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****************************
What's New In Python 3.4
****************************
.. :Author: Someone <email>
(uncomment if there is a principal author)
.. Rules for maintenance:
* Anyone can add text to this document, but the maintainer reserves the
right to rewrite any additions. In particular, for obscure or esoteric
features, the maintainer may reduce any addition to a simple reference to
the new documentation rather than explaining the feature inline.
* While the maintainer will periodically go through Misc/NEWS
and add changes, it's best not to rely on this. We know from experience
that any changes that aren't in the What's New documentation around the
time of the original release will remain largely unknown to the community
for years, even if they're added later. We also know from experience that
other priorities can arise, and the maintainer will run out of time to do
updates - in such cases, end users will be much better served by partial
notifications that at least give a hint about new features to
investigate.
* This is not a complete list of every single change; completeness
is the purpose of Misc/NEWS. The What's New should focus on changes that
are visible to Python *users* and that *require* a feature release (i.e.
most bug fixes should only be recorded in Misc/NEWS)
* PEPs should not be marked Final until they have an entry in What's New.
A placeholder entry that is just a section header and a link to the PEP
(e.g ":pep:`397` has been implemented") is acceptable. If a PEP has been
implemented and noted in What's New, don't forget to mark it as Final!
* If you want to draw your new text to the attention of the
maintainer, add 'XXX' to the beginning of the paragraph or
section.
* It's OK to add just a very brief note about a change. For
example: "The :ref:`~socket.transmogrify()` function was added to the
:mod:`socket` module." The maintainer will research the change and
write the necessary text (if appropriate). The advantage of doing this
is that even if no more descriptive text is ever added, readers will at
least have a notification that the new feature exists and a link to the
relevant documentation.
* You can comment out your additions if you like, but it's not
necessary (especially when a final release is some months away).
* Credit the author of a patch or bugfix. Just the name is
sufficient; the e-mail address isn't necessary.
* It's helpful to add the bug/patch number as a comment:
The :ref:`~socket.transmogrify()` function was added to the
:mod:`socket` module. (Contributed by P.Y. Developer in :issue:`12345`.)
This saves the maintainer the effort of going through the Mercurial log
when researching a change.
* Cross referencing tip: :ref:`mod.attr` will display as ``mod.attr``,
while :ref:`~mod.attr` will display as ``attr``.
This article explains the new features in Python 3.4, compared to 3.3.
.. Python 3.4 was released on TBD.
For full details, see the
`changelog <http://docs.python.org/3.4/whatsnew/changelog.html>`_.
.. note:: Prerelease users should be aware that this document is currently in
draft form. It will be updated substantially as Python 3.4 moves towards
release, so it's worth checking back even after reading earlier versions.
.. seealso::
.. :pep:`4XX` - Python 3.4 Release Schedule
Summary -- Release highlights
=============================
.. This section singles out the most important changes in Python 3.4.
Brevity is key.
New syntax features:
* None yet.
New library modules:
* :mod:`enum`: Implementation of the :pep:`435`.
New built-in features:
* None yet.
Implementation improvements:
* A more efficient :mod:`marshal` format <http://bugs.python.org/issue16475>.
Significantly Improved Library Modules:
* SHA-3 (Keccak) support for :mod:`hashlib`.
* TLSv1.1 and TLSv1.2 support for :mod:`ssl`.
Security improvements:
* None yet.
Please read on for a comprehensive list of user-facing changes.
PEP 445: Add new APIs to customize Python memory allocators
===========================================================
The :pep:`445` adds new Application Programming Interfaces (API) to customize
Python memory allocators.
.. _pep-442:
PEP 442: Safe object finalization
=================================
This PEP removes the current limitations and quirks of object finalization.
With it, objects with :meth:`__del__` methods, as well as generators
with :keyword:`finally` clauses, can be finalized when they are part of a
reference cycle.
.. seealso::
:pep:`442` - Safe object finalization
PEP written and implemented by Antoine Pitrou
Other Language Changes
======================
Some smaller changes made to the core Python language are:
* Unicode database updated to UCD version 6.2.
* :func:`min` and :func:`max` now accept a *default* argument that can be used
to specify the value they return if the iterable they are evaluating has no
elements. Contributed by Julian Berman in :issue:`18111`.
New Modules
===========
.. module name
.. -----------
* None yet.
Improved Modules
================
dis
---
The :mod:`dis` module is now built around an :class:`Instruction` class that
provides details of individual bytecode operations and a
:func:`get_instructions` iterator that emits the Instruction stream for a
given piece of Python code. The various display tools in the :mod:`dis`
module have been updated to be based on these new components.
The new :class:`dis.Bytecode` class provides an object-oriented API for
inspecting bytecode, both in human-readable form and for iterating over
instructions.
(Contributed by Nick Coghlan, Ryan Kelly and Thomas Kluyver in :issue:`11816`)
doctest
-------
Added :data:`~doctest.FAIL_FAST` flag to halt test running as soon as the first
failure is detected. (Contributed by R. David Murray and Daniel Urban in
:issue:`16522`.)
Updated the doctest command line interface to use :mod:`argparse`, and added
``-o`` and ``-f`` options to the interface. ``-o`` allows doctest options to
be specified on the command line, and ``-f`` is a shorthand for ``-o
FAIL_FAST`` (to parallel the similar option supported by the :mod:`unittest`
CLI). (Contributed by R. David Murray in :issue:`11390`.)
aifc
----
The :meth:`~aifc.getparams` method now returns a namedtuple rather than a
plain tuple. (Contributed by Claudiu Popa in :issue:`17818`.)
email
-----
:meth:`~email.message.Message.as_string` now accepts a *policy* argument to
override the default policy of the message when generating a string
representation of it. This means that ``as_string`` can now be used in more
circumstances, instead of having to create and use a :mod:`~email.generator` in
order to pass formatting parameters to its ``flatten`` method.
New method :meth:`~email.message.Message.as_bytes` added to produce a bytes
representation of the message in a fashion similar to how ``as_string``
produces a string representation. It does not accept the *maxheaderlen*
argument, but does accept the *unixfrom* and *policy* arguments. The
:class:`~email.message.Message` :meth:`~email.message.Message.__bytes__` method
calls it, meaning that ``bytes(mymsg)`` will now produce the intuitive
result: a bytes object containing the fully formatted message.
(Contributed by R. David Murray in :issue:`18600`.)
functools
---------
New :func:`functools.singledispatch` decorator: see the :pep:`443`.
inspect
-------
:func:`~inspect.unwrap` makes it easy to unravel wrapper function chains
created by :func:`functools.wraps` (and any other API that sets the
``__wrapped__`` attribute on a wrapper function).
smtplib
-------
:exc:`~smtplib.SMTPException` is now a subclass of :exc:`OSError`, which allows
both socket level errors and SMTP protocol level errors to be caught in one
try/except statement by code that only cares whether or not an error occurred.
(:issue:`2118`).
ssl
---
TLSv1.1 and TLSv1.2 support (Contributed by Michele OrrĂ¹ and Antoine Pitrou
in :issue:`16692`)
New diagnostic functions :func:`~ssl.get_default_verify_paths`,
:meth:`~ssl.SSLContext.cert_store_stats` and
:meth:`~ssl.SSLContext.get_ca_certs`
Add :func:`ssl.enum_cert_store` to retrieve certificates and CRL from Windows'
cert store.
(Contributed by Christian Heimes in :issue:`18143`, :issue:`18147` and
:issue:`17134`)
wave
----
The :meth:`~wave.getparams` method now returns a namedtuple rather than a
plain tuple. (Contributed by Claudiu Popa in :issue:`17487`.)
:meth:`wave.open` now supports the context manager protocol. (Contributed
by Claudiu Popa in :issue:`17616`.)
stat
----
The :mod:`stat` module is now backed by a C implementation in :mod:`_stat`. A C
implementation is required as most of the values aren't standardized and
platform-dependent. (Contributed by Christian Heimes in :issue:`11016`.)
The module supports new file types: door, event port and whiteout.
colorsys
--------
The number of digits in the coefficients for the RGB --- YIQ conversions have
been expanded so that they match the FCC NTSC versions. The change in
results should be less than 1% and may better match results found elsewhere.
Optimizations
=============
Major performance enhancements have been added:
* The UTF-32 decoder is now 3x to 4x faster.
Build and C API Changes
=======================
Changes to Python's build process and to the C API include:
* None yet.
Deprecated
==========
Unsupported Operating Systems
-----------------------------
* OS/2
* Windows 2000
Deprecated Python modules, functions and methods
------------------------------------------------
* :meth:`difflib.SequenceMatcher.isbjunk` and
:meth:`difflib.SequenceMatcher.isbpopular` were removed: use ``x in sm.bjunk`` and
``x in sm.bpopular``, where *sm* is a :class:`~difflib.SequenceMatcher` object.
* :func:`importlib.util.module_for_loader` is pending deprecation. Using
:func:`importlib.util.module_to_load` and
:meth:`importlib.abc.Loader.init_module_attrs` allows subclasses of a loader
to more easily customize module loading.
* The :mod:`imp` module is pending deprecation. To keep compatibility with
Python 2/3 code bases, the module's removal is currently not scheduled.
Deprecated functions and types of the C API
-------------------------------------------
* None yet.
Deprecated features
-------------------
* None yet.
Porting to Python 3.4
=====================
This section lists previously described changes and other bugfixes
that may require changes to your code.
* The ABCs defined in :mod:`importlib.abc` now either raise the appropriate
exception or return a default value instead of raising
:exc:`NotImplementedError` blindly. This will only affect code calling
:func:`super` and falling through all the way to the ABCs. For compatibility,
catch both :exc:`NotImplementedError` or the appropriate exception as needed.
* The module type now initializes the :attr:`__package__` and :attr:`__loader__`
attributes to ``None`` by default. To determine if these attributes were set
in a backwards-compatible fashion, use e.g.
``getattr(module, '__loader__', None) is not None``.
* :meth:`importlib.util.module_for_loader` now sets ``__loader__`` and
``__package__`` unconditionally to properly support reloading. If this is not
desired then you will need to set these attributes manually. You can use
:func:`importlib.util.module_to_load` for module management.
* Import now resets relevant attributes (e.g. ``__name__``, ``__loader__``,
``__package__``, ``__file__``, ``__cached__``) unconditionally when reloading.
* Frozen packages no longer set ``__path__`` to a list containg the package name
but an empty list instead. Determing if a module is a package should be done
using ``hasattr(module, '__path__')``.
* :c:func:`PyErr_SetImportError` now sets :exc:`TypeError` when its **msg**
argument is not set. Previously only ``NULL`` was returned with no exception
set.
* :func:`py_compile.compile` now raises :exc:`FileExistsError` if the file path
it would write to is a symlink or a non-regular file. This is to act as a
warning that import will overwrite those files with a regular file regardless
of what type of file path they were originally.
* :meth:`importlib.abc.SourceLoader.get_source` no longer raises
:exc:`ImportError` when the source code being loaded triggers a
:exc:`SyntaxError` or :exc:`UnicodeDecodeError`. As :exc:`ImportError` is
meant to be raised only when source code cannot be found but it should, it was
felt to be over-reaching/overloading of that meaning when the source code is
found but improperly structured. If you were catching ImportError before and
wish to continue to ignore syntax or decoding issues, catch all three
exceptions now.
* :func:`functools.update_wrapper` and :func:`functools.wraps` now correctly
set the ``__wrapped__`` attribute even if the wrapped function had a
wrapped attribute set. This means ``__wrapped__`` attributes now correctly
link a stack of decorated functions rather than every ``__wrapped__``
attribute in the chain referring to the innermost function. Introspection
libraries that assumed the previous behaviour was intentional can use
:func:`inspect.unwrap` to gain equivalent behaviour.
|