1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
|
.. _pyporting-howto:
*********************************
Porting Python 2 Code to Python 3
*********************************
:author: Brett Cannon
.. topic:: Abstract
With Python 3 being the future of Python while Python 2 is still in active
use, it is good to have your project available for both major releases of
Python. This guide is meant to help you figure out how best to support both
Python 2 & 3 simultaneously.
If you are looking to port an extension module instead of pure Python code,
please see :ref:`cporting-howto`.
If you would like to read one core Python developer's take on why Python 3
came into existence, you can read Nick Coghlan's `Python 3 Q & A`_.
For help with porting, you can email the python-porting_ mailing list with
questions.
The Short Explanation
=====================
To make your project be single-source Python 2/3 compatible, the basic steps
are:
#. Only worry about supporting Python 2.7
#. Make sure you have good test coverage (coverage.py_ can help;
``pip install coverage``)
#. Learn the differences between Python 2 & 3
#. Use Modernize_ or Futurize_ to update your code (``pip install modernize`` or
``pip install future``, respectively)
#. Use Pylint_ to help make sure you don't regress on your Python 3 support
(``pip install pylint``)
#. Use caniusepython3_ to find out which of your dependencies are blocking your
use of Python 3 (``pip install caniusepython3``)
#. Once your dependencies are no longer blocking you, use continuous integration
to make sure you stay compatible with Python 2 & 3 (tox_ can help test
against multiple versions of Python; ``pip install tox``)
If you are dropping support for Python 2 entirely, then after you learn the
differences between Python 2 & 3 you can run 2to3_ over your code and skip the
rest of the steps outlined above.
Details
=======
A key point about supporting Python 2 & 3 simultaneously is that you can start
**today**! Even if your dependencies are not supporting Python 3 yet that does
not mean you can't modernize your code **now** to support Python 3. Most changes
required to support Python 3 lead to cleaner code using newer practices even in
Python 2.
Another key point is that modernizing your Python 2 code to also support
Python 3 is largely automated for you. While you might have to make some API
decisions thanks to Python 3 clarifying text data versus binary data, the
lower-level work is now mostly done for you and thus can at least benefit from
the automated changes immediately.
Keep those key points in mind while you read on about the details of porting
your code to support Python 2 & 3 simultaneously.
Drop support for Python 2.6 and older
-------------------------------------
While you can make Python 2.5 work with Python 3, it is **much** easier if you
only have to work with Python 2.7. If dropping Python 2.5 is not an
option then the six_ project can help you support Python 2.5 & 3 simultaneously
(``pip install six``). Do realize, though, that nearly all the projects listed
in this HOWTO will not be available to you.
If you are able to skip Python 2.5 and older, then the required changes
to your code should continue to look and feel like idiomatic Python code. At
worst you will have to use a function instead of a method in some instances or
have to import a function instead of using a built-in one, but otherwise the
overall transformation should not feel foreign to you.
But you should aim for only supporting Python 2.7. Python 2.6 is no longer
supported and thus is not receiving bugfixes. This means **you** will have to
work around any issues you come across with Python 2.6. There are also some
tools mentioned in this HOWTO which do not support Python 2.6 (e.g., Pylint_),
and this will become more commonplace as time goes on. It will simply be easier
for you if you only support the versions of Python that you have to support.
Make sure you specify the proper version support in your ``setup.py`` file
--------------------------------------------------------------------------
In your ``setup.py`` file you should have the proper `trove classifier`_
specifying what versions of Python you support. As your project does not support
Python 3 yet you should at least have
``Programming Language :: Python :: 2 :: Only`` specified. Ideally you should
also specify each major/minor version of Python that you do support, e.g.
``Programming Language :: Python :: 2.7``.
Have good test coverage
-----------------------
Once you have your code supporting the oldest version of Python 2 you want it
to, you will want to make sure your test suite has good coverage. A good rule of
thumb is that if you want to be confident enough in your test suite that any
failures that appear after having tools rewrite your code are actual bugs in the
tools and not in your code. If you want a number to aim for, try to get over 80%
coverage (and don't feel bad if you can't easily get past 90%). If you
don't already have a tool to measure test coverage then coverage.py_ is
recommended.
Learn the differences between Python 2 & 3
-------------------------------------------
Once you have your code well-tested you are ready to begin porting your code to
Python 3! But to fully understand how your code is going to change and what
you want to look out for while you code, you will want to learn what changes
Python 3 makes in terms of Python 2. Typically the two best ways of doing that
is reading the `"What's New"`_ doc for each release of Python 3 and the
`Porting to Python 3`_ book (which is free online). There is also a handy
`cheat sheet`_ from the Python-Future project.
Update your code
----------------
Once you feel like you know what is different in Python 3 compared to Python 2,
it's time to update your code! You have a choice between two tools in porting
your code automatically: Modernize_ and Futurize_. Which tool you choose will
depend on how much like Python 3 you want your code to be. Futurize_ does its
best to make Python 3 idioms and practices exist in Python 2, e.g. backporting
the ``bytes`` type from Python 3 so that you have semantic parity between the
major versions of Python. Modernize_,
on the other hand, is more conservative and targets a Python 2/3 subset of
Python, relying on six_ to help provide compatibility.
Regardless of which tool you choose, they will update your code to run under
Python 3 while staying compatible with the version of Python 2 you started with.
Depending on how conservative you want to be, you may want to run the tool over
your test suite first and visually inspect the diff to make sure the
transformation is accurate. After you have transformed your test suite and
verified that all the tests still pass as expected, then you can transform your
application code knowing that any tests which fail is a translation failure.
Unfortunately the tools can't automate everything to make your code work under
Python 3 and so there are a handful of things you will need to update manually
to get full Python 3 support (which of these steps are necessary vary between
the tools). Read the documentation for the tool you choose to use to see what it
fixes by default and what it can do optionally to know what will (not) be fixed
for you and what you may have to fix on your own (e.g. using ``io.open()`` over
the built-in ``open()`` function is off by default in Modernize). Luckily,
though, there are only a couple of things to watch out for which can be
considered large issues that may be hard to debug if not watched for.
Division
++++++++
In Python 3, ``5 / 2 == 2.5`` and not ``2``; all division between ``int`` values
result in a ``float``. This change has actually been planned since Python 2.2
which was released in 2002. Since then users have been encouraged to add
``from __future__ import division`` to any and all files which use the ``/`` and
``//`` operators or to be running the interpreter with the ``-Q`` flag. If you
have not been doing this then you will need to go through your code and do two
things:
#. Add ``from __future__ import division`` to your files
#. Update any division operator as necessary to either use ``//`` to use floor
division or continue using ``/`` and expect a float
The reason that ``/`` isn't simply translated to ``//`` automatically is that if
an object defines a ``__truediv__`` method but not ``__floordiv__`` then your
code would begin to fail (e.g. a user-defined class that uses ``/`` to
signify some operation but not ``//`` for the same thing or at all).
Text versus binary data
+++++++++++++++++++++++
In Python 2 you could use the ``str`` type for both text and binary data.
Unfortunately this confluence of two different concepts could lead to brittle
code which sometimes worked for either kind of data, sometimes not. It also
could lead to confusing APIs if people didn't explicitly state that something
that accepted ``str`` accepted either text or binary data instead of one
specific type. This complicated the situation especially for anyone supporting
multiple languages as APIs wouldn't bother explicitly supporting ``unicode``
when they claimed text data support.
To make the distinction between text and binary data clearer and more
pronounced, Python 3 did what most languages created in the age of the internet
have done and made text and binary data distinct types that cannot blindly be
mixed together (Python predates widespread access to the internet). For any code
that only deals with text or only binary data, this separation doesn't pose an
issue. But for code that has to deal with both, it does mean you might have to
now care about when you are using text compared to binary data, which is why
this cannot be entirely automated.
To start, you will need to decide which APIs take text and which take binary
(it is **highly** recommended you don't design APIs that can take both due to
the difficulty of keeping the code working; as stated earlier it is difficult to
do well). In Python 2 this means making sure the APIs that take text can work
with ``unicode`` in Python 2 and those that work with binary data work with the
``bytes`` type from Python 3 and thus a subset of ``str`` in Python 2 (which the
``bytes`` type in Python 2 is an alias for). Usually the biggest issue is
realizing which methods exist for which types in Python 2 & 3 simultaneously
(for text that's ``unicode`` in Python 2 and ``str`` in Python 3, for binary
that's ``str``/``bytes`` in Python 2 and ``bytes`` in Python 3). The following
table lists the **unique** methods of each data type across Python 2 & 3
(e.g., the ``decode()`` method is usable on the equivalent binary data type in
either Python 2 or 3, but it can't be used by the text data type consistently
between Python 2 and 3 because ``str`` in Python 3 doesn't have the method).
======================== =====================
**Text data** **Binary data**
------------------------ ---------------------
__mod__ (``%`` operator)
------------------------ ---------------------
\ decode
------------------------ ---------------------
encode
------------------------ ---------------------
format
------------------------ ---------------------
isdecimal
------------------------ ---------------------
isnumeric
======================== =====================
Making the distinction easier to handle can be accomplished by encoding and
decoding between binary data and text at the edge of your code. This means that
when you receive text in binary data, you should immediately decode it. And if
your code needs to send text as binary data then encode it as late as possible.
This allows your code to work with only text internally and thus eliminates
having to keep track of what type of data you are working with.
The next issue is making sure you know whether the string literals in your code
represent text or binary data. At minimum you should add a ``b`` prefix to any
literal that presents binary data. For text you should either use the
``from __future__ import unicode_literals`` statement or add a ``u`` prefix to
the text literal.
As part of this dichotomy you also need to be careful about opening files.
Unless you have been working on Windows, there is a chance you have not always
bothered to add the ``b`` mode when opening a binary file (e.g., ``rb`` for
binary reading). Under Python 3, binary files and text files are clearly
distinct and mutually incompatible; see the :mod:`io` module for details.
Therefore, you **must** make a decision of whether a file will be used for
binary access (allowing to read and/or write binary data) or text access
(allowing to read and/or write text data). You should also use :func:`io.open`
for opening files instead of the built-in :func:`open` function as the :mod:`io`
module is consistent from Python 2 to 3 while the built-in :func:`open` function
is not (in Python 3 it's actually :func:`io.open`).
The constructors of both ``str`` and ``bytes`` have different semantics for the
same arguments between Python 2 & 3. Passing an integer to ``bytes`` in Python 2
will give you the string representation of the integer: ``bytes(3) == '3'``.
But in Python 3, an integer argument to ``bytes`` will give you a bytes object
as long as the integer specified, filled with null bytes:
``bytes(3) == b'\x00\x00\x00'``. A similar worry is necessary when passing a
bytes object to ``str``. In Python 2 you just get the bytes object back:
``str(b'3') == b'3'``. But in Python 3 you get the string representation of the
bytes object: ``str(b'3') == "b'3'"``.
Finally, the indexing of binary data requires careful handling (slicing does
**not** require any special handling). In Python 2,
``b'123'[1] == b'2'`` while in Python 3 ``b'123'[1] == 50``. Because binary data
is simply a collection of binary numbers, Python 3 returns the integer value for
the byte you index on. But in Python 2 because ``bytes == str``, indexing
returns a one-item slice of bytes. The six_ project has a function
named ``six.indexbytes()`` which will return an integer like in Python 3:
``six.indexbytes(b'123', 1)``.
To summarize:
#. Decide which of your APIs take text and which take binary data
#. Make sure that your code that works with text also works with ``unicode`` and
code for binary data works with ``bytes`` in Python 2 (see the table above
for what methods you cannot use for each type)
#. Mark all binary literals with a ``b`` prefix, use a ``u`` prefix or
:mod:`__future__` import statement for text literals
#. Decode binary data to text as soon as possible, encode text as binary data as
late as possible
#. Open files using :func:`io.open` and make sure to specify the ``b`` mode when
appropriate
#. Be careful when indexing binary data
Prevent compatibility regressions
---------------------------------
Once you have fully translated your code to be compatible with Python 3, you
will want to make sure your code doesn't regress and stop working under
Python 3. This is especially true if you have a dependency which is blocking you
from actually running under Python 3 at the moment.
To help with staying compatible, any new modules you create should have
at least the following block of code at the top of it::
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
from __future__ import unicode_literals
You can also run Python 2 with the ``-3`` flag to be warned about various
compatibility issues your code triggers during execution. If you turn warnings
into errors with ``-Werror`` then you can make sure that you don't accidentally
miss a warning.
You can also use the Pylint_ project and its ``--py3k`` flag to lint your code
to receive warnings when your code begins to deviate from Python 3
compatibility. This also prevents you from having to run Modernize_ or Futurize_
over your code regularly to catch compatibility regressions. This does require
you only support Python 2.7 and Python 3.4 or newer as that is Pylint's
minimum Python version support.
Check which dependencies block your transition
----------------------------------------------
**After** you have made your code compatible with Python 3 you should begin to
care about whether your dependencies have also been ported. The caniusepython3_
project was created to help you determine which projects
-- directly or indirectly -- are blocking you from supporting Python 3. There
is both a command-line tool as well as a web interface at
https://caniusepython3.com .
The project also provides code which you can integrate into your test suite so
that you will have a failing test when you no longer have dependencies blocking
you from using Python 3. This allows you to avoid having to manually check your
dependencies and to be notified quickly when you can start running on Python 3.
Update your ``setup.py`` file to denote Python 3 compatibility
--------------------------------------------------------------
Once your code works under Python 3, you should update the classifiers in
your ``setup.py`` to contain ``Programming Language :: Python :: 3`` and to not
specify sole Python 2 support. This will tell
anyone using your code that you support Python 2 **and** 3. Ideally you will
also want to add classifiers for each major/minor version of Python you now
support.
Use continuous integration to stay compatible
---------------------------------------------
Once you are able to fully run under Python 3 you will want to make sure your
code always works under both Python 2 & 3. Probably the best tool for running
your tests under multiple Python interpreters is tox_. You can then integrate
tox with your continuous integration system so that you never accidentally break
Python 2 or 3 support.
You may also want to use use the ``-bb`` flag with the Python 3 interpreter to
trigger an exception when you are comparing bytes to strings. Usually it's
simply ``False``, but if you made a mistake in your separation of text/binary
data handling you may be accidentally comparing text and binary data. This flag
will raise an exception when that occurs to help track down such cases.
And that's mostly it! At this point your code base is compatible with both
Python 2 and 3 simultaneously. Your testing will also be set up so that you
don't accidentally break Python 2 or 3 compatibility regardless of which version
you typically run your tests under while developing.
Dropping Python 2 support completely
====================================
If you are able to fully drop support for Python 2, then the steps required
to transition to Python 3 simplify greatly.
#. Update your code to only support Python 2.7
#. Make sure you have good test coverage (coverage.py_ can help)
#. Learn the differences between Python 2 & 3
#. Use 2to3_ to rewrite your code to run only under Python 3
After this your code will be fully Python 3 compliant but in a way that is not
supported by Python 2. You should also update the classifiers in your
``setup.py`` to contain ``Programming Language :: Python :: 3 :: Only``.
.. _2to3: https://docs.python.org/3/library/2to3.html
.. _caniusepython3: https://pypi.python.org/pypi/caniusepython3
.. _cheat sheet: http://python-future.org/compatible_idioms.html
.. _coverage.py: https://pypi.python.org/pypi/coverage
.. _Futurize: http://python-future.org/automatic_conversion.html
.. _Modernize: http://python-modernize.readthedocs.org/en/latest/
.. _Porting to Python 3: http://python3porting.com/
.. _Pylint: https://pypi.python.org/pypi/pylint
.. _Python 3 Q & A: http://ncoghlan-devs-python-notes.readthedocs.org/en/latest/python3/questions_and_answers.html
.. _python-future: http://python-future.org/
.. _python-porting: https://mail.python.org/mailman/listinfo/python-porting
.. _six: https://pypi.python.org/pypi/six
.. _tox: https://pypi.python.org/pypi/tox
.. _trove classifier: https://pypi.python.org/pypi?%3Aaction=list_classifiers
.. _"What's New": https://docs.python.org/3/whatsnew/index.html
|