency_links.
        
        Now let's see what happens if we provide two different ways to retrieve
        the dependencies.
        
            >>> rmdir(example_dest)
            >>> example_dest = tmpdir('example-install')
            >>> workingset = zc.buildout.easy_install.install(
            ...     ['hasdeps'], example_dest, index=link_server+'index/',
            ...     links=[link_server, link_server3])
            GET 200 /
            GET 200 /demoneeded-1.2-pyN.N.egg
        
        Once again the dependency is fetched from the logging server even
        though it is also available from the non-logging server. This is
        because the version on the logging server is newer and buildout
        normally chooses the newest egg available.
        
        If you wish to control where dependencies come from regardless of
        dependency_links setup metadata use the 'use_dependency_links' option
        to zc.buildout.easy_install.install().
        
            >>> rmdir(example_dest)
            >>> example_dest = tmpdir('example-install')
            >>> workingset = zc.buildout.easy_install.install(
            ...     ['hasdeps'], example_dest, index=link_server+'index/',
            ...     links=[link_server, link_server3],
            ...     use_dependency_links=False)
        
        Notice that this time the dependency egg is not fetched from the
        logging server. When you specify not to use dependency_links, eggs
        will only be searched for using the links you explicitly provide.
        
        Another way to control this option is with the
        zc.buildout.easy_install.use_dependency_links() function. This
        function sets the default behavior for the zc.buildout.easy_install()
        function.
        
            >>> zc.buildout.easy_install.use_dependency_links(False)
            True
        
        The function returns its previous setting.
        
            >>> rmdir(example_dest)
            >>> example_dest = tmpdir('example-install')
            >>> workingset = zc.buildout.easy_install.install(
            ...     ['hasdeps'], example_dest, index=link_server+'index/',
            ...     links=[link_server, link_server3])
        
        It can be overridden by passing a keyword argument to the install
        function.
        
            >>> rmdir(example_dest)
            >>> example_dest = tmpdir('example-install')
            >>> workingset = zc.buildout.easy_install.install(
            ...     ['hasdeps'], example_dest, index=link_server+'index/',
            ...     links=[link_server, link_server3],
            ...	    use_dependency_links=True)
            GET 200 /demoneeded-1.2-pyN.N.egg
        
        To return the dependency_links behavior to normal call the function again.
        
            >>> zc.buildout.easy_install.use_dependency_links(True)
            False
            >>> rmdir(example_dest)
            >>> example_dest = tmpdir('example-install')
            >>> workingset = zc.buildout.easy_install.install(
            ...     ['hasdeps'], example_dest, index=link_server+'index/',
            ...     links=[link_server, link_server3])
            GET 200 /demoneeded-1.2-pyN.N.egg
        
        
        Script generation
        -----------------
        
        The easy_install module provides support for creating scripts from eggs.
        It provides two competing functions.  One, ``scripts``, is a
        well-established approach to generating reliable scripts with a "clean"
        Python--e.g., one that does not have any packages in its site-packages.
        The other, ``sitepackage_safe_scripts``, is newer, a bit trickier, and is
        designed to work with a Python that has code in its site-packages, such
        as a system Python.
        
        Both are similar to setuptools except that they provides facilities for
        baking a script's path into the script.  This has two advantages:
        
        - The eggs to be used by a script are not chosen at run time, making
          startup faster and, more importantly, deterministic.
        
        - The script doesn't have to import pkg_resources because the logic that
          pkg_resources would execute at run time is executed at script-creation
          time.  (There is an exception in ``sitepackage_safe_scripts`` if you
          want to have your Python's site packages available, as discussed
          below, but even in that case pkg_resources is only partially
          activated, which can be a significant time savings.)
        
        
        The ``scripts`` function
        ~~~~~~~~~~~~~~~~~~~~~~~~
        
        The ``scripts`` function is the first way to generate scripts that we'll
        examine. It is the earlier approach that the package offered.  Let's
        create a destination directory for it to place them in:
        
            >>> bin = tmpdir('bin')
        
        Now, we'll use the scripts function to generate scripts in this directory
        from the demo egg:
        
            >>> import sys
            >>> scripts = zc.buildout.easy_install.scripts(
            ...     ['demo'], ws, sys.executable, bin)
        
        the four arguments we passed were:
        
        1. A sequence of distribution requirements.  These are of the same
           form as setuptools requirements.  Here we passed a single
           requirement, for the version 0.1 demo distribution.
        
        2. A working set,
        
        3. The Python executable to use, and
        
        3. The destination directory.
        
        The bin directory now contains a generated script:
        
            >>> ls(bin)
            -  demo
        
        The return value is a list of the scripts generated:
        
            >>> import os, sys
            >>> if sys.platform == 'win32':
            ...     scripts == [os.path.join(bin, 'demo.exe'),
            ...                 os.path.join(bin, 'demo-script.py')]
            ... else:
            ...     scripts == [os.path.join(bin, 'demo')]
            True
        
        Note that in Windows, 2 files are generated for each script.  A script
        file, ending in '-script.py', and an exe file that allows the script
        to be invoked directly without having to specify the Python
        interpreter and without having to provide a '.py' suffix.
        
        The demo script run the entry point defined in the demo egg:
        
            >>> cat(bin, 'demo') # doctest: +NORMALIZE_WHITESPACE
            #!/usr/local/bin/python2.4
            <BLANKLINE>
            import sys
            sys.path[0:0] = [
              '/sample-install/demo-0.3-py2.4.egg',
              '/sample-install/demoneeded-1.1-py2.4.egg',
              ]
            <BLANKLINE>
            import eggrecipedemo
            <BLANKLINE>
            if __name__ == '__main__':
                eggrecipedemo.main()
        
        Some things to note:
        
        - The demo and demoneeded eggs are added to the beginning of sys.path.
        
        - The module for the script entry point is imported and the entry
          point, in this case, 'main', is run.
        
        Rather than requirement strings, you can pass tuples containing 3
        strings:
        
          - A script name,
        
          - A module,
        
          - An attribute expression for an entry point within the module.
        
        For example, we could have passed entry point information directly
        rather than passing a requirement:
        
            >>> scripts = zc.buildout.easy_install.scripts(
            ...     [('demo', 'eggrecipedemo', 'main')],
            ...     ws, sys.executable, bin)
        
            >>> cat(bin, 'demo') # doctest: +NORMALIZE_WHITESPACE
            #!/usr/local/bin/python2.4
            <BLANKLINE>
            import sys
            sys.path[0:0] = [
              '/sample-install/demo-0.3-py2.4.egg',
              '/sample-install/demoneeded-1.1-py2.4.egg',
              ]
            <BLANKLINE>
            import eggrecipedemo
            <BLANKLINE>
            if __name__ == '__main__':
                eggrecipedemo.main()
        
        Passing entry-point information directly is handy when using eggs (or
        distributions) that don't declare their entry points, such as
        distributions that aren't based on setuptools.
        
        The interpreter keyword argument can be used to generate a script that can
        be used to invoke the Python interactive interpreter with the path set
        based on the working set.  This generated script can also be used to
        run other scripts with the path set on the working set:
        
            >>> scripts = zc.buildout.easy_install.scripts(
            ...     ['demo'], ws, sys.executable, bin, interpreter='py')
        
        
            >>> ls(bin)
            -  demo
            -  py
        
            >>> if sys.platform == 'win32':
            ...     scripts == [os.path.join(bin, 'demo.exe'),
            ...                 os.path.join(bin, 'demo-script.py'),
            ...                 os.path.join(bin, 'py.exe'),
            ...                 os.path.join(bin, 'py-script.py')]
            ... else:
            ...     scripts == [os.path.join(bin, 'demo'),
            ...                 os.path.join(bin, 'py')]
            True
        
        The py script simply runs the Python interactive interpreter with
        the path set:
        
            >>> cat(bin, 'py') # doctest: +NORMALIZE_WHITESPACE
            #!/usr/local/bin/python2.4
            <BLANKLINE>
            import sys
            <BLANKLINE>
            sys.path[0:0] = [
              '/sample-install/demo-0.3-pyN.N.egg',
              '/sample-install/demoneeded-1.1-pyN.N.egg',
              ]
            <BLANKLINE>
            _interactive = True
            if len(sys.argv) > 1:
                _options, _args = __import__("getopt").getopt(sys.argv[1:], 'ic:m:')
                _interactive = False
                for (_opt, _val) in _options:
                    if _opt == '-i':
                        _interactive = True
                    elif _opt == '-c':
                        exec _val
                    elif _opt == '-m':
                        sys.argv[1:] = _args
                        _args = []
                        __import__("runpy").run_module(
                             _val, {}, "__main__", alter_sys=True)
            <BLANKLINE>
                if _args:
                    sys.argv[:] = _args
                    __file__ = _args[0]
                    del _options, _args
                    execfile(__file__)
            <BLANKLINE>
            if _interactive:
                del _interactive
                __import__("code").interact(banner="", local=globals())
        
        If invoked with a script name and arguments, it will run that script, instead.
        
            >>> write('ascript', '''
            ... "demo doc"
            ... print sys.argv
            ... print (__name__, __file__, __doc__)
            ... ''')
            >>> print system(join(bin, 'py')+' ascript a b c'),
            ['ascript', 'a', 'b', 'c']
            ('__main__', 'ascript', 'demo doc')
        
        For Python 2.5 and higher, you can also use the -m option to run a
        module:
        
            >>> print system(join(bin, 'py')+' -m pdb'),
            usage: pdb.py scriptfile [arg] ...
        
            >>> print system(join(bin, 'py')+' -m pdb what'),
            Error: what does not exist
        
        An additional argument can be passed to define which scripts to install
        and to provide script names. The argument is a dictionary mapping
        original script names to new script names.
        
            >>> bin = tmpdir('bin2')
            >>> scripts = zc.buildout.easy_install.scripts(
            ...    ['demo'], ws, sys.executable, bin, dict(demo='run'))
        
            >>> if sys.platform == 'win32':
            ...     scripts == [os.path.join(bin, 'run.exe'),
            ...                 os.path.join(bin, 'run-script.py')]
            ... else:
            ...     scripts == [os.path.join(bin, 'run')]
            True
            >>> ls(bin)
            -  run
        
            >>> print system(os.path.join(bin, 'run')),
            3 1
        
        The ``scripts`` function: Including extra paths in scripts
        ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
        
        We can pass a keyword argument, extra paths, to cause additional paths
        to be included in the a generated script:
        
            >>> foo = tmpdir('foo')
            >>> scripts = zc.buildout.easy_install.scripts(
            ...    ['demo'], ws, sys.executable, bin, dict(demo='run'),
            ...    extra_paths=[foo])
        
            >>> cat(bin, 'run') # doctest: +NORMALIZE_WHITESPACE
            #!/usr/local/bin/python2.4
            <BLANKLINE>
            import sys
            sys.path[0:0] = [
              '/sample-install/demo-0.3-py2.4.egg',
              '/sample-install/demoneeded-1.1-py2.4.egg',
              '/foo',
              ]
            <BLANKLINE>
            import eggrecipedemo
            <BLANKLINE>
            if __name__ == '__main__':
                eggrecipedemo.main()
        
        The ``scripts`` function: Providing script arguments
        ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
        
        An "argument" keyword argument can be used to pass arguments to an
        entry point.  The value passed is a source string to be placed between the
        parentheses in the call:
        
            >>> scripts = zc.buildout.easy_install.scripts(
            ...    ['demo'], ws, sys.executable, bin, dict(demo='run'),
            ...    arguments='1, 2')
        
            >>> cat(bin, 'run') # doctest: +NORMALIZE_WHITESPACE
            #!/usr/local/bin/python2.4
            import sys
            sys.path[0:0] = [
              '/sample-install/demo-0.3-py2.4.egg',
              '/sample-install/demoneeded-1.1-py2.4.egg',
              ]
            <BLANKLINE>
            import eggrecipedemo
            <BLANKLINE>
            if __name__ == '__main__':
                eggrecipedemo.main(1, 2)
        
        The ``scripts`` function: Passing initialization code
        ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
        
        You can also pass script initialization code:
        
            >>> scripts = zc.buildout.easy_install.scripts(
            ...    ['demo'], ws, sys.executable, bin, dict(demo='run'),
            ...    arguments='1, 2',
            ...    initialization='import os\nos.chdir("foo")')
        
            >>> cat(bin, 'run') # doctest: +NORMALIZE_WHITESPACE
            #!/usr/local/bin/python2.4
            import sys
            sys.path[0:0] = [
              '/sample-install/demo-0.3-py2.4.egg',
              '/sample-install/demoneeded-1.1-py2.4.egg',
              ]
            <BLANKLINE>
            import os
            os.chdir("foo")
            <BLANKLINE>
            import eggrecipedemo
            <BLANKLINE>
            if __name__ == '__main__':
                eggrecipedemo.main(1, 2)
        
        The ``scripts`` function: Relative paths
        ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
        
        Sometimes, you want to be able to move a buildout directory around and
        have scripts still work without having to rebuild them.  We can
        control this using the relative_paths option to install.  You need
        to pass a common base directory of the scripts and eggs:
        
            >>> bo = tmpdir('bo')
            >>> ba = tmpdir('ba')
            >>> mkdir(bo, 'eggs')
            >>> mkdir(bo, 'bin')
            >>> mkdir(bo, 'other')
        
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], join(bo, 'eggs'), links=[link_server],
            ...     index=link_server+'index/')
        
            >>> scripts = zc.buildout.easy_install.scripts(
            ...    ['demo'], ws, sys.executable, join(bo, 'bin'), dict(demo='run'),
            ...    extra_paths=[ba, join(bo, 'bar')],
            ...    interpreter='py',
            ...    relative_paths=bo)
        
            >>> cat(bo, 'bin', 'run') # doctest: +NORMALIZE_WHITESPACE
            #!/usr/local/bin/python2.4
            <BLANKLINE>
            import os
            <BLANKLINE>
            join = os.path.join
            base = os.path.dirname(os.path.abspath(os.path.realpath(__file__)))
            base = os.path.dirname(base)
            <BLANKLINE>
            import sys
            sys.path[0:0] = [
              join(base, 'eggs/demo-0.3-pyN.N.egg'),
              join(base, 'eggs/demoneeded-1.1-pyN.N.egg'),
              '/ba',
              join(base, 'bar'),
              ]
            <BLANKLINE>
            import eggrecipedemo
            <BLANKLINE>
            if __name__ == '__main__':
                eggrecipedemo.main()
        
        Note that the extra path we specified that was outside the directory
        passed as relative_paths wasn't converted to a relative path.
        
        Of course, running the script works:
        
            >>> print system(join(bo, 'bin', 'run')),
            3 1
        
        We specified an interpreter and its paths are adjusted too:
        
            >>> cat(bo, 'bin', 'py') # doctest: +NORMALIZE_WHITESPACE
            #!/usr/local/bin/python2.4
            <BLANKLINE>
            import os
            <BLANKLINE>
            join = os.path.join
            base = os.path.dirname(os.path.abspath(os.path.realpath(__file__)))
            base = os.path.dirname(base)
            <BLANKLINE>
            import sys
            <BLANKLINE>
            sys.path[0:0] = [
              join(base, 'eggs/demo-0.3-pyN.N.egg'),
              join(base, 'eggs/demoneeded-1.1-pyN.N.egg'),
              '/ba',
              join(base, 'bar'),
              ]
            <BLANKLINE>
            _interactive = True
            if len(sys.argv) > 1:
                _options, _args = __import__("getopt").getopt(sys.argv[1:], 'ic:m:')
                _interactive = False
                for (_opt, _val) in _options:
                    if _opt == '-i':
                        _interactive = True
                    elif _opt == '-c':
                        exec _val
                    elif _opt == '-m':
                        sys.argv[1:] = _args
                        _args = []
                        __import__("runpy").run_module(
                             _val, {}, "__main__", alter_sys=True)
            <BLANKLINE>
                if _args:
                    sys.argv[:] = _args
                    __file__ = _args[0]
                    del _options, _args
                    execfile(__file__)
            <BLANKLINE>
            if _interactive:
                del _interactive
                __import__("code").interact(banner="", local=globals())
        
        The ``sitepackage_safe_scripts`` function
        ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
        
        The newer function for creating scripts is ``sitepackage_safe_scripts``.
        It has the same basic functionality as the ``scripts`` function: it can
        create scripts to run arbitrary entry points, and to run a Python
        interpreter.  The following are the differences from a user's
        perspective.
        
        - It can be used safely with a Python that has packages installed itself,
          such as a system-installed Python.
        
        - In contrast to the interpreter generated by the ``scripts`` method, which
          supports only a small subset of the usual Python executable's options,
          the interpreter generated by ``sitepackage_safe_scripts`` supports all
          of them. This makes it possible to use as full Python replacement for
          scripts that need the distributions specified in your buildout.
        
        - Both the interpreter and the entry point scripts allow you to include the
          site packages, and/or the sitecustomize, of the Python executable, if
          desired.
        
        It works by creating site.py and sitecustomize.py files that set up the
        desired paths and initialization.  These must be placed within an otherwise
        empty directory.  Typically this is in a recipe's parts directory.
        
        Here's the simplest example, building an interpreter script.
        
            >>> interpreter_dir = tmpdir('interpreter')
            >>> interpreter_parts_dir = os.path.join(
            ...     interpreter_dir, 'parts', 'interpreter')
            >>> interpreter_bin_dir = os.path.join(interpreter_dir, 'bin')
            >>> mkdir(interpreter_bin_dir)
            >>> mkdir(interpreter_dir, 'eggs')
            >>> mkdir(interpreter_dir, 'parts')
            >>> mkdir(interpreter_parts_dir)
        
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], join(interpreter_dir, 'eggs'), links=[link_server],
            ...     index=link_server+'index/')
            >>> generated = zc.buildout.easy_install.sitepackage_safe_scripts(
            ...     interpreter_bin_dir, ws, sys.executable, interpreter_parts_dir,
            ...     interpreter='py')
        
        Depending on whether the machine being used is running Windows or not, this
        produces either three or four files.  In both cases, we have site.py and
        sitecustomize.py generated in the parts/interpreter directory.  For Windows,
        we have py.exe and py-script.py; for other operating systems, we have py.
        
            >>> sitecustomize_path = os.path.join(
            ...     interpreter_parts_dir, 'sitecustomize.py')
            >>> site_path = os.path.join(interpreter_parts_dir, 'site.py')
            >>> interpreter_path = os.path.join(interpreter_bin_dir, 'py')
            >>> if sys.platform == 'win32':
            ...     py_path = os.path.join(interpreter_bin_dir, 'py-script.py')
            ...     expected = [sitecustomize_path,
            ...                 site_path,
            ...                 os.path.join(interpreter_bin_dir, 'py.exe'),
            ...                 py_path]
            ... else:
            ...     py_path = interpreter_path
            ...     expected = [sitecustomize_path, site_path, py_path]
            ...
            >>> assert generated == expected, repr((generated, expected))
        
        We didn't ask for any initialization, and we didn't ask to use the underlying
        sitecustomization, so sitecustomize.py is empty.
        
            >>> cat(sitecustomize_path)
        
        The interpreter script is simple.  It puts the directory with the
        site.py and sitecustomize.py on the PYTHONPATH and (re)starts Python.
        
            >>> cat(py_path)
            #!/usr/bin/python -S
            import os
            import sys
            <BLANKLINE>
            argv = [sys.executable] + sys.argv[1:]
            environ = os.environ.copy()
            path = '/interpreter/parts/interpreter'
            if environ.get('PYTHONPATH'):
                path = os.pathsep.join([path, environ['PYTHONPATH']])
            environ['PYTHONPATH'] = path
            os.execve(sys.executable, argv, environ)
        
        The site.py file is a modified version of the underlying Python's site.py.
        The most important modification is that it has a different version of the
        addsitepackages function.  It sets up the Python path, similarly to the
        behavior of the function it replaces.  The following shows the part that
        buildout inserts, in the simplest case.
        
            >>> sys.stdout.write('#\n'); cat(site_path)
            ... # doctest: +ELLIPSIS +NORMALIZE_WHITESPACE
            #...
            def addsitepackages(known_paths):
                """Add site packages, as determined by zc.buildout.
            <BLANKLINE>
                See original_addsitepackages, below, for the original version."""
                buildout_paths = [
                    '/interpreter/eggs/demo-0.3-pyN.N.egg',
                    '/interpreter/eggs/demoneeded-1.1-pyN.N.egg'
                    ]
                for path in buildout_paths:
                    sitedir, sitedircase = makepath(path)
                    if not sitedircase in known_paths and os.path.exists(sitedir):
                        sys.path.append(sitedir)
                        known_paths.add(sitedircase)
                return known_paths
            <BLANKLINE>
            def original_addsitepackages(known_paths):...
        
        Here are some examples of the interpreter in use.
        
            >>> print call_py(interpreter_path, "print 16+26")
            42
            <BLANKLINE>
            >>> res = call_py(interpreter_path, "import sys; print sys.path")
            >>> print res # doctest: +ELLIPSIS +NORMALIZE_WHITESPACE
            ['',
             '/interpreter/parts/interpreter',
             ...,
             '/interpreter/eggs/demo-0.3-pyN.N.egg',
             '/interpreter/eggs/demoneeded-1.1-pyN.N.egg']
            <BLANKLINE>
            >>> clean_paths = eval(res.strip()) # This is used later for comparison.
        
        If you provide initialization, it goes in sitecustomize.py.
        
            >>> def reset_interpreter():
            ...     # This is necessary because, in our tests, the timestamps of the
            ...     # .pyc files are not outdated when we want them to be.
            ...     rmdir(interpreter_bin_dir)
            ...     mkdir(interpreter_bin_dir)
            ...     rmdir(interpreter_parts_dir)
            ...     mkdir(interpreter_parts_dir)
            ...
            >>> reset_interpreter()
        
            >>> initialization_string = """\
            ... import os
            ... os.environ['FOO'] = 'bar baz bing shazam'"""
            >>> generated = zc.buildout.easy_install.sitepackage_safe_scripts(
            ...     interpreter_bin_dir, ws, sys.executable, interpreter_parts_dir,
            ...     interpreter='py', initialization=initialization_string)
            >>> cat(sitecustomize_path)
            import os
            os.environ['FOO'] = 'bar baz bing shazam'
            >>> print call_py(interpreter_path, "import os; print os.environ['FOO']")
            bar baz bing shazam
            <BLANKLINE>
        
        If you use relative paths, this affects the interpreter and site.py.  (This is
        again the UNIX version; the Windows version uses subprocess instead of
        os.execve.)
        
            >>> reset_interpreter()
            >>> generated = zc.buildout.easy_install.sitepackage_safe_scripts(
            ...     interpreter_bin_dir, ws, sys.executable, interpreter_parts_dir,
            ...     interpreter='py', relative_paths=interpreter_dir)
            >>> cat(py_path)
            #!/usr/bin/python -S
            import os
            import sys
            <BLANKLINE>
            join = os.path.join
            base = os.path.dirname(os.path.abspath(os.path.realpath(__file__)))
            base = os.path.dirname(base)
            <BLANKLINE>
            argv = [sys.executable] + sys.argv[1:]
            environ = os.environ.copy()
            path = join(base, 'parts/interpreter')
            if environ.get('PYTHONPATH'):
                path = os.pathsep.join([path, environ['PYTHONPATH']])
            environ['PYTHONPATH'] = path
            os.execve(sys.executable, argv, environ)
        
        For site.py, we again show only the pertinent parts.  Notice that the egg
        paths join a base to a path, as with the use of this argument in the
        ``scripts`` function.
        
            >>> sys.stdout.write('#\n'); cat(site_path) # doctest: +ELLIPSIS
            #...
            def addsitepackages(known_paths):
                """Add site packages, as determined by zc.buildout.
            <BLANKLINE>
                See original_addsitepackages, below, for the original version."""
                join = os.path.join
                base = os.path.dirname(os.path.abspath(os.path.realpath(__file__)))
                base = os.path.dirname(base)
                base = os.path.dirname(base)
                buildout_paths = [
                    join(base, 'eggs/demo-0.3-pyN.N.egg'),
                    join(base, 'eggs/demoneeded-1.1-pyN.N.egg')
                    ]...
        
        The paths resolve in practice as you would expect.
        
            >>> print call_py(interpreter_path,
            ...               "import sys, pprint; pprint.pprint(sys.path)")
            ... # doctest: +ELLIPSIS
            ['',
             '/interpreter/parts/interpreter',
             ...,
             '/interpreter/eggs/demo-0.3-pyN.N.egg',
             '/interpreter/eggs/demoneeded-1.1-pyN.N.egg']
            <BLANKLINE>
        
        The ``extra_paths`` argument affects the path in site.py.  Notice that
        /interpreter/other is added after the eggs.
        
            >>> reset_interpreter()
            >>> mkdir(interpreter_dir, 'other')
            >>> generated = zc.buildout.easy_install.sitepackage_safe_scripts(
            ...     interpreter_bin_dir, ws, sys.executable, interpreter_parts_dir,
            ...     interpreter='py', extra_paths=[join(interpreter_dir, 'other')])
            >>> sys.stdout.write('#\n'); cat(site_path) # doctest: +ELLIPSIS
            #...
            def addsitepackages(known_paths):
                """Add site packages, as determined by zc.buildout.
            <BLANKLINE>
                See original_addsitepackages, below, for the original version."""
                buildout_paths = [
                    '/interpreter/eggs/demo-0.3-pyN.N.egg',
                    '/interpreter/eggs/demoneeded-1.1-pyN.N.egg',
                    '/interpreter/other'
                    ]...
        
            >>> print call_py(interpreter_path,
            ...               "import sys, pprint; pprint.pprint(sys.path)")
            ... # doctest: +ELLIPSIS
            ['',
             '/interpreter/parts/interpreter',
             ...,
             '/interpreter/eggs/demo-0.3-pyN.N.egg',
             '/interpreter/eggs/demoneeded-1.1-pyN.N.egg',
             '/interpreter/other']
            <BLANKLINE>
        
        The ``sitepackage_safe_scripts`` function: using site-packages
        ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
        
        The ``sitepackage_safe_scripts`` function supports including site
        packages.  This has some advantages and some serious dangers.
        
        A typical reason to include site-packages is that it is easier to
        install one or more dependencies in your Python than it is with
        buildout.  Some packages, such as lxml or Python PostgreSQL integration,
        have dependencies that can be much easier to build and/or install using
        other mechanisms, such as your operating system's package manager.  By
        installing some core packages into your Python's site-packages, this can
        significantly simplify some application installations.
        
        However, doing this has a significant danger.  One of the primary goals
        of buildout is to provide repeatability.  Some packages (one of the
        better known Python openid packages, for instance) change their behavior
        depending on what packages are available.  If Python curl bindings are
        available, these may be preferred by the library.  If a certain XML
        package is installed, it may be preferred by the library.  These hidden
        choices may cause small or large behavior differences.  The fact that
        they can be rarely encountered can actually make it worse: you forget
        that this might be a problem, and debugging the differences can be
        difficult.  If you allow site-packages to be included in your buildout,
        and the Python you use is not managed precisely by your application (for
        instance, it is a system Python), you open yourself up to these
        possibilities.  Don't be unaware of the dangers.
        
        That explained, let's see how it works.  If you don't use namespace packages,
        this is very straightforward.
        
            >>> reset_interpreter()
            >>> generated = zc.buildout.easy_install.sitepackage_safe_scripts(
            ...     interpreter_bin_dir, ws, sys.executable, interpreter_parts_dir,
            ...     interpreter='py', include_site_packages=True)
            >>> sys.stdout.write('#\n'); cat(site_path)
            ... # doctest: +ELLIPSIS +NORMALIZE_WHITESPACE
            #...
            def addsitepackages(known_paths):
                """Add site packages, as determined by zc.buildout.
            <BLANKLINE>
                See original_addsitepackages, below, for the original version."""
                setuptools_path = None
                buildout_paths = [
                    '/interpreter/eggs/demo-0.3-pyN.N.egg',
                    '/interpreter/eggs/demoneeded-1.1-pyN.N.egg'
                    ]
                for path in buildout_paths:
                    sitedir, sitedircase = makepath(path)
                    if not sitedircase in known_paths and os.path.exists(sitedir):
                        sys.path.append(sitedir)
                        known_paths.add(sitedircase)
                sys.__egginsert = len(buildout_paths) # Support distribute.
                original_paths = [
                    ...
                    ]
                for path in original_paths:
                    if path == setuptools_path or path not in known_paths:
                        addsitedir(path, known_paths)
                return known_paths
            <BLANKLINE>
            def original_addsitepackages(known_paths):...
        
        It simply adds the original paths using addsitedir after the code to add the
        buildout paths.
        
        Here's an example of the new script in use.  Other documents and tests in
        this package give the feature a more thorough workout, but this should
        give you an idea of the feature.
        
            >>> res = call_py(interpreter_path, "import sys; print sys.path")
            >>> print res # doctest: +ELLIPSIS +NORMALIZE_WHITESPACE
            ['',
             '/interpreter/parts/interpreter',
             ...,
             '/interpreter/eggs/demo-0.3-py2.4.egg',
             '/interpreter/eggs/demoneeded-1.1-py2.4.egg',
             ...]
            <BLANKLINE>
        
        The clean_paths gathered earlier is a subset of this full list of paths.
        
            >>> full_paths = eval(res.strip())
            >>> len(clean_paths) < len(full_paths)
            True
            >>> set(os.path.normpath(p) for p in clean_paths).issubset(
            ...     os.path.normpath(p) for p in full_paths)
            True
        
        Unfortunately, because of how setuptools namespace packages are implemented
        differently for operating system packages (debs or rpms) as opposed to
        standard setuptools installation, there's a slightly trickier dance if you
        use them.  To show this we'll needs some extra eggs that use namespaces.
        We'll use the ``tellmy.fortune`` package, which we'll need to make an initial
        call to another text fixture to create.
        
            >>> from zc.buildout.tests import create_sample_namespace_eggs
            >>> namespace_eggs = tmpdir('namespace_eggs')
            >>> create_sample_namespace_eggs(namespace_eggs)
        
            >>> reset_interpreter()
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo', 'tellmy.fortune'], join(interpreter_dir, 'eggs'),
            ...     links=[link_server, namespace_eggs], index=link_server+'index/')
            >>> generated = zc.buildout.easy_install.sitepackage_safe_scripts(
            ...     interpreter_bin_dir, ws, sys.executable, interpreter_parts_dir,
            ...     interpreter='py', include_site_packages=True)
            >>> sys.stdout.write('#\n'); cat(site_path)
            ... # doctest: +ELLIPSIS +NORMALIZE_WHITESPACE
            #...
            def addsitepackages(known_paths):
                """Add site packages, as determined by zc.buildout.
            <BLANKLINE>
                See original_addsitepackages, below, for the original version."""
                setuptools_path = '...setuptools...'
                sys.path.append(setuptools_path)
                known_paths.add(os.path.normcase(setuptools_path))
                import pkg_resources
                buildout_paths = [
                    '/interpreter/eggs/demo-0.3-pyN.N.egg',
                    '/interpreter/eggs/tellmy.fortune-1.0-pyN.N.egg',
                    '...setuptools...',
                    '/interpreter/eggs/demoneeded-1.1-pyN.N.egg'
                    ]
                for path in buildout_paths:
                    sitedir, sitedircase = makepath(path)
                    if not sitedircase in known_paths and os.path.exists(sitedir):
                        sys.path.append(sitedir)
                        known_paths.add(sitedircase)
                        pkg_resources.working_set.add_entry(sitedir)
                sys.__egginsert = len(buildout_paths) # Support distribute.
                original_paths = [
                    ...
                    ]
                for path in original_paths:
                    if path == setuptools_path or path not in known_paths:
                        addsitedir(path, known_paths)
                return known_paths
            <BLANKLINE>
            def original_addsitepackages(known_paths):...
        
            >>> print call_py(interpreter_path, "import sys; print sys.path")
            ... # doctest: +ELLIPSIS +NORMALIZE_WHITESPACE
            ['',
             '/interpreter/parts/interpreter',
             ...,
             '...setuptools...',
             '/interpreter/eggs/demo-0.3-pyN.N.egg',
             '/interpreter/eggs/tellmy.fortune-1.0-pyN.N.egg',
             '/interpreter/eggs/demoneeded-1.1-pyN.N.egg',
             ...]
        
        As you can see, the script now first imports pkg_resources.  Then we
        need to process egg files specially to look for namespace packages there
        *before* we process process lines in .pth files that use the "import"
        feature--lines that might be part of the setuptools namespace package
        implementation for system packages, as mentioned above, and that must
        come after processing egg namespaces.
        
        The most complex that this function gets is if you use namespace packages,
        include site-packages, and use relative paths.  For completeness, we'll look
        at that result.
        
            >>> reset_interpreter()
            >>> generated = zc.buildout.easy_install.sitepackage_safe_scripts(
            ...     interpreter_bin_dir, ws, sys.executable, interpreter_parts_dir,
            ...     interpreter='py', include_site_packages=True,
            ...     relative_paths=interpreter_dir)
            >>> sys.stdout.write('#\n'); cat(site_path)
            ... # doctest: +ELLIPSIS +NORMALIZE_WHITESPACE
            #...
            def addsitepackages(known_paths):
                """Add site packages, as determined by zc.buildout.
            <BLANKLINE>
                See original_addsitepackages, below, for the original version."""
                join = os.path.join
                base = os.path.dirname(os.path.abspath(os.path.realpath(__file__)))
                base = os.path.dirname(base)
                base = os.path.dirname(base)
                setuptools_path = '...setuptools...'
                sys.path.append(setuptools_path)
                known_paths.add(os.path.normcase(setuptools_path))
                import pkg_resources
                buildout_paths = [
                    join(base, 'eggs/demo-0.3-pyN.N.egg'),
                    join(base, 'eggs/tellmy.fortune-1.0-pyN.N.egg'),
                    '...setuptools...',
                    join(base, 'eggs/demoneeded-1.1-pyN.N.egg')
                    ]
                for path in buildout_paths:
                    sitedir, sitedircase = makepath(path)
                    if not sitedircase in known_paths and os.path.exists(sitedir):
                        sys.path.append(sitedir)
                        known_paths.add(sitedircase)
                        pkg_resources.working_set.add_entry(sitedir)
                sys.__egginsert = len(buildout_paths) # Support distribute.
                original_paths = [
                    ...
                    ]
                for path in original_paths:
                    if path == setuptools_path or path not in known_paths:
                        addsitedir(path, known_paths)
                return known_paths
            <BLANKLINE>
            def original_addsitepackages(known_paths):...
        
            >>> print call_py(interpreter_path, "import sys; print sys.path")
            ... # doctest: +ELLIPSIS +NORMALIZE_WHITESPACE
            ['',
             '/interpreter/parts/interpreter',
             ...,
             '...setuptools...',
             '/interpreter/eggs/demo-0.3-pyN.N.egg',
             '/interpreter/eggs/tellmy.fortune-1.0-pyN.N.egg',
             '/interpreter/eggs/demoneeded-1.1-pyN.N.egg',
             ...]
        
        The ``exec_sitecustomize`` argument does the same thing for the
        sitecustomize module--it allows you to include the code from the
        sitecustomize module in the underlying Python if you set the argument to
        True.  The z3c.recipe.scripts package sets up the full environment necessary
        to demonstrate this piece.
        
        The ``sitepackage_safe_scripts`` function: writing scripts for entry points
        ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
        
        All of the examples so far for this function have been creating
        interpreters.  The function can also write scripts for entry
        points.  They are almost identical to the scripts that we saw for the
        ``scripts`` function except that they ``import site`` after setting the
        sys.path to include our custom site.py and sitecustomize.py files.  These
        files then initialize the Python environment as we have already seen.  Let's
        see a simple example.
        
            >>> reset_interpreter()
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], join(interpreter_dir, 'eggs'), links=[link_server],
            ...     index=link_server+'index/')
            >>> generated = zc.buildout.easy_install.sitepackage_safe_scripts(
            ...     interpreter_bin_dir, ws, sys.executable, interpreter_parts_dir,
            ...     reqs=['demo'])
        
        As before, in Windows, 2 files are generated for each script.  A script
        file, ending in '-script.py', and an exe file that allows the script
        to be invoked directly without having to specify the Python
        interpreter and without having to provide a '.py' suffix.  This is in addition
        to the site.py and sitecustomize.py files that are generated as with our
        interpreter examples above.
        
            >>> if sys.platform == 'win32':
            ...     demo_path = os.path.join(interpreter_bin_dir, 'demo-script.py')
            ...     expected = [sitecustomize_path,
            ...                 site_path,
            ...                 os.path.join(interpreter_bin_dir, 'demo.exe'),
            ...                 demo_path]
            ... else:
            ...     demo_path = os.path.join(interpreter_bin_dir, 'demo')
            ...     expected = [sitecustomize_path, site_path, demo_path]
            ...
            >>> assert generated == expected, repr((generated, expected))
        
        The demo script runs the entry point defined in the demo egg:
        
            >>> cat(demo_path) # doctest: +NORMALIZE_WHITESPACE
            #!/usr/local/bin/python2.4 -S
            <BLANKLINE>
            import sys
            sys.path[0:0] = [
                '/interpreter/parts/interpreter',
                ]
            <BLANKLINE>
            <BLANKLINE>
            import os
            path = sys.path[0]
            if os.environ.get('PYTHONPATH'):
                path = os.pathsep.join([path, os.environ['PYTHONPATH']])
            os.environ['BUILDOUT_ORIGINAL_PYTHONPATH'] = os.environ.get('PYTHONPATH', '')
            os.environ['PYTHONPATH'] = path
            import site # imports custom buildout-generated site.py
            <BLANKLINE>
            import eggrecipedemo
            <BLANKLINE>
            if __name__ == '__main__':
                eggrecipedemo.main()
        
            >>> demo_call = join(interpreter_bin_dir, 'demo')
            >>> if sys.platform == 'win32':
            ...     demo_call = '"%s"' % demo_call
            >>> print system(demo_call)
            3 1
            <BLANKLINE>
        
        There are a few differences from the ``scripts`` function.  First, the
        ``reqs`` argument (an iterable of string requirements or entry point
        tuples) is a keyword argument here.  We see that in the example above.
        Second, the ``arguments`` argument is now named ``script_arguments`` to
        try and clarify that it does not affect interpreters. While the
        ``initialization`` argument continues to affect both the interpreters
        and the entry point scripts, if you have initialization that is only
        pertinent to the entry point scripts, you can use the
        ``script_initialization`` argument.
        
        Let's see ``script_arguments`` and ``script_initialization`` in action.
        
            >>> reset_interpreter()
            >>> generated = zc.buildout.easy_install.sitepackage_safe_scripts(
            ...     interpreter_bin_dir, ws, sys.executable, interpreter_parts_dir,
            ...     reqs=['demo'], script_arguments='1, 2',
            ...     script_initialization='import os\nos.chdir("foo")')
        
            >>> cat(demo_path) # doctest: +NORMALIZE_WHITESPACE
            #!/usr/local/bin/python2.4 -S
            import sys
            sys.path[0:0] = [
              '/interpreter/parts/interpreter',
              ]
            <BLANKLINE>
            import os
            path = sys.path[0]
            if os.environ.get('PYTHONPATH'):
                path = os.pathsep.join([path, os.environ['PYTHONPATH']])
            os.environ['BUILDOUT_ORIGINAL_PYTHONPATH'] = os.environ.get('PYTHONPATH', '')
            os.environ['PYTHONPATH'] = path
            import site # imports custom buildout-generated site.py
            import os
            os.chdir("foo")
            <BLANKLINE>
            import eggrecipedemo
            <BLANKLINE>
            if __name__ == '__main__':
                eggrecipedemo.main(1, 2)
        
        Handling custom build options for extensions provided in source distributions
        -----------------------------------------------------------------------------
        
        Sometimes, we need to control how extension modules are built.  The
        build function provides this level of control.  It takes a single
        package specification, downloads a source distribution, and builds it
        with specified custom build options.
        
        The build function takes 3 positional arguments:
        
        spec
           A package specification for a source distribution
        
        dest
           A destination directory
        
        build_ext
           A dictionary of options to be passed to the distutils build_ext
           command when building extensions.
        
        It supports a number of optional keyword arguments:
        
        links
           a sequence of URLs, file names, or directories to look for
           links to distributions,
        
        index
           The URL of an index server, or almost any other valid URL. :)
        
           If not specified, the Python Package Index,
           http://pypi.python.org/simple/, is used.  You can specify an
           alternate index with this option.  If you use the links option and
           if the links point to the needed distributions, then the index can
           be anything and will be largely ignored.  In the examples, here,
           we'll just point to an empty directory on our link server.  This
           will make our examples run a little bit faster.
        
        executable
           A path to a Python executable.  Distributions will be installed
           using this executable and will be for the matching Python version.
        
        path
           A list of additional directories to search for locally-installed
           distributions.
        
        newest
           A boolean value indicating whether to search for new distributions
           when already-installed distributions meet the requirement.  When
           this is true, the default, and when the destination directory is
           not None, then the install function will search for the newest
           distributions that satisfy the requirements.
        
        versions
           A dictionary mapping project names to version numbers to be used
           when selecting distributions.  This can be used to specify a set of
           distribution versions independent of other requirements.
        
        
        Our link server included a source distribution that includes a simple
        extension, extdemo.c::
        
          #include <Python.h>
          #include <extdemo.h>
        
          static PyMethodDef methods[] = {};
        
          PyMODINIT_FUNC
          initextdemo(void)
          {
              PyObject *m;
              m = Py_InitModule3("extdemo", methods, "");
          #ifdef TWO
              PyModule_AddObject(m, "val", PyInt_FromLong(2));
          #else
              PyModule_AddObject(m, "val", PyInt_FromLong(EXTDEMO));
          #endif
          }
        
        The extension depends on a system-dependent include file, extdemo.h,
        that defines a constant, EXTDEMO, that is exposed by the extension.
        
        We'll add an include directory to our sample buildout and add the
        needed include file to it:
        
            >>> mkdir('include')
            >>> write('include', 'extdemo.h',
            ... """
            ... #define EXTDEMO 42
            ... """)
        
        Now, we can use the build function to create an egg from the source
        distribution:
        
            >>> zc.buildout.easy_install.build(
            ...   'extdemo', dest,
            ...   {'include-dirs': os.path.join(sample_buildout, 'include')},
            ...   links=[link_server], index=link_server+'index/')
            ['/sample-install/extdemo-1.4-py2.4-unix-i686.egg']
        
        The function returns the list of eggs
        
        Now if we look in our destination directory, we see we have an extdemo egg:
        
            >>> ls(dest)
            -  demo-0.2-py2.4.egg
            d  demo-0.3-py2.4.egg
            -  demoneeded-1.0-py2.4.egg
            d  demoneeded-1.1-py2.4.egg
            d  extdemo-1.4-py2.4-unix-i686.egg
        
        Let's update our link server with a new version of extdemo:
        
            >>> update_extdemo()
            >>> print get(link_server),
            <html><body>
            <a href="bigdemo-0.1-py2.4.egg">bigdemo-0.1-py2.4.egg</a><br>
            <a href="demo-0.1-py2.4.egg">demo-0.1-py2.4.egg</a><br>
            <a href="demo-0.2-py2.4.egg">demo-0.2-py2.4.egg</a><br>
            <a href="demo-0.3-py2.4.egg">demo-0.3-py2.4.egg</a><br>
            <a href="demo-0.4c1-py2.4.egg">demo-0.4c1-py2.4.egg</a><br>
            <a href="demoneeded-1.0.zip">demoneeded-1.0.zip</a><br>
            <a href="demoneeded-1.1.zip">demoneeded-1.1.zip</a><br>
            <a href="demoneeded-1.2c1.zip">demoneeded-1.2c1.zip</a><br>
            <a href="extdemo-1.4.zip">extdemo-1.4.zip</a><br>
            <a href="extdemo-1.5.zip">extdemo-1.5.zip</a><br>
            <a href="index/">index/</a><br>
            <a href="other-1.0-py2.4.egg">other-1.0-py2.4.egg</a><br>
            </body></html>
        
        The easy_install caches information about servers to reduce network
        access. To see the update, we have to call the clear_index_cache
        function to clear the index cache:
        
            >>> zc.buildout.easy_install.clear_index_cache()
        
        If we run build with newest set to False, we won't get an update:
        
            >>> zc.buildout.easy_install.build(
            ...   'extdemo', dest,
            ...   {'include-dirs': os.path.join(sample_buildout, 'include')},
            ...   links=[link_server], index=link_server+'index/',
            ...   newest=False)
            ['/sample-install/extdemo-1.4-py2.4-linux-i686.egg']
        
            >>> ls(dest)
            -  demo-0.2-py2.4.egg
            d  demo-0.3-py2.4.egg
            -  demoneeded-1.0-py2.4.egg
            d  demoneeded-1.1-py2.4.egg
            d  extdemo-1.4-py2.4-unix-i686.egg
        
        But if we run it with the default True setting for newest, then we'll
        get an updated egg:
        
            >>> zc.buildout.easy_install.build(
            ...   'extdemo', dest,
            ...   {'include-dirs': os.path.join(sample_buildout, 'include')},
            ...   links=[link_server], index=link_server+'index/')
            ['/sample-install/extdemo-1.5-py2.4-unix-i686.egg']
        
            >>> ls(dest)
            -  demo-0.2-py2.4.egg
            d  demo-0.3-py2.4.egg
            -  demoneeded-1.0-py2.4.egg
            d  demoneeded-1.1-py2.4.egg
            d  extdemo-1.4-py2.4-unix-i686.egg
            d  extdemo-1.5-py2.4-unix-i686.egg
        
        The versions option also influences the versions used.  For example,
        if we specify a version for extdemo, then that will be used, even
        though it isn't the newest.  Let's clean out the destination directory
        first:
        
            >>> import os
            >>> for name in os.listdir(dest):
            ...     remove(dest, name)
        
            >>> zc.buildout.easy_install.build(
            ...   'extdemo', dest,
            ...   {'include-dirs': os.path.join(sample_buildout, 'include')},
            ...   links=[link_server], index=link_server+'index/',
            ...   versions=dict(extdemo='1.4'))
            ['/sample-install/extdemo-1.4-py2.4-unix-i686.egg']
        
            >>> ls(dest)
            d  extdemo-1.4-py2.4-unix-i686.egg
        
        Handling custom build options for extensions in develop eggs
        ------------------------------------------------------------
        
        The develop function is similar to the build function, except that,
        rather than building an egg from a source directory containing a
        setup.py script.
        
        The develop function takes 2 positional arguments:
        
        setup
           The path to a setup script, typically named "setup.py", or a
           directory containing a setup.py script.
        
        dest
           The directory to install the egg link to
        
        It supports some optional keyword argument:
        
        build_ext
           A dictionary of options to be passed to the distutils build_ext
           command when building extensions.
        
        executable
           A path to a Python executable.  Distributions will be installed
           using this executable and will be for the matching Python version.
        
        We have a local directory containing the extdemo source:
        
            >>> ls(extdemo)
            -  MANIFEST
            -  MANIFEST.in
            -  README
            -  extdemo.c
            -  setup.py
        
        Now, we can use the develop function to create a develop egg from the source
        distribution:
        
            >>> zc.buildout.easy_install.develop(
            ...   extdemo, dest,
            ...   {'include-dirs': os.path.join(sample_buildout, 'include')})
            '/sample-install/extdemo.egg-link'
        
        The name of the egg link created is returned.
        
        Now if we look in our destination directory, we see we have an extdemo
        egg link:
        
            >>> ls(dest)
            d  extdemo-1.4-py2.4-unix-i686.egg
            -  extdemo.egg-link
        
        And that the source directory contains the compiled extension:
        
            >>> ls(extdemo)
            -  MANIFEST
            -  MANIFEST.in
            -  README
            d  build
            -  extdemo.c
            d  extdemo.egg-info
            -  extdemo.so
            -  setup.py
        
        Download cache
        --------------
        
        Normally, when distributions are installed, if any processing is
        needed, they are downloaded from the internet to a temporary directory
        and then installed from there.  A download cache can be used to avoid
        the download step.  This can be useful to reduce network access and to
        create source distributions of an entire buildout.
        
        A download cache is specified by calling the download_cache
        function.  The function always returns the previous setting. If no
        argument is passed, then the setting is unchanged.  If an argument is
        passed, the download cache is set to the given path, which must point
        to an existing directory.  Passing None clears the cache setting.
        
        To see this work, we'll create a directory and set it as the cache
        directory:
        
            >>> cache = tmpdir('cache')
            >>> zc.buildout.easy_install.download_cache(cache)
        
        We'll recreate our destination directory:
        
            >>> remove(dest)
            >>> dest = tmpdir('sample-install')
        
        We'd like to see what is being fetched from the server, so we'll
        enable server logging:
        
            >>> get(link_server+'enable_server_logging')
            GET 200 /enable_server_logging
            ''
        
        Now, if we install demo, and extdemo:
        
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo==0.2'], dest,
            ...     links=[link_server], index=link_server+'index/',
            ...     always_unzip=True)
            GET 200 /
            GET 404 /index/demo/
            GET 200 /index/
            GET 200 /demo-0.2-py2.4.egg
            GET 404 /index/demoneeded/
            GET 200 /demoneeded-1.1.zip
        
            >>> zc.buildout.easy_install.build(
            ...   'extdemo', dest,
            ...   {'include-dirs': os.path.join(sample_buildout, 'include')},
            ...   links=[link_server], index=link_server+'index/')
            GET 404 /index/extdemo/
            GET 200 /extdemo-1.5.zip
            ['/sample-install/extdemo-1.5-py2.4-linux-i686.egg']
        
        Not only will we get eggs in our destination directory:
        
            >>> ls(dest)
            d  demo-0.2-py2.4.egg
            d  demoneeded-1.1-py2.4.egg
            d  extdemo-1.5-py2.4-linux-i686.egg
        
        But we'll get distributions in the cache directory:
        
            >>> ls(cache)
            -  demo-0.2-py2.4.egg
            -  demoneeded-1.1.zip
            -  extdemo-1.5.zip
        
        The cache directory contains uninstalled distributions, such as zipped
        eggs or source distributions.
        
        Let's recreate our destination directory and clear the index cache:
        
            >>> remove(dest)
            >>> dest = tmpdir('sample-install')
            >>> zc.buildout.easy_install.clear_index_cache()
        
        Now when we install the distributions:
        
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo==0.2'], dest,
            ...     links=[link_server], index=link_server+'index/',
            ...     always_unzip=True)
            GET 200 /
            GET 404 /index/demo/
            GET 200 /index/
            GET 404 /index/demoneeded/
        
            >>> zc.buildout.easy_install.build(
            ...   'extdemo', dest,
            ...   {'include-dirs': os.path.join(sample_buildout, 'include')},
            ...   links=[link_server], index=link_server+'index/')
            GET 404 /index/extdemo/
            ['/sample-install/extdemo-1.5-py2.4-linux-i686.egg']
        
            >>> ls(dest)
            d  demo-0.2-py2.4.egg
            d  demoneeded-1.1-py2.4.egg
            d  extdemo-1.5-py2.4-linux-i686.egg
        
        Note that we didn't download the distributions from the link server.
        
        If we remove the restriction on demo, we'll download a newer version
        from the link server:
        
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], dest,
            ...     links=[link_server], index=link_server+'index/',
            ...     always_unzip=True)
            GET 200 /demo-0.3-py2.4.egg
        
        Normally, the download cache is the preferred source of downloads, but
        not the only one.
        
        Installing solely from a download cache
        ---------------------------------------
        
        A download cache can be used as the basis of application source
        releases.  In an application source release, we want to distribute an
        application that can be built without making any network accesses.  In
        this case, we distribute a download cache and tell the easy_install
        module to install from the download cache only, without making network
        accesses.  The install_from_cache function can be used to signal that
        packages should be installed only from the download cache.  The
        function always returns the previous setting.  Calling it with no
        arguments returns the current setting without changing it:
        
            >>> zc.buildout.easy_install.install_from_cache()
            False
        
        Calling it with a boolean value changes the setting and returns the
        previous setting:
        
            >>> zc.buildout.easy_install.install_from_cache(True)
            False
        
        Let's remove demo-0.3-py2.4.egg from the cache, clear the index cache,
        recreate the destination directory, and reinstall demo:
        
            >>> for  f in os.listdir(cache):
            ...     if f.startswith('demo-0.3-'):
            ...         remove(cache, f)
        
            >>> zc.buildout.easy_install.clear_index_cache()
            >>> remove(dest)
            >>> dest = tmpdir('sample-install')
        
            >>> ws = zc.buildout.easy_install.install(
            ...     ['demo'], dest,
            ...     links=[link_server], index=link_server+'index/',
            ...     always_unzip=True)
        
            >>> ls(dest)
            d  demo-0.2-py2.4.egg
            d  demoneeded-1.1-py2.4.egg
        
        This time, we didn't download from or even query the link server.
        
        .. Disable the download cache:
        
            >>> zc.buildout.easy_install.download_cache(None)
            '/cache'
        
            >>> zc.buildout.easy_install.install_from_cache(False)
            True
        
        Distribute Support
        ==================
        
        Distribute is a drop-in replacement for Setuptools.
        
        zc.buildout is now compatible with Distribute 0.6. To use Distribute in your
        buildout, you need use the ``--distribute`` option of the ``bootstrap.py``
        script::
        
            $ python bootstrap.py --distribute
        
        This will download and install the latest Distribute 0.6 release in the
        ``eggs`` directory, and use this version for the scripts that are created
        in ``bin``.
        
        Notice that if you have a shared eggs directory, a buildout that uses 
        Distribute will not interfer with other buildouts that are based on Setuptools
        and that are sharing the same eggs directory.
        
        Form more information about the Distribute project, see:
        http://python-distribute.org
        
        
        
        Change History
        **************
        
        1.5.2 (2010-10-11)
        ==================
        
        - changed metadata 'url' to pypi.python.org in order to solve
          a temporary outage of buildout.org
        
        - IMPORTANT: For better backwards compatibility with the pre-1.5 line,
          this release has two big changes from 1.5.0 and 1.5.1.
        
          - Buildout defaults to including site packages.
        
          - Buildout loads recipes and extensions with the same constraints to
            site-packages that it builds eggs, instead of never allowing access
            to site-packages.
        
          This means that the default configuration should better support
          pre-existing use of system Python in recipes or builds.
        
        - To make it easier to detect the fact that buildout has set the PYTHONPATH,
          BUILDOUT_ORIGINAL_PYTHONPATH is always set in the environment, even if
          PYTHONPATH was not originally set.  BUILDOUT_ORIGINAL_PYTHONPATH will
          be an empty string if PYTHONPATH was not set.
        
        1.5.1 (2010-08-29)
        ==================
        
        New features:
        
        - Scripts store the old PYTHONPATH in BUILDOUT_ORIGINAL_PYTHONPATH if it
          existed, and store nothing in the value if it did not exist.  This allows
          code that does not want subprocesses to have the system-Python-protected
          site.py to set the environment of the subprocess as it was originally.
        
        Bugs fixed:
        
        - https://bugs.launchpad.net/bugs/623590 : If include-site-packages were
          true and versions were not set explicitly, system eggs were preferred
          over newer released eggs.  Fixed.
        
        1.5.0 (2010-08-23)
        ==================
        
        New features:
        
        - zc.buildout supports Python 2.7.
        
        - By default, Buildout and the bootstrap script now prefer final versions of
          Buildout, recipes, and extensions.  This can be changed by using the
          --accept-buildout-test-releases flag (or -t for short) when calling
          bootstrap.  This will hopefully allow beta releases of these items to
          be more easily and safely made in the future.
        
          NOTE: dependencies of your own software are not affected by this new
          behavior. Buildout continues to choose the newest available versions
          of your dependencies regardless of whether they are final releases. To
          prevent this, use the pre-existing switch ``prefer-final = true`` in
          the [buildout] section of your configuration file (see
          http://pypi.python.org/pypi/zc.buildout#preferring-final-releases) or
          pin your versions using a versions section (see
          http://pypi.python.org/pypi/zc.buildout#repeatable-buildouts-controlling-eggs-used).
        
        Bugs fixed:
        
        - You can now again use virtualenv with Buildout.  The new features to let
          buildout be used with a system Python are disabled in this configuration,
          and the previous script generation behavior (1.4.3) is used, even if
          the new function ``zc.buildout.easy_install.sitepackage_safe_scripts``
          is used.
        
        1.5.0b2 (2010-04-29)
        ====================
        
        This was a re-release of 1.4.3 in order to keep 1.5.0b1 release from hurting
        workflows that combined virtualenv with zc.buildout.
        
        1.5.0b1 (2010-04-29)
        ====================
        
        New Features:
        
        - Added buildout:socket-timout option so that socket timeout can be configured
          both from command line and from config files. (gotcha)
        
        - Buildout can be safely used with a system Python (or any Python with code
          in site-packages), as long as you use (1) A fresh checkout, (2) the
          new bootstrap.py, and (3) recipes that use the new
          ``zc.buildout.easy_install.sitepackage_safe_scripts`` function to generate
          scripts and interpreters.  Many recipes will need to be updated to use
          this new function.  The scripts and interpreters generated by
          ``zc.recipe.egg`` will continue to use the older function, not safe
          with system Pythons.  Use the ``z3c.recipe.scripts`` as a replacement.
        
          zc.recipe.egg is still a fully supported, and simpler, way of
          generating scripts and interpreters if you are using a "clean" Python,
          without code installed in site-packages. It keeps its previous behavior in
          order to provide backwards compatibility.
        
          The z3c.recipe.scripts recipe allows you to control how you use the
          code in site-packages.  You can exclude it entirely (preferred); allow
          eggs in it to fulfill package dependencies declared in setup.py and
          buildout configuration; allow it to be available but not used to
          fulfill dependencies declared in setup.py or buildout configuration;
          or only allow certain eggs in site-packages to fulfill dependencies.
        
        - Added new function, ``zc.buildout.easy_install.sitepackage_safe_scripts``,
          to generate scripts and interpreter.  It produces a full-featured
          interpreter (all command-line options supported) and the ability to
          safely let scripts include site packages, such as with a system
          Python.  The ``z3c.recipe.scripts`` recipe uses this new function.
        
        - Improve bootstrap.
        
          * New options let you specify where to find ez_setup.py and where to find
            a download cache.  These options can keep bootstrap from going over the
            network.
        
          * Another new option lets you specify where to put generated eggs.
        
          * The buildout script generated by bootstrap honors more of the settings
            in the designated configuration file (e.g., buildout.cfg).
        
          * Correctly handle systems where pkg_resources is present but the rest of
            setuptools is missing (like Ubuntu installs).
            https://bugs.launchpad.net/zc.buildout/+bug/410528
        
        - You can develop zc.buildout using Distribute instead of Setuptools.  Use
          the --distribute option on the dev.py script.  (Releases should be tested
          with both Distribute and Setuptools.)  The tests for zc.buildout pass
          with Setuptools and Python 2.4, 2.5, 2.6, and 2.7; and with Distribute and
          Python 2.5, 2.6, and 2.7.  Using zc.buildout with Distribute and Python 2.4
          is not recommended.
        
        - The ``distribute-version`` now works in the [buildout] section, mirroring
          the ``setuptools-version`` option (this is for consistency; using the
          general-purpose ``versions`` option is preferred).
        
        Bugs fixed:
        
        - Using Distribute with the ``allow-picked-versions = false`` buildout
          option no longer causes an error.
        
        - The handling and documenting of default buildout options was normalized.
          This means, among other things, that ``bin/buildout -vv`` and
          ``bin/buildout annotate`` correctly list more of the options.
        
        - Installing a namespace package using a Python that already has a package
          in the same namespace (e.g., in the Python's site-packages) failed in
          some cases.  It is now handled correctly.
        
        - Another variation of this error showed itself when at least two
          dependencies were in a shared location like site-packages, and the
          first one met the "versions" setting.  The first dependency would be
          added, but subsequent dependencies from the same location (e.g.,
          site-packages) would use the version of the package found in the
          shared location, ignoring the version setting.  This is also now
          handled correctly.
        
        1.4.3 (2009-12-10)
        ==================
        
        Bugs fixed:
        
        - Using pre-detected setuptools version for easy_installing tgz files.  This
          prevents a recursion error when easy_installing an upgraded "distribute"
          tgz.  Note that setuptools did not have this recursion problem solely
          because it was packaged as an ``.egg``, which does not have to go through
          the easy_install step.
        
        
        1.4.2 (2009-11-01)
        ==================
        
        New Feature:
        
        - Added a --distribute option to the bootstrap script, in order
          to use Distribute rather than Setuptools. By default, Setuptools
          is used.
        
        Bugs fixed:
        
        - While checking for new versions of setuptools and buildout itself,
          compare requirement locations instead of requirement objects.
        
        - Incrementing didn't work properly when extending multiple files.
          https://bugs.launchpad.net/zc.buildout/+bug/421022
        
        - The download API computed MD5 checksums of text files wrong on Windows.
        
        1.4.1 (2009-08-27)
        ==================
        
        New Feature:
        
        - Added a debug built-in recipe to make writing some tests easier.
        
        Bugs fixed:
        
        - (introduced in 1.4.0) option incrementing (-=) and decrementing (-=)
          didn't work in the buildout section.
          https://bugs.launchpad.net/zc.buildout/+bug/420463
        
        - Option incrementing and decrementing didn't work for options
          specified on the command line.
        
        - Scripts generated with relative-paths enabled couldn't be
          symbolically linked to other locations and still work.
        
        - Scripts run using generated interpreters didn't have __file__ set correctly.
        
        - The standard Python -m option didn't work for custom interpreters.
        
        1.4.0 (2009-08-26)
        ==================
        
        - When doing variable substitutions, you can omit the section name to
          refer to a variable in the same section (e.g. ${:foo}).
        
        - When doing variable substitution, you can use the special option,
          ``_buildout_section_name_`` to get the section name.  This is most handy
          for getting the current section name (e.g. ${:_buildout_section_name_}).
        
        - A new special option, ``<`` allows sections to be used as macros.
        
        - Added annotate command for annotated sections. Displays sections
          key-value pairs along with the value origin.
        
        - Added a download API that handles the download cache, offline mode etc and
          is meant to be reused by recipes.
        
        - Used the download API to allow caching of base configurations (specified by
          the buildout section's 'extends' option).
        
        1.3.1 (2009-08-12)
        ==================
        
        - Bug fixed: extras were ignored in some cases when versions were specified.
        
        1.3.0 (2009-06-22)
        ==================
        
        - Better Windows compatibility in test infrastructure.
        
        - Now the bootstrap.py has an optional --version argument,
          that can be used to force zc.buildout version to use.
        
        - ``zc.buildout.testing.buildoutSetUp`` installs a new handler in the
          python root logging facility. This handler is now removed during
          tear down as it might disturb other packages reusing buildout's
          testing infrastructure.
        
        - fixed usage of 'relative_paths' keyword parameter on Windows
        
        - Added an unload entry point for extensions.
        
        - Fixed bug: when the relative paths option was used, relative paths
          could be inserted into sys.path if a relative path was used to run
          the generated script.
        
        1.2.1 (2009-03-18)
        ==================
        
        - Refactored generation of relative egg paths to generate simpler code.
        
        1.2.0 (2009-03-17)
        ==================
        
        - Added a relative_paths option to zc.buildout.easy_install.script to
          generate egg paths relative to the script they're used in.
        
        1.1.2 (2009-03-16)
        ==================
        
        - Added Python 2.6 support. Removed Python 2.3 support.
        
        - Fixed remaining deprecation warnings under Python 2.6, both when running
          our tests and when using the package.
        
        - Switched from using os.popen* to subprocess.Popen, to avoid a deprecation
          warning in Python 2.6.  See:
        
          http://docs.python.org/library/subprocess.html#replacing-os-popen-os-popen2-os-popen3
        
        - Made sure the 'redo_pyc' function and the doctest checkers work with Python
          executable paths containing spaces.
        
        - Expand shell patterns when processing the list of paths in `develop`, e.g::
        
            [buildout]
            develop = ./local-checkouts/*
        
        - Conditionally import and use hashlib.md5 when it's available instead
          of md5 module, which is deprecated in Python 2.6.
        
        - Added Jython support for bootstrap, development bootstrap
          and zc.buildout support on Jython
        
        - Fixed a bug that would cause buildout to break while computing a
          directory hash if it found a broken symlink (Launchpad #250573)
        
        1.1.1 (2008-07-28)
        ==================
        
        - Fixed a bug that caused buildouts to fail when variable
          substitutions are used to name standard directories, as in::
        
            [buildout]
            eggs-directory = ${buildout:directory}/develop-eggs
        
        1.1.0 (2008-07-19)
        ==================
        
        - Added a buildout-level unzip option tp change the default policy for
          unzipping zip-safe eggs.
        
        - Tracebacks are now printed for internal errors (as opposed to user
          errors) even without the -D option.
        
        - pyc and pyo files are regenerated for installed eggs so that the
          stored path in code objects matches the the install location.
        
        1.0.6 (2008-06-13)
        ==================
        
        - Manually reverted the changeset for the fix for
          https://bugs.launchpad.net/zc.buildout/+bug/239212 to verify thet the test
          actually fails with the changeset:
          http://svn.zope.org/zc.buildout/trunk/src/zc/buildout/buildout.py?rev=87309&r1=87277&r2=87309
          Thanks tarek for pointing this out. (seletz)
        
        - fixed the test for the += -= syntax in buildout.txt as the test
          was actually wronng. The original implementation did a split/join
          on whitespace, and later on that was corrected to respect the original
          EOL setting, the test was not updated, though. (seletz)
        
        - added a test to verify against https://bugs.launchpad.net/zc.buildout/+bug/239212
          in allowhosts.txt (seletz)
        
        - further fixes for """AttributeError: Buildout instance has no
          attribute '_logger'""" by providing reasonable defaults
          within the Buildout constructor (related to the new 'allow-hosts' option)
          (patch by Gottfried Ganssauge) (ajung)
        
        
        1.0.5 (2008-06-10)
        ==================
        
        - Fixed wrong split when using the += and -= syntax (mustapha)
        
        1.0.4 (2008-06-10)
        ==================
        
        - Added the `allow-hosts` option (tarek)
        
        - Quote the 'executable' argument when trying to detect the python
          version using popen4. (sidnei)
        
        - Quote the 'spec' argument, as in the case of installing an egg from
          the buildout-cache, if the filename contains spaces it would fail (sidnei)
        
        - Extended configuration syntax to allow -= and += operators (malthe, mustapha).
        
        1.0.3 (2008-06-01)
        ==================
        
        - fix for """AttributeError: Buildout instance has no attribute '_logger'"""
          by providing reasonable defaults within the Buildout constructor.
          (patch by Gottfried Ganssauge) (ajung)
        
        1.0.2 (2008-05-13)
        ==================
        
        - More fixes for Windows. A quoted sh-bang is now used on Windows to make the
          .exe files work with a Python executable in 'program files'.
        
        - Added "-t <timeout_in_seconds>" option for specifying the socket timeout.
          (ajung)
        
        1.0.1 (2008-04-02)
        ==================
        
        - Made easy_install.py's _get_version accept non-final releases of Python,
          like 2.4.4c0. (hannosch)
        
        - Applied various patches for Windows (patch by Gottfried Ganssauge). (ajung)
        
        - Applied patch fixing rmtree issues on Windows (patch by
          Gottfried Ganssauge).  (ajung)
        
        1.0.0 (2008-01-13)
        ==================
        
        - Added a French translation of the buildout tutorial.
        
        1.0.0b31 (2007-11-01)
        =====================
        
        Feature Changes
        ---------------
        
        - Added a configuration option that allows buildouts to ignore
          dependency_links metadata specified in setup. By default
          dependency_links in setup are used in addition to buildout specified
          find-links. This can make it hard to control where eggs come
          from. Here's how to tell buildout to ignore URLs in
          dependency_links::
        
            [buildout]
            use-dependency-links = false
        
          By default use-dependency-links is true, which matches the behavior
          of previous versions of buildout.
        
        - Added a configuration option that causes buildout to error if a
          version is picked. This is a nice safety belt when fixing all
          versions is intended, especially when creating releases.
        
        Bugs Fixed
        ----------
        
        - 151820: Develop failed if the setup.py script imported modules in
          the distribution directory.
        
        - Verbose logging of the develop command was omitting detailed
          output.
        
        - The setup command wasn't documented.
        
        - The setup command failed if run in a directory without specifying a
          configuration file.
        
        - The setup command raised a stupid exception if run without arguments.
        
        - When using a local find links or index, distributions weren't copied
          to the download cache.
        
        - When installing from source releases, a version specification (via a
          buildout versions section) for setuptools was ignored when deciding
          which setuptools to use to build an egg from the source release.
        
        1.0.0b30 (2007-08-20)
        =====================
        
        Feature Changes
        ---------------
        
        - Changed the default policy back to what it was to avoid breakage in
          existing buildouts.  Use::
        
            [buildout]
            prefer-final = true
        
          to get the new policy.  The new policy will go into effect in
          buildout 2.
        
        1.0.0b29 (2007-08-20)
        =====================
        
        Feature Changes
        ---------------
        
        - Now, final distributions are prefered over non-final versions.  If
          both final and non-final versions satisfy a requirement, then the
          final version will be used even if it is older.  The normal way to
          override this for specific packages is to specifically require a
          non-final version, either specifically or via a lower bound.
        
        - There is a buildout prefer-final version that can be used with a
          value of "false"::
        
            prefer-final = false
        
          To prefer newer versions, regardless of whether or not they are
          final, buildout-wide.
        
        - The new simple Python index, http://cheeseshop.python.org/simple, is
          used as the default index.  This will provide better performance
          than the human package index interface,
          http://pypi.python.org/pypi. More importantly, it lists hidden
          distributions, so buildouts with fixed distribution versions will be
          able to find old distributions even if the distributions have been
          hidden in the human PyPI interface.
        
        Bugs Fixed
        ----------
        
        - 126441: Look for default.cfg in the right place on Windows.
        
        1.0.0b28 (2007-07-05)
        =====================
        
        Bugs Fixed
        ----------
        
        - When requiring a specific version, buildout looked for new versions
          even if that single version was already installed.
        
        1.0.0b27 (2007-06-20)
        =====================
        
        Bugs Fixed
        ----------
        
        - Scripts were generated incorrectly on Windows.  This included the
          buildout script itself, making buildout completely unusable.
        
        1.0.0b26 (2007-06-19)
        =====================
        
        Feature Changes
        ---------------
        
        - Thanks to recent fixes in setuptools, I was able to change buildout
          to use find-link and index information when searching extensions.
        
          Sadly, this work, especially the timing, was motivated my the need
          to use alternate indexes due to performance problems in the cheese
          shop (http://www.python.org/pypi/).  I really home we can address
          these performance problems soon.
        
        1.0.0b25 (2007-05-31)
        =====================
        
        Feature Changes
        ---------------
        
        - buildout now changes to the buildout directory before running recipe
          install and update methods.
        
        - Added a new init command for creating a new buildout. This creates
          an empty configuration file and then bootstraps.
        
        - Except when using the new init command, it is now an error to run
          buildout without a configuration file.
        
        - In verbose mode, when adding distributions to fulful requirements of
          already-added distributions, we now show why the new distributions
          are being added.
        
        - Changed the logging format to exclude the logger name for the
          zc.buildout logger.  This reduces noise in the output.
        
        - Clean up lots of messages, adding missing periods and adding quotes around
          requirement strings and file paths.
        
        Bugs Fixed
        ----------
        
        - 114614: Buildouts could take a very long time if there were
          dependency problems in large sets of pathologically interdependent
          packages.
        
        - 59270: Buggy recipes can cause failures in later recipes via chdir
        
        - 61890: file:// urls don't seem to work in find-links
        
          setuptools requires that file urls that point to directories must
          end in a "/".  Added a workaround.
        
        - 75607: buildout should not run if it creates an empty buildout.cfg
        
        1.0.0b24 (2007-05-09)
        =====================
        
        Feature Changes
        ---------------
        
        - Improved error reporting by showing which packages require other
          packages that can't be found or that cause version conflicts.
        
        - Added an API for use by recipe writers to clean up created files
          when recipe errors occur.
        
        - Log installed scripts.
        
        Bugs Fixed
        ----------
        
        - 92891: bootstrap crashes with recipe option in buildout section.
        
        - 113085: Buildout exited with a zero exist status when internal errors
          occurred.
        
        
        1.0.0b23 (2007-03-19)
        =====================
        
        Feature Changes
        ---------------
        
        - Added support for download caches.  A buildout can specify a cache
          for distribution downloads.  The cache can be shared among buildouts
          to reduce network access and to support creating source
          distributions for applications allowing install without network
          access.
        
        - Log scripts created, as suggested in:
          https://bugs.launchpad.net/zc.buildout/+bug/71353
        
        Bugs Fixed
        ----------
        
        - It wasn't possible to give options on the command line for sections
          not defined in a configuration file.
        
        1.0.0b22 (2007-03-15)
        =====================
        
        Feature Changes
        ---------------
        
        - Improved error reporting and debugging support:
        
          - Added "logical tracebacks" that show functionally what the buildout
            was doing when an error occurs.  Don't show a Python traceback
            unless the -D option is used.
        
          - Added a -D option that causes the buildout to print a traceback and
            start the pdb post-mortem debugger when an error occurs.
        
          - Warnings are printed for unused options in the buildout section and
            installed-part sections.  This should make it easier to catch option
            misspellings.
        
        - Changed the way the installed database (.installed.cfg) is handled
          to avoid database corruption when a user breaks out of a buildout
          with control-c.
        
        - Don't save an installed database if there are no installed parts or
          develop egg links.
        
        1.0.0b21 (2007-03-06)
        =====================
        
        Feature Changes
        ---------------
        
        - Added support for repeatable buildouts by allowing egg versions to
          be specified in a versions section.
        
        - The easy_install module install and build functions now accept a
          versions argument that supplied to mapping from project name to
          version numbers.  This can be used to fix version numbers for
          required distributions and their depenencies.
        
          When a version isn't fixed, using either a versions option or using
          a fixed version number in a requirement, then a debug log message is
          emitted indicating the version picked.  This is useful for setting
          versions options.
        
          A default_versions function can be used to set a default value for
          this option.
        
        - Adjusted the output for verbosity levels.  Using a single -v option
          no longer causes voluminous setuptools output.  Uisng -vv and -vvv
          now triggers extra setuptools output.
        
        - Added a remove testing helper function that removes files or directories.
        
        1.0.0b20 (2007-02-08)
        =====================
        
        Feature Changes
        ---------------
        
        - Added a buildout newest option, to control whether the newest
          distributions should be sought to meet requirements.  This might
          also provide a hint to recipes that don't deal with
          distributions. For example, a recipe that manages subversion
          checkouts might not update a checkout if newest is set to "false".
        
        - Added a *newest* keyword parameter to the
          zc.buildout.easy_install.install and zc.buildout.easy_install.build
          functions to control whether the newest distributions that meed
          given requirements should be sought.  If a false value is provided
          for this parameter and already installed eggs meet the given
          requirements, then no attempt will be made to search for newer
          distributions.
        
        - The recipe-testing support setUp function now adds the name
          *buildout* to the test namespace with a value that is the path to
          the buildout script in the sample buildout.  This allows tests to
          use
        
            >>> print system(buildout),
        
          rather than:
        
            >>> print system(join('bin', 'buildout')),
        
        
        Bugs Fixed
        ----------
        
        - Paths returned from update methods replaced lists of installed files
          rather than augmenting them.
        
        1.0.0b19 (2007-01-24)
        =====================
        
        Bugs Fixed
        ----------
        
        - Explicitly specifying a Python executable failed if the output of
          running Python with the -V option included a 2-digit (rather than a
          3-digit) version number.
        
        1.0.0b18 (2007-01-22)
        =====================
        
        Feature Changes
        ---------------
        
        - Added documentation for some previously undocumented features of the
          easy_install APIs.
        
        - By popular demand, added a -o command-line option that is a short
          hand for the assignment buildout:offline=true.
        
        Bugs Fixed
        ----------
        
        - When deciding whether recipe develop eggs had changed, buildout
          incorrectly considered files in .svn and CVS directories.
        
        1.0.0b17 (2006-12-07)
        =====================
        
        Feature Changes
        ---------------
        
        - Configuration files can now be loaded from URLs.
        
        Bugs Fixed
        ----------
        
        - https://bugs.launchpad.net/products/zc.buildout/+bug/71246
        
          Buildout extensions installed as eggs couldn't be loaded in offline
          mode.
        
        
        1.0.0b16 (2006-12-07)
        =====================
        
        Feature Changes
        ---------------
        
        - A new command-line argument, -U, suppresses reading user defaults.
        
        - You can now suppress use of an installed-part database
          (e.g. .installed.cfg) by sprifying an empty value for the buildout
          installed option.
        
        Bugs Fixed
        ----------
        
        - When the install command is used with a list of parts, only
          those parts are supposed to be installed, but the buildout was also
          building parts that those parts depended on.
        
        1.0.0b15 (2006-12-06)
        =====================
        
        Bugs Fixed
        ----------
        
        - Uninstall recipes weren't loaded correctly in cases where
          no parts in the (new) configuration used the recipe egg.
        
        1.0.0b14 (2006-12-05)
        =====================
        
        Feature Changes
        ---------------
        
        - Added uninstall recipes for dealing with complex uninstallation
          scenarios.
        
        Bugs Fixed
        ----------
        
        - Automatic upgrades weren't performed on Windows due to a bug that
          caused buildout to incorrectly determine that it wasn't running
          locally in a buildout.
        
        - Fixed some spurious test failures on Windows.
        
        1.0.0b13 (2006-12-04)
        =====================
        
        Feature Changes
        ---------------
        
        - Variable substitutions now reflect option data written by recipes.
        
        - A part referenced by a part in a parts list is now added to the parts
          list before the referencing part.  This means that you can omit
          parts from the parts list if they are referenced by other parts.
        
        - Added a develop function to the easy_install module to aid in
          creating develop eggs with custom build_ext options.
        
        - The build and develop functions in the easy_install module now
          return the path of the egg or egg link created.
        
        - Removed the limitation that parts named in the install command can
          only name configured parts.
        
        - Removed support ConfigParser-style variable substitutions
          (e.g. %(foo)s). Only the string-template style of variable
          (e.g. ${section:option}) substitutions will be supported.
          Supporting both violates "there's only one way to do it".
        
        - Deprecated the buildout-section extendedBy option.
        
        Bugs Fixed
        ----------
        
        - We treat setuptools as a dependency of any distribution that
          (declares that it) uses namespace packages, whether it declares
          setuptools as a dependency or not.  This wasn't working for eggs
          intalled by virtue of being dependencies.
        
        
        1.0.0b12 (2006-10-24)
        =====================
        
        Feature Changes
        ---------------
        
        - Added an initialization argument to the
          zc.buildout.easy_install.scripts function to include initialization
          code in generated scripts.
        
        1.0.0b11 (2006-10-24)
        =====================
        
        Bugs Fixed
        ----------
        
        `67737 <https://launchpad.net/products/zc.buildout/+bug/67737>`_
             Verbose and quite output options caused errors when the
             develop buildout option was used to create develop eggs.
        
        `67871 <https://launchpad.net/products/zc.buildout/+bug/67871>`_
             Installation failed if the source was a (local) unzipped
             egg.
        
        `67873 <https://launchpad.net/products/zc.buildout/+bug/67873>`_
             There was an error in producing an error message when part names
             passed to the install command weren't included in the
             configuration.
        
        1.0.0b10 (2006-10-16)
        =====================
        
        Feature Changes
        ---------------
        
        - Renamed the runsetup command to setup. (The old name still works.)
        
        - Added a recipe update method. Now install is only called when a part
          is installed for the first time, or after an uninstall. Otherwise,
          update is called.  For backward compatibility, recipes that don't
          define update methiods are still supported.
        
        - If a distribution defines namespace packages but fails to declare
          setuptools as one of its dependencies, we now treat setuptools as an
          implicit dependency.  We generate a warning if the distribution
          is a develop egg.
        
        - You can now create develop eggs for setup scripts that don't use setuptools.
        
        Bugs Fixed
        ----------
        
        - Egg links weren't removed when corresponding entries were removed
          from develop sections.
        
        - Running a non-local buildout command (one not installed in the
          buildout) ket to a hang if there were new versions of zc.buildout or
          setuptools were available.  Now we issue a warning and don't
          upgrade.
        
        - When installing zip-safe eggs from local directories, the eggs were
          moved, rather than copied, removing them from the source directory.
        
        1.0.0b9 (2006-10-02)
        ====================
        
        Bugs Fixed
        ----------
        
        Non-zip-safe eggs were not unzipped when they were installed.
        
        1.0.0b8 (2006-10-01)
        ====================
        
        Bugs Fixed
        ----------
        
        - Installing source distributions failed when using alternate Python
          versions (depending on the versions of Python used.)
        
        - Installing eggs wasn't handled as efficiently as possible due to a
          bug in egg URL parsing.
        
        - Fixed a bug in runsetup that caused setup scripts that introspected
          __file__ to fail.
        
        1.0.0b7
        =======
        
        Added a documented testing framework for use by recipes. Refactored
        the buildout tests to use it.
        
        Added a runsetup command run a setup script.  This is handy if, like
        me, you don't install setuptools in your system Python.
        
        1.0.0b6
        =======
        
        Fixed https://launchpad.net/products/zc.buildout/+bug/60582
        Use of extension options caused bootstrapping to fail if the eggs
        directory didn't already exist.  We no longer use extensions for
        bootstrapping.  There really isn't any reason to anyway.
        
        
        1.0.0b5
        =======
        
        Refactored to do more work in buildout and less work in easy_install.
        This makes things go a little faster, makes errors a little easier to
        handle, and allows extensions (like the sftp extension) to influence
        more of the process. This was done to fix a problem in using the sftp
        support.
        
        1.0.0b4
        =======
        
        - Added an **experimental** extensions mechanism, mainly to support
          adding sftp support to buildouts that need it.
        
        - Fixed buildout self-updating on Windows.
        
        1.0.0b3
        =======
        
        - Added a help option (-h, --help)
        
        - Increased the default level of verbosity.
        
        - Buildouts now automatically update themselves to new versions of
          zc.buildout and setuptools.
        
        - Added Windows support.
        
        - Added a recipe API for generating user errors.
        
        - No-longer generate a py_zc.buildout script.
        
        - Fixed some bugs in variable substitutions.
        
          The characters "-", "." and " ", weren't allowed in section or
          option names.
        
          Substitutions with invalid names were ignored, which caused
          missleading failures downstream.
        
        - Improved error handling.  No longer show tracebacks for user errors.
        
        - Now require a recipe option (and therefore a section) for every part.
        
        - Expanded the easy_install module API to:
        
          - Allow extra paths to be provided
        
          - Specify explicit entry points
        
          - Specify entry-point arguments
        
        1.0.0b2
        =======
        
        Added support for specifying some build_ext options when installing eggs
        from source distributions.
        
        1.0.0b1
        =======
        
        - Changed the bootstrapping code to only install setuptools and
          zc.buildout. The bootstrap code no-longer runs the buildout itself.
          This was to fix a bug that caused parts to be recreated
          unnecessarily because the recipe signature in the initial buildout
          reflected temporary locations for setuptools and zc.buildout.
        
        - Now create a minimal setup.py if it doesn't exist and issue a
          warning that it is being created.
        
        - Fixed bug in saving installed configuration data.  %'s and extra
          spaces weren't quoted.
        
        1.0.0a1
        =======
        
        Initial public version
        
        Download
        **********************
        
Keywords: development build
Platform: UNKNOWN
Classifier: Intended Audience :: Developers
Classifier: License :: OSI Approved :: Zope Public License
Classifier: Topic :: Software Development :: Build Tools
Classifier: Topic :: Software Development :: Libraries :: Python Modules