mirror of https://github.com/python/cpython
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ReStructuredText
704 lines
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ReStructuredText
.. _pyporting-howto:
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*********************************
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Porting Python 2 Code to Python 3
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*********************************
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:author: Brett Cannon
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.. topic:: Abstract
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With Python 3 being the future of Python while Python 2 is still in active
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use, it is good to have your project available for both major releases of
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Python. This guide is meant to help you choose which strategy works best
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for your project to support both Python 2 & 3 along with how to execute
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that strategy.
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If you are looking to port an extension module instead of pure Python code,
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please see :ref:`cporting-howto`.
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Choosing a Strategy
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===================
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When a project makes the decision that it's time to support both Python 2 & 3,
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a decision needs to be made as to how to go about accomplishing that goal.
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The chosen strategy will depend on how large the project's existing
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codebase is and how much divergence you want from your Python 2 codebase from
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your Python 3 one (e.g., starting a new version with Python 3).
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If your project is brand-new or does not have a large codebase, then you may
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want to consider writing/porting :ref:`all of your code for Python 3
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and use 3to2 <use_3to2>` to port your code for Python 2.
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If you would prefer to maintain a codebase which is semantically **and**
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syntactically compatible with Python 2 & 3 simultaneously, you can write
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:ref:`use_same_source`. While this tends to lead to somewhat non-idiomatic
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code, it does mean you keep a rapid development process for you, the developer.
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Finally, you do have the option of :ref:`using 2to3 <use_2to3>` to translate
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Python 2 code into Python 3 code (with some manual help). This can take the
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form of branching your code and using 2to3 to start a Python 3 branch. You can
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also have users perform the translation as installation time automatically so
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that you only have to maintain a Python 2 codebase.
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Regardless of which approach you choose, porting is not as hard or
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time-consuming as you might initially think. You can also tackle the problem
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piece-meal as a good portion of porting is simply updating your code to follow
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current best practices in a Python 2/3 compatible way.
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Universal Bits of Advice
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------------------------
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Regardless of what strategy you pick, there are a few things you should
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consider.
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One is make sure you have a robust test suite. You need to make sure everything
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continues to work, just like when you support a new minor version of Python.
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This means making sure your test suite is thorough and is ported properly
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between Python 2 & 3. You will also most likely want to use something like tox_
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to automate testing between both a Python 2 and Python 3 VM.
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Two, once your project has Python 3 support, make sure to add the proper
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classifier on the Cheeseshop_ (PyPI_). To have your project listed as Python 3
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compatible it must have the
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`Python 3 classifier <http://pypi.python.org/pypi?:action=browse&c=533>`_
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(from
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http://techspot.zzzeek.org/2011/01/24/zzzeek-s-guide-to-python-3-porting/)::
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setup(
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name='Your Library',
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version='1.0',
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classifiers=[
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# make sure to use :: Python *and* :: Python :: 3 so
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# that pypi can list the package on the python 3 page
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'Programming Language :: Python',
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'Programming Language :: Python :: 3'
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],
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packages=['yourlibrary'],
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# make sure to add custom_fixers to the MANIFEST.in
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include_package_data=True,
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# ...
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)
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Doing so will cause your project to show up in the
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`Python 3 packages list
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<http://pypi.python.org/pypi?:action=browse&c=533&show=all>`_. You will know
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you set the classifier properly as visiting your project page on the Cheeseshop
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will show a Python 3 logo in the upper-left corner of the page.
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Three, the six_ project provides a library which helps iron out differences
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between Python 2 & 3. If you find there is a sticky point that is a continual
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point of contention in your translation or maintenance of code, consider using
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a source-compatible solution relying on six. If you have to create your own
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Python 2/3 compatible solution, you can use ``sys.version_info[0] >= 3`` as a
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guard.
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Four, read all the approaches. Just because some bit of advice applies to one
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approach more than another doesn't mean that some advice doesn't apply to other
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strategies.
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Five, drop support for older Python versions if possible. `Python 2.5`_
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introduced a lot of useful syntax and libraries which have become idiomatic
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in Python 3. `Python 2.6`_ introduced future statements which makes
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compatibility much easier if you are going from Python 2 to 3.
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`Python 2.7`_ continues the trend in the stdlib. So choose the newest version
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of Python which you believe can be your minimum support version
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and work from there.
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.. _tox: http://codespeak.net/tox/
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.. _Cheeseshop:
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.. _PyPI: http://pypi.python.org/
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.. _six: http://packages.python.org/six
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.. _Python 2.7: http://www.python.org/2.7.x
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.. _Python 2.6: http://www.python.org/2.6.x
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.. _Python 2.5: http://www.python.org/2.5.x
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.. _Python 2.4: http://www.python.org/2.4.x
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.. _Python 2.3: http://www.python.org/2.3.x
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.. _Python 2.2: http://www.python.org/2.2.x
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.. _use_3to2:
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Python 3 and 3to2
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=================
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If you are starting a new project or your codebase is small enough, you may
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want to consider writing your code for Python 3 and backporting to Python 2
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using 3to2_. Thanks to Python 3 being more strict about things than Python 2
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(e.g., bytes vs. strings), the source translation can be easier and more
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straightforward than from Python 2 to 3. Plus it gives you more direct
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experience developing in Python 3 which, since it is the future of Python, is a
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good thing long-term.
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A drawback of this approach is that 3to2 is a third-party project. This means
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that the Python core developers (and thus this guide) can make no promises
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about how well 3to2 works at any time. There is nothing to suggest, though,
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that 3to2 is not a high-quality project.
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.. _3to2: https://bitbucket.org/amentajo/lib3to2/overview
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.. _use_2to3:
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Python 2 and 2to3
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=================
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Included with Python since 2.6, the 2to3_ tool (and :mod:`lib2to3` module)
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helps with porting Python 2 to Python 3 by performing various source
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translations. This is a perfect solution for projects which wish to branch
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their Python 3 code from their Python 2 codebase and maintain them as
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independent codebases. You can even begin preparing to use this approach
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today by writing future-compatible Python code which works cleanly in
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Python 2 in conjunction with 2to3; all steps outlined below will work
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with Python 2 code up to the point when the actual use of 2to3 occurs.
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Use of 2to3 as an on-demand translation step at install time is also possible,
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preventing the need to maintain a separate Python 3 codebase, but this approach
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does come with some drawbacks. While users will only have to pay the
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translation cost once at installation, you as a developer will need to pay the
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cost regularly during development. If your codebase is sufficiently large
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enough then the translation step ends up acting like a compilation step,
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robbing you of the rapid development process you are used to with Python.
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Obviously the time required to translate a project will vary, so do an
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experimental translation just to see how long it takes to evaluate whether you
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prefer this approach compared to using :ref:`use_same_source` or simply keeping
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a separate Python 3 codebase.
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Below are the typical steps taken by a project which uses a 2to3-based approach
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to supporting Python 2 & 3.
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Support Python 2.7
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------------------
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As a first step, make sure that your project is compatible with `Python 2.7`_.
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This is just good to do as Python 2.7 is the last release of Python 2 and thus
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will be used for a rather long time. It also allows for use of the ``-3`` flag
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to Python to help discover places in your code which 2to3 cannot handle but are
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known to cause issues.
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Try to Support `Python 2.6`_ and Newer Only
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-------------------------------------------
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While not possible for all projects, if you can support `Python 2.6`_ and newer
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**only**, your life will be much easier. Various future statements, stdlib
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additions, etc. exist only in Python 2.6 and later which greatly assist in
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porting to Python 3. But if you project must keep support for `Python 2.5`_ (or
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even `Python 2.4`_) then it is still possible to port to Python 3.
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Below are the benefits you gain if you only have to support Python 2.6 and
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newer. Some of these options are personal choice while others are
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**strongly** recommended (the ones that are more for personal choice are
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labeled as such). If you continue to support older versions of Python then you
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at least need to watch out for situations that these solutions fix.
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``from __future__ import print_function``
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'''''''''''''''''''''''''''''''''''''''''
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This is a personal choice. 2to3 handles the translation from the print
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statement to the print function rather well so this is an optional step. This
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future statement does help, though, with getting used to typing
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``print('Hello, World')`` instead of ``print 'Hello, World'``.
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``from __future__ import unicode_literals``
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'''''''''''''''''''''''''''''''''''''''''''
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Another personal choice. You can always mark what you want to be a (unicode)
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string with a ``u`` prefix to get the same effect. But regardless of whether
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you use this future statement or not, you **must** make sure you know exactly
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which Python 2 strings you want to be bytes, and which are to be strings. This
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means you should, **at minimum** mark all strings that are meant to be text
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strings with a ``u`` prefix if you do not use this future statement.
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Bytes literals
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''''''''''''''
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This is a **very** important one. The ability to prefix Python 2 strings that
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are meant to contain bytes with a ``b`` prefix help to very clearly delineate
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what is and is not a Python 3 string. When you run 2to3 on code, all Python 2
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strings become Python 3 strings **unless** they are prefixed with ``b``.
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There are some differences between byte literals in Python 2 and those in
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Python 3 thanks to the bytes type just being an alias to ``str`` in Python 2.
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Probably the biggest "gotcha" is that indexing results in different values. In
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Python 2, the value of ``b'py'[1]`` is ``'y'``, while in Python 3 it's ``121``.
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You can avoid this disparity by always slicing at the size of a single element:
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``b'py'[1:2]`` is ``'y'`` in Python 2 and ``b'y'`` in Python 3 (i.e., close
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enough).
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You cannot concatenate bytes and strings in Python 3. But since in Python
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2 has bytes aliased to ``str``, it will succeed: ``b'a' + u'b'`` works in
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Python 2, but ``b'a' + 'b'`` in Python 3 is a :exc:`TypeError`. A similar issue
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also comes about when doing comparisons between bytes and strings.
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Supporting `Python 2.5`_ and Newer Only
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---------------------------------------
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If you are supporting `Python 2.5`_ and newer there are still some features of
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Python that you can utilize.
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``from __future__ import absolute_import``
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''''''''''''''''''''''''''''''''''''''''''
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Implicit relative imports (e.g., importing ``spam.bacon`` from within
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``spam.eggs`` with the statement ``import bacon``) does not work in Python 3.
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This future statement moves away from that and allows the use of explicit
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relative imports (e.g., ``from . import bacon``).
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In `Python 2.5`_ you must use
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the __future__ statement to get to use explicit relative imports and prevent
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implicit ones. In `Python 2.6`_ explicit relative imports are available without
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the statement, but you still want the __future__ statement to prevent implicit
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relative imports. In `Python 2.7`_ the __future__ statement is not needed. In
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other words, unless you are only supporting Python 2.7 or a version earlier
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than Python 2.5, use the __future__ statement.
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Handle Common "Gotchas"
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-----------------------
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There are a few things that just consistently come up as sticking points for
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people which 2to3 cannot handle automatically or can easily be done in Python 2
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to help modernize your code.
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``from __future__ import division``
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'''''''''''''''''''''''''''''''''''
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While the exact same outcome can be had by using the ``-Qnew`` argument to
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Python, using this future statement lifts the requirement that your users use
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the flag to get the expected behavior of division in Python 3
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(e.g., ``1/2 == 0.5; 1//2 == 0``).
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Specify when opening a file as binary
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'''''''''''''''''''''''''''''''''''''
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Unless you have been working on Windows, there is a chance you have not always
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bothered to add the ``b`` mode when opening a binary file (e.g., ``rb`` for
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binary reading). Under Python 3, binary files and text files are clearly
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distinct and mutually incompatible; see the :mod:`io` module for details.
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Therefore, you **must** make a decision of whether a file will be used for
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binary access (allowing to read and/or write bytes data) or text access
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(allowing to read and/or write unicode data).
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Text files
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''''''''''
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Text files created using ``open()`` under Python 2 return byte strings,
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while under Python 3 they return unicode strings. Depending on your porting
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strategy, this can be an issue.
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If you want text files to return unicode strings in Python 2, you have two
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possibilities:
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* Under Python 2.6 and higher, use :func:`io.open`. Since :func:`io.open`
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is essentially the same function in both Python 2 and Python 3, it will
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help iron out any issues that might arise.
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* If pre-2.6 compatibility is needed, then you should use :func:`codecs.open`
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instead. This will make sure that you get back unicode strings in Python 2.
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Subclass ``object``
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'''''''''''''''''''
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New-style classes have been around since `Python 2.2`_. You need to make sure
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you are subclassing from ``object`` to avoid odd edge cases involving method
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resolution order, etc. This continues to be totally valid in Python 3 (although
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unneeded as all classes implicitly inherit from ``object``).
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Deal With the Bytes/String Dichotomy
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''''''''''''''''''''''''''''''''''''
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One of the biggest issues people have when porting code to Python 3 is handling
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the bytes/string dichotomy. Because Python 2 allowed the ``str`` type to hold
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textual data, people have over the years been rather loose in their delineation
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of what ``str`` instances held text compared to bytes. In Python 3 you cannot
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be so care-free anymore and need to properly handle the difference. The key
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handling this issue to make sure that **every** string literal in your
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Python 2 code is either syntactically of functionally marked as either bytes or
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text data. After this is done you then need to make sure your APIs are designed
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to either handle a specific type or made to be properly polymorphic.
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Mark Up Python 2 String Literals
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********************************
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First thing you must do is designate every single string literal in Python 2
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as either textual or bytes data. If you are only supporting Python 2.6 or
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newer, this can be accomplished by marking bytes literals with a ``b`` prefix
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and then designating textual data with a ``u`` prefix or using the
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``unicode_literals`` future statement.
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If your project supports versions of Python pre-dating 2.6, then you should use
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the six_ project and its ``b()`` function to denote bytes literals. For text
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literals you can either use six's ``u()`` function or use a ``u`` prefix.
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Decide what APIs Will Accept
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****************************
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In Python 2 it was very easy to accidentally create an API that accepted both
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bytes and textual data. But in Python 3, thanks to the more strict handling of
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disparate types, this loose usage of bytes and text together tends to fail.
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Take the dict ``{b'a': 'bytes', u'a': 'text'}`` in Python 2.6. It creates the
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dict ``{u'a': 'text'}`` since ``b'a' == u'a'``. But in Python 3 the equivalent
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dict creates ``{b'a': 'bytes', 'a': 'text'}``, i.e., no lost data. Similar
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issues can crop up when transitioning Python 2 code to Python 3.
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This means you need to choose what an API is going to accept and create and
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consistently stick to that API in both Python 2 and 3.
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Bytes / Unicode Comparison
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**************************
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In Python 3, mixing bytes and unicode is forbidden in most situations; it
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will raise a :class:`TypeError` where Python 2 would have attempted an implicit
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coercion between types. However, there is one case where it doesn't and
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it can be very misleading::
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>>> b"" == ""
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False
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This is because an equality comparison is required by the language to always
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succeed (and return ``False`` for incompatible types). However, this also
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means that code incorrectly ported to Python 3 can display buggy behaviour
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if such comparisons are silently executed. To detect such situations,
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Python 3 has a ``-b`` flag that will display a warning::
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$ python3 -b
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>>> b"" == ""
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__main__:1: BytesWarning: Comparison between bytes and string
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False
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To turn the warning into an exception, use the ``-bb`` flag instead::
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$ python3 -bb
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>>> b"" == ""
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Traceback (most recent call last):
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File "<stdin>", line 1, in <module>
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BytesWarning: Comparison between bytes and string
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Indexing bytes objects
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''''''''''''''''''''''
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Another potentially surprising change is the indexing behaviour of bytes
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objects in Python 3::
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>>> b"xyz"[0]
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120
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Indeed, Python 3 bytes objects (as well as :class:`bytearray` objects)
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are sequences of integers. But code converted from Python 2 will often
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assume that indexing a bytestring produces another bytestring, not an
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integer. To reconcile both behaviours, use slicing::
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>>> b"xyz"[0:1]
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b'x'
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>>> n = 1
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>>> b"xyz"[n:n+1]
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b'y'
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The only remaining gotcha is that an out-of-bounds slice returns an empty
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bytes object instead of raising ``IndexError``:
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>>> b"xyz"[3]
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Traceback (most recent call last):
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File "<stdin>", line 1, in <module>
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IndexError: index out of range
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>>> b"xyz"[3:4]
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b''
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``__str__()``/``__unicode__()``
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'''''''''''''''''''''''''''''''
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In Python 2, objects can specify both a string and unicode representation of
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themselves. In Python 3, though, there is only a string representation. This
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becomes an issue as people can inadvertently do things in their ``__str__()``
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methods which have unpredictable results (e.g., infinite recursion if you
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happen to use the ``unicode(self).encode('utf8')`` idiom as the body of your
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``__str__()`` method).
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There are two ways to solve this issue. One is to use a custom 2to3 fixer. The
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blog post at http://lucumr.pocoo.org/2011/1/22/forwards-compatible-python/
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specifies how to do this. That will allow 2to3 to change all instances of ``def
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__unicode(self): ...`` to ``def __str__(self): ...``. This does require you
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define your ``__str__()`` method in Python 2 before your ``__unicode__()``
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method.
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The other option is to use a mixin class. This allows you to only define a
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``__unicode__()`` method for your class and let the mixin derive
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``__str__()`` for you (code from
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http://lucumr.pocoo.org/2011/1/22/forwards-compatible-python/)::
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import sys
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class UnicodeMixin(object):
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"""Mixin class to handle defining the proper __str__/__unicode__
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methods in Python 2 or 3."""
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if sys.version_info[0] >= 3: # Python 3
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def __str__(self):
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return self.__unicode__()
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else: # Python 2
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def __str__(self):
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return self.__unicode__().encode('utf8')
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class Spam(UnicodeMixin):
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def __unicode__(self):
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return u'spam-spam-bacon-spam' # 2to3 will remove the 'u' prefix
|
|
|
|
|
|
Don't Index on Exceptions
|
|
'''''''''''''''''''''''''
|
|
|
|
In Python 2, the following worked::
|
|
|
|
>>> exc = Exception(1, 2, 3)
|
|
>>> exc.args[1]
|
|
2
|
|
>>> exc[1] # Python 2 only!
|
|
2
|
|
|
|
But in Python 3, indexing directly on an exception is an error. You need to
|
|
make sure to only index on the :attr:`BaseException.args` attribute which is a
|
|
sequence containing all arguments passed to the :meth:`__init__` method.
|
|
|
|
Even better is to use the documented attributes the exception provides.
|
|
|
|
Don't use ``__getslice__`` & Friends
|
|
''''''''''''''''''''''''''''''''''''
|
|
|
|
Been deprecated for a while, but Python 3 finally drops support for
|
|
``__getslice__()``, etc. Move completely over to :meth:`__getitem__` and
|
|
friends.
|
|
|
|
|
|
Updating doctests
|
|
'''''''''''''''''
|
|
|
|
2to3_ will attempt to generate fixes for doctests that it comes across. It's
|
|
not perfect, though. If you wrote a monolithic set of doctests (e.g., a single
|
|
docstring containing all of your doctests), you should at least consider
|
|
breaking the doctests up into smaller pieces to make it more manageable to fix.
|
|
Otherwise it might very well be worth your time and effort to port your tests
|
|
to :mod:`unittest`.
|
|
|
|
|
|
Eliminate ``-3`` Warnings
|
|
-------------------------
|
|
|
|
When you run your application's test suite, run it using the ``-3`` flag passed
|
|
to Python. This will cause various warnings to be raised during execution about
|
|
things that 2to3 cannot handle automatically (e.g., modules that have been
|
|
removed). Try to eliminate those warnings to make your code even more portable
|
|
to Python 3.
|
|
|
|
|
|
Run 2to3
|
|
--------
|
|
|
|
Once you have made your Python 2 code future-compatible with Python 3, it's
|
|
time to use 2to3_ to actually port your code.
|
|
|
|
|
|
Manually
|
|
''''''''
|
|
|
|
To manually convert source code using 2to3_, you use the ``2to3`` script that
|
|
is installed with Python 2.6 and later.::
|
|
|
|
2to3 <directory or file to convert>
|
|
|
|
This will cause 2to3 to write out a diff with all of the fixers applied for the
|
|
converted source code. If you would like 2to3 to go ahead and apply the changes
|
|
you can pass it the ``-w`` flag::
|
|
|
|
2to3 -w <stuff to convert>
|
|
|
|
There are other flags available to control exactly which fixers are applied,
|
|
etc.
|
|
|
|
|
|
During Installation
|
|
'''''''''''''''''''
|
|
|
|
When a user installs your project for Python 3, you can have either
|
|
:mod:`distutils` or Distribute_ run 2to3_ on your behalf.
|
|
For distutils, use the following idiom::
|
|
|
|
try: # Python 3
|
|
from distutils.command.build_py import build_py_2to3 as build_py
|
|
except ImportError: # Python 2
|
|
from distutils.command.build_py import build_py
|
|
|
|
setup(cmdclass = {'build_py': build_py},
|
|
# ...
|
|
)
|
|
|
|
For Distribute::
|
|
|
|
setup(use_2to3=True,
|
|
# ...
|
|
)
|
|
|
|
This will allow you to not have to distribute a separate Python 3 version of
|
|
your project. It does require, though, that when you perform development that
|
|
you at least build your project and use the built Python 3 source for testing.
|
|
|
|
|
|
Verify & Test
|
|
-------------
|
|
|
|
At this point you should (hopefully) have your project converted in such a way
|
|
that it works in Python 3. Verify it by running your unit tests and making sure
|
|
nothing has gone awry. If you miss something then figure out how to fix it in
|
|
Python 3, backport to your Python 2 code, and run your code through 2to3 again
|
|
to verify the fix transforms properly.
|
|
|
|
|
|
.. _2to3: http://docs.python.org/py3k/library/2to3.html
|
|
.. _Distribute: http://packages.python.org/distribute/
|
|
|
|
|
|
.. _use_same_source:
|
|
|
|
Python 2/3 Compatible Source
|
|
============================
|
|
|
|
While it may seem counter-intuitive, you can write Python code which is
|
|
source-compatible between Python 2 & 3. It does lead to code that is not
|
|
entirely idiomatic Python (e.g., having to extract the currently raised
|
|
exception from ``sys.exc_info()[1]``), but it can be run under Python 2
|
|
**and** Python 3 without using 2to3_ as a translation step (although the tool
|
|
should be used to help find potential portability problems). This allows you to
|
|
continue to have a rapid development process regardless of whether you are
|
|
developing under Python 2 or Python 3. Whether this approach or using
|
|
:ref:`use_2to3` works best for you will be a per-project decision.
|
|
|
|
To get a complete idea of what issues you will need to deal with, see the
|
|
`What's New in Python 3.0`_. Others have reorganized the data in other formats
|
|
such as http://docs.pythonsprints.com/python3_porting/py-porting.html .
|
|
|
|
The following are some steps to take to try to support both Python 2 & 3 from
|
|
the same source code.
|
|
|
|
|
|
.. _What's New in Python 3.0: http://docs.python.org/release/3.0/whatsnew/3.0.html
|
|
|
|
|
|
Follow The Steps for Using 2to3_
|
|
--------------------------------
|
|
|
|
All of the steps outlined in how to
|
|
:ref:`port Python 2 code with 2to3 <use_2to3>` apply
|
|
to creating a Python 2/3 codebase. This includes trying only support Python 2.6
|
|
or newer (the :mod:`__future__` statements work in Python 3 without issue),
|
|
eliminating warnings that are triggered by ``-3``, etc.
|
|
|
|
You should even consider running 2to3_ over your code (without committing the
|
|
changes). This will let you know where potential pain points are within your
|
|
code so that you can fix them properly before they become an issue.
|
|
|
|
|
|
Use six_
|
|
--------
|
|
|
|
The six_ project contains many things to help you write portable Python code.
|
|
You should make sure to read its documentation from beginning to end and use
|
|
any and all features it provides. That way you will minimize any mistakes you
|
|
might make in writing cross-version code.
|
|
|
|
|
|
Capturing the Currently Raised Exception
|
|
----------------------------------------
|
|
|
|
One change between Python 2 and 3 that will require changing how you code (if
|
|
you support `Python 2.5`_ and earlier) is
|
|
accessing the currently raised exception. In Python 2.5 and earlier the syntax
|
|
to access the current exception is::
|
|
|
|
try:
|
|
raise Exception()
|
|
except Exception, exc:
|
|
# Current exception is 'exc'
|
|
pass
|
|
|
|
This syntax changed in Python 3 (and backported to `Python 2.6`_ and later)
|
|
to::
|
|
|
|
try:
|
|
raise Exception()
|
|
except Exception as exc:
|
|
# Current exception is 'exc'
|
|
# In Python 3, 'exc' is restricted to the block; Python 2.6 will "leak"
|
|
pass
|
|
|
|
Because of this syntax change you must change to capturing the current
|
|
exception to::
|
|
|
|
try:
|
|
raise Exception()
|
|
except Exception:
|
|
import sys
|
|
exc = sys.exc_info()[1]
|
|
# Current exception is 'exc'
|
|
pass
|
|
|
|
You can get more information about the raised exception from
|
|
:func:`sys.exc_info` than simply the current exception instance, but you most
|
|
likely don't need it.
|
|
|
|
.. note::
|
|
In Python 3, the traceback is attached to the exception instance
|
|
through the ``__traceback__`` attribute. If the instance is saved in
|
|
a local variable that persists outside of the ``except`` block, the
|
|
traceback will create a reference cycle with the current frame and its
|
|
dictionary of local variables. This will delay reclaiming dead
|
|
resources until the next cyclic :term:`garbage collection` pass.
|
|
|
|
In Python 2, this problem only occurs if you save the traceback itself
|
|
(e.g. the third element of the tuple returned by :func:`sys.exc_info`)
|
|
in a variable.
|
|
|
|
|
|
Other Resources
|
|
===============
|
|
|
|
The authors of the following blog posts, wiki pages, and books deserve special
|
|
thanks for making public their tips for porting Python 2 code to Python 3 (and
|
|
thus helping provide information for this document):
|
|
|
|
* http://python3porting.com/
|
|
* http://docs.pythonsprints.com/python3_porting/py-porting.html
|
|
* http://techspot.zzzeek.org/2011/01/24/zzzeek-s-guide-to-python-3-porting/
|
|
* http://dabeaz.blogspot.com/2011/01/porting-py65-and-my-superboard-to.html
|
|
* http://lucumr.pocoo.org/2011/1/22/forwards-compatible-python/
|
|
* http://lucumr.pocoo.org/2010/2/11/porting-to-python-3-a-guide/
|
|
* http://wiki.python.org/moin/PortingPythonToPy3k
|
|
|
|
If you feel there is something missing from this document that should be added,
|
|
please email the python-porting_ mailing list.
|
|
|
|
.. _python-porting: http://mail.python.org/mailman/listinfo/python-porting
|