:command:`virtualenv [OPTIONS] ENV_DIR`
Where ENV_DIR
is an absolute or relative path to a directory to create
the virtual environment in.
.. option:: --version show program's version number and exit
.. option:: -h, --help show this help message and exit
.. option:: -v, --verbose Increase verbosity.
.. option:: -q, --quiet Decrease verbosity.
.. option:: -p PYTHON_EXE, --python=PYTHON_EXE The Python interpreter to use, e.g., --python=python2.5 will use the python2.5 interpreter to create the new environment. The default is the interpreter that virtualenv was installed with (like ``/usr/bin/python``)
.. option:: --clear Clear out the non-root install and start from scratch.
.. option:: --system-site-packages Give the virtual environment access to the global site-packages.
.. option:: --always-copy Always copy files rather than symlinking.
.. option:: --relocatable Make an EXISTING virtualenv environment relocatable. This fixes up scripts and makes all .pth files relative.
.. option:: --unzip-setuptools Unzip Setuptools when installing it.
.. option:: --no-setuptools Do not install setuptools in the new virtualenv.
.. option:: --no-pip Do not install pip in the new virtualenv.
.. option:: --no-wheel Do not install wheel in the new virtualenv.
.. option:: --extra-search-dir=DIR Directory to look for setuptools/pip distributions in. This option can be specified multiple times.
.. option:: --prompt=PROMPT Provides an alternative prompt prefix for this environment.
.. option:: --download Download preinstalled packages from PyPI.
.. option:: --no-download Do not download preinstalled packages from PyPI.
.. option:: --no-site-packages DEPRECATED. Retained only for backward compatibility. Not having access to global site-packages is now the default behavior.
.. option:: --distribute
.. option:: --setuptools Legacy; now have no effect. Before version 1.10 these could be used to choose whether to install Distribute_ or Setuptools_ into the created virtualenv. Distribute has now been merged into Setuptools, and the latter is always installed.
Each command line option is automatically used to look for environment
variables with the name format VIRTUALENV_<UPPER_NAME>
. That means
the name of the command line options are capitalized and have dashes
('-'
) replaced with underscores ('_'
).
For example, to automatically use a custom Python binary instead of the one virtualenv is run with you can also set an environment variable:
$ export VIRTUALENV_PYTHON=/opt/python-3.3/bin/python $ virtualenv ENV
It's the same as passing the option to virtualenv directly:
$ virtualenv --python=/opt/python-3.3/bin/python ENV
This also works for appending command line options, like --find-links
.
Just leave an empty space between the passed values, e.g.:
$ export VIRTUALENV_EXTRA_SEARCH_DIR="/path/to/dists /path/to/other/dists" $ virtualenv ENV
is the same as calling:
$ virtualenv --extra-search-dir=/path/to/dists --extra-search-dir=/path/to/other/dists ENV
.. envvar:: VIRTUAL_ENV_DISABLE_PROMPT Any virtualenv created when this is set to a non-empty value will not have it's :ref:`activate` modify the shell prompt.
virtualenv also looks for a standard ini config file. On Unix and Mac OS X
that's $HOME/.virtualenv/virtualenv.ini
and on Windows, it's
%APPDATA%\virtualenv\virtualenv.ini
.
The names of the settings are derived from the long command line option, e.g. the option :option:`--python <-p>` would look like this:
[virtualenv] python = /opt/python-3.3/bin/python
Appending options like :option:`--extra-search-dir` can be written on multiple lines:
[virtualenv] extra-search-dir = /path/to/dists /path/to/other/dists
Please have a look at the output of :option:`--help <-h>` for a full list of supported options.
While this creates an environment, it doesn't put anything into the environment. Developers may find it useful to distribute a script that sets up a particular environment, for example a script that installs a particular web application.
To create a script like this, call :py:func:`virtualenv.create_bootstrap_script`, and write the result to your new bootstrapping script.
.. py:function:: create_bootstrap_script(extra_text) Creates a bootstrap script from ``extra_text``, which is like this script but with extend_parser, adjust_options, and after_install hooks.
This returns a string that (written to disk of course) can be used as a bootstrap script with your own customizations. The script will be the standard virtualenv.py script, with your extra text added (your extra text should be Python code).
If you include these functions, they will be called:
.. py:function:: extend_parser(optparse_parser) You can add or remove options from the parser here.
.. py:function:: adjust_options(options, args) You can change options here, or change the args (if you accept different kinds of arguments, be sure you modify ``args`` so it is only ``[DEST_DIR]``).
.. py:function:: after_install(options, home_dir) After everything is installed, this function is called. This is probably the function you are most likely to use. An example would be:: def after_install(options, home_dir): if sys.platform == 'win32': bin = 'Scripts' else: bin = 'bin' subprocess.call([join(home_dir, bin, 'easy_install'), 'MyPackage']) subprocess.call([join(home_dir, bin, 'my-package-script'), 'setup', home_dir]) This example immediately installs a package, and runs a setup script from that package.
Here's a more concrete example of how you could use this:
import virtualenv, textwrap output = virtualenv.create_bootstrap_script(textwrap.dedent(""" import os, subprocess def after_install(options, home_dir): etc = join(home_dir, 'etc') if not os.path.exists(etc): os.makedirs(etc) subprocess.call([join(home_dir, 'bin', 'easy_install'), 'BlogApplication']) subprocess.call([join(home_dir, 'bin', 'paster'), 'make-config', 'BlogApplication', join(etc, 'blog.ini')]) subprocess.call([join(home_dir, 'bin', 'paster'), 'setup-app', join(etc, 'blog.ini')]) """)) f = open('blog-bootstrap.py', 'w').write(output)
Another example is available here.