AlkantarClanX12
Current Path : /opt/alt/python33/share/doc/alt-python33-pip/docs/ |
Current File : //opt/alt/python33/share/doc/alt-python33-pip/docs/user_guide.rst |
========== User Guide ========== .. contents:: Installing Packages ******************* pip supports installing from `PyPI`_, version control, local projects, and directly from distribution files. The most common scenario is to install from `PyPI`_ using :ref:`Requirement Specifiers` :: $ pip install SomePackage # latest version $ pip install SomePackage==1.0.4 # specific version $ pip install 'SomePackage>=1.0.4' # minimum version For more information and examples, see the :ref:`pip install` reference. .. _`Requirements Files`: Requirements Files ****************** "Requirements files" are files containing a list of items to be installed using :ref:`pip install` like so: :: pip install -r requirements.txt Details on the format of the files are here: :ref:`Requirements File Format`. Logically, a Requirements file is just a list of :ref:`pip install` arguments placed in a file. In practice, there are 4 common uses of Requirements files: 1. Requirements files are used to hold the result from :ref:`pip freeze` for the purpose of achieving :ref:`repeatable installations <Repeatability>`. In this case, your requirement file contains a pinned version of everything that was installed when `pip freeze` was run. :: pip freeze > requirements.txt pip install -r requirements.txt 2. Requirements files are used to force pip to properly resolve dependencies. As it is now, pip `doesn't have true dependency resolution <https://github.com/pypa/pip/issues/988>`_, but instead simply uses the first specification it finds for a project. E.g if `pkg1` requires `pkg3>=1.0` and `pkg2` requires `pkg3>=1.0,<=2.0`, and if `pkg1` is resolved first, pip will only use `pkg3>=1.0`, and could easily end up installing a version of `pkg3` that conflicts with the needs of `pkg2`. To solve this problem, you can place `pkg3>=1.0,<=2.0` (i.e. the correct specification) into your requirements file directly along with the other top level requirements. Like so: :: pkg1 pkg2 pkg3>=1.0,<=2.0 3. Requirements files are used to force pip to install an alternate version of a sub-dependency. For example, suppose `ProjectA` in your requirements file requires `ProjectB`, but the latest version (v1.3) has a bug, you can force pip to accept earlier versions like so: :: ProjectA ProjectB<1.3 4. Requirements files are used to override a dependency with a local patch that lives in version control. For example, suppose a dependency, `SomeDependency` from PyPI has a bug, and you can't wait for an upstream fix. You could clone/copy the src, make the fix, and place it in vcs with the tag `sometag`. You'd reference it in your requirements file with a line like so: :: git+https://myvcs.com/some_dependency@sometag#egg=SomeDependency If `SomeDependency` was previously a top-level requirement in your requirements file, then **replace** that line with the new line. If `SomeDependency` is a sub-dependency, then **add** the new line. It's important to be clear that pip determines package dependencies using `install_requires metadata <http://pythonhosted.org/setuptools/setuptools.html#declaring-dependencies>`_, not by discovering `requirements.txt` files embedded in projects. See also: * :ref:`Requirements File Format` * :ref:`pip freeze` * `"setup.py vs requirements.txt" (an article by Donald Stufft) <https://caremad.io/blog/setup-vs-requirement/>`_ .. _`Installing from Wheels`: Installing from Wheels ********************** "Wheel" is a built, archive format that can greatly speed installation compared to building and installing from source archives. For more information, see the `Wheel docs <http://wheel.readthedocs.org>`_ , `PEP427 <http://www.python.org/dev/peps/pep-0427>`_, and `PEP425 <http://www.python.org/dev/peps/pep-0425>`_ Pip prefers Wheels where they are available. To disable this, use the :ref:`--no-use-wheel <install_--no-use-wheel>` flag for :ref:`pip install`. If no satisfactory wheels are found, pip will default to finding source archives. To install directly from a wheel archive: :: pip install SomePackage-1.0-py2.py3-none-any.whl For the cases where wheels are not available, pip offers :ref:`pip wheel` as a convenience, to build wheels for all your requirements and dependencies. :ref:`pip wheel` requires the `wheel package <https://pypi.python.org/pypi/wheel>`_ to be installed, which provides the "bdist_wheel" setuptools extension that it uses. To build wheels for your requirements and all their dependencies to a local directory: :: pip install wheel pip wheel --wheel-dir=/local/wheels -r requirements.txt And *then* to install those requirements just using your local directory of wheels (and not from PyPI): :: pip install --no-index --find-links=/local/wheels -r requirements.txt Uninstalling Packages ********************* pip is able to uninstall most packages like so: :: $ pip uninstall SomePackage pip also performs an automatic uninstall of an old version of a package before upgrading to a newer version. For more information and examples, see the :ref:`pip uninstall` reference. Listing Packages **************** To list installed packages: :: $ pip list Pygments (1.5) docutils (0.9.1) Sphinx (1.1.2) Jinja2 (2.6) To list outdated packages, and show the latest version available: :: $ pip list --outdated docutils (Current: 0.9.1 Latest: 0.10) Sphinx (Current: 1.1.2 Latest: 1.1.3) To show details about an installed package: :: $ pip show sphinx --- Name: Sphinx Version: 1.1.3 Location: /my/env/lib/pythonx.x/site-packages Requires: Pygments, Jinja2, docutils For more information and examples, see the :ref:`pip list` and :ref:`pip show` reference pages. Searching for Packages ********************** pip can search `PyPI`_ for packages using the ``pip search`` command:: $ pip search "query" The query will be used to search the names and summaries of all packages. For more information and examples, see the :ref:`pip search` reference. .. _`Configuration`: Configuration ************* .. _config-file: Config file ------------ pip allows you to set all command line option defaults in a standard ini style config file. The names and locations of the configuration files vary slightly across platforms. * On Unix and Mac OS X the configuration file is: :file:`$HOME/.pip/pip.conf` * On Windows, the configuration file is: :file:`%HOME%\\pip\\pip.ini` You can set a custom path location for the config file using the environment variable ``PIP_CONFIG_FILE``. The names of the settings are derived from the long command line option, e.g. if you want to use a different package index (``--index-url``) and set the HTTP timeout (``--default-timeout``) to 60 seconds your config file would look like this: .. code-block:: ini [global] timeout = 60 index-url = http://download.zope.org/ppix Each subcommand can be configured optionally in its own section so that every global setting with the same name will be overridden; e.g. decreasing the ``timeout`` to ``10`` seconds when running the `freeze` (`Freezing Requirements <./#freezing-requirements>`_) command and using ``60`` seconds for all other commands is possible with: .. code-block:: ini [global] timeout = 60 [freeze] timeout = 10 Boolean options like ``--ignore-installed`` or ``--no-dependencies`` can be set like this: .. code-block:: ini [install] ignore-installed = true no-dependencies = yes Appending options like ``--find-links`` can be written on multiple lines: .. code-block:: ini [global] find-links = http://download.example.com [install] find-links = http://mirror1.example.com http://mirror2.example.com Environment Variables --------------------- pip's command line options can be set with environment variables using the format ``PIP_<UPPER_LONG_NAME>`` . Dashes (``-``) have to be replaced with underscores (``_``). For example, to set the default timeout:: export PIP_DEFAULT_TIMEOUT=60 This is the same as passing the option to pip directly:: pip --default-timeout=60 [...] To set options that can be set multiple times on the command line, just add spaces in between values. For example:: export PIP_FIND_LINKS="http://mirror1.example.com http://mirror2.example.com" is the same as calling:: pip install --find-links=http://mirror1.example.com --find-links=http://mirror2.example.com Config Precedence ----------------- Command line options have precedence over environment variables, which have precedence over the config file. Within the config file, command specific sections have precedence over the global section. Examples: - ``--host=foo`` overrides ``PIP_HOST=foo`` - ``PIP_HOST=foo`` overrides a config file with ``[global] host = foo`` - A command specific section in the config file ``[<command>] host = bar`` overrides the option with same name in the ``[global]`` config file section Command Completion ------------------ pip comes with support for command line completion in bash and zsh. To setup for bash:: $ pip completion --bash >> ~/.profile To setup for zsh:: $ pip completion --zsh >> ~/.zprofile Alternatively, you can use the result of the ``completion`` command directly with the eval function of you shell, e.g. by adding the following to your startup file:: eval "`pip completion --bash`" .. _`Fast & Local Installs`: Fast & Local Installs ********************* Often, you will want a fast install from local archives, without probing PyPI. First, download the archives that fulfill your requirements:: $ pip install --download <DIR> -r requirements.txt Then, install using :ref:`--find-links <--find-links>` and :ref:`--no-index <--no-index>`:: $ pip install --no-index --find-links=[file://]<DIR> -r requirements.txt Non-recursive upgrades ************************ ``pip install --upgrade`` is currently written to perform a recursive upgrade. E.g. supposing: * `SomePackage-1.0` requires `AnotherPackage>=1.0` * `SomePackage-2.0` requires `AnotherPackage>=1.0` and `OneMorePoject==1.0` * `SomePackage-1.0` and `AnotherPackage-1.0` are currently installed * `SomePackage-2.0` and `AnotherPackage-2.0` are the latest versions available on PyPI. Running ``pip install --upgrade SomePackage`` would upgrade `SomePackage` *and* `AnotherPackage` despite `AnotherPackage` already being satisifed. If you would like to perform a non-recursive upgrade perform these 2 steps:: pip install --upgrade --no-deps SomePackage pip install SomePackage The first line will upgrade `SomePackage`, but not dependencies like `AnotherPackage`. The 2nd line will fill in new dependencies like `OneMorePackage`. User Installs ************* With Python 2.6 came the `"user scheme" for installation <http://docs.python.org/install/index.html#alternate-installation-the-user-scheme>`_, which means that all Python distributions support an alternative install location that is specific to a user. The default location for each OS is explained in the python documentation for the `site.USER_BASE <http://docs.python.org/library/site.html#site.USER_BASE>`_ variable. This mode of installation can be turned on by specifying the :ref:`--user <install_--user>` option to ``pip install``. Moreover, the "user scheme" can be customized by setting the ``PYTHONUSERBASE`` environment variable, which updates the value of ``site.USER_BASE``. To install "SomePackage" into an environment with site.USER_BASE customized to '/myappenv', do the following:: export PYTHONUSERBASE=/myappenv pip install --user SomePackage ``pip install --user`` follows four rules: #. When globally installed packages are on the python path, and they *conflict* with the installation requirements, they are ignored, and *not* uninstalled. #. When globally installed packages are on the python path, and they *satisfy* the installation requirements, pip does nothing, and reports that requirement is satisfied (similar to how global packages can satisfy requirements when installing packages in a ``--system-site-packages`` virtualenv). #. pip will not perform a ``--user`` install in a ``--no-site-packages`` virtualenv (i.e. the default kind of virtualenv), due to the user site not being on the python path. The installation would be pointless. #. In a ``--system-site-packages`` virtualenv, pip will not install a package that conflicts with a package in the virtualenv site-packages. The --user installation would lack sys.path precedence and be pointless. To make the rules clearer, here are some examples: From within a ``--no-site-packages`` virtualenv (i.e. the default kind):: $ pip install --user SomePackage Can not perform a '--user' install. User site-packages are not visible in this virtualenv. From within a ``--system-site-packages`` virtualenv where ``SomePackage==0.3`` is already installed in the virtualenv:: $ pip install --user SomePackage==0.4 Will not install to the user site because it will lack sys.path precedence From within a real python, where ``SomePackage`` is *not* installed globally:: $ pip install --user SomePackage [...] Successfully installed SomePackage From within a real python, where ``SomePackage`` *is* installed globally, but is *not* the latest version:: $ pip install --user SomePackage [...] Requirement already satisfied (use --upgrade to upgrade) $ pip install --user --upgrade SomePackage [...] Successfully installed SomePackage From within a real python, where ``SomePackage`` *is* installed globally, and is the latest version:: $ pip install --user SomePackage [...] Requirement already satisfied (use --upgrade to upgrade) $ pip install --user --upgrade SomePackage [...] Requirement already up-to-date: SomePackage # force the install $ pip install --user --ignore-installed SomePackage [...] Successfully installed SomePackage .. _`Repeatability`: Ensuring Repeatability ********************** Three things are required to fully guarantee a repeatable installation using requirements files. 1. The requirements file was generated by ``pip freeze`` or you're sure it only contains requirements that specify a specific version. 2. The installation is performed using :ref:`--no-deps <install_--no-deps>`. This guarantees that only what is explicitly listed in the requirements file is installed. 3. The installation is performed against an index or find-links location that is guaranteed to *not* allow archives to be changed and updated without a version increase. Unfortunately, this is *not* true on PyPI. It is possible for the same pypi distribution to have a different hash over time. Project authors are allowed to delete a distribution, and then upload a new one with the same name and version, but a different hash. See `Issue #1175 <https://github.com/pypa/pip/issues/1175>`_ for plans to add hash confirmation to pip, or a new "lock file" notion, but for now, know that the `peep project <https://pypi.python.org/pypi/peep>`_ offers this feature on top of pip using requirements file comments. .. _PyPI: http://pypi.python.org/pypi/